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1.
Plant Physiol ; 182(4): 1920-1932, 2020 04.
Artículo en Inglés | MEDLINE | ID: mdl-31992602

RESUMEN

Phytochelatin synthase (PCS) is a key component of heavy metal detoxification in plants. PCS catalyzes both the synthesis of the peptide phytochelatin from glutathione and the degradation of glutathione conjugates via peptidase activity. Here, we describe a role for PCS in disease resistance against plant pathogenic fungi. The pen4 mutant, which is allelic to cadmium insensitive1 (cad1/pcs1) mutants, was recovered from a screen for Arabidopsis mutants with reduced resistance to the nonadapted barley fungal pathogen Blumeria graminis f. sp. hordei PCS1, which is found in the cytoplasm of cells of healthy plants, translocates upon pathogen attack and colocalizes with the PEN2 myrosinase on the surface of immobilized mitochondria. pcs1 and pen2 mutant plants exhibit similar metabolic defects in the accumulation of pathogen-inducible indole glucosinolate-derived compounds, suggesting that PEN2 and PCS1 act in the same metabolic pathway. The function of PCS1 in this pathway is independent of phytochelatin synthesis and deglycination of glutathione conjugates, as catalytic-site mutants of PCS1 are still functional in indole glucosinolate metabolism. In uncovering a peptidase-independent function for PCS1, we reveal this enzyme to be a moonlighting protein important for plant responses to both biotic and abiotic stresses.


Asunto(s)
Ascomicetos/metabolismo , Mitocondrias/metabolismo , Fitoquelatinas/metabolismo , Plantas Modificadas Genéticamente/metabolismo , Arabidopsis/genética , Arabidopsis/metabolismo , Proteínas de Arabidopsis/genética , Proteínas de Arabidopsis/metabolismo , Catálisis , Regulación de la Expresión Génica de las Plantas/genética , Regulación de la Expresión Génica de las Plantas/fisiología
2.
Plant Cell ; 28(1): 130-45, 2016 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-26721862

RESUMEN

The atypical myrosinase PENETRATION2 (PEN2) is required for broad-spectrum invasion resistance to filamentous plant pathogens. Previous localization studies suggested PEN2-GFP association with peroxisomes. Here, we show that PEN2 is a tail-anchored protein with dual-membrane targeting to peroxisomes and mitochondria and that PEN2 has the capacity to form homo-oligomer complexes. We demonstrate pathogen-induced recruitment and immobilization of mitochondrial subpopulations at sites of attempted fungal invasion and show that mitochondrial arrest is accompanied by peripheral accumulation of GFP-tagged PEN2. PEN2 substrate production by the cytochrome P450 monooxygenase CYP81F2 is localized to the surface of the endoplasmic reticulum, which focally reorganizes close to the immobilized mitochondria. Exclusive targeting of PEN2 to the outer membrane of mitochondria complements the pen2 mutant phenotype, corroborating the functional importance of the mitochondrial PEN2 protein subpool for controlled local production of PEN2 hydrolysis products at subcellular plant-microbe interaction domains. Moreover, live-cell imaging shows that mitochondria arrested at these domains exhibit a pathogen-induced redox imbalance, which may lead to the production of intracellular signals.


Asunto(s)
Proteínas de Arabidopsis/metabolismo , Arabidopsis/metabolismo , Arabidopsis/microbiología , Ascomicetos/patogenicidad , Interacciones Huésped-Patógeno , Mitocondrias/metabolismo , N-Glicosil Hidrolasas/metabolismo , Epidermis de la Planta/metabolismo , Hojas de la Planta/metabolismo , Secuencia de Aminoácidos , Proteínas de Arabidopsis/química , Resistencia a la Enfermedad , Retículo Endoplásmico/metabolismo , Proteínas Fluorescentes Verdes/metabolismo , Membranas Mitocondriales/metabolismo , Datos de Secuencia Molecular , N-Glicosil Hidrolasas/química , Oxidación-Reducción , Peroxisomas/metabolismo , Enfermedades de las Plantas/microbiología , Multimerización de Proteína , Fracciones Subcelulares/metabolismo , Especificidad por Sustrato
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