Challenges in horizontal model integration

BackgroundSystems Biology has motivated dynamic models of important intracellular processes at the pathway level, for example, in signal transduction and cell cycle control. To answer important biomedical questions, however, one has to go beyond the study of isolated pathways towards the joint study of interacting signaling pathways or the joint study of signal transduction and cell cycle control. Thereby the reuse of established models is preferable, as it will generally reduce the modeling effort and increase the acceptance of the combined model in the field.ResultsObtaining a combined model can be challenging, especially if the submodels are large and/or come from different working groups (as is generally the case, when models stored in established repositories are used). To support this task, we describe a semi-automatic workflow based on established software tools. In particular, two frequent challenges are described: identification of the overlap and subsequent (re)parameterization of the integrated model.ConclusionsThe reparameterization step is crucial, if the goal is to obtain a model that can reproduce the data explained by the individual models. For demonstration purposes we apply our workflow to integrate two signaling pathways (EGF and NGF) from the BioModels Database.

[1]  M. Ashburner,et al.  Gene Ontology: tool for the unification of biology , 2000, Nature Genetics.

[2]  Hiroaki Kitano,et al.  The systems biology markup language (SBML): a medium for representation and exchange of biochemical network models , 2003, Bioinform..

[3]  Jacky L. Snoep,et al.  Web-based kinetic modelling using JWS Online , 2004, Bioinform..

[4]  Cathy H. Wu,et al.  The Universal Protein Resource (UniProt) , 2005, Nucleic Acids Res..

[5]  Hugh D. Spence,et al.  Minimum information requested in the annotation of biochemical models (MIRIAM) , 2005, Nature Biotechnology.

[6]  Mats Jirstrand,et al.  Systems biology Systems Biology Toolbox for MATLAB : a computational platform for research in systems biology , 2006 .

[7]  Nicolas Le Novère,et al.  Model storage, exchange and integration , 2006, BMC neuroscience.

[8]  Mudita Singhal,et al.  COPASI - a COmplex PAthway SImulator , 2006, Bioinform..

[9]  Nicolas Le Novère,et al.  SBMLeditor: effective creation of models in the Systems Biology Markup Language (SBML) , 2007, BMC Bioinformatics.

[10]  Jacky L. Snoep,et al.  BioModels Database: a free, centralized database of curated, published, quantitative kinetic models of biochemical and cellular systems , 2005, Nucleic Acids Res..

[11]  Michael Hucka,et al.  Systems Biology Markup Language (SBML) Level 2: Structures and Facilities for Model Definitions , 2007, WWW 2007.

[12]  Wolfram Liebermeister Validity and Combination of Biochemical Models , 2008 .

[13]  P. Hunter,et al.  Bioinformatics, multiscale modeling and the IUPS Physiome Project , 2008, Briefings Bioinform..

[14]  Peter J. Hunter,et al.  The CellML Model Repository , 2008, Bioinform..

[15]  Frank T. Bergmann,et al.  Standards and ontologies in computational systems biology. , 2008, Essays in biochemistry.

[16]  Jens Timmer,et al.  Dynamical modeling and multi-experiment fitting with PottersWheel , 2008, Bioinform..

[17]  Michael Darsow,et al.  ChEBI: a database and ontology for chemical entities of biological interest , 2007, Nucleic Acids Res..

[18]  P. Hunter,et al.  Databases and ontologies The CellML Model Repository , 2008 .

[19]  Sarala M. Wimalaratne,et al.  The Systems Biology Graphical Notation , 2009, Nature Biotechnology.

[20]  David P. Nickerson,et al.  An overview of the CellML API and its implementation , 2010, BMC Bioinformatics.

[21]  Ernst Dieter Gilles,et al.  ProMoT: modular modeling for systems biology , 2009, Bioinform..

[22]  James R Faeder,et al.  Rule-based modeling of biochemical systems with BioNetGen. , 2009, Methods in molecular biology.

[23]  Nicolas Le Novère,et al.  Systems Biology Graphical Notation: Process Description language Level 1 , 2009 .

[24]  Theo Arts,et al.  Advances in Semantic Representation for Multiscale Biosimulation: A Case Study in Merging Models , 2009, Pacific Symposium on Biocomputing.

[25]  Ela Hunt,et al.  Biochemical network matching and composition , 2010, EDBT '10.

[26]  Edda Klipp,et al.  Annotation and merging of SBML models with semanticSBML , 2010, Bioinform..

[27]  Hiroyuki Kubota,et al.  Decoupling of Receptor and Downstream Signals in the Akt Pathway by Its Low-Pass Filter Characteristics , 2010, Science Signaling.

[28]  María Martín,et al.  The Universal Protein Resource (UniProt) in 2010 , 2010 .

[29]  John J Tyson,et al.  Model Composition for Macromolecular Regulatory Networks , 2010, IEEE/ACM Transactions on Computational Biology and Bioinformatics.

[30]  Baris E. Suzek,et al.  The Universal Protein Resource (UniProt) in 2010 , 2009, Nucleic Acids Res..

[31]  Y.-H. Huang,et al.  PINT: Pathways INtegration Tool , 2010, Nucleic Acids Res..

[32]  V. A. Shiva Ayyadurai,et al.  CytoSolve: A Scalable Computational Method for Dynamic Integration of Multiple Molecular Pathway Models , 2010, Cellular and molecular bioengineering.

[33]  Michael Hucka,et al.  SBML Level 3 Package Specification: Hierarchical Model Composition, Version 1 Draft , 2011 .

[34]  Michel Dumontier,et al.  Controlled vocabularies and semantics in systems biology , 2011, Molecular systems biology.

[35]  Neil Swainston,et al.  Sustainable model building the role of standards and biological semantics. , 2011, Methods in enzymology.

[36]  Gary D Bader,et al.  BioPAX – A community standard for pathway data sharing , 2010, Nature Biotechnology.

[37]  Carsten Conradi,et al.  The Process-Interaction-Model: a common representation of rule-based and logical models allows studying signal transduction on different levels of detail , 2012, BMC Bioinformatics.

[38]  A. Henney,et al.  The virtual liver: a multidisciplinary, multilevel challenge for systems biology , 2012, Wiley interdisciplinary reviews. Systems biology and medicine.

[39]  Thomas Maiwald,et al.  Mathematical modeling of biochemical systems with PottersWheel. , 2012, Methods in molecular biology.

[40]  Nicolas Le Novère,et al.  Identifiers.org and MIRIAM Registry: community resources to provide persistent identification , 2011, Nucleic Acids Res..

[41]  Gultekin Özsoyoglu,et al.  An online model composition tool for system biology models , 2013, BMC Systems Biology.

[42]  John H. Gennari,et al.  A Reappraisal of How to Build Modular, Reusable Models of Biological Systems , 2014, PLoS Comput. Biol..

[43]  Susumu Goto,et al.  Data, information, knowledge and principle: back to metabolism in KEGG , 2013, Nucleic Acids Res..