Project description:microorganisms obtained from fungal fluidized bed reactor Genome sequencing and assembly

Project description:Fluidized bed reactor treating commercial laundry wastewater Metagenome

Project description:Genome-wide epigenetic changes such as histone modifications form a critical layer of gene regulations and have been implicated in a number of different disorders such as cancer and inflammation. Progress has made to decrease the input required for gold-standard genome-wide profiling tools like chromatin immunoprecipitation followed by next generation sequencing (i.e. ChIP-seq) to allow scarce primary tissues of specific type from patients and lab animals to be tested. However, there has been very little effort to rapidly increase the throughput of these low-input tools. In this report, we demonstrate LIFE-ChIP-seq (Low-Input Fluidized-bed Enabled Chromatin Immunoprecipitation combined with sequencing), an automated and high-throughput microfluidic platform capable of running multiple sets of ChIP assays in as little as 1 h with as few as 50 cells per assay. Our technology will enable testing of a large number of samples and replicates with low-abundance primary samples in the context of precision medicine.

Project description:sludge from an integrated anaerobic fluidized-bed membrane bioreactor Raw sequence reads

Project description:Characterization of biofoulants illustrates different membrane fouling mechanisms for aerobic and anaerobic membrane bioreactors

Project description:bioreactor metagenome from a membrane aerated biofilm reactor

Project description:Effect of ethanol dosage and upflow velocity on taxonomic profile and metabolic potential in fluidized bed reactor

Project description: Not available

Project description:Dynamics of the Fouling Layer Microbial Community in a Membrane Bioreactor

Project description:Membrane bioreactor (MBR) systems are typically known different from conventional activated sludge (CAS) systems in operational parameters, while current knowledge of their microbial differentiations is barely sufficient. To this end, the current study was launched to address the differences of the overall functional genes of an oxidation ditch (OD) and an MBR running parallelly at full-scale using a functional gene array-GeoChip 4.2. Two full-scale wastewater treatment systems applying the processes of oxidation ditch (OD) and membrane bioreactor (MBR) were investigated. They treated identical wastewater at the same scale. 12 mixed-liquor suspended sludge (MLSS) samples collected daily on 12 consecutive days from each system were analyzed by GeoChip 4.2.