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Auteurs principaux: Ham, Lucy, Woodford, Taylor E., Coomer, Megan A., Stumpf, Michael P. H.
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2412.00667
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author Ham, Lucy
Woodford, Taylor E.
Coomer, Megan A.
Stumpf, Michael P. H.
author_facet Ham, Lucy
Woodford, Taylor E.
Coomer, Megan A.
Stumpf, Michael P. H.
contents Many cellular processes involve information processing and decision making. We can probe these processes at increasing molecular detail. The analysis of heterogeneous data remains a challenge that requires new ways of thinking about cells in quantitative, predictive, and mechanistic ways. We discuss the role of mathematical models in the context of cell-fate decision making systems across the tree of life. Complex multi-cellular organisms have been a particular focus, but single celled organisms also have to sense and respond to their environment. We center our discussion around the idea of design principles which we can learn from observations and modeling, and exploit in order to (re)-design or guide cellular behavior.
format Preprint
id arxiv_https___arxiv_org_abs_2412_00667
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Mapping, modeling, and reprogramming cell-fate decision making systems
Ham, Lucy
Woodford, Taylor E.
Coomer, Megan A.
Stumpf, Michael P. H.
Cell Behavior
Many cellular processes involve information processing and decision making. We can probe these processes at increasing molecular detail. The analysis of heterogeneous data remains a challenge that requires new ways of thinking about cells in quantitative, predictive, and mechanistic ways. We discuss the role of mathematical models in the context of cell-fate decision making systems across the tree of life. Complex multi-cellular organisms have been a particular focus, but single celled organisms also have to sense and respond to their environment. We center our discussion around the idea of design principles which we can learn from observations and modeling, and exploit in order to (re)-design or guide cellular behavior.
title Mapping, modeling, and reprogramming cell-fate decision making systems
topic Cell Behavior
url https://arxiv.org/abs/2412.00667