Zeitschriftenartikel
Liste der Zeitschriftenartikel
2025
Mechanisms for bump state localization in two-dimensional networks of leaky Integrate-and-Fire neurons
A Provata, J Hizanidis, K Anesiadis, OE Omelchenko
arXiv:2410.14256v2 [q-bio.NC] 29 Jan 2025
2024
Random walks of intermittently self-propelled particles
A. Datta, C. Beta, and R. Großmann
Phys. Rev. Research 6, 043281 – Published 16 December, 2024Bundling instability of lophotrichous bacteria in fluids
S. Lim, J. Park, Y. Kim, W. Lee, V. Pfeifer, V. Muraveva, C. Beta
APS Division of Fluid Dynamics Meeting Abstracts, T04. 002 - Published November, 2024Activity patterns in ring networks of quadratic integrate-and-fire neurons with synaptic and gap junction coupling
O.E. Omelchenko, C.R. Laing
Phys. Rev. E110, 034411 – Published 25 September, 2024Flagella and Cell Body Staining of Bacteria with Fluorescent Dyes
V. Pfeifer, V. Muraveva, C. Beta
Cell Motility and Chemotaxis: Methods and Protocols, 79-85 - First Online: 16 August, 2024A Hands-on Guide to AmoePy—a Python-Based Software Package to Analyze Cell Migration Data
T. Moldenhawer, D. Schindler, M. Holschneider, W. Huisinga, C. Beta
Cell Motility and Chemotaxis: Methods and Protocols, 159-184, First Online: 24 May, 2024Inferring Parameter Distributions in Heterogeneous Motile Particle Ensembles: A Likelihood Approach for Second Order Langevin Models
J. Albrecht, M. Opper, and R. Großmann
arXiv:2411.08692v1 [cond-mat.soft] 13 Nov 2024Phase reduction explains chimera shape: When multibody interaction matters
E.T.K. Mau, O.E. Omelchenko, M. Rosenblum
Phys. Rev. E110, L022201 – Published 22 August, 2024Manipulation of artificial and living small objects by light driven diffusioosmotic flow
V. Muraveva, N. Lomadze, Y. D. Gordievskaya, P. Ortner, C. Beta, and S. Santer
Scientific Reportsvolume 14, Article number: 18342 (2024) - Published 07 August, 2024Chemically induced dislocation and mutation of essential cytoskeletal proteins: A case study focusing on Coronin-A
M. B. Stange, R. Großmann, S. Flemming, M. Grebe, and C. Beta
bioRxiv posted August 5, 2024Intermittent Run Motility of Bacteria in Gels Exhibits Power-Law Distributed Dwell Times
A. Datta, S. Beier, V. Pfeifer, R. Großmann, and C. Beta
arXiv:2408.02317v1 [cond-mat.soft] 5 Aug 2024Hopf bifurcations of twisted states in phase oscillators rings with nonpairwise higher-order interactions
C. Bick, T. Böhle, O.E. Omelchenko
Journal of Physics: Complexity 5 (2), 025026 - Published 20 June 2024The random walk of intermittently self-propelled particles
A. Datta, C. Beta, and R. Großmann
arXiv:2406.15277v1 [cond-mat.soft] 21 Jun 2024A minimal physical model for curvotaxis driven by curved protein complexes at the cell’s leading edge
R.K. Sadhu, M. Luciano, W. Xi, C. Martinez-Torres, M. Schröder, C. Blum, C. Beta et all
Proceedings of the National Academy of Sciences121 (12), e2306818121 - Published 15 March, 2024Robust parameter estimation for partially observed second-order diffusion processes
J. Albrech and S. Reich
arXiv:2406.14738v1 [stat.ME] 20 Jun 2024Non-Gaussian displacements in active transport on a carpet of motile cells
R. Großmann, L. S. Bort, T. Moldenhawer, S. Sharifi Panah, R. Metzler, and C. Beta
Phys. Rev. Lett.132, 088301 – Published 23 February 2024
arXiv:2311.05377v1 [cond-mat.soft] 9 Nov 2023Three-component contour dynamics model to simulate and analyze amoeboid cell motility in two dimensions
D. Schindler, T. Moldenhawer, C. Beta, W. Huisinga, M. Holschneider
