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首页> 外文期刊>Proceedings of the National Academy of Sciences of the United States of America >Yet more intramolecular cross-links in Gram-positive surface proteins
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Yet more intramolecular cross-links in Gram-positive surface proteins

机译:Yet more intramolecular cross-links in Gram-positive surface proteins

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摘要

The surface of Gram-positive bacteria comprises a single membrane and, typically, a thick layer of cross-linked peptidoglycan that imparts strength and rigidity. Anchored to this cell wall are protein assemblies, such as pili, and surface proteins, such as microbial surface components recognizing adhesive matrix molecules (MSCRAMMs) that act as surface adhesins. These proteins are critical not only for bacterial binding to host surfaces in the early stages of infection but also for biofilm formation and immune evasion. In a series of studies published since 2007, these cell surface proteins and protein assemblies have been shown to contain isopeptide and thioester bonds, highly unusual intramolecular covalent linkages between amino acid side chains. These cross-links have either a structure-stabilizing role or may be directly involved in adhesion. Using an elegant combination of structural biology and mass spectrometry, Kwon et al. (1) reveal in PNAS an ester bond as yet another covalent linkage in a putative MSCRAMM from the Grampositive pathogen Clostridium perfringens. Remarkably, this ester bond, joining the side chains of a Thr and Gln residue, is equivalent to an unresolved acyl-enzyme intermediate, formed on an autocatalytic pathway that resembles the mechanism of serine proteases.

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