Software that goes with the flow in systems biology
<p>Abstract</p> <p>A recent article in <it>BMC Bioinformatics </it>describes new advances in workflow systems for computational modeling in systems biology. Such systems can accelerate, and improve the consistency of, modeling through automation not only at the simulati...
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doaj-779fb0fd7d2e43c5ba663be17fffb1912020-11-24T23:27:17ZengBMCBMC Biology1741-70072010-11-018114010.1186/1741-7007-8-140Software that goes with the flow in systems biologyLe Novère NicolasHucka Michael<p>Abstract</p> <p>A recent article in <it>BMC Bioinformatics </it>describes new advances in workflow systems for computational modeling in systems biology. Such systems can accelerate, and improve the consistency of, modeling through automation not only at the simulation and results-production stages, but also at the model-generation stage. Their work is a harbinger of the next generation of more powerful software for systems biologists.</p> <p>See research article: <url>http://www.biomedcentral.com/1471-2105/11/582/abstract/</url></p> <p/> <p>Ever since the rise of systems biology at the end of the last century, mathematical representations of biological systems and their activities have flourished. They are being used to describe everything from biomolecular networks, such as gene regulation, metabolic processes and signaling pathways, at the lowest biological scales, to tissue growth and differentiation, drug effects, environmental interactions, and more. A very active area in the field has been the development of techniques that facilitate the construction, analysis and dissemination of computational models. The heterogeneous, distributed nature of most data resources today has increased not only the opportunities for, but also the difficulties of, developing software systems to support these tasks. The work by Li <it>et al</it>. <abbrgrp><abbr bid="B1">1</abbr></abbrgrp> published in <it>BMC Bioinformatics </it>represents a promising evolutionary step forward in this area. They describe a workflow system - a visual software environment enabling a user to create a connected set of operations to be performed sequentially using seperate tools and resources. Their system uses third-party data resources accessible over the Internet to elaborate and parametrize (that is, assign parameter values to) computational models in a semi-automated manner. In Li <it>et al</it>.'s work, the authors point towards a promising future for computational modeling and simultaneously highlight some of the difficulties that need to be overcome before we get there.</p> http://www.biomedcentral.com/1741-7007/8/140 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Le Novère Nicolas Hucka Michael |
| spellingShingle |
Le Novère Nicolas Hucka Michael Software that goes with the flow in systems biology BMC Biology |
| author_facet |
Le Novère Nicolas Hucka Michael |
| author_sort |
Le Novère Nicolas |
| title |
Software that goes with the flow in systems biology |
| title_short |
Software that goes with the flow in systems biology |
| title_full |
Software that goes with the flow in systems biology |
| title_fullStr |
Software that goes with the flow in systems biology |
| title_full_unstemmed |
Software that goes with the flow in systems biology |
| title_sort |
software that goes with the flow in systems biology |
| publisher |
BMC |
| series |
BMC Biology |
| issn |
1741-7007 |
| publishDate |
2010-11-01 |
| description |
<p>Abstract</p> <p>A recent article in <it>BMC Bioinformatics </it>describes new advances in workflow systems for computational modeling in systems biology. Such systems can accelerate, and improve the consistency of, modeling through automation not only at the simulation and results-production stages, but also at the model-generation stage. Their work is a harbinger of the next generation of more powerful software for systems biologists.</p> <p>See research article: <url>http://www.biomedcentral.com/1471-2105/11/582/abstract/</url></p> <p/> <p>Ever since the rise of systems biology at the end of the last century, mathematical representations of biological systems and their activities have flourished. They are being used to describe everything from biomolecular networks, such as gene regulation, metabolic processes and signaling pathways, at the lowest biological scales, to tissue growth and differentiation, drug effects, environmental interactions, and more. A very active area in the field has been the development of techniques that facilitate the construction, analysis and dissemination of computational models. The heterogeneous, distributed nature of most data resources today has increased not only the opportunities for, but also the difficulties of, developing software systems to support these tasks. The work by Li <it>et al</it>. <abbrgrp><abbr bid="B1">1</abbr></abbrgrp> published in <it>BMC Bioinformatics </it>represents a promising evolutionary step forward in this area. They describe a workflow system - a visual software environment enabling a user to create a connected set of operations to be performed sequentially using seperate tools and resources. Their system uses third-party data resources accessible over the Internet to elaborate and parametrize (that is, assign parameter values to) computational models in a semi-automated manner. In Li <it>et al</it>.'s work, the authors point towards a promising future for computational modeling and simultaneously highlight some of the difficulties that need to be overcome before we get there.</p> |
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http://www.biomedcentral.com/1741-7007/8/140 |
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