Plos one19 (1), e0297511 - Published 26 January, 2024Cargo Size Limits and Forces of Cell‐Driven Microtransport
S. Sharifi Panah, R. Großmann, V. Lepro, C. Beta
Small20 (11), 2304666 - First published: 07 November, 2023
2023
Black and gray box learning of amplitude equations: Application to phase field systems
F.P. Kemeth, S. Alonso, B. Echebarria, T. Moldenhawer, C. Beta, and I.G. Kevrekidis,
Physical Review E 107 (2), 025305, 2023From actin waves to mechanism and back: How theory aids biological understanding
C. Beta, L. Edelstein-Keshet, N. Gov, and A. Yochelis,
Elife 12, e87181, 2023Cargo size limits and forces of cell-driven microtransport
S. Sharifi Panah, R. Großmann, V. Lepro, and C. Beta,
Small published by Wiley-VCH GmbH 2023, 2304666
arXiv:2305.15298v1 [physics.bio-ph] 24 May 2023Ferroelectrets: Heterogenous polymer electrets with high piezoelectric sensitivity for transducers
X. Qiu, P. Fang, A. Mellinger, R. A. P. Altafim, W. Wirges, G. Gidion, and D. Rychkov,
Jornal of Advanced DielectricsPeriodic orbits in the Ott-Antonsen manifold
O. E. Omel´chenko
Nonlinearity 36, 845-861 (2023)Transient chimera states emerging from dynamical trapping in chaotic saddles
E. S. Medeiros, O. Omel´chenko, and U. Feudel,
Chaos 33, 093130 (2023)
arXiv:2307.06918v1 [nlin.CD] 13 Jul 2023Traveling spiral wave chimeras in coupled oscillator systems: emergence, dynamics, and transitions
M. Bataille-Gonzalez, M. G. Clerc, E. Knobloch, and O. E. Omel´chenko,
New J. Phys. 25, 103023 (2023)Periodic solutions in next generation neural field models
C. R. Laing and O. E. Omel´chenko,
Biol. Cybern. 117, 259-274 (2023)
arXiv:2306.10398v1 [nlin.AO] 17 Jun 2023
2022
- Role of the two flagellar stators in swimming motility of Pseudomonas putida
V. Pfeifer, S. Beier, Z. Alirezaeizanjani, and C. Beta,
ASM Journals, November/December 2022, Volume 13, Issue 6, e02182-22.
- Versatile Patterns in the Actin Cortex of Motile Cells: Self-Organized Pulses Can Coexist with Macropinocytic Ring-Shaped Waves
A. Yochelis, S. Flemming, and C. Beta,
Phys. Rev. Lett. 129, 088101 – Published 19 August 2022. - Wrapped Up: The Motility of Polarly Flagellated Bacteria
K. M. Thormann, C. Beta, and M. J. Kühn,
Annu. Rev. Microbiol. 2022. - Spontaneous transitions between amoeboid and keratocyte-like modes of migration
T. Moldenhawer, E. Moreno, D. Schindler, S. Flemming, M. Holschneider, W. Huisinga, S. Alonso, and C. Beta,
Front. Cell Dev. Biol., 30 September 2022. - Optimal Cargo Size for Active Diffusion of Biohybrid Microcarriers
V. Lepro, R. Großmann, S. Sharifi Panah, O. Nagel, S. Klumpp, R. Lipowsky, and C. Beta,
Phys. Rev. Applied 18, 034014 – Published 7 September 2022. - Unravelling the origins of anomalous diffusion: From molecules to migrating storks
O. Vilk, E. Aghion, T. Avgar, C. Beta, O. Nagel, A. Sabri, R. Sarfati, D. K. Schwartz, M. Weiss, D. Krapf, R. Nathan, R. Metzler, and M. Assaf,
Phys. Rev. Research 4, 033055 – Published 18 July 2022.
arXiv:2109.04309v3 [physics.data-an] 27 Jun 2022 - Interplay of diffusio- and thermo-osmotic flows generated by single light stimulus
V. Muraveva, M. Bekir, N. Lomadze, R. Großmann, C. Beta, and S. Santer,
Appl. Phys. Lett. 120, 231905 (2022). - From single to collective motion of social amoebae: a computational study of interacting cells
E. Moreno, R. Großmann, C. Beta, and S. Alonso,
Front. Phys., 02 February 2022. - Electrophoretic µPAD for Purification and Analysis of DNA Samples
N. Heinsohn, R. Niedl, A. Anielski, F. Lisdat, and C. Beta,
Biosensors2022, 12(2), 62.
