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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.

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Project description:The data discloses mass spectra of a gastric cancer biopsy sectioned into ten parts, each one subjected to a four step MudPIT analysis (i.e., increasing KCL concentrations of 85, 150, 250, and 400 mM). The biopsy was acquired from an area along the stomach that included tumor and resection margin, during the operation procedures on a male patient. Briefly, the tumor was located in the gastric antrum and the resection margin was macroscopically defined during the surgery as a 10 cm rim of healthy-looking tissue surrounding the tumor. The histological type was determined to be adenocarcinoma and classified as T4. Data analysis: The ProLuCID search engine (v 1.3) was used to compare experimental tandem mass spectra against those theoretically generated from our sequence database and select the most likely peptide spectrum matches (PSMs). Briefly, the search was limited to fully and semi-tryptic peptide candidates and imposed carbamidomethylation and oxidation of methionine as fixed and variable modification, respectively. The search engine accepted peptide candidates within a 50-ppm tolerance from the measured precursor m/z and used the XCorr and Z-Score as the primary and secondary search engine scores, respectively. The validity of the PSMs was assessed using the Search Engine Processor (SEPro, v 2.1.0.23). Identifications were grouped by charge state (+2 and > +3) and then by tryptic status (fully tryptic, semi-tryptic), resulting in four distinct subgroups. For each result, the ProLuCID XCorr, DeltaCN, and ZScore values were used to generate a Bayesian discriminator. Additionally, a minimum sequence length of six amino acid residues was required. Results were post-processed to only accept PSMs with less than 5 ppm and proteins supported by two or more independent evidences (e.g., identification of a peptide with different charge states, a modified and a non-modified version of the same peptide, or two different peptides).