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Osmoprotectant-mediated abiotic stress tolerance in plants = recent advances and future perspectives /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Osmoprotectant-mediated abiotic stress tolerance in plants/ edited by Mohammad Anwar Hossain ... [et al.].
其他題名:	recent advances and future perspectives /
其他作者:	Hossain, Mohammad Anwar.
出版者:	Cham :Springer International Publishing : : 2019.,
面頁冊數:	xi, 342 p. :ill., digital ;24 cm.
內容註:	1.Osmoprotectant-related genes in plants under abiotic stress: expression dynamics, in silico genome mapping, and biotechnology -- 2.Proline metabolism and its functions in development and stress tolerance -- 3. Regulation of proline accumulation and its molecular and physiological functions in stress defence -- 4. Exogenous proline-mediated abiotic stress tolerance in plants: possible mechanisms 5 -- Biosynthesis and degradation of glycine betaine and its potential to control plant growth and development -- 6. Exogenous glycinebetaine-mediated modulation of abiotic stress tolerance in plants: possible mechanisms -- 7. Roles of endogenous glycinebetaine in plant abiotic stress responses -- 8.Biosynthesis and degradation of trehalose, and its potential to control -- 9. Proline, glycinebetaine and trehalose uptake and inter-organ transport in plants under stress -- 10. Transgenic plants overexpressing trehalose biosynthetic genes and abiotic stress tolerance in plants -- 11. The role of proline, glycine betaine and trehalose in stress responsive gene expression -- 12. Seed osmolyte priming and abiotic stress tolerance -- 13. Relationship between polyamines and osmoprotectants in the response to salinity of the legume-rhizobia symbiosis -- 14. Engineering polyamines metabolic pathways for abiotic stress tolerance in plants -- 15. Fructan metabolism in plant growth and development and stress tolerance.
Contained By:	Springer eBooks
標題:	Plants - Effect of stress on. -
電子資源:	https://doi.org/10.1007/978-3-030-27423-8
ISBN:	9783030274238

Osmoprotectant-mediated abiotic stress tolerance in plants = recent advances and future perspectives /
Osmoprotectant-mediated abiotic stress tolerance in plantsrecent advances and future perspectives /[electronic resource] :edited by Mohammad Anwar Hossain ... [et al.]. - Cham :Springer International Publishing :2019. - xi, 342 p. :ill., digital ;24 cm.

1.Osmoprotectant-related genes in plants under abiotic stress: expression dynamics, in silico genome mapping, and biotechnology -- 2.Proline metabolism and its functions in development and stress tolerance -- 3. Regulation of proline accumulation and its molecular and physiological functions in stress defence -- 4. Exogenous proline-mediated abiotic stress tolerance in plants: possible mechanisms 5 -- Biosynthesis and degradation of glycine betaine and its potential to control plant growth and development -- 6. Exogenous glycinebetaine-mediated modulation of abiotic stress tolerance in plants: possible mechanisms -- 7. Roles of endogenous glycinebetaine in plant abiotic stress responses -- 8.Biosynthesis and degradation of trehalose, and its potential to control -- 9. Proline, glycinebetaine and trehalose uptake and inter-organ transport in plants under stress -- 10. Transgenic plants overexpressing trehalose biosynthetic genes and abiotic stress tolerance in plants -- 11. The role of proline, glycine betaine and trehalose in stress responsive gene expression -- 12. Seed osmolyte priming and abiotic stress tolerance -- 13. Relationship between polyamines and osmoprotectants in the response to salinity of the legume-rhizobia symbiosis -- 14. Engineering polyamines metabolic pathways for abiotic stress tolerance in plants -- 15. Fructan metabolism in plant growth and development and stress tolerance.

