Shaping resilience: The critical role of plant response regulators in salinity stress

Salinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the deleterious effect of salinity stress. Cytokinins are known for their regulatory roles from cell growth and expansion to abiotic stress signaling. Two...

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Published inBiochimica et biophysica acta. General subjects Vol. 1869; no. 2; p. 130749
Main Authors Joshi, Priyanka S., Singla Pareek, Sneh L., Pareek, Ashwani
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.02.2025
Subjects
Cytokinin
Cytokinins - metabolism
Gene Expression Regulation, Plant
Plant Development
Plant Growth Regulators - metabolism
Plant Proteins - genetics
Plant Proteins - metabolism
Plants - metabolism
Response regulators
Salinity
Salinity stress
Salt Stress - physiology
Signal Transduction
Signaling
Stress, Physiological
Two component system
RR
HK
TCS
Salinity stress
Response regulators
Cytokinin
HPT
RR-C
Signaling
PRR
RR-A
TF
RR-B
Two component system
PHP
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Abstract Salinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the deleterious effect of salinity stress. Cytokinins are known for their regulatory roles from cell growth and expansion to abiotic stress signaling. Two component system (TCS) are important multistep phosphorelay signal transduction machinery converging cytokinin, ethylene and light signal transduction pathways together. Plant TCS comprises of histidine kinases, phosho-transfer proteins and response regulators. Histidine kinases perceive the signal and relay it to response regulator via histidine containing phosphor-transfer proteins. Response regulators are one of the major and diverse component of TCS system which have been extensively studied for their role in plant growth, development and circadian rhythm. However, knowledge of their regulatory role in abiotic stress signaling is limited. This mini-review specifically focus on role of response regulators in salinity stress signaling. Response regulators is the divergent node of TCS machinery, where cross-talks with other stress-mediated, phytohormone-mediated, as well as, light-mediated signaling pathways ensues. Studies from past few years have established central role of response regulators in salinity stress, however, the detailed mechanism of their actions need to be studied further. Response regulators act as both negative as well as positive regulator of salinity and cytokinin signaling, making it an excellent target to increase crop yield as well as stress tolerance capabilities. •Cytokinin plays a key role in plant growth, development and abiotic stress signaling.•Response regulators are one of the three component of Two Component System involved in cytokinin signaling.•Response regulators are comprehensively studied for their role in plant growth, development and circadian rhythm.•However, studies focusing on their role in abiotic stress signaling have been gaining momentum in the past decade.•This review mainly focuses on their role in salinity stress signaling.
AbstractList Salinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the deleterious effect of salinity stress. Cytokinins are known for their regulatory roles from cell growth and expansion to abiotic stress signaling. Two component system (TCS) are important multistep phosphorelay signal transduction machinery converging cytokinin, ethylene and light signal transduction pathways together. Plant TCS comprises of histidine kinases, phosho-transfer proteins and response regulators. Histidine kinases perceive the signal and relay it to response regulator via histidine containing phosphor-transfer proteins. Response regulators are one of the major and diverse component of TCS system which have been extensively studied for their role in plant growth, development and circadian rhythm. However, knowledge of their regulatory role in abiotic stress signaling is limited. This mini-review specifically focus on role of response regulators in salinity stress signaling. Response regulators is the divergent node of TCS machinery, where cross-talks with other stress-mediated, phytohormone-mediated, as well as, light-mediated signaling pathways ensues. Studies from past few years have established central role of response regulators in salinity stress, however, the detailed mechanism of their actions need to be studied further. Response regulators act as both negative as well as positive regulator of salinity and cytokinin signaling, making it an excellent target to increase crop yield as well as stress tolerance capabilities. •Cytokinin plays a key role in plant growth, development and abiotic stress signaling.•Response regulators are one of the three component of Two Component System involved in cytokinin signaling.•Response regulators are comprehensively studied for their role in plant growth, development and circadian rhythm.•However, studies focusing on their role in abiotic stress signaling have been gaining momentum in the past decade.•This review mainly focuses on their role in salinity stress signaling.
Salinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the deleterious effect of salinity stress. Cytokinins are known for their regulatory roles from cell growth and expansion to abiotic stress signaling. Two component system (TCS) are important multistep phosphorelay signal transduction machinery converging cytokinin, ethylene and light signal transduction pathways together. Plant TCS comprises of histidine kinases, phosho-transfer proteins and response regulators. Histidine kinases perceive the signal and relay it to response regulator via histidine containing phosphor-transfer proteins.BACKGROUNDSalinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the deleterious effect of salinity stress. Cytokinins are known for their regulatory roles from cell growth and expansion to abiotic stress signaling. Two component system (TCS) are important multistep phosphorelay signal transduction machinery converging cytokinin, ethylene and light signal transduction pathways together. Plant TCS comprises of histidine kinases, phosho-transfer proteins and response regulators. Histidine kinases perceive the signal and relay it to response regulator via histidine containing phosphor-transfer proteins.Response regulators are one of the major and diverse component of TCS system which have been extensively studied for their role in plant growth, development and circadian rhythm. However, knowledge of their regulatory role in abiotic stress signaling is limited. This mini-review specifically focus on role of response regulators in salinity stress signaling.SCOPE OF REVIEWResponse regulators are one of the major and diverse component of TCS system which have been extensively studied for their role in plant growth, development and circadian rhythm. However, knowledge of their regulatory role in abiotic stress signaling is limited. This mini-review specifically focus on role of response regulators in salinity stress signaling.Response regulators is the divergent node of TCS machinery, where cross-talks with other stress-mediated, phytohormone-mediated, as well as, light-mediated signaling pathways ensues. Studies from past few years have established central role of response regulators in salinity stress, however, the detailed mechanism of their actions need to be studied further.MAJOR CONCLUSIONResponse regulators is the divergent node of TCS machinery, where cross-talks with other stress-mediated, phytohormone-mediated, as well as, light-mediated signaling pathways ensues. Studies from past few years have established central role of response regulators in salinity stress, however, the detailed mechanism of their actions need to be studied further.Response regulators act as both negative as well as positive regulator of salinity and cytokinin signaling, making it an excellent target to increase crop yield as well as stress tolerance capabilities.GENERAL SIGNIFICANCEResponse regulators act as both negative as well as positive regulator of salinity and cytokinin signaling, making it an excellent target to increase crop yield as well as stress tolerance capabilities.
Salinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the deleterious effect of salinity stress. Cytokinins are known for their regulatory roles from cell growth and expansion to abiotic stress signaling. Two component system (TCS) are important multistep phosphorelay signal transduction machinery converging cytokinin, ethylene and light signal transduction pathways together. Plant TCS comprises of histidine kinases, phosho-transfer proteins and response regulators. Histidine kinases perceive the signal and relay it to response regulator via histidine containing phosphor-transfer proteins. Response regulators are one of the major and diverse component of TCS system which have been extensively studied for their role in plant growth, development and circadian rhythm. However, knowledge of their regulatory role in abiotic stress signaling is limited. This mini-review specifically focus on role of response regulators in salinity stress signaling. Response regulators is the divergent node of TCS machinery, where cross-talks with other stress-mediated, phytohormone-mediated, as well as, light-mediated signaling pathways ensues. Studies from past few years have established central role of response regulators in salinity stress, however, the detailed mechanism of their actions need to be studied further. Response regulators act as both negative as well as positive regulator of salinity and cytokinin signaling, making it an excellent target to increase crop yield as well as stress tolerance capabilities.
ArticleNumber 130749
Author Joshi, Priyanka S.
Singla Pareek, Sneh L.
Pareek, Ashwani
Author_xml – sequence: 1
  givenname: Priyanka S.
  surname: Joshi
  fullname: Joshi, Priyanka S.
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  givenname: Sneh L.
  surname: Singla Pareek
  fullname: Singla Pareek, Sneh L.
  organization: Plant Stress Biology, International Centre for Genetic Engineering and Biotechnology, New Delhi 110067, India
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  surname: Pareek
  fullname: Pareek, Ashwani
  email: ashwanip@mail.jnu.ac.in
  organization: National Agri-Food and Biomanufacturing Institute, Mohali, Punjab 140306, India
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Keywords RR
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TCS
Salinity stress
Response regulators
Cytokinin
HPT
RR-C
Signaling
PRR
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TF
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Two component system
PHP
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Snippet Salinity stress affects plant growth, development, biomass, yield, as well as their survival. A series of signaling cascade is activated to cope the...
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SubjectTerms Cytokinin
Cytokinins - metabolism
Gene Expression Regulation, Plant
Plant Development
Plant Growth Regulators - metabolism
Plant Proteins - genetics
Plant Proteins - metabolism
Plants - metabolism
Response regulators
Salinity
Salinity stress
Salt Stress - physiology
Signal Transduction
Signaling
Stress, Physiological
Two component system
Title Shaping resilience: The critical role of plant response regulators in salinity stress
URI https://dx.doi.org/10.1016/j.bbagen.2024.130749
https://www.ncbi.nlm.nih.gov/pubmed/39719184
https://www.proquest.com/docview/3149070527
Volume 1869
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