Surveying the scope of aromatic decarboxylations catalyzed by prenylated-flavin dependent enzymes†

IF 3.4 3区 化学 Q2 Chemistry
Anushree Mondal, Pronay Roy, Jaclyn Carrannanto, Prathamesh M. Datar, Daniel J. DiRocco, Katherine Hunter and E. Neil G. Marsh
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Abstract

The prenylated-flavin mononucleotide-dependent decarboxylases (also known as UbiD-like enzymes) are the most recently discovered family of decarboxylases. The modified flavin facilitates the decarboxylation of unsaturated carboxylic acids through a novel mechanism involving 1,3-dipolar cyclo-addition chemistry. UbiD-like enzymes have attracted considerable interest for biocatalysis applications due to their ability to catalyse (de)carboxylation reactions on a broad range of aromatic substrates at otherwise unreactive carbon centres. There are now ∼35 000 protein sequences annotated as hypothetical UbiD-like enzymes. Sequence similarity network analyses of the UbiD protein family suggests that there are likely dozens of distinct decarboxylase enzymes represented within this family. Furthermore, many of the enzymes so far characterized can decarboxylate a broad range of substrates. Here we describe a strategy to identify potential substrates of UbiD-like enzymes based on detecting enzyme-catalysed solvent deuterium exchange into potential substrates. Using ferulic acid decarboxylase (FDC) as a model system, we tested a diverse range of aromatic and heterocyclic molecules for their ability to undergo enzyme-catalysed H/D exchange in deuterated buffer. We found that FDC catalyses H/D exchange, albeit at generally very low levels, into a wide range of small, aromatic molecules that have little resemblance to its physiological substrate. In contrast, the sub-set of aromatic carboxylic acids that are substrates for FDC-catalysed decarboxylation is much smaller. We discuss the implications of these findings for screening uncharacterized UbiD-like enzymes for novel (de)carboxylase activity.

Abstract Image

Abstract Image

探究前黄素依赖酶催化的芳香族脱羧反应的范围。
前黄素单核苷酸依赖性脱羧酶(又称 UbiD 类酶)是最近发现的脱羧酶家族。经过修饰的黄素通过涉及 1,3-二极环加化学的新机制促进不饱和羧酸的脱羧反应。类似 UbiD 的酶在生物催化方面的应用引起了人们相当大的兴趣,因为它们能够在原本没有反应的碳中心催化多种芳香底物的(脱)羧反应。目前有 35 000 个蛋白质序列被注释为假定的 UbiD 类酶。对 UbiD 蛋白家族进行的序列相似性网络分析表明,该家族中可能存在数十种不同的脱羧酶。此外,迄今表征的许多酶可以对多种底物进行脱羧。在这里,我们描述了一种基于检测酶催化的溶剂氘交换潜在底物的策略,以确定 UbiD 类酶的潜在底物。以阿魏酸脱羧酶(FDC)为模型系统,我们测试了各种芳香族和杂环分子在氘化缓冲液中进行酶催化的氢/氘交换的能力。我们发现,尽管FDC催化H/D交换的水平通常很低,但它能将H/D交换转化为多种芳香族小分子,这些分子与其生理底物几乎没有相似之处。相比之下,作为 FDC 催化脱羧作用底物的芳香族羧酸子集要小得多。我们讨论了这些发现对筛选新型(脱)羧酶活性的未表征 UbiD 类酶的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Faraday Discussions
Faraday Discussions CHEMISTRY, PHYSICAL-
CiteScore
4.90
自引率
0.00%
发文量
259
审稿时长
2.8 months
期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
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