Dynamics of Native Globular Proteins in Terms of Dihedral Angles
スポンサーリンク
概要
- 論文の詳細を見る
Problems are discussed that are associated with extension of the time-independ-ent method of conformational energy analysis of biopolymers, in which onlydihedral angles are treated as independent variables, to time dependent one. Formolecules with small amplitudes of fluctuations internal motions of atoms due tovariations of dihedral angles are shown to be defined with respect to a coordinatesystem which is defined by the Eckart's condition and is moving with the molecule.Computationally efficient and explicit expressions are giverr (i) for a coefficientmatrix to convert small changes in dihedral angles to small atomic displacementsfrom the mean positions, and (it) for a coefficient matrix in the expression of thekinetic energy of internal motions in terms of first order time derivatives ofvariable dihedral angles.
- 社団法人日本物理学会の論文
- 1983-09-15
著者
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Go Nobuhiro
Department Of Physics Faculty Of Science Kyoshu University
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NOGUTI Tosiyuki
Department of Physics,Faculty of Science,Kyoshu University
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Noguchi Toshiyuki
Department Of Physics Gakushuin University
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Noguti Tosiyuki
Department Of Physics Faculty Of Science Kyoshu University
関連論文
- Formulation of Static and Dynamic Conformational Energy Analysis of Biopolymer Systems Consisting of Two or More Molecules
- Formulation of Static and Dynamic Conformational Energy Analysis of Biopolymer Systems Consisting of Two or More Molecules-Avoiding a Singularity in the Previous Method
- X-Ray Diffraction Microscopy by an Electronic Streak Camera System : Techniques, Instrumentations and Measurement
- Optical Activity of Anisotropic Solutions. II
- Dynamics of Native Globular Proteins in Terms of Dihedral Angles
- Cooperative Chemical Kinetics
- Optical Rotatory Powerof Long Helical Polymers
- The Kinetics of the Helix-Coil Transformation of Polypeptides. I
- Optical Activity of Oriented Helices
- A Method of Rapid Calculation of a Second Derivative Martix of Conformational Energy for Large Molecules
- Thermodynamics of small-amplitude conformational fluctuations in native globular proteins.