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GO_0051869
|
GO_0051869 |
|
|
acyl glucuronidation
|
GO_0036236 |
[The modification of an substrate by the conjugation of glucuronic acid to form an acyl-glucuronide (also called an acyl-glucuronoside).] |
|
cellular glucuronidation
|
GO_0052695 |
[The modification of an organic chemical by the conjugation of glucuronic acid. The substances resulting from glucuronidation are known as glucuronosides (or glucuronides) and are often much more water-soluble than the non-glucuronic acid-containing precursor.] |
|
acyl deglucuronidation
|
GO_0036235 |
[The removal of glucuronic acid from an acyl-glucuronide.] |
|
deglucuronidation
|
GO_0036234 |
[The removal of glucuronic acid from a conjugated substrate.] |
|
GO_0036233
|
GO_0036233 |
|
|
obsolete detection of stimulus involved in morphogenesis checkpoint
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GO_1903821 |
[OBSOLETE. Any detection of stimulus that is involved in morphogenesis checkpoint.] |
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procentriole replication complex
|
GO_0120099 |
[A protein complex that acts as a chaperone or scaffold for centriolar proteins during the maturation of the procentriole. Some of its members may become integrated into the growing centriole. Examples are the CPAP(CENPJ)-STIL complex, CEP192-PLK4 complex or CEP152-PLK4 complex in vertebrates.] |
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taxoid 7beta-hydroxylase activity
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GO_0036239 |
[Catalysis of the reaction: taxusin + [reduced NADPH-hemoprotein reductase] + O2 = 7beta-hydroxytaxusin + [oxidized NADPH-hemoprotein reductase] + H2O. Also converts 2alpha-hydroxytaxusin to 2alpha,7beta-dihydroxytaxusin.] |
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GO_1903820
|
GO_1903820 |
|
|
procentriole
|
GO_0120098 |
[A cellular structure that is the site of a developing centriole, which will become a microtubule organizing center. During the canonical pathway of centriole duplication that occurs during the cell division cycle, procentrioles grow at the proximal ends of both mother and daughter centrioles. In the newly divided cells, the original mother and daughter centrioles become mother centrioles while the procentrioles become the new daughter centrioles. Procentrioles can also arise from de novo pathways that occur in multiciliated cells. In ciliated epithelial cells, numerous procentrioles arise form electron dense material referred to as fibrous granules and deuterosomes. The pathway of procentriole formation in multiciliated protists appears to be similar to that in mammalian multiciliated epithelium. In sperm of primitive land plants, multiple procentrioles are formed from a blepharoplast giving rise to multicilated sperm cells.] |
|
gallate dioxygenase activity
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GO_0036238 |
[Catalysis of the reaction: gallate + O2 = (1E)-4-oxobut-1-ene-1,2,4-tricarboxylate.] |
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telomere single strand break repair
|
GO_1903823 |
[Single strand break repair that takes place in a telomere.] |
|
glycosylphosphatidylinositol-mannosyltransferase II complex
|
GO_0120097 |
[A protein complex that is involved in the transfer of the second mannose to the glycosylphosphatidylinositol (GPI) during GPI precursor assembly. In yeast S. cerevisiae this complex consists of GPI18p and PGA1p.] |
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acyl-glucuronidase activity
|
GO_0036237 |
[Catalysis of the reaction: an acyl-glucuronoside + H2O = an alcohol + D-glucuronate.] |
|
GO_1903822
|
GO_1903822 |
|
|
tRNA N1-guanine methylation
|
GO_0002939 |
[The process whereby a guanine in tRNA is methylated at position N1 of the guanine.] |
|
vacuole-isolation membrane contact site
|
GO_0120095 |
[An organelle membrane contact site formed at the junction of the vacuolar membrane and the isolation membrane or phagophore in response to starvation or other stresses, leading to the formation of the autophagosome.] |
|
negative regulation of telomere single strand break repair
|
GO_1903824 |
[Any process that stops, prevents or reduces the frequency, rate or extent of telomere single strand break repair.] |
|
negative regulation of single strand break repair
|
GO_1903517 |
[Any process that stops, prevents or reduces the frequency, rate or extent of single strand break repair.] |
