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Articles 1 - 5 of 5

Full-Text Articles in Molecular Biology

Heterogeneity And Intrinsic Variation In Spatial Genome Organization, Elizabeth Finn, Gianluca Pegoraro, Hugo B. Brandao, Anne-Laure Valton, Marlies E. Oomen, Job Dekker, Leonid Mirny, Tom Misteli Aug 2017

Heterogeneity And Intrinsic Variation In Spatial Genome Organization, Elizabeth Finn, Gianluca Pegoraro, Hugo B. Brandao, Anne-Laure Valton, Marlies E. Oomen, Job Dekker, Leonid Mirny, Tom Misteli

University of Massachusetts Medical School Faculty Publications

The genome is hierarchically organized in 3D space and its architecture is altered in differentiation, development and disease. Some of the general principles that determine global 3D genome organization have been established. However, the extent and nature of cell-to-cell and cell-intrinsic variability in genome architecture are poorly characterized. Here, we systematically probe the heterogeneity in genome organization in human fibroblasts by combining high-resolution Hi-C datasets and high-throughput genome imaging. Optical mapping of several hundred genome interaction pairs at the single cell level demonstrates low steady-state frequencies of colocalization in the population and independent behavior of individual alleles in single nuclei ...


The 4d Nucleome Project, Job Dekker, Andrew S. Belmont, Mitchell Guttman, Victor O. Leshyk, John T. Lis, Stavros Lomvardas, Leonid A. Mirny, Clodagh C. O'Shea, Peter J. Park, Bing Ren, Joan C. Ritland Politz, Jay Shendure, Sheng Zong Jan 2017

The 4d Nucleome Project, Job Dekker, Andrew S. Belmont, Mitchell Guttman, Victor O. Leshyk, John T. Lis, Stavros Lomvardas, Leonid A. Mirny, Clodagh C. O'Shea, Peter J. Park, Bing Ren, Joan C. Ritland Politz, Jay Shendure, Sheng Zong

University of Massachusetts Medical School Faculty Publications

The spatial organization of the genome and its dynamics contribute to gene expression and cellular function in normal development as well as in disease. Although we are increasingly well equipped to determine a genome's sequence and linear chromatin composition, studying the three-dimensional organization of the genome with high spatial and temporal resolution remains challenging. The 4D Nucleome Network aims to develop and apply approaches to map the structure and dynamics of the human and mouse genomes in space and time with the long term goal of gaining deeper mechanistic understanding of how the nucleus is organized. The project will ...


Targeted Degradation Of Ctcf Decouples Local Insulation Of Chromosome Domains From Higher-Order Genomic Compartmentalization, Elphege P. Nora, Anton Goloborodko, Anne-Laure Valton, Johan H. Gibcus, Alec Uebersohn, Nezar Abdennur, Job Dekker, Leonid A. Mirny, Benoit Bruneau Jan 2017

Targeted Degradation Of Ctcf Decouples Local Insulation Of Chromosome Domains From Higher-Order Genomic Compartmentalization, Elphege P. Nora, Anton Goloborodko, Anne-Laure Valton, Johan H. Gibcus, Alec Uebersohn, Nezar Abdennur, Job Dekker, Leonid A. Mirny, Benoit Bruneau

University of Massachusetts Medical School Faculty Publications

The molecular mechanisms underlying folding of mammalian chromosomes remain poorly understood. The transcription factor CTCF is a candidate regulator of chromosomal structure. Using the auxin-inducible degron system in mouse embryonic stem cells, we show that CTCF is absolutely and dose-dependently required for looping between CTCF target sites and segmental organization into topologically associating domains (TADs). Restoring CTCF reinstates proper architecture on altered chromosomes, indicating a powerful instructive function for CTCF in chromatin folding, and CTCF remains essential for TAD organization in non-dividing cells. Surprisingly, active and inactive genome compartments remain properly segregated upon CTCF depletion, revealing that compartmentalization of mammalian ...


Micro-C Xl: Assaying Chromosome Conformation At Length Scales From The Nucleosome To The Entire Genome, Tsung-Han S. Hsieh, Geoffrey Fudenberg, Anton Goloborodko, Oliver J. Rando Aug 2016

Micro-C Xl: Assaying Chromosome Conformation At Length Scales From The Nucleosome To The Entire Genome, Tsung-Han S. Hsieh, Geoffrey Fudenberg, Anton Goloborodko, Oliver J. Rando

University of Massachusetts Medical School Faculty Publications

Structural analysis of chromosome folding in vivo has been revolutionized by Chromosome Conformation Capture (3C) and related methods, which use proximity ligation to identify chromosomal loci in physical contact. We recently described a variant 3C technique, Micro-C, in which chromatin is fragmented to mononucleosomes using micrococcal nuclease, enabling nucleosome-resolution folding maps of the genome. Here, we describe an improved Micro-C protocol using long crosslinkers, termed Micro-C XL, which exhibits greatly increased signal to noise, and provides further insight into the folding of the yeast genome. We also find that signal to noise is much improved in Micro-C XL libraries generated ...


Dna-Guided Establishment Of Canonical Nucleosome Patterns In A Eukaryotic Genome, Leslie Y. Beh, Noam Kaplan, Manuel M. Muller, Tom W. Muir, Laura F. Landweber Dec 2014

Dna-Guided Establishment Of Canonical Nucleosome Patterns In A Eukaryotic Genome, Leslie Y. Beh, Noam Kaplan, Manuel M. Muller, Tom W. Muir, Laura F. Landweber

University of Massachusetts Medical School Faculty Publications

A conserved hallmark of eukaryotic chromatin architecture is the distinctive array of well-positioned nucleosomes downstream of transcription start sites (TSS). Recent studies indicate that trans-acting factors establish this stereotypical array. Here, we present the first genome-wide in vitro and in vivo nucleosome maps for the ciliate Tetrahymena thermophila. In contrast with previous studies in yeast, we find that the stereotypical nucleosome array is preserved in the in vitro reconstituted map, which is governed only by the DNA sequence preferences of nucleosomes. Remarkably, this average in vitro pattern arises from the presence of subsets of nucleosomes, rather than the whole array ...