Cereus

Bacillus catarrhalis Bacillus cereus Bacillus coagulans... 

Proper refrigeration prevents the growth of some microorganisms, such as Salmonella and the production of toxins, such as Staphylococcus aureus. The growth of bacteria Tscherichia coli and Bacillus cereus is substantially checked by proper cooling and handling of milk. Table 14 Hsts diseases transmitted by cows to humans. Pasteurization is the best means of prevention. 

Bacillus cereus B. cereus gastroenteritis food poisoning... 

The following alkaloids are included in this section as simple woquinoline bases only one of them, carnegine, has been obtained from a cactus species (Cereus). 

The pharmacological action of bases from Cereus coryne Solm, Pachycereus marginatus, Trichocereus terscheki, Britton and Rose, and T. candicans B. and R., has also been recorded. T. terscheki is stated to contain trichocereine (A-dimethylmezcaline) and 3 4-dihydroxyphenyl-ethyltrimethylammonium hydroxide. The latter is probably also present in Cereus coryne. T. candicans is stated to contain hordenine (anhaline) and p-hydroxyphenylethyltrimethylammonium hydroxide (candicine). 

Cereus pecten aboriginum, 159 Cernuine, 755 Cevadilla seeds, 700 Cevadilline, 701, 705... 

These compounds showed a remarkable activity toward Gram-positive (e.g.. Bacillus cereus, Staphylococcus aureus, Sarcina luted) and Gram-negative bacteria (e.g.. Pseudomonas sp.) the activity was somewhat lower in the styryl derivatives (82MI2). 

Biological testing of these compounds against some Gram-positive and Gramnegative bacteria species showed that all prepared substances had a remarkable bacterial activity against Bacillus cereus. 

BAL—see Propan-l-ol, 2,3-dimercapto-Bacillus cereus calcium transport, 6,572 Bacillus megaterium calcium efflux, 6, 570 calcium transport, 6,572 sporulation zinc transport, 6, 572 Bacillus spp. sodium ions, 6, 559 sporulation... 

Tributyltin(IV) derivatives of six different pharmaceutically active carboxylates were synthesized and their antibacterial activities were tested using 10 different bacteria (B. cereus, C. diphtheria, E. C. ETEC, K. pneumonia, P. mirabilis, P. aeroginosa,... 

However, to date, no AMA studies have been conducted against spore-forming microorganisms. It is very important to search for a compound having action on the development of such organisms as Bacillus subtilis and B. cereus, since these microorganisms are able to withstand pasteurization conditions and contain hydrolytic enzymes, which generate off-flavor in the food. 

Changes in constructive metabolism and ultrastructural organization of Bacillus cereus cells under the action of a specific autoregulatory factor. Microbiology, Vol.48, No.2, (February 1979), pp.240-244, ISSN 1350-0872... 

Hentze H-P, Co CC, McKelvey CA, Kaler EW (2003) Templating Vesicles, Microemulsions and Lyotropic Mesophases by Organic Polymerization Processes. 226 197-223 Hergenrother PJ, Martin SE (2000) Phosphatidylcholine-Preferring Phospholipase C from B. cereus. Eunction, Structure, and Mechanism. 2ii 131 -167 Hermann C, see Kuhlmann J (2000) 211 61-116... 

Bacillus cereus Small bowel Invasion toxin... 

Mycobacteria are more resistant than other non-sporulating bacteria to a wide range of biocides. Examples of such organisms axe Mycobacterium tuberculosis, theM avium-intracellulare (MAI) group andM. chelonae (M. chelonei). Of the bacteria, however, the most resistant of all to biocides are bacterial spores, e.g. Bacillus subtilis, B. cereus. 

Benzylpeniclllint 1 Ampicillin J /5-Lactamase from Bacillus cereus... 

Lactamases Bacillus cereus (or other bacteria, as appropriate) Sterility testing, treatment of penicillin-induced allergic reaction 2.4.4, 4.5... 

Bacillus cereus degrades (45) to acetaldehyde with fission of the C—P bond. An enzyme which catalyses the decomposition of phosphono-acetaldehyde (47), an intermediate in this degradation to acetaldehyde, has been characterized. The enzyme will only degrade (47) and will not breakdown a number of other phosphonates, including phosphonomycin (48). ... 

Cerniglia CE, JP Ereeman, EE Evans (1984) Evidence for an arene oxide-NIH shift pathway in the transformation of naphthalene to 1-naphthol hy Bacillus cereus. Arch Microbiol. 138 283-286. 

The biotransformation of gylcerol trinitrate by strains of Bacillus thuringiensis/cereus or Enterobacter agglomerans (Meng et al. 1995), by strains of Pseudomonas sp., and some Entero-bacteriaceae (Blehert et al. 1997) involves the expected successive loss of nitrite with the formation of glycerol. The biotransformation of pentaerythritol tetranitrate by Enterobacter cloacae proceeds comparably with metabolism of two hydroxymethyl groups produced by loss of nitrite to the aldehyde (Binks et al. 1996). 

Meng M, W-Q Sun, LA Geelhaar, G Kumar, AR Patel, GF Payne, MK Speedie, JR Stacy (1995) Denitration of glycerol trinitrate by resting cells and cell extracts of Bacillus thuringiensis/cereus and Enterobacter agglomerans. Appl Environ Microbiol 61 2548-2553. 

La Nauze JM, H Rosenberg (1968) The identification of 2-phosphonoacetaldehyde as an intermediate in the degradation of 2-aminoethylphosphonate by Bacillus cereus. Biochim Biophys Acta 165 438-447. 

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