Your search keyword '"Dirks RAM"' showing total 13 results

1. Dynamics of gene silencing during X inactivation using allele-specific RNA-seq (vol 16, 149, 2015)

Author

Marks, H, Kerstens, HHD, Barakat, Stefan, Splinter, E, Dirks, RAM, van Mierlo, G, Joshi, O, Wang, SY, Babak, T, Albers, CA, Kalkan, T, Smith, A, Jouneau, A, de Laat, W, Gribnau, Joost, Stunnenberg, HG, and Developmental Biology

Subjects

Molecular Developmental Biology, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Molecular Biology

Abstract

Contains fulltext : 157244.pdf (Publisher’s version ) (Open Access)

Published

2016

2. Dynamics of gene silencing during X inactivation using allele-specific RNA-seq

Author

Marks, H, Kerstens, HHD, Barakat, Stefan, Splinter, E, Dirks, RAM, van Mierlo, G, Joshi, O, Wang, SY, Babak, T, Albers, CA, Kalkan, T, Smith, A, Jouneau, A, de Laat, W, Gribnau, Joost, Stunnenberg, HG, Marks, H, Kerstens, HHD, Barakat, Stefan, Splinter, E, Dirks, RAM, van Mierlo, G, Joshi, O, Wang, SY, Babak, T, Albers, CA, Kalkan, T, Smith, A, Jouneau, A, de Laat, W, Gribnau, Joost, and Stunnenberg, HG

Abstract

Background: During early embryonic development, one of the two X chromosomes in mammalian female cells is inactivated to compensate for a potential imbalance in transcript levels with male cells, which contain a single X chromosome. Here, we use mouse female embryonic stem cells (ESCs) with non-random X chromosome inactivation (XCI) and polymorphic X chromosomes to study the dynamics of gene silencing over the inactive X chromosome by high-resolution allele-specific RNA-seq. Results: Induction of XCI by differentiation of female ESCs shows that genes proximal to the X-inactivation center are silenced earlier than distal genes, while lowly expressed genes show faster XCI dynamics than highly expressed genes. The active X chromosome shows a minor but significant increase in gene activity during differentiation, resulting in complete dosage compensation in differentiated cell types. Genes escaping XCI show little or no silencing during early propagation of XCI. Allele-specific RNA-seq of neural progenitor cells generated from the female ESCs identifies three regions distal to the X-inactivation center that escape XCI. These regions, which stably escape during propagation and maintenance of XCI, coincide with topologically associating domains (TADs) as present in the female ESCs. Also, the previously characterized gene clusters escaping XCI in human fibroblasts correlate with TADs. Conclusions: The gene silencing observed during XCI provides further insight in the establishment of the repressive complex formed by the inactive X chromosome. The association of escape regions with TADs, in mouse and human, suggests that TADs are the primary targets during propagation of XCI over the X chromosome.

Published

2015

3. An international inter-laboratory study to compare digital PCR with ISO standardized qPCR assays for the detection of norovirus GI and GII in oyster tissue.

Author

Boxman ILA, Molin R, Persson S, Juréus A, Jansen CCC, Sosef NP, Le Guyader SF, Ollivier J, Summa M, Hautaniemi M, Suffredini E, Di Pasquale S, Myrmel M, Khatri M, Jamnikar-Ciglenecki U, Kusar D, Moor D, Butticaz L, Lowther JA, Walker DI, Stapleton T, Simonsson M, and Dirks RAM

Subjects

Animals, Humans, Real-Time Polymerase Chain Reaction methods, Seafood analysis, RNA, Viral genetics, Norovirus genetics, Ostreidae

