Complex

Definition: A physical entity whose structure is comprised of other physical entities bound to each other covalently or non-covalently, at least one of which is a macromolecule (e.g. protein, DNA, or RNA) and the Stoichiometry of the components are known. Comment: Complexes must be stable enough to function as a biological unit; in general, the temporary association of an enzyme with its substrate(s) should not be considered or represented as a complex. A complex is the physical product of an interaction (complexAssembly) and is not itself considered an interaction. The boundaries on the size of complexes described by this class are not defined here, although possible, elements of the cell such a mitochondria would typically not be described using this class (later versions of this ontology may include a cellularComponent class to represent these). The strength of binding cannot be described currently, but may be included in future versions of the ontology, depending on community need. Examples: Ribosome, RNA polymerase II. Other examples of this class include complexes of multiple protein monomers and complexes of proteins and small molecules.

Source:http://www.biopax.org/release/biopax-level3.owl#Complex

Statements in which the resource exists as a subject.
PredicateObject
rdf:type
rdfs:comment
Definition: A physical entity whose structure is comprised of other physical entities bound to each other covalently or non-covalently, at least one of which is a macromolecule (e.g. protein, DNA, or RNA) and the Stoichiometry of the components are known. Comment: Complexes must be stable enough to function as a biological unit; in general, the temporary association of an enzyme with its substrate(s) should not be considered or represented as a complex. A complex is the physical product of an interaction (complexAssembly) and is not itself considered an interaction. The boundaries on the size of complexes described by this class are not defined here, although possible, elements of the cell such a mitochondria would typically not be described using this class (later versions of this ontology may include a cellularComponent class to represent these). The strength of binding cannot be described currently, but may be included in future versions of the ontology, depending on community need. Examples: Ribosome, RNA polymerase II. Other examples of this class include complexes of multiple protein monomers and complexes of proteins and small molecules., Definition: A physical entity whose structure is comprised of other physical entities bound to each other covalently or non-covalently, at least one of which is a macromolecule (e.g. protein, DNA, or RNA) and the Stoichiometry of the components are known. Comment: Complexes must be stable enough to function as a biological unit; in general, the temporary association of an enzyme with its substrate(s) should not be considered or represented as a complex. A complex is the physical product of an interaction (complexAssembly) and is not itself considered an interaction. The boundaries on the size of complexes described by this class are not defined here, although possible, elements of the cell such a mitochondria would typically not be described using this class (later versions of this ontology may include a cellularComponent class to represent these). The strength of binding cannot be described currently, but may be included in future versions of the ontology, depending on community need. Examples: Ribosome, RNA polymerase II. Other examples of this class include complexes of multiple protein monomers and complexes of proteins and small molecules., Definition: A physical entity whose structure is comprised of other physical entities bound to each other covalently or non-covalently, at least one of which is a macromolecule (e.g. protein, DNA, or RNA) and the Stoichiometry of the components are known. Comment: Complexes must be stable enough to function as a biological unit; in general, the temporary association of an enzyme with its substrate(s) should not be considered or represented as a complex. A complex is the physical product of an interaction (complexAssembly) and is not itself considered an interaction. The boundaries on the size of complexes described by this class are not defined here, although possible, elements of the cell such a mitochondria would typically not be described using this class (later versions of this ontology may include a cellularComponent class to represent these). The strength of binding cannot be described currently, but may be included in future versions of the ontology, depending on community need. Examples: Ribosome, RNA polymerase II. Other examples of this class include complexes of multiple protein monomers and complexes of proteins and small molecules.
owl:disjointWith
rdfs:subClassOf