Cellular osmolytes : from chaperoning protein folding to clinical perspectives /: from chaperoning protein folding to clinical perspectives. (2017)
- Record Type:
- Book
- Title:
- Cellular osmolytes : from chaperoning protein folding to clinical perspectives /: from chaperoning protein folding to clinical perspectives. (2017)
- Main Title:
- Cellular osmolytes : from chaperoning protein folding to clinical perspectives
- Further Information:
- Note: Laishram Rajendrakumar Singh, Tanveer Ali Dar, editors.
- Editors:
- Singh, Laishram Rajendrakumar
Dar, Tanveer Ali - Contents:
- About the Editors; 1: Osmolyte System and Its Biological Significance; 1.1 Introduction; 1.2 Production, Enhancement and Expression of Osmolytes; 1.2.1 Bacteria and Archaea; 1.2.2 Yeast; 1.2.3 Plants; 1.2.4 Marine Animals; 1.2.5 Mammals; 1.3 Mechanism of Interaction of Osmolytes with Proteins; 1.3.1 Role of Naturally Occurring Osmolytes in Destabilizing Proteins; 1.3.2 Role of Osmolytes in Maintaining Protein Homeostasis; 1.4 Role of Osmolytes in Protein Aggregation and Amyloidosis; 1.4.1 Mechanism of Aggregation; 1.4.2 Hypothesis. 1.5 Role of Osmolytes in Cellular Functions; 1.5.1 Role of Osmolytes in Maintenance of Cell Volume; 1.5.2 Cellular Functions of Osmolytes; 1.5.3 Protective Effect of Osmolytes on Metabolism; 1.5.4 Antioxidation; 1.5.5 Maintenance of Reduction and Oxidation Reactions and Protection Against Hypoxia; 1.5.6 Sulfide/Sulfate Detoxification; 1.5.7 Miscellaneous Roles of Osmolytes in Metabolism; 1.5.8 Stabilization and Counteraction; 1.5.9 Anhydrobiosis; 1.5.10 Freezing; 1.5.11 High Temperature; 1.5.12 Hydrostatic Pressure in the Deep Sea. 1.5.13 The "Yin and Yang" Theory of Cytoprotection; 1.6 Role of Osmolytes in Circumventing Stress; 1.6.1 Amaranthaceae; 1.6.2 Plumbaginaceae; 1.6.3 Plantaginaceae; 1.6.4 Aizoaceae; 1.6.5 Poaceae; 1.6.6 Brassicaceae; 1.6.7 Other Families; 1.6.8 Role of Osmolytes in Scavenging Hydroxyl Radicals; 1.7 Conclusion and Future Directions; References; 2: Protein-Osmolyte Interactions: Molecular Insights; 2.1 Introduction; 2.1.1About the Editors; 1: Osmolyte System and Its Biological Significance; 1.1 Introduction; 1.2 Production, Enhancement and Expression of Osmolytes; 1.2.1 Bacteria and Archaea; 1.2.2 Yeast; 1.2.3 Plants; 1.2.4 Marine Animals; 1.2.5 Mammals; 1.3 Mechanism of Interaction of Osmolytes with Proteins; 1.3.1 Role of Naturally Occurring Osmolytes in Destabilizing Proteins; 1.3.2 Role of Osmolytes in Maintaining Protein Homeostasis; 1.4 Role of Osmolytes in Protein Aggregation and Amyloidosis; 1.4.1 Mechanism of Aggregation; 1.4.2 Hypothesis. 1.5 Role of Osmolytes in Cellular Functions; 1.5.1 Role of Osmolytes in Maintenance of Cell Volume; 1.5.2 Cellular Functions of Osmolytes; 1.5.3 Protective Effect of Osmolytes on Metabolism; 1.5.4 Antioxidation; 1.5.5 Maintenance of Reduction and Oxidation Reactions and Protection Against Hypoxia; 1.5.6 Sulfide/Sulfate Detoxification; 1.5.7 Miscellaneous Roles of Osmolytes in Metabolism; 1.5.8 Stabilization and Counteraction; 1.5.9 Anhydrobiosis; 1.5.10 Freezing; 1.5.11 High Temperature; 1.5.12 Hydrostatic Pressure in the Deep Sea. 1.5.13 The "Yin and Yang" Theory of Cytoprotection; 1.6 Role of Osmolytes in Circumventing Stress; 1.6.1 Amaranthaceae; 1.6.2 Plumbaginaceae; 1.6.3 Plantaginaceae; 1.6.4 Aizoaceae; 1.6.5 Poaceae; 1.6.6 Brassicaceae; 1.6.7 Other Families; 1.6.8 Role of Osmolytes in Scavenging Hydroxyl Radicals; 1.7 Conclusion and Future Directions; References; 2: Protein-Osmolyte Interactions: Molecular Insights; 2.1 Introduction; 2.1.1 Organic Osmolytes Are Evolutionarily Restricted; 2.1.2 Osmolyte Can Induce Proper Protein Folding; 2.2 Forces Involved in Osmolyte-Induced Protein Folding. 2.2.1 Osmophobic Effect; 2.2.2 Molecular Crowding Effect; 2.2.3 Surface Tension Effect; 2.2.4 Preferential Hydration Effect; 2.2.5 Solvophobic Effect; 2.3 Models Used to Explain Osmolyte-Protein Interaction; 2.4 Summary and Perspectives; References; 3: Crosstalk Between Osmolytes and Cellular Chaperones: Examples in Saccharomyces cerevisiae; 3.1 Introduction; 3.2 Cellular Chaperones; 3.3 Chaperonins; 3.3.1 Hsp40; 3.3.2 GroEL-GroES (Hsp60-Hsp10); 3.3.3 Hsp70; 3.3.4 Hsp90; 3.3.5 Hsp100; 3.3.5.1 Small Heat Shock Proteins; 3.3.6 Peptidylprolyl Isomerase; 3.4 Osmolytes. 3.5 Osmolytes Synthesized in Yeast; 3.6 Cellular Stress Response Machinery; 3.6.1 Heat Shock Response; 3.6.1.1 Heat Shock Factor (Hsf); 3.6.1.2 Msn2/Msn4; 3.6.2 Unfolded Protein Response; 3.7 Crosstalk Between Chaperones and Osmolytes in Stressed Yeast; References; 4: Osmolytes Offset the Urea's Effect on Protein Structure and Function; 4.1 Introduction; 4.2 Molecular Mechanism of Counteraction Phenomenon; 4.3 Is Counteraction System Perfect?; 4.4 Methylamines Fail to Counter Urea's Effects on Some Proteins; 4.5 Factors Affecting 2:1 (Urea-Methylamine) Ratio. … (more)
- Publisher Details:
- Singapore : Springer
- Publication Date:
- 2017
- Extent:
- 1 online resource (vii, 249 pages), illustrations (some color)
- Subjects:
- 572/.6
610
Molecular chaperones
Protein folding
SCIENCE -- Life Sciences -- Biochemistry
Molecular chaperones
Protein folding
Biomedicine
Biomedical Engineering/Biotechnology
Cell Physiology
Protein-Ligand Interactions
Cancer Research
Animal Biochemistry
Plant Biochemistry
Electronic books
Electronic book - Languages:
- English
- ISBNs:
- 9789811037078
9811037078 - Related ISBNs:
- 9789811037061
981103706X - Notes:
- Note: Includes bibliographical references.
Note: Online resource; title from PDF title page (SpringerLink, viewed May 25, 2017). - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.396987
- Ingest File:
- 02_424.xml