Better understanding of life processes on a molecular level is the aim of Bioorganic Chemistry. Structure elucidation, synthesis of biomimetic models, theoretical and mechanistic concepts e.g. of enzyme action are the basic tools. The new series will bring together critical reviews on the progress in this field.
Better understanding of life processes on a molecular level is the aim of Bioorganic Chemistry. Structure elucidation, synthesis of biomimetic models,...
Progress in biological and biochemical research is based mainly on a better understanding of life processes on a molecular level. Modern chemical techniques for structural elucidation even of sophisticated biomolecules and theoretical and mechanistic considerations help us to understand structure-function relations, metabolic processes, molecular and cellular recognition, and the reproduction of life. This series, Bioorganic Chemistry Frontiers, will bring together critical reviews on the progress in this field.
Progress in biological and biochemical research is based mainly on a better understanding of life processes on a molecular level. Modern chemical tech...
1. K. Kano: Selectivities of Applied Chemistry 2. A. Pl}ckthun: Antibody Engineering to Study Protein-Ligand Interactions and Catalysis: The Phosphorylcholine Binding Antibodies 3. M.W. Hosseini: Supramolecular Catalysis of Phosphoryl Transfer Processes 4. G. von Kiedrowski: Minimal Replicator Theory II: Parabolic versus ExponentialGrowth 5. A. Bacher, W. Eisenreich, K. Kis, R. Ladenstein, G. Richter, J. Scheuring, S. Weinkauf: Biosynthesis of Flavins 6. C.L. Hannon, E.V.Anslyn: The Guanidinium Group: Its Biological Role and Synthetic Analogs
1. K. Kano: Selectivities of Applied Chemistry 2. A. Pl}ckthun: Antibody Engineering to Study Protein-Ligand Interactions and Catalysis: The Phosphory...
