Genetic improvement of traditional Basmati rice Ranbir Basmati for semi-dwarfism and blast resistance through molecular breeding

The traditional Basmati rices grown in north-western foothills of Himalayas in India are known world-wide for their exquisite aroma and exceptional eating and cooking qualities. These varieties are tall and suffer heavy losses due to their susceptibility to lodging as well as blast disease. In prese...

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Bibliographic Details
Published inPlant gene Vol. 32; p. 100386
Main Authors Pote, Tushar Diliprao, Kaachra, Anish, Thakur, Kalpna, Salgotra, Ramesh Kumar, Krishnan, S. Gopala, Rathour, Rajeev
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2022
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Summary:The traditional Basmati rices grown in north-western foothills of Himalayas in India are known world-wide for their exquisite aroma and exceptional eating and cooking qualities. These varieties are tall and suffer heavy losses due to their susceptibility to lodging as well as blast disease. In present study, we improved a popular traditional Basmati rice variety ‘Ranbir Basmati’ for semi-dwarfism and resistance to blast by incorporating the semi-dwarfing gene, sd1 and two blast resistance genes, Pi9 and Pi54 through marker-assisted backcross breeding. Combining marker-assisted background selection with stringent phenotypic selection for aroma and seed quality traits during backcrossing enabled faster recovery of recurrent parent genome and reconstitution of the genomic regions associated with Basmati quality traits in the gene pyramided lines. All pyramided lines were significantly short statured with a reduction of 23.46 to 40.26 cm in height, as compared to recurrent parent, with many of them exhibiting higher grain yield and superior quality attributes than Ranbir Basmati. The yield superiority of the pyramided lines primarily resulted from the improvement in panicle number and semi-dwarf stature conferred by sd1 gene. The gene pyramided lines showed complete resistance to five highly virulent blast races that collectively showed compatibility with 16 different resistance genes, suggesting the broad-spectrum resistance in these lines. The semi-dwarf, high yielding and blast resistant lines generated herein are potential candidates for release as cultivars for overcoming losses in Ranbir Basmati due to lodging and blast disease.
ISSN:2352-4073
2352-4073
DOI:10.1016/j.plgene.2022.100386