Wentao Zhu scite author profile

Wentao Zhu

3Publications

5Citation Statements Received

224Citation Statements Given

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Collaborative Innovation Center of Advanced Microstructures, Nanjing University

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Modeling hydrogen exchange of proteins by a multiscale method*

Zhu

Wang

2021

Chinese Phys. B

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We proposed a practical way for mapping the results of coarse-grained molecular simulations to the observables in hydrogen change experiments. By combining an atomic-interaction based coarse-grained model with an all-atom structure reconstruction algorithm, we reproduced the experimental hydrogen exchange data with reasonable accuracy using molecular dynamics simulations. We also showed that the coarse-grained model can be further improved by imposing experimental restraints from hydrogen exchange data via an iterative optimization strategy. These results suggest that it is feasible to develop an integrative molecular simulation scheme by incorporating the hydrogen exchange data into the coarse-grained molecular dynamics simulations and therefore help to overcome the accuracy bottleneck of coarse-grained models.

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Enhanced sampling method with coarse graining of conformational space

et al. 2021

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Consequences of Hydrophobic Nanotube Binding on the Functional Dynamics of Signaling Protein Calmodulin

et al. 2019

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The wide applications of nanomaterials in industry and our daily life have raised growing concerns on their toxicity to human body. Increasing evidence links the cytotoxicity of nanoparticles to the disruption of cellular signaling pathways. Here, we report a computational study on the mechanisms of the cytotoxicity of carbon nanotubes (CNTs) by investigating the direct impacts of CNTs on the functional motions of calmodulin (CaM), which is one of the most important signaling proteins in a cell, and its signaling function relies on the Ca 2+ binding-coupled conformational switching. Computational simulations with a coarse-grained model showed that binding of CNTs modifies the conformational equilibrium of CaM and induces the closed-to-open conformational transition, leading to the loss of its Ca 2+ -sensing ability. In addition, the binding of CNTs drastically increases the calcium affinity of CaM, which may disrupt the Ca 2+ homeostasis in a cell. These results suggest that the binding of hydrophobic nanotubes not only inhibits the signaling function of CaM as a calcium sensor but also renders CaM to toxic species through sequestering Ca 2+ from other competing calcium-binding proteins, suggesting a new physical mechanism of the cytotoxicity of nanoparticles.

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Wentao Zhu

Modeling hydrogen exchange of proteins by a multiscale method*

Enhanced sampling method with coarse graining of conformational space

Consequences of Hydrophobic Nanotube Binding on the Functional Dynamics of Signaling Protein Calmodulin

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