Bibliography

Super-integrons petit triangle
puce jaune Introduction
puce jaune Bibliography
puce jaune Lab. Publications
puce jaune Laboratory Data
puce jaune Useful Links

  1. Aragone, M. R., D. M. Maurizi, L. O. Clara, J. L. Navarro-Estrada, and
 A. Ascione. 1992.  
 Pseudomonas mendocina, an environmental bacterium isolated from a patient
 with human infective endocarditis.  
 Journal of Clinical Microbiology. 30(6):1583-1584.

 2. Bag, P., S. Nandi, R. K. Bhadra, T. Ramamurthy, S. K. Bhattacharya, M. Nishibuchi, T.
 Hamabata, S. Yamasaki, Y. Takeda, and G. B. Nair. 1999.  
 Clonal diversity among recently emerged strains of Vibrio parahaemolyticus O3:K6
 associated with pandemic spread.  
 Journal of Clinical Microbiology. 37(7):2354-2357.

 3. Barker, A., C. A. Clark, and P. A. Manning. 1994.  
 Identification of VCR, a repeated sequence associated with a locus encoding a
 hemagglutini in Vibrio cholerae O1.  
 Journal of Bacteriology. 176:5450-5458.

 4. Blake, P. A., R. E. Weaver, and D. G. Hollis. 1980.  
 Diseases of humans (other than cholera) caused by vibrios.  
 Annual Reviews of Microbiology. 34:341-367.

 5. Bunny, K. L., R. M. Hall, and H. W. Stokes. 1995.
 New mobile gene cassettes containing an aminoglycoside resistance gene, aacA7, and a
 chloramphenicol resistance gene, catB3, in an integron in pBWH301.
 Antimicrob. Agents Chemother. 39:686-693.

 6.DiChristina, T. J., and E. F. DeLong. 1993.  
 Design and application of rRNA-targeted oligonucleotide probes for the dissimilatory iron-
 and manganese-reducing bacterium Shewanella putrefaciens.  
 Applied and Environmental Microbiology. 59:4152-60.

 7.Gonzalez-Pastor, J. E., J. L. San Millan, M. A. Castilla, and F. Moreno. 1995.  
 Structure and organization of plasmid genes required to produce the translation inhibitor
 microcin C7.  
 Journal of Bacteriology. 177(24):7131-40.

 8.Hall, R. M. 1997.  
 Mobile gene cassettes and integrons: moving antibiotic resistance genes in gram-negative
 bacteria.  
 Ciba Foundation Symposium. 207:192-202; discussion 202-5.

 9. Hall, R. M., and C. M. Collis. 1998.  
 Antibiotic resistance in gram-negative bacteria: the role of gene cassettes and integrons
 [Review].  
 Drug Resistance Updates. 1(2):109-119.

 10 .Hall, R. M., and H. W. Stokes. 1993.  
 Integrons: novel DNA elements which capture genes by site-specific recombination.  
 Genetica. 90(2-3):115-32.

 11 .Hauben, L., L. Vauterin, J. Swings, and E. R. Moore. 1997.
 Comparison of 16S ribosomal DNA sequences of all Xanthomonas species.  
 International Journal of Systematic Bacteriology. 47(2):328-35.

 12 .Honda, S., I. Goto, I. Minematsu, N. Ikeda, N. Asano, M. Ishibashi, Y. Kinoshita, M.
 Nishibuchi, T. Honda, and T. Miwatani. 1987.  
 Gastroenteritis due to Kanagawa-negative  
 Vibrio parahaemolyticus. Lancet. 1:331-332.

 13 .Kusuda, R., and F. Salati. 1993.  
 Major bacterial diseases affecting mariculture in Japan.  
 Annual Review of Fish Diseases. 3:69-85.

 14 .Lee, C. A. 1996.
 Pathogenicity islands and the evolution of bacterial pathogens.  
 Infectious Agents and Disease. 5:1-7.

 15 .Lehnherr, H., E. Maguin, S. Jafri, and M. B. Yarmolinsky. 1993.  
 Plasmid addiction genes of bacteriophage P1: doc, which causes cell death on curing of
 prophage, and phd, which prevents host death when prophage is retained.  
 Journal of Molecular Biology. 233(3):414-28.

