Ontology about C. elegans and other nematode phenotypes C elegans Phenotype Ontology C_elegans_phenotype_ontology chris-grove 2023-05-18 definition The official definition, explaining the meaning of a class or property. Shall be Aristotelian, formalized and normalized. Can be augmented with colloquial definitions. 2012-04-05: Barry Smith The official OBI definition, explaining the meaning of a class or property: 'Shall be Aristotelian, formalized and normalized. Can be augmented with colloquial definitions' is terrible. Can you fix to something like: A statement of necessary and sufficient conditions explaining the meaning of an expression referring to a class or property. Alan Ruttenberg Your proposed definition is a reasonable candidate, except that it is very common that necessary and sufficient conditions are not given. Mostly they are necessary, occasionally they are necessary and sufficient or just sufficient. Often they use terms that are not themselves defined and so they effectively can't be evaluated by those criteria. On the specifics of the proposed definition: We don't have definitions of 'meaning' or 'expression' or 'property'. For 'reference' in the intended sense I think we use the term 'denotation'. For 'expression', I think we you mean symbol, or identifier. For 'meaning' it differs for class and property. For class we want documentation that let's the intended reader determine whether an entity is instance of the class, or not. For property we want documentation that let's the intended reader determine, given a pair of potential relata, whether the assertion that the relation holds is true. The 'intended reader' part suggests that we also specify who, we expect, would be able to understand the definition, and also generalizes over human and computer reader to include textual and logical definition. Personally, I am more comfortable weakening definition to documentation, with instructions as to what is desirable. We also have the outstanding issue of how to aim different definitions to different audiences. A clinical audience reading chebi wants a different sort of definition documentation/definition from a chemistry trained audience, and similarly there is a need for a definition that is adequate for an ontologist to work with. PERSON:Daniel Schober GROUP:OBI:<http://purl.obolibrary.org/obo/obi> definition definition IAO:0000116 uberon editor_note true editor_note editor note has obsolescence reason Relates an annotation property to an obsolescence reason. The values of obsolescence reasons come from a list of predefined terms, instances of the class obsolescence reason specification. PERSON:Alan Ruttenberg PERSON:Melanie Courtot has obsolescence reason has ontology root term Ontology annotation property. Relates an ontology to a term that is a designated root term of the ontology. Display tools like OLS can use terms annotated with this property as the starting point for rendering the ontology class hierarchy. There can be more than one root. Nicolas Matentzoglu IAO:0000700 uberon has_ontology_root_term true has_ontology_root_term has ontology root term has ontology root term preferred_root term replaced by Use on obsolete terms, relating the term to another term that can be used as a substitute Person:Alan Ruttenberg Person:Alan Ruttenberg Add as annotation triples in the granting ontology term replaced by term replaced by If R <- P o Q is a defining property chain axiom, then it also holds that R -> P o Q. Note that this cannot be expressed directly in OWL is a defining property chain axiom If R <- P o Q is a defining property chain axiom, then (1) R -> P o Q holds and (2) Q is either reflexive or locally reflexive. A corollary of this is that P SubPropertyOf R. is a defining property chain axiom where second argument is reflexive WB phenotype slim http://purl.org/dc/elements/1.1/description uberon dc-description true dc-description description http://purl.org/dc/elements/1.1/title uberon dc-title true dc-title title http://purl.org/dc/terms/license uberon dcterms-license true dcterms-license license subset_property consider has_alternative_id An alternative label for a class or property which has a more general meaning than the preferred name/primary label. https://github.com/information-artifact-ontology/ontology-metadata/issues/18 has broad synonym has_broad_synonym https://github.com/information-artifact-ontology/ontology-metadata/issues/18 database_cross_reference An alternative label for a class or property which has the exact same meaning than the preferred name/primary label. https://github.com/information-artifact-ontology/ontology-metadata/issues/20 has exact synonym has_exact_synonym https://github.com/information-artifact-ontology/ontology-metadata/issues/20 An alternative label for a class or property which has a more specific meaning than the preferred name/primary label. https://github.com/information-artifact-ontology/ontology-metadata/issues/19 has narrow synonym has_narrow_synonym https://github.com/information-artifact-ontology/ontology-metadata/issues/19 has_obo_format_version has_obo_namespace An alternative label for a class or property that has been used synonymously with the primary term name, but the usage is not strictly correct. https://github.com/information-artifact-ontology/ontology-metadata/issues/21 has related synonym has_related_synonym https://github.com/information-artifact-ontology/ontology-metadata/issues/21 in_subset is part of my brain is part of my body (continuant parthood, two material entities) my stomach cavity is part of my stomach (continuant parthood, immaterial entity is part of material entity) this day is part of this year (occurrent parthood) a core relation that holds between a part and its whole Everything is part of itself. Any part of any part of a thing is itself part of that thing. Two distinct things cannot be part of each other. Occurrents are not subject to change and so parthood between occurrents holds for all the times that the part exists. Many continuants are subject to change, so parthood between continuants will only hold at certain times, but this is difficult to specify in OWL. See http://purl.obolibrary.org/obo/ro/docs/temporal-semantics/ Parthood requires the part and the whole to have compatible classes: only an occurrent can be part of an occurrent; only a process can be part of a process; only a continuant can be part of a continuant; only an independent continuant can be part of an independent continuant; only an immaterial entity can be part of an immaterial entity; only a specifically dependent continuant can be part of a specifically dependent continuant; only a generically dependent continuant can be part of a generically dependent continuant. (This list is not exhaustive.) A continuant cannot be part of an occurrent: use 'participates in'. An occurrent cannot be part of a continuant: use 'has participant'. A material entity cannot be part of an immaterial entity: use 'has location'. A specifically dependent continuant cannot be part of an independent continuant: use 'inheres in'. An independent continuant cannot be part of a specifically dependent continuant: use 'bearer of'. part_of BFO:0000050 external quality uberon worm_anatomy worm_development part_of part_of part of part of part_of http://www.obofoundry.org/ro/#OBO_REL:part_of has part my body has part my brain (continuant parthood, two material entities) my stomach has part my stomach cavity (continuant parthood, material entity has part immaterial entity) this year has part this day (occurrent parthood) a core relation that holds between a whole and its part Everything has itself as a part. Any part of any part of a thing is itself part of that thing. Two distinct things cannot have each other as a part. Occurrents are not subject to change and so parthood between occurrents holds for all the times that the part exists. Many continuants are subject to change, so parthood between continuants will only hold at certain times, but this is difficult to specify in OWL. See http://purl.obolibrary.org/obo/ro/docs/temporal-semantics/ Parthood requires the part and the whole to have compatible classes: only an occurrent have an occurrent as part; only a process can have a process as part; only a continuant can have a continuant as part; only an independent continuant can have an independent continuant as part; only a specifically dependent continuant can have a specifically dependent continuant as part; only a generically dependent continuant can have a generically dependent continuant as part. (This list is not exhaustive.) A continuant cannot have an occurrent as part: use 'participates in'. An occurrent cannot have a continuant as part: use 'has participant'. An immaterial entity cannot have a material entity as part: use 'location of'. An independent continuant cannot have a specifically dependent continuant as part: use 'bearer of'. A specifically dependent continuant cannot have an independent continuant as part: use 'inheres in'. has_part BFO:0000051 chebi_ontology external quality uberon has_part false has_part has part has part has_part preceded by x is preceded by y if and only if the time point at which y ends is before or equivalent to the time point at which x starts. Formally: x preceded by y iff ω(y) <= α(x), where α is a function that maps a process to a start point, and ω is a function that maps a process to an end point. An example is: translation preceded_by transcription; aging preceded_by development (not however death preceded_by aging). Where derives_from links classes of continuants, preceded_by links classes of processes. Clearly, however, these two relations are not independent of each other. Thus if cells of type C1 derive_from cells of type C, then any cell division involving an instance of C1 in a given lineage is preceded_by cellular processes involving an instance of C. The assertion P preceded_by P1 tells us something about Ps in general: that is, it tells us something about what happened earlier, given what we know about what happened later. Thus it does not provide information pointing in the opposite direction, concerning instances of P1 in general; that is, that each is such as to be succeeded by some instance of P. Note that an assertion to the effect that P preceded_by P1 is rather weak; it tells us little about the relations between the underlying instances in virtue of which the preceded_by relation obtains. Typically we will be interested in stronger relations, for example in the relation immediately_preceded_by, or in relations which combine preceded_by with a condition to the effect that the corresponding instances of P and P1 share participants, or that their participants are connected by relations of derivation, or (as a first step along the road to a treatment of causality) that the one process in some way affects (for example, initiates or regulates) the other. is preceded by preceded_by http://www.obofoundry.org/ro/#OBO_REL:preceded_by BFO:0000062 external uberon worm_development preceded_by preceded_by preceded by preceded by preceded_by precedes x precedes y if and only if the time point at which x ends is before or equivalent to the time point at which y starts. Formally: x precedes y iff ω(x) <= α(y), where α is a function that maps a process to a start point, and ω is a function that maps a process to an end point. BFO:0000063 external uberon precedes precedes precedes precedes occurs in b occurs_in c =def b is a process and c is a material entity or immaterial entity& there exists a spatiotemporal region r and b occupies_spatiotemporal_region r.& forall(t) if b exists_at t then c exists_at t & there exist spatial regions s and s’ where & b spatially_projects_onto s at t& c is occupies_spatial_region s’ at t& s is a proper_continuant_part_of s’ at t occurs_in unfolds in unfolds_in BFO:0000066 external gene_ontology occurs_in occurs_in Paraphrase of definition: a relation between a process and an independent continuant, in which the process takes place entirely within the independent continuant occurs in occurs in site of [copied from inverse property 'occurs in'] b occurs_in c =def b is a process and c is a material entity or immaterial entity& there exists a spatiotemporal region r and b occupies_spatiotemporal_region r.& forall(t) if b exists_at t then c exists_at t & there exist spatial regions s and s’ where & b spatially_projects_onto s at t& c is occupies_spatial_region s’ at t& s is a proper_continuant_part_of s’ at t BFO:0000067 uberon contains_process contains_process Paraphrase of definition: a relation between an independent continuant and a process, in which the process takes place entirely within the independent continuant contains process contains process BSPO:0000096 uberon anterior_to anterior_to anterior to BSPO:0000097 uberon distal_to distal_to distal to BSPO:0000098 uberon dorsal_to dorsal_to dorsal to BSPO:0000099 uberon posterior_to posterior_to posterior to BSPO:0000100 uberon proximal_to proximal_to proximal to BSPO:0000102 uberon ventral_to ventral_to ventral to BSPO:0000107 uberon deep_to deep_to deep to BSPO:0000108 uberon superficial_to superficial_to superficial to BSPO:0000120 uberon in_left_side_of in_left_side_of in left side of BSPO:0000121 uberon in_right_side_of in_right_side_of in right side of BSPO:0000122 uberon in_posterior_side_of in_posterior_side_of in posterior side of BSPO:0000123 uberon in_anterior_side_of in_anterior_side_of in anterior side of BSPO:0000126 uberon in_lateral_side_of in_lateral_side_of in lateral side of BSPO:0001106 uberon proximalmost_part_of proximalmost_part_of proximalmost part of BSPO:0001107 uberon immediately_deep_to immediately_deep_to immediately deep to BSPO:0001108 uberon distalmost_part_of distalmost_part_of distalmost part of http://purl.obolibrary.org/obo/BFO_0000051 exactly 0 ?Y lacks_part http://purl.obolibrary.org/obo/BFO_0000051 exactly 0 (http://purl.obolibrary.org/obo/GO_0005886 and http://purl.obolibrary.org/obo/BFO_0000051 some ?Y) lacks_plasma_membrane_part GOREL:0002003 external results_in_distribution_of results_in_distribution_of results in distribution of results_in_distribution_of GOREL:0002004 external results_in_fission_of results_in_fission_of results in fission of results_in_fission_of This document is about information artifacts and their representations A (currently) primitive relation that relates an information artifact to an entity. 7/6/2009 Alan Ruttenberg. Following discussion with Jonathan Rees, and introduction of "mentions" relation. Weaken the is_about relationship to be primitive. We will try to build it back up by elaborating the various subproperties that are more precisely defined. Some currently missing phenomena that should be considered "about" are predications - "The only person who knows the answer is sitting beside me" , Allegory, Satire, and other literary forms that can be topical without explicitly mentioning the topic. person:Alan Ruttenberg Smith, Ceusters, Ruttenberg, 2000 years of philosophy is about inheres in this fragility is a characteristic of this vase this red color is a characteristic of this apple a relation between a specifically dependent continuant (the characteristic) and any other entity (the bearer), in which the characteristic depends on the bearer for its existence. inheres_in Note that this relation was previously called "inheres in", but was changed to be called "characteristic of" because BFO2 uses "inheres in" in a more restricted fashion. This relation differs from BFO2:inheres_in in two respects: (1) it does not impose a range constraint, and thus it allows qualities of processes, as well as of information entities, whereas BFO2 restricts inheres_in to only apply to independent continuants (2) it is declared functional, i.e. something can only be a characteristic of one thing. characteristic of bearer of this apple is bearer of this red color this vase is bearer of this fragility Inverse of characteristic_of A bearer can have many dependents, and its dependents can exist for different periods of time, but none of its dependents can exist when the bearer does not exist. bearer_of is bearer of RO:0000053 external bearer_of bearer_of bearer of has characteristic participates in this blood clot participates in this blood coagulation this input material (or this output material) participates in this process this investigator participates in this investigation a relation between a continuant and a process, in which the continuant is somehow involved in the process participates_in RO:0000056 external uberon participates_in participates_in participates in participates in has participant this blood coagulation has participant this blood clot this investigation has participant this investigator this process has participant this input material (or this output material) a relation between a process and a continuant, in which the continuant is somehow involved in the process Has_participant is a primitive instance-level relation between a process, a continuant, and a time at which the continuant participates in some way in the process. The relation obtains, for example, when this particular process of oxygen exchange across this particular alveolar membrane has_participant this particular sample of hemoglobin at this particular time. has_participant http://www.obofoundry.org/ro/#OBO_REL:has_participant RO:0000057 external has_participant has_participant has participant has participant this catalysis function is a function of this enzyme a relation between a function and an independent continuant (the bearer), in which the function specifically depends on the bearer for its existence A function inheres in its bearer at all times for which the function exists, however the function need not be realized at all the times that the function exists. function_of is function of This relation is modeled after the BFO relation of the same name which was in BFO2, but is used in a more restricted sense - specifically, we model this relation as functional (inherited from characteristic-of). Note that this relation is now removed from BFO2020. function of this red color is a quality of this apple a relation between a quality and an independent continuant (the bearer), in which the quality specifically depends on the bearer for its existence A quality inheres in its bearer at all times for which the quality exists. is quality of quality_of This relation is modeled after the BFO relation of the same name which was in BFO2, but is used in a more restricted sense - specifically, we model this relation as functional (inherited from characteristic-of). Note that this relation is now removed from BFO2020. quality of this investigator role is a role of this person a relation between a role and an independent continuant (the bearer), in which the role specifically depends on the bearer for its existence A role inheres in its bearer at all times for which the role exists, however the role need not be realized at all the times that the role exists. is role of role_of This relation is modeled after the BFO relation of the same name which was in BFO2, but is used in a more restricted sense - specifically, we model this relation as functional (inherited from characteristic-of). Note that this relation is now removed from BFO2020. role of this enzyme has function this catalysis function (more colloquially: this enzyme has this catalysis function) a relation between an independent continuant (the bearer) and a function, in which the function specifically depends on the bearer for its existence A bearer can have many functions, and its functions can exist for different periods of time, but none of its functions can exist when the bearer does not exist. A function need not be realized at all the times that the function exists. has_function has function this apple has quality this red color a relation between an independent continuant (the bearer) and a quality, in which the quality specifically depends on the bearer for its existence A bearer can have many qualities, and its qualities can exist for different periods of time, but none of its qualities can exist when the bearer does not exist. has_quality RO:0000086 uberon has_quality has_quality has quality has quality this person has role this investigator role (more colloquially: this person has this role of investigator) a relation between an independent continuant (the bearer) and a role, in which the role specifically depends on the bearer for its existence A bearer can have many roles, and its roles can exist for different periods of time, but none of its roles can exist when the bearer does not exist. A role need not be realized at all the times that the role exists. has_role RO:0000087 chebi_ontology has_role false false has_role has role has role a relation between an independent continuant (the bearer) and a disposition, in which the disposition specifically depends on the bearer for its existence has disposition inverse of has disposition This relation is modeled after the BFO relation of the same name which was in BFO2, but is used in a more restricted sense - specifically, we model this relation as functional (inherited from characteristic-of). Note that this relation is now removed from BFO2020. disposition of is location of my head is the location of my brain this cage is the location of this rat a relation between two independent continuants, the location and the target, in which the target is entirely within the location Most location relations will only hold at certain times, but this is difficult to specify in OWL. See http://purl.obolibrary.org/obo/ro/docs/temporal-semantics/ location_of RO:0001015 uberon location_of location_of location of location of contained in Containment is location not involving parthood, and arises only where some immaterial continuant is involved. Containment obtains in each case between material and immaterial continuants, for instance: lung contained_in thoracic cavity; bladder contained_in pelvic cavity. Hence containment is not a transitive relation. If c part_of c1 at t then we have also, by our definition and by the axioms of mereology applied to spatial regions, c located_in c1 at t. Thus, many examples of instance-level location relations for continuants are in fact cases of instance-level parthood. For material continuants location and parthood coincide. Containment is location not involving parthood, and arises only where some immaterial continuant is involved. To understand this relation, we first define overlap for continuants as follows: c1 overlap c2 at t =def for some c, c part_of c1 at t and c part_of c2 at t. The containment relation on the instance level can then be defined (see definition): Intended meaning: domain: material entity range: spatial region or site (immaterial continuant) contained_in contained in contains RO:0001019 uberon contains contains contains contains located in my brain is located in my head this rat is located in this cage a relation between two independent continuants, the target and the location, in which the target is entirely within the location Location as a relation between instances: The primitive instance-level relation c located_in r at t reflects the fact that each continuant is at any given time associated with exactly one spatial region, namely its exact location. Following we can use this relation to define a further instance-level location relation - not between a continuant and the region which it exactly occupies, but rather between one continuant and another. c is located in c1, in this sense, whenever the spatial region occupied by c is part_of the spatial region occupied by c1. Note that this relation comprehends both the relation of exact location between one continuant and another which obtains when r and r1 are identical (for example, when a portion of fluid exactly fills a cavity), as well as those sorts of inexact location relations which obtain, for example, between brain and head or between ovum and uterus Most location relations will only hold at certain times, but this is difficult to specify in OWL. See http://purl.obolibrary.org/obo/ro/docs/temporal-semantics/ located_in http://www.obofoundry.org/ro/#OBO_REL:located_in RO:0001025 uberon located_in located_in located in located in This is redundant with the more specific 'independent and not spatial region' constraint. We leave in the redundant axiom for use with reasoners that do not use negation. This is redundant with the more specific 'independent and not spatial region' constraint. We leave in the redundant axiom for use with reasoners that do not use negation. the surface of my skin is a 2D boundary of my body a relation between a 2D immaterial entity (the boundary) and a material entity, in which the boundary delimits the material entity A 2D boundary may have holes and gaps, but it must be a single connected entity, not an aggregate of several disconnected parts. Although the boundary is two-dimensional, it exists in three-dimensional space and thus has a 3D shape. 