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A Human "eFP" Browser for Generating Gene Expression Anatograms
Transcriptomic studies help to further our understanding of gene function. Human transcriptomic studies tend to focus on a particular subset of tissue types or a particular disease state; however, it is possible to collate into a compendium multiple studies that have been profiled using the same exp...
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| Published in: | PloS one 2016-03, Vol.11 (3), p.e0150982-e0150982 |
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| container_end_page | e0150982 |
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| creator | Patel, Rohan V Hamanishi, Erin T Provart, Nicholas J |
| description | Transcriptomic studies help to further our understanding of gene function. Human transcriptomic studies tend to focus on a particular subset of tissue types or a particular disease state; however, it is possible to collate into a compendium multiple studies that have been profiled using the same expression analysis platform to provide an overview of gene expression levels in many different tissues or under different conditions. In order to increase the knowledge and understanding we gain from such studies, intuitive visualization of gene expression data in such a compendium can be useful. The Human eFP ("electronic Fluorescent Pictograph") Browser presented here is a tool for intuitive visualization of large human gene expression data sets on pictographic representations of the human body as gene expression "anatograms". Pictographic representations for new data sets may be generated easily. The Human eFP Browser can also serve as a portal to other gene-specific information through link-outs to various online resources. |
| doi_str_mv | 10.1371/journal.pone.0150982 |
| format | article |
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Human transcriptomic studies tend to focus on a particular subset of tissue types or a particular disease state; however, it is possible to collate into a compendium multiple studies that have been profiled using the same expression analysis platform to provide an overview of gene expression levels in many different tissues or under different conditions. In order to increase the knowledge and understanding we gain from such studies, intuitive visualization of gene expression data in such a compendium can be useful. The Human eFP ("electronic Fluorescent Pictograph") Browser presented here is a tool for intuitive visualization of large human gene expression data sets on pictographic representations of the human body as gene expression "anatograms". Pictographic representations for new data sets may be generated easily. 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| subjects | Acids Biology and Life Sciences Computer and Information Sciences Databases, Genetic Datasets Fluorescence Gene expression Gene Expression Profiling - methods Genome-wide association studies Genomes Genomics Humans Innovations Internet resources Medicine and Health Sciences Mesothelioma Proteins Representations Research and Analysis Methods Software Transcriptome Visualization Web Browser Web browsers |
| title | A Human "eFP" Browser for Generating Gene Expression Anatograms |
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