An ontology of human developmental anatomy

Human developmental anatomy has been organized as structured lists of the major constituent tissues present during each of Carnegie stages 1–20 (E1–E50, ∼8500 anatomically defined tissue items). For each of these stages, the tissues have been organized as a hierarchy in which an individual tissue is...

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Veröffentlicht in:	Journal of anatomy 2003-10, Vol.203 (4), p.347-355
Hauptverfasser:	Hunter, Amy, Kaufman, Matthew H., McKay, Angus, Baldock, Richard, Simmen, Martin W., Bard, Jonathan B. L.
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Sprache:	eng
Schlagworte:	Databases, Factual Embryo, Mammalian - anatomy & histology Embryonic and Fetal Development - physiology Gestational Age Humans Information Storage and Retrieval Original
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container_title	Journal of anatomy
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creator	Hunter, Amy Kaufman, Matthew H. McKay, Angus Baldock, Richard Simmen, Martin W. Bard, Jonathan B. L.
description	Human developmental anatomy has been organized as structured lists of the major constituent tissues present during each of Carnegie stages 1–20 (E1–E50, ∼8500 anatomically defined tissue items). For each of these stages, the tissues have been organized as a hierarchy in which an individual tissue is catalogued as part of a larger tissue. Such a formal representation of knowledge is known as an ontology and this anatomical ontology can be used in databases to store, organize and search for data associated with the tissues present at each developmental stage. The anatomical data for compiling these hierarchies comes from the literature, from observations on embryos in the Patten Collection (Ann Arbor, MI, USA) and from comparisons with mouse tissues at similar stages of development. The ontology is available in three versions. The first gives hierarchies of the named tissues present at each Carnegie stage (http://www.ana.ed.ac.uk/anatomy/database/humat/) and is intended to help analyse both normal and abnormal human embryos; it carries hyperlinked notes on some ambiguities in the literature that have been clarified through analysing sectioned material. The second contains many additional subsidiary tissue domains and is intended for handling tissue‐associated data (e.g. gene‐expression) in a database. This version is available at the humat site and at http://genex.hgu.mrc.ac.uk/Resources/intro.html/), and has been designed to be interoperable with the ontology for mouse developmental anatomy, also available at the genex site. The third gives the second version in GO ontology syntax (with standard IDs for each tissue) and can be downloaded from both the genex and the Open Biological Ontology sites (http://obo.sourceforge.net/)
doi_str_mv	10.1046/j.1469-7580.2003.00224.x
format	Article
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L.</creatorcontrib><title>An ontology of human developmental anatomy</title><title>Journal of anatomy</title><addtitle>J Anat</addtitle><description>Human developmental anatomy has been organized as structured lists of the major constituent tissues present during each of Carnegie stages 1–20 (E1–E50, ∼8500 anatomically defined tissue items). For each of these stages, the tissues have been organized as a hierarchy in which an individual tissue is catalogued as part of a larger tissue. Such a formal representation of knowledge is known as an ontology and this anatomical ontology can be used in databases to store, organize and search for data associated with the tissues present at each developmental stage. The anatomical data for compiling these hierarchies comes from the literature, from observations on embryos in the Patten Collection (Ann Arbor, MI, USA) and from comparisons with mouse tissues at similar stages of development. The ontology is available in three versions. The first gives hierarchies of the named tissues present at each Carnegie stage (http://www.ana.ed.ac.uk/anatomy/database/humat/) and is intended to help analyse both normal and abnormal human embryos; it carries hyperlinked notes on some ambiguities in the literature that have been clarified through analysing sectioned material. The second contains many additional subsidiary tissue domains and is intended for handling tissue‐associated data (e.g. gene‐expression) in a database. This version is available at the humat site and at http://genex.hgu.mrc.ac.uk/Resources/intro.html/), and has been designed to be interoperable with the ontology for mouse developmental anatomy, also available at the genex site. 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subjects	Databases, Factual Embryo, Mammalian - anatomy & histology Embryonic and Fetal Development - physiology Gestational Age Humans Information Storage and Retrieval Original
title	An ontology of human developmental anatomy
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