Project description:RNA-Seq on an Ion Torrent Proton of corresponding tumor material of two metastasized breast cancer patients (Breast7, Breast13).

Project description:MicroRNA sequencing using Ion Torrent Proton platform

Project description:Recombinant PGRN and GRN peptides were used to treat fully differentiated SH-SY5Y cells. Post-treatment cells were lysed and used for RNA Seq using the ion-Torrent proton platform. Results were validated using real time PCR.

Project description:CD3+ T cells were enriched using the EasySep human T cell isolation kit (Stem cell technology). T cells from normal controls or patients with CARD9 mutations were co-cultured with monocytes of one normal control in the presence of heat killed candida. After 3 days, T cell were enriched again to remove the monocytes and total RNA was extracted from the T cells for the RNA-sequencing (RNASeq) evaluation. Targeted RNA sequencing library preparation was carried out using the Ion AmpliSeq Transcriptome Human Gene Expression Kit (Life Technologies), which profiles more than 20,000 human genes; each amplicon (~150 bp) represents a unique targeted gene (one transcript per gene). For library preparation, each sample was run in duplicate, and a cDNA library was generated from a minimum of 10 ng of total RNA. The cDNA was barcoded and amplified with Ion AmpliSeq technology, and the amplified cDNA Libraries were evaluated for quality and quantified with Agilent Bioanalyzer high-sensitivity chip. Libraries were then diluted to 100 pM and pooled equally, with 4 individual samples per pool. Pooled libraries were amplified and enriched with the Ion Chef System (Life Technologies). Templated libraries were then sequenced on an Ion Torrent Proton sequencing system (Life Technologies) with Ion PI HiQ kit and chip version 3. We performed gene-level differential expression analysis of targeted RNASeq data using R (v.3.5.3) and the Bioconductor packages DESeq2 (v.1.22.2).

Project description:MicroRNA sequencing using Ion Torrent Proton platform of the undamaged heart of the red spotted newt Notophthalmus viridescens. MicroRNAS were identified using MIRPIPE

Project description:MicroRNA sequencing using Ion Torrent Proton platform Single run of a pool of m.soleus from 5 male mice

Project description:Background: Though Illumina has largely dominated the RNA-Seq field, the simultaneous availability of Ion Torrent has left scientists wondering which platform is most effective for differential gene expression (DGE) analysis. Previous investigations of this question have typically used reference samples derived from cell lines and brain tissue, and do not involve biological variability. While these comparisons might inform studies of tissue-specific expression, marked by large-scale transcriptional differences, this is not the common use case. Results: Here we employ a standard treatment/control experimental design, which enables us to evaluate these platforms in the context of the expression differences common in differential gene expression experiments. Specifically, we assessed the hepatic inflammatory response of mice by assaying liver RNA from control and IL-1β treated animals with both the Illumina HiSeq and the Ion Torrent Proton sequencing platforms. We found the greatest difference between the platforms at the level of read alignment, a moderate level of concordance at the level of DGE analysis, and nearly identical results at the level of differentially affected pathways. Interestingly, we also observed a strong interaction between sequencing platform and choice of aligner. By aligning both real and simulated Illumina and Ion Torrent data with the twelve most commonly-cited aligners in the literature, we observed that different aligner and platform combinations were better suited to probing different genomic features; for example, disentangling the source of expression in gene-pseudogene pairs. Conclusions: Taken together, our results indicate that while Illumina and Ion Torrent have similar capacities to detect changes in biology from a treatment/control experiment, these platforms may be tailored to interrogate different transcriptional phenomena through careful selection of alignment software.

Project description:Whole exome sequencing data of 19 snap-frozen peritoneal mesothelioma (tumor) samples and 16 matched normal samples. Sequencing library was prepared using Ion AmpliSeq Exome RDY Library Preparation. Samples were sequenced on the Ion Proton System using the Ion PI Hi-Q Sequencing 200 Kit and Ion PI v3 chip.

Project description:We have adapted a commercial assay that employs mRNA quantification based on the frequency of PCR amplicons determined by next-generation to a high-throughput semi-conductor sequencing platform (Ion-Torrent Proton). We show parallel amplification of pathway derived transcript sets/genes in 12 reference RNA samples followed by sequence-based quantification covering a dynamic range of five orders of magnitude with low technical variation.

Project description:Purpose: We here hypothesized that serglycin may have an impact on obese inflammation. To address this, we subjected Srgn+/+ and Srgn-/- male mice to an eight-week high fat/high sucrose diet, followed by an analysis of the effects of serglycin-deficiency on adipose tissue transcriptome. Methods: Ampliseq sequencing was performed on an Ion S5™ XL Sequencer. Total RNA was isolated from eWAT (n=5) using the Direct-zol RNA MiniPrep column kit (The Epigenetics Company, Irvine, CA). cDNA libraries were prepared and amplified with the Ion AmpliSeq™ Transcriptome Mouse Gene Expression Kit (Life Technologies, Carlsbad, CA), following the manufacturer`s instructions. Sequencing was performed on an Ion S5™ XL Sequencer (Thermo Scientific, Waltham, MA). Data had read lengths with average between 98 and 110 bp and high mapping (95% of aligned bases). The expression values were generated by using software Torrent Suite™ (version 5.10.1). Results: The absence of serglycin caused reduced expression of numerous genes linked to inflammatory pathways. Conclusions: This study identifies a role for serglycin, in particular the macrophages, in regulating the immune response in adipose inflammation.