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ACCESSIONPLANT NAMETAXONOMYORIGINGENEBANKIMAGEAVAILABILITYRECEIVEDSOURCE TYPESOURCE DATECOLLECTION SITECOORDINATESELEVATIONHABITATIMPROVEMENT LEVELNARRATIVE
0PI 637585FKR 48Oryza sativa L. Côte D'IvoireNSGCKERNELS1999COLLECTEDCultivar1580797PI 637585
1PI 637586AD 9246Oryza sativa L. KenyaNSGCKERNELS1999DEVELOPEDBreeding material1580799PI 637586
2PI 637595ITA 406Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDCultivar1580818PI 637595
3PI 637600S 992-F4-2-5-1-BOryza sativa L. IndonesiaNSGCKERNELS1999DEVELOPEDBreeding material1580829PI 637600
4PI 637602Tnau 7893Oryza sativa L. IndiaNSGCKERNELS1999DEVELOPEDBreeding material1580831PI 637602
5PI 637607Tox 3093-35-2-3-3-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580840PI 637607
6PI 637610Tox 3211-49-1-1-3-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580843PI 637610
7PI 637613Tox 3241-21-2-2-3-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580846PI 637613
8PI 637614Tox 3241-22-3-3-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580847PI 637614
9PI 637615Tox 3241-31-2-1-3-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580848PI 637615
10PI 637644Tox 3441-123-2-3-2-2-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580885PI 637644
11PI 637654Tox 3706-6-3-3-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580897PI 637654
12PI 637655Tox 3706-60-3-3-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580898PI 637655
13PI 637656Tox 3716-4-3-2-2-2-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580899PI 637656
14PI 637662Tox 3717-25-3-1-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580905PI 637662
15PI 637663Tox 3717-25-3-3-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580906PI 637663
16PI 637664Tox 3717-25-3-3-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580907PI 637664
17PI 637665Tox 3717-76-2-2-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580908PI 637665
18PI 637666Tox 3717-81-1-1-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580909PI 637666
19PI 637668Tox 3749-71-1-1-3-2-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580912PI 637668
20PI 637670Tox 3770-17-2-2-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580917PI 637670
21PI 637671Tox 3771-144-2-1-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580918PI 637671
22PI 637673Tox 3772-38-2-2-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580920PI 637673
23PI 637674Tox 3772-40-3-2-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580921PI 637674
24PI 637675Tox 3772-94-1-1-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580922PI 637675
25PI 637677Tox 3779-51-2-2-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580924PI 637677
26PI 637686Tox 3867-19-1-1-3-1-1-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580935PI 637686
27PI 637688Tox 3872-61-3-3-3-2-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580938PI 637688
28PI 637696Tox 3894-41-2-3-1Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580947PI 637696
29PI 637707Tox 4136-38-2Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580959PI 637707
30PI 637718Tox 4251-313-3Oryza sativa L. NigeriaNSGCKERNELS1999DEVELOPEDBreeding material1580971PI 637718
31PI 636842WAB450-24-3-2-P18-HBOryza sativa L. Côte D'IvoireNSGCKERNELS1998DEVELOPEDBreeding material1561399PI 636842
32PI 636847WAB450-I-B-P-62-HBOryza sativa L. Côte D'IvoireNSGCKERNELS1998DEVELOPEDBreeding material1561336PI 636847
33PI 614956'GP-2'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311441.1538701PI 614956
34PI 614958'Gui 99'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311443.1538722PI 614958
35PI 614959'R 312'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311444.1538724PI 614959
36PI 614961'R 147'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311446.1538734PI 614961
37PI 614964'Zhongzao No. 1'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivar1538760PI 614964
38PI 614965'Zhongyu No. 6'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311449.1538764PI 614965
39PI 614978'71198'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311459.1538815PI 614978
40PI 614980'Zhongyu No. 1'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311436.1538818PI 614980
41PI 614981'Xiangzaoxian No. 1'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivar1538819PI 614981
42PI 614984'Zhang 32'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311463.1538824PI 614984
43PI 614987'Tiejing No. 4'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311464.1538828PI 614987
44PI 614988'Zanuo No. 1'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311465.1538834PI 614988
