Isabel A. Abreu scite author profile

Posttranslational modifications of proteins by small ubiquitin-like modifiers (SUMOs) regulate protein degradation and localization, protein-protein interaction, and transcriptional activity. SUMO E3 ligase functions are executed by SIZ1/SIZ2 and Mms21 in yeast, the PIAS family members RanBP2, and Pc2 in human. The Arabidopsis thaliana genome contains only one gene, SIZ1, that is orthologous to the yeast SIZ1/SIZ2. Here, we show that Arabidopsis SIZ1 is expressed in all plant tissues. Compared with the wild type, the null mutant siz1-3 is smaller in stature because of reduced expression of genes involved in brassinosteroid biosynthesis and signaling. Drought stress induces the accumulation of SUMO-protein conjugates, which is in part dependent on SIZ1 but not on abscisic acid (ABA). Mutant plants of siz1-3 have significantly lower tolerance to drought stress. A genome-wide expression analysis identified ;1700 Arabidopsis genes that are induced by drought, with SIZ1 mediating the expression of 300 of them by a pathway independent of DREB2A and ABA. SIZ1-dependent, drought-responsive genes include those encoding enzymes of the anthocyanin synthesis pathway and jasmonate response. From these results, we conclude that SIZ1 regulates Arabidopsis growth and that this SUMO E3 ligase plays a role in drought stress response likely through the regulation of gene expression.

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Recent Updates on Salinity Stress in Rice: From Physiological to Molecular Responses

Negrão

Courtois

Ahmadi

et al. 2011

Critical Reviews in Plant Sciences

180

167

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Kinetics of ultra-fast excited state proton transfer from 7-hydroxy-4-methylflavylium chloride to water

Lima

Abreu

Brouillard

et al. 1998

Chemical Physics Letters

119

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Isabel A. Abreu

Superoxide Dismutases and Superoxide Reductases

Superoxide dismutases—a review of the metal-associated mechanistic variations

The Arabidopsis E3 SUMO Ligase SIZ1 Regulates Plant Growth and Drought Responses

Recent Updates on Salinity Stress in Rice: From Physiological to Molecular Responses

Kinetics of ultra-fast excited state proton transfer from 7-hydroxy-4-methylflavylium chloride to water

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