Back to Search Start Over

Refined mapping of stripe rust resistance gene YrP10090 within a desirable haplotype for wheat improvement on chromosome 6A.

Authors :
Liu, Shengjie
Huang, Shuo
Zeng, Qingdong
Wang, Xiaoting
Yu, Rui
Wang, Qilin
Singh, Ravi P.
Bhavani, Sridhar
Kang, Zhensheng
Wu, Jianhui
Han, Dejun
Source :
Theoretical & Applied Genetics; Jul2021, Vol. 134 Issue 7, p2005-2021, 17p
Publication Year :
2021

Abstract

Key message: A large genomic region spanning over 300 Mb on chromosome 6A under intense artificial selection harbors multiple loci associated with favorable traits including stripe rust resistance in wheat. The development of resistance cultivars can be an optimal strategy for controlling wheat stripe rust disease. Although loci for stripe rust resistance have been identified on chromosome 6A in previous studies, it is unclear whether these loci span a common genetic interval, and few studies have attempted to analyze the haplotype changes that have accompanied wheat improvement over the period of modern breeding. In this study, we used F<subscript>2:3</subscript> families and F<subscript>6:7</subscript> recombinant inbred lines (RILs) derived from a cross between a resistant CIMMYT wheat accession P10090 and the susceptible landrace Mingxian 169 to improve the resolution of the QTL on chromosome 6A. The co-located QTL, designated as YrP10090, was flanked by SNP markers AX-94460938 and AX-110585473 with a genetic interval of 3.5 cM, however, corresponding to a large physical distance of over 300 Mb in RefSeq v.1.0 (positions 107.1–446.5 Mb). More than 1,300 SNP markers in this genetic region were extracted for haplotype analysis in a panel of 1,461 worldwide common wheat accessions, and three major haplotypes (Hap1, Hap2, and Hap3) were identified. The favorable haplotype Hap1 associated with stripe rust resistance exhibited a large degree of linkage disequilibrium. Selective sweep analyses were performed between different haplotype groups, revealing specific genomic regions with strong artificial selection signals. These regions harbored multiple desirable traits associated with resilience to environmental stress, different yield components, and quality characteristics. P10090 and its derivatives that carry the desirable haplotype can provide a concrete foundation for bread wheat improvement including the genomic selection. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00405752
Volume :
134
Issue :
7
Database :
Complementary Index
Journal :
Theoretical & Applied Genetics
Publication Type :
Academic Journal
Accession number :
151289923
Full Text :
https://doi.org/10.1007/s00122-021-03801-6