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Superior haplotypes of genes associated with higher grain yield under reproductive stage drought stress in rice

Understanding the genetic basis of reproductive stage drought tolerance (RSDT) requires bridging genomic variations with phenotype. This study employed a genome-wide association study (GWAS) using 450 rice accessions for grain yield under reproductive stage drought stress across three locations and...

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Autores principales: Singh, Preeti, Pahi, Bandana, Sundaram, Krishna T., Gnanapragasam, Niranjani, Habde, Sonali Vijay, Kumar, Nandigam Vinay, Patil, Namrata Devidas, Paul, Pronob J., Kumar, Ravi Shekhar, Singh, Suresh Prasad, Kalia, Sanjay, Kumar, Arvind, Kohli, Ajay, Singh, Uma Maheshwar, Singh, Vikas Kumar, Sinha, Pallavi
Formato: Journal Article
Lenguaje:Inglés
Publicado: Oxford University Press 2025
Materias:
rice
reproductive stage
crop yield
genomics
genome-wide association
haplotypes
candidate genes
plant breeding
stress tolerance
Acceso en línea:https://hdl.handle.net/10568/176447
Sumario:Understanding the genetic basis of reproductive stage drought tolerance (RSDT) requires bridging genomic variations with phenotype. This study employed a genome-wide association study (GWAS) using 450 rice accessions for grain yield under reproductive stage drought stress across three locations and two seasons. The results revealed 67 marker–trait associations (MTAs) that corresponded to 23 candidate genes. Superior haplotypes were identified for 10 RSDT-related genes, namely SAP-H22, WRKY109-H6, OsIRO2-H3, OsSOBIR1-H68, OsPGL31-H8, OsDAHPS1-H2, ZCD-H13, OsMC2-H8, Ospdr9-H16, and SDR-H2. These genes are involved in stress-related processes such as transcription regulation, cell wall structure modification, leaf rolling, programmed cell death, redox stress, and secondary metabolite accumulation. Notably, introgressing superior haplotypes from the OsIRO2-H3 gene into an elite rice cultivar led to a yield advantage of 25.0–27.3% over recurrent parents. These findings highlight the potential of these genes as valuable resources for breeding high-yielding, drought-tolerant rice varieties.

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