Target of Rapamycin: function in abiotic stress tolerance in Arabidopsis and its involvement in a possible cross-talk with ribosomal proteins

Bakshi, Achala; Moin, Mazahar; Ms, Madhav; Mb, Gayatri; Abm, Reddy; Datla, Raju; Pb, Kirti

doi:10.1101/2020.01.15.907899

Cited by 3 publications

(2 citation statements)

References 75 publications

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“…Most abiotic stresses decrease overall cellular energy levels of plants, which leads to activation of SnRK1, which, in turn, negatively regulates TOR activity [ 217 ]. Ectopic expression of the Arabidopsis TOR gene in rice and TOR over-expression in Arabidopsis [ 218 , 219 ] demonstrated that TOR is required for tolerance of some abiotic stresses. TOR activity is reduced early after the imposition of cold stress [ 220 ].…”

Section: Tor Signaling In Photosynthetic Organismsmentioning

confidence: 99%

Target of Rapamycin in Control of Autophagy: Puppet Master and Signal Integrator

Mugume

Kazibwe

Bassham

2020

IJMS

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The target of rapamycin (TOR) is an evolutionarily-conserved serine/threonine kinase that senses and integrates signals from the environment to coordinate developmental and metabolic processes. TOR senses nutrients, hormones, metabolites, and stress signals to promote cell and organ growth when conditions are favorable. However, TOR is inhibited when conditions are unfavorable, promoting catabolic processes such as autophagy. Autophagy is a macromolecular degradation pathway by which cells degrade and recycle cytoplasmic materials. TOR negatively regulates autophagy through phosphorylation of ATG13, preventing activation of the autophagy-initiating ATG1-ATG13 kinase complex. Here we review TOR complex composition and function in photosynthetic and non-photosynthetic organisms. We also review recent developments in the identification of upstream TOR activators and downstream effectors of TOR. Finally, we discuss recent developments in our understanding of the regulation of autophagy by TOR in photosynthetic organisms.

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Section: Tor Signaling In Photosynthetic Organismsmentioning

confidence: 99%

Target of Rapamycin in Control of Autophagy: Puppet Master and Signal Integrator

Mugume

Kazibwe

Bassham

2020

IJMS

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“…Most abiotic stresses decrease overall cellular energy levels of plants, which leads to activation of SnRK1, which in turn negatively regulates TOR activity [215]. Ectopic expression of the Arabidopsis TOR gene in rice and TOR over-expression in Arabidopsis [216,217] demonstrated that TOR is required for tolerance of some abiotic stresses. TOR activity is reduced early after the imposition of cold stress [218].…”

Section: Biotic and Abiotic Stressmentioning

confidence: 99%

Analysis of the effect of autophagy on lipid content and the impact of vps45-3 point mutation on plant growth in Arabidopsis thaliana

Mugume

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Target of rapamycin (TOR) is an evolutionarily conserved serine/threonine kinase that senses and integrates signals from the environment to coordinate developmental and metabolic processes. TOR senses nutrients, hormones, metabolites, and stress signals to promote cell and organ growth when conditions are favorable. However, TOR is inhibited when conditions are unfavorable, promoting catabolic processes such as autophagy. Autophagy is a macromolecular degradation pathway by which cells degrade and recycle cytoplasmic materials. TOR negatively regulates autophagy through phosphorylation of ATG13, preventing activation of the autophagyinitiating ATG1-ATG13 kinase complex. Here we review TOR complex composition and function in photosynthetic and non-photosynthetic organisms. We also review recent developments in the identification of upstream TOR activators and downstream effectors of TOR. Finally, we discuss recent developments in our understanding of the regulation of autophagy by TOR in photosynthetic organisms.

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Engineering Ribosomes to Alleviate Abiotic Stress in Plants: A Perspective

Dias-Fields

Adamala

2022

Plants

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As the centerpiece of the biomass production process, ribosome activity is highly coordinated with environmental cues. Findings revealing ribosome subgroups responsive to adverse conditions suggest this tight coordination may be grounded in the induction of variant ribosome compositions and the differential translation outcomes they might produce. In this perspective, we go through the literature linking ribosome heterogeneity to plants’ abiotic stress response. Once unraveled, this crosstalk may serve as the foundation of novel strategies to custom cultivars tolerant to challenging environments without the yield penalty.

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Target of Rapamycin: function in abiotic stress tolerance in Arabidopsis and its involvement in a possible cross-talk with ribosomal proteins

Cited by 3 publications

References 75 publications

Target of Rapamycin in Control of Autophagy: Puppet Master and Signal Integrator

Target of Rapamycin in Control of Autophagy: Puppet Master and Signal Integrator

Analysis of the effect of autophagy on lipid content and the impact of vps45-3 point mutation on plant growth in Arabidopsis thaliana

Engineering Ribosomes to Alleviate Abiotic Stress in Plants: A Perspective

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