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	ACCESSION	PLANT NAME	TAXONOMY	ORIGIN	GENEBANK	AVAILABILITY	RECEIVED	SOURCE TYPE	SOURCE DATE	COLLECTION SITE	COORDINATES	ELEVATION	IMPROVEMENT LEVEL	NARRATIVE
0	GSOR 100003	RIL 3	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1664485	GSOR 100003
1	GSOR 100004	RIL 4	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1664486	GSOR 100004
2	GSOR 100007	RIL 7	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1664489	GSOR 100007
3	GSOR 100008	RIL 8	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1664490	GSOR 100008
4	GSOR 100012	RIL 12	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683222	GSOR 100012
5	GSOR 100013	RIL 13	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683223	GSOR 100013
6	GSOR 100015	RIL 15	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683225	GSOR 100015
7	GSOR 100016	RIL 16	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683226	GSOR 100016
8	GSOR 100020	RIL 20	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683230	GSOR 100020
9	GSOR 100022	RIL 22	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683232	GSOR 100022
10	GSOR 100023	RIL 23	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683233	GSOR 100023
11	GSOR 100025	RIL 25	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683235	GSOR 100025
12	GSOR 100026	RIL 26	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683236	GSOR 100026
13	GSOR 100028	RIL 28	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683313	GSOR 100028
14	GSOR 100030	RIL 30	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683315	GSOR 100030
15	GSOR 100031	RIL 31	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683316	GSOR 100031
16	GSOR 100032	RIL 32	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683317	GSOR 100032
17	GSOR 100038	RIL 38	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683323	GSOR 100038
18	GSOR 100039	RIL 39	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683324	GSOR 100039
19	GSOR 100041	RIL 41	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683326	GSOR 100041
20	GSOR 100042	RIL 42	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683327	GSOR 100042
21	GSOR 100043	RIL 43	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683328	GSOR 100043
22	GSOR 100044	RIL 44	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683329	GSOR 100044
23	GSOR 100045	RIL 45	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683330	GSOR 100045
24	GSOR 100048	RIL 48	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683333	GSOR 100048
25	GSOR 100049	RIL 49	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683334	GSOR 100049
26	GSOR 100053	RIL 53	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683338	GSOR 100053
27	GSOR 100055	RIL 55	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683340	GSOR 100055
28	GSOR 100057	RIL 57	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683342	GSOR 100057
29	GSOR 100058	RIL 58	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683343	GSOR 100058
30	GSOR 100059	RIL 59	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683344	GSOR 100059
31	GSOR 100060	RIL 60	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683345	GSOR 100060
32	GSOR 100062	RIL 62	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683347	GSOR 100062
33	GSOR 100063	RIL 63	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683348	GSOR 100063
34	GSOR 100064	RIL 64	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683349	GSOR 100064
35	GSOR 100065	RIL 65	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683350	GSOR 100065
36	GSOR 100066	RIL 66	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683351	GSOR 100066
37	GSOR 100067	RIL 67	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683352	GSOR 100067
38	GSOR 100068	RIL 68	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683353	GSOR 100068
39	GSOR 100069	RIL 69	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683354	GSOR 100069
40	GSOR 100072	RIL 72	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683357	GSOR 100072
41	GSOR 100074	RIL 74	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683359	GSOR 100074
42	GSOR 100077	RIL 77	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683362	GSOR 100077
43	GSOR 100082	RIL 82	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683367	GSOR 100082
44	GSOR 100083	RIL 83	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683368	GSOR 100083
45	GSOR 100084	RIL 84	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683369	GSOR 100084
46	GSOR 100085	RIL 85	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683370	GSOR 100085
47	GSOR 100086	RIL 86	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683371	GSOR 100086
48	GSOR 100089	RIL 89	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683374	GSOR 100089
49	GSOR 100092	RIL 92	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683377	GSOR 100092
50	GSOR 100093	RIL 93	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683378	GSOR 100093
51	GSOR 100094	RIL 94	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683379	GSOR 100094
52	GSOR 100099	RIL 99	Oryza sativa L.	Arkansas, United States	GSOR	Not Available	2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683384	GSOR 100099
53	GSOR 100103	RIL 103	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683388	GSOR 100103
54	GSOR 100106	RIL 106	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683391	GSOR 100106
55	GSOR 100111	RIL 111	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683396	GSOR 100111
56	GSOR 100112	RIL 112	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683397	GSOR 100112
57	GSOR 100114	RIL 114	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683399	GSOR 100114
58	GSOR 100115	RIL 115	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683400	GSOR 100115
59	GSOR 100116	RIL 116	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683401	GSOR 100116
60	GSOR 100117	RIL 117	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683402	GSOR 100117
61	GSOR 100118	RIL 118	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683403	GSOR 100118
62	GSOR 100120	RIL 120	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683405	GSOR 100120
63	GSOR 100121	RIL 121	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683406	GSOR 100121
64	GSOR 100123	RIL 123	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683408	GSOR 100123
65	GSOR 100125	RIL 125	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683410	GSOR 100125
66	GSOR 100128	RIL 128	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683413	GSOR 100128
67	GSOR 100129	RIL 129	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683414	GSOR 100129
68	GSOR 100137	RIL 137	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683422	GSOR 100137
69	GSOR 100139	RIL 139	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683424	GSOR 100139
70	GSOR 100141	RIL 141	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683426	GSOR 100141
71	GSOR 100143	RIL 143	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683428	GSOR 100143
72	GSOR 100145	RIL 145	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683430	GSOR 100145
73	GSOR 100146	RIL 146	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683431	GSOR 100146
74	GSOR 100147	RIL 147	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683432	GSOR 100147
75	GSOR 100149	RIL 149	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683434	GSOR 100149
76	GSOR 100151	RIL 151	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683436	GSOR 100151
77	GSOR 100152	RIL 152	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683437	GSOR 100152
78	GSOR 100154	RIL 154	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683439	GSOR 100154
79	GSOR 100155	RIL 155	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683440	GSOR 100155
80	GSOR 100159	RIL 159	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683444	GSOR 100159
81	GSOR 100160	RIL 160	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683445	GSOR 100160
82	GSOR 100163	RIL 163	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683448	GSOR 100163
83	GSOR 100165	RIL 165	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683450	GSOR 100165
84	GSOR 100167	RIL 167	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683452	GSOR 100167
85	GSOR 100168	RIL 168	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683453	GSOR 100168
86	GSOR 100169	RIL 169	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683454	GSOR 100169
87	GSOR 100171	RIL 171	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683456	GSOR 100171
88	GSOR 100173	RIL 173	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683458	GSOR 100173
89	GSOR 100176	RIL 176	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683461	GSOR 100176
90	GSOR 100177	RIL 177	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683462	GSOR 100177
