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Mutation Research
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June 27, 2020
Chromatin rigidity provides mechanical and genome protection
Andrew D Stephens
Biorxiv : the Preprint Server for Biology
|
June 12, 2025
CTCF maintains pericentromere function and mitotic fidelity
Erin Walsh, Andrew D Stephens
Cells
|
July 10, 2020
Modeling of Cell Nuclear Mechanics: Classes, Components, and Applications
Chad M Hobson, Andrew D Stephens
Biorxiv : the Preprint Server for Biology
|
January 16, 2026
Topoisomerase I inhibition suppresses nuclear blebbing via RNA Pol II stalling and nuclear stiffening
Nickolas Borowski, Andy Li, Andrew D Stephens
Cell Cycle (Georgetown, Tex.)
|
May 7, 2015
The SUMO deconjugating peptidase Smt4 contributes to the mechanism required for transition from sister chromatid arm cohesion to sister chromatid pericentromere separation
Andrew D Stephens, Chloe E Snider, Kerry Bloom
Bio-Protocol
|
March 2, 2026
Time-Lapse Into Immunofluorescence Imaging Using a Gridded Dish
Nick Lang, Catherine G Chu, Andrew D Stephens
Biophysical Journal
|
October 19, 2017
Mechanics and Buckling of Biopolymeric Shells and Cell Nuclei
Edward J Banigan, Andrew D Stephens, John F Marko
Nature Reviews. Molecular Cell Biology
|
May 5, 2022
Mechanics and functional consequences of nuclear deformations
Yohalie Kalukula, Andrew D Stephens, Jan Lammerding, et al.
Current Opinion in Cell Biology
|
March 20, 2019
Chromatin's physical properties shape the nucleus and its functions
Andrew D Stephens, Edward J Banigan, John F Marko
Nucleus (Austin, Tex.)
|
December 12, 2017
Separate roles for chromatin and lamins in nuclear mechanics
Andrew D Stephens, Edward J Banigan, John F Marko
Page
of 6
Search research articles
Search
Showing results (1-10 of 51) with videos related to
Sort By:
Page
of 6
Mutation Research
|
June 27, 2020
Chromatin rigidity provides mechanical and genome protection
Andrew D Stephens
Biorxiv : the Preprint Server for Biology
|
June 12, 2025
CTCF maintains pericentromere function and mitotic fidelity
Erin Walsh, Andrew D Stephens
Cells
|
July 10, 2020
Modeling of Cell Nuclear Mechanics: Classes, Components, and Applications
Chad M Hobson, Andrew D Stephens
Biorxiv : the Preprint Server for Biology
|
January 16, 2026
Topoisomerase I inhibition suppresses nuclear blebbing via RNA Pol II stalling and nuclear stiffening
Nickolas Borowski, Andy Li, Andrew D Stephens
Cell Cycle (Georgetown, Tex.)
|
May 7, 2015
The SUMO deconjugating peptidase Smt4 contributes to the mechanism required for transition from sister chromatid arm cohesion to sister chromatid pericentromere separation
Andrew D Stephens, Chloe E Snider, Kerry Bloom
Bio-Protocol
|
March 2, 2026
Time-Lapse Into Immunofluorescence Imaging Using a Gridded Dish
Nick Lang, Catherine G Chu, Andrew D Stephens
Biophysical Journal
|
October 19, 2017
Mechanics and Buckling of Biopolymeric Shells and Cell Nuclei
Edward J Banigan, Andrew D Stephens, John F Marko
Nature Reviews. Molecular Cell Biology
|
May 5, 2022
Mechanics and functional consequences of nuclear deformations
Yohalie Kalukula, Andrew D Stephens, Jan Lammerding, et al.
Current Opinion in Cell Biology
|
March 20, 2019
Chromatin's physical properties shape the nucleus and its functions
Andrew D Stephens, Edward J Banigan, John F Marko
Nucleus (Austin, Tex.)
|
December 12, 2017
Separate roles for chromatin and lamins in nuclear mechanics
Andrew D Stephens, Edward J Banigan, John F Marko
Page
of 6