Objects
Short, Francesca L., Liu, Qi, Shah, Bhumika, Clift, Heather E., Naidu, Varsha, Li, Liping, Prity, Farzana T., Mabbutt, Bridget C., Hassan, Karl A., Paulsen, Ian T.. The Acinetobacter baumannii disinfectant resistance protein, AmvA, is a spermidine and spermine efflux pump. 2021.
Pokhrel, Alaska, Dinh, Hue, Li, Liping, Hassan, Karl A., Cain, Amy K., Paulsen, Ian T.. Karger; 2023. Identification of a novel LysR family transcriptional regulator controlling acquisition of sulfur sources in Acinetobacter baumannii.
Hassan, Karl A., Naidu, Varsha, Henderson, Peter J. F., Paulsen, Ian T., Edgerton, Jacob R., Mettrick, Karla A., Liu, Qi, Fahmy, Leila, Li, Liping, Jackson, Scott M., Ahmad, Irshad, Sharples, David. National Academy of Sciences; 2019. Short-chain diamines are the physiological substrates of PACE family efflux pumps.
Li, Liping, Hassan, Karl A., Tetu, Sasha G., Naidu, Varsha, Pokhrel, Alaska, Cain, Amy K., Paulsen, Ian T.. Frontiers Research Foundation; 2020. The Transcriptomic Signature of Tigecycline in Acinetobacter baumannii.
Hassan, Karl A., Liu, Qi, Postis, Vincent L. G., Goldman, Adrian, Henderson, Peter J. F., Paulsen, Ian T., Elbourne, Liam D. H., Ahmad, Irshad, Sharples, David, Naidu, Varsha, Chan, Chak Lam, Li, Liping, Harborne, Steven P. D., Pokhrel, Alaska. Elsevier Masson; 2018. Pacing across the membrane: the novel PACE family of efflux pumps is widespread in Gram-negative pathogens.
Bouzo, Daniel, Cokcetin, Nural N., Li, Liping, Ballerin, Giulia, Bottomley, Amy L., Lazenby, James, Whitchurch, Cynthia B., Paulsen, Ian T., Hassan, Karl A., Harry, Elizabeth J.. American Society for Microbiology; 2020. Characterizing the mechanism of action of an ancient antimicrobial, Manuka honey, against Pseudomonas aeruginosa using modern transcriptomics.
Li, Liping, Short, Francesca L., Parkhill, Julian, Cain, Amy K., Paulsen, Ian T., Hassan, Karl A., Naidu, Varsha, Pokhrel, Alaska, Nagy, Stephanie S., Prity, Farzana T., Shah, Bhumika S., Afrin, Nusrat, Baker, Stephen. Nature Publishing Group; 2023. Systematic analyses identify modes of action of ten clinically relevant biocides and antibiotic antagonism in Acinetobacter baumannii.