English

Detecting long-range attraction between migrating cells based on p-value distributions

Quantitative Methods 2019-06-21 v1 Cell Behavior

Abstract

Immune cells have evolved to recognize and eliminate pathogens, and the efficiency of this process can be measured in a Petri dish. Yet, even if the cells are time-lapse recorded and tracked with high resolution, it is difficult to judge whether the immune cells find their targets by mere chance, or if they approach them in a goal-directed way, perhaps using remote sensing mechanisms such as chemotaxis. To answer this question, we assign to each step of an immune cell a 'p-value', the probability that a move, at least as target-directed as observed, can be explained with target-independent migration behavior. The resulting distribution of p-values is compared to the distribution of a reference system with randomized target positions. By using simulated data, based on various chemotactic search mechanisms, we demonstrate that our method can reliably distinguish between blind migration and target-directed 'hunting' behavior.

Keywords

Cite

@article{arxiv.1906.08481,
  title  = {Detecting long-range attraction between migrating cells based on p-value distributions},
  author = {Claus Metzner},
  journal= {arXiv preprint arXiv:1906.08481},
  year   = {2019}
}
R2 v1 2026-06-23T09:58:44.196Z