Abstract

An optimized digital RT-PCR (RT-dPCR) assay for the detection of human norovirus GI and GII RNA was compared with ISO 15216-conform quantitative real-time RT-PCR (RT-qPCR) assays in an interlaboratory study (ILS) among eight laboratories. A duplex GI/GII RT-dPCR assay, based on the ISO 15216-oligonucleotides, was used on a Bio-Rad QX200 platform by six laboratories. Adapted assays for Qiagen Qiacuity or ThermoFisher QuantStudio 3D were used by one laboratory each. The ILS comprised quantification of norovirus RNA in the absence of matrix and in oyster tissue samples. On average, results of the RT-dPCR assays were very similar to those obtained by RT-qPCR assays. The coefficient of variation (CV%) of norovirus GI results was, however, much lower for RT-dPCR than for RT-qPCR in intra-laboratory replicates (eight runs) and between the eight laboratories. The CV% of norovirus GII results was in the same range for both detection formats. Had in-house prepared dsDNA standards been used, the CV% of norovirus GII could have been in favor of the RT-dPCR assay. The ratio between RT-dPCR and RT-qPCR results varied per laboratory, despite using the distributed RT-qPCR dsDNA standards. The study indicates that the RT-dPCR assay is likely to increase uniformity of quantitative results between laboratories., Competing Interests: Declaration of competing interest Dear Prof. F. Carlin, Please find enclosed our manuscript entitled ‘An international inter-laboratory study to compare digital PCR with ISO standardized qPCR assays for the detection of norovirus GI and GII in oyster issue’ by Boxman and co-workers, which we would like to submit as a Research Article for publication in Food Microbiology. All authors confirm not to have any conflict of interest with the submitted work and all agree with the final version. This work was funded by the Netherlands Food and Consumer Product Safety Authority (NVWA), the Netherlands, and by the European Union., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

4. Development of an Ex Vivo Assay for Identification of Infectious Hepatitis E Virus in Different Kinds of Food Samples.

Author

Hakze-van der Honing RW, van Oort S, Dirks RAM, and van der Poel WHM

Abstract

Hepatitis E virus (HEV) is a positive-sense single-stranded RNA virus and a major cause of acute viral hepatitis. HEV is responsible for 20 million infections worldwide in humans every year. HEV-3 and HEV-4 are zoonotic and are responsible for most of the HEV cases in developed countries. Consumption of contaminated pig meat or pig products is considered to be the main transmission route of HEV HEV-3 in Europe. Prevalence studies for HEV generally use PCR methods to detect the presence or absence of genomic RNA. However, these methods do not discriminate infectious virus particles from non-infectious material. Previously developed HEV cell culture systems only worked with high efficiency after cell line adaptation of the subjected virus strains. In this manuscript, the development of a culture system for the detection of infectious HEV strains is described. For this purpose, we optimized the isolation and the growth of primary hepatocytes from young piglets. Subsequently, the isolated hepatocytes were used to culture HEV of different origins, such as liver tissue samples and sausage samples. This method can be applied to better assess the risk of infection through consumption of food products associated with HEV RNA contamination.

Published

2023

5. High prevalence of acute hepatitis E virus infection in pigs in Dutch slaughterhouses.

Author

Boxman ILA, Verhoef L, Dop PY, Vennema H, Dirks RAM, and Opsteegh M

Subjects

Abattoirs, Animals, Cross-Sectional Studies, Female, Immunoglobulin G, Phylogeny, Prevalence, RNA, Viral analysis, RNA, Viral genetics, Sus scrofa, Swine, Hepatitis E epidemiology, Hepatitis E veterinary, Hepatitis E virus genetics, Swine Diseases epidemiology

Abstract

Hepatitis E is caused by hepatitis E virus (HEV), one of the causes of acute viral hepatitis. Domestic pigs are considered as the main reservoir of HEV-3. The recently reported high prevalence of HEV in liver- and meat products on the Dutch market warranted a cross-sectional prevalence study on HEV infection among 5-6 months old pigs slaughtered in the Netherlands (n = 250). For this, liver, caecum content and blood samples were analyzed for the presence of genomic HEV RNA by RT-PCR. In addition, a serological test was performed to detect HEV IgG. Background information was retrieved on the corresponding farms to evaluate potential risk factors for HEV at pig slaughter age. HEV IgG was detected in sera from 167 pigs (67.6 %). HEV RNA was detected in 64 (25.6 %) caecum content samples, in 40 (16.1 %) serum samples and in 25 (11.0 %) liver samples. The average level of viral contamination in positive samples was log 10 4.6 genome copies (gc)/g (range 3.0-8.2) in caecum content, log 10 3.3 gc/ml (range 2.4-5.9) in serum and log 10 3.2 gc/0.1 g (range 1.7-6.2) in liver samples. Sequence analyses revealed HEV-3c only. Ten times an identical strain was detected in two or three samples obtained from the same pig. Each animal in this study however appeared to be infected with a unique strain. The presence of sows and gilts and welfare rating at the farm of origin had a significant effect (p < 0.05) on the distribution over the four groups representing different stages of HEV infection based on IgG or RNA in caecum and/or serum. The observed proportion of tested pigs with viremia (16 %) was higher than in other reported studies and was interestingly often observed in combination with a high number of HEV genome copies in liver and caecum content as detected by RT-qPCR. Data provided will be useful for risk assessment for food safety of pork products, will provide baseline data for future monitoring of HEV infections in pigs and new thoughts for mitigation strategies., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

