(*: corresponding author; §: equal contribution)


28. Correlation of mitochondrial TOM core complex stop-and-go and open-closed
S. Wang, L. Findeisen, S. Leptihn, M.I. Wallace, M. Hörning* and S. Nussberger*
bioRxiv, 2021.09.28.462098, 2021 (under review)
- doi : 10.1101/2021.09.28.462098


27. Local membrane curvature pins and guides excitable membrane waves in chemotactic and macropinocytic cells - biomedical insights from an innovative simple model
M. Hörning*, T. Bullmann and T. Shibata
Frontiers in Cell and Developmental Biology, 9, 2467, 2021
- doi : 10.3389/fcell.2021.670943


26. Precision 3D-printed cell scaffolds mimicking native tissue composition and mechanics
A. Erben, M. Hörning, B. Hartmann, T. Becke, S.A. Eisler, A. Southan, S. Cranz, O. Hayden, N. Kneidinger, M. Königshoff, M. Lindner, G.E.M. Tovar, G. Burgstaller, H. Clausen-Schaumann, S. Sudhop* and M. Heymann*
Advanced Healthcare Materials, 200918, 2020
- doi : 10.1002/adhm.202000918


25. Circulating re-entrant waves promote maturation of hiPSC-derived cardiomyocytes in self-organized tissue ring
J. Li, L. Zhang, L. Yu, I. Minami, S. Miyagawa, M. Hörning, J. Dong, J. Qiao, X. Qu, Y. Hua, Fujimoto, Y. Shiba, Y. Zhao, F. Tang, S. Miyagawa, Y. Chen, Y. Sawa*, C. Tang*, L. Liu*
Comunications Biology, 3, 122, 2020
 - doi : 10.1038/s42003-020-0853-0


24. Mineralized scale patterns on the cell periphery of the chrysophyte Mallomonas determined by comparative 3D Cryo-FIB SEM data processing
M. Hörning*, A. Schertel, R. Schneider, M.-L. Lemloh, M. R. Schweikert, and I. M. Weiss
Journal for Structural Biology, 209, 107403, 2020
 - doi : 10.1016/j.jsb.2019.10.005


23. Three-dimensional cell geometry controls excitable membrane signaling in Dictyostelium cells
M. Hörning* and T. Shibata*
Biophysical Journal, 116(2), 372-382, 2019
 - doi : 10.1016/j.bpj.2018.12.012


22. Local traction force in the proximal leading process triggers nuclear translocation during neuronal migration
H. Umeshima*, K. Nomura, S. Yoshikawa, M. Hörning, M. Tanaka, S. Sakuma, F. Arai, M. Kaneko and M. Kengaku
Neuroscience Research, 142, 38-48, 2019
 - doi : 10.1016/j.neures.2018.04.001


21. Optical Fluid Pump: Generation of Directional Flow via Microphase Segregation/Homogenization
H. Sakuta, S. Seo, S. Kimura, M. Hörning, K. Sadakane, T. Kenmotsu, M. Tanaka, and K. Yoshikawa*
Journal of Physical Chemistry Letters 9, 5792-5796, 2018
 - doi : 10.1021/acs.jpclett.8b01876


20. Dynamic Mechano-Regulation of Myoblast Cells on Supramolecular Hydrogels Cross-Linked by Reversible Host-Guest Interactions
M. Hörning§, M. Nakahata§, P. Linke, A. Yamamoto, M. Veschgini, S. Kaufmann, Y. Takashima, A. Harada and M. Tanaka*
Scientific Reports, 7, 7760, 2017
 - doi : 10.1038/s41598-017-07934-x


19. Dynamics of spatiotemporal line defects and chaos control in complex excitable systems
M. Hörning*, F. Blanchard, A. Isomura and K. Yoshikawa
Scientific Reports, 7, 7757, 2017
 - doi : 10.1038/s41598-017-08011-z


18. Elimination of a spiral wave pinned at an obstacle by a train of plane waves: Effect of diffusion between obstacles and surrounding media
M. Tanaka, M. Hörning, H. Kitahata* and K. Yoshikawa
Chaos, 25, 10, 2015
 - doi : 10.1063/1.4934561


17. Live cell tracking of symmetry break in actin cytoskeleton triggered by abrupt changes in micromechanical environments
S. Inoue§, V. Frank§, M. Hörning§, S. Kaufmann, H. Y. Yoshikawa, J. P. Madsen, A. L. Lewis, S. P. Armes and M. Tanaka*
Biomaterials Science, 3, 12, 1539-1544, 2015
 - doi : 10.1039/c5bm00205b


16. Negative Curvature and Control of Excitable Biological Media
M. Hörning and E. Entechva
Bottom-Up Self-Organization in Supramolecular Soft Matter, Principles and Prototypical Examples of Recent Advances, 217, Pages: 305, 2015 (book chapter)
 - doi : 10.1007/978-3-319-19410-3


