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Geographical structure and host specificity in bacteria and the implications for tracing the source of coliform contamination, Page 1 of 1

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2001-05-01
2020-01-26
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References

  1. Bouzar H., Jones J. B., Stall R. E., Louws F. J., Schneider M., Rademaker J. L. W., Jackson L. E, de Bruijn F. J.. 1999; Multiphasic analysis of xanthomonads casuing bacterial spot disease on tomato and pepper in the Caribbean and Central America: evidence for common lineages within and between countries. Phytopathology89:328–335[CrossRef]
    [Google Scholar]
  2. Caugant D. A., Levin B. R., Selander R. K. 1981; Genetic diversity and temporal variation in the E. coli populations of a human host. Genetics98:467–490
    [Google Scholar]
  3. Caugant D. A., Levin B. R., Selander R. K. 1984; Distribution of multilocus genotypes of Escherichia coli within and between host families. J Hyg92:377–384[CrossRef]
    [Google Scholar]
  4. Cornuet J., Piry S., Luikart G., Estoup A., Solignac M. 1999; New methods employing multilocus genotypes to select or exclude populations as origins of individuals. Genetics153:1989–2000
    [Google Scholar]
  5. Dombek P. E., Johnson L. K., Zimmerley S. T., Sadowsky M. J. 2000; Use of repetitive DNA sequences and the PCR to differentiate Escherichia coli isolates from human and animal sources. Appl Environ Microbiol66:2572–2577[CrossRef]
    [Google Scholar]
  6. Gordon D. M. 1997; The genetic structure of Escherichia coli populations in feral house mice. Microbiology143:2039–2046[CrossRef]
    [Google Scholar]
  7. Gordon D. M., FitzGibbon F. 1999; The distribution of enteric bacteria among Australian mammals. Microbiology145:2663–2671
    [Google Scholar]
  8. Gordon D. M., Lee J. 1999; The genetic structure of enteric bacteria from Australian mammals. Microbiology145:2673–2682
    [Google Scholar]
  9. Gordon D. M., Riley M. A., Pinou T. 1998; Temporal changes in the frequency of colicinogeny in Escherichia coli from house mice. Microbiology144:2233–2240[CrossRef]
    [Google Scholar]
  10. Goullet P., Picard B. 1986; Comparative esterase electrophoretic polymorphism of Escherichia coli isolates obtained from animal and human sources. J Gen Microbiol132:1843–1851
    [Google Scholar]
  11. Guttman D. S., Dykuizen D. E. 1994; Clonal divergence in Escherichia coli as a result of recombination, not mutation. Science266:1380–1383[CrossRef]
    [Google Scholar]
  12. Hartl D. L., Dykhuizen D. E. 1984; The population genetics of Escherichia coli . Annu Rev Genet18:31–68[CrossRef]
    [Google Scholar]
  13. Haubold B., Rainey P. B. 1996; Genetic and ecotypic structure of a fluorescent Pseudomonas population. Mol Ecol5:747–761[CrossRef]
    [Google Scholar]
  14. Herzer P. J., Inouye S., Inouye M., Whittam T. S. 1990; Phylogenetic distribution of branched RNA-linked mulitcopy single-stranded DNA among natural isolates of Escherichia coli . J Bacteriol172:6175–6181
    [Google Scholar]
  15. Istock C. A., Duncan K. E., Ferguson N., Zhou X. 1992; Sexuality in a natural population of bacteria – Bacillus subtilis challenges the clonal paradigm. Mol Ecol1:95–103[CrossRef]
    [Google Scholar]
  16. Johnson J. R., Stell A. L. 2000; Extended virulence genotypes of Escherichia coli strains from patients with urosepsis in relation to phylogeny and host compromise. J Infect Dis181:261–272[CrossRef]
    [Google Scholar]
  17. Johnson J. R., Brown J. J., Carlino U. B., Russo T. A. 1998; Colonization with and acquisition of uropathogenic Escherichia coli as revealed by polymerase chain reaction-based detection. J Infect Dis177:1120–1124[CrossRef]
    [Google Scholar]
  18. Johnson J. R., Delavari P., Kuskowski M., Stell A. L. 2001; Phylogenetic distribution of extraintestinal virulence-associated traits in Escherichia coli . J Infect Dis183:78–88[CrossRef]
    [Google Scholar]
  19. Maynard Smith J., Smith N. H., O’Rourke M., Spratt B. G. 1993; How clonal are bacteria?. Proc Natl Acad Sci USA90:4384–4388[CrossRef]
