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肠球菌细胞溶素的结构-活性关系。

Structure-Activity Relationships of the Enterococcal Cytolysin.

出版信息

ACS Infect Dis. 2021 Aug 13;7(8):2445-2454. doi: 10.1021/acsinfecdis.1c00197. Epub 2021 Jul 15.

DOI:10.1021/acsinfecdis.1c00197
PMID:34265205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8957224/
Abstract

Enterococcal cytolysin is a hemolytic virulence factor linked to human disease and increased patient mortality. Produced by pathogenic strains of , cytolysin is made up of two small, post-translationally modified peptides called CylL" and CylL". They exhibit a unique toxicity profile where lytic activity is observed for both mammalian cells and Gram-positive bacteria that is dependent on the presence of both peptides. In this study, we performed alanine substitution of all residues in CylL" and CylL" and determined the effect on both activities. We identified key residues involved in overall activity and residues that dictate cell type specificity. All (methyl)lanthionines as well as a Gly-rich hinge region were critical for both activities. In addition, we investigated the binding of the two subunits to bacterial cells suggesting that the large subunit CylL" has stronger affinity for the membrane or a target molecule therein. Genome mining identified other potential two-component lanthipeptides and provided insights into potential evolutionary origins.

摘要

肠球菌细胞溶素是一种与人类疾病相关的溶血毒力因子,与患者死亡率的增加有关。该细胞溶素由 致病菌株产生,由两个经过翻译后修饰的小肽组成,称为 CylL"和 CylL"。它们表现出独特的毒性特征,对哺乳动物细胞和革兰氏阳性细菌均具有溶细胞活性,而这种活性依赖于两种肽的存在。在这项研究中,我们对 CylL"和 CylL"中的所有残基进行了丙氨酸取代,并确定了对这两种活性的影响。我们确定了参与总体活性的关键残基和决定细胞类型特异性的残基。所有(甲基)硫氨酸以及富含甘氨酸的铰链区对于两种活性都是关键的。此外,我们研究了两个亚基与细菌细胞的结合,表明大亚基 CylL"与膜或其中的靶分子具有更强的亲和力。基因组挖掘鉴定了其他潜在的双组分硫肽,并提供了对潜在进化起源的深入了解。

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