The domain within your query sequence starts at position 1 and ends at position 92; the E-value for the ATP-synt_F6 domain shown below is 4.5e-39.
MVLQRIFRLSSVLRSAVSVHLKRNIGVTAVAFNKELDPVQKLFVDKIREYKSKRQASGGP VDIGPEYQQDLDRELYKLKQMYGKGEMDTFP
ATP-synt_F6 |
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PFAM accession number: | PF05511 |
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Interpro abstract (IPR008387): | Transmembrane ATPases are membrane-bound enzyme complexes/ion transporters that use ATP hydrolysis to drive the transport of protons across a membrane. Some transmembrane ATPases also work in reverse, harnessing the energy from a proton gradient, using the flux of ions across the membrane via the ATPase proton channel to drive the synthesis of ATP. There are several different types of transmembrane ATPases, which can differ in function (ATP hydrolysis and/or synthesis), structure (e.g., F-, V- and A-ATPases, which contain rotary motors) and in the type of ions they transport [ (PUBMED:15473999) (PUBMED:15078220) ]. The different types include:
F-ATPases (also known as ATP synthases, F1F0-ATPase, or H(+)-transporting two-sector ATPase) ( EC 3.6.3.14 ) are composed of two linked complexes: the F1 ATPase complex is the catalytic core and is composed of 5 subunits (alpha, beta, gamma, delta, epsilon), while the F0 ATPase complex is the membrane-embedded proton channel that is composed of at least 3 subunits (A-C), with additional subunits in mitochondria. Both the F1 and F0 complexes are rotary motors that are coupled back-to-back. In the F1 complex, the central gamma subunit forms the rotor inside the cylinder made of the alpha(3)beta(3) subunits, while in the F0 complex, the ring-shaped C subunits forms the rotor. The two rotors rotate in opposite directions, but the F0 rotor is usually stronger, using the force from the proton gradient to push the F1 rotor in reverse in order to drive ATP synthesis [ (PUBMED:11309608) ]. These ATPases can also work in reverse in bacteria, hydrolysing ATP to create a proton gradient. This entry represents subunit F6 (or coupling factor 6) found in the F0 complex of F-ATPases in mitochondria. The F6 subunit is part of the peripheral stalk that links the F1 and F0 complexes together, and which acts as a stator to prevent certain subunits from rotating with the central rotary element. The peripheral stalk differs in subunit composition between mitochondrial, chloroplast and bacterial F-ATPases. In mitochondria, the peripheral stalk is composed of one copy each of subunits OSCP (oligomycin sensitivity conferral protein), F6, B and D [ (PUBMED:16045926) ]. There is no homologue of subunit F6 in bacterial or chloroplast F-ATPase, whose peripheral stalks are composed of one copy of the delta subunit (homologous to OSCP), and two copies of subunit B in bacteria, or one copy each of subunits B and B' in chloroplasts and photosynthetic bacteria. |
GO process: | ATP synthesis coupled proton transport (GO:0015986) |
GO component: | mitochondrial proton-transporting ATP synthase complex, coupling factor F(o) (GO:0000276) |
GO function: | proton transmembrane transporter activity (GO:0015078) |
This is a PFAM domain. For full annotation and more information, please see the PFAM entry ATP-synt_F6