Screening Shoot Cultures of Malus for Cedar-Apple Rust Infection by In Vitro Inoculation

Joung, H.

doi:10.1094/pd-71-1119

Cited by 11 publications

(2 citation statements)

References 4 publications

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“…Other failures to select plants with increased resistance were reported for tobacco somaclones, screened for resistance to TMV or M. incognita (Daub & Jenns, 1989), for sugarcane somaclones, screened for resistance to rust and smut (Carlson & Schnell, cited in Daub & Jenns, 1989), and for apple somaclones, screened for resistance to the cedar-apple rust (Joung et al, 1987). We have screened progenies of tomato somaclones for resistance to bacterial canker (Clavibacter michiganensis subsp, michiganensis) and TMV.…”

Section: Selection Of Disease Resistant Variants At the Plant Levelmentioning

confidence: 99%

Application of cell and tissue culture and in vitro selection for disease resistance breeding — a review

Bulk

1991

Euphytica

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Section: Selection Of Disease Resistant Variants At the Plant Levelmentioning

confidence: 99%

Application of cell and tissue culture and in vitro selection for disease resistance breeding — a review

Bulk

1991

Euphytica

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“…Gymnosporangium juniperi-virginianae (inoculation) Shoots from resistant variety were not affected by the fungus; differences in resistance between cotyledonary or embryo axis shoots were observed Joung et al (1987) Asparagus (…”

Section: Shoot Culturementioning

confidence: 99%

In Vitro Selection for Improved Plant Resistance to Toxin‐Producing Pathogens

Švábová¹,

Lebeda²

2005

Journal of Phytopathology

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Simultaneously with the progress in plant biotechnology since the 1980s, new methods in plant pathology have been developed. This review summarizes papers that cover basic research on the effects of selective agents on in vitro cultures of host plants, as well as applications of agents in regeneration systems that result in lines with increased variability in resistance or susceptibility. The first part of the study deals with theoretical aspects of the interactions between plants and toxin-producing pathogens, mode of phytotoxic action, and host-and non-host-selective toxins. The second part lists and describes various agents used for selections in vitro. In the last two decades more than 100 publications focused on these selections for the improvement of resistance to plant pathogens. Over 30 plant species were examined to utilise various selection agents extracted from about 40 plant pathogens. The review covers basic research studies and methods that elucidate the relationships between in vitro and in vivo mechanisms of resistance, but also try to develop practical applications to obtain resistant breeding lines. Such methods often utilise some type of explant cultures of the host plants that are treated with various selective agents (culture filtrates, toxins, elicitors), which then elicit typical reactions that parallel those by the pathogens. Their application successfully resulted in resistant lines in banana, carnation, grapevine, strawberry and wheat. Nowadays, these techniques are an important complement to classical breeding methods.

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Applications of Tissue Culture for Studying Tree Defense Mechanisms

Ostry¹,

Skilling²

1992

Defense Mechanisms of Woody Plants Against Fungi

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Screening Shoot Cultures of Malus for Cedar-Apple Rust Infection by In Vitro Inoculation

Cited by 11 publications

References 4 publications

Application of cell and tissue culture and in vitro selection for disease resistance breeding — a review

Application of cell and tissue culture and in vitro selection for disease resistance breeding — a review

In Vitro Selection for Improved Plant Resistance to Toxin‐Producing Pathogens

Applications of Tissue Culture for Studying Tree Defense Mechanisms

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