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Molecular priming as an approach to induce tolerance against abiotic and oxidative stresses in crop plants
P. Kerchev, T. van der Meer, N. Sujeeth, A. Verlee, CV. Stevens, F. Van Breusegem, T. Gechev,
Language English Country Great Britain
Document type Journal Article, Research Support, Non-U.S. Gov't, Review
- MeSH
- Stress, Physiological * MeSH
- Droughts * MeSH
- Oxidative Stress MeSH
- Salinity MeSH
- Plant Development MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
- Review MeSH
Abiotic stresses, including drought, salinity, extreme temperature, and pollutants, are the main cause of crop losses worldwide. Novel climate-adapted crops and stress tolerance-enhancing compounds are increasingly needed to counteract the negative effects of unfavorable stressful environments. A number of natural products and synthetic chemicals can protect model and crop plants against abiotic stresses through induction of molecular and physiological defense mechanisms, a process known as molecular priming. In addition to their stress-protective effect, some of these compounds can also stimulate plant growth. Here, we provide an overview of the known physiological and molecular mechanisms that induce molecular priming, together with a survey of the approaches aimed to discover and functionally study new stress-alleviating chemicals.
BioAtlantis Ltd Tralee Co Kerry V92RWV5 Ireland
Centre for Plant Systems Biology VIB 9052 Ghent Belgium
Department of Plant Biotechnology and Bioinformatics Ghent University 9052 Ghent Belgium
Department of Plant Physiology and Molecular Biology University of Plovdiv Plovdiv 4000 Bulgaria
References provided by Crossref.org
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- $a Abiotic stresses, including drought, salinity, extreme temperature, and pollutants, are the main cause of crop losses worldwide. Novel climate-adapted crops and stress tolerance-enhancing compounds are increasingly needed to counteract the negative effects of unfavorable stressful environments. A number of natural products and synthetic chemicals can protect model and crop plants against abiotic stresses through induction of molecular and physiological defense mechanisms, a process known as molecular priming. In addition to their stress-protective effect, some of these compounds can also stimulate plant growth. Here, we provide an overview of the known physiological and molecular mechanisms that induce molecular priming, together with a survey of the approaches aimed to discover and functionally study new stress-alleviating chemicals.
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- $a Gechev, Tsanko $u Department of Molecular Stress Physiology, Center of Plant Systems Biology and Biotechnology, Plovdiv 4000, Bulgaria; Department of Plant Physiology and Molecular Biology, University of Plovdiv, Plovdiv 4000, Bulgaria. Electronic address: tsangech@uni-plovdiv.bg.
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