All terms in GO

Label Id Description
obsolete iodide oxidation GO_0070277 [OBSOLETE. The chemical reactions and pathways by which iodide is converted to diiodine, with the concomitant loss of electrons.]
L-histidine conjugated cholate hydrolase activity GO_7770008 [Catalysis of the reaction: cholate + L-histidine = L-histidocholate + H2O.]
amino acid conjugated cholate hydrolase activity GO_7770003 [Catalysis of the reaction: an L-alpha-amino acid + cholate = an N-choloyl-L-alpha-amino acid + H2O.]
L-tryptophan conjugated cholate hydrolase activity GO_7770009 [Catalysis of the reaction: cholate + L-tryptophan = L-tryptophocholate + H2O.]
L-phenylalanine conjugated cholate hydrolase activity GO_7770006 [Catalysis of the reaction: cholate + L-phenylalanine = L-phenylalanocholate + H2O.]
L-arginine conjugated cholate hydrolase activity GO_7770007 [Catalysis of the reaction: cholate + L-arginine = L-arginocholate + H2O.]
L-serine conjugated cholate hydrolase activity GO_7770004 [Catalysis of the reaction: cholate + L-serine = L-serocholate + H2O.]
L-alanine conjugated cholate hydrolase activity GO_7770005 [Catalysis of the reaction: cholate + L-alanine = L-alanocholate + H2O.]
sodium:ammonium:chloride symporter activity GO_7770002 [Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: Na+(out) + NH4+(out) + Cl-(out) = Na+(in) + NH4+(in) + Cl-(in).]
sodium:chloride symporter activity GO_0015378 [Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: Na+(out) + Cl-(out) = Na+(in) + Cl-(in).]
5'-tyrosyl-DNA phosphodiesterase activity GO_0070260 [Catalysis of the hydrolysis of 5'-phosphotyrosyl groups formed as covalent intermediates (in DNA backbone breakage) between DNA topoisomerase II and DNA.]
GO_0070261 GO_0070261
peptidyl-serine dephosphorylation GO_0070262 [The removal of phosphoric residues from peptidyl-O-phospho-L-serine to form peptidyl-serine.]
mitochondrial pyruvate carrier complex GO_7770001 [An inner mitochondrial protein carrier capable of transporting pyruvate into the mitochondrion.]
external side of fungal-type cell wall GO_0070263 [The side of the fungal-type cell wall that is opposite to the side that faces the cell and its contents.]
transcription factor TFIIIE complex GO_0070264 [A transcription factor complex that is involved in regulating transcription from RNA polymerase III (Pol III) promoters. TFIIIE contains a specific subset of ribosomal proteins.]
obsolete necrotic cell death GO_0070265 [OBSOLETE. A type of cell death that is morphologically characterized by an increasingly translucent cytoplasm, swelling of organelles, minor ultrastructural modifications of the nucleus (specifically, dilatation of the nuclear membrane and condensation of chromatin into small, irregular, circumscribed patches) and increased cell volume (oncosis), culminating in the disruption of the plasma membrane and subsequent loss of intracellular contents. Necrotic cells do not fragment into discrete corpses as their apoptotic counterparts do. Moreover, their nuclei remain intact and can aggregate and accumulate in necrotic tissues.]
necroptotic process GO_0070266 [A programmed necrotic cell death process which begins when a cell receives a signal (e.g. a ligand binding to a death receptor or to a Toll-like receptor), and proceeds through a series of biochemical events (signaling pathways), characterized by activation of receptor-interacting serine/threonine-protein kinase 1 and/or 3 (RIPK1/3, also called RIP1/3) and by critical dependence on mixed lineage kinase domain-like (MLKL), and which typically lead to common morphological features of necrotic cell death. The process ends when the cell has died. The process is divided into a signaling phase, and an execution phase, which is triggered by the former.]
obsolete oncosis GO_0070267 [OBSOLETE. A cellular process that results in swelling of the cell body, and that is morphologically characteristic of necrotic cell death.]
cornification GO_0070268 [A type of programmed cell death that occurs in the epidermis, morphologically and biochemically distinct from apoptosis. It leads to the formation of corneocytes, i.e. dead keratinocytes containing an amalgam of specific proteins (e.g., keratin, loricrin, SPR and involucrin) and lipids (e.g., fatty acids and ceramides), which are necessary for the function of the cornified skin layer (mechanical resistance, elasticity, water repellence and structural stability).]