Project description:Transcriptomics of Glp1r-expressing cells in mouse hypothalamus tissue

Project description:Transcriptomics of Gipr-expressing cells in mouse hypothalamus tissue [dataset 1]

Project description:Transcriptomics of Gipr-expressing cells in mouse hypothalamus tissue [dataset 2]

Project description:We purified Glp1r-expressing cells from mouse hypothalamus by FACS and identified cell types distinguished by transcripts.

Project description:We purified Rxfp4-expressing cells from mouse hypothalamus by FACS and identified cell types distinguished by transcripts.

Project description:We purified Gipr-expressing cells from mouse hypothalamus by FACS and identified cell types distinguished by transcripts.

Project description:We purified Gipr-expressing cells from mouse hypothalamus by FACS and identified cell types distinguished by transcripts.

Project description:We profiled gene expression in hypothalamus tissue from F2 progeny from a cross between the outbred M16 (selectively bred for rapid weight gain) and ICR (control) mouse strains. We developed a framework for reconstructing tissue-to-tissue coexpression networks between genes in hypothalamus, liver or hypothalamus tissues that are independent of networks constructed from single tissue analyses. The subnetworks we identify as specific to tissue-to-tissue interactions associate with multiple obesity-relevant biological functions like circadian rhythm, energy balance, stress response, or immune response. Keywords: Tissue profiling in a mouse F2 cross. We analyzed 308 hypothalamus samples.

Project description:We profiled gene expression in hypothalamus tissue from F2 progeny from a cross between the outbred M16 (selectively bred for rapid weight gain) and ICR (control) mouse strains. We developed a framework for reconstructing tissue-to-tissue coexpression networks between genes in hypothalamus, liver or hypothalamus tissues that are independent of networks constructed from single tissue analyses. The subnetworks we identify as specific to tissue-to-tissue interactions associate with multiple obesity-relevant biological functions like circadian rhythm, energy balance, stress response, or immune response. Keywords: Tissue profiling in a mouse F2 cross.

Project description:Expression in ENO2DeltaFosB mouse hypothalamus