Plants (Jun 2023)

Functional Differences of Grapevine Circular RNA <i>Vv-circPTCD1</i> in <i>Arabidopsis</i> and Grapevine Callus under Abiotic Stress

  • Yi Ren,
  • Junpeng Li,
  • Jingjing Liu,
  • Zhen Zhang,
  • Yue Song,
  • Dongying Fan,
  • Minying Liu,
  • Lipeng Zhang,
  • Yuanyuan Xu,
  • Dinghan Guo,
  • Juan He,
  • Shiren Song,
  • Zhen Gao,
  • Chao Ma

DOI
https://doi.org/10.3390/plants12122332
Journal volume & issue
Vol. 12, no. 12
p. 2332

Abstract

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Circular RNAs (circRNAs) serve as covalently closed single-stranded RNAs and have been proposed to influence plant development and stress resistance. Grapevine is one of the most economically valuable fruit crops cultivated worldwide and is threatened by various abiotic stresses. Herein, we reported that a circRNA (Vv-circPTCD1) processed from the second exon of the pentatricopeptide repeat family gene PTCD1 was preferentially expressed in leaves and responded to salt and drought but not heat stress in grapevine. Additionally, the second exon sequence of PTCD1 was highly conserved, but the biogenesis of Vv-circPTCD1 is species-dependent in plants. It was further found that the overexpressed Vv-circPTCD1 can slightly decrease the abundance of the cognate host gene, and the neighboring genes are barely affected in the grapevine callus. Furthermore, we also successfully overexpressed the Vv-circPTCD1 and found that the Vv-circPTCD1 deteriorated the growth during heat, salt, and drought stresses in Arabidopsis. However, the biological effects on grapevine callus were not always consistent with those of Arabidopsis. Interestingly, we found that the transgenic plants of linear counterpart sequence also conferred the same phenotypes as those of circRNA during the three stress conditions, no matter what species it is. Those results imply that although the sequences are conserved, the biogenesis and functions of Vv-circPTCD1 are species-dependent. Our results indicate that the plant circRNA function investigation should be conducted in homologous species, which supports a valuable reference for further plant circRNA studies.

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