91	GSOR 100179	RIL 179	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683464	GSOR 100179
92	GSOR 100180	RIL 180	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683465	GSOR 100180
93	GSOR 100182	RIL 182	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683467	GSOR 100182
94	GSOR 100185	RIL 185	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683470	GSOR 100185
95	GSOR 100187	RIL 187	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683472	GSOR 100187
96	GSOR 100189	RIL 189	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683474	GSOR 100189
97	GSOR 100191	RIL 191	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683476	GSOR 100191
98	GSOR 100192	RIL 192	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683477	GSOR 100192
99	GSOR 100193	RIL 193	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683478	GSOR 100193
100	GSOR 100195	RIL 195	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683480	GSOR 100195
101	GSOR 100196	RIL 196	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683481	GSOR 100196
102	GSOR 100198	RIL 198	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683483	GSOR 100198
103	GSOR 100199	RIL 199	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683484	GSOR 100199
104	GSOR 100201	RIL 201	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683486	GSOR 100201
105	GSOR 100202	RIL 202	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683487	GSOR 100202
106	GSOR 100203	RIL 203	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683488	GSOR 100203
107	GSOR 100204	RIL 204	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683489	GSOR 100204
108	GSOR 100208	RIL 208	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683493	GSOR 100208
109	GSOR 100210	RIL 210	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683495	GSOR 100210
110	GSOR 100226	RIL 226	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683511	GSOR 100226
111	GSOR 100227	RIL 227	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683512	GSOR 100227
112	GSOR 100228	RIL 228	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683513	GSOR 100228
113	GSOR 100231	RIL 231	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683516	GSOR 100231
114	GSOR 100233	RIL 233	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683518	GSOR 100233
115	GSOR 100234	RIL 234	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683519	GSOR 100234
116	GSOR 100235	RIL 235	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683520	GSOR 100235
117	GSOR 100236	RIL 236	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683521	GSOR 100236
118	GSOR 100237	RIL 237	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683522	GSOR 100237
119	GSOR 100240	RIL 240	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683525	GSOR 100240
120	GSOR 100241	RIL 241	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683526	GSOR 100241
121	GSOR 100242	RIL 242	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683527	GSOR 100242
122	GSOR 100247	RIL 247	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683532	GSOR 100247
123	GSOR 100248	RIL 248	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683533	GSOR 100248
124	GSOR 100251	RIL 251	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683536	GSOR 100251
125	GSOR 100252	RIL 252	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683537	GSOR 100252
126	GSOR 100253	RIL 253	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683538	GSOR 100253
127	GSOR 100260	RIL 260	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683545	GSOR 100260
128	GSOR 100264	RIL 264	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683549	GSOR 100264
129	GSOR 100265	RIL 265	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683550	GSOR 100265
130	GSOR 100267	RIL 267	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683552	GSOR 100267
131	GSOR 100270	RIL 270	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683555	GSOR 100270
132	GSOR 100271	RIL 271	Oryza sativa L.	Arkansas, United States	GSOR	Not Available	2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683556	GSOR 100271
133	GSOR 100273	RIL 273	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683558	GSOR 100273
134	GSOR 100274	RIL 274	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683559	GSOR 100274
135	GSOR 100277	RIL 277	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683562	GSOR 100277
136	GSOR 100282	RIL 282	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683567	GSOR 100282
137	GSOR 100283	RIL 283	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683568	GSOR 100283
138	GSOR 100284	RIL 284	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683569	GSOR 100284
139	GSOR 100285	RIL 285	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683570	GSOR 100285
140	GSOR 100287	RIL 287	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683572	GSOR 100287
141	GSOR 100289	RIL 289	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683574	GSOR 100289
142	GSOR 100290	RIL 290	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683575	GSOR 100290
143	GSOR 100291	RIL 291	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683576	GSOR 100291
144	GSOR 100292	RIL 292	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683577	GSOR 100292
145	GSOR 100293	RIL 293	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683578	GSOR 100293
146	GSOR 100294	RIL 294	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683579	GSOR 100294
147	GSOR 100295	RIL 295	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683580	GSOR 100295
148	GSOR 100296	RIL 296	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683581	GSOR 100296
149	GSOR 100298	RIL 298	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683583	GSOR 100298
150	GSOR 100299	RIL 299	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683584	GSOR 100299
151	GSOR 100302	RIL 302	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683587	GSOR 100302
152	GSOR 100303	RIL 303	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683588	GSOR 100303
153	GSOR 100304	RIL 304	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683589	GSOR 100304
154	GSOR 100306	RIL 306	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683591	GSOR 100306
155	GSOR 100307	RIL 307	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683592	GSOR 100307
156	GSOR 100308	RIL 308	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683593	GSOR 100308
157	GSOR 100309	RIL 309	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683594	GSOR 100309
158	GSOR 100311	RIL 311	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683596	GSOR 100311
159	GSOR 100316	RIL 316	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683601	GSOR 100316
160	GSOR 100317	RIL 317	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683602	GSOR 100317
161	GSOR 100319	RIL 319	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683604	GSOR 100319
162	GSOR 100320	RIL 320	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683605	GSOR 100320
163	GSOR 100322	RIL 322	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683607	GSOR 100322
164	GSOR 100323	RIL 323	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683608	GSOR 100323
165	GSOR 100324	RIL 324	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683609	GSOR 100324
166	GSOR 100325	RIL 325	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683610	GSOR 100325
167	GSOR 100326	RIL 326	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683611	GSOR 100326
168	GSOR 100328	RIL 328	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683613	GSOR 100328
169	GSOR 100329	RIL 329	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683614	GSOR 100329
170	GSOR 100330	RIL 330	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683615	GSOR 100330
171	GSOR 100332	RIL 332	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683617	GSOR 100332
172	GSOR 100333	RIL 333	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683618	GSOR 100333
173	GSOR 100337	RIL 337	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683622	GSOR 100337
174	GSOR 100339	RIL 339	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683624	GSOR 100339
175	GSOR 100340	RIL 340	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683625	GSOR 100340
176	GSOR 100341	RIL 341	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683626	GSOR 100341
177	GSOR 100342	RIL 342	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683627	GSOR 100342
178	GSOR 100343	RIL 343	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683628	GSOR 100343
179	GSOR 100344	RIL 344	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683629	GSOR 100344
180	GSOR 100347	RIL 347	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683632	GSOR 100347
181	GSOR 100350	RIL 350	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683635	GSOR 100350
182	GSOR 100351	RIL 351	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683636	GSOR 100351
