B. Cereus Cudmore-Lewis: Difference between revisions
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<br>'''Antibiotics'''<br> | <br>'''Antibiotics'''<br> | ||
Antimicrobial Activity: Negative<br> | Antimicrobial Activity: Negative<br> | ||
Drug Resistance: B. cereus produce large amounts of β lactamase and are resistant to penicillin, ampicillin, cephalosporins, trimethoprim( | Drug Resistance: B. cereus produce large amounts of β lactamase and are resistant to penicillin, ampicillin, cephalosporins, trimethoprim(8).<br> | ||
'''Significance'''<br> | '''Significance'''<br> | ||
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[[File:citrate.jpg|300px|]]<br> | [[File:citrate.jpg|300px|]]<br> | ||
Urea Test:Negative<br> | Urea Test:Negative<br> | ||
[[File:urea.jpg|300px|]]<br> | |||
Methyl Red: Negative<br> | Methyl Red: Negative<br> | ||
Voges-Proskauer: Negative<br> | Voges-Proskauer: Negative<br> | ||
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*Indole-positive | *Indole-positive | ||
*Motility-negative | *Motility-negative | ||
[[File:sim.jpg|300px|]]<br> | |||
Nitrate Test: Negative for Nitrate reduction<br> | Nitrate Test: Negative for Nitrate reduction<br> | ||
[[File:nitrate.jpg|300px|]]<br> | [[File:nitrate.jpg|300px|]]<br> | ||
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Triple Iron Sugar Agar(TSI):<br> | Triple Iron Sugar Agar(TSI):<br> | ||
*Alkaline with gas production<br> | *Alkaline with gas production<br> | ||
[[File:tsi.jpg|300px|]]<br> | |||
Decarboxylation Test:<br> | Decarboxylation Test:<br> | ||
*Arginine-Negative | *Arginine-Negative | ||
*Lysine-Positive | *Lysine-Positive | ||
*Ornithine-Negative<br> | *Ornithine-Negative<br> | ||
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Mannitol Salt Test: Positive for Mannitol Fermentation<br> | Mannitol Salt Test: Positive for Mannitol Fermentation<br> | ||
[[File:msa.jpg|300px|]]<br> | [[File:msa.jpg|300px|]]<br> | ||
Bile Esculin Test: Positive for Esculin breakdown<br> | Bile Esculin Test: Positive for Esculin breakdown<br> | ||
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6.5% Salt Tolerance Test: Positive for Salt toleration<br> | 6.5% Salt Tolerance Test: Positive for Salt toleration<br> | ||
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MacConkey Agar Test: Negative<br> | MacConkey Agar Test: Negative<br> | ||
[[File:macjpg.jpg|300px|]]<br> | [[File:macjpg.jpg|300px|]]<br> | ||
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Hektoen Enteric Agar Test: Negative<br> | Hektoen Enteric Agar Test: Negative<br> | ||
[[File:he.jpg|300px|]]<br> | [[File:he.jpg|300px|]]<br> | ||
Bacitracin Susceptibility Test:<br> | |||
* Bacitracin (A disk)- Suceptible | |||
* Optochin ( P disk)-Susceptible<br> | |||
[[File:ap1.jpg|300px|]]<br> | |||
[[File:ap2.jpg|300px|]]<br> | |||
Phenylethyl Alcohol Agar (PEA):Positive<br> | |||
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==Physiology and Pathogenesis== | ==Physiology and Pathogenesis== | ||
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6. Senesi, S., Celandroni, F., Salvetti, S., Beecher, D., Wong, A., and Ghelardi, A. “Swarming motility in Bacillus cereus and characterization of a fliY mutant impaired in swarm cell differentiation.” Microbiology. 2002. Volume 148. p. 1785-1794.<br> | 6. Senesi, S., Celandroni, F., Salvetti, S., Beecher, D., Wong, A., and Ghelardi, A. “Swarming motility in Bacillus cereus and characterization of a fliY mutant impaired in swarm cell differentiation.” Microbiology. 2002. Volume 148. p. 1785-1794.<br> | ||
7. http://cdn.phys.org/newman/gfx/news/hires/2013/structuralst.png | 7. http://cdn.phys.org/newman/gfx/news/hires/2013/structuralst.png<br> | ||
8. http://www.phac-aspc.gc.ca/lab-bio/res/psds-ftss/bacillus-cereus-eng.php | |||
==Author== | ==Author== | ||
Latest revision as of 04:33, 9 December 2016
Classification
Domain: Bacteria
Phylum: Firmicutes
Class: Bacilli
Order: Bacillales
Family: Bacillaceae
Species
|
NCBI: Taxonomy |
Bacillus cereus
B. cereus under an electron microscope(7).
Habitat Information
Soil Sample Dig Location:
Lat:30.002092
Long:-97.883009
Soil: Castephen Clay Loam/ 3-5% slopes, eroded
Description: New housing development, empty lot
Precipitation:Not within 48 hours
Temperature:70, few clouds
Depth: 1.25 inches
Visibility: 10 miles
Humidity: 59%
Wind: S 10 mph
Sea Level: 1011.8
Date & Time: September 8, 2016, 18:53
Description and Significance
Description:
Color: Yellow (mustard-like color)
Form: Circular
Margin: Entire
Consistency: Semi-mucoid
Texture: Smooth
Elevation: Raised
- A standard Gram stain was performed on the sample to observe cellular morphology.
