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细菌中 Kdo2-脂酰化脂多糖生物合成的进化。

Evolution of the Kdo2-lipid A biosynthesis in bacteria.

机构信息

School of Biological Sciences and Center for Plant Science Innovation, University of Nebraska-Lincoln, Lincoln, NE 68588-0118, USA.

出版信息

BMC Evol Biol. 2010 Nov 24;10:362. doi: 10.1186/1471-2148-10-362.

DOI:10.1186/1471-2148-10-362
PMID:21106097
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3087551/
Abstract

BACKGROUND

Lipid A is the highly immunoreactive endotoxic center of lipopolysaccharide (LPS). It anchors the LPS into the outer membrane of most Gram-negative bacteria. Lipid A can be recognized by animal cells, triggers defense-related responses, and causes Gram-negative sepsis. The biosynthesis of Kdo2-lipid A, the LPS substructure, involves with nine enzymatic steps.

RESULTS

In order to elucidate the evolutionary pathway of Kdo2-lipid A biosynthesis, we examined the distribution of genes encoding the nine enzymes across bacteria. We found that not all Gram-negative bacteria have all nine enzymes. Some Gram-negative bacteria have no genes encoding these enzymes and others have genes only for the first four enzymes (LpxA, LpxC, LpxD, and LpxB). Among the nine enzymes, five appeared to have arisen from three independent gene duplication events. Two of such events happened within the Proteobacteria lineage, followed by functional specialization of the duplicated genes and pathway optimization in these bacteria.

CONCLUSIONS

The nine-enzyme pathway, which was established based on the studies mainly in Escherichia coli K12, appears to be the most derived and optimized form. It is found only in E. coli and related Proteobacteria. Simpler and probably less efficient pathways are found in other bacterial groups, with Kdo2-lipid A variants as the likely end products. The Kdo2-lipid A biosynthetic pathway exemplifies extremely plastic evolution of bacterial genomes, especially those of Proteobacteria, and how these mainly pathogenic bacteria have adapted to their environment.

摘要

背景

脂质 A 是脂多糖 (LPS) 中高度免疫反应性的内毒素中心。它将 LPS 锚定在大多数革兰氏阴性菌的外膜上。脂质 A 可以被动物细胞识别,触发防御相关反应,并导致革兰氏阴性菌败血症。Kdo2-脂质 A,即 LPS 的亚结构的生物合成涉及九个酶促步骤。

结果

为了阐明 Kdo2-脂质 A 生物合成的进化途径,我们检查了编码这九种酶的基因在细菌中的分布。我们发现并非所有革兰氏阴性菌都具有这九种酶。一些革兰氏阴性菌没有编码这些酶的基因,而另一些菌只有前四种酶(LpxA、LpxC、LpxD 和 LpxB)的基因。在这九种酶中,有五种似乎是由三个独立的基因复制事件产生的。其中两个事件发生在变形菌门内,随后是这些基因的功能特化和在这些细菌中的途径优化。

结论

基于大肠杆菌 K12 主要研究建立的九酶途径似乎是最衍生和最优化的形式。它仅在大肠杆菌和相关的变形菌门中发现。其他细菌群中发现了更简单且可能效率较低的途径,其可能的终产物是 Kdo2-脂质 A 变体。Kdo2-脂质 A 生物合成途径是细菌基因组极其可塑性进化的典范,尤其是那些变形菌门的细菌,以及这些主要的致病性细菌如何适应其环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f534/3087551/c30f9b6c2293/1471-2148-10-362-1.jpg

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