A basis for a visual language for describing, archiving and analyzing functional models of complex biological systems

Background: We propose that a computerized, internet-based graphical description language for systems biology will be essential for describing, archiving and analyzing complex problems of biological function in health and disease.

      Results:
      We outline here a conceptual basis for designing such a language and describe BioD, a prototype language that we have used to explore the utility and feasibility of this approach to functional biology. Using example models, we demonstrate that a rather limited lexicon of icons and arrows suffices to describe complex cell-biological systems as discrete models that can be posted and linked on the internet.


      Conclusions:
      Given available computer and internet technology, BioD may be implemented as an extensible, multidisciplinary language that can be used to archive functional systems knowledge and be extended to support both qualitative and quantitative functional analysis.

Data and Resources

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accessLevel	public
bureauCode	{009:25}
catalog_@context	https://project-open-data.cio.gov/v1.1/schema/catalog.jsonld
catalog_@id	https://healthdata.gov/data.json
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catalog_describedBy	https://project-open-data.cio.gov/v1.1/schema/catalog.json
identifier	https://healthdata.gov/api/views/t7fu-e76f
issued	2025-07-13
landingPage	https://healthdata.gov/d/t7fu-e76f
modified	2025-09-06
programCode	{009:048}
publisher	National Institutes of Health
resource-type	Dataset
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isopen	False
license_id	notspecified
license_title	License not specified
maintainer	NIH
maintainer_email	info@nih.gov
metadata_created	2025-09-23T15:11:50.307537
metadata_modified	2025-09-23T15:11:50.307545
notes	Background: We propose that a computerized, internet-based graphical description language for systems biology will be essential for describing, archiving and analyzing complex problems of biological function in health and disease. Results: We outline here a conceptual basis for designing such a language and describe BioD, a prototype language that we have used to explore the utility and feasibility of this approach to functional biology. Using example models, we demonstrate that a rather limited lexicon of icons and arrows suffices to describe complex cell-biological systems as discrete models that can be posted and linked on the internet. Conclusions: Given available computer and internet technology, BioD may be implemented as an extensible, multidisciplinary language that can be used to archive functional systems knowledge and be extended to support both qualitative and quantitative functional analysis.
num_resources	1
num_tags	13
title	A basis for a visual language for describing, archiving and analyzing functional models of complex biological systems