Project description:Mice without cardiac Bmal1 function develop severe progressive heart failure with age. To examine the mechanism underlying the failing heart phenotype observed in heart-specific Bmal1 knockout mice, microarray analyses were performed. The analyses revealed that broad classes of genes regulating cellular energy metabolism were upregulated or downregulated in the heart tissues of heart-specific Bmal1 knockout mice compared with those of control animals. Heart total RNA extracted from six animals per genotype (control and heart-specific Bmal1 knockout) was pooled and then used for a microarray analysis.

Project description:Mice without cardiac Bmal1 function develop severe progressive heart failure with age. To examine the mechanism underlying the failing heart phenotype observed in heart-specific Bmal1 knockout mice, microarray analyses were performed. The analyses revealed that broad classes of genes regulating cellular energy metabolism were upregulated or downregulated in the heart tissues of heart-specific Bmal1 knockout mice compared with those of control animals.

Project description:A Transcriptomic Dataset of Liver Tissues from Global and Liver-Specific Bmal1 Knockout Mice

Project description:Subcutanesouly tumors from both Bmal1+/+ and Bmal1-/- mice were used to isolated stromal vascular fractions (SVF). Tumor cells with GFP+ signals were exclusive. Remain GFP- cells were collected to do RNAseq.

Project description:SILAC based protein correlation profiling using size exclusion of protein complexes derived from Mus musculus tissues (Heart, Liver, Lung, Kidney, Skeletal Muscle, Thymus)

Project description:SILAC based protein correlation profiling using size exclusion of protein complexes derived from seven Mus musculus tissues (Heart, Brain, Liver, Lung, Kidney, Skeletal Muscle, Thymus)

Project description:To define regulation of tissue proteomes by Bmal1, daily feeding rhythm, and the interaction, we employed Bmal1-stopFL mice, which do not express the main transcriptional activator of the molecular clock, Bmal1, except in cre recombinase-expressing cells1,2 (Figure 1A). Bmal1-stopFL mice lacking cre (Bmal1 knockout, KO) are analogous to Bmal1-null mice and display severely impaired behavioral and molecular rhythms1-3. Hepatocyte-specific Alfp-cre and skeletal muscle-specific Hsa-cre genes were introduced to generate a single line wherein both hepatocyte and skeletal muscle Bmal1 were reconstituted (Liver+Muscle-RE), i.e., rescued (Smith, Koronowski et al. 2023). This approach had the benefit of analyzing liver and muscle from the same mice but comes with the qualification that the abundance of some proteins may be influenced by Bmal1 function in the other tissue, or by a synergistic effect of Bmal1 in both tissues, rather than through rescue of local Bmal1 function alone. Proteomic anlaysis was performed in liver and skeletal muscle.

Project description:Gene expression profiles from islets of a β-cell-specific CB1-knockout mice

Project description:SILAC based protein correlation profiling using size exclusion of protein complexes derived from Mus musculus tissues (Heart, Liver, Lung, Kidney, Skeletal Muscle, Thymus)

Project description:SILAC based protein correlation profiling using size exclusion of protein complexes derived from seven Mus musculus tissues (Heart, Brain, Liver, Lung, Kidney, Skeletal Muscle, Thymus)