183	GSOR 100352	RIL 352	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683637	GSOR 100352
184	GSOR 100353	RIL 353	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	F10-11 generation recombinant inbred lines of the japonica-indica cross, Kaybonnet lpa1-1 and Zhe 733; grown in Stuttgart in 2004. Specific agronomic data on this line is available at the Rice Genetic Stock Center web site, Collection Catalog link.	1683638	GSOR 100353
185	GSOR 100354	KBNT lpa1-1 (PARENT)	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	Kaybonnet lpa1-1 parent, tall glabrous leaf and hull, tropical japonica	1683639	GSOR 100354
186	GSOR 100355	ZHE 733 (PARENT)	Oryza sativa L.	Arkansas, United States	GSOR		2004	DEVELOPED	2003				Genetic material	Zhe 733 parent, semidwarf pubescent indica	1683640	GSOR 100355
187	GSOR 311435	CM1, HAIPONG	Oryza sativa L.	Vietnam	GSOR		1997	DEVELOPED					Breeding material	Core Accession from PI 608431. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Salt tolerant mutant. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742349	GSOR 311435
188	GSOR 311466	'KECHENGNUO NO. 4'	Oryza sativa L.	China	GSOR		1996	DEVELOPED					Cultivar	Core Accession from PI 614989. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742380	GSOR 311466
189	GSOR 311483	4484	Oryza sativa L.	China	GSOR		1996	DEVELOPED					Breeding material	Core Accession from PI 615022. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742397	GSOR 311483
190	GSOR 311484	4595	Oryza sativa L.	China	GSOR		1996	DEVELOPED					Breeding material	Core Accession from PI 615033. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742398	GSOR 311484
191	GSOR 311491	'YOU-I B'	Oryza sativa L.	China	GSOR		1996	DEVELOPED					Cultivar	Core Accession from PI 615192. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742405	GSOR 311491
192	GSOR 311497	'CHUNJIANGZAO NO. 1'	Oryza sativa L.	China	GSOR		1996	DEVELOPED					Cultivar	Core Accession from PI 615198. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742411	GSOR 311497
193	GSOR 310773	ECIA76-S89-1	Oryza sativa L.	Cuba	GSOR		1996	DEVELOPED					Breeding material	Core Accession from PI 602654. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Site C7. Season DS. Nursery Remnant. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741688	GSOR 310773
194	GSOR 311790	WAB462-10-3-1	Oryza sativa L.	Côte D'Ivoire	GSOR		1996	DEVELOPED					Breeding material	Core Accession from PI 602637. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Blast resistant Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742703	GSOR 311790
195	GSOR 311695	NSGC 5944	Oryza glumipatula Steud.	Arkansas, United States	GSOR		1995	DONATED					Wild material	Core Accession from PI 590413. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742609	GSOR 311695
196	GSOR 311698	A101524-1	Oryza nivara S. D. Sharma & Shastry	India	GSOR		1995	COLLECTED			20.00000000, 77.00000000		Wild material	Core Accession from PI 590404. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742612	GSOR 311698
197	GSOR 311699	A100943-R	Oryza nivara S. D. Sharma & Shastry	Yangon, Myanmar	GSOR		1995	COLLECTED			16.75000000, 96.25000000		Wild material	Core Accession from PI 590425. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742613	GSOR 311699
198	GSOR 310767	'HB-6-2'	Oryza sativa L.	Hungary	GSOR		1994	DEVELOPED					Breeding material	Core Accession from PI 602606. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741682	GSOR 310767
199	GSOR 311685	WIR 911	Oryza sativa L.	Primorye, Russian Federation	GSOR		1994	COLLECTED			44.00000000, 133.00000000		Landrace	Core Accession from PI 597033. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Received as Oryza sativa var. melanacara from the Primorskaya Province, dated 1991. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742599	GSOR 311685
200	GSOR 310757	RP2151-173-1-8	Oryza sativa L.	India	GSOR		1993	DEVELOPED					Breeding material	Core Accession from PI 596941. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: 89 days to heading. 109 cm plant height. 4 pacp at maturity. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741672	GSOR 310757
201	GSOR 311417	CNTLR80076-44-1-1-1	Oryza sativa L.	Thailand	GSOR		1993	DEVELOPED					Breeding material	Core Accession from PI 596902. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: 87 days to heading. 93 cm plant height. 3 pacp at maturity. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742331	GSOR 311417
202	GSOR 311423	IR 58614-B-B-8-2	Oryza sativa L.	Luzon, Philippines	GSOR		1993	DEVELOPED					Breeding material	Core Accession from PI 596990. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: 83 days to heading. 91 cm plant height. 3 pacp at maturity. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742337	GSOR 311423
203	GSOR 310747	'BHIM DHAN'	Oryza sativa L.	Nepal	GSOR		1992	DEVELOPED					Cultivar	Core Accession from PI 596818. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Moderately cold tolerant, inbred lines. Source = Pakhribas Agric. Centre Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741662	GSOR 310747
204	GSOR 311792	'CYPRESS'	Oryza sativa L.	Louisiana, United States	GSOR		1992	DEVELOPED	1992				Cultivar	Core Accession from PI 561734. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Early maturing (approx. 85 days from emergence to 50% heading), semidwarf. Height average 95cm. Leaves and grain glabrous. Apiculus purple, but coloration fades as grain approaches maturity. Endosperm non-glutinous, non-aromatic. Pericarp light brown. Apparent starch amylose content average 215g kg-1. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1753467	GSOR 311792
205	GSOR 310723	WIR 3039	Oryza sativa L.	Tajikistan	GSOR		1992	COLLECTED			39.00000000, 71.00000000		Cultivated material	Core Accession from PI 584624. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741638	GSOR 310723
206	GSOR 310724	Ak Tokhum	Oryza sativa L.	Azerbaijan	GSOR		1992	COLLECTED			40.50000000, 47.00000000		Cultivated material	Core Accession from PI 584625. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741639	GSOR 310724
207	GSOR 311393	Celiaj	Oryza sativa L.	Azerbaijan	GSOR		1992	COLLECTED			40.50000000, 47.00000000		Cultivated material	Core Accession from PI 584629. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742307	GSOR 311393
208	GSOR 311684	Hi Muke	Oryza sativa L.	Kazakhstan	GSOR		1992	COLLECTED			48.00000000, 68.00000000		Cultivated material	Core Accession from PI 584620. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742598	GSOR 311684
209	GSOR 311787	'KRASNODARSKIJ 3352'	Oryza sativa L.	Krasnodar, Russian Federation	GSOR		1992	DEVELOPED					Cultivar	Core Accession from PI 584632. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742700	GSOR 311787
210	GSOR 310714	'TCHAMPA'	Oryza sativa L.	Iran	GSOR		1991	COLLECTED			32.00000000, 53.00000000		Cultivar	Core Accession from PI 584564. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741629	GSOR 310714
211	GSOR 310715	'PHUDUGEY'	Oryza sativa L.	Samtse, Bhutan	GSOR		1991	COLLECTED		Dhenchuka, P.O. Dorokha, Samchi	27.30000000, 90.61666667	1209	Cultivar	Core Accession from PI 584566. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741630	GSOR 310715
212	GSOR 311383	'DARMALI'	Oryza sativa L.	Madhyamanchal, Nepal	GSOR		1991	COLLECTED		Palung Valley, Makawanpur	27.63333333, 85.06666667	2259	Cultivar	Core Accession from PI 584555. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742297	GSOR 311383
213	GSOR 311385	'KAUKKYI ANI'	Oryza sativa L.	Myanmar	GSOR		1991	COLLECTED			22.00000000, 98.00000000		Cultivar	Core Accession from PI 584567. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742299	GSOR 311385
214	GSOR 311788	'EMBRAPA 1200'	Oryza sativa L.	Brazil	GSOR		1991	DEVELOPED					Cultivar	Core Accession from PI 585042. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742701	GSOR 311788
215	GSOR 311694	HG 24	Oryza glaberrima Steud.	Cascades, Burkina Faso	GSOR		1990	COLLECTED		Donna Alana, Sindou	10.66666667, -5.16666667	432	Landrace	Core Accession from PI 548068. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742608	GSOR 311694
216	GSOR 311795	'NIPPONBARE'	Oryza sativa L.	Aiti, Japan	GSOR		1987	DEVELOPED					Cultivar	Core Accession from PI 514663. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. The original narrative is: [PURIFIED SINGLE PLANT SEED SOURCE] Plants 100cm tall. Grain medium type. Resistant to sheath blight-3, brown spot-3, and leaf smut-0. Resistant to narrow brown leaf spot-0. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1754278	GSOR 311795
217	GSOR 311793	'IR 64'	Oryza sativa L.	Luzon, Philippines	GSOR		1985	DEVELOPED	1985				Cultivar	Core Accession from PI 497682. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Source 1607. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1754276	GSOR 311793
