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加氧酶
突变
化学
生物化学
立体化学
酶
肌醇
定点突变
突变
受体
突变体
基因
作者
A.G. Thorsell,C. Persson,Nina Voevodskaya,R.D. Busam,M. Hammarstrom,S. Gräslund,Astrid Gräslund,B.M. Hallberg
标识
DOI:10.1074/jbc.m800348200
摘要
Altered inositol metabolism is implicated in a number of diabetic complications. The first committed step in mammalian inositol catabolism is performed by myo-inositol oxygenase (MIOX), which catalyzes a unique four-electron dioxygen-dependent ring cleavage of myo-inositol to D-glucuronate. Here, we present the crystal structure of human MIOX in complex with myo-inosose-1 bound in a terminal mode to the MIOX diiron cluster site. Furthermore, from biochemical and biophysical results from N-terminal deletion mutagenesis we show that the N terminus is important, through coordination of a set of loops covering the active site, in shielding the active site during catalysis. EPR spectroscopy of the unliganded enzyme displays a two-component spectrum that we can relate to an open and a closed active site conformation. Furthermore, based on site-directed mutagenesis in combination with biochemical and biophysical data, we propose a novel role for Lys(127) in governing access to the diiron cluster.
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