AztD 的晶体结构为蛋白质间锌原子的直接转移提供了机制见解。

Crystal structures of AztD provide mechanistic insights into direct zinc transfer between proteins.

机构信息

1Department of Chemistry and Biochemistry, New Mexico State University, Las Cruces, NM 88003 USA.

2Department of Chemistry, Reed College, Portland, OR 97202 USA.

出版信息

Commun Biol. 2019 Aug 9;2:308. doi: 10.1038/s42003-019-0542-z. eCollection 2019.

DOI:10.1038/s42003-019-0542-z

PMID:31428696

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6689063/

Abstract

Zinc acquisition from limited environments is critical for bacterial survival and pathogenesis. AztD has been identified as a periplasmic or cell surface zinc-binding protein in numerous bacterial species. In , AztD can transfer zinc directly to AztC, the solute binding protein for a zinc-specific ATP-binding cassette transporter system, suggesting a role in zinc acquisition and homeostasis. Here, we present the first cry stal structures of AztD from and tbe human pathogen , revealing a beta-propeller fold and two high-affinity zinc-binding sites that are highly conserved among AztD homologs. These structures combined with transfer assays using WT and mutant proteins provide rare insight into the mechanism of direct zinc transfer from one protein to another. Given the importance of zinc import to bacterial pathogenesis, these insights may prove valuable to the development of zinc transfer inhibitors as antibiotics.

摘要

从有限的环境中获取锌对于细菌的生存和发病机制至关重要。AztD 已被确定为许多细菌物种中的周质或细胞表面锌结合蛋白。在中，AztD 可以将锌直接转移到 AztC，即锌特异性 ATP 结合盒转运体系统的溶质结合蛋白，表明其在锌的获取和稳态中发挥作用。在这里，我们展示了来自和人类病原体的 AztD 的首个晶体结构，揭示了β-螺旋桨折叠和两个高亲和力锌结合位点，这些结构在 AztD 同源物中高度保守。这些结构与使用 WT 和突变蛋白的转移实验相结合，为直接从一种蛋白质向另一种蛋白质转移锌的机制提供了罕见的见解。鉴于锌摄取对细菌发病机制的重要性，这些见解可能对开发作为抗生素的锌转移抑制剂具有重要价值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3542/6689063/afe9bcd27375/42003_2019_542_Fig1_HTML.jpg

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AztD 的晶体结构为蛋白质间锌原子的直接转移提供了机制见解。

Crystal structures of AztD provide mechanistic insights into direct zinc transfer between proteins.

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