| Entry |
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| Symbol |
atp1a1.L, atp1a1, atp1a1-a, atp1a1-b, atp1a1a.1, K-ATPase, Na+K+ATPase
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| Name |
(RefSeq) sodium/potassium-transporting ATPase subunit alpha-1
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| KO |
| K01539 | sodium/potassium-transporting ATPase subunit alpha [EC:7.2.2.13] |
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| Organism |
xla Xenopus laevis (African clawed frog)
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| Pathway |
| xla04261 | Adrenergic signaling in cardiomyocytes |
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| Brite |
KEGG Orthology (KO) [BR:xla00001]
09140 Cellular Processes
09142 Cell motility
04820 Cytoskeleton in muscle cells
399285 (atp1a1.L)
09150 Organismal Systems
09153 Circulatory system
04260 Cardiac muscle contraction
399285 (atp1a1.L)
04261 Adrenergic signaling in cardiomyocytes
399285 (atp1a1.L)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:xla04147]
399285 (atp1a1.L)
Enzymes [BR:xla01000]
7. Translocases
7.2 Catalysing the translocation of inorganic cations
7.2.2 Linked to the hydrolysis of a nucleoside triphosphate
7.2.2.13 Na+/K+-exchanging ATPase
399285 (atp1a1.L)
Exosome [BR:xla04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
399285 (atp1a1.L)
Exosomal proteins of other body fluids (saliva and urine)
399285 (atp1a1.L)
Exosomal proteins of colorectal cancer cells
399285 (atp1a1.L)
Exosomal proteins of bladder cancer cells
399285 (atp1a1.L)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
2L:complement(716832..743929)
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| AA seq |
1025 aa
MGYGAGRDKYEPAATSEQGGKKKKGKGKGKEKDMDELKKEVTMEDHKLSLDELHRKFGTD
MQRGLTTARAAEILARDGPNALTPPPTTPEWVKFCRQLFGGFSMLLWIGAILCFLAYGIQ
AAMEEEPQNDNLYLGVVLSAVVIITGCFSYYQEAKSSKIMESFKNMVPQQALVIRSGEKL
SINAEEVVLGDLVEVKGGDRIPADLRVISSHGCKVDNSSLTGESEPQTRSPDFTNENPLE
TRNIAFFSTNCVEGTARGIVVNTGDRTVMGRIATLASGLDGGRTPIAIEIEHFIHIITGV
AVFLGVSFFILSLILQYTWLEAVIFLIGIIVANVPEGLLATVTVCLTLTAKRMARKNCLV
KNLEAVETLGSTSTICSDKTGTLTQNRMTVAHMWFDNQIHEADTTENQSGASFDKSSPTW
TALSRVAGLCNRAVFQAGQENTPILKRDVAGDASESALLKCIELCCGSVRDMREKNHKVA
EIPFNSTNKYQLSVHKNANPSESRYILVMKGAPERILDRCTSIILQGKEQPLDEELKDAF
QNAYLELGGLGERVLGFCHLALPDDQFPDGFQFDTEEVNFPTENLCFVGLISMIDPPRAA
VPDAVGKCRSAGIKVIMVTGDHPITAKAIAKGVGIISEGNETVEDIAARLNIPVNQVNPR
DAKACVIHGTDLKDMTEEQIDDILRHHTEIVFARTSPQQKLIIVEGCQRQGAIVAVTGDG
VNDSPALKKADIGIAMGIAGSDVSKQAADMILLDDNFASIVTGVEEGRLIFDNLKKSIAY
TLTSNIPEITPFLIFIIANIPLPLGTVTILCIDLGTDMVPAISLAYEQAESDIMKRQPRN
PKTDKLVNERLISMAYGQIGMIQALGGFFTYFVILAENGFLPWTLLGIRVNWDDRWTNDV
EDSYGQQWTYEQRKIVEFTCHTSFFISIVVVQWADLIICKTRRNSVFQQGMKNKILIFGL
FEETALAAFLSYCPGMDVALRMYPLKPTWWFCAFPYSLIIFIYDEVRKLIIRRSPGGWVE
KESYY |
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| NT seq |
3078 nt +upstreamnt +downstreamnt
atgggatacggggccggaagagacaagtatgagcccgcagctacctctgagcaggggggc
aagaagaaaaaaggaaaaggaaaggggaaggagaaagacatggacgagctaaagaaggaa
gtgaccatggaggaccacaaactgagtctggatgagctgcaccgcaagtttgggacagac
atgcaaagaggtctgaccacagcccgggcagcagagatcctggcacgagatggacccaat
gccctcacccctcctcccactactccagagtgggtgaaattttgccgccagctgtttggg
ggtttctctatgctgctgtggattggagccatactctgtttcctggcctatggtatccaa
gctgccatggaagaggagccacagaatgataatctctacctcggtgttgtcttgtctgct
gtcgttatcatcaccggttgcttctcctactaccaagaggcgaaaagctcaaagatcatg
gagtccttcaagaacatggttcctcagcaagccctggtaatccgaagcggagagaagctg
agtatcaatgcagaagaagtggttttgggtgacctggtcgaagtgaagggaggagatcgg
atacctgcggatcttagggtcatctcctctcatggctgcaaggtggataactcttccctc
actggtgagtccgagccccagacccgctctcctgacttcaccaