激酶生物清除剂通过极其紧密的底物结合提供抗生素抗性。

A kinase bioscavenger provides antibiotic resistance by extremely tight substrate binding.

作者信息

Terekhov Stanislav S, Mokrushina Yuliana A, Nazarov Anton S, Zlobin Alexander, Zalevsky Arthur, Bourenkov Gleb, Golovin Andrey, Belogurov Alexey, Osterman Ilya A, Kulikova Alexandra A, Mitkevich Vladimir A, Lou Hua Jane, Turk Benjamin E, Wilmanns Matthias, Smirnov Ivan V, Altman Sidney, Gabibov Alexander G

机构信息

Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry of the Russian Academy of Sciences, Moscow, Russia.

Department of Chemistry, Lomonosov Moscow State University, Moscow, Russia.

出版信息

Sci Adv. 2020 Jun 24;6(26):eaaz9861. doi: 10.1126/sciadv.aaz9861. eCollection 2020 Jun.

DOI:10.1126/sciadv.aaz9861

PMID:32637600

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7314540/

Abstract

Microbial communities are self-controlled by repertoires of lethal agents, the antibiotics. In their turn, these antibiotics are regulated by bioscavengers that are selected in the course of evolution. Kinase-mediated phosphorylation represents one of the general strategies for the emergence of antibiotic resistance. A new subfamily of AmiN-like kinases, isolated from the Siberian bear microbiome, inactivates antibiotic amicoumacin by phosphorylation. The nanomolar substrate affinity defines AmiN as a phosphotransferase with a unique catalytic efficiency proximal to the diffusion limit. Crystallographic analysis and multiscale simulations revealed a catalytically perfect mechanism providing phosphorylation exclusively in the case of a closed active site that counteracts substrate promiscuity. AmiN kinase is a member of the previously unknown subfamily representing the first evidence of a specialized phosphotransferase bioscavenger.

摘要

微生物群落由致死因子——抗生素来进行自我调控。反过来，这些抗生素又受到在进化过程中被选择出来的生物清除剂的调节。激酶介导的磷酸化是抗生素耐药性产生的一般策略之一。从西伯利亚熊微生物群中分离出的一个新的类AmiN激酶亚家族，通过磷酸化作用使抗生素氨甲环酸失活。纳摩尔级的底物亲和力将AmiN定义为一种磷酸转移酶，其独特的催化效率接近扩散极限。晶体学分析和多尺度模拟揭示了一种催化完美的机制，该机制仅在封闭的活性位点情况下提供磷酸化作用，从而抵消底物的非特异性。AmiN激酶是一个此前未知的亚家族成员，代表了一种专门的磷酸转移酶生物清除剂的首个证据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ac7/7314540/af6c67066751/aaz9861-F1.jpg

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激酶生物清除剂通过极其紧密的底物结合提供抗生素抗性。

A kinase bioscavenger provides antibiotic resistance by extremely tight substrate binding.

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