Project description:We used microarrays to study the global gene expression and identified differentially expressed genes in CLOCK inducibel shRNA knockdown GSC272 cells, aiming to identify genes and pathways that are regulated by CLOCK.

Project description:HOTAIRM1 knockdown microarray

Project description:The aim of the study was to determine the impact of CLOCK knockdown on global gene expression.

Project description:Microarray upon ZMYND8 knockdown in MCF7 cells

Project description:Microarray upon Sp110 knockdown in HepG2.2.15 cells

Project description:Microarray upon ZMYND8 knockdown in Hela cells

Project description:Microarray analyses of mRNA in PCDH1 knockdown cells

Project description:The circadian clock is intricately connected with metabolism, however the precise details of these connections are incomplete. Here we used high temporal resolution metabolite profiling to determine circadian regulation of mouse liver and cell autonomous metabolism. In mouse liver, we found ~50% of metabolites were circadian, with strong enrichment of the nucleotide, amino acid, and methylation pathways. In U2OS cells, 27% of metabolites were circadian, including amino acids and NAD biosynthesis, also clock controlled in liver. To assess whether cell autonomous metabolite rhythms were clock-dependent, we used RNAi to perturb Bmal1, Cry1, and Cry2. Bmal1 knockdown eliminated most metabolite rhythms, while Cry1 generally shortened and Cry2 lengthened rhythms. Surprisingly, we found Cry1 knockdown induced 8 hr rhythms in amino acid, methylation, and vitamin metabolites, decoupling metabolite and transcriptional rhythms. These results provide the first comprehensive views of circadian liver and cell autonomous metabolism.

Project description:Microarray analysis of NNMT overexpression and knockdown in stromal cells

Project description:Gene expression microarray analysis of NCK1-AS1 knockdown in CaSki cells