The FarmWell study: Examining relationships between farm environment, financial status and the mental health and wellbeing of farmers

It is often claimed that programmed cell death (pcd) exists in plants and that a form of pcd known as the hypersensitive response is triggered as a defense mechanism by microbial pathogens. However, in contrast to animals, no feature in plants universally identifies or defines pcd. We have looked for a hallmark of pcd in animal cells, namely, DNA cleavage, in plant cells killed by infection with incompatible fungi or by abiotic means. We found that cell death triggered in intact leaves of two resistant cowpea cultivars by the cowpea rust fungus is accompanied by the cleavage of nuclear DNA into oligonucleosomal fragments (DNA laddering). Terminal deoxynucleotidyl transferase-mediated dUTP nick end in situ labeling of leaf sections showed that fungus-induced DNA cleavage occurred only in haustorium-containing cells and was detectable early in the degeneration process. Such cytologically detectable DNA cleavage was also observed in vascular tissue of infected and uninfected plants, but no DNA laddering was detected in the latter. DNA laddering was triggered by [greater than or equal to]100 mM KCN, regardless of cowpea cultivar, but not by physical cell disruption or by concentrations of H2O2, NaN3, CuSO4, or ZnCl2 that killed cowpea cells at a rate similar to that of ladder-inducing KCN concentrations. These and other results suggest that the hypersensitive response to microbial pathogens may involve a pcd with some of the characteristics of animal apoptosis and that DNA cleavage is a potential indicator of pcd in plants.

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Cleavage of Nuclear DNA into Oligonucleosomal Fragments during Cell Death Induced by Fungal Infection or by Abiotic Treatments.

Ryerson

1996

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It is often claimed that programmed cell death (pcd) exists in plants and that a form of pcd known as the hypersensitive response is triggered as a defense mechanism by microbial pathogens. However, in contrast to animals, no feature in plants universally identifies or defines pcd. We have looked for a hallmark of pcd in animal cells, namely, DNA cleavage, in plant cells killed by infection with incompatible fungi or by abiotic means. We found that cell death triggered in intact leaves of two resistant cowpea cultivars by the cowpea rust fungus is accompanied by the cleavage of nuclear DNA into oligonucleosomal fragments (DNA laddering). Terminal deoxynucleotidyl transferase-mediated dUTP nick end in situ labeling of leaf sections showed that fungus-induced DNA cleavage occurred only in haustorium-containing cells and was detectable early in the degeneration process. Such cytologically detectable DNA cleavage was also observed in vascular tissue of infected and uninfected plants, but no DNA laddering was detected in the latter. DNA laddering was triggered by 2100 mM KCN, regardless of cowpea cultivar, but not by physical cell disruption or by concentrations of H202, NaN3, CuS04, or ZnClz that killed cowpea cells at a rate similar to that of ladder-inducing KCN concentrations. These and other results suggest that the hypersensitive response to microbial pathogens may involve a pcd with some of the characteristics of animal apoptosis and that DNA cleavage is a potential indicator of pcd in plants.

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Effect of Nitrogen and Irrigation on Yield and Botanical Composition1 of Western Montana Range¹

Klages¹,

Ryerson

1965

Agronomy Journal

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Fungal elicitation of wall modifications in leaves of Phaseolus vulgaris L.cv. Pinto II. Effects of fungal wall components

Ryerson¹,

Heath²

1992

Physiological and Molecular Plant Pathology

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Inheritance of resistance to the cowpea rust fungus in cowpea cultivar Calico Crowder

Ryerson

Heath

1996

Canadian Journal of Plant Pathology

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Douglas E. Ryerson

Cleavage of Nuclear DNA into Oligonucleosomal Fragments during Cell Death Induced by Fungal Infection or by Abiotic Treatments

Cleavage of Nuclear DNA into Oligonucleosomal Fragments during Cell Death Induced by Fungal Infection or by Abiotic Treatments.

Effect of Nitrogen and Irrigation on Yield and Botanical Composition1 of Western Montana Range¹

Fungal elicitation of wall modifications in leaves of Phaseolus vulgaris L.cv. Pinto II. Effects of fungal wall components

Inheritance of resistance to the cowpea rust fungus in cowpea cultivar Calico Crowder

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Douglas E. Ryerson

Cleavage of Nuclear DNA into Oligonucleosomal Fragments during Cell Death Induced by Fungal Infection or by Abiotic Treatments

Cleavage of Nuclear DNA into Oligonucleosomal Fragments during Cell Death Induced by Fungal Infection or by Abiotic Treatments.

Effect of Nitrogen and Irrigation on Yield and Botanical Composition1 of Western Montana Range1

Fungal elicitation of wall modifications in leaves of Phaseolus vulgaris L.cv. Pinto II. Effects of fungal wall components

Inheritance of resistance to the cowpea rust fungus in cowpea cultivar Calico Crowder

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Product

Resources

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Effect of Nitrogen and Irrigation on Yield and Botanical Composition1 of Western Montana Range¹