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4. Genome sequence of Yersinia pestis, the causative agent of plague

Author

Parkhill, J., Wren, B. W., Thomson, N. R., Titball, R. W., Holden, M. T. G., Prentice, M. B., Sebaihia, M., James, K. D., Churcher, C., Mungall, K. L., Baker, S., Basham, D., Bentley, S. D., Brooks, K., Cerdeno-Tarraga, A. M., Chillingworth, T., Cronin, A., Davies, R. M., Davis, P., Dougan, G., Feltwell, T., Hamlin, N., Holroyd, S., Jagels, K., Karlyshev, A. V., Leather, S., Moule, S., Oyston, P. C. F., Quail, M., Rutherford, K., Simmonds, M., Skelton, J., Stevens, K., Whitehead, S., and Barrell, B. G.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): J. Parkhill (corresponding author) [1]; B. W. Wren [2]; N. R. Thomson [1]; R. W. Titball [3]; M. T. G. Holden [1]; M. B. Prentice [4]; M. Sebaihia [1]; [...]

Published
2001
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5. Contributory presentations/posters

Author

Gries, A., Singh, Balwinder, Nakazawal, Chicko, Genest, D., Getzoff, E. D., Matsuo, H., Kaur, Harpreet, Borst, J. W., Chadha, K. C., Tingyun, Kuang, Jagannadham, M. V., Leijon, Mikael, Sato, S., Bhakuni, Vlnod, Vijayan, M., Surolia, A., Suguna, K., Manoj, N., Srinivas, V. R., Ravishankar, R., Laggner, P., Prassl, R., Schwarzenbacher, R., Zeth, K., Kostner, G. M., Taylor, Susan S., Xuong, Nguyen-huu, Akamine, Pearl, Sagar, Bidva M., Saikrishnan, K., Purnapatre, K., Handa, P., Roy, S., Varshney, U., Biswal, B. K., Sukumar, N., Rao, J. K. Mohana, Johnson, A., Pattabhi, Vasantha, Murthy, M. R. N., Krishna, Sri S., Savithri, H. S., Sastri, Mira, Hosur, M. V., Pillai, Bindu, Kannan, K. K., Kumar, Mukesh, Patwardhan, Swati, Padmanabhaa, B., Sasaki-Sugio, S., Matsuzaki, T., Nukaga, M., Singh, T. P., Sharma, A. K., Srinivasan, A., Khan, J. A., Paramasivam, M., Kumar, P., Karthikevan, S., Sharma, S., Yadav, S., Srintvasan, A., Alam, Neelima, Gourinath, S., Kaur, Punit, Chandra, Vikas, Betzel, Ch., Ghosh, S., Bera, A. K., Pal, A. K., Baneriee, Asok, Mukhopadhyay, B. P., Bhattacharya, S., Chakraborty, S., Haldar, U., Dey, I., Solovicova, Adriana, Sevcik, Jozef, Sekar, K., Sundaralingam, M., Genov, N., Liang, Dong-cai, Zhang, Ji-ping, Jiang, Tao, Chang, Wen-rui, Blommers, Marcel, Jahnke, Wolfgang, Hosur, R. V., Panchal, S. C., Pillay, Bindu, Jaganathan, N. R., Mathur, Puniti, Srivatsun, S., Joshi, Ratan Mani, Chauhan, V. S., Govil, Girjesh, Atreya, H. S., Sahu, S. C., Quinjou, Éric, Adjadj, Elisabeth, Mispelter, Joël, Izadi-Pruneyre, Nadia, Blouquit, Yves, Heyd, Bernadette, Lerat, Guilhem, Desmadreil, Michel, Milnard, Philippe, Lin, Y., Rao, B. D. Nageswara, Raghunathan, Vidva, Chau, Mei H., Coutinho, Evans, Pesais, Prashant, Srivastava, Sudha, Saran, Anil, Srikrishnan, Thamarapu, Lijima, Herbert, Gesme, Jayson, Sapico, Leizl F., Paxton, Raymond, Grace, C. R., Nagenagowda, G., Lynn, A. M., Cowsik, Sudha M., Govil, G., Sahu, Sarata C., Bhattacharya, A., Chauhan, S., Kumar, Anil, Zuiderweg, Erik R. P., Pellecchia, Maurizio, Nitta, Katsutoshi, Ohnishi, Atsushi, Kawano, Keiichi, Hikichi, Kunio, Fujitani, Naoki, Ohkubo, Tadayasu, Aizawa, Tomoyasu, Kumaki, Yasuhiro, Hayakawa, Yoichi, Parvathy, Rani V., Kini, R. M., Nakagawa, Astushi, Tanaka, Isao, Demura, Makoto, Yao, Min, Koshiba, Takumi, Kobashigawa, Yoshihiro, Kuwajima, Kunihiro, Linge, Jens, Nilges, Michael, Donoghue, Seán O., Chakshusmathi, G., Ratnaparkhi, Girish S., Madhu, P. K., Varadarajan, R., Tetreau, C., Tourbez, M., Lavalette, D., Bulone, D., Manno, M., Emanuele, A., Palma-Vittorelli, M. B., Palma, M. U., Vaiana, S. M., Martorana, V., Biagio, P. L. San, Chang, D. K., Cheng, S. F., Yang, S. H., Francis, S., Trivedi, V. D., Chien, W. J., Manstein, Dietmar J., Batra, Renn, Geeves, Michael A., Geller, Maciej, Trvlska, Joanna, Grochowski, Pawel, Lesyng, B., Ginalski, K., Grochowski, P., Lavalette, P., Blouquit, Y., Roccatano, D., Berendsen, H. J. C., Amadei, A., Nola, Di A., Ho, Bosco, Curmi, P. M. G., Berry, H., Pelta, J., Pauthe, E., Lairez, D., Srinivasan, M., Sahi, Shakti, Kothekar, V., Madhusudnan, Kartha S., Nandel, Fateh S., Jain, D. V. S., Berendsen, Herman J. C., Feenstra, Anton K., Tama, F., Sanejouand, Y.-H., Go, N., Sharma, Deepak, Pasha, Santosh, Sharma, Sunita, Brahmachari, Samir K., Makker, Jyoti, Viiavaraghavan, R., Kumar, S., Dey, Sharmisllia, Krishnamoorthy, G., Lakshmikanth, G. S., Zaitseva, E. M., Mazhul, V. M., Kierdaszuk, Borys, Widengren, J., Rigler, R., Terry, B., Mets, Ü., Swaminathan, R., Yathindra, N., Thamotharan, S., Chosrowjan, H., Mataga, N., Shibata, Y., Morisima, I., Xiao, Ming, Selvin, Paul, Chakraharty, Tania, Cooke, Roger, Faraone, A., Branca, C., Maisano, G., Migliardo, P., Magazù, S., Villari, V., Behere, Digambar V., Deva, Sharique Zahida Waheed M., Vallone, B., Savino, C., Travaglini-Allocatelli, C., Cutruzzolà, F., Brunori, M., Gibson, Q. H., Mazumdar, Shyamalava, Mitra, Samaresh, Prasad, Swati, Soto, P., Fayad, R., Tyulkova, N. A., Sukovataya, I. E., Mamedov, Sh. V., Aksakal, B., Canturk, M., Aktas, B., Yilgin, R., Bogutska, K. I., Miroshnichenko, N. S., Wein, A. J., Hypolite, J. A., DiSanto, M., Chacko, S., Zheng, Y-M., Antosiewicz, J., Wojciechowski, M., Grycuk, T., Di Nola, Alfredo, Ceruso, Marc A., Chatterjee, Bishnu P., Bandvopadhvay, Subhasis, Choudhury, Devapriva, Khight, Stefan, Thompson, Andrew, Stojanoff, Vivian, Pinkner, Jerome, Hultgren, Scott, Flatters, Delphine, Goodfellow, Julia, Takazawatt, Fumi, Kanehisa, Minoru, Sasai, Masaki, Nakamura, Hironori, Wang, Bao Han, Pan, xin Min, Zheng, Yuan, Wang, Zhi Xin, Ahmad, Atta, Kulkarni, Sangeeta, Prakash, Koodathingal, Prajapati, Shashi, Surin, Alexey, Kihara, Hiroshi, Yang, Li, Matsumoto, Tomoharu, Nakagawa, Yuki, Semisotnov, Gennady V., Kimura, Kazumoto, Amemiya, Yoshiyuki, Tayyab, Saad, Muzammil, Salman, Kumar, Yogesh, Bhakuni, Vinod, Sundd, Monica, Kundu, Suman, Jagannadham, Medicherla V., Chandani, Bina, Warrier, Deepti, Sinha, Lalankumar, Dhar, Ruby, Mehrotra, Sonam, Khandelwal, Purnima, Seth, Subhendu, Gidwani, Arun, Prabha, Ratna C., Sasidhar, Y. U., Madhusudan, K. P., Nishikawa, Ken, Kinjo, Akira R., Varadarajan, Raghavan, Chakravarty, Suvobrata, Van Dael, H., Noyelle, K., Joniau, M., Haezebrouck, P., Jha, Indra Brata, Bhat, Rajiv, Dash, Sheffali, Mohanty, Prasanna, Bandyopadhyay, A. K., Sonawat, H. M., Rao, Ch. Mohan, Datta, Siddhartha, Raman, B., Rajaraman, K., Ramakrishna, T., Pande, A., Benedek, G., King, J., Betts, S., Pande, J., Asherie, N., Ogun, O., Kalacheva, G. S., Sokolova, I. V., Mitaku, Shigeki, Sonoyama, Masashi, Taira, Kunihiro, Yokoyama, Yasunori, Sasakil, Takanori, Kamo, Naoki, Mukai, Yuri, Dalal, Seema, Regan, Lynne, Mituku, Shigeki, Kumar, Devesh, Roychoudhury, Mihir, Lőrinczv, Dénes, Könczöl, Franciska, Farkas, László, Belagyi, Joseph, Schick, Christoph, Thomson, Christy A., Ananthanarayanan, Vettai S., Alirzayeva, E. G., Baba-Zade, S. N., Sarai, A., Kono, H., Uedaira, H., An, J., Gromiha, Michael M., Oobatake, M., Yutani, Katsuhide, Takano, Kazufumi, Yamagata, Yuriko, Jas, Gouri S., Hofrichter, James, Muñoz, Victor, Eaton, William A., Penoyar, Jonathan, Lo Verde, Philip T., Bódi, Á., Venekei, I., Kardos, J., Gráf, L., Závodszky, P., Szilágyi, András, Závodszky, Péter, Woolfson, D. N., Walshaw, J., Allan, R. D., Funahashi, Jun, Gupta, Savan, Di Nola, A., Mangoni, M., Roccatano, P., Ramachandraiah, Gosu, Chandra, Nagasuma R., Ciani, Barbara, Woolfson, Derek N., Nair, Usha B., Salunke, Dinakar M., Kaur, Kanwal J., Swaminathan, Chittoor P., Surolia, Avadhesha, Pramanik, A., Jörnvall, H., Nygren, P.-Å., Jonasson, P., Ståhl, S., Johansson, B.