Genome-Based Discovery of Enantiomeric Pentacyclic Sesterterpenes Catalyzed by Fungal Bifunctional Terpene Synthases.

Lan JiangXue ZhangYuya SatoGuoliang ZhuAtsushi MinamiWeiyan ZhangTaro OzakiBin ZhuZhixin WangXinye WangKangjie LvJingyu ZhangYong-Heng Wang Shu-Shan Gao Chengwei LiuTom HsiangLixin ZhangHideaki Oikawa Xueting Liu

Published in: Organic letters (2021)

Genome-based discovery of two previously unreported fungal bifunctional terpene synthases (BFTSs) from phytopathogenic fungi are reported: FoFS catalyzing the formation of fusoxypenes A-C (1-3) and (-)-astellatene (4) and AtAS capable of synthesizing preaspterpenacid I (6). Interestingly, FoFS and AtAS catalyzed the formation of enantiomeric sesterterpenes with a 5-6-7-3-5 ring system. C22-oxidative modification of preaspterpenacid I by AtP450 was characterized as well. Plausible cyclization pathways of the fusoxypenes were illustrated by DFT calculations.

Keyphrases

small molecule
density functional theory
room temperature
high throughput
capillary electrophoresis
genome wide
highly efficient
molecular dynamics
metal organic framework
cell wall
molecular dynamics simulations
gene expression
mass spectrometry
dna methylation
monte carlo