分析乳酸菌 LAC460 中细菌素样溶菌素 LysL 的细胞壁结合结构域。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Samira Mokhtari, Yanru Li, Per E. J. Saris, Timo M. Takala
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引用次数: 0

摘要

野生型乳球菌菌株 LAC460 能分泌噬菌体编码的类细菌溶菌素 LysL,它能杀死一些乳球菌菌株,但对生产者没有溶菌作用。LysL 有两个 N 端酶活性结构域(EAD)和一个未知的 C 端,与已知结构域没有同源性。本研究旨在确定 LysL 的 C 端是否带有细胞壁结合域(CBD),以确定 LysL 的目标特异性。将 LysL C 端推测的 CBD 区域与 His 标记的绿色荧光蛋白(HGFPuv)融合。将 HGFPuv_CBDlysL 基因融合体连接到 pASG-IBA4 载体中,并导入大肠杆菌。融合蛋白经亲和层析法制备和纯化。为了分析 HGFPuv_CBDLysL 与乳球菌细胞的结合情况,将该蛋白与 LysL 敏感菌株和 LysL 抗性菌株(包括 LysL 生产者 LAC460)混合,分析细胞的荧光。从荧光显微镜中可以看到,HGFPuv_CBDLysL 在对 LysL 敏感的 L. cremoris MG1614 的细胞表面发出绿色荧光,而抗性 L. lactis 菌株 LM0230 和 LAC460 则没有荧光。荧光平板阅读器证实了显微镜检测的结果,只检测到 4 株对 LysL 敏感的菌株发出荧光,而 11 株对 LysL 抗性的菌株没有荧光。HGFPuv_CBDLysL 与 LysL 敏感细胞特异性结合,而与 LysL 抗性菌株无特异性结合,这表明 LysL 的 C 端含有特异性 CBD。总之,本报告提供了乳球菌噬菌体溶菌酶中存在 CBD 的实验证据。此外,HGFPuv_CBDLysL 无法与 LysL 生产者 LAC460 结合,这在一定程度上解释了宿主对其自身噬菌体溶菌素的抗性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Analysis of the cell wall binding domain in bacteriocin-like lysin LysL from Lactococcus lactis LAC460

Analysis of the cell wall binding domain in bacteriocin-like lysin LysL from Lactococcus lactis LAC460

Wild-type Lactococcus lactis strain LAC460 secretes prophage-encoded bacteriocin-like lysin LysL, which kills some Lactococcus strains, but has no lytic effect on the producer. LysL carries two N-terminal enzymatic active domains (EAD), and an unknown C-terminus without homology to known domains. This study aimed to determine whether the C-terminus of LysL carries a cell wall binding domain (CBD) for target specificity of LysL. The C-terminal putative CBD region of LysL was fused with His-tagged green fluorescent protein (HGFPuv). The HGFPuv_CBDlysL gene fusion was ligated into the pASG-IBA4 vector, and introduced into Escherichia coli. The fusion protein was produced and purified with affinity chromatography. To analyse the binding of HGFPuv_CBDLysL to Lactococcus cells, the protein was mixed with LysL-sensitive and LysL-resistant strains, including the LysL-producer LAC460, and the fluorescence of the cells was analysed. As seen in fluorescence microscope, HGFPuv_CBDLysL decorated the cell surface of LysL-sensitive L. cremoris MG1614 with green fluorescence, whereas the resistant L. lactis strains LM0230 and LAC460 remained unfluorescent. The fluorescence plate reader confirmed the microscopy results detecting fluorescence only from four tested LysL-sensitive strains but not from 11 tested LysL-resistant strains. Specific binding of HGFPuv_CBDLysL onto the LysL-sensitive cells but not onto the LysL-resistant strains indicates that the C-terminus of LysL contains specific CBD. In conclusion, this report presents experimental evidence of the presence of a CBD in a lactococcal phage lysin. Moreover, the inability of HGFPuv_CBDLysL to bind to the LysL producer LAC460 may partly explain the host’s resistance to its own prophage lysin.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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