Litcius/Paper detail

Suppression of <i>DRR1</i> results in the accumulation of insoluble ubiquitinated proteins, which impairs drought stress tolerance

Seong Gwan Yu, Na Hyun Cho, Jong Hum Kim, Tae Rin Oh, Woo Taek Kim

2020Journal of Integrative Plant Biology11 citationsDOIOpen Access PDF

Abstract

Drought stress has detrimental effects on plants. Although the abscisic acid (ABA)-mediated drought response is well established, defensive mechanisms to cope with dehydration-induced proteotoxicity have been rarely studied. DRR1 was identified as an Arabidopsis drought-induced gene encoding an ER-localized RING-type E3 Ub ligase. Suppression of DRR1 markedly reduced tolerance to drought and proteotoxic stress without altering ABA-mediated germination and stomatal movement. Proteotoxicity- and dehydration-induced insoluble ubiquitinated protein accumulation was more obvious in DRR1 loss-of-function plants than in wild-type plants. These results suggest that DRR1 is involved in an ABA-independent drought stress response possibly through the mitigation of dehydration-induced proteotoxic stress.

Topics & Concepts

ProteotoxicityAbscisic acidUbiquitin ligaseFluridoneUbiquitinCell biologyArabidopsisBiologyDrought stressDehydrationSUMO proteinBotanyMutantGeneBiochemistryProtein aggregationPlant Stress Responses and TolerancePlant responses to water stressPlant nutrient uptake and metabolism
Suppression of <i>DRR1</i> results in the accumulation of insoluble ubiquitinated proteins, which impairs drought stress tolerance | Litcius