-L., Kratz, G., Wahren, J., Ekberg, K., Uhlén, M., Jansson, O. T., Uhlén, S., Misselwitz, Rolf, Welfle, Heinz, Welfle, Karin, Höhne, Wolfgang, Kurganov, B. I., Mitskevich, L. G., Fedurkina, N. V., Jarori, Gotam K., Maity, Haripada, Guharay, J., Sengupta, P. K., Sengupta, B., Sridevi, K., Kasturi, S. R., Gupta, S. P., Agarwal, Gunjan, Briehl, Robin W., Kwong, Suzanne, Tyulkova, N A., Ismailova, O. I., Parola, A. H., Yayon, A., Hariharan, C., Pines, D., Pines, E., Zamai, M., Cohen-Luria, R., Woolfeon, D. N., Spooner, G. A., Padya, M. J., Bharadwaj, D. K., Bakshi, Panchan, Jagannathan, N. R., Sharma, U., Srivastava, N., Barthwal, R., Matsuda, Keiko, Nishioka, Takaaki, Go, Nobuhiro, Urata, S., Aita, T., Husimi, Y., Majumder, Mainak, Subirana, Juan A., Malinina, Lucy, Abrescia, Nicola G. A., Aymami, Juan, Coll, Miquel, Eritxa, Ramón, Premraj, B. J., Thenmalarchelvi, R., Gautham, N., Kumar, Satheesh P., Kan, Lou-Sing, Hou, Ming, Lin, Shwu-Bin, Roy, Kanal B., Sana, Tapas, Bruant, N., Flatters, D., Lavery, R., Sklenar, Heinz, Rons, Remo, Lavery, Richard, Thakur, Ashoke Ranjan, Kundu, Sudip, Bandyopadhyay, Debashree, Bhattacharyya, Dhananjay, Majumdar, Rabi, Barceló, F., Portugal, J., Rao, B. J., Ramanathan, Sunita, Gliosli, Mahua, Varshney, Umesh, Kumar, Vinay N., Pataskar, Shashank S., Sarojini, R., Selvasekarapandian, S., Kolandaivel, P., Sukumar, S., Kolmdaivel, P., Maiti, Motilal, Das, Suman, Sen, Anjana, Xodo, Luigi, Suraci, Chiara, Del Terra, Elisa, Quadrifoglio, Franco, Diviacco, Silvia, Ray, Arghya, Rao, Basuthkar J., Karthikeyan, G., Chary, Kandala V. R., Mujeeb, Anwer, James, Thomas L., Bogdanov, A., Zanina, A., Haya, E. E. F., Kasyanenko, N., Cornélio, M. L., Bugs, M. R., Tolstorukov, Ye. M., Sanval, Nitish K., Tiwari, S. N., Sanyal, Nitish K., Choudhury, Mihir Roy, Patel, P. K., Bhavesh, Neel S., Gabrielian, Anna, Rigler, Rudolf, Edman, Lars, Wennmalm, Stefan, Constantinescu, B., Gazdaru, D., Radulcscu, I., Radu, L., Wärmländer, Sebastian, Aoki, Setsuyuki, Ishiura, Masahiro, Kondo, Takao, Pashinskaya, V. A., Kosevich, M. V., Shelkovsky, V. S., Blagoy, Yu. P., Wang, Ji-hua, Malathi, R., Chandrasekhar, K., Kandimalla, E. R., Agrawal, S., Rastogi, V. K., Palafox, Alcolea M., Singh, Chatar, Beniaminov, A. D., Minyat, E. E., Zdobnov, E. M., Ulyanov, N. B., Bondarenko, S. A., Ivanov, V. I., Singh, J. S., Tewari, Ravindra, Sonawane, Kailas D., Grosjean, Henri, Sonavane, Uddhavesh B., Morin, Annie, Doherty, Elizabeth A., Doudna, Jennifer A., Tochio, H., Shirakawa, M., Kyogoku, Y., Das, Achintya, Javaram, B., Kalra, Parul, Shukla, Piyush, Dixit, Surjit B., Beveridge, David L., McConnell, Kevin, Davidson, B. E., Chan, R. Y. S., Sawyer, W. H., Eccelston, J. F., Yan, Yuling, Norden, Bengt, Tuite, Eimer, Nielsen, Peter, Takahashi, Masayuki, Ghosh, Anirban, Bansal, Manju, Pingoud, Alfred, Christ, Frauke, Thole, Hubert, Pingoud, Vera, Wende, Wolfgang, Luthra, Pratibha Mehta, Chandra, Ramesh, Sen, Ranjan, Weisberg, Robert, King, Rodney, Gobets, Bas, van Amerongen, Herbert, van Stokkum, Ivo H. M., Larsen, Olaf F. A., van Grondelle, Rienk, Hilbers, Cornelis W., Heus, Hans A., Berends, Jos, Sngrvan, H E., Khudaverdian, N. V., Babayan, Yu. S., Pichierri, F., Gromiha, M., Prabakaran, P., Aida, M., Sayano, K., Merkienė, Eglė, Vilkaitis, Giedrius, Klimašauskas, Saulius, Serva, Saulius, Weinhold, Elmar, Bandiera, Antonella, Marsich, Eleonora, Manzini, Giorgio, Potikyan, G., Arakelyan, V., Babayan, Yu., Ninaber, Alex, Goodfellow, Julia M., Ohta, Shigeru, Ito, Yoichiro, Husimi, Yuzuru, Usukura, J., Aiba, H., Tagami, H., Nunes, Elia, Suarez, Mougli, Candreva, Carmen E., Keszenman, Deborah, Thyberg, Per, Földes-Papp, Zeno, Joshi, Amita, Singh, Dinesh, Rajeswari, M. R., Amenitsch, H., Pregetter, M., Chapman, J., Mishra, K. P., Pandev, B. N., Tonevitsky, A. G., Pohl, E. E., Agapov, I. I., Sun, J., Pohl, P., Dennison, S. M., Gorbeako, G. P., Dynbko, T. S., Mishra, A. K., Pappavee, N., Luis, Loura, Rodrigo, Almeida, Manuel, Prieto, Gendel, Ya. L., Kleszczyńska, H., Kuczera, J., Przestalski, S., Kral, T., Chernitsky, E. A., Senkovich, O. A., Rosin, V. V., Gasanov, R. A., Allakhverdieva, Y. M., Papageorgiou, G. C., Savopol, Tudor, Apetrei, Calin, Balea, Marius, Cucu, D., Mihailescu, D., Ramanathan, K. V., Bačić, Goran, Genest, Monique, Sajot, Nicolas, Garnier, Norbert, Crouzy, Serge, Zsiros, O., Várkonyi, Z. S., Combos, Z., Farkas, T., Cribier, Sophie, de Paula, F., Fraceto, I. F., Schreier, S., Spisni, A., Sevšek, F., Žekš, B., Gomišček, G., Svetina, S., Arrigler, V., Hotani, Hirokazu, Nomura, Fumimasa, Takiguchi, Kingo, Nagata, Miki, Panicker, Lata, Parvathanathan, P. S., Hotani, H., Takiguchi, K., Ishino, A., Saitoh, A., Afonin, S., Takahashi, A., Takizawa, T., Nakato, Y., Marathe, Dipti, Jørgensen, Kent, Chattopadhyay, Amitabha, Rukmini, R., Rawat, Satinder S., Pečar, S., Štrancar, J., Šentiurc, M., Stolič, Z., Filipin, K., Biswas, S. C., Samanta, Anunay, Sana, Satyen, Kinoshita, Koji, Yamazaki, Masahito, Ohki, Kazuo, Goto, Akira, Kiuchi, Tai, Kumeta, Takaaki, Ohba, Tetsuhiko, Sugar, I. P., Thompson, K. K., Biltonen, R. L., Thompson, T. E., Ichinose, H., Suezaki, Y., Akivama, M., Matuoka, S., Tsuchihashi, K., Gasa, S., Pike, H. M., Mattjus, P., Brown, R. E., Molotkovsky, J. G., Arora, Ashish, Kleinschmidt, Jörg H., Tamm, Lukas K., Kruglyakova, K. E., Luneva, O. G., Fedin, V. A., Kuptsoya, O. S., Visser, A. J. W. G., Visser, N. V., Dyubko, T. S., Ogihara, Toshihiko, Mishima, Kiyoshi, Shvaleva, A. L., Radenović, Č. N., Jeremić, M. G., Radenović, N. Č., Minić, P. M., Salakhutdinov, B. A., Aripov, T. F., Tadjibaeva, E. T., Zamaraeva, M. V., Vagina, O. N., Basak, A. K., Cole, A., Naylor, C., Poppofl, M., Titball, R., Naylor, C. E., Moss, D. S., Eaton, J. T., Justin, N., Titball, R. W., Nomura, F., Nagata, M., Ishjkawa, S., Takahashi, S., Obuchi, Kaoru, Staudegger, Erich, Lohner, Karl, Kriechbaum, Manfred, Waring, Alan J., Lehrer, Robert I., Mayer, Bernd, Köhler, Gottfried, Gangl, Susanne, Shobini, J., Hu, B., Lortz, B., Sackmann, E., Guttenberg, Z., Antonovich, A. N., Slobozhanina, E. I., Lukyanenko, L. M., Kozlova, N. M., Krylov, Andrey V., Kotova, Elena A., Antonenko, Yuri N., Yaroslavov, Alexander A., Ghosh, Subhendu, Bera, Amal K., Das, Sudipto, Urbánková, Eva, Freeman, Karl, Jelokhani-Niaraki, Masood, Jezek, Petr, Usmanov, P. B., Tonkikh, A. K., Ongarbaev, A., Pohl, Peter, Saparov, Sapar M., Harikumar, P., Reeves, J. P., Sikdar, S. K., Rao, S., Ghatpande, A. S., Corsso, C., Varanda, W. A., ElHamel, C., Dé, E., Molle, G., Saint, N., Varshney, Anurae, Mathew, M. K., Isacoff, E. Y., Loots, E., Kasai, Michiki, Yamaguchi, Naohiro, Ghosh, Paramita, Tigyi, Joseph, Miledi, Ricardo, Tigyi, Gabor, Liliom, Karoly, Djurisic, Maja R., Andjus, Pavle R., Shrivastava, Indira H., Sansom, M. S. P., Barrias, C., Oliveira, P. F., Lopes, I. A., Mauricio, A. C., Fedorovich, S. V., Konev, S. V., Sholukh, M. V., Chubanov, V. S., Klevets, M., Fedirko, N., Shvinka, N., Manko, V., Prabhananda, B. S., Kombrabail, Mamata H., Aravamudhan, S., Venegas-Cotero, Berenice, Blake, Ivan Ortega, Zhou, Han-qing, Hu, Xiao-jian, Zhang, Zhi-hong, Feng, Hang-fang, Cheng, Wei-ying, Zalyvsky, I. A., Dubitsky, L. O., Vovkanvch, L. S., Savio-Galimberti, E., Ponce-Homos, J. E., Bonazzola, P., Capurro, Claudia, Parisi, Mario, Toriano, Roxana, Thomas, David D., Ready, Laxma G., Jones, Larry R., Tashmukhamedov, B. A., Sagdullaev, B. T., Heitzmann, D., Bleich, M., Warth, R., Ferreira, H. G., Ferreira, K. T. G., Greger, R., Parola, Abraham H., Alfahel, Essa, Zagoory, Orna, Priel, Zvi, Hama-Inaba, H., Ohyama, H., Hayata, I., Choi, K., Haginoya, K., Mori, M., Wang, R., Yukawa, O., Nakajima, T., Joshi, Nanda B., Kannurpatti, Sridhar K., Sinha, Mau, Joshi, Preeti G., Bei, Ling, Hu, Tianhui, Shen, Xun, Knetsch, Menno L. W., Schäfers, Nicole, Sandblom, John, Galvanovskis, Juris, Kovacs, Eugenia, Dinu, Alexandra, Pologea-Moraru, Roxana, Sanghvi, S. H., Jazbinšek, V., Tronteli, Z., Thiel, G., Wübeller, G., Müller, W., Brumen, Milan, Fajmut, Leš, Marhl, Marko, Volotovski, I. D., Sokolovski, S. G., Knight, M. R., Chalyi, Alexander V., Vasilʼev, Alexei