Key features:Serves as a cutting-edge resource for researchers and students who are studying plant abiotic stress tolerance and crop improvement through metabolic adaptationsPresents the latest trends and developments in the field of metabolic engineering and abiotic stress toleranceAddresses the adaptation of plants to climatic changesGives special attention to emerging topics such as the role of secondary metabolites, small RNA mediated regulation and signaling molecule responses to stressesProvides extensive references that serve as entry points for further researchMetabolic Adaptations in Plants during Abiotic Stress covers a topic of past, present and future interest for both scientists and policy makers as the global challenge of climate change is addressed. Understanding the mechanisms of plant adaptation to environmental stresses can provide the necessary tools needed to take action to protect them, and hence ourselves. This book brings together recent findings about metabolic adaptations during abiotic stress and in diverse areas of plant adaptation. It covers not only the published results, but also introduces new concepts and findings to offer original views on the perspectives and challenges in this field.
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Metabolic Adaptations in Plants during Abiotic Stress covers a topic of immediate interest as the global challenge of climate change is addressed. Understanding the mechanisms of plant adaptation to environmental stresses provides the necessary tools to protect them, and hence protect ourselves.
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ContentsForeword..................................................................................................................................................................................................xiAcknowledgments................................................................................................................................................................................. xiiiEditors.....................................................................................................................................................................................................xvContributors......................................................................................................................................................................................... xviiSection I Abiotic Stress Management and Its Impact on Plants1. Effects of Different Abiotic Stresses on Primary Metabolism...................................................................................................3Belen Colavolpe, Fabiana Espasandin, Juan Manuel Vilas, Santiago Maiale, Pedro Sansberro, and Oscar A. Ruiz2. Metabolic Adaptation and Allocation of Metabolites to Phloem Transport and Regulation Under Stress........................21Kathryn Dumschott, Andrew Merchant, and Millicent Smith3. Mechanism of Salt Stress Tolerance and Pathways in Crop Plants.........................................................................................27Manu Kumar and Mahipal Singh Kesawat4. Recent Advances on the Modulatory Role of ATPases toward Salt Tolerance in Plants.......................................................45Soumya Mukherjee5. Physiological and Phenological Responses of Crop Plants under Heat Stress.......................................................................55Allah Ditta6. Biochemical and Molecular Mechanisms of High‑Temperature Stress in Crop Plants........................................................65Gurpreet Kaur, Bavita Asthir, and N.S. Bains7. Profiles of Antioxidant Isoenzymes and Physiological Behavior of Tomato Exposed to NaCl Stress and Treatedwith Salicylic Acid.........................................................................................................................................................................73Salma Wasti, Nizar Dhaoui, Ibtissem Medyouni, Hajer Mimouni, Hela Ben Ahmed, and Abdellah Chalh8. Toxicity of Heavy Metal and Its Mitigation Strategies through Application of Nutrients, Hormones,and Metabolites.............................................................................................................................................................................81Rachana Singh, Parul Parihar, Anita Singh, and Sheo Mohan Prasad9. Regulation of Pesticide Stress on Metabolic Activities of Plant...............................................................................................99Santwana Tiwari, Anita Singh, and Sheo Mohan Prasad10. Oxidative Stress and Its Management in Plants During Abiotic Stress................................................................................111P. Faseela, A.K. Sinisha, T.T. Dhanya Thomas, and Jos T. Puthur11. Plant Genome Response Related to Phenylpropanoid Induction under Abiotic