@article{auernik_kelly_2010, title={Impact of Molecular Hydrogen on Chalcopyrite Bioleaching by the Extremely Thermoacidophilic Archaeon Metallosphaera sedula}, volume={76}, ISSN={["1098-5336"]}, DOI={10.1128/aem.02016-09}, abstractNote={ABSTRACT}, number={8}, journal={APPLIED AND ENVIRONMENTAL MICROBIOLOGY}, author={Auernik, Kathryne S. and Kelly, Robert M.}, year={2010}, month={Apr}, pages={2668–2672} }
 @article{auernik_kelly_2010, title={Physiological Versatility of the Extremely Thermoacidophilic Archaeon Metallosphaera sedula Supported by Transcriptomic Analysis of Heterotrophic, Autotrophic, and Mixotrophic Growth}, volume={76}, ISSN={["1098-5336"]}, DOI={10.1128/aem.01336-09}, abstractNote={ABSTRACT}, number={3}, journal={APPLIED AND ENVIRONMENTAL MICROBIOLOGY}, author={Auernik, Kathryne S. and Kelly, Robert M.}, year={2010}, month={Feb}, pages={931–935} }
 @article{auernik_kelly_2008, title={Identification of Components of Electron Transport Chains in the Extremely Thermoacidophilic Crenarchaeon Metallosphaera sedula through Iron and Sulfur Compound Oxidation Transcriptomes}, volume={74}, ISSN={["1098-5336"]}, DOI={10.1128/AEM.01545-08}, abstractNote={ABSTRACT}, number={24}, journal={APPLIED AND ENVIRONMENTAL MICROBIOLOGY}, author={Auernik, Kathryne S. and Kelly, Robert M.}, year={2008}, month={Dec}, pages={7723–7732} }
 @misc{auernik_cooper_kelly_2008, title={Life in hot acid: Pathway analyses in extremely thermoacidophilic archaea}, volume={19}, ISSN={["1879-0429"]}, DOI={10.1016/j.copbio.2008.08.001}, abstractNote={The extremely thermoacidophilic archaea are a particularly intriguing group of microorganisms that must simultaneously cope with biologically extreme pHs (≤4) and temperatures (Topt ≥ 60 °C) in their natural environments. Their expanding biotechnological significance relates to their role in biomining of base and precious metals and their unique mechanisms of survival in hot acid, at both the cellular and biomolecular levels. Recent developments, such as advances in understanding of heavy metal tolerance mechanisms, implementation of a genetic system, and discovery of a new carbon fixation pathway, have been facilitated by the availability of genome sequence data and molecular genetic systems. As a result, new insights into the metabolic pathways and physiological features that define extreme thermoacidophily have been obtained, in some cases suggesting prospects for biotechnological opportunities.}, number={5}, journal={CURRENT OPINION IN BIOTECHNOLOGY}, author={Auernik, Kathryne S. and Cooper, Charlotte R. and Kelly, Robert M.}, year={2008}, month={Oct}, pages={445–453} }
 @article{auernik_maezato_blum_kelly_2008, title={The genome sequence of the metal-mobilizing, extremely thermoacidophilic archaeon Metallosphaera sedula provides insights into bioleaching-associated metabolism}, volume={74}, ISSN={["1098-5336"]}, DOI={10.1128/AEM.02019-07}, abstractNote={ABSTRACT}, number={3}, journal={APPLIED AND ENVIRONMENTAL MICROBIOLOGY}, author={Auernik, Kathryne S. and Maezato, Yukari and Blum, Paul H. and Kelly, Robert M.}, year={2008}, month={Feb}, pages={682–692} }