2002-2021
- Diffusivity estimation for activator–inhibitor models: Theory and application to intracellular dynamics of the actin cytoskeleton
G. Pasemann, S. Flemming, S. Alonso, C. Beta und W. Stannat, Journal of Nonlinear Science volume 31, Article number: 59 (2021).
- Analysis of protrusion dynamics in amoeboid cell motility by means of regularized contour flows
D. Schindler, T. Moldenhawer, M. Stange, V. Lepro, C. Beta, M. Holschneider und W. Huisinga, PLoS computational biology 17 (8), e1009268, (2021).
- A particle-field approach bridges phase separation and collective motion in active matter
R. Großmann, I. S. Aranson und F. Peruani, Nature Communications, 11, 5365 (2020) .
- A novel approach to chemotaxis: Active particles guided by internal clocks
L. Gómez Nava, R. Großmann, M. Hintsche, C. Beta und F. Peruani, EPL (Europhysics Letters), Volume 130, Number 6, (2020).
- Why a Large-Scale Mode can be essential for Understanding Intracellular Actin Waves
C. Beta , N. S. Gov und A. Yochelis, Cells 2020, 9(6), 1533, (2020). Wir danken für die Unterstützung der Deutschen Forschungsgemeinschaft und des Open-Access-Publikationsfonds der Universität Potsdam
- Self-Propelled Rods: Insightsand Perspectives for ActiveMatter
M. Bär, R. Großmann, S. Heidenreich und F. Peruani, Annu. Rev. Condens. Matter Phys. 2020, 11, 441-466, (2020).
- Chemotaxis strategies of bacteria with multiple run modes
Z. Alirezaeizanjani, R. Großmann, V. Pfeifer, M. Hintsche und C. Beta, Sci. Adv., 6 (22), eaaz6153, (2020).
- Receptor-induced transient responses in cells with oscillatory actin dynamics
J. Negrete, Jr. , A. Pumir, C. Westendorf, M. Tarantola, E. Bodenschatz und C. Beta, Phys. Rev. R. 2, 013239, (2020).
- How cortical waves drive fission of motile cells
S. Flemming , F. Font, S. Alonso und C. Beta, PNAS, 6337, Vol 117, No. 12 (2020).
- Excitable solitons: Annihilation, crossover, and nucleation of pulses in mass-conserving activator-inhibitor media
A. Yochelis, C. Beta and N. S. Gov, Phys. Rev. E 101, 022213 - Published 19 February (2020).
- Rectification of Bacterial Diffusion in Microfluidic Labyrinths
A. Weber, M. Bahrs, Z. Alirezaeizanjani, X. Zhang, C. Beta and V. Zaburdaev, frontiers in Physics, (2019).
- Interplay between myosin II and actin dynamics in chemotactic amoeba
H. F. Hsu, A. Krekhov, M. Tarantola, C. Beta and E. Bodenschatz, New Journal of Physics 21, 113055, (2019).
- Harnessing Motile Amoeboid Cells as Trucks for Microtransport and Assembly
O. Nagel, M. Frey, M. Gerhardt and C. Beta, Advanced Science 6 (3), 1801242, (2019).
- Statistical parameter inference of bacterial swimming strategies
M. Seyrich, Z. Alirezaeizanjani, C. Beta, H. Stark, New Journal of Physics 20, 103033 (2018).
- Non-Gaussianity, population heterogeneity, and transient superdiffusion in the spreading dynamics of amoeboid cells
A. G. Cherstvy, O. Nagel, C. Beta, R. Metzler, Physical Chemistry Chemical Physics 20, 23034-23054 (2018).
- Modeling random crawling, membrane deformation and intracellular polarity of motile amoeboid cells
S. Alonso, M. Stange, C. Beta, PLoS ONE 13(8), e0201977 (2018).
- A polar bundle of flagella can drive bacterial swimming by pushing, pulling, or coiling around the cell body,
M. Hintsche, V. Waljor, R. Großmann, M. J. Kühn, K. M. Thormann, F. Peruani, and C. Beta, Scientific Reports 7, Article number: 16771 (2017).
