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Staphylococcal Phage2638A endolysin amidase domain is lytic for Staphylococcus aureus

机译：葡萄球菌噬菌体噬菌体噬菌体噬菌体噬菌体噬菌体噬菌体Phage2638A

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摘要

Staphylococcus aureus is notorious for developing resistance to virtually all antibiotics to which it is exposed. Staphylococcal phage 2638A endolysin is a peptidoglycan hydrolase that is lytic for S. aureus when exposed externally, making it a new antimicrobial candidate. It shares a common protein organization with over 40 other staphylococcal peptidoglycan hydrolases: a CHAP endopeptidase domain, a mid-protein amidase 2 domain and a C-terminal SH3b cell wall binding domain. It is the first phage endolysin reported with a cryptic translational start site between the CHAP and amidase domains. Deletion analysis indicates that the amidase domain confers most of the lytic activity and requires the full SH3b domain for maximal activity. It is common for one domain to demonstrate dominant activity over another; however, the phage 2638A endolysin is the first to show high amidase domain activity dominant over the N-terminal CHAP domain, an important finding for targeting novel peptidoglycan bonds.

机译：金黄色葡萄球菌以其对几乎所暴露的所有抗生素的耐药性而臭名昭著。葡萄球菌噬菌体2638A溶血素是一种肽聚糖水解酶，可裂解I。金黄色葡萄球菌当从外部暴露时，使其成为新的抗菌药物候选者。它与40多种其他葡萄球菌肽聚糖水解酶共有一个共同的蛋白质组织：CHAP内肽酶结构域，中间蛋白质酰胺酶2结构域和C端SH3b细胞壁结合结构域。它是第一个在CHAP和酰胺酶结构域之间具有隐含翻译起始位点的噬菌体内溶素。缺失分析表明酰胺酶结构域赋予大部分裂解活性，并且需要完整的SH3b结构域才能发挥最大活性。一个领域表现出对另一领域的主导活动是很常见的。然而，噬菌体2638A内溶素是第一个显示出比N端CHAP结构域更重要的高酰胺酶结构域活性的酶，这是靶向新型肽聚糖键的重要发现。 展开▼

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公开/公告号US9206411B2

专利类型

公开/公告日2015-12-08

原文格式PDF

申请/专利权人 DAVID M. DONOVAN;IGOR V. ABAEV;
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申请/专利号US201213495536

发明设计人 DAVID M. DONOVAN;IGOR V. ABAEV;
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申请日2012-06-13

分类号C12N9/80;C12N15/52;C12N1/11;C07K14/005;A01P1;A61L2/16;A61K38;

国家 US

入库时间 2022-08-21 14:27:47

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