bioRxiv
Tornadic shear stress induces a transient, calcineurin-dependent hyper-virulent phenotype in Mucorales molds
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Wurster, S; Tatara, A; Albert, N; Ibrahim, A; Heitman, J; Lee, SC; Shetty, A; McCracken, C; Graf, K; Mikos, A; Bruno, V; Kontoyiannis, D
2020
Duke Scholars
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Wurster, S., Tatara, A., Albert, N., Ibrahim, A., Heitman, J., Lee, S. C., … Kontoyiannis, D. (2020). Tornadic shear stress induces a transient, calcineurin-dependent hyper-virulent phenotype in Mucorales molds. bioRxiv. https://doi.org/10.1101/2020.02.14.945998
Wurster, Sebastian, Alexander Tatara, Nathaniel Albert, Ashraf Ibrahim, Joseph Heitman, Soo Chan Lee, Amol Shetty, et al. “Tornadic shear stress induces a transient, calcineurin-dependent hyper-virulent phenotype in Mucorales molds.” BioRxiv, 2020. https://doi.org/10.1101/2020.02.14.945998.
Wurster S, Tatara A, Albert N, Ibrahim A, Heitman J, Lee SC, et al. Tornadic shear stress induces a transient, calcineurin-dependent hyper-virulent phenotype in Mucorales molds. bioRxiv. 2020.
Wurster, Sebastian, et al. “Tornadic shear stress induces a transient, calcineurin-dependent hyper-virulent phenotype in Mucorales molds.” BioRxiv, 2020. Epmc, doi:10.1101/2020.02.14.945998.
Wurster S, Tatara A, Albert N, Ibrahim A, Heitman J, Lee SC, Shetty A, McCracken C, Graf K, Mikos A, Bruno V, Kontoyiannis D. Tornadic shear stress induces a transient, calcineurin-dependent hyper-virulent phenotype in Mucorales molds. bioRxiv. 2020.