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Anna Lappala

Showing results (1-10 of 15) with videos related to

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Current Opinion in Structural Biology|September 22, 2024
The next revolution in computational simulations: Harnessing AI and quantum computing in molecular dynamicsAnna Lappala
Soft Matter|August 13, 2016
Polymer glass transition occurs at the marginal rigidity point with connectivity z* = 4Anna Lappala, Alessio Zaccone, Eugene M Terentjev
Scientific Reports|November 1, 2013
Ratcheted diffusion transport through crowded nanochannelsAnna Lappala, Alessio Zaccone, Eugene M Terentjev
Scientific Reports|March 9, 2019
Connectivity and free-surface effects in polymer glassesAnna Lappala, Luke Sefton, Paul W Fenimore, et al.
Proceedings of the National Academy of Sciences of the United States of America|October 14, 2021
Four-dimensional chromosome reconstruction elucidates the spatiotemporal reorganization of the mammalian X chromosomeAnna Lappala, Chen-Yu Wang, Andrea Kriz, et al.
Biomolecules|May 12, 2018
Structural Transition and Antibody Binding of EBOV GP and ZIKV E Proteins from Pre-Fusion to Fusion-Initiation StateAnna Lappala, Wataru Nishima, Jacob Miner, et al.
BMC Bioinformatics|January 8, 2026
From 2D to 4D: a containerized workflow and browser to explore dynamic chromatin architectureDavid H Rogers, Cullen Roth, Cameron Tauxe, et al.
Epigenetics & Chromatin|November 25, 2021
Revealing RCOR2 as a regulatory component of nuclear specklesCarlos Rivera, Daniel Verbel-Vergara, Duxan Arancibia, et al.
Biorxiv : the Preprint Server for Biology|August 12, 2025
From 2D to 4D: a Containerized Workflow and Browser to Explore Dynamic Chromatin ArchitectureDavid H Rogers, Cullen Roth, Cameron Tauxe, et al.
Nature Communications|March 24, 2022
Unveiling RCOR1 as a rheostat at transcriptionally permissive chromatinCarlos Rivera, Hun-Goo Lee, Anna Lappala, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Current Opinion in Structural Biology|September 22, 2024
The next revolution in computational simulations: Harnessing AI and quantum computing in molecular dynamicsAnna Lappala
Soft Matter|August 13, 2016
Polymer glass transition occurs at the marginal rigidity point with connectivity z* = 4Anna Lappala, Alessio Zaccone, Eugene M Terentjev
Scientific Reports|November 1, 2013
Ratcheted diffusion transport through crowded nanochannelsAnna Lappala, Alessio Zaccone, Eugene M Terentjev
Scientific Reports|March 9, 2019
Connectivity and free-surface effects in polymer glassesAnna Lappala, Luke Sefton, Paul W Fenimore, et al.
Proceedings of the National Academy of Sciences of the United States of America|October 14, 2021
Four-dimensional chromosome reconstruction elucidates the spatiotemporal reorganization of the mammalian X chromosomeAnna Lappala, Chen-Yu Wang, Andrea Kriz, et al.
Biomolecules|May 12, 2018
Structural Transition and Antibody Binding of EBOV GP and ZIKV E Proteins from Pre-Fusion to Fusion-Initiation StateAnna Lappala, Wataru Nishima, Jacob Miner, et al.
BMC Bioinformatics|January 8, 2026
From 2D to 4D: a containerized workflow and browser to explore dynamic chromatin architectureDavid H Rogers, Cullen Roth, Cameron Tauxe, et al.
Epigenetics & Chromatin|November 25, 2021
Revealing RCOR2 as a regulatory component of nuclear specklesCarlos Rivera, Daniel Verbel-Vergara, Duxan Arancibia, et al.
Biorxiv : the Preprint Server for Biology|August 12, 2025
From 2D to 4D: a Containerized Workflow and Browser to Explore Dynamic Chromatin ArchitectureDavid H Rogers, Cullen Roth, Cameron Tauxe, et al.
Nature Communications|March 24, 2022
Unveiling RCOR1 as a rheostat at transcriptionally permissive chromatinCarlos Rivera, Hun-Goo Lee, Anna Lappala, et al.
Pageof 2