Acidithiobacillus thiooxidans: Difference between revisions

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=References=
=References=
Fazzini, Roberto A.B.; Cortes, Maria P.; Padilla, Leandro; Maturana, Daniel; Budinich, Marko; Maass, Alejandro; Parada, Pilar (2013). "Stoichiometric modeling of oxidation of reduced inorganic sulfur compounds (RISCs) in Acidithiobacillus thiooxidans". Biotechnology and Bioengineering. 110 (8): 2242–2251. doi:10.1002/bit.24875.
Hansford, G. S.; T. Vargas (February 2001). "Chemical and electrochemical basis of bioleaching processes". Hydrometallurgy. 59 (2–3): 135–145. doi:10.1016/S0304-386X(00)00166-3. Retrieved 11 November 2013.
Jones, Daniel S (March 2005). "Geomicrobiology of highly acidic, pendulous biofilms ("snottites") from the Frasassi Caves, Italy" (PDF). www.carleton.edu. Carleton College. Retrieved 9 November 2013.
Jones, Daniel S; Heidi L Albrecht; Katherine S Dawson; Irene Schaperdoth; Katherine H Freeman; Yundan Pi; Ann Pearson; Jennifer L Macalady (January 2012). "Community genomic analysis of an extremely acidophilic sulfur-oxidizing biofilm". ISME Journal. 6 (1): 158–170. doi:10.1038/ismej.2011.75. PMC 3246232free to read. PMID 21716305.
Khan, Shahroz; Haq, Faizul; Hasan, Fariha; Saeed, Kausar; Ullah, Rahat (2012). “Growth and Biochemical Activities of Acidithiobacillus thiooxidans Collected from Black Shale”. Journal of Microbiology Research 2012, 2(4): 78-83 DOI: 10.5923/j.microbiology.20120204.03.
Kelly, Donovan P.; Wood, Ann P. (2000). "Reclassification of some species of Thiobacillus to the newly designated genera Acidithiobacillus gen. nov., Halothiobacillus gen. nov. and Thermithiobacillus gen. nov". International Journal of Systematic and Evolutionary Microbiology. 50: 511–516. doi:10.1099/00207713-50-2-511.
Pathak, Ashish; Dastidar, M.G.; Sreekrishnan, T.R. (2009). “Bioleaching of heavy metals from sewage sludge”. Journal of Environmental Management. Volume 90, Issue 8, June 2009, Pages 2343–2353.
Valdes, Jorge; Francisco Ossandon; Raquel Quatrini; Mark Dopson; David S. Holmes (2011). "Draft genome sequence of the extremely acidophilic biomining bacterium Acidithiobacillus thiooxidans ATCC 19377 provides insights into the evolution of the Acidithiobacillusgenus". Journal of Bacteriology. 193 (24): 7003–7004. doi:10.1128/JB.06281-11. PMC 3232857free to read. PMID 22123759.
Waksman, Selman A.; Joffe, J. S. (1922). "Microorganisms concerned in the oxidation of sulfur in the soil: II. Thiobacillus thiooxidans, a new sulfur-oxidizing organism isolated from the soil". Journal of Bacteriology. 7 (2): 239–256.


=Author=
=Author=
Page created by Catherine List, Molly Norris, Lindsey Paul, and Blake Torchon, students of Dr. Urakawa Hidetoshi at Florida Gulf Coast University.
Page created by Catherine List, Molly Norris, Lindsey Paul, and Blake Torchon, students of Dr. Urakawa Hidetoshi at Florida Gulf Coast University.

Revision as of 18:03, 2 December 2016

Classification

Higher order taxa

Species

Description and significance

16S Ribosomal RNA Gene Information

Genome Structure

Cell structure and metabolism

Ecology and Pathogenesis

Current Research

References

Fazzini, Roberto A.B.; Cortes, Maria P.; Padilla, Leandro; Maturana, Daniel; Budinich, Marko; Maass, Alejandro; Parada, Pilar (2013). "Stoichiometric modeling of oxidation of reduced inorganic sulfur compounds (RISCs) in Acidithiobacillus thiooxidans". Biotechnology and Bioengineering. 110 (8): 2242–2251. doi:10.1002/bit.24875.

Hansford, G. S.; T. Vargas (February 2001). "Chemical and electrochemical basis of bioleaching processes". Hydrometallurgy. 59 (2–3): 135–145. doi:10.1016/S0304-386X(00)00166-3. Retrieved 11 November 2013.

Jones, Daniel S (March 2005). "Geomicrobiology of highly acidic, pendulous biofilms ("snottites") from the Frasassi Caves, Italy" (PDF). www.carleton.edu. Carleton College. Retrieved 9 November 2013.

Jones, Daniel S; Heidi L Albrecht; Katherine S Dawson; Irene Schaperdoth; Katherine H Freeman; Yundan Pi; Ann Pearson; Jennifer L Macalady (January 2012). "Community genomic analysis of an extremely acidophilic sulfur-oxidizing biofilm". ISME Journal. 6 (1): 158–170. doi:10.1038/ismej.2011.75. PMC 3246232free to read. PMID 21716305.

Khan, Shahroz; Haq, Faizul; Hasan, Fariha; Saeed, Kausar; Ullah, Rahat (2012). “Growth and Biochemical Activities of Acidithiobacillus thiooxidans Collected from Black Shale”. Journal of Microbiology Research 2012, 2(4): 78-83 DOI: 10.5923/j.microbiology.20120204.03.

Kelly, Donovan P.; Wood, Ann P. (2000). "Reclassification of some species of Thiobacillus to the newly designated genera Acidithiobacillus gen. nov., Halothiobacillus gen. nov. and Thermithiobacillus gen. nov". International Journal of Systematic and Evolutionary Microbiology. 50: 511–516. doi:10.1099/00207713-50-2-511.

Pathak, Ashish; Dastidar, M.G.; Sreekrishnan, T.R. (2009). “Bioleaching of heavy metals from sewage sludge”. Journal of Environmental Management. Volume 90, Issue 8, June 2009, Pages 2343–2353.

Valdes, Jorge; Francisco Ossandon; Raquel Quatrini; Mark Dopson; David S. Holmes (2011). "Draft genome sequence of the extremely acidophilic biomining bacterium Acidithiobacillus thiooxidans ATCC 19377 provides insights into the evolution of the Acidithiobacillusgenus". Journal of Bacteriology. 193 (24): 7003–7004. doi:10.1128/JB.06281-11. PMC 3232857free to read. PMID 22123759. Waksman, Selman A.; Joffe, J. S. (1922). "Microorganisms concerned in the oxidation of sulfur in the soil: II. Thiobacillus thiooxidans, a new sulfur-oxidizing organism isolated from the soil". Journal of Bacteriology. 7 (2): 239–256.

Author

Page created by Catherine List, Molly Norris, Lindsey Paul, and Blake Torchon, students of Dr. Urakawa Hidetoshi at Florida Gulf Coast University.