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Journal Abstract Search

132 related items for PubMed ID: 28770421

  • 1. Evolution of copper arsenate resistance for enhanced enargite bioleaching using the extreme thermoacidophile Metallosphaera sedula.
    Ai C, McCarthy S, Liang Y, Rudrappa D, Qiu G, Blum P.
    J Ind Microbiol Biotechnol; 2017 Dec; 44(12):1613-1625. PubMed ID: 28770421
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  • 8. Transcriptomes of the Extremely Thermoacidophilic Archaeon Metallosphaera sedula Exposed to Metal "Shock" Reveal Generic and Specific Metal Responses.
    Wheaton GH, Mukherjee A, Kelly RM.
    Appl Environ Microbiol; 2016 Aug 01; 82(15):4613-4627. PubMed ID: 27208114
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  • 9. Uranium extremophily is an adaptive, rather than intrinsic, feature for extremely thermoacidophilic Metallosphaera species.
    Mukherjee A, Wheaton GH, Blum PH, Kelly RM.
    Proc Natl Acad Sci U S A; 2012 Oct 09; 109(41):16702-7. PubMed ID: 23010932
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  • 10. The genome sequence of the metal-mobilizing, extremely thermoacidophilic archaeon Metallosphaera sedula provides insights into bioleaching-associated metabolism.
    Auernik KS, Maezato Y, Blum PH, Kelly RM.
    Appl Environ Microbiol; 2008 Feb 09; 74(3):682-92. PubMed ID: 18083856
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  • 11. Impact of molecular hydrogen on chalcopyrite bioleaching by the extremely thermoacidophilic archaeon Metallosphaera sedula.
    Auernik KS, Kelly RM.
    Appl Environ Microbiol; 2010 Apr 09; 76(8):2668-72. PubMed ID: 20190092
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  • 12. Ancillary contributions of heterologous biotin protein ligase and carbonic anhydrase for CO2 incorporation into 3-hydroxypropionate by metabolically engineered Pyrococcus furiosus.
    Lian H, Zeldes BM, Lipscomb GL, Hawkins AB, Han Y, Loder AJ, Nishiyama D, Adams MW, Kelly RM.
    Biotechnol Bioeng; 2016 Dec 09; 113(12):2652-2660. PubMed ID: 27315782
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  • 13. Biotransformation of Scheelite CaWO4 by the Extreme Thermoacidophile Metallosphaera sedula: Tungsten-Microbial Interface.
    Blazevic A, Albu M, Mitsche S, Rittmann SKR, Habler G, Milojevic T.
    Front Microbiol; 2019 Dec 09; 10():1492. PubMed ID: 31312192
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  • 15. Extremely Thermoacidophilic Metallosphaera Species Mediate Mobilization and Oxidation of Vanadium and Molybdenum Oxides.
    Wheaton GH, Vitko NP, Counts JA, Dulkis JA, Podolsky I, Mukherjee A, Kelly RM.
    Appl Environ Microbiol; 2019 Mar 01; 85(5):. PubMed ID: 30578261
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  • 16. Complete Genome Sequences of Evolved Arsenate-Resistant Metallosphaera sedula Strains.
    Ai C, McCarthy S, Schackwitz W, Martin J, Lipzen A, Blum P.
    Genome Announc; 2015 Oct 01; 3(5):. PubMed ID: 26430052
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  • 17. Complete genome sequence for the thermoacidophilic archaeon Metallosphaera sedula (DSM:5348).
    Manesh MJH, Bing RG, Willard DJ, Kelly RM.
    Microbiol Resour Announc; 2024 Mar 12; 13(3):e0122823. PubMed ID: 38329354
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  • 18. Exploring Fingerprints of the Extreme Thermoacidophile Metallosphaera sedula Grown on Synthetic Martian Regolith Materials as the Sole Energy Sources.
    Kölbl D, Pignitter M, Somoza V, Schimak MP, Strbak O, Blazevic A, Milojevic T.
    Front Microbiol; 2017 Mar 12; 8():1918. PubMed ID: 29062303
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  • 19. Development of a defined medium for the heterotrophic cultivation of Metallosphaera sedula.
    Sedlmayr VL, Luger M, Pittenauer E, Marchetti-Deschmann M, Kronlachner L, Limbeck A, Raunjak P, Quehenberger J, Spadiut O.
    Extremophiles; 2024 Jul 26; 28(3):36. PubMed ID: 39060419
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  • 20. 3-Hydroxypropionyl-coenzyme A synthetase from Metallosphaera sedula, an enzyme involved in autotrophic CO2 fixation.
    Alber BE, Kung JW, Fuchs G.
    J Bacteriol; 2008 Feb 26; 190(4):1383-9. PubMed ID: 18165310
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