218	GSOR 310702	Jumli dhan	Oryza sativa L.	Madhya Pashchimanchal, Nepal	GSOR		1984	COLLECTED	12/1984	Gidi, west of Jumla	29.26000000, 82.23000000	2400	Landrace	Core Accession from PI 549224. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741617	GSOR 310702
219	GSOR 310703	N-2703	Oryza sativa L.	Nepal	GSOR		1984	COLLECTED	12/1984		28.00000000, 84.00000000		Landrace	Core Accession from PI 549253. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741618	GSOR 310703
220	GSOR 311606	Dhan	Oryza sativa L.	Madhya Pashchimanchal, Nepal	GSOR		1984	COLLECTED	11/1984	Nepalganj	28.05000000, 81.61666667	200	Landrace	Core Accession from PI 549215. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742520	GSOR 311606
221	GSOR 310693	Bakiella 1	Oryza sativa L.	Eastern Province, Sri Lanka	GSOR		1984	COLLECTED		Batticaloa	7.71666667, 81.70000000	2	Landrace	Core Accession from PI 493131. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741608	GSOR 310693
222	GSOR 311794	'M-202'	Oryza sativa L.	California, United States	GSOR		1984	DEVELOPED	1985				Cultivar	Core Accession from PI 494105. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. The original narrative is: Plants 90cm tall. Seedling vigor good. Seeds 6.1mm long. Maturity early. Some resistance to stem rot. Cooking quality similar to California medium grain. Adaptable to cooler areas than M-201 and M-9. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1754277	GSOR 311794
223	GSOR 311781	Krachek Chap	Oryza sativa L.	Indochina	GSOR		1982	COLLECTED					Cultivated material	Core Accession from PI 473562. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742694	GSOR 311781
224	GSOR 311779	Lukip	Oryza sativa L.	Philippines	GSOR		1982	COLLECTED					Landrace	Core Accession from PI 469300. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742692	GSOR 311779
225	GSOR 310687	IR 9660-48-1-1-2	Oryza sativa L.	Luzon, Philippines	GSOR		1981	DEVELOPED					Breeding material	Core Accession from PI 464597. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741602	GSOR 310687
226	GSOR 310045	'LEAH'	Oryza sativa L.	Louisiana, United States	GSOR		1981	DEVELOPED	1981				Cultivar	Core Accession from CIor 9979. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Long-grain rice. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740961	GSOR 310045
227	GSOR 311603	Tunkaforo	Oryza glaberrima Steud.	Northern, Sierra Leone	GSOR		1980	COLLECTED			9.85000000, -11.31666667	532	Cultivated material	Core Accession from PI 450353. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742517	GSOR 311603
228	GSOR 311689	LG 9	Oryza glaberrima Steud.	Ségou, Mali	GSOR		1980	COLLECTED			14.33333333, -6.00000000		Cultivated material	Core Accession from PI 450365. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742603	GSOR 311689
229	GSOR 311690	CG 13	Oryza glaberrima Steud.	Kolda, Senegal	GSOR		1980	COLLECTED			12.65000000, -15.46666667	40	Cultivated material	Core Accession from PI 450396. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742604	GSOR 311690
230	GSOR 311691	CG 112	Oryza glaberrima Steud.	Kolda, Senegal	GSOR		1980	COLLECTED			13.01666667, -15.71666667	9	Cultivated material	Core Accession from PI 450421. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742605	GSOR 311691
231	GSOR 311692	TG 18	Oryza glaberrima Steud.	Logone-Oriental, Chad	GSOR		1980	COLLECTED			9.08333333, 16.33333333	430	Cultivated material	Core Accession from PI 450513. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742606	GSOR 311692
232	GSOR 311693	UG 22	Oryza glaberrima Steud.	Extrême-Nord, Cameroon	GSOR		1980	COLLECTED			10.75000000, 13.83333333	962	Cultivated material	Core Accession from PI 450521. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742607	GSOR 311693
233	GSOR 310670	'KUBANETS 508'	Oryza sativa L.	Krasnodar, Russian Federation	GSOR		1980	DEVELOPED					Cultivar	Core Accession from PI 439683. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Received as var. zeravschanica. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741585	GSOR 310670
234	GSOR 311327	Gasym Hany	Oryza sativa L.	Azerbaijan	GSOR		1980	COLLECTED			40.50000000, 47.00000000		Cultivated material	Core Accession from PI 439669. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Received as var. rufibarbis. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742241	GSOR 311327
235	GSOR 311677	Karabaschak	Oryza sativa L.	Bulgaria	GSOR		1980	COLLECTED			43.00000000, 25.00000000		Cultivated material	Core Accession from PI 439674. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Received as var. desvauxii. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742591	GSOR 311677
236	GSOR 311775	'THAVALU'	Oryza sativa L.	Southern Province, Sri Lanka	GSOR		1980	COLLECTED		Galle	6.03333333, 80.21666667	2	Cultivar	Core Accession from PI 439024. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742688	GSOR 311775
237	GSOR 310645	'MOROBEREKAN'	Oryza sativa L.	Guinea	GSOR		1979	DEVELOPED					Cultivar	Core Accession from PI 434632. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741560	GSOR 310645
238	GSOR 311600	Jyanak	Oryza sativa L.	Bhutan	GSOR		1979	COLLECTED			27.50000000, 90.50000000		Cultivated material	Core Accession from PI 434614. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. Original descriptor data for bran color mistakenly identified this accession as having white bran (1). The descriptor data has been corrected to reflect red bran (5).	1742514	GSOR 311600
239	GSOR 311596	SL 22-620	Oryza sativa L.	Sierra Leone	GSOR		1979	COLLECTED			8.50000000, -11.50000000		Cultivated material	Core Accession from PI 433799. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742510	GSOR 311596
240	GSOR 310632	IR 4482-5-3-9-5	Oryza sativa L.	Luzon, Philippines	GSOR		1979	DEVELOPED					Breeding material	Core Accession from PI 432578. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Heat tolerant. Medium maturity group. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741547	GSOR 310632
241	GSOR 310630	BKN 6987-68-14	Oryza sativa L.	Thailand	GSOR		1979	DEVELOPED					Breeding material	Core Accession from PI 431499. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741545	GSOR 310630
242	GSOR 310598	Red	Oryza sativa L.	Sindh, Pakistan	GSOR		1978	COLLECTED			25.50000000, 69.00000000		Cultivated material	Core Accession from PI 430936. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. Prior to the single-plant selection, this accession as PI 430936 was a mix of brown and red bran. The brown bran phenotype was selected and advanced during the purification process.	1741513	GSOR 310598
243	GSOR 310615	Dichroa Alef Uslkij	Oryza sativa L.	Kazakhstan	GSOR		1978	COLLECTED			48.00000000, 68.00000000		Cultivated material	Core Accession from PI 431210. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741530	GSOR 310615
244	GSOR 311266	'CO 13'	Oryza sativa L.	Odisha, India	GSOR		1978	DEVELOPED					Cultivar	Core Accession from PI 430740. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742180	GSOR 311266
245	GSOR 311269	Shimla Early	Oryza sativa L.	Iraq	GSOR		1978	COLLECTED			33.00000000, 44.00000000		Cultivated material	Core Accession from PI 430979. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742183	GSOR 311269
246	GSOR 311278	Montakcl	Oryza sativa L.	Egypt	GSOR		1978	COLLECTED			27.00000000, 30.00000000		Cultivated material	Core Accession from PI 431092. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742192	GSOR 311278
247	GSOR 311281	A 152	Oryza sativa L.	Bangladesh	GSOR		1978	COLLECTED			24.00000000, 90.00000000		Cultivated material	Core Accession from PI 431128. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742195	GSOR 311281
248	GSOR 311284	'LA PLATA GENA F.A.'	Oryza sativa L.	Argentina	GSOR		1978	DEVELOPED					Cultivar	Core Accession from PI 431172. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742198	GSOR 311284
249	GSOR 311286	'UZ ROS 59'	Oryza sativa L.	Uzbekistan	GSOR		1978	DEVELOPED					Cultivar	Core Accession from PI 431201. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742200	GSOR 311286
250	GSOR 311586	Santhi 990	Oryza sativa L.	Punjab, Pakistan	GSOR		1978	COLLECTED			31.00000000, 72.00000000		Cultivated material	Core Accession from PI 430909. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742500	GSOR 311586
251	GSOR 311592	'UZ ROS 7-13'	Oryza sativa L.	Uzbekistan	GSOR		1978	DEVELOPED					Cultivar	Core Accession from PI 431204. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742506	GSOR 311592
252	GSOR 311769	Pakkali	Oryza sativa L.	Luzon, Philippines	GSOR		1978	COLLECTED			16.33333333, 121.33333333		Cultivated material	Core Accession from PI 431310. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742682	GSOR 311769
253	GSOR 310588	Onu B	Oryza sativa L.	Democratic Republic of the Congo	GSOR		1978	COLLECTED			0.00000000, 25.00000000		Cultivated material	Core Accession from PI 430397. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741503	GSOR 310588
