Homepage of Martin Michael Müller

Publications

Articles in scientific journals
Books
Theses

See also profiles on Publons, Orcid or Google Scholar.

1. Articles in scientific journals

Conformational Space of the Translocation Domain of Botulinum Toxin: Atomistic Modeling and Mesoscopic Description of the Coiled-Coil Helix Bundle

Alexandre Delort, Grazia Cottone, Thérèse E. Malliavin, Martin Michael Müller

Abstract

Int. J. Mol. Sci., 25: 2481, 2024.

Flexoelectric fluid membrane vesicles in spherical confinement

Niloufar Abtahi, Lila Bouzar, Nadia Saidi-Amroun, Martin Michael Müller
EPL, 131(1): 18001, 2020. See also arXiv:2006.04475.

Isometric bending requires local constraints on free edges

Jemal Guven, Martin Michael Müller, Pablo Vázquez-Montejo
While the shape equations describing the equilibrium of an unstretchable thin sheet that is free to bend are known, the boundary conditions that supplement these equations on free edges have remained elusive. Intuitively, unstretchability is captured by a constraint on the metric within the bulk. Naïvely one would then guess that this constraint is enough to ensure that the deformations determining the boundary conditions on these edges respect the isometry constraint. If matters were this simple, unfortunately, it would imply unbalanced torques (as well as forces) along the edge unless manifestly unphysical constraints are met by the boundary geometry. In this article, we identify the source of the problem: not only the local arc-length but also the geodesic curvature need to be constrained explicitly on all free edges. We derive the boundary conditions which follow. In contrast to conventional wisdom, there is no need to introduce boundary layers. This framework is applied to isolated conical defects, both with deficit as well, but more briefly, as surplus angles. Using these boundary conditions, we show that the lateral tension within a circular cone of fixed radius is equal but opposite to the radial compression, and independent of the deficit angle itself. We proceed to examine the effect of an oblique outer edge on this cone perturbatively demonstrating that both the correction to the geometry as well as the stress distribution in the cone kicks in at second order in the eccentricity of the edge.

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Math. Mech. Solids, 24: 4051, 2019. See also arXiv:1904.05855.

Helical Superstructure of Intermediate Filaments

Lila Bouzar, Martin Michael Müller, René Messina, Bernd Nöding, Sarah Köster, Hervé Mohrbach, Igor M. Kulić

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Phys. Rev. Lett., 122: 098101, 2019. See also arXiv:1803.04691.

Vesicle dynamics in confined steady and harmonically modulated Poiseuille flows

Zakaria Boujja, Chaouqi Misbah, Hamid Ez-Zahraouy, Abdelilah Benyoussef, Thomas John, Christian Wagner, Martin Michael Müller

Abstract

Phys. Rev. E, 98: 043111, 2018. See also arXiv:1810.04500.

Confining a fluid membrane vesicle of toroidal topology in an adhesive hard sphere

Lila Bouzar, Ferhat Menas, Martin Michael Müller

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IOP Conf. Series: MSE, 186: 012021, 2017.

Squeezed helical elastica

Lila Bouzar, Martin Michael Müller, Pierre Gosselin, Igor M. Kulić, Hervé Mohrbach

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Eur. Phys. J. E, 39: 114, 2016. See also arXiv:1606.03611.

How bio-filaments twist membranes

Julien Fierling, Albert Johner, Igor M. Kulić, Hervé Mohrbach, Martin Michael Müller

Abstract

Soft Matter, 12: 5747, 2016.

Toroidal membrane vesicles in spherical confinement

Lila Bouzar, Ferhat Menas, Martin Michael Müller

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Phys. Rev. E, 92: 032721, 2015. See also arXiv:1509.00765.

Non-linear buckling and symmetry breaking of a soft elastic sheet sliding on a cylindrical substrate

Norbert Stoop, Martin Michael Müller

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Int. J. Non-Linear Mech., 75: 115, 2015. See also arXiv:1503.05030.

