SEC-SAXS/MC Ensemble Structural Studies of the Microtubule Binding Protein Cdt1 Show Monomeric, Folded-Over Conformations.

Kyle P Smith, Srinivas Chakravarthy, Amit Rahi, Manas Chakraborty, Kristen M Vosberg, Marco Tonelli, Maximilian G Plach, Arabela A Grigorescu, Joseph E Curtis, Dileep Varma
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Abstract

Cdt1 is a mixed folded protein critical for DNA replication licensing and it also has a "moonlighting" role at the kinetochore via direct binding to microtubules and the Ndc80 complex. However, it is unknown how the structure and conformations of Cdt1 could allow it to participate in these multiple, unique sets of protein complexes. While robust methods exist to study entirely folded or unfolded proteins, structure-function studies of combined, mixed folded/disordered proteins remain challenging. In this work, we employ orthogonal biophysical and computational techniques to provide structural characterization of mitosis-competent human Cdt1. Thermal stability analyses shows that both folded winged helix domains1 are unstable. CD and NMR show that the N-terminal and linker regions are intrinsically disordered. DLS shows that Cdt1 is monomeric and polydisperse, while SEC-MALS confirms that it is monomeric at high concentrations, but without any apparent inter-molecular self-association. SEC-SAXS enabled computational modeling of the protein structures. Using the program SASSIE, we performed rigid body Monte Carlo simulations to generate a conformational ensemble of structures. We observe that neither fully extended nor extremely compact Cdt1 conformations are consistent with SAXS. The best-fit models have the N-terminal and linker disordered regions extended into the solution and the two folded domains close to each other in apparent "folded over" conformations. We hypothesize the best-fit Cdt1 conformations could be consistent with a function as a scaffold protein that may be sterically blocked without binding partners. Our study also provides a template for combining experimental and computational techniques to study mixed-folded proteins.

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微管结合蛋白 Cdt1 的 SEC-SAXS/MC 组合结构研究显示了单体折叠构象。
Cdt1 是一种混合折叠蛋白,对 DNA 复制许可至关重要,它还通过与微管和 Ndc80 复合物的直接结合在动点上扮演 "兼职 "角色。然而,Cdt1 的结构和构象如何使其参与这些多重、独特的蛋白质复合物还不得而知。虽然存在研究完全折叠或未折叠蛋白质的可靠方法,但对组合、混合折叠/有序蛋白质的结构-功能研究仍具有挑战性。在这项研究中,我们采用了正交生物物理和计算技术,对有丝分裂功能的人类 Cdt1 进行了结构鉴定。热稳定性分析表明,两个折叠的翼螺旋结构域1都不稳定。CD 和 NMR 显示,N-末端和连接区是内在无序的。DLS 显示 Cdt1 是单体且多分散的,而 SEC-MALS 则证实它在高浓度下是单体,但没有任何明显的分子间自结合。SEC-SAXS 实现了蛋白质结构的计算建模。我们使用 SASSIE 程序进行了刚体蒙特卡罗模拟,生成了一个构象组合结构。我们观察到,Cdt1 的完全扩展构象和极度紧凑构象都与 SAXS 不一致。最佳拟合模型的 N 端和连接体无序区延伸到溶液中,两个折叠结构域相互靠近,呈明显的 "折叠 "构象。我们推测,Cdt1 的最佳拟合构象可能与它作为支架蛋白的功能相一致,如果没有结合伙伴,它可能会被立体阻断。我们的研究还为结合实验和计算技术研究混合折叠蛋白提供了一个模板。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Actin Isovariant ACT2-Mediated Cellular Auxin Homeostasis Regulates Lateral Root Organogenesis in Arabidopsis thaliana. Analyses of Off-Target Effects on Cardiac and Skeletal Muscles by Berberine, a Drug Used to Treat Cancers and Induce Weight Loss. Alteration of Cytoskeletal Proteins Leads to Retinal Degeneration in Drosophila. SEC-SAXS/MC Ensemble Structural Studies of the Microtubule Binding Protein Cdt1 Show Monomeric, Folded-Over Conformations. Myosins on the Move: A Special Issue on Myosins and Myosin-Dependent Cell Processes.
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