254	GSOR 311258	Botika S/R	Oryza sativa L.	Democratic Republic of the Congo	GSOR		1978	COLLECTED			0.00000000, 25.00000000		Cultivated material	Core Accession from PI 430387. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742172	GSOR 311258
255	GSOR 311255	Saraya	Oryza sativa L.	Fiji	GSOR		1978	COLLECTED			-18.00000000, 178.00000000		Cultivated material	Core Accession from PI 430339. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742169	GSOR 311255
256	GSOR 311249	'TONO BREA 439'	Oryza sativa L.	Dominican Republic	GSOR		1978	DEVELOPED					Cultivar	Core Accession from PI 430254. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742163	GSOR 311249
257	GSOR 310566	'INIAP 7'	Oryza sativa L.	Ecuador	GSOR		1977	DEVELOPED					Cultivar	Core Accession from PI 420960. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741481	GSOR 310566
258	GSOR 310836	CIor 11030	Oryza sativa L.	Louisiana, United States	GSOR		1977	DEVELOPED					Genetic material	Core Accession from CIor 11030 aka GSOR 59. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection produced in 2007 is deposited in the GSOR DNA extracted from the selected plant has been analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection has been developed and fingerprinted with 155 SSR markers, averaging one marker every 10 cM in the genome. The original narrative is: I: c VI: Gh XII: an gl VII: Ur Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1743029	GSOR 310836
259	GSOR 311765	Pa Boup	Oryza sativa L.	Sierra Leone	GSOR		1977	COLLECTED			8.50000000, -11.50000000		Cultivated material	Core Accession from PI 418207. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742678	GSOR 311765
260	GSOR 311236	B805D-MR-16-8-3	Oryza sativa L.	Indonesia	GSOR		1977	DEVELOPED					Breeding material	Core Accession from PI 417820. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742150	GSOR 311236
261	GSOR 311668	Daudzai Field Mix	Oryza sativa L.	North-West Frontier, Pakistan	GSOR		1976	COLLECTED		Peshawar	34.01666667, 71.55000000	305	Landrace	Core Accession from PI 412790. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742582	GSOR 311668
262	GSOR 311669	JP 5	Oryza sativa L.	North-West Frontier, Pakistan	GSOR		1976	COLLECTED		Swat	35.00000000, 72.50000000	1764	Landrace	Core Accession from PI 412811. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742583	GSOR 311669
263	GSOR 311206	79	Oryza sativa L.	Guyana	GSOR	Not Available	1975	COLLECTED			5.00000000, -59.00000000		Cultivated material	Core Accession from PI 406073. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742120	GSOR 311206
264	GSOR 310510	'BLUE STICK'	Oryza sativa L.	Fiji	GSOR		1975	COLLECTED			-18.00000000, 178.00000000		Cultivar	Core Accession from PI 402789. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741425	GSOR 310510
265	GSOR 310515	Nam Dawk Mai	Oryza sativa L.	Thailand	GSOR		1975	COLLECTED			15.00000000, 100.00000000		Cultivated material	Core Accession from PI 403289. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741430	GSOR 310515
266	GSOR 310519	'GUYANE 1'	Oryza sativa L.	Chad	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 403422. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741434	GSOR 310519
267	GSOR 311180	Sapundali Local	Oryza sativa L.	India	GSOR		1975	COLLECTED			20.00000000, 77.00000000		Cultivated material	Core Accession from PI 402673. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742094	GSOR 311180
268	GSOR 311181	Tauli	Oryza sativa L.	Nepal	GSOR		1975	COLLECTED			28.00000000, 84.00000000		Cultivated material	Core Accession from PI 402689. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742095	GSOR 311181
269	GSOR 311185	Bombon	Oryza sativa L.	Spain	GSOR		1975	COLLECTED			40.00000000, -4.00000000		Cultivated material	Core Accession from PI 402794. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742099	GSOR 311185
270	GSOR 311188	Dara	Oryza sativa L.	Jawa, Indonesia	GSOR		1975	DEVELOPED					Cultivated material	Core Accession from PI 402983. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742102	GSOR 311188
271	GSOR 311572	DJ 24	Oryza sativa L.	Bangladesh	GSOR		1975	COLLECTED			24.00000000, 90.00000000		Cultivated material	Core Accession from PI 403082. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742486	GSOR 311572
272	GSOR 311573	DJ 102	Oryza sativa L.	Bangladesh	GSOR		1975	COLLECTED			24.00000000, 90.00000000		Cultivated material	Core Accession from PI 403114. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742487	GSOR 311573
273	GSOR 311576	DNJ 121	Oryza sativa L.	Bangladesh	GSOR		1975	COLLECTED			24.00000000, 90.00000000		Cultivated material	Core Accession from PI 403214. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742490	GSOR 311576
274	GSOR 311667	HKG 98	Oryza sativa L.	Mali	GSOR		1975	COLLECTED			17.00000000, -4.00000000		Cultivated material	Core Accession from PI 403469. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742581	GSOR 311667
275	GSOR 310489	Chun 118-33	Oryza sativa L.	China	GSOR		1975	COLLECTED			35.00000000, 105.00000000		Cultivated material	Core Accession from PI 400398. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741404	GSOR 310489
276	GSOR 310494	WW 8/2290	Oryza sativa L.	Netherlands	GSOR		1975	DEVELOPED					Breeding material	Core Accession from PI 400672. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741409	GSOR 310494
277	GSOR 310503	Manga Kely 694	Oryza sativa L.	Madagascar	GSOR		1975	COLLECTED			-20.00000000, 47.00000000		Cultivated material	Core Accession from PI 400780. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741418	GSOR 310503
278	GSOR 311167	'TAINUNG 45'	Oryza sativa L.	Taiwan	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 400607. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742081	GSOR 311167
279	GSOR 311173	Manga 629	Oryza sativa L.	Madagascar	GSOR		1975	COLLECTED			-20.00000000, 47.00000000		Cultivated material	Core Accession from PI 400771. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742087	GSOR 311173
280	GSOR 311153	IR 2061-214-2-3	Oryza sativa L.	Luzon, Philippines	GSOR		1975	DEVELOPED					Breeding material	Core Accession from PI 399748. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742067	GSOR 311153
281	GSOR 310546	'MAHSURI'	Oryza sativa L.	Malaysia	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 408406. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741461	GSOR 310546
282	GSOR 310471	'PATNAI 6'	Oryza sativa L.	Yangon, Myanmar	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 392694. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741386	GSOR 310471
283	GSOR 310475	K8C-263-3	Oryza sativa L.	Suriname	GSOR		1975	COLLECTED			4.00000000, -56.00000000		Cultivated material	Core Accession from PI 392813. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741390	GSOR 310475
284	GSOR 310480	Djimoron	Oryza sativa L.	Guinea	GSOR		1975	COLLECTED			11.00000000, -10.00000000		Cultivated material	Core Accession from PI 393180. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741395	GSOR 310480
285	GSOR 310481	Anandi	Oryza sativa L.	India	GSOR		1975	COLLECTED			20.00000000, 77.00000000		Cultivated material	Core Accession from PI 393292. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741396	GSOR 310481
286	GSOR 311140	'AKP 4'	Oryza sativa L.	Odisha, India	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 392605. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742054	GSOR 311140
287	GSOR 311141	'SORNAVARI'	Oryza sativa L.	Mali	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 392637. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742055	GSOR 311141
288	GSOR 311151	TD 70	Oryza sativa L.	Thailand	GSOR		1975	COLLECTED			15.00000000, 100.00000000		Cultivated material	Core Accession from PI 393070. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742065	GSOR 311151
289	GSOR 311561	Nang Bang Bentre	Oryza sativa L.	Vietnam	GSOR	Not Available	1975	COLLECTED			16.00000000, 106.00000000		Cultivated material	Core Accession from PI 392768. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742475	GSOR 311561
290	GSOR 311563	DNJ 179	Oryza sativa L.	Bangladesh	GSOR		1975	COLLECTED			24.00000000, 90.00000000		Cultivated material	Core Accession from PI 393112. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742477	GSOR 311563
291	GSOR 311654	'CAROLINO 164'	Oryza sativa L.	Chad	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 392630. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742568	GSOR 311654
292	GSOR 311656	'ASWINA 330'	Oryza sativa L.	Bangladesh	GSOR		1975	DEVELOPED					Cultivar	Core Accession from PI 392677. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742570	GSOR 311656
293	GSOR 310446	Acheh	Oryza sativa L.	Malaysia	GSOR		1974	COLLECTED			2.50000000, 112.50000000		Cultivated material	Core Accession from PI 391691. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741361	GSOR 310446