6. Terminal keratinocyte differentiation in vitro is associated with a stable DNA methylome.

Author

Smits JPH, Dirks RAM, Qu J, Oortveld MAW, Brinkman AB, Zeeuwen PLJM, Schalkwijk J, Zhou H, Marks H, and van den Bogaard EH

Subjects

Adult, DNA-Binding Proteins genetics, Humans, Transcription Factors genetics, Cell Differentiation genetics, DNA Methylation genetics, Epigenome genetics, Keratinocytes metabolism

Abstract

The epidermal compartment of the skin is regenerated constantly by proliferation of epidermal keratinocytes. Differentiation of a subset of these keratinocytes allows the epidermis to retain its barrier properties. Regulation of keratinocyte fate-whether to remain proliferative or terminally differentiate-is complex and not fully understood. The objective of our study was to assess if DNA methylation changes contribute to the regulation of keratinocyte fate. We employed genome-wide MethylationEPIC beadchip array measuring approximately 850 000 probes combined with RNA sequencing of in vitro cultured non-differentiated and terminally differentiated adult human primary keratinocytes. We did not observe a correlation between methylation status and transcriptome changes. Moreover, only two differentially methylated probes were detected, of which one was located in the TRIM29 gene. Although TRIM29 knock-down resulted in lower expression levels of terminal differentiation genes, these changes were minor. From these results, we conclude that-in our in vitro experimental setup-it is unlikely that changes in DNA methylation have an important regulatory role in terminal keratinocyte differentiation., (© 2020 The Authors. Experimental Dermatology published by John Wiley & Sons Ltd.)

Published

2021

7. A plug and play microfluidic platform for standardized sensitive low-input chromatin immunoprecipitation.

Author

Dirks RAM, Thomas PC, Wu H, Jones RC, Stunnenberg HG, and Marks H

Subjects

Animals, Chromatin, Chromatin Immunoprecipitation methods, Chromatin Immunoprecipitation Sequencing, High-Throughput Nucleotide Sequencing methods, Mice, Reproducibility of Results, Histones genetics, Microfluidics

Abstract

Epigenetic profiling by chromatin immunoprecipitation followed by sequencing (ChIP-seq) has become a powerful tool for genome-wide identification of regulatory elements, for defining transcriptional regulatory networks, and for screening for biomarkers. However, the ChIP-seq protocol for low-input samples is laborious and time-consuming and suffers from experimental variation, resulting in poor reproducibility and low throughput. Although prototypic microfluidic ChIP-seq platforms have been developed, these are poorly transferable as they require sophisticated custom-made equipment and in-depth microfluidic and ChIP expertise, while lacking parallelization. To enable standardized, automated ChIP-seq profiling of low-input samples, we constructed microfluidic PDMS-based plates capable of performing 24 sensitive ChIP reactions within 30 min of hands-on time and 4.5 h of machine-running time. These disposable plates can be conveniently loaded into a widely available controller for pneumatics and thermocycling. In light of the plug and play (PnP) ChIP plates and workflow, we named our procedure PnP-ChIP-seq. We show high-quality ChIP-seq on hundreds to a few thousand of cells for all six post-translational histone modifications that are included in the International Human Epigenome Consortium set of reference epigenomes. PnP-ChIP-seq robustly detects epigenetic differences on promoters and enhancers between naive and more primed mouse embryonic stem cells (mESCs). Furthermore, we used our platform to generate epigenetic profiles of rare subpopulations of mESCs that resemble the two-cell stage of embryonic development. PnP-ChIP-seq allows nonexpert laboratories worldwide to conveniently run robust, standardized ChIP-seq, whereas its high throughput, consistency, and sensitivity pave the way toward large-scale profiling of precious sample types such as rare subpopulations of cells or biopsies., (© 2021 Dirks et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2021

8. Quantitative levels of norovirus and hepatitis A virus in bivalve molluscs collected along the food chain in the Netherlands, 2013-2017.

