酿酒酵母D-阿拉伯糖脱氢酶催化的α,β-二羰基还原反应

Alpha,beta-dicarbonyl reduction by Saccharomyces D-arabinose dehydrogenase.

作者信息

van Bergen Barry, Strasser Rona, Cyr Normand, Sheppard John D, Jardim Armando

机构信息

Department of Bioresource Engineering, Macdonald Campus of McGill University, 21 111 Lakeshore Road, Ste-Anne-de-Bellevue, Quebec, Canada H9X 3V9.

出版信息

Biochim Biophys Acta. 2006 Nov;1760(11):1636-45. doi: 10.1016/j.bbagen.2006.08.025. Epub 2006 Sep 8.

DOI:10.1016/j.bbagen.2006.08.025

PMID:17030441

Abstract

An alpha,beta-dicarbonyl reductase activity was purified from Saccharomyces cerevisiae and identified as the cytosolic enzyme D-Arabinose dehydrogenase (ARA1) by MALDI-TOF/TOF. Size exclusion chromatography analysis of recombinant Ara1p revealed that this protein formed a homodimer. Ara1p catalyzed the reduction of the reactive alpha,beta-dicarbonyl compounds methylglyoxal, diacetyl, and pentanedione in a NADPH dependant manner. Ara1p had apparent Km values of approximately 14 mM, 7 mM and 4 mM for methylglyoxal, diacetyl and pentanedione respectively, with corresponding turnover rates of 4.4, 6.9 and 5.9 s(-1) at pH 7.0. pH profiling showed that Ara1p had a pH optimum of 4.5 for the diacetyl reduction reaction. Ara1p also catalyzed the NADP+ dependant oxidation of acetoin; however this back reaction only occurred at alkaline pH values. That Ara1p was important for degradation of alpha,beta-dicarbonyl substrates was further supported by the observation that ara1-Delta knockout yeast mutants exhibited a decreased growth rate phenotype in media containing diacetyl.

摘要

从酿酒酵母中纯化出一种α,β-二羰基还原酶活性，并通过基质辅助激光解吸电离飞行时间串联质谱（MALDI-TOF/TOF）鉴定为胞质酶D-阿拉伯糖脱氢酶（ARA1）。对重组Ara1p进行的尺寸排阻色谱分析表明，该蛋白形成了同源二聚体。Ara1p以NADPH依赖的方式催化活性α,β-二羰基化合物甲基乙二醛、双乙酰和戊二酮的还原反应。Ara1p对甲基乙二醛、双乙酰和戊二酮的表观Km值分别约为14 mM、7 mM和4 mM，在pH 7.0时相应的周转速率分别为4.4、6.9和5.9 s(-1)。pH谱分析表明，Ara1p催化双乙酰还原反应的最适pH为4.5。Ara1p还催化了NADP+依赖的乙偶姻氧化反应；然而，这种逆反应仅在碱性pH值下发生。ara1-Δ敲除酵母突变体在含有双乙酰的培养基中表现出生长速率降低的表型，这一观察结果进一步支持了Ara1p对α,β-二羰基底物降解很重要的观点。

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酿酒酵母D-阿拉伯糖脱氢酶催化的α,β-二羰基还原反应

Alpha,beta-dicarbonyl reduction by Saccharomyces D-arabinose dehydrogenase.

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