Comprehensive biophysics: biophysics techniques for structural characterization of macromolecules/
edited by Edward H. Egelma
- Amsterdam: Elsevier, 2012.
- 617 p.
VOLUME 3 The Folding of Proteins and Nucleic Acids Protein Folding 3.1 Combining Simulation and Experiment to Map Protein Folding AL Jomsom, AR Fersht, and Daggett 1 Globular Proteins 3.2 Energetics of Protein Folding K-B Wong, T-H Yu, and C-H Chan 19 3.3 Fast Events in Protein Folding RB Dyer and DM Vu 34 3.4 Intermediates in Protein Folding PJ Guyett and LM Gloss 43 3.5 Characterization of the Denatured State BE Bowler 72 3.6 Single-Molecule Spectroscopy of Protein Folding BSchuler and D Nettles 115 3.7 Simulation Studies of Force-Induced Unfolding ZT Yew and E Pad 138 3.8 Protein and Nucleic Acid Folding: Domain Swapping in Proteins L Liu and AM Gronenbom 148 3.9 Intrinsically Disordered Proteins VN Uversky and AK Dunker 170 3 10 Chaperones and Protein Folding AL Horwich, ) Buchner, RG Smock, LM Gierasch, and HR Saibil 212 3 11 Protein Switches Christensen, Hassouneh, DJ Callahan, and Chilkoti 238 Repeat/Non-Globular Proteins 3 12 The Folding of Repeat Proteins AL Kortajarena and LRegan 267 Membrane Proteins 3 13 The Membrane Factor: Biophysical Studies of Alpha Helical Transmembrane Protein Folding ND DiBartolo and PJ Booth 290 Nucleic Acid Folding 3 14 Effect of Protein Binding on RNA Folding KB Hall 317