Matches in Nanopublications for { ?s ?p ?o <http://purl.org/np/RArAFrdM4rux7Cwl-lT_a4JzGk9tcGItbpd7ykkbD3S2M#assertion>. }
- has_qualitative_value label "has qualitative value - connects an attribute to a value" assertion.
- chemical_entity_or_gene_or_gene_product_regulates_gene_association_object label "chemical entity or gene or gene product regulates gene association object - connects an association to the object of the association. For example, in a gene-to-phenotype association, the gene is subject and phenotype is object." assertion.
- end_interbase_coordinate label "end interbase coordinate - The position at which the subject nucleic acid entity ends on the chromosome or other entity to which it is located on." assertion.
- organismal_entity_as_a_model_of_disease_association_subject label "organismal entity as a model of disease association subject - A organismal entity (strain, breed) with a predisposition to a disease, or bred/created specifically to model a disease." assertion.
- material_sample_derivation_association_predicate label "material sample derivation association predicate - derivation relationship" assertion.
- end_coordinate label "end coordinate - The position at which the subject genomic entity ends on the chromosome or other entity to which it is located on." assertion.
- composed_primarily_of label "composed primarily of - x composed_primarily_of_y if:more than half of the mass of x is made from parts of y." assertion.
- start_coordinate label "start coordinate - The position at which the subject genomic entity starts on the chromosome or other entity to which it is located on. (ie: the start of the sequence being referenced is 1)." assertion.
- broad_match label "broad match - a list of terms from different schemas or terminology systems that have a broader, more general meaning. Broader terms are typically shown as parents in a hierarchy or tree." assertion.
- contributor_association_object label "contributor association object - agent helping to realise the given entity (e.g. such as a publication)" assertion.
- molecular_activity_enabled_by label "molecular activity enabled by - The gene product, gene, or complex that catalyzes the reaction" assertion.
- association_slot label "association slot - any slot that relates an association to another entity" assertion.
- interacts_with label "interacts with - holds between any two entities that directly or indirectly interact with each other" assertion.
- close_match label "close match - a list of terms from different schemas or terminology systems that have a semantically similar but not strictly equivalent, broader, or narrower meaning. Such terms often describe the same general concept from different ontological perspectives (e.g. drug as a type of chemical entity versus drug as a type of role borne by a chemical entity)." assertion.
- disease_has_basis_in label "disease has basis in - A relation that holds between a disease and an entity where the state of the entity has contribution to the disease." assertion.
- associated_with_increased_likelihood_of label "associated with increased likelihood of - Expresses a relationship between two named things where the relationship is typically generated statistically and the state or fact of something is more probable." assertion.
- variant_to_population_association_object label "variant to population association object - the population that is observed to have the frequency" assertion.
- material_sample_derivation_association_object label "material sample derivation association object - the material entity the sample was derived from. This may be another material sample, or any other material entity, including for example an organism, a geographic feature, or some environmental material." assertion.
- gene_to_expression_site_association_quantifier_qualifier label "gene to expression site association quantifier qualifier - can be used to indicate magnitude, or also ranking" assertion.
- chemical_role_mixin label "chemical role mixin - A role played by the chemical entity or part thereof within a chemical context." assertion.
- has_chemical_formula label "has chemical formula - description of chemical compound based on element symbols" assertion.
- relative_frequency_subject label "relative frequency subject - The frequency at which subject and object concepts co-occur in records within a dataset/cohort, relative to the frequency at which the subject concept appears in these same records." assertion.
- gene_to_expression_site_association_subject label "gene to expression site association subject - Gene or gene product positively within the specified anatomical entity (or subclass, i.e. cellular component) location." assertion.
- actively_involved_in label "actively involved in - holds between a continuant and a process or function, where the continuant actively contributes to part or all of the process or function it realizes" assertion.
- has_chemical_role label "has chemical role - A role is particular behaviour which a chemical entity may exhibit." assertion.
- organism_taxon_to_organism_taxon_interaction_object label "organism taxon to organism taxon interaction object - the taxon that is the subject of the association" assertion.
- entity_to_outcome_association_mixin_object label "entity to outcome association mixin object - connects an association to the object of the association. For example, in a gene-to-phenotype association, the gene is subject and phenotype is object." assertion.
- association_category label "association category - Name of the high level ontology class in which this entity is categorized. Corresponds to the label for the biolink entity type class. * In a neo4j database this MAY correspond to the neo4j label tag. * In an RDF database it should be a biolink model class URI. This field is multi-valued. It should include values for ancestors of the biolink class; for example, a protein such as Shh would have category values `biolink:Protein`, `biolink:GeneProduct`, `biolink:MolecularEntity`, ... In an RDF database, nodes will typically have an rdf:type triples. This can be to the most specific biolink class, or potentially to a class more specific than something in biolink. For example, a sequence feature `f` may have a rdf:type assertion to a SO class such as TF_binding_site, which is more specific than anything in biolink. Here we would have categories {biolink:GenomicEntity, biolink:MolecularEntity, biolink:NamedThing}" assertion.