294	GSOR 311751	Magoti	Oryza sativa L.	Burundi	GSOR		1974	COLLECTED			-3.50000000, 30.00000000		Cultivated material	Core Accession from PI 391904. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742665	GSOR 311751
295	GSOR 310440	TJ	Oryza sativa L.	Guyana	GSOR		1974	COLLECTED			5.00000000, -59.00000000		Cultivated material	Core Accession from PI 391218. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741355	GSOR 310440
296	GSOR 310442	PD 46	Oryza sativa L.	Sri Lanka	GSOR		1974	COLLECTED			7.00000000, 81.00000000		Cultivated material	Core Accession from PI 391264. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741357	GSOR 310442
297	GSOR 311123	10340	Oryza sativa L.	Italy	GSOR		1974	COLLECTED			42.83333333, 12.83333333		Cultivated material	Core Accession from PI 391214. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742037	GSOR 311123
298	GSOR 311748	Bogarigbeli	Oryza sativa L.	Burkina Faso	GSOR		1974	COLLECTED			13.00000000, -2.00000000		Cultivated material	Core Accession from PI 391280. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742662	GSOR 311748
299	GSOR 310415	Ai Chueh Ta Pai Ku	Oryza sativa L.	Taiwan	GSOR		1974	COLLECTED			23.50000000, 121.00000000		Cultivated material	Core Accession from PI 389037. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741330	GSOR 310415
300	GSOR 310420	Bau 122	Oryza sativa L.	Vietnam	GSOR		1974	COLLECTED			16.00000000, 106.00000000		Cultivated material	Core Accession from PI 389234. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741335	GSOR 310420
301	GSOR 310428	Sipirasikkam	Oryza sativa L.	Sumatera, Indonesia	GSOR		1974	COLLECTED			-1.00000000, 100.50000000		Cultivated material	Core Accession from PI 389876. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741343	GSOR 310428
302	GSOR 311105	Hsin Hsing Pai Ku	Oryza sativa L.	Taiwan	GSOR		1974	COLLECTED			23.50000000, 121.00000000		Cultivated material	Core Accession from PI 389069. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742019	GSOR 311105
303	GSOR 311111	99216	Oryza sativa L.	India	GSOR	Not Available	1974	COLLECTED			20.00000000, 77.00000000		Cultivated material	Core Accession from PI 389863. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742025	GSOR 311111
304	GSOR 311113	Shui Ya Jien	Oryza sativa L.	Hong Kong	GSOR		1974	COLLECTED			22.25000000, 114.16666667		Cultivated material	Core Accession from PI 389923. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742027	GSOR 311113
305	GSOR 311117	Tranoeup Beykher	Oryza sativa L.	Cambodia	GSOR		1974	COLLECTED			13.00000000, 105.00000000		Cultivated material	Core Accession from PI 389933. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742031	GSOR 311117
306	GSOR 311554	Srav Prapay	Oryza sativa L.	Cambodia	GSOR		1974	COLLECTED			13.00000000, 105.00000000		Cultivated material	Core Accession from PI 389960. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742468	GSOR 311554
307	GSOR 311739	'FUJISAKA 5'	Oryza sativa L.	Aomori, Japan	GSOR		1974	DEVELOPED					Cultivar	Core Accession from PI 388917. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742653	GSOR 311739
308	GSOR 311741	Soc Nau	Oryza sativa L.	Vietnam	GSOR		1974	COLLECTED					Cultivated material	Core Accession from PI 389150. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742655	GSOR 311741
309	GSOR 311744	Heo Trang	Oryza sativa L.	Vietnam	GSOR		1974	COLLECTED			16.00000000, 106.00000000		Cultivated material	Core Accession from PI 389267. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742658	GSOR 311744
310	GSOR 311745	'WONG CHIM'	Oryza sativa L.	Hong Kong	GSOR		1974	DEVELOPED					Cultivar	Core Accession from PI 389360. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742659	GSOR 311745
311	GSOR 310389	Won Son Zo	Oryza sativa L.	Korea, South	GSOR		1974	COLLECTED					Landrace	Core Accession from PI 388304. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Originally received as PI 162348. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741304	GSOR 310389
312	GSOR 310397	Chacareiro Uruguay	Oryza sativa L.	Uruguay	GSOR		1974	COLLECTED			-33.00000000, -56.00000000		Cultivated material	Core Accession from PI 388427. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741312	GSOR 310397
313	GSOR 310399	Doble Carolina	Oryza sativa L.	Uruguay	GSOR		1974	COLLECTED			-33.00000000, -56.00000000		Cultivated material	Core Accession from PI 388436. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741314	GSOR 310399
314	GSOR 310381	NC 1/536	Oryza sativa L.	Punjab, Pakistan	GSOR		1974	COLLECTED		Government Rice Research Institute, Kala-Shah-Kaku	31.73805556, 74.26444444	201	Landrace	Core Accession from PI 385826. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741296	GSOR 310381
315	GSOR 311644	IRRI-IRGC-28372	Oryza sativa L.	Himachal Pradesh, India	GSOR		1974	COLLECTED		Kangra Valley	32.16666667, 76.50000000	2857	Landrace	Core Accession from PI 385697. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742558	GSOR 311644
316	GSOR 311078	Gazan	Oryza sativa L.	Kunduz, Afghanistan	GSOR		1972	COLLECTED	10/1971		36.75000000, 68.50000000		Landrace	Core Accession from PI 373939. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741992	GSOR 311078
317	GSOR 310337	Khao Phoi	Oryza sativa L.	Laos	GSOR		1972	COLLECTED			18.00000000, 105.00000000		Cultivated material	Core Accession from PI 373232. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741252	GSOR 310337
318	GSOR 310338	Khao Luang	Oryza sativa L.	Laos	GSOR		1972	COLLECTED			18.00000000, 105.00000000		Cultivated material	Core Accession from PI 373249. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741253	GSOR 310338
319	GSOR 310345	J.P. 5	Oryza sativa L.	Australia	GSOR		1972	COLLECTED			-25.00000000, 135.00000000		Cultivated material	Core Accession from PI 373761. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741260	GSOR 310345
320	GSOR 310348	C 8429	Oryza sativa L.	Papua New Guinea	GSOR		1972	COLLECTED			-6.00000000, 147.00000000		Cultivated material	Core Accession from PI 373771. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741263	GSOR 310348
321	GSOR 310351	Warrangal Culture 1252	Oryza sativa L.	India	GSOR		1972	COLLECTED			20.00000000, 77.00000000		Cultivated material	Core Accession from PI 373795. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741266	GSOR 310351
322	GSOR 310354	Padi Pohon Batu	Oryza sativa L.	Malaysia	GSOR		1972	COLLECTED			2.50000000, 112.50000000		Cultivated material	Core Accession from PI 373816. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741269	GSOR 310354
323	GSOR 311074	Mitak	Oryza sativa L.	Lesser Sunda Islands, Indonesia	GSOR		1972	COLLECTED		Nita Kloang, Sikka, East Nusa Tenggara	-8.66666667, 122.18333333	556	Landrace	Core Accession from PI 373786. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741988	GSOR 311074
324	GSOR 311100	ARC 6578	Oryza sativa L.	Assam, India	GSOR		1972	COLLECTED		Diphu Mikir & N Cachar Hills	25.75000000, 93.25000000	1005	Landrace	Core Accession from PI 373403. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742014	GSOR 311100
325	GSOR 311544	Gallawa	Oryza sativa L.	Sri Lanka	GSOR		1972	COLLECTED			7.00000000, 81.00000000		Cultivated material	Core Accession from PI 373340. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742458	GSOR 311544
326	GSOR 311545	Ittikulama	Oryza sativa L.	Sri Lanka	GSOR		1972	COLLECTED			7.00000000, 81.00000000		Cultivated material	Core Accession from PI 373341. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742459	GSOR 311545
327	GSOR 311547	Karayal	Oryza sativa L.	Uva Province, Sri Lanka	GSOR		1972	COLLECTED		Badulla	6.98333333, 81.05000000	897	Landrace	Core Accession from PI 373347. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742461	GSOR 311547
328	GSOR 311635	'AMANE'	Oryza sativa L.	Sri Lanka	GSOR		1972	COLLECTED			7.00000000, 81.00000000		Cultivar	Core Accession from PI 373335. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742549	GSOR 311635
329	GSOR 311642	Tia Bura	Oryza sativa L.	Lesser Sunda Islands, Indonesia	GSOR		1972	COLLECTED		Nita Kloang, Sikka, East Nusa Tenggara	-8.57970000, 122.11900000	556	Landrace	Core Accession from PI 373781. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. Prior to the single-plant selection, this accession as PI 373781 was a mix of brown and red bran. The brown bran phenotype was selected and advanced during the purification process.	1742556	GSOR 311642
330	GSOR 311643	Padi Tarab Arab	Oryza sativa L.	Malaysia	GSOR		1972	COLLECTED			2.50000000, 112.50000000		Cultivated material	Core Accession from PI 373820. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742557	GSOR 311643
331	GSOR 311734	ARC 10633	Oryza sativa L.	Assam, India	GSOR		1972	COLLECTED		Shillong, Khasi & Jaintia Hills	25.56666667, 91.88333333	1466	Landrace	Core Accession from PI 373536. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742648	GSOR 311734
