KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database

KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database

<p>Abstract</p> <p>Background</p> <p>The KEGG Pathway database is a valuable collection of metabolic pathway maps. Nevertheless, the production of simulation capable metabolic networks from KEGG Pathway data is a challenging complicated work, regardless the already deve...

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Main Authors: Kolisis Fragiskos N, Maglogiannis Ilias, Chatziioannou Aristotelis, Kanaris Ioannis, Moutselos Konstantinos
Format: Article
Language:English
Published: BMC 2009-10-01
Series:BMC Bioinformatics
Online Access:http://www.biomedcentral.com/1471-2105/10/324
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spelling doaj-d00375a5fb3a4391b20797f7cd4f7c152020-11-25T02:57:43ZengBMCBMC Bioinformatics1471-21052009-10-0110132410.1186/1471-2105-10-324KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways databaseKolisis Fragiskos NMaglogiannis IliasChatziioannou AristotelisKanaris IoannisMoutselos Konstantinos<p>Abstract</p> <p>Background</p> <p>The KEGG Pathway database is a valuable collection of metabolic pathway maps. Nevertheless, the production of simulation capable metabolic networks from KEGG Pathway data is a challenging complicated work, regardless the already developed tools for this scope. Originally used for illustration purposes, KEGG Pathways through KGML (KEGG Markup Language) files, can provide complete reaction sets and introduce species versioning, which offers advantages for the scope of cellular metabolism simulation modelling. In this project, KEGGconverter is described, implemented also as a web-based application, which uses as source KGML files, in order to construct integrated pathway SBML models fully functional for simulation purposes.</p> <p>Results</p> <p>A case study of the integration of six human metabolic pathways from KEGG depicts the ability of KEGGconverter to automatically produce merged and converted to SBML fully functional pathway models, enhanced with default kinetics. The suitability of the developed tool is demonstrated through a comparison with other state-of-the art relevant software tools for the same data fusion and conversion tasks, thus illustrating the problems and the relevant workflows. Moreover, KEGGconverter permits the inclusion of additional reactions in the resulting model which represent flux cross-talk with neighbouring pathways, providing in this way improved simulative accuracy. These additional reactions are introduced by exploiting relevant semantic information for the elements of the KEGG Pathways database. The architecture and functionalities of the web-based application are presented.</p> <p>Conclusion</p> <p>KEGGconverter is capable of producing integrated analogues of metabolic pathways appropriate for simulation tasks, by inputting only KGML files. The web application acts as a user friendly shell which transparently enables the automated biochemically correct pathway merging, conversion to SBML format, proper renaming of the species, and insertion of default kinetic properties for the pertaining reactions. The tool is available at: <url>http://www.grissom.gr/keggconverter</url></p> http://www.biomedcentral.com/1471-2105/10/324
collection DOAJ
language English
format Article
sources DOAJ
author Kolisis Fragiskos N
Maglogiannis Ilias
Chatziioannou Aristotelis
Kanaris Ioannis
Moutselos Konstantinos
spellingShingle Kolisis Fragiskos N
Maglogiannis Ilias
Chatziioannou Aristotelis
Kanaris Ioannis
Moutselos Konstantinos
KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database
BMC Bioinformatics
author_facet Kolisis Fragiskos N
Maglogiannis Ilias
Chatziioannou Aristotelis
Kanaris Ioannis
Moutselos Konstantinos
author_sort Kolisis Fragiskos N
title KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database
title_short KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database
title_full KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database
title_fullStr KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database
title_full_unstemmed KEGGconverter: a tool for the in-silico modelling of metabolic networks of the KEGG Pathways database
title_sort keggconverter: a tool for the in-silico modelling of metabolic networks of the kegg pathways database
publisher BMC
series BMC Bioinformatics
issn 1471-2105
publishDate 2009-10-01
description <p>Abstract</p> <p>Background</p> <p>The KEGG Pathway database is a valuable collection of metabolic pathway maps. Nevertheless, the production of simulation capable metabolic networks from KEGG Pathway data is a challenging complicated work, regardless the already developed tools for this scope. Originally used for illustration purposes, KEGG Pathways through KGML (KEGG Markup Language) files, can provide complete reaction sets and introduce species versioning, which offers advantages for the scope of cellular metabolism simulation modelling. In this project, KEGGconverter is described, implemented also as a web-based application, which uses as source KGML files, in order to construct integrated pathway SBML models fully functional for simulation purposes.</p> <p>Results</p> <p>A case study of the integration of six human metabolic pathways from KEGG depicts the ability of KEGGconverter to automatically produce merged and converted to SBML fully functional pathway models, enhanced with default kinetics. The suitability of the developed tool is demonstrated through a comparison with other state-of-the art relevant software tools for the same data fusion and conversion tasks, thus illustrating the problems and the relevant workflows. Moreover, KEGGconverter permits the inclusion of additional reactions in the resulting model which represent flux cross-talk with neighbouring pathways, providing in this way improved simulative accuracy. These additional reactions are introduced by exploiting relevant semantic information for the elements of the KEGG Pathways database. The architecture and functionalities of the web-based application are presented.</p> <p>Conclusion</p> <p>KEGGconverter is capable of producing integrated analogues of metabolic pathways appropriate for simulation tasks, by inputting only KGML files. The web application acts as a user friendly shell which transparently enables the automated biochemically correct pathway merging, conversion to SBML format, proper renaming of the species, and insertion of default kinetic properties for the pertaining reactions. The tool is available at: <url>http://www.grissom.gr/keggconverter</url></p>
url http://www.biomedcentral.com/1471-2105/10/324
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AT kanarisioannis keggconverteratoolfortheinsilicomodellingofmetabolicnetworksofthekeggpathwaysdatabase
AT moutseloskonstantinos keggconverteratoolfortheinsilicomodellingofmetabolicnetworksofthekeggpathwaysdatabase
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