 16 .Levesque, C., S. Brassard, J. Lapointe, and P. H. Roy. 1994.
 Diversity and relative strength of tandem promoters for the antibiotic-resistance genes of
 several integrons.  
 Gene. 142(1):49-54.

 17 .Manning, P. A., C. A. Clark, and T. Focareta. 1999.  
 Gene capture in Vibrio cholerae.  
 Trends in Microbiology. 7(3):93-95.

 18 .Martinez, E., and F. de la Cruz. 1990.  
 Genetic elements involved in Tn21 site-specific integration, a novel mechanism for the
 dissemination of antibiotic resistance genes.  
 The EMBO Journal. 9:1275-1281.

 19 .Mazel, D., B. Dychinco, V. A. Webb, and J. Davies. 1998.  
 A Distinctive Class of Integron In the Vibrio Cholerae Genome.  
 Science. 280(5363):605-608.

 20. Myers, C. R., and K. H. Nealson. 1990.  
 Respiration-linked proton translocation coupled to anaerobic reduction of manganese(IV)
 and iron(III) in Shewanella putrefaciens MR-1.
 Journal of Bacteriology. 172:6232-6238.

 21 .Ouellette, M., L. Bissonnette, and P. H. Roy. 1987.  
 Precise insertion of antibiotic resistance determinants into Tn21-like transposons:
 nucleotide sequence of the OXA-1 beta-lactamase gene.  
 Proceedings of the National Academy of Sciences of the United States of America.
 84(21):7378-82.

 22. Ploy, M. C., P. Courvalin, and T. Lambert. 1998.  
 Characterization of In40 of Enterobacter aerogenes BM2688, a class 1 integron with two
 new gene cassettes, cmlA2 and qacF.  
 Antimicrobial Agents and Chemotherapy. 42(10):2557-2563.

 23. Recchia, G. D., and R. M. Hall. 1997.  
 Origins of the mobile gene cassettes found in integrons.  
 Trends in Microbiology. 5(10):389-94.

 24.Rowe-Magnus, D. A., and D. Mazel. 1999.  
 Resistance gene capture.  
 Current Opinion in Microbiology. 2:483-488.

 25. Stenstrom, I. M., and G. Molin. 1990.  
 Classification of the spoilage flora of fish, with special reference to Shewanella
 putrefaciens.  
 Journal of Applied Bacteriology. 68:601-618.

 26. Stokes, H. W., and R. M. Hall. 1989.  
 A novel family of potentially mobile DNA elements encoding site-specific gene-integration
 functions: integrons.  
 Molecular Microbiology. 3(12):1669-83.

 27. Sundstrom, L. 1998.  
 The potential of integrons and connected programmed rearrangements for mediating
 horizontal gene transfer.  
 APMIS. Supplementum. 84:37-42.

 28. Sundström, L., P. Radström, G. Swedberg, and O. Sköld. 1988.  
 Site-specific recombination promotes linkage between trimethoprim- and sulfonamide
 resistance genes. Sequence characterization of dhfrV and sulI and a recombination active
 locus of Tn21.  
 Molecular and General Genetics. 213(2-3):191-201.

 29. Vaisvila, R., R. Morgan, and E. Raleigh. 1999.  
 The pacIR gene resides within a potential super-integron in the Pseudomonas alcaligenes
 genome.  
 IXth international congress of bacteriology and applied microbiology, Sidney, 1999.

 30 .Valenstein, P., G. H. Bardy, C. C. Cox, and P. Zwadyk. 1983.  
 Pseodomonas alcaligenes endocarditis.
 American Journal of Clinical Pathology. 79(2):245-247.

 31 .Van den Mooter, M., J. Swings, F. Gossele, K. Kersters, and J. De Ley. 1987.  
 The taxanomy of Xanthamonas  
 Dowson 1939., p. 795-796.  
 In E. L. Civerolo, A. Collmer, R. E. Davis, and A. G. Gillaspie (ed.),
 Plant pathogenis bacteria. Martinus Nijhoff, Boston, MA.

 

Webmaster : Philippe Bouige   pbouige@pasteur.fr tel : 01 45 68 88 32
secretariat : Ana Cova-Rodrigues   acova@pasteur.fr tel : 01 45 68 88 30