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3
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本文引用的文献

1
Aminoglycoside multiacetylating activity of the enhanced intracellular survival protein from Mycobacterium smegmatis and its inhibition.分枝杆菌增强胞内存活蛋白的氨基糖苷类多乙酰化活性及其抑制作用。
Biochemistry. 2012 Jun 19;51(24):4959-67. doi: 10.1021/bi3004473. Epub 2012 Jun 5.
2
Mycobacterium tuberculosis Eis protein initiates suppression of host immune responses by acetylation of DUSP16/MKP-7.结核分枝杆菌 Eis 蛋白通过乙酰化 DUSP16/MKP-7 启动对宿主免疫反应的抑制作用。
Proc Natl Acad Sci U S A. 2012 May 15;109(20):7729-34. doi: 10.1073/pnas.1120251109. Epub 2012 Apr 30.
3
Evaluation of genetic mutations associated with Mycobacterium tuberculosis resistance to amikacin, kanamycin and capreomycin: a systematic review.评估与抗阿米卡星、卡那霉素和卷曲霉素的结核分枝杆菌耐药性相关的基因突变:系统评价。
PLoS One. 2012;7(3):e33275. doi: 10.1371/journal.pone.0033275. Epub 2012 Mar 29.
4
Small-angle X-ray scattering analysis of the bifunctional antibiotic resistance enzyme aminoglycoside (6') acetyltransferase-ie/aminoglycoside (2'') phosphotransferase-ia reveals a rigid solution structure.小角 X 射线散射分析双功能抗生素耐药酶氨基糖苷(6')乙酰基转移酶-ie/氨基糖苷(2')磷酸转移酶-ia 揭示了其刚性的溶液结构。
Antimicrob Agents Chemother. 2012 Apr;56(4):1899-906. doi: 10.1128/AAC.06378-11. Epub 2012 Jan 30.
5
Employing modular polyketide synthase ketoreductases as biocatalysts in the preparative chemoenzymatic syntheses of diketide chiral building blocks.在二酮类手性结构单元的制备性化学酶合成中,采用模块化聚酮合酶酮还原酶作为生物催化剂。
Chem Biol. 2011 Oct 28;18(10):1331-40. doi: 10.1016/j.chembiol.2011.07.021.
6
Coenzyme A binding to the aminoglycoside acetyltransferase (3)-IIIb increases conformational sampling of antibiotic binding site.辅酶 A 与氨基糖苷乙酰转移酶(3)-IIIb 的结合增加了抗生素结合位点构象的采样。
Biochemistry. 2011 Dec 6;50(48):10559-65. doi: 10.1021/bi201008f. Epub 2011 Nov 9.
7
Unusual regioversatility of acetyltransferase Eis, a cause of drug resistance in XDR-TB.乙酰转移酶 Eis 的不寻常区域变构作用,导致 XDR-TB 产生耐药性。
Proc Natl Acad Sci U S A. 2011 Jun 14;108(24):9804-8. doi: 10.1073/pnas.1105379108. Epub 2011 May 31.
8
Structural analysis of a putative aminoglycoside N-acetyltransferase from Bacillus anthracis.炭疽芽孢杆菌中一种假定的氨基糖苷乙酰转移酶的结构分析。
J Mol Biol. 2011 Jul 15;410(3):411-23. doi: 10.1016/j.jmb.2011.04.076. Epub 2011 May 13.
9
Effects of altering aminoglycoside structures on bacterial resistance enzyme activities.改变氨基糖苷类结构对细菌耐药酶活性的影响。
Antimicrob Agents Chemother. 2011 Jul;55(7):3207-13. doi: 10.1128/AAC.00312-11. Epub 2011 May 2.
10
Molecular detection of mutations associated with first- and second-line drug resistance compared with conventional drug susceptibility testing of Mycobacterium tuberculosis.与传统结核分枝杆菌药物敏感性试验相比,检测与一线和二线耐药相关的基因突变。
Antimicrob Agents Chemother. 2011 May;55(5):2032-41. doi: 10.1128/AAC.01550-10. Epub 2011 Feb 7.

结核分枝杆菌中的氨基糖苷类耐药酶 Eis 的共底物耐受性。

Cosubstrate tolerance of the aminoglycoside resistance enzyme Eis from Mycobacterium tuberculosis.

机构信息

Department of Medicinal Chemistry, University of Michigan, Ann Arbor, Michigan, USA.

出版信息

Antimicrob Agents Chemother. 2012 Nov;56(11):5831-8. doi: 10.1128/AAC.00932-12. Epub 2012 Sep 4.

DOI:10.1128/AAC.00932-12
PMID:22948873
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3486557/
Abstract

We previously demonstrated that aminoglycoside acetyltransferases (AACs) display expanded cosubstrate promiscuity. The enhanced intracellular survival (Eis) protein of Mycobacterium tuberculosis is responsible for the resistance of this pathogen to kanamycin A in a large fraction of clinical isolates. Recently, we discovered that Eis is a unique AAC capable of acetylating multiple amine groups on a large pool of aminoglycoside (AG) antibiotics, an unprecedented property among AAC enzymes. Here, we report a detailed study of the acyl-coenzyme A (CoA) cosubstrate profile of Eis. We show that, in contrast to other AACs, Eis efficiently uses only 3 out of 15 tested acyl-CoA derivatives to modify a variety of AGs. We establish that for almost all acyl-CoAs, the number of sites acylated by Eis is smaller than the number of sites acetylated. We demonstrate that the order of n-propionylation of the AG neamine by Eis is the same as the order of its acetylation. We also show that the 6' position is the first to be n-propionylated on amikacin and netilmicin. By sequential acylation reactions, we show that AGs can be acetylated after the maximum possible n-propionylation of their scaffolds by Eis. The information reported herein will advance our understanding of the multiacetylation mechanism of inactivation of AGs by Eis, which is responsible for M. tuberculosis resistance to some AGs.

摘要

我们之前证明了氨基糖苷乙酰转移酶(AACs)表现出扩展的共底物可塑性。结核分枝杆菌的增强型细胞内生存(Eis)蛋白是导致该病原体对卡那霉素 A 在很大一部分临床分离株中产生耐药性的原因。最近,我们发现 Eis 是一种独特的 AAC,能够乙酰化大量氨基糖苷(AG)抗生素上的多个胺基,这是 AAC 酶中前所未有的特性。在这里,我们报告了对 Eis 的酰基辅酶 A(CoA)共底物谱的详细研究。我们表明,与其他 AAC 不同,Eis 仅有效地使用 15 种测试酰基辅酶 A 衍生物中的 3 种来修饰各种 AG。我们确定,对于几乎所有酰基辅酶 A,Eis 酰化的位点数量都小于其乙酰化的位点数量。我们证明,Eis 对 AG 内胺的 n-丙酰化的顺序与乙酰化的顺序相同。我们还表明,阿米卡星和奈替米星的 6'位首先被 n-丙酰化。通过顺序酰化反应,我们表明 AG 可以在 Eis 对其支架进行最大可能的 n-丙酰化之后被乙酰化。本文报道的信息将有助于我们理解 Eis 对 AG 失活的多乙酰化机制,这是导致结核分枝杆菌对某些 AG 产生耐药性的原因。