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Endoplasmic reticulum KDEL-tailed cysteine endopeptidase 1 of Arabidopsis (AtCEP1) is involved in pathogen defense

Endoplasmic reticulum KDEL-tailed cysteine endopeptidase 1 of Arabidopsis (AtCEP1) is involved in pathogen defense

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HÖWING, Timo, Christina HUESMANN, Caroline HOEFLE, Marie-Kristin NAGEL, Erika ISONO, Ralph HÜCKELHOVEN, Christine GIETL, 2014. Endoplasmic reticulum KDEL-tailed cysteine endopeptidase 1 of Arabidopsis (AtCEP1) is involved in pathogen defense. In: Frontiers in Plant Science. 5, 58. eISSN 1664-462X. Available under: doi: 10.3389/fpls.2014.00058

@article{Howing2014Endop-38159, title={Endoplasmic reticulum KDEL-tailed cysteine endopeptidase 1 of Arabidopsis (AtCEP1) is involved in pathogen defense}, year={2014}, doi={10.3389/fpls.2014.00058}, volume={5}, journal={Frontiers in Plant Science}, author={Höwing, Timo and Huesmann, Christina and Hoefle, Caroline and Nagel, Marie-Kristin and Isono, Erika and Hückelhoven, Ralph and Gietl, Christine}, note={Article Number: 58} }

Gietl, Christine 2017-03-27T14:53:59Z Höwing, Timo Isono, Erika Isono, Erika Hoefle, Caroline Hückelhoven, Ralph Endoplasmic reticulum KDEL-tailed cysteine endopeptidase 1 of Arabidopsis (AtCEP1) is involved in pathogen defense eng Programmed cell death (PCD) is a genetically determined process in all multicellular organisms. Plant PCD is effected by a unique group of papain-type cysteine endopeptidases (CysEP) with a C-terminal KDEL endoplasmic reticulum (ER) retention signal (KDEL CysEP). KDEL CysEPs can be stored as pro-enzymes in ER-derived endomembrane compartments and are released as mature CysEPs in the final stages of organelle disintegration. KDEL CysEPs accept a wide variety of amino acids at the active site, including the glycosylated hydroxyprolines of the extensins that form the basic scaffold of the cell wall. In Arabidopsis, three KDEL CysEPs (AtCEP1, AtCEP2, and AtCEP3) are expressed. Cell- and tissue-specific activities of these three genes suggest that KDEL CysEPs participate in the abscission of flower organs and in the collapse of tissues in the final stage of PCD as well as in developmental tissue remodeling. We observed that AtCEP1 is expressed in response to biotic stress stimuli in the leaf. atcep1 knockout mutants showed enhanced susceptibility to powdery mildew caused by the biotrophic ascomycete Erysiphe cruciferarum. A translational fusion protein of AtCEP1 with a three-fold hemaglutinin-tag and the green fluorescent protein under control of the endogenous AtCEP1 promoter (P<sub>CEP1</sub>::pre-pro-3xHA-EGFP-AtCEP1-KDEL) rescued the pathogenesis phenotype demonstrating the function of AtCEP1 in restriction of powdery mildew. The spatiotemporal AtCEP1-reporter expression during fungal infection together with microscopic inspection of the interaction phenotype suggested a function of AtCEP1 in controlling late stages of compatible interaction including late epidermal cell death. Additionally, expression of stress response genes appeared to be deregulated in the interaction of atcep1 mutants and E. cruciferarum. Possible functions of AtCEP1 in restricting parasitic success of the obligate biotrophic powdery mildew fungus are discussed. 2014 Gietl, Christine Huesmann, Christina 2017-03-27T14:53:59Z Nagel, Marie-Kristin Hückelhoven, Ralph Nagel, Marie-Kristin Höwing, Timo Hoefle, Caroline Huesmann, Christina

Dateiabrufe seit 27.03.2017 (Informationen über die Zugriffsstatistik)

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