- Analyzing the spatial positioning of nuclei in polynuclear giant cells
M. Stange, M. Hintsche, K. Sachse, M. Gerhardt, A. Valleriani and C. Beta, J. Phys. D: Appl. Phys. 50 464001 (8pp) (2017).
- Variability and Order in Cytoskeletal Dynamics of Motile Amoeboid Cells
H.-F. Hsu, E. Bodenschatz, C. Westendorf, A. Gholami, A. Pumir, M. Tarantola and C. Beta, Phys. Rev. Lett. 119, 148101 (2017).
- Adaptive microfluidic gradient generator for quantitative chemotaxis experiments
A. Anielski, E.K.B. Pfannes and C. Beta, Review of Scientific Instruments 88, 034301 (2017).
- Inferring the chemotactic strategy of P. putida and E. coli using modified Kramers-Moyal coefficients
O. Pohl, M. Hintsche, Z. Alirezaeizanjani, M. Seyrich, C. Beta and H. Stark, PLOS Comput Biol 13(1): e1005329 (2017).
- Intracellular Oscillations and Waves
C. Beta, K. Kruse, Annual Review of Condensed Matter Physics Vol. 8, 239-264 (2017).
- Comment on “Flow-induced arrest of spatiotemporal chaos and transition to a stationary pattern in the Gray-Scott model”
I. Berenstein, C. Beta, and Y. De Decker, Phys. Rev. E 94, 046201 (2016).
- Noisy oscillations in the actin cytoskeleton of chemotactic amoeba
J. Negrete Jr., A. Pumir, H.-F. Hsu, C. Westendorf, M. Tarantola, C. Beta, and E. Bodenschatz, Phys. Rev. Lett. 117, 148102 (2016).
- To turn or not to turn?
C. Beta, New J. Phys. 18 051003 (2016).
- How imperfect mixing and differential diffusion accelerate the rate of nonlinear reactions in microfluidic channels
R. Niedl, I. Berenstein, and C. Beta, Physical Chemistry Chemical Physics 18, 6451 - 6457 (2016).
- Cell-substrate impedance fluctuations of single amoeboid cells encode cell-shape and adhesion dynamics
H. Leonhardt, M. Gerhardt, N. Höppner, K. Krüger, M. Tarantola, and C. Beta, Phys. Rev. E 93, 012414 (2016).
- Swimming patterns of a polarly flagellated bacterium in environments of increasing complexity
M. Raatz, M. Hintsche, M. Bahrs, M. Theves, and C. Beta, Eur. Phys. J. ST 224, 1185-1198 (2015).
- Hydrogel-driven paper-based microfluidics
R. Niedl and C. Beta, Lab on a Chip 15, 2452 - 2459 (2015).
- Random walk patterns of a soil bacterium in open and confined environments
M. Theves, J. Taktikos, V. Zaburdaev, H. Stark, and C. Beta, EPL 109, 28007 (2015).
- Geometry-driven polarity in motile amoeboid cells
O. Nagel, C. Guven, M. Theves, M. Driscoll, W. Losert and C. Beta, PLoS ONE 9 (12), e113382 (2014).
- Signaling in chemotactic amoebae remains spatially confined to stimulated membrane regions
M. Gerhardt, M. Walz, and C. Beta, J. Cell Sci. 127, 5115-5125 (2014).
- Quantifying the degree of persistence in random amoeboid motion based on the Hurst exponent of fractional Brownian motion
N. Makarava, S. Menz, M. Theves, W. Huisinga, C. Beta, and M. Holschneider, Phys. Rev. E 90, 042703 (2014).
- Actin and PIP3 waves in giant cells reveal the inherent length scale of an excited state
M. Gerhardt, M. Ecke, M. Walz, A. Stengl, C. Beta, and G. Gerisch, J. Cell Sci. 127, 4507-4517 (2014).
- Stabilization of standing waves through time-delay feedback
M. Stich, A. Casal, and C. Beta. Phys. Rev. E 88, 042910 (2013).
- Intracellular photoactivation of caged-cGMP induces myosin II and actin responses in motile cells