2D_boundary_of boundary of is 2D boundary of is boundary of surface of 2D boundary of boundary_of my body has 2D boundary the surface of my skin a relation between a material entity and a 2D immaterial entity (the boundary), in which the boundary delimits the material entity A 2D boundary may have holes and gaps, but it must be a single connected entity, not an aggregate of several disconnected parts. Although the boundary is two-dimensional, it exists in three-dimensional space and thus has a 3D shape. has boundary has_2D_boundary RO:0002002 uberon has_boundary has_boundary has 2D boundary has 2D boundary has_boundary http://www.ncbi.nlm.nih.gov/pubmed/22402613 RO:0002005 uberon innervated_by innervated_by innervated_by innervated_by X outer_layer_of Y iff: . X :continuant that bearer_of some PATO:laminar . X part_of Y . exists Z :surface . X has_boundary Z . Z boundary_of Y has_boundary: http://purl.obolibrary.org/obo/RO_0002002 boundary_of: http://purl.obolibrary.org/obo/RO_0002000 RO:0002007 external uberon bounding_layer_of bounding_layer_of A relationship that applies between a continuant and its outer, bounding layer. Examples include the relationship between a multicellular organism and its integument, between an animal cell and its plasma membrane, and between a membrane bound organelle and its outer/bounding membrane. bounding layer of bounding layer of A 'has regulatory component activity' B if A and B are GO molecular functions (GO_0003674), A has_component B and A is regulated by B. dos 2017-05-24T09:30:46Z RO:0002013 external has_regulatory_component_activity has_regulatory_component_activity has regulatory component activity A relationship that holds between a GO molecular function and a component of that molecular function that negatively regulates the activity of the whole. More formally, A 'has regulatory component activity' B iff :A and B are GO molecular functions (GO_0003674), A has_component B and A is negatively regulated by B. dos 2017-05-24T09:31:01Z RO:0002014 external has_negative_regulatory_component_activity has_negative_regulatory_component_activity By convention GO molecular functions are classified by their effector function. Internal regulatory functions are treated as components. For example, NMDA glutmate receptor activity is a cation channel activity with positive regulatory component 'glutamate binding' and negative regulatory components including 'zinc binding' and 'magnesium binding'. has negative regulatory component activity A relationship that holds between a GO molecular function and a component of that molecular function that positively regulates the activity of the whole. More formally, A 'has regulatory component activity' B iff :A and B are GO molecular functions (GO_0003674), A has_component B and A is positively regulated by B. dos 2017-05-24T09:31:17Z By convention GO molecular functions are classified by their effector function and internal regulatory functions are treated as components. So, for example calmodulin has a protein binding activity that has positive regulatory component activity calcium binding activity. Receptor tyrosine kinase activity is a tyrosine kinase activity that has positive regulatory component 'ligand binding'. has positive regulatory component activity dos 2017-05-24T09:44:33Z A 'has component activity' B if A is A and B are molecular functions (GO_0003674) and A has_component B. has component activity w 'has process component' p if p and w are processes, w 'has part' p and w is such that it can be directly disassembled into into n parts p, p2, p3, ..., pn, where these parts are of similar type. dos 2017-05-24T09:49:21Z has component process A relationship between a process and a barrier, where the process occurs in a region spanning the barrier. For cellular processes the barrier is typically a membrane. Examples include transport across a membrane and membrane depolarization. dos 2017-07-20T17:19:37Z occurs across dos 2017-09-17T13:52:24Z Process(P2) is directly regulated by process(P1) iff: P1 regulates P2 via direct physical interaction between an agent executing P1 (or some part of P1) and an agent executing P2 (or some part of P2). For example, if protein A has protein binding activity(P1) that targets protein B and this binding regulates the kinase activity (P2) of protein B then P1 directly regulates P2. directly regulated by Process(P2) is directly regulated by process(P1) iff: P1 regulates P2 via direct physical interaction between an agent executing P1 (or some part of P1) and an agent executing P2 (or some part of P2). For example, if protein A has protein binding activity(P1) that targets protein B and this binding regulates the kinase activity (P2) of protein B then P1 directly regulates P2. GOC:dos Process(P2) is directly negatively regulated by process(P1) iff: P1 negatively regulates P2 via direct physical interaction between an agent executing P1 (or some part of P1) and an agent executing P2 (or some part of P2). For example, if protein A has protein binding activity(P1) that targets protein B and this binding negatively regulates the kinase activity (P2) of protein B then P2 directly negatively regulated by P1. dos 2017-09-17T13:52:38Z directly negatively regulated by Process(P2) is directly negatively regulated by process(P1) iff: P1 negatively regulates P2 via direct physical interaction between an agent executing P1 (or some part of P1) and an agent executing P2 (or some part of P2). For example, if protein A has protein binding activity(P1) that targets protein B and this binding negatively regulates the kinase activity (P2) of protein B then P2 directly negatively regulated by P1. GOC:dos Process(P2) is directly postively regulated by process(P1) iff: P1 positively regulates P2 via direct physical interaction between an agent executing P1 (or some part of P1) and an agent executing P2 (or some part of P2). For example, if protein A has protein binding activity(P1) that targets protein B and this binding positively regulates the kinase activity (P2) of protein B then P2 is directly postively regulated by P1. dos 2017-09-17T13:52:47Z directly positively regulated by Process(P2) is directly postively regulated by process(P1) iff: P1 positively regulates P2 via direct physical interaction between an agent executing P1 (or some part of P1) and an agent executing P2 (or some part of P2). For example, if protein A has protein binding activity(P1) that targets protein B and this binding positively regulates the kinase activity (P2) of protein B then P2 is directly postively regulated by P1. GOC:dos A 'has effector activity' B if A and B are GO molecular functions (GO_0003674), A 'has component activity' B and B is the effector (output function) of B. Each compound function has only one effector activity. dos 2017-09-22T14:14:36Z This relation is designed for constructing compound molecular functions, typically in combination with one or more regulatory component activity relations. has effector activity A 'has effector activity' B if A and B are GO molecular functions (GO_0003674), A 'has component activity' B and B is the effector (output function) of B. Each compound function has only one effector activity. GOC:dos David Osumi-Sutherland <= Primitive instance level timing relation between events before or simultaneous with David Osumi-Sutherland RO:0002082 uberon simultaneous_with simultaneous_with t1 simultaneous_with t2 iff:= t1 before_or_simultaneous_with t2 and not (t1 before t2) simultaneous with simultaneous with David Osumi-Sutherland X ends_after Y iff: end(Y) before_or_simultaneous_with end(X) ends after David Osumi-Sutherland starts_at_end_of RO:0002087 external uberon worm_development immediately_preceded_by starts_at_end_of immediately_preceded_by starts_at_end_of X immediately_preceded_by Y iff: end(X) simultaneous_with start(Y) immediately preceded by immediately preceded by starts_at_end_of David Osumi-Sutherland ends_at_start_of meets RO:0002090 external immediately_precedes immediately_precedes X immediately_precedes_Y iff: end(X) simultaneous_with start(Y) immediately precedes immediately precedes RO:0002092 external happens_during happens_during happens during RO:0002093 external ends_during ends_during ends during Relation between a neuron and an anatomical structure that its soma is part of. Relation between a neuron and an anatomical structure that its soma is part of. <http://purl.obolibrary.org/obo/BFO_0000051> some ( <http://purl.obolibrary.org/obo/GO_0043025> and <http://purl.obolibrary.org/obo/BFO_0000050> some ?Y) BFO_0000051 some (GO_0043025 and BFO_0000050 some ?Y) RO:0002100 fly_anatomy.ontology has_soma_location has soma location Relation between a neuron and an anatomical structure that its soma is part of. Relation between an anatomical structure (including cells) and a neuron that chemically synapses to it. Relation between an anatomical structure and a neuron that chemically synapses to it. <http://purl.obolibrary.org/obo/BFO_0000051> some (<http://purl.obolibrary.org/obo/GO_0045211> that part_of some (<http://purl.obolibrary.org/obo/GO_0045202> that has_part some (<http://purl.obolibrary.org/obo/GO_0042734> that <http://purl.obolibrary.org/obo/BFO_0000050> some Y?))) BFO_0000051 some (GO_0045211 that BFO_0000050 some (GO_0045202 that BFO_0000051 some (GO_0042734 that BFO_0000050 some ?Y))) RO:0002103 fly_anatomy.ontology uberon synapsed_by synapsed_by synapsed by synapsed by Relation between an anatomical structure and a neuron that chemically synapses to it. Every B cell[CL_0000236] has plasma membrane part some immunoglobulin complex[GO_0019814] Holds between a cell c and a protein complex or protein p if and only if that cell has as part a plasma_membrane[GO:0005886], and that plasma membrane has p as part. <http://purl.obolibrary.org/obo/BFO_0000051> some (<http://purl.obolibrary.org/obo/GO_0005886> and <http://purl.obolibrary.org/obo/BFO_0000051> some ?Y) has plasma membrane part Relation between a neuron and an anatomical structure (including cells) that it chemically synapses to. Relation between a neuron and an anatomical structure that it chemically synapses to. <http://purl.obolibrary.org/obo/BFO_0000051> some (<http://purl.obolibrary.org/obo/GO_0042734> that part_of some (<http://purl.obolibrary.org/obo/GO_0045202> that <http://purl.obolibrary.org/obo/BFO_0000051> some (<http://purl.obolibrary.org/obo/GO_0045211> that <http://purl.obolibrary.org/obo/BFO_0000050> some Y?))) BFO_0000051 some (GO_0042734 that BFO_0000050 some (GO_0045202 that BFO_0000051 some (GO_0045211 that BFO_0000050 some ?Y))) RO:0002120 fly_anatomy.ontology synapsed_to N1 synapsed_to some N2 Expands to: N1 SubclassOf ( has_part some ( ‘pre-synaptic membrane ; GO:0042734’ that part_of some ( ‘synapse ; GO:0045202’ that has_part some ( ‘post-synaptic membrane ; GO:0045211’ that part_of some N2)))) synapsed to Relation between a neuron and an anatomical structure that it chemically synapses to. x overlaps y if and only if there exists some z such that x has part z and z part of y http://purl.obolibrary.org/obo/BFO_0000051 some (http://purl.obolibrary.org/obo/BFO_0000050 some ?Y) RO:0002131 external uberon overlaps overlaps overlaps overlaps true Relation between a 'neuron projection bundle' and a region in which one or more of its component neuron projections either synapses to targets or receives synaptic input. T innervates some R Expands_to: T has_fasciculating_neuron_projection that synapse_in some R. Relation between a 'neuron projection bundle' and a region in which one or more of its component neuron projections either synapses to targets or receives synaptic input. T innervates some R Expands_to: T has_fasciculating_neuron_projection that synapse_in some R. <http://purl.obolibrary.org/obo/RO_0002132> some (<http://purl.obolibrary.org/obo/GO_0043005> that (<http://purl.obolibrary.org/obo/RO_0002131> some (<http://purl.obolibrary.org/obo/GO_0045202> that <http://purl.obolibrary.org/obo/BFO_0000050> some Y?))) RO_0002132 some (GO_0043005 that (RO_0002131 some (GO_0045202 that BFO_0000050 some ?Y))) RO:0002134 fly_anatomy.ontology uberon innervates innervates innervates innervates Relation between a 'neuron projection bundle' and a region in which one or more of its component neuron projections either synapses to targets or receives synaptic input. T innervates some R Expands_to: T has_fasciculating_neuron_projection that synapse_in some R. X continuous_with Y if and only if X and Y share a fiat boundary. connected to The label for this relation was previously connected to. I relabeled this to "continuous with". The standard notion of connectedness does not imply shared boundaries - e.g. Glasgow connected_to Edinburgh via M8; my patella connected_to my femur (via patellar-femoral joint) RO:0002150 uberon continuous_with continuous_with continuous with continuous with FMA:85972 two individual entities d1 and d2 stand in a shares_ancestor_with relation if and only if there exists some a such that d1 derived_by_descent_from a and d2 derived_by_descent_from a. Consider obsoleting and merging with child relation, 'in homology relationship with' RO:0002158 uberon homologous_to homologous_to VBO calls this homologous_to shares ancestor with lactation SubClassOf 'only in taxon' some 'Mammalia' x only in taxon y if and only if x is in taxon y, and there is no other organism z such that y!=z a and x is in taxon z. The original intent was to treat this as a macro that expands to 'in taxon' only ?Y - however, this is not necessary if we instead have supplemental axioms that state that each pair of sibling tax have a disjointness axiom using the 'in taxon' property - e.g. 'in taxon' some Eukaryota DisjointWith 'in taxon' some Eubacteria RO:0002160 uberon only_in_taxon only_in_taxon only in taxon x is in taxon y if an only if y is an organism, and the relationship between x and y is one of: part of (reflexive), developmentally preceded by, derives from, secreted by, expressed. RO:0002162 uberon in_taxon in_taxon Connects a biological entity to its taxon of origin. in taxon A is spatially_disjoint_from B if and only if they have no parts in common There are two ways to encode this as a shortcut relation. The other possibility to use an annotation assertion between two classes, and expand this to a disjointness axiom. Note that it would be possible to use the relation to label the relationship between a near infinite number of structures - between the rings of saturn and my left earlobe. The intent is that this is used for parsiomoniously for disambiguation purposes - for example, between siblings in a jointly exhaustive pairwise disjointness hierarchy BFO_0000051 exactly 0 (BFO_0000050 some ?Y) spatially disjoint from https://github.com/obophenotype/uberon/wiki/Part-disjointness-Design-Pattern a 'toe distal phalanx bone' that is connected to a 'toe medial phalanx bone' (an interphalangeal joint *connects* these two bones). a is connected to b if and only if a and b are discrete structure, and there exists some connecting structure c, such that c connects a and b RO:0002170 uberon connected_to connected_to connected to connected to https://github.com/obophenotype/uberon/wiki/Connectivity-Design-Pattern https://github.com/obophenotype/uberon/wiki/Modeling-articulations-Design-Pattern The M8 connects Glasgow and Edinburgh a 'toe distal phalanx bone' that is connected to a 'toe medial phalanx bone' (an interphalangeal joint *connects* these two bones). c connects a if and only if there exist some b such that a and b are similar parts of the same system, and c connects b, specifically, c connects a with b. When one structure connects two others it unites some aspect of the function or role they play within the system. RO:0002176 uberon connects connects connects connects https://github.com/obophenotype/uberon/wiki/Connectivity-Design-Pattern https://github.com/obophenotype/uberon/wiki/Modeling-articulations-Design-Pattern a is attached to part of b if a is attached to b, or a is attached to some p, where p is part of b. attached to part of (anatomical structure to anatomical structure) RO:0002177 uberon attaches_to_part_of attaches_to_part_of attached to part of attached to part of true Relation between an arterial structure and another structure, where the arterial structure acts as a conduit channeling fluid, substance or energy. Individual ontologies should provide their own constraints on this abstract relation. For example, in the realm of anatomy this should hold between an artery and an anatomical structure RO:0002178 uberon supplies supplies supplies supplies Relation between an collecting structure and another structure, where the collecting structure acts as a conduit channeling fluid, substance or energy away from the other structure. Individual ontologies should provide their own constraints on this abstract relation. For example, in the realm of anatomy this should hold between a vein and an anatomical structure RO:0002179 uberon drains drains drains drains w 'has component' p if w 'has part' p and w is such that it can be directly disassembled into into n parts p, p2, p3, ..., pn, where these parts are of similar type. The definition of 'has component' is still under discussion. The challenge is in providing a definition that does not imply transitivity. For use in recording has_part with a cardinality constraint, because OWL does not permit cardinality constraints to be used in combination with transitive object properties. In situations where you would want to say something like 'has part exactly 5 digit, you would instead use has_component exactly 5 digit. RO:0002180 external uberon has_component has_component has component has component x develops from y if and only if either (a) x directly develops from y or (b) there exists some z such that x directly develops from z and z develops from y RO:0002202 uberon worm_anatomy develops_from develops_from This is the transitive form of the develops from relation develops from develops from develops_from inverse of develops from develops into Candidate definition: x directly_develops from y if and only if there exists some developmental process (GO:0032502) p such that x and y both participate in p, and x is the output of p and y is the input of p, and a substantial portion of the matter of x comes from y, and the start of x is coincident with or after the end of y. FBbt RO:0002207 has developmental precursor uberon directly_develops_from directly_develops_from TODO - add child relations from DOS directly develops from directly develops from inverse of directly develops from developmental precursor of directly develops into p regulates q iff p is causally upstream of q, the execution of p is not constant and varies according to specific conditions, and p influences the rate or magnitude of execution of q due to an effect either on some enabler of q or some enabler of a part of q. GO Regulation precludes parthood; the regulatory process may not be within the regulated process. regulates (processual) false RO:0002211 external gene_ontology regulates regulates regulates regulates p negatively regulates q iff p regulates q, and p decreases the rate or magnitude of execution of q. negatively regulates (process to process) RO:0002212 external gene_ontology negatively_regulates negatively_regulates negatively regulates negatively regulates p positively regulates q iff p regulates q, and p increases the rate or magnitude of execution of q. positively regulates (process to process) RO:0002213 external gene_ontology positively_regulates positively_regulates positively regulates positively regulates mechanosensory neuron capable of detection of mechanical stimulus involved in sensory perception (GO:0050974) osteoclast SubClassOf 'capable of' some 'bone resorption' A relation between a material entity (such as a cell) and a process, in which the material entity has the ability to carry out the process. has function realized in For compatibility with BFO, this relation has a shortcut definition in which the expression "capable of some P" expands to "bearer_of (some realized_by only P)". RO:0002215 external uberon capable_of capable_of capable of capable of c stands in this relationship to p if and only if there exists some p' such that c is capable_of p', and p' is part_of p. has function in RO:0002216 external uberon capable_of_part_of capable_of_part_of capable of part of capable of part of true x surrounded_by y if and only if (1) x is adjacent to y and for every region r that is adjacent to x, r overlaps y (2) the shared boundary between x and y occupies the majority of the outermost boundary of x RO:0002219 uberon surrounded_by surrounded_by surrounded by surrounded by A caterpillar walking on the surface of a leaf is adjacent_to the leaf, if one of the caterpillar appendages is touching the leaf. In contrast, a butterfly flying close to a flower is not considered adjacent, unless there are any touching parts. The epidermis layer of a vertebrate is adjacent to the dermis. The plasma membrane of a cell is adjacent to the cytoplasm, and also to the cell lumen which the cytoplasm occupies. The skin of the forelimb is adjacent to the skin of the torso if these are considered anatomical subdivisions with a defined border. Otherwise a relation such as continuous_with would be used. x adjacent to y if and only if x and y share a boundary. This relation acts as a join point with BSPO RO:0002220 external uberon adjacent_to adjacent_to adjacent to adjacent to A caterpillar walking on the surface of a leaf is adjacent_to the leaf, if one of the caterpillar appendages is touching the leaf. In contrast, a butterfly flying close to a flower is not considered adjacent, unless there are any touching parts. inverse of surrounded by RO:0002221 uberon surrounds surrounds surrounds surrounds Do not use this relation directly. It is ended as a grouping for relations between occurrents involving the relative timing of their starts and ends. https://docs.google.com/document/d/1kBv1ep_9g3sTR-SD3jqzFqhuwo9TPNF-l-9fUDbO6rM/edit?pli=1 A relation that holds between two occurrents. This is a grouping relation that collects together all the Allen relations. temporally related to inverse of starts with Chris Mungall Allen RO:0002223 uberon starts starts starts starts Every insulin receptor signaling pathway starts with the binding of a ligand to the insulin receptor x starts with y if and only if x has part y and the time point at which x starts is equivalent to the time point at which y starts. Formally: α(y) = α(x) ∧ ω(y) < ω(x), where α is a function that maps a process to a start point, and ω is a function that maps a process to an end point. Chris Mungall started by RO:0002224 external uberon starts_with starts_with