The domain within your query sequence starts at position 17 and ends at position 342; the E-value for the V-ATPase_H_N domain shown below is 3e-106.
NIIAAKAAEVRANKVNWQSYLQGQMISAEDCEFIQRFEMKRSSEDKQEMLQTEGSQCAKT FINLMTHISKEQTVQYILTMVDDMLQENHQRVSIFFDYAKRSKSTAWPYFLPMLNRQDPF TVHMAARIIAKLAAWGKELMEGSDLNYYFNWIKTQLSSQKLRGSGVAVETGTISSSDSSQ YVQCVAGCLQLMLRVNEYRFAWVEADGVNCIMGVLSNKCGFQLQYQMIFSIWLLAFSPQM CEHLRRYNIIPVLSDILQESVKEKVTRIILAAFRNFLEKSTERETRQEYALAMIQCKVLK QLENLEQQKYDDEDISEDIKFLLEKL
V-ATPase_H_N |
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PFAM accession number: | PF03224 |
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Interpro abstract (IPR004908): | V-ATPases (also known as V1V0-ATPase or vacuolar ATPase) are found in the eukaryotic endomembrane system, and in the plasma membrane of prokaryotes and certain specialised eukaryotic cells. V-ATPases hydrolyse ATP to drive a proton pump, and are involved in a variety of vital intra- and inter-cellular processes such as receptor mediated endocytosis, protein trafficking, active transport of metabolites, homeostasis and neurotransmitter release [ (PUBMED:15629643) ]. V-ATPases are composed of two linked complexes: the V1 complex (subunits A-H) contains the catalytic core that hydrolyses ATP, while the V0 complex (subunits a, c, c', c'', d) forms the membrane-spanning pore. V-ATPases may have an additional role in membrane fusion through binding to t-SNARE proteins [ (PUBMED:15907459) ]. 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:
This entry represents subunit H (also known as Vma13p) found in the V1 complex of V-ATPases. This subunit has a regulatory function, being responsible for activating ATPase activity and coupling ATPase activity to proton flow [ (PUBMED:14635776) ]. The yeast enzyme contains five motifs similar to the HEAT or Armadillo repeats seen in the importins, and can be divided into two distinct domains: a large N-terminal domain consisting of stacked alpha helices, and a smaller C-terminal alpha-helical domain with a similar superhelical topology to an armadillo repeat [ (PUBMED:11416198) ]. |
GO process: | proton transmembrane transport (GO:1902600) |
GO component: | vacuolar proton-transporting V-type ATPase, V1 domain (GO:0000221) |
GO function: | proton-transporting ATPase activity, rotational mechanism (GO:0046961) |
This is a PFAM domain. For full annotation and more information, please see the PFAM entry V-ATPase_H_N