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除草剂与其解毒酶谷胱甘肽S-转移酶复合物的结构——关于该酶在植物中选择性的解释

Structures of herbicides in complex with their detoxifying enzyme glutathione S-transferase - explanations for the selectivity of the enzyme in plants.

作者信息

Prade L, Huber R, Bieseler B

机构信息

Max Planck Institut für Biochemie Abt. Strukturforschung Am Klopferspitz 18a D-82152 Martinsrie, Germany.

出版信息

Structure. 1998 Nov 15;6(11):1445-52. doi: 10.1016/s0969-2126(98)00143-9.

DOI:10.1016/s0969-2126(98)00143-9
PMID:9817846
Abstract

BACKGROUND

Glutathione S-transferases (GSTs) are detoxifying enzymes present in all aerobic organisms. These enzymes catalyse the conjugation of glutathione with a variety of electrophilic compounds. In plants, GSTs catalyse the first step in the degradation of several herbicides, such as triazines and acetamides, thus playing an important role in herbicide tolerance.

RESULTS

We have solved the structures of GST-I from maize in complex with an atrazine-glutathione conjugate (at 2.8 A resolution) and GST from Arabidopsis thaliana (araGST) in complex with an FOE-4053-glutathione conjugate (at 2.6 A resolution). These ligands are products of the detoxifying reaction and are well defined in the electron density. The herbicide-binding site (H site) is different in the two structures. The architecture of the glutathione-binding site (G site) of araGST is different to that of the previously described structure of GST in complex with two S-hexylglutathione molecules, but is homologous to that of GST-I.

CONCLUSIONS

Three features are responsible for the differences in the H site of the two GSTs described here: the exchange of hydrophobic residues of different degrees of bulkiness; a slight difference in the location of the H site; and a difference in the degree of flexibility of the upper side of the H site, which is built up by the loop between helices alpha4 and alpha5. Taking these two structures as a model, the different substrate specificities of other plant GSTs may be explained. The structures reported here provide a basis for the design of new, more selective herbicides.

摘要

背景

谷胱甘肽S-转移酶(GSTs)是存在于所有需氧生物中的解毒酶。这些酶催化谷胱甘肽与多种亲电化合物的结合。在植物中,GSTs催化几种除草剂(如三嗪类和乙酰胺类)降解的第一步,因此在除草剂耐受性中发挥重要作用。

结果

我们解析了玉米GST-I与阿特拉津-谷胱甘肽共轭物复合物的结构(分辨率为2.8 Å)以及拟南芥GST(araGST)与FOE-4053-谷胱甘肽共轭物复合物的结构(分辨率为2.6 Å)。这些配体是解毒反应的产物,在电子密度图中清晰可辨。两种结构中除草剂结合位点(H位点)不同。araGST的谷胱甘肽结合位点(G位点)结构与先前描述的GST与两个S-己基谷胱甘肽分子复合物的结构不同,但与GST-I的结构同源。

结论

造成此处描述的两种GSTs的H位点差异的有三个特征:不同体积大小的疏水残基的交换;H位点位置的细微差异;以及由α4和α5螺旋之间的环构成的H位点上侧的灵活性程度差异。以这两种结构为模型,可以解释其他植物GSTs不同的底物特异性。此处报道的结构为设计新型、更具选择性的除草剂提供了基础。

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