    [Google Scholar]
  20. Milkman R. 1973; Electrophoretic variation in Escherichia coli from natural sources. Science182:1024–1026[CrossRef]
    [Google Scholar]
  21. Parveen S., Murphree R. L., Edminston L., Kasper C. W., Portier K. M., Tamplin M. L. 1997; Association of multiple-antibiotic resistance profiles with point and nonpoint sources of Escherichia coli in Apalachicola Bay. Appl Environ Microbiol63:2607–2612
    [Google Scholar]
  22. Parveen S., Portier K. M., Robinson K., Edmiston L., Tamplin M. L. 1999; Discriminant analysis of ribotype profiles of Escherichia coli for differentiating human and nonhuman sources of fecal pollution. Appl Environ Microbiol65:3142–3147
    [Google Scholar]
  23. Picard B., Sevali Garcia J., Gouriou S., Duriez P., Brahimi N., Bingen E., Elion J., Denamur E. 1999; The link between phylogeny and virulence in Escherichia coli extra-intestinal infection. Infect Immun67:546–553
    [Google Scholar]
  24. Pupo G. M., Richardson B. J. 1995; Biochemical genetics of a natural population of Escherichia coli : seasonal changes in alleles and haplotypes. Microbiology141:1037–1044[CrossRef]
    [Google Scholar]
  25. Pupo G. M., Karaolis D. K. R., Lan R., Reeves P. R. 1997; Evolutionary relationships among pathogenic and nonpathogenic Escherichia coli inferred from multilocus enzyme electrophoresis and mdh sequence studies. Infect Immun65:2685–2692
    [Google Scholar]
  26. Reid S. D., Herbelin C. J., Bumbaugh A. C., Selander R. K., Whittam T. S. 2000; Parallel evolution of virulence in pathogenic Escherichia coli . Nature406:64–67[CrossRef]
    [Google Scholar]
  27. Routman E., Miller R. D., Philips-Conroy J., Hartl D. L. 1985; Antibiotic resistance and population structure in Escherichia coli from free-ranging African yellow baboons. Appl Environ Microbiol50:749–754
    [Google Scholar]
  28. Savageau M. A. 1983; Escherichia coli habitats, cell types, and molecular mechanisms of gene control. Am Nat122:732–744[CrossRef]
    [Google Scholar]
  29. Selander R. K., Levin B. R. 1980; Genetic diversity and structure in Escherichia coli . Science210:545–547[CrossRef]
    [Google Scholar]
  30. Selander R. K., Caugant D. A., Whittam T. S. others 1987; Genetic structure and variation in natural populations of Escherichia coli . In Escherichia coli and Salmonella typhimurium: Cellular and Molecular Biology pp1625–1648 Edited by Neidhardt F. C.. Washington, DC: American Society for Microbiology;
    [Google Scholar]
  31. Siitonen A. 1994; What makes Escherichia coli pathogenic. Ann Med4:229–231
    [Google Scholar]
  32. Silva C., Eguiarte L. E., Souza V. 1998; Reticulated and epidemic population genetic structure of Rhizobium etli biovar phaseoli in a traditionally managed locality in Mexico. Mol Ecol8:277–287
    [Google Scholar]
  33. Souza V., Rocha M., Valera A., Eguiarte L. E. 1999; Genetic structure of natural populations of Escherichia coli in wild hosts on different continents. Appl Environ Microbiol65:3373–3385
    [Google Scholar]
  34. Spratt B. G., Maiden M. C. 1999; Bacterial population genetics, evolution and epidemiology. Philos Trans R Soc Lond B Biol Sci354:701–710[CrossRef]
    [Google Scholar]
  35. Wells J. G., Shipman L. D., Greene K. D.. 7 other authors 1991; Isolation of Escherichia coli serotype O157: H7 and other Shiga-like-toxin-producing E. coli from dairy cattle. J Clin Microbiol29:985–989
    [Google Scholar]
  36. Wernegreen J. J., Harding E. E., Riley M. A. 1997; Rhizobium gone native: unexpected plasmid stability of indigenous Rhizobium leguminosarum . Proc Natl Acad Sci USA94:5483–5488[CrossRef]
    [Google Scholar]
  37. Whittam T. S. 1989; Clonal dynamics of Escherichia coli in its natural habitat. Antonie Leeuwenhoek55:23–32[CrossRef]
    [Google Scholar]
  38. Whittam T. S., Ochman H., Selander R. K. 1983; Geographic components of linkage disequilibrium in natural populations of Escherichia coli . Mol Biol Evol1:67–83
    [Google Scholar]
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