Author

Dirks RAM, Jansen CCC, Hägele G, Zwartkruis-Nahuis AJT, Tijsma ASL, and Boxman ILA

Subjects

Animals, Caliciviridae Infections veterinary, Food Chain, Food Contamination analysis, Food Safety, Hepatitis A veterinary, Hepatitis A virus genetics, Humans, Netherlands epidemiology, Norovirus genetics, Shellfish virology, Caliciviridae Infections epidemiology, Hepatitis A epidemiology, Hepatitis A virus isolation & purification, Norovirus isolation & purification, Ostreidae virology

Abstract

Contamination of bivalve molluscs with viruses is well recognized as a food safety risk. A microbiological criterion for norovirus (NoV) and hepatitis A virus (HAV) in shellfish, however, does not exist in the European Union currently. The aim of this study was to evaluate the contamination levels of these viruses for fluctuation over a long period (2013-2017) in oyster (n = 266) and mussel samples (n = 490) using a method based on ISO/TS 15216-1: 2013. Samples were taken at different points in the food chain, either directly post-harvest, at Dutch dispatch centers or in retail stores, from September until March of each year. Altogether, 53.1% of the mussel and 31.6% of the oyster samples tested positive for NoV RNA. Simultaneous presence of NoV GI and GII RNA was observed in 31.6% of mussel and 10.2% of oyster samples. Contamination levels in NoV positive mussel samples collected post-harvest from B-areas were significantly higher than in those collected post-harvest from A-areas, or at dispatch centers or retail stores. Levels in oysters from dispatch were significantly lower than those collected in retail stores. Ready for sale mussels and oysters contained 2.04 and 1.76 mean log 10 transformed NoV genome copies/gram (gc/g), respectively. GII levels were at a constant level in ready for sale mussels throughout all sampling periods in the study. This seemed to be true for oysters as well. HAV RNA was detected in only one of the tested mussel samples (n = 392) (typed HAV 1A) and in none of the tested oyster samples (n = 228). Critical evaluation of NoV and HAV levels in shellfish can be of help for risk assessment and risk management actions., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

9. Detection and quantification of hepatitis E virus RNA in ready to eat raw pork sausages in the Netherlands.

Author

Boxman ILA, Jansen CCC, Zwartkruis-Nahuis AJT, Hägele G, Sosef NP, and Dirks RAM

Subjects

Animals, Genome genetics, Genotype, Hepatitis E virology, Hepatitis E virus genetics, Humans, Netherlands epidemiology, RNA, Viral analysis, RNA, Viral genetics, Risk, Swine, Swine Diseases epidemiology, Viral Load, Hepatitis E epidemiology, Hepatitis E veterinary, Hepatitis E virus isolation & purification, Meat Products virology, Red Meat virology, Swine Diseases virology

Abstract

The aim of the present study was to assess raw pork sausages collected on the Dutch market for the presence of hepatitis E virus (HEV) RNA. 46 of 316 (14.6%) products sampled from Dutch retail stores in 2017-2019 were positive for HEV RNA. HEV RNA was detected in 10.8% of "cervelaat" (n = 74), 18.5% of salami (n = 92), 26.1% of "metworst" (n = 46), 16.3% of "snijworst" (n = 43) samples. This was significantly more often than in other raw pork sausages like dried sausages, fuet or chorizo (3.3%, n = 61). The percentage of HEV RNA positive products was not significantly different for products sold as either sliced or unsliced deli meat. The average viral load in positive tested products was 2.76 log 10 genome copies per 5 g, incidentally reaching up to 4.5 log 10 genome copies per 5 g. The average HEV RNA level was significantly higher in samples collected in 2017 than those in samples collected in 2018, and most of the samples in 2019. Typing by sequence analysis was successful for 33 samples, all revealing genotype 3c. The results support recent epidemiological studies that identified specific raw pork sausages as risk factor for hepatitis E virus infection in the Netherlands. Persons at risk, including Dutch transplant recipients, have been advised to avoid the consumption of raw pork sausages. The study warrants a continuation of monitoring to follow the HEV RNA levels in pork products for use in risk assessments and risk management., Competing Interests: Declaration of competing interest None., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

