Physiology of Stressed Crops
Osmoregulation and Protection
U.S. Gupta: Dept. of Crop and Soil Sciences, University of Georgia, Athens, USA
ISBN 978-1-57808-440-1; 2006; 244 pages; US$ 94.10      Buy Now


To cope with the abiotic stress-induced osmotic problems, plants adapt by either increasing uptake of inorganic ions from the external solution, or by de novo synthesis of organic compatible solutes acting as osmolytes. Of the osmoregulants and protectants discussed in this volume, trehalose, fructans, ectoine and citrulline, which are generated in different species, in osmotically ineffective amounts, mitigate the stress effects on cells/plants and improve productivity. There are several pieces of encouraging research discussed in this volume showing significant improvement in stress tolerance and in turn productivity by involving genetic engineering techniques.


Contents:
. Introduction to Osmoregulation
Introduction; Non-osmotic (Specific) Effects of Some Stress-induced Metabolits; Preconditioning; Osmoregulation and Environment; Inheritance of Osmotic Adjustment; Improvement Aspects; References; Measurement of Osmotic Adjustment; Suggested Readings

• Inorganic Osmolytes
Introduction; The dominating role of potassium ion; K+-uptake mechanism; Sodium: Potassium uptake; The indirect role of calcium; Ion uptake as affected by different types of stresses; Improvement work; References; Brief descriptions of some procedures used; Patch-clamp method (Adopted from Lew, 1991); Suggested readings

• Sugars — The Key Osmolytes
Freeze-induced dehydration; Drought-induced dehydration; Salinity-induced dehydration; Sugars and dehydration-induced ROS; Toxic ion (arsenic) stress; High light-intensity stress; Heat stress; Sucrose and stress metabolism; References; Some procedures used; Suggested readings

• Complex Sugars — Cyclitols
Introduction; Cold stress; Salinity stress; Drought stress; Nutrient stress; The stress of ROS; Improvement work; References; Brief description of some procedures used; Suggested readings

• Proline
Introduction; Proline biosynthesis in stressed plants; Localization and transport; Stressinduced proline accumulation and stress mitigation; Salinity stress; Drought stress; Cold and freezing stress; Improvement; References; Some procedures used; Suggested reading

• Glycinebetaine
Introduction; Biosynthesis in stressed plants; GB-induced mechanism of stress tolerance; Subcellular localization of GB; Stress induced GB accumulation and stress mitigation; Drought stress; Salinity stress; Cold stress; Heat stress; Oxidative stress; Improvement; Variability; Genetics/ Inheritance; Metabolic engineering; Practical application and future perspective; References; Brief description of some procedures used; Suggested reading

• Polymines
Introduction; Biosynthesis; Polyamines and root growth; Stress tolerance; Improvement; References; Method used; HPLC analysis of polyamines (After Hennion and Martin-Tanguy, 2000); Suggested readings

• Trehalose
Introduction; Biosynthesis and sugar metabolism; Increased production of unstressed plants; Trehalose vs stress tolerance; Salinity stress; Drought stress; Improvement; Chloroplst vs nuclear engineering; Future perspective; References; Methods used; Detection of trehalose by HPLC with ELSD (Zhou et al., 2001); Trehalase assay (After Jang et al., 2003); Suggested reading

• Fructan
Introduction; Biosynthesis; Abiotic stress tolerance; Hypoxia; Mineral nutrient stress; Salinity stress; Improvement; References; Suggested reading

• Ectoine
Introduction; Biosynthesis; Transport; Engineering for ectoine production and improvement; References; Method used; Suggested reading

• Citrulline
Introduction; Biosynthesis; Mechanism of Action; References; Method used; Suggested reading

• ROS and Antioxidants
Introduction; ROS generation and ROS stress; The plant defence mechanism: Generation of ROS-degenerating enzymes and antioxidants; Enzymatic defence; Non-enzymatic defence; Stress induced ROS-detoxification by antioxidants; Cold stress; Heavy metal stress; References; Methods used (After Loggini et al., 1999); Suggested readings.