332	GSOR 311735	Simpor	Oryza sativa L.	Indonesia	GSOR		1972	COLLECTED			4.53411000, 114.75200000		Cultivated material	Core Accession from PI 373798. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742649	GSOR 311735
333	GSOR 311736	Coppocina	Oryza sativa L.	Bulgaria	GSOR		1972	COLLECTED			43.00000000, 25.00000000		Cultivated material	Core Accession from PI 373899. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742650	GSOR 311736
334	GSOR 311539	C.B. II	Oryza sativa L.	Japan	GSOR		1970	COLLECTED			36.00000000, 138.00000000		Cultivated material	Core Accession from PI 352687. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742453	GSOR 311539
335	GSOR 310317	WC 5563	Oryza sativa L.	Assam, India	GSOR		1970	COLLECTED			26.00000000, 93.00000000		Landrace	Core Accession from PI 353723. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741232	GSOR 310317
336	GSOR 311046	WC 5562	Oryza sativa L.	Assam, India	GSOR		1970	COLLECTED			26.00000000, 93.00000000		Landrace	Core Accession from PI 353722. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741960	GSOR 311046
337	GSOR 310301	H57-3-1	Oryza sativa L.	Buenos Aires, Argentina	GSOR		1969	DEVELOPED					Breeding material	Core Accession from PI 346827. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741216	GSOR 310301
338	GSOR 310039	C 5560	Oryza sativa L.	Thailand	GSOR		1969	COLLECTED			15.00000000, 100.00000000		Cultivated material	Core Accession from CIor 9723. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Upland. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740955	GSOR 310039
339	GSOR 311016	IR 238	Oryza sativa L.	Luzon, Philippines	GSOR		1967	DEVELOPED					Breeding material	Core Accession from PI 321183. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741930	GSOR 311016
340	GSOR 310998	WC 4443	Oryza sativa L.	Santa Cruz, Bolivia	GSOR		1963	COLLECTED		Portachuelo, Gutierrez Province	-17.35000000, -63.40000000	304	Landrace	Core Accession from PI 291608. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741912	GSOR 310998
341	GSOR 310241	'UZ ROSZ M38'	Oryza sativa L.	Uzbekistan	GSOR		1963	DEVELOPED					Cultivar	Core Accession from PI 291430. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741156	GSOR 310241
342	GSOR 310997	'LUSITANO'	Oryza sativa L.	Lisboa, Portugal	GSOR		1963	DEVELOPED					Cultivar	Core Accession from PI 291539. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741911	GSOR 310997
343	GSOR 311727	Nahng Sawn	Oryza sativa L.	Thailand	GSOR		1962	COLLECTED			15.00000000, 100.00000000		Cultivated material	Core Accession from PI 285074. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742641	GSOR 311727
344	GSOR 310238	R 75	Oryza sativa L.	Senegal	GSOR		1962	COLLECTED			14.00000000, -14.00000000		Cultivated material	Core Accession from PI 282769. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741153	GSOR 310238
345	GSOR 310990	R 67	Oryza sativa L.	Senegal	GSOR		1962	COLLECTED			14.00000000, -14.00000000		Cultivated material	Core Accession from PI 282768. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741904	GSOR 310990
346	GSOR 310984	'CSORNUJ'	Oryza sativa L.	Hungary	GSOR		1962	DEVELOPED					Cultivar	Core Accession from PI 282173. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741898	GSOR 310984
347	GSOR 311725	A 36-3	Oryza sativa L.	Myanmar	GSOR		1962	DEVELOPED					Breeding material	Core Accession from PI 281914. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742639	GSOR 311725
348	GSOR 310226	'NORIN 11'	Oryza sativa L.	Hokkaidô, Japan	GSOR		1962	DEVELOPED	1937				Cultivar	Core Accession from PI 281630. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741141	GSOR 310226
349	GSOR 310846	Kao Chio Lin Chou	Oryza sativa L.	Taiwan	GSOR		1962	COLLECTED			23.50000000, 121.00000000		Cultivated material	Core Accession from CIor 12492. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection produced in 2007 is deposited in the GSOR DNA extracted from the selected plant has been analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection has been developed and fingerprinted with 155 SSR markers, averaging one marker every 10 cM in the genome. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741760	GSOR 310846
350	GSOR 310219	Red Khosha Cerma	Oryza sativa L.	Afghanistan	GSOR		1961	COLLECTED			34.00000000, 66.00000000		Landrace	Core Accession from PI 277414. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741134	GSOR 310219
351	GSOR 310220	Safut Khosha	Oryza sativa L.	Afghanistan	GSOR		1961	COLLECTED			34.00000000, 66.00000000		Landrace	Core Accession from PI 277415. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741135	GSOR 310220
352	GSOR 311697		Oryza latifolia Desv.	Valle, Honduras	GSOR		1960	COLLECTED			13.58333333, -87.58333333		Wild material	Core Accession from PI 269727. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742611	GSOR 311697
353	GSOR 311688	GPNO 25912	Oryza glaberrima Steud.	La Libertad, El Salvador	GSOR		1960	COLLECTED	10/11/1960	Las Tres Ceibas	13.75222222, -89.47750000	563	Cultivated material	Core Accession from PI 269630. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742602	GSOR 311688
354	GSOR 310211	Pergonil 15	Oryza sativa L.	Portugal	GSOR		1960	COLLECTED			39.50000000, -8.00000000		Cultivated material	Core Accession from PI 267996. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741126	GSOR 310211
355	GSOR 310965	Vary Tarva Osla	Oryza sativa L.	Portugal	GSOR		1960	COLLECTED			39.50000000, -8.00000000		Cultivated material	Core Accession from PI 268003. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741879	GSOR 310965
356	GSOR 310210	'KRASNODARSKIJ 424'	Oryza sativa L.	Krasnodar, Russian Federation	GSOR		1960	DEVELOPED					Cultivar	Core Accession from PI 266122. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741125	GSOR 310210
357	GSOR 310204	Italica Carolina	Oryza sativa L.	Lubelskie, Poland	GSOR		1960	COLLECTED			51.25000000, 22.50000000		Cultivated material	Core Accession from PI 265110. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741119	GSOR 310204
358	GSOR 310200	Chin Chin	Oryza sativa L.	Panama	GSOR		1960	COLLECTED			9.00000000, -80.00000000		Cultivated material	Core Accession from PI 264242. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741115	GSOR 310200
359	GSOR 310196	81B/25	Oryza sativa L.	Suriname	GSOR		1960	COLLECTED			4.00000000, -56.00000000		Cultivated material	Core Accession from PI 263813. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741111	GSOR 310196
360	GSOR 310958	IRRI-IRGC-10569	Oryza sativa L.	Herāt, Afghanistan	GSOR		1959	COLLECTED	03/31/1959		34.50000000, 62.00000000		Landrace	Core Accession from PI 256340. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741872	GSOR 310958
361	GSOR 311537	A 5	Oryza sativa L.	Japan	GSOR		1958	DONATED	02/06/1958				Cultivated material	Core Accession from PI 245694. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742451	GSOR 311537
362	GSOR 310950	IRRI-IRGC-10529	Oryza sativa L.	Taiwan	GSOR		1958	COLLECTED			23.50000000, 121.00000000		Cultivated material	Core Accession from PI 245071. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741864	GSOR 310950
363	GSOR 310945	Dular	Oryza sativa L.	Odisha, India	GSOR		1957	COLLECTED			21.00000000, 84.00000000		Cultivated material	Core Accession from PI 240638. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741859	GSOR 310945
364	GSOR 310932	17-9-4	Oryza sativa L.	Morelos, Mexico	GSOR		1955	DEVELOPED					Breeding material	Core Accession from PI 226313. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741846	GSOR 310932
365	GSOR 310161	'SHIMIZU MOCHI'	Oryza sativa L.	Aomori, Japan	GSOR		1955	DEVELOPED					Cultivar	Core Accession from PI 226204. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741076	GSOR 310161
366	GSOR 310156	Sel. No. 388	Oryza sativa L.	Uruguay	GSOR		1955	COLLECTED			-33.00000000, -56.00000000		Cultivated material	Core Accession from PI 223612. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741071	GSOR 310156
367	GSOR 310144	British Honduras Creole	Oryza sativa L.	Belize	GSOR		1954	COLLECTED			17.00000000, -88.50000000		Cultivated material	Core Accession from PI 220214. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741059	GSOR 310144
368	GSOR 310910	Taino No. 38	Oryza sativa L.	Taiwan	GSOR		1954	COLLECTED			23.50000000, 121.00000000		Cultivated material	Core Accession from PI 215970. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources. Prior to the single-plant selection, this accession as PI 215970 had a mixture of grain shapes. In 2009 additional seed purification was completed and the medium grain phenotype was selected for distribution.	1741824	GSOR 310910
369	GSOR 310906	Ardito	Oryza sativa L.	Italy	GSOR		1954	COLLECTED			42.83333333, 12.83333333		Cultivated material	Core Accession from PI 215478. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741820	GSOR 310906
