Taeyoon Kim
Taeyoon Kim
Verified email at purdue.edu - Homepage
Cited by
Cited by
Computational analysis of viscoelastic properties of crosslinked actin networks
T Kim, W Hwang, H Lee, RD Kamm
PLoS computational biology 5 (7), e1000439, 2009
Computational analysis of a cross-linked actin-like network
T Kim, W Hwang, RD Kamm
Experimental Mechanics 49 (1), 91-104, 2009
Disordered actomyosin networks are sufficient to produce cooperative and telescopic contractility
I Linsmeier, S Banerjee, PW Oakes, W Jung, T Kim, MP Murrell
Nature communications 7 (1), 1-9, 2016
Dynamic mechanisms of cell rigidity sensing: insights from a computational model of actomyosin networks
C Borau, T Kim, T Bidone, JM García-Aznar, RD Kamm
PloS one 7 (11), e49174, 2012
Interplay of active processes modulates tension and drives phase transition in self-renewing, motor-driven cytoskeletal networks
M Mak, MH Zaman, RD Kamm, T Kim
Nature communications 7 (1), 1-12, 2016
Determinants of fluidlike behavior and effective viscosity in cross-linked actin networks
T Kim, ML Gardel, ED Munro
Biophysical journal 106 (3), 526-534, 2014
Dynamic role of cross-linking proteins in actin rheology
T Kim, W Hwang, RD Kamm
Biophysical journal 101 (7), 1597-1603, 2011
Morphological transformation and force generation of active cytoskeletal networks
TC Bidone, W Jung, D Maruri, C Borau, RD Kamm, T Kim
PLoS computational biology 13 (1), e1005277, 2017
Multiscale mechanobiology: computational models for integrating molecules to multicellular systems
M Mak, T Kim, MH Zaman, RD Kamm
Integrative Biology 7 (10), 1093-1108, 2015
Determinants of contractile forces generated in disorganized actomyosin bundles
T Kim
Biomechanics and modeling in mechanobiology 14 (2), 345-355, 2015
Multiscale impact of nucleotides and cations on the conformational equilibrium, elasticity and rheology of actin filaments and crosslinked networks
TC Bidone, T Kim, MA Deriu, U Morbiducci, RD Kamm
Biomechanics and modeling in mechanobiology 14 (5), 1143-1155, 2015
Cytoskeletal deformation at high strains and the role of cross-link unfolding or unbinding
H Lee, B Pelz, JM Ferrer, T Kim, MJ Lang, RD Kamm
Cellular and Molecular Bioengineering 2 (1), 28-38, 2009
Buckling-induced F-actin fragmentation modulates the contraction of active cytoskeletal networks
J Li, T Biel, P Lomada, Q Yu, T Kim
Soft Matter 13 (17), 3213-3220, 2017
F-actin cross-linking enhances the stability of force generation in disordered actomyosin networks
W Jung, MP Murrell, T Kim
Computational particle mechanics 2 (4), 317-327, 2015
F-actin fragmentation induces distinct mechanisms of stress relaxation in the actin cytoskeleton
W Jung, MP Murrell, T Kim
ACS Macro Letters 5 (6), 641-645, 2016
Covalent cross-linking of basement membrane-like matrices physically restricts invasive protrusions in breast cancer cells
KM Wisdom, D Indana, PE Chou, R Desai, T Kim, O Chaudhuri
Matrix Biology 85, 94-111, 2020
Balance between force generation and relaxation leads to pulsed contraction of actomyosin networks
Q Yu, J Li, MP Murrell, T Kim
Biophysical journal 115 (10), 2003-2013, 2018
Filament nucleation tunes mechanical memory in active polymer networks
V Yadav, DS Banerjee, AP Tabatabai, DR Kovar, T Kim, S Banerjee, ...
Advanced functional materials 29 (49), 1905243, 2019
Mechanical Model for Durotactic Cell Migration
AR Hassan, T Biel, T Kim
ACS biomaterials science & engineering 5 (8), 3954-3963, 2019
Mobility of Molecular Motors Regulates Contractile Behaviors of Actin Networks
A Matsuda, J Li, P Brumm, T Adachi, Y Inoue, T Kim
Biophysical journal 116 (11), 2161-2171, 2019
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