Gram reaction: positive
Cellular morphology: very small, clustered rods
Antibiotics
Antimicrobial Activity: Negative
Drug Resistance: B. cereus produce large amounts of β lactamase and are resistant to penicillin, ampicillin, cephalosporins, trimethoprim(8).
Significance
B. cereus can be considered significant in food manufacturing, livestock health, human disease, and pharmaceutical manufacturing.
Genome Structure
The genome of B. cereus is very similar to the genome of B. anthracis (3). B. cereus has a single, circular chromosome that is 5,411,809 nt long (4).
S Ribosomal sequences obtained from PCR:
Gel Electrophoresis results from Microbiology class. Well 4 is B. cereus sample collected by Lewis and Cudmore.
Cell Structure, Metabolism and Life Cycle
B. cereus is a rod shaped, Gram positive bacteria. B. cereus is motile via flagella and produces endospores (6).
B. cereus is a facultative anaerobe. Some metabolic molecules B. cereus makes include NADH dehydrogenases, succinate dehydrogenase, complex III, non-proton-pumping cytochrome bd quinol oxidases, and proton-pumping oxidases such as cytochrome c oxidase and cytochrome aa3 quinol oxidase (5).
Other stain results:
Capsule stain: negative
Endospore stain: negative
Additional Test Results:
Gelatinase Test: Positive for Gelatinase production
Deoxyribonuclease Test: Positive for DNAse
Lipase Test: Negative
Starch Hydrolysis: Negative
Citrate (Enteric) Test: Positive
Urea Test:Negative
Methyl Red: Negative
Voges-Proskauer: Negative
Blood Agar:(α)alpha (partial hemolysis)
SIM Test:
- Sulfur-negative
- Indole-positive
- Motility-negative
Nitrate Test: Negative for Nitrate reduction
Phenylalanine Deaminase Test: Negative
Phenol Red Test:
- Lactose-Fermentation with acid/gas production
- Sucrose-fermentation with acid/gas production
- Glucose-Fermentation with acid/gas production
Casease Test: Positive for Casease
Triple Iron Sugar Agar(TSI):
- Alkaline with gas production
Decarboxylation Test:
- Arginine-Negative
- Lysine-Positive
- Ornithine-Negative
Mannitol Salt Test: Positive for Mannitol Fermentation
Bile Esculin Test: Positive for Esculin breakdown
6.5% Salt Tolerance Test: Positive for Salt toleration
MacConkey Agar Test: Negative
Eosin Methylene Blue: Negative
Hektoen Enteric Agar Test: Negative
Bacitracin Susceptibility Test:
- Bacitracin (A disk)- Suceptible
- Optochin ( P disk)-Susceptible
Phenylethyl Alcohol Agar (PEA):Positive
Physiology and Pathogenesis
The pathogenicity of B. cereus, whether intestinal or non-intestinal, is intimately associated with the production of tissue-destructive exoenzymes.Among these secreted toxins are four hemolysins, three distinct phospholipases, an emesis-inducing toxin, and proteases. (1)
B. cereus has been known to cause food-borne illness (most notably "fried-rice syndrome"), as well as skin infections (most commonly keratitis) in humans.
In some animals, B. cereus can be used as a probiotic.
B. cereus was found to be the most common contaminant in pharmaceutical manufacturing. (2)
References
1. Bottone, Edward J. “Bacillus Cereus, a Volatile Human Pathogen.” Clinical Microbiology Reviews 23.2 (2010): 382–398. PMC. Web. 7 Dec. 2016.
2. Sandle, Tim (28 November 2014). "The Risk of Bacillus cereus to Pharmaceutical Manufacturing". American Pharmaceutical Review (Paper). 17 (6): 56.
3. Ivanova, Natalia. "Genome sequence of Bacillus cereus and comparative analysis with Bacillus anthracis." Nature, vol. 423, 1 May 2003, pp. 87-91.
4. Rasko, D., Altherr, M., Han, C., and Ravel, J. “Genomics of the Bacillus cereus group of organisms.” FEMS Microbiology Reviews. 2005. Volume 29(2). p.303-329.
5. Duport, C., Zigha, A., Rosenfeld, E., and Schmitt, P. “Control of Enterotoxin Gene Expression in Bacillus cereus F4430/73 Involves the Redox-Sensitive ResDE Signal Transduction System.” Journal of Bacteriology. 2006. Volume 188. p. 6640–6651.
6. Senesi, S., Celandroni, F., Salvetti, S., Beecher, D., Wong, A., and Ghelardi, A. “Swarming motility in Bacillus cereus and characterization of a fliY mutant impaired in swarm cell differentiation.” Microbiology. 2002. Volume 148. p. 1785-1794.
7. http://cdn.phys.org/newman/gfx/news/hires/2013/structuralst.png
8. http://www.phac-aspc.gc.ca/lab-bio/res/psds-ftss/bacillus-cereus-eng.php
Author
Page authored by Carley Cudmore and Jennifer Lewis, students of Prof. Kristine Hollingsworth at Austin Community College.
