Genome-wide identification of PP2A gene family in Camellia sinensis reveals the potential role of CsPP2A-TON2/FASS1 in abiotic stress

Surjit Bhattacharjee; Abhirup Paul; Aradhana Jana; G Meher Unnati; Deepak R; Ye Miao; Honglin Lu; Guoxin Shen; Neelam Mishra

doi:10.7717/peerj.19431

Genome-wide identification of PP2A gene family in Camellia sinensis reveals the potential role of CsPP2A-TON2/FASS1 in abiotic stress

PeerJ. 2025 May 27:13:e19431. doi: 10.7717/peerj.19431. eCollection 2025.

Authors

Surjit Bhattacharjee^#^{1

2}, Abhirup Paul^#¹, Aradhana Jana¹, G Meher Unnati¹, Deepak R¹, Ye Miao³, Honglin Lu⁴, Guoxin Shen⁴, Neelam Mishra²

Affiliations

¹ Bengaluru, Karnataka, India.
² Department of Botany, St. Joseph's University, Bengaluru, Karnataka, India.
³ Qingtian Forestry Technology Extended Station, Qingtian, China.
⁴ Zhejiang Academy of Agricultural Sciences, Hangzhou, China.

^# Contributed equally.

Abstract

Background: Protein phosphatases (PP) play a crucial role in regulation of physiological response to various environmental stimuli in plants. Protein phosphatase 2A (PP2A) are a class of Ser/Thr protein phosphatases which are present widely across plant species and facilitate plant responses to biotic and abiotic stresses, and hormone treatment.

Methods: Using BLASTp, tea PP2A genes were found and their physicochemical characteristics (ExPASy), subcellular localization, and intron-exon structure (GSDS) were described. MEGA software was used to examine phylogenetic relationships, SMART online tool to analyze conserved domains, and PlantCARE tool to analyze cis-elements. The Heatmapper online tool was used to visualize expression profiles across plant tissues and stress conditions. Under controlled conditions, 2-year-old Camellia sinensis plants were exposed to methyl jasmonate (MeJA) stress treatments, cold drought, and salt stresses and qRT-PCR (2^-ΔΔCt technique, CsACTIN as internal control) was used to validate the results.

Results: We found 11 PP2A genes in C. sinensis (CsPP2A) through a genome-wide search wherein Arabidopsis thaliana was taken as the reference genome. Further, a systematic study was conducted wherein physicochemical properties, phylogeny, gene structure and gene expression were explored. Analysis of cis-elements, gene ontology, and expression patterns of CsPP2A genes under various stresses, combined with prior research on the PP2A gene family in other plants, suggests that the PP2A family plays a role in regulating phytohormone (auxin, salicylic acid, gibberellin, abscisic acid, MeJA) responses during stress in C. sinensis. The real time PCR also confirmed the potential role of (TEA018948.1) CsPP2AB9/CsPP2A-TON2/FASS1 gene in abiotic stress responses.

Conclusion: This study offers potential goals for further in-depth investigation and functional analysis, alongside enhancing our understanding of the regulatory network of PP2A genes in C. sinensis.

Keywords: C. sinensis.; Drought stress; Genome-wide search; PP2A gene family; Protein phosphatases; Salt stress; Stress-responsiveness; qRT-PCR.

MeSH terms

Acetates / pharmacology
Camellia sinensis* / enzymology
Camellia sinensis* / genetics
Cyclopentanes / pharmacology
Droughts
Gene Expression Regulation, Plant
Oxylipins / pharmacology
Phylogeny
Plant Proteins* / genetics
Plant Proteins* / metabolism
Protein Phosphatase 2* / genetics
Protein Phosphatase 2* / metabolism
Stress, Physiological* / genetics

Substances

Plant Proteins
Protein Phosphatase 2
Oxylipins
methyl jasmonate
Acetates
Cyclopentanes