Ashutosh Agrawal, PhD
ProfessorPublications
N. Thomas and A. Agrawal. Phospholipids stabilize binding of pituitary adenylate cyclase-activating peptide to vasoactive intestinal polypeptide receptor. bioRxiv (2021) (Link).
N. Thomas and A. Agrawal. Lateral electric field inhibits gel-to-fluid transition in lipid bilayers. bioRxiv (2021) (Link).
N. Thomas and A. Agrawal. Quantification of in-plane flexoelectricity in lipid bilayers. bioRxiv (2021) (Link).
Agrawal, A., & Lele, T. P. Geometry of the nuclear envelope determines its flexural stiffness. Molecular Biology of the Cell, mbc-E20 (2020) (Link).
N. Thomas, K. K. Mandadapu and A. Agrawal. Electromechanics of lipid-modulated gating of Kv channels. bioRxiv (2020) (Link).
Joseph, J. G., Osorio, C. , Yee, V., Agrawal, A. and Liu, A.P. Complimentary action of structured and unstructured domains of epsin supports clathrin-mediated endocytosis at high tension. Communications Biology, 3(1), pp.1-16. (2020) (pdf).
A. Agrawal and D. J. Steigmann. Asymmetric lipid bilayers from the perspective of three-dimensional liquid crystal theory. Continuum Mechanics and Thermodynamics, pp.1-12. (2020) (pdf)
Agrawal, A. and R. Ramachandran, Exploring the links between lipid geometry and mitochondrial fission: Emerging concepts. Mitochondrion (2019). (pdf)
A. Agrawal and T. Lele, Mechanics of nuclear membranes, Journal of Cell Science, 132(14), p.jcs229245 (2019). (pdf)
E. Irajizad, R. Ramachandran, and A. Agrawal, Geometric instability catalyzes mitochondrial fission, Molecular Biology of the Cell, 30(1):160-168 (2019). (pdf)
N. Walani, and A. Agrawal, Stability of lipid membranes with orthotropic symmetry. Mathematics and Mechanics of Solids, p.1081286519872236 (2019). (pdf)
Torbati, M., Lele, T., Agrawal, A., An unresolved LINC in the nuclear envelope, Cellular and Molecular Bioengineering, 9(2), 252-257 (2016). (pdf)
Steigmann, D., Agrawal, A., Electromechanics of polarized lipid bilayers. Mathematics and Mechanics of Complex Systems, 4(1), 31-54 (2016).(pdf)
Walani, N., Agrawal, A., Stability of lipid membranes, Mathematics and Mechanics of Solids, 1081286515617338 (2015). (pdf)
Walani, N., Torres, J., Agrawal, A., Anisotropic spontaneous curvatures in lipid membranes, Physical Review E, 89, 062715 (2014). (pdf)
P. Rangamani, A. Benjamini, A. Agrawal, B. Smit, D.J. Steigmann, G. Oster, Small scale membrane mechanics, Biomechanics and Modeling in Mechanobiology, 13, 697-711 (2014). (pdf)
P. Rangamani, A. Agrawal, K.K. Mandadapu, G. Oster, D.J. Steigmann, Interaction between surface shape and intra-surface viscous flow on lipid membranes, Biomechanics and Modeling in Mechanobiology, 12, 833-845 (2013). (pdf)
T. Ursell, A. Agrawal, R. Phillips, Lipid bilayer mechanics in a pipette with glass-bilayer adhesion,Biophysical Journal, 101, 1913-1920 (2011). (pdf)
A. Agrawal, Mechanics of membrane-membrane adhesion, Mathematics and Mechanics of Solids, 16, 872-886 (2011). (pdf)
A. Agrawal, D.J. Steigmann, A model for surface diffusion of trans-membrane proteins on lipid bilayers,ZAMP, 62, 549-563 (2011). (pdf)
A. Agrawal, D.J. Steigmann, Mechanics of cellular membranes, Chapter in Computational Modeling in Biomechanics, Eds. De, S., Guilak, F., Mofrad, M.R.K., Springer (2010).
A. Agrawal, D.J. Steigmann, Modeling protein-mediated morphology in biomembranes, Biomechanics and Modeling in Mechanobiology, 8, 371-379 (2009). (pdf)
A. Agrawal, D.J. Steigmann, Boundary-value problems in the theory of fluid films with curvature elasticity,Continuum Mechanics and Thermodynamics, 21, 57-82 (2009). (pdf)
A. Agrawal, D.J. Steigmann, Coexistent fluid-phase equilibria in biomembranes with bending elasticity,Journal of Elasticity, 93, 63-80 (2008). (pdf)
Li, S., Liu X., Agrawal, A., and To, A. C., Perfectly matched multiscale simulations for discrete systems: Extension to multiple dimensions, Physical Review B, 74, 045418 (2006). (pdf)