Practical 2 - efflux pumps - Life Sciences bibliographies - in Harvard style

In-text: (Amaral, Martins and Viveiros, 2007)

Your Bibliography: Amaral, L., Martins, M. and Viveiros, M., 2007. Enhanced killing of intracellular multidrug-resistant Mycobacterium tuberculosis by compounds that affect the activity of efflux pumps. Journal of Antimicrobial Chemotherapy, 59(6), pp.1237-1246.

In-text: (Ambudkar et al., 1999)

Your Bibliography: Ambudkar, S., Dey, S., Hrycyna, C., Ramachandra, M., Pastan, I. and Gottesman, M., 1999. BIOCHEMICAL, CELLULAR, AND PHARMACOLOGICAL ASPECTS OF THE MULTIDRUG TRANSPORTER 1. Annu. Rev. Pharmacol. Toxicol., 39(1), pp.361-398.

In-text: (Ambudkar et al., 1992)

Your Bibliography: Ambudkar, S., Lelong, I., Zhang, J., Cardarelli, C., Gottesman, M. and Pastan, I., 1992. Partial purification and reconstitution of the human multidrug-resistance pump: characterization of the drug-stimulatable ATP hydrolysis. Proceedings of the National Academy of Sciences, 89(18), pp.8472-8476.

In-text: (da Silva, Von Groll, Martin and Palomino, 2011)

Your Bibliography: da Silva, P., Von Groll, A., Martin, A. and Palomino, J., 2011. Efflux as a mechanism for drug resistance in Mycobacterium tuberculosis. FEMS Immunology & Medical Microbiology, 63(1), pp.1-9.

In-text: (Danilchanka, Mailaender and Niederweis, 2008)

Your Bibliography: Danilchanka, O., Mailaender, C. and Niederweis, M., 2008. Identification of a Novel Multidrug Efflux Pump of Mycobacterium tuberculosis. Antimicrobial Agents and Chemotherapy, 52(7), pp.2503-2511.

In-text: (Gupta et al., 2013)

Your Bibliography: Gupta, S., Cohen, K., Winglee, K., Maiga, M., Diarra, B. and Bishai, W., 2013. Efflux Inhibition with Verapamil Potentiates Bedaquiline in Mycobacterium tuberculosis. Antimicrobial Agents and Chemotherapy, 58(1), pp.574-576.

In-text: (Jin et al., 2010)

Your Bibliography: Jin, J., Zhang, J., Guo, N., Feng, H., Li, L., Liang, J., Sun, K., Wu, X., Wang, X., Liu, M., Deng, X. and Yu, L., 2010. The plant alkaloid piperine as a potential inhibitor of ethidium bromide efflux in Mycobacterium smegmatis. Journal of Medical Microbiology, 60(2), pp.223-229.

In-text: (Lechner, Gibbons and Bucar, 2008)

Your Bibliography: Lechner, D., Gibbons, S. and Bucar, F., 2008. Plant phenolic compounds as ethidium bromide efflux inhibitors in Mycobacterium smegmatis. Journal of Antimicrobial Chemotherapy, 62(2), pp.345-348.

In-text: (Ling et al., 2015)

Your Bibliography: Ling, L., Schneider, T., Peoples, A., Spoering, A., Engels, I., Conlon, B., Mueller, A., Schäberle, T., Hughes, D., Epstein, S., Jones, M., Lazarides, L., Steadman, V., Cohen, D., Felix, C., Fetterman, K., Millett, W., Nitti, A., Zullo, A., Chen, C. and Lewis, K., 2015. A new antibiotic kills pathogens without detectable resistance. Nature, 517(7535), pp.455-459.

In-text: (Lynch, 2006)

Your Bibliography: Lynch, A., 2006. Efflux systems in bacterial pathogens: An opportunity for therapeutic intervention? An industry view. Biochemical Pharmacology, 71(7), pp.949-956.

In-text: (Marquez, 2005)

Your Bibliography: Marquez, B., 2005. Bacterial efflux systems and efflux pumps inhibitors. Biochimie, 87(12), pp.1137-1147.

In-text: (Mempin et al., 2013)

Your Bibliography: Mempin, R., Tran, H., Chen, C., Gong, H., Kim Ho, K. and Lu, S., 2013. Release of extracellular ATP by bacteria during growth. BMC Microbiol, 13(1), p.301.

In-text: (Miles, Misra and Irwin, 1938)

Your Bibliography: Miles, A., Misra, S. and Irwin, J., 1938. The estimation of the bactericidal power of the blood. Journal of Hygiene, 38(06), p.732.

In-text: (Piddock, 2006)

Your Bibliography: Piddock, L., 2006. Clinically Relevant Chromosomally Encoded Multidrug Resistance Efflux Pumps in Bacteria. Clinical Microbiology Reviews, 19(2), pp.382-402.

In-text: (Rodrigues et al., 2011)

Your Bibliography: Rodrigues, L., Ramos, J., Couto, I., Amaral, L. and Viveiros, M., 2011. Ethidium bromide transport across Mycobacterium smegmatis cell-wall: correlation with antibiotic resistance. BMC Microbiol, 11(1), p.35.

In-text: (Rodrigues et al., 2008)

Your Bibliography: Rodrigues, L., Wagner, D., Viveiros, M., Sampaio, D., Couto, I., Vavra, M., Kern, W. and Amaral, L., 2008. Thioridazine and chlorpromazine inhibition of ethidium bromide efflux in Mycobacterium avium and Mycobacterium smegmatis. Journal of Antimicrobial Chemotherapy, 61(5), pp.1076-1082.

In-text: (Sander, 2000)

Your Bibliography: Sander, P., 2000. Contribution of the multidrug efflux pump LfrA to innate mycobacterial drug resistance. FEMS Microbiology Letters, 193(1), pp.19-23.

In-text: (Shiu et al., 2013)

Your Bibliography: Shiu, W., Malkinson, J., Rahman, M., Curry, J., Stapleton, P., Gunaratnam, M., Neidle, S., Mushtaq, S., Warner, M., Livermore, D., Evangelopoulos, D., Basavannacharya, C., Bhakta, S., Schindler, B., Seo, S., Coleman, D., Kaatz, G. and Gibbons, S., 2013. A new plant-derived antibacterial is an inhibitor of efflux pumps in Staphylococcus aureus. International Journal of Antimicrobial Agents, 42(6), pp.513-518.

In-text: (Viveiros et al., 2008)

Your Bibliography: Viveiros, M., Martins, A., Paixão, L., Rodrigues, L., Martins, M., Couto, I., Fähnrich, E., Kern, W. and Amaral, L., 2008. Demonstration of intrinsic efflux activity of Escherichia coli K-12 AG100 by an automated ethidium bromide method. International Journal of Antimicrobial Agents, 31(5), pp.458-462.