MacArthur, I., Belcher, T., King, J. D., Ramasamy, V., Alhammadi, M., & Preston, A. The evolution of Bordetella pertussis has selected for mutations of acr that lead to sensitivity to hydrophobic molecules and fatty acids. Taylor & Francis Group.
Chicago Style (17th ed.) CitationMacArthur, Iain, Thomas Belcher, Jerry D. King, Vasantha Ramasamy, Munirah Alhammadi, and Andrew Preston. The Evolution of Bordetella Pertussis Has Selected for Mutations of Acr That Lead to Sensitivity to Hydrophobic Molecules and Fatty Acids. Taylor & Francis Group.
MLA (9th ed.) CitationMacArthur, Iain, et al. The Evolution of Bordetella Pertussis Has Selected for Mutations of Acr That Lead to Sensitivity to Hydrophobic Molecules and Fatty Acids. Taylor & Francis Group.
Warning: These citations may not always be 100% accurate.