Crunching Biofilament Rings

Julien Fierling, Martin Michael Müller, Hervé Mohrbach, Albert Johner, Igor M. Kulić

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Europhys. Lett., 107(6): 68002, 2014. See also arXiv:1408.6787.

Confotronic dynamics of tubular filaments

Osman Kahraman, Hervé Mohrbach, Martin Michael Müller, Igor M. Kulić

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Soft Matter, 10(16): pp. 2836-2847, 2014. See also arXiv:1312.3106.

Whirling skirts and rotating cones

Jemal Guven, J. A. Hanna, Martin Michael Müller

Abstract

New J. Phys., 15: 113055, 2013. See also arXiv:1306.2619.

Myotubularin and PtdIns3P remodel the sarcoplasmic reticulum in muscle in vivo

Leonela Amoasii, Karim Hnia, Gaëtan Chicanne, Andreas Brech, Belinda Simone Cowling, Martin Michael Müller, Yannick Schwab, Pascale Koebel, Arnaud Ferry, Bernard Payrastre, Jocelyn Laporte

Abstract

J. Cell Sci., 126(8): 1806, 2013.

Dipoles in thin sheets

Jemal Guven, J. A. Hanna, Osman Kahraman, Martin Michael Müller

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Eur. Phys. J. E, 36: 106, 2013. See also arXiv:1212.3262.

Fluid membrane vesicles in confinement

Osman Kahraman, Norbert Stoop, Martin Michael Müller

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New J. Phys., 14: 095021, 2012.

Petal shapes of sympetaleous flowers: the interplay between growth, geometry and elasticity

Martine Ben Amar, Martin Michael Müller, Miguel Trejo

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New J. Phys., 14: 085014, 2012. Also featured in the Highlights of 2012.

Morphogenesis of membrane invaginations in spherical confinement

Osman Kahraman, Norbert Stoop, Martin Michael Müller

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Europhys. Lett., 97(6): 68008, 2012. See also arXiv:1201.2518.

Conical instabilities on paper

Jemal Guven, Martin Michael Müller, Pablo Vázquez-Montejo

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J. Phys. A: Math. Theor., 45(1): 015203, 2012. See also arXiv:1107.5008.

Interface-mediated interactions: Entropic forces of curved membranes

Pierre Gosselin, Hervé Mohrbach, Martin Michael Müller

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Phys. Rev. E, 83(5): 051921, 2011. See also arXiv:1011.1221.

Self-Contact and Instabilities in the Anisotropic Growth of Elastic Membranes

Norbert Stoop, Falk K. Wittel, Martine Ben Amar, Martin Michael Müller, Hans J. Herrmann

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Phys. Rev. Lett., 105(6): 068101, 2010. See also arXiv:1007.1871.

Cell Model Approach to Membrane Mediated Protein Interactions

Martin Michael Müller, Markus Deserno

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Prog. Theor. Phys. Suppl., 184: pp. 351-363, 2010.

Hamiltonian formulation of surfaces with constant Gaussian curvature

Miguel Trejo, Martine Ben Amar, Martin Michael Müller

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J. Phys. A: Math. Theor., 42(42): 425204, 2009.

Local Membrane Mechanics of Pore-Spanning Bilayers

Ingo Mey, Milena Stephan, Eva K. Schmitt, Martin Michael Müller, Martine Ben Amar, Claudia Steinem, Andreas Janshoff
The mechanical behavior of lipid bilayers spanning the pores of highly ordered porous silicon substrates was studied by local indentation experiments as a function of surface functionalization, lipid composition, solvent content, indentation velocity, and pore radius. Solvent-containing nanoblack lipid membranes (nano-BLMs) as well as solvent-free pore-spanning bilayers were imaged by fluorescence and atomic force microscopy prior to force curve acquisition, which allows distinguishing between membrane-covered and uncovered pores. Force indentation curves on pore-spanning bilayers attached to functionalized hydrophobic porous silicon substrates reveal a predominately linear response that is mainly attributed to prestress in the membranes. This is in agreement with the observation that indentation leads to membrane lysis well below 5% area dilatation. However, membrane bending and lateral tension dominates over prestress and stretching if solvent-free supported membranes obtained from spreading giant liposomes on hydrophilic porous silicon are indented.

