Project description:To identify the circRNA expression profiles in HF patients’ plasma and to evaluate the potential application of circRNAs for HF diagnosis, circRNA microarrays were performed on plasma samples obtained from HF patients and healthy controls. The RNAs of the plasma from the HF and control groups were extracted for microarray analysis. The purified RNAs were hybridized to a microarray (Agilent human circRNA Array V2.0) containing 170,340 human circRNA probes. Quantitative reverse transcription polymerase chain reaction (qRT-PCR) was used to validate the results.
Project description:Mouse hair follicles undergo synchronized cycles. Cyclical regeneration and hair growth is fueled by stem cells (SCs). During the rest phase, the HF-SCs remain quiescent due to extrinsic inhibitory signals within the niche. As activating cues accumulate, HF-SCs become activated, proliferate, and grows downward to form transient-amplifying matrix progenitor cells. We used ChIP-seq to reveal the genome-wide maps of histone modifications underlying the states of hair follicle stem cells and their transient-amplifying progeny before differentiation. Quiescent hair follicle stem cells (qHF-SCs), activated hair follicle stem cells (aHF-SCs) and transient-amplifying matrix cells (HF-TACs) were FACS-purified for ChIP-sequcencing.