N., Sharma, P., Pant, H. C., Sharma, M., Amin, N. D., Albers, R. W., Steinbach, P. J., Barchir, J., Balasubramanyam, M., Gardner, J. P., Condrescu, M., Pilarczyk, Gotz, Greulich, K. O., Monajembashi, Shamci, El-Awadi, A. I., El-Refaei, F. M., Talaat, M. M., Ali, F. M., Zahradniková, Alexandra, Tahradník, Ivan, Pavelková, Jana, Zhorov, Boris S., Ananthanaravanan, Vettai S., Weiss, D. G., Martin, D., Gornik, E., Neu, E., Michailov, Ch. M., Welscher, U., Seidenbusch, W., Jellali, A., Pattnaik, B. R., Hicks, D., Dreyfus, H., Sahel, J., Picaud, S., Forster, V., Wang, Hong-Wei, Sui, Sen-fang, Luther, Pradeep K., Morris, Ed, Barry, John, Squire, John, Sundari, Sivakama C., Balasubramanian, D., Christlet, Hema Thanka T., Veluraia, K., Suresh, Xavier M., Laretta-Garde, V., Krilov, Dubravka, Herak, Janko N., Stojanović, Nataša, Ferrone, Frank A., Ivanova, Maria, Jasuja, Ravi, Mirchev, Rossen, Stopar, David, Wolfs, Cor J. A. M., Hemminga, Marcus A., Spruijt, Ruud B., Arcovito, G., De Spirito, M., Frank, Joachim, Heagle, Amy B., Grassucci, Robert, Penczek, Pawel, Agrawal, Rajendra K., Sharma, Manjuli R., Wagenknecht, Terence, Jeyakumar, Loice H., Fleischer, Sidney, Knupp, Carlo, Squire, John M., Ezra, Eric, Munro, Peter M. G., Kitazawa, Hidefumi, Ichihara, Koji, Itoh, Tomohiko J., Iguchi, Yusuke, Pifat, Greta, Kveder, Marina, Pečar, Slavko, Schara, Milan, Nair, Deepak, Singh, Kavita, Rao, Kanury V. S., Sundaravadivel, B., Jain, Deepti, Kaur, Kanwaljeet, Salunke, D. M., Goel, Manisha, Kovalenko, E. I., Semenkova, G. N., Cherenkevich, S. N., Loganathan, D., Lakshmanan, T., Sriram, D., Srinivasan, S., Lebrón, J. A., Bjorkman, P. J., Ramalingam, T. S., Singh, A. K., Gayatri, T. N., Bisch, Paulo M., Caffarena, Ernesto R., Grigera, Raul J., Fromherz, P., Kiessling, V., Suresh, C. G., Rao, K. N., Khan, M. I., Gaikwad, S. M., Elanthiraiyan, M., Kaliannan, P., Payne, J., Chadha, K., Ambrus, J. L., Nair, M. P. N., Nair, Madhavan P. N., Hewitt, R., Schwartz, S. A., Mahajan, S., Macherel, D., Bourguignon, J., Neuburger, M., Douce, R., Cohen-Addad, C., Faure, M., Ober, R., Sieker, L., Gurumurthy, D. S., Velmurugan, S., Lobo, Z., Phadke, Ratna S., Desai, Prashant, Alieva, D. R., Guseinova, I. M., Zulfugarov, I. S., Aliev, J. A., Ismayilov, M. A., Novruzova, S. N., Savchenko, T. V., Suleimanov, Yu. S., Bartošková, Hana, Nauš, Jan, Ilík, Petr, Kouřil, Roman, Vidyasagar, P. B., Thomas, Sarah, Gaikwad, Jvoti U., Cseh, Z., Mustárdy, L., Garab, G., Simidjiev, I., Rajagopal, S., Várkonyi, Zs., Holzenburg, A., Stoylova, S., Papp, E., Millar, D. P., Bruder, R., Woo, T. T., Genick, U. K., Gerwert, K., Jávorfí, Tamás, Garab, Győző, Naqvi, Razi K., Gaikwad, Jyoti, Kalimullah, Md., Semwal, Manoj, Naus, Man, Ilik, Petr, Kouril, Roman, Horváth, Gábor, Bernard, Gary D., Pomozi, István, Wehner, Rüdiger, Damjanović, Ana, Schulten, Klaus, Ritz, Thorsten, Yandao, Gong, Jushuo, Wang, Nanming, Zhao, Jixiu, Shan, Freiberg, Arvi, Timpmann, Kõu, Woodbury, Neal W., Ruus, Rein, Nemtseva, E. V., Kudryasheva, N. S., Sizykh, A. G., Tikhomirov, A. A., Nesterenko, T. V., Shikhov, V. N., Forti, Giorgio, Furia, Alberto, Finazzi, Giovanni, Barbagallo, Romina Paola, Agalarov, R., Gasanov, R., Iskenderova, S., Nobuhiro, G. O., Osamu, Miyashita, Ramrakhiani, M., Soni, R. K., Yoshida, Masasuke, Akutsu, Hideo, Yagi, Hiromasa, Tozawa, Kacko, Sekino, Nobuaki, Iwabuchi, Tomoyuki, Kaulen, A. D., Avetisyan, A. V., Feniouk, B. A., Skulachev, V. P., Breyton, Cécile, Kühlbrandt, Werner, Gräslund, Astrid, Assarsson, Maria, Libisch, B., Horváth, G., Gombos, Z., Budagovskaya, N. V., Kudryasheva, N., Fukunishi, Arima, Harada, Erisa, Fukuoka, Yuki, Ohmura, Tomoaki, Kawai, Gota, Watanabe, Kimitsuna, Žekš, Boštjan, Božič, Bojan, Derganc, Jure, Svetina, Saša, Hoh, J. F. Y., Li, Z. B., Rossmanith, G. H., Frederix, P. L. T. M., de Beer, E. L., Treijtel, B. W., Blangè, T., Galtet, F., Hénon, S., Isabey, D., Planus, E., Laurent, V., Rath, L. S., Raval, M. K., Dash, P. K., Ramakrishnan, C., Balaram, R., Basak, Kanika, Balaban, Alexandra T., Nandy, Ashesh, Grunwald, Gregory D., Vracko, Marjan, Randic, Milan, Basak, Subhash C., Amic, Dragan, Beslo, Drago, Trinajstic, Nenad, Nikolic, Sonja, Walahaw, J., Lensink, Marc F. J., Reddy, Boojala V. B., Shindylov, Ilya N., Bourne, Philip E., Grigera, J. R., de Xammar Oro, J., Donnamaria, M. C., Neagu, Monica, Neagu, Adrian, Janežič, Dušanka, Praprotnik, Matej, Nilsson, Lennart, Mark, Pekka, Fata, La L., Dardenne, Laurent E., Werneck, Araken S., Neto, Marçal de O., Kannan, N., Vishveshwara, S., Veluraja, K., Opitz, David, Balasubramanian, Krishnan, Gute, Brian D., Mills, Denise, Lungeanu, Diana, Mihalas, G. I., Macovievici, G., Gruia, Raluca, Dalcin, B., Cortez-Maghelly, C., Passos, E. P., Ljubisavljevic, M., Blesic, S., Milosevic, S., Stratimirovic, D. J., Bachhawat, Nandita, Mande, Shekhar C., Nandy, A., Nishigaki, Koichi, Saito, Ayumu, Naimuddin, Mohammed, Takaesu, Hirotomo, Ono, Mitsuo, Hirokawa, Takatsugu, Eissa, A. M., Ahmed, Abdalla S., El Gohary, M. I., Nakashima, Hiroshi, Raghava, G. P. S., Kurgalvuk, N., Goryn, O., Gerstman, Bernard S., Kratasyuk, V. A., Esimbekova, E. N., Gritsenko, E. V., Remmel, N. N., Maznyak, O. M., German, A., Tikhonov, A., Tchitchkan, D., Koulchitsky, S., Pashkevich, S., Pletnev, S., Kulchitsky, V., Pesotskaya, Y., Shapiro, Erik M., Borthakur, Arijitt, Dimitrov, Ivan, Leigh, John S., Rizi, Rahim, Reddy, Ravinder, Charagundla, Sridhar, Duvvuri, Umamaheswar, Degaonkar, M., Khubchandani, M., Kumar, Mahesh, Jagannathan, N R., Raghunathan, P., Jayasundar, Rama, Coshic, O., Rath, O. K., Julka, P. K., Iliescu, Karina Roxana, Sajin, Maria, Petcu, Ileana, Moisoi, Nicolcta, Kuzmenko, A. I., Donchenko, G. V., Nikolenko, I. A., Morozova, R. P., Rahman, M. K., Ahmed, M. M., Watanabe, Takehiro, Uretzky, G., Ammar, R., Sharony, R., Rubin, Y., Gilboa, H., Mallick, H. N., Kumar, Mohan V., Begum, Gulnaz M., Degaonkar, Mahaveer N., Govindasamy, S., Kumosani, T. A., Lupusoru, C., Titescu, G., Haulica, I., Stefanescu, I., Iliescu, R., Nastasa, V., Bild, W., Khetawat, Gopal, Nealen, M., Faraday, N., Bray, P. F., Noga, S., Lycholat, E. A., Ananieva, T. V., Kosevich, M V., Stepanyan, S. G., Antonyuk, S. V., Khachatryan, A., Kumar, A., Arakelian, H., Khachatryan, R., Agadjanyan, S., Ayrapetyan, S., Mkheyan, V., Rajan, S. S., Kabaleeswaran, V., Gopalakrishnan, Geetha, Govindachari, T. R., Ramrakhiani, Meera, Cullen, David C., Lowe, Phillip, Badley, Andrew, Hermel, H., Möhwald, H., Schmahl, W., Singh, Anil K., Das, Joydip, Majumdar, Nirmalya, Dér, András, Oroszi, László, Kelemen, Loránd, Ormos, Pál, Hámori, András, Ramsden, Jeremy J., Mitra, Chanchal K., Savitri, D., Yanagida, Toshio, Esaki, Seiji, Sowa, Yosiyuki, Nishida, Tomoyuki, Kimura, Yuji, Radu, M., Laukhina, E. E., Kasumova, L. A., Koltover, V. K., Bubnov, V. P., Estrin, Ya. I., Dotta, Rajiv, Zahradník, Ivan, Marko, Milan, Novák, Pavel, Miyata, Hidetake, Hirata, Hiroaki, Sengupta, P., Maiti, S., Balaji, J., Banerjee, S., Barker, A. L., Winlove, C. P., OʼHare, D., Macpherson, J. V., Gonsalves, M., Unwin, P. R., Phillip, R., Kumar, Ravindra G., Murata, K., Nagayaka, K., Danev, R., Sugitani, S., Gősch, Michael, Thyberg, P., Földes-Papp, Z., Björk, G., Blom, H., Holm, J., Heino, T., Inagaki, Fuyuhiko, Yokochi, Masashi, Kusunoki, Masami, Matthews, E. K., Pines, J., Chukova, Yu. P., Koltover, Vitaly K., Kang, B. P. S., Bansal, Geetanjali, Bansal, M. P., Singh, U., Singh, Uma, Nakata, Kotoko, Nakano, Tastuya, Kaminuma, Tsuguchika, Kirn, Bonn, Potocnik, Neja, Stare, Vito, Shukla, Latal, Sastry, M. D., Natarajan, V., Devasagayam, T. P. A., Kesavan, P. C., Sayfutdinov, R., Degermendzhy, A. G., Adamovich, V. V., Rogozin, Yu. D., Khetrapal, C. L., Gowda, G. A. Nagana, Ghimire, Kedar Nath, Masaru, Ishida, Fujita, H., Ishiwata, S., Suzuki, M., Kawahara, S., Kirino, Y., Kishimoto, Y., Mori, H., Mishina, M., Ohshima, H., Dukhin, A. S., Goetz, P. J., Shilov, V. N., and Mishra, R. K.

