Journal ArticleDOI
Nitrogen Containing Compounds and Adaptation of Plants to Salinity Stress
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TLDR
A number of nitrogen containing compounds (NCC) accumulate in plants exposed to salinity stress, such as amino acids, amids, imino acids, proteins, quarternary ammonium compounds (QAC) and polyamines as discussed by the authors.Abstract:
A number of nitrogen containing compounds (NCC) accumulate in plants exposed to salinity stress. The most frequently accumulating NCC include amino acids, amids, imino acids, proteins, quarternary ammonium compounds (QAC) and polyamines. The specific NCC that accumulate in saline environment vary with the plant species. Osmotic adjustment, protection of cellular macromolecules, storage form of nitrogen, maintaining cellular pH, detoxification of the cells, and scavenging of free radicals are proposed functions for these compounds under stress conditions. NCC accumulation is usually correlated with plant salt tolerance, even though this correlation is based on untested hypotheses.read more
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Roles of glycine betaine and proline in improving plant abiotic stress resistance
Muhammad Ashraf,Majid R. Foolad +1 more
TL;DR: In this review article, numerous examples of successful application of these compounds to improve plant stress tolerance are presented and a better understanding of the mechanisms of action of exogenously applied GB and proline is expected to aid their effective utilization in crop production in stress environments.
Journal ArticleDOI
Salt tolerance and salinity effects on plants: a review.
TL;DR: The ability of plants to tolerate salt is determined by multiple biochemical pathways that facilitate retention and/or acquisition of water, protect chloroplast functions, and maintain ion homeostasis as mentioned in this paper.
Journal ArticleDOI
Na+ Tolerance and Na+ Transport in Higher Plants
Mark Tester,Romola Davenport +1 more
TL;DR: This work suggests that equally important in a wide range of conditions are processes involving the management of Na(+) movements within the plant, and requires more knowledge of cell-specific transport processes and the consequences of manipulation of transporters and signalling elements in specific cell types.
Journal ArticleDOI
Potential biochemical indicators of salinity tolerance in plants
Muhammad Ashraf,P.J.C. Harris +1 more
TL;DR: It is concluded that although there are a number of promising selection criteria, the complex physiology of salt tolerance and the variation between species make it difficult to identify single criteria.
Journal ArticleDOI
Some important physiological selection criteria for salt tolerance in plants
TL;DR: The major adaptive components of salt tolerance such as osmotic adjustment, photosynthesis, water relations and ion relations are reviewed and it is found that physiological and biochemical indicators for individual species are determined rather than generic indicators.
References
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Journal ArticleDOI
Living with water stress: evolution of osmolyte systems
TL;DR: Osmolyte compatibility is proposed to result from the absence of osmolytes interactions with substrates and cofactors, and the nonperturbing or favorable effects of oSMolytes on macromolecular-solvent interactions.
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Overexpression of [delta]-Pyrroline-5-Carboxylate Synthetase Increases Proline Production and Confers Osmotolerance in Transgenic Plants
TL;DR: Proline (Pro) accumulation has been correlated with tolerance to drought and salinity stresses in plants and overproduction of Pro in plants may lead to increased tolerance against these abiotic stresses, suggesting that activity of the first enzyme of the pathway is the rate-limiting factor in Pro synthesis.
Journal ArticleDOI
Whole-plant responses to salinity
Rana Munns,Annie Termaat +1 more
TL;DR: This paper discusses whole-plant responses to salinity in order to answer the question of what process limits growth of non-halophytes in saline soils and suggests that a message from the root is regulating leaf expansion.
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Quaternary ammonium and tertiary sulfonium compounds in higher plants
David Rhodes,Andrew D. Hanson +1 more
Journal ArticleDOI
Do polyamines have roles in plant development
TL;DR: Article de synthese sur le role des polyamines durant les phases de croissance and de developpement: division cellulaire embryogenese, rhizogenese , floraison et croissance du tube pollinique.