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=RO - OBO Relation Ontology=
= Announcement =
The main RO page is located on [http://obofoundry.org/ro The OBO Foundry Website]
OBO_REL has been replaced by RO - the new website and wiki can be found at http://purl.obolibrary.org/obo/ro
You can browse the ontology and get e-mail list details there.
Old material that was previously kept here has been moved to [[RO:Historic Material]]
=Open issues=
There's an RO expert meeting happening in May, 2008. See [[OntologyRelations]]
Note that requests for new terms etc should go in the [http://sourceforge.net/tracker/?group_id=76834&atid=947684 RO tracker]
==Three types of relations==
The OBO Relation Ontology (aka the OBO Relationship Types Ontology) distinguished three families of relations, according to whether they hold between instances, types, or combinations thereof, for example:
*1. '''instance_of''' holding between an instance and a type
*2. '''part_of''' holding between an instance and an instance
*3. ''part_of'' holding between a type and a type
We use bold face to mark out those relational expressions used in ontologies such as GO to represent the relations between the types these ontologies represent.
In the original Genome Biology [http://genomebiology.com/2005/6/5/R46 paper] we focused primarily on defining relations of type 3. in terms of those of types 1. and 2. This was to meet the need among biologists for clear guidance as to what the relational expressions used in ontologies such as GO precisely mean.
In our treatment of relations of types 1. and 2. we focused primarily on picking out certain instance level relations which we fixed on as primitive -- meaning that they are so basic to the relational architecture of reality that they cannot be defined in terms of anything more basic. The primitive relations selected were as follows:
*c '''instance_of''' C '''at''' t - a primitive relation between a continuant instance and a class which it instantiates at a specific time
*p '''instance_of''' P - a primitive relation between a process instance and a class which it instantiates holding independently of time
*c '''part_of''' c1 '''at''' t - a primitive relation between two continuant instances and a time at which the one is part of the other
*p '''part_of''' p1, r '''part_of''' r1 - a primitive relation of parthood, holding independently of time, either between process instances (one a subprocess of the other), or between spatial regions (one a subregion of the other)
*c '''located_in''' r '''at''' t - a primitive relation between a continuant instance, a spatial region which it occupies, and a time
*r '''adjacent_to''' r1 - a primitive relation of proximity between two continuants
*t '''earlier''' t1 - a primitive relation between two times
*c '''derives_from''' c1 - a primitive relation involving two distinct material continuants c and c1
*p '''has_participant''' c '''at''' t - a primitive relation between a process, a continuant, and a time
*p '''has_agent''' c at '''t''' - a primitive relation between a process, a continuant and a time at which the continuant is causally active in the process
In proposing new relations (both on the [http://www.bioontology.org/wiki/index.php/RO:Main_Page#Proposed_new_relations wiki] and in the http://sourceforge.net/tracker/?group_id=76834&atid=947684&func=browse Sourceforge Tracker], please specify to which of the three types your proposed relation belongs.
*If it is an instance-level relation, please answer the following questions:
**a. is it already on the list above?
**b. is it primitive in the above-mentioned sense?
*If the answer to both of these questions is no,
**c. can it be defined in terms of the relations on the above list?
*If yes, please supply a definition (an example is provided below)
*If no, please propose also those primitive instance-level relations which would need to be added to the RO in order to define it.
==How to Define an Instance-Level Relation==
First, check whether your proposed relation needs a definition -- perhaps it is primitive (see above).
All definitions specify necessary and sufficient conditions. Thus if we are defining what it is to be an A, then the definition might read, for example:
x is an A =def. x has features F1, F2, F3.
This definition would be correct if and only if everything which has features F1, F2, and F3 is an A, and everything which is an A has features F1, F2, and F3.
For instance-level relations, the definition might read as follows:
x stands in instance-level relation r to y =def. x has features F1, F2, y has features F3, F4, x stands in instance-level relations r1, r2 to y.
For a specific example consider '''preceded_by''', a relation between occurrents (drawn from the RO paper).
With the primitive relations '''has_participant''' and '''earlier''' at our disposal we first define the instance-level relation p '''occurring_at''' t as follows:
p '''occurring_at''' t =def. for some c, p '''has_participant''' c '''at''' t.
We can then define:
c '''exists_at''' t =def. for some p, p '''has_participant''' c '''at''' t
p '''preceded_by''' p1 =def. for all t, t1, if p '''occurring_at''' t and p1 '''occurring_at''' t1, then t1 '''earlier''' t
:t '''first_instant''' p =def.