E. K. B. Pfannes, A. Anielski, M. Gerhardt, and C. Beta, Integr. Biol. 5 (12), 1456-1463 (2013).
- A bacterial swimmer with two alternating speeds of propagation
M. Theves, J. Taktikos, V. Zaburdaev, H. Stark, and C. Beta, Biophys. J. 105 (8), 1915-1924 (2013).
- Cross-diffusion in the two-variable Oregonator model
I. Berenstein and C. Beta. Chaos 23, 033119 (2013).
- Actin cytoskeleton of chemotactic amoebae operates close to the onset of oscillations
C. Westendorf, J. Negrete Jr., A.J. Bae, R. Sandmann, E. Bodenschatz, and C. Beta, PNAS 110, 3853-3858 (2013).
- Distinguishing similar patterns with different underlying instabilities: Effect of advection on systems with Hopf, Turing-Hopf, and wave instabilities
I. Berenstein, Chaos 22, 043109 (2012).
- Flow-induced transitions in bistable systems
I. Berenstein and C. Beta, Phys. Rev. E 86, 056205 (2012).
- Cell shape recognition and segmentation in fluorescence microscopy images
A. Anielski, E.K.B. Pfannes, and C. Beta J. Comput. Interdisc. Sci. 3, 99-106 (2012).
- Control parameter description of eukaryotic chemotaxis
G. Amselem, M. Theves, A. Bae, C. Beta, and E. Bodenschatz, Phys. Rev. Lett. 109, 108103 (2012).
- Pattern formation in a reaction-diffusion-advection system with wave instability
I. Berenstein, Chaos 22, 023112 (2012).
- A stochastic description of Dictyostelium chemotaxis
G. Amselem, M. Theves, A. Bae, E. Bodenschatz, and C. Beta, PLoS ONE 7(5), e37213 (2012).
- Impact of the carbazole derivative wiskostatin on mechanical stability and dynamics of motile cells
E.K.B. Pfannes, M. Theves, C. Wegner, and C. Beta, J. Muscle Res. Cell Motil. 33, 95-106 (2012).
- Spatiotemporal chaos arising from standing waves in a reaction-diffusion system with cross-diffusion
I. Berenstein and C. Beta, J. Chem. Phys. 136, 034903 (2012).
- Flow-induced control of chemical turbulence
I. Berenstein and C. Beta, J. Chem. Phys. 135, 164901 (2011).
- Microfluidic tools for quantitative studies of eukaryotic chemotaxis
C. Beta and E. Bodenschatz, Eur. J. Cell Biol. 90, 811-816 (2011).
- Shape Oscillations of Dictyostelium discoideum Cells on Ultramicroelectrodes Monitored by Impedance Analysis
E. Schäfer, C. Westendorf, E. Bodenschatz, C. Beta, B. Geil and A. Janshoff, Small 7, 723-726 (2011).
- X-ray propagation microscopy of biological cells using waveguides as a quasipoint source
K. Giewekemeyer S. P. Krüger, S. Kalbfleisch, M. Bartels, C. Beta and T. Salditt, Phys. Rev. A 83, 023804 (2011).
- Bistability in the actin cortex
C. Beta. PMC Biophysics 3, 12 (2010).
- Control of pattern formation by time-delay feedback with global and local contributions
M. Stich and C. Beta, Physica D 239, 1681-1691 (2010).
- Live cell flattening - traditional and novel approaches
C. Westendorf, A.J. Bae, C. Erlenkamper, E. Galland, C. Franck, E. Bodenschatz, and C. Beta, PMC Biophysics, 3, 9 (2010).
- Quantitative analysis of random ameboid motion
H.U. Bödeker, C. Beta, T.D. Frank, and E. Bodenschatz, EPL 90, 28005 (2010).
