精氨酸292对肝黄杆菌中软骨素AC裂解酶催化活性的影响

Ishan Capila , Yi Wu , David W Rethwisch , Allan Matte , Miroslaw Cygler , Robert J Linhardt
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引用次数: 20

摘要

软骨素AC裂解酶(chondroitinase EC 4.2.2.5)是肝黄杆菌中的一种消除酶,在n -乙酰半乳糖胺和葡萄糖醛酸残基之间的1,4个糖苷键上裂解硫酸软骨素糖胺聚糖(GAGs)。裂解通过β消除以随机的内溶作用模式发生。软骨素AC裂解酶(野生型)与寡糖络合的晶体结构揭示了一个狭窄而浅的蛋白质通道内的结合位点,表明有几种氨基酸可能是活性位点残基的候选氨基酸。对活性位点通道内残基的位点特异性诱变研究表明,只有Arg to Ala 292突变(R292A)保留了活性。此外,结构数据表明R292主要参与识别半乳糖胺残基的n -乙酰基或o -磺基部分,而不直接参与催化。目前的研究表明,R292A突变提供了约10倍的Km值,但Vmax没有显著变化,这与R292参与结合糖残基的o -亚砜部分的假设一致。硫酸软骨素粘度的变化,作为其酶促裂解的函数,为R292A突变体提供了一条较浅的凹曲线,这表明其作用模式既不是纯粹随机的内溶也不是纯粹随机的外溶。凝胶电泳产品研究证实该突变体的作用模式发生了改变。因此,这些数据表明,R292A突变有效地降低了结合亲和力,使得在初始内溶裂解后仍然结合的低聚糖链有可能通过隧道滑到催化位点,进行后续的,渐进的,外溶裂解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Role of arginine 292 in the catalytic activity of chondroitin AC lyase from Flavobacterium heparinum

Chondroitin AC lyase (chondroitinase EC 4.2.2.5), an eliminase from Flavobacterium heparinum, cleaves chondroitin sulfate glycosaminoglycans (GAGs) at 1,4 glycosidic linkages between N-acetylgalactosamine and glucuronic acid residues. Cleavage occurs through β-elimination in a random endolytic action pattern. Crystal structures of chondroitin AC lyase (wild type) complexed with oligosaccharides reveal a binding site within a narrow and shallow protein channel, suggesting several amino acids as candidates for the active site residues. Site-specific mutagenesis studies on residues within the active-site tunnel revealed that only the Arg to Ala 292 mutation (R292A) retained activity. Furthermore, structural data suggested that R292 was primarily involved in recognition of N-acetyl or O-sulfo moieties of galactosamine residues and did not directly participate in catalysis. The current study demonstrates that the R292A mutation affords ∼10-fold higher Km values but no significant change in Vmax, consistent with hypothesis that R292 is involved in binding the O-sulfo moiety of the saccharide residues. Change in chondroitin sulfate viscosity, as a function of its enzymatic cleavage, affords a shallower concave curve for the R292A mutant, suggesting its action pattern is neither purely random endolytic nor purely random exolytic. Product studies using gel electrophoresis confirm the altered action pattern of this mutant. Thus, these data suggest that the R292A mutation effectively reduces binding affinity, making it possible for the oligosaccharide chain, still bound after initial endolytic cleavage, to slide through the tunnel to the catalytic site for subsequent, processive, step-wise, exolytic cleavage.

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