Frank, Jeroen


Publications
4

Galacturonate Metabolism in Anaerobic Chemostat Enrichment Cultures: Combined Fermentation and Acetogenesis by the Dominant sp. nov. “Candidatus Galacturonibacter soehngenii”

Citation
Valk et al. (2018). Applied and Environmental Microbiology 84 (18)
Names
“Galacturonatibacter soehngenii”
Abstract
This study on d -galacturonate metabolism by open, mixed-culture enrichments under anaerobic, d -galacturonate-limited chemostat conditions shows a stable and efficient fermentation of d -galacturonate into acetate as the dominant organic fermentation product. This fermentation stoichiometry and population analyses provide a valuable baseline for interpretation of the conversion of pectin-rich agricultural feeds

Mimicking microbial interactions under nitrate‐reducing conditions in an anoxic bioreactor: enrichment of novel Nitrospirae bacteria distantly related to Thermodesulfovibrio

Citation
Arshad et al. (2017). Environmental Microbiology 19 (12)
Names
“Nitrobium” “Nitrobium versatile”
Abstract
SummaryMicroorganisms are main drivers of the sulfur, nitrogen and carbon biogeochemical cycles. These elemental cycles are interconnected by the activity of different guilds in sediments or wastewater treatment systems. Here, we investigated a nitrate‐reducing microbial community in a laboratory‐scale bioreactor model that closely mimicked estuary or brackish sediment conditions. The bioreactor simultaneously consumed sulfide, methane and ammonium at the expense of nitrate. Ammonium oxidation o

High-Quality Draft Genome Sequence of “ Candidatus Methanoperedens sp.” Strain BLZ2, a Nitrate-Reducing Anaerobic Methane-Oxidizing Archaeon Enriched in an Anoxic Bioreactor

Citation
Berger et al. (2017). Genome Announcements 5 (46)
Names
Ca. Methanoperedens
Abstract
ABSTRACT The high-quality draft genome of “ Candidatus Methanoperedens sp.” strain BLZ2, a nitrate-reducing archaeon anaerobically oxidizing methane, is presented. The genome was obtained from an enrichment culture and measures 3.74 Mb. It harbors two nitrate reductase gene clusters, an ammonium-forming nitrite reductase, and the complete reverse methanogenesis pathway. Methane that escapes to the atmosphere acts as a potent greenhouse gas. Global m