Difference between revisions of "CL:Aligning species-specific anatomy ontologies with CL"

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(TODO: add oboedit function to do this)
 
(TODO: add oboedit function to do this)
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The script can be downloaded here:
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http://geneontology.cvs.sourceforge.net/geneontology/go-dev/go-perl/scripts/obo-promote-dbxref-to-intersection.pl?view=log
  
 
Here is a section of the output:
 
Here is a section of the output:
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   relationship: start ZFS:0000026 ! Segmentation:14-19 somites
 
   relationship: start ZFS:0000026 ! Segmentation:14-19 somites
  
We can feed the new file to the reasoner
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All the script does is add intersection_of lines, which constitute the genus-differentia definition
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We can feed the new file (zfa_xp.obo) to the reasoner
  
 
=Using the reasoner=
 
=Using the reasoner=

Revision as of 16:26, 23 August 2006

The OBO Cell ontology is intended to be a species-neutral reference ontology.

Species-centric anatomy ontologies may want to 'extend' CL with subtypes of cells that are specific to certain types of organism - the discussion on where the dividing line between what goes in a SCA (species-centric anatomy) ontology and CL is still open.

In addition, SCA ontology maintainers may wish to 'replicate' CL terms in their own ontology. Why? The canonical example here is:

 Purkinje_cell part_of cerebellum

This assertion is universally true (all Purkinje cells are part_of some cerebellum at all times). The fact that not all organisms have a cerebellum is irrelevant. See RO:part_of for details.

Here is the problem. We have a species-neutral cell ontology with Purkinje_cell (CL:0000121), but we have no species-neutral anatomy ontology with brain parts. We do have for example the zebrafish anatomy ZFA:Main_Page which has ZFA:0000100 cerebellum. So we can say:

 CL:0000121 part_of ZFA:0000100

However, this is incorrect as not all Purkinje cells are part of fish cerebellums. Whilst it is not explicitly stated whether the definition of ZFA:0000100 is scoped to any particular organism type, we get into problems if we assume the definitions apply to all organisms in which the type is instantiated, as there will be other links in ZFA that do not hold for all organisms.

If ZFA were to include a term for Purkinje cell, say ZFA:9999999, we could say:

 ZFA:999999 part_of ZFA:0000100

SCA curators may have other reasons for replicating CL terms (or terms from other species-neutral reference ontologies like GO) in their ontology.

It's important that SCAs stay in sync with species neutral resources like CL and CARO CARO:Main_Page. This can be done automatically. First the SCA editors must maintain links to the CL; then they can use a reasoner to keep the ontologies in sync.

Maintaining links to CL

The SCA editors have two options here. They can 'explicitly define' SCA specific types in terms of CL types, or they can use a more lightweight xref approach

Explicit definitions

For example, ZFA:Purkinje_cell could be defined as "A CL:Purkinje_cell 'which' is part_of a Zebrafish". This is known as a genus-differentia definition (note: genus is used in its non-linnaean sense here)

This definition must be entered via the oboedit cross-product plugin tool. (The core/generic/genus term would be "CL:Purkinje cell" and the discriminating chacteristics would be "part_of a Zebrafish"). Here is what this would look like in obo 1.2 format:

 [Term]
 id: ZFA:0000134
 name: neurons
 namespace: zebrafish_anatomy
 xref_analog: ZFIN:ZDB-ANAT-010921-563
 intersection_of: CL:0000540
 intersection_of: part_of NCBITax:7955
 relationship: end ZFS:0000044 ! Adult
 relationship: part_of ZFA:0000396 ! nervous system
 relationship: start ZFS:0000026 ! Segmentation:14-19 somites

You will also need a file with the appropriate taxonomic type in it - you can use the whole ncbi_taxonomy.obo file, or you can just keep a separate file with this:

 [Term]
 id: NCBITax:7955
 name: Danio rerio

We are now ready to feed this to the reasoner

Using xrefs

The alternate, more lightweight option is to simply maintain xref links to CL. ZFA are doing this anyway (and this part could be automated via simple text-matching). These are "special" xref links in that they have additional implicit meaning. Here is an example of the underlying obo file:

 [Term]
 id: ZFA:0000134
 name: neurons
 namespace: zebrafish_anatomy
 xref_analog: ZFIN:ZDB-ANAT-010921-563
 xref_analog: CL:0000540
 relationship: end ZFS:0000044 ! Adult
 relationship: part_of ZFA:0000396 ! nervous system
 relationship: start ZFS:0000026 ! Segmentation:14-19 somites

The only difference is the addition of an extra xref line.

This xref isn't enough information for the oboedit reasoner to know that the two ontologies must line up. You must convert the lightweight obo file to an obo file that contains the genus-differentia definitions. This can be done with a simple standalone script:

 obo-promote-dbxref-to-intersection.pl --idspace CL -d part_of NCBITax:7955 zfa.obo > zfa_xp.obo

(TODO: add oboedit function to do this)

The script can be downloaded here: http://geneontology.cvs.sourceforge.net/geneontology/go-dev/go-perl/scripts/obo-promote-dbxref-to-intersection.pl?view=log

Here is a section of the output:

 [Term]
 id: ZFA:0000134
 name: neurons
 namespace: zebrafish_anatomy
 xref_analog: ZFIN:ZDB-ANAT-010921-563
 xref_analog: CL:0000540
 intersection_of: CL:0000540
 intersection_of: part_of NCBITax:7955
 relationship: end ZFS:0000044 ! Adult
 relationship: part_of ZFA:0000396 ! nervous system
 relationship: start ZFS:0000026 ! Segmentation:14-19 somites

All the script does is add intersection_of lines, which constitute the genus-differentia definition

We can feed the new file (zfa_xp.obo) to the reasoner

Using the reasoner

This section assumes use of the oboedit reasoner. See below for other reasoners

Load up 3 files into oboedit

- zfa_xp.obo (or whatever the SCA is) -- must include intersection_of lines (see above) - cell.obo - zf_taxonomy.obo

See above for the taxonomy file. The only thing that needs to be there is an entry for ZFA:7955. Having the full taxonomy may slow down the reasoner (TODO:test) - however, we may want to try this for projects such as CToL, where we want to reason over multiple related species - but let's keep this simple for now.

Turn on the reasoner.

Zfa cell align.jpg