Project description:These experiments were designed to quantify depletion of rRNA sequencing reads from bacterial RNA-seq libraries and verify that mRNA sequencing reads were not altered. Specifically, we tested an rRNA depletion method using custom-designed biotinylated oligonucleotides and compared these results to undepleted (total RNA) libraries and libraries made with the previously-available Ribo-Zero kit (Illumina).

Project description:Pancreatic ductal adenocarcinoma

Project description:We generated novel patient derived xenograft (PDX) and cell line -derived xenograft models for pancreatic ductal adenocarcinoma (PDAC) which reflect different molecular subtypes. Pancreatic ductal adenocarcinoma is currently the tumor with the fourth highest mortality rate. Recently, subtypes of PDAC have been reported by Collisson et al (Nat. Med. 17(4) 2011. DOI: 10.1038/nm.2344). However current fetal calf serum (FCS) cultured cell lines do not accurately model these subtypes. We thus generated novel serum-free cell lines derived from primary patient xenografts. We here analyse the gene-expression profiles of the xenografts and the derived cell lines. We show that indeed three different subtypes can be separated in our models based on gene-expression data. Further, we identify upregulation of a drug-detoxification pathway specifically in xenografts and cell lines of one of the subtypes. These models and data will help to better understand inter-patient heterogeneity in PDAC and identify novel drug targets and diagnostic markers.

Project description:The measurement of RNA abundance derived from massively parallel sequencing experiments is an essential technique. Methods that reduce ribosomal RNA levels are usually required prior to sequencing library construction because ribosomal RNA typically comprises >90% of the total RNA molecules in a sample. For some experiments, ribosomal RNA depletion is favored over poly(A) selection because it offers a more inclusive representation of the transcriptome. However, methods to deplete ribosomal RNA are generally proprietary, complex, inefficient, applicable to only specific species, or compatible with only a narrow range of RNA input levels. Here, we describe Ribo-Pop (ribosomal RNA depletion for popular use), a simple workflow and antisense oligo design strategy that we demonstrate works over a wide input range and can be easily adapted to any organism with a sequenced genome. We provide a computational pipeline for probe selection, a streamlined 20-minute protocol, and ready-to-use oligo sequences for several organisms. We anticipate that our simple and generalizable “open source” design strategy would enable virtually any lab to pursue full transcriptome sequencing in their organism of interest with minimal time and resources.

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Project description:DNA microarrays are two-dimensional arrangements of specific probes deposited on a substrate that have been widely used in gene expression analysis by measuring mRNA accumulation. The use of this type of microarrays involves the synthesis of cDNA, which has to be double stranded (ds) if the microarray probes are of the positive strand. We have used a custom-synthesized non-commercial NimbleGen microarray from melon to evaluate an alternative method of ds cDNA synthesis, which differs substantially in its economical cost relative to a widely recommended method. The results suggested that both methods produce cDNA representative of the melon transcriptome to a similar extent, indicating that the alternative technique provides a cheaper method of ds cDNA synthesis for microarray gene expression assays. Recently, we have analyzed the transcriptome of melon in response to WMV infection. Cotyledons of two genotypes of melon were virus inoculated and transcriptomic responses to the infection were analyzed by comparing infected and mock inoculated samples at 1, 3, and 7 days post-inoculation (dpi). Three biological replicates were performed for each sample. Double stranded cDNA was obtained with the Double stranded cDNA synthesis kit (Invitrogen, Carlsbad, CA, USA), based on the nick translation approach (Mol. Cell. Biol (1982) 2:161-170; Gene (1983) 25:263-269). Raw and processed microarray data are freely available from GEO database under the accession number GSE30111. By using this set of microarray hybridizations as a reference, RNA corresponding to infected cotyledons replicate 3 at 1 dpi (A1) and replicate 1 at 3 dpi (A2) (GEO accession numbers GSM745566 and GSM745567) were used to perform cDNA synthesis by the alternative method (samples B1 and B2, respectively), based on the SMART approach (BioTechniques (2001) 30:892-897), and microarray data were compared.

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