A Novel Approach of Dynamic Cross Correlation Analysis on Molecular Dynamics Simulations and Its Application to Ets1 Dimer–DNA Complex

Kasahara, Kota; Fukuda, Ikuo; Nakamura, Haruki

doi:10.1371/journal.pone.0112419

Cited by 111 publications

(88 citation statements)

References 42 publications

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“…An insight into the correlated motions between different parts of the enzyme molecule can be provided by Dynamic Cross Correlation Analysis (DCCA). 37 The DCCA of WT FC from the 100 ns trajectory is shown in Fig. 5.…”

Section: Correlated Motions In the Wild Type Full Complex Tpst2mentioning

confidence: 99%

Conformational flexibility influences structure–function relationships in tyrosyl protein sulfotransferase-2

Singh

Karabencheva‐Christova

Black

et al. 2016

RSC Adv.

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Tyrosine sulfation is a very important posttranslational modification of proteins. It is catalyzed by tyrosylprotein sulfotransferase and recently became increasingly important for biomedicine and pharmacy. An important insight about structure-activity relationships of human tyrosylprotein sulfotransferase has been received by elucidating the crystal structure, but there is still no understanding about how conformational flexibility and dynamics which are fundamental protein properties influence structure-function relationships of the enzyme. In order to provide this missing but crucially important knowledge we performed a comprehensive atomistic molecular dynamics study which revealed that (i) the conformational flexibility influences sensitively key structural determinants and interactions between the enzyme, the substrate and the cofactor; (ii) a more open conformation adopted by the substrate for binding in TPST 2; (iii) the mutations of key residues related with catalysis and binding change alter the enzyme structure and influence important interactions between the enzyme, the cofactor and the substrate.

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Section: Correlated Motions In the Wild Type Full Complex Tpst2mentioning

confidence: 99%

Conformational flexibility influences structure–function relationships in tyrosyl protein sulfotransferase-2

Singh

Karabencheva‐Christova

Black

et al. 2016

RSC Adv.

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“…It has also been applied to biomolecules, such as DNA 33 or membrane protein, 34,35 with explicit water solvent, where the accuracies of energetic and dynamical properties have been confirmed by comparing with the SPME method. Furthermore we have applied it to study explicitly solvated heterogeneous bimolecular systems, including motor protein, 36 DNA-protein complex, 37 and disordered amyloid-β peptides. 38 The ZMM with a higher moment was investigated in ionic crystals, and significantly accurate Madelung constants were obtained.…”

Section: Introductionmentioning

confidence: 99%

A critical appraisal of the zero-multipole method: Structural, thermodynamic, dielectric, and dynamical properties of a water system

Wang

Nakamura

Fukuda

2016

The Journal of Chemical Physics

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THE JOURNAL OF CHEMICAL PHYSICS 144, 114503 (2016) A critical appraisal of the zero-multipole method: Structural, thermodynamic, dielectric, and dynamical properties of a water system We performed extensive and strict tests for the reliability of the zero-multipole (summation) method (ZMM), which is a method for estimating the electrostatic interactions among charged particles in a classical physical system, by investigating a set of various physical quantities. This set covers a broad range of water properties, including the thermodynamic properties (pressure, excess chemical potential, constant volume/pressure heat capacity, isothermal compressibility, and thermal expansion coefficient), dielectric properties (dielectric constant and Kirkwood-G factor), dynamical properties (diffusion constant and viscosity), and the structural property (radial distribution function). We selected a bulk water system, the most important solvent, and applied the widely used TIP3P model to this test. In result, the ZMM works well for almost all cases, compared with the smooth particle mesh Ewald (SPME) method that was carefully optimized. In particular, at cut-off radius of 1.2 nm, the recommended choices of ZMM parameters for the TIP3P system are α ≤ 1 nm −1 for the splitting parameter and l = 2 or l = 3 for the order of the multipole moment. We discussed the origin of the deviations of the ZMM and found that they are intimately related to the deviations of the equilibrated densities between the ZMM and SPME, while the magnitude of the density deviations is very small. C 2016 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license

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“…Although experimental probes are limited78, recent simulation works in this direction emphasize on the covariance (Pearson Correlation Coefficient) between the instantaneous values of microscopic degrees of freedom, like the angles between atomic planes known as dihedral angles in a protein9101112131415. Non-zero but very small values of Pearson Correlation Coefficient have been observed among the dihedral angles of functional but spatially distant residues in Ub9.…”

mentioning

confidence: 99%

Spatio-temporal coordination among functional residues in protein

Dutta

Ghosh

Chakrabarti

2017

Sci Rep

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The microscopic basis of communication among the functional sites in bio-macromolecules is a fundamental challenge in uncovering their functions. We study the communication through temporal cross-correlation among the binding sites. We illustrate via Molecular Dynamics simulations the properties of the temporal cross-correlation between the dihedrals of a small protein, ubiquitin which participates in protein degradation in eukaryotes. We show that the dihedral angles of the residues possess non-trivial temporal cross-correlations with asymmetry with respect to exchange of the dihedrals, having peaks at low frequencies with time scales in nano-seconds and an algebraic tail with a universal exponent for large frequencies. We show the existence of path for temporally correlated degrees of freedom among the functional residues. We explain the qualitative features of the cross-correlations through a general mathematical model. The generality of our analysis suggests that temporal cross-correlation functions may provide convenient theoretical framework to understand bio-molecular functions on microscopic basis.

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A Novel Approach of Dynamic Cross Correlation Analysis on Molecular Dynamics Simulations and Its Application to Ets1 Dimer–DNA Complex

Cited by 111 publications

References 42 publications

Conformational flexibility influences structure–function relationships in tyrosyl protein sulfotransferase-2

Conformational flexibility influences structure–function relationships in tyrosyl protein sulfotransferase-2

A critical appraisal of the zero-multipole method: Structural, thermodynamic, dielectric, and dynamical properties of a water system

Spatio-temporal coordination among functional residues in protein

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