Thermoproteous tenax: Difference between revisions
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==Description and Significance== | ==Description and Significance== | ||
<i> Thermoproteus tenax </i> is a hyperthermophilic archaeal organism first discovered in volcanic fields in Iceland (Zillig et al., 1981). It is a strict anaerobe that is notable for its ability to grow both chemolithoautotrophically and chemoorganoheterotrophically (Siebers et al., 2011). It is dependent on sulfur for growth, which functions as its final electron receptor (Siebers et al., 2011). | <i> Thermoproteus tenax </i> is a hyperthermophilic archaeal organism first discovered in volcanic fields in Iceland, known as solfataras (Zillig et al., 1981). It is a strict anaerobe that is notable for its ability to grow both chemolithoautotrophically and chemoorganoheterotrophically (Siebers et al., 2011). It is dependent on sulfur for growth, which functions as its final electron receptor (Siebers et al., 2011). | ||
<i> Thermoproteus tenax </i> is rod shaped with variable length and encompassed by a protein S-layer with a hexagonal lattice structure (Wildhaber and Baumeister, 1987). It is unique in that it is the first member of the Thermoproteus genus to have a fully sequenced genome (Siebers et al., 2011). | <i> Thermoproteus tenax </i> is rod shaped with variable length and encompassed by a protein S-layer with a hexagonal lattice structure (Wildhaber and Baumeister, 1987). It is unique in that it is the first member of the Thermoproteus genus to have a fully sequenced genome (Siebers et al., 2011). | ||
Revision as of 10:29, 16 November 2023
Classification
Domain; Phylum; Class; Order; family [Others may be used. Use NCBI link to find]
Species
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NCBI: [1] |
Thermoproteus tenax
Description and Significance
Thermoproteus tenax is a hyperthermophilic archaeal organism first discovered in volcanic fields in Iceland, known as solfataras (Zillig et al., 1981). It is a strict anaerobe that is notable for its ability to grow both chemolithoautotrophically and chemoorganoheterotrophically (Siebers et al., 2011). It is dependent on sulfur for growth, which functions as its final electron receptor (Siebers et al., 2011).
Thermoproteus tenax is rod shaped with variable length and encompassed by a protein S-layer with a hexagonal lattice structure (Wildhaber and Baumeister, 1987). It is unique in that it is the first member of the Thermoproteus genus to have a fully sequenced genome (Siebers et al., 2011).
Genome Structure
The genome of Thermoproteus tenax is 1,841,542 base pairs long and contains 91 unique open reading frames (Siebers et al., 2011). The single circular chromosome contains 2,051 protein-encoding open reading frames with an average length of 813 base pairs and a predicted 1,552 assigned functions (Siebers et al., 2011). It has an average GC content of 55.13%, which is higher than average for the archaea domain (Siebers et al., 2011; Li and Du, 2014). For each of the genes encoding for ribosomal RNA (23S, 16S, and 5S), only one copy is present in the genome (Siebers et al., 2011).
Cell Structure, Metabolism and Life Cycle
Interesting features of cell structure; how it gains energy; what important molecules it produces.
Ecology and Pathogenesis
Habitat; symbiosis; biogeochemical significance; contributions to environment.
If relevant, how does this organism cause disease? Human, animal, plant hosts? Virulence factors, as well as patient symptoms.
References
Author
Page authored by Audrey Groves, student of Prof. Bradley Tolar at UNC Wilmington.
