Modelling by homology of the HSV1-TK sequence embedded structural alignment.

Journal of receptor research Pub Date : 1993-01-01 DOI:10.3109/10799899309073652

G Folkers, J Brünjes, M Michael, J Schill

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引用次数: 4

Abstract

Modelling by homology is an approach to the rational design of new drugs based on the construction of ligand protein interaction complexes. Because in most cases the 3D-structure of the target protein is not known from biophysical data, this approach yields a theoretical procedure which establishes at least parts of the protein by comparison with isofunctional proteins, assuming that much of the structural information is embedded in the amino acid sequence. This approach should be of considerable importance for proteins with divergent primary structures but with a high degree of isofunctionality, the latter demanding a similar active site folding pattern. This study is a pattern recognition approach based on additive secondary structure prediction and surface probabilities from residue variabilities. The comparison of the additive properties yields a sequence alignment of the viral thymidine kinases with the adenylate kinases having a closely related functionality. X-ray structures of adenylate kinases can then be used as templates to derive a 3D-structure prediction of the thymidine kinase active site.

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利用嵌入结构比对的HSV1-TK序列同源性建模。

同源性建模是一种基于配体-蛋白质相互作用复合物构建的合理设计新药的方法。因为在大多数情况下，目标蛋白的3d结构是无法从生物物理数据中得知的，这种方法产生了一个理论过程，假设大部分结构信息嵌入在氨基酸序列中，通过与同功能蛋白的比较，至少建立了部分蛋白质。这种方法对于具有不同初级结构但具有高度同功能的蛋白质具有相当重要的意义，后者需要类似的活性位点折叠模式。本研究是一种基于可加性二级结构预测和残差表面概率的模式识别方法。通过对加性特性的比较，得出了病毒胸苷激酶与具有密切相关功能的腺苷酸激酶的序列比对。腺苷酸激酶的x射线结构可以用作模板，以获得胸苷激酶活性位点的3d结构预测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of receptor research

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