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J. Am. Chem. Soc., 131(20): pp. 7031-7039, 2009.

Elasticity Mapping of Pore-Suspending Native Cell Membranes

Bärbel Lorenz, Ingo Mey, Siegfried Steltenkamp, Tamir Fine, Christina Rommel, Martin Michael Müller, Alexander Maiwald, Joachim Wegener, Claudia Steinem, Andreas Janshoff

The mechanics of cellular membranes is governed by a non-equilibrium composite framework consisting of the semiflexible filamentous cytoskeleton and extracellular matrix proteins linked to the lipid bilayer. While elasticity information of plasma membranes has mainly been obtained from whole cell analysis, techniques that allow to address local mechanical properties of cell membranes are desirable to learn how their lipid and protein composition is reflected in the elastic behavior on local length scales. Here, we introduce an approach based on basolateral membranes of polar epithelial Madin-Darby canine kidney (MDCK) II cells, prepared on a highly ordered porous substrate that allows elastic mapping on a submicrometer length scale. A strong correlation between the density of actin filaments and the measured membrane elasticity is found. Spatially resolved indentation experiments carried out with atomic force and fluorescence microscope permit to relate the supramolecular structure to the elasticity of cellular membranes. It is shown that the elastic response of the pore-spanning cell membranes is governed by the local bending modules rather than the lateral tension.

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Small, 5(7): pp. 832-838, 2009.

Conical Defects in Growing Sheets

Martin Michael Müller, Martine Ben Amar, Jemal Guven

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Phys. Rev. Lett., 101(15): 156104, 2008. See also arXiv:0807.1814.

How paper folds: bending with local constraints

Jemal Guven, Martin Michael Müller
A variational framework is introduced to describe how a surface bends when it is subject to local constraints on its geometry. This framework is applied to describe the patterns of a folded sheet of paper. The unstretchability of paper implies a constraint on the surface metric; bending is penalized by an energy quadratic in mean curvature. The local Lagrange multipliers enforcing the constraint are identified with a conserved tangential stress that couples to the extrinsic curvature of the sheet. The framework is illustrated by examining the deformation of a flat sheet into a generalized cone.

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J. Phys. A: Math. Theor., 41(5): 055203, 2008. See also arXiv:0712.0978.

Contact lines for fluid surface adhesion

Markus Deserno, Martin Michael Müller, Jemal Guven

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Phys. Rev. E, 76(1): 011605, 2007. See also cond-mat/0703019.
Also featured in the Virtual Journal of Biological Physics Research.

Balancing torques in membrane-mediated interactions: Exact results and numerical illustrations

Martin Michael Müller, Markus Deserno, Jemal Guven

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Phys. Rev. E, 76(1): 011921, 2007. See also cond-mat/0702340.
Also featured in the Virtual Journal of Biological Physics Research.

Aggregation and vesiculation of membrane proteins by curvature-mediated interactions

