Chaperonin Function: Folding by Forced Unfolding

Chaperonin Function: Folding by Forced Unfolding

The ability of the GroEL chaperonin to unfold a protein trapped in a misfolded condition was detected and studied by hydrogen exchange. The GroEL-induced unfolding of its substrate protein is only partial, requires the complete chaperonin system, and is accomplished within the 13 seconds required fo...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 1999-04, Vol.284 (5415), p.822-825
Hauptverfasser: Shtilerman, Mark, Lorimer, George H., Englander, S. Walter
Format: Artikel
Sprache:eng
Schlagworte:
Adenosine Triphosphate - metabolism
Adenylyl Imidodiphosphate - metabolism
Amides
Analytical, structural and metabolic biochemistry
Binding and carrier proteins
Binding Sites
Biochemistry
Biological and medical sciences
Chaperonin 10 - chemistry
Chaperonin 10 - metabolism
Chaperonin 10 - physiology
Chaperonin 60 - chemistry
Chaperonin 60 - metabolism
Chaperonin 60 - physiology
Chaperonins
Denaturation
Fundamental and applied biological sciences. Psychology
Hydrogen
Hydrogen - chemistry
Hydrogen - metabolism
Hydrolysis
Models, Molecular
Molecules
Protein Binding
Protein Conformation
Protein denaturation
Protein Folding
Protein Structure, Secondary
Protein unfolding
Proteins
Rhodosphirillium rubrum
Ribulose-Bisphosphate Carboxylase - chemistry
Ribulose-Bisphosphate Carboxylase - metabolism
Tritium
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Beschreibung
Zusammenfassung:The ability of the GroEL chaperonin to unfold a protein trapped in a misfolded condition was detected and studied by hydrogen exchange. The GroEL-induced unfolding of its substrate protein is only partial, requires the complete chaperonin system, and is accomplished within the 13 seconds required for a single system turnover. The binding of nucleoside triphosphate provides the energy for a single unfolding event; multiple turnovers require adenosine triphosphate hydrolysis. The substrate protein is released on each turnover even if it has not yet refolded to the native state. These results suggest that GroEL helps partly folded but blocked proteins to fold by causing them first to partially unfold. The structure of GroEL seems well suited to generate the nonspecific mechanical stretching force required for forceful protein unfolding.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.284.5415.822