Project description:The experiment was designed to assess the DNA methylation differences between CLDN6Low vs CLDN6High EpiSCs and APSD, as well as WT vs Pbx1-KO EpiSCs. Based on analysis of RNAseq data and GO, we narrowed down our focus to DNA methylation effects influencing lineage biases. We performed WGBS analysis using two different methodologies. The EZ DNA Methylation-Lightning Kit (Zymo Research, #D5031) for bisulfite conversion of CLDN6Low versus CLDN6High sorted EpiSCs and APSD cells. The next steps of library preparation was done using NEBNext Ultra II DNA Library Prep Kit (E7645S), enzymatic fragmentation using NEBNext dsDNA Fragmentase (M0348S), and sensitive adaptors NEBNext Multiplex Oligos (Methylated Adaptor, E7535S), as per manufacturer’s instructions. Samples were sequenced on NextSeq2000 (200 cycles kit), averaging 256M reads per sample. WT versus Pbx1-KO EpiSCs were treated via the post-bisulfite library construction method using Illumina’s TruSeq DNA Methylation Kit (EGMK81312) with sensitive adaptors (EGIDX81312) following the manufacturer’s instructions.

Project description:DNA methylation is an epigenetic mark that can be transmitted from one generation to the next. DNA methylation patterns can be specific to environmental conditions. In our ap-proach, differences in DNA methylation pattern were compared among tubers of potato (Solanum tuberosum) grown under organic and conventional farming conditions. These conditions differed in application of fertilizer, herbicides, fungicides and insecticides. Samples grown at two different years under organic and conventional growing conditions in three independent field replicates were analyzed to identify differentially methylated regions (DMRs). Post-bisulfite-adapter tagging whole-genome bisulfite-sequencing (PBAT-WGBS) was performed on the extracted DNA. Only using relaxed selection param-eters revealed sixty shared DMRs were identified among both years analyzed. One of the identified DMR was associated with the StATOX1 gene. StATOX1 is an evolutionarily highly conserved antioxidant copper chaperone, responsible for detoxification of copper in organisms. Copper content of the potato samples was measured by Inductively-Coupled Plasma-Atomic-Emission-Spectrometry (ICP-AES) after high pressure nitric acid oxidation. As organic potato management relies on the application of copper as fungicide, our iden-tified region might be indicative for the application of this specific compound.

Project description:Our data provided a genome-wide DNA methylation landscape of human early development embryos, including human MII oocytes, sperm, zygotes, 2-cell to 8-cell embryos, morula, blastocyst and postimplantation embryos at single base resolution. In total, 44 samples including biological and technical replicates, from 12 different human embryo development stages were analyzed, including two metaphase II oocytes, two zygotes, three first polar bodies, two second polar bodies, four sperm samples, two 2-cell-stage embryos, two 4-cell-stage embryos, three 8-cell-stage embryos, three morulae, three inner cell masses (ICMs) and three trophectoderms (TEs) seperated from late blastocysts, and three post-implantation embryos. In addition, 12 different human embryo development stages were analyzed, including metaphase II oocytes, zygotes, first polar bodies, second polar bodies, sperm samples, 2-cell-stage embryos, 4-cell-stage embryos, 8-cell-stage embryos, morulae, inner cell masses (ICMs) and trophectoderms (TEs) seperated from late blastocysts, and post-implantation embryos.

Project description:DNA methylation at 5-position of cytosine (5mC) is one of the best studied epigenetic modifications that plays important roles in diverse biological processes. Iterative oxidation of 5mC by the Ten-eleven translocation (Tet) family of proteins generates 5-hydroxymethylcytosine (5hmC), 5-formylcytosine (5fC), and 5-carboxylcytosine (5caC), which can be further processed by DNA repair proteins leading to DNA demethylation. Functional characterization of the Tet proteins has been complicated by the redundancy between the three Tet proteins. Using the CRISPR/Cas9 technology, we have generated mouse embryonic stem cells (ESCs) deficient for all three Tet proteins (TKO). Whole genome bisulphite sequencing (WGBS) analysis revealed that Tet-mediated DNA demethylation mainly occurs distal enhancers as well as promoters that significantly overlap with 5hmC, 5fC and 5caC. Characterization of the Tet TKO ESCs revealed a function for Tet proteins in cell fate restriction as Tet TKO ESCs tend to adopt both primed pluripotent stem cell-like state and 2-cell embryo-like state. In addition, Tet TKO ESCs exhibit elongated telomeres. Thus, our study reveals a role of Tet proteins not only in DNA demethylation, but also in cell fate restriction and telomere maintenance. 2 samples for WGBS and 2 samples for RNA-seq

Project description:Whole genome bisulfite sequencing (WGBS) of the NA18507 (Yoruba) lymphoblastoid cell line high resolution methylome of one cell type

Project description:We improved the tagmentation-based whole genome bisulfite sequencing technology, enabling stable library construction with complexity from minimally 0.5ng of initial genomic DNA, which equals less than 100 cells. This new approach is highly attractive for the complete methylome analysis of very limited cell numbers, e.g., pre-implantation embryos, or tiny biopsy specimens. Applying this newly modified T-WGBS, we sequenced the methylome of a rice strain using libraries constructed from 10 ng, 1 ng and 0.5 ng of input genomic DNA. Two libraries were independently constructed and sequenced for each aliquot of input genomic DNA

Project description:DNA methylation predominantly occurs at CG dinucleotides in vertebrate genomes, however, non-CG methylation (mCH) is also detectable in vertebrate tissues, most notably in the nervous system. In mammalian brains, it is well established that: i) mCH is targeted to CAC trinucleotides by DNMT3A, ii) enriched in gene bodies and repetitive elements, and iii) associated with transcriptional repression. However, the possible conservation of these mCH features in zebrafish is largely unexplored and has yet to be functionally demonstrated. In this study, we analyse the transcriptomes (RNA-seq) and methylome (RRBS) of developing zebrafish larvae (1-6 weeks) and adult brain (6 month). We additionally elucidate a role for dnmt3aa/dnmt3ab in mCH deposition via CRISP/CAS9 KO and WGBS of 4 week old brains

Project description:The contained data consist of Illumina HiSeq reads generated genomic DNA of Oryza sativa ssp. indica used for WGBS analysis. The inbred control line and derived epilines LR1, LR2 and LR3 of the 4th selfing were analysed using whole-genome bisulfite sequencing. Control and LR2 lines can be found in ArrayExpress E-MTAB-5002 submission, LR1 and LR3 are part of this submission

Project description:During development, the inherited DNA methylation patterns from the parental gametes needs to be remodeled into a state compatible with embryonic pluripotency. In Zebrafish, this remodeling is achieved by the maternal methylome becoming hypomethylated to match the paternal methylome. However, how this is achieved in medaka (another teleost fish) is currently not known. Moreover, how DNA methylation remodeling is impacted in hybrid organisms, and the effects this may have on their development, is also not known. Here we address these questions by generation whole genome bisulfite sequencing data for zebrafish, medaka and zebrafish medaka embryos.

Project description:We performed RRBS and WGBS on primary human chronic lymphocytic leukemia and normal healthy donor B cell samples Due to patient privacy concerns, the raw data is being made available via controlled access in dbGaP (http://www.ncbi.nlm.nih.gov/projects/gap/cgi-bin/study.cgi?study_id=phs000435.v1.p1). cross-sectional/longitudinal