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Previous research efforts have advanced our understanding of specific chromosomal events, such as DNA transcription,replication, recombination, partitioning, and epigenetic modification. One of the major future challenges in chromosome biology will be to provide an overall framework of how these individual activities are orchestrated and coordinated to maximize their effects in a variety of biological processes that evolve over time.

OpenLooper (OLP) collects genome-wide data on chromatin structures investigated by various high-throughput experimental assays, such as Hi-C, ChIA-PET, ChIP-seq, and RNA-seq. Simultaneously, OLP provides a platform that supports opening and sharing high-throughput sequencing datasets.
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In Focus Articles (last modified: 2019-05-18 06:57:37)

[1] The Birth of the 3D Genome during Early Embryonic Development.  (Trends Genet. 2018 12;34(12):903-914)

The Birth of the 3D Genome during Early Embryonic Development.


Hug CB, Vaquerizas JM (Trends Genet. 2018 12;34(12):903-914)
The 3D structure of chromatin in the nucleus is important for the regulation of gene expression and the correct deployment of developmental programs. The differentiation of germ cells and early embryonic development (when the zygotic genome is activated and transcription is taking place for the first time) are accompanied by dramatic changes in gene expression and the epigenetic landscape. Recent ......
PubMed:30292539
[2] Detecting hierarchical genome folding with network modularity.  (Nat Methods. 2018 02;15(2):119-122)

Detecting hierarchical genome folding with network modularity.


Norton HK, Emerson DJ, Huang H, Kim J, Titus KR, Gu S, Bassett DS, Phillips-Cremins JE (Nat Methods. 2018 02;15(2):119-122)
Mammalian genomes are folded in a hierarchy of compartments, topologically associating domains (TADs), subTADs and looping interactions. Here, we describe 3DNetMod, a graph theory-based method for sensitive and accurate detection of chromatin domains across length scales in Hi-C data. We identify nested, partially overlapping TADs and subTADs genome wide by optimizing network modularity and varyin......
PubMed:29334377
[3] Migration through a small pore disrupts inactive chromatin organization in neutrophil-like cells.  (BMC Biol. 2018 11 26;16(1):142)

Migration through a small pore disrupts inactive chromatin organization in neutrophil-like cells.


Jacobson EC, Perry JK, Long DS, Olins AL, Olins DE, Wright BE, Vickers MH, O'Sullivan JM (BMC Biol. 2018 11 26;16(1):142)
BACKGROUND: Mammalian cells are flexible and can rapidly change shape when they contract, adhere, or migrate. The nucleus must be stiff enough to withstand cytoskeletal forces, but flexible enough to remodel as the cell changes shape. This is particularly important for cells migrating through confined spaces, where the nuclear shape must change in order to fit through a constriction. This occurs m......
PubMed:30477489
[4] Comparative 3D genome organization in apicomplexan parasites.  (Proc Natl Acad Sci U S A. 2019 02 19;116(8):3183-3192)

Comparative 3D genome organization in apicomplexan parasites.


Bunnik EM, Venkat A, Shao J, McGovern KE, Batugedara G, Worth D, Prudhomme J, Lapp SA, Andolina C, Ross LS, Lawres L, Brady D, Sinnis P, Nosten F, Fidock DA, Wilson EH, Tewari R, Galinski MR, Be... (Proc Natl Acad Sci U S A. 2019 02 19;116(8):3183-3192)
The positioning of chromosomes in the nucleus of a eukaryotic cell is highly organized and has a complex and dynamic relationship with gene expression. In the human malaria parasite Plasmodium falciparum, the clustering of a family of virulence genes correlates with their coordinated silencing and has a strong influence on the overall organization of the genome. To identify conserved and species-s......
PubMed:30723152
[5] Plant lamin-like proteins mediate chromatin tethering at the nuclear periphery.  (Genome Biol. 2019 Apr 30;20(1):87)

Plant lamin-like proteins mediate chromatin tethering at the nuclear periphery.


Hu B, Wang N, Bi X, Karaaslan ES, Weber AL, Zhu W, Berendzen KW, Liu C (Genome Biol. 2019 Apr 30;20(1):87)
BACKGROUND: The nuclear envelope not only serves as a physical barrier separating nuclear content from the cytoplasm but also plays critical roles in modulating the three-dimensional organization of genomic DNA. For both plants and animals, the nuclear periphery is a functional compartment enriched with heterochromatin. To date, how plants manage to selectively tether chromatin at the nuclear peri......
PubMed:31039799