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Fine Mapping of Two Interacting Loci for Transmission Ratio Distortion in Rice ( L.). | LitMetric

AI Article Synopsis

  • Transmission ratio distortion (TRD) refers to the deviation of allele frequencies from expected Mendelian ratios, affecting gene flow in rice species.
  • The study identifies two loci responsible for TRD by analyzing F segregating populations derived from rice lines, revealing that Zhenshan (ZS97) alleles are preferentially transmitted in offspring.
  • Findings suggest that one locus causes male gametic selection and interacts epistatically with another locus, providing insights into the genetic basis of TRD and potential strategies for rice breeding improvements.

Article Abstract

Transmission ratio distortion (TRD) denotes the observed allelic or genotypic frequency deviation from the expected Mendelian segregation ratios in the offspring of a heterozygote. TRD can severely hamper gene flow between and within rice species. Here, we report the fine mapping and characterization of two loci ( and ) for TRD using large F segregating populations, which are derived from rice chromosome segment substitution lines, each containing a particular genomic segment introduced from the cultivar Nipponbare (NIP) into the cultivar Zhenshan (ZS97). The two loci exhibited a preferential transmission of ZS97 alleles in the derived progeny. Reciprocal crossing experiments using near-isogenic lines harboring three different alleles at suggest that the gene causes male gametic selection. Moreover, the transmission bias of was diminished in heterozygotes when they carried homozygous . This indicates an epistatic interaction between these two loci. was mapped into a 35-kb region encompassing one candidate gene that is specifically expressed in the reproductive organs in rice. These findings broaden the understanding of the genetic mechanisms of TRD and offer an approach to overcome the barrier of gene flow between the subspecies in rice, thus facilitating rice improvement by introgression breeding.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9002327PMC
http://dx.doi.org/10.3389/fpls.2022.866276DOI Listing

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