ATP结合盒的动力学有助于ABC转运蛋白的变构调控、核苷酸结合和能量转导。

Dynamics of ATP-binding cassette contribute to allosteric control, nucleotide binding and energy transduction in ABC transporters.

作者信息

Wang Chunyu, Karpowich Nathan, Hunt John F, Rance Mark, Palmer Arthur G

机构信息

Department of Biochemistry and Molecular Biophysics, Columbia University, 630 W. 168th St, New York, NY 10032, USA.

出版信息

J Mol Biol. 2004 Sep 10;342(2):525-37. doi: 10.1016/j.jmb.2004.07.001.

DOI:10.1016/j.jmb.2004.07.001

PMID:15327952

Abstract

ATP-binding cassette (ABC) transporters move solutes across membranes and are associated with important diseases, including cystic fibrosis and multi-drug resistance. These molecular machines are energized by their charateristic ABC modules, molecular engines fuelled by ATP hydrolysis. A solution NMR study of a model ABC, Methanococcus jannaschii protein MJ1267, reveals that ADP-Mg binding alters the flexibilities of key ABC motifs and induces allosteric changes in conformational dynamics in the LivG insert, over 30A away from the ATPase active site. (15)N spin relaxation data support a "selected-fit" model for nucleotide binding. Transitions between rigidity and flexibility in key motifs during the ATP hydrolysis cycle may be crucial to mechanochemical energy transduction in ABC transporters. The restriction of correlated protein motions is likely a central mechanism for allosteric communications. Comparison between dynamics data from NMR and X-ray crystallography reveals their overall consistency and complementarity.

摘要

ATP结合盒（ABC）转运蛋白可使溶质跨膜运输，并与包括囊性纤维化和多药耐药性在内的重要疾病相关。这些分子机器由其特有的ABC模块提供能量，ABC模块是由ATP水解供能的分子引擎。对一种模型ABC——詹氏甲烷球菌蛋白MJ1267进行的溶液核磁共振研究表明，ADP-Mg结合会改变关键ABC基序的灵活性，并在LivG插入片段中诱导构象动力学的变构变化，该插入片段距离ATP酶活性位点超过30埃。（15）N自旋弛豫数据支持核苷酸结合的“选择适配”模型。在ATP水解循环中，关键基序在刚性和灵活性之间的转变可能对ABC转运蛋白中的机械化学能量转导至关重要。相关蛋白质运动的限制可能是变构通讯的核心机制。核磁共振动力学数据与X射线晶体学数据的比较揭示了它们的总体一致性和互补性。

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ATP结合盒的动力学有助于ABC转运蛋白的变构调控、核苷酸结合和能量转导。

Dynamics of ATP-binding cassette contribute to allosteric control, nucleotide binding and energy transduction in ABC transporters.

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