Frontiers in Genetics (Jul 2024)

Transcriptomic analysis for the gamma-ray-induced sweetpotato mutants with altered stem growth pattern

  • Hyeong-Un Lee,
  • Hyeong-Un Lee,
  • Sangrea Shim,
  • Mi Nam Chung,
  • Taeyoung Lee,
  • Won Park,
  • Tae Hwa Kim,
  • Kyo Hwui Lee,
  • Koan Sik Woo,
  • Sang-Sik Nam,
  • Moon Young Kim,
  • Moon Young Kim,
  • Suk-Ha Lee,
  • Suk-Ha Lee

DOI
https://doi.org/10.3389/fgene.2024.1419399
Journal volume & issue
Vol. 15

Abstract

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IntroductionSweetpotato faces breeding challenges due to physiological and genomic issues. Gamma radiation is a novel approach for inducing genetic variation in crops. We analyzed the transcriptomic changes in gamma ray-induced sweetpotato mutants with altered stem development compared with those in the wild-type 'Tongchaeru’ cultivar.MethodsRNA sequencing analyses were performed to identify changes in the expression of genes related to stem development.ResultsTranscriptomic analysis identified 8,931 upregulated and 6,901 downregulated genes, including the upregulation of the auxin-responsive SMALL AUXIN UP RNA (SAUR) and three PHYTOCHROME INTERACTING FACTOR 4 (PIF4) genes. PIF4 is crucial for regulating the expression of early auxin-responsive SAUR genes and stem growth in Arabidopsis thaliana. In the mutant, several genes related to stem elongation, including PIF4 and those involved in various signaling pathways such as auxin and gibberellin, were upregulated.DiscussionOur results suggest that gamma ray-induced mutations influence auxin-dependent stem development by modulating a complex regulatory network involving the expression of PIF4 and SAUR genes, and other signaling pathways such as gibberellin and ethylene signaling genes. This study enhances our understanding of the regulatory mechanisms underlying stem growth in sweetpotato, providing valuable insights for genomics-assisted breeding efforts.

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