Ranjit Singh Gujjar scite author profile

Plants respond to abiotic stresses by activating a specific genetic program that supports survival by developing robust adaptive mechanisms. This leads to accelerated senescence and reduced growth, resulting in negative agro-economic impacts on crop productivity. Cytokinins (CKs) customarily regulate various biological processes in plants, including growth and development. In recent years, cytokinins have been implicated in adaptations to osmotic stresses with improved plant growth and yield. Endogenous CK content under osmotic stresses can be enhanced either by transforming plants with a bacterial isopentenyl transferase (IPT) gene under the control of a stress inducible promoter or by exogenous application of synthetic CKs. CKs counteract osmotic stress-induced premature senescence by redistributing soluble sugars and inhibiting the expression of senescence-associated genes. Elevated CK contents under osmotic stress antagonize abscisic acid (ABA) signaling and ABA mediated responses, delay leaf senescence, reduce reactive oxygen species (ROS) damage and lipid peroxidation, improve plant growth, and ameliorate osmotic stress adaptability in plants.

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Proline-Rich Proteins May Regulate Free Cellular Proline Levels during Drought Stress in Tomato

Gujjar¹,

Karkute²,

Rai³

et al. 2018

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Ranjit Singh Gujjar

Genome wide expression analysis of WRKY genes in tomato (Solanum lycopersicum) under drought stress

Transcription factors in abiotic stress tolerance

The Mode of Cytokinin Functions Assisting Plant Adaptations to Osmotic Stresses

Proline-Rich Proteins May Regulate Free Cellular Proline Levels during Drought Stress in Tomato

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