Temperature adaptation of enzymes: Lessons from laboratory evolution
Top Cited Papers
- 1 January 2001
- book chapter
- Published by Elsevier in Advances in Protein Chemistry
- Vol. 55, 161-225
- https://doi.org/10.1016/s0065-3233(01)55004-4
Abstract
No abstract availableThis publication has 122 references indexed in Scilit:
- Directed evolution study of temperature adaptation in a psychrophilic enzyme 1 1Edited by J. A. WellsJournal of Molecular Biology, 2000
- Transproteomic evidence of a loop-deletion mechanism for enhancing protein thermostabilityJournal of Molecular Biology, 1999
- Analysis of the relationship between enzyme activity and its internal motion using nuclear magnetic resonance: 15N relaxation studies of wild-type and mutant lysozymeJournal of Molecular Biology, 1999
- The stability of salt bridges at high temperatures: implications for hyperthermophilic proteins 1 1Edited by B. HonigJournal of Molecular Biology, 1998
- Ferredoxin from the hyperthermophile Thermotoga maritima is stable beyond the boiling point of waterJournal of Molecular Biology, 1997
- The Crystal Structure of Holo-glyceraldehyde-3-phosphate Dehydrogenase from the Hyperthermophilic BacteriumThermotoga maritimaat 2.5 Å ResolutionJournal of Molecular Biology, 1995
- Relation between stability, dynamics and enzyme activity in 3-phosphoglycerate kinases from yeast and Thermus thermophilusJournal of Molecular Biology, 1991
- The role of internal packing interactions in determining the structure and stability of a proteinJournal of Molecular Biology, 1991
- Correlation of hydrogen exchange behaviour and thermal stability of lysozymeJournal of Molecular Biology, 1983
- Correlation between the amide proton exchange rates and the denaturation temperatures in globular proteins related to the basic pancreatic trypsin inhibitorJournal of Molecular Biology, 1979