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
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/ecHA8WxfFZ
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
@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