近期论文

查看导师最新文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Sealey, K. L., Belcher, T. and Preston, A., 2016. Bordetella pertussis epidemiology and evolution in the light of pertussis resurgence. Infection, Genetics and Evolution, 40, pp. 136-143. Preston, A., 2016. The role of B. pertussis vaccine antigen gene variants in pertussis resurgence and possible consequences for vaccine development. Human Vaccines and Immunotherapeutics, 12 (5), pp. 1274-1276. Belcher, T. and Preston, A., 2015. Bordetella pertussis evolution in the (functional) genomics era. Foodborne Pathogens and Disease, 73 (8). Sealey, K. L., Harris, S. R., Fry, N. K., Hurst, L. D., Gorringe, A. R., Parkhill, J. and Preston, A., 2015. Genomic analysis of isolates from the United Kingdom 2012 pertussis outbreak reveals that vaccine antigen genes are unusually fast evolving. Journal of Infectious Diseases, 212 (2), pp. 294-301. Hittle, L. E., Jones, J. W., Hajjar, A. M., Ernst, R. K. and Preston, A., 2015. Bordetella parapertussis PagP mediates the addition of two palmitates to the lipopolysaccharide lipid A. Journal of Bacteriology, 197 (3), pp. 572-580. Vaughan, T. E., Pratt, C. B., Sealey, K., Preston, A., Fry, N. K. and Gorringe, A. R., 2014. Plasticity of fimbrial genotype and serotype within populations of Bordetella pertussis:analysis by paired flow cytometry and genome sequencing. Microbiology, 160 (9), pp. 2030-2044. Bart, M. J., Harris, S. R., Advani, A., Arakawa, Y., Bottero, D., Bouchez, V., Cassiday, P. K., Chiang, C.-S., Dalby, T., Fry, N. K., Gaillard, M. E., van Gent, M., Guiso, N., Hallander, H. O., Harvill, E. T., He, Q., van der Heide, H. G. J., Heuvelman, K., Hozbor, D. F., Kamachi, K., Karataev, G. I., Lan, R., Luty?ska, A., Maharjan, R. P., Mertsola, J., Miyamura, T., Octavia, S., Preston, A., Quail, M. A., Sintchenko, V., Stefanelli, P., Tondella, M. L., Tsang, R. S. W., Xu, Y., Yao, S.-M., Zhang, S., Parkhill, J. and Mooi, F. R., 2014. Global population structure and evolution of Bordetella pertussis and their relationship with vaccination. mBio, 5 (2), e01074-14. Rolin, O., Muse, S. J., Safi, C., Elahi, S., Gerdts, V., Hittle, L. E., Ernst, R. K., Harvill, E. T. and Preston, A., 2014. Enzymatic modification of lipid A by ArnT protects Bordetella bronchiseptica against cationic peptides and is required for transmission. Infection and immunity, 82 (2), pp. 491-499. Hester, S. E., Park, J., Goodfield, L. L., Feaga, H. A., Preston, A. and Harvill, E. T., 2013. Horizontally acquired divergent O-antigen contributes to escape from cross-immunity in the classical bordetellae. BMC Evolutionary Biology, 13 (1), 209. Hauser, H., Richter, D. C., van Tonder, A., Clark, L. and Preston, A., 2012. Comparative genomic analyses of the Taylorellae. Veterinary Microbiology, 159 (1-2), pp. 195-203. MacArthur, I., Jones, J. W., Goodlett, D. R., Ernst, R. K. and Preston, A., 2011. Role of pagL and lpxO in Bordetella bronchiseptica lipid A biosynthesis. Journal of Bacteriology, 193 (18), pp. 4726-4735. Loker, S. B., Temple, L. M. and Preston, A., 2011. The Bordetella avium BAV1965-1962 fimbrial locus is regulated by temperature and produces fimbriae involved in adherence to turkey tracheal tissue. Infection and Immunity, 79 (6), pp. 2423-2429. Kubler-Kielb, J., Vinogradov, E., Lagerg?rd, T., Ginzberg, A., King, J. D., Preston, A., Maskell, D. J., Pozsgay, V., Keith, J. M., Robbins, J. B. and Schneerson, R., 2011. Oligosaccharide conjugates of Bordetella pertussis and bronchiseptica induce bactericidal antibodies, an addition to pertussis vaccine. Proceedings of the National Academy of Sciences of the United States of America, 108 (10), pp. 4087-4092. Vinogradov, E., King, J. D., Pathak, A. K., Harvill, E. T. and Preston, A., 2010. Antigenic variation among Bordetella: Bordetella bronchiseptica strain MO149 expresses a novel o chain that is poorly immunogenic. Journal of Biological Chemistry, 285 (35), pp. 26869-26877. King, J. D., Vinogradov, E., Preston, A., Li, J. and Maskell, D. J., 2009. Post-assembly modification of Bordetella bronchiseptica O polysaccharide by a novel periplasmic enzyme encoded by wbmE. Journal of Biological Chemistry, 284 (3), pp. 1474-1483. Rejzek, M., Sri Kannathasan, V., Wing, C., Preston, A., Westman, E. L., Lam, J. S., Naismith, J. H., Maskell, D. J. and Field, R. A., 2009. Chemical synthesis of UDP-Glc-2,3-diNAcA, a key intermediate in cell surface polysaccharide biosynthesis in the human respiratory pathogens B. pertussis and P. aeruginosa. Organic & Biomolecular Chemistry, 7 (6), pp. 1203-1210. Buboltz, A. M., Nicholson, T. L., Karanikas, A. T., Preston, A. and Harvill, E. T., 2009. Evidence for horizontal gene transfer of two antigenically distinct O antigens in Bordetella bronchiseptica. Infection and Immunity, 77 (8), pp. 3249-3257. Zhang, X., Goebel, E. M., Rodríguez, M. E., Preston, A. and Harvill, E. T., 2009. The O antigen is a critical antigen for the development of a protective immune response to Bordetella parapertussis. Infection and Immunity, 77 (11), pp. 5050-5058. Westman, E. L., Preston, A., Field, R. A. and Lam, J. S., 2008. Biosynthesis of a rare di-N-acetylated sugar in the lipopolysaccharides of both Pseudomonas aeruginosa and Bordetella pertussis occurs via an identical scheme despite different gene clusters. Journal of Bacteriology, 190 (18), pp. 6060-6069.