Genomics-informed elucidation of trait-phenotype relationships and MABB approaches deliver major gene blast resistance in the aromatic rice landrace Mushk Budji
Asif Bashir Shikari, Raheel Shafeeq Khan, Noor-ul Ain, F. A. Mohiddin, Gazala Hassan Khan, Najeeb-ul-Rehman Sofi, Zahoor A. Dar, M. Ashraf Ahangar, Gowhar Ali, Aflaq Hamid Wani, Bilal A. Padder

TL;DR
This paper describes the development of blast-resistant rice lines using genomics and breeding techniques in the aromatic rice landrace Mushk Budji.
Contribution
The study introduces a novel MABB approach to pyramid blast resistance genes while preserving key quality traits in a heritage rice variety.
Findings
Two-gene lines with Pi9 + Pi54 were developed with ~90% recurrent parent genome recovery.
Favorable alleles at BADH2, Wx, Rc, Hd1/Hd4/Hd5, and COLD1/COLD6 were retained in the derived NILs.
Advanced lines showed stable performance and blast resistance across multiple environments.
Abstract
A novel set of pyramided lines for durable blast resistance was developed using marker-assisted backcross breeding (MABB) strategy in the genetic background of the aromatic landrace Mushk Budji (MB). Simultaneous-but-stepwise transfer of the blast resistance genes Pi54 and Pi9 was achieved through the integration of foreground selection (FS) and background genome recovery processes, aided by genome-wide SSR and >1500 KASP markers. MABB, whole genome re-sequencing, coupled with stringent phenotypic selection for aroma, amylose content, kernel dimensions, and cooking quality, helped minimize the linkage drag and achieve early recurrent parent genome (RPG) recovery in the inter-cross BC2F2:3 generation. The two-gene lines carrying Pi9 + Pi54 were developed through inter-crossing corresponding near-isogenic lines (NILs) with an RPG of approximately 90%. With the help of sequencing of the…
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Taxonomy
TopicsGABA and Rice Research · Genetic Mapping and Diversity in Plants and Animals · Fungal and yeast genetics research
