Statistical mechanics of an elastically pinned membrane: Static profile and correlations
The relation between the mechanical properties of a nonspecifically adherent, free membrane and its thermal fluctuations is well studied, both theoretically and experimentally. However, understanding this relationship is significantly more challenging for the biologically relevant case of membranes...
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| Published in | arXiv.org |
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| Main Authors | , , , , |
| Format | Paper Journal Article |
| Language | English |
| Published |
Ithaca
Cornell University Library, arXiv.org
13.06.2018
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| Online Access | Get full text |
| ISSN | 2331-8422 |
| DOI | 10.48550/arxiv.1806.05109 |
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| Abstract | The relation between the mechanical properties of a nonspecifically adherent, free membrane and its thermal fluctuations is well studied, both theoretically and experimentally. However, understanding this relationship is significantly more challenging for the biologically relevant case of membranes pinned by proteins to scaffolds such as the cytoskeleton, the extracellular matrix or another cell. For a free membrane, an expansion of the membrane profile into plane waves allows for analytical tractability and the calculation of the fluctuation properties. For a pinned membrane, the difficulty lies in the coupling of the plane wave modes, and analytic approaches to the problem were not successful so far. Here we calculate the mode coupling coefficients for the plane wave expansion, as well as the orthonormal fluctuating modes and the Green's function for the system. We show that the mean membrane shape is linearly related to the spatial correlation function of the free membrane as well as of the pinned membrane, the latter two differing only by a constant factor. Most importantly, we provide a set of tools which can be used in the future to address biologically relevant questions like the interaction of cellular membranes with internal and external scaffolds. |
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| AbstractList | The relation between the mechanical properties of a nonspecifically adherent, free membrane and its thermal fluctuations is well studied, both theoretically and experimentally. However, understanding this relationship is significantly more challenging for the biologically relevant case of membranes pinned by proteins to scaffolds such as the cytoskeleton, the extracellular matrix or another cell. For a free membrane, an expansion of the membrane profile into plane waves allows for analytical tractability and the calculation of the fluctuation properties. For a pinned membrane, the difficulty lies in the coupling of the plane wave modes, and analytic approaches to the problem were not successful so far. Here we calculate the mode coupling coefficients for the plane wave expansion, as well as the orthonormal fluctuating modes and the Green's function for the system. We show that the mean membrane shape is linearly related to the spatial correlation function of the free membrane as well as of the pinned membrane, the latter two differing only by a constant factor. Most importantly, we provide a set of tools which can be used in the future to address biologically relevant questions like the interaction of cellular membranes with internal and external scaffolds. The relation between thermal fluctuations and the mechanical response of a free membrane has been explored in great detail, both theoretically and experimentally. However, understanding this relationship for membranes, locally pinned by proteins, is significantly more challenging. Given that the coupling of the membrane to the cell cytoskeleton, the extracellular matrix and to other internal structures is crucial for the regulation of a number of cellular processes, understanding the role of the pinning is of great interest. In this manuscript we consider a single protein (elastic spring of a finite rest length) pinning a membrane modelled in the Monge gauge. First, we determine the Green$'$s function for the system and complement this approach by the calculation of the mode coupling coefficients for the plane wave expansion, and the orthonormal fluctuation modes, in turn building a set of tools for numerical and analytic studies of a pinned membrane. Furthermore, we explore static correlations of the free and the pinned membrane, as well as the membrane shape, showing that all three are mutually interdependent and have an identical long-range behaviour characterised by the correlation length. Interestingly, the latter displays a non-monotonic behaviour as a function of membrane tension. Importantly, exploiting these relations allows for the experimental determination of the elastic parameters of the pinning. Last but not least, we calculate the interaction potential between two pinning sites and show that, even in the absence of the membrane deformation, the pinnings will be subject to an attractive force due to changes in membrane fluctuations. |
| Author | Schmidt, Daniel Janeš, Josip A Seifert, Udo Stumpf, Henning Smith, Ana-Sunčana |
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| BackLink | https://doi.org/10.48550/arXiv.1806.05109$$DView paper in arXiv https://doi.org/10.1016/j.bpj.2018.12.003$$DView published paper (Access to full text may be restricted) |
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| Copyright | 2018. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. http://arxiv.org/licenses/nonexclusive-distrib/1.0 |
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| DOI | 10.48550/arxiv.1806.05109 |
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| Snippet | The relation between the mechanical properties of a nonspecifically adherent, free membrane and its thermal fluctuations is well studied, both theoretically... The relation between thermal fluctuations and the mechanical response of a free membrane has been explored in great detail, both theoretically and... |
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| SubjectTerms | Cell membranes Coupling coefficients Green's functions Mathematical analysis Mechanical properties Membranes Physics - Biological Physics Physics - Soft Condensed Matter Physics - Statistical Mechanics Plane waves Proteins Scaffolds Statistical mechanics Thermal expansion Variation |
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| Title | Statistical mechanics of an elastically pinned membrane: Static profile and correlations |
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