Stresses...................................................127Ariel D. Arencibia12. Metabolic Control of Seed Dormancy and Germination: New Approaches Based in Seed ShapeQuantification in Desert Plants.................................................................................................................................................137Emilio Cervantes, José Javier Martín Gómez, and Ezzeddine Saadaoui13. Plant Ionomics: An Important Component of Functional Biology........................................................................................147Anita Mann, Sangeeta Singh, Gurpreet, Ashwani Kumar, Pooja Sujit Kumar, and Bhumesh KumarSection II Role of Major Plant Metabolites During Abiotic Stress Management14. Role of Glutamate-Derived Amino Acids under Stress Conditions: The Case of Glutamine and Proline........................157Marco Biancucci, Roberto Mattioli, Adra Mouellef, Nadia Ykhlef, and Maurizio Trovato15. Role of Glycinebetaine and Trehalose as Osmoregulators During Abiotic Stress Tolerance in Plants.............................171Mona G. Dawood and Mohamed E. El-Awadi16. Polyamine Metabolism and Abiotic Stress Tolerance in Plants.............................................................................................191Rubén Alcázar and Antonio F. Tiburcio17. Plant Glycine-Rich Proteins and Abiotic Stress Tolerance.....................................................................................................203Juan Francisco Jiménez-Bremont, Maria Azucena Ortega-Amaro, Itzell Eurídice Hernández-Sánchez, Alma LauraRodriguez-Piña, and Israel Maruri-Lopez18. Compatible Solutes and Abiotic Stress Tolerance in Plants...................................................................................................213Vinay Kumar, Tushar Khare, Samrin Shaikh, and Shabir H. Wani19. Protective Role of Indoleamines (Serotonin and Melatonin) During Abiotic Stress in Plants............................................221Ramakrishna Akula, Sarvajeet Singh Gill, and G.A. Ravishankar20. Flavonoid Accumulation as Adaptation Response in Plants during Abiotic Stresses..........................................................229Rubal, Ashok Dhawan, and Vinay Kumar21. The Role of Gamma Aminobutyric Acid (GABA) During Abiotic Stress in Plants.............................................................239Paramita Bhattacharjee, Sasanka Chakraborti, Soumi Chakraborty, and Kaninika PaulSection III Role of Specialized Proteins During Abiotic Stress Management22. MicroRNAs: Emerging Roles in Abiotic Stresses and Metabolic Processes.........................................................................251Susana S. Araújo, Carolina Gomes, Jorge A.P. Pavia, Alma Balestrazzi, and Anca Macovei23. Current Understanding of Regulation of GBF3 Under Abiotic and Biotic Stresses and Its Potential Role inCombined Stress Tolerance........................................................................................................................................................267Sandeep Kumar Dixit, Aarti Gupta, and Muthappa Senthil-Kumar24. microRNAs: Key Modulators of Drought Stress Responses in Plants..................................................................................273A. Thilagavathy, Kavya Naik, and V.R. Devaraj25. Proteomics of Salinity Stress: Opportunities and Challenges................................................................................................285Shweta JhaSection IV Role of Signaling Molecules Under Abiotic Stress Management26. Signaling Molecules and Their Involvement in Abiotic and Biotic Stress Response Crosstalk in Plants..........................295V.R. Devaraj and R.D. Myrene27. Current Understanding of the Role of Jasmonic Acid During Photoinhibition in Plants...................................................311Ruquia Mushtaq, Sarvajeet S. Gill, Shruti Kaushik, Anil K. Singh, Akula Ramakrishna, and Geetika Sirhindi28. Current Scenario of NO (S-Nitrosylation) in Cold Stress.......................................................................................................331Yaiphabi Sougrakpam, Priyanka Babuta, and Renu Deswal29. Physiological Roles of Brassinosteroids in Conferring Temperature and Salt Stress Tolerance in Plants.......................341Sirhindi Geetika, Bhardwaj Renu, Kumar Manish, Kumar Sandeep, Dogra Neha, Sekhon Harpreet,Kaushik Shruti and Madaan IshaSection V Biotechnological Applications to Improve the PlantMetabolic Pathways Towards Better Adaptations30. Genetic Engineering Approaches for Abiotic Stress Tolerance in Broccoli: Recent Progress............................................363Pankaj Kumar, Ajay Kumar Thakur, and Dinesh Kumar Srivastava31. Impact of Abiotic Stresses on Metabolic Adaptation in Opium Poppy (Papaver somniferum L.).....................................371Ankesh Pandey, S. N. Jena, and Sudhir Shukla32. In Vitro Selection and Genetic Engineering for Abiotic Stress Tolerant Plants and Underlying Mechanism..................383Srinath Rao and H. Sandhya33. Plant-environment Interaction: Influence of Abiotic Stress on Plant Essential Oil Yield and Quality.............................391Marine Hussain, Barbi Gogoi, Babita Joshi, Bitupon Borah, Lucy Lalthafamkimi and B.S. Bhau34. Differences in Adaptation to Water Stress in Stress Sensitive and Resistant Varieties of Kabuli and Desi TypeChickpea.......................................................................................................................................................................................403Nadia Fatnassi, Ralph Horres, Natasa Cerekovic, Angelo Santino, and Palmiro Poltronieri
