Insight into calcium signalling in salt stress response
Javin Bachani, Ankush Mahanty, Tariq Aftab, Kundan Kumar
Abstract
Owing to the sessile nature of plants, they are at the mercy of environmental conditions and are often subject to severe abiotic stresses. Amongst these abiotic stresses, high salinity stress is one of the most common and severe stresses affecting one-third of irrigated agricultural lands worldwide. Calcium ion is well known for its essential role as a mediator of signals and in regulating and specifying the cellular responses to abiotic stresses. To adapt to salt stress, one of the main strategies developed by plants is calcium signalling responses. The excess extracellular salt is detected by specific root receptors and resulted in immediate rise of cytosolic free Ca2+. Exhaustive research has been conducted to identify the genetic identities of Ca2+channels and signalling factors, developing novel findings on such tolerance mechanisms in plants. However, the complex interconnected system of the salinity stress response by Ca2+signalling in plants has not been adequately justified. Plants employ a combination of Ca2+ integrated proteins, phytohormones, osmolytes, receptors and other signalling factors in response to salinity stress, making this a complex calcium response network. In this review, we summarise and discuss the role of calcium signalling in response to salinity stress. In contrast to other studies, we try to provide a holistic overview of both chemical and mechanical processes involved in salt stress response while expanding on gaps filled by recent research. Furthermore, based on existing knowledge, we evaluate the different types of mechanisms and pathways through which calcium signalling works.