Project description:Non-coding regions of the genome contain cis-regulatory elements (CREs) that govern transcriptional activity critical for development and physiologic functions of major metabolic tissues, such as islets, adipose, liver, and skeletal muscle. Moreover, they contain the majority of genetic variants associated with risk of type 2 diabetes and quantitative alterations in related metabolic phenotypes. Here, we defined comprehensive, representative CRE maps of these major metabolic tissues in mice of both sexes using ATAC-seq and incorporating genetic variation of the 8 major Collaborative Cross founders and diet-response. Cross-species comparison of these representative maps with those from corresponding human tissues revealed conservation and functional preservation of ~28% of CREs in one or more major metabolic tissues. Importantly, this included an average of 700 (1.8%) cross-species concordant peaks that harbored genetic variants associated with T2D and related metabolic traits, including variants in the CAMK1D/CDC123, C2CD4A/B, and ADCY5 loci. Germline knock-out of the cross-species concordant CRE in ADCY5 yielded mice with impaired fasting glucose, demonstrating the importance of these functionally preserved CREs to glucose homeostasis and genetic risk of type 2 diabetes and progression. Together, the creation and cross-species comparison of comprehensive CRE maps in major metabolic tissues provides a critical resource for variant-to-function studies of type 2 diabetes and an array of related metabolic and cardiovascular traits and demonstrates the power of these mapping strategies to identify conserved metabolic cis-regulatory networks and enable data-driven creation of new preclinical models of diabetes and related metabolic diseases. Sample preparation: ATAC-seq libraries were prepared from adipose, liver, muscle, and islets as described in [Corces et al., 2016 (Nature Genetics) with slight modifications. Adipose, liver, and muscle samples were dissociated into single cell suspensions using MACS Miltenyi Biotec Adipose Tissue (130-105-808), Liver (130-105-807), and Skeletal Muscle (130-098-305) Dissociation Kits. Dissociated cells were counted and 50,000 cells were resuspended in freezing media (10% DMSO, 50% FBS, 40% RPMI) and frozen at -80°C until cells were thawed and washed in cold PBS, and incubated in ATAC lysis buffer. Islets were isolated from total pancreas as described in [Simonett et al., 2021 (JCI)], and 50 islets were rested overnight in RPMI in 37°C incubator. The following day islets were washed in cold PBS, incubated in ATAC lysis buffer, and triturated with 25-gauge needle and centrifuged to generate a crude nuclei pellet, and washed in ATAC lysis buffer. Prepared nuclei from all tissues were transposed using the Tagment DNA TDE1 Enzyme and Buffer kit (Illumina) with the addition of 0.01% digitonin (1x TDE for liver, muscle; 2x TDE for adipose). Transposed DNA was purified using the ChIP DNA Clean & Concentrator Kit (Zymo Research), amplified with 11 cycles of PCR, and cleaned using KAPA Pure Beads (Roche). All ATAC-seq libraries were sequenced at 2 x 100 bp using Illumina NovaSeq 6000. 1. Corces M.R., Buenrostro J.D., Wu B., Greenside P.G., Chan S.M., Koenig J.L., Snyder M.P., Pritchard J.K., Kundaje A., Greenleaf W.J. Lineage-specific and single-cell chromatin accessibility charts human hematopoiesis and leukemia evolution. Nat. Genet. 2016;48:1193–1203. https://www.nature.com/articles/ng.3646 2. Simonett S.P., Shin S., Herring J.A., Bacher R., Smith L.A., Dong C., Rabaglia M.E., Stapleton D.S., Schueler K.L., Choi J., Bernstein M.N., Turkewitz D.R., Perez-Cervantes C., Spaeth J., Stein R., Tessem J.S., Kendziorski C., Keleş S., Moskowitz I.P., Keller M.P., Attie A.D. Identification of direct transcriptional targets of NFATC2 that promote beta-cell proliferation. J Clin Invest. 2021;131(21):e144833. https://doi.org/10.1172/JCI144833.

Project description:Type 2 diabetes is one of the most prevalent metabolic disorders. It is characterised by insulin resistance in peripheral tissues. Skeletal muscle is one of the tissues that affect by insulin resistance. Therefore, the study aims to identify differentially regulated genes in skeletal muscle of type 2 diabetes patients. Here, we obtained biopsies from the pectoralis major muscle and performed RNA sequencing to profile the gene expression patterns from four patients with diabetes and three healthy controls.

