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| ACCESSION | PLANT NAME | TAXONOMY | ORIGIN | GENEBANK | IMAGE | AVAILABILITY | RECEIVED | SOURCE TYPE | SOURCE DATE | COLLECTION SITE | COORDINATES | ELEVATION | HABITAT | IMPROVEMENT LEVEL | NARRATIVE | | |
|---|
| 0 | PI 699654 | 'BTx623ms9-1' | Sorghum bicolor (L.) Moench | Texas, United States | S9 | | | 2022 | DEVELOPED | | | | | | Cultivar | Both BTx623ms9-1 and BTx623ms9-3 mutants were isolated from the sorghum pedigreed mutant library constructed at Plant Stress & Germplasm Development Unit, USDA-ARS at Lubbock, Texas. The male sterile phenotype is due to a recessive mutation in a nuclear gene. Utility of the ms9 Mutants and its Maintenance: It represents a new male sterile locus distinct from the previously known ms loci and provides an additional approach to control sorghum male sterility. The seeds to be released are produced from a cross of BTx623ms9-1 BC5F2ms * BTx623ms9-1BC6F1 and segregate at a ratio of 50% male sterile and 50 % fertile plants. Utility of the ms9 Mutants and its Maintenance: The two ms9 mutants to be released segregate as 50% homozygous male sterile and 50% heterozygous fertile plants. The male sterility can be maintained by crossing the sterile plants with the pollen from the fertile plants within the same population. | 2132588 | PI 699654 |
| 1 | PI 699655 | 'BTx623ms9-3' | Sorghum bicolor (L.) Moench | Texas, United States | S9 | | | 2022 | DEVELOPED | | | | | | Cultivar | Both BTx623ms9-1 and BTx623ms9-3 mutants were isolated from the sorghum pedigreed mutant library constructed at Plant Stress & Germplasm Development Unit, USDA-ARS at Lubbock, Texas. The male sterile phenotype is due to a recessive mutation in a nuclear gene. Utility of the ms9 Mutants and its Maintenance: It represents a new male sterile locus distinct from the previously known ms loci and provides an additional approach to control sorghum male sterility. The seeds to be released are produced from a cross of BTx623ms9-1 BC5F2ms * BTx623ms9-1BC6F1 and segregate at a ratio of 50% male sterile and 50 % fertile plants. Utility of the ms9 Mutants and its Maintenance: The two ms9 mutants to be released segregate as 50% homozygous male sterile and 50% heterozygous fertile plants. The male sterility can be maintained by crossing the sterile plants with the pollen from the fertile plants within the same population. | 2132589 | PI 699655 |