Titlebook: Gasotransmitters Signaling in Plants under Challenging Environment; Tariq Aftab,Francisco J. Corpas Book 2023 The Editor(s) (if applicable

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Understanding the Role of Nitric Oxide and Its Interactive Effects with Phytohormones in Mitigation responses in plants has been well documented. Meanwhile, salinity is an important abiotic factor that limits the growth and production of almost all economically important plants worldwide. Due to salinity stress, there is substantial cellular damage, imbalance in ionic content, and osmotic strain

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,Nitric Oxide – A Small Molecule with Big Impacts on Plants Under Heavy Metal Stress,ed cell death or plant acclimation. Nitric oxide (NO) is a small gaseous molecule which, with its bioactive nature, it is capable of regulating redox signalling in living cells. The importance of NO in abiotic stress response, particularly in heavy metal stress tolerance, is widely acknowledged by e

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Interaction of Hydrogen Sulfide with Phytohormones During Plant Physiological and Stress Conditionsactive signaling component that is synthesized in chloroplasts with the assistance of the enzyme sulfite reductase, a major enzyme of the assimilatory sulfate reduction pathway. Additionally, the synthesis of H.S is carried out with the help of L-cysteine desulfhydrase and β-cyano-alanine synthase C

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Hydrogen Sulfide (H2S) Signaling in Plants Responding to Abiotic Stresses,ts are giving more attention to this gaseous molecule which at first instance was found and recognized as a gasotransmitter in mammals. This chapter is mainly focused on the importance of H.S as a key mediator in plants against abiotic stresses. The exogenous application of H.S in plants increases a

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Functional Roles of Hydrogen Sulfide in Postharvest Physiology of Fruit and Vegetables,sses in the plant system. Various studies have reported the beneficial effect of H.S in delaying the fruit ripening, senescence, and better fruit quality during storage. It reduces oxidative damage, membrane permeability, and lipid peroxidation by boosting the antioxidant defence mechanism in many f

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Carbon Monoxide (CO) and Its Association with Other Gasotransmitters in Root Development, Growth ans been discovered to be an important gaseous regulator of cellular components and it controls various metabolic pathways in animal and plant system. Root architecture is regulated by precise signaling-mediated by CO, nitric oxide (NO), and hydrogen sulphide (H.S). Like in the animal systems, CO also