::p '''occurring_at''' t, and
::for all t1, if t1 '''earlier''' t, then not p '''occurring_at''' t1
:t '''last_instant''' p =def.
::p '''occurring_at''' t and
::for all t1, if t '''earlier''' t1, then not p '''occurring_at''' t1
:p '''immediately_preceded_by''' p1 =def.
::for some t, t '''first_instant''' p and
::t '''last_instant''' p1.
In these terms we can also define the instance-level relation '''has_duration''' proposed by Liju:
:p '''has_duration''' y =def.
::p is an occurrent, and
::for some t1, t1 '''first_instant''' p, and
::for some t2, t2 '''last_instant''' p, and
::for all t, t1 '''earlier''' t and t '''earlier t2''' implies p '''occurring_at''' t [this to ensure that p is continuous; has no gaps],
;; y is the interval (t1,t2).
Here a new functional operator 'the interval ( , )' has been introduced, which generates the name of an interval from a pair of names for times.
==Proposed new type-level relations==
relations between generically dependent continuants and specifically dependent continuants:
* concretizes
* is_concretized_by
* about
* inheres_in
* depends_on
* output_of
* has_input
* has_function
* has_quality
* realization_of
* lacks
The lacks family of relations is discussed at: [http://ontology.buffalo.edu/medo/NegativeFindings.pdf]
The treatment of the derives_from relation has been criticised from an ontological point of view: [http://www.ifomis.uni-saarland.de/Home/DerivationBookVersion1-2.pdf]. Transformation_of is always, by definition a 1-1 relation. The thesis in the original [http://genomebiology.com/2005/6/5/R46 RO paper] was (A) that the derives_from relation could be n-1 or 1-n (for n > 1) but also (B) that there are examples of 1-1 derives from relations (e.g. the relation between a living organism and a corpse). This thesis (B) has now been dropped. The relation between a corpse and the predecessor organism is one of transformation.
There is also the terminological problem that "derives_from" is used specifically for evolutionary relationships by some. We will report back on this after the september NCBO anatomy meeting. We may create a "develops_from" parent for transformation_of corresponding to how that relation is currently used in MOD AOs
See also
[http://obofoundry.org/ro/#pending Pending]
'''The relation of ''overlaps'''''
X ''overlaps''  Y =def. for every t and every x, if x '''instance_of''' X at t, then there is some instance y of Y at t such that (x '''overlaps''' y at t)
x '''overlaps''' y at t =def there is some z such that z is '''part_of''' x '''at t''' and z  '''part_of''' y '''at t'''
Note that it can be the case that X ''overlaps'' Y as thus defined, even though Y does not ''overlap'' X.
Thus uterine tracts ''overlaps'' urinogenital sysem but not uriongenital system OVERLAPS uterine tract (because of male urinogenital systems)
==Proposed Gene Ontology 'Regulates' Relations==
id: OBO_REL:regulates
name: regulates
def: "A relation between a process and a process or quality. A regulates B
if the unfolding of A affects the frequency, rate or extent of B. A is
called the regulating process, B the regulates process" []
transitive_over: OBO_REL:part_of
id: OBO_REL:positively_regulates
name: positively_regulates
def: "A regulation relation in which the unfolding of the regulating
process *increases* the frequency, rate or extent of the regulated process"
is_a: OBO_REL:regulates
transitive_over: OBO_REL:part_of
id: OBO_REL:negatively_regulates
name: negatively_regulates
def: "A regulation relation in which the unfolding of the regulating
process *decreases* the frequency, rate or extent of the regulated process"
is_a: OBO_REL:regulates
transitive_over: OBO_REL:part_of
Example file:
Some follow-up comments at the sourceforge tracker page [https://sourceforge.net/tracker/index.php? func=detail&aid=1874192&group_id=76834&atid=947684 here]:
==Hunter/Bada Proposal for new relations==
We assert that the level of granularity/specifity of the proposed
relations is a central issue that, once resolved, will provide useful
guidelines as to what is needed to capture a piece of knowledge by a
relational link. The examples in this proposal use process terms from
the Gene Ontology, but we believe that this issue applies to other OBOs
as well.
We assert that the addition of relations should be primarily guided by
the effort to link OBO terms with other OBO terms, as is being done in
the OBO cross-product project. A composite set of links from a given
more complex OBO terms to more atomic OBO terms will provide the
(hopefully complete) definition of the former. A given link from the
term being defined, employing an RO relation, must unambiguously capture
some piece of knowledge, some part of the definition, of this term. It
is this unambiguous representation of some part of the complete
definition of the term that should determine the specificity of the
relation. This may require the use of a specific relation, but we assert
that it is more important to avoid losing knowledge in the represented
definition than to exclusively use general relations.
