|
interleukin-2 receptor binding
|
GO_0005134 |
[Binding to an interleukin-2 receptor.] |
|
interleukin-3 receptor binding
|
GO_0005135 |
[Binding to an interleukin-3 receptor.] |
|
interleukin-4 receptor binding
|
GO_0005136 |
[Binding to an interleukin-4 receptor.] |
|
venom-mediated perturbation of pH-gated ion channel activity
|
GO_0044733 |
[A process in which an organism alters or subverts the activity of a pH-gated (also known as acid-sensing ion channel (ASIC)) in another organism via the action of a venom.] |
|
venom-mediated perturbation of ion channel activity
|
GO_0044560 |
[A process in which an organism alters or subverts the activity of an ion channel in another organism via the action of a venom.] |
|
interleukin-5 receptor binding
|
GO_0005137 |
[Binding to an interleukin-5 receptor.] |
|
venom-mediated activation of pH-gated ion channel activity
|
GO_0044734 |
[A process in which an organism initiates, promotes, or enhances the activity of a pH-gated (also known as acid-sensing ion channel (ASIC)) in another organism via the action of a venom.] |
|
interleukin-6 receptor binding
|
GO_0005138 |
[Binding to an interleukin-6 receptor.] |
|
venom-mediated inhibition of pH-gated ion channel activity
|
GO_0044735 |
[A process in which an organism inhibits or disrupts the activity of a pH-gated (also known as acid-sensing ion channel (ASIC)) in another organism via the action of a venom.] |
|
interleukin-7 receptor binding
|
GO_0005139 |
[Binding to an interleukin-7 receptor.] |
|
obsolete acid-sensing ion channel activity
|
GO_0044736 |
[OBSOLETE. Enables the transmembrane transfer of a sodium ion by a neuronal, voltage-insensitive channel that opens when an extracellular proton has been bound by the channel complex.] |
|
obsolete modulation of acid-sensing ion channel in another organism
|
GO_0044737 |
[OBSOLETE. Any process in which an organism effects a change in the frequency, rate or extent of the activity of an acid-sensing ion channel (ASIC) in another organism.] |
|
obsolete negative regulation of acid-sensing ion channel in another organism
|
GO_0044738 |
[OBSOLETE. Any process in which an organism negatively regulates the activity of a voltage-gated sodium channel in another organism.] |
|
obsolete positive regulation of acid-sensing ion channel in another organism
|
GO_0044739 |
[OBSOLETE. Any process in which an organism positively regulates the activity of a voltage-gated sodium channel in another organism.] |
|
IgG receptor activity
|
GO_0019770 |
[Combining with an immunoglobulin of an IgG isotype via the Fc region, and transmitting the signal from one side of the membrane to the other to initiate a change in cell activity.] |
|
high-affinity IgG receptor activity
|
GO_0019771 |
[Combining with high affinity with an immunoglobulin of an IgG isotype via the Fc region, and transmitting the signal from one side of the membrane to the other to initiate a change in cell activity.] |
|
low-affinity IgG receptor activity
|
GO_0019772 |
[Combining with low affinity with an immunoglobulin of an IgG isotype via the Fc region, and transmitting the signal from one side of the membrane to the other to initiate a change in cell activity.] |
|
proteasome core complex, alpha-subunit complex
|
GO_0019773 |
[The proteasome core subcomplex that constitutes the two outer rings of the proteasome core complex. An example of this component is found in Mus musculus.] |
|
proteasome core complex, beta-subunit complex
|
GO_0019774 |
[The proteasome core subcomplex that constitutes the two inner rings of the proteasome core complex. An example of this component is found in Mus musculus.] |
|
bone sialoprotein binding
|
GO_0044730 |
[Binding to a bone sialoprotein, an extracellular matrix glycoprotein found on the surface of bones and dentin.] |
