Mitogen-Activated Protein Kinase: A Potent Signaling Protein that Combats Biotic and Abiotic Stress in Plants

Serine kinases, also identified as mitogen-activated protein kinases (MAPKs), are involved in the transmission of cellular signals that carry out different cellular processes, i.e., mitosis, gene expression, cell proliferation, survival, and death. Moreover, it also leads to various other physiologi...

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Bibliographic Details
Published in:Journal of plant growth regulation 2024-06, Vol.43 (6), p.1762-1786
Main Authors: Khan, Ayesha, Shah, Syed Tanveer, Basit, Abdul, Mohamed, Heba I., Li, Yunzhou
Format: Article
Language:English
Subjects:
Abscission
Agriculture
Apoptosis
Biomedical and Life Sciences
BMK1 protein
c-Jun protein
Cell death
Cell proliferation
Cell survival
Embryogenesis
Embryonic growth stage
Environmental effects
Extracellular signal-regulated kinase
Gene expression
Hormones
Immune system
Insects
JNK protein
Kinases
Life Sciences
MAP kinase
Mitosis
Physiology
Plant Anatomy/Development
Plant Physiology
Plant protection
Plant Sciences
Plant species
Proteins
Root development
Stomata
Stress response
Transcription factors
Ultraviolet radiation
Zygotes
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Summary:Serine kinases, also identified as mitogen-activated protein kinases (MAPKs), are involved in the transmission of cellular signals that carry out different cellular processes, i.e., mitosis, gene expression, cell proliferation, survival, and death. Moreover, it also leads to various other physiological processes in plants including metabolism, differentiation, stress response, and apoptosis. The MAPK family of proteins is responsible for initiating four distinct pathways through their components: ERK1/2 (extracellular signal-regulated kinase), c-Jun N-terminal kinases, p38 MAPK, and the stress activated protein kinases including ERK5 as a member of this family. Arabidopsis is generally used as a standard plant for determining the nomenclature of plant MAPK, and MAPK kinases. MAPK cascades contain certain protein kinase tiers which are activated by phosphorylating each other upon exposure to extracellular stimuli including, ERK1/2, ERK5/BMK1, p38, and JNK/SAPK signals. MAPK cascades also regulate multiple physiological functions by triggering immune system responses in multiple activities of various species of plants including, anther development, embryogenesis, zygote elongation, organ abscission, stomata pattering, and root development. MAPK has been reported in plant physiology regulation in responses to various biotic and abiotic stresses like cold, salt, metal, mechanical stress, ozone, extreme temperature, UV radiation, and insect, and pathogen infections. This process is mediated by hormones and phytochemicals including, ethylene and jasmonic acids which help to protect the plant from these environmental effects. Numerous studies on MAPK cascades have been performed in the past few decades and several MAPK cascades in plants have been identified, but certain details of MAPK regulation by upstream signaling components remain unknown. In the near future, MAPK cascades activated by external signals and unidentified MAPKs will be important research topics for most researchers.
ISSN:0721-7595
1435-8107
DOI:10.1007/s00344-024-11239-5