Jörg Schnauß
Jörg Schnauß
Peter Debye Institute, Universität Leipzig; Fraunhofer Institute for Cell Therapy and Immunology
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Cited by
Cited by
Emergent complexity of the cytoskeleton: from single filaments to tissue
F Huber, J Schnauß, S Rönicke, P Rauch, K Müller, C Fütterer, J Käs
Advances in physics 62 (1), 1-112, 2013
Actin and microtubule networks contribute differently to cell response for small and large strains
H Kubitschke, J Schnauß, KD Nnetu, E Warmt, R Stange, J Kaes
New Journal of Physics 19 (9), 093003, 2017
Transiently crosslinked F-actin bundles
D Strehle, J Schnauß, C Heussinger, J Alvarado, M Bathe, J Käs, B Gentry
European Biophysics Journal 40, 93-101, 2011
Tuning synthetic semiflexible networks by bending stiffness
C Schuldt, J Schnauß, T Händler, M Glaser, J Lorenz, T Golde, JA Käs, ...
Physical review letters 117 (19), 197801, 2016
Synthetic Transient Crosslinks Program the Mechanics of Soft, Biopolymer‐Based Materials
JS Lorenz, J Schnauß, M Glaser, M Sajfutdinow, C Schuldt, JA Käs, ...
Advanced Materials 30 (13), 1706092, 2018
Semiflexible biopolymers in bundled arrangements
J Schnauß, T Händler, JA Käs
Polymers 8 (8), 274, 2016
Transition from a linear to a harmonic potential in collective dynamics of a multifilament actin bundle
J Schnauß, T Golde, C Schuldt, BUS Schmidt, M Glaser, D Strehle, ...
Physical review letters 116 (10), 108102, 2016
Self-assembly of hierarchically ordered structures in DNA nanotube systems
M Glaser, J Schnauß, T Tschirner, BUS Schmidt, M Moebius-Winkler, ...
New Journal of Physics 18 (5), 055001, 2016
Formation of regularly spaced networks as a general feature of actin bundle condensation by entropic forces
F Huber, D Strehle, J Schnauß, J Käs
New Journal of Physics 17 (4), 043029, 2015
Glassy dynamics in composite biopolymer networks
T Golde, C Huster, M Glaser, T Händler, H Herrmann, JA Käs, J Schnauß
Soft matter 14 (39), 7970-7978, 2018
The role of stickiness in the rheology of semiflexible polymers
T Golde, M Glaser, C Tutmarc, I Elbalasy, C Huster, G Busteros, DM Smith, ...
Soft matter 15 (24), 4865-4872, 2019
Keratins determine network stress responsiveness in reconstituted actin–keratin filament systems
I Elbalasy, P Mollenkopf, C Tutmarc, H Herrmann, J Schnauß
Soft matter 17 (14), 3954-3962, 2021
Towards cytoskeleton computers. A proposal
A Adamatzky, J Tuszynski, J Pieper, DV Nicolau, R Rinaldi, GC Sirakoulis, ...
From parallel to emergent computing, 575-596, 2019
Computing on actin bundles network
A Adamatzky, F Huber, J Schnauß
Scientific reports 9 (1), 15887, 2019
Fluorescent beads disintegrate actin networks
T Golde, C Schuldt, J Schnauß, D Strehle, M Glaser, J Käs
Physical Review E 88 (4), 044601, 2013
Single actin bundle rheology
D Strehle, P Mollenkopf, M Glaser, T Golde, C Schuldt, JA Käs, J Schnauß
Molecules 22 (10), 1804, 2017
Differences in cortical contractile properties between healthy epithelial and cancerous mesenchymal breast cells
E Warmt, S Grosser, E Blauth, X Xie, H Kubitschke, R Stange, F Sauer, ...
New Journal of Physics 23 (10), 103020, 2021
Cells in slow motion: apparent undercooling increases glassy behavior at physiological temperatures
J Schnauß, T Kunschmann, S Grosser, P Mollenkopf, T Zech, JS Freitag, ...
Advanced Materials 33 (29), 2101840, 2021
Changing cell mechanics—a precondition for malignant transformation of oral squamous carcinoma cells
F Meinhövel, R Stange, J Schnauß, M Sauer, JA Käs, TW Remmerbach
Convergent Science Physical Oncology 4 (3), 034001, 2018
Optical stretching in continuous flows
EW Morawetz, R Stange, TR Kießling, J Schnauß, JA Käs
Convergent Science Physical Oncology 3 (2), 024004, 2017
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