Anders Sejr Hansen
Anders Sejr Hansen
MIT, UC Berkeley, Harvard, Oxford
Verified email at - Homepage
Cited by
Cited by
CTCF and cohesin regulate chromatin loop stability with distinct dynamics
AS Hansen, I Pustova, C Cattoglio, R Tjian, X Darzacq
Elife 6, e25776, 2017
RNA polymerase II clustering through carboxy-terminal domain phase separation
M Boehning, C Dugast-Darzacq, M Rankovic, AS Hansen, T Yu, ...
Nature structural & molecular biology 25 (9), 833-840, 2018
Phase-separation mechanism for C-terminal hyperphosphorylation of RNA polymerase II
H Lu, D Yu, AS Hansen, S Ganguly, R Liu, A Heckert, X Darzacq, Q Zhou
Nature 558 (7709), 318-323, 2018
Resolving the 3D landscape of transcription-linked mammalian chromatin folding
THS Hsieh, C Cattoglio, E Slobodyanyuk, AS Hansen, OJ Rando, R Tjian, ...
Molecular cell 78 (3), 539-553. e8, 2020
A dynamic mode of mitotic bookmarking by transcription factors
SS Teves, L An, AS Hansen, L Xie, X Darzacq, R Tjian
eLife 5, e22280, 2016
Recent evidence that TADs and chromatin loops are dynamic structures
AS Hansen, C Cattoglio, X Darzacq, R Tjian
Nucleus, 2017
Dynamics of CTCF-and cohesin-mediated chromatin looping revealed by live-cell imaging
M Gabriele, HB Brandão, S Grosse-Holz, A Jha, GM Dailey, C Cattoglio, ...
Science 376 (6592), 496-501, 2022
Evidence for DNA-mediated nuclear compartmentalization distinct from phase separation
DT McSwiggen, AS Hansen, SS Teves, H Marie-Nelly, Y Hao, AB Heckert, ...
eLife 8, e47098, 2019
Robust model-based analysis of single-particle tracking experiments with Spot-On
AS Hansen, M Woringer, JB Grimm, LD Lavis, R Tjian, X Darzacq
eLife 7, e33125, 2018
Distinct classes of chromatin loops revealed by deletion of an RNA-binding Region in CTCF
AS Hansen, THS Hsieh, C Cattoglio, I Pustova, R Saldaña-Meyer, ...
Molecular Cell, 2019
Promoter decoding of transcription factor dynamics involves a trade-off between noise and control of gene expression
AS Hansen, EK O’Shea
Molecular systems biology 9 (1), 2013
Enhancer–promoter interactions and transcription are largely maintained upon acute loss of CTCF, cohesin, WAPL or YY1
THS Hsieh, C Cattoglio, E Slobodyanyuk, AS Hansen, X Darzacq, R Tjian
Nature Genetics 54 (12), 1919-1932, 2022
Guided nuclear exploration increases CTCF target search efficiency
AS Hansen, A Amitai, C Cattoglio, R Tjian, X Darzacq
Nature Chemical Biology, 1-10, 2019
CTCF sites display cell cycle–dependent dynamics in factor binding and nucleosome positioning
ME Oomen, AS Hansen, Y Liu, X Darzacq, J Dekker
Genome research 29 (2), 236-249, 2019
Limits on information transduction through amplitude and frequency regulation of transcription factor activity
AS Hansen, EK O'Shea
elife 4, e06559, 2015
Determining cellular CTCF and cohesin abundances to constrain 3D genome models
C Cattoglio, I Pustova, N Walther, JJ Ho, M Hantsche-Grininger, ...
Elife 8, e40164, 2019
High-throughput microfluidics to control and measure signaling dynamics in single yeast cells
AS Hansen, N Hao, EK O'shea
Nature protocols 10 (8), 1181-1197, 2015
Control of Olefin Geometry in Macrocyclic Ring-Closing Metathesis Using a Removable Silyl Group
Y Wang, M Jimenez, AS Hansen, EA Raiber, SL Schreiber, DW Young
Journal of the American Chemical Society, 2011
CTCF as a boundary factor for cohesin-mediated loop extrusion: evidence for a multi-step mechanism
AS Hansen
Nucleus 11 (1), 132-148, 2020
Hydroxylation of methylated CpG dinucleotides reverses stabilisation of DNA duplexes by cytosine 5-methylation
A Thalhammer, AS Hansen, AH El-Sagheer, T Brown, CJ Schofield
Chemical Communications 47 (18), 5325-5327, 2011
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