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通过溶液 NMR 和加速分子动力学揭示人 AlkB 家族 5 的活性位点呼吸。

Active Site Breathing of Human Alkbh5 Revealed by Solution NMR and Accelerated Molecular Dynamics.

机构信息

Department of Chemistry, Biophysics and Molecular Biology, Iowa State University, Ames, Iowa.

Department of Chemistry, Biophysics and Molecular Biology, Iowa State University, Ames, Iowa; Roy J. Carver Department of Biochemistry, Biophysics and Molecular Biology, Iowa State University, Ames, Iowa.

出版信息

Biophys J. 2018 Nov 20;115(10):1895-1905. doi: 10.1016/j.bpj.2018.10.004. Epub 2018 Oct 11.

Abstract

AlkB homolog 5 (Alkbh5) is one of nine members of the AlkB family, which are nonheme Fe/α-ketoglutarate-dependent dioxygenases that catalyze the oxidative demethylation of modified nucleotides and amino acids. Alkbh5 is highly selective for the N-methyladenosine modification, an epigenetic mark that has spawned significant biological and pharmacological interest because of its involvement in important physiological processes, such as carcinogenesis and stem cell differentiation. Herein, we investigate the structure and dynamics of human Alkbh5 in solution. By using N and C relaxation dispersion and N-R and R NMR experiments, we show that the active site of apo Alkbh5 experiences conformational dynamics on multiple timescales. Consistent with this observation, backbone amide residual dipolar couplings measured for Alkbh5 in phage pf1 are inconsistent with the static crystal structure of the enzyme. We developed a simple approach that combines residual dipolar coupling data and accelerated molecular dynamics simulations to calculate a conformational ensemble of Alkbh5 that is fully consistent with the experimental NMR data. Our structural model reveals that Alkbh5 is more disordered in solution than what is observed in the crystal state and undergoes breathing motions that expand the active site and allow access to α-ketoglutarate. Disordered-to-ordered conformational changes induced by sequential substrate/cofactor binding events have been often invoked to interpret biochemical data on the activity and specificity of AlkB proteins. The structural ensemble reported in this work provides the first atomic-resolution model of an AlkB protein in its disordered conformational state to our knowledge.

摘要

AlkB 同系物 5(Alkbh5)是 AlkB 家族的九个成员之一,该家族是非血红素 Fe/α-酮戊二酸依赖性双加氧酶,可催化修饰核苷酸和氨基酸的氧化去甲基化。Alkbh5 对 N6-甲基腺苷修饰具有高度选择性,这种表观遗传标记因其参与重要的生理过程(如致癌作用和干细胞分化)而引起了极大的生物学和药理学兴趣。在此,我们研究了人源 Alkbh5 在溶液中的结构和动力学。通过使用 N 和 C 弛豫分散和 N-R 和 R NMR 实验,我们表明 apo Alkbh5 的活性位点在多个时间尺度上经历构象动力学。与这一观察结果一致,在噬菌体 pf1 中测量的 Alkbh5 的骨架酰胺残基偶极耦合表明与酶的静态晶体结构不一致。我们开发了一种简单的方法,该方法结合了残基偶极耦合数据和加速分子动力学模拟,以计算出与实验 NMR 数据完全一致的 Alkbh5 构象集合。我们的结构模型表明,Alkbh5 在溶液中比在晶体状态下更为无序,并经历呼吸运动,从而扩展活性位点并允许α-酮戊二酸进入。连续的底物/辅因子结合事件诱导的无序到有序的构象变化经常被用来解释 AlkB 蛋白活性和特异性的生化数据。据我们所知,本工作中报道的结构集合提供了第一个 AlkB 蛋白在无序构象状态下的原子分辨率模型。

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