Oakley A J, Harnnoi T, Udomsinprasert R, Jirajaroenrat K, Ketterman A J, Wilce M C
Department of Pharmacology/Crystallography Centre, University of Western Australia, Crawley 6009, Australia.
Protein Sci. 2001 Nov;10(11):2176-85. doi: 10.1110/ps.ps.21201.
Glutathione S-transferases (GSTs) are dimeric proteins that play an important role in cellular detoxification. Four GSTs from the mosquito Anopheles dirus species B (Ad), an important malaria vector in South East Asia, are produced by alternate splicing of a single transcription product and were previously shown to have detoxifying activity towards pesticides such as DDT. We have determined the crystal structures for two of these alternatively spliced proteins, AdGST1-3 (complexed with glutathione) and AdGST1-4 (apo form), at 1.75 and 2.45 A resolution, respectively. These GST isozymes show differences from the related GST from the Australian sheep blowfly Lucilia cuprina; in particular, the presence of a C-terminal helix forming part of the active site. This helix causes the active site of the Anopheles GSTs to be enclosed. The glutathione-binding helix alpha2 and flanking residues are disordered in the AdGST1-4 (apo) structure, yet ordered in the AdGST1-3 (GSH-bound) structure, suggesting that insect GSTs operate with an induced fit mechanism similar to that found in the plant phi- and human pi-class GSTs. Despite the high overall sequence identities, the active site residues of AdGST1-4 and AdGST1-3 have different conformations.
谷胱甘肽S-转移酶(GSTs)是一种二聚体蛋白质,在细胞解毒过程中发挥着重要作用。东南亚重要的疟疾传播媒介——中华按蚊B种(Ad)中的四种GSTs,是由单一转录产物的可变剪接产生的,先前已证明它们对滴滴涕等杀虫剂具有解毒活性。我们分别以1.75 Å和2.45 Å的分辨率确定了其中两种可变剪接蛋白AdGST1-3(与谷胱甘肽复合)和AdGST1-4(无配体形式)的晶体结构。这些GST同工酶与澳大利亚羊绿蝇Lucilia cuprina的相关GST存在差异;特别是,活性位点的一部分由一个C端螺旋构成。这个螺旋导致按蚊GSTs的活性位点被封闭。在AdGST1-4(无配体)结构中,谷胱甘肽结合螺旋α2及其侧翼残基是无序的,但在AdGST1-3(结合谷胱甘肽)结构中是有序的,这表明昆虫GSTs的作用机制类似于植物phi类和人类pi类GSTs中的诱导契合机制。尽管总体序列同一性很高,但AdGST1-4和AdGST1-3的活性位点残基具有不同的构象。