Agronomy (Feb 2024)

Fine-Mapping and Candidate Gene Analysis of <i>qSERg-1b</i> from <i>O. glumaepatula</i> to Improve Stigma Exsertion Rate in Rice

  • Lixia Cao,
  • Juncheng Dan,
  • Xiaohui Li,
  • Quanya Tan,
  • Shaodi Zhang,
  • Ruifeng Song,
  • Xuelin Fu

DOI
https://doi.org/10.3390/agronomy14020323
Journal volume & issue
Vol. 14, no. 2
p. 323

Abstract

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The stigma exsertion rate (SER) is one of the important factors affecting the seed production of hybrid rice. In the genus Oryza, wild rice species usually show higher SERs than cultivars. We previously identified one novel SER-QTL, qSERg-1b, from the single-segment substitution line (SSSL) SG22 of O. glumaepatula. In this study, qSERg-1b was fine-mapped by developing the secondary SSSLs (s-SSSLs) of SG22 and substitution mapping among the s-SSSLs. A total of 11 s-SSSLs were developed and used for qSERg-1b fine-mapping. As a result, qSERg-1b was narrowed down to the 122.59 kb physical region between InDel markers M01 and M49. There were 19 genes annotated in both O. glumaepatula and the HJX74 genomes at the qSERg-1b interval. Based on the genome re-sequencing of SG22 and HJX74, and the expression levels of the annotated functional genes, multiple nucleotide variations were found in LOC_Os01g53630, LOC_Os01g53680, and LOC_Os01g53710, including base substitutions and insertions/deletions of the genes, and they also showed significant differences in expression levels between SG22 and HJX74. Therefore, LOC_Os01g53630, LOC_Os01g53680, and LOC_Os01g53710 were selected as the most possible candidate genes of qSERg-1b for further validation. The above results laid an important foundation for qSERg-1b cloning and provided valuable resources for molecular breeding of SER in rice.

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