关于参与卡纳万病的天冬氨酸酰基转移酶突变的对接、分子动力学和自由能研究。

Docking, molecular dynamics and free energy studies on aspartoacylase mutations involved in Canavan disease.

作者信息

Kocak Abdulkadir, Yildiz Muslum

机构信息

Department of Chemistry, Gebze Technical University, 41400 Kocaeli, Turkey.

Department of Molecular Biology and Genetics, Gebze Technical University, 41400 Kocaeli, Turkey.

出版信息

J Mol Graph Model. 2017 Jun;74:44-53. doi: 10.1016/j.jmgm.2017.03.011. Epub 2017 Mar 19.

DOI:10.1016/j.jmgm.2017.03.011

PMID:28349879

Abstract

The disruption of aspartoacylase enzyme's catalytic activity causes fatal neurodegenerative Canavan disease. By molecular dynamics and docking methods, here we studied two deleterious mutations that have been identified in the Canavan patients' genotype E285A, F295S, and revealed the possible cause for the enzyme inhibition due to the drastic changes in active site dynamics, loss of interactions among Arg 71, Arg 168 and the substrate and pKa value of critical Glu178 residue. In addition to changes in the enzyme dynamics, free energy calculations show that the binding energy of substrate decreases dramatically up on mutations.

摘要

天冬氨酸酰基酶催化活性的破坏会导致致命的神经退行性疾病——卡纳万病。通过分子动力学和对接方法，我们在此研究了在卡纳万病患者基因型E285A、F295S中发现的两个有害突变，并揭示了由于活性位点动力学的剧烈变化、关键的Glu178残基的Arg 71、Arg 168与底物之间相互作用的丧失以及pKa值的变化而导致酶抑制的可能原因。除了酶动力学的变化外，自由能计算表明，突变后底物的结合能显著降低。

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关于参与卡纳万病的天冬氨酸酰基转移酶突变的对接、分子动力学和自由能研究。

Docking, molecular dynamics and free energy studies on aspartoacylase mutations involved in Canavan disease.

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