English

Epigenetic Tracking: a Model for Multicellular Biology

Cell Behavior 2015-07-07 v4 Populations and Evolution

Abstract

Epigenetic Tracking is a mathematical model of biological cells, originally conceived to study embryonic development. Computer simulations proved the capacity of the model to generate complex 3-dimensional cellular structures, and the potential to reproduce the complexity typical of living beings. The most distinctive feature of this model is the presence in the body of a homogeneous distribution of stem cells, which are dinamically and continuously created during development from non-stem cells and reside in niches. Embryonic stem cells orchestrate early developmental events, adult stem cells direct late developmental and regeneration events, ageing stem cells cause ageing and cancer stem cells are responsible for cancer growth. The conceptual backbone provided by Epigenetic Tracking brings together a wide range of biological phenomena: for this reason, we think it can be proposed as a general model for multicellular biology. Despite, or perhaps due to its theoretical origin, the model allowed us to make predictions relevant to very diverse fields of biology, such as transposable elements, and cancer-related patterns of gene mutations. This paper contains a summary of the model and its implications.

Keywords

Cite

@article{arxiv.1304.2174,
  title  = {Epigenetic Tracking: a Model for Multicellular Biology},
  author = {Alessandro Fontana},
  journal= {arXiv preprint arXiv:1304.2174},
  year   = {2015}
}

Comments

20 pages, 11 figures

R2 v1 2026-06-21T23:55:33.146Z