Analysis of a rice blast resistance gene Pita-Fuhui2663 and development of selection marker

He, Ning; Huang, Fenghuang; Yu, Mingxiang; Zhu, Yebao; Li, Qingshun Quinn; Yang, Dewei

doi:10.1038/s41598-022-19004-y

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Cited by 5 publications

References 31 publications

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Genome Editing for Trait-Specific Improvement in Rice

Sakthi,

Ramasamy,

Salunkhe

et al. 2024

Climate-Smart Rice Breeding

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Genome Editing for Trait-Specific Improvement in Rice

Sakthi,

Ramasamy,

Salunkhe

et al. 2024

Climate-Smart Rice Breeding

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The unconventional resistance protein PTR recognizes the Magnaporthe oryzae effector AVR-Pita in an allele-specific manner

Xiao,

Laksanavilat,

Cesari

et al. 2024

Nat. Plants

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Identification of Genetic Loci for Grain Traits and Disease Resistance Reveals a Potential Trade-Off in Rice

Jia,

Box

2024

PhytoFrontiers™

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Understanding how plants utilize limited resources for reproductivity and disease resistance can improve the efficiency of plant breeding. In the present study, we mapped genes for grain traits including grain length and width, and thousand grain weight. A previously constructed linkage map of a recombinant inbred line population was used, which was derived from a cross between an indica restorer rice variety Minghui63 and a temperate japonica rice variety M-202. The MHM population was grown in replicated field plots and grain trait data were collected. Upon a 3-year field evaluation 2016-2018, a total of 16 loci were mapped on 9 of 12 chromosomes, including 7 for grain length, 4 for grain weight, and 5 for thousand grain weight. A thousand grain weight locus qTGW2 a grain width locs qWIG2.2 were mapped at known blast resistance locus qBLAST2 on chromosome 2 that harbors a major blast resistance allele Pi-b. Another thousand grain weight locus qTGW3.3 and a grain length locus qLNG3.3 were mapped at qBLAST3 on chromosome 3. These results reveal potential tradeoffs between disease resistance and productivity, which is important for breeders to develop high yielding and disease resistant rice varieties.

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Analysis of a rice blast resistance gene Pita-Fuhui2663 and development of selection marker

Cited by 5 publications

References 31 publications

Genome Editing for Trait-Specific Improvement in Rice

Genome Editing for Trait-Specific Improvement in Rice

The unconventional resistance protein PTR recognizes the Magnaporthe oryzae effector AVR-Pita in an allele-specific manner

Identification of Genetic Loci for Grain Traits and Disease Resistance Reveals a Potential Trade-Off in Rice

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