starts with starts with x develops from part of y if and only if there exists some z such that x develops from z and z is part of y RO:0002225 uberon develops_from_part_of develops_from_part_of develops from part of develops from part of x develops_in y if x is located in y whilst x is developing EHDAA2 Jonathan Bard, EHDAA2 RO:0002226 uberon develops_in develops_in develops in develops in inverse of ends with Chris Mungall RO:0002229 uberon ends ends ends ends x ends with y if and only if x has part y and the time point at which x ends is equivalent to the time point at which y ends. Formally: α(y) > α(x) ∧ ω(y) = ω(x), where α is a function that maps a process to a start point, and ω is a function that maps a process to an end point. Chris Mungall finished by RO:0002230 external uberon ends_with ends_with ends with ends with x 'has starts location' y if and only if there exists some process z such that x 'starts with' z and z 'occurs in' y starts with process that occurs in RO:0002231 external has_start_location has_start_location has start location has start location x 'has end location' y if and only if there exists some process z such that x 'ends with' z and z 'occurs in' y ends with process that occurs in RO:0002232 external has_end_location has_end_location has end location has end location p has input c iff: p is a process, c is a material entity, c is a participant in p, c is present at the start of p, and the state of c is modified during p. consumes RO:0002233 external has_input has_input has input has input p has output c iff c is a participant in p, c is present at the end of p, and c is not present in the same state at the beginning of p. produces RO:0002234 external has_output has_output has output has output Mammalian thymus has developmental contribution from some pharyngeal pouch 3; Mammalian thymus has developmental contribution from some pharyngeal pouch 4 [Kardong] x has developmental contribution from y iff x has some part z such that z develops from y RO:0002254 uberon has_developmental_contribution_from has_developmental_contribution_from has developmental contribution from has developmental contribution from inverse of has developmental contribution from developmentally contributes to t1 induced_by t2 if there is a process of developmental induction (GO:0031128) with t1 and t2 as interacting participants. t2 causes t1 to change its fate from a precursor material anatomical entity type T to T', where T' develops_from T induced by Developmental Biology, Gilbert, 8th edition, figure 6.5(F) GO:0001759 We place this under 'developmentally preceded by'. This placement should be examined in the context of reciprocal inductions[cjm] RO:0002256 uberon developmentally_induced_by developmentally_induced_by developmentally induced by developmentally induced by Inverse of developmentally induced by developmentally induces Candidate definition: x developmentally related to y if and only if there exists some developmental process (GO:0032502) p such that x and y both participates in p, and x is the output of p and y is the input of p false In general you should not use this relation to make assertions - use one of the more specific relations below this one This relation groups together various other developmental relations. It is fairly generic, encompassing induction, developmental contribution and direct and transitive develops from developmentally preceded by A faulty traffic light (material entity) whose malfunctioning (a process) is causally upstream of a traffic collision (a process): the traffic light acts upstream of the collision. c acts upstream of p if and only if c enables some f that is involved in p' and p' occurs chronologically before p, is not part of p, and affects the execution of p. c is a material entity and f, p, p' are processes. acts upstream of A gene product that has some activity, where that activity may be a part of a pathway or upstream of the pathway. c acts upstream of or within p if c is enables f, and f is causally upstream of or within p. c is a material entity and p is an process. affects acts upstream of or within x developmentally replaces y if and only if there is some developmental process that causes x to move or to cease to exist, and for the site that was occupied by x to become occupied by y, where y either comes into existence in this site or moves to this site from somewhere else This relation is intended for cases such as when we have a bone element replacing its cartilage element precursor. Currently most AOs represent this using 'develops from'. We need to decide whether 'develops from' will be generic and encompass replacement, or whether we need a new name for a generic relation that encompasses replacement and development-via-cell-lineage replaces RO:0002285 uberon developmentally_replaces developmentally_replaces developmentally replaces developmentally replaces Inverse of developmentally preceded by developmentally succeeded by 'hypopharyngeal eminence' SubClassOf 'part of precursor of' some tongue part of developmental precursor of p results in the developmental progression of s iff p is a developmental process and s is an anatomical entity and p causes s to undergo a change in state at some point along its natural developmental cycle (this cycle starts with its formation, through the mature structure, and ends with its loss). This property and its subproperties are being used primarily for the definition of GO developmental processes. The property hierarchy mirrors the core GO hierarchy. In future we may be able to make do with a more minimal set of properties, but due to the way GO is currently structured we require highly specific relations to avoid incorrect entailments. To avoid this, the corresponding genus terms in GO should be declared mutually disjoint. RO:0002295 external results_in_developmental_progression_of results_in_developmental_progression_of results in developmental progression of results in developmental progression of every flower development (GO:0009908) results in development of some flower (PO:0009046) p 'results in development of' c if and only if p is a developmental process and p results in the state of c changing from its initial state as a primordium or anlage through its mature state and to its final state. http://www.geneontology.org/GO.doc.development.shtml RO:0002296 external results_in_development_of results_in_development_of results in development of results in development of an annotation of gene X to anatomical structure formation with results_in_formation_of UBERON:0000007 (pituitary gland) means that at the beginning of the process a pituitary gland does not exist and at the end of the process a pituitary gland exists. every "endocardial cushion formation" (GO:0003272) results_in_formation_of some "endocardial cushion" (UBERON:0002062) GOC:mtg_berkeley_2013 RO:0002297 external results_in_formation_of results_in_formation_of results in formation of results in formation of an annotation of gene X to cell morphogenesis with results_in_morphogenesis_of CL:0000540 (neuron) means that at the end of the process an input neuron has attained its shape. tongue morphogenesis (GO:0043587) results in morphogenesis of tongue (UBERON:0001723) The relationship that links an entity with the process that results in the formation and shaping of that entity over time from an immature to a mature state. GOC:mtg_berkeley_2013 RO:0002298 external results_in_morphogenesis_of results_in_morphogenesis_of results in morphogenesis of results in morphogenesis of an annotation of gene X to cell maturation with results_in_maturation_of CL:0000057 (fibroblast) means that the fibroblast is mature at the end of the process bone maturation (GO:0070977) results_in_maturation_of bone (UBERON:0001474) The relationship that links an entity with a process that results in the progression of the entity over time that is independent of changes in it's shape and results in an end point state of that entity. GOC:mtg_berkeley_2013 RO:0002299 external results_in_maturation_of results_in_maturation_of results in maturation of results in maturation of p is causally upstream of, positive effect q iff p is casually upstream of q, and the execution of p is required for the execution of q. RO:0002304 external causally_upstream_of,_positive_effect causally_upstream_of,_positive_effect holds between x and y if and only if x is causally upstream of y and the progression of x increases the frequency, rate or extent of y causally upstream of, positive effect p is causally upstream of, negative effect q iff p is casually upstream of q, and the execution of p decreases the execution of q. RO:0002305 external causally_upstream_of,_negative_effect causally_upstream_of,_negative_effect causally upstream of, negative effect q characteristic of part of w if and only if there exists some p such that q inheres in p and p part of w. Because part_of is transitive, inheres in is a sub-relation of characteristic of part of inheres in part of characteristic of part of true an annotation of gene X to cell differentiation with results_in_maturation_of CL:0000057 (fibroblast) means that at the end of the process the input cell that did not have features of a fibroblast, now has the features of a fibroblast. The relationship that links a specified entity with the process that results in an unspecified entity acquiring the features and characteristics of the specified entity GOC:mtg_berkeley_2013 RO:0002315 external results_in_acquisition_of_features_of results_in_acquisition_of_features_of results in acquisition of features of results in acquisition of features of A relationship that holds via some environmental process Do not use this relation directly. It is ended as a grouping for a diverse set of relations, all involving the process of evolution. evolutionarily related to A relationship that is mediated in some way by the environment or environmental feature (ENVO:00002297) Awaiting class for domain/range constraint, see: https://github.com/OBOFoundry/Experimental-OBO-Core/issues/6 Do not use this relation directly. It is intended as a grouping for a diverse set of relations, all involving ecological interactions ecologically related to An experimental relation currently used to connect a feature possessed by an organism (e.g. anatomical structure, biological process, phenotype or quality) to a habitat or environment in which that feature is well suited, adapted or provides a reproductive advantage for the organism. For example, fins to an aquatic environment. Usually this will mean that the structure is adapted for this environment, but we avoid saying this directly - primitive forms of the structure may not have evolved specifically for that environment (for example, early wings were not necessarily adapted for an aerial environment). Note also that this is a statement about the general class of structures - not every instance of a limb need confer an advantage for a terrestrial environment, e.g. if the limb is vestigial. adapted for RO:0002322 uberon confers_advantage_in confers_advantage_in confers advantage in confers advantage in A mereological relationship or a topological relationship Do not use this relation directly. It is ended as a grouping for a diverse set of relations, all involving parthood or connectivity relationships mereotopologically related to A relationship that holds between entities participating in some developmental process (GO:0032502) Do not use this relation directly. It is ended as a grouping for a diverse set of relations, all involving organismal development developmentally related to a particular instances of akt-2 enables some instance of protein kinase activity c enables p iff c is capable of p and c acts to execute p. catalyzes executes has is catalyzing is executing This relation differs from the parent relation 'capable of' in that the parent is weaker and only expresses a capability that may not be actually realized, whereas this relation is always realized. enables A grouping relationship for any relationship directly involving a function, or that holds because of a function of one of the related entities. This is a grouping relation that collects relations used for the purpose of connecting structure and function RO:0002328 uberon functionally_related_to functionally_related_to functionally related to functionally related to this relation holds between c and p when c is part of some c', and c' is capable of p. false part of structure that is capable of true c involved_in p if and only if c enables some process p', and p' is part of p actively involved in enables part of involved in every cellular sphingolipid homeostasis process regulates_level_of some sphingolipid p regulates levels of c if p regulates some amount (PATO:0000070) of c regulates levels of (process to entity) RO:0002332 external regulates_levels_of regulates_levels_of regulates levels of regulates levels of inverse of enables enabled by inverse of regulates regulated by (processual) RO:0002334 external regulated_by regulated_by regulated by regulated by inverse of negatively regulates RO:0002335 external negatively_regulated_by negatively_regulated_by negatively regulated by negatively regulated by inverse of positively regulates RO:0002336 external positively_regulated_by positively_regulated_by positively regulated by positively regulated by A relationship that holds via some process of localization Do not use this relation directly. It is a grouping relation. related via localization to This relationship holds between p and l when p is a transport or localization process in which the outcome is to move some cargo c from some initial location l to some destination. RO:0002338 external has_target_start_location has_target_start_location has target start location has target start location This relationship holds between p and l when p is a transport or localization process in which the outcome is to move some cargo c from a an initial location to some destination l. RO:0002339 external has_target_end_location has_target_end_location has target end location has target end location Holds between p and l when p is a transportation or localization process and the outcome of this process is to move c from one location to another, and the route taken by c follows a path that is aligned_with l RO:0002341 external results_in_transport_along results_in_transport_along results in transport along results in transport along Holds between p and m when p is a transportation or localization process and the outcome of this process is to move c from one location to another, and the route taken by c follows a path that crosses m. RO:0002342 external results_in_transport_across results_in_transport_across results in transport across results in transport across 'pollen tube growth' results_in growth_of some 'pollen tube' RO:0002343 external results_in_growth_of results_in_growth_of results in growth of results in growth of 'mitochondrial transport' results_in_transport_to_from_or_in some mitochondrion (GO:0005739) RO:0002344 external results_in_transport_to_from_or_in results_in_transport_to_from_or_in results in transport to from or in results in transport to from or in An organism that is a member of a population of organisms is member of is a mereological relation between a item and a collection. is member of member part of SIO member of has member is a mereological relation between a collection and an item. SIO RO:0002351 uberon has_member has_member has member has member inverse of has input RO:0002352 uberon input_of input_of input of input of inverse of has output RO:0002353 external uberon output_of output_of output of output of formed as result of a is attached to b if and only if a and b are discrete objects or object parts, and there are physical connections between a and b such that a force pulling a will move b, or a force pulling b will move a attached to (anatomical structure to anatomical structure) RO:0002371 uberon attaches_to attaches_to attached to attached to m has_muscle_origin s iff m is attached_to s, and it is the case that when m contracts, s does not move. The site of the origin tends to be more proximal and have greater mass than what the other end attaches to. Wikipedia:Insertion_(anatomy) RO:0002372 uberon has_muscle_origin has_muscle_origin has muscle origin has muscle origin We need to import uberon muscle to create a stricter domain constraint m has_muscle_insertion s iff m is attaches_to s, and it is the case that when m contracts, s moves. Insertions are usually connections of muscle via tendon to bone. Wikipedia:Insertion_(anatomy) RO:0002373 uberon has_muscle_insertion has_muscle_insertion has muscle insertion has muscle insertion We need to import uberon muscle into RO to use as a stricter domain constraint A relationship that holds between two material entities in a system of connected structures, where the branching relationship holds based on properties of the connecting network. Do not use this relation directly. It is ended as a grouping for a diverse set of relations, all involving branching relationships This relation can be used for geographic features (e.g. rivers) as well as anatomical structures (plant branches and roots, leaf veins, animal veins, arteries, nerves) in branching relationship with https://github.com/obophenotype/uberon/issues/170 Deschutes River tributary_of Columbia River inferior epigastric vein tributary_of external iliac vein x tributary_of y if and only if x a channel for the flow of a substance into y, where y is larger than x. If x and y are hydrographic features, then y is the main stem of a river, or a lake or bay, but not the sea or ocean. If x and y are anatomical, then y is a vein. drains into drains to tributary channel of http://en.wikipedia.org/wiki/Tributary http://www.medindia.net/glossary/venous_tributary.htm This relation can be used for geographic features (e.g. rivers) as well as anatomical structures (veins, arteries) RO:0002376 uberon tributary_of tributary_of tributary of tributary of http://en.wikipedia.org/wiki/Tributary A lump of clay and a statue x spatially_coextensive_with y if and inly if x and y have the same location This relation is added for formal completeness. It is unlikely to be used in many practical scenarios spatially coextensive with In the tree T depicted in https://oborel.github.io/obo-relations/branching_part_of.png, B1 is a (direct) branching part of T. B1-1, B1-2, and B1-3 are also branching parts of T, but these are considered indirect branching parts as they do not directly connect to the main stem S x is a branching part of y if and only if x is part of y and x is connected directly or indirectly to the main stem of y RO:0002380 uberon branching_part_of branching_part_of branching part of branching part of FMA:85994 x has developmental potential involving y iff x is capable of a developmental process with output y. y may be the successor of x, or may be a different structure in the vicinity (as for example in the case of developmental induction). has developmental potential involving x has potential to developmentrally contribute to y iff x developmentally contributes to y or x is capable of developmentally contributing to y RO:0002385 uberon has_potential_to_developmentally_contribute_to has_potential_to_developmentally_contribute_to has potential to developmentally contribute to has potential to developmentally contribute to x has potential to developmentally induce y iff x developmentally induces y or x is capable of developmentally inducing y has potential to developmentally induce x has the potential to develop into y iff x develops into y or if x is capable of developing into y RO:0002387 uberon has_potential_to_develop_into has_potential_to_develop_into has potential to develop into has potential to develop into x has potential to directly develop into y iff x directly develops into y or x is capable of directly developing into y has potential to directly develop into inverse of upstream of RO:0002404 external causally_downstream_of causally_downstream_of causally downstream of causally downstream of RO:0002405 external immediately_causally_downstream_of immediately_causally_downstream_of immediately causally downstream of immediately causally downstream of p indirectly positively regulates q iff p is indirectly causally upstream of q and p positively regulates q. indirectly activates indirectly positively regulates p indirectly negatively regulates q iff p is indirectly causally upstream of q and p negatively regulates q. indirectly inhibits indirectly negatively regulates relation that links two events, processes, states, or objects such that one event, process, state, or object (a cause) contributes to the production of another event, process, state, or object (an effect) where the cause is partly or wholly responsible for the effect, and the effect is partly or wholly dependent on the cause. This branch of the ontology deals with causal relations between entities. It is divided into two branches: causal relations between occurrents/processes, and causal relations between material entities. We take an 'activity flow-centric approach', with the former as primary, and define causal relations between material entities in terms of causal relations between occurrents. To define causal relations in an activity-flow type network, we make use of 3 primitives: * Temporal: how do the intervals of the two occurrents relate? * Is the causal relation regulatory? * Is the influence positive or negative? The first of these can be formalized in terms of the Allen Interval Algebra. Informally, the 3 bins we care about are 'direct', 'indirect' or overlapping. Note that all causal relations should be classified under a RO temporal relation (see the branch under 'temporally related to'). Note that all causal relations are temporal, but not all temporal relations are causal. Two occurrents can be related in time without being causally connected. We take causal influence to be primitive, elucidated as being such that has the upstream changed, some qualities of the donwstream would necessarily be modified. For the second, we consider a relationship to be regulatory if the system in which the activities occur is capable of altering the relationship to achieve some objective. This could include changing the rate of production of a molecule. For the third, we consider the effect of the upstream process on the output(s) of the downstream process. If the level of output is increased, or the rate of production of the output is increased, then the direction is increased. Direction can be positive, negative or neutral or capable of either direction. Two positives in succession yield a positive, two negatives in succession yield a positive, otherwise the default assumption is that the net effect is canceled and the influence is neutral. Each of these 3 primitives can be composed to yield a cross-product of different relation types. Do not use this relation directly. It is intended as a grouping for a diverse set of relations, all involving cause and effect. causally related to relation that links two events, processes, states, or objects such that one event, process, state, or object (a cause) contributes to the production of another event, process, state, or object (an effect) where the cause is partly or wholly responsible for the effect, and the effect is partly or wholly dependent on the cause. https://en.wikipedia.org/wiki/Causality p is causally upstream of q iff p is causally related to q, the end of p precedes the end of q, and p is not an occurrent part of q. RO:0002411 external causally_upstream_of causally_upstream_of causally upstream of causally upstream of p is immediately causally upstream of q iff p is causally upstream of q, and the end of p is coincident with the beginning of q. RO:0002412 external immediately_causally_upstream_of