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Produktdetaljer

ISBN
9781138056381
Publisert
2018-11-19
Utgiver
Vendor
CRC Press
Vekt
1428 gr
Høyde
280 mm
Bredde
210 mm
Aldersnivå
U, G, 05, 01
Språk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
420

Biographical note

Ramakrishna Akula is currently a scientist at Monsanto Breeding Station, Bangalore, India. Dr. Ramakrishna holds a master's degree from Sri Krishna Devaraya University, Anantapur, India. He started his research career in 2005 at the Department of Plant Cell Biotechnology, CFTRI, Mysuru, in the research group of Dr. G.A. Ravishankar. He is a Senior Research Fellow of CSIR, New Delhi. He obtained his Ph.D. in biochemistry from University of Mysore, Mysuru, in the area of development of high frequency somatic embryogenesis and regulation of secondary metabolites in Coffea canephora. He worked extensively on the role of serotonin, melatonin, and calcium-mediated signaling in plants. He has made significant contributions to metabolic engineering of secondary metabolites from plants and abiotic stress in plants. He has worked in the area of tissue culture, in vitro production, and regulation of plant secondary metabolites from food value plants that include natural pigment caffeine, steviosides, anthocyanins, and carotenoids. He is the author of three books, 12 peerreviewed publications, two reviews, and eight chapters in books. His books include Serotonin and Melatonin: Their Functional Role in Plants, Food, Phytomedicine, and Human Health, Metabolic Adaptations in Plants During Abiotic Stress (CRC Press, 2016) and Neurotransmitters in Plants: Perspectives and Applications (CRC Press, 2018). He is a member of the Society for Biotechnologists (India). He is a fellow of the Society for Applied Biotechnology, India (2012), and has received the Global Vegetable Research Excellence Award (2017), three global technology recognition awards, a Rapid Recognition Award, Test Master, Asia Veg R&D quarterly recognitions, and special recognition from the Monsanto company. He attended the Fifth International Symposium on Plant Neurobiology held in 2009 in Florence, Italy. He also attended the Technical Community of Monsanto (TCM) held in 2016, in St. Louis, Missouri. Dr. Sarvajeet Singh Gill is currently working as assistant professor at the Centre for Biotechnology, Maharshi Dayanand University, Rohtak, Haryana, India. In 2001, Dr. Gill completed an MSc in botany from Aligarh Muslim University, Aligarh, INDAI, with a Gold Medal. Soon after, Dr. Gill started his research career (M.Phil. and PhD, 2001・ 2008) in plant stress physiology and molecular biology at AMU. Dr. Gill has made significant contributions towards abiotic stress tolerance in crop plants. Dr. Gill’s research includes abiotic stress tolerance in crop plants, reactive oxygen species signaling and antioxidant machinery, gene expression, helicases, crop improvement, transgenics, nitrogen and sulfur metabolism, and plant fungal symbiotic interactions. Together with Dr. Narendra Tuteja at the International Centre for Genetic Engineering and Biotechnology (ICGEB), New Delhi, he worked on plant helicases for abiotic stress tolerance. He further explored the mechanism of stress tolerance by PDH45 in tobacco and rice (Plant Mol Biol 82(1・2):1・22, 2013, and PLoS One 9(5):e98287, 2014). Dr. Gill discovered a novel function of plant MCM6 in salinity stress tolerance that will help to improve crop production at sub-optimal conditions (Plant Mol Biol 76(2011):19・34, 2014). Herbicide and salinity stress tolerance (PDH45 + EPSPS) in plants has also been explored by Dr. Gill (Front. Plant Sci. 8:364, 2017). He helped to develop salinity-tolerant tobacco and rice plants, without affecting the overall yield. This research uncovers new pathways to plant abiotic stress tolerance and indicates the potential for improving crop production at sub-optimal conditions. A recipient of the INDIA Research Excellence & Citation Award 2017 from Clarivate Analytics (Web of Science), Sarvajeet Gill has edited several books with Springer, Wiley, Elsevier, CABI, and others, and has a number of research papers, review articles, and book chapters to his name.