B. J. Shortt scite author profile

Plant defense responses to pathogen infection involve the production of active oxygen species, including hydrogen peroxide (H2O2). We obtained transgenic potato plants expressing a fungal gene encoding glucose oxidase, which generates H2O2 when glucose is oxidized. H2O2 levels were elevated in both leaf and tuber tissues of these plants. Transgenic potato tubers exhibited strong resistance to a bacterial soft rot disease caused by Erwinia carotovora subsp carotovora, and disease resistance was sustained under both aerobic and anaerobic conditions of bacterial infection. This resistance to soft rot was apparently mediated by elevated levels of H2O2, because the resistance could be counteracted by exogenously added H2O2-degrading catalase. The transgenic plants with increased levels of H2O2 also exhibited enhanced resistance to potato late blight caused by Phytophthora infestans. The development of lesions resulting from infection by P. infestans was significantly delayed in leaves of these plants. Thus, the expression of an active oxygen species-generating enzyme in transgenic plants represents a novel approach for engineering broad-spectrum disease resistance in plants.

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Activation of Host Defense Mechanisms by Elevated Production of H2O2 in Transgenic Plants

Shortt

Lawrence

et al. 1997

239

120

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Active oxygen species have been postulated to perform multiple functions in plant defense, but their exact role in plant resistance to diseases is not fully understood. We have recently demonstrated H2O2-mediated disease resistance in transgenic potato (Solanum tuberosum) plants expressing a foreign gene encoding glucose oxidase. In this study we provide further evidence that the H2O2-mediated disease resistance in potato is effective against a broad range of plant pathogens. We have investigated mechanisms underlying the H2O2-mediated disease resistance in transgenic potato plants. The constitutively elevated levels of H2O2 induced the accumulation of total salicylic acid severalfold in the leaf tissue of transgenic plants, although no significant change was detected in the level of free salicylic acid. The mRNAs of two defense-related genes encoding the anionic peroxidase and acidic chitinase were also induced. In addition, an increased accumulation of several isoforms of extracellular peroxidase, including a newly induced one, was observed. This was accompanied by a significant increase in the lignin content of stem and root tissues of the transgenic plants. The results suggest that constitutively elevated sublethal levels of H2O2 are sufficient to activate an array of host defense mechanisms, and these defense mechanisms may be a major contributing factor to the H2O2-mediated disease resistance in transgenic plants.

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Coordinated regulation of AP2 uncoating from clathrin-coated vesicles by rab5 and hRME-6

et al. 2008

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Disease resistance conferred by expression of a gene encoding H2O2-generating glucose oxidase in transgenic potato plants.

et al. 1995

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Tioxazafen: A New Broad-Spectrum Seed Treatment Nematicide

Słomczyńska

South

Bunkers

et al. 2015

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B. J. Shortt

Disease Resistance Conferred by Expression of a Gene Encoding H 2 O 2 -Generating Glucose Oxidase in Transgenic Potato Plants

Activation of Host Defense Mechanisms by Elevated Production of H2O2 in Transgenic Plants

Coordinated regulation of AP2 uncoating from clathrin-coated vesicles by rab5 and hRME-6

Disease resistance conferred by expression of a gene encoding H2O2-generating glucose oxidase in transgenic potato plants.

Tioxazafen: A New Broad-Spectrum Seed Treatment Nematicide

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