immediately_causally_upstream_of immediately causally upstream of immediately causally upstream of p is 'causally upstream or within' q iff p is causally related to q, and the end of p precedes, or is coincident with, the end of q. We would like to make this disjoint with 'preceded by', but this is prohibited in OWL2 influences (processual) RO:0002418 external affects causally_upstream_of_or_within causally_upstream_of_or_within causally upstream of or within inverse of causally upstream of or within RO:0002427 external causally_downstream_of_or_within causally_downstream_of_or_within causally downstream of or within c involved in regulation of p if c is involved in some p' and p' regulates some p involved in regulation of c involved in regulation of p if c is involved in some p' and p' positively regulates some p involved in positive regulation of c involved in regulation of p if c is involved in some p' and p' negatively regulates some p involved in negative regulation of c involved in or regulates p if and only if either (i) c is involved in p or (ii) c is involved in regulation of p OWL does not allow defining object properties via a Union involved in or reguates involved in or involved in regulation of A protein that enables activity in a cytosol. c executes activity in d if and only if c enables p and p occurs_in d. Assuming no action at a distance by gene products, if a gene product enables (is capable of) a process that occurs in some structure, it must have at least some part in that structure. executes activity in enables activity in is active in true c executes activity in d if and only if c enables p and p occurs_in d. Assuming no action at a distance by gene products, if a gene product enables (is capable of) a process that occurs in some structure, it must have at least some part in that structure. GOC:cjm GOC:dos p contributes to morphology of w if and only if a change in the morphology of p entails a change in the morphology of w. Examples: every skull contributes to morphology of the head which it is a part of. Counter-example: nuclei do not generally contribute to the morphology of the cell they are part of, as they are buffered by cytoplasm. RO:0002433 uberon contributes_to_morphology_of contributes_to_morphology_of contributes to morphology of A relationship that holds between two entities in which the processes executed by the two entities are causally connected. This relation and all sub-relations can be applied to either (1) pairs of entities that are interacting at any moment of time (2) populations or species of entity whose members have the disposition to interact (3) classes whose members have the disposition to interact. Considering relabeling as 'pairwise interacts with' Note that this relationship type, and sub-relationship types may be redundant with process terms from other ontologies. For example, the symbiotic relationship hierarchy parallels GO. The relations are provided as a convenient shortcut. Consider using the more expressive processual form to capture your data. In the future, these relations will be linked to their cognate processes through rules. in pairwise interaction with interacts with http://purl.obolibrary.org/obo/ro/docs/interaction-relations/ http://purl.obolibrary.org/obo/MI_0914 An interaction relationship in which the two partners are molecular entities that directly physically interact with each other for example via a stable binding interaction or a brief interaction during which one modifies the other. binds molecularly binds with molecularly interacts with http://purl.obolibrary.org/obo/MI_0915 Axiomatization to GO to be added later An interaction relation between x and y in which x catalyzes a reaction in which a phosphate group is added to y. phosphorylates The entity A, immediately upstream of the entity B, has an activity that regulates an activity performed by B. For example, A and B may be gene products and binding of B by A regulates the kinase activity of B. A and B can be physically interacting but not necessarily. Immediately upstream means there are no intermediate entity between A and B. molecularly controls directly regulates activity of The entity A, immediately upstream of the entity B, has an activity that negatively regulates an activity performed by B. For example, A and B may be gene products and binding of B by A negatively regulates the kinase activity of B. directly inhibits molecularly decreases activity of directly negatively regulates activity of The entity A, immediately upstream of the entity B, has an activity that positively regulates an activity performed by B. For example, A and B may be gene products and binding of B by A positively regulates the kinase activity of B. directly activates molecularly increases activity of directly positively regulates activity of This property or its subproperties is not to be used directly. These properties exist as helper properties that are used to support OWL reasoning. helper property (not for use in curation) 'otolith organ' SubClassOf 'composed primarily of' some 'calcium carbonate' x composed_primarily_of y if and only if more than half of the mass of x is made from y or units of the same type as y. RO:0002473 uberon composed_primarily_of composed_primarily_of composed primarily of p has part that occurs in c if and only if there exists some p1, such that p has_part p1, and p1 occurs in c. has part that occurs in true is kinase activity See notes for inverse relation receives input from This is an exploratory relation. The label is taken from the FMA. It needs aligned with the neuron-specific relations such as has postsynaptic terminal in. sends output to Do not use this relation directly. It is ended as a grouping for a diverse set of relations, typically connecting an anatomical entity to a biological process or developmental stage. relation between physical entity and a process or stage x existence starts during y if and only if the time point at which x starts is after or equivalent to the time point at which y starts and before or equivalent to the time point at which y ends. Formally: x existence starts during y iff α(x) >= α(y) & α(x) <= ω(y). RO:0002488 uberon existence_starts_during existence_starts_during existence starts during x starts ends with y if and only if the time point at which x starts is equivalent to the time point at which y starts. Formally: x existence starts with y iff α(x) = α(y). RO:0002489 uberon existence_starts_with existence_starts_with existence starts with x existence overlaps y if and only if either (a) the start of x is part of y or (b) the end of x is part of y. Formally: x existence starts and ends during y iff (α(x) >= α(y) & α(x) <= ω(y)) OR (ω(x) <= ω(y) & ω(x) >= α(y)) The relations here were created based on work originally by Fabian Neuhaus and David Osumi-Sutherland. The work has not yet been vetted and errors in definitions may have occurred during transcription. existence overlaps x exists during y if and only if: 1) the time point at which x begins to exist is after or equal to the time point at which y begins and 2) the time point at which x ceases to exist is before or equal to the point at which y ends. Formally: x existence starts and ends during y iff α(x) >= α(y) & α(x) <= ω(y) & ω(x) <= ω(y) & ω(x) >= α(y) RO:0002491 exists during uberon existence_starts_and_ends_during existence_starts_and_ends_during The relations here were created based on work originally by Fabian Neuhaus and David Osumi-Sutherland. The work has not yet been vetted and errors in definitions may have occurred during transcription. existence starts and ends during Relation between continuant c and occurrent s, such that every instance of c ceases to exist during some s, if it does not die prematurely. x existence ends during y if and only if the time point at which x ends is before or equivalent to the time point at which y ends and after or equivalent to the point at which y starts. Formally: x existence ends during y iff ω(x) <= ω(y) and ω(x) >= α(y). RO:0002492 ceases_to_exist_during uberon existence_ends_during existence_ends_during The relations here were created based on work originally by Fabian Neuhaus and David Osumi-Sutherland. The work has not yet been vetted and errors in definitions may have occurred during transcription. existence ends during Relation between continuant c and occurrent s, such that every instance of c ceases to exist during some s, if it does not die prematurely. https://orcid.org/0000-0002-6601-2165 x existence ends with y if and only if the time point at which x ends is equivalent to the time point at which y ends. Formally: x existence ends with y iff ω(x) = ω(y). RO:0002493 uberon existence_ends_with existence_ends_with The relations here were created based on work originally by Fabian Neuhaus and David Osumi-Sutherland. The work has not yet been vetted and errors in definitions may have occurred during transcription. existence ends with x transformation of y if x is the immediate transformation of y, or is linked to y through a chain of transformation relationships RO:0002494 uberon transformation_of transformation_of transformation of x immediate transformation of y iff x immediately succeeds y temporally at a time boundary t, and all of the matter present in x at t is present in y at t, and all the matter in y at t is present in x at t RO:0002495 uberon immediate_transformation_of immediate_transformation_of immediate transformation of x existence starts during or after y if and only if the time point at which x starts is after or equivalent to the time point at which y starts. Formally: x existence starts during or after y iff α (x) >= α (y). RO:0002496 uberon existence_starts_during_or_after existence_starts_during_or_after The relations here were created based on work originally by Fabian Neuhaus and David Osumi-Sutherland. The work has not yet been vetted and errors in definitions may have occurred during transcription. existence starts during or after x existence ends during or before y if and only if the time point at which x ends is before or equivalent to the time point at which y ends. RO:0002497 uberon existence_ends_during_or_before existence_ends_during_or_before The relations here were created based on work originally by Fabian Neuhaus and David Osumi-Sutherland. The work has not yet been vetted and errors in definitions may have occurred during transcription. existence ends during or before A relationship between a material entity and a process where the material entity has some causal role that influences the process causal agent in process p is causally related to q if and only if p or any part of p and q or any part of q are linked by a chain of events where each event pair is one where the execution of p influences the execution of q. p may be upstream, downstream, part of, or a container of q. Do not use this relation directly. It is intended as a grouping for a diverse set of relations, all involving cause and effect. causal relation between processes depends on q towards e2 if and only if q is a relational quality such that q inheres-in some e, and e != e2 and q is dependent on e2 This relation is provided in order to support the use of relational qualities such as 'concentration of'; for example, the concentration of C in V is a quality that inheres in V, but pertains to C. towards The intent is that the process branch of the causal property hierarchy is primary (causal relations hold between occurrents/processes), and that the material branch is defined in terms of the process branch Do not use this relation directly. It is intended as a grouping for a diverse set of relations, all involving cause and effect. causal relation between entities Forelimb SubClassOf has_skeleton some 'Forelimb skeleton' A relation between a segment or subdivision of an organism and the maximal subdivision of material entities that provides structural support for that segment or subdivision. has supporting framework The skeleton of a structure may be a true skeleton (for example, the bony skeleton of a hand) or any kind of support framework (the hydrostatic skeleton of a sea star, the exoskeleton of an insect, the cytoskeleton of a cell). RO:0002551 uberon has_skeleton has_skeleton has skeleton This should be to a more restricted class, but not the Uberon class may be too restricted since it is a composition-based definition of skeleton rather than functional. causally influenced by (entity-centric) causally influenced by interaction relation helper property http://purl.obolibrary.org/obo/ro/docs/interaction-relations/ molecular interaction relation helper property Holds between p and c when p is locomotion process and the outcome of this process is the change of location of c RO:0002565 external results_in_movement_of results_in_movement_of results in movement of The entity or characteristic A is causally upstream of the entity or characteristic B, A having an effect on B. An entity corresponds to any biological type of entity as long as a mass is measurable. A characteristic corresponds to a particular specificity of an entity (e.g., phenotype, shape, size). causally influences (entity-centric) causally influences A relation that holds between elements of a musculoskeletal system or its analogs. Do not use this relation directly. It is ended as a grouping for a diverse set of relations, all involving the biomechanical processes. biomechanically related to m1 has_muscle_antagonist m2 iff m1 has_muscle_insertion s, m2 has_muscle_insection s, m1 acts in opposition to m2, and m2 is responsible for returning the structure to its initial position. Wikipedia:Antagonist_(muscle) RO:0002568 uberon has_muscle_antagonist has_muscle_antagonist has muscle antagonist inverse of branching part of RO:0002569 uberon has_branching_part has_branching_part has branching part x is a conduit for y iff y overlaps through the lumen_of of x, and y has parts on either side of the lumen of x. UBERON:cjm This relation holds between a thing with a 'conduit' (e.g. a bone foramen) and a 'conduee' (for example, a nerve) such that at the time the relationship holds, the conduee has two ends sticking out either end of the conduit. It should therefore note be used for objects that move through the conduit but whose spatial extent does not span the passage. For example, it would not be used for a mountain that contains a long tunnel through which trains pass. Nor would we use it for a digestive tract and objects such as food that pass through. RO:0002570 uberon conduit_for conduit_for conduit for x lumen_of y iff x is the space or substance that is part of y and does not cross any of the inner membranes or boundaries of y that is maximal with respect to the volume of the convex hull. GOC:cjm RO:0002571 uberon lumen_of lumen_of lumen of s is luminal space of x iff s is lumen_of x and s is an immaterial entity RO:0002572 uberon luminal_space_of luminal_space_of luminal space of A relation that holds between an attribute or a qualifier and another attribute. This relation is intended to be used in combination with PATO, to be able to refine PATO quality classes using modifiers such as 'abnormal' and 'normal'. It has yet to be formally aligned into an ontological framework; it's not clear what the ontological status of the "modifiers" are. has modifier inverse of has skeleton RO:0002576 uberon skeleton_of skeleton_of skeleton of p directly regulates q iff p is immediately causally upstream of q and p regulates q. directly regulates (processual) RO:0002578 external directly_regulates directly_regulates directly regulates gland SubClassOf 'has part structure that is capable of' some 'secretion by cell' s 'has part structure that is capable of' p if and only if there exists some part x such that s 'has part' x and x 'capable of' p has part structure that is capable of p results in breakdown of c if and only if the execution of p leads to c no longer being present at the end of p results in breakdown of RO:0002588 external results_in_assembly_of results_in_assembly_of results in assembly of RO:0002590 external results_in_disassembly_of results_in_disassembly_of results in disassembly of p results in organization of c iff p results in the assembly, arrangement of constituent parts, or disassembly of c RO:0002592 external results_in_organization_of results_in_organization_of results in organization of A relationship that holds between a material entity and a process in which causality is involved, with either the material entity or some part of the material entity exerting some influence over the process, or the process influencing some aspect of the material entity. Do not use this relation directly. It is intended as a grouping for a diverse set of relations, all involving cause and effect. causal relation between material entity and a process pyrethroid -> growth Holds between c and p if and only if c is capable of some activity a, and a regulates p. capable of regulating Holds between c and p if and only if c is capable of some activity a, and a negatively regulates p. capable of negatively regulating renin -> arteriolar smooth muscle contraction Holds between c and p if and only if c is capable of some activity a, and a positively regulates p. capable of positively regulating Inverse of 'causal agent in process' RO:0002608 external process_has_causal_agent process_has_causal_agent process has causal agent A relationship that holds between two entities, where the entities exhibit a statistical dependence relationship. The entities may be statistical variables, or they may be other kinds of entities such as diseases, chemical entities or processes. Groups both positive and negative correlation correlated with p directly positively regulates q iff p is immediately causally upstream of q, and p positively regulates q. directly positively regulates (process to process) RO:0002629 external directly_positively_regulates directly_positively_regulates directly positively regulates p directly negatively regulates q iff p is immediately causally upstream of q, and p negatively regulates q. directly negatively regulates (process to process) RO:0002630 external directly_negatively_regulates directly_negatively_regulates directly negatively regulates a produces b if some process that occurs_in a has_output b, where a and b are material entities. Examples: hybridoma cell line produces monoclonal antibody reagent; chondroblast produces avascular GAG-rich matrix. RO:0003000 external uberon produces produces Note that this definition doesn't quite distinguish the output of a transformation process from a production process, which is related to the identity/granularity issue. produces produces a produced_by b iff some process that occurs_in b has_output a. RO:0003001 external uberon produced_by produced_by produced by produced by p 'has primary input ot output' c iff either (a) p 'has primary input' c or (b) p 'has primary output' c. 2018-12-13T11:26:17Z RO:0004007 external has_primary_input_or_output has_primary_input_or_output has primary input or output p has primary output c if (a) p has output c and (b) the goal of process is to modify, produce, or transform c. 2018-12-13T11:26:32Z RO:0004008 external has_primary_output has_primary_output has primary output p has primary output c if (a) p has output c and (b) the goal of process is to modify, produce, or transform c. GOC:cjm GOC:dph GOC:kva GOC:pt PMID:27812932 p has primary input c if (a) p has input c and (b) the goal of process is to modify, consume, or transform c. 2018-12-13T11:26:56Z RO:0004009 external has_primary_input has_primary_input has primary input p has primary input c if (a) p has input c and (b) the goal of process is to modify, consume, or transform c. GOC:cjm GOC:dph GOC:kva GOC:pt PMID:27812932 Holds between an entity and an process P where the entity enables some larger compound process, and that larger process has-part P. 2018-01-25T23:20:13Z enables subfunction 2018-01-26T23:49:30Z acts upstream of or within, positive effect 2018-01-26T23:49:51Z acts upstream of or within, negative effect c 'acts upstream of, positive effect' p if c is enables f, and f is causally upstream of p, and the direction of f is positive 2018-01-26T23:53:14Z acts upstream of, positive effect c 'acts upstream of, negative effect' p if c is enables f, and f is causally upstream of p, and the direction of f is negative 2018-01-26T23:53:22Z acts upstream of, negative effect 2018-03-13T23:55:05Z causally upstream of or within, negative effect 2018-03-13T23:55:19Z causally upstream of or within, positive effect The entity A has an activity that regulates an activity of the entity B. For example, A and B are gene products where the catalytic activity of A regulates the kinase activity of B. regulates activity of p acts on population of c iff c' is a collection, has members of type c, and p has participant c pg 2020-06-08T17:21:33Z RO:0012003 external acts_on_population_of acts_on_population_of acts on population of acts on population of pg 2021-02-26T07:28:29Z RO:0012008 external results_in_fusion_of results_in_fusion_of results in fusion of results in fusion of p is indirectly causally upstream of q iff p is causally upstream of q and there exists some process r such that p is causally upstream of r and r is causally upstream of q. pg 2022-09-26T06:07:17Z indirectly causally upstream of p indirectly regulates q iff p is indirectly causally upstream of q and p regulates q. pg 2022-09-26T06:08:01Z indirectly regulates q1 different_in_magnitude_relative_to q2 if and only if magnitude(q1) NOT =~ magnitude(q2). Here, magnitude(q) is a function that maps a quality to a unit-invariant scale. different in magnitude relative to q1 different_in_magnitude_relative_to q2 if and only if magnitude(q1) NOT =~ magnitude(q2). Here, magnitude(q) is a function that maps a quality to a unit-invariant scale. https://orcid.org/0000-0002-6601-2165 q1 increased_in_magnitude_relative_to q2 if and only if magnitude(q1) > magnitude(q2). Here, magnitude(q) is a function that maps a quality to a unit-invariant scale. This relation is used to determine the 'directionality' of relative qualities such as 'increased strength', relative to the parent type, 'strength'. increased in magnitude relative to q1 increased_in_magnitude_relative_to q2 if and only if magnitude(q1) > magnitude(q2). Here, magnitude(q) is a function that maps a quality to a unit-invariant scale. https://orcid.org/0000-0002-6601-2165 q1 decreased_in_magnitude_relative_to q2 if and only if magnitude(q1) < magnitude(q2). Here, magnitude(q) is a function that maps a quality to a unit-invariant scale. This relation is used to determine the 'directionality' of relative qualities such as 'decreased strength', relative to the parent type, 'strength'. decreased in magnitude relative to q1 decreased_in_magnitude_relative_to q2 if and only if magnitude(q1) < magnitude(q2). Here, magnitude(q) is a function that maps a quality to a unit-invariant scale. https://orcid.org/0000-0002-6601-2165 s3 has_cross_section s3 if and only if : there exists some 2d plane that intersects the bearer of s3, and the impression of s3 upon that plane has shape quality s2. Example: a spherical object has the quality of being spherical, and the spherical quality has_cross_section round. has cross section s3 has_cross_section s3 if and only if : there exists some 2d plane that intersects the bearer of s3, and the impression of s3 upon that plane has shape quality s2. https://orcid.org/0000-0002-6601-2165 q1 reciprocal_of q2 if and only if : q1 and q2 are relational qualities and a phenotype e q1 e2 mutually implies a phenotype e2 q2 e. There are frequently two ways to state the same thing: we can say 'spermatocyte lacks asters' or 'asters absent from spermatocyte'. In this case the quality is 'lacking all parts of type' - it is a (relational) quality of the spermatocyte, and it