Comparison of catalytic functions and expression patterns of two pinene synthases from Wurfbainia villosa.
10.19540/j.cnki.cjcmm.20221101.103
- Author:
Xu-Yi LING
1
;
Xiao-Jing LIN
1
;
Lin-Xuan HUANG
1
;
Peng YANG
1
;
Jin-Fen YANG
1
Author Information
1. Key Laboratory of Chinese Medicine Resource from Lingnan, School of Pharmaceutical Sciences, Guangzhou University of Chinese Medicine Guangzhou 511400, China.
- Publication Type:Journal Article
- Keywords:
Wurfbainia villosa;
expression pattern;
functional identification;
pinene synthase;
α-pinene
- MeSH:
Terpenes;
Amino Acid Sequence;
Anti-Bacterial Agents
- From:
China Journal of Chinese Materia Medica
2023;48(3):642-648
- CountryChina
- Language:Chinese
-
Abstract:
Wurfbainia villosa fruit is rich in volatile terpenoids, among which pinene is one of the main components and has anti-inflammatory, antibacterial, anti-tumor, and other pharmacological activities. This research group found that W. villosa fruits were rich in α-pinene by GC-MS, and terpene synthase(WvTPS63, formerly known as AvTPS1) with β-pinene as the main product was cloned and identified, but α-pinene synthase had not been identified. In this study, based on the genome data of W. villosa, we screened and found WvTPS66 with highly similar sequences to WvTPS63, identified enzyme functions of WvTPS66 in vitro, and performed a comparative analysis of sequence, catalytic function, expression pattern, and promoter with WvTPS63. Multiple sequence alignment showed that the amino acid sequences of WvTPS63 and WvTPS66 were highly similar and the conservative motif of terpene synthase was almost identical. In vitro enzymatic experiments on catalytic functions showed that both could produce pinene, and the main product of WvTPS63 was β-pinene, while that of WvTPS66 was α-pinene. Expression pattern analysis showed that WvTS63 was highly expressed in flowers, WvTPS66 was expressed in the whole plant, and the highest expression level was found in the pericarp, which indicated that it might be mainly responsible for the synthesis of α-pinene in fruits. In addition, promoter analysis revealed the presence of multiple regulatory elements related to stress response in the promoter regions of both genes. The findings of this study can provide a reference for the functional study of terpene synthase genes and new genetic elements for pinene biosynthesis.
