Neuronal Growth as Diffusion in an Effective Potential
Biological Physics
2015-06-17 v1
Abstract
Current understanding of neuronal growth is mostly qualitative, as the staggering number of physical and chemical guidance cues involved prohibit a fully quantitative description of axonal dynamics. We report on a general approach that describes axonal growth in vitro, on poly-D-lysine coated glass substrates, as diffusion in an effective external potential, representing the collective contribution of all causal influences on the growth cone. We use this approach to obtain effective growth rules that reveal an emergent regulatory mechanism for axonal pathfinding on these substrates.
Keywords
Cite
@article{arxiv.1310.5601,
title = {Neuronal Growth as Diffusion in an Effective Potential},
author = {Daniel J. Rizzo and James D. White and Elise Spedden and Matthew R. Wiens and David L. Kaplan and Timothy J. Atherton and Cristian Staii},
journal= {arXiv preprint arXiv:1310.5601},
year = {2015}
}
Comments
Accepted for publication in Physical Review E