is with respect to instances of 'aster'. One of the popular requirements of PATO is that it continue to support 'absent', so we need to relate statements which use this quality to the 'lacking all parts of type' quality. reciprocal of q1 reciprocal_of q2 if and only if : q1 and q2 are relational qualities and a phenotype e q1 e2 mutually implies a phenotype e2 q2 e. https://orcid.org/0000-0002-6601-2165 A diagnostic testing device utilizes a specimen. X device utilizes material Y means X and Y are material entities, and X is capable of some process P that has input Y. A diagnostic testing device utilizes a specimen means that the diagnostic testing device is capable of an assay, and this assay a specimen as its input. See github ticket https://github.com/oborel/obo-relations/issues/497 2021-11-08T12:00:00Z utilizes device utilizes material A relationship that holds between a process and a characteristic in which process (P) regulates characteristic (C) iff: P results in the existence of C OR affects the intensity or magnitude of C. RO:0019000 gene_ontology regulates_characteristic regulates_characteristic regulates characteristic A relationship that holds between a process and a characteristic in which process (P) positively regulates characteristic (C) iff: P results in an increase in the intensity or magnitude of C. RO:0019001 gene_ontology positively_regulates_characteristic positively_regulates_characteristic positively regulates characteristic A relationship that holds between a process and a characteristic in which process (P) negatively regulates characteristic (C) iff: P results in a decrease in the intensity or magnitude of C. RO:0019002 gene_ontology negatively_regulates_characteristic negatively_regulates_characteristic negatively regulates characteristic p has anatomical participant c iff p has participant c, and c is an anatomical entity 2018-09-26T01:08:58Z RO:0040036 external results_in_changes_to_anatomical_or_cellular_structure results_in_changes_to_anatomical_or_cellular_structure results in changes to anatomical or cellular structure chebi_ontology has_functional_parent false false has functional parent chebi_ontology has_parent_hydride false false has parent hydride chebi_ontology is_conjugate_acid_of true false is conjugate acid of chebi_ontology is_conjugate_base_of true false is conjugate base of chebi_ontology is_enantiomer_of true false is enantiomer of chebi_ontology is_substituent_group_from false false is substituent group from chebi_ontology is_tautomer_of true is tautomer of x anteriorly_connected_to y iff the anterior part of x is connected to y. i.e. x connected_to y and x posterior_to y. uberon anteriorly_connected_to anteriorly connected to x anteriorly_connected_to y iff the anterior part of x is connected to y. i.e. x connected_to y and x posterior_to y. http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern carries uberon channel_for channel for uberon channels_from channels_from uberon channels_into channels_into x distally_connected_to y iff the distal part of x is connected to y. i.e. x connected_to y and x proximal_to y. uberon distally_connected_to distally connected to x distally_connected_to y iff the distal part of x is connected to y. i.e. x connected_to y and x proximal_to y. http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern X extends_fibers into Y iff there exists some neuron (N) and N has_soma_location X and N 'has synaptic IO in region' some Y uberon extends_fibers_into extends_fibers_into X extends_fibers into Y iff there exists some neuron (N) and N has_soma_location X and N 'has synaptic IO in region' some Y https://orcid.org/0000-0002-7073-9172 Relationship between a fluid and a material entity, where the fluid is the output of a realization of a filtration role that inheres in the material entity. uberon filtered_through Relationship between a fluid and a filtration barrier, where the portion of fluid arises as a transformation of another portion of fluid on the other side of the barrier, with larger particles removed filtered through a indirectly_supplies s iff a has a branch and the branch supplies or indirectly supplies s. add to RO uberon indirectly_supplies indirectly_supplies x posteriorly_connected_to y iff the posterior part of x is connected to y. i.e. x connected_to y and x anterior_to y. uberon posteriorly_connected_to posteriorly connected to x posteriorly_connected_to y iff the posterior part of x is connected to y. i.e. x connected_to y and x anterior_to y. http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern uberon protects protects x proximally_connected_to y iff the proximal part of x is connected to y. i.e. x connected_to y and x distal_to y. uberon proximally_connected_to proximally connected to x proximally_connected_to y iff the proximal part of x is connected to y. i.e. x connected_to y and x distal_to y. http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern uberon sexually_homologous_to sexually_homologous_to c site_of p if c is the bearer of a disposition that is realized by a process that has p as part. uberon capable_of_has_part site_of site_of uberon subdivision_of placeholder relation. X = 'subdivision of A' and subdivision_of some B means that X is the mereological sum of A and B subdivision of . uberon transitively_anteriorly_connected_to transitively anteriorly connected to . http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern . uberon transitively_distally_connected_to transitively distally connected to . http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern . uberon transitively_proximally_connected_to transitively proximally connected to . http://purl.obolibrary.org/obo/uberon/docs/Connectivity-Design-Pattern entity Entity Julius Caesar Verdi’s Requiem the Second World War your body mass index BFO 2 Reference: In all areas of empirical inquiry we encounter general terms of two sorts. First are general terms which refer to universals or types:animaltuberculosissurgical procedurediseaseSecond, are general terms used to refer to groups of entities which instantiate a given universal but do not correspond to the extension of any subuniversal of that universal because there is nothing intrinsic to the entities in question by virtue of which they – and only they – are counted as belonging to the given group. Examples are: animal purchased by the Emperortuberculosis diagnosed on a Wednesdaysurgical procedure performed on a patient from Stockholmperson identified as candidate for clinical trial #2056-555person who is signatory of Form 656-PPVpainting by Leonardo da VinciSuch terms, which represent what are called ‘specializations’ in [81 Entity doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example Werner Ceusters 'portions of reality' include 4 sorts, entities (as BFO construes them), universals, configurations, and relations. It is an open question as to whether entities as construed in BFO will at some point also include these other portions of reality. See, for example, 'How to track absolutely everything' at http://www.referent-tracking.com/_RTU/papers/CeustersICbookRevised.pdf An entity is anything that exists or has existed or will exist. (axiom label in BFO2 Reference: [001-001]) entity Entity doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example Werner Ceusters 'portions of reality' include 4 sorts, entities (as BFO construes them), universals, configurations, and relations. It is an open question as to whether entities as construed in BFO will at some point also include these other portions of reality. See, for example, 'How to track absolutely everything' at http://www.referent-tracking.com/_RTU/papers/CeustersICbookRevised.pdf per discussion with Barry Smith An entity is anything that exists or has existed or will exist. (axiom label in BFO2 Reference: [001-001]) continuant Continuant An entity that exists in full at any time in which it exists at all, persists through time while maintaining its identity and has no temporal parts. BFO 2 Reference: Continuant entities are entities which can be sliced to yield parts only along the spatial dimension, yielding for example the parts of your table which we call its legs, its top, its nails. ‘My desk stretches from the window to the door. It has spatial parts, and can be sliced (in space) in two. With respect to time, however, a thing is a continuant.’ [60, p. 240 Continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example, in an expansion involving bringing in some of Ceuster's other portions of reality, questions are raised as to whether universals are continuants A continuant is an entity that persists, endures, or continues to exist through time while maintaining its identity. (axiom label in BFO2 Reference: [008-002]) if b is a continuant and if, for some t, c has_continuant_part b at t, then c is a continuant. (axiom label in BFO2 Reference: [126-001]) if b is a continuant and if, for some t, cis continuant_part of b at t, then c is a continuant. (axiom label in BFO2 Reference: [009-002]) if b is a material entity, then there is some temporal interval (referred to below as a one-dimensional temporal region) during which b exists. (axiom label in BFO2 Reference: [011-002]) (forall (x y) (if (and (Continuant x) (exists (t) (continuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [009-002] (forall (x y) (if (and (Continuant x) (exists (t) (hasContinuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [126-001] (forall (x) (if (Continuant x) (Entity x))) // axiom label in BFO2 CLIF: [008-002] (forall (x) (if (Material Entity x) (exists (t) (and (TemporalRegion t) (existsAt x t))))) // axiom label in BFO2 CLIF: [011-002] continuant Continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. For example, in an expansion involving bringing in some of Ceuster's other portions of reality, questions are raised as to whether universals are continuants A continuant is an entity that persists, endures, or continues to exist through time while maintaining its identity. (axiom label in BFO2 Reference: [008-002]) if b is a continuant and if, for some t, c has_continuant_part b at t, then c is a continuant. (axiom label in BFO2 Reference: [126-001]) if b is a continuant and if, for some t, cis continuant_part of b at t, then c is a continuant. (axiom label in BFO2 Reference: [009-002]) if b is a material entity, then there is some temporal interval (referred to below as a one-dimensional temporal region) during which b exists. (axiom label in BFO2 Reference: [011-002]) (forall (x y) (if (and (Continuant x) (exists (t) (continuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [009-002] (forall (x y) (if (and (Continuant x) (exists (t) (hasContinuantPartOfAt y x t))) (Continuant y))) // axiom label in BFO2 CLIF: [126-001] (forall (x) (if (Continuant x) (Entity x))) // axiom label in BFO2 CLIF: [008-002] (forall (x) (if (Material Entity x) (exists (t) (and (TemporalRegion t) (existsAt x t))))) // axiom label in BFO2 CLIF: [011-002] occurrent Occurrent An entity that has temporal parts and that happens, unfolds or develops through time. BFO 2 Reference: every occurrent that is not a temporal or spatiotemporal region is s-dependent on some independent continuant that is not a spatial region BFO 2 Reference: s-dependence obtains between every process and its participants in the sense that, as a matter of necessity, this process could not have existed unless these or those participants existed also. A process may have a succession of participants at different phases of its unfolding. Thus there may be different players on the field at different times during the course of a football game; but the process which is the entire game s-depends_on all of these players nonetheless. Some temporal parts of this process will s-depend_on on only some of the players. Occurrent doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. An example would be the sum of a process and the process boundary of another process. Simons uses different terminology for relations of occurrents to regions: Denote the spatio-temporal location of a given occurrent e by 'spn[e]' and call this region its span. We may say an occurrent is at its span, in any larger region, and covers any smaller region. Now suppose we have fixed a frame of reference so that we can speak not merely of spatio-temporal but also of spatial regions (places) and temporal regions (times). The spread of an occurrent, (relative to a frame of reference) is the space it exactly occupies, and its spell is likewise the time it exactly occupies. We write 'spr[e]' and `spl[e]' respectively for the spread and spell of e, omitting mention of the frame. An occurrent is an entity that unfolds itself in time or it is the instantaneous boundary of such an entity (for example a beginning or an ending) or it is a temporal or spatiotemporal region which such an entity occupies_temporal_region or occupies_spatiotemporal_region. (axiom label in BFO2 Reference: [077-002]) Every occurrent occupies_spatiotemporal_region some spatiotemporal region. (axiom label in BFO2 Reference: [108-001]) b is an occurrent entity iff b is an entity that has temporal parts. (axiom label in BFO2 Reference: [079-001]) (forall (x) (if (Occurrent x) (exists (r) (and (SpatioTemporalRegion r) (occupiesSpatioTemporalRegion x r))))) // axiom label in BFO2 CLIF: [108-001] (forall (x) (iff (Occurrent x) (and (Entity x) (exists (y) (temporalPartOf y x))))) // axiom label in BFO2 CLIF: [079-001] occurrent Occurrent doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. An example would be the sum of a process and the process boundary of another process. per discussion with Barry Smith Simons uses different terminology for relations of occurrents to regions: Denote the spatio-temporal location of a given occurrent e by 'spn[e]' and call this region its span. We may say an occurrent is at its span, in any larger region, and covers any smaller region. Now suppose we have fixed a frame of reference so that we can speak not merely of spatio-temporal but also of spatial regions (places) and temporal regions (times). The spread of an occurrent, (relative to a frame of reference) is the space it exactly occupies, and its spell is likewise the time it exactly occupies. We write 'spr[e]' and `spl[e]' respectively for the spread and spell of e, omitting mention of the frame. An occurrent is an entity that unfolds itself in time or it is the instantaneous boundary of such an entity (for example a beginning or an ending) or it is a temporal or spatiotemporal region which such an entity occupies_temporal_region or occupies_spatiotemporal_region. (axiom label in BFO2 Reference: [077-002]) Every occurrent occupies_spatiotemporal_region some spatiotemporal region. (axiom label in BFO2 Reference: [108-001]) b is an occurrent entity iff b is an entity that has temporal parts. (axiom label in BFO2 Reference: [079-001]) (forall (x) (if (Occurrent x) (exists (r) (and (SpatioTemporalRegion r) (occupiesSpatioTemporalRegion x r))))) // axiom label in BFO2 CLIF: [108-001] (forall (x) (iff (Occurrent x) (and (Entity x) (exists (y) (temporalPartOf y x))))) // axiom label in BFO2 CLIF: [079-001] ic IndependentContinuant a chair a heart a leg a molecule a spatial region an atom an orchestra. an organism the bottom right portion of a human torso the interior of your mouth A continuant that is a bearer of quality and realizable entity entities, in which other entities inhere and which itself cannot inhere in anything. b is an independent continuant = Def. b is a continuant which is such that there is no c and no t such that b s-depends_on c at t. (axiom label in BFO2 Reference: [017-002]) For any independent continuant b and any time t there is some spatial region r such that b is located_in r at t. (axiom label in BFO2 Reference: [134-001]) For every independent continuant b and time t during the region of time spanned by its life, there are entities which s-depends_on b during t. (axiom label in BFO2 Reference: [018-002]) (forall (x t) (if (IndependentContinuant x) (exists (r) (and (SpatialRegion r) (locatedInAt x r t))))) // axiom label in BFO2 CLIF: [134-001] (forall (x t) (if (and (IndependentContinuant x) (existsAt x t)) (exists (y) (and (Entity y) (specificallyDependsOnAt y x t))))) // axiom label in BFO2 CLIF: [018-002] (iff (IndependentContinuant a) (and (Continuant a) (not (exists (b t) (specificallyDependsOnAt a b t))))) // axiom label in BFO2 CLIF: [017-002] independent continuant b is an independent continuant = Def. b is a continuant which is such that there is no c and no t such that b s-depends_on c at t. (axiom label in BFO2 Reference: [017-002]) For any independent continuant b and any time t there is some spatial region r such that b is located_in r at t. (axiom label in BFO2 Reference: [134-001]) For every independent continuant b and time t during the region of time spanned by its life, there are entities which s-depends_on b during t. (axiom label in BFO2 Reference: [018-002]) (forall (x t) (if (IndependentContinuant x) (exists (r) (and (SpatialRegion r) (locatedInAt x r t))))) // axiom label in BFO2 CLIF: [134-001] (forall (x t) (if (and (IndependentContinuant x) (existsAt x t)) (exists (y) (and (Entity y) (specificallyDependsOnAt y x t))))) // axiom label in BFO2 CLIF: [018-002] (iff (IndependentContinuant a) (and (Continuant a) (not (exists (b t) (specificallyDependsOnAt a b t))))) // axiom label in BFO2 CLIF: [017-002] spatial region An occurrent that has temporal proper parts and for some time t, p s-depends_on some material entity at t. process disposition Disposition an atom of element X has the disposition to decay to an atom of element Y certain people have a predisposition to colon cancer children are innately disposed to categorize objects in certain ways. the cell wall is disposed to filter chemicals in endocytosis and exocytosis BFO 2 Reference: Dispositions exist along a strength continuum. Weaker forms of disposition are realized in only a fraction of triggering cases. These forms occur in a significant number of cases of a similar type. b is a disposition means: b is a realizable entity & b’s bearer is some material entity & b is such that if it ceases to exist, then its bearer is physically changed, & b’s realization occurs when and because this bearer is in some special physical circumstances, & this realization occurs in virtue of the bearer’s physical make-up. (axiom label in BFO2 Reference: [062-002]) If b is a realizable entity then for all t at which b exists, b s-depends_on some material entity at t. (axiom label in BFO2 Reference: [063-002]) (forall (x t) (if (and (RealizableEntity x) (existsAt x t)) (exists (y) (and (MaterialEntity y) (specificallyDepends x y t))))) // axiom label in BFO2 CLIF: [063-002] (forall (x) (if (Disposition x) (and (RealizableEntity x) (exists (y) (and (MaterialEntity y) (bearerOfAt x y t)))))) // axiom label in BFO2 CLIF: [062-002] disposition b is a disposition means: b is a realizable entity & b’s bearer is some material entity & b is such that if it ceases to exist, then its bearer is physically changed, & b’s realization occurs when and because this bearer is in some special physical circumstances, & this realization occurs in virtue of the bearer’s physical make-up. (axiom label in BFO2 Reference: [062-002]) If b is a realizable entity then for all t at which b exists, b s-depends_on some material entity at t. (axiom label in BFO2 Reference: [063-002]) (forall (x t) (if (and (RealizableEntity x) (existsAt x t)) (exists (y) (and (MaterialEntity y) (specificallyDepends x y t))))) // axiom label in BFO2 CLIF: [063-002] (forall (x) (if (Disposition x) (and (RealizableEntity x) (exists (y) (and (MaterialEntity y) (bearerOfAt x y t)))))) // axiom label in BFO2 CLIF: [062-002] realizable RealizableEntity the disposition of this piece of metal to conduct electricity. the disposition of your blood to coagulate the function of your reproductive organs the role of being a doctor the role of this boundary to delineate where Utah and Colorado meet A specifically dependent continuant that inheres in continuant entities and are not exhibited in full at every time in which it inheres in an entity or group of entities. The exhibition or actualization of a realizable entity is a particular manifestation, functioning or process that occurs under certain circumstances. To say that b is a realizable entity is to say that b is a specifically dependent continuant that inheres in some independent continuant which is not a spatial region and is of a type instances of which are realized in processes of a correlated type. (axiom label in BFO2 Reference: [058-002]) All realizable dependent continuants have independent continuants that are not spatial regions as their bearers. (axiom label in BFO2 Reference: [060-002]) (forall (x t) (if (RealizableEntity x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (bearerOfAt y x t))))) // axiom label in BFO2 CLIF: [060-002] (forall (x) (if (RealizableEntity x) (and (SpecificallyDependentContinuant x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (inheresIn x y)))))) // axiom label in BFO2 CLIF: [058-002] realizable entity To say that b is a realizable entity is to say that b is a specifically dependent continuant that inheres in some independent continuant which is not a spatial region and is of a type instances of which are realized in processes of a correlated type. (axiom label in BFO2 Reference: [058-002]) All realizable dependent continuants have independent continuants that are not spatial regions as their bearers. (axiom label in BFO2 Reference: [060-002]) (forall (x t) (if (RealizableEntity x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (bearerOfAt y x t))))) // axiom label in BFO2 CLIF: [060-002] (forall (x) (if (RealizableEntity x) (and (SpecificallyDependentContinuant x) (exists (y) (and (IndependentContinuant y) (not (SpatialRegion y)) (inheresIn x y)))))) // axiom label in BFO2 CLIF: [058-002] quality Quality the ambient temperature of this portion of air the color of a tomato the length of the circumference of your waist the mass of this piece of gold. the shape of your nose the shape of your nostril a quality is a specifically dependent continuant that, in contrast to roles and dispositions, does not require any further process in order to be realized. (axiom label in BFO2 Reference: [055-001]) If an entity is a quality at any time that it exists, then it is a quality at every time that it exists. (axiom label in BFO2 Reference: [105-001]) (forall (x) (if (Quality x) (SpecificallyDependentContinuant x))) // axiom label in BFO2 CLIF: [055-001] (forall (x) (if (exists (t) (and (existsAt x t) (Quality x))) (forall (t_1) (if (existsAt x t_1) (Quality x))))) // axiom label in BFO2 CLIF: [105-001] quality a quality is a specifically dependent continuant that, in contrast to roles and dispositions, does not require any further process in order to be realized. (axiom label in BFO2 Reference: [055-001]) If an entity is a quality at any time that it exists, then it is a quality at every time that it exists. (axiom label in BFO2 Reference: [105-001]) (forall (x) (if (Quality x) (SpecificallyDependentContinuant x))) // axiom label in BFO2 CLIF: [055-001] (forall (x) (if (exists (t) (and (existsAt x t) (Quality x))) (forall (t_1) (if (existsAt x t_1) (Quality x))))) // axiom label in BFO2 CLIF: [105-001] sdc SpecificallyDependentContinuant Reciprocal specifically dependent continuants: the function of this key to open this lock and the mutually dependent disposition of this lock: to be opened by this key of one-sided specifically dependent continuants: the mass of this tomato of relational dependent continuants (multiple bearers): John’s love for Mary, the ownership relation between John and this statue, the relation of authority between John and his subordinates. the disposition of this fish