Tomonori Hayami scite author profile

Tomonori Hayami

4Publications

94Citation Statements Received

225Citation Statements Given

How they've been cited

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258

225

Affiliations

Protein Research Foundation, Osaka University

Publications

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Free-energy landscape of molecular interactions between endothelin 1 and human endothelin type B receptor: fly-casting mechanism

Higo

Kasahara

Wada³

et al. 2019

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The free-energy landscape of interaction between a medium-sized peptide, endothelin 1 (ET1), and its receptor, human endothelin type B receptor (hETB), was computed using multidimensional virtual-system coupled molecular dynamics, which controls the system’s motions by introducing multiple reaction coordinates. The hETB embedded in lipid bilayer was immersed in explicit solvent. All molecules were expressed as all-atom models. The resultant free-energy landscape had five ranges with decreasing ET1–hETB distance: completely dissociative, outside-gate, gate, binding pocket, and genuine-bound ranges. In the completely dissociative range, no ET1–hETB interaction appeared. In the outside-gate range, an ET1–hETB attractive interaction was the fly-casting mechanism. In the gate range, the ET1 orientational variety decreased rapidly. In the binding pocket range, ET1 was in a narrow pathway with a steep free-energy slope. In the genuine-bound range, ET1 was in a stable free-energy basin. A G-protein-coupled receptor (GPCR) might capture its ligand from a distant place.

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Multidimensional virtual‐system coupled canonical molecular dynamics to compute free‐energy landscapes of peptide multimer assembly

et al. 2019

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An enhanced‐sampling method termed multidimensional virtual‐system coupled canonical molecular dynamics (mD‐VcMD) method is developed. In many cases, generalized‐ensemble methods realizing enhanced sampling, for example, adaptive umbrella sampling, apply an effective potential, which is derived from temporarily assumed canonical distribution as a function of one or more arbitrarily defined reaction coordinates. However, it is not straightforward to estimate the appropriate canonical distribution, especially for cases applying multiple reaction coordinates. The current method, mD‐VcMD, does not rely on the form of the canonical distribution. Therefore, it is practically useful to explore a high‐dimensional reaction‐coordinate space. In this article, formulation of mD‐VcMD and its evaluation with the simple molecular models consisting of three or four alanine peptides are presented. We confirmed that mD‐VcMD efficiently searched 2D and 3D reaction‐coordinate spaces defined as interpeptide distances. Direct comparisons with results of long‐term canonical MD simulations revealed that mD‐VcMD produces correct canonical ensembles. © 2019 Wiley Periodicals, Inc.

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Molecular dynamics coupled with a virtual system for effective conformational sampling

et al. 2018

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An enhanced conformational sampling method is proposed: virtual-system coupled canonical molecular dynamics (VcMD). Although VcMD enhances sampling along a reaction coordinate, this method is free from estimation of a canonical distribution function along the reaction coordinate. This method introduces a virtual system that does not necessarily obey a physical law. To enhance sampling the virtual system couples with a molecular system to be studied. Resultant snapshots produce a canonical ensemble. This method was applied to a system consisting of two short peptides in an explicit solvent. Conventional molecular dynamics simulation, which is ten times longer than VcMD, was performed along with adaptive umbrella sampling. Free-energy landscapes computed from the three simulations mutually converged well. The VcMD provided quicker association/dissociation motions of peptides than the conventional molecular dynamics did. The VcMD method is applicable to various complicated systems because of its methodological simplicity. © 2018 Wiley Periodicals, Inc.

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Difference of binding modes among three ligands to a receptor mSin3B corresponding to their inhibitory activities

Hayami

Kamiya

Kasahara

et al. 2021

Sci Rep

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A preceding experiment suggested that a compound, which inhibits binding of the REST/NRSF segment to the cleft of a receptor protein mSin3B, can be a potential drug candidate to ameliorate many neuropathies. We have recently developed an enhanced conformational sampling method, genetic-algorithm-guided multi-dimensional virtual-system-coupled canonical molecular dynamics, and in the present study, applied it to three systems consisting of mSin3B and one of three compounds, sertraline, YN3, and acitretin. Other preceding experiments showed that only sertraline inhibits the binding of REST/NRSF to mSin3B. The current simulation study produced the spatial distribution of the compounds around mSin3B, and showed that sertraline and YN3 bound to the cleft of mSin3B with a high propensity, although acitretin did not. Further analyses of the simulation data indicated that only the sertraline–mSin3B complex produced a hydrophobic core similar to that observed in the molecular interface of the REST/NRSF-mSin3B complex: An aromatic ring of sertraline sunk deeply in the mSin3B’s cleft forming a hydrophobic core contacting to hydrophobic amino-acid residues located at the bottom of the cleft. The present study proposes a step to design a compound that inhibits competitively the binding of a ligand to its receptor.

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Tomonori Hayami

Free-energy landscape of molecular interactions between endothelin 1 and human endothelin type B receptor: fly-casting mechanism

Multidimensional virtual‐system coupled canonical molecular dynamics to compute free‐energy landscapes of peptide multimer assembly

Molecular dynamics coupled with a virtual system for effective conformational sampling

Difference of binding modes among three ligands to a receptor mSin3B corresponding to their inhibitory activities

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