15. Excitable Signal Transduction Induces Both Spontaneous and Directional Cell Asymmetries in the Phosphatidylinositol Lipid Signaling System for Eukaryotic Chemotaxis 
M. Nishikawa*, M. Hörning, M. Ueda and T. Shibata*
Biophysical Journal, 106, 3, 723-734, 2014
 - doi : 10.1016/j.bpj.2013.12.023 


14. Controlling activation site density by low-energy far-field stimulation in cardiac tissue
M. Hörning*, S. Takagi and K. Yoshikawa
Physical Review E, 85, 6, 2012
- doi : 06190610.1103/PhysRevE.85.061906


13. Rigidity Matching between Cells and the Extracellular Matrix Leads to the Stabilization of Cardiac Conduction
M. Hörning, S. Kidoaki, T. Kawano and K. Yoshikawa*
Biophysical Journal, 102, 3, 379-387, 2012
 - doi : 10.1016/j.bpj.2011.12.018
(Correction, Biophysical Journal, 104, 2110-2111, 2013)


12. Termination of pinned vortices by high-frequency wave trains in heartlike excitable media with anisotropic fiber orientation
M. Hörning*
Physical Review E, 86, 3, 031912, 2012
 - doi : 10.1103/PhysRevE.86.031912


11. Negative Curvature Boundaries as Wave Emitting Sites for the Control of Biological Excitable Media
P. Bittihn, M. Hörning and S. Luther*
Physical Review Letters, 109, 11, 118106, 2012
 - doi : 10.1103/PhysRevLett.109.118106


10. Recovery of Cardiac Arrhythmia by Nonlinearity 
M. Hörning* and S. Takagi
Mathematical Science, 581, 11-2011
(マルセル ホールニング ・ 高木 清二, 「非線形で心筋不整を治療する」, 数理科学581 11-2011) 


9. Wave Emission on Interacting Heterogeneities in Cardiac Tissue
M. Hörning*, S. Takagi, and K. Yoshikawa
Physical Review E, 82, 021926, 2010
Highlighted in: Virtual Journal of Biological Physics Research, V.20, I.5
 - doi : 10.1103/PhysRevE.82.021926


8. Utilizing the eikonal relationship in strategies for reentrant wave termination in excitable media
M. Hörning*, A. Isomura, Z. Jia, E. Entcheva, and K. Yoshikawa
Physical Review E, 81, 056202, 2010
Selected for: Kaleidoscope in PRE
Highlighted in: Virtual Journal of Biological Physics Research, V.19, I.10
 - doi : 10.1103/PhysRevE.81.056202


7. Wave-train-induced termination of weakly anchored vortices in excitable media
A. Pumir, S. Sinha, S. Sridhar, M. Argentina, M. Hörning, S. Filippi, C. Cherubini, S. Luther and V. Krinsky*
Physical Review E, 81, 010901(R), 2010
Highlighted in: Virtual Journal of Biological Physics Research, V.19, I.2
 - doi : 10.1103/PhysRevE.81.010901


6. Unpinning of a spiral wave anchored around a circular obstacle by an external wave train: Common aspects of a chemical reaction and cardiomyocyte tissue
M. Tanaka, A. Isomura, M. Hörning, H. Kitahata, K. Agladze and K. Yoshikawa*
Chaos, 19, 043114, 2009
 - doi : 10.1063/1.3263167


5. Liberation of a Pinned Spiral Wave by a Single Stimulus in Excitable Media
M. Hörning*, A. Isomura, K. Agladze and K. Yoshikawa
Physical Review E, 79, 026218 , 2009
- doi :10.1103/PhysRevE.79.026218


4. Eliminating Spiral Waves Pinned to an Anatomical Obstacle in Cardiac Myocytes by High-Frequency Stimuli
A. Isomura, M. Hörning, K. Agladze and K. Yoshikawa*
Physical Review E, 78, 066216, 2008
- doi : 10.1103/PhysRevE.78.066216


3. Wave emission from heterogeneities and chaos control in the heart
A. Pumir, V. Nikolski, M. Hörning, A. Isomura, K. Agladze, K. Yoshikawa, R. Gilmour, E. Bodenschatz and V. Krinsky*
Physical Review Letters, 99, 208101, 2007
 - doi : 10.1103/PhysRevLett.99.208101


2. Cassini dust measurements at Enceladus and Implications for Saturn's E ring
F. Spahn*, J. Schmidt, N. Albers, M. Hörning, M. Makuch, M. Seiß, S. Kempf, R. Srama, V.V. Dikarev, S. Heifert, G. Moragas-Klostermeyer, A.V. Krivov, M. Scremcevic, A.J. Tuzzolino, T. Economou, und E. Grün
Science, 311, 1416-1418, 2006
- doi : 10.1126/science.1121375


1. E ring dust sources: Implications from Cassinis's dust measurements
F. Spahn*, N. Albers, M. Hörning, S. Kempf, A.V. Krivov, M. Makuch, J. Schmidt, und M. Seiß
Planetary and Space Science, 54, 9-10, 1024-1032, 2006
- doi : 10.1016/j.pss.2006.05.022