Title:
Canonical Modeling as a Tool in Metabolic Engineering
Canonical Modeling as a Tool in Metabolic Engineering
Authors
Voit, Eberhard O.
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Abstract
A growing branch of metabolic engineering uses mathematical pathway models for the development of
strategies for optimizing yield in microbes. The use of such models is necessary because the production
pathways are often complex, both in structure and in regulation. For reasons of simplicity, many
metabolic engineers use stoichiometric and flux balance models. However, these models ignore cellular
regulation. As an alternative, I will discuss canonical models within the modeling framework of
Biochemical Systems Theory (BST) as good default representations of fully regulated pathway systems.
The presentation will begin with a general introduction to BST, provide some representative examples,
and then focus on two questions of optimization. The first concerns the actual optimization of BST
models toward yield improvements, which can be formulated as a single linear program or as a series of
linear programs. The second type of optimization addresses the de novo design and estimation of BST
models from biological data. Of special interest here is the use of in vivo NMR data that characterize time
trends in microbial metabolic profiles in a non-invasive fashion. As a specific example I will discuss the
production of lactate and other compounds in the bacterium Lactococcus lactis, which is widely used in
the food and dairy industry.
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Date Issued
2008-11-12
Extent
62:31 minutes
Resource Type
Moving Image
Resource Subtype
Lecture