|
has part
|
BFO_0000051 |
[Q1 has_part Q2 if and only if: every instance of Q1 is a quality_of an entity that has_quality some Q2., a core relation that holds between a whole and its part] |
|
has part structure that is capable of
|
RO_0002584 |
[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 that occurs in
|
RO_0002479 |
[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 participant
|
RO_0000057 |
[a relation between a process and a continuant, in which the continuant is somehow involved in the process] |
|
has phenotype
|
RO_0002200 |
[A relationship that holds between a biological entity and a phenotype. Here a phenotype is construed broadly as any kind of quality of an organism part, a collection of these qualities, or a change in quality or qualities (e.g. abnormally increased temperature). The subject of this relationship can be an organism (where the organism has the phenotype, i.e. the qualities inhere in parts of this organism), a genomic entity such as a gene or genotype (if modifications of the gene or the genotype causes the phenotype), or a condition such as a disease (such that if the condition inheres in an organism, then the organism has the phenotype).] |
|
has phenotype or disease
|
RO_0016001 |
|
|
has phenotypic analogue
|
UPHENO_0000002 |
|
|
has plasma membrane part
|
RO_0002104 |
[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.] |
|
has positive regulatory component activity
|
RO_0002015 |
[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.] |
|
has postsynaptic terminal in
|
RO_0002110 |
[Relation between a neuron and some structure (e.g.- a brain region) in which it receives (chemical) synaptic input. ] |
|
has potential to develop into
|
RO_0002387 |
[x has the potential to develop into y iff x develops into y or if x is capable of developing into y] |
|
has potential to developmentally contribute to
|
RO_0002385 |
[x has potential to developmentrally contribute to y iff x developmentally contributes to y or x is capable of developmentally contributing to y] |
|
has potential to developmentally induce
|
RO_0002386 |
[x has potential to developmentally induce y iff x developmentally induces y or x is capable of developmentally inducing y] |
|
has potential to directly develop into
|
RO_0002388 |
[x has potential to directly develop into y iff x directly develops into y or x is capable of directly developing into y] |
|
has presynaptic terminal in
|
RO_0002113 |
[Relation between a neuron and some structure (e.g.- a brain region) in which it receives (chemical) synaptic input.] |
|
has primary input
|
RO_0004009 |
[p has primary input c if (a) p has input c and (b) the goal of process is to modify, consume, or transform c.] |
|
has primary input or output
|
RO_0004007 |
[p 'has primary input ot output' c iff either (a) p 'has primary input' c or (b) p 'has primary output' c.] |
|
has primary output
|
RO_0004008 |
[p has primary output c if (a) p has output c and (b) the goal of process is to modify, produce, or transform c.] |
|
has quality
|
RO_0000086 |
[a relation between an independent continuant (the bearer) and a quality, in which the quality specifically depends on the bearer for its existence] |
|
has regulatory component activity
|
RO_0002013 |
[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.] |
