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Jackson, Brian P.
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Academic Affiliation
Botany and Plant Pathology
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- Creator:
- Floudas, Dimitrios, Yadav, Jagjit S., Aerts, Andrea, Benoit, Isabelle, Boyd, Alex, Carlson, Alexis, Copeland, Alex, Coutinho, Pedro M., de Vries, Ronald P., Ferreira, Patricia, Findley, Keisha, Binder, Manfred, Foster, Brian, Gaskell, Jill, Glotzer, Dylan, Gorecki, Pawel, Heitman, Joseph, Hesse, Cedar, Hori, Chiaki, Igarashi, Kiyohiko, Jurgens, Joel A., Kallen, Nathan, Riley, Robert, Kersten, Phil, Kohler, Annegret, Kues, Ursula, Kumar, T. K. Arun, Kuo, Alan, LaButti, Kurt, Larrondo, Luis F., Lindquist, Erika, Ling, Albee, Lombard, Vincent, Barry, Kerrie, Lucas, Susan, Lundell, Taina, Martin, Rachael, McLaughlin, David J., Morgenstern, Ingo, Morin, Emanuelle, Murat, Claude, Nagy, Laszlo G., Nolan, Matt, Ohm, Robin A., Blanchette, Robert A., Patyshakuliyeva, Aleksandrina, Rokas, Antonis, Ruiz-Duenas, Francisco J., Sabat, Grzegorz, Salamov, Asaf, Samejima, Masahiro, Schmutz, Jeremy, Slot, Jason C., St. John, Franz, Stenlid, Jan, Henrissat, Bernard, Sun, Hui, Sun, Sheng, Syed, Khajamohiddin, Tsang, Adrian, Wiebenga, Ad, Young, Darcy, Pisabarro, Antonio, Eastwood, Daniel C., Martin, Francis, Cullen, Dan, Martínez, Angel T., Grigoriev, Igor V., Hibbett, David S., Otillar, Robert, and Spatafora, Joseph W.
- Abstract:
- Wood is a major pool of organic carbon that is highly resistant to decay, owing largely to the presence of lignin. The only organisms capable of substantial lignin decay are white rot fungi in the Agaricomycetes, which also contains non–lignin-degrading brown rot and ectomycorrhizal species. Comparative analyses of 31 fungal...
- Resource Type:
- Article
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- Creator:
- Deans, Andrew R., Lewis, Suzanna E., Huala, Eva, Anzaldo, Salvatore S., Ashburner, Michael, Balhoff, James P., Blackburn, David C., Blake, Judith A., Burleigh, J. Gordon, Chanet, Bruno, Cooper, Lauren D., Courtot, Mélanie, Csösz, Sándor, Cul, Hong, Dahdul, Wasila, Das, Sandip, Dececchi, T. Alexander, Dettal, Agnes, Diogo, Rui, Druzinsky, Robert E., Dumontier, Michel, Franz, Nico M., Friedrich, Frank, Gkoutos, George V., Haendel, Melissa, Harmon, Luke J., Hayamizu, Terry F., He, Yongqun, Hines, Heather M., Ibrahim, Nizar, Jackson, Laura M., Jaiswal, Pankaj, James-Zorn, Christina, Köhler, Sebastian, Lecointre, Guillaume, Lapp, Hilmar, Lawrence, Carolyn J., Le Novère, Nicolas, Lundberg, John G., Macklin, James, Mast, Austin R., Midford, Peter E., Mikó, István, Mungall, Christopher J., Oellrich, Anika, Osumi-Sutherland, David, Parkinson, Helen, Ramírez, Martín J., Richter, Stefan, Robinson, Peter N., Ruttenberg, Alan, Schulz, Katja S., Segerdell, Erik, Seltmann, Katja C., Sharkey, Michael J., Smith, Aaron D., Smith, Barry, Specht, Chelsea D., Squires, R. Burke, Thacker, Robert W., Thessen, Anne, Fernandez-Triana, Jose, Vihinen, Mauno, Vize, Peter D., Vogt, Lars, Wall, Christine E., Walls, Ramona L., Westerfeld, Monte, Wharton, Robert A., Wirkner, Christian S., Woolley, James B., Yoder, Matthew J., Zorn, Aaron M., and Mabee, Paula
- Abstract:
- Despite a large and multifaceted effort to understand the vast landscape of phenotypic data, their current form inhibits productive data analysis. The lack of a community-wide, consensus-based, human- and machine-interpretable language for describing phenotypes and their genomic and environmental contexts is perhaps the most pressing scientific bottleneck to integration across...
- Resource Type:
- Article
- Full Text:
- . Lewis2, Eva Huala3,4, Salvatore S. Anzaldo5, Michael Ashburner6, James P. Balhoff7, David C. Blackburn8