Project description:SeedAdapt core DS

Project description:SeedAdapt core SSR

Project description:SeedAdapt Core Genotype Comparison

Project description:SeedAdapt IsoSeq

Project description:SeedAdapt Flower development

Project description:Interventions: aggressively warmed group:Core body temperature was maintained at 37 to 37.5 ° C;actively warmed group:Core body temperature was maintained at 36 to 36.5 ° C;routine thermal management group:Core body temperature was maintained at least 35 ° C Primary outcome(s): troponin I;core body temperature Study Design: Parallel

Project description:A small set of core transcription factors (TFs) dominates control of the gene expression program in embryonic stem cells and other well-studied cellular models. These core TFs collectively regulate their own gene expression, thus forming an interconnected autoregulatory loop that can be considered the core transcriptional regulatory circuitry (CRC) for that cell type. There is limited knowledge of core TFs, and thus models of core regulatory circuitry, for most cell types. We recently discovered that genes encoding known core TFs forming CRCs are driven by super-enhancers, which provides an opportunity to systematically predict CRCs in poorly studied cell types through super-enhancer mapping. Here we use super-enhancer maps to generate CRC models for 75 human cell and tissue types. These core circuitry models should prove valuable for further investigating cell type-specific transcriptional regulation in healthy and diseased cells. ChIP-Seq for RUNX1 and GATA3 in Jurkat T cell acute lymphoblastic leukemia cells.

Project description:PE-CORE

Project description:Flax core collection

Project description:We performed ChIP-seq of two core circadian TFs which were found to be important in leukemia proliferation, in order to identify potential target genes regulated by the circadian rhythm. Here, we performed ChIP-seq for the core circadian transcription factors CLOCK and ARNTL (BMAL1) in NOMO-1 and THP-1 cells.