Peptides derived from Kex2-processed repeat proteins are widely distributed and highly diverse in the Fungi kingdom.

Q1 Agricultural and Biological Sciences Fungal Biology and Biotechnology Pub Date : 2020-07-01 eCollection Date: 2020-01-01 DOI:10.1186/s40694-020-00100-5
Maiko Umemura
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Abstract

Background: Recently, a gene cluster responsible for biosynthesis of ustiloxin in Aspergillus flavus was identified as the first case of a ribosomally synthesized and post-translationally modified peptide (RiPP) synthetic pathway in Ascomycota. RiPPs are biosynthesized from precursor peptides, which are processed to produce the RiPP backbone (core peptides) for further modifications such as methylation and cyclization. Ustiloxin precursor peptide has two distinctive features: a signal peptide for translocation into the endoplasmic reticulum and highly repeated core sequences cleaved by Kex2 protease in the Golgi apparatus. On the basis of these characteristics, the ustiloxin-type RiPP precursor peptides or Kex2-processed repeat proteins (KEPs) in strains belonging to the Fungi kingdom were computationally surveyed, in order to investigate the distribution and putative functions of KEPs in fungal ecology.

Results: In total, 7878 KEPs were detected in 1345 of 1461 strains belonging to 8 phyla. The average number of KEPs per strain was 5.25 in Ascomycota and 5.30 in Basidiomycota, but only 1.35 in the class Saccharomycetes (Ascomycota) and 1.00 in the class Tremellomycetes (Basidiomycota). The KEPs were classified into 838 types and 2560 stand-alone ones, which had no homologs. Nearly 200 types were distributed in more than one genus, and 14 types in more than one phylum. These types included yeast α-mating factors and fungal pheromones. Genes for 22% KEPs were accompanied by genes for DUF3328-domain-containing proteins, which are indispensable for cyclization of the core peptides. DUF3328-domain-containing protein genes were located at an average distance of 3.09 genes from KEP genes. Genes for almost all (with three exceptions) KEPs annotated as yeast α-mating factors or fungal pheromones were not accompanied by DUF3328-domain-containing protein genes.

Conclusion: KEPs are widely distributed in the Fungi kingdom, but their repeated sequences are highly diverse. From these results and some examples, a hypothesis was raised that KEPs initially evolved as unmodified linear peptides (e.g., mating factors), and then those that adopted a modified cyclic form emerged (e.g., toxins) to utilize their strong bioactivity against predators and competitive microorganisms.

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由 Kex2 处理的重复蛋白衍生出的肽在真菌王国中分布广泛,种类繁多。
背景:最近,在黄曲霉(Aspergillus flavus)中发现了一个负责生物合成乌司替罗星(ustiloxin)的基因簇,这是子囊菌中第一例核糖体合成和翻译后修饰肽(RiPP)合成途径。RiPP 是由前体肽生物合成的,前体肽经过加工产生 RiPP 骨架(核心肽),然后进行甲基化和环化等进一步修饰。Ustiloxin 前体肽有两个显著特点:一个是转运到内质网的信号肽,另一个是在高尔基体中被 Kex2 蛋白酶裂解的高度重复的核心序列。根据这些特征,对真菌王国菌株中的乌司他星型RiPP前体肽或Kex2加工的重复蛋白(KEPs)进行了计算调查,以研究KEPs在真菌生态学中的分布和假定功能:结果:在隶属于 8 个门类的 1461 株菌株中有 1345 株检测到 7878 个 KEPs。每个菌株的平均 KEPs 数量在子囊菌目(Ascomycota)和担子菌目(Basidiomycota)分别为 5.25 个和 5.30 个,但在酵母菌目(Ascomycota)和担子菌目(Basidiomycota)分别只有 1.35 个和 1.00 个。KEPs 被分为 838 个类型和 2560 个独立类型,这些类型没有同源物。近 200 个类型分布在一个以上的属中,14 个类型分布在一个以上的门中。这些类型包括酵母α-交配因子和真菌信息素。22%的KEPs基因伴有含DUF3328-domain的蛋白质的基因,这些蛋白质对于核心肽的环化是不可或缺的。含 DUF3328 域的蛋白质基因与 KEP 基因的平均距离为 3.09 个基因。几乎所有被注释为酵母α-交配因子或真菌信息素的KEP的基因(三个基因除外)都不伴有含DUF3328域的蛋白基因:结论:KEPs广泛分布于真菌王国,但其重复序列高度多样化。结论:KEPs广泛分布于真菌王国,但其重复序列却多种多样。根据上述结果和一些实例,我们提出了一个假设,即KEPs最初是以未修饰的线性肽(如交配因子)的形式进化的,后来出现了采用修饰的环状形式的KEPs(如毒素),以利用其强大的生物活性对抗天敌和竞争微生物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Fungal Biology and Biotechnology
Fungal Biology and Biotechnology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
10.20
自引率
0.00%
发文量
17
审稿时长
9 weeks
期刊最新文献
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