Renewal reward perspective on linear switching diffusion systems in models of intracellular transport
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Publication:829254
DOI10.1007/s11538-020-00797-wzbMath1461.92030arXiv1911.07746OpenAlexW3087443293WikidataQ99559097 ScholiaQ99559097MaRDI QIDQ829254
John Fricks, Scott A. McKinley, Maria-Veronica Ciocanel, Peter R. Kramer
Publication date: 5 May 2021
Published in: Bulletin of Mathematical Biology (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1911.07746
Applications of Markov chains and discrete-time Markov processes on general state spaces (social mobility, learning theory, industrial processes, etc.) (60J20) Biochemistry, molecular biology (92C40) Cell biology (92C37)
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- Renewal-reward process formulation of motor protein dynamics
- Kinesins with extended neck linkers: A chemomechanical model for variable-length stepping
- On the moments of hitting times for random walks on trees
- Quasi-steady state reduction of molecular motor-based models of directed intermittent search
- Exponential time differencing for stiff systems
- Variances of first passage times in a Markov chain with applications to mixing times
- A multiscale approach to Brownian motors
- Two coarse-graining studies of stochastic models in molecular biology
- Hybrid switching diffusions. Properties and applications
- Probabilistic methods for a linear reaction-hyperbolic system with constant coefficients
- Asymptotic analysis of microtubule-based transport by multiple identical molecular motors
- A robust numerical algorithm for studying biomolecular transport processes
- A matrix computational approach to kinesin neck linker extension
- Bidirectional sliding of two parallel microtubules generated by multiple identical motors
- Application of quasi-steady-state methods to nonlinear models of intracellular transport by molecular motors
- Stochastic-Process Limits
- Introduction to Stochastic Processes With R
- A Stochastic Compartmental Model for Fast Axonal Transport
- Approximate Traveling Waves in Linear Reaction-Hyperbolic Equations
- Basics of Applied Stochastic Processes
- Modeling Microtubule-Based Transport and Anchoring of mRNA
- Analysis of Nonprocessive Molecular Motor Transport Using Renewal Reward Theory
- Stochastic Active-Transport Model of Cell Polarization
- Multiscale Methods
- Stochastic Liouville Equations
