将ABC转运蛋白的结构解析至原子分辨率：MsbA的建模与模拟研究

Extending the structure of an ABC transporter to atomic resolution: modeling and simulation studies of MsbA.

作者信息

Campbell Jeff D, Biggin Philip C, Baaden Marc, Sansom Mark S P

机构信息

Laboratory of Molecular Biophysics, Department of Biochemistry, University of Oxford, South Parks Road, Oxford, OX1 3QU, United Kingdom.

出版信息

Biochemistry. 2003 Apr 8;42(13):3666-73. doi: 10.1021/bi027337t.

DOI:10.1021/bi027337t

PMID:12667056

Abstract

Molecular modeling and simulation approaches have been use to generate a complete model of the prokaryotic ABC transporter MsbA from Escherichia coli, starting from the low-resolution structure-based Calpha trace (PDB code 1JSQ). MsbA is of some biomedical interest as it is homologous to mammalian transporters such as P-glycoprotein and TAP. The quality of the MsbA model is assessed using a combination of molecular dynamics simulations and static structural analysis. These results suggest that the approach adopted for MsbA may be of general utility for generating all atom models from low-resolution crystal structures of membrane proteins. Molecular dynamics simulations of the MsbA model inserted in a fully solvated octane slab (a membrane mimetic environment) reveal that while the monomer is relatively stable, the dimer is unstable and undergoes significant conformational drift on a nanosecond time scale. This suggests that the MsbA crystal dimer may not correspond to the MsbA dimer in vivo. An alternative model of the dimer is discussed in the context of available experimental data.

摘要

分子建模和模拟方法已被用于从基于低分辨率结构的Cα轨迹（蛋白质数据银行代码1JSQ）出发，生成大肠杆菌原核ABC转运蛋白MsbA的完整模型。MsbA具有一定的生物医学研究价值，因为它与诸如P-糖蛋白和转运体相关蛋白等哺乳动物转运蛋白同源。通过结合分子动力学模拟和静态结构分析来评估MsbA模型的质量。这些结果表明，用于MsbA的方法可能普遍适用于从膜蛋白的低分辨率晶体结构生成全原子模型。插入完全溶剂化的辛烷平板（一种膜模拟环境）中的MsbA模型的分子动力学模拟表明，虽然单体相对稳定，但二聚体不稳定，并且在纳秒时间尺度上经历显著的构象漂移。这表明MsbA晶体二聚体可能与体内的MsbA二聚体不对应。在现有实验数据的背景下讨论了二聚体的另一种模型。

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将ABC转运蛋白的结构解析至原子分辨率：MsbA的建模与模拟研究

Extending the structure of an ABC transporter to atomic resolution: modeling and simulation studies of MsbA.

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