Computational Interspecies Translation Between Alzheimer’s Disease Mouse Models and Human Subjects Identifies Innate Immune Complement, TYROBP, and TAM Receptor Agonist Signatures, Distinct From…

Overview of attention for article published in Frontiers in Neuroscience, September 2021

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Computational Interspecies Translation Between Alzheimer's Disease Mouse Models and Human Subjects Identifies Innate Immune Complement, TYROBP, and TAM Receptor Agonist Signatures, Distinct From Influences of Aging https://t.co/cw31ZkSDiH

18 Oct 2021

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18 Oct 2021

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New article: Computational Interspecies Translation Between Alzheimer's Disease Mouse Models and Human Subjects Identifies Innate Immune Complement, TYROBP, and TAM Receptor Agonist Signatures, Distinct From Influences of Aging https://t.co/IZTfyc5xKg #alz

18 Oct 2021

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@jacksonlab @_DougBrubaker @shenorr Naturally challenging to do across data modalities and across contexts. Presents their approach "TransComp-R" which maps human data onto low-rank PCA trained on mouse data (https://t.co/3xqil3z8RG), and an example of the

06 Oct 2021

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