Coarse-Grained Stochastic Model of Myosin-Driven Vesicles into Dendritic Spines
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Publication:5078331
DOI10.1137/21M1434180zbMath1491.92036arXiv2107.07597MaRDI QIDQ5078331
Thomas G. Fai, Youngmin Park, Prashant Singh
Publication date: 23 May 2022
Published in: SIAM Journal on Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2107.07597
Uses Software
Cites Work
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- Kac's rescaling for jump-telegraph processes
- Stochastic methods. A handbook for the natural and social sciences
- First passage times for correlated random walks and some generalizations
- Some applications of persistent random walks and the telegrapher's equation
- Assessing the impact of electrostatic drag on processive molecular motor transport
- Modeling tau transport in the axon initial segment
- Dynamics of vesicles driven into closed constrictions by molecular motors
- Bidirectional sliding of two parallel microtubules generated by multiple identical motors
- A Guide to First-Passage Processes
- An Asymptotic Analysis of the Spatially Inhomogeneous Velocity-Jump Process
- The first passage time for position-dependent correlated random walk with absorbing boundary condition
- Run-and-tumble particles, telegrapher’s equation and absorption problems with partially reflecting boundaries
- Extinction Times for Birth-Death Processes: Exact Results, Continuum Asymptotics, and the Failure of the Fokker--Planck Approximation
- Generalized integrated telegraph processes and the distribution of related stopping times
- The one-dimensional asymmetric persistent random walk
- Steady state, relaxation and first-passage properties of a run-and-tumble particle in one-dimension
- Generalised ‘Arcsine’ laws for run-and-tumble particle in one dimension
- On the Asymmetric Telegraph Processes
- Run-and-tumble particle in inhomogeneous media in one dimension
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