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envenomation resulting in negative regulation of acid-sensing ion channel activity in another organism
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GO_0044735 |
[A process that begins with venom being forced into an organism by the bite or sting of another organism, and ends with a resultant negative regulation in the activity of an acid-sensing ion channel (ASIC) in the bitten organism.] |
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interleukin-7 receptor binding
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GO_0005139 |
[Binding to an interleukin-7 receptor.] |
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obsolete acid-sensing ion channel activity
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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.] |
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modulation of acid-sensing ion channel in another organism
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GO_0044737 |
[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.] |
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modulation of ion channel activity in another organism
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GO_0044561 |
[Any process in which an organism effects a change in the frequency, rate or extent of the activity of an ion channel in another organism.] |
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negative regulation of acid-sensing ion channel in another organism
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GO_0044738 |
[Any process in which an organism negatively regulates the activity of a voltage-gated sodium channel in another organism.] |
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positive regulation of acid-sensing ion channel in another organism
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GO_0044739 |
[Any process in which an organism positively regulates the activity of a voltage-gated sodium channel in another organism.] |
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IgG receptor activity
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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.] |
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high-affinity IgG receptor activity
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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.] |
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low-affinity IgG receptor activity
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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.] |
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proteasome core complex, alpha-subunit complex
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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.] |
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proteasome core complex, beta-subunit complex
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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.] |
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bone sialoprotein binding
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GO_0044730 |
[Binding to a bone sialoprotein, an extracellular matrix glycoprotein found on the surface of bones and dentin.] |
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extracellular matrix binding
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GO_0050840 |
[Binding to a component of the extracellular matrix.] |
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FAT10 transferase activity
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GO_0019775 |
[Catalysis of the transfer of FAT10 from one protein to another via the reaction X-FAT10 + Y = Y-FAT10 + X, where both X-FAT10 and Y-FAT10 are covalent linkages.] |
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ubiquitin-like protein transferase activity
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GO_0019787 |
[Catalysis of the transfer of a ubiquitin-like from one protein to another via the reaction X-ULP + Y = Y-ULP + X, where both X-ULP and Y-ULP are covalent linkages. ULP represents a ubiquitin-like protein.] |
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Ost-alpha/Ost-beta complex
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GO_0044731 |
[A heterodimeric protein complex composed of Ost-alpha/SLC51A and Ost-beta/SLC51B subunits and involved in bile acid transport activity.] |
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plasma membrane protein complex
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GO_0098797 |
[Any protein complex that is part of the plasma membrane.] |
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Atg8-family ligase activity
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GO_0019776 |
[Catalysis of the covalent attachment of the ubiquitin-like protein Atg8 family modifier to phosphatidylethanolamine or phosphatidylserine on a membrane.] |
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ubiquitin-like protein ligase activity
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GO_0061659 |
[Catalysis of the transfer of a ubiquitin-like protein (ULP) to a substrate protein via the reaction X-ULP + S = X + S-ULP, where X is either an E2 or E3 enzyme, the X-ULP linkage is a thioester bond, and the S-ULP linkage is an isopeptide bond between the C-terminal glycine of ULP and the epsilon-amino group of lysine residues in the substrate.] |
