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α类谷胱甘肽S-转移酶中黄曲霉毒素B1-8,9-环氧化物特异性的决定因素。

Determinants of specificity for aflatoxin B1-8,9-epoxide in alpha-class glutathione S-transferases.

作者信息

McDonagh P D, Judah D J, Hayes J D, Lian L Y, Neal G E, Wolf C R, Roberts G C

机构信息

Centre for Mechanisms of Human Toxicity, University of Leicester, Leicester LE1 9HN, UK.

出版信息

Biochem J. 1999 Apr 1;339 ( Pt 1)(Pt 1):95-101.

PMID:10085232
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1220132/
Abstract

We have used homology modelling, based on the crystal structure of the human glutathione S-transferase (GST) A1-1, to obtain the three-dimensional structures of rat GSTA3 and rat GSTA5 subunits bound to S-aflatoxinyl-glutathione. The resulting models highlight two residues, at positions 208 and 108, that could be important for determining, either directly or indirectly, substrate specificity for aflatoxin-exo-8,9-epoxide among the Alpha-class GSTs. Residues at these positions were mutated in human GSTA1-1 (Met-208, Leu-108), rat GSTA3-3 (Glu-208, His-108) and rat GSTA5-5 (Asp-208, Tyr-108): in the active rat GSTA5-5 to those in the inactive GSTA1-1; and in the inactive human GSTA1-1 and rat GSTA3-3 to those in the active rat GSTA5-5. These studies show clearly that, in all three GSTs, an aspartate residue at position 208 is a prerequisite for high activity in aflatoxin-exo-8,9-epoxide conjugation, although this alone is not sufficient; other residues in the vicinity, particularly residues 103-112, are important, perhaps for the optimal orientation of the aflatoxin-exo-8,9-epoxide in the active site for catalysis to occur.

摘要

我们基于人谷胱甘肽S-转移酶(GST)A1-1的晶体结构,采用同源建模法,获得了与S-黄曲霉毒素基谷胱甘肽结合的大鼠GSTA3和大鼠GSTA5亚基的三维结构。所得模型突出显示了208位和108位的两个残基,这两个残基可能对于直接或间接确定α类GST中黄曲霉毒素-外-8,9-环氧化物的底物特异性很重要。在人GSTA1-1(Met-208,Leu-108)、大鼠GSTA3-3(Glu-208,His-108)和大鼠GSTA5-5(Asp-208,Tyr-108)中对这些位置的残基进行了突变:在有活性的大鼠GSTA5-5中将这些残基突变为无活性的GSTA1-1中的残基;在无活性的人GSTA1-1和大鼠GSTA3-3中将这些残基突变为有活性的大鼠GSTA5-5中的残基。这些研究清楚地表明,在所有三种GST中,208位的天冬氨酸残基是黄曲霉毒素-外-8,9-环氧化物结合高活性的先决条件,尽管仅这一点并不足够;附近的其他残基,特别是103-112位的残基也很重要,可能是为了使黄曲霉毒素-外-8,9-环氧化物在活性位点具有最佳取向以便发生催化作用。

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