Agronomy (Apr 2024)

Identification of Candidate Genes for Salt Tolerance at Seedling Stage in Rice Using QTL-Seq and Chromosome Segment Substitution Line-Derived Population

  • Jiraporn Leawtrakun,
  • Wanchana Aesomnuk,
  • Srisawat Khanthong,
  • Reajina Dumhai,
  • Decha Songtoasesakul,
  • Sunadda Phosuwan,
  • Jiratchaya Nuanpirom,
  • Varodom Charoensawan,
  • Jonaliza L. Siangliw,
  • Vinitchan Ruanjaichon,
  • Theerayut Toojinda,
  • Samart Wanchana,
  • Meechai Siangliw,
  • Siwaret Arikit

DOI
https://doi.org/10.3390/agronomy14050929
Journal volume & issue
Vol. 14, no. 5
p. 929

Abstract

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Rice is a staple food for more than half of the world’s population. However, the pervasive problem of salinity is severely undermining rice production, especially in coastal and low-lying areas where soil salinization is widespread. This stress, exacerbated by climate change, necessitates the development of salt-tolerant rice varieties to ensure food security. In this study, an F2:3 population (n = 454) from a cross of KDML105 and its chromosome segment substitution line (CSSL) was used to identify genomic regions associated with salt tolerance at the seedling stage. Using the QTL-seq approach, a QTL significantly associated with salt tolerance was identified on chromosome 1. Annotation of candidate genes in this region revealed the potential regulators of salt tolerance, including MIKC-type MADS domain proteins, calmodulin-binding transcription factors, and NB-ARC domain-containing proteins. These and other identified genes provide insights into the genetic basis of salt tolerance. This study underscores the importance of using advanced genomics tools and CSSL populations in the study of complex traits such as salt tolerance in rice. Several candidate genes identified in this study could be used in further studies on molecular or physiological mechanisms related to the salt response and tolerance mechanism in rice. Additionally, these genes could also be utilized in plant breeding programs for salt tolerance.

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