Structural basis for the specificity of thymidylate kinases from human pathogens: implications for nucleotide analogues activation.

Philippe Meyer, Christophe Caillat, Dimitri Topalis, Jan Balzarini, Dominique Deville-Bonne
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引用次数: 3

Abstract

Several human pathogens possess nucleoside or nucleotide kinases with large substrate specificity compared to their human counterparts. This phenomenon has been successfully exploited for the specific targeting of prodrugs such as Acyclovir against herpes virus. Combined structural and biochemical studies of these enzymes can thus provide essential information for the rational design of specific antimicrobial agents. Here we studied the structural basis for the specificity of a thymidylate kinase from the poxvirus family. Poxvirus thymidylate kinase has unusual substrate specificity and can accept bulky analogues such as 5-bromo-vinyl-dUMP (BVdUMP). The 2 A crystal structure of the thymidylate kinase bound to this compound now gives the structural basis for its specific molecular recognition.

人类病原体胸腺苷酸激酶特异性的结构基础:核苷酸类似物激活的意义。
与人类病原体相比,一些人类病原体具有核苷或核苷酸激酶,具有较大的底物特异性。这一现象已被成功地用于特异性靶向前药,如抗疱疹病毒的阿昔洛韦。结合这些酶的结构和生化研究可以为合理设计特定的抗菌药物提供必要的信息。我们研究了痘病毒家族胸腺苷酸激酶特异性的结构基础。痘病毒胸苷激酶具有不同寻常的底物特异性,可以接受大体积的类似物,如5-溴-乙烯基- dump (BVdUMP)。胸腺苷酸激酶与这种化合物结合的2a晶体结构现在为其特定的分子识别提供了结构基础。
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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