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Journal article
Dissecting multi-rust resistance in wheat through genome-wide association study, haplotype analysis, and marker validation
The plant genome, Vol.19(1), e70188
2026
PMID: 41705476
Abstract
Wheat is a major global staple food affected by three diseases: leaf rust (LR), stem rust (SR), and stripe rust (YR), all of which can cause substantial yield losses. Identifying genotypes with broad-spectrum resistance to diverse pathotypes of all three rusts remains a major challenge. In this study, we examined the genomic basis of resistance to three rust diseases LR, SR, and YR in a diverse panel of 346 bread wheat (Triticum aestivum) accessions. The seedling stage phenotypic evaluation was performed for 2 years using prevalent and virulent pathotypes. Based on best linear unbiased estimators, LR and YR displayed right-skewed distributions, whereas SR showed a bimodal pattern. Genotyping with the 35K Axiom Wheat Breeders Array, followed by quality control, yielded 11,910 high-quality single nucleotide polymorphisms (SNPs). Population structure analysis revealed five subpopulations and a whole genome linkage disequilibrium decay of 3.49 Mb. Multi-trait genome-wide association studies identified 11 significant SNPs distributed on chromosomes 3A, 3B, 3D, and 7B, which were associated with 47 disease resistance genes, 22 of which were highly expressed in at least one condition. The haplotype analysis revealed eight different haplotypes, where H006 and H007 were superior in terms of multiple rust resistance (MRR). Note that 17 elite accessions, including IC427824 and HGP1-359, were selected using multi-trait genotype ideotype distance index analysis. Three key Kompetitive allele specific polymerase chain reaction (KASP) markers, AX94381808, AX94874313, and AX94807942 were developed and validated. This integrated genomic approach advances the identification process and can accelerate the breeding of wheat cultivars with durable MRR.
Details
- Title
- Dissecting multi-rust resistance in wheat through genome-wide association study, haplotype analysis, and marker validation
- Authors/Creators
- Thamaraikannan Sivakumar - National Bureau of Plant Genetic ResourcesDivya Sharma - National Bureau of Plant Genetic ResourcesV K Vikas - Indian Agricultural Research InstituteNeeraj Budhlakoti - Indian Agricultural Statistics Research InstituteO P Gangwar - Indian Council of Agricultural ResearchPramod Prasad - Indian Council of Agricultural ResearchAnkita Mohapatra - National Bureau of Plant Genetic ResourcesSathishkumar R - National Bureau of Plant Genetic ResourcesDeepak Singh Bisht - National Research Centre on Plant BiotechnologyPriyanka Jain - National Research Centre on Plant BiotechnologyRitu Sharma - National Bureau of Plant Genetic ResourcesBonipas Antony John - Tamil Nadu Agricultural UniversityReyazul Rouf Mir - Murdoch University, Food Futures InstituteFarkhandah Jan - Murdoch UniversityDwijesh C Mishra - Indian Agricultural Statistics Research InstituteSatinder Kaur - Punjab Agricultural UniversityAmit Kumar Singh - National Bureau of Plant Genetic ResourcesG P Singh - National Bureau of Plant Genetic ResourcesSundeep Kumar - National Bureau of Plant Genetic Resources
- Publication Details
- The plant genome, Vol.19(1), e70188
- Publisher
- Wiley Periodicals LLC on behalf of Crop Science Society of America.
- Number of pages
- 33
- Grant note
- 1006445 / Centre for Agricultural Bioinformatics BT/Ag/Network/Wheat/2019-2020 / Department of Biotechnology, Ministry of Science and Technology, India
- Identifiers
- 991005866792807891
- Copyright
- © 2026 The Author(s).
- Murdoch Affiliation
- Centre for Crop and Food Innovation; Food Futures Institute
- Language
- English
- Resource Type
- Journal article
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