Life Under Extreme Conditions
Biochemical Adaptation
Life Under Extreme Conditions
Biochemical Adaptation
In their very first lecture biochemists learn that biomolecules, namely nucleic acids, proteins and lipids, are extremely temperature sensitive and will denature and lose their function easily. Then how do Archaebacteria survive in hot springs or Antarctic fishes which live in ice-cold water? The way nature engineered subcellular structures, lipid membranes or proteins to meet the biochemical requirements of extreme conditions - like extreme temperature or salt concentrations - is described in Life Under Extreme Conditions.
Cold-Stable Microtubules from Antarctic Fish
Life in Arctic Environments: Molecular Adaptation of Oxygen-Carrying Proteins
Archaebacteria: Lipids, Membrane Structures, and Adaptation to Environmental Stresses
How Nature Engineers Protein (Thermo)Stability
Enzymes from Extreme Thermophilic Bacteria as Special Catalysts: Studies on a ?-Galactosidase from Sulfolobus solfataricus
A Model for the Stabilization of a Halophilic Protein.
The Role of Antifreeze Glycopeptides and Peptides in the Freezing Avoidance of Cold-Water Fish
An Overview of the Molecular Structure and Functional Properties of the Hemoglobins of a Cold-Adapted Antarctic TeleostCold-Stable Microtubules from Antarctic Fish
Life in Arctic Environments: Molecular Adaptation of Oxygen-Carrying Proteins
Archaebacteria: Lipids, Membrane Structures, and Adaptation to Environmental Stresses
How Nature Engineers Protein (Thermo)Stability
Enzymes from Extreme Thermophilic Bacteria as Special Catalysts: Studies on a ?-Galactosidase from Sulfolobus solfataricus
A Model for the Stabilization of a Halophilic Protein.
Di Prisco, Guido
ISBN | 978-3-642-76058-7 |
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Artikelnummer | 9783642760587 |
Medientyp | Buch |
Auflage | Softcover reprint of the original 1st ed. 1991 |
Copyrightjahr | 2012 |
Verlag | Springer, Berlin |
Umfang | XI, 144 Seiten |
Abbildungen | XI, 144 p. 4 illus. |
Sprache | Englisch |