Journal Article10.1080/07352680590910410
Drought and Salt Tolerance in Plants
2.6K
TL;DR: The responses of plants to salt and water stress are described, the regulatory circuits which allow plants to cope with stress are presented, and how the present knowledge can be applied to obtain tolerant plants is discussed.
read more
Abstract: Agricultural productivity worldwide is subject to increasing environmental constraints, particularly to drought and salinity due to their high magnitude of impact and wide distribution. Traditional breeding programs trying to improve abiotic stress tolerance have had some success, but are limited by the multigenic nature of the trait. Tolerant plants such as Craterostigma plantagenium, Mesembryanthemum crystallinum, Thellungiella halophila and other hardy plants could be valuable tools to dissect the extreme tolerance nature. In the last decade, Arabidopsis thaliana, a genetic model plant, has been extensively used for unravelling the molecular basis of stress tolerance. Arabidopsis also proved to be extremely important for assessing functions for individual stress-associated genes due to the availability of knock-out mutants and its amenability for genetic transformation. In this review, the responses of plants to salt and water stress are described, the regulatory circuits which allow plants to cope wit...
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Ectopic expression of BdCIPK31 confers enhanced low-temperature tolerance in transgenic tobacco plants.
Qingchen Luo,Qiuhui Wei,Ruibin Wang,Yang Zhang,Fan Zhang,Yuan He,Guangxiao Yang,Guangyuan He +7 more
TL;DR: Findings suggest that BdCIPK31 functions positively in plant cold response, and could upregulate the expressions of some representative stress-related genes under cold stress.
Overexpression of TsApx1 from Thellungiella salsuginea improves abiotic stress tolerance in transgenic Arabidopsis thaliana
TL;DR: It is suggested that TsApx1 plays an important role in scavenging reactive oxygen species in the cytoplasm under salinity or drought and may contribute to the tolerance to abiotic stresses in T. salsuginea.
The calcium connection: exploring the intricacies of calcium signaling in plant-microbe interactions
Neelam Prabha Negi,Geeta Prakash,Parul Narwal,Ruby Panwar,Deepak Kumar,Bharti Chaudhry,Anjana Rustagi +6 more
TL;DR: An overview of current understanding in calcium signatures during plant-microbe interaction is presented so as to imbibe a future direction of research.
17
Seed priming with cysteine modulates the growth and metabolic activity of wheat plants under salinity and osmotic stresses at early stages of growth
Fatemeh Nasibi,Khosrow Manouchehri Kalantari,Roya Zanganeh,Ghasem Mohammadi-Nejad,Hakimeh Oloumi +4 more
TL;DR: It can be concluded that the maximum effect of cysteine on salinity stress was to alleviate the oxidative damages through the increase in activity of antioxidant enzymes, glutathione content, and decrease the ion toxicity through increase in K+/Na+ ratio and inhibition of Na+ uptake.
16
References
•Book
Free radicals in biology and medicine
Barry Halliwell,John M.C. Gutteridge +1 more
- 13 Jun 1985
TL;DR: 1. Oxygen is a toxic gas - an introduction to oxygen toxicity and reactive species, and the chemistry of free radicals and related 'reactive species'
REACTIVE OXYGEN SPECIES: Metabolism, Oxidative Stress, and Signal Transduction
Klaus Apel,Heribert Hirt +1 more
TL;DR: The mechanisms of ROS generation and removal in plants during development and under biotic and abiotic stress conditions are described and the possible functions and mechanisms for ROS sensing and signaling in plants are compared with those in animals and yeast.
11.5K
Oxidative stress, antioxidants and stress tolerance
TL;DR: Key steps of the signal transduction pathway that senses ROIs in plants have been identified and raise several intriguing questions about the relationships between ROI signaling, ROI stress and the production and scavenging ofROIs in the different cellular compartments.
10.9K
Comparative physiology of salt and water stress
TL;DR: It is important to avoid treatments that induce cell plasmolysis, and to design experiments that distinguish between tolerance of salt and tolerance of water stress, to understand the processes that give rise toolerance of salt, as distinct from tolerance of osmotic stress.
6.9K
Salt and drought stress signal transduction in plants
TL;DR: Salt and drought stress signal transduction consists of ionic and osmotic homeostasis signaling pathways, detoxification (i.e., damage control and repair) response pathways, and pathways for growth regulation.