Published
1999
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16. Novel multi‐component vaccine approaches for Burkholderia pseudomallei.

Author

Morici, L., Torres, A. G., and Titball, R. W.

Subjects
MELIOIDOSIS, BURKHOLDERIA pseudomallei, VACCINES, ANIMAL disease models, TROPICAL medicine, INTRACELLULAR pathogens
Abstract

Summary: Burkholderia pseudomallei is the causative agent of melioidosis. Historically believed to be a relatively rare human disease in tropical countries, a recent study estimated that, worldwide, there are approximately 165 000 human melioidosis cases per year, more than half of whom die. The bacterium is inherently resistant to many antibiotics and treatment of the disease is often protracted and ineffective. There is no licensed vaccine against melioidosis, but a vaccine is predicted to be of value if used in high‐risk populations. There has been progress over the last decade in the pursuit of an effective vaccine against melioidosis. Animal models of disease including mouse and non‐human primates have been developed, and these models show that antibody responses play a key role in protection against melioidosis. Surprisingly, although B. pseudomallei is an intracellular pathogen there is limited evidence that CD8+ T cells play a role in protection. It is evident that a multi‐component vaccine, incorporating one or more protective antigens, will probably be essential for protection because of the pathogen's sophisticated virulence mechanisms as well as strain heterogeneity. Multi‐component vaccines in development include glycoconjugates, multivalent subunit preparations, outer membrane vesicles and other nano/microparticle platforms and live‐attenuated or inactivated bacteria. A consistent finding with vaccine candidates tested in mice is the ability to induce sterilizing immunity at low challenge doses and extended time to death at higher challenge doses. Further research to identify ways of eliciting more potent immune responses might provide a path for licensing an effective vaccine. [ABSTRACT FROM AUTHOR]

Published
2019
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17. A UDP-glucose deficient cell mutant as a model to study the molecular mechanism of cytotoxicity induced by C. perfringens phospholipase C in ischemic tissue

Author

THELESTAM M., FLORESDIAZ M., ALAPEGIRON A., TITBALL R., POLLESELLO P., PERSSON B., MOOS M., CHAVESOLARTE E., CORTESRIBATTI X., BRGMAN T., VON EICHELSTREIBER C. AND FLORIN I., LOFRUMENTO, Dario Domenico, Thelestam, M., Floresdiaz, M., Alapegiron, A., Titball, R., Pollesello, P., Persson, B., Moos, M., Chavesolarte, E., Lofrumento, Dario Domenico, Cortesribatti, X., Brgman, T., and VON EICHELSTREIBER, C. AND FLORIN I.

Subjects
udp-glucose, clostridium, phospholipase c
Published
1998

22. Doxycycline or ciprofloxacin prophylaxis and therapy against experimental Yersinia pestis infection in mice.

Author

Russell, P., Eley, S. M., Bell, D. L., Manchee, R. J., Titball, R. J., and Titball, R W

Abstract

The efficacy of doxycycine and ciprofloxacin against an experimental plague infection was assessed by comparing the median lethal dose (MLD) of Yersinia pestis in antibiotic-treated and untreated mice. The MLD of Y. pestis GB strain in untreated mice by the intra-peritoneal route was 23 cfu. If ciprofloxacin dosage (20 or 40 mg/kg twice daily) was initiated 48 h before infection, it afforded complete protection against an intra-peritoneal challenge of 5.24×107 cfu. Ciprofloxacin therapy initiated 24 h post-challenge was less protective, the MLD was raised to 2.0×105 and 2.2×105 cfu for 40 and 20 mg/kg respectively. Doxycycine dosage (40 mg/kg twice daily) initiated 48 h prior to infection raised the MLD to 1.6×10 cfu, but other prophylactic and therapeutic regimes were ineffective against challenges greater than 6.76×102 cfu. Ciprofloxacin may therefore be a useful antibiotic to consider for the treatment of plague. [ABSTRACT FROM PUBLISHER]

Published
1996
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23. Comparison of a nontoxic variant of Clostridium perfringens α-toxin with the toxic wild-type strain.

