Project description:Comparison of wild-type and mutant H3.3 and histone H3 modifications between H3F3A mutant and wild-type GCTB stromal cells.

Project description:Analysis of GCTB transcriptome using RNA-seq

Project description:Analysis of chromatin accessibility in primary GCTB samples with ATAC-seq

Project description:The contained data consist of Illumina HiSeq reads generated genomic DNA of Oryza sativa ssp. indica used for comparative coverage aspects with plant-RRBS methylome profiling by bioinformatics analyses. The inbred control line and a derived epiline LR2 of the 4th selfing were analysed using whole-genome bisulfite sequencing.

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:Analysis of human population methylome variation in adipose tissue and whole blood at single-site resolution by whole genome bisulfite sequencing.

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:We used HCT116 colorectal cancer cells with and without mutations in DNA methyltransferases (resulting in a 95% reduction in global DNA methylation levels) to study the relationship between DNA methylation, histone modifications, and gene expression. (The double knockout cell line is called DKO1) Examination of DNA methylation, two histone modifications, RNA polymerase II ChIP-seq and RNA expression in two cell line (HCT116 and DKO1). One of relipates of HCT116 RNA P II ChIP-seq is from GSM970210. Histone modification data(H3K27ac, H3K4me3) of HCT116 are from GSM945304, GSE31755. Two replicates of RNA-seq data in HCT116 are from GSM1266733 and GSM1266734

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:The extraordinary range in the degree of sexual dimorphism (SD) among animal species is widely perceived to be caused in part by differences in patterns of sexual selection, but sex-specific adaptations and sex chromosome differences also play a role. Studies in insects have discovered a substantial number of sex-biased genes, but little is known about the epigenetic basis of SD. The degree and genome-wide distribution of sex-biased expression become interesting questions in hymenoptera species with haplodiploid sex-determination. To study the genetic and epigenetic architecture of SD and understand the conservation and evolution of sex-biased expression in a haplodiploid system that lacks sex chromosomes, we performed RNA-seq and whole-genome bisulfite sequencing in female and male adult samples of two parasitoid wasp species, Nasonia vitripennis and Nasonia giraulti. More than 75% of the expressed genes displayed significantly sex-biased expression. Both the number and the degree of sex-biased genes are higher than insects like Drosophila melanogaster, which have sex-chromosome mediated sex determination. Females from the two Nasonia species have far more similar expression profiles than does the contrast between the two sexes within either species. Interestingly, the extremely male- and female-biased genes are enriched for totally different functional categories: male-biased genes are highly enriched for key enzymes in sex-pheromone synthesis; female-biased genes are enriched for nuclear-located genes that are responsible for epigenetic regulation of gene expression. Unlike gene expression profiles, DNA methylomes are more similar within species, and no stable differentially methylated genes have been found between the two sexes, suggesting that DNA methylation is not directly responsible for the molecular basis of SD. However, methylation status does influence sex-biased expression: 80% of female-biased genes are methylated, which is more than two-fold higher than the genome average (30%); almost all male-biased and sex-specific genes are non-methylated, which is consistent with the fact that methylated genes have house-keeping functions and a broader expression breadth. Evolutionarily, male-biased genes have greater sequence divergence between the two species, and they are more likely to have a functional paralog in the Nasonia genome. Sex-specific genes have significantly higher non-synonymous substitution rates and dN/dS ratios. In addition, local clusters of sex-biased genes in the genome may have epigenetic properties similar to the sex chromosome. In summary, Nasonia accomplish a striking degree of sex-differential expression through a difference in ploidy along with associated differences in methylations status. Whole-genome bisulfite sequencing of 24-hour adult whole body samples of Nasonia vitripennis and Nasonia giraulti using Iilumina sequencing.