SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Article References

PEREZ PORTUONDO, Irasema. Bacillus cereus y su papel en las intoxicaciones alimentarias. Rev. cub. salud pública [online]. 2012, vol.38, n.1, pp. 98-108. ISSN 0864-3466.  http://dx.doi.org/10.1590/S0864-34662012000100010.

    1. Kramer JM, Gilbert RJ. Bacillus cereus gastroenteritis. En: Tu AT, editor. Food Poisoning. Handbook of Natural Toxins. Vol 7. New York: Marcel Dekker Inc.; 1992. p. 119-53. [ Links ]

    2. Ministry of Health. Bacillus cereus [Internet].New York: Minister of Health [citado 22 Ene 2004]. Available from: http://healthvermont.gov/enviro/ph_lab/MicrobiologyHomePage.aspx#TB [ Links ]

    3. Helgason E, Økstad OA, Caugant DA, Johansen HA, Fouet A. Bacillus anthrax, Bacillus cereus, and Bacillus thuringiensis. One species on the basis of genetic evidence. App Environ Microbiol. 2000;66:2627-30. [ Links ]

    4. Kotiranta A, Lounatmaa K, Haapasalo M. Epidemiology and pathogenesis of Bacillus cereus infections. Microb Infect. 2000;2:189-98. [ Links ]

    5. Mckillip JL. Prevalence and expression of enterotoxins in Bacillus cereus and other Bacillus spp., a a literature review. Antonie van Leeuwenhoek. 2000;77:393-9. [ Links ]

    6. Food Poison [Internet]. [citado 21 Jul 2005]. Available from: http://www5.geometry.net/detail/health_conditions /food_poisoning_page_no_6.html [ Links ]

    7. Agata N, Ohta M, Mori M, Isobe M. A novel dodecadepsipeptide, cereulide, is an emetic toxin of Bacillus cereus. FEMS Microbiol Lett. 1995;129:17-20. [ Links ]

    8. Andersen GI, Skeie M, Sørhaug T, Langsrud T, Granum PE. Growth and toxin profiles of Bacillus cereus isolated from different food sources. Int J Food Microbiol. 2001;69:237-46. [ Links ]

    9. Wijnands LM, Dufrenne JB, van Leusden FM. The pathogenic mechanism of the diarrheal syndrome caused by Bacillus cereus. RIVM report [Internet]. 2001/2002 [citado 6 Ene 2006]. Available from: http://www.rivm.nl/bibliotheek/rapporten/250912001.pdf [ Links ]

    10. Beecher DJ, Schoeni JL, Wong ACL. Enterotoxic activity of hemolysin BL from Bacillus cereus. Infect Immunol. 1995;63:4423-8. [ Links ]

    11. Dressman JB, Berardi RR, Dermentzoglou LC, Russell TL, Schmaltz SP, Barnett JL, et al. Upper gastrointestinal (GI) pH in young, healthy men and women. Pharmaceutical Res. 1990;7:756-61. [ Links ]

    12. Belaiche J. Pathophysiology of acute infectious diarrhea. Acta Endoscopic. 2000;30:177-84. [ Links ]

    13. Powell DW. Enterogenic diarrea: mechanisms and prospects for therapy. In: Dorner F, Drew J, editors. Pharmacology of bacterial toxins. Oxford: Pergamon;1987. p. 173-83. [ Links ]

    14. Laohachai KN, Bahadi R, Hardo MB, Kourie JI. The role of bacterial and non-bacterial toxins in the induction of changes in membrane transport: implications for diarrhea. Toxicol. 2003;42:687-707. [ Links ]

    15. Stalheim T, Granum PE. Characterization of spores appendages from Bacillus cereus strains. J App Microbiol. 2001;91:839-45. [ Links ]

    16. Andersson MA, Mikkola R, Helin J, Andersson CM, Salkinoja-Salonen M. A novel sensitive bioassay for detection of Bacillus cereus emetic toxin and related depsipeptide ionophores. App Environ Microbiol. 1998;64:1338-43. [ Links ]

    17. Beattie SH, Williams AG. Detection of toxigenic strains of Bacillus cereus and other Bacillus spp. with an improved cytotoxicity assay. Lett App Microbiol. 1999;28:221-5. [ Links ]

    18. Mikami T, Horikawa T, Murakami T, Matsumoto T, Yamatawa A. An improved method for detecting cytostatic toxin (emetic toxin) of Bacillus cereus ant its application to foods samples. FEMS Microbiol Lett. 1994;119:53-8. [ Links ]

    19. Altayar M, Sutherland AD. Bacillus cereus is common in the environment but emetic toxic producing isolates are rare. J Appl Microbiol. 2006;100(1):7-14. [ Links ]

