Lynch, C., Hawkins, K., Lynch, H., Egan, J., Bolton, D., Coffey, A., & Lucey, B. (2019). Investigation of molecular mechanisms underlying tetracycline resistance in thermophilic Campylobacter spp. suggests that previous reports of tet(A)-mediated resistance in these bacteria are premature. Gut Pathog.
Chicago Style citaatLynch, Caoimhe, Kayleigh Hawkins, Helen Lynch, John Egan, Declan Bolton, Aidan Coffey, en Brigid Lucey. "Investigation of Molecular Mechanisms Underlying Tetracycline Resistance in Thermophilic Campylobacter Spp. Suggests That Previous Reports of Tet(A)-mediated Resistance in These Bacteria Are Premature." Gut Pathog 2019.
MLA citatieLynch, Caoimhe, et al. "Investigation of Molecular Mechanisms Underlying Tetracycline Resistance in Thermophilic Campylobacter Spp. Suggests That Previous Reports of Tet(A)-mediated Resistance in These Bacteria Are Premature." Gut Pathog 2019.