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Catalysis of the reaction: ATP + H2O + heme(in) = ADP + phosphate + heme(out). Catalysis of the hydrolysis of any acid anhydride. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + lipopolysaccharide(in) = ADP + phosphate + lipopolysaccharide(out). Catalysis of the reaction: ATP + H2O = ADP + phosphate to directly drive some other reaction, for example ion transport across a membrane. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + teichoic acid(in) = ADP + phosphate + teichoic acid(out). Catalysis of the reaction: ATP + H2O + polyamine(out) = ADP + phosphate + polyamine(in). Catalysis of the reaction: ATP + H2O + quaternary amine(out) = ADP + phosphate + quaternary amine(in). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + capsular polysaccharide(in) = ADP + phosphate + capsular polysaccharide(out). Catalysis of the reaction: ATP + H2O = ADP + phosphate to directly drive the active transport of a substance across a membrane. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + organic acid(out/in) = ADP + phosphate + organic acid(in/out). Catalysis of the transfer of an ion from one side of a membrane to the other, driven by the reaction: ATP + H2O = ADP + phosphate. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + iron chelate(out) = ADP + phosphate + iron chelate(in). Fe-enterobactin, Fe-dicitrate, Fe-hydroxamate and other siderophores are imported. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + protein(out) = ADP + phosphate + protein(in). Catalysis of the reaction: ATP + H2O + xenobiotic(in) = ADP + phosphate + xenobiotic(out). Catalysis of the reaction: ATP + H2O + eye pigment precursor(in) = ADP + phosphate + eye pigment precursor(out). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + guanine(out) = ADP + phosphate + guanine(in). Catalysis of the hydrolysis of an acid anhydride to directly drive the transport of a substance across a membrane. Catalysis of the reaction: ATP + H2O + amide(out) = ADP + phosphate + amide(in). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + beta-glucan(in) = ADP + phosphate + beta-glucan(out). Catalysis of the reaction: ATP + H2O + peptide(in) = ADP + phosphate + peptide(out). Peptides exported include alpha-hemolysin, cyclolysin, colicin V and siderophores from Gram-negative bacteria, and bacteriocin, subtilin, competence factor and pediocin from Gram-positive bacteria. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + glycerol-2-phosphate(out) = ADP + phosphate + glycerol-2-phosphate(in). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + oligosaccharide(out) = ADP + phosphate + oligosaccharide(in). Catalysis of the reaction: ATP + H2O + cobalamin(out) = ADP + phosphate + cobalamin(in). Cobalamin = vitamin B12. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O = ADP + phosphate. An animal enzyme that is active in forming a chloride channel, the absence of which brings about cystic fibrosis. It is also involved in the functioning of other transmembrane channels. Catalysis of the movement of sphingolipids from one membrane face to the other ('flippase' activity), driven by the hydrolysis of ATP. Catalysis of the transfer of a solute from one side of the membrane to the other, up the solute's concentration gradient, by binding the solute and undergoing a series of conformational changes. Transport works equally well in either direction and is powered by a primary energy source. Primary energy sources known to be coupled to transport are chemical, electrical and solar sources. Primary active transport of a solute across a membrane, driven by the hydrolysis of the diphosphate bond of inorganic pyrophosphate, ATP, or another nucleoside triphosphate. The transport protein may or may not be transiently phosphorylated, but the substrate is not phosphorylated. Primary active transport is catalysis of the transport of a solute across a membrane, up the solute's concentration gradient, by binding the solute and undergoing a series of conformational changes. Transport works equally well in either direction and is driven by a primary energy source. Catalysis of the reaction: ATP + H2O + thiamin(out) = ADP + phosphate + thiamin(in). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + thiamin pyrophosphate(out) = ADP + phosphate + thiamin pyrophosphate(in). Enables the transfer of a substance from one side of a membrane to the other. Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + lipid(in) = ADP + phosphate + lipid(out). Catalysis of the reaction: ATP + H2O + daunorubicin(in) = ADP + phosphate + daunorubicin(out). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: bile acid(in) + ATP + H2O = bile acid(out) + ADP + phosphate. Catalysis of the reaction: ATP + H2O + glutathione S-conjugate(in) = ADP + phosphate + glutathione S-conjugate(out). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + glycerol-3-phosphate(out) = ADP + phosphate + glycerol-3-phosphate(in). Catalysis of the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O = ADP + phosphate to directly drive the transport of carbohydrates across a membrane. Catalysis of the reaction: ATP + H2O + amine(out) = ADP + phosphate + amine(in). Catalysis of the reaction: ATP + H2O = ADP + phosphate to directly drive the transport of a substance.

View Gene Ontology (GO) Term

GO TERM SUMMARY
Name: ATPase activity, coupled to transmembrane movement of substances
Acc: GO:0042626
Aspect: Molecular Function
Desc: Catalysis of the reaction: ATP + H2O = ADP + phosphate to directly drive the active transport of a substance across a membrane.
Synonyms:
  • ABC-type uptake permease activity
  • mating pheromone exporter
  • ABC-type efflux permease activity
  • ATP binding cassette transporter
  • ABC-type efflux porter activity
  • ATP-binding cassette transporter
  • ABC transporter
  • ATP-binding cassette (ABC) transporter activity
Proteins in PDR annotated with:
   This term: 1272 [Search]
   Term or descendants: 2083 [Search]


[geneontology.org]
INTERACTIVE GO GRAPH

GO:0042626 - ATPase activity, coupled to transmembrane movement of substances (interactive image map)
YRC Informatics Platform - Version 3.0
Created and Maintained by: Michael Riffle