APA
Nagy L. G., Ohm R. A., Kovács G. M., Floudas D., Riley R., Gácser A., Sipiczki M., Davis J. M., Doty S. L., de Hoog G. S., Lang B. F., Spatafora J. W., Martin F. M., Grigoriev I. V. & Hibbett D. S. (20160426). Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts. : Nature communications.
Chicago
Nagy László G, Ohm Robin A, Kovács Gábor M, Floudas Dimitrios, Riley Robert, Gácser Attila, Sipiczki Mátyás, Davis John M, Doty Sharon L, de Hoog G Sybren, Lang B Franz, Spatafora Joseph W, Martin Francis M, Grigoriev Igor V and Hibbett David S. 20160426. Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts. : Nature communications.
Harvard
Nagy L. G., Ohm R. A., Kovács G. M., Floudas D., Riley R., Gácser A., Sipiczki M., Davis J. M., Doty S. L., de Hoog G. S., Lang B. F., Spatafora J. W., Martin F. M., Grigoriev I. V. and Hibbett D. S. (20160426). Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts. : Nature communications.
MLA
Nagy László G, Ohm Robin A, Kovács Gábor M, Floudas Dimitrios, Riley Robert, Gácser Attila, Sipiczki Mátyás, Davis John M, Doty Sharon L, de Hoog G Sybren, Lang B Franz, Spatafora Joseph W, Martin Francis M, Grigoriev Igor V and Hibbett David S. Latent homology and convergent regulatory evolution underlies the repeated emergence of yeasts. : Nature communications. 20160426.