2019
DOI: 10.1097/ogx.0000000000000639
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Single-Cell Multi-omics Sequencing of Human Early Embryos

Abstract: (Abstracted from Nat Cell Biol 2018;20:847–858) DNA methylation and chromatin states are critical epigenetic indicators in embryogenesis that have been extensively studied during mouse preimplantation development. DNA methylation dynamics and parental allele-specific DNA methylation in human preimplantation embryos have been analyzed thoroughly; however, chromatin remodeling, parental allele-specific chromatin accessibility, and interrelationships between these omics are not well understood.

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Cited by 36 publications
(60 citation statements)
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“…Our finding that chromatin accessibility increases during genome activation, especially at promoter and enhancer elements, is consistent with recent studies in Drosophila, zebrafish, Xenopus, mouse and human embryos [4,[10][11][12][13]25,49]. An increase in the number and strength of ATAC-seq peaks over time may either be due to an increase in the number of cells in which specific regions are accessible, or an actual increase in the accessibility of specific regions in all cells of the embryo.…”
Section: Zygotic Genome Activation Is Accompanied By a Dynamic Increasupporting
confidence: 92%
“…Our finding that chromatin accessibility increases during genome activation, especially at promoter and enhancer elements, is consistent with recent studies in Drosophila, zebrafish, Xenopus, mouse and human embryos [4,[10][11][12][13]25,49]. An increase in the number and strength of ATAC-seq peaks over time may either be due to an increase in the number of cells in which specific regions are accessible, or an actual increase in the accessibility of specific regions in all cells of the embryo.…”
Section: Zygotic Genome Activation Is Accompanied By a Dynamic Increasupporting
confidence: 92%
“…1). The first step has been shown feasible at both bulk-cell and single-cell level by NOMe-seq and the other previous studies (1316). In addition, ONT has been reported to detect 5mC at CpG sites (17, 18), based on which an in-house tool was developed to map 5mC profile at GpC sites for MeSMLR-seq data (see “Nucleosome positioning detection at the single-molecule level”).…”
Section: Resultsmentioning
confidence: 60%
“…While RNA-sequencing has been widely used to generate gene expression profiles in a tissue and organ, it cannot distinguish diversity and complexity of cell composition. Single-cell sequencing can reveal comprehensive transcriptomics at an individual cell resolution, overcome limited tissue supply, identify novel cell types, and uncover diverse contributions of individual cells to organ formation and disease conditions (Tang et al 2009;Tang et al 2010;Haque et al 2017;Hochgerner et al 2018;Li et al 2018;Potter 2018). Therefore, in this study, we have applied the single-cell sequencing approach to examine the composition of amniotic fluid cells from normal and trisomy 18 fetuses.…”
Section: Prediction Of New Chromosome 18 Critical Regionsmentioning
confidence: 99%