Select the tab for the type of search. Each tab has everything you need to do to perform that type of search.
(Results of more than 500 will not return images.)
This search will show only accessions that have material that may be requested, including those not seasonally available.
You may list accessions with separators (commas or semicolons, as shown below) or by entering them on separate lines, such as
PI 651794
PI 651649
PI 651650
When searching a range of accessions, use the Advanced Search tab with the Accession Identifier Range criterion.
The more information you provide, the better the search will be.
Scientific name (any part, no hybrid symbols)
Genebank
Country of Origin
Other search criteria:
If your results aren't what you expected, try using the Advanced Search tab and filling in more information.
Your query included:
All accessions
| ACCESSION | PLANT NAME | TAXONOMY | ORIGIN | GENEBANK | IMAGE | AVAILABILITY | RECEIVED | SOURCE TYPE | SOURCE DATE | COLLECTION SITE | COORDINATES | ELEVATION | HABITAT | IMPROVEMENT LEVEL | NARRATIVE | | |
|---|
| 0 | GSOR 201 | CS272 | Oryza sativa L. | Arkansas, United States | GSOR | | | 2024 | DEVELOPED | | | | | | Cultivar | Blast disease of rice is one of the most destructive diseases and is managed by using major blast resistance (R) genes. The Ptr gene in rice is an atypical blast R gene that confers resistance to a wide range of blast races. Here we release three blast resistant germplasm lines, designated as CS272, CS324, and CS353, with the Ptr gene selected from a cross of the US-adapted cultivars ‘Cybonnet’ and ‘Saber’. These lines were resistant to most blast races under greenhouse conditions, resistant to leaf blast in an upland blast nursery in Crowley, LA, and to panicle blast under flood conditions in Puerto Rico and Crowley. These lines are superior in panicle size and have many agronomic and grain-quality characteristics comparable to or better than those of both parents. These lines can be used in rice-breeding programs for improving blast resistance, quality, and yield and can be grown for premium long grain markets. | 2169858 | GSOR 201 |
| 1 | GSOR 202 | CS324 | Oryza sativa L. | Arkansas, United States | GSOR | | | 2024 | DEVELOPED | | | | | | Cultivar | Blast disease of rice is one of the most destructive diseases and is managed by using major blast resistance (R) genes. The Ptr gene in rice is an atypical blast R gene that confers resistance to a wide range of blast races. Here we release three blast resistant germplasm lines, designated as CS272, CS324, and CS353, with the Ptr gene selected from a cross of the US-adapted cultivars ‘Cybonnet’ and ‘Saber’. These lines were resistant to most blast races under greenhouse conditions, resistant to leaf blast in an upland blast nursery in Crowley, LA, and to panicle blast under flood conditions in Puerto Rico and Crowley. These lines are superior in panicle size and have many agronomic and grain-quality characteristics comparable to or better than those of both parents. These lines can be used in rice-breeding programs for improving blast resistance, quality, and yield and can be grown for premium long grain markets. | 2169859 | GSOR 202 |
| 2 | GSOR 203 | CS353 | Oryza sativa L. | Arkansas, United States | GSOR | | | 2024 | DEVELOPED | | | | | | Cultivar | Blast disease of rice is one of the most destructive diseases and is managed by using major blast resistance (R) genes. The Ptr gene in rice is an atypical blast R gene that confers resistance to a wide range of blast races. Here we release three blast resistant germplasm lines, designated as CS272, CS324, and CS353, with the Ptr gene selected from a cross of the US-adapted cultivars ‘Cybonnet’ and ‘Saber’. These lines were resistant to most blast races under greenhouse conditions, resistant to leaf blast in an upland blast nursery in Crowley, LA, and to panicle blast under flood conditions in Puerto Rico and Crowley. These lines are superior in panicle size and have many agronomic and grain-quality characteristics comparable to or better than those of both parents. These lines can be used in rice-breeding programs for improving blast resistance, quality, and yield and can be grown for premium long grain markets. | 2169860 | GSOR 203 |