ProfessorsProfessors of Massachusetts Institute of TechnologyEdward J Banigan

Edward J Banigan

Massachusetts Institute of Technology

H-index: 20

North America-United States

About Edward J Banigan

Edward J Banigan, With an exceptional h-index of 20 and a recent h-index of 19 (since 2020), a distinguished researcher at Massachusetts Institute of Technology, specializes in the field of Biological physics, Quantitative biology, Soft matter.

His recent articles reflect a diverse array of research interests and contributions to the field:

Polymer loop extrusion with motor-motor bypassing can explain mitotic chromosome elasticity

Effects of chromatin phase separation on the morphology of eukaryotic cell nucleus

Transcription shapes 3D chromatin organization by interacting with loop extrusion

Live-cell magnetic micromanipulation of a genomic locus reveals interphase chromatin mechanics

Chromatin phase separation and nuclear shape fluctuations are correlated in a polymer model of the nucleus

Active Chromatin Dynamics Drives Nuclear Bulge Formation

Polymer modeling suggests correlations between chromatin phase separation and nuclear shape fluctuations

Transcription is a moving barrier to loop extrusion that shapes the genome

Edward J Banigan Information

University	Massachusetts Institute of Technology
Position	Institute for Medical Engineering and Science
Citations(all)	2415
Citations(since 2020)	1861
Cited By	1216
hIndex(all)	20
hIndex(since 2020)	19
i10Index(all)	25
i10Index(since 2020)	22
Email	Access Email
University Profile Page	Massachusetts Institute of Technology
Google Scholar	View Google Scholar Profile

Edward J Banigan Skills & Research Interests

Biological physics

Quantitative biology

Soft matter

Top articles of Edward J Banigan

Title	Journal	Author(s)	Publication Date
Polymer loop extrusion with motor-motor bypassing can explain mitotic chromosome elasticity	Bulletin of the American Physical Society	Edward Banigan John Marko Leonid Mirny	2024/3/6
Effects of chromatin phase separation on the morphology of eukaryotic cell nucleus	Bulletin of the American Physical Society	Aykut Erbas A Goktug Attar Edward Banigan Jaroslaw Paturej	2024/3/7
Transcription shapes 3D chromatin organization by interacting with loop extrusion	Proceedings of the National Academy of Sciences	Edward J Banigan Wen Tang Aafke A van den Berg Roman R Stocsits Gordana Wutz ...	2023/3/14
Live-cell magnetic micromanipulation of a genomic locus reveals interphase chromatin mechanics	APS March Meeting Abstracts	Simon Grosse-Holz Veer Keizer Maxime Woringer Laura Zambon Koceila Aizel ...	2023
Chromatin phase separation and nuclear shape fluctuations are correlated in a polymer model of the nucleus	bioRxiv	Ali Goktug Attar Jaroslaw Paturej Edward J Banigan Aykut Erbas	2023/12/17
Active Chromatin Dynamics Drives Nuclear Bulge Formation	APS March Meeting Abstracts	Sarthak Gupta Isabel Oder Yasmin Berrada Andrew Stephens Alison Patteson ...	2023
Polymer modeling suggests correlations between chromatin phase separation and nuclear shape fluctuations	bioRxiv	Ali Goktug Attar Jaroslaw Paturej Edward J Banigan Aykut Erbas	2023/12/17
Transcription is a moving barrier to loop extrusion that shapes the genome	APS March Meeting Abstracts	Edward Banigan Wen Tang Aafke van den Berg Roman Stocsits Gordana Wutz ...	2023
Transcription inhibition suppresses nuclear blebbing and rupture independently of nuclear rigidity	Journal of cell science	Isabel K Berg Marilena L Currey Sarthak Gupta Yasmin Berrada Bao V Nguyen ...	2023/10/15
CTCF and R-loops are boundaries of cohesin-mediated DNA looping	Molecular cell	Hongshan Zhang Zhubing Shi Edward J Banigan Yoori Kim Hongtao Yu ...	2023/8/17
Live-cell micromanipulation of a genomic locus reveals interphase chromatin mechanics	Science	Veer IP Keizer Simon Grosse-Holz Maxime Woringer Laura Zambon Koceila Aizel ...	2022/7/29
Chromatin micromanipulation in live cells	Biophysical Journal	Veer IP Keizer Simon Grosse-Holz Maxime Woringer Laura Zambon Koceila Aizel ...	2022/2/11
Compressing cell nuclei: from nonlinear mechanics to nontrivial shapes	Biophysical Journal	Sarthak Gupta Edward J Banigan Alison E Patteson Jennifer M Schwarz	2022/2/11
When motors collide: how transcription and loop-extruding cohesins organize chromatin	APS March Meeting Abstracts	Edward Banigan Wen Tang Aafke van den Berg Roman Stocsits Gordana Wutz ...	2022
A Nonlinear Dynamical Analysis of History Dependence in Granular Media	APS March Meeting Abstracts	William Buchholtz Edward Banigan David Egolf	2022
Development and implementation of a metaphase DNA model for ionizing radiation induced DNA damage calculation	Physics in Medicine & Biology	Satzhan Sitmukhambetov Bryan Dinh Youfang Lai Edward J Banigan Zui Pan ...	2022/12/19
Dynamic nuclear structure emerges from chromatin cross-links and motors	Physical Review Letters	Kuang Liu Alison E Patteson Edward J Banigan JM Schwarz	2021/4/14
HP1α is a chromatin crosslinker that controls nuclear and mitotic chromosome mechanics	Elife	Amy R Strom Ronald J Biggs Edward J Banigan Xiaotao Wang Katherine Chiu ...	2021/6/9
Chromosome organization by one-sided and two-sided loop extrusion	Elife	Edward J Banigan Aafke A van den Berg Hugo B Brandão John F Marko Leonid A Mirny	2020/4/6
The interplay between asymmetric and symmetric DNA loop extrusion	Elife	Edward J Banigan Leonid A Mirny	2020/12/9