Title:
Double and multiple knockout simulations for genome-scale metabolic network
reconstructions
Author(s):
Goldstein, Yaron A. B.; Bockmayr, Alexander
Year of publication:
2015
Available Date:
2015-05-21T20:29:14.939Z
Abstract:
Constraint-based modeling of genome-scale metabolic network reconstructions
has become a widely used approach in computational biology. Flux coupling
analysis is a constraint-based method that analyses the impact of single
reaction knockouts on other reactions in the network. We present an extension
of flux coupling analysis for double and multiple gene or reaction knockouts,
and develop corresponding algorithms for an in silico simulation. To evaluate
our method, we perform a full single and double knockout analysis on a
selection of genome-scale metabolic network reconstructions and compare the
results.
Keywords:
constraint-based modeling
metabolic network
reaction knockout
gene knockout
DDC-Classification:
570 Biowissenschaften; Biologie
Publication Type:
Wissenschaftlicher Artikel
Also published in:
Algorithms for Molecular Biology (2015) 10:1
URL of the Original Publication:
DOI of the Original Publication:
Department/institution:
Mathematik und Informatik
Institut für Mathematik
Comments:
Gefördert durch die DFG und den Open Access Publikationsfonds der Freien
Universität Berlin.