Staphylococcus roseus: Difference between revisions

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Genome Structure
Genome Structure
   
   
Cell Structure and Metabolism
Cell Structure and Metabolism


Staphylococcus roseus is a non-motile gram positive cocci that is coagulase negative. The cocci are usually clustered in groups of 4. It gets its name “roseus” from the cultures pigment. Cultures exhibit circular colonies that are convex in shape, and smooth and dry texture. S. roseus is an obligate aerobe. S. roseus creates a alkaline in glucose, but cannot utilize sucrose or lactose. Likewise, S. roseus is able to hydrolyze casein, triglycerides, and starch but not phospholipids. S. roseus also cannot utilize citrate as a carbon source.  Also, S. roseus can be induced to create lysine decarboxylase. S. roseus does not have Cytochrome C as its terminal electron acceptor in its electron transport chain which reveals that it is a staphylococcus, not a micrococcus. S. roseus can break hydrogen peroxide into oxygen and water with catalase. The optimum temperature for growth is around 25 °C.  
Staphylococcus roseus is a non-motile gram positive cocci that is coagulase negative. The cocci are usually clustered in groups of 4. It gets its name “roseus” from the cultures pigment. Cultures exhibit circular colonies that are convex in shape, and smooth and dry texture. S. roseus is an obligate aerobe. S. roseus creates a alkaline in glucose, but cannot utilize sucrose or lactose. Likewise, S. roseus is able to hydrolyze casein, triglycerides, and starch but not phospholipids. S. roseus also cannot utilize citrate as a carbon source.  Also, S. roseus can be induced to create lysine decarboxylase. S. roseus does not have Cytochrome C as its terminal electron acceptor in its electron transport chain which reveals that it is a staphylococcus, not a micrococcus. S. roseus can break hydrogen peroxide into oxygen and water with catalase. The optimum temperature for growth is around 25 °C.  
The inability of the bacterium to utilize oxidase reveals it belongs to the genus Staphylococcus.





Revision as of 03:06, 23 April 2009

Classification

Higher order taxa Bacteria; Firmicutes; Bacilli; Bacillales; Staphylococcaceae;

Species

Staphylococcus roseus

Description and Significance

Staphylococcus roseus is a light red to red colored bacterium.


Genome Structure

Cell Structure and Metabolism

Staphylococcus roseus is a non-motile gram positive cocci that is coagulase negative. The cocci are usually clustered in groups of 4. It gets its name “roseus” from the cultures pigment. Cultures exhibit circular colonies that are convex in shape, and smooth and dry texture. S. roseus is an obligate aerobe. S. roseus creates a alkaline in glucose, but cannot utilize sucrose or lactose. Likewise, S. roseus is able to hydrolyze casein, triglycerides, and starch but not phospholipids. S. roseus also cannot utilize citrate as a carbon source. Also, S. roseus can be induced to create lysine decarboxylase. S. roseus does not have Cytochrome C as its terminal electron acceptor in its electron transport chain which reveals that it is a staphylococcus, not a micrococcus. S. roseus can break hydrogen peroxide into oxygen and water with catalase. The optimum temperature for growth is around 25 °C.


Ecology


Pathology


Current Research

Currently, research is being done to better distinguish the differences between the genera Micrococcus, Staphylococcus, and Sarcina. Because the G+C ratio found in S. roseus is about 72-72.8%, which leads scientists to believe that these species are more closely related to the genus Micrococcus, instead of Staphylococcus. As of now the deciding factor of what characteristics belong to what group is determined by the utilization of Oxidase, which reveals the presence of Cytochrome C. Micrococcus is oxidase positive, while Staphylococcus is oxidase negative.



References

"Deoxyribonucleic acid base composition of some micrococci and sarcinae." Deoxyribonucleic acid base composition of some micrococci and sarcinae 1966th ser. 32: 192-96.

Geary, Colin, and Michael Stevens. "Rapid Lysostaphin Test to Differentiate Staphylococcus and." Rapid Lysostaphin Test to Differentiate Staphylococcus and 6th ser. 6 (1985): 1044-045.

Hwang, Joseph, and Betzaida Maya. Microbiology Lab- Unknown: Staphylococcus roseus. Raw data. Loyola University Chicago, Chicago. 23 Apr. 2009.

Jones, Dorothy, R. H. Diebel, and C. F. Niven Jr. "Identity of Staphylococcus epidermis." Identity of Staphylococcus epidermis (1962): 62-68.