In nature, plants are constantly challenged by various abiotic and biotic stresses that can restrict their growth, development and yields. In the course of their evolution, plants have evolved a variety of sophisticated and efficient mechanisms to sense, respond to, and adapt to changes in the surrounding environment. A common defensive mechanism activated by plants in response to abiotic stress is the production and accumulation of compatible solutes (also called osmolytes) This include amino acids (mainly proline), amines (such as glycinebetaine and polyamines), and sugars (such as trehalose and sugar alcohols), all of which are readily soluble in water and non-toxic at high concentrations. The metabolic pathways involved in the biosynthesis and catabolism of compatible solutes, and the mechanisms that regulate their cellular concentrations and compartmentalization are well characterized in many important plant species. Numerous studies have provided evidence that enhanced accumulation of compatible solutes in plants correlates with increased resistance to abiotic stresses. New insights into the mechanisms associated with osmolyte accumulation in transgenic plants and the responses of plants to exogenous application of osmolyte, will further enhance our understanding of the mechanisms by which compatible solutes help to protect plants from damage due to abiotic stress and the potential roles compatible solutes could play in improving plants growth and development under optimal conditions for growth. Although there has been significant progress made in understanding the multiple roles of compatible solute in abiotic stress tolerance, many aspects associated with compatible solute-mediated abiotic stress responses and stress tolerance still require more research. As well as providing basic up-to-date information on the biosynthesis, compartmentalization and transport of compatible solute in plants, this book will also give insights into the direct or indirect involvement of these key compatible solutes in many important metabolic processes and physiological functions, including their antioxidant and signaling functions, and roles in modulating plant growth, development and abiotic stress tolerance. In this book, Osmoprotectant-mediated abiotic stress tolerance in plants: recent advances and future perspectives, we present a collection of 16 chapters written by leading experts engaged with compatible solute-induced abiotic stress tolerance in plants. The main objective of this volume is to promote the important roles of these compatible solutes in plant biology, by providing an integrated and comprehensive mix of basic and advanced information for students, scholars and scientists interested in, or already engaged in, research involving osmoprotectant. Finally, this book will be a valuable resource for future environmental stress-related research, and can be considered as a textbook for graduate students and as a reference book for front-line researchers working on the relationships between osmoprotectant and abiotic stress responses and tolerance in plants.

ISBN: 9783030274238

Standard No.: 10.1007/978-3-030-27423-8doiSubjects--Topical Terms:

1067293
Plants
--Effect of stress on.

LC Class. No.: QK754 / .O76 2019

Dewey Class. No.: 581.7

Osmoprotectant-mediated abiotic stress tolerance in plants = recent advances and future perspectives /
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520 $a In nature, plants are constantly challenged by various abiotic and biotic stresses that can restrict their growth, development and yields. In the course of their evolution, plants have evolved a variety of sophisticated and efficient mechanisms to sense, respond to, and adapt to changes in the surrounding environment. A common defensive mechanism activated by plants in response to abiotic stress is the production and accumulation of compatible solutes (also called osmolytes) This include amino acids (mainly proline), amines (such as glycinebetaine and polyamines), and sugars (such as trehalose and sugar alcohols), all of which are readily soluble in water and non-toxic at high concentrations. The metabolic pathways involved in the biosynthesis and catabolism of compatible solutes, and the mechanisms that regulate their cellular concentrations and compartmentalization are well characterized in many important plant species. Numerous studies have provided evidence that enhanced accumulation of compatible solutes in plants correlates with increased resistance to abiotic stresses. New insights into the mechanisms associated with osmolyte accumulation in transgenic plants and the responses of plants to exogenous application of osmolyte, will further enhance our understanding of the mechanisms by which compatible solutes help to protect plants from damage due to abiotic stress and the potential roles compatible solutes could play in improving plants growth and development under optimal conditions for growth. Although there has been significant progress made in understanding the multiple roles of compatible solute in abiotic stress tolerance, many aspects associated with compatible solute-mediated abiotic stress responses and stress tolerance still require more research. As well as providing basic up-to-date information on the biosynthesis, compartmentalization and transport of compatible solute in plants, this book will also give insights into the direct or indirect involvement of these key compatible solutes in many important metabolic processes and physiological functions, including their antioxidant and signaling functions, and roles in modulating plant growth, development and abiotic stress tolerance. In this book, Osmoprotectant-mediated abiotic stress tolerance in plants: recent advances and future perspectives, we present a collection of 16 chapters written by leading experts engaged with compatible solute-induced abiotic stress tolerance in plants. The main objective of this volume is to promote the important roles of these compatible solutes in plant biology, by providing an integrated and comprehensive mix of basic and advanced information for students, scholars and scientists interested in, or already engaged in, research involving osmoprotectant. Finally, this book will be a valuable resource for future environmental stress-related research, and can be considered as a textbook for graduate students and as a reference book for front-line researchers working on the relationships between osmoprotectant and abiotic stress responses and tolerance in plants.
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