- Theoretical analysis of defect-mediated turbulence in a catalytic surface reaction
D. Krefting and C. Beta, Phys. Rev. E 81, 036209 (2010).
- Rapid switching of chemical signals in microfluidic device
A. Bae, C. Beta, and E. Bodenschatz, Lab on a Chip 9, 3059-3065 (2009).
- A bistable mechanism for directional sensing
C. Beta, G. Amselem, and E. Bodenschatz, New J. Phys. 10, 083015 (2008).
- Chemotaxis in microfluidic devices – a study of flow effects
C. Beta, T. Fröhlich, H. Bödeker, and E. Bodenschatz, Lab on a Chip 8, 1087-1096 (2008).
- Suppression of spatiotemporal chaos in the oscillatory CO oxidation on Pt(110) by focused laser light
C. Punckt, M. Stich, C. Beta, and H.H. Rotermund, Phys. Rev. E 77, 046222 (2008).
- Control of spatiotemporal chaos in catalytic CO oxidation by laser-induced pacemakers
M. Stich, C. Punckt, C. Beta, and H.H. Rotermund, Phil. Trans. R. Soc. A 366, 419-426 (2008).
- Flow photolysis for spatiotemporal stimulation of single cells
C. Beta, D. Wyatt, W.-J. Rappel, and E. Bodenschatz Anal. Chem. 79, 3940-3944 (2007).
- High frequency periodic forcing of the oscillatory catalytic CO oxidation on Pt(110)
P.S. Bodega, P. Kaira, C. Beta, D. Krefting, D. Bauer, B. Mirwald-Schulz, C. Punckt, and H.H. Rotermund, New J. Phys. 9, 61 (2007).
- Defect-mediated turbulence in a catalytic surface reaction
C. Beta, A.S. Mikhailov, H.H. Rotermund, and G. Ertl, Europhys. Lett. 75, 868-874 (2006).
- Dictyostelium discoideum chemotaxis: threshold for directed motion
L. Song, S.M. Nadkarni, H.U. Bödeker, C. Beta, A. Bae, C. Franck, W.-J. Rappel, W.F. Loomis, and E. Bodenschatz, Eur. J. Cell Biol. 85, 981-989 (2006).
- A hierarchy of global coupling induced cluster patterns during the oscillatory H2-electrooxidation reaction on a Pt ring-electrode
H. Varela, C. Beta, A. Bonnefont, and K. Krischer, Phys. Chem. Chem. Phys. 7, 2429-2439 (2005).
- Transitions to electrochemical turbulence
H. Varela, C. Beta, A. Bonnefont, and K. Krischer, Phys. Rev. Lett. 94, 174104 (2005).
- Controlling spatiotemporal chaos in oscillatory reaction-diffusion systems by time-delay autosynchronization
C. Beta and A.S. Mikhailov, Physica D 199, 173-184 (2004).
- Excitable CO oxidation on Pt(110) under nonuniform coupling
C. Beta, M.G. Moula, A.S. Mikhailov, H.H. Rotermund, and G. Ertl, Phys. Rev. Lett. 93, 188302 (2004).
- Laser-induced target patterns in the oscillatory CO oxidation on Pt(110)
J. Wolff, M. Stich, C. Beta, and H.H. Rotermund, J. Phys. Chem. B 108, 14282-14291 (2004).
- Complex Patterns in a Periodically Forced Surface Reaction
M. Bertram, C. Beta, H.H. Rotermund, and G. Ertl, J. Phys. Chem. B 107, 9610-9615 (2003).
- Wavelet filtering to study mixing in 2D isotropic turbulence
C. Beta, K. Schneider, and M. Farge, Commun. Nonlin. Sci. Num. Sim. 8, 537-545 (2003).
- Controlling turbulence in a surface chemical reaction by time-delay autosychronization
C. Beta, M. Bertram, A.S. Mikhailov, H.H. Rotermund, and G. Ertl, Phys. Rev. E, 67, 046224 (2003).
- Numerical study of mixing of passive and reactive scalars in two-dimensional turbulent flows using orthogonal wavelet filtering
C. Beta, K. Schneider, M. Farge, and H. Bockhorn, Chem. Engin. Sci. 58, 1463-1477 (2003).
- Pattern formation on the edge of chaos: experiments with CO oxidation on a Pt(110) surface under global delayed feedback
M. Bertram, C. Beta, M. Pollmann, A.S. Mikhailov, H.H. Rotermund, and G. Ertl, Phys. Rev. E, 67, 036208 (2003).
- Numerische Simulation von Mischung und chemischer Reaktion mit Spektralverfahren unter Verwendung von Waveletfiltern
C. Beta, K. Schneider, M. Farge, and H. Bockhorn, Chem. Ing. Tech., 74, 1441-1444 (2002).