Add to ORKGBackground: Metabolic pathway analysis has been recognized as a central approach to the structural analysis of metabolic networks. The concept of elementary (flux) modes provides a rigorous formalism to describe and assess pathways and has proven to be valuable for many applications. However, computing elementary modes is a hard computational task. In recent years we assisted in a multiplication of algorithms dedicated to it. We require a summarizing point of view and a continued improvement of the current methods. Results: We show that computing the set of elementary modes is equivalent to computing the set of extreme rays of a convex cone. This standard mathematical representation provides a unified framework that encompasses the most p...
Constraint-based approaches recently brought new insight into our understanding of metabolism. By ma...
Abstract. Elementary Flux Modes (EFMs) have been claimed as one of the most promising approaches for...
Motivation: The analysis of structure, pathways and flux distributions in metabolic networks has bec...
Background: Metabolic pathway analysis is a powerful tool to study the metabolic structure of a cell...
Elementary flux mode analysis is a promising approach for a pathway-oriented perspective of metaboli...
Elementary Flux Modes (EFMs) have been claimed as one of the most promising approaches for pathway a...
Metabolic pathway analysis is becoming increasingly important for assessing inherent network propert...
Background: Analysis of elementary modes (EMs) is proven to be a powerful constraint-based method in...
Abstract Background Analysis of elementary modes (EMs) is proven to be a powerful constraint-based m...
Motivation: Elementary flux modes (EFMs)—non-decomposable minimal pathways—are commonly accepted too...
Metabolic pathway analysis is becoming increasingly important for assessing inherent network propert...
Elementary flux mode analysis is a promising approach for a pathway-oriented perspective of metaboli...
Metabolic pathway analysis is becoming increasingly important for assessing inherent network propert...
xii, 111 p. : ill. (some col.) ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577M ISE 2011 ChanThe ap...
University of Minnesota Ph.D. dissertation. Ph.D. May 2013. Major:Computer science. Advisor: Dr. Dan...
Constraint-based approaches recently brought new insight into our understanding of metabolism. By ma...
Abstract. Elementary Flux Modes (EFMs) have been claimed as one of the most promising approaches for...
Motivation: The analysis of structure, pathways and flux distributions in metabolic networks has bec...
Background: Metabolic pathway analysis is a powerful tool to study the metabolic structure of a cell...
Elementary flux mode analysis is a promising approach for a pathway-oriented perspective of metaboli...
Elementary Flux Modes (EFMs) have been claimed as one of the most promising approaches for pathway a...
Metabolic pathway analysis is becoming increasingly important for assessing inherent network propert...
Background: Analysis of elementary modes (EMs) is proven to be a powerful constraint-based method in...
Abstract Background Analysis of elementary modes (EMs) is proven to be a powerful constraint-based m...
Motivation: Elementary flux modes (EFMs)—non-decomposable minimal pathways—are commonly accepted too...
Metabolic pathway analysis is becoming increasingly important for assessing inherent network propert...
Elementary flux mode analysis is a promising approach for a pathway-oriented perspective of metaboli...
Metabolic pathway analysis is becoming increasingly important for assessing inherent network propert...
xii, 111 p. : ill. (some col.) ; 30 cm.PolyU Library Call No.: [THS] LG51 .H577M ISE 2011 ChanThe ap...
University of Minnesota Ph.D. dissertation. Ph.D. May 2013. Major:Computer science. Advisor: Dr. Dan...
Constraint-based approaches recently brought new insight into our understanding of metabolism. By ma...
Abstract. Elementary Flux Modes (EFMs) have been claimed as one of the most promising approaches for...
Motivation: The analysis of structure, pathways and flux distributions in metabolic networks has bec...