Giddey, A. D., de Kock, E., Nakedi, K. C., Garnett, S., Nel, A. J. M., Soares, N. C., & Blackburn, J. M. (2017). A temporal proteome dynamics study reveals the molecular basis of induced phenotypic resistance in Mycobacterium smegmatis at sub-lethal rifampicin concentrations. Sci Rep.
Chicago Style citaatGiddey, Alexander D., Elise de Kock, Kehilwe C. Nakedi, Shaun Garnett, Andrew J. M. Nel, Nelson C. Soares, en Jonathan M. Blackburn. "A Temporal Proteome Dynamics Study Reveals the Molecular Basis of Induced Phenotypic Resistance in Mycobacterium Smegmatis At Sub-lethal Rifampicin Concentrations." Sci Rep 2017.
MLA citatieGiddey, Alexander D., et al. "A Temporal Proteome Dynamics Study Reveals the Molecular Basis of Induced Phenotypic Resistance in Mycobacterium Smegmatis At Sub-lethal Rifampicin Concentrations." Sci Rep 2017.