By Shabir Hussain Wani, Mohammad Anwar Hossain
Salinity tension presently affects greater than eighty million hectares of land world wide and extra arable land might be impacted sooner or later because of worldwide weather adjustments. Managing Salt Tolerance in vegetation: Molecular and Genomic Perspectives offers specific molecular and genomic ways for the advance of crop crops tolerant to salinity pressure. The booklet discusses salinity tension in plant variation and productiveness, biochemical and molecular mechanisms answerable for plant salt tolerance, and genomic methods for the advance of crops tolerant to salinity stress.
With chapters written via best scientists eager about plant salinity rigidity learn, this booklet brings jointly biochemical, physiological, and molecular suggestions used to increase crop crops with elevated salinity tolerance. The editors combine the latest findings in regards to the key organic determinants of salinity pressure tolerance with modern crop development ways. They comprise rising themes and state-of-the-art wisdom relating to salt pressure responses and tolerance mechanisms and describe salinity pressure in vegetation and its results on plant progress and productivity.
Time is of the essence for this factor, as worldwide weather switch will additional exacerbate the issues of salt tension within the close to destiny. With authoritative assurance of the main components impacting the world’s crop creation, this e-book calls recognition to basic genetic, physiological, and biochemical components of plant salinity tension. It is helping you enhance traditional and biotechnological purposes which may bring about better crop productiveness in tense environments.
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Extra resources for Managing Salt Tolerance in Plants: Molecular and Genomic Perspectives
The plasma membrane Na+/H+ antiporter SOS1 is essential for salt tolerance in tomato and affects the partitioning of Na+ between plant organs. Plant Cell Environment 32:904–916. , M. Seki, M. Satou, K. Lida, K. Akiyama, T. Sakurai, M. Fujita, K. Yamaguchi-Shinozaki, and K. Shinozaki. 2006. Monitoring expression profile of Arabidopsis genes during cold acclimation and deacclimation using DNA microarrays. Functional and Integrative Genomics 6:212–234. , S. Chen, S. Dai, Y. Chen, Y. Wang, and X. Yan.
Nevertheless, all these morphological adaptations have implications at the biophysical and biochemical levels. This was also observed for T. halophila retaining higher potassium and accumulating less sodium, while increasing its transpiration rate resulting in a high water uptake (Volkov and Amtmann, 2006). On the basis of this differential ionic absorption are specific protein-like ionic channels. A total of 32 salt-induced differentially expressed proteins were identified in T. , 2010). In stress situations, K+ transporter proteins are preferentially expressed counterbalancing the extracellular Na+ concentration.
Kim, Z. Ali, H. Fujii et al. 2011. Activation of the plasma membrane Na+/H+ antiporter salt-overly-sensitive 1 (SOS1) by phosphorylation of an auto-inhibitory C-terminal domain. Proceedings of the National Academy of Sciences USA 108:2611–2616. , K. Maruyama, H. Abe, M. Ayub Khan, K. Katsura, Y. Ito, K. Yoshiwara, M. Seki, K. Shinozaki, and K. Yamaguchi-Shinozaki. 2003. Monitoring expression profiles of rice genes under cold, drought, and high-salinity stresses and abscisic acid application using cDNA microarray and RNA gel-blot analyses.