    20. Ehling Schulz M, Svensson B, Guinebretiere MH, Lindback T, Schultz A. Emetic toxic formation of Bacillus cereus is restricted to a single evolutionary lineage of clearly related strains. Microbiol. 2005;151:183-97. [ Links ]

    21. Rowan NJ, Anderson JG. Growth and enterotoxin production by diarrhoeagenic Bacillus cereus in dietary supplements prepared for hospitalised HIV patients. J Hosp Infect. 1998;38:139-46. [ Links ]

    22. Jackson SG, Goodbrand RB, Ahmed R, Kasatiya S. Bacillus cereus and Bacillus thuringiensis isolated in a gastroenteritis outbreak investigation. Lett Appl Microbiol. 1995;21:103-5. [ Links ]

    23. Hansen BM, Hendriksen NB. Detection of Enterotoxic Bacillus cereus and Bacillus thuringiensis Strains by PCR Analysis. App Environ Microbiol. 2001;67(1):185-9. [ Links ]

    24. Phelps RJ, McKillip JL. Enterotoxin Production in Natural Isolates of Bacillaceae outside the Bacillus cereus Group. App Environ Microbiol. 2002;68(6):3147-51. [ Links ]

    25. TeGiffel MC, Beumer RR, Klijn N, Wagendorp A, Rombouts FM. Discrimination between Bacillus cereus and Bacillus thuringiensis using specific DNA probes based on variable regions of 16S rRNA. FEMS Microbiol Lett. 1997;146:47-51. [ Links ]

    26. Turnbull PCB, Jørgensen K, Kramer JM, GilbertRJ, Parry JM. Several clinical conditions associated with Bacillus cereus and apparent involvement of exotoxins. J Clin Pathol. 1979;32:89-293. [ Links ]

    27. Madgwick PJ, Waley SG. b-lactamasa I from Bacillus cereus. Biochem J. 1987;248:657-62. [ Links ]

    28. Orellano EG, Girardini JE, Ceccarelli EA, Vila AJ. Spectroscopic Characterization of a bionuclear metal site in Bacillus cereus b-lactamasa II. Biochemistry. 1998;37:10173-80. [ Links ]

    29. Nielsen JBK, Lampen JO. b-lactamasa III of Bacillus cereus 569: Membrane lipoprotein and secreted protein. Biochemistry. 1983;22:4652-6. [ Links ]

    30. Wasny TK, Mummaw N, Styrt B. Desgranulation of human neutrophils after exposure to bacterial phospholipase C. Eur J Clin Infect Dis. 1990;9:830-2. [ Links ]

    31. Firth JD, Putnins EE, Larjava H, Uitto VJ. Bacterial phospholipase C upregulates matrix metalloproteinase expression by cultured epithelial cells. Infect Immunol. 1997;65:4931-6. [ Links ]

    32. Heinz DW, Essen LO, William RL. Structural and mechanistic comparison of prokaryotic and eukaryotic phosphoinositide-specific phospholipases C. J Mol Biol. 1998;275:635-50. [ Links ]

    33. Granum PE. Bacillus cereus and its toxins. J Appl Bacteriol Symp Suppl. 1994;76:61S-6S. [ Links ]

    34. Baida GE, Kuzmin NP. Mechanism of action of hemolysin III from Bacillus cereus. Biochim Biophys Acta. 1996;1284:122-4. [ Links ]

    35. Vasil M. Pseudomona aeruginosa. Phospholipases and phospholipids. In: Ramos JL, Levesque R, editors. Pseudomonas. Vol 4. Molecular Biology of emerging issues. New York: Springer; 2006. p. 367. [ Links ]

    36. Guddal PH, JohansenT, Schulstad K, Little C. Apparent phosphate retrieval system in Bacillus cereus. J Bacteriol. 1989;171:5702-6. [ Links ]

    37. Lereclus D, Agaisse H, Gominet M, Salamitou S, Sanchis V. Identification of a Bacillus thuringiensis gene that positively regulates transcription of the phosphatidylinositol specific phospholipase C gene at the onset of the stationary phase. J Microbiol. 1996;178:2749-56. [ Links ]

    38. Margulis L, Jorgensen JZ, Dola S, Kolchinsky R, Rainey FA, Lo S. The arthromitus stage of Bacillus cereus: Intestinal symbionts of animals. Microbiol. 1998;95:1236-41. [ Links ]

    39. Barth H, Aktories K, Popoff MR, Stiles BG. Binary bacterial toxins: Biochemistry, biology and applications of common Clostridium and Bacillus proteins. Microbiol Molec Biol Rev. 2004;171:5702-6. [ Links ]