Flavan-3-ol Galloylation-Related Functional Gene Cluster and the Functional Diversification of SCPL Paralogs in Camellia sp.

The high accumulation of galloylated flavan-3-ols in Camellia sp. is a noteworthy phenomenon. We identified a flavan-3-ol galloylation-related functional gene cluster in tannin-rich plant Camellia sp., which included UGT84A22 and SCPL-AT gene clusters. We investigated the possible correlation between the accumulation of metabolites and the expression of SCPL-ATs and UGT84A22. The results revealed that C. sinensis, C. ptilophylla, and C. oleifera accumulated galloylated cis-flavan-3-ols (EGCG), galloylated trans-flavan-3-ols (GCG), and hydrolyzed tannins, respectively; however, C. nitidissima did not accumulate any galloylated compounds. C. nitidissima exhibited no expression of SCPL-AT or UGT84A22, whereas the other three species of Camellia exhibited various expression patterns. This indicated that the functions of the paralogs of SCPL-AT vary. Enzymatic analysis revealed that SCPL5 was neofunctionalized as a noncatalytic chaperone paralog, a type of chaerone-like protein, associating with flavan-3-ol galloylation; moreover, CsSCPL4 was subfunctionalized in association with the galloylation of cis- and trans-flavan-3-ols. In C. nitidissima, an SCPL4 homolog was noted with mutations in two cysteine residues forming a disulfide bond, which suggested that this homolog was defunctionalized. The findings of this study improve our understanding of the functional diversification of SCPL paralogs in Camellia sp.

Citation

Yue Zhao, Shengbo Yao, Xue Zhang, Zhihui Wang, Changjuan Jiang, Yajun Liu, Xiaolan Jiang, Liping Gao, Tao Xia. Flavan-3-ol Galloylation-Related Functional Gene Cluster and the Functional Diversification of SCPL Paralogs in Camellia sp. Journal of agricultural and food chemistry. 2023 Jan 11;71(1):488-498

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PMID: 36562642

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