10. In vitro capture and characterization of embryonic rosette-stage pluripotency between naive and primed states.

Author

Neagu A, van Genderen E, Escudero I, Verwegen L, Kurek D, Lehmann J, Stel J, Dirks RAM, van Mierlo G, Maas A, Eleveld C, Ge Y, den Dekker AT, Brouwer RWW, van IJcken WFJ, Modic M, Drukker M, Jansen JH, Rivron NC, Baart EB, Marks H, and Ten Berge D

Subjects

Animals, Blastocyst metabolism, Blastocyst physiology, Cell Differentiation physiology, Chromatin metabolism, Embryonic Stem Cells metabolism, Female, Gene Expression Regulation, Developmental physiology, Germ Layers metabolism, Germ Layers physiology, Male, Mice, Mice, Inbred C57BL, Morphogenesis physiology, Otx Transcription Factors metabolism, Pluripotent Stem Cells metabolism, Embryonic Stem Cells physiology, Pluripotent Stem Cells physiology

Abstract

Following implantation, the naive pluripotent epiblast of the mouse blastocyst generates a rosette, undergoes lumenogenesis and forms the primed pluripotent egg cylinder, which is able to generate the embryonic tissues. How pluripotency progression and morphogenesis are linked and whether intermediate pluripotent states exist remain controversial. We identify here a rosette pluripotent state defined by the co-expression of naive factors with the transcription factor OTX2. Downregulation of blastocyst WNT signals drives the transition into rosette pluripotency by inducing OTX2. The rosette then activates MEK signals that induce lumenogenesis and drive progression to primed pluripotency. Consequently, combined WNT and MEK inhibition supports rosette-like stem cells, a self-renewing naive-primed intermediate. Rosette-like stem cells erase constitutive heterochromatin marks and display a primed chromatin landscape, with bivalently marked primed pluripotency genes. Nonetheless, WNT induces reversion to naive pluripotency. The rosette is therefore a reversible pluripotent intermediate whereby control over both pluripotency progression and morphogenesis pivots from WNT to MEK signals.

Published

2020

11. Miniaturised interaction proteomics on a microfluidic platform with ultra-low input requirements.

Author

Furlan C, Dirks RAM, Thomas PC, Jones RC, Wang J, Lynch M, Marks H, and Vermeulen M

Subjects

Cell Cycle Proteins metabolism, Chromosomal Proteins, Non-Histone metabolism, Humans, Mediator Complex metabolism, Microfluidics instrumentation, Tandem Affinity Purification, Tandem Mass Spectrometry, Cohesins, Microfluidics methods, Protein Interaction Maps

Abstract

Essentially all cellular processes are orchestrated by protein-protein interactions (PPIs). In recent years, affinity purification coupled to mass spectrometry (AP-MS) has been the preferred method to identify cellular PPIs. Here we present a microfluidic-based AP-MS workflow, called on-chip AP-MS, to identify PPIs using minute amounts of input material. By using this automated platform we purify the human Cohesin, CCC and Mediator complexes from as little as 4 micrograms of input lysate, representing a 50─100-fold downscaling compared to regular microcentrifuge tube-based protocols. We show that our platform can be used to affinity purify tagged baits as well as native cellular proteins and their interaction partners. As such, our method holds great promise for future biological and clinical AP-MS applications in which sample amounts are limited.

