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乳链菌肽工程化领导肽诱导修饰、输出和切割的要求。

Requirements of the engineered leader peptide of nisin for inducing modification, export, and cleavage.

机构信息

BiOMaDe Technology Foundation, Nijenborgh 4, 9747 AG Groningen, Netherlands.

出版信息

Appl Environ Microbiol. 2011 Jan;77(2):604-11. doi: 10.1128/AEM.01503-10. Epub 2010 Nov 19.

DOI:10.1128/AEM.01503-10
PMID:21097596
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3020565/
Abstract

Nisin A is a pentacyclic peptide antibiotic produced by Lactococcus lactis. The leader peptide of prenisin keeps nisin inactive and has a role in inducing NisB- and NisC-catalyzed modifications of the propeptide and NisT-mediated export. The highly specific NisP cleaves off the leader peptide from fully modified and exported prenisin. We present here a detailed mutagenesis analysis of the nisin leader peptide. For alternative cleavage, we successfully introduced a putative NisP autocleavage site and sites for thrombin, enterokinase, Glu-C, and factor Xa in the C-terminal part of the leader peptide. Replacing residue F-18 with Trp or Thr strongly reduced production. On the other hand, D-19A, F-18H, F-18M, L-16D, L-16K, and L-16A enhanced production. Substitutions within and outside the FNLD box enhanced or reduced the transport efficiency. None of the above substitutions nor even an internal 6His tag from positions -13 to -8 had any effect on the capacity of the leader peptide to induce NisB and NisC modifications. Therefore, these data demonstrate a large mutational freedom. However, simultaneous replacement of the FNLD amino acids by four alanines strongly reduced export and even led to a complete loss of the capacity to induce modifications. Reducing the leader peptide to MSTKDFNLDLR led to 3- or 4-fold dehydration. Taken together, the FNLD box is crucial for inducing posttranslational modifications.

摘要

乳链菌肽 A 是一种由乳球菌产生的五环肽抗生素。前乳链菌肽的前导肽使乳链菌肽保持非活性,并在诱导 NisB 和 NisC 催化的前肽修饰和 NisT 介导的输出中起作用。高度特异性的 NisP 从前导肽中切割出完全修饰和导出的前乳链菌肽。我们在这里介绍了乳链菌肽前导肽的详细突变分析。为了进行替代切割,我们成功地在前导肽的 C 末端引入了一个假定的 NisP 自切割位点以及凝血酶、肠激酶、Glu-C 和因子 Xa 的切割位点。用色氨酸或苏氨酸替换 F-18 强烈降低了产量。另一方面,D-19A、F-18H、F-18M、L-16D、L-16K 和 L-16A 增强了产量。FNLD 框内和框外的取代增强或降低了转运效率。前导肽的 FNLD 盒内或盒外的这些取代甚至内部的 -13 到 -8 位的 6His 标签都没有对前导肽诱导 NisB 和 NisC 修饰的能力产生任何影响。因此,这些数据表明存在很大的突变自由度。然而,FNLD 氨基酸的同时替换为四个丙氨酸强烈降低了输出,甚至导致修饰诱导能力完全丧失。将前导肽缩短为 MSTKDFNLDLR 导致 3 倍或 4 倍的脱水。总的来说,FNLD 盒对于诱导翻译后修饰至关重要。

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