### Skapa referens, olika format (klipp och klistra)

**Harvard**

Röding, M., Guo, M., Weitz, D., Rudemo, M. och Särkkä, A. (2014) *Identifying directional persistence in intracellular particle motion using Hidden Markov Models*.

** BibTeX **

@article{

Röding2014,

author={Röding, Magnus and Guo, M. and Weitz, D. A. and Rudemo, Mats and Särkkä, Aila},

title={Identifying directional persistence in intracellular particle motion using Hidden Markov Models},

journal={Mathematical Biosciences},

issn={0025-5564},

volume={248},

pages={140-145},

abstract={Particle tracking is a widely used and promising technique for elucidating complex dynamics of the living cell. The cytoplasm is an active material, in which the kinetics of intracellular structures are highly heterogeneous. Tracer particles typically undergo a combination of random motion and various types of directed motion caused by the activity of molecular motors and other non-equilibrium processes. Random switching between more and less directional persistence of motion generally occurs. We present a method for identifying states of motion with different directional persistence in individual particle trajectories. Our analysis is based on a multi-scale turning angle model to characterize motion locally, together with a Hidden Markov Model with two states representing different directional persistence. We define one of the states by the motion of particles in a reference data set where some active processes have been inhibited. We illustrate the usefulness of the method by studying transport of vesicles along microtubules and transport of nanospheres activated by myosin. We study the results using mean square displacements, durations, and particle speeds within each state. We conclude that the method provides accurate identification of states of motion with different directional persistence, with very good agreement in terms of mean-squared displacement between the reference data set and one of the states in the two-state model.},

year={2014},

keywords={Particle tracking, Hidden Markov Models, Transport processes, Intracellular transport},

}

** RefWorks **

RT Journal Article

SR Electronic

ID 196562

A1 Röding, Magnus

A1 Guo, M.

A1 Weitz, D. A.

A1 Rudemo, Mats

A1 Särkkä, Aila

T1 Identifying directional persistence in intracellular particle motion using Hidden Markov Models

YR 2014

JF Mathematical Biosciences

SN 0025-5564

VO 248

SP 140

OP 145

AB Particle tracking is a widely used and promising technique for elucidating complex dynamics of the living cell. The cytoplasm is an active material, in which the kinetics of intracellular structures are highly heterogeneous. Tracer particles typically undergo a combination of random motion and various types of directed motion caused by the activity of molecular motors and other non-equilibrium processes. Random switching between more and less directional persistence of motion generally occurs. We present a method for identifying states of motion with different directional persistence in individual particle trajectories. Our analysis is based on a multi-scale turning angle model to characterize motion locally, together with a Hidden Markov Model with two states representing different directional persistence. We define one of the states by the motion of particles in a reference data set where some active processes have been inhibited. We illustrate the usefulness of the method by studying transport of vesicles along microtubules and transport of nanospheres activated by myosin. We study the results using mean square displacements, durations, and particle speeds within each state. We conclude that the method provides accurate identification of states of motion with different directional persistence, with very good agreement in terms of mean-squared displacement between the reference data set and one of the states in the two-state model.

LA eng

DO 10.1016/j.mbs.2013.12.008

LK http://dx.doi.org/10.1016/j.mbs.2013.12.008

OL 30