Electrostatic fields in antibodies and antibody/antigen complexes.
about
Molecular model of the N-terminal receptor-binding domain of the human CD6 ligand ALCAMAnalysing the Effect of Mutation on Protein Function and Discovering Potential Inhibitors of CDK4: Molecular Modelling and Dynamics StudiesFactors influencing the energetics of electron and proton transfers in proteins. What can be learned from calculations.Thermodynamics of antibody-antigen interaction revealed by mutation analysis of antibody variable regions.Molecular dynamics studies of the HIV-1 TAR and its complex with argininamide.Application of new multi-resolution methods for the comparison of biomolecular electrostatic properties in the absence of global structural similarityPrediction of the binding energy for small molecules, peptides and proteins.Evaluating the strength of salt bridges: a comparison of current biomolecular force fields.Binding of small basic peptides to membranes containing acidic lipids: theoretical models and experimental results.Helix-helix interactions in lipid bilayers.Association and dissociation kinetics of anti-hen egg lysozyme monoclonal antibodies HyHEL-5 and HyHEL-10Electrostatic contributions to T4 lysozyme stability: solvent-exposed charges versus semi-buried salt bridges.Differences in electrostatic properties at antibody-antigen binding sites: implications for specificity and cross-reactivity.Comparison of calculation and experiment implicates significant electrostatic contributions to the binding stability of barnase and barstarInvestigating the structural impacts of I64T and P311S mutations in APE1-DNA complex: a molecular dynamics approach.Modeling the binding sites of anti-hen egg white lysozyme antibodies HyHEL-8 and HyHEL-26: an insight into the molecular basis of antibody cross-reactivity and specificityToward computational determination of peptide-receptor structure.Computational methods for biomolecular electrostatics.Molecular dynamics and free-energy calculations applied to affinity maturation in antibody 48G7.Contribution of arginine residues in the RP135 peptide derived from the V3 loop of gp120 to its interaction with the Fv fragment of the 0.5beta HIV-1 neutralizing antibody.Desolvation Costs of Salt Bridges across Protein Binding Interfaces: Similarities and Differences between Implicit and Explicit Solvent Models.Solvent accessibility as a predictive tool for the free energy of inhibitor binding to the HIV-1 protease.Computation of electrostatic complements to proteins: a case of charge stabilized bindingConformational similarity and systematic displacement of complementarity determining region loops in high resolution antibody x-ray structures.Binding and catalysis: a thermodynamic study on a catalytic antibody system.Poorly neutralizing polyclonal antibody in vitro against coxsackievirus A16 circulating strains can prevent a lethal challenge in vivo.
P2860
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P2860
Electrostatic fields in antibodies and antibody/antigen complexes.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Electrostatic fields in antibodies and antibody/antigen complexes.
@ast
Electrostatic fields in antibodies and antibody/antigen complexes.
@en
type
label
Electrostatic fields in antibodies and antibody/antigen complexes.
@ast
Electrostatic fields in antibodies and antibody/antigen complexes.
@en
prefLabel
Electrostatic fields in antibodies and antibody/antigen complexes.
@ast
Electrostatic fields in antibodies and antibody/antigen complexes.
@en
P1476
Electrostatic fields in antibodies and antibody/antigen complexes.
@en
P2093
P304
P356
10.1016/0079-6107(92)90006-R
P577
1992-01-01T00:00:00Z