University of Szeged
His main research concerns Biochemistry, Biogas, Hydrogenase, Biohydrogen and Fermentation. His study connects Bacteria and Biochemistry. His study in Biotechnology extends to Biogas with its themes.
His research in Biotechnology intersects with topics in Microbial consortium and Mesophile. Gábor Rákhely interconnects Operon and Hox gene in the investigation of issues within Hydrogenase. The concepts of his Fermentation study are interwoven with issues in Biofuel, Industrial waste, Thermococcus and Bioreactor.
Gábor Rákhely mostly deals with Biochemistry, Biogas, Hydrogenase, Bacteria and Biomass. His Mutant, Gene and Operon study in the realm of Biochemistry connects with subjects such as Nitrogenase. Gábor Rákhely has researched Biogas in several fields, including Fermentation, Food science, Biotechnology, Pulp and paper industry and Mesophile.
In Pulp and paper industry, he works on issues like Biohydrogen, which are connected to Photosynthesis. His Bacteria research integrates issues from Genome and Microbiology. His Biomass research includes themes of Silage, Biofuel, Microorganism and Anaerobic digestion.
The scientist’s investigation covers issues in Biogas, Metagenomics, Biomass, Bioremediation and Bacteria. Gábor Rákhely has included themes like Fermentation and Food science in his Biogas study. His work is dedicated to discovering how Metagenomics, Archaea are connected with Virus, Pollution, Botany and Computational biology and other disciplines.
His study in Biomass is interdisciplinary in nature, drawing from both Silage, Dominance, Mesophile and Anaerobic digestion. He has researched Bioremediation in several fields, including Environmental chemistry, Biodegradation, Microbiome and Environmental planning. His work in Bacteria addresses subjects such as Genome, which are connected to disciplines such as Xanthomonas oryzae pv. oryzae, Xanthomonas oryzae and Blight.
His primary areas of study are Microbiology, In vitro, Peptide, Environmental biotechnology and Bioremediation. His Microbiology research includes themes of Bacteriophage, Siphoviridae, Biofilm and Phylogenetic tree. His study in the field of Cytotoxicity also crosses realms of Medicago truncatula, Cladosporium herbarum and Neosartorya.
His biological study spans a wide range of topics, including Penicillium chrysogenum, Fungicide and Toxicity. His Environmental biotechnology study introduces a deeper knowledge of Bacteria. His research combines Microbiome and Bioremediation.
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Characterization of a biogas-producing microbial community by short-read next generation DNA sequencing
Roland Wirth;Etelka Kovács;Gergely Maróti;Zoltán Bagi.
Biotechnology for Biofuels (2012)
Biotechnological intensification of biogas production.
Zoltán Bagi;Zoltán Bagi;Norbert Ács;Norbert Ács;Balázs Bálint;Balázs Bálint;Lenke Horváth;Lenke Horváth.
Applied Microbiology and Biotechnology (2007)
Thermophilic biohydrogen production from energy plants by Caldicellulosiruptor saccharolyticus and comparison with related studies
Galina Ivanova;Gábor Rákhely;Gábor Rákhely;Kornél L. Kovács;Kornél L. Kovács.
International Journal of Hydrogen Energy (2009)
A novel approach for biohydrogen production
Kornél L. Kovács;Kornél L. Kovács;Gergely Maróti;Gergely Maróti;Gábor Rákhely;Gábor Rákhely.
International Journal of Hydrogen Energy (2006)
Improved hydrogen production by uptake hydrogenase deficient mutant strain of Rhodobacter sphaeroides O.U.001
Gökhan Kars;Ufuk Gündüz;Gabor Rakhely;Meral Yücel.
International Journal of Hydrogen Energy (2008)
Single chamber microbial fuel cell (SCMFC) with a cathodic microalgal biofilm: A preliminary assessment of the generation of bioelectricity and biodegradation of real dye textile wastewater.
Washington Logroño;Mario Pérez;Gladys Urquizo;Abudukeremu Kadier.
Utilization of keratin-containing biowaste to produce biohydrogen
Balázs Bálint;Zoltán Bagi;András Tóth;Gábor Rákhely;Gábor Rákhely.
Applied Microbiology and Biotechnology (2005)
Cyanobacterial-Type, Heteropentameric, NAD+-Reducing NiFe Hydrogenase in the Purple Sulfur Photosynthetic Bacterium Thiocapsa roseopersicina
Gábor Rákhely;Ákos T. Kovács;Gergely Maróti;Barna D. Fodor.
Applied and Environmental Microbiology (2004)
Biogas Production from Protein-Rich Biomass: Fed-Batch Anaerobic Fermentation of Casein and of Pig Blood and Associated Changes in Microbial Community Composition
Etelka Kovács;Roland Wirth;Gergely Maróti;Zoltán Bagi.
PLOS ONE (2013)
Unusual Organization of the Genes Coding for HydSL, the Stable [NiFe]Hydrogenase in the Photosynthetic Bacterium Thiocapsa roseopersicina BBS
Gabor Rakhely;Annette Colbeau;Jerome Garin;Paulette M. Vignais.
Journal of Bacteriology (1998)
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