Project description:Soil Samples Collected from Along the DC-Metro Area of the Potomac River

Project description:Protistan plankton diversity along salt gradient

Project description:Partial genome microarray and plankton cells

Project description:Evaluation of different strategies to interpret metaproteomics data acquired on soil samples from a floodplain along the Seine River (France) incorporating sample-specific metagenomics data, soil genome catalogue database, and generic sequence database.

Project description:prokaryotic plankton community in Dayuzhang water-diversion engineering along the lower Yellow River Raw sequence reads

Project description:We used single-cell sequencing data and imaging to investigate Eukaryotic plankton from environmental marine samples collected from Coogee, NSW, Australia.

Project description:Partial genome microarray and plankton cells RNA was isolated from biofilms and from planktonic cells grown in SD media. Samples were labeled with either Cy5 or Cy3. Four independent biological replicates were compared, including dye swaps.

Project description:Soil Samples Along the Potomac River

Project description:In this study we applied MASC-seq (massive and parallel microarray sequencing, https://doi.org/10.1038/ncomms13182), a scRNA-seq method that facilitates sequencing of thousands of cells in parallel, and that couples microscope images with the single cell transcriptome data. For this method, fixed cells are spread over a microarray with 100 μm-sized spots of DNA capture probes with spot-specific indices. The cells are first imaged using a scanning microscope and then permeabilized, releasing their RNA out of the cells and bind to the probes on the array. cDNA is synthesized, harvested and sequenced, and, using the spot-specific barcode-sequences, cDNA sequences stemming from a specific spot (i.e., cell) can be linked to the microscope image of the corresponding cell. However, until now, the MASC-seq method has only been applied to mammalian cells. The aim of this study was to test and adapt the MASC-seq method for application on unicellular eukaryotic plankton. We applied and optimized the method on three cultured plankton representatives, abundant in communities of aquatic environments, Phaeodactylum tricornutum (a diatom, silica and polysaccharide cell walls 23), Heterocapsa sp. (a dinoflagellate, cellulose thecal plates 24) and Tetrahymena thermophila (a ciliate, lipid membrane 25) which all have different size and diverse cell surface structures common to plankton. We optimized several steps in the protocol to make it more suitable for planktonic cells and compared the results from MASC-seq generated single cell transcriptomes to bulk RNA sequencing.

Project description:The diversity of river plankton bacterial and eukaryotic communities