
Prof. Dr. Miriam Agler-Rosenbaum
Bio Pilot Plant · Head of Department
Phone: +49 3641 532-1120 Fax: +49 3641 532-2120 Email: miriam.rosenbaum@leibniz-hki.de
- Bioelectrochemical systems
- Defined microbial mixed cultures
Professional Career
Seit 2017 | Chair of Synthetic Biotechnology at Friedrich Schiller University Jena and Head of Bio Pilot Plant, Leibniz Institute for Natural Product Research and Infection Biology, (HKI) Jena |
2011-2017 | Junior professor in the field of Microbiology of Defined Mixed Cultures, Institute of Applied Microbiology, RWTH Aachen University, Germany |
2009-2011 | Research Associate/Sub-Group Leader Department of Biological and Environmental Engineering, Cornell University, Ithaca, NY, USA |
2007-2008 | Post-Doc, Washington University in St. Louis, USA |
2004-2006 | PhD Studies, University of Greifswald, Germany |
1999-2004 | Diploma Studies in Biochemistry University of Greifswald |
Awards · Appointments · Scientific Activities
2004-2006 | Fellowship of the Fond der Chemischen Industrie |
(2020) Electrophysiology of the facultative autotrophic bacterium Desulfosporosinus orientis. Front Bioeng Biotechnol 8, 457. Details PubMed Open Access PDF
(2020) Coupling an electroactive Pseudomonas putida 2 KT2440 with bioelectrochemical rhamnolipid production. Microorganisms 8(12), 1959. Details PubMed Open Access
(2020) Scalable hybrid synthetic/biocatalytic route to psilocybin. Chem Eur J 37(26), 8281-8285. Details PubMed Open Access PDF
(2020) Optofluidic detection setup for multi-parametric analysis of microbiological samples in droplets. Biomicrofluidics 14(2), 024109. Details PubMed Open Access PDF
(2020) Biosynthesis of pseudomonas-derived butenolides. Angew Chem Int Ed 59(14), 5607-5610. Details PubMed Open Access PDF
(2020) Rational design of flavonoid production routes using combinatorial and precursor-directed biosynthesis. ACS Synth Biol 9(7), 1823-1832. Details PubMed Open Access PDF
(2020) Biosurfactants and synthetic surfactants in bioelectrochemical systems: A mini-review. Front Microbiol 11, 358. Details PubMed Open Access PDF
(2020) Consolidated bioprocessing of cellulose to itaconic acid by a co-culture of Trichoderma Reesei and Ustilago Maydis. Biotechnol Biofuels 13, Details PubMed PDF
(2020) Controlling the Production of Pseudomonas Phenazines by Modulating the Genetic Repertoire. ACS Chem Biol 15(12), 3244-3252. Details PubMed
(2020) Monitoring and external control of pH in microfluidic droplets during microbial culturing. Microb Cell Fact 19(1), 16. Details PubMed Open Access PDF
(2019) Boosting heterologous phenazine production in Pseudomonas putida KT2440 through the exploration of the natural sequence space. Front Microbiol 10, 1990. Details PubMed Open Access
(2019) Electricity generation in a microbial fuel cell with textile carbon fibre anodes. Comput Math Appl , Details
(2019) Microbial counts and antibiotic resistances during conventional wastewater treatment and wastewater ozonation. Ozone: Science & Engineering 42(2), 108-119. Details PDF
(2019) Rational selection of carbon fiber properties for high-performance textile electrodes in bioelectrochemical systems. Front Energy Res 7, 100. Details Open Access
(2018) Sulfate-reducing electroautotrophs and their applications in bioelectrochemical systems. Front Energy Res 6, 55. (Review) Details Open Access
(2018) Status quo report on wastewater treatment plant, receiving water's biocoenosis and quality as basis for evaluation of large-scale ozonation process. Water Sci Technol 77(2), 337-345. Details PubMed Open Access
(2018) Abwasserozonung - Evaluierung des Nutzens für die aquatische Umwelt. wwt , 41-44. Details Open Access
(2018) From beech wood to itaconic acid: Case study on biorefinery process integration. Biotechnol Biofuels 11, 279. Details PubMed Open Access PDF
(2018) Boosting mediated electron transfer in bioelectrochemical systems with tailored defined microbial cocultures. Biotech Bioeng 115(9), 2183-2193. Details PubMed
(2017) Process relevant screening of cellulolytic organisms for consolidated bioprocessing. Biotechnol Biofuels 10, 106. Details PubMed
(2017) Spontaneous quorum sensing mutation modulates electroactivity of Pseudomonas aeruginosa PA14. Bioelectrochemistry 117, 1-8. Details PubMed
(2017) Electrochemical Potential Influences Phenazine Production, Electron Transfer and Consequently Electric Current Generation by Pseudomonas aeruginosa. Front Microbiol [Accepted] Details PubMed
(2017) Microbial Electrosynthesis I: Pure and Defined Mixed Culture Engineering. Adv Biochem Eng Biotechnol 167, 181-202. Details PubMed
(2017) Etablierung filamentöser Mischkulturen für Bioprozesse. BIOSpectrum 23(3), 270-272. Details Open Access
(2016) Strain- and Substrate-Dependent Redox Mediator and Electricity Production by Pseudomonas aeruginosa. Appl Environ Microbiol 82(16), 5026-5038. Details PubMed
(2016) Expanding the molecular toolkit for the homoacetogen Clostridium ljungdahlii. Sci Rep 6, 31518. Details PubMed Open Access
(2016) Mikrobielle Elektrochemie: Wie Mikroorganismen und Elektroden interagieren Nachrichten aus der Chemie 64(7-8), 732-737. Details
(2015) Engineering mediator-based electroactivity in the obligate aerobic bacterium Pseudomonas putida KT2440. Front Microbiol 6, 284. Details PubMed
(2014) Microbial catalysis in bioelectrochemical technologies: status quo, challenges and perspectives. Appl Microbiol Biotechnol 98(2), 509-518. Details PubMed
(2014) Engineering microbial electrocatalysis for chemical and fuel production. Curr Opin Biotechnol 29, 93-98. Details PubMed
(2014) Oxygen allows Shewanella oneidensis MR-1 to overcome mediator washout in a continuously fed bioelectrochemical system Biotechnology 111(4), 692-699. Details PDF
(2014) Metabolite transfer with the fermentation product 2,3-butanediol enhances virulence by Pseudomonas aeruginosa. ISME J 8(6), 1210-1220. Details PubMed PDF
(2013) Microbial electrocatalysis to guide biofuel and biochemical bioprocessing Biofuels 4(2), 131-134. Details
(2012) A cost-effective and field-ready potentiostat that poises subsurface electrodes to monitor bacterial respiration. Biosens Bioelectron 32(1), 309-313. Details PubMed
(2012) A laminar-flow microfluidic device for quantitative analysis of microbial electrochemical activity. ChemSusChem 5(6), 1119-1123. Details PubMed
(2012) Transcriptional analysis of Shewanella oneidensis MR-1 with an electrode compared to Fe(III)citrate or oxygen as terminal electron acceptor. PLOS One 7(2), e30827. Details PubMed
(2011) Shewanella oneidensis in a lactate-fed pure-culture and a glucose-fed co-culture with Lactococcus lactis with an electrode as electron acceptor. Bioresour Technol 102(3), 2623-2628. Details PubMed
(2011) Metabolite-based mutualism between Pseudomonas aeruginosaPA14 and Enterobacter aerogenes enhances current generation in bioelectrochemical systems Energy Environ. Sci. 4, 4550-4559. Details