Project description:Based on snSeq of back, dorsal digit and ventral digit skin from 2 fetal donations at 14 weeks EGA we report differential expression of signaling and structural molecules between different skin regions, specifically as related to the distinction between hair follicle producing and dermatoglyph producing skin.

Project description:Single nucelus RNA sequencing of 14 week EGA fetal skin

Project description:Bariatric surgical techniques are known to cause weight loss and diabetes remission to varying degrees in severly obese patients. However, the mechanisms involved in the restoration of beta-cell function remain to be uncovered. In this study, the leptin-deficient ob/ob mouse was used as a model to investigate the effect of EGA bariactric surgery on pancreatic islet gene expression.

Project description:Bariatric surgical techniques are known to cause weight loss and diabetes remission to varying degrees in severly obese patients. However, the mechanisms involved in the restoration of beta-cell function remain to be uncovered. In this study, the leptin-deficient ob/ob mouse was used as a model to investigate the effect of EGA bariactric surgery on pancreatic islet miRNA expression.

Project description:There is an inevitable need for combining in vitro and in vivo culture systems during specific developmental time points to facilitate a comprehensive understanding of early embryo development which would yield insights into the molecular pathways controlling early development and to improve our knowledge in regulation of embryonic development. In current study, we aimed to understand the influences of alternative culture conditions (in vivo or in vitro) during EGA event on embryonic developmental rate, gene expression pattern and subsequent influences on pathways and biological functions controlling bovine embryo development.

Project description:Organisation EGAO00000000198

Project description:Effects of entero-gastro-anastomosis (EGA) surgery in ob/ob mice on pancreatic islet gene expression

Project description:Effects of entero-gastro-anastomosis (EGA) surgery in ob/ob mice on pancreatic islet miRNA expression

Project description:High-throughput molecular profiling techniques are routinely generating vast amounts of data for translational medicine studies. Secure access controlled systems are needed to manage, store, transfer and distribute these data due to its personally identifiable nature. The European Genome-phenome Archive (EGA) was created to facilitate access and management to long-term archival of bio-molecular data. Each data provider is responsible for ensuring a Data Access Committee is in place to grant access to data stored in the EGA. Moreover, the transfer of data during upload and download is encrypted. ELIXIR, a European research infrastructure for life-science data, initiated a project (2016 Human Data Implementation Study) to understand and document the ELIXIR requirements for secure management of controlled-access data. As part of this project, a full ecosystem was designed to connect archived raw experimental molecular profiling data with interpreted data and the computational workflows, using the CTMM Translational Research IT (CTMM-TraIT) infrastructure http://www.ctmm-trait.nl as an example. Here we present the first outcomes of this project, a framework to enable the download of EGA data to a Galaxy server in a secure way. Galaxy provides an intuitive user interface for molecular biologists and bioinformaticians to run and design data analysis workflows. More specifically, we developed a tool -- ega_download_streamer - that can download data securely from EGA into a Galaxy server, which can subsequently be further processed. This tool will allow a user within the browser to run an entire analysis containing sensitive data from EGA, and to make this analysis available for other researchers in a reproducible manner, as shown with a proof of concept study.  The tool ega_download_streamer is available in the Galaxy tool shed: https://toolshed.g2.bx.psu.edu/view/yhoogstrate/ega_download_streamer.

Project description:There is an inevitable need for combining in vitro and in vivo culture systems during specific developmental time points to facilitate a comprehensive understanding of early embryo development which would yield insights into the molecular pathways controlling early development and to improve our knowledge in regulation of embryonic development. In current study, we aimed to understand the influences of alternative culture conditions (in vivo or in vitro) during EGA event on embryonic developmental rate, gene expression pattern and subsequent influences on pathways and biological functions controlling bovine embryo development. Six different blastocyst groups were produced under alternative in vivo and in vitro culture conditions. The first two groups (Vitro_4-cell and Vitro_16-cell) were matured, fertilized and cultured in vitro until 4- and 16-cell stage, respectively then transferred to synchronized recipients and continued culture in vivo until day 7 blastocyst stage. The second two groups (Vivo_4-cell and Vivo_16-cell) were matured, fertilized and cultured in vivo until 4- and 16-cell stage, respectively then flushed out and cultured in vitro until day 7 blastocyst stage. Complete in vitro (IVP) and in vivo (control group) blastocysts were also produced. Samples from the three pools (biological replicates) of each blastocyst group and in vivo control blastocyst were hybridized on EmbryoGENE’s bovine microarray using a dye-swap design (technical replicates) for a total of six arrays.