Sulfolobus sp.菌株7中2-氧酸:铁氧化还蛋白氧化还原酶对底物的识别

Eriko Fukuda, Takayoshi Wakagi
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引用次数: 28

摘要

2-氧酸:铁氧还蛋白氧化还原酶(OFOR)催化2-氧酸的辅酶a依赖性氧化脱羧,其代谢作用类似于2-氧酸脱氢酶多酶复合物。该酶来自Sulfolobus sp.菌株7,是一种嗜热酸的绿古菌,是由两个亚基组成的异源二聚体,a(632个氨基酸)和b(305个氨基酸)。与其他OFORs相比,Sulfolobus酶对2-氧酸(如丙酮酸和2-氧戊二酸)具有广泛的特异性。基于该酶家族的仔细多重比对和报道的非洲Desulfovibrio Desulfovibrio africanus同源二聚体pyvate:ferredoxin oxidoreductase (POR)的三维结构,我们选择了亚基-a的T256、R344和T353以及亚基-b的K49和L123五个氨基酸作为候选2-氧酸识别残基。为了鉴定决定该酶家族2-氧酸特异性的残基,我们对这五个氨基酸进行了点突变,并对所产生的突变进行了表征。对突变体的分析表明,该酶的亚基a的R344是该酶活性所必需的,亚基b的K49R和L123N分别显著影响该酶对丙酮酸和2-氧戊二酸的特异性。这5个残基的替换导致Km和Vmax的显著变化,表明这些氨基酸显然参与了底物识别和催化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Substrate recognition by 2-oxoacid:ferredoxin oxidoreductase from Sulfolobus sp. strain 7

2-Oxoacid:ferredoxin oxidoreductase (OFOR) catalyzes the coenzyme A-dependent oxidative decarboxylation of 2-oxoacids, at an analogous metabolic position to 2-oxoacid dehydrogenase multienzyme complex. The enzyme from Sulfolobus sp. strain 7, a thermoacidophilic crenarchaeon, is a heterodimer comprising two subunits, a (632 amino acids) and b (305 amino acids). In contrast to other OFORs, the Sulfolobus enzyme shows a broad specificity for 2-oxoacids such as pyruvate and 2-oxoglutarate. Based on careful multiple alignment of this enzyme family and on the reported three-dimensional structure of the homodimeric pyruvate:ferredoxin oxidoreductase (POR) from Desulfovibrio africanus, we selected five amino acids, T256, R344 and T353 of subunit-a, and K49 and L123 of subunit-b, as candidate 2-oxoacid recognizing residues. To identify the residues determining the 2-oxoacid specificity of the enzyme family, we performed point mutations of these five amino acids, and characterized the resulting mutants. Analyses of the mutants revealed that R344 of subunit-a of the enzyme was essential for the activity, and that K49R and L123N of subunit-b drastically affected the enzyme specificity for pyruvate and 2-oxoglutarate, respectively. Replacement of the five residues resulted in significant changes in both Km and Vmax, indicating that these amino acids are clearly involved in substrate recognition and catalysis.

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