Kothe, J. A. F., Sauerwein, T., Dietz, T., Scheuer, R., Elhossary, M., Barth-Weber, S., . . . Evguenieva-Hackenberg, E. Early posttranscriptional response to tetracycline exposure in a gram-negative soil bacterium reveals unexpected attenuation mechanism of a DUF1127 gene. Taylor & Francis Group.
Chicago Style (17th ed.) CitationKothe, Jennifer A. F., Till Sauerwein, Theresa Dietz, Robina Scheuer, Muhammad Elhossary, Susanne Barth-Weber, Jan Wähling, Konrad U. Förstner, and Elena Evguenieva-Hackenberg. Early Posttranscriptional Response to Tetracycline Exposure in a Gram-negative Soil Bacterium Reveals Unexpected Attenuation Mechanism of a DUF1127 Gene. Taylor & Francis Group.
MLA (9th ed.) CitationKothe, Jennifer A. F., et al. Early Posttranscriptional Response to Tetracycline Exposure in a Gram-negative Soil Bacterium Reveals Unexpected Attenuation Mechanism of a DUF1127 Gene. Taylor & Francis Group.