Molecular Biology of Protein Folding

The importance of protein folding has been recognized for many years. It is the underlying etiology in a large number of human diseases and it appears to be a novel method for cellular regulation of the expression of newly translated proteins. These volumes (Parts A & B) address this important topic. As a volume in Progress in Nucleic Acid Research and Molecular Biology, this book provides the latest information on the expanding research being conducted on protein folding.

1. Stability and design of alpha-helical peptides - Andrew Doig 2. Under-wrapped protein folds in disease and epigenetic change - Ariel Fernandez 3. Self-organizing dynamics in protein folding - Bernard S. Gerstman 4. Diffusive models for protein folding - Stephen J Hagen 5. Toward reliable simulations of protein folding, misfolding and aggregation - Ulrich HE Hansmann 6. Single-molecule fluorescence studies of protein folding - Gilad Haran 7. Algorithms for protein folding - Sorin Istrail 8. Use of protein engineering techniques to elucidate protein folding pathways - Sophie Jackson 9. The kinetic stabilities of wild-type and disease-associated mutants of aromatic amino acid hydroxylases. Effect of natural chaperone ligand - Aurora Martinez 10. Chaperone-assisted protein folding in the endoplasmic reticulum - Maurizio Molinari 11. Protein folding over marginal barriers: ensembles, dynamics and stochastics - Victor Munoz

Nucleic acids are the fundamental building blocks of DNA and RNA and are found in virtually every living cell. Molecular biology is a branch of science that studies the physicochemical properties of molecules in a cell, including nucleic acids, proteins, and enzymes. Increased understanding of nucleic acids and their role in molecular biology will further many of the biological sciences including genetics, biochemistry, and cell biology. Progress in Nucleic Acid Research and Molecular Biology is intended to bring to light the most recent advances in these overlapping disciplines with a timely compilation of reviews comprising each volume.

1. Stability and design of alpha-helical peptides - Andrew Doig 2. Under-wrapped protein folds in disease and epigenetic change - Ariel Fernandez 3. Self-organizing dynamics in protein folding - Bernard S. Gerstman 4. Diffusive models for protein folding - Stephen J Hagen 5. Toward reliable simulations of protein folding, misfolding and aggregation - Ulrich HE Hansmann 6. Single-molecule fluorescence studies of protein folding - Gilad Haran 7. Algorithms for protein folding - Sorin Istrail 8. Use of protein engineering techniques to elucidate protein folding pathways - Sophie Jackson 9. The kinetic stabilities of wild-type and disease-associated mutants of aromatic amino acid hydroxylases. Effect of natural chaperone ligand - Aurora Martinez 10. Chaperone-assisted protein folding in the endoplasmic reticulum - Maurizio Molinari 11. Protein folding over marginal barriers: ensembles, dynamics and stochastics - Victor Munoz