H+-transporting two-sector ATPase EC#: 7.1.2.2; ChemWhat Code: 1383914

Product Name H+-transporting two-sector ATPase
Example Structure Example Structure of H+-transporting two-sector ATPase EC#: 7.1.2.2
Synonyms 15 kDa mediatophore protein, 32 kDa accessory protein, 59 kDa membrane-associated GTP-binding protein, A-ATP synthase, A-ATPase, A1A0-ATP synthase, A1AO ATP synthase, A6L, ApNa+-ATPase, ATP synthase, ATP synthase F1, ATP synthase proteolipid P1, ATP synthase proteolipid P2, ATP synthase proteolipid P3, ATP5alpha1, ATPase, ATPaseTb2, atpB, AtpZ, bacterial Ca2+/Mg2+ ATPase, BN59, C7-1 protein, cf1, CF1-ATPase, CGI-11, chloroplast ATP synthase, chloroplast ATPase, chlorpoplast ATP synthase, complex V, coupling factor CF1, coupling factors (F0,F1 and CF1), Dicyclohexylcarbodiimide-binding protein, Ductin, DVA41, ECF1, Ecto-F1Fo ATP synthase/F1 ATPase, ectopic FoF1 ATP synthase, F-type proton-translocating ATPase, F0F1 ATP synthase, F0F1-ATP synthase, F0F1-ATP synthase alpha, F0F1-ATPase, F0F1ATP synthase, F1, F1 ATPase, F1-ATP synthase, F1-ATPase, F1-ATPase beta subunit, F1-F0 ATP synthase, F1F0 ATP synthase, F1F0 ATPase, F1F0-ATP synthase, F1F0-ATPase, F1F0H+-ATPase, F1Fo, F1Fo ATP synthase, F1FO ATPase, F1FO-ATP synthase, F1FO-ATPase, FoF1, FoF1 ATP synthase, FoF1 ATPase, FoF1-ATP synthase, FoF1-ATPase, FoF1-ATPase/synthase, FoF1H+-ATPase/synthase, Fo¡¤F1-H+-ATPase (synthase), H(+)-transporting ATP synthase, H+ FoF1-ATP synthase, H+-ATP synthase, H+-ATPase, H+-coupled ATP synthase, H+-translocating ATPase, H+-transporting ATP synthase, H+-transporting ATPase, H+-V-ATPase, HATPL, HO57, Invasion protein invC, Isoform HO68, Isoform VA68, Lipid-binding protein, M40, matpase, membrane-associated ATPase, mitochondrial ATPase, mitochondrial F(1)-ATPase, mitochondrial F0F1-ATP synthase, mitochondrial F1F0 ATP hydrolase, mitochondrial F1Fo-ATP synthase, mitochondrial FOF1 ATP synthase, mitochondrial H+-ATP synthase, More, My032 protein, Na+-dependent F1F0-ATP synthase, Oligomycin sensitivity conferral protein, OSCP, P31, P39, photosynthetic F1-ATPase, Physophilin, PKIWI505, plasma membrane V-ATPase, plasma membrane vacuolar H+-ATPase, Protein bellwether, proton translocating chloroplast ATP synthase, proton-translocating ATPase, rotary FOF1-ATPase, rotary molecular motor, Spa47, Stv1p, Sul-ATPase, Sul-ATPase alpha, Sul-ATPase beta, SUL-ATPase epsilon, Sul-ATPase gamma, T3SS ATPase, Tbeta, TF1, TF1-ATPase, TFoF1, tonoplast H+-ATPase, type III secretion-associated ATPase, uncB, UV-inducible PU4 protein, V-ATPase, V-ATPase 28 kDa accessory protein, V-ATPase 40 kDa accessory protein, V-ATPase 41 KDa accessory protein, V-ATPase 9.2 kDa membrane accessory protein, V-ATPase S1 accessory protein, V-pump, V-type ATPase/synthase, V-type H+-ATPase, V1VO ATPase, vacuolar (H+)-ATPases, vacuolar ATPase, vacuolar H(+)-ATPase, vacuolar H+-ATPase, vacuolar H+-pumping ATPase, vacuolar H+-translocating ATPase, vacuolar H+-transporting adenosine triphosphatase, vacuolar proton-translocating ATPase, vacuolar-type H+-ATPase, vacuolar-type H+-translocating ATPase, vacuolar-type proton pumping ATPase, vacuolar-type, proton-translocating ATPase enzyme complex, VEG100, VEG31, Vegetative protein 100, Vegetative protein 31, VHA, VHA-A, VHA16K, VMA8, Vma8p, Vph1p, YOPS secretion ATPase
EC Number 7.1.2.2
CAS Registry Number
Comments A multisubunit non-phosphorylated ATPase that is involved in the transport of ions. Large enzymes of mitochondria, chloroplasts and bacteria with a membrane sector (Fo, Vo, Ao) and a cytoplasmic-compartment sector (F1, V1, A1). The F-type enzymes of the inner mitochondrial and thylakoid membranes act as ATP synthases. All of the enzymes included here operate in a rotational mode, where the extramembrane sector (containing 3 ¦Á- and 3 ¦Â-subunits) is connected via the ¦Ä-subunit to the membrane sector by several smaller subunits. Within this complex, the ¦Ã- and ¦Å-subunits, as well as the 9-12?c?subunits rotate by consecutive 120¡ã angles and perform parts of ATP synthesis. This movement is driven by the H+electrochemical potential gradient. The V-type (in vacuoles and clathrin-coated vesicles) and A-type (archeal) enzymes have a similar structure but, under physiological conditions, they pump H+?rather than synthesize ATP.
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