Project description:ATAC-seq was performed, mapped, and analyzed as previously described (PMID: 34446717: \\"ATAC-seq was performed on 50,000 cells per replicate as described in Buenrostro et al. (with modifications based on Corces et al.), on EpiSCs and PSM-differentiated cell populations at desired time-points. Libraries were generated using the Ad1_noMX and Ad2.1–2.16 barcoded primers64 and amplified for 10 total PCR cycles. Libraries were purified with AMPure XP beads to remove contaminating primer dimers and fragments >1,000 bp. Library quality was assessed using the Fragment analyzer and quantitated by Qubit assay. The libraries were sequenced with 50 bp paired-end reads on a Next-Seq 500 Sequencer (Illumina) at the DanStem Genomics Platform (University of Copenhagen, Copenhagen, Denmark).\\"). For all conditions, two biological replicate samples were collected from independent experiments. Library quality was assessed using the Fragment Analyzer and quantitated by Qubit assay. The libraries were sequenced with 50 bp paired-end reads on a NextSeq 500 Sequencer (Illumina) at the DanStem/reNEW Genomics Platform (University of Copenhagen, Copenhagen, Denmark). Prediction of cis-regulatory elements (CREs) and gene annotation was done using rGREAT (v4.0.4) [PMID: 20436461],[PMID: 36040971] or HOMER (v.4.7)[PMID: 20513432]

Project description:<p>Exome sequencing of matched pairs of tumor / normal genomic DNA was performed from high risk localized prostate cancer or lethal, metastatic, castrate resistant prostate cancer (CRPC). Exome libraries were prepared using Illumina Paired_End Genome DNA Sample Prep Kit and captured using Agilent SureSelect Capture Library or Roche EZ Exome capture library. Sequencing was performed on Illumina GAII and HiSeq 2000 platforms in paired end mde, with 80 base pair reads from the final library fragments. Copy number alterations and somatic mutations were identified.</p>

Project description:Monozygotic twins discordant for type 2 diabetes constitute an ideal model to study environmental contributions to type 2 diabetic traits. We aimed to examine whether global DNA methylation differences exist in major glucose metabolic tissues from twelve 53–80 year-old monozygotic discordant twin pairs.

Project description:Monozygotic twins discordant for type 2 diabetes constitute an ideal model to study environmental contributions to type 2 diabetic traits. We aimed to examine whether global DNA methylation differences exist in major glucose metabolic tissues from twelve 53–80 year-old monozygotic discordant twin pairs. DNA methylation was measured by the Illumina HumanMethylation27 BeadChip in 22 (11 pairs) skeletal muscle and 10 (5 pairs) subcutaneous adipose tissue biopsies. No replicates were included.

Project description:RNA-IP was performed on nuclear fraction of chemically cross linked MTA-GFP and GFP (control) plant tissues followed by sequencing of NGS libraries

Project description:We employed a massively parallel, high resolution Capture-C based method to simultaneously characterize the genome-wide interactions of all human promoters in any cell type. We applied this approach to study the promoter interactome of HepG2 cells (3 biological replicates). We designed a custom Agilent SureSelect library targeting both ends of DpnII restriction fragments that overlap promoters of protein-coding, noncoding, antisense, snRNA, miRNA, snoRNA and lincRNA transcripts. Each library was sequenced on 4 lanes of an Illumina HiSeq 4000.

Project description:Cis Regulatory Elements (CREs) regulate the expression of the genes in their genomic neighborhoods and influence cellular processes such as cell-fate maintenance and differentiation. To date, there remain major gaps in the functional characterization of CREs and the identification of its target genes in the cellular native environment. In this study, we performed a Features Oriented CRISPR Utilized Systematic (FOCUS) screen of Oct4-bound CREs using CRISPR/Cas9 to identify functional CREs important for pluripotency maintenance in mouse ES cells.

Project description:Cis Regulatory Elements (CREs) regulate the expression of the genes in their genomic neighborhoods and influence cellular processes such as cell-fate maintenance and differentiation. To date, there remain major gaps in the functional characterization of CREs and the identification of its target genes in the cellular native environment. In this study, we performed a Features Oriented CRISPR Utilized Systematic (FOCUS) screen of Oct4-bound CREs using CRISPR/Cas9 to identify functional CREs important for pluripotency maintenance in mouse ES cells.