Project description:Characterization of miRNAs distribution in cynomolgus macaque genome using small RNA sequencing

Project description:Distribution characterization of conserved miRNAs in cynomolgus macaque genome using small RNA sequencing and homology searching

Project description:Distribution characterization of conserved miRNAs in cynomolgus macaque genome using small RNA sequencing and homology searching

Project description:Bulk RNA Sequencing of Mauritian cynomolgus macaque (MCM) whole blood pre- and post-vaccination with CyCMV/SIV

Project description:Infinium 450K is a hybridization array designed for the human genome, but the relative conservation between the macaque and human genomes makes its use in macaques feasible. We used the Infinium450K array to assay twelve Cynomolgus macaque muscle biopsies and compared it to Reduced Representation Bisulphite Sequencing (RRBS) data generated on the same samples. Muscle biopsies were performed on eleven adult male cynomologus macaques

Project description:Schmitz2014 - RNA triplex formation The model is parameterized using the parameters for gene CCDC3 from Supplementary Table S1. The two miRNAs which form the triplex together with CCDC3 are miR-551b and miR-138. This model is described in the article: Cooperative gene regulation by microRNA pairs and their identification using a computational workflow. Schmitz U, Lai X, Winter F, Wolkenhauer O, Vera J, Gupta SK. Nucleic Acids Res. 2014 Jul; 42(12): 7539-7552 Abstract: MicroRNAs (miRNAs) are an integral part of gene regulation at the post-transcriptional level. Recently, it has been shown that pairs of miRNAs can repress the translation of a target mRNA in a cooperative manner, which leads to an enhanced effectiveness and specificity in target repression. However, it remains unclear which miRNA pairs can synergize and which genes are target of cooperative miRNA regulation. In this paper, we present a computational workflow for the prediction and analysis of cooperating miRNAs and their mutual target genes, which we refer to as RNA triplexes. The workflow integrates methods of miRNA target prediction; triplex structure analysis; molecular dynamics simulations and mathematical modeling for a reliable prediction of functional RNA triplexes and target repression efficiency. In a case study we analyzed the human genome and identified several thousand targets of cooperative gene regulation. Our results suggest that miRNA cooperativity is a frequent mechanism for an enhanced target repression by pairs of miRNAs facilitating distinctive and fine-tuned target gene expression patterns. Human RNA triplexes predicted and characterized in this study are organized in a web resource at www.sbi.uni-rostock.de/triplexrna/. This model is hosted on BioModels Database and identified by: BIOMD0000000530. To cite BioModels Database, please use: BioModels Database: An enhanced, curated and annotated resource for published quantitative kinetic models. To the extent possible under law, all copyright and related or neighbouring rights to this encoded model have been dedicated to the public domain worldwide. Please refer to CC0 Public Domain Dedication for more information.

Project description:RNA-seq samples from 3 species across a differentiation from induced pluripotent stem cells to neural progenitor cells were generated to study gene expression evolution. Briefly, previously generated urinary stem cell derived iPSCs of 3 human (Homo sapiens) individuals (3 clones), 1 gorilla (Gorilla gorilla) individual and fibroblast derived cynomolgus macaque (Macaca fascicularis) iPSCs of 2 individuals (4 clones) (Geuder et al. 2021) were differentiated to neural progenitor cells via dual-SMAD inhibition as three-dimensional aggregation culture (Chambers et al. 2009; Ohnuki et al. 2014). Bulk RNA-seq libraries of iPSCs and NPCs were generated using prime-seq protocol (Janjic et al. 2022).

Project description:We performed gene expression profiling of total RNA from brain samples derived from BSE-infected versus non-infected cynomolgus macaques (Macaca fascicularis). Total RNA from brain samples derived from 7 BSE-infected (6 intracerebrally, 1 orally infected) versus 5 non-infected controls were compared using GeneChip Rhesus macaque Genome Array.

Project description:We report a macaque in vitro endothelial cell system using induced pluripotent stem cells (IPSCs) from Cynomolgus monkey (Macaca fascicularis). Based on a protocol adapted for human IPSCs we directly differentiated macaque IPSCs into endothelial cells under chemically defined conditions. The resulting endothelial cells can be enriched using magnetic cell sorting and display endothelial marker expression and function. RNA sequencing revealed that the differentiation process closely resembled vasculogenesis. Moreover, we show that endothelial cells derived from macaque and human IPSCs are highly similar regarding gene expression patterns and key endothelial functions such as inflammatory responses. These data demonstrate the power of IPSC differentiation technology to generate defined cell types such as endothelial cells as translational in vitro model to compare cell type specific responses across species. For more detail see also: Eva C Thoma, Tobias Heckel, David Keller, Nicolas Giroud, Brian Leonard, Klaus Christensen, Adrian Roth, Cristina Bertinetti-Lapatki, Martin Graf, Christoph Patsch. "Establishment of a translational endothelial cell model using directed differentiation of induced pluripotent stem cells from Cynomolgus monkey" (under submission)

Project description:Recombinant insect baculoviral vectors efficiently transduce several types of cells in the brain and can possibly be used for gene therapy for brain disorders. To verify the suitability of using these viral vectors to develop gene therapy strategies in the brain, we evaluated immune reactions upon acute administration of baculoviral vectors into the brain of the cynomolgus macaque using microarray global gene expression profiling. Adult male cynomolgus macaques (Macaca fascicularis) were administered with baculovirus BV-HSVtk purified by membrane chromatography + high-speed centrifugation (MC+HS) into the brain.