to decay the function of this heart: to pump blood the mutual dependence of proton donors and acceptors in chemical reactions [79 the mutual dependence of the role predator and the role prey as played by two organisms in a given interaction the pink color of a medium rare piece of grilled filet mignon at its center the role of being a doctor the shape of this hole. the smell of this portion of mozzarella A continuant that inheres in or is borne by other entities. Every instance of A requires some specific instance of B which must always be the same. b is a specifically dependent continuant = Def. b is a continuant & there is some independent continuant c which is not a spatial region and which is such that b s-depends_on c at every time t during the course of b’s existence. (axiom label in BFO2 Reference: [050-003]) Specifically dependent continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. We're not sure what else will develop here, but for example there are questions such as what are promises, obligation, etc. (iff (SpecificallyDependentContinuant a) (and (Continuant a) (forall (t) (if (existsAt a t) (exists (b) (and (IndependentContinuant b) (not (SpatialRegion b)) (specificallyDependsOnAt a b t))))))) // axiom label in BFO2 CLIF: [050-003] specifically dependent continuant b is a specifically dependent continuant = Def. b is a continuant & there is some independent continuant c which is not a spatial region and which is such that b s-depends_on c at every time t during the course of b’s existence. (axiom label in BFO2 Reference: [050-003]) Specifically dependent continuant doesn't have a closure axiom because the subclasses don't necessarily exhaust all possibilites. We're not sure what else will develop here, but for example there are questions such as what are promises, obligation, etc. per discussion with Barry Smith (iff (SpecificallyDependentContinuant a) (and (Continuant a) (forall (t) (if (existsAt a t) (exists (b) (and (IndependentContinuant b) (not (SpatialRegion b)) (specificallyDependsOnAt a b t))))))) // axiom label in BFO2 CLIF: [050-003] role Role John’s role of husband to Mary is dependent on Mary’s role of wife to John, and both are dependent on the object aggregate comprising John and Mary as member parts joined together through the relational quality of being married. the priest role the role of a boundary to demarcate two neighboring administrative territories the role of a building in serving as a military target the role of a stone in marking a property boundary the role of subject in a clinical trial the student role A realizable entity the manifestation of which brings about some result or end that is not essential to a continuant in virtue of the kind of thing that it is but that can be served or participated in by that kind of continuant in some kinds of natural, social or institutional contexts. BFO 2 Reference: One major family of examples of non-rigid universals involves roles, and ontologies developed for corresponding administrative purposes may consist entirely of representatives of entities of this sort. Thus ‘professor’, defined as follows,b instance_of professor at t =Def. there is some c, c instance_of professor role & c inheres_in b at t.denotes a non-rigid universal and so also do ‘nurse’, ‘student’, ‘colonel’, ‘taxpayer’, and so forth. (These terms are all, in the jargon of philosophy, phase sortals.) By using role terms in definitions, we can create a BFO conformant treatment of such entities drawing on the fact that, while an instance of professor may be simultaneously an instance of trade union member, no instance of the type professor role is also (at any time) an instance of the type trade union member role (any more than any instance of the type color is at any time an instance of the type length).If an ontology of employment positions should be defined in terms of roles following the above pattern, this enables the ontology to do justice to the fact that individuals instantiate the corresponding universals – professor, sergeant, nurse – only during certain phases in their lives. b is a role means: b is a realizable entity & b exists because there is some single bearer that is in some special physical, social, or institutional set of circumstances in which this bearer does not have to be& b is not such that, if it ceases to exist, then the physical make-up of the bearer is thereby changed. (axiom label in BFO2 Reference: [061-001]) (forall (x) (if (Role x) (RealizableEntity x))) // axiom label in BFO2 CLIF: [061-001] role b is a role means: b is a realizable entity & b exists because there is some single bearer that is in some special physical, social, or institutional set of circumstances in which this bearer does not have to be& b is not such that, if it ceases to exist, then the physical make-up of the bearer is thereby changed. (axiom label in BFO2 Reference: [061-001]) (forall (x) (if (Role x) (RealizableEntity x))) // axiom label in BFO2 CLIF: [061-001] gdc GenericallyDependentContinuant The entries in your database are patterns instantiated as quality instances in your hard drive. The database itself is an aggregate of such patterns. When you create the database you create a particular instance of the generically dependent continuant type database. Each entry in the database is an instance of the generically dependent continuant type IAO: information content entity. the pdf file on your laptop, the pdf file that is a copy thereof on my laptop the sequence of this protein molecule; the sequence that is a copy thereof in that protein molecule. b is a generically dependent continuant = Def. b is a continuant that g-depends_on one or more other entities. (axiom label in BFO2 Reference: [074-001]) (iff (GenericallyDependentContinuant a) (and (Continuant a) (exists (b t) (genericallyDependsOnAt a b t)))) // axiom label in BFO2 CLIF: [074-001] generically dependent continuant b is a generically dependent continuant = Def. b is a continuant that g-depends_on one or more other entities. (axiom label in BFO2 Reference: [074-001]) (iff (GenericallyDependentContinuant a) (and (Continuant a) (exists (b t) (genericallyDependsOnAt a b t)))) // axiom label in BFO2 CLIF: [074-001] function Function the function of a hammer to drive in nails the function of a heart pacemaker to regulate the beating of a heart through electricity the function of amylase in saliva to break down starch into sugar BFO 2 Reference: In the past, we have distinguished two varieties of function, artifactual function and biological function. These are not asserted subtypes of BFO:function however, since the same function – for example: to pump, to transport – can exist both in artifacts and in biological entities. The asserted subtypes of function that would be needed in order to yield a separate monoheirarchy are not artifactual function, biological function, etc., but rather transporting function, pumping function, etc. A function is a disposition that exists in virtue of the bearer’s physical make-up and this physical make-up is something the bearer possesses because it came into being, either through evolution (in the case of natural biological entities) or through intentional design (in the case of artifacts), in order to realize processes of a certain sort. (axiom label in BFO2 Reference: [064-001]) (forall (x) (if (Function x) (Disposition x))) // axiom label in BFO2 CLIF: [064-001] function A function is a disposition that exists in virtue of the bearer’s physical make-up and this physical make-up is something the bearer possesses because it came into being, either through evolution (in the case of natural biological entities) or through intentional design (in the case of artifacts), in order to realize processes of a certain sort. (axiom label in BFO2 Reference: [064-001]) (forall (x) (if (Function x) (Disposition x))) // axiom label in BFO2 CLIF: [064-001] An independent continuant that is spatially extended whose identity is independent of that of other entities and can be maintained through time. material entity immaterial entity A part of a cellular organism that is either an immaterial entity or a material entity with granularity above the level of a protein complex. Or, a substance produced by a cellular organism with granularity above the level of a protein complex. CARO:0000000 Following BFO, material anatomical entities may have immaterial parts (the lumen of your stomach is part of your stomach). The granularity limit follows the limits set by the Gene Ontology on the granularity limit for GO:cellular_component. Note that substances produced by an organism (sweat, feaces, urine) do not need to be part of an organism to qualify as an anatomical structure. anatomical entity A part of a cellular organism that is either an immaterial entity or a material entity with granularity above the level of a protein complex. Or, a substance produced by a cellular organism with granularity above the level of a protein complex. CAROC:Brownsville2014 Material anatomical entity that is a single connected structure with inherent 3D shape generated by coordinated expression of the organism's own genome. CARO:0000003 Note that the definition does not say 'generated exclusively by the co-ordinated expression of the organism's own genome', so this is still valid for cases where normal morphogenesis requires the actions of a facultative symbiont, or some looser dependency such as the a requirement for the presence of gut flora for normal gut development. connected anatomical structure Examples include feces, urine, blood, blood plasma, lymph, hemolymph, cerbro-spinal fluid. This class does not encompass anatomical entities with inherent 3D structure such as dentine and arthropod cuticle. Material anatomical entity in a gaseous, liquid, semisolid or solid state; produced by anatomical structures or derived from inhaled and ingested substances that have been modified by anatomical structures as they pass through the body and that does not have inherent 3D shape generated by coordinated expression of the organism's own genome. portion of organism substance CARO:0000004 Note - CARO explicitly declares organisms substances to be part of (some) organism. organism substance An anatomical entity that has mass. CARO:0000006 material anatomical entity Anatomical entity that has no mass. CARO:0000007 immaterial anatomical entity A non-material anatomical entity of two dimensions. Anatomical boundaries are contiguous structures. Except in the case of abstracted fiat boundaries such as the midline plane of an organism, all 2D anatomical entities have a 3 dimensional projection. For example, the surface of the shell of a muscle has a distinct shape that projects into the third dimension. Note that boundaries are 2D structures. They have no thickness - and so can not be sites of gene expression or gene product localisation. For this, use boundary region terms. anatomical boundary Anatomical structure that is an individual member of a clade and, at some point in its life-cycle, consists of more than one cell. CARO:0000012 MH: Can't define this class based on 2 or more cells because most multi cellular organisms (if not all) have only a single cell at some point in life history. MH: sexual subtypes should probably be logically defined based on sexual processes or sex qualities. multicellular organism An anatomical structure that has as its parts a maximally connected cell compartment surrounded by a plasma membrane. CL:0000000 GO:0005623 CARO:0000013 deprecate and replace with CL or GO term? cell Anatomical structure that is part of a cell and that has a granularity level equal to that of a protein complex or higher. cell component CARO:0000014 This is declared equivalent with GO:0044464. The definition should be co-ordinated with GO. We could obsolete the CARO class and just use the GO class. cell part Anatomical structure which is a subdivision of a whole organism, consisting of components of multiple anatomical systems, largely surrounded by a contiguous region of integument. Old definition: Anatomical structure which is a primary subdivision of whole organism. The mereological sum of these is the whole organism. CARO:0000032 organism subdivision 0 0 An anatomical structure that has no cells or cell parts as a part. CARO:0000040 Example. Insect cuticle, eggshell, hair. acellular anatomical structure A multicellular anatomical structure that is associated with an embryo and derived from the zygote from which it develops, but which does not contribute to the embryo proper or to structures that are part of the same organism after embryogenesis. CARO:0000042 MH: define as not part of embryo, or will not develop into embryo? MH: changed def to exclude cells so this class could be included in gross anatomical part. DOS: Changed to something that I think works for both vertebrates and invertebrates and that keeps the restriction to multicellular structures. Old def: "Anatomical structure that is contiguous with the embryo and is comprised of portions of tissue that will not contribute to the embryo.". One remaining question - perhaps zygote is too restrictive given that some organisms have parthenogenesis e.g. aphids? extraembryonic structure 2 A structure consisting of multiple cell components but which is not itself a cell and does not have (complete) cells as a part. multi-cell-component structure CARO:0001000 Examples: a bundle of neuron projections in the brain; a region neuropil in an arthropod central nervous system; a region of cortex (preikaryal rind) in an arthropod brain. multi-cell-part structure A fasciculated bundle of neuron projections (GO:0043005), largely or completely lacking synapses. nerve fiber bundle CARO:0001001 neuron projection bundle nerve fiber bundle EXACT Anatomical structure that is part of a multicellular organism and is at the gross anatomical level, e.g. above the level of a cell. Included are portions of organism substances such as blood, multi-cell-part structures such as axon tracts, acellular anatomical structures such as hair, and organism subdivisions such as head. Excluded is the whole organism and more granular parts of the organism, such as atoms, molecules, macromolecular complexes and cells. 10.7.2011 gross anatomical part Material anatomical entity that is a member of an individual species or is a viral or viroid particle. Melissa Haendel 9/18/11 organism or virus or viroid organism An anatomical structure that has more than one cell as a part. djs93 Sun Feb 27 10:53:00 GMT 2011 CARO:0010000 multicellular anatomical structure There is a cost to burying this in PATO. We lose that we could relax the cardinality assertion to subClassOf has_part some cell. I'm sure having this axiom inherited would come in handy. DOS An individual member of a clade of cellular organisms. 7.16.2011 CARO:0010004 A general term for organism that is agnostic about single cell vs multi-cellular. Note that this is a subclass of 'anatomical structure', meaning that an organism must be a connected structure. For example, if I take one plant and make a rooted cutting from a it, I now have two (clonally related) organisms. cellular organism 2 Material anatomical entity consisting of multiple anatomical structures that are not connected to each other. CARO:0000054 disconnected anatomical group An anatomical structure consisting of one or more cells. 2018-09-28T14:20:19Z cellular anatomical structure With a reflexive part_of relation this might safely be defined as 'anatomical structure' that has_part some cell Entity that is, is part of, or derived from an organism, virus, or viroid or a collection of them. Important for alignment with Darwin Core class "Organism". biological entity Elementary particle not affected by the strong force having a spin 1/2, a negative elementary charge and a rest mass of 0.000548579903(13) u, or 0.51099906(15) MeV. -1 0.000548579903 0.0 KEGG:C05359 PMID:21614077 Wikipedia:Electron electron chebi_ontology Elektron beta beta(-) beta-particle e e(-) e- negatron CHEBI:10545 electron PMID:21614077 Europe PMC electron ChEBI electron IUPAC electron KEGG_COMPOUND Elektron ChEBI beta IUPAC beta(-) ChEBI beta-particle IUPAC e IUPAC e(-) UniProt e- KEGG_COMPOUND negatron IUPAC Any bacterial metabolite produced during a metabolic reaction in Mycoplasma genitalium. chebi_ontology Mycoplasma genitalium metabolites CHEBI:131604 Mycoplasma genitalium metabolite Mycoplasma genitalium metabolites ChEBI A class of carbonyl compound encompassing dicarboxylic acids and any derivatives obtained by substitution of either one or both of the carboxy hydrogens. chebi_ontology dicarboxylic acids and derivatives CHEBI:131927 dicarboxylic acids and O-substituted derivatives dicarboxylic acids and derivatives ChEBI A carbohydrate acid derivative anion obtained by deprotonation of the carboxy groups of hyaluronic acid; major species at pH 7.3. -1 (C14H20NO11)n.H2O chebi_ontology hyaluronan hyaluronate polyanion CHEBI:132153 hyaluronate hyaluronan UniProt hyaluronate polyanion ChEBI A reagent that lightens or whitens a substrate through chemical reaction. Bleaching reactions usually involve oxidative or reductive processes that degrade colour systems. Bleaching can occur by destroying one or more of the double bonds in the conjugated chain, by cleaving the conjugated chain, or by oxidation of one of the other moieties in the conjugated chain. Their reactivity results in many bleaches having strong bactericidal, disinfecting, and sterilising properties. Wikipedia:Bleach chebi_ontology CHEBI:132717 bleaching agent A drug that makes increases the sensitivity of tumour cells to radiation therapy. PMID:12520460 Wikipedia:Radiosensitizer chebi_ontology radiosensitiser radiosensitisers radiosensitising agent radiosensitising agents radiosensitizer radiosensitizers radiosensitizing agents CHEBI:132992 radiosensitizing agent PMID:12520460 Europe PMC radiosensitiser ChEBI radiosensitisers ChEBI radiosensitising agent ChEBI radiosensitising agents ChEBI radiosensitizer ChEBI radiosensitizers ChEBI radiosensitizing agents ChEBI Any organic compound having an initial boiling point less than or equal to 250 degreeC (482 degreeF) measured at a standard atmospheric pressure of 101.3 kPa. Wikipedia:Volatile_organic_compound chebi_ontology VOC VOCs volatile organic compounds CHEBI:134179 volatile organic compound VOC ChEBI VOCs ChEBI volatile organic compounds ChEBI An alkanesulfonate in which the carbon at position 1 is attached to R, which can represent hydrogens, a carbon chain, or other groups. -1 CH2O3SR 94.091 93.97246 C(S([O-])(=O)=O)* CHEBI:22318 MetaCyc:Alkanesulfonates chebi_ontology alkanesulfonate oxoanions alkanesulfonates an alkanesulfonate CHEBI:134249 alkanesulfonate oxoanion alkanesulfonate oxoanions ChEBI alkanesulfonates ChEBI an alkanesulfonate UniProt A compound that, on administration, undergoes conversion by biochemical (enzymatic), chemical (possibly following an enzymatic step), or physical (e.g. photochemical) activation processes before becoming the active agent for which it is a pro-agent. PMID:26449612 chebi_ontology pro-agents proagent proagents CHEBI:136859 pro-agent PMID:26449612 Europe PMC pro-agents ChEBI proagent ChEBI proagents ChEBI Any steroid that has beta-configuration at position 5. chebi_ontology 5beta steroids 5beta-steroid 5beta-steroids CHEBI:136889 5beta steroid 5beta steroids ChEBI 5beta-steroid ChEBI 5beta-steroids ChEBI The monoprotonated form of quinine, the predominant species at pH7.3. +1 C20H25N2O2 InChI=1S/C20H24N2O2/c1-3-13-12-22-9-7-14(13)10-19(22)20(23)16-6-8-21-18-5-4-15(24-2)11-17(16)18/h3-6,8,11,13-14,19-20,23H,1,7,9-10,12H2,2H3/p+1/t13-,14-,19-,20+/m0/s1 LOUPRKONTZGTKE-WZBLMQSHSA-O 325.42470 325.19105 [H][C@]1(C[C@@H]2CC[N@H+]1C[C@@H]2C=C)[C@H](O)c1ccnc2ccc(OC)cc12 (9R)-9-hydroxy-6'-methoxy-8alpha-cinchonan-1-ium chebi_ontology quinine CHEBI:137041 quinine(1+) (9R)-9-hydroxy-6'-methoxy-8alpha-cinchonan-1-ium IUPAC quinine UniProt An atom of an element that exhibits properties that are between those of metals and nonmetals, or that has a mixture of them. The term generally includes boron, silicon, germanium, arsenic, antimony, and tellurium, while carbon, aluminium, selenium, polonium, and astatine are less commonly included. Wikipedia:Metalloid chebi_ontology metalloid metalloids CHEBI:137980 metalloid atom metalloid ChEBI metalloids ChEBI An organic cation obtained by protonation of the amino group of any tertiary amino compound. +1 HNR3 15.015 15.01090 [NH+](*)(*)* chebi_ontology a tertiary amine tertiary amine(1+) tertiary ammonium ions CHEBI:137982 tertiary ammonium ion a tertiary amine UniProt tertiary amine(1+) ChEBI tertiary ammonium ions ChEBI An N-alkylpyrrolidine that consists of N-methylpyrrolidine bearing a pyridin-3-yl substituent at position 2. 0 C10H14N2 InChI=1S/C10H14N2/c1-12-7-3-5-10(12)9-4-2-6-11-8-9/h2,4,6,8,10H,3,5,7H2,1H3 SNICXCGAKADSCV-UHFFFAOYSA-N 162.232 162.11570 C=1C=C(C2N(CCC2)C)C=NC1 3-(1-methylpyrrolidin-2-yl)pyridine chebi_ontology CHEBI:138000 3-(1-methylpyrrolidin-2-yl)pyridine 3-(1-methylpyrrolidin-2-yl)pyridine IUPAC Any compound that can disrupt the functions of the endocrine (hormone) system PMID:27929035 PMID:28356401 PMID:28526231 Wikipedia:Endocrine_disruptor chebi_ontology endocrine disrupting chemical endocrine disrupting chemicals endocrine disrupting compound endocrine disrupting compounds endocrine disruptors endocrine-disrupting chemical endocrine-disrupting chemicals hormonally active agent hormonally active agents CHEBI:138015 endocrine disruptor PMID:27929035 Europe PMC PMID:28356401 Europe PMC PMID:28526231 Europe PMC endocrine disrupting chemical ChEBI endocrine disrupting chemicals ChEBI endocrine disrupting compound ChEBI endocrine disrupting compounds ChEBI endocrine disruptors ChEBI endocrine-disrupting chemical ChEBI endocrine-disrupting chemicals ChEBI hormonally active agent ChEBI hormonally active agents ChEBI A Bronsted acid derived from one or more inorganic compounds. Inorganic acids (also known as mineral acids) form hydrons and conjugate base ions when dissolved in water. Wikipedia:Mineral_acid chebi_ontology inorganic acids mineral acid mineral acids CHEBI:138103 inorganic acid inorganic acids ChEBI mineral acid ChEBI mineral acids ChEBI Any member of a group of hydroxy steroids occuring in bile, where they are present as the sodium salts of their amides with glycine or taurine. In mammals bile acids almost invariably have 5beta-configuration, while in lower vertebrates, some bile acids, known as allo-bile acids, have 5alpha-configuration. chebi_ontology CHEBI:138366 bile acids Any main group molecular entity that is gaseous at standard temperature and pressure (STP; 0degreeC and 100 kPa). Wikipedia:https://en.wikipedia.org/wiki/Gas chebi_ontology gas molecular entities gaseous molecular entities gaseous molecular entity CHEBI:138675 gas molecular entity gas molecular entities ChEBI gaseous molecular entities ChEBI gaseous molecular entity ChEBI -1 CH2NO2 InChI=1S/CH3NO2/c2-1(3)4/h2H2,(H,3,4)/p-1 KXDHJXZQYSOELW-UHFFFAOYSA-M 60.03212 60.00910 NC([O-])=O Beilstein:3903503 CAS:302-11-4 Gmelin:239604 carbamate chebi_ontology Carbamat Karbamat carbamate ion carbamic acid, ion(1-) CHEBI:13941 carbamate Beilstein:3903503 Beilstein CAS:302-11-4 ChemIDplus Gmelin:239604 Gmelin carbamate IUPAC carbamate UniProt Carbamat ChEBI Karbamat ChEBI carbamate ion ChemIDplus carbamic acid, ion(1-) ChemIDplus An alpha-oxyketone that has a hydroxy group as the alpha-oxy moiety. PMID:15326516 PMID:19908854 PMID:20382022 PMID:23295224 chebi_ontology alpha-hydroxy ketones alpha-hydroxy-ketone alpha-hydroxy-ketones alpha-hydroxyketone alpha-hydroxyketones CHEBI:139588 alpha-hydroxy ketone PMID:15326516 Europe PMC PMID:19908854 Europe PMC PMID:20382022 Europe PMC PMID:23295224 Europe PMC alpha-hydroxy ketones ChEBI alpha-hydroxy-ketone ChEBI alpha-hydroxy-ketones ChEBI alpha-hydroxyketone ChEBI alpha-hydroxyketones ChEBI An alpha-hydroxy ketone in which the carbonyl group and the hydroxy group are linked by a carbon bearing two organyl groups. 