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  1. Article ; Online: Utility of Extrapolating Human S1500+ Genes to the Whole Transcriptome

    Deepak Mav / Dhiral P Phadke / Michele R Balik-Meisner / B Alex Merrick / Scott Auerbach / Marije Niemeijer / Suzanna Huppelschoten / Audrey Baze / Celine Parmentier / Lysiane Richert / Bob van de Water / Ruchir R Shah / Richard S Paules

    Bioinformatics and Biology Insights, Vol

    Tunicamycin Case Study

    2020  Volume 14

    Abstract: The TempO-Seq S1500+ platform(s), now available for human, mouse, rat, and zebrafish, measures a discrete number of genes that are representative of biological and pathway co-regulation across the entire genome in a given species. While measurement of ... ...

    Abstract The TempO-Seq S1500+ platform(s), now available for human, mouse, rat, and zebrafish, measures a discrete number of genes that are representative of biological and pathway co-regulation across the entire genome in a given species. While measurement of these genes alone provides a direct assessment of gene expression activity, extrapolating expression values to the whole transcriptome (~26 000 genes in humans) can estimate measurements of non-measured genes of interest and increases the power of pathway analysis algorithms by using a larger background gene expression space. Here, we use data from primary hepatocytes of 54 donors that were treated with the endoplasmic reticulum (ER) stress inducer tunicamycin and then measured on the human S1500+ platform containing ~3000 representative genes. Measurements for the S1500+ genes were then used to extrapolate expression values for the remaining human transcriptome. As a case study of the improved downstream analysis achieved by extrapolation, the “measured only” and “whole transcriptome” (measured + extrapolated) gene sets were compared. Extrapolation increased the number of significant genes by 49%, bringing to the forefront many that are known to be associated with tunicamycin exposure. The extrapolation procedure also correctly identified established tunicamycin-related functional pathways reflected by coordinated changes in interrelated genes while maintaining the sample variability observed from the “measured only” genes. Extrapolation improved the gene- and pathway-level biological interpretations for a variety of downstream applications, including differential expression analysis, gene set enrichment pathway analysis, DAVID keyword analysis, Ingenuity Pathway Analysis, and NextBio correlated compound analysis. The extrapolated data highlight the role of metabolism/metabolic pathways, the ER, immune response, and the unfolded protein response, each of which are key activities associated with tunicamycin exposure that were unrepresented or underrepresented in ...
    Keywords Biology (General) ; QH301-705.5
    Subject code 572 ; 570
    Language English
    Publishing date 2020-09-01T00:00:00Z
    Publisher SAGE Publishing
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Article ; Online: Preclinical imaging methods for assessing the safety and efficacy of regenerative medicine therapies

    Lauren Scarfe / Nathalie Brillant / J. Dinesh Kumar / Noura Ali / Ahmed Alrumayh / Mohammed Amali / Stephane Barbellion / Vendula Jones / Marije Niemeijer / Sophie Potdevin / Gautier Roussignol / Anatoly Vaganov / Ivana Barbaric / Michael Barrow / Neal C. Burton / John Connell / Francesco Dazzi / Josefina Edsbagge / Neil S. French /
    Julie Holder / Claire Hutchinson / David R. Jones / Tammy Kalber / Cerys Lovatt / Mark F. Lythgoe / Sara Patel / P. Stephen Patrick / Jacqueline Piner / Jens Reinhardt / Emanuelle Ricci / James Sidaway / Glyn N. Stacey / Philip J. Starkey Lewis / Gareth Sullivan / Arthur Taylor / Bettina Wilm / Harish Poptani / Patricia Murray / Chris E. P. Goldring / B. Kevin Park

    npj Regenerative Medicine, Vol 2, Iss 1, Pp 1-

    2017  Volume 13

    Abstract: Abstract Regenerative medicine therapies hold enormous potential for a variety of currently incurable conditions with high unmet clinical need. Most progress in this field to date has been achieved with cell-based regenerative medicine therapies, with ... ...

    Abstract Abstract Regenerative medicine therapies hold enormous potential for a variety of currently incurable conditions with high unmet clinical need. Most progress in this field to date has been achieved with cell-based regenerative medicine therapies, with over a thousand clinical trials performed up to 2015. However, lack of adequate safety and efficacy data is currently limiting wider uptake of these therapies. To facilitate clinical translation, non-invasive in vivo imaging technologies that enable careful evaluation and characterisation of the administered cells and their effects on host tissues are critically required to evaluate their safety and efficacy in relevant preclinical models. This article reviews the most common imaging technologies available and how they can be applied to regenerative medicine research. We cover details of how each technology works, which cell labels are most appropriate for different applications, and the value of multi-modal imaging approaches to gain a comprehensive understanding of the responses to cell therapy in vivo.
    Keywords Medicine ; R
    Subject code 616
    Language English
    Publishing date 2017-10-01T00:00:00Z
    Publisher Nature Publishing Group
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

    Full text online

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    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

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