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Chaperone und Hitzeschockproteine

Bücher, Original- und Übersichtsartikel


Brandon, C.; Tooze, J. (1999): Introduction to Protein Structure (2.ed.). Garland Publishing Inc., New York, ISBN: 0-8153-2305-0Copyright: 1999 Garland Publishing Inc., New York .
Creighton, T. E. (1997): Protein structure (2.ed.). In: A practical approach. IRL Press, Oxford, ISBN: 0-19-9636 20-6
Fasman, G. D. (1990): Prediction of protein structure and the principles of protein conformation.. Plenum Press2, ISBN: 0-306-43131-9
Fersht, A. (1999): Structure and mechanism in protein science. A guide to enzyme catalysis and protein folding. Freeman Co., New York2, ISBN: 0-7167-3268-8
Gething, M. J. (1997): Guidebook to molecular chaperones and protein folding catalysis. Oxford Univ. Press, ISBN: 0-19-859949-8
v. Hejne, G. (1997): Membrane protein assembly. Springer Verlag, ISBN: 0-57059-418-X
Nölting, B. (1999): Protein Folding Kinetics. Springer Verlag Berlin/Heidelberg, ISBN: 3-540-65743-6
Richards, F. M. (2000): Protein Folding Mechanisms. In: Advances in Protein Chemistry. F. Richards M. (Hrsg.). Academic Press, San DiegoVol. 53, ISBN: 0-12-034253-7
van Holde, K. E.; Johnson, W. C.; Ho, P. S. (1999): Principles of Physical Biochemistry. Prentice Hall, Inc., New Yersey, ISBN: 0-13-720459-0Copyright: 1999 Prentice Hall, Inc., New Yersey .
Anfinsen, C. B. (1973): Principles that govern the folding of protein chains. In: Science. 181 , 223-230
Baldwin, R. L. (1999): Protein folding from 1961 to 1982. In: Nat.Struct.Biol.. 6 , 814-817
Brooks, C. L.; Gruebele, M.; Onuchic, J. N.; Wolynes, P. G. (1998): Chemical physics of protein folding. In: Proc.Natl.Acad.Sci.U.S.A.. 95 , 11037-11038
Cohen, F. E. (1999): Protein misfolding and prion diseases. In: J.Mol.Biol.. 293 , 313-320
Das, S.; Smith, T. F. (2000): Identifying nature's protein Lego set. In: Adv.Protein Chem.. 54 , 159-183
Dill, K. A. (1990): Dominant forces in protein folding. In: Biochemistry. 29 , 7133-7155
Dill, K. A.; Chan, H. S. (1997): From Levinthal to pathways to funnels. In: Nat.Struct.Biol.. 4 , 10-19
Dill, K. A. (1999): Polymer principles and protein folding. In: Protein Sci.. 8 , 1166-1180
Dobson, C. M.; Karplus, M. (1999): The fundamentals of protein folding: bringing together theory and experiment. In: Curr.Opin.Struct.Biol.. 9 , 92-101
Feldman, D. E.; Frydman, J. (2000): Protein folding in vivo: the importance of molecular chaperones [see comments]. In: Curr.Opin.Struct.Biol.. 10 , 26-33
Harrison, S. C.; Durbin, R. (1985): Is there a single pathway for the folding of a polypeptide chain?. In: Proc.Natl.Acad.Sci.U.S.A . 82 , 4028-4030
Jaenicke, R.; Lilie, H. (2000): Folding and association of oligomeric and multimeric proteins. In: Adv.Protein Chem. . 53 , 329-401
Jaenicke, R. (2000): Stability and stabilization of globular proteins in solution. In: J.Biotechnol. . 79 , 193-203
Karplus, M. (1997): The Levinthal paradox: yesterday and today. In: Fold.Des . 2 , S69-S75
Kim, P. S.; Baldwin, R. L. (1982): Specific intermediates in the folding reactions of small proteins and the mechanism of protein folding. In: Annu.Rev.Biochem.. 51 , 459-489
Lazaridis, T. S.; Karplus, M. L. (1997): "New view" of protein folding reconciled with the old through multiple unfolding simulations. In: Science. 278 , 1928-1931
Ponting, C. P.; Karplus, C. L. (1997): "New view" of protein folding reconciled with the old through multiple unfolding simulations. In: Science. 278 , 1928-1931
Ponting, C. P.; Schultz, J.; Copley, R. R.; Andrade, M. A.; Bork, P. (2000): Evolution of domain families. In: Adv.Protein Chem.. 54 , 185-244
Soto, C.; Estrada, L.; Castilla, J. (2006): Amyloids, prions and the inherent infectious nature of misfolded protein aggregates. In: TIBS. 31 (3) , 150-155
Teter, S. A.; Klionsky, D. J. (1999): How to get a folded protein across a membrane. In: Trends Cell Biol. . 9 , 428-431
Thomas, T. J.; Qu, B. H. (1995): Defective protein folding as a basis of human disease. In: Trends Biochem. Sci.. 20 , 456-459

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