真菌二萜合酶基因的分子与功能进化

Molecular and functional evolution of the fungal diterpene synthase genes.

作者信息

Fischer Marc J C, Rustenhloz Camille, Leh-Louis Véronique, Perrière Guy

机构信息

Université de Strasbourg, INRA, Inst Natl Recherche Agron, Métab Second Vigne, Unit Mixte Recherche Santé Vigne & Qual Vins, 28 rue de Herrlisheim, F-68021, Colmar, France.

Université de Strasbourg, CNRS, FRE 2326, Institut de Biologie Moléculaire et Cellulaire du CNRS, UPR 9002, 15 rue René Descartes, F-67084, Strasbourg, France.

出版信息

BMC Microbiol. 2015 Oct 19;15:221. doi: 10.1186/s12866-015-0564-8.

DOI:10.1186/s12866-015-0564-8

PMID:26483054

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4617483/

Abstract

BACKGROUND

Terpenes represent one of the largest and most diversified families of natural compounds and are used in numerous industrial applications. Terpene synthase (TPS) genes originated in bacteria as diterpene synthase (di-TPS) genes. They are also found in plant and fungal genomes. The recent availability of a large number of fungal genomes represents an opportunity to investigate how genes involved in diterpene synthesis were acquired by fungi, and to assess the consequences of this process on the fungal metabolism.

RESULTS

In order to investigate the origin of fungal di-TPS, we implemented a search for potential fungal di-TPS genes and identified their presence in several unrelated Ascomycota and Basidiomycota species. The fungal di-TPS phylogenetic tree is function-related but is not associated with the phylogeny based on housekeeping genes. The lack of agreement between fungal and di-TPS-based phylogenies suggests the presence of Horizontal Gene Transfer (HGTs) events. Further evidence for HGT was provided by conservation of synteny of di-TPS and neighbouring genes in distantly related fungi.

CONCLUSIONS

The results obtained here suggest that fungal di-TPSs originated from an ancient HGT event of a single di-TPS gene from a plant to a fungus in Ascomycota. In fungi, these di-TPSs allowed for the formation of clusters consisting in di-TPS, GGPPS and P450 genes to create functional clusters that were transferred between fungal species, producing diterpenes acting as hormones or toxins, thus affecting fungal development and pathogenicity.

摘要

背景

萜类化合物是最大且最多样化的天然化合物家族之一，在众多工业应用中都有使用。萜烯合酶（TPS）基因起源于细菌，最初是二萜合酶（di-TPS）基因。它们也存在于植物和真菌基因组中。近期大量真菌基因组的可得性为研究真菌如何获得参与二萜合成的基因以及评估这一过程对真菌代谢的影响提供了契机。

结果

为了探究真菌二萜合酶的起源，我们对潜在的真菌二萜合酶基因进行了搜索，并在几种不相关的子囊菌门和担子菌门物种中发现了它们的存在。真菌二萜合酶系统发育树与功能相关，但与基于管家基因的系统发育无关。基于真菌和二萜合酶的系统发育之间缺乏一致性表明存在水平基因转移（HGT）事件。远距离相关真菌中二萜合酶和邻近基因的共线性保守性为水平基因转移提供了进一步证据。

结论

此处获得的结果表明，真菌二萜合酶起源于子囊菌门中一个单一二萜合酶基因从植物到真菌的古老水平基因转移事件。在真菌中，这些二萜合酶促使由二萜合酶、牻牛儿基牻牛儿基焦磷酸合酶（GGPPS）和细胞色素P450基因组成的簇形成，从而产生功能性簇，这些簇在真菌物种之间转移，产生作为激素或毒素的二萜，进而影响真菌的发育和致病性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/468f/4617483/ecb872632ac9/12866_2015_564_Fig1_HTML.jpg

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真菌二萜合酶基因的分子与功能进化

Molecular and functional evolution of the fungal diterpene synthase genes.

作者信息

Fischer Marc J C, Rustenhloz Camille, Leh-Louis Véronique, Perrière Guy

机构信息

Université de Strasbourg, INRA, Inst Natl Recherche Agron, Métab Second Vigne, Unit Mixte Recherche Santé Vigne & Qual Vins, 28 rue de Herrlisheim, F-68021, Colmar, France.

Université de Strasbourg, CNRS, FRE 2326, Institut de Biologie Moléculaire et Cellulaire du CNRS, UPR 9002, 15 rue René Descartes, F-67084, Strasbourg, France.