乳酸乳球菌流产性噬菌体感染蛋白AbiK的表达及定点诱变

Expression and site-directed mutagenesis of the lactococcal abortive phage infection protein AbiK.

作者信息

Fortier Louis-Charles, Bouchard Julie D, Moineau Sylvain

机构信息

Département de Biochimie et de Microbiologie, Faculté des Sciences et de Génie, and Groupe de Recherche en Ecologie Buccale, Université Laval, Québec, Canada G1K 7P4.

出版信息

J Bacteriol. 2005 Jun;187(11):3721-30. doi: 10.1128/JB.187.11.3721-3730.2005.

DOI:10.1128/JB.187.11.3721-3730.2005

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1112063/

Abstract

Abortive infection mechanisms of Lactococcus lactis form a heterogeneous group of phage resistance systems that act after early phage gene expression. One of these systems, AbiK, aborts infection of the three most prevalent lactococcal phage groups of the dairy industry. In this study, it is demonstrated that the antiphage activity depends on the level of expression of the abiK gene and on the presence of a reverse transcriptase (RT) motif in AbiK. The abiK gene was shown to be part of an operon that includes two additional open reading frames, with one of these encoding a phage-related transcriptional repressor named Orf4. Expression of AbiK is driven by two promoters, PabiK and Porf3, the latter being repressed by Orf4 in vivo. Binding of the purified Orf4 to the Porf3 promoter was demonstrated in vitro by gel retardation assays. The N-terminal half of the deduced AbiK protein possesses an RT motif that was modified by site-directed mutagenesis. Conservative mutations in key positions resulted in the complete loss of the resistance phenotype. These data suggest that an RT activity might be involved in the phage resistance activity of AbiK. A model for the mode of action of AbiK is proposed.

摘要

乳酸乳球菌的流产感染机制构成了一组异质性的噬菌体抗性系统，这些系统在噬菌体早期基因表达后发挥作用。其中一个系统AbiK可阻止乳制品行业中三种最常见的乳球菌噬菌体群的感染。在本研究中，证明了抗噬菌体活性取决于abiK基因的表达水平以及AbiK中逆转录酶（RT）基序的存在。abiK基因被证明是一个操纵子的一部分，该操纵子包括另外两个开放阅读框，其中一个编码一种名为Orf4的噬菌体相关转录阻遏物。AbiK的表达由两个启动子PabiK和Porf3驱动，后者在体内被Orf4抑制。通过凝胶阻滞试验在体外证明了纯化的Orf4与Porf3启动子的结合。推导的AbiK蛋白的N端一半具有一个RT基序，该基序通过定点诱变进行了修饰。关键位置的保守突变导致抗性表型完全丧失。这些数据表明RT活性可能参与了AbiK的噬菌体抗性活性。提出了AbiK作用模式的模型。

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