探索结构保守块作为模拟真核细胞色素p450的通用模板。

Drug Metabolism and Drug Interactions Pub Date : 2012-01-01 DOI:10.1515/dmdi-2012-0023

Youbin Tu

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引用次数: 0

摘要

背景:越来越多的真核生物p450的晶体结构已经被发表，这为探索更多的结构特征和构建一些基于知识的方法来促进建模提供了机会。方法:选取14个细胞色素p450 (CYP450)的晶体结构，提取具有真核p450三维(3D)结构的通用空间锚点。采用多序列比对和结构叠加识别进化保守区。结果:含有不间断螺旋成分的区域被确定为结构保守块(scb)。通过序列熵和结构偏差进一步评价了SCBs的可靠性和鲁棒性。最后，将这些scb直接应用于构建P450 1B1的同源性模型。结论:scb可作为通用模板用于规范同源性建模程序，并有助于预测真核生物p450的药物代谢偏好。

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Exploring structurally conservative blocks as universal templates for modeling eukaryotic cytochrome P450s.

Background: An increasing number of crystal structures for eukaryotic P450s have been published, which provided the chance to explore more structural features and construct some knowledge-based methods to facilitate modeling.

Methods: The crystal structures of 14 cytochrome P450s (CYP450) were selected to extract generic spatial anchors typical for three-dimensional (3D) structures of eukaryotic P450s. Multiple sequence alignment and structural superimposition were applied to recognize evolutionarily conserved regions.

Results: Regions containing uninterrupted helical components were identified as structurally conservative blocks (SCBs). The reliability and robustness of the SCBs were further evaluated by sequence entropy and structural deviation. Finally, these SCBs were applied and tested directly in constructing the homology model of the P450 1B1.

Conclusions: SCBs could potentially be applied as universal template to standardize the homology modeling procedure and help predict drug metabolism preferences for eukaryotic P450s.

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Drug Metabolism and Drug Interactions

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