| Literature DB >> 32061142 |
Xinlong Dai1,2, Yajun Liu3, Juhua Zhuang1, Shengbo Yao1, Li Liu1, Xiaolan Jiang1, Kang Zhou3, Yunsheng Wang3, Deyu Xie1,4, Jeffrey L Bennetzen1,5, Liping Gao3, Tao Xia1.
Abstract
Plant tannins, including condensed tannins (CTs) and hydrolyzable tannins (HTs), are widely distributed in the plant kingdom. To date, tannase (TA) - is a type of tannin acyl-hydrolase hydrolyzing HTs, CT monomer gallates and depsides - has been reported in microbes only. Whether plants express TA remains unknown. Herein, we report plant TA genes. A native Camellia sinensis TA (CsTA) is identified from leaves. Six TAs are cloned from tea, strawberry (Fragaria × ananassa, Fa) and four other crops. Biochemical analysis shows that the native CsTA and six recombinant TAs hydrolyze tannin compounds, depsides and phenolic glycosides. Transcriptional and metabolic analyses reveal that the expression of CsTA is oppositely associated with the accumulation of galloylated catechins. Moreover, the transient overexpression and RNA interference of FaTA are positively associated with the accumulation of ellagitannins in strawberry fruit. Phylogenetic analysis across different kingdoms shows that 29 plant TA homologs are clustered as a plant-specific TA clade in class I carboxylesterases. Further analysis across the angiosperms reveals that these TA genes are dispersed in tannin-rich plants, which share a single phylogenetic origin c. 120 million yr ago. Plant TA is discovered for the first time in the plant kingdom and is shown to be valuable to improve tannin compositions in plants.Entities:
Keywords: biochemical analysis; galloylated catechins; phylogenetic origin; plant kingdom; tannase; tannins
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Year: 2020 PMID: 32061142 DOI: 10.1111/nph.16425
Source DB: PubMed Journal: New Phytol ISSN: 0028-646X Impact factor: 10.151