@misc{altaf_sharma_srivastava_mandal_adavi_jena_bairwa_gopalakrishnan_kumar_dey_et al._2023, title={Deciphering the melatonin-mediated response and signalling in the regulation of heavy metal stress in plants}, volume={257}, ISSN={["1432-2048"]}, DOI={10.1007/s00425-023-04146-8}, abstractNote={Melatonin has a protective effect against heavy metal stress in plants by immobilizing HM in cell walls and sequestering them in root cell vacuoles, reducing HM's translocation from roots to shoots. It enhances osmolyte production, increases antioxidant enzyme activity, and improves photosynthesis, thereby improving cellular functions. Understanding the melatonin-mediated response and signalling can sustain crop production in heavy metal-stressed soils. Melatonin is a pleiotropic signal molecule that plays a critical role in plant growth and stress tolerance, particularly against heavy metals in soil. Heavy metals (HMs) are ubiquitously found in the soil-water environment and readily taken up by plants, thereby disrupting mineral nutrient homeostasis, osmotic balance, oxidative stress, and altered primary and secondary metabolism. Plants combat HM stress through inbuilt defensive mechanisms, such as metal exclusion, restricted foliar translocation, metal sequestration and compartmentalization, chelation, and scavenging of free radicals by antioxidant enzymes. Melatonin has a protective effect against the damaging effects of HM stress in plants. It achieves this by immobilizing HM in cell walls and sequestering them in root cell vacuoles, reducing HM's translocation from roots to shoots. This mechanism improves the uptake of macronutrients and micronutrients in plants. Additionally, melatonin enhances osmolyte production, improving the plant's water relations, and increasing the activity of antioxidant enzymes to limit lipid peroxidation and reactive oxygen species (ROS) levels. Melatonin also decreases chlorophyll degradation while increasing its synthesis, and enhances RuBisCO activity for better photosynthesis. All these functions contribute to improving the cellular functions of plants exposed to HM stress. This review aims to gain better insight into the melatonin-mediated response and signalling under HM stress in plants, which may be useful in sustaining crop production in heavy metal-stressed soils.}, number={6}, journal={PLANTA}, author={Altaf, Muhammad Ahsan and Sharma, Nitin and Srivastava, Dipali and Mandal, Sayanti and Adavi, Sandeep and Jena, Rupak and Bairwa, Rakesh Kumar and Gopalakrishnan, Abilash Valsala and Kumar, Awadhesh and Dey, Abhijit and et al.}, year={2023}, month={Jun} }