Author

Vachieri, S. G., Clark, G. C., Alape-Girón, A., Flores-Díiaz, M., Justin, N., Naylor, C. E., Titball, R. W., and Basak, A. K.

Subjects
CLOSTRIDIUM perfringens, CLOSTRIDIUM, PHOSPHOLIPASE C, PROTEINS, TOXINS
Abstract

The article discusses research on the comparison of a toxic wild-type strain with NCTC8327, a nontoxic variant of Clostridium perfringens alpha-toxin, one of the well-studied illustrations of a toxic phospholipase C. The study showed that the mutant protein Thr74, which is part of an exposed loop at the proposed membrane-interfacing surface of the toxin, has reduced cytotoxic and myotoxic activities. It was found that the hydrolysis of phosphatidylcholine and sphingomyelin are needed for the cytolytic and toxic activity of phospholipases.

Published
2010
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24. A live experimental vaccine against Burkholderia pseudomallei elicits CD4+ T cell-mediated immunity, priming T cells specific for 2 type III secretion system proteins.

Author

Haque A, Chu K, Easton A, Stevens MP, Galyov EE, Atkins T, Titball R, Bancroft GJ, Haque, Ashraful, Chu, Karen, Easton, Anna, Stevens, Mark P, Galyov, Edouard E, Atkins, Tim, Titball, Rick, and Bancroft, Gregory J

Abstract

Burkholderia pseudomallei is the etiological agent of melioidosis, a serious human disease for which no vaccine is available. Immunization of susceptible BALB/c mice with the live attenuated mutant B. pseudomallei ilvI (referred to as "2D2") generated significant, although incomplete, immunity. Splenic B. pseudomallei-specific T cells, detected in immunized mice, proliferated and produced interferon-gamma in vitro in response to dead bacteria. Assessment of T cell antigen specificity indicated that subpopulations of B. pseudomallei-reactive T cells were responsive to BopE, a type III secretion system (TTSS) effector protein, and to a lesser extent to BipD, a TTSS translocator protein. Increased survival of severe combined immunodeficient mice adoptively transferred with T cells from immunized mice, compared with that of naive T cell recipients, demonstrated that immunization with 2D2 generated T cell-mediated immunity. CD4+ and CD8+ cell depletion studies demonstrated that CD4+ cells, but not CD8+ cells, mediated this protection in vivo. Thus, CD4+ T cells can mediate vaccine-induced immunity to experimental melioidosis. [ABSTRACT FROM AUTHOR]

Published
2006
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25. Monoclonal antibodies against Yersinia pestis lipopolysaccharide detect bacteria cultured at 28°C or 37°C

Author

Prior, J. L. and Titball, R. W.

Subjects
*MONOCLONAL antibodies, *YERSINIA pestis, *ENDOTOXINS
Abstract

Four monoclonal antibodies were generated against Yersinia pestis lipopolysaccharide by immunising mice with a cell surface preparation from Y. pestis strain 1255. In an ELISA the monoclonal antibodies reacted with live whole cells of Y. pestis strain GB cultured at 28°C or 37°C. The lowest detection threshold for Y. pestis strain GB cultured at 28°C was 4×105 cfu ml−1 and for bacteria cultured at 37°C was 1×104 cfu ml−1. The monoclonal antibodies did not cross react with other pathogenic Yersinia in an ELISA, but showed some cross reactivity in an immuno-blot. The monoclonal antibodies could be used for the detection of Y. pestis cultured at different temperatures and with varying plasmid profiles as the lipopolysaccharide molecule is not temperature regulated and the genes encoding its biosynthesis are located on the bacterial chromosome. [Copyright &y& Elsevier]

Published
2002
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26. Comparison of efficacy of ciprofloxacin and doxycycline against experimental melioidosis and glanders.

Author

Russell, P., Eley, S. M., Ellis, J., Green, M., Bell, D. L., Kenny, D. J., and Titball, R. W.

Abstract

Melioidosis and glanders are caused by the closely related species Burkholderia pseudomallei and Burkholderia mallei, respectively. Whereas melioidosis is a significant cause of morbidity in south-east Asia, glanders is extremely rare. The efficacies of ciprofloxacin and doxycycline were assessed against a strain of B. pseudomallei and a strain of B. mallei which were susceptible to both antimicrobials in vitro. Porton outbred mice and Syrian hamsters were given 40 mg/kg of either doxycycline or ciprofloxacin twice daily by sc injection according to one of three regimens: dosing starting 48 h before challenge and continuing for 5 days postchallenge; 5 days' therapy starting immediately after challenge; 5 days' therapy starting 24 h after challenge. Mice were challenged ip with B. pseudomallei 4845 and hamsters were challenged ip with B. mallei 23344. Antimicrobial efficacy was determined by the shift in the median lethal dose (MLD). Ciprofloxacin prophylaxis and immediate therapy both raised the MLD of B. pseudomallei to 4 × 106 cfu from 19 cfu in untreated animals, but therapeutic ciprofloxacin only raised the MLD to 180 cfu. The results for doxycycline were similar. Ciprofloxacin prophylaxis raised the MLD of B. mallei 23344 to 4.6 × 105 cfu compared with 4 cfu in untreated controls. Immediate therapy raised the MLD to 7.0 × 104 cfu and therapy raised the MLD to 1.6 × 103 cfu. All regimens of doxycycline protected hamsters against challenges of up to 2 × 107 cfu. Despite using a susceptible strain of B. pseudomallei, neither antimicrobial was effective when used therapeutically. The timely administration of either antimicrobial, however, was effective in preventing symptomatic infection. Doxycycline was the superior of the two antimicrobials against experimental glanders although relapse did occur in treated animals approximately 4–5 weeks after challenge. [ABSTRACT FROM PUBLISHER]

Published
2000
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28. The efficacy of ciprofloxacin and doxycycline against experimental tularaemia.

Author

Russell, P, Eley, SM, Fulop, MJ, Bell, DL, Titball, RW, Eley, S M, Fulop, M J, Bell, D L, and Titball, R W

Abstract

The efficacy of doxycycline and ciprofloxacin against an experimental tularaemia infection was assessed by comparing the median lethal dose (MLD) of Francisella tularensis Schu4 biotype A strain given intraperitoneally to antibiotic-treated and untreated mice. In untreated Porton outbred mice this was <1 cfu. Ciprofloxacin and doxycycline given at 40 mg/kg bd, initiated 48 h before infection and continued for 5 days after infection, afforded protection against intraperitoneal challenges of 3.7 x 10(6) cfu and 6.0 x 10(6) cfu, respectively. Protection was reduced when both antibiotics were given over a similar period at a lower dose regimen (20 mg/kg bd) to 8.8 x 10(5) cfu and 3.5 x 10(2) cfu, respectively. The greater reduction in protection offered by doxycycline was a reflection of the higher in-vitro MIC. Protection also decreased when the antibiotics were initiated 24 h after challenge. The MLD was 3.2 x 10(5) cfu and 1.6 x 10(6) cfu for ciprofloxacin and doxycycline respectively given at 40 mg/kg bd and was reduced further using the lower dose regimen. Overall, 90% of the deaths occurred following the withdrawal of antibiotic, irrespective of the antibiotic dose or type. It was possible to prevent this relapse by extending the antibiotic administration to 10 days after challenge. Ciprofloxacin and doxycycline may be useful for treating tularaemia, although the possibility of relapse should be considered. [ABSTRACT FROM AUTHOR]

Published
1998
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29. Efficacy of doxycycline and ciprofloxacin against experimental Yersinia pestis infection.

Author

Russell, P, Eley, SM, Green, M, Stagg, AJ, Taylor, RR, Nelson, M, Beedham, RJ, Bell, DL, Rogers, D, Whittington, D, Titball, RW, Eley, S M, Stagg, A J, Taylor, R R, Beedham, R J, Bell, D L, and Titball, R W

Abstract

The efficacies of ciprofloxacin and doxycycline prophylaxis and therapy were assessed against experimental pneumonic plague infections induced by two strains of Yersinia pestis in a mouse model. When exposed to an aerosol of Y. pestis strain GB, containing 8.39 x 10(5) +/- 4.17 x 10(4) cfu, the retained dose was 7.3 x 10(3) +/- 2.3 x 10(3) cfu. When exposed to an aerosol of Y. pestis strain CO-92, containing 1.86 x 10(5) +/- 7.4 x 10(3) cfu, the retained dose was 3.4 x 10(4) +/- 2.6 x 10(3) cfu. Both strains resulted in a respiratory and systemic infection closely resembling human pneumonic plague. Ciprofloxacin prophylaxis and therapy was successful against both strains for up to 24 h after challenge, but not after 48 h. Both doxycycline prophylaxis and therapy regimens were ineffective against both strains, although strain CO-92 was more susceptible in vitro to doxycycline than strain GB and supra-MIC levels were achieved in the serum and lungs of the animal. [ABSTRACT FROM AUTHOR]

Published
1998
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33. Macrophage and Galleria mellonella infection models reflect the virulence of naturally occurring isolates of B. pseudomallei, B. thailandensis and B. oklahomensis

Author

Michell Stephen L, Titball Richard W, Wand Matthew E, and Müller Claudia M

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Burkholderia pseudomallei is the causative agent of melioidosis, a tropical disease of humans with a variable and often fatal outcome. In murine models of infection, different strains exhibit varying degrees of virulence. In contrast, two related species, B. thailandensis and B. oklahomensis, are highly attenuated in mice. Our aim was to determine whether virulence in mice is reflected in macrophage or wax moth larvae (Galleria mellonella) infection models. Results B. pseudomallei strains 576 and K96243, which have low median lethal dose (MLD) values in mice, were able to replicate and induce cellular damage in macrophages and caused rapid death of G. mellonella. In contrast, B. pseudomallei strain 708a, which is attenuated in mice, showed reduced replication in macrophages, negligible cellular damage and was avirulent in G. mellonella larvae. B. thailandensis isolates were less virulent than B. pseudomallei in all of the models tested. However, we did record strain dependent differences. B. oklahomensis isolates were the least virulent isolates. They showed minimal ability to replicate in macrophages, were unable to evoke actin-based motility or to form multinucleated giant cells and were markedly attenuated in G. mellonella compared to B. thailandensis. Conclusions We have shown that the alternative infection models tested here, namely macrophages and Galleria mellonella, are able to distinguish between strains of B. pseudomallei, B. thailandensis and B. oklahomensis and that these differences reflect the observed virulence in murine infection models. Our results indicate that B. oklahomensis is the least pathogenic of the species investigated. They also show a correlation between isolates of B. thailandensis associated with human infection and virulence in macrophage and Galleria infection models.