Benedict J. Reynwar, Gregoria Illya, Vagelis A. Harmandaris, Martin Michael Müller, Kurt Kremer, Markus Deserno
Membrane remodelling plays an important role in cellular tasks such as endocytosis, vesiculation and protein sorting, and in the biogenesis of organelles such as the endoplasmic reticulum or the Golgi apparatus. It is well established that the remodelling process is aided by specialized proteins that can sense as well as create membrane curvature, and trigger tubulation when added to synthetic liposomes. Because the energy needed for such large-scale changes in membrane geometry significantly exceeds the binding energy between individual proteins and between protein and membrane, cooperative action is essential. It has recently been suggested that curvature-mediated attractive interactions could aid cooperation and complement the effects of specific binding events on membrane remodelling. But it is difficult to experimentally isolate curvature-mediated interactions from direct attractions between proteins. Moreover, approximate theories predict repulsion between isotropically curving proteins. Here we use coarse-grained membrane simulations to show that curvature-inducing model proteins adsorbed on lipid bilayer membranes can experience attractive interactions that arise purely as a result of membrane curvature. We find that once a minimal local bending is realized, the effect robustly drives protein cluster formation and subsequent transformation into vesicles with radii that correlate with the local curvature imprint. Owing to its universal nature, curvature-mediated attraction can operate even between proteins lacking any specific interactions, such as newly synthesized and still immature membrane proteins in the endoplasmic reticulum.

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Nature 447(7143): pp. 461-464, 2007.

How to determine local elastic properties of lipid bilayer membranes from atomic-force-microscope measurements: A theoretical analysis

Davood Norouzi, Martin Michael Müller, Markus Deserno
Measurements with an atomic force microscope (AFM) offer a direct way to probe elastic properties of lipid bilayer membranes locally: provided the underlying stress-strain relation is known, material parameters such as surface tension or bending rigidity may be deduced. In a recent experiment a pore-spanning membrane was poked with an AFM tip, yielding a linear behavior of the force-indentation curves. A theoretical model for this case is presented here which describes these curves in the framework of Helfrich theory. The linear behavior of the measurements is reproduced if one neglects the influence of adhesion between tip and membrane. Including it via an adhesion balance changes the situation significantly: force-distance curves cease to be linear, hysteresis and nonzero detachment forces can show up. The characteristics of this rich scenario are discussed in detail in this article.

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Phys. Rev. E, 74(6): 061914, 2006. See also cond-mat/0602662.
Also featured in the Virtual Journal of Biological Physics Research.

Mechanical Properties of Pore-Spanning Lipid Bilayers Probed by Atomic Force Microscopy

Siegfried Steltenkamp, Martin Michael Müller, Markus Deserno, Christian Hennesthal, Claudia Steinem, Andreas Janshoff

Interface mediated interactions between particles -- a geometrical approach

Martin Michael Müller, Markus Deserno, Jemal Guven

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Phys. Rev. E, 72(6): 061407, 2005. See also cond-mat/0506019.
Also featured in the Virtual Journal of Biological Physics Research.

Geometry of surface-mediated interactions

Martin Michael Müller, Markus Deserno, Jemal Guven
Soft interfaces can mediate interactions between particles bound to them. The force transmitted through the surface geometry on a particle may be expressed as a closed line integral of the surface stress tensor around that particle. This contour may be deformed to exploit the symmetries present; for two identical particles, one obtains an exact expression for the force between them in terms of the local surface geometry of their mid-plane; in the case of a fluid membrane the sign of the interaction is often evident. The approach, by construction, is adapted directly to the surface and is independent of its parameterization. Furthermore, it is applicable for arbitrarily large deformations; in particular, it remains valid beyond the linear small-gradient regime.

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Europhys. Lett., 69(3): pp. 482-488, 2005. See also cond-mat/0409043.

2. Books

New Trends in the Physics and Mechanics of Biological Systems
Lecture Notes of the Les Houches Summer School, vol. 92 (Oxford University Press, 2011),
edited by Martine Ben Amar, Alain Goriely, Martin Michael Müller and Leticia Cugliandolo.

Chapter 9:
The physics of the cell membrane
Martin Michael Müller and Martine Ben Amar.

3. Theses

Theoretical examinations of interface mediated interactions between colloidal particles, diploma thesis (2004).

Theoretical studies of fluid membrane mechanics, dissertation (2007).

Symmetry breaking in bioelasticity, habilitation thesis (2015).