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视紫红质-转导蛋白界面:构象受限肽的研究

Rhodopsin-transducin interface: studies with conformationally constrained peptides.

作者信息

Arimoto R, Kisselev O G, Makara G M, Marshall G R

机构信息

Department of Biochemistry and Molecular Biophysics, Washington University, St. Louis, Missouri 63110, USA.

出版信息

Biophys J. 2001 Dec;81(6):3285-93. doi: 10.1016/S0006-3495(01)75962-0.

DOI:10.1016/S0006-3495(01)75962-0
PMID:11720992
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1301786/
Abstract

To probe the interaction between transducin (G(t)) and photoactivated rhodopsin (R*), 14 analog peptides were designed and synthesized restricting the backbone of the R*-bound structure of the C-terminal 11 residues of G(t)alpha derived by transferred nuclear Overhauser effect (TrNOE) NMR. Most of the analogs were able to bind R*, supporting the TrNOE structure. Improved affinities of constrained peptides indicated that preorganization of the bound conformation is beneficial. Cys347 was found to be a recognition site; particularly, the free sulfhydryl of the side chain seems to be critical for R* binding. Leu349 was another invariable residue. Both Ile and tert-leucine (Tle) mutations for Leu349 significantly reduced the activity, indicating that the Leu side chain is in intimate contact with R*. The structure of R* was computer generated by moving helix 6 from its position in the crystal structure of ground-state rhodopsin (R) based on various experimental data. Seven feasible complexes were found when docking the TrNOE structure with R* and none with R. The analog peptides were modeled into the complexes, and their binding affinities were calculated. The predicted affinities were compared with the measured affinities to evaluate the modeled structures. Three models of the R*/G(t)alpha complex showed strong correlation to the experimental data.

摘要

为了探究转导蛋白(G(t))与光激活视紫红质(R*)之间的相互作用,设计并合成了14种类似物肽,这些类似物限制了G(t)α C末端11个残基经转移核Overhauser效应(TrNOE)核磁共振确定的与R结合结构的主链。大多数类似物能够结合R,支持了TrNOE结构。受限肽亲和力的提高表明结合构象的预组织是有益的。发现Cys347是一个识别位点;特别是,侧链的游离巯基似乎对R结合至关重要。Leu349是另一个不变的残基。Leu349的Ile和叔亮氨酸(Tle)突变均显著降低了活性,表明Leu侧链与R紧密接触。基于各种实验数据,通过将螺旋6从其在基态视紫红质(R)晶体结构中的位置移动,利用计算机生成了R的结构。将TrNOE结构与R对接时发现了7种可行的复合物,与R对接时未发现可行复合物。将类似物肽构建到复合物模型中,并计算它们的结合亲和力。将预测的亲和力与测量的亲和力进行比较,以评估构建的结构。三种R*/G(t)α复合物模型与实验数据显示出很强的相关性。

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