Ius Novum最新文献

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Disordered to ordered folding in the regulation of diphtheria toxin repressor activity. 白喉毒素抑制剂活性调节过程中的无序折叠到有序折叠。

IF 11.1

Ius Novum

Pub Date : 2001-09-25 DOI: 10.1073/pnas.191354798

P D Twigg, G Parthasarathy, L Guerrero, T M Logan, D L Caspar

Understanding how metal binding regulates the activity of the diphtheria toxin repressor protein (DtxR) requires information about the structure in solution. We have prepared a DtxR mutant construct with three additional N-terminal residues, Gly-Ser-His-DtxR(Cys-102 --> Asp), that retains metal-binding capabilities, but remains monomeric in solution and does not bind DNA under conditions that effect dimerization and DNA binding in the functional DtxR(Cys-102 --> Asp) construct. Although the interaction properties of this inactive mutant in solution are very different from that of active repressors, crystallization imposes the same dimeric structure as observed in all crystal forms of the active repressor with and without bound metal. Our solution NMR analyses of active and inactive metal-free diphtheria toxin repressors demonstrate that whereas the C-terminal one-third of the protein is well ordered, the N-terminal two-thirds exhibits conformational flexibility and exists as an ensemble of structural substates with undefined tertiary structure. Fluorescence binding assays with 1-anilino naphthalene-8-sulfonic acid (ANS) confirm that the highly alpha-helical N-terminal two-thirds of the apoprotein is molten globule-like in solution. Binding of divalent metal cations induces a substantial conformational reorganization to a more ordered state, as evidenced by changes in the NMR spectra and ANS binding. The evident disorder to order transition upon binding of metal in solution is in contrast to the minor conformational changes seen comparing apo- and holo-DtxR crystal structures. Disordered to ordered folding appears to be a general mechanism for regulating specific recognition in protein action and this mechanism provides a plausible explanation for how metal binding controls the DtxR repressor activity.

要了解金属结合如何调控白喉毒素抑制蛋白（DtxR）的活性，就必须了解其在溶液中的结构。我们制备了一种具有三个额外 N 端残基的 DtxR 突变体构建体 Gly-Ser-His-DtxR(Cys-102-->Asp)，它保留了金属结合能力，但在溶液中仍是单体，并且在影响功能性 DtxR(Cys-102 --> Asp) 构建体的二聚化和 DNA 结合的条件下不结合 DNA。虽然这种非活性突变体在溶液中的相互作用特性与活性抑制因子的特性有很大不同，但其结晶形成的二聚体结构与有金属结合和无金属结合的活性抑制因子的所有晶体形式中观察到的结构相同。我们对活性和非活性无金属白喉毒素抑制因子进行的溶液核磁共振分析表明，蛋白质 C 端三分之一的部分是有序的，而 N 端三分之二的部分则表现出构象灵活性，并以具有未定义三级结构的结构亚型的组合形式存在。与 1-苯胺基萘-8-磺酸（ANS）的荧光结合试验证实，该蛋白 N 端三分之二的高度α-螺旋结构在溶液中呈熔融球状。二价金属阳离子的结合会诱导大量构象重组，使其进入更有序的状态，核磁共振光谱的变化和 ANS 的结合就是证明。在溶液中与金属结合后，无序到有序的转变非常明显，这与比较apo-DtxR晶体结构和holo-DtxR晶体结构时所看到的微小构象变化形成了鲜明对比。无序折叠到有序折叠似乎是调节蛋白质作用中特定识别的一般机制，这种机制为金属结合如何控制 DtxR 抑制剂活性提供了一个合理的解释。

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