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鉴定出 amidotransferase AsnB1 负责植物乳杆菌肽聚糖中 meso-二氨基庚二酸的酰胺化。

Identification of the amidotransferase AsnB1 as being responsible for meso-diaminopimelic acid amidation in Lactobacillus plantarum peptidoglycan.

机构信息

INRA, UMR1319 Micalis, F-78352 Jouy-en-Josas, France.

出版信息

J Bacteriol. 2011 Nov;193(22):6323-30. doi: 10.1128/JB.05060-11. Epub 2011 Sep 23.

DOI:10.1128/JB.05060-11
PMID:21949063
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3209238/
Abstract

The peptidoglycan (PG) of Lactobacillus plantarum contains amidated meso-diaminopimelic acid (mDAP). The functional role of this PG modification has never been characterized in any bacterial species, except for its impact on PG recognition by receptors of the innate immune system. In silico analysis of loci carrying PG biosynthesis genes in the L. plantarum genome revealed the colocalization of the murE gene, which encodes the ligase catalyzing the addition of mDAP to UDP-N-muramoyl-d-glutamate PG precursors, with asnB1, which encodes a putative asparagine synthase with an N-terminal amidotransferase domain. By gene disruption and complementation experiments, we showed that asnB1 is the amidotransferase involved in mDAP amidation. PG structural analysis revealed that mDAP amidation plays a key role in the control of the l,d-carboxypeptidase DacB activity. In addition, a mutant strain with a defect in mDAP amidation is strongly affected in growth and cell morphology, with filamentation and cell chaining, while a DacB-negative strain displays a phenotype very similar to that of a wild-type strain. These results suggest that mDAP amidation may play a critical role in the control of the septation process.

摘要

植物乳杆菌的肽聚糖(PG)含有酰胺化的meso-二氨基庚二酸(mDAP)。除了对先天免疫系统受体识别 PG 的影响外,这种 PG 修饰的功能作用在任何细菌物种中都从未被描述过。对植物乳杆菌基因组中 PG 生物合成基因座的计算机分析显示,murE 基因与 asnB1 基因的位置重叠,murE 基因编码催化 mDAP 添加到 UDP-N-乙酰胞壁酰-D-谷氨酸 PG 前体的连接酶,而 asnB1 基因编码一种具有 N 端酰胺转移酶结构域的假定天冬酰胺合酶。通过基因敲除和互补实验,我们表明 asnB1 是参与 mDAP 酰胺化的酰胺转移酶。PG 结构分析表明,mDAP 酰胺化在控制 l,d-羧肽酶 DacB 活性方面起着关键作用。此外,在 mDAP 酰胺化缺陷的突变菌株中,生长和细胞形态受到强烈影响,出现丝状和细胞链状,而 DacB 阴性菌株的表型与野生型菌株非常相似。这些结果表明,mDAP 酰胺化可能在控制隔膜形成过程中发挥关键作用。

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