Mechanistic Model-Driven Biodesign in Mammalian Synthetic Biology

Yin Hoon Chew; Lucia Marucci

doi:10.1007/978-1-0716-3718-0_6

Mechanistic Model-Driven Biodesign in Mammalian Synthetic Biology

Yin Hoon Chew, Lucia Marucci^*

^*Corresponding author for this work

Mathematics

Research output: Chapter in Book/Report/Conference proceeding › Chapter (peer-reviewed) › peer-review

Abstract

Mathematical modeling plays a vital role in mammalian synthetic biology by providing a framework to design and optimize design circuits and engineered bioprocesses, predict their behavior, and guide experimental design. Here, we review recent models used in the literature, considering mathematical frameworks at the molecular, cellular, and system levels. We report key challenges in the field and discuss opportunities for genome-scale models, machine learning, and cybergenetics to expand the capabilities of model-driven mammalian cell biodesign.

Original language	English
Title of host publication	Mammalian Synthetic Systems
Editors	Francesca Ceroni, Karen Polizzi
Place of Publication	New York
Publisher	Humana Press
Pages	71–84
ISBN (Electronic)	9781071637180
ISBN (Print)	9781071637173
DOIs	https://doi.org/10.1007/978-1-0716-3718-0_6
Publication status	Published - 6 Mar 2024

Publication series

Name	Methods in Molecular Biology
Publisher	Humana
Volume	2774
ISSN (Print)	1064-3745
ISSN (Electronic)	1940-6029

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Cite this

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abstract = "Mathematical modeling plays a vital role in mammalian synthetic biology by providing a framework to design and optimize design circuits and engineered bioprocesses, predict their behavior, and guide experimental design. Here, we review recent models used in the literature, considering mathematical frameworks at the molecular, cellular, and system levels. We report key challenges in the field and discuss opportunities for genome-scale models, machine learning, and cybergenetics to expand the capabilities of model-driven mammalian cell biodesign.",

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AB - Mathematical modeling plays a vital role in mammalian synthetic biology by providing a framework to design and optimize design circuits and engineered bioprocesses, predict their behavior, and guide experimental design. Here, we review recent models used in the literature, considering mathematical frameworks at the molecular, cellular, and system levels. We report key challenges in the field and discuss opportunities for genome-scale models, machine learning, and cybergenetics to expand the capabilities of model-driven mammalian cell biodesign.

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A2 - Polizzi, Karen

PB - Humana Press

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Mechanistic Model-Driven Biodesign in Mammalian Synthetic Biology

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