Melatonin: The Multifaceted Molecule in Plant Growth and Defense.
Murtaza KhanAdil HussainByung-Wook YunBong-Gyu MunPublished in: International journal of molecular sciences (2024)
Melatonin (MEL), a hormone primarily known for its role in regulating sleep and circadian rhythms in animals, has emerged as a multifaceted molecule in plants. Recent research has shed light on its diverse functions in plant growth and defense mechanisms. This review explores the intricate roles of MEL in plant growth and defense responses. MEL is involved in plant growth owing to its influence on hormone regulation. MEL promotes root elongation and lateral root formation and enhances photosynthesis, thereby promoting overall plant growth and productivity. Additionally, MEL is implicated in regulating the circadian rhythm of plants, affecting key physiological processes that influence plant growth patterns. MEL also exhibits antioxidant properties and scavenges reactive oxygen species, thereby mitigating oxidative stress. Furthermore, it activates defense pathways against various biotic stressors. MEL also enhances the production of secondary metabolites that contribute to plant resistance against environmental changes. MEL's ability to modulate plant response to abiotic stresses has also been extensively studied. It regulates stomatal closure, conserves water, and enhances stress tolerance by activating stress-responsive genes and modulating signaling pathways. Moreover, MEL and nitric oxide cooperate in stress responses, antioxidant defense, and plant growth. Understanding the mechanisms underlying MEL's actions in plants will provide new insights into the development of innovative strategies for enhancing crop productivity, improving stress tolerance, and combating plant diseases. Further research in this area will deepen our knowledge of MEL's intricate functions and its potential applications in sustainable agriculture.
Keyphrases
- plant growth
- oxidative stress
- climate change
- nitric oxide
- signaling pathway
- reactive oxygen species
- healthcare
- dna damage
- gene expression
- risk assessment
- stress induced
- hydrogen peroxide
- genome wide
- drug delivery
- multidrug resistant
- innate immune
- cell proliferation
- induced apoptosis
- human health
- heat shock
- bioinformatics analysis