Department of Chemical and Biological Engineering, Princeton University, Princeton, NJ 08544, USA.
Proc Natl Acad Sci U S A. 2012 Sep 18;109(38):15223-8. doi: 10.1073/pnas.1208978109. Epub 2012 Sep 4.
Lasso peptides are a class of ribosomally synthesized posttranslationally modified natural products found in bacteria. Currently known lasso peptides have a diverse set of pharmacologically relevant activities, including inhibition of bacterial growth, receptor antagonism, and enzyme inhibition. The biosynthesis of lasso peptides is specified by a cluster of three genes encoding a precursor protein and two enzymes. Here we develop a unique genome-mining algorithm to identify lasso peptide gene clusters in prokaryotes. Our approach involves pattern matching to a small number of conserved amino acids in precursor proteins, and thus allows for a more global survey of lasso peptide gene clusters than does homology-based genome mining. Of more than 3,000 currently sequenced prokaryotic genomes, we found 76 organisms that are putative lasso peptide producers. These organisms span nine bacterial phyla and an archaeal phylum. To provide validation of the genome-mining method, we focused on a single lasso peptide predicted to be produced by the freshwater bacterium Asticcacaulis excentricus. Heterologous expression of an engineered, minimal gene cluster in Escherichia coli led to the production of a unique lasso peptide, astexin-1. At 23 aa, astexin-1 is the largest lasso peptide isolated to date. It is also highly polar, in contrast to many lasso peptides that are primarily hydrophobic. Astexin-1 has modest antimicrobial activity against its phylogenetic relative Caulobacter crescentus. The solution structure of astexin-1 was determined revealing a unique topology that is stabilized by hydrogen bonding between segments of the peptide.
套索肽是一类在细菌中发现的核糖体合成的翻译后修饰天然产物。目前已知的套索肽具有多种药理学相关的活性,包括抑制细菌生长、受体拮抗和酶抑制。套索肽的生物合成由编码前体蛋白和两种酶的三个基因簇特异性指定。在这里,我们开发了一种独特的基因组挖掘算法来鉴定原核生物中的套索肽基因簇。我们的方法涉及到与前体蛋白中少数保守氨基酸的模式匹配,因此比基于同源性的基因组挖掘更能全面调查套索肽基因簇。在目前测序的 3000 多个原核基因组中,我们发现了 76 个可能是套索肽生产者的生物体。这些生物体跨越了九个细菌门和一个古菌门。为了验证基因组挖掘方法,我们专注于一种预测由淡水细菌 Asticcacaulis excentricus 产生的单个套索肽。在大肠杆菌中异源表达一个工程化的最小基因簇导致了一种独特的套索肽 astexin-1 的产生。astexin-1 有 23 个氨基酸,是迄今为止分离到的最大的套索肽。与许多主要是疏水性的套索肽不同,它也具有很高的极性。astexin-1 对其系统发育相关的 Caulobacter crescentus 具有适度的抗菌活性。astexin-1 的溶液结构已被确定,揭示了一种独特的拓扑结构,由肽段之间的氢键稳定。