Erik Carlson

Erik Carlson

Feb 12, 2025

Group 6 Copy 32
0
References
  • 1. Chen, C., Sun, Q., Narayanan, B., Nuss, D.L. & Herzberg, O. (2010) Structure of Oxalacetate Acetylhydrolase, a Virulence Factor of the Chestnut Blight Fungus. Journal of Biological Chemistry, 285, 26685–26696. https://doi.org/10.1074/jbc.M110.117804.
  • 2. McGuigan, L., Fernandes, P., Oakes, A., Stewart, K. & Powell, W. (2020) Transformation of American Chestnut (Castanea dentata (Marsh.) Borkh) Using RITA® Temporary Immersion Bioreactors and We Vitro Containers. Forests, 11, 1196. https://doi.org/10.3390/f11111196.
File Attachments

pKWO-sequence(1).pdf

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    About This Project

    Can RNAi be used to reduce the virulence of the pathogens of American chestnut?
    SUNY-ESF

    The American chestnut (Castanea dentata) was once an important member of the Appalachian ecosystem but was largely destroyed by two introduced plant pathogens. Through the use of techniques previously innovated by researchers at SUNY-ESF, a new form of biotechnology called RNA interference (RNAi) could potentially be pursued to confer resistance to these pathogens by silencing the genes they use to attack American chestnut.

    More Lab Notes From This Project

    A second RNAi construct for targeting chestnut blight fungus genes
    Feb 12, 2025
    Plasmid vector purchased for use in producing RNAi constructs
    Feb 12, 2025
    Catching up on RNAi in chestnut work
    Feb 12, 2025
    Blast off!

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    Can RNAi be used to reduce the virulence of the pathogens of American chestnut?

    A biology project funded by 19 people