0 C2HO2R3 57.028 56.99765 C(C(=O)*)(O)(*)* chebi_ontology tertiary alpha-hydroxy ketones tertiary alpha-hydroxy-ketone tertiary alpha-hydroxy-ketones tertiary alpha-hydroxyketone tertiary alpha-hydroxyketones CHEBI:139592 tertiary alpha-hydroxy ketone tertiary alpha-hydroxy ketones ChEBI tertiary alpha-hydroxy-ketone ChEBI tertiary alpha-hydroxy-ketones ChEBI tertiary alpha-hydroxyketone ChEBI tertiary alpha-hydroxyketones ChEBI Any saturated fatty acid containing 4 carbons. 0 CHO2R 45.017 44.99765 *C(O)=O chebi_ontology CHEBI:140601 fatty acid 4:0 An antigenic epitope recognized by an anti-bilirubin monoclonal antibody designated 24G7. A substructure of bilirubin IXalpha, it is the region containing the oxo group at C-1, the methyl group at C-2, C-(4, 5, 6, 9), and N-21 and -22. 0 C7H6N2O 134.136 134.04801 C(=CC(NC(=*)*)=*)(NC(C(C)=*)=O)* chebi_ontology CHEBI:142163 24G7 epitope A purine ribonucleoside that is a purine derivative attached to a beta-D-ribofuranosyl residue at position 9 via a glycosidic (N-glycosyl) linkage. 0 C10H11N4O4R2 251.219 251.07803 C1(=*)NC(=NC2=C1N=CN2[C@@H]3O[C@H](CO)[C@@H](O)[C@H]3O)* chebi_ontology a purine D-ribonucleoside CHEBI:142355 purines D-ribonucleoside a purine D-ribonucleoside UniProt A organic ion resulting from the deprotonation of the hydroxy group of any oxime. -1 CNO 42.017 41.99799 C(*)(=N[O-])* oxime anion chebi_ontology oximate oximates oxime anions CHEBI:142513 oxime anion oxime anion ChEBI oximate ChEBI oximates ChEBI oxime anions ChEBI An organic anion that is the conjugate base of ouabain resulting from the deprotonation of the furanone moiety; major species at pH 7.3. -1 C29H43O12 InChI=1S/C29H43O12/c1-13-22(34)23(35)24(36)25(40-13)41-15-8-19(32)28(12-30)21-17(3-5-27(28,37)9-15)29(38)6-4-16(14-7-20(33)39-11-14)26(29,2)10-18(21)31/h7,11,13,15-19,21-25,30-32,34-38H,3-6,8-10,12H2,1-2H3/q-1/t13-,15-,16+,17+,18+,19+,21+,22-,23+,24+,25-,26+,27-,28+,29-/m0/s1 MPLJNVZJPLASQC-HBYQJFLCSA-N 583.652 583.27600 O1[C@H]([C@@H]([C@H]([C@H]([C@@H]1O[C@H]2C[C@H]([C@]3([C@@](C2)(CC[C@]4([C@]5(CC[C@@H]([C@]5(C[C@H]([C@]34[H])O)C)C=6[CH-]OC(C6)=O)O)[H])O)CO)O)O)O)O)C PMID:31075189 PMID:31087249 PMID:31170971 PMID:32326025 PMID:32368275 PMID:32488807 PMID:32651756 1beta,5,11alpha,14,19-pentahydroxy-17beta-(5-oxo-2,5-dihydrofuran-2-id-3-yl)-5beta,14beta-androstan-3beta-yl 6-deoxy-alpha-L-mannopyranoside chebi_ontology ouabain ouabain anion CHEBI:145798 ouabain(1-) PMID:31075189 Europe PMC PMID:31087249 Europe PMC PMID:31170971 Europe PMC PMID:32326025 Europe PMC PMID:32368275 Europe PMC PMID:32488807 Europe PMC PMID:32651756 Europe PMC 1beta,5,11alpha,14,19-pentahydroxy-17beta-(5-oxo-2,5-dihydrofuran-2-id-3-yl)-5beta,14beta-androstan-3beta-yl 6-deoxy-alpha-L-mannopyranoside IUPAC ouabain UniProt ouabain anion ChEBI Any substance that produces or enhances dream-like states of consciousness. Wikipedia:Oneirogen chebi_ontology oneirogens CHEBI:146270 oneirogen oneirogens ChEBI A quinolinium ion obtained by protonation of the quinoline nitrogen and tertiary amino group of the antimalarial drug chloroquine. It is the major species at pH 7.3. +2 C18H28ClN3 InChI=1S/C18H26ClN3/c1-4-22(5-2)12-6-7-14(3)21-17-10-11-20-18-13-15(19)8-9-16(17)18/h8-11,13-14H,4-7,12H2,1-3H3,(H,20,21)/p+2 WHTVZRBIWZFKQO-UHFFFAOYSA-P 321.890 321.19608 [NH+]1=CC=C(C=2C1=CC(Cl)=CC2)NC(CCC[NH+](CC)CC)C PMID:25693996 7-chloro-4-{[5-(diethylazaniumyl)pentan-2-yl]amino}quinolinium chebi_ontology chloroquine dication di-protonated chloroquine CHEBI:149484 chloroquine(2+) PMID:25693996 Europe PMC 7-chloro-4-{[5-(diethylazaniumyl)pentan-2-yl]amino}quinolinium IUPAC chloroquine dication ChEBI di-protonated chloroquine ChEBI An ammonium ion derivative obtained from protonation of the nitrogens of emetine. It is the major species at pH 7.3. +2 C29H42N2O4 InChI=1S/C29H40N2O4/c1-6-18-17-31-10-8-20-14-27(33-3)29(35-5)16-23(20)25(31)12-21(18)11-24-22-15-28(34-4)26(32-2)13-19(22)7-9-30-24/h13-16,18,21,24-25,30H,6-12,17H2,1-5H3/p+2/t18-,21-,24+,25-/m0/s1 AUVVAXYIELKVAI-CKBKHPSWSA-P 482.664 482.31336 C=1C(=C(C=C2C1CC[NH+]3C[C@@H]([C@@](C[C@@]23[H])([H])C[C@@]4([H])[NH2+]CCC=5C4=CC(=C(C5)OC)OC)CC)OC)OC MetaCyc:CPD-14817 PMID:5985282 (2S)-6',7',10,11-tetramethoxyemetan-2',5-diium chebi_ontology emetine dication CHEBI:149548 emetine(2+) PMID:5985282 Europe PMC (2S)-6',7',10,11-tetramethoxyemetan-2',5-diium IUPAC emetine dication ChEBI Any agent that induces nausea and vomiting. chebi_ontology emetics CHEBI:149552 emetic emetics ChEBI Any antiviral agent which inhibits the activity of coronaviruses. Wikipedia:Coronavirus anticoronaviral agent chebi_ontology anti-coronaviral agent anti-coronaviral agents anti-coronavirus agent anti-coronavirus agents anticoronaviral agents anticoronaviral drug anticoronaviral drugs anticoronavirus agent anticoronavirus agents anticoronviral agent anticoronviral agents CHEBI:149553 anticoronaviral agent anticoronaviral agent ChEBI anti-coronaviral agent ChEBI anti-coronaviral agents ChEBI anti-coronavirus agent ChEBI anti-coronavirus agents ChEBI anticoronaviral agents ChEBI anticoronaviral drug ChEBI anticoronaviral drugs ChEBI anticoronavirus agent ChEBI anticoronavirus agents ChEBI anticoronviral agent ChEBI anticoronviral agents ChEBI A divalent inorganic anion obtained by removal of both protons from hydrogen sulfide. -2 S InChI=1S/S/q-2 UCKMPCXJQFINFW-UHFFFAOYSA-N 32.06600 31.97317 [S--] CAS:18496-25-8 UM-BBD_compID:c0569 sulfanediide sulfide(2-) chebi_ontology S(2-) Sulfide sulphide CHEBI:15138 sulfide(2-) CAS:18496-25-8 ChemIDplus UM-BBD_compID:c0569 UM-BBD sulfanediide IUPAC sulfide(2-) IUPAC S(2-) IUPAC Sulfide ChemIDplus sulphide ChEBI A purine nucleobase found in humans and other organisms. 0 C5H4N4O2 152.111 152.03343 ECMDB:ECMDB00292 KNApSAcK:C00019660 PMID:1557408 PMID:24629268 PMID:9007687 YMDB:YMDB00263 xanthine chebi_ontology 2,6-dioxopurine 2,6-dioxopurines xanthines CHEBI:15318 xanthine PMID:1557408 Europe PMC PMID:24629268 Europe PMC PMID:9007687 Europe PMC xanthine ChEBI 2,6-dioxopurine ChEBI 2,6-dioxopurines ChEBI xanthines ChEBI A molecular entity that can accept an electron, a pair of electrons, an atom or a group from another molecular entity. CHEBI:13699 CHEBI:2377 KEGG:C00028 KEGG:C16722 Acceptor chebi_ontology A Akzeptor Hydrogen-acceptor Oxidized donor accepteur CHEBI:15339 acceptor Acceptor KEGG_COMPOUND A KEGG_COMPOUND Akzeptor ChEBI Hydrogen-acceptor KEGG_COMPOUND Oxidized donor KEGG_COMPOUND accepteur ChEBI A methyl ketone that consists of propane bearing an oxo group at C2. 0 C3H6O InChI=1S/C3H6O/c1-3(2)4/h1-2H3 CSCPPACGZOOCGX-UHFFFAOYSA-N 58.07914 58.04186 CC(C)=O CHEBI:13708 CHEBI:22182 CHEBI:2398 CHEBI:40571 Beilstein:635680 CAS:67-64-1 Gmelin:1466 HMDB:HMDB0001659 KEGG:C00207 KEGG:D02311 LIPID_MAPS_instance:LMFA12000057 MetaCyc:ACETONE PDBeChem:ACN PMID:17190852 PMID:17347819 Reaxys:635680 UM-BBD_compID:c0556 Wikipedia:Acetone ACETONE Acetone acetone propan-2-one chebi_ontology 2-Propanone Aceton Azeton Dimethyl ketone Dimethylketon Propanon Pyroacetic ether beta-Ketopropane dimethylcetone dimethylketone methyl ketone propanone CHEBI:15347 acetone Beilstein:635680 Beilstein CAS:67-64-1 ChemIDplus CAS:67-64-1 KEGG COMPOUND CAS:67-64-1 NIST Chemistry WebBook Gmelin:1466 Gmelin LIPID_MAPS_instance:LMFA12000057 LIPID MAPS PMID:17190852 Europe PMC PMID:17347819 Europe PMC Reaxys:635680 Reaxys UM-BBD_compID:c0556 UM-BBD ACETONE PDBeChem Acetone KEGG_COMPOUND acetone ChEBI acetone UniProt propan-2-one IUPAC 2-Propanone KEGG_COMPOUND Aceton ChemIDplus Azeton ChEBI Dimethyl ketone KEGG_COMPOUND Dimethylketon ChEBI Propanon ChEBI Pyroacetic ether HMDB beta-Ketopropane HMDB dimethylcetone ChEBI dimethylketone MetaCyc methyl ketone ChemIDplus propanone ChemIDplus Actylcholine is an ester of acetic acid and choline, which acts as a neurotransmitter. +1 C7H16NO2 InChI=1S/C7H16NO2/c1-7(9)10-6-5-8(2,3)4/h5-6H2,1-4H3/q+1 OIPILFWXSMYKGL-UHFFFAOYSA-N 146.20748 146.11756 CC(=O)OCC[N+](C)(C)C CHEBI:12686 CHEBI:13715 CHEBI:22197 CHEBI:2416 CHEBI:40559 Beilstein:1764436 CAS:51-84-3 DrugBank:DB03128 Drug_Central:65 Gmelin:326108 KEGG:C01996 LINCS:LSM-5888 PDBeChem:ACH PMID:14764638 PMID:15014918 PMID:15231705 PMID:15361288 PMID:18050502 PMID:18407448 PMID:19255787 PMID:20963497 PMID:21130809 PMID:21246223 PMID:21545631 PMID:21601579 Wikipedia:Acetylcholine 2-acetyloxy-N,N,N-trimethylethanaminium ACETYLCHOLINE Acetylcholine acetylcholine chebi_ontology ACh Azetylcholin C7H16NO2 CC(=O)OCC[N+](C)(C)C InChI=1S/C7H16NO2/c1-7(9)10-6-5-8(2,3)4/h5-6H2,1-4H3/q+1 InChIKey=OIPILFWXSMYKGL-UHFFFAOYSA-N O-Acetylcholine choline acetate CHEBI:15355 acetylcholine Actylcholine is an ester of acetic acid and choline, which acts as a neurotransmitter. ANON:ANON Beilstein:1764436 ChemIDplus CAS:51-84-3 ChemIDplus CAS:51-84-3 KEGG COMPOUND Drug_Central:65 DrugCentral Gmelin:326108 Gmelin PMID:14764638 Europe PMC PMID:15014918 Europe PMC PMID:15231705 Europe PMC PMID:15361288 Europe PMC PMID:18050502 Europe PMC PMID:18407448 Europe PMC PMID:19255787 Europe PMC PMID:20963497 Europe PMC PMID:21130809 Europe PMC PMID:21246223 Europe PMC PMID:21545631 Europe PMC PMID:21601579 Europe PMC 2-acetyloxy-N,N,N-trimethylethanaminium IUPAC 2-acetyloxy-N,N,N-trimethylethanaminium IUPAC: ACETYLCHOLINE PDBeChem ACETYLCHOLINE PDBeChem: Acetylcholine KEGG COMPOUND: Acetylcholine KEGG_COMPOUND acetylcholine UniProt ACh ChemIDplus ACh ChemIDplus: Azetylcholin ChEBI Azetylcholin ChEBI: C7H16NO2 KEGG COMPOUND: CC(=O)OCC[N+](C)(C)C ChEBI: InChI=1S/C7H16NO2/c1-7(9)10-6-5-8(2,3)4/h5-6H2,1-4H3/q+1 ChEBI: InChIKey=OIPILFWXSMYKGL-UHFFFAOYSA-N ChEBI: O-Acetylcholine KEGG COMPOUND: O-Acetylcholine KEGG_COMPOUND choline acetate ChemIDplus choline acetate ChemIDplus: A sulfur-containing amino acid that is propanoic acid with an amino group at position 2 and a sulfanyl group at position 3. 0 C3H7NO2S InChI=1S/C3H7NO2S/c4-2(1-7)3(5)6/h2,7H,1,4H2,(H,5,6) XUJNEKJLAYXESH-UHFFFAOYSA-N 121.15922 121.01975 NC(CS)C(O)=O CHEBI:14061 CHEBI:23508 CHEBI:4050 Beilstein:1721406 CAS:3374-22-9 Gmelin:2933 KEGG:C00736 KNApSAcK:C00001351 KNApSAcK:C00007323 PMID:17439666 PMID:25181601 Reaxys:1721406 Wikipedia:Cysteine Cysteine cysteine chebi_ontology 2-Amino-3-mercaptopropionic acid 2-amino-3-mercaptopropanoic acid 2-amino-3-sulfanylpropanoic acid C Cys Cystein Hcys Zystein cisteina CHEBI:15356 cysteine Beilstein:1721406 Beilstein CAS:3374-22-9 ChemIDplus CAS:3374-22-9 KEGG COMPOUND CAS:3374-22-9 NIST Chemistry WebBook Gmelin:2933 Gmelin PMID:17439666 Europe PMC PMID:25181601 Europe PMC Reaxys:1721406 Reaxys Cysteine KEGG_COMPOUND cysteine ChEBI cysteine IUPAC 2-Amino-3-mercaptopropionic acid KEGG_COMPOUND 2-amino-3-mercaptopropanoic acid JCBN 2-amino-3-sulfanylpropanoic acid IUPAC C ChEBI Cys ChEBI Cystein ChEBI Hcys IUPAC Zystein ChEBI cisteina ChEBI A simple monocarboxylic acid containing two carbons. 0 C2H4O2 InChI=1S/C2H4O2/c1-2(3)4/h1H3,(H,3,4) QTBSBXVTEAMEQO-UHFFFAOYSA-N 60.05200 60.02113 CC(O)=O CHEBI:22169 CHEBI:2387 CHEBI:40486 Beilstein:506007 CAS:64-19-7 Drug_Central:4211 Gmelin:1380 HMDB:HMDB0000042 KEGG:C00033 KEGG:D00010 KNApSAcK:C00001176 LIPID_MAPS_instance:LMFA01010002 MetaCyc:ACET PDBeChem:ACT PDBeChem:ACY PMID:12005138 PMID:15107950 PMID:16630552 PMID:16774200 PMID:17190852 PMID:19416101 PMID:19469536 PMID:22153255 PMID:22173419 PPDB:1333 Reaxys:506007 Wikipedia:Acetic_acid ACETIC ACID Acetic acid acetic acid chebi_ontology AcOH CH3-COOH CH3CO2H E 260 E-260 E260 Essigsaeure Ethanoic acid Ethylic acid HOAc INS No. 260 MeCO2H MeCOOH Methanecarboxylic acid acide acetique ethoic acid CHEBI:15366 acetic acid Beilstein:506007 Beilstein CAS:64-19-7 ChemIDplus CAS:64-19-7 KEGG COMPOUND CAS:64-19-7 NIST Chemistry WebBook Drug_Central:4211 DrugCentral Gmelin:1380 Gmelin LIPID_MAPS_instance:LMFA01010002 LIPID MAPS PMID:12005138 Europe PMC PMID:15107950 Europe PMC PMID:16630552 Europe PMC PMID:16774200 Europe PMC PMID:17190852 Europe PMC PMID:19416101 Europe PMC PMID:19469536 Europe PMC PMID:22153255 Europe PMC PMID:22173419 Europe PMC Reaxys:506007 Reaxys ACETIC ACID PDBeChem Acetic acid KEGG_COMPOUND acetic acid IUPAC AcOH ChEBI CH3-COOH IUPAC CH3CO2H ChEBI E 260 ChEBI E-260 ChEBI E260 ChEBI Essigsaeure ChEBI Ethanoic acid KEGG_COMPOUND Ethylic acid ChemIDplus HOAc ChEBI INS No. 260 ChEBI MeCO2H ChEBI MeCOOH ChEBI Methanecarboxylic acid ChemIDplus acide acetique ChemIDplus ethoic acid ChEBI 0 O2 InChI=1S/O2/c1-2 MYMOFIZGZYHOMD-UHFFFAOYSA-N 31.998 31.98983 O=O CHEBI:10745 CHEBI:13416 CHEBI:23833 CHEBI:25366 CHEBI:30491 CHEBI:44742 CHEBI:7860 CAS:7782-44-7 Gmelin:485 HMDB:HMDB0001377 KEGG:C00007 KEGG:D00003 MetaCyc:OXYGEN-MOLECULE MolBase:750 PDBeChem:OXY PMID:10906528 PMID:16977326 PMID:18210929 PMID:18638417 PMID:19840863 PMID:7710549 PMID:9463773 Wikipedia:Oxygen dioxygen chebi_ontology Disauerstoff E 948 E-948 E948 O2 OXYGEN MOLECULE Oxygen [OO] dioxygene molecular oxygen CHEBI:15379 dioxygen CAS:7782-44-7 ChemIDplus CAS:7782-44-7 KEGG COMPOUND CAS:7782-44-7 NIST Chemistry WebBook Gmelin:485 Gmelin PMID:10906528 Europe PMC PMID:16977326 Europe PMC PMID:18210929 Europe PMC PMID:18638417 Europe PMC PMID:19840863 Europe PMC PMID:7710549 Europe PMC PMID:9463773 Europe PMC dioxygen IUPAC Disauerstoff ChEBI E 948 ChEBI E-948 ChEBI E948 ChEBI O2 IUPAC O2 KEGG_COMPOUND O2 UniProt OXYGEN MOLECULE PDBeChem Oxygen KEGG_COMPOUND [OO] MolBase dioxygene ChEBI molecular oxygen ChEBI An adenosine 5'-phosphate in which the 5'-phosphate is a triphosphate group. It is involved in the transportation of chemical energy during metabolic pathways. 0 C10H16N5O13P3 InChI=1S/C10H16N5O13P3/c11-8-5-9(13-2-12-8)15(3-14-5)10-7(17)6(16)4(26-10)1-25-30(21,22)28-31(23,24)27-29(18,19)20/h2-4,6-7,10,16-17H,1H2,(H,21,22)(H,23,24)(H2,11,12,13)(H2,18,19,20)/t4-,6-,7-,10-/m1/s1 ZKHQWZAMYRWXGA-KQYNXXCUSA-N 507.18100 506.99575 Nc1ncnc2n(cnc12)[C@@H]1O[C@H](COP(O)(=O)OP(O)(=O)OP(O)(O)=O)[C@@H](O)[C@H]1O CHEBI:10789 CHEBI:10841 CHEBI:13236 CHEBI:22249 CHEBI:2359 CHEBI:40938 Beilstein:73010 CAS:56-65-5 DrugBank:DB00171 Drug_Central:91 Gmelin:34857 HMDB:HMDB0000538 KEGG:C00002 KEGG:D08646 KNApSAcK:C00001491 PDBeChem:ATP Patent:US3079379 Reaxys:73010 Wikipedia:Adenosine_triphosphate ATP adenosine 5'-(tetrahydrogen triphosphate) chebi_ontology ADENOSINE-5'-TRIPHOSPHATE Adenosine 5'-triphosphate Adenosine triphosphate H4atp CHEBI:15422 ATP Beilstein:73010 Beilstein CAS:56-65-5 ChemIDplus CAS:56-65-5 KEGG COMPOUND Drug_Central:91 DrugCentral Gmelin:34857 Gmelin Reaxys:73010 Reaxys ATP KEGG_COMPOUND adenosine 5'-(tetrahydrogen triphosphate) IUPAC ADENOSINE-5'-TRIPHOSPHATE PDBeChem Adenosine 5'-triphosphate KEGG_COMPOUND Adenosine triphosphate ChemIDplus H4atp IUPAC A peptide zwitterion obtained from the tranfer of a proton from the carboxy group to the amino group of any tripeptide. It contains an equal number of positively-charged and negatively-charged functional groups. Major structure at pH 7.3. 0 C6H8N3O4R3 186.146 186.05148 C(=O)([C@@H]([NH3+])*)N[C@H](C(=O)N[C@H](C(=O)[O-])*)* chebi_ontology L-amino acid tripeptide zwitterion L-amino acid tripeptide zwitterions amino acid tripeptide zwitterion amino acid tripeptide zwitterions an L-amino acid tripeptide CHEBI:155837 tripeptide zwitterion L-amino acid tripeptide zwitterion ChEBI L-amino acid tripeptide zwitterions ChEBI amino acid tripeptide zwitterion ChEBI amino acid tripeptide zwitterions ChEBI an L-amino acid tripeptide UniProt Aldehydic parent sugars (polyhydroxy aldehydes H[CH(OH)]nC(=O)H, n >= 2) and their intramolecular hemiacetals. 0 C2H4O2(CH2O)n CHEBI:13755 CHEBI:22305 CHEBI:2561 KEGG:C01370 Wikipedia:Aldose Aldose chebi_ontology aldoses an aldose CHEBI:15693 aldose Aldose KEGG_COMPOUND aldoses ChEBI an aldose UniProt Any alpha-amino acid having L-configuration at the alpha-carbon. 0 C2H4NO2R 74.05870 74.02420 N[C@@H]([*])C(O)=O CHEBI:13072 CHEBI:13243 CHEBI:13797 CHEBI:21224 CHEBI:6175 KEGG:C00151 L-alpha-amino acid L-alpha-amino acids chebi_ontology L-2-Amino acid L-Amino acid L-alpha-amino acids CHEBI:15705 L-alpha-amino acid L-alpha-amino acid IUPAC L-alpha-amino acids IUPAC L-2-Amino acid KEGG_COMPOUND L-Amino acid KEGG_COMPOUND L-alpha-amino acids ChEBI A primary alcohol is a compound in which a hydroxy group, -OH, is attached to a saturated carbon atom which has either three hydrogen atoms attached to it or only one other carbon atom and two hydrogen atoms attached to it. 0 CH3OR 31.034 31.01839 *C(O)([H])[H] CHEBI:13676 CHEBI:14887 CHEBI:26262 CHEBI:57489 CHEBI:8406 KEGG:C00226 Primary alcohol chebi_ontology 1-Alcohol a primary alcohol primary alcohols CHEBI:15734 primary alcohol Primary alcohol KEGG_COMPOUND 1-Alcohol KEGG_COMPOUND a primary alcohol UniProt primary alcohols ChEBI A monocarboxylic acid anion that is the conjugate base of formic acid. Induces severe metabolic acidosis and ocular injury in human subjects. -1 CHO2 InChI=1S/CH2O2/c2-1-3/h1H,(H,2,3)/p-1 BDAGIHXWWSANSR-UHFFFAOYSA-M 45.01744 44.99820 [H]C([O-])=O CHEBI:14276 CHEBI:24081 Beilstein:1901205 CAS:71-47-6 Gmelin:1006 HMDB:HMDB0000142 KEGG:C00058 MetaCyc:FORMATE PMID:17190852 PMID:3946945 Reaxys:1901205 UM-BBD_compID:c0106 Wikipedia:Formate formate chebi_ontology HCO2 anion aminate formiate formic acid, ion(1-) formylate hydrogen carboxylate methanoate CHEBI:15740 formate Beilstein:1901205 Beilstein CAS:71-47-6 ChemIDplus CAS:71-47-6 NIST Chemistry WebBook Gmelin:1006 Gmelin PMID:17190852 Europe PMC PMID:3946945 Europe PMC Reaxys:1901205 Reaxys UM-BBD_compID:c0106 UM-BBD formate IUPAC formate UniProt HCO2 anion NIST_Chemistry_WebBook aminate ChEBI formiate ChEBI formic acid, ion(1-) ChemIDplus formylate ChEBI hydrogen carboxylate ChEBI methanoate ChEBI An primary alcohol that is butan-1-ol in which a hydrogen at position 3 has been replaced by a methyl group. 0 C5H12O InChI=1S/C5H12O/c1-5(2)3-4-6/h5-6H,3-4H2,1-2H3 PHTQWCKDNZKARW-UHFFFAOYSA-N 88.14818 88.08882 CC(C)CCO CHEBI:11855 CHEBI:1597 CHEBI:20125 CHEBI:43359 Beilstein:1718835 CAS:123-51-3 DrugBank:DB02296 Gmelin:49460 HMDB:HMDB0006007 KEGG:C07328 PMID:23043843 PMID:23698045 PMID:24487533 PMID:24767042 PMID:24804072 PMID:24862930 Reaxys:1718835 YMDB:YMDB00570 3-methylbutan-1-ol isoamylol chebi_ontology 1-HYDROXY-3-METHYLBUTANE 2-methyl-4-butanol 3-Methylbutanol 3-methyl-1-butanol 3-methylbutanol Iso-amylalkohol Isoamyl alcohol Isopentyl alcohol Isopentylalkohol alcool isoamylique i-amyl alcohol isobutylcarbinol isopentan-1-ol isopentanol primary isoamyl alcohol CHEBI:15837 isoamylol Beilstein:1718835 Beilstein CAS:123-51-3 ChemIDplus CAS:123-51-3 KEGG COMPOUND CAS:123-51-3 NIST Chemistry WebBook Gmelin:49460 Gmelin PMID:23043843 Europe PMC PMID:23698045 Europe PMC PMID:24487533 Europe PMC PMID:24767042 Europe PMC PMID:24804072 Europe PMC PMID:24862930 Europe PMC Reaxys:1718835 Reaxys 3-methylbutan-1-ol IUPAC isoamylol ChemIDplus 1-HYDROXY-3-METHYLBUTANE PDBeChem 2-methyl-4-butanol ChemIDplus 3-Methylbutanol KEGG_COMPOUND 3-methyl-1-butanol NIST_Chemistry_WebBook 3-methylbutanol UniProt Iso-amylalkohol ChemIDplus Isoamyl alcohol KEGG_COMPOUND Isopentyl alcohol KEGG_COMPOUND Isopentylalkohol ChEBI alcool isoamylique ChemIDplus i-amyl alcohol NIST_Chemistry_WebBook isobutylcarbinol ChemIDplus isopentan-1-ol NIST_Chemistry_WebBook isopentanol ChemIDplus primary isoamyl alcohol ChemIDplus A peptide containing ten or more amino acid residues. C4H6N2O3R2(C2H2NOR)n CHEBI:14860 CHEBI:8314 KEGG:C00403 Polypeptide polypeptides chebi_ontology Polypeptid polipeptido CHEBI:15841 polypeptide Polypeptide KEGG_COMPOUND polypeptides IUPAC Polypeptid ChEBI polipeptido ChEBI A cinchona alkaloid that is cinchonidine in which the hydrogen at the 6-position of the quinoline ring is substituted by methoxy. 0 C20H24N2O2 InChI=1S/C20H24N2O2/c1-3-13-12-22-9-7-14(13)10-19(22)20(23)16-6-8-21-18-5-4-15(24-2)11-17(16)18/h3-6,8,11,13-14,19-20,23H,1,7,9-10,12H2,2H3/t13-,14-,19-,20+/m0/s1 LOUPRKONTZGTKE-WZBLMQSHSA-N 324.41680 324.18378 [H][C@]1(C[C@@H]2CC[N@]1C[C@@H]2C=C)[C@H](O)c1ccnc2ccc(OC)cc12 CHEBI:127176 CHEBI:15001 CHEBI:26499 CHEBI:355947 CHEBI:569215 CHEBI:602929 CHEBI:8723 Beilstein:91867 CAS:130-95-0 DrugBank:DB00468 Drug_Central:4523 KEGG:C06526 KEGG:D08460 KNApSAcK:C00002193 PMID:10821711 PMID:10891117 PMID:10937718 PMID:11212126 PMID:11549443 PMID:11728183 PMID:11844668 PMID:11855978 PMID:12127529 PMID:12213073 PMID:12217353 PMID:12477351 PMID:12502361 PMID:12798326 PMID:12873511 PMID:14761192 PMID:15026051 PMID:15027870 PMID:15225721 PMID:15857133 PMID:16524728 PMID:16933872 PMID:17482816 PMID:17506538 PMID:17570664 PMID:17850126 PMID:18348514 PMID:18788725 PMID:2579237 PMID:2657065 PMID:7009867 PMID:8182707 Wikipedia:Quinine (9R)-6'-methoxy-8alpha-cinchonan-9-ol Quinine quinine chebi_ontology (-)-Quinine (-)-quinine (8S,9R)-quinine (R)-(-)-quinine (R)-(6-methoxyquinolin-4-yl)((2S,4S,8R)-8-vinylquinuclidin-2-yl)methanol 6'-methoxycinchonidine Chinin chinine chininum quinina CHEBI:15854 quinine Beilstein:91867 Beilstein CAS:130-95-0 ChemIDplus CAS:130-95-0 KEGG COMPOUND CAS:130-95-0 NIST Chemistry WebBook Drug_Central:4523 DrugCentral PMID:10821711 ChEMBL PMID:10891117 ChEMBL PMID:10937718 ChEMBL PMID:11212126 ChEMBL PMID:11549443 ChEMBL PMID:11728183 ChEMBL PMID:11844668 ChEMBL PMID:11855978 ChEMBL PMID:12127529 ChEMBL PMID:12213073 ChEMBL PMID:12217353 ChEMBL PMID:12477351 ChEMBL PMID:12502361 ChEMBL PMID:12798326 ChEMBL PMID:12873511 ChEMBL PMID:14761192 Europe PMC PMID:15026051 ChEMBL PMID:15027870 ChEMBL PMID:15225721 ChEMBL PMID:15857133 ChEMBL PMID:16524728 ChEMBL PMID:16933872 ChEMBL PMID:17482816 ChEMBL PMID:17506538 ChEMBL PMID:17570664 ChEMBL PMID:17850126 ChEMBL PMID:18348514 ChEMBL PMID:18788725 ChEMBL PMID:2579237 ChEMBL PMID:2657065 ChEMBL PMID:7009867 ChEMBL PMID:8182707 ChEMBL (9R)-6'-methoxy-8alpha-cinchonan-9-ol IUPAC Quinine KEGG_COMPOUND quinine ChEMBL (-)-Quinine KEGG_COMPOUND (-)-quinine ChemIDplus (8S,9R)-quinine NIST_Chemistry_WebBook (R)-(-)-quinine ChEBI (R)-(6-methoxyquinolin-4-yl)((2S,4S,8R)-8-vinylquinuclidin-2-yl)methanol ChEBI 6'-methoxycinchonidine ChEBI Chinin ChemIDplus chinine ChEBI chininum ChEBI quinina ChEBI -1 Br InChI=1S/BrH/h1H/p-1 CPELXLSAUQHCOX-UHFFFAOYSA-M 79.90400 78.91889 [Br-] CHEBI:13918 CHEBI:3178 CHEBI:49515 Beilstein:3587179 CAS:24959-67-9 Gmelin:14908 KEGG:C00720 KEGG:C01324 PDBeChem:BR Bromide bromide bromide(1-) chebi_ontology BROMIDE ION Br(-) Br- bromine anion CHEBI:15858 bromide Beilstein:3587179 Beilstein CAS:24959-67-9 ChemIDplus CAS:24959-67-9 KEGG COMPOUND CAS:24959-67-9 NIST Chemistry WebBook Gmelin:14908 Gmelin Bromide KEGG_COMPOUND bromide IUPAC bromide UniProt bromide(1-) IUPAC BROMIDE ION PDBeChem Br(-) IUPAC Br- KEGG_COMPOUND bromine anion NIST_Chemistry_WebBook A nucleobase-containing molecular entity with a polymeric structure comprised of a linear sequence of 13 or more nucleotide residues. 0 (C5H8O6PR)n.C10H17O10PR2 CHEBI:13672 CHEBI:14859 CHEBI:8312 KEGG:C00419 Polynucleotide chebi_ontology polynucleotides CHEBI:15986 polynucleotide Polynucleotide KEGG_COMPOUND polynucleotides ChEBI A monoatomic monoanion resulting from the addition of an electron to any halogen atom. -1 X 0.0 0.0 [*-] CHEBI:14384 CHEBI:5605 KEGG:C00462 halide ions chebi_ontology HX Halide a halide anion halide anions halide(1-) halides halogen anion CHEBI:16042 halide anion halide ions IUPAC HX KEGG_COMPOUND Halide KEGG_COMPOUND a halide anion UniProt halide anions ChEBI halide(1-) ChEBI halides ChEBI halogen anion ChEBI The simplest member of the class of cyclopentanols bearing a single hydroxy substituent. The parent of the class of cyclopentanols. 