Published
2011
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34. The type IV pilin, PilA, is required for full virulence of Francisella tularensis subspecies tularensis

Author

Forslund Anna-Lena, Salomonsson Emelie, Golovliov Igor, Kuoppa Kerstin, Michell Stephen, Titball Richard, Oyston Petra, Noppa Laila, Sjöstedt Anders, and Forsberg Åke

Subjects
Microbiology, QR1-502
Abstract

Abstract Background All four Francisella tularensis subspecies possess gene clusters with potential to express type IV pili (Tfp). These clusters include putative pilin genes, as well as pilB, pilC and pilQ, required for secretion and assembly of Tfp. A hallmark of Tfp is the ability to retract the pilus upon surface contact, a property mediated by the ATPase PilT. Interestingly, out of the two major human pathogenic subspecies only the highly virulent type A strains have a functional pilT gene. Results In a previous study, we were able to show that one pilin gene, pilA, was essential for virulence of a type B strain in a mouse infection model. In this work we have examined the role of several Tfp genes in the virulence of the pathogenic type A strain SCHU S4. pilA, pilC, pilQ, and pilT were mutated by in-frame deletion mutagenesis. Interestingly, when mice were infected with a mixture of each mutant strain and the wild-type strain, the pilA, pilC and pilQ mutants were out-competed, while the pilT mutant was equally competitive as the wild-type. Conclusions This suggests that expression and surface localisation of PilA contribute to virulence in the highly virulent type A strain, while PilT was dispensable for virulence in the mouse infection model.

Published
2010
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35. Steps toward broad-spectrum therapeutics: discovering virulence-associated genes present in diverse human pathogens

Author

de Rochefort Anna, Oyston Petra CF, Lingard Bryan, Karlyshev Andrey V, Gans Jason D, Ford Donna C, Cooper Ian A, Duffield Melanie L, Stubben Chris J, Song Jian, Wren Brendan W, Titball Rick W, and Wolinsky Murray

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background New and improved antimicrobial countermeasures are urgently needed to counteract increased resistance to existing antimicrobial treatments and to combat currently untreatable or new emerging infectious diseases. We demonstrate that computational comparative genomics, together with experimental screening, can identify potential generic (i.e., conserved across multiple pathogen species) and novel virulence-associated genes that may serve as targets for broad-spectrum countermeasures. Results Using phylogenetic profiles of protein clusters from completed microbial genome sequences, we identified seventeen protein candidates that are common to diverse human pathogens and absent or uncommon in non-pathogens. Mutants of 13 of these candidates were successfully generated in Yersinia pseudotuberculosis and the potential role of the proteins in virulence was assayed in an animal model. Six candidate proteins are suggested to be involved in the virulence of Y. pseudotuberculosis, none of which have previously been implicated in the virulence of Y. pseudotuberculosis and three have no record of involvement in the virulence of any bacteria. Conclusion This work demonstrates a strategy for the identification of potential virulence factors that are conserved across a number of human pathogenic bacterial species, confirming the usefulness of this tool.

Published
2009
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36. Development and application of the active surveillance of pathogens microarray to monitor bacterial gene flux

Author

Hinds Jason, Wade Jim, Titball Richard W, Oyston Petra CF, Dawson Lisa F, Stabler Richard A, Witney Adam A, and Wren Brendan W

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Human and animal health is constantly under threat by emerging pathogens that have recently acquired genetic determinants that enhance their survival, transmissibility and virulence. We describe the construction and development of an Active Surveillance of Pathogens (ASP) oligonucleotide microarray, designed to 'actively survey' the genome of a given bacterial pathogen for virulence-associated genes. Results The microarray consists of 4958 reporters from 151 bacterial species and include genes for the identification of individual bacterial species as well as mobile genetic elements (transposons, plasmid and phage), virulence genes and antibiotic resistance genes. The ASP microarray was validated with nineteen bacterial pathogens species, including Francisella tularensis, Clostridium difficile, Staphylococcus aureus, Enterococcus faecium and Stenotrophomonas maltophilia. The ASP microarray identified these bacteria, and provided information on potential antibiotic resistance (eg sufamethoxazole resistance and sulfonamide resistance) and virulence determinants including genes likely to be acquired by horizontal gene transfer (e.g. an alpha-haemolysin). Conclusion The ASP microarray has potential in the clinic as a diagnostic tool, as a research tool for both known and emerging pathogens, and as an early warning system for pathogenic bacteria that have been recently modified either naturally or deliberately.

Published
2008
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37. ATP-binding cassette systems in Burkholderia pseudomallei and Burkholderia mallei

Author

Titball Richard W, Dassa Elie, Harland David N, Brown Katherine A, and Atkins Helen S

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background ATP binding cassette (ABC) systems are responsible for the import and export of a wide variety of molecules across cell membranes and comprise one of largest protein superfamilies found in prokarya, eukarya and archea. ABC systems play important roles in bacterial lifestyle, virulence and survival. In this study, an inventory of the ABC systems of Burkholderia pseudomallei strain K96243 and Burkholderia mallei strain ATCC 23344 has been compiled using bioinformatic techniques. Results The ABC systems in the genomes of B. pseudomallei and B. mallei have been reannotated and subsequently compared. Differences in the number and types of encoded ABC systems in belonging to these organisms have been identified. For example, ABC systems involved in iron acquisition appear to be correlated with differences in genome size and lifestyles between these two closely related organisms. Conclusion The availability of complete inventories of the ABC systems in B. pseudomallei and B. mallei has enabled a more detailed comparison of the encoded proteins in this family. This has resulted in the identification of ABC systems which may play key roles in the different lifestyles and pathogenic properties of these two bacteria. This information has the potential to be exploited for improved clinical identification of these organisms as well as in the development of new vaccines and therapeutics targeted against the diseases caused by these organisms.

Published
2007
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38. Novel technologies to study single-cell response to environmental stimuli

Author

Smith, A., Pagliara, S., and Titball, R.

Subjects
570, Microfluidics, Antibiotics, Antibiotic persistence, VBNC
Abstract

Antibiotic tolerant phenotypes, such as persister and viable but non culturable cells (VBNC), are known to be present in isogenic bacterial populations. These phenotypes are now recognised as an important factor in the recalcitrance of infections and the development of antibiotic resistance; which itself is currently a major global health crisis. However, despite their clinical importance, we still know little about the mechanisms behind their formation and the relationship between the two phenotypes. Due to the relatively low abundance of the two phenotypes within the population and, in the case of VBNC cells, their ability to remain dormant for extended periods of time, high throughput single cell approaches currently provide the best opportunities for investigating them; in particular microfluidics has emerged as an exciting platform for investigating phenotypic heterogeneity at the single cell level due to the control it allows of the extracellular environment. Using antibiotic persistence as a proxy, we identify temporal windows in which a growing E. coli population exhibits significant changes in phenotypic heterogeneity and determine highly regulated genes and pathways at the population level. We then develop a high throughput microfluidic protocol, based on the pre-existing Mother Machine device, to investigate persister and VBNC cells before, during and after antibiotic exposure at the single cell level. We then developed the first fully automated image analysis pipeline that is capable of analysing Mother Machine images acquired in both bright field and phase contrast imaging modalities. The combination of our protocol and image analysis software allowed us to investigate the role of the previously identified genes in the formation of antibiotic persister and VBNC cells, where we identify potential biomarkers for these phenotypes before exposure to antibiotic. We then used the microfluidic set up to investigate the relationship between protein aggregation and antibiotic persister and VBNC cells. We find that protein aggregation can be correlated to the expression of exogenous proteins and that cells containing visible protein aggregates are, in turn, more likely to be persister or VBNC cells; providing further evidence that these phenotypes are not distinct and are instead part of one physiological continuum.

Published
2019

39. Identification of essential genes in Coxiella burnetii .

Author

Metters G, Hemsley C, Norville I, and Titball R

Subjects
Type IV Secretion Systems genetics, Virulence genetics, Coxiella burnetii genetics, Genes, Essential genetics, Q Fever genetics
Abstract

Coxiella burnetii is an intracellular pathogen responsible for causing Q fever in humans, a disease with varied presentations ranging from a mild flu-like sickness to a debilitating illness that can result in endocarditis. The intracellular lifestyle of C. burnetii is unique, residing in an acidic phagolysosome-like compartment within host cells. An understanding of the core molecular biology of C. burnetii will greatly increase our understanding of C. burnetii growth, survival and pathogenesis. We used transposon-directed insertion site sequencing (TraDIS) to reveal C. burnetii Nine Mile Phase II genes fundamental for growth and in vitro survival. Screening a transposon library containing >10 000 unique transposon mutants revealed 512 predicted essential genes. Essential routes of synthesis were identified for the mevalonate pathway, as well as peptidoglycan and biotin synthesis. Some essential genes identified (e.g. predicted type IV secretion system effector genes) are typically considered to be associated with C. burnetii virulence, a caveat concerning the axenic media used in the study. Investigation into the conservation of the essential genes identified revealed that 78 % are conserved across all C. burnetii strains sequenced to date, which probably play critical functions. This is the first report of a whole genome transposon screen in C. burnetii that has been undertaken for the identification of essential genes.

