High quality mapping of chromatin at or near the nuclear lamina for small numbers of cells

Tran, Joseph; Adam, Stephen A.; Goldman, Robert D.; Zheng, Yixian

doi:10.1101/2021.01.03.425156

Cited by 2 publications

(1 citation statement)

References 59 publications

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“…We analyzed the Hi-C dataset obtained from the asynchronously dividing HCT116 cells (24) using10 sub-compartments (Figure 5A). Recently we have developed a chromatin pull-down based Tyramide-Signal Amplification sequencing (cTSA-seq) method to analyze LADs at different cell cycle stages using the human HCT116 cell line (25). We found that during early G1 the chromatin associated with the reforming NL are the sub-telomeric regions.…”

Section: Resultsmentioning

confidence: 99%

A model-based analysis reveals three-dimensional genome organization heterogeneity and functional sub-compartments in cell populations

Zheng

Tran

Zheng

2022

Preprint

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The computational inference of genome organization based on Hi-C sequencing has greatly aided the understanding of chromatin and nuclear organization in three dimensions (3D). However, existing computational methods used to infer sub-compartments from Hi-C data fail to address the cell population heterogeneity. Here we describe a model-based method, called CscoreTool-M, which uses probabilistic modeling to build multiple 3D genome sub-compartments from Hi-C data. The compartment scores inferred using CscoreTool-M directly represents the probability of a genomic region locating in a specific sub-compartment. Compared to published methods, CscoreTool-M is more accurate in inferring local sub-compartment containing heterochromatin marked by Histone lysine trimethylation (H3K27me3) surrounded by the actively transcribed euchromatic regions. The compartment scores calculated by CscoreTool-M also help to quantify the levels of heterogeneity in sub-compartment localization within cell populations for different genomic regions. By comparing proliferating cells and terminally differentiated non-proliferating cells, we show that the proliferating cells have higher genome organization heterogeneity, which is likely caused by cells at different cell-cycle stages. By analyzing 10 sub-compartments, we found a sub-compartment containing chromatin potentially related to the early-G1 chromatin regions proximal to the nuclear lamina in HCT116 cells, suggesting the method can deconvolve cell cycle stage-specific genome organization among asynchronously dividing cells. Finally, we show that CscoreTool-M can further identify sub-compartments that contain genes enriched in housekeeping or cell-type-specific functions.

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Section: Resultsmentioning

confidence: 99%

A model-based analysis reveals three-dimensional genome organization heterogeneity and functional sub-compartments in cell populations

Zheng

Tran

Zheng

2022

Preprint

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Nuclear Compartments: An Incomplete Primer to Nuclear Compartments, Bodies, and Genome Organization Relative to Nuclear Architecture

Belmont

2021

Cold Spring Harb Perspect Biol

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This work reviews nuclear compartments, defined broadly to include distinct nuclear structures, bodies, and chromosome domains. It first summarizes original cytological observations before comparing concepts of nuclear compartments emerging from microscopy versus genomic approaches and then introducing new multiplexed imaging approaches that promise in the future to meld both approaches. I discuss how previous models of radial distribution of chromosomes or the binary division of the genome into A and B compartments are now being refined by the recognition of more complex nuclear compartmentalization. The poorly understood question of how these nuclear compartments are established and maintained is then discussed, including through the modern perspective of phase separation, before moving on to address possible functions of nuclear compartments, using the possible role of nuclear speckles in modulating gene expression as an example. Finally, the review concludes with a discussion of future questions for this field.

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High quality mapping of chromatin at or near the nuclear lamina for small numbers of cells

Cited by 2 publications

References 59 publications

A model-based analysis reveals three-dimensional genome organization heterogeneity and functional sub-compartments in cell populations

A model-based analysis reveals three-dimensional genome organization heterogeneity and functional sub-compartments in cell populations

Nuclear Compartments: An Incomplete Primer to Nuclear Compartments, Bodies, and Genome Organization Relative to Nuclear Architecture

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