Project description:The target of this project is to investigate the effect of ACOX1 knockout in liver Gene expression profiling analysis were performed using data obtained from RNA-seq of two genotypes mice liver

Project description:iTRAQ proteomics was performed for Liver samples from WT and Atg7 liver specific KO mice

Project description:RNA resequencing of liver in liver-specific-Pparg knockout mice model

Project description:A series of dual-channel gene expression profiles obtained using Rosetta/Agilent Whole Mouse Genome oligonucleotide microarrays, 4 x 44K format, was used to identify sex-dependent and HNF4alpha-dependent differences in gene expression in adult mouse liver. This series is comprised of four sex-genotype combinations: adult male wild-type liver (M-WT), adult female wild-type liver (F-WT), adult male liver-specific HNF4alpha knockout liver (M-KO) and adult female liver-specific HNF4alpha knockout liver (F-KO). Four pools, each comprised of 4 randomly selected individual liver RNAs, were prepared for each sex-genotype combination. The pools were paired randomly to generate 4 separate experimental comparisons: M-WT:F-WT (first array comparison), M-WT:M-KO (second array comparison), F-WT:F-KO (third array comparison), and M-KO:F-KO (fourth array comparison). A total of 4994 HNF4alpha-dependent genes were identified, of which ~1000 fewer genes responded to the loss of HNF4alpha in female liver as compared to male liver. Moreover, 90% of the genes showing sex-specific expression in the liver were shown to lose sex specificity in HNF4alpha-deficient liver. Experiment Overall Design: An Alexa555-labeled cDNA sample is co-hybridized with an Alexa647-labeled cDNA sample. The samples are then dye-swapped and compared again on a second microarray chip. Together, these two mixed cDNA samples are considered a fluorescent reverse pair (dye swap). Similarly, a second fluorescent reverse pair is generated and the two pairs are averaged. The normalized expression ratio for each array is reported along with the two separate intensities. In this way, dye swaps were carried out for each of the four experimental comparisons. Thus, four microarrays, one for each mixed cDNA sample, were hybridized for each of the four fluorescent reverse pairs, giving a total of 16 microarrays.

Project description:Liver transcriptome profiling of liver specific miR-122 knockout (miR-122loxP/loxP Alb-Cre) and control (miR-122loxP/loxP) male mice. Expression profile of several hundred mRNAs that include miR-122 targets were altered in miR-122 KO livers. Loss of miR-122 in the germ line resulted in significant changes in hepatic gene expression profile. Among the upregulated genes many are direct targets of miR-122 GSM517838-GSM517847: Liver transcriptome profiling of liver specific miR-122 knockout and control male mice. Total liver RNA from 8 week old five control and five liver-specific miR-122 knock out male mice (C57/BL6J background) GSM791601-GSM791604: Liver transcriptome profiling of germ-line miR-122 knockout and control male mice. Liver RNA from 5 week old control (floxed) and miR-122KO mice were analyzed by mouse whole transcriptome profiling.

Project description:RNA-seq was performed on mRNA samples purified from the livers of wild type (WT) and Sirt6 liver-specific knockout (KO) mice.

Project description:RNA sequence data from liver-specific Pten/Traf3 knockout mice

Project description:Transcriptomic analysis for liver from WT and Acox1 liver specific knockout mice

Project description:We investigated the plasma and liver proteome changes in liver fibrosis in mice induced by hepatocyte-specific knockout of nicotinamide phosphoribosyltransferase (Nampt) upon a low-methionine, choline-free 60% high-fat (MCD) diet at multiple time points. We also investigated whether supplementation with nicotinamide riboside could alleviate liver injury and how the liver proteome changes upon NR supplementation.

Project description:RNA sequencing of liver tissues from liver-specific Usp39 knockout (Usp39-HKO) mice