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Joining and decomposing reaction networks

Abstract:
In systems and synthetic biology, much research has focused on the behavior and design of single pathways, while, more recently, experimental efforts have focused on how cross-talk (coupling two or more pathways) or inhibiting molecular function (isolating one part of the pathway) affects systems-level behavior. However, the theory for tackling these larger systems in general has lagged behind. Here, we analyze how joining networks (e.g., cross-talk) or decomposing networks (e.g., inhibition or knock-outs) affects three properties that reaction networks may possess—identifiability (recoverability of parameter values from data), steady-state invariants (relationships among species concentrations at steady state, used in model selection), and multistationarity (capacity for multiple steady states, which correspond to multiple cell decisions). Specifically, we prove results that clarify, for a network obtained by joining two smaller networks, how properties of the smaller networks can be inferred from or can imply similar properties of the original network. Our proofs use techniques from computational algebraic geometry, including elimination theory and differential algebra.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1007/s00285-020-01477-y

Authors

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Institution:
University of Oxford
Division:
MPLS
Department:
Mathematical Institute
Oxford college:
St Cross College
Role:
Author


Publisher:
Springer
Journal:
Journal of Mathematical Biology More from this journal
Volume:
80
Issue:
6
Pages:
1683–1731
Publication date:
2020-03-02
Acceptance date:
2020-01-27
DOI:
EISSN:
1432-1416
ISSN:
0303-6812


Language:
English
Keywords:
Pubs id:
1084201
Local pid:
pubs:1084201
Deposit date:
2020-01-31
ARK identifier:

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