Project description:Our study reports the first genome-wide atlas of functional nodes that mediate proviral silencing in ESCs. It provides evidences for the comprehensive, interconnected and multi-layered genetic/epigenetic machineries by which ESCs maintain the repressive state of provirus and ERVs. ChIP-seq analysis of Chaf1a, Trim28, Sumo2 and Zfp809 to demonstrate the mechanism of the silencing of Endogenous retroviruses

Project description:Multi-omics study of DBD-a4 helix of EWS::FLI to understand the underlying mechanism of transcriptional regulation in Ewing sarcoma cell line: TTC466

Project description:Multi-omics study of DBD-a4 helix of EWS::FLI to understand the underlying mechanism of transcriptional regulation in Ewing sarcoma cell line: TTC-466

Project description:Multi-omics study of DBD-a4 helix of EWS::FLI to understand the underlying mechanism of transcriptional regulation in Ewing sarcoma cell line: TTC-466

Project description:Multi-omics Research on the Cold Tolerance Mechanism of Rhododendron

Project description:Multi-drug resistance mechanism of Helicobacter pylori clinical strains G272

Project description:The function and mechanism of autophagy in pancreatic cancer remained elusive owing to its complex biological process and multi-molecular involvement including non-coding RNAs. Here, we, from the view of mRNA, circRNA, lncRNA and miRNA, investigate the molecular mechanism of autophagy induction on human pancreatic cancer cells

Project description:Multi-omics Research on the UV-B Tolerance Mechanism of Rhododendron

Project description:Elucidation of mechanism behind multi-drug resistance among different bacterial isolates.

Project description:Multi-omics joint analysis exploring the mechanism of action of fluchloraminpyr.