Prof. Dr. Timo Betz

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unigoe
 

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  • 2023 Preprint
    ​ ​Culture substrate stiffness impacts human myoblast contractility-dependent proliferation and nuclear envelope wrinkling​
    Nguyen, J.; Wang, L.; Lei, W.; Hu, Y.; Gulati, N.; Chavez-Madero, C.& Ahn, H. et al.​ (2023). DOI: https://doi.org/10.1101/2023.08.08.552533 
    Details  DOI 
  • 2023 Preprint
    ​ ​{CFM}: {Confinement} {Force} {Microscopy}-a dynamic, precise and stable microconfiner for traction force microscopy in spatial confinement​
    Abbasi, F.; Rieck, K.; Brandt, M.; Matis, M.& Betz, T. ​ (2023). DOI: https://doi.org/10.1101/2023.08.22.554088 
    Details  DOI 
  • 2022 Journal Article | Research Paper
    ​ ​Analysis of monocyte cell tractions in 2.5D reveals mesoscale mechanics of podosomes during substrate-indenting cell protrusion​
    Schürmann, H.; Abbasi, F.; Russo, A.; Hofemeier, A. D; Brandt, M.; Roth, J. & Vogl, T. et al.​ (2022) 
    Journal of Cell Science135(10).​ DOI: https://doi.org/10.1242/jcs.259042 
    Details  DOI  PMID  PMC 
  • 2022 Preprint
    ​ ​Dystrophin is a mechanical tension modulator​
    Hofemeier, A. D.; Muenker, T. M.; Herkenrath, F.; Ristau, M.; Brandt, M.; Shahriyari, M.& Tiburcy, M. et al.​ (2022). DOI: https://doi.org/10.1101/2022.12.23.521750 
    Details  DOI 
  • 2022 Journal Article | Research Paper | 
    ​ ​Pressure Drives Rapid Burst‐Like Coordinated Cellular Motion from 3D Cancer Aggregates​
    Raghuraman, S.; Schubert, A.; Bröker, S.; Jurado, A.; Müller, A.; Brandt, M. & Vos, B. E. et al.​ (2022) 
    Advanced Science9(6) art. 2104808​.​ DOI: https://doi.org/10.1002/advs.202104808 
    Details  DOI 
  • 2022 Journal Article
    ​ ​Human endothelial cells display a rapid tensional stress increase in response to tumor necrosis factor-α​
    Brandt, M.; Gerke, V. & Betz, T. ​ (2022) 
    PLoS One17(6) art. e0270197​.​ DOI: https://doi.org/10.1371/journal.pone.0270197 
    Details  DOI 
  • 2022 Journal Article
    ​ ​Alarming and Calming: Opposing Roles of S100A8/S100A9 Dimers and Tetramers on Monocytes​
    Russo, A.; Schürmann, H.; Brandt, M.; Scholz, K.; Matos, A. L. L.; Grill, D. & Revenstorff, J. et al.​ (2022) 
    Advanced Science, art. 2201505​.​ DOI: https://doi.org/10.1002/advs.202201505 
    Details  DOI 
  • 2022 Journal Article
    ​ ​A JAM-A–tetraspanin–αvβ5 integrin complex regulates contact inhibition of locomotion​
    Kummer, D.; Steinbacher, T.; Thölmann, S.; Schwietzer, M. F.; Hartmann, C.; Horenkamp, S. & Demuth, S. et al.​ (2022) 
    The Journal of Cell Biology221(4).​ DOI: https://doi.org/10.1083/jcb.202105147 
    Details  DOI 
  • 2022 Journal Article
    ​ ​Pressure Drives Rapid Burst-Like Coordinated Cellular Motion from 3D Cancer Aggregates (Adv. Sci. 6/2022)​
    Raghuraman, S.; Schubert, A.-S.; Bröker, S.; Jurado, A.; Müller, A.; Brandt, M. & Vos, B. E. et al.​ (2022) 
    Advanced Science9(6).​ DOI: https://doi.org/10.1002/advs.202270037 
    Details  DOI 
  • 2021 Journal Article | Research Paper
    ​ ​Intracellular softening and increased viscoelastic fluidity during division​
    Hurst, S.; Vos, B. E.; Brandt, M. & Betz, T. ​ (2021) 
    Nature Physics17(11) pp. 1270​-1276​.​ DOI: https://doi.org/10.1038/s41567-021-01368-z 
    Details  DOI 
  • 2021 Journal Article
    ​ ​Multi-oscillation microrheology via acoustic force spectroscopy enables frequency-dependent measurements on endothelial cells at high-throughput​
    Nguyen, A.; Brandt, M.; Muenker, T. M. & Betz, T. ​ (2021) 
    Lab on a Chip,.​ DOI: https://doi.org/10.1039/d0lc01135e 
    Details  DOI 
  • 2020 Preprint
    ​ ​Microchip based microrheology via Acoustic Force Spectroscopy shows that endothelial cell mechanics follows a fractional viscoelastic model​
    Nguyen, A.; Brandt, M.& Betz, T. ​ (2020). DOI: https://doi.org/10.1101/2020.07.02.185330 
    Details  DOI 

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