Comparative genomics of Cryptococcus and Kwoniella reveals pathogenesis evolution and contrasting karyotype dynamics via intercentromeric recombination or chromosome fusion.
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Coelho, MA; David-Palma, M; Shea, T; Bowers, K; McGinley-Smith, S; Mohammad, AW; Gnirke, A; Yurkov, AM; Nowrousian, M; Sun, S; Cuomo, CA; Heitman, J
January 13, 2024
Duke Scholars
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Coelho, M. A., David-Palma, M., Shea, T., Bowers, K., McGinley-Smith, S., Mohammad, A. W., … Heitman, J. (2024). Comparative genomics of Cryptococcus and Kwoniella reveals pathogenesis evolution and contrasting karyotype dynamics via intercentromeric recombination or chromosome fusion. https://doi.org/10.1101/2023.12.27.573464
Coelho, Marco A., Márcia David-Palma, Terrance Shea, Katharine Bowers, Sage McGinley-Smith, Arman W. Mohammad, Andreas Gnirke, et al. “Comparative genomics of Cryptococcus and Kwoniella reveals pathogenesis evolution and contrasting karyotype dynamics via intercentromeric recombination or chromosome fusion.,” January 13, 2024. https://doi.org/10.1101/2023.12.27.573464.
Coelho MA, David-Palma M, Shea T, Bowers K, McGinley-Smith S, Mohammad AW, et al. Comparative genomics of Cryptococcus and Kwoniella reveals pathogenesis evolution and contrasting karyotype dynamics via intercentromeric recombination or chromosome fusion. 2024.
Coelho, Marco A., et al. Comparative genomics of Cryptococcus and Kwoniella reveals pathogenesis evolution and contrasting karyotype dynamics via intercentromeric recombination or chromosome fusion. 13 Jan. 2024. Pubmed, doi:10.1101/2023.12.27.573464.
Coelho MA, David-Palma M, Shea T, Bowers K, McGinley-Smith S, Mohammad AW, Gnirke A, Yurkov AM, Nowrousian M, Sun S, Cuomo CA, Heitman J. Comparative genomics of Cryptococcus and Kwoniella reveals pathogenesis evolution and contrasting karyotype dynamics via intercentromeric recombination or chromosome fusion. 2024.