由产二素链霉菌的gimA编码的一种使大环内酯类失活的糖基转移酶的特性

Characterization of a glycosyl transferase inactivating macrolides, encoded by gimA from Streptomyces ambofaciens.

作者信息

Gourmelen A, Blondelet-Rouault M H, Pernodet J L

机构信息

Institut de Génétique et Microbiologie, UMR 2225, Université Paris-Sud XI, Orsay, France.

出版信息

Antimicrob Agents Chemother. 1998 Oct;42(10):2612-9. doi: 10.1128/AAC.42.10.2612.

DOI:10.1128/AAC.42.10.2612

PMID:9756764

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC105906/

Abstract

In Streptomyces ambofaciens, the producer of the macrolide antibiotic spiramycin, an open reading frame (ORF) was found downstream of srmA, a gene conferring resistance to spiramycin. The deduced product of this ORF had high degrees of similarity to Streptomyces lividans glycosyl transferase, which inactivates macrolides, and this ORF was called gimA. The cloned gimA gene was expressed in a susceptible host mutant of S. lividans devoid of any background macrolide-inactivating glycosyl transferase activity. In the presence of UDP-glucose, cell extracts from this strain could inactivate various macrolides by glycosylation. Spiramycin was not inactivated but forocidin, a spiramycin precursor, was modified. In vivo studies showed that gimA could confer low levels of resistance to some macrolides. The spectrum of this resistance differs from the one conferred by a rRNA monomethylase, such as SrmA. In S. ambofaciens, gimA was inactivated by gene replacement, without any deleterious effect on the survival of the strain, even under spiramycin-producing conditions. But the overexpression of gimA led to a marked decrease in spiramycin production. Studies with extracts from wild-type and gimA-null mutant strains revealed the existence of another macrolide-inactivating glycosyl transferase activity with a different substrate specificity. This activity might compensate for the effect of gimA inactivation.

摘要

在大环内酯类抗生素螺旋霉素的产生菌浅青紫链霉菌中，在赋予对螺旋霉素抗性的基因srmA下游发现了一个开放阅读框（ORF）。该ORF推导的产物与能使大环内酯失活的淡青链霉菌糖基转移酶有高度相似性，此ORF被称为gimA。克隆的gimA基因在淡青链霉菌的一个无任何背景大环内酯失活糖基转移酶活性的敏感宿主突变体中表达。在UDP - 葡萄糖存在的情况下，该菌株的细胞提取物可通过糖基化使各种大环内酯失活。螺旋霉素未被失活，但螺旋霉素的前体佛罗菌素被修饰。体内研究表明，gimA可赋予对某些大环内酯低水平的抗性。这种抗性谱与rRNA单甲基化酶（如SrmA）赋予的抗性谱不同。在浅青紫链霉菌中，通过基因替换使gimA失活，即使在产生螺旋霉素的条件下，对菌株的存活也没有任何有害影响。但gimA的过表达导致螺旋霉素产量显著下降。对野生型和gimA缺失突变体菌株提取物的研究揭示了存在另一种具有不同底物特异性的大环内酯失活糖基转移酶活性。这种活性可能补偿了gimA失活的影响。

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