370	GSOR 310020	E B Gopher	Oryza sativa L.	Texas, United States	GSOR		1954	COLLECTED			30.00000000, -100.00000000		Cultivated material	Core Accession from CIor 9032. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740936	GSOR 310020
371	GSOR 310023	RD 218	Oryza sativa L.	Dominican Republic	GSOR		1954	COLLECTED			19.00000000, -70.66666667		Cultivated material	Core Accession from CIor 9049. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740939	GSOR 310023
372	GSOR 311713	Sereno	Oryza sativa L.	Jamaica	GSOR		1954	COLLECTED			18.25000000, -77.50000000		Cultivated material	Core Accession from PI 214077. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742627	GSOR 311713
373	GSOR 310901	Juppa	Oryza sativa L.	Pashchimanchal, Nepal	GSOR	Not Available	1953	COLLECTED		Pokhara	28.23333333, 83.98333333	812	Landrace	Core Accession from PI 208452. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741815	GSOR 310901
374	GSOR 310134	'BERLIN'	Oryza sativa L.	Puntarenas, Costa Rica	GSOR		1952	DEVELOPED					Cultivar	Core Accession from PI 202864. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741049	GSOR 310134
375	GSOR 310131	Secano do Brazil	Oryza sativa L.	La Libertad, El Salvador	GSOR		1952	COLLECTED			13.75000000, -89.38333333		Cultivated material	Core Accession from PI 199553. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741046	GSOR 310131
376	GSOR 310887	Buphopa	Oryza sativa L.	Yangon, Myanmar	GSOR		1951	COLLECTED			16.75000000, 96.25000000		Landrace	Core Accession from PI 198134. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741801	GSOR 310887
377	GSOR 311620	Romeno	Oryza sativa L.	Lisboa, Portugal	GSOR		1950	COLLECTED			39.00000000, -9.13333333		Cultivated material	Core Accession from PI 189460. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742534	GSOR 311620
378	GSOR 310883	Somewake	Oryza sativa L.	Aomori, Japan	GSOR		1949	COLLECTED			36.00000000, 138.00000000		Landrace	Core Accession from PI 184506. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741797	GSOR 310883
379	GSOR 311532	Egyptian Wild Type	Oryza sativa L.	Kars, Turkey	GSOR		1949	COLLECTED	1948	Agriculture teacher, Kozen	39.98333333, 42.56666667	2676	Landrace	Core Accession from PI 182254. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742446	GSOR 311532
380	GSOR 310879	6360	Oryza sativa L.	Hakkâri, Turkey	GSOR		1949	COLLECTED	1948	Kaval, Lirinbucag	37.53333333, 43.50000000	1884	Landrace	Core Accession from PI 177224. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741793	GSOR 310879
381	GSOR 310111	Bombilla	Oryza sativa L.	Catalunya, Spain	GSOR		1948	COLLECTED			41.98333333, 2.81666667		Cultivated material	Core Accession from PI 168946. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741026	GSOR 310111
382	GSOR 310861	Niwahutaw Mochi	Oryza sativa L.	Japan	GSOR		1948	COLLECTED			36.00000000, 138.00000000		Cultivated material	Core Accession from PI 162113. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741775	GSOR 310861
383	GSOR 310102	Criollo Chivacoa 2	Oryza sativa L.	Aragua, Venezuela	GSOR		1947	COLLECTED			10.00000000, -67.16666667		Cultivated material	Core Accession from PI 161567. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741017	GSOR 310102
384	GSOR 310100	Ao Chiu 2 Hao	Oryza sativa L.	Sichuan Sheng, China	GSOR		1947	COLLECTED			29.83333333, 105.00000000		Landrace	Core Accession from PI 160700. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741015	GSOR 310100
385	GSOR 310849	Pan Ju	Oryza sativa L.	Sichuan Sheng, China	GSOR		1947	COLLECTED			29.83333333, 105.00000000		Landrace	Core Accession from PI 160530. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741763	GSOR 310849
386	GSOR 310814	Grassy	Oryza sativa L.	Haiti	GSOR		1947	COLLECTED			19.00000000, -72.41666667		Cultivated material	Core Accession from CIor 8913. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741729	GSOR 310814
387	GSOR 310809	Yong Chal Byo	Oryza sativa L.	Korea, South	GSOR		1947	COLLECTED			37.00000000, 127.50000000		Landrace	Core Accession from PI 157385. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Upland. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741724	GSOR 310809
388	GSOR 310087	WC 2811	Oryza sativa L.	Pohnpei, Micronesia	GSOR		1946	COLLECTED			6.83333333, 158.21666667		Cultivated material	Core Accession from PI 155990. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Paddy rice. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741002	GSOR 310087
389	GSOR 310080	'TAICHU MOCHI 59'	Oryza sativa L.	Taiwan	GSOR		1946	DEVELOPED					Cultivar	Core Accession from PI 154464. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740995	GSOR 310080
390	GSOR 310799	Ragasu	Oryza sativa L.	Taiwan	GSOR		1946	COLLECTED			23.50000000, 121.00000000		Landrace	Core Accession from PI 154435. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Upland. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741714	GSOR 310799
391	GSOR 310801	Tobura	Oryza sativa L.	Taiwan	GSOR		1946	COLLECTED			23.50000000, 121.00000000		Landrace	Core Accession from PI 154481. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741716	GSOR 310801
392	GSOR 310802	Tamanishiki	Oryza sativa L.	Japan	GSOR		1946	COLLECTED			36.00000000, 138.00000000		Cultivated material	Core Accession from PI 154531. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741717	GSOR 310802
393	GSOR 311613	Spin Mere	Oryza sativa L.	Kandahār, Afghanistan	GSOR		1938	COLLECTED	10/23/1937	Kandahar	31.61666667, 65.71666667	1525	Landrace	Core Accession from PI 127076. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742527	GSOR 311613
394	GSOR 310015	Mayang Khang	Oryza sativa L.	Jawa, Indonesia	GSOR		1928	COLLECTED			-7.00000000, 107.00000000		Cultivated material	Core Accession from CIor 7155. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740931	GSOR 310015
395	GSOR 310791	Kin Shan Zim	Oryza sativa L.	Guangdong Sheng, China	GSOR		1928	COLLECTED			23.00000000, 113.00000000		Cultivated material	Core Accession from CIor 7404. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741706	GSOR 310791
396	GSOR 310788	Toga	Oryza sativa L.	Punjab, India	GSOR		1926	COLLECTED			31.00000000, 76.00000000		Cultivated material	Core Accession from PI 67153. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741703	GSOR 310788
397	GSOR 311710	Lua Chua Chan	Oryza sativa L.	Vietnam	GSOR		1921	COLLECTED			16.00000000, 106.00000000		Landrace	Core Accession from PI 54344. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1742624	GSOR 311710
398	GSOR 310052	Quinimpol	Oryza sativa L.	Luzon, Philippines	GSOR		1916	COLLECTED		Montalban, Rizal	14.73333333, 121.11666667	57	Landrace	Core Accession from CIor 12153. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection produced in 2007 is deposited in the GSOR DNA extracted from the selected plant has been analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection has been developed and fingerprinted with 155 SSR markers, averaging one marker every 10 cM in the genome. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740967	GSOR 310052
399	GSOR 310779	IRRI-IRGC-3381	Oryza sativa L.	Guatemala	GSOR		1915	COLLECTED			15.50000000, -90.25000000		Cultivated material	Core Accession from CIor 2169. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741694	GSOR 310779
400	GSOR 310007	Karang Serang	Oryza sativa L.	Jawa, Indonesia	GSOR		1914	COLLECTED		Land Kandanghauer	-6.35000000, 108.10000000	7	Landrace	Core Accession from CIor 2490. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1740923	GSOR 310007
401	GSOR 310777	WC 3532	Oryza sativa L.	Peru	GSOR		1914	COLLECTED		mountainous region, several thousand feet above sea level	-10.00000000, -76.00000000		Landrace	Core Accession from PI 37215. The Core Collection containing about 10% of the whole NSGC Rice Collection was assembled by stratified random sampling method in 2002, evaluated comprehensively for 25 characteristics and proven to be highly representative of the whole collection. Information drawn from the Core Collection can effectively be used to assess the diversity of the whole collection with 88% certainty. A single plant was selected from each Core accession in 2006 and bulk seed from the single plant selection was produced in 2007 and deposited in the GSOR. DNA extracted from the selected plant was analyzed with one indel marker and 71 SSR (Single Sequence Repeat) markers that cover the entire rice genome about 30 cM apart. A Mini-Core Collection containing about 10% of the Core Collection was subsequently developed and genotyped through various means.The original narrative is: Upland. Because the Core and Mini-Core were developed from single-plant selections from the NSGC accessions which may be phenotypically variable, there is the possibility that the GSOR seed sources are not exactly the same as the NSGC sources.	1741692	GSOR 310777