Rebecca Berrens scite author profile

SummaryMouse embryonic stem cells are dynamic and heterogeneous. For example, rare cells cycle through a state characterized by decondensed chromatin and expression of transcripts, including the Zscan4 cluster and MERVL endogenous retrovirus, which are usually restricted to preimplantation embryos. Here, we further characterize the dynamics and consequences of this transient cell state. Single-cell transcriptomics identified the earliest upregulated transcripts as cells enter the MERVL/Zscan4 state. The MERVL/Zscan4 transcriptional network was also upregulated during induced pluripotent stem cell reprogramming. Genome-wide DNA methylation and chromatin analyses revealed global DNA hypomethylation accompanying increased chromatin accessibility. This transient DNA demethylation was driven by a loss of DNA methyltransferase proteins in the cells and occurred genome-wide. While methylation levels were restored once cells exit this state, genomic imprints remained hypomethylated, demonstrating a potential global and enduring influence of endogenous retroviral activation on the epigenome.

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Comparison of whole-genome bisulfite sequencing library preparation strategies identifies sources of biases affecting DNA methylation data

Olova

et al. 2018

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BackgroundWhole-genome bisulfite sequencing (WGBS) is becoming an increasingly accessible technique, used widely for both fundamental and disease-oriented research. Library preparation methods benefit from a variety of available kits, polymerases and bisulfite conversion protocols. Although some steps in the procedure, such as PCR amplification, are known to introduce biases, a systematic evaluation of biases in WGBS strategies is missing.ResultsWe perform a comparative analysis of several commonly used pre- and post-bisulfite WGBS library preparation protocols for their performance and quality of sequencing outputs. Our results show that bisulfite conversion per se is the main trigger of pronounced sequencing biases, and PCR amplification builds on these underlying artefacts. The majority of standard library preparation methods yield a significantly biased sequence output and overestimate global methylation. Importantly, both absolute and relative methylation levels at specific genomic regions vary substantially between methods, with clear implications for DNA methylation studies.ConclusionsWe show that amplification-free library preparation is the least biased approach for WGBS. In protocols with amplification, the choice of bisulfite conversion protocol or polymerase can significantly minimize artefacts. To aid with the quality assessment of existing WGBS datasets, we have integrated a bias diagnostic tool in the Bismark package and offer several approaches for consideration during the preparation and analysis of WGBS datasets.Electronic supplementary materialThe online version of this article (10.1186/s13059-018-1408-2) contains supplementary material, which is available to authorized users.

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SPOCD1 is an essential executor of piRNA-directed de novo DNA methylation

Zoch

Auchynnikava

Berrens

et al. 2020

Nature

108

112

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GeneCore for preparation of the Methyl-seq libraries. Author contributionsA.Z. contributed to the design, execution and analysis of most experiments. T.A. helped established the IP conditions and performed the mass-spectrometry analysis under the guidance of J.R. and R.C.A. R.B. and Y.K. performed the bioinformatic analysis of the Methyl-seq data or sRNA-seq as well as RNA-seq data, respectively. T.S. prepared the sRNA-seq libraries and together with Y.K. the RNA-seq libraries of P20 testes. M.H and A.C. performed the homology alignment of the SPOC and TFIIS-M domains. L.V. performed the IF staining of HA-MIWI2 and generated the gonocytes microarray dataset. Y.R.P. performed the phylogenetic analysis under guidance of A.S. D.O'C. conceived and supervised this study. D.O'C. and A.Z wrote the final version of the manuscript.

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Comparative Principles of DNA Methylation Reprogramming during Human and Mouse In Vitro Primordial Germ Cell Specification

et al. 2016

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SummaryPrimordial germ cell (PGC) development is characterized by global epigenetic remodeling, which resets genomic potential and establishes an epigenetic ground state. Here we recapitulate PGC specification in vitro from naive embryonic stem cells and characterize the early events of epigenetic reprogramming during the formation of the human and mouse germline. Following rapid de novo DNA methylation during priming to epiblast-like cells, methylation is globally erased in PGC-like cells. Repressive chromatin marks (H3K9me2/3) and transposable elements are enriched at demethylation-resistant regions, while active chromatin marks (H3K4me3 or H3K27ac) are more prominent at regions that demethylate faster. The dynamics of specification and epigenetic reprogramming show species-specific differences, in particular markedly slower reprogramming kinetics in the human germline. Differences in developmental kinetics may be explained by differential regulation of epigenetic modifiers. Our work establishes a robust and faithful experimental system of the early events of epigenetic reprogramming and regulation in the germline.

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Rebecca Berrens

MERVL/Zscan4 Network Activation Results in Transient Genome-wide DNA Demethylation of mESCs

Comparison of whole-genome bisulfite sequencing library preparation strategies identifies sources of biases affecting DNA methylation data

SPOCD1 is an essential executor of piRNA-directed de novo DNA methylation

Comparative Principles of DNA Methylation Reprogramming during Human and Mouse In Vitro Primordial Germ Cell Specification

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