期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 24, 期 14, 页码 -出版社
MDPI
DOI: 10.3390/ijms241411637
关键词
nitric oxide; NO production; nitrate reductase; molybdoenzymes; non-dedicated NO-forming nitrite reductases; regulation of plant development; stress tolerance; drought; salinity; temperature stress; heavy metals
Nitric oxide (NO) is a signaling molecule that plays a crucial role in plant development and response to various stresses. It has the potential to improve stress resistance and plant productivity. NO is involved in seed germination, growth, morphogenesis, flowering, fruit ripening, and senescence. Under stressful conditions, it helps in antioxidant protection, osmotic adjustment, water balance, ion regulation, photosynthesis, and growth processes. NO can regulate gene expression and enzyme activity, thus affecting stress tolerance. This review summarizes the molecular mechanisms of NO production and its activity in plants during their life cycle and adaptation to stress factors.
Nitric oxide (NO) is an endogenous signaling molecule that plays an important role in plant ontogenesis and responses to different stresses. The most widespread abiotic stress factors limiting significantly plant growth and crop yield are drought, salinity, hypo-, hyperthermia, and an excess of heavy metal (HM) ions. Data on the accumulation of endogenous NO under stress factors and on the alleviation of their negative effects under exogenous NO treatments indicate the perspectives of its practical application to improve stress resistance and plant productivity. This requires fundamental knowledge of the NO metabolism and the mechanisms of its biological action in plants. NO generation occurs in plants by two main alternative mechanisms: oxidative or reductive, in spontaneous or enzymatic reactions. NO participates in plant development by controlling the processes of seed germination, vegetative growth, morphogenesis, flower transition, fruit ripening, and senescence. Under stressful conditions, NO contributes to antioxidant protection, osmotic adjustment, normalization of water balance, regulation of cellular ion homeostasis, maintenance of photosynthetic reactions, and growth processes of plants. NO can exert regulative action by inducing posttranslational modifications (PTMs) of proteins changing the activity of different enzymes or transcriptional factors, modulating the expression of huge amounts of genes, including those related to stress tolerance. This review summarizes the current data concerning molecular mechanisms of NO production and its activity in plants during regulation of their life cycle and adaptation to drought, salinity, temperature stress, and HM ions.
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