Published

2019

12. Allele-specific RNA-seq expression profiling of imprinted genes in mouse isogenic pluripotent states.

Author

Dirks RAM, van Mierlo G, Kerstens HHD, Bernardo AS, Kobolák J, Bock I, Maruotti J, Pedersen RA, Dinnyés A, Huynen MA, Jouneau A, and Marks H

Subjects

Animals, Cell Differentiation, Cell Line, Cells, Cultured, Female, Gene Expression Profiling, Gene Expression Regulation, Developmental, Gene Silencing, Germ Layers cytology, Germ Layers metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Mouse Embryonic Stem Cells cytology, Alleles, Genomic Imprinting, Mouse Embryonic Stem Cells metabolism, RNA, Messenger genetics

Abstract

Background: Genomic imprinting, resulting in parent-of-origin specific gene expression, plays a critical role in mammalian development. Here, we apply allele-specific RNA-seq on isogenic B6D2F1 mice to assay imprinted genes in tissues from early embryonic tissues between E3.5 and E7.25 and in pluripotent cell lines to evaluate maintenance of imprinted gene expression. For the cell lines, we include embryonic stem cells (ESCs) and epiblast stem cells (EpiSCs) derived from fertilized embryos and from embryos obtained after nuclear transfer (NT) or parthenogenetic activation (PGA)., Results: As homozygous genomic regions of PGA-derived cells are not compatible with allele-specific RNA-seq, we developed an RNA-seq-based genotyping strategy allowing identification of informative heterozygous regions. Global analysis shows that proper imprinted gene expression as observed in embryonic tissues is largely lost in the ESC lines included in this study, which mainly consisted of female ESCs. Differentiation of ESC lines to embryoid bodies or NPCs does not restore monoallelic expression of imprinted genes, neither did reprogramming of the serum-cultured ESCs to the pluripotent ground state by the use of 2 kinase inhibitors. Fertilized EpiSC and EpiSC-NT lines largely maintain imprinted gene expression, as did EpiSC-PGA lines that show known paternally expressed genes being silent and known maternally expressed genes consistently showing doubled expression. Notably, two EpiSC-NT lines show aberrant silencing of Rian and Meg3, two critically imprinted genes in mouse iPSCs. With respect to female EpiSC, most of the lines displayed completely skewed X inactivation suggesting a (near) clonal origin., Conclusions: Altogether, our analysis provides a comprehensive overview of imprinted gene expression in pluripotency and provides a benchmark to allow identification of cell lines that faithfully maintain imprinted gene expression and therefore retain full developmental potential.

Published

2019

13. Integrative Proteomic Profiling Reveals PRC2-Dependent Epigenetic Crosstalk Maintains Ground-State Pluripotency.

Author

van Mierlo G, Dirks RAM, De Clerck L, Brinkman AB, Huth M, Kloet SL, Saksouk N, Kroeze LI, Willems S, Farlik M, Bock C, Jansen JH, Deforce D, Vermeulen M, Déjardin J, Dhaenens M, and Marks H

Subjects

Animals, Cell Differentiation, Chromatin genetics, Histones genetics, Histones metabolism, Mice, Mouse Embryonic Stem Cells metabolism, Pluripotent Stem Cells metabolism, Polycomb Repressive Complex 2 genetics, Protein Processing, Post-Translational, Chromatin metabolism, DNA Methylation, Epigenesis, Genetic, Mouse Embryonic Stem Cells cytology, Pluripotent Stem Cells cytology, Polycomb Repressive Complex 2 metabolism, Proteome analysis

Abstract

The pluripotent ground state is defined as a basal state free of epigenetic restrictions, which influence lineage specification. While naive embryonic stem cells (ESCs) can be maintained in a hypomethylated state with open chromatin when grown using two small-molecule inhibitors (2i)/leukemia inhibitory factor (LIF), in contrast to serum/LIF-grown ESCs that resemble early post-implantation embryos, broader features of the ground-state pluripotent epigenome are not well understood. We identified epigenetic features of mouse ESCs cultured using 2i/LIF or serum/LIF by proteomic profiling of chromatin-associated complexes and histone modifications. Polycomb-repressive complex 2 (PRC2) and its product H3K27me3 are highly abundant in 2i/LIF ESCs, and H3K27me3 is distributed genome-wide in a CpG-dependent fashion. Consistently, PRC2-deficient ESCs showed increased DNA methylation at sites normally occupied by H3K27me3 and increased H4 acetylation. Inhibiting DNA methylation in PRC2-deficient ESCs did not affect their viability or transcriptome. Our findings suggest a unique H3K27me3 configuration protects naive ESCs from lineage priming, and they reveal widespread epigenetic crosstalk in ground-state pluripotency., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019