Project description:Fixed-bed biofilm reactor for single-stage bioconversion of organic waste to medium-chain carboxylic acids

Project description:This is the raw data of metaproteomic responses of bioifm in packed bed reactor under weak magnetic field (0 and 0.6 mT)

Project description:ammonia oxidation redundancy in tailings substrates

Project description:Microbiome of strategies for ammonia removal with the sequencing batch moving bed biofilm reactor treating cheese production wastewater

Project description:Ammonia oxidation microbial environment sample Genome sequencing and assembly

Project description:Syngas Trickle Bed Reactor Community Comparison Raw sequence reads

Project description:Anaerobic ammonium oxidation (anammox) reactor metagenome Metagenome

Project description:Fluidized bed reactor treating commercial laundry wastewater Metagenome

Project description:In large-scale production processes, metabolic control is typically achieved by limited supply of essential nutrients like glucose or ammonia. With increasing bioreactor dimensions, microbial producers such as Escherichia coli are exposed to changing substrate availabilities due to limited mixing. In turn, cells sense and respond to these dynamic conditions leading to frequent activation of their regulatory programs. Previously, we characterized short- and long-term strategies of cells to adapt to glucose fluctuations. Here, we focused on fluctuating ammonia supply, while studying a continuously running two-compartment bioreactor system comprising a stirred tank reactor (STR) and a plug flow reactor (PFR). Genes were repeatedly switched on/off when E. coli returned to the STR. Moreover, E. coli revealed highly diverging long-term transcriptional responses in ammonia compared to glucose fluctuations. The identification of target genes may help to create robust cells and processes for large-scale application.

Project description:Thermophilic two-phase anaerobic digestion using innovative fixed-bed reactor for enhanced organic matter removal and bioenergy recovery from sugarcane vinasse