The Sage Genome Provides Insight into the Evolutionary Dynamics of Diterpene Biosynthesis Gene Cluster in Plants

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2022 Aug 17

PMID 35977487

Authors

Chen-Yi Li

Lei Yang

Yan Liu

Zhou-Geng Xu

Jian Gao

Yan-Bo Huang

Jing-Jing Xu

Hang Fan

Yu Kong

Yu-Kun Wei

Wen-Li Hu

Ling-Jian Wang

Qing Zhao

Yong-Hong Hu

Yi-Jing Zhang

Cathie Martin

Xiao-Ya Chen

Affiliations

Soon will be listed here.

Abstract

The widely cultivated medicinal and ornamental plant sage (Salvia officinalis L.) is an evergreen shrub of the Lamiaceae family, native to the Mediterranean. We assembled a high-quality sage genome of 480 Mb on seven chromosomes, and identified a biosynthetic gene cluster (BGC) encoding two pairs of diterpene synthases (diTPSs) that, together with the cytochromes P450 (CYPs) genes located inside and outside the cluster, form two expression cascades responsible for the shoot and root diterpenoids, respectively, thus extending BGC functionality from co-regulation to orchestrating metabolite production in different organs. Phylogenomic analysis indicates that the Salvia clades diverged in the early Miocene. In East Asia, most Salvia species are herbaceous and accumulate diterpenoids in storage roots. Notably, in Chinese sage S. miltiorrhiza, the diterpene BGC has contracted and the shoot cascade has been lost. Our data provide genomic insights of micro-evolution of growth type-associated patterning of specialized metabolite production in plants.

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