45PI 614989'Kechengnuo No. 4'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311466.1538835PI 614989
46PI 614991'Dian No. 01'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311468.1538838PI 614991
47PI 614994'Aijiaonante'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311470.1538841PI 614994
48PI 614996'Fu No. 83'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311472.1538844PI 614996
49PI 614998'Chunzhi No. 11'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311474.1538848PI 614998
50PI 614999'Tie 90-1'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarA single-plant selection from this core subset accession is available as GSOR 311475.1538849PI 614999
51PI 615001'Sheng 10'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivar1538856PI 615001
52PI 615005'02428'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivar1538861PI 615005
53PI 615016'Shufeng 122'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivar1538919PI 615016
54PI 615017'Shufeng 117'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivar1538920PI 615017
55PI 615019460Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538925PI 615019
56PI 6150202410Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538927PI 615020
57PI 6150224484Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311483.1538931PI 615022
58PI 6150314593Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538942PI 615031
59PI 6150324594Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538943PI 615032
60PI 6150344596Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538945PI 615034
61PI 6150354597Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311485.1538946PI 615035
62PI 6150364607Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311486.1538947PI 615036
63PI 6150384611Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538949PI 615038
64PI 6150394612Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311487.1538950PI 615039
65PI 6150404632Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding material1538951PI 615040
66PI 6150414633Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311488.1538952PI 615041
67PI 6150474641-1Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311489.1538958PI 615047
68PI 6150494642Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDBreeding materialA single-plant selection from this core subset accession is available as GSOR 311490.1538960PI 615049
69PI 634220'NJ70507'Oryza sativa L. ChinaNSGCKERNELS1996DEVELOPEDCultivarSource 913249. Site UY4. Season WS. Nursery IRSBN. A single-plant selection from this core subset accession is available as GSOR 311523.1520909PI 634220
70PI 634221RP2199-16-2-2-1Oryza sativa L. IndiaNSGCKERNELS1996DEVELOPEDBreeding materialSource 910014. Site UY-UPPER. Season DS. Nursery IRSBN. A single-plant selection from this core subset accession is available as GSOR 311524.1520914PI 634221
71PI 634222S972B-22-1-3-1-1Oryza sativa L. IndonesiaNSGCKERNELS1996DEVELOPEDCultivarSource 912466. Site UU. Season DS. Nursery Remnant. A single-plant selection from this core subset accession is available as GSOR 311525.1520916PI 634222
72PI 597039'IAC 47'Oryza sativa L. BrazilNSGCKERNELS1994DEVELOPEDCultivar1104348PI 597039
73PI 596909GZ1368-5-4Oryza sativa L. Al JÄ«zah, EgyptNSGCKERNELS1993DEVELOPEDBreeding material90 days to heading. 93 cm plant height. 3 pacp at maturity. A single-plant selection from this core subset accession is available as GSOR 310753.1102974PI 596909
74PI 596931IR 56450-28-2-2Oryza sativa L. Calabarzon (Region IV-A), PhilippinesNSGCKERNELS1993DEVELOPEDBreeding material85 days to heading. 91 cm plant height. 2 pacp at maturity. A single-plant selection from this core subset accession is available as GSOR 311521.1102996PI 596931
75PI 575114Bhujon KolpoOryza sativa L. BangladeshNSGCKERNELS1993COLLECTEDCultivated materialSeason: Broadcasted Aman. A single-plant selection from this core subset accession is available as GSOR 311518.1470085PI 575114
76PI 575186KhoiaOryza sativa L. BangladeshNSGCKERNELS1993COLLECTEDCultivated materialCold tolerant at vegetative stage. Season: Boro. A single-plant selection from this core subset accession is available as GSOR 311519.1470157PI 575186
77PI 575209BograOryza sativa L. BangladeshNSGCKERNELS1993COLLECTEDCultivated materialCold tolerant at vegetative stage. Season: Boro. A single-plant selection from this core subset accession is available as GSOR 311520.1470180PI 575209
78PI 637647Tox 3553-34-3-2-3-2-2Oryza sativa L. NigeriaNSGCKERNELS1989DEVELOPEDBreeding material1580889PI 637647
79GSOR 311436'ZHONGYU NO. 1'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614980. 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.

