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basal proximal dendrite
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GO_0150017 |
[Any dendrite in a dendritic tree that emerges near the basal pole of a neuron (e.g. in bipolar neurons, basal dendrites are either on the same side of the soma as the axon, or project toward the axon), and which is the closest to the cell body of the neuron (the soma).] |
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basal distal dendrite
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GO_0150016 |
[Any dendrite in a dendritic tree that emerges near the basal pole of a neuron (e.g. in bipolar neurons, basal dendrites are either on the same side of the soma as the axon, or project toward the axon), and which is farthest away from the neuronal cell body (the soma).] |
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basal dendrite development
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GO_0150018 |
[The process whose specific outcome is the progression of a basal dendrite over time, from its formation to the mature structure.] |
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GO_0042260
|
GO_0042260 |
|
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regulation of neuron projection arborization
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GO_0150011 |
[Any process that modulates the frequency, rate or extent of the process in which the anatomical structures of a neuron projection are generated and organized into branches.] |
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negative regulation of neuron projection arborization
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GO_0150013 |
[Any process that stops, prevents or reduces the frequency, rate or extent of the process in which the anatomical structures of a neuron projection are generated and organized into branches.] |
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positive regulation of neuron projection arborization
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GO_0150012 |
[Any process that activates or increases the frequency, rate or extent of the process in which the anatomical structures of a neuron projection are generated and organized into branches.] |
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cyclic GMP-AMP synthase activity
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GO_0140699 |
[Catalysis of the reaction: ATP + GTP = 2 diphosphate + cyclic GMP-AMP.] |
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natural killer cell mediated cytotoxicity
|
GO_0042267 |
[The directed killing of a target cell by a natural killer cell through the release of granules containing cytotoxic mediators or through the engagement of death receptors.] |
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natural killer cell mediated immunity
|
GO_0002228 |
[The promotion of an immune response by natural killer cells through direct recognition of target cells or through the release of cytokines.] |
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attachment of telomeric heterochromatin to nuclear envelope
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GO_0140698 |
[The process in which physical connections are formed between sub-telomeric heterochromatin and the nuclear envelope facilitating bouquet formation.] |
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GO_0042266
|
GO_0042266 |
|
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obsolete peptidyl-asparagine hydroxylation
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GO_0042265 |
[OBSOLETE. The hydroxylation of peptidyl-asparagine to form peptidyl-hydroxyasparagine.] |
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peptidyl-aspartic acid hydroxylation
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GO_0042264 |
[The hydroxylation of peptidyl-aspartic acid to form peptidyl-hydroxyaspartic acid.] |
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peptidyl-aspartic acid modification
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GO_0018197 |
[The modification of peptidyl-aspartic acid.] |
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neuropeptide F receptor activity
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GO_0042263 |
[Combining with neuropeptide F and transmitting the signal within the cell to initiate a change in cell activity. Neuropeptide F is an arthropod peptide of more than 28 residues (typically 28-45) with a consensus C-terminal RxRFamide (commonly RPRFa, but also RVRFa.] |
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DNA protection
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GO_0042262 |
[Any process in which DNA is protected from damage by, for example, oxidative stress.] |
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GO_0042261
|
GO_0042261 |
|
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histone H3K36me2/H3K36me3 demethylase activity
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GO_0140681 |
[Catalysis of the removal of a methyl group from a tri- or a dimethyl-lysine residue at position 36 of the histone H3 protein. This is a dioxygenase reaction that is dependent on Fe(II) and 2-oxoglutarate.] |
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histone H3K36 demethylase activity
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GO_0051864 |
[Catalysis of the removal of a methyl group from a modified lysine residue at position 36 of the histone H3 protein. This is a dioxygenase reaction that is dependent on Fe(II) and 2-oxoglutarate.] |
