7.2.2.1: Na+-transporting two-sector ATPase
This is an abbreviated version!
For detailed information about Na+-transporting two-sector ATPase, go to the full flat file.
Word Map on EC 7.2.2.1
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7.2.2.1
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ouabain
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electrogenic
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k+-atpase
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depolarization
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ouabain-sensitive
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basolateral
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hyperpolarization
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na+,k+-atpase
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transepithelial
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amiloride
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na+-dependent
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k+-free
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microelectrodes
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na+-pumping
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hirae
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rb+
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sarcolemmal
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na+-stimulated
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short-circuit
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alginolyticus
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na+-k+-adenosinetriphosphatase
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3h-ouabain
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low-na+
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digitalis-like
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ouabain-inhibitable
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ouabain-induced
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dccd
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na+-sensitive
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nadh:quinone
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strophanthidin
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isophthalate
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na+-loaded
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countertransport
- 7.2.2.1
- ouabain
-
electrogenic
-
k+-atpase
-
depolarization
-
ouabain-sensitive
-
basolateral
-
hyperpolarization
- na+,k+-atpase
-
transepithelial
- amiloride
-
na+-dependent
-
k+-free
-
microelectrodes
-
na+-pumping
- hirae
- rb+
-
sarcolemmal
-
na+-stimulated
-
short-circuit
- alginolyticus
-
na+-k+-adenosinetriphosphatase
-
3h-ouabain
-
low-na+
-
digitalis-like
-
ouabain-inhibitable
-
ouabain-induced
- dccd
-
na+-sensitive
-
nadh:quinone
- strophanthidin
- isophthalate
-
na+-loaded
-
countertransport
Reaction
Synonyms
A1AO ATP synthase, ATP phosphohydrolase (Na+-transporting), ATP synthase, EC 3.6.3.15, F-type ATP synthase, F1FO-ATPase, KPA1, Lipid-binding protein, Na+ pump, Na+ V-ATPase, Na+(Li+, K+)/H+ antiporter, Na+-ATPase, Na+-translocating ATPase, Na+-translocating F1FO-ATPase, Na+-translocating V-ATPase, Na+-transporting FoF1 ATP synthase, Na+-transporting P-type ATPase, Na+-transporting two-sector ATPase, Na+-transporting V-ATPase, Ntp, sodium ion-pumping adenosine triphosphatase, UmpAB, V-ATPase, V-type Na+-ATPase, vacuolar Na+-translocating ATPase, vacuolar-type Na+-ATPase, vacuolar-type Na+-translocating ATPase, vacuole-type ATPase
ECTree
7.2.2.1 Na+-transporting two-sector ATPaseAdvanced search results
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results (Subunits
Subunits on EC 7.2.2.1 - Na+-transporting two-sector ATPase
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SUBUNIT 
ORGANISM
UNIPROT
COMMENTARY 
LITERATURE
heterodimer
homotetramer
multimer
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3 * 66000 + 3 * 51000 + 1 * 38000 + 1 * 27000 + 3 * 23000 + 2 (or 3) * 14000 + 4 (or 6) * 11000 + 1 * 76000 + 2 (or 3) * 16000, SDS-PAGE
nonamer
oligomer
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? * 57000 + ? * 52000 + ? * 35000 + ? * 19000 + ? * 16000 + ? * 4800, SDS-PAGE
additional information
?
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x * 4800 + x * 15000 + x * 19000 + x * 35000 + x * 52000 + x * 57000, at least 6 subunits, SDS-PAGE
?
x * 10000, G subunit, SDS-PAGE, x * 11600, about, G subunit, sequence calculation
?
x * 12000, F subunit, SDS-PAGE, x * 12300, about, F subunit, sequence calculation
?
x * 17000, K subunit, SDS-PAGE, x * 17600, about, K subunit, sequence calculation
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x * 25500, D subunit, SDS-PAGE, x * 24300, about, D subunit, sequence calculation
?
x * 26000, E subunit, SDS-PAGE, x * 22700, about, E subunit, sequence calculation
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x * 37000, C subunit, SDS-PAGE, x * 38400, about, C subunit, sequence calculation
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x * 51000, B subunit, SDS-PAGE, x * 51200, about, B subunit, sequence calculation
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x * 66000, A subunit, SDS-PAGE, x * 66000, about, A subunit, sequence calculation
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x * 72300, I subunit, SDS-PAGE, x * 72300, about, I subunit, sequence calculation
?
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x * 8000 + x * 14000 + x * 15000 + x * 24000 + x * 27000 + x * 38000 + x * 52000 + x * 65000 + x * 69000, SDS-PAGE
?
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x * 66000, subunitA, + x * 51000, subunit B, + x * 76000, subunit I, + x * 38000, subunit C, + x * 27000, subunit D, + x * 23000, subunit E, + x * 16000, subunit K, + x * 14000, subunit F, + x * 11000, subunit G
?
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x * 14255, NtpF, + x * 75619, NtpI, + x * 16036, NtpK, + x * 22699, NtpE, + x * 38162, NtpC, + x * 11409, NtpG, + x * 65766, NtpA, + x * 51139, NtpB, + x * 27093, NtpD, + x * 7164, NtpH, x * 48869, NtpJ, calculation from nucleotide sequence
nonamer
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the c subunit determines the ion specificity of the ATP synthases/ATPases (Na+-transporting or H+-transporting). Calculated from sequence, the c subunit has a molecular mass of 16061 Da with four transmembrane helices
nonamer
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1 * 14184 + 1 * 25447 + 1 * 8255 + 1 * 19443 + 1 * 20763 + 1 * 55667 + 1 * 31709 + 1 * 50453, calculated from sequence of cDNA
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
-
the enzyme complex consists of an integral membrane part V0 and a cytoplasmic, membrane-associated part V1, V0 is built of subunits K and I, V1 consists of seven subunits, termed A, B, C, D, E, F, and G, to determine the identity of the proteins in two pairs of subunits, the nine subunits of the enzyme complex are separated by tryptic digestion of the protein bands followed by mass spectrometric analysis of the peptides
additional information
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the peripheral stalk of Na+-translocating V-ATPase of Enterococcus hirae is composed of NtpE and NtpF subunits together with the N-terminal hydrophilic domain of NtpI, structural model of V-ATPase, overview. Subunit interaction analysis by pulldown assay and surface plasmon resonance, detailed overview
additional information
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hypothetical model of the subunit topology of A1AO ATP synthases: subunits a and c form the membrane-embedded motor, with a being the stator, and multiple copies of subunit c forming the rotor. The rotor subunit c forms an SDS-resistant oligomer
