细菌细胞中表达的人野生型和突变型精氨酸琥珀酸合成酶蛋白的特性。

Enzyme & protein Pub Date : 1994-01-01 DOI:10.1159/000474998
N Shaheen, K Kobayashi, H Terazono, T Fukushige, M Horiuchi, T Saheki
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引用次数: 13

摘要

精氨酸琥珀酸合成酶(ASS)是一种由相同亚基组成的四聚体结构的尿素循环酶。瓜氨酸血症是一种由ASS缺乏引起的常染色体隐性遗传病。我们之前已经在人类经典瓜氨酸血症的ASS mRNA中发现了20个突变。然而,由于大多数患者是复合杂合子,因此很难评估每种突变对酶结构和功能的影响。本研究利用细菌表达系统对野生型和12个突变型ASS进行了酶学和免疫化学分析。纯化的重组蛋白具有野生型人ASS的特性,与从人肝脏中纯化的天然酶具有良好的一致性。除delta 7b/Ex16外,具有预期分子质量的突变ASS蛋白在细菌细胞中高度表达。冻融法难以从细胞中提取某些突变的ASS蛋白(A118T、delta Ex7、R157H、R363W、R363L、G390R和ins37b/Ex15&16)。可提取的突变体蛋白如下:G280R突变体提取的ASS蛋白量与野生型相近,但没有ASS活性;A192V、R272C和R304W突变体检测到不同数量的ASS蛋白(分别为野生型的13%、110和33%),但ASS活性较低,且动力学异常。在A192V (15 mmol/1)、R272C (4.2 mmol/l)和R304W突变体ASSs中瓜氨酸Km值较高。(190 mmol/l)高于野生型(0.056 mmol/l)。这些结果证实了这些突变是导致ASS缺乏的原因,也表明这些氨基酸残基对ASS蛋白的功能和结构很重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of human wild-type and mutant argininosuccinate synthetase proteins expressed in bacterial cells.

Argininosuccinate synthetase (ASS) is a urea cycle enzyme with a tetrameric structure composed of identical subunits. Citrullinemia is an autosomal recessive disease caused by a deficiency of ASS. We have previously identified 20 mutations in ASS mRNA of human classical citrullinemia. However, it is difficult to evaluate the effects of each mutation on the enzyme structure and function, since most of the patients are compound heterozygotes. In the present study, wild-type ASS and 12 mutant ASSs were expressed with a bacterial expression system and analyzed enzymologically and immunochemically. The properties of the purified recombinant protein with wild-type human ASS showed good agreement with native enzyme purified from human liver. Mutant ASS proteins with an expected molecular mass, except for delta 7b/Ex16, were highly expressed in the bacterial cells. It was difficult to extract ASS proteins with some mutations (A118T, delta Ex7, R157H, R363W, R363L, G390R and ins37b/Ex15&16) from cells by freezing and thawing. Extractable mutant proteins were as follows: G280R mutant was extracted with an amount of ASS protein similar to wild-type but with no ASS activity, and A192V, R272C and R304W mutants detected various amounts of ASS protein (13, 110 and 33% of wild-type, respectively) with a low ASS activity and abnormal kinetics. Higher Km values for citrulline were obtained in mutant ASSs with A192V (15 mmol/1), R272C (4.2 mmol/l) and R304W. (190 mmol/l) than in wild-type ASS (0.056 mmol/l). The results confirm that these mutations are responsible for ASS deficiency and also indicate that these amino acid residues are important for the function and structure of ASS protein.

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