Computational Molecular Biology 2015, Vol.5, No.6, 1-4
4
Ziebuhr W., Ohlsen K., Karch H., Korhonen T., and Hacker J., 1999,
Evolution of bacterial pathogenesis,Cell Mol Life Sci, 56:719–28
Botzman M. and Margalit H., 2011, Variation in global codon usage bias
among prokaryotic organisms is associated with their lifestyles,
Genome Biology, 12: R109
Makino K., Oshima K., Kurokawa K., Yokoyama K., Uda T., Tagomori
K., Iijima Y., Najima M., Nakano M., Yamashita A., Kubota Y.,
Kimura S., Yasunaga T., Honda T., Shinagawa H., Hattori M., and Iida
T., 2003, Genome sequence of Vibrio parahaemolyticus: a pathogenic
mechanism distinct from that of V cholera, Lancet. 1, 361(9359):743-9
Jazel D. and Satchell K.J.F., 2013, Analysis of Vibrio cholerae Genome
Sequences Reveals Unique rtxA Variants in Environmental Strains and
an rtxA-Null Mutation in Recent Altered El Tor Isolates, mBio,
00624-12
Blokesch M. and Schoolnik G.K., 2007, Serogroup conversion of Vibrio
cholerae in aquatic reservoirs, PLoS Pathog., 3: e81.
Safa A., Nair G.B.,and Kong R.Y., 2010, Evolution of new variants of
Vibrio cholerae O1. Trends Microbiol., 18: 46–54
Siddique A.K., Nair G.B., Alam M., Sack D.A., Huq A., Nizam A., Longini
IM Jr., Qadri F., Faruque S.M., Colwell R.R., Ahmed S., Iqbal A.,
Bhuiyan N.A. and Sack R.B., 2010, El Tor cholera with severe disease:
a new threat to Asia and beyond, Epidemiol. Infect., 138: 347–352