Published
2023
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40. The global impact and cost-effectiveness of a melioidosis vaccine.

Author

Luangasanatip N, Flasche S, Dance DAB, Limmathurotsakul D, Currie BJ, Mukhopadhyay C, Atkins T, Titball R, and Jit M

Subjects
Cost-Benefit Analysis, Female, Humans, Male, Melioidosis pathology, Middle Aged, Melioidosis drug therapy, Vaccination economics
Abstract

Background: Every year, 90,000 people may die from melioidosis. Vaccine candidates have not proceeded past animal studies, partly due to uncertainty around the potential market size. This study aims to estimate the potential impact, cost-effectiveness and market size for melioidosis vaccines., Methods: Age-structured decision tree models with country-specific inputs were used to estimate net costs and health benefits of vaccination, with health measured in quality-adjusted life years (QALYs). Four target groups of people living in endemic regions were considered: (i) people aged over 45 years with chronic renal disease, (ii) people aged over 45 years with diabetes, (iii) people aged over 45 years with diabetes and/or chronic renal disease, (iv) everyone aged over 45 years. Melioidosis risk was estimated using Bayesian evidence synthesis of 12 observational studies. In the base case, vaccines were assumed to have 80% efficacy, to have 5-year mean protective duration and to cost USD10.20-338.20 per vaccine., Results: Vaccination could be cost-effective (with incremental cost-effectiveness ratio below GDP per capita) in 61/83 countries/territories with local melioidosis transmission. In these 61 countries/territories, vaccination could avert 68,000 lost QALYs, 8300 cases and 4400 deaths per vaccinated age cohort, at an incremental cost of USD59.6 million. Strategy (ii) was optimal in most regions. The vaccine market may be worth USD268 million per year at its threshold cost-effective price in each country/territory., Conclusions: There is a viable melioidosis vaccine market, with cost-effective vaccine strategies in most countries/territories with local transmission.

Published
2019
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41. Clostridium perfringensα-toxin interaction with red cells and model membranes.

Author

Jewell SA, Titball RW, Huyet J, Naylor CE, Basak AK, Gologan P, Winlove CP, and Petrov PG

Subjects
Bacterial Toxins chemistry, Bacterial Toxins genetics, Calcium-Binding Proteins chemistry, Calcium-Binding Proteins genetics, Erythrocytes cytology, Humans, Hydrazines chemistry, Hydrolysis, Lipid Bilayers chemistry, Lipid Bilayers metabolism, Microscopy, Confocal, Phosphatidylcholines chemistry, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Recombinant Proteins isolation & purification, Sphingomyelins chemistry, Type C Phospholipases chemistry, Type C Phospholipases genetics, Bacterial Toxins metabolism, Calcium-Binding Proteins metabolism, Clostridium perfringens metabolism, Erythrocytes metabolism, Type C Phospholipases metabolism
Abstract

The effects of Clostridium perfringensα-toxin on host cells have previously been studied extensively but the biophysical processes associated with toxicity are poorly understood. The work reported here shows that the initial interaction between the toxin and lipid membrane leads to measurable changes in the physical properties and morphology of the membrane. A Langmuir monolayer technique was used to assess the response of different lipid species to toxin. Sphingomyelin and unsaturated phosphatidylcholine showed the highest susceptibility to toxin lypolitic action, with a two stage response to the toxin (an initial, rapid hydrolysis stage followed by the insertion and/or reorganisation of material in the monolayer). Fluorescence confocal microscopy on unsaturated phosphatidylcholine vesicles shows that the toxin initially aggregates at discrete sites followed by the formation of localised "droplets" accumulating the hydrolysis products. This process is accompanied by local increases in the membrane dipole potential by about 50 (±42) mV. In contrast, red blood cells incubated with the toxin suffered a decrease of the membrane dipole potential by 50 (±40) mV in areas of high toxin activity (equivalent to a change in electric field strength of 10(7) V m(-1)) which is sufficient to affect the functioning of the cell membrane. Changes in erythrocyte morphology caused by the toxin are presented, and the early stages of interaction between toxin and membrane are characterised using thermal shape fluctuation analysis of red cells which revealed two distinct regimes of membrane-toxin interaction.

Published
2015
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42. From crystal structure to in silico epitope discovery in the Burkholderia pseudomallei flagellar hook-associated protein FlgK.

Author

Gourlay LJ, Thomas RJ, Peri C, Conchillo-Solé O, Ferrer-Navarro M, Nithichanon A, Vila J, Daura X, Lertmemongkolchai G, Titball R, Colombo G, and Bolognesi M

Subjects
Amino Acid Sequence, Animals, Antibodies, Bacterial blood, Antigens, Bacterial chemistry, Bacterial Proteins immunology, Bacterial Proteins physiology, Cell Line, Computer Simulation, Crystallography, X-Ray, Epitopes chemistry, Humans, Macrophages immunology, Macrophages microbiology, Melioidosis blood, Melioidosis immunology, Melioidosis microbiology, Mice, Models, Molecular, Molecular Sequence Data, Bacterial Proteins chemistry, Burkholderia pseudomallei immunology
Abstract

Melioidosis, caused by the Gram-negative bacterium Burkholderia pseudomallei, is a potentially fatal infection that is endemic in Southeast Asia and Northern Australia that is poorly controlled by antibiotics. Research efforts to identify antigenic components for a melioidosis vaccine have led to the identification of several proteins, including subunits forming the flagella that mediate bacterial motility, host colonization, and virulence. This study focuses on the B. pseudomallei flagellar hook-associated protein (FlgK(Bp)), and provides the first insights into the 3D structure of FlgK proteins as targets for structure-based antigen engineering. The FlgK(Bp) crystal structure (presented here at 1.8-Å resolution) reveals a multidomain fold, comprising two small β-domains protruding from a large elongated α-helical bundle core. The evident structural similarity to flagellin, the flagellar filament subunit protein, suggests that, depending on the bacterial species, flagellar hook-associated proteins are likely to show a conserved, elongated α-helical bundle scaffold coupled to a variable number of smaller domains. Furthermore, we present immune serum recognition data confirming, in agreement with previous findings, that recovered melioidosis patients produce elevated levels of antibodies against FlgK(Bp), in comparison with seronegative and seropositive healthy subjects. Moreover, we show that FlgK(Bp) has cytotoxic effects on cultured murine macrophages, suggesting an important role in bacterial pathogenesis. Finally, computational epitope prediction methods applied to the FlgK(Bp) crystal structure, coupled with in vitro mapping, allowed us to predict three antigenic regions that locate to discrete protein domains. Taken together, our results point to FlgK(Bp) as a candidate for the design and production of epitope-containing subunits/domains as potential vaccine components., (© 2015 FEBS.)

Published
2015
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44. Structure-based design of a B cell antigen from B. pseudomallei.

Author

Gaudesi D, Peri C, Quilici G, Gori A, Ferrer-Navarro M, Conchillo-Solé O, Thomas R, Nithichanon A, Lertmemongkolchai G, Titball R, Daura X, Colombo G, and Musco G

Subjects
Agglutination Tests, Amino Acid Sequence, Animals, Antibodies, Bacterial biosynthesis, Antibodies, Bacterial pharmacology, Antigens, Bacterial genetics, Antigens, Bacterial immunology, B-Lymphocytes immunology, B-Lymphocytes microbiology, B-Lymphocytes pathology, Burkholderia pseudomallei chemistry, Burkholderia pseudomallei immunology, Epitope Mapping, Epitopes genetics, Epitopes immunology, Humans, Immune Sera chemistry, Immune Sera immunology, Melioidosis blood, Melioidosis microbiology, Melioidosis pathology, Molecular Dynamics Simulation, Molecular Sequence Data, Protein Engineering, Protein Structure, Secondary, Protein Structure, Tertiary, Rabbits, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins immunology, Structure-Activity Relationship, Antibodies, Bacterial chemistry, Antigens, Bacterial chemistry, Burkholderia pseudomallei drug effects, Epitopes chemistry, Melioidosis immunology
Abstract

Burkholderia pseudomallei is the etiological agent of melioidosis, a severe endemic disease in South-East Asia, causing septicemia and organ failure with high mortality rates. Current treatments and diagnostic approaches are largely ineffective. The development of new diagnostic tools and vaccines toward effective therapeutic opportunities against B. pseudomallei is therefore an urgent priority. In the framework of a multidisciplinary project tackling melioidosis through reverse and structural vaccinology, BPSL1050 was identified as a candidate for immunodiagnostic and vaccine development based on its reactivity against the sera of melioidosis patients. We determined its NMR solution structure and dynamics, and by novel computational methods we predicted immunogenic epitopes that once synthesized were able to elicit the production of antibodies inducing the agglutination of the bacterium and recognizing both BPSL1050 and B. pseudomallei crude extracts. Overall, these results hold promise for novel chemical biology approaches in the discovery of new diagnostic and prophylactic tools against melioidosis.

Published
2015
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45. Salmonella Gallinarum field isolates from laying hens are related to the vaccine strain SG9R.

