A computational model of bleb formation W Strychalski, RD Guy Mathematical medicine and biology: a journal of the IMA 30 (2), 115-130, 2013 | 78 | 2013 |
Intracellular pressure dynamics in blebbing cells W Strychalski, RD Guy Biophysical journal 110 (5), 1168-1179, 2016 | 73 | 2016 |
A poroelastic immersed boundary method with applications to cell biology W Strychalski, CA Copos, OL Lewis, RD Guy Journal of Computational Physics 282, 77-97, 2015 | 64 | 2015 |
Simulating biochemical signaling networks in complex moving geometries W Strychalski, D Adalsteinsson, TC Elston SIAM Journal on Scientific Computing 32 (5), 3039-3070, 2010 | 24 | 2010 |
Viscoelastic immersed boundary methods for zero Reynolds number flow W Strychalski, RD Guy Communications in Computational Physics 12 (2), 462-478, 2012 | 15 | 2012 |
Unite to divide–how models and biological experimentation have come together to reveal mechanisms of cytokinesis DB Cortes, A Dawes, J Liu, M Nickaeen, W Strychalski, AS Maddox Journal of Cell Science 131 (24), jcs203570, 2018 | 13 | 2018 |
Computational estimates of mechanical constraints on cell migration through the extracellular matrix O Maxian, A Mogilner, W Strychalski PLoS computational biology 16 (8), e1008160, 2020 | 10 | 2020 |
Fluid dynamics of ballistic strategies in nematocyst firing C Hamlet, W Strychalski, L Miller Fluids 5 (1), 20, 2020 | 10 | 2020 |
A continuous energy-based immersed boundary method for elastic shells O Maxian, AT Kassen, W Strychalski Journal of Computational Physics 371, 333-362, 2018 | 8 | 2018 |
In vitro experiments and kinetic models of Arabidopsis pollen hydration mechanics show that MSL8 is not a simple tension-gated osmoregulator K Miller, W Strychalski, M Nickaeen, A Carlsson, ES Haswell Current Biology 32 (13), 2921-2934. e3, 2022 | 6 | 2022 |
A cut-cell method for simulating spatial models of biochemical reaction networks in arbitrary geometries W Strychalski, D Adalsteinsson, T Elston Communications in applied mathematics and computational science 5 (1), 31-53, 2010 | 6 | 2010 |
3D computational modeling of bleb initiation dynamics W Strychalski Frontiers in Physics 9, 775465, 2021 | 4 | 2021 |
Fluid dynamics of nematocyst prey capture W Strychalski, S Bryant, B Jadamba, E Kilikian, X Lai, L Shahriyari, ... Understanding Complex Biological Systems with Mathematics, 123-144, 2018 | 3 | 2018 |
Actin turnover required for adhesion-independent bleb migration C Copos, W Strychalski Fluids 7 (5), 173, 2022 | 2 | 2022 |
2D force constraints in the method of regularized Stokeslets O Maxian, W Strychalski Communications in Applied Mathematics and Computational Science 14 (2), 149-174, 2019 | 2 | 2019 |
Simulation methods for spatiotemporal models of biochemical signaling networks W Strychalski The University of North Carolina at Chapel Hill, 2009 | 1 | 2009 |
Modeling the dynamics of actin and myosin during bleb stabilization E Asante-Asamani, M Dalton, D Brazill, W Strychalski bioRxiv, 2023 | | 2023 |
Actin-myosin dynamics during bleb stabilization E Asante-Asamani, D Brazill, W Strychalski Biophysical Journal 121 (3), 118a, 2022 | | 2022 |
In vitro experiments and kinetic models of pollen hydration show that MSL8 is not a simple tension-gated osmoregulator E Haswell, A Carlsson, K Miller, W Strychalski, M Nickaeen APS March Meeting Abstracts 2022, Y03. 006, 2022 | | 2022 |
In vitro experiments and kinetic models of pollen hydration show that MSL8 is not a simple tension-gated osmoregulator K Miller, W Strychalski, M Nickaeen, A Carlsson, ES Haswell bioRxiv, 2021.10. 19.464977, 2021 | | 2021 |