通过类异戊二烯逻辑引入非甲基支链:黏液病毒素A1生物合成中的多个β-烷基化事件。
Incorporation of nonmethyl branches by isoprenoid-like logic: multiple beta-alkylation events in the biosynthesis of myxovirescin A1.
作者信息
Calderone Christopher T, Iwig David F, Dorrestein Pieter C, Kelleher Neil L, Walsh Christopher T
机构信息
Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, MA 02115, USA.
出版信息
Chem Biol. 2007 Jul;14(7):835-46. doi: 10.1016/j.chembiol.2007.06.008.
Abstract
Several polyketide secondary metabolites are predicted to undergo isoprenoid-like beta-alkylations during biosynthesis. One such secondary metabolite is myxovirescin A1, produced by Myxococcus xanthus. Myxovirescin is of special interest in that it appears to undergo two distinct beta-alkylations. Additionally, the myxovirescin biosynthetic gene cluster lacks tandem thiolation domains required in the synthesis of other beta-branched secondary metabolites. To probe the origins of the beta-branches in myxovirescin, we heterologously overexpressed the proteins predicted to be responsible for myxovirescin beta-alkylation and reconstituted their activities in vitro on model substrates. Our results confirm that myxovirescin undergoes two isoprenoid-like beta-alkylations during its biosynthesis, including an unprecedented beta-ethylation. The study of its biosynthesis should shed light on the scope and requirements for isoprenoid-like biosynthetic logic in a polyketide context.
摘要
据预测,几种聚酮类次级代谢产物在生物合成过程中会发生类异戊二烯样的β-烷基化反应。其中一种次级代谢产物是黄色粘球菌产生的粘病毒素A1。粘病毒素特别引人关注,因为它似乎经历了两种不同的β-烷基化反应。此外,粘病毒素生物合成基因簇缺乏合成其他β-分支次级代谢产物所需的串联硫醇化结构域。为了探究粘病毒素中β-分支的来源,我们异源过量表达了预测负责粘病毒素β-烷基化的蛋白质,并在体外对模型底物重建了它们的活性。我们的结果证实,粘病毒素在其生物合成过程中经历了两种类异戊二烯样的β-烷基化反应,包括一种前所未有的β-乙基化反应。对其生物合成的研究应该会揭示在聚酮类背景下类异戊二烯样生物合成逻辑的范围和要求。
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