Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
about
Structure-dynamics-function relationships in Asian elephant (Elephas maximus) myoglobin. An optical spectroscopy and flash photolysis study on functionally important motionsInternal water and microsecond dynamics in myoglobinSolvent dependence of dynamic transitions in protein solutions.Molecular dynamics decomposition of temperature-dependent elastic neutron scattering by a protein solutionNeutron spin-echo studies of hemoglobin and myoglobin: multiscale internal dynamics.The old problems of glass and the glass transition, and the many new twistsHydration-dependent far-infrared absorption in lysozyme detected using synchrotron radiation.Vibrational modes of hemoglobin in red blood cellsRadially softening diffusive motions in a globular proteinFunctional domain motions in proteins on the ~1-100 ns timescale: comparison of neutron spin-echo spectroscopy of phosphoglycerate kinase with molecular-dynamics simulation.Structure, dynamics and reactions of protein hydration water.Hydrogen atoms in proteins: positions and dynamics.Coarse-grained biomolecular simulation with REACH: realistic extension algorithm via covariance Hessian.Dynamics and unfolding pathways of a hyperthermophilic and a mesophilic rubredoxin.Protein dynamics. An overview on flash-photolysis over broad temperature ranges.Thermal motions and function of bacteriorhodopsin in purple membranes: effects of temperature and hydration studied by neutron scatteringEffect of the Solvent Temperatures on Dynamics of Serine Protease Proteinase KSpectroscopic properties of reaction center pigments in photosystem II core complexes: revision of the multimer model.Protein dynamics: comparison of simulations with inelastic neutron scattering experiments.Unconstrained Enhanced Sampling for Free Energy Calculations of Biomolecules: A ReviewObservation of a low-temperature, dynamically driven structural transition in a polypeptide by solid-state NMR spectroscopy.Instantaneous normal modes and the protein glass transitionProtein reaction kinetics in a room-temperature glass.Protein flexibility from the dynamical transition: a force constant analysis.Zaccai neutron resilience and site-specific hydration dynamics in a globular protein.Temperature dependence of protein dynamics: computer simulation analysis of neutron scattering properties.Relaxation kinetics and the glassiness of proteins: the case of bovine pancreatic trypsin inhibitor.A model for water motion in crystals of lysozyme based on an incoherent quasielastic neutron-scattering study.A coarse-grained normal mode approach for macromolecules: an efficient implementation and application to Ca(2+)-ATPase.Translational hydration water dynamics drives the protein glass transition.Characterizing the secondary hydration shell on hydrated myoglobin, hemoglobin, and lysozyme powders by its vitrification behavior on cooling and its calorimetric glass-->liquid transition and crystallization behavior on reheating.Protein dynamics. Vibrational coupling, spectral broadening mechanisms, and anharmonicity effects in carbonmonoxy heme proteins studied by the temperature dependence of the Soret band lineshape.Water-coupled low-frequency modes of myoglobin and lysozyme observed by inelastic neutron scattering.FTIR spectroscopic study of the dynamics of conformational substates in hydrated carbonyl-myoglobin films via temperature dependence of the CO stretching band parameters.Native protein fluctuations: the conformational-motion temperature and the inverse correlation of protein flexibility with protein stability.Temperature dependence of near-IR excited Raman spectra of crystalline hen egg-white lysozyme.Coherent dynamics in a butane molecule.Long-time mean-square displacements in proteins.Biomolecular motion characterization by a self-distribution-function procedure in elastic incoherent neutron scattering.Characterization of molecular motions in biomolecular systems by elastic incoherent neutron scattering.
P2860
Q28769386-04BCB834-1438-40B0-A2D5-A9CDC0B6454CQ30574665-C888C035-6C87-44AB-B325-78746822088EQ33180972-11FE3113-955D-4B76-BEAC-3DF0D41F7F4CQ33187905-B9116A7F-2842-4F6A-92DD-727821B87340Q33771602-BAE85C53-4DB0-4BC7-82DC-CE7B153FCA87Q34071008-C60EEA6B-1714-4FFA-A880-2712DA10839CQ34088335-A53E73E0-5462-49A9-A07F-8A1AAA0DE803Q34126982-DF19DE26-C66B-48FA-A33F-073702B015DEQ34176411-3E79F9BB-C9D7-4AD4-8046-58E0B71F4F55Q35810027-635955DB-CB61-4607-B770-A462D886AF28Q35861009-0129C394-7A60-447B-9000-F51F3BC16447Q35917846-BBED317B-8A1C-41B4-AE97-52161CE607E7Q36129144-6376AEC3-8765-4C9B-8BBE-75270C7CE41BQ36280278-D5FDE52A-1475-4E6F-8C57-FE357195FFB0Q36360010-989535EF-791E-4B2D-AB24-07215F899530Q36605619-F0DC01AA-C302-4DA0-BEBC-7F6E7F5138B6Q36667206-805A06CD-FBDA-4517-80DE-64347EEE5E24Q36717701-3F79F4A6-7B60-41A5-8A2C-2FB76B07945FQ36820082-45D1A0CA-0474-4150-96E6-1FD9494E0E0CQ37114199-BAB9B852-999D-4DCF-8079-8C061F51D13CQ37117910-5F648D0F-E9FD-452E-A7AB-4CF992E74772Q37277072-C2F5CDF0-20D3-4258-BD47-91620B9B9F83Q38292540-353E0079-15EC-4871-9860-9BFA54CDAC67Q39263966-D0245AF1-887E-4671-94D0-10703C99C4B4Q39302849-191BA6F6-C802-493E-9B53-14F880AC7EA9Q40202221-3C3DCC92-B4C4-49E7-8365-7DA07755C9DBQ40211155-3CB4730C-CCAF-4D58-B11A-D19635E3CBA1Q40213841-23116AF5-353E-460B-A37D-96983C9F6DA5Q40216600-6563F469-ACD2-4071-BA5A-8D92CBA703E4Q40252581-94BD8AA6-D7FD-4592-944E-D6DD99376E5DQ41618824-58A6E910-E4EE-41D4-AA04-B0532C81A8DCQ42009190-9E73445E-BC6B-4097-B492-24B784ADD336Q42128177-1594B13F-CED7-4437-BCD6-D20CC3F8C68BQ43005441-FAF288D0-A3D8-40DA-AF7C-FEA628A3A4DBQ43026063-689785B0-13F5-4082-997C-5EF8AAA14A7AQ43601257-D673987D-7419-4985-A274-64C89DEEF3C3Q44144977-496287D4-BB4A-4F68-A490-164D1AD53CDBQ44376000-496A27AE-A0A8-4F92-BC18-05CB9CBF43ADQ45973240-F058D311-6763-4991-82F6-FCD0ED8DD538Q46221590-FFFAC780-523B-4F91-8635-CDDBE79B0851
P2860
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on February 1990
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@en
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@nl
type
label
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@en
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@nl
prefLabel
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@en
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@nl
P2860
P356
P1476
Dynamics of myoglobin: comparison of simulation results with neutron scattering spectra.
@en
P2093
P2860
P304
P356
10.1073/PNAS.87.4.1601
P407
P577
1990-02-01T00:00:00Z