Author

Van Immerseel F, Studholme DJ, Eeckhaut V, Heyndrickx M, Dewulf J, Dewaele I, Van Hoorebeke S, Haesebrouck F, Van Meirhaeghe H, Ducatelle R, Paszkiewicz K, and Titball RW

Subjects
Animals, Chickens, DNA, Bacterial chemistry, DNA, Bacterial genetics, Electrophoresis, Gel, Pulsed-Field, Genes, Bacterial, Genome, Bacterial, Genotype, Minisatellite Repeats, Molecular Typing, Mutation, Polymorphism, Single Nucleotide, Salmonella enterica genetics, Sequence Analysis, DNA, Poultry Diseases microbiology, Salmonella Infections, Animal microbiology, Salmonella Vaccines, Salmonella enterica classification, Salmonella enterica isolation & purification
Abstract

Salmonella enterica subspecies enterica serotype Gallinarum can cause severe systemic disease in chickens and a live Salmonella Gallinarum 9R vaccine (SG9R) has been used widely to control disease. Using whole-genome sequencing we found point mutations in the pyruvate dehydrogenase (aceE) and/or lipopolysaccharide 1,2-glucosyltransferase (rfaJ) genes that likely explain the attenuation of the SG9R vaccine strain. Molecular typing using Pulsed Field Gel Electrophoresis and Multiple-Locus Variable number of tandem repeat Analysis showed that strains isolated from different layer flocks in multiple countries and the SG9R vaccine strain were similar. The genome of one Salmonella Gallinarum field strain, isolated from a flock with a mortality peak and selected on the basis of identical PFGE and MLVA patterns with SG9R, was sequenced. We found 9 non-silent single-nucleotide differences distinguishing the field strain from the SG9R vaccine strain. Our data show that a Salmonella Gallinarum field strain isolated from laying hens is almost identical to the SG9R vaccine. Mutations in the aceE and rfaJ genes could explain the reversion to a more virulent phenotype. Our results highlight the importance of using well defined gene deletion mutants as vaccines., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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46. Vaccine delivery using nanoparticles.

Author

Gregory AE, Titball R, and Williamson D

Subjects
Antigen-Presenting Cells immunology, Drug Carriers pharmacokinetics, Immunity, Cellular, Th1 Cells immunology, Vaccines, Subunit pharmacokinetics, Drug Carriers administration & dosage, Nanoparticles administration & dosage, Vaccines, Subunit administration & dosage
Abstract

Vaccination has had a major impact on the control of infectious diseases. However, there are still many infectious diseases for which the development of an effective vaccine has been elusive. In many cases the failure to devise vaccines is a consequence of the inability of vaccine candidates to evoke appropriate immune responses. This is especially true where cellular immunity is required for protective immunity and this problem is compounded by the move toward devising sub-unit vaccines. Over the past decade nanoscale size (<1000 nm) materials such as virus-like particles, liposomes, ISCOMs, polymeric, and non-degradable nanospheres have received attention as potential delivery vehicles for vaccine antigens which can both stabilize vaccine antigens and act as adjuvants. Importantly, some of these nanoparticles (NPs) are able to enter antigen-presenting cells by different pathways, thereby modulating the immune response to the antigen. This may be critical for the induction of protective Th1-type immune responses to intracellular pathogens. Their properties also make them suitable for the delivery of antigens at mucosal surfaces and for intradermal administration. In this review we compare the utilities of different NP systems for the delivery of sub-unit vaccines and evaluate the potential of these delivery systems for the development of new vaccines against a range of pathogens.

Published
2013
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47. Conjugation of Y. pestis F1-antigen to gold nanoparticles improves immunogenicity.

Author

Gregory AE, Williamson ED, Prior JL, Butcher WA, Thompson IJ, Shaw AM, and Titball RW

Subjects
Animals, Antibodies, Bacterial blood, Bacterial Proteins administration & dosage, Female, Immunoglobulin G blood, Immunologic Memory, Mice, Mice, Inbred BALB C, Plague Vaccine administration & dosage, Adjuvants, Immunologic administration & dosage, Bacterial Proteins immunology, Drug Carriers administration & dosage, Gold administration & dosage, Nanoparticles administration & dosage, Plague Vaccine immunology
Abstract

The efficacy of 15 nm gold nanoparticles (AuNP) coated with Yersinia pestis F1-antigen, as an immunogen in mice, has been assessed. The nanoparticles were decorated with F1-antigen using N-hydroxysuccinimide and N-(3-dimethylaminopropyl)-N'-ethylcarbodiimide hydrochloride coupling chemistry. Mice given AuNP-F1 in alhydrogel generated the greatest IgG antibody response to F1-antigen when compared with mice given AuNP-F1 in PBS or given unconjugated F1-antigen in PBS or alhydrogel. Compared with unconjugated F1-antigen, the IgG2a response was enhanced in mice dosed with AuNP-F1 in PBS (p<0.05) but not in mice immunised with AuNP-F1 in alhydrogel. All treatment groups developed a memory response to F1-antigen, the polarity of which was inflenced by formulation in alhydrogel. The sera raised against F1-antigen coupled to AuNPs was able to competitively bind to rF1-antigen, displacing protective macaque sera., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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48. Lipoproteins of bacterial pathogens.

Author

Kovacs-Simon A, Titball RW, and Michell SL

Subjects
Bacteria pathogenicity, Cell Membrane, Lipoproteins genetics, Virulence, Bacteria metabolism, Gene Expression Regulation, Bacterial physiology, Lipoproteins physiology
Abstract

Bacterial lipoproteins are a set of membrane proteins with many different functions. Due to this broad-ranging functionality, these proteins have a considerable significance in many phenomena, from cellular physiology through cell division and virulence. Here we give a general overview of lipoprotein biogenesis and highlight examples of the roles of lipoproteins in bacterial disease caused by a selection of medically relevant Gram-negative and Gram-positive pathogens: Mycobacterium tuberculosis, Streptococcus pneumoniae, Borrelia burgdorferi, and Neisseria meningitidis. Lipoproteins have been shown to play key roles in adhesion to host cells, modulation of inflammatory processes, and translocation of virulence factors into host cells. As such, a number of lipoproteins have been shown to be potential vaccines. This review provides a summary of some of the reported roles of lipoproteins and of how this knowledge has been exploited in some cases for the generation of novel countermeasures to bacterial diseases.

Published
2011
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49. Mannosidase 2, alpha 1 deficiency is associated with ricin resistance in embryonic stem (ES) cells.

Author

Wang W, Hale C, Goulding D, Haslam SM, Tissot B, Lindsay C, Michell S, Titball R, Yu J, Toribio AL, Rossi R, Dell A, Bradley A, and Dougan G

Subjects
Base Sequence, Cell Line, DNA Transposable Elements genetics, Embryonic Stem Cells ultrastructure, Gene Library, Glycomics, Glycosylation drug effects, Molecular Sequence Data, Mutagenesis, Insertional genetics, Polysaccharides chemistry, Polysaccharides metabolism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, alpha-Mannosidase metabolism, Embryonic Stem Cells drug effects, Embryonic Stem Cells enzymology, Ricin toxicity, alpha-Mannosidase deficiency
Abstract

Host gene products required for mediating the action of toxins are potential targets for reversing or controlling their pathogenic impact following exposure. To identify such targets libraries of insertional gene-trap mutations generated with a PiggyBac transposon in Blm-deficient embryonic stem cells were exposed to the plant toxin, ricin. Resistant clones were isolated and genetically characterised and one was found to be a homozygous mutant of the mannosidase 2, alpha 1 (Man2α1) locus with a matching defect in the homologous allele. The causality of the molecular lesion was confirmed by removal of the transposon following expression of PB-transposase. Comparative glycomic and lectin binding analysis of the Man2α1 (-/-) ricin resistant cells revealed an increase in the levels of hybrid glycan structures and a reduction in terminal β-galactose moieties, potential target receptors for ricin. Furthermore, naïve ES cells treated with inhibitors of the N-linked glycosylation pathway at the mannosidase 2, alpha 1 step exhibited either full or partial resistance to ricin. Therefore, we conclusively identified mannosidase 2, alpha 1 deficiency to be associated with ricin resistance.

Published
2011
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50. RelA regulates virulence and intracellular survival of Francisella novicida.

Author

Dean RE, Ireland PM, Jordan JE, Titball RW, and Oyston PCF

Subjects
Animals, Base Sequence, Biofilms growth & development, Cell Line, DNA Primers genetics, DNA, Bacterial genetics, Female, Francisella growth & development, Francisella physiology, Genes, Bacterial, Gram-Negative Bacterial Infections immunology, Gram-Negative Bacterial Infections microbiology, Guanosine Pentaphosphate biosynthesis, Guanosine Tetraphosphate biosynthesis, Macrophages microbiology, Mice, Mice, Inbred BALB C, Mutation, Stress, Physiological, Virulence genetics, Virulence physiology, Bacterial Proteins genetics, Bacterial Proteins physiology, Francisella genetics, Francisella pathogenicity, Transcription Factor RelA genetics, Transcription Factor RelA physiology
Abstract

Analysis of the genome of Francisella tularensis has revealed few regulatory systems, and how the organism adapts to conditions in different niches is poorly understood. The stringent response is a global stress response mediated by (p)ppGpp. The enzyme RelA has been shown to be involved in generation of this signal molecule in a range of bacterial species. We investigated the effect of inactivation of the relA gene in Francisella by generating a mutant in Francisella novicida. Under amino acid starvation conditions, the relA mutant was defective for (p)ppGpp production. Characterization showed the mutant to grow similarly to the wild-type, except that it entered stationary phase later than wild-type cultures, resulting in higher cell yields. The relA mutant showed increased biofilm formation, which may be linked to the delay in entering stationary phase, which in turn would result in higher cell numbers present in the biofilm and reduced resistance to in vitro stress. The mutant was attenuated in the J774A macrophage cell line and was shown to be attenuated in the mouse model of tularaemia, but was able to induce a protective immune response. Therefore, (p)ppGpp appears to be an important intracellular signal, integral to the pathogenesis of F. novicida.

Published
2009
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