噬菌体ϕKMV的裂解盒编码一种信号阻断释放内溶素和一种穿孔素。

The lysis cassette of bacteriophage ϕKMV encodes a signal-arrest-release endolysin and a pinholin.

作者信息

Briers Yves, Peeters Liesbet M, Volckaert Guido, Lavigne Rob

机构信息

Laboratory of Gene Technology; Division of Gene Technology; Department of Biosystems; Leuven, Belgium.

出版信息

Bacteriophage. 2011 Jan;1(1):25-30. doi: 10.4161/bact.1.1.14868.

DOI:10.4161/bact.1.1.14868

PMID:21687532

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3109451/

Abstract

The lysis cassette of Pseudomonas aeruginosa phage ϕKMV encodes a holin, endolysin, Rz and Rz1 in the canonical order. It has a tight organization with a high degree of overlapping genes and is highly conserved (between 96 and 100% identity at the protein level) among several other members of the "phiKMV-like viruses." The endolysin KMV45 exhibits characteristics as expected for a signal-arrest-release (SAR) endolysin, whereas the holin KMV44 is a typical pinholin. KMV45 is initially secreted as an inactive, membrane-anchored endolysin, which is subsequently released by membrane depolarization driven by the pinholin KMV44. The SAR domain of KMV45 is necessary for its full enzymatic activity, suggesting a refolding of the catalytic cleft upon release from the membrane. The physical proximity of the catalytic glutamic acid residue close to SAR domain suggests an alternative activation mechanism compared to the SAR endolysin of phages P1, ERA103 and 21. Expression of KMV44 leads to a quick cell lysis when paired with SAR endolysin KMV45, but not with the cytoplasmic phage λ endolysin, indicating the membrane depolarizing function of KMV44 rather than the large hole-making function characteristic of classical holins.

摘要

铜绿假单胞菌噬菌体ϕKMV的裂解盒按典型顺序编码一种溶菌素、内溶素、Rz和Rz1。它结构紧密，基因高度重叠，在“phiKMV样病毒”的其他几个成员中高度保守（蛋白质水平上的同一性在96%至100%之间）。内溶素KMV45表现出信号捕获-释放（SAR）内溶素所预期的特征，而溶菌素KMV44是一种典型的小孔溶菌素。KMV45最初作为一种无活性的、膜锚定的内溶素分泌，随后由小孔溶菌素KMV44驱动的膜去极化作用将其释放。KMV45的SAR结构域对其完整的酶活性是必需的，这表明从膜上释放后催化裂隙会重新折叠。靠近SAR结构域的催化谷氨酸残基在物理上的接近表明，与噬菌体P1、ERA103和21的SAR内溶素相比，存在另一种激活机制。当与SAR内溶素KMV45配对时，KMV44的表达会导致细胞快速裂解，但与细胞质噬菌体λ内溶素配对时则不会，这表明KMV44具有膜去极化功能，而不是经典溶菌素的大孔形成功能。

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