Project description:16S rRNA gene amplicon sequences of microbes in liquid media of bio-electrochemical reactors

Project description:16S rRNA gene amplicon sequences of bioanode and biocathode microbiotas of bio-electrochemical systems

Project description:Electrochemical reactors

Project description:Anaerobic Bio-electrochemical Microbial Cultivation

Project description:ADS-bio-drying Metagenome

Project description:Municipal anaerobic reactors Metagenome

Project description:Enterococcus faecalis is a common commensal organism and a prolific nosocomial pathogen that causes biofilm-associated infections. Numerous E. faecalis OG1RF genes required for biofilm formation have been identified, but few studies have compared genetic determinants of biofilm formation and biofilm morphology across multiple conditions. Here, we cultured transposon (Tn) libraries in CDC biofilm reactors in two different media and used Tn sequencing (TnSeq) to identify core and accessory biofilm determinants, including many genes that are poorly characterized or annotated as hypothetical. Multiple secondary assays (96-well plates, submerged Aclar, and MultiRep biofilm reactors) were used to validate phenotypes of new biofilm determinants.

Project description:Microbiome of activated sludge treating the iodide ion-containing wastewater, and coculture of the dominant microbes in the activated sludge

Project description:Expression data from airway brush biopsy samples, differentiated primary cultures of human airway epithelia, CaLu3 cultures at the air liquid interface, and primary cultures of human airway epithelia submerged in nutrient media Organotypic cultures of primary human airway epithelial cells have been used to investigate the morphology, ion and fluid transport, innate immunity, transcytosis, infection, inflammation, signaling, cilia and repair functions of this complex tissue. However, we do not know how close these cultures resemble the epithelia in vivo. In this study, we examine the genome-wide expression profile of human airway epithelial cells in vivo obtained from brush biopsies of the trachea and bronchus of healthy volunteers and compare it to the expression profile of primary cultures of human airway epithelia grown at the air-liquid interface. For comparison we also investigate the expression profile of Calu3 cells grown at the air-liquid interface and primary cultures of human airway epithelia submerged in nutrient media.

Project description:Anaerobic reactors Raw sequence reads