Geoffrey Fudenberg
Overview
Explore the profile of Geoffrey Fudenberg including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
31
Citations
5009
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
11.
Fudenberg G, Nora E
Nat Struct Mol Biol
. 2021 Sep;
28(10):774-776.
PMID: 34580493
No abstract available.
12.
Nora E, Caccianini L, Fudenberg G, So K, Kameswaran V, Nagle A, et al.
Nat Commun
. 2020 Nov;
11(1):5612.
PMID: 33154377
Current models propose that boundaries of mammalian topologically associating domains (TADs) arise from the ability of the CTCF protein to stop extrusion of chromatin loops by cohesin. While the orientation...
13.
Schalbetter S, Fudenberg G, Baxter J, Pollard K, Neale M
Nat Commun
. 2019 Oct;
10(1):4795.
PMID: 31641121
During meiotic prophase, chromosomes organise into a series of chromatin loops emanating from a proteinaceous axis, but the mechanisms of assembly remain unclear. Here we use Saccharomyces cerevisiae to explore...
14.
AlHaj Abed J, Erceg J, Goloborodko A, Nguyen S, McCole R, Saylor W, et al.
Nat Commun
. 2019 Oct;
10(1):4485.
PMID: 31582763
Trans-homolog interactions have been studied extensively in Drosophila, where homologs are paired in somatic cells and transvection is prevalent. Nevertheless, the detailed structure of pairing and its functional impact have...
15.
Erceg J, AlHaj Abed J, Goloborodko A, Lajoie B, Fudenberg G, Abdennur N, et al.
Nat Commun
. 2019 Oct;
10(1):4486.
PMID: 31582744
Genome organization involves cis and trans chromosomal interactions, both implicated in gene regulation, development, and disease. Here, we focus on trans interactions in Drosophila, where homologous chromosomes are paired in...
16.
Falk M, Feodorova Y, Naumova N, Imakaev M, Lajoie B, Leonhardt H, et al.
Nature
. 2019 Aug;
572(7771):E22.
PMID: 31375785
An Amendment to this paper has been published and can be accessed via a link at the top of the paper.
17.
Falk M, Feodorova Y, Naumova N, Imakaev M, Lajoie B, Leonhardt H, et al.
Nature
. 2019 Jun;
570(7761):395-399.
PMID: 31168090
The nucleus of mammalian cells displays a distinct spatial segregation of active euchromatic and inactive heterochromatic regions of the genome. In conventional nuclei, microscopy shows that euchromatin is localized in...
18.
Nuebler J, Fudenberg G, Imakaev M, Abdennur N, Mirny L
Proc Natl Acad Sci U S A
. 2018 Jul;
115(29):E6697-E6706.
PMID: 29967174
Mammalian chromatin is spatially organized at many scales showing two prominent features in interphase: () alternating regions (1-10 Mb) of active and inactive chromatin that spatially segregate into different compartments,...
19.
Fudenberg G, Abdennur N, Imakaev M, Goloborodko A, Mirny L
Cold Spring Harb Symp Quant Biol
. 2018 May;
82:45-55.
PMID: 29728444
Chromosome organization poses a remarkable physical problem with many biological consequences: How can molecular interactions between proteins at the nanometer scale organize micron-long chromatinized DNA molecules, insulating or facilitating interactions...
20.
Schwarzer W, Abdennur N, Goloborodko A, Pekowska A, Fudenberg G, Loe-Mie Y, et al.
Nature
. 2017 Nov;
551(7678):51-56.
PMID: 29094699
Imaging and chromosome conformation capture studies have revealed several layers of chromosome organization, including segregation into megabase-sized active and inactive compartments, and partitioning into sub-megabase domains (TADs). It remains unclear,...