Allah Ditta Babar scite author profile

Super Basmati is an elite variety with extra-long grains and superior quality but its yield is severely affected by water stress. Recombinant inbred lines (RILs) developed from the cross of Super Basmati and IR55419-04 (a coarse grained variety with high yield potential) were used to identify and map yield-related quantitative trait loci (QTLs) under normal field conditions. Genotypes for 244 KASP markers were obtained from 188 F9 RILs and a linkage map constructed of 1369.4 cM, with average marker interval of 10.5 cM. Eleven agronomic traits were phenotyped in RILs and parents. Composite interval mapping and inclusive composite interval mapping model identified 21 common QTLs related to nine agronomic traits; of the QTLs identified, twelve mapped at novel positions. LOD scores ranged from 2.51 for number of filled grains (qFG1.1) to 16.8 for plant height (qPH1.1). Four major effect QTLs could explain 20% of variation related for plant height, hundred-grain weight and grain width. Alleles from IR55419-04 improved grain filling, grain weight and grain width, while alleles from Super Basmati contributed to longer grains, panicles and flag leaves. Putative candidate genes were identified for 18 yield-related QTLs. These results validate the use of KASP genotyping for QTL mapping of yield-related traits in a bi-parental segregating population. SNPs in the QTLs identified in this study can be used in marker assisted selection for yield components to improve Basmati rice.

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Correction: KASP mapping of QTLs for yield components using a RIL population in Basmati rice (Oryza sativa L.)

Ashfaq

Rani

Perveen

et al. 2023

Euphytica

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Allah Ditta Babar

Development of Basmati lines by the introgression of three bacterial blight resistant genes through marker-assisted breeding

KASP mapping of QTLs for yield components using a RIL population in Basmati rice (Oryza sativa L.)

Correction: KASP mapping of QTLs for yield components using a RIL population in Basmati rice (Oryza sativa L.)

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