0 C5H10O InChI=1S/C5H10O/c6-5-3-1-2-4-5/h5-6H,1-4H2 XCIXKGXIYUWCLL-UHFFFAOYSA-N 86.13230 86.07316 OC1CCCC1 CHEBI:14057 CHEBI:23494 CHEBI:4022 CAS:96-41-3 KEGG:C02020 MetaCyc:CYCLOPENTANOL PMID:22145629 PMID:24273356 Reaxys:1900556 Wikipedia:Cyclopentanol Cyclopentanol cyclopentanol chebi_ontology Cyclopentyl alcohol Hydroxycyclopentane CHEBI:16133 cyclopentanol CAS:96-41-3 ChemIDplus CAS:96-41-3 KEGG COMPOUND CAS:96-41-3 NIST Chemistry WebBook PMID:22145629 Europe PMC PMID:24273356 Europe PMC Reaxys:1900556 Reaxys Cyclopentanol KEGG_COMPOUND cyclopentanol IUPAC cyclopentanol UniProt Cyclopentyl alcohol KEGG_COMPOUND Hydroxycyclopentane ChemIDplus An azane that consists of a single nitrogen atom covelently bonded to three hydrogen atoms. 0 H3N InChI=1S/H3N/h1H3 QGZKDVFQNNGYKY-UHFFFAOYSA-N 17.03056 17.02655 [H]N([H])[H] CHEBI:13405 CHEBI:13406 CHEBI:13407 CHEBI:13771 CHEBI:22533 CHEBI:44269 CHEBI:44284 CHEBI:44404 CHEBI:7434 Beilstein:3587154 CAS:7664-41-7 Drug_Central:4625 Gmelin:79 HMDB:HMDB0000051 KEGG:C00014 KEGG:D02916 KNApSAcK:C00007267 MetaCyc:AMMONIA MolBase:930 PDBeChem:NH3 PMID:110589 PMID:11139349 PMID:11540049 PMID:11746427 PMID:11783653 PMID:13753780 PMID:14663195 PMID:15092448 PMID:15094021 PMID:15554424 PMID:15969015 PMID:16008360 PMID:16050680 PMID:16348008 PMID:16349403 PMID:16614889 PMID:16664306 PMID:16842901 PMID:17025297 PMID:17439666 PMID:17569513 PMID:17737668 PMID:18670398 PMID:22002069 PMID:22081570 PMID:22088435 PMID:22100291 PMID:22130175 PMID:22150211 PMID:22240068 PMID:22290316 PMID:22342082 PMID:22385337 PMID:22443779 PMID:22560242 Reaxys:3587154 Wikipedia:Ammonia AMMONIA Ammonia ammonia azane chebi_ontology Ammoniak NH3 R-717 [NH3] ammoniac amoniaco spirit of hartshorn CHEBI:16134 ammonia Ammoniak ChemIDplus NH3 IUPAC NH3 KEGG_COMPOUND NH3 UniProt R-717 ChEBI [NH3] MolBase ammoniac ChEBI amoniaco ChEBI spirit of hartshorn ChemIDplus Beilstein:3587154 Beilstein CAS:7664-41-7 ChemIDplus CAS:7664-41-7 KEGG COMPOUND CAS:7664-41-7 NIST Chemistry WebBook Drug_Central:4625 DrugCentral Gmelin:79 Gmelin PMID:110589 Europe PMC PMID:11139349 Europe PMC PMID:11540049 Europe PMC PMID:11746427 Europe PMC PMID:11783653 Europe PMC PMID:13753780 Europe PMC PMID:14663195 Europe PMC PMID:15092448 Europe PMC PMID:15094021 Europe PMC PMID:15554424 Europe PMC PMID:15969015 Europe PMC PMID:16008360 Europe PMC PMID:16050680 Europe PMC PMID:16348008 Europe PMC PMID:16349403 Europe PMC PMID:16614889 Europe PMC PMID:16664306 Europe PMC PMID:16842901 Europe PMC PMID:17025297 Europe PMC PMID:17439666 Europe PMC PMID:17569513 Europe PMC PMID:17737668 Europe PMC PMID:18670398 Europe PMC PMID:22002069 Europe PMC PMID:22081570 Europe PMC PMID:22088435 Europe PMC PMID:22100291 Europe PMC PMID:22130175 Europe PMC PMID:22150211 Europe PMC PMID:22240068 Europe PMC PMID:22290316 Europe PMC PMID:22342082 Europe PMC PMID:22385337 Europe PMC PMID:22443779 Europe PMC PMID:22560242 Europe PMC Reaxys:3587154 Reaxys AMMONIA PDBeChem Ammonia KEGG_COMPOUND ammonia IUPAC azane IUPAC A sulfur hydride consisting of a single sulfur atom bonded to two hydrogen atoms. A highly poisonous, flammable gas with a characteristic odour of rotten eggs, it is often produced by bacterial decomposition of organic matter in the absence of oxygen. 0 H2S InChI=1S/H2S/h1H2 RWSOTUBLDIXVET-UHFFFAOYSA-N 34.08188 33.98772 [H]S[H] CHEBI:13356 CHEBI:14414 CHEBI:24639 CHEBI:43058 CHEBI:45489 CHEBI:5787 Beilstein:3535004 CAS:7783-06-4 Drug_Central:4260 Gmelin:303 KEGG:C00283 KNApSAcK:C00007266 MolBase:1709 PDBeChem:H2S PMID:11788560 PMID:14654297 PMID:15003943 PMID:15607739 PMID:16446402 PMID:18098324 PMID:18524810 PMID:18948540 PMID:19695225 PMID:22004989 PMID:22378060 PMID:22448627 PMID:22473176 PMID:22486842 PMID:22520971 PMID:22787557 UM-BBD_compID:c0239 Wikipedia:Hydrogen_sulfide Hydrogen sulfide dihydridosulfur dihydrogen(sulfide) hydrogen sulfide sulfane chebi_ontology H2S HYDROSULFURIC ACID Hydrogen-sulfide Schwefelwasserstoff Sulfide [SH2] acide sulfhydrique dihydrogen monosulfide dihydrogen sulfide hydrogen monosulfide hydrogen sulphide hydrogene sulfure sulfure d'hydrogene CHEBI:16136 hydrogen sulfide Beilstein:3535004 Beilstein CAS:7783-06-4 ChemIDplus CAS:7783-06-4 KEGG COMPOUND CAS:7783-06-4 NIST Chemistry WebBook Drug_Central:4260 DrugCentral Gmelin:303 Gmelin PMID:11788560 Europe PMC PMID:14654297 Europe PMC PMID:15003943 Europe PMC PMID:15607739 Europe PMC PMID:16446402 Europe PMC PMID:18098324 Europe PMC PMID:18524810 Europe PMC PMID:18948540 Europe PMC PMID:19695225 Europe PMC PMID:22004989 Europe PMC PMID:22378060 Europe PMC PMID:22448627 Europe PMC PMID:22473176 Europe PMC PMID:22486842 Europe PMC PMID:22520971 Europe PMC PMID:22787557 Europe PMC UM-BBD_compID:c0239 UM-BBD Hydrogen sulfide KEGG_COMPOUND dihydridosulfur IUPAC dihydrogen(sulfide) IUPAC hydrogen sulfide IUPAC sulfane IUPAC H2S IUPAC H2S KEGG_COMPOUND HYDROSULFURIC ACID PDBeChem Hydrogen-sulfide KEGG_COMPOUND Schwefelwasserstoff ChemIDplus Sulfide KEGG_COMPOUND [SH2] MolBase acide sulfhydrique ChemIDplus dihydrogen monosulfide NIST_Chemistry_WebBook dihydrogen sulfide NIST_Chemistry_WebBook hydrogen monosulfide NIST_Chemistry_WebBook hydrogen sulphide ChemIDplus hydrogene sulfure ChemIDplus sulfure d'hydrogene ChEBI A one-carbon compound in which the carbon is attached by single bonds to four hydrogen atoms. It is a colourless, odourless, non-toxic but flammable gas (b.p. -161degreeC). 0 CH4 InChI=1S/CH4/h1H4 VNWKTOKETHGBQD-UHFFFAOYSA-N 16.04246 16.03130 [H]C([H])([H])[H] CHEBI:14585 CHEBI:25220 CHEBI:6811 Beilstein:1718732 CAS:74-82-8 Gmelin:59 HMDB:HMDB0002714 KEGG:C01438 MetaCyc:CH4 PMID:17791569 PMID:23104415 PMID:23353606 PMID:23376302 PMID:23397538 PMID:23718889 PMID:23739479 PMID:23742231 PMID:23756351 PMID:24132456 PMID:24161402 PMID:24259373 Patent:FR994032 Patent:US2583090 Reaxys:1718732 UM-BBD_compID:c0095 Wikipedia:Methane Methane methane tetrahydridocarbon chebi_ontology CH4 Methan marsh gas metano methyl hydride CHEBI:16183 methane Beilstein:1718732 ChemIDplus CAS:74-82-8 ChemIDplus CAS:74-82-8 KEGG COMPOUND CAS:74-82-8 NIST Chemistry WebBook Gmelin:59 Gmelin PMID:17791569 Europe PMC PMID:23104415 Europe PMC PMID:23353606 Europe PMC PMID:23376302 Europe PMC PMID:23397538 Europe PMC PMID:23718889 Europe PMC PMID:23739479 Europe PMC PMID:23742231 Europe PMC PMID:23756351 Europe PMC PMID:24132456 Europe PMC PMID:24161402 Europe PMC PMID:24259373 Europe PMC Reaxys:1718732 Reaxys UM-BBD_compID:c0095 UM-BBD Methane KEGG_COMPOUND methane ChEBI methane IUPAC methane UniProt tetrahydridocarbon IUPAC CH4 IUPAC Methan ChEBI marsh gas NIST_Chemistry_WebBook metano ChEBI methyl hydride ChemIDplus A sulfur oxoanion obtained by deprotonation of both OH groups of sulfuric acid. -2 O4S InChI=1S/H2O4S/c1-5(2,3)4/h(H2,1,2,3,4)/p-2 QAOWNCQODCNURD-UHFFFAOYSA-L 96.06360 95.95283 [O-]S([O-])(=O)=O CHEBI:15135 CHEBI:45687 CHEBI:9335 Beilstein:3648446 CAS:14808-79-8 Gmelin:2120 HMDB:HMDB0001448 KEGG:C00059 KEGG:D05963 MetaCyc:SULFATE PDBeChem:SO4 PMID:11200094 PMID:11452993 PMID:11581495 PMID:11798107 PMID:12166931 PMID:12668033 PMID:14597181 PMID:15093386 PMID:15984785 PMID:16186560 PMID:16345535 PMID:16347366 PMID:16348007 PMID:16483812 PMID:16534979 PMID:16656509 PMID:16742508 PMID:16742518 PMID:17120760 PMID:17420092 PMID:17439666 PMID:17709180 PMID:18398178 PMID:18815700 PMID:18846414 PMID:19047345 PMID:19244483 PMID:19544990 PMID:19628332 PMID:19812358 PMID:30398859 Reaxys:3648446 Wikipedia:Sulfate Sulfate sulfate tetraoxidosulfate(2-) tetraoxosulfate(2-) tetraoxosulfate(VI) chebi_ontology SO4(2-) SULFATE ION Sulfate anion(2-) Sulfate dianion Sulfate(2-) Sulfuric acid ion(2-) [SO4](2-) sulphate sulphate ion CHEBI:16189 sulfate Beilstein:3648446 Beilstein CAS:14808-79-8 ChemIDplus CAS:14808-79-8 NIST Chemistry WebBook Gmelin:2120 Gmelin PMID:11200094 Europe PMC PMID:11452993 Europe PMC PMID:11581495 Europe PMC PMID:11798107 Europe PMC PMID:12166931 Europe PMC PMID:12668033 Europe PMC PMID:14597181 Europe PMC PMID:15093386 Europe PMC PMID:15984785 Europe PMC PMID:16186560 Europe PMC PMID:16345535 Europe PMC PMID:16347366 Europe PMC PMID:16348007 Europe PMC PMID:16483812 Europe PMC PMID:16534979 Europe PMC PMID:16656509 Europe PMC PMID:16742508 Europe PMC PMID:16742518 Europe PMC PMID:17120760 Europe PMC PMID:17420092 Europe PMC PMID:17439666 Europe PMC PMID:17709180 Europe PMC PMID:18398178 Europe PMC PMID:18815700 Europe PMC PMID:18846414 Europe PMC PMID:19047345 Europe PMC PMID:19244483 Europe PMC PMID:19544990 Europe PMC PMID:19628332 Europe PMC PMID:19812358 Europe PMC PMID:30398859 Europe PMC Reaxys:3648446 Reaxys Sulfate KEGG_COMPOUND sulfate IUPAC sulfate UniProt tetraoxidosulfate(2-) IUPAC tetraoxosulfate(2-) IUPAC tetraoxosulfate(VI) IUPAC SO4(2-) IUPAC SULFATE ION PDBeChem Sulfate anion(2-) HMDB Sulfate dianion HMDB Sulfate(2-) HMDB Sulfuric acid ion(2-) HMDB [SO4](2-) IUPAC sulphate ChEBI sulphate ion ChEBI A carbonyl group with two C-bound amine groups. The commercially available fertilizer has an analysis of 46-0-0 (N-P2O5-K2O). 0 CH4N2O InChI=1S/CH4N2O/c2-1(3)4/h(H4,2,3,4) XSQUKJJJFZCRTK-UHFFFAOYSA-N 60.05534 60.03236 NC(N)=O CHEBI:15292 CHEBI:27218 CHEBI:46379 CHEBI:9888 Beilstein:635724 CAS:57-13-6 DrugBank:DB03904 Drug_Central:4264 ECMDB:ECMDB04172 Gmelin:1378 HMDB:HMDB0000294 KEGG:C00086 KEGG:D00023 KNApSAcK:C00007314 MetaCyc:UREA PDBeChem:URE PMID:18037357 PMID:22770225 PPDB:1728 Reaxys:635724 UM-BBD_compID:c0165 Wikipedia:Urea YMDB:YMDB00003 UREA Urea urea chebi_ontology 1728 Carbamide E927b H2NC(O)NH2 Harnstoff Karbamid carbamide carbonyldiamide ur uree CHEBI:16199 urea Beilstein:635724 Beilstein CAS:57-13-6 ChemIDplus CAS:57-13-6 KEGG COMPOUND CAS:57-13-6 NIST Chemistry WebBook Drug_Central:4264 DrugCentral Gmelin:1378 Gmelin PMID:18037357 Europe PMC PMID:22770225 Europe PMC Reaxys:635724 Reaxys UM-BBD_compID:c0165 UM-BBD UREA PDBeChem Urea KEGG_COMPOUND urea IUPAC urea UniProt 1728 PPDB Carbamide KEGG_COMPOUND E927b ChEBI H2NC(O)NH2 ChEBI Harnstoff NIST_Chemistry_WebBook Karbamid ChEBI carbamide ChEBI carbonyldiamide NIST_Chemistry_WebBook ur IUPAC uree ChEBI A 2-aminopurine carrying a 6-oxo substituent. 0 C5H5N5O InChI=1S/C5H5N5O/c6-5-9-3-2(4(11)10-5)7-1-8-3/h1H,(H4,6,7,8,9,10,11) UYTPUPDQBNUYGX-UHFFFAOYSA-N 151.126 151.04941 C12=C(N=C(NC1=O)N)NC=N2 CHEBI:14371 CHEBI:14372 CHEBI:24443 CHEBI:42948 CHEBI:5563 Beilstein:147911 CAS:73-40-5 DrugBank:DB02377 Gmelin:431879 HMDB:HMDB0000132 KEGG:C00242 KNApSAcK:C00001501 MetaCyc:GUANINE PDBeChem:GUN PMID:22770225 PMID:8070089 Reaxys:147911 Wikipedia:Guanine 2-amino-1,9-dihydro-6H-purin-6-one GUANINE Guanine guanine chebi_ontology 2-Amino-6-hydroxypurine 2-amino-6-oxopurine G Gua CHEBI:16235 guanine Beilstein:147911 Beilstein CAS:73-40-5 ChemIDplus CAS:73-40-5 KEGG COMPOUND CAS:73-40-5 NIST Chemistry WebBook Gmelin:431879 Gmelin PMID:22770225 Europe PMC PMID:8070089 Europe PMC Reaxys:147911 Reaxys 2-amino-1,9-dihydro-6H-purin-6-one IUPAC GUANINE PDBeChem Guanine KEGG_COMPOUND guanine UniProt 2-Amino-6-hydroxypurine KEGG_COMPOUND 2-amino-6-oxopurine ChEBI G ChEBI Gua CBN A primary alcohol that is ethane in which one of the hydrogens is substituted by a hydroxy group. 0 C2H6O InChI=1S/C2H6O/c1-2-3/h3H,2H2,1H3 LFQSCWFLJHTTHZ-UHFFFAOYSA-N 46.06844 46.04186 CCO CHEBI:14222 CHEBI:23978 CHEBI:30878 CHEBI:30880 CHEBI:42377 CHEBI:44594 CHEBI:4879 Beilstein:1718733 CAS:64-17-5 DrugBank:DB00898 Drug_Central:1076 Gmelin:787 HMDB:HMDB0000108 KEGG:C00469 KEGG:D00068 KEGG:D06542 KNApSAcK:C00019560 MetaCyc:ETOH MolBase:858 MolBase:859 PDBeChem:EOH PMID:11046114 PMID:11090978 PMID:11198720 PMID:11200745 PMID:11262320 PMID:11303910 PMID:11333032 PMID:11505026 PMID:11590970 PMID:11728426 PMID:11750186 PMID:11754521 PMID:11810019 PMID:11826039 PMID:11981228 PMID:12824058 PMID:12829422 PMID:12888778 PMID:12946583 PMID:14674846 PMID:15019421 PMID:15239123 PMID:15285839 PMID:15464411 PMID:15465973 PMID:15749123 PMID:15900217 PMID:15902919 PMID:16084479 PMID:16133132 PMID:16352430 PMID:16390872 PMID:16737463 PMID:16891664 PMID:16934862 PMID:17043811 PMID:17190852 PMID:17663926 PMID:17687877 PMID:18095657 PMID:18249266 PMID:18320157 PMID:18347649 PMID:18408978 PMID:18411066 PMID:18456322 PMID:18513832 PMID:18922656 PMID:18925476 PMID:19280886 PMID:19359288 PMID:19384566 PMID:19458312 PMID:19851413 PMID:19901811 PMID:21600756 PMID:21762181 PMID:21881875 PMID:21967628 PMID:22019193 PMID:22222864 PMID:22261437 PMID:22286266 PMID:22306018 PMID:22331491 PMID:22336593 PPDB:1373 Reaxys:1718733 UM-BBD_compID:c0038 Wikipedia:Ethanol ETHANOL Ethanol ethanol chebi_ontology 1-hydroxyethane Aethanol Aethylalkohol Alkohol C2H5OH Dehydrated ethanol EtOH Ethyl alcohol Methylcarbinol [CH2Me(OH)] [OEtH] alcohol alcohol etilico alcool ethylique etanol hydroxyethane spiritus vini CHEBI:16236 ethanol Beilstein:1718733 Beilstein CAS:64-17-5 ChemIDplus CAS:64-17-5 KEGG COMPOUND CAS:64-17-5 NIST Chemistry WebBook Drug_Central:1076 DrugCentral Gmelin:787 Gmelin PMID:11046114 Europe PMC PMID:11090978 Europe PMC PMID:11198720 Europe PMC PMID:11200745 Europe PMC PMID:11262320 Europe PMC PMID:11303910 Europe PMC PMID:11333032 Europe PMC PMID:11505026 Europe PMC PMID:11590970 Europe PMC PMID:11728426 Europe PMC PMID:11750186 Europe PMC PMID:11754521 Europe PMC PMID:11810019 Europe PMC PMID:11826039 Europe PMC PMID:11981228 Europe PMC PMID:12824058 Europe PMC PMID:12829422 Europe PMC PMID:12888778 Europe PMC PMID:12946583 Europe PMC PMID:14674846 Europe PMC PMID:15019421 Europe PMC PMID:15239123 Europe PMC PMID:15285839 Europe PMC PMID:15464411 Europe PMC PMID:15465973 Europe PMC PMID:15749123 Europe PMC PMID:15900217 Europe PMC PMID:15902919 Europe PMC PMID:16084479 Europe PMC PMID:16133132 Europe PMC PMID:16352430 Europe PMC PMID:16390872 Europe PMC PMID:16737463 Europe PMC PMID:16891664 Europe PMC PMID:16934862 Europe PMC PMID:17043811 Europe PMC PMID:17190852 Europe PMC PMID:17663926 Europe PMC PMID:17687877 Europe PMC PMID:18095657 Europe PMC PMID:18249266 Europe PMC PMID:18320157 Europe PMC PMID:18347649 Europe PMC PMID:18408978 Europe PMC PMID:18411066 Europe PMC PMID:18456322 Europe PMC PMID:18513832 Europe PMC PMID:18922656 Europe PMC PMID:18925476 Europe PMC PMID:19280886 Europe PMC PMID:19359288 Europe PMC PMID:19384566 Europe PMC PMID:19458312 Europe PMC PMID:19851413 Europe PMC PMID:19901811 Europe PMC PMID:21600756 Europe PMC PMID:21762181 Europe PMC PMID:21881875 Europe PMC PMID:21967628 Europe PMC PMID:22019193 Europe PMC PMID:22222864 Europe PMC PMID:22261437 Europe PMC PMID:22286266 Europe PMC PMID:22306018 Europe PMC PMID:22331491 Europe PMC PMID:22336593 Europe PMC Reaxys:1718733 Reaxys UM-BBD_compID:c0038 UM-BBD ETHANOL PDBeChem Ethanol KEGG_COMPOUND ethanol ChEBI ethanol IUPAC ethanol UniProt 1-hydroxyethane ChemIDplus Aethanol ChemIDplus Aethylalkohol ChemIDplus Alkohol ChemIDplus C2H5OH ChEBI Dehydrated ethanol KEGG_DRUG EtOH ChemIDplus Ethyl alcohol KEGG_COMPOUND Methylcarbinol KEGG_COMPOUND [CH2Me(OH)] MolBase [OEtH] MolBase alcohol NIST_Chemistry_WebBook alcohol etilico ChEBI alcool ethylique ChemIDplus etanol ChEBI hydroxyethane ChemIDplus spiritus vini ChEBI An inorganic peroxide consisting of two hydroxy groups joined by a covalent oxygen-oxygen single bond. 0 H2O2 InChI=1S/H2O2/c1-2/h1-2H MHAJPDPJQMAIIY-UHFFFAOYSA-N 34.01468 34.00548 [H]OO[H] CHEBI:13354 CHEBI:13355 CHEBI:24637 CHEBI:44812 CHEBI:5586 Beilstein:3587191 CAS:7722-84-1 Drug_Central:3281 Gmelin:509 HMDB:HMDB0003125 KEGG:C00027 KEGG:D00008 MetaCyc:HYDROGEN-PEROXIDE MolBase:932 PDBeChem:PEO PMID:10455187 PMID:10557015 PMID:10849784 PMID:11033421 PMID:11105916 PMID:11318558 PMID:11387393 PMID:11809417 PMID:11864786 PMID:11893576 PMID:12867293 PMID:12934880 PMID:14679422 PMID:15028418 PMID:15133946 PMID:15298493 PMID:16337875 PMID:16463018 PMID:16864869 PMID:17020896 PMID:17179007 PMID:17610934 PMID:17948137 PMID:18179203 PMID:18182702 PMID:18306736 PMID:18443210 PMID:18592736 PMID:19107210 PMID:19229032 PMID:19297450 PMID:19509065 PMID:26352695 PMID:26365231 PMID:7548021 PMID:7581816 PMID:8048546 PMID:8375042 PMID:8451754 PMID:9051670 PMID:9100841 PMID:9168257 PMID:9202721 PMID:9558114 PPDB:387 Reaxys:3587191 Wikipedia:Hydrogen_peroxide HYDROGEN PEROXIDE Hydrogen peroxide bis(hydridooxygen)(O--O) dihydrogen peroxide dihydrogen(peroxide) dioxidane hydrogen peroxide chebi_ontology H2O2 HOOH Oxydol [OH(OH)] dihydrogen dioxide perhydrol CHEBI:16240 hydrogen peroxide Beilstein:3587191 Beilstein CAS:7722-84-1 ChemIDplus CAS:7722-84-1 KEGG COMPOUND CAS:7722-84-1 NIST Chemistry WebBook Drug_Central:3281 DrugCentral Gmelin:509 Gmelin PMID:10455187 Europe PMC PMID:10557015 Europe PMC PMID:10849784 Europe PMC PMID:11033421 Europe PMC PMID:11105916 Europe PMC PMID:11318558 Europe PMC PMID:11387393 Europe PMC PMID:11809417 Europe PMC PMID:11864786 Europe PMC PMID:11893576 Europe PMC PMID:12867293 Europe PMC PMID:12934880 Europe PMC PMID:14679422 Europe PMC PMID:15028418 Europe PMC PMID:15133946 Europe PMC PMID:15298493 Europe PMC PMID:16337875 Europe PMC PMID:16463018 Europe PMC PMID:16864869 Europe PMC PMID:17020896 Europe PMC PMID:17179007 Europe PMC PMID:17610934 Europe PMC PMID:17948137 Europe PMC PMID:18179203 Europe PMC PMID:18182702 Europe PMC PMID:18306736 Europe PMC PMID:18443210 Europe PMC PMID:18592736 Europe PMC PMID:19107210 Europe PMC PMID:19229032 Europe PMC PMID:19297450 Europe PMC PMID:19509065 Europe PMC PMID:26352695 Europe PMC PMID:26365231 Europe PMC PMID:7548021 Europe PMC PMID:7581816 Europe PMC PMID:8048546 Europe PMC PMID:8375042 Europe PMC PMID:8451754 Europe PMC PMID:9051670 Europe PMC PMID:9100841 Europe PMC PMID:9168257 Europe PMC PMID:9202721 Europe PMC PMID:9558114 Europe PMC Reaxys:3587191 Reaxys HYDROGEN PEROXIDE PDBeChem Hydrogen peroxide KEGG_COMPOUND bis(hydridooxygen)(O--O) IUPAC dihydrogen peroxide IUPAC dihydrogen(peroxide) IUPAC dioxidane IUPAC hydrogen peroxide IUPAC H2O2 KEGG_COMPOUND H2O2 UniProt HOOH IUPAC Oxydol KEGG_COMPOUND [OH(OH)] MolBase dihydrogen dioxide IUPAC perhydrol MetaCyc A lipid containing phosphoric acid as a mono- or di-ester. The term encompasses phosphatidic acids and phosphoglycerides. CHEBI:14816 CHEBI:26063 CHEBI:8150 KEGG:C00865 Phospholipid chebi_ontology a phospholipid derivative phospholipids CHEBI:16247 phospholipid Phospholipid KEGG_COMPOUND a phospholipid derivative UniProt phospholipids ChEBI A ribonucleoside composed of a molecule of adenine attached to a ribofuranose moiety via a beta-N(9)-glycosidic bond. 0 C10H13N5O4 InChI=1S/C10H13N5O4/c11-8-5-9(13-2-12-8)15(3-14-5)10-7(18)6(17)4(1-16)19-10/h2-4,6-7,10,16-18H,1H2,(H2,11,12,13)/t4-,6-,7-,10-/m1/s1 OIRDTQYFTABQOQ-KQYNXXCUSA-N 267.24152 267.09675 Nc1ncnc2n(cnc12)[C@@H]1O[C@H](CO)[C@@H](O)[C@H]1O CHEBI:13734 CHEBI:22237 CHEBI:2472 CHEBI:40558 CHEBI:40825 CHEBI:40906 Beilstein:93029 CAS:58-61-7 DrugBank:DB00640 Drug_Central:90 ECMDB:ECMDB00050 Gmelin:53385 HMDB:HMDB0000050 KEGG:C00212 KEGG:D00045 KNApSAcK:C00007444 LINCS:LSM-28568 MetaCyc:ADENOSINE PDBeChem:ADN PMID:11213237 PMID:11820865 PMID:11978011 PMID:16183671 PMID:16917093 PMID:17190852 PMID:18000974 PMID:323854 Reaxys:93029 Wikipedia:Adenosine YMDB:YMDB00058 ADENOSINE Adenosine adenosine chebi_ontology (2R,3R,4S,5R)-2-(6-aminopurin-9-yl)-5-(hydroxymethyl)oxolane-3,4-diol 6-Amino-9-beta-D-ribofuranosyl-9H-purine 9-beta-D-Ribofuranosidoadenine 9-beta-D-Ribofuranosyl-9H-purin-6-amine 9-beta-D-ribofuranosyl-9H-purin-6-amine Ade-Rib Adenine Deoxyribonucleoside Adenocard Adenocor Adenoscan Adenosin Adenyldeoxyriboside Ado Deoxyadenosine Desoxyadenosine beta-D-Adenosine CHEBI:16335 adenosine Beilstein:93029 Beilstein CAS:58-61-7 ChemIDplus CAS:58-61-7 KEGG COMPOUND CAS:58-61-7 NIST Chemistry WebBook Drug_Central:90 DrugCentral Gmelin:53385 Gmelin PMID:11213237 Europe PMC PMID:11820865 Europe PMC PMID:11978011 Europe PMC PMID:16183671 Europe PMC PMID:16917093 Europe PMC PMID:17190852 Europe PMC PMID:18000974 Europe PMC PMID:323854 Europe PMC Reaxys:93029 Reaxys ADENOSINE PDBeChem Adenosine KEGG_COMPOUND adenosine IUPAC adenosine UniProt (2R,3R,4S,5R)-2-(6-aminopurin-9-yl)-5-(hydroxymethyl)oxolane-3,4-diol DrugBank 6-Amino-9-beta-D-ribofuranosyl-9H-purine ChemIDplus 9-beta-D-Ribofuranosidoadenine ChemIDplus 9-beta-D-Ribofuranosyl-9H-purin-6-amine ChemIDplus 9-beta-D-ribofuranosyl-9H-purin-6-amine ChEBI Ade-Rib CBN Adenine Deoxyribonucleoside DrugBank Adenocard DrugBank Adenocor DrugBank Adenoscan DrugBank Adenosin ChEBI Adenyldeoxyriboside DrugBank Ado CBN Deoxyadenosine DrugBank Desoxyadenosine DrugBank beta-D-Adenosine ChemIDplus A mucopolysaccharide composed of N-acetylglucosamine and glucuronic acid subunits. It is found in the connective tissues of vertebrates. A principal constituent of the extracellular matrix (ECM), it mediates the growth and metastasis of tumour cells. 0 (C14H21NO12)n CHEBI:14412 CHEBI:24622 CHEBI:24623 CHEBI:5772 Beilstein:8538277 CAS:9004-61-9 HMDB:HMDB0010366 KEGG:C00518 KEGG:D08043 KEGG:G10505 PMID:11122186 PMID:18056362 PMID:18290544 Reaxys:8187837 Wikipedia:Hyaluronan Hyaluronic acid chebi_ontology Hyaluronsaeure [beta-D-glucopyranuronosyl-(1->3)-2-(acetylamino)-2-deoxy-beta-D-glucopyranosyl-(1->4)]n [beta-N-Acetyl-D-glucosaminyl(1,4)beta-D-glucuronosyl(1,3)]n acide hyaluronique acido hialuronico hyaluronan CHEBI:16336 hyaluronic acid Beilstein:8538277 Beilstein CAS:9004-61-9 ChemIDplus CAS:9004-61-9 KEGG COMPOUND PMID:11122186 Europe PMC PMID:18056362 Europe PMC PMID:18290544 Europe PMC Reaxys:8187837 Reaxys Hyaluronic acid KEGG_COMPOUND Hyaluronsaeure ChEBI [beta-D-glucopyranuronosyl-(1->3)-2-(acetylamino)-2-deoxy-beta-D-glucopyranosyl-(1->4)]n ChEBI [beta-N-Acetyl-D-glucosaminyl(1,4)beta-D-glucuronosyl(1,3)]n KEGG_COMPOUND acide hyaluronique ChEBI acido hialuronico ChEBI hyaluronan ChEBI An optically active form of cysteine having D-configuration. 0 C3H7NO2S InChI=1S/C3H7NO2S/c4-2(1-7)3(5)6/h2,7H,1,4H2,(H,5,6)/t2-/m1/s1 XUJNEKJLAYXESH-UWTATZPHSA-N 121.15922 121.01975 N[C@H](CS)C(O)=O CHEBI:12919 CHEBI:20921 CHEBI:4111 CHEBI:41887 Beilstein:1721407 CAS:921-01-7 DrugBank:DB03201 ECMDB:ECMDB03417 Gmelin:363236 HMDB:HMDB0003417 KEGG:C00793 KNApSAcK:C00007323 PDBeChem:DCY PMID:13761469 PMID:23340406 PMID:24800864 Reaxys:1721407 YMDB:YMDB00913 D-CYSTEINE D-Cysteine D-cysteine chebi_ontology (2S)-2-amino-3-mercaptopropanoic acid (2S)-2-amino-3-sulfanylpropanoic acid (S)-2-amino-3-mercaptopropanoic acid D-Amino-3-mercaptopropionic acid D-Cystein D-Zystein DCY CHEBI:16375 D-cysteine Beilstein:1721407 Beilstein CAS:921-01-7 ChemIDplus CAS:921-01-7 KEGG COMPOUND Gmelin:363236 Gmelin PMID:13761469 Europe PMC PMID:23340406 Europe PMC PMID:24800864 Europe PMC Reaxys:1721407 Reaxys D-CYSTEINE PDBeChem D-Cysteine KEGG_COMPOUND D-cysteine IUPAC (2S)-2-amino-3-mercaptopropanoic acid JCBN (2S)-2-amino-3-sulfanylpropanoic acid IUPAC (S)-2-amino-3-mercaptopropanoic acid ChEBI D-Amino-3-mercaptopropionic acid KEGG_COMPOUND D-Cystein ChEBI D-Zystein ChEBI DCY PDBeChem -1 I InChI=1S/HI/h1H/p-1 XMBWDFGMSWQBCA-UHFFFAOYSA-M 126.90447 126.90502 [I-] CHEBI:14460 CHEBI:49698 CHEBI:5946 Beilstein:3587184 CAS:20461-54-5 Gmelin:14912 KEGG:C00708 PDBeChem:IOD Iodide iodide iodide(1-) chebi_ontology I(-) I- IODIDE ION iodine anion CHEBI:16382 iodide Beilstein:3587184 Beilstein CAS:20461-54-5 ChemIDplus CAS:20461-54-5 NIST Chemistry WebBook Gmelin:14912 Gmelin Iodide KEGG_COMPOUND iodide IUPAC iodide UniProt iodide(1-) IUPAC I(-) IUPAC I- KEGG_COMPOUND IODIDE ION PDBeChem iodine anion NIST_Chemistry_WebBook Compounds having the structure RSR (R =/= H). Such compounds were once called thioethers. 0 SR2 32.066 31.97207 CHEBI:13694 CHEBI:26960 CHEBI:9340 KEGG:C00297 sulfides chebi_ontology RSR Sulfide Thioether organic sulfides thioethers CHEBI:16385 organic sulfide sulfides IUPAC RSR IUPAC Sulfide KEGG_COMPOUND Thioether KEGG_COMPOUND organic sulfides ChEBI thioethers IUPAC A one-carbon compound with formula CO2 in which the carbon is attached to each oxygen atom by a double bond. A colourless, odourless gas under normal conditions, it is produced during respiration by all animals, fungi and microorganisms that depend directly or indirectly on living or decaying plants for food. 0 CO2 InChI=1S/CO2/c2-1-3 CURLTUGMZLYLDI-UHFFFAOYSA-N 44.010 43.98983 O=C=O CHEBI:13282 CHEBI:13283 CHEBI:13284 CHEBI:13285 CHEBI:23011 CHEBI:3283 CHEBI:48829 Beilstein:1900390 CAS:124-38-9 Drug_Central:4256 G