develops_into
|
RO_0002203 |
[inverse of develops from] |
device utilizes material
|
RO_0017001 |
[X device utilizes material Y means X and Y are material entities, and X is capable of some process P that has input Y.] |
different in magnitude relative to
|
RO_0015006 |
[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_relation_from
|
different_relation_from |
|
directly develops from
|
RO_0002207 |
[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.] |
directly develops into
|
RO_0002210 |
[inverse of directly develops from] |
directly negatively regulated by
|
RO_0002023 |
[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.] |
directly negatively regulates
|
RO_0002630 |
[p directly negatively regulates q iff p is immediately causally upstream of q, and p negatively regulates q.] |
directly negatively regulates activity of
|
RO_0002449 |
[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 positively regulated by
|
RO_0002024 |
[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.] |
directly positively regulates
|
RO_0002629 |
[p directly positively regulates q iff p is immediately causally upstream of q, and p positively regulates q.] |
directly positively regulates activity of
|
RO_0002450 |
[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 regulated by
|
RO_0002022 |
|
directly regulates
|
RO_0002578 |
[p directly regulates q iff p is immediately causally upstream of q and p regulates q.] |
directly regulates activity of
|
RO_0002448 |
[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.] |
disposition of
|
RO_0000092 |
[inverse of has disposition] |
disposition_slim
|
disposition_slim |
|
distal to
|
BSPO_0000097 |
[x distal to y iff x is further along the proximo-distal axis than y, towards the appendage tip. A proximo-distal axis extends from tip of an appendage (distal) to where it joins the body (proximal).] |
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.] |
distalmost part of
|
BSPO_0001108 |
[X distalmost part of Y <=> X is in distal side of Y and X is adjacent to the distal boundary of Y] |