Registration of two novel grain sorghum nuclear male sterile mutants: BTx623ms9‐1and BTx623ms9‐3

التفاصيل البيبلوغرافية
العنوان: Registration of two novel grain sorghum nuclear male sterile mutants: BTx623ms9‐1and BTx623ms9‐3
المؤلفون: Chen, Junping, Laza, Haydee, Burow, Gloria, Hayes, Chad, Burke, J. J., Emendack, Yves, Xin, Zhanguo
المصدر: Journal of Plant Registrations; January 2023, Vol. 17 Issue: 1 p209-213, 5p
مستخلص: The USDA‐ARS has released two new sorghum [Sorghum bicolor(L.) Moench] nuclear male sterile (NMS) mutants, BTx623ms9‐1(Reg. no. GS‐791, PI 699654) and BTx623ms9‐3(Reg. no. GS‐792, PI 699655). Both mutants were isolated from an ethylmethane sulfonate mutagenized population developed in the inbred line BTx623 and displayed stable male sterility across two environments tested. The homozygous BTx623ms9panicle produces normal ovaries but small pale‐colored anthers with no pollen grains, making it easy to identify the sterile from the fertile panicles at the start of anthesis. Other than male sterility, the ms9mutants are indistinctive from BTx623 wild type in morphology and development. Analyses indicate that the male sterility in BTx623ms9mutants is controlled by recessive mutations on a single nuclear gene and differs from those that are available in currently known NMS lines (ms1, ms2, ms3, ms7, and ms8). The BTx623ms9‐1and the BTx623ms9‐3mutants harbor a nonsynonymous mutation (R218A) and a knockout mutation in the gene Sobic.002G221000, respectively. The causal mutations can be used to design molecular markers for efficient introduction of the Ms9mutations into other sorghum lines. These two released NMS lines segregate for 50% pure male sterile and 50% fertile (Ms9/ms9) plants and can be maintained by pollinating sterile panicles with the pollen of the fertile plants. The two mutants can serve as female parents to create new mapping populations for genetic analysis and for evaluation of experimental hybrids. The male‐sterile 9 is a novel NMS mutant in sorghum with morphological and physiological traits similar to WT.The two independent Ms9mutations (a substitution and a knockout) can serve as molecular markers for MAS in sorghum.The identification of the Ms9gene provides a strategy to control male sterility in sorghum.
قاعدة البيانات: Supplemental Index
الوصف
تدمد:19365209
19403496
DOI:10.1002/plr2.20251