Horticulturae (Apr 2022)

Genome-Wide Analyses of Tea Plant Stress-Associated Proteins (SAPs) Reveal the Role of <i>CsSAP12</i> in Increased Drought Tolerance in Transgenic Tomatoes

  • Shu-Chen Fan,
  • Chun Li,
  • Shao-Hua Li,
  • Jie Tang,
  • Hong-Di Shi,
  • Tian-Ming Yang,
  • Ming-Zhi Liang,
  • Dan-Dan Liu

DOI
https://doi.org/10.3390/horticulturae8050363
Journal volume & issue
Vol. 8, no. 5
p. 363

Abstract

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Plant stress-associated proteins (SAPs) contain A20/AN1 zinc finger domains and are involved in plant response to abiotic stresses. In this study, we aimed to explore the biological function of tea plant CsSAPs. A total of 14 CsSAP genes were identified in the tea plant genome using a reference genome database (Camellia sinensis var. sinensis). The CsSAPs were divided into the following two groups: Group I, containing one AN1 domain and/or one A20 domain; and Group II, containing two AN1 domains and/or two C2H2 domains. The sequence alignments and conserved domains analysis indicated that the CsSAPs were highly structurally conserved in terms of amino acid sequence and protein structure. The CsSAPs showed different transcript levels in spatio-temporal expression and in response to cold and drought stress in tea plants. Furthermore, the expression of CsSAP12 was considerably upregulated under drought stress. The overexpression of CsSAP12 in transgenic tomatoes showed increased tolerance to drought stress compared with the wild type. Altogether, the results showed that CsSAP12 might be involved in drought stress. Thus, CsSAP12 might be a target gene in genetic engineering to improve drought tolerance in tea plants.

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