Sumaira Tayyeba scite author profile

Plants confront multifarious environmental stresses widely divided into abiotic and biotic stresses, of which heavy metal stress represents one of the most damaging abiotic stresses. Heavy metals cause toxicity by targeting crucial molecules and vital processes in the plant cell. One of the approaches by which heavy metals act in plants is by over production of reactive oxygen species (ROS) either directly or indirectly. Plants act against such overdose of metal in the environment by boosting the defense responses like metal chelation, sequestration into vacuole, regulation of metal intake by transporters, and intensification of antioxidative mechanisms. This response shown by plants is the result of intricate signaling networks functioning in the cell in order to transmit the extracellular stimuli into an intracellular response. The crucial signaling components involved are calcium signaling, hormone signaling, and mitogen activated protein kinase (MAPK) signaling that are discussed in this review. Apart from signaling components other regulators like microRNAs and transcription factors also have a major contribution in regulating heavy metal stress. This review demonstrates the key role of MAPKs in synchronously controlling the other signaling components and regulators in metal stress. Further, attempts have been made to focus on metal transporters and chelators that are regulated by MAPK signaling.

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MAP Kinase as Regulators for Stress Responses in Plants

Sharma

Verma

Pandey

et al. 2020

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Finding a breather for Oryza sativa: Understanding hormone signalling pathways involved in rice plants to submergence stress

Mittal

Tayyeba

Sinha

2021

Plant Cell & Environment

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During the course of evolution, different ecotypes of rice (Oryza sativa L.) have evolved distinct strategies to cope with submergence stress. Such contrasting responses are mediated by plant hormones that are principle regulators of growth, development and responses to various biotic and abiotic stresses. These hormones act cooperatively and show extensive crosstalk which is mediated by key regulatory genes that serve as nodes of molecular communication. The presence or absence of such genes leads to significant changes in hormone signalling pathways and hence, governs the type of response that the plant will exhibit. As flooding is one of the leading causes of crop loss across all the major rice‐producing countries, it is crucial to deeply understand the molecular nexus governing the response to submergence to produce flood resilient varieties. This review focuses on the hormonal signalling pathways that mediate two contrasting responses of the rice plant to submergence stress namely, rapid internode elongation to escape flood waters and quiescence response that enables the plant to survive under complete submergence. The significance of several key genes such as Sub1A‐1, SLR1, SD1 and SK1/SK2, in defining the ultimate response to submergence has also been discussed.

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Development of efficient protocol for rice transformation overexpressing MAP kinase and their effect on root phenotypic traits

et al. 2019

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Sumaira Tayyeba

Traversing the Links between Heavy Metal Stress and Plant Signaling

MAP Kinase as Regulators for Stress Responses in Plants

Finding a breather for Oryza sativa: Understanding hormone signalling pathways involved in rice plants to submergence stress

Development of efficient protocol for rice transformation overexpressing MAP kinase and their effect on root phenotypic traits

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