Bioactive Conformation I /
Peters, Thomas.
Bioactive Conformation I / With contributions by numerous experts edited by Thomas Peters. - xii, 309 páginas Also available online. recurso en línea. - Topics in Current Chemistry, 272 0340-1022 ; .
Springer eBooks
Spatial Screening for the Identification of the Bioactive Conformation of Integrin Ligands -- Dynamics and Thermodynamics of Ligand–Protein Interactions -- The Fibroblast Growth Factor (FGF) – FGF Receptor Complex: Progress Towards the Physiological State -- Characterization of Interactions Between Misfolding Proteins and Molecular Chaperones by NMR Spectroscopy -- NMR Analysis of Bioprotective Sugars: Sucrose and Oligomeric (1?2)-?-D-glucopyranosyl-(1?2)-?-D-fructofuranosides -- Residual Dipolar Couplings Report on the Active Conformation of Rhodopsin-Bound Protein Fragments -- Glycosyltransferase Structure and Function -- Exploiting Ligand and Receptor Adaptability in Rational Drug Design Using Dynamics and Structure-Based Strategies.
9783540490784
10.1007/9783540490784 doi
QD415-436
Bioactive Conformation I / With contributions by numerous experts edited by Thomas Peters. - xii, 309 páginas Also available online. recurso en línea. - Topics in Current Chemistry, 272 0340-1022 ; .
Springer eBooks
Spatial Screening for the Identification of the Bioactive Conformation of Integrin Ligands -- Dynamics and Thermodynamics of Ligand–Protein Interactions -- The Fibroblast Growth Factor (FGF) – FGF Receptor Complex: Progress Towards the Physiological State -- Characterization of Interactions Between Misfolding Proteins and Molecular Chaperones by NMR Spectroscopy -- NMR Analysis of Bioprotective Sugars: Sucrose and Oligomeric (1?2)-?-D-glucopyranosyl-(1?2)-?-D-fructofuranosides -- Residual Dipolar Couplings Report on the Active Conformation of Rhodopsin-Bound Protein Fragments -- Glycosyltransferase Structure and Function -- Exploiting Ligand and Receptor Adaptability in Rational Drug Design Using Dynamics and Structure-Based Strategies.
9783540490784
10.1007/9783540490784 doi
QD415-436