It is ideal to use general, reusable relations in such definitions
without losing information, and we believe that this is sometimes
possible. For example, for the many GO process terms that use “during”
to specify a process that is taking place within the span of another
process (''e.g.'', “actin filament reorganization during cell cycle”), it is
acceptable to use a standard temporal relation, as no information is
lost by doing so. However, especially in the definitions of processes,
we assert that the unambiguous capture of roles of participants will
require relatively specific relations.
There have been efforts to use general relations to denote roles, but
they have been difficult to define (''e.g.'', has_agent, has_patient,
has_central_participant) and/or insufficient to specify the role
(''e.g.'', has_output_participant). If suitably precise general relations
cannot be defined, relatively specific relations are needed. Thus, for
all of the growth terms (''e.g.'', “organ growth”, “filamentous growth”),
if a general relation to indicate what is growing cannot be suitably
defined, then a specific relation must be created to capture this,
either in the form of a lexically analogous relation (''e.g.'',
results_in_growth_of) or as one that incorporates the template
definitions of the term (''e.g.'', results_in_increase_in_size_or_mass_of,
since most of the growth terms are defined as the increase in size or
mass of an entity). These two approaches by themselves are
computationally synonymous but differ in terms of human comprehension.
The former, while not adding information for human users, can be
straightforwardly formed. The latter, while helpful for human users, can
get unwieldy in the case of complex definitions. For example, the
detection-of-stimulus terms are defined as the series of events in which
a stimulus is received by an entity and converted into a molecular
signal, and
is clearly getting ridiculous.
It is also ideal for relations, especially relatively specific ones as
exemplified above, to be formally defined (''i.e.'', in a computationlly
procesable way) in terms of more atomic relations. However, it will be
very difficult to produce formal definitions in terms of more atomic
relations, especially for relatively specific relations. We assert that
the linking of OBO terms to generate cross-products should be a
priority, and this requires the specification of relations (as discussed
above) to link the terms. A requirement for any proposed relation to
have a formal decomposed definition in terms of more atomic relations
would be a significant bottleneck to this process. Just as there is no
requirement for an added OBO term to have a formal definition, there
should be no such requirement for an added OBO relation. We would like
to be clear that we believe it extremely beneficial to have such formal
definitions (and thus efforts should continually be put into creating
such definitions), but this should not be an obstacle to the introduction of
new relations.
We propose that each relation should canonically be in the form of a
verb phrase. We assert that this promotes usability in that it
emphasizes the fact that these are relationships between entities.
==TAIR Relations==
See http://sourceforge.net/tracker/index.php?func=detail&aid=1888149&group_id=76834&atid=947684
* involved in
* functions as
* expressed in
* related to
* required for
* located in
* is subunit of
* constituent of
* regulates
* functions in
* represses
* is regulated by
* suppresses gene
* enhances gene
* partially enhances gene
* partially suppresses gene
* expressed during
* is downregulated by
* has function
* has protein-protein physical interaction with
* binds to cis-element of
* acts upstream of
* acts downstream of
* member of
* has protein-DNA interaction with
* has protein modification of type
* protein is modified by
* contributes to
* colocalizes with
* is upregulated by
==Proposed homologous_to relation==
Symmetric; Instance 3-ary relation; Continuant X in taxon A is homologous to continuant Y in taxon B when both are genealogically descended from continuant Z in their most recent common ancestor. Where:
All instances of continuant X part_of some organism which is part of taxon A
All instances of continuant Y part_of some organism which is part of taxon B
All instances of continuant Z part_of some organism which is part of the most recent common ancestor of taxa A and B.
X is homologous_to Y
IF (and only if)
All instances of X descended_from some instance of Z
All instances of Y descended_from some instance of Z.
==OWL Conversion==
The standard GO obo->owl conversion is used. See [[OboInOwl:Main_Page]] for details
obo1.2 defines "builtin" tags for relations that are hardwired into the obo semantics - is_a and instance_of are tagged builtin. These are not exported in OWL, as these are also part of the OWL language

Latest revision as of 16:36, 1 November 2013


OBO_REL has been replaced by RO - the new website and wiki can be found at http://purl.obolibrary.org/obo/ro

Old material that was previously kept here has been moved to RO:Historic Material