All terms in GO

Label Id Description
obsolete formation of peptidyl-cystine persulfide by sulphur transfer from free cysteine GO_0044526 [OBSOLETE. The modification of a peptidyl-cystine residue in a protein by the transfer of a sulfur atom from a free cysteine (in the process converting the free cysteine to alanine) to the peptidyl-cysteine to form peptidyl-cysteine persulfide.]
obsolete formation of peptidyl-cystine persulfide by sulphur transfer from H2S GO_0044527 [OBSOLETE. The modification of a peptidyl-cystine residue in a protein by the direct addition of H2S, followed by the removal of 2 protons to form peptidyl-cysteine persulfide.]
regulation of mitochondrial mRNA stability GO_0044528 [Any process that modulates the propensity of mitochondrial mRNA molecules to degradation. Includes processes that both stabilize and destabilize mitochondrial mRNAs.]
regulation of mRNA stability GO_0043488 [Any process that modulates the propensity of mRNA molecules to degradation. Includes processes that both stabilize and destabilize mRNAs.]
L-arabitol catabolic process to xylulose 5-phosphate GO_0019590 [The chemical reactions and pathways resulting in the breakdown of L-arabitol to form xylulose 5-phosphate. L-arabitol is converted into L-xylulose, which is then phosphorylated to L-xylulose-5-phosphate. This is converted to D-xylulose-5-phosphate via the intermediate L-ribulose-5-phosphate.]
L-arabitol catabolic process GO_0051158 [The chemical reactions and pathways resulting in the breakdown of L-arabitol, the pentitol derived from arabinose or lyxose by reduction of the aldehyde group.]
regulation of mitochondrial rRNA stability GO_0044529 [Any process that modulates the propensity of mitochondrial rRNA molecules to degradation. Includes processes that both stabilize and destabilize mitochondrial rRNAs.]
regulation of rRNA stability GO_0044357 [Any process that modulates the propensity of rRNA molecules to degradation. Includes processes that both stabilize and destabilize rRNAs.]
GO_0019591 GO_0019591
mannitol catabolic process GO_0019592 [The chemical reactions and pathways resulting in the breakdown of mannitol, the alditol derived from D-mannose by reduction of the aldehyde group.]
mannitol metabolic process GO_0019594 [The chemical reactions and pathways involving mannitol, the alditol derived from D-mannose by reduction of the aldehyde group.]
hexitol catabolic process GO_0019407 [The chemical reactions and pathways resulting in the breakdown of hexitols, any alditol with a chain of six carbon atoms in the molecule.]
GO_0019582 GO_0019582
galactonate metabolic process GO_0019583 [The chemical reactions and pathways involving galactonate, the anion of galactonic acid, an organic acid derived from the sugar galactose.]
galactonate catabolic process GO_0019584 [The chemical reactions and pathways resulting in the breakdown of galactonate, the anion of galactonic acid.]
aldonic acid catabolic process GO_0046176 [The chemical reactions and pathways resulting in the breakdown of aldonic acid, a monocarboxylic acid with a chain of three or more carbon atoms, derived from an aldose by oxidation of the aldehydic group.]
glucuronate metabolic process GO_0019585 [The chemical reactions and pathways involving glucuronate, any salt or ester of glucuronic acid, the uronic acid formally derived from glucose by oxidation of the hydroxymethylene group at C-6 to a carboxyl group.]
uronic acid metabolic process GO_0006063 [The chemical reactions and pathways involving uronic acid, any monocarboxylic acid formally derived by oxidizing to a carboxyl group the terminal hydroxymethylene group of either an aldose with four or more carbon atoms in the molecule, or of any glycoside derived from such an aldose.]
envenomation resulting in positive regulation of vasoactive intestinal polypeptide receptor activity in another organism GO_0044520 [A process that begins with venom being forced into an organism by the bite or sting of another organism, and ends with the resultant positive regulation of the activity of a vasoactive intestinal polypeptide receptor in the bitten organism.]
galacturonate metabolic process GO_0019586 [The chemical reactions and pathways involving galacturonate, the anion of galacturonic acid, the uronic acid formally derived from galactose by oxidation of the hydroxymethylene group at C-6 to a carboxyl group.]