Project description:Biofilms Raw sequence reads

Project description:Groundwater biofilms

Project description:Transcription profile of Escherichia coli cells in biofilms under static batch culture was compared to that of E. coli cells in planktonic cultures. Both E. coli biofilm and planktonic cultures were cultivated for 18 h in 10% Luria-Bertani broth at room temperature (20 degree Celsius). Biofilms were grown in static batch culture in petri dishes. Both planktonic culture and biofilms were homogenized and run through a separated protocol.

Project description:Pseudomonas aeruginosa is a critical priority pathogen, whose proclivity to establish chronic infections and to resist antibiotic treatment is intimately linked to its ability to form biofilms at the infection site. Recent developments in our understanding of these biofilms has pointed to the fact that the surface-bound biofilms recapitulated by in vitro models do not sufficiently capture the type of biofilms that occur in infection sites, such as the CF lung. This study aimed to develop a straightforward and medium throughput model for free floating biofilms, alongside a protocol that permits fractionating of the biofilm into its constituent parts. The RNA-seq investigation takes the cells fraction at three timepoints in biofilm development (and one point in a planktonic culture for comparison), to ask what genes are driving the development of these free floating aggregate biofilms.

Project description:We performed comparative analysis of transcriptomes of S. mutans in single biofilms and in mixed-biofilms with A. actinomycetemcomitans. We also compared the transcriptomic profiles of A. actinomycetemcomitans in single biofilms and A. actinomycetemcomitans in mixed biofilms with S. mutans. Finally we looked at the changes in gene expression in both organisms in time.

Project description:Freshwater biofilms Raw sequence reads

Project description:The physiological and transcriptional response of Nitrosomonas europaea biofilms to phenol and toluene was examined and compared to suspended cells. Biofilms were grown in Drip Flow Biofilm Reactors under continuous flow conditions of growth medium containing ammonia as growth substrate. The responses of N. europaea biofilms to the aromatic hydrocarbons phenol and toluene were determined during short-term (3 h) additions of each compound to the biofilms. Ammonia oxidation in the biofilms was inhibited 50% by 60 uM phenol and 100 uM toluene. These concentrations were chosen for microarray analysis of phenol- and toluene-exposed N. europaea biofilms. Liquid batch cultures of exponentially growing N. europaea cells were harvested alongside the biofilms to determine differential gene expression between attached and suspended growth of N. europaea.

Project description:Diabetic wound biofilms raw sequence reads

Project description:Transcription profile of Escherichia coli cells in biofilms under static batch culture was compared to that of E. coli cells in planktonic cultures. Both E. coli biofilm and planktonic cultures were cultivated for 18 h in 10% Luria-Bertani broth at room temperature (20 degree Celsius). Biofilms were grown in static batch culture in petri dishes. Both planktonic culture and biofilms were homogenized and run through a separated protocol. Two condition experiments: E. coli biofilm vs E. coli planktonic cultures. Two biological replicates with independently grown and harvested biofilms or planktonic cultures. Each biological replicate has two technical replicates of hybridization on microarray slides. Each slide has three built-in replicates for each probe.

Project description:Flexline Biofilms from spaceflight