吲哚霉素生物合成的体外重建揭示了恶唑啉酮组装的分子基础。
In vitro reconstitution of indolmycin biosynthesis reveals the molecular basis of oxazolinone assembly.
作者信息
Du Yi-Ling, Alkhalaf Lona M, Ryan Katherine S
机构信息
Department of Chemistry, University of British Columbia, Vancouver, BC V6T 1Z1, Canada.
Department of Chemistry, University of British Columbia, Vancouver, BC V6T 1Z1, Canada
出版信息
Proc Natl Acad Sci U S A. 2015 Mar 3;112(9):2717-22. doi: 10.1073/pnas.1419964112. Epub 2015 Feb 17.
Abstract
The bacterial tryptophanyl-tRNA synthetase inhibitor indolmycin features a unique oxazolinone heterocycle whose biogenetic origins have remained obscure for over 50 years. Here we identify and characterize the indolmycin biosynthetic pathway, using systematic in vivo gene inactivation, in vitro biochemical assays, and total enzymatic synthesis. Our work reveals that a phenylacetate-CoA ligase-like enzyme Ind3 catalyzes an unusual ATP-dependent condensation of indolmycenic acid and dehydroarginine, driving oxazolinone ring assembly. We find that Ind6, which also has chaperone-like properties, acts as a gatekeeper to direct the outcome of this reaction. With Ind6 present, the normal pathway ensues. Without Ind6, the pathway derails to an unusual shunt product. Our work reveals the complete pathway for indolmycin formation and sets the stage for using genetic and chemoenzymatic methods to generate indolmycin derivatives as potential therapeutic agents.
摘要
细菌色氨酰 - tRNA合成酶抑制剂吲哚霉素具有独特的恶唑啉酮杂环,其生物合成起源在50多年里一直不明。在此,我们通过系统的体内基因失活、体外生化分析和全酶促合成,鉴定并表征了吲哚霉素的生物合成途径。我们的研究表明,一种类似苯乙酸 - CoA连接酶的Ind3酶催化吲哚霉素酸和脱氢精氨酸之间不寻常的ATP依赖性缩合反应,驱动恶唑啉酮环的组装。我们发现同样具有类似伴侣性质的Ind6作为守门人来指导该反应的结果。有Ind6存在时,正常途径得以进行。没有Ind6时,途径偏离产生一种不寻常的分流产物。我们的研究揭示了吲哚霉素形成的完整途径,并为利用遗传和化学酶法生成吲哚霉素衍生物作为潜在治疗剂奠定了基础。
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