1742350GSOR 311436
80GSOR 311441'GP-2'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614956. 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.

1742355GSOR 311441
81GSOR 311443'GUI 99'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614958. 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.

1742357GSOR 311443
82GSOR 311444'R 312'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614959. 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.

1742358GSOR 311444
83GSOR 311446'R 147'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614961. 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.

1742360GSOR 311446
84GSOR 311449'ZHONGYU NO. 6'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614965. 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.

1742363GSOR 311449
85GSOR 311459'71198'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614978. 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.

1742373GSOR 311459
86GSOR 311463'ZHANG 32'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614984. 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.

1742377GSOR 311463
87GSOR 311464'TIEJING NO. 4'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614987. 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.

1742378GSOR 311464
88GSOR 311465'ZANUO NO. 1'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614988. 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.

1742379GSOR 311465
89GSOR 311466'KECHENGNUO NO. 4'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore 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.

1742380GSOR 311466
90GSOR 311468'DIAN NO. 01'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614991. 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.

1742382GSOR 311468
91GSOR 311470'AIJIAONANTE'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614994. 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.

1742384GSOR 311470
92GSOR 311472'FU NO. 83'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614996. 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.

1742386GSOR 311472
93GSOR 311474'CHUNZHI NO. 11'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614998. 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.

1742388GSOR 311474
94GSOR 311475'TIE 90-1'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 614999. 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.

1742389GSOR 311475
95GSOR 3114834484Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDBreeding materialCore 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.

1742397GSOR 311483
96GSOR 3114854597Oryza sativa L. ChinaGSOR1996DEVELOPEDBreeding materialCore Accession from PI 615035. 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.

1742399GSOR 311485
97GSOR 3114864607Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDBreeding materialCore Accession from PI 615036. 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.

1742400GSOR 311486
98GSOR 3114874612Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDBreeding materialCore Accession from PI 615039. 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.

1742401GSOR 311487
99GSOR 3114884633Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDBreeding materialCore Accession from PI 615041. 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.

1742402GSOR 311488
100GSOR 3114894641-1Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDBreeding materialCore Accession from PI 615047. 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.

1742403GSOR 311489
101GSOR 3114904642Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDBreeding materialCore Accession from PI 615049. 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.

1742404GSOR 311490
102GSOR 311523'NJ70507'Oryza sativa L. ChinaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 634220. 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 913249. Site UY4. Season WS. Nursery IRSBN.

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.

1742437GSOR 311523
103GSOR 311524RP2199-16-2-2-1Oryza sativa L. IndiaGSORKERNELS1996DEVELOPEDBreeding materialCore Accession from PI 634221. 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 910014. Site UY-UPPER. Season DS. Nursery IRSBN.

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.

1742438GSOR 311524
104GSOR 311525S972B-22-1-3-1-1Oryza sativa L. IndonesiaGSORKERNELS1996DEVELOPEDCultivarCore Accession from PI 634222. 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 912466. Site UU. 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.

1742439GSOR 311525
105GSOR 310753GZ1368-5-4Oryza sativa L. Al JÄ«zah, EgyptGSORKERNELS1993DEVELOPEDBreeding materialCore Accession from PI 596909. 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: 90 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.

1741668GSOR 310753
106GSOR 311521IR 56450-28-2-2Oryza sativa L. Luzon, PhilippinesGSORKERNELS1993DEVELOPEDBreeding materialCore Accession from PI 596931. 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: 85 days to heading. 91 cm plant height. 2 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.

1742435GSOR 311521
107GSOR 311518Bhujon KolpoOryza sativa L. BangladeshGSORKERNELS1993COLLECTEDCultivated materialCore Accession from PI 575114. 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: Season: B. Aman.

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.

1742432GSOR 311518
108GSOR 311519KhoiaOryza sativa L. BangladeshGSORKERNELS1993COLLECTEDCultivated materialCore Accession from PI 575186. 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: Cold tolerant at vegetative stage. Season: Boro.

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.

1742433GSOR 311519
109GSOR 311520BograOryza sativa L. BangladeshGSORKERNELS1993COLLECTEDCultivated materialCore Accession from PI 575209. 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: Cold tlerant at vegetative stage. Season: Boro.

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.

1742434GSOR 311520