Publications

  1. K. Miller, W. Strychalski, M. Nickaeen, A. Carlsson, and E. S. Haswell. In vitro experiments and kinetic models of pollen hydration show that MSL8 is not a simple tension-gated osmoregulator. submitted (2021) bioArXiv.

  2. W. Strychalski, 3D Computational Modeling of Bleb Initiation Dynamics, Front. Phys. 9 (2021) , 775465 link.

  3. O. Maxian, A. Mogilner, and W. Strychalski, Computational estimates of mechanical constraints on cell migration through the extracellular matrix, PLoS Comput. Biol. 16(8) (2020) e1008160 link.

  4. C. L. Hamlet, W. Strychalski, and L.A. Miller, Fluid Dynamics of Ballistic Strategies in Nematocyst Firing, Fluids 5 no. 1 (2020) 1-18 link.

  5. O. Maxian and W. Strychalski, 2D force constraints in the method of regularized Stokeslets, Commun. Appl. Math. Comput. Sci. 14 no. 2 (2019) 149-174 arXiv link.

  6. D. B. Cortes, A. Dawes, J. Liu, M. Nickaeen, W. Strychalski, and A. Shaub Maddox, Uniting to divide: how models and biology have combined to reveal mechanisms of cytokinesis, J. Cell Sci. (2018) 131: no. 24, jcs203570.

  7. O. Maxian, A. T. Kassen, and W. Strychalski, A continuous energy-based immersed boundary method for elastic shells, J. Comp. Phys. 371 (2018) 333-362 arXiv link.

  8. W. Strychalski, S. Bryant, B. Jadamba, E. Kilikian, X. Lai, L. Shahriyari, R. Segal, N. Wei, and L.A. Miller, Fluid dynamics of nematocyst prey capture, In: Radunskaya A., Segal R., Shtylla B. (eds) Understanding Complex Biological Systems with Mathematics. Association for Women in Mathematics Series, vol 14. Springer, Cham, 123-144 (2018).

  9. W. Strychalski and R. D. Guy, Intracellular pressure dynamics in blebbing cells, Biophys. J. 110, no. 5, 1168-1179 (2016)

  10. W. Strychalski , C.A. Copos, O.L. Lewis, and R. D. Guy, A Poroelastic Immersed Boundary Method with Applications to Cell Biology, J. Comp. Phys. 282 (2015) 77-97.

  11. W. Strychalski and R. D. Guy, A Computational Model of Bleb Formation, Math. Med. Biol. 30 (2013), no. 2, 115-130.

  12. W. Strychalski and R. D. Guy, Viscoelastic Immersed Boundary Methods for Zero Reynolds Number Flow, Commun. Comput. Phys. 12 (2012), no. 2, 462-478.

  13. W. Strychalski, D. Adalsteinsson, and T. C. Elston, Simulating Biochemical Signaling Networks in Complex Moving Geometries, SIAM J. Sci. Comput. 32 (2010), no. 5, 3039-3070.

  14. W. Strychalski, D. Adalsteinsson, and T. C. Elston, A Cut Cell Method for Simulating Spatial Models of Biochemical Reaction Networks in Arbitrary Geometries, Comm. App. Math. Comp. Sci. 5 (2010), no. 1, 31-53.