Rhodobacter sphaeroides: Difference between revisions
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==Genome structure== | ==Genome structure== | ||
Rhodobacter sphaeroides contains two distinct circular chromosomes, CⅠ(3,046kb) and CⅡ(914kb), and five endogenous plasmids (450kb). Thus, the total genome size is about 4,400kb and G+C content of its genome is 67.3 mol% and 65.7 mol% for CⅠ and CⅡ, respectively. | |||
It is revealed that a number of essential duplicate copies of R. sphaeroides are distributed between the two chromosomes. For example, one ribosomal RNA (rRNA) operon (rrnA) is found on CⅠ, while two rRNA operons (rrnB and rrnC) are on CⅡ. The difference between two chromosomes makes R. sphaeroides unique in its metabolic flexibility. Recent study found that CⅠ of R. sphaeroides has more coding abilities and conserved sequences than CⅡ. Since CⅡ is a rapidly evolving copy, it makes R. sphaeroides possible to grow in various conditions. In addition, genes on CⅡ encodes a various set of functions that are unusual for this photosynthetic organism—genes that are involved in proteins synthesis, amino acid biosynthesis, fatty acid metabolism, transcriptional regulation, energy metabolism, and structural components. | |||
==Cell structure and metabolism== | ==Cell structure and metabolism== |
Revision as of 20:28, 29 August 2007
A Microbial Biorealm page on the genus Rhodobacter sphaeroides
Classification
Higher order taxa
Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobaterales; Rhodobacteraceae; Rhodobacter; sphaeroides
Species:
Rhodobacter sphaeroides
NCBI: Taxonomy |
Description and significance
Rhodobacter sphaeroides is a rod-shaped bacterium that has an unusual single flagellum. Unlike other bacteria, the flagellum of R. sphaeroides is composed of a straight hook and hook-associated body (HBB) complexes. Due to the shape of the flagellum, it can only rotate in a clockwise direction with a fast, slow or stop mechanism. Rhodobacter sphaeroides also has a complex genome and a versatile metabolism that cannot be found in most other microorganisms. R. sphaeroides is a gram-negative purple nonsulfur phototrophic bacterium belonging to α-3 Proteobacteria. Like other species of Rhodobacter, it is a metabolically diverse organism able to grow in a wide range of lifestyles including aerobic, anaerobic, photosynthetic, and diazotrophic growth modes. It responds to environmental changes by undergoing both physiological and morphological adaptations. R. sphaeroides is also the first organism that was found to possess multiple chromosomes. This discovery was made by Suwanto and Kaplan. Having two chromosomes gives the R. sphaeroides an advantage in adapting to various conditions.
Genome structure
Rhodobacter sphaeroides contains two distinct circular chromosomes, CⅠ(3,046kb) and CⅡ(914kb), and five endogenous plasmids (450kb). Thus, the total genome size is about 4,400kb and G+C content of its genome is 67.3 mol% and 65.7 mol% for CⅠ and CⅡ, respectively. It is revealed that a number of essential duplicate copies of R. sphaeroides are distributed between the two chromosomes. For example, one ribosomal RNA (rRNA) operon (rrnA) is found on CⅠ, while two rRNA operons (rrnB and rrnC) are on CⅡ. The difference between two chromosomes makes R. sphaeroides unique in its metabolic flexibility. Recent study found that CⅠ of R. sphaeroides has more coding abilities and conserved sequences than CⅡ. Since CⅡ is a rapidly evolving copy, it makes R. sphaeroides possible to grow in various conditions. In addition, genes on CⅡ encodes a various set of functions that are unusual for this photosynthetic organism—genes that are involved in proteins synthesis, amino acid biosynthesis, fatty acid metabolism, transcriptional regulation, energy metabolism, and structural components.
Cell structure and metabolism
Describe any interesting features and/or cell structures; how it gains energy; what important molecules it produces.
Ecology
Describe any interactions with other organisms (included eukaryotes), contributions to the environment, effect on environment, etc.
Pathology
How does this organism cause disease? Human, animal, plant hosts? Virulence factors, as well as patient symptoms.
Application to Biotechnology
Does this organism produce any useful compounds or enzymes? What are they and how are they used?
Current Research
Enter summaries of the most recent research here--at least three required
References
Edited by student of Rachel Larsen