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Mol. Cells 2006; 21(3): 389-394
Published online January 1, 1970
© The Korean Society for Molecular and Cellular Biology
An Arabidopsis Homologue of Human Seven-in-Absentia-interacting Protein Is Involved in Pathogen Resistance
Human seven-in-absentia (SIAH)-interacting protein (SIP) is a component of the E3 ligase complex targeting beta-catenin for destruction. Arabidopsis has one SIP protein (AtSIP) with 32% amino acid sequence identity to SIP. To investigate the functions of AtSIP, we isolated an atsip knockout mutant, and generated transgenic plants overexpressing AtSIP. The growth rates and morphologies of the atsip and transgenic plants were indistinguishable from those of wild type. However, atsip plants were more susceptible to Pseudomonas syringae infection, and the transgenic plants overexpressing AtSIP were more resistant. Consistent with this, RNA blot analysis showed that the AtSIP gene is strongly induced by wounding and hydrogen peroxide treatment. In addition, when plants were infected with P. syringae, AtSIP was transiently induced prior to PR-1 induction. These observations show that Arabidopsis AtSIP plays a role in resistance to pathogenic infection.
Keywords Arabidopsis thaliana; Biotic Stress; Disease Resistance; Hydrogen Peroxide; SIAH Interacting Protein; Wounding
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Research Article
Mol. Cells 2006; 21(3): 389-394
Published online June 30, 2006
Copyright © The Korean Society for Molecular and Cellular Biology.
An Arabidopsis Homologue of Human Seven-in-Absentia-interacting Protein Is Involved in Pathogen Resistance
Youn-Sung Kim, Byung-Kook Ham, Kyung-Hee Paek, Chung-Mo Park, Nam-Hai Chua
Abstract
Human seven-in-absentia (SIAH)-interacting protein (SIP) is a component of the E3 ligase complex targeting beta-catenin for destruction. Arabidopsis has one SIP protein (AtSIP) with 32% amino acid sequence identity to SIP. To investigate the functions of AtSIP, we isolated an atsip knockout mutant, and generated transgenic plants overexpressing AtSIP. The growth rates and morphologies of the atsip and transgenic plants were indistinguishable from those of wild type. However, atsip plants were more susceptible to Pseudomonas syringae infection, and the transgenic plants overexpressing AtSIP were more resistant. Consistent with this, RNA blot analysis showed that the AtSIP gene is strongly induced by wounding and hydrogen peroxide treatment. In addition, when plants were infected with P. syringae, AtSIP was transiently induced prior to PR-1 induction. These observations show that Arabidopsis AtSIP plays a role in resistance to pathogenic infection.
Keywords: Arabidopsis thaliana, Biotic Stress, Disease Resistance, Hydrogen Peroxide, SIAH Interacting Protein, Wounding
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