SOPHIE is an approach to distinguishing between common and specific DEGs using a generative neural network. A. SOPHIE workflow is designed to distinguish ...
Oct 7, 2022 · Further molecular validation indicates that SOPHIE detects highly specific but low-magnitude biologically relevant transcriptional changes.
Generative neural networks separate common and specific transcriptional ...
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Feb 22, 2022 · Further, molecular validation indicates that SOPHIE detects highly specific, but low magnitude, biologically relevant, transcriptional changes.
Molecular validation indicates that SOPHIE detects highly specific, but low magnitude, biologically relevant, transcriptional changes that can complement ...
Here we pioneer an approach, Specific cOntext Pattern Highlighting In Expression data (SOPHIE), for distinguishing between common and specific transcriptional ...
SOPHIE: Generative Neural Networks Separate Common and ...
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Here we pioneer an approach, Specific cOntext Pattern Highlighting In Expression data (SOPHIE), for distinguishing between common and specific transcriptional ...
Here we pioneer an approach, Specific cOntext Pattern Highlighting In Expression data (SOPHIE), for distinguishing between common and specific transcriptional ...
Generative neural networks separate common and specific transcriptional ...
www.biorxiv.org › content
May 24, 2021 · This “Specific cOntext Pattern Highlighting In Expression data” (SOPHIE) method is broadly applicable to new platforms or any species with a ...
May 24, 2021 · This "Specific cOntext Pattern Highlighting In Expression data" (SOPHIE) method is broadly applicable to new platforms or any species with a ...
SOPHIE: Generative Neural Networks Separate Common and Specific Transcriptional Responses. Lee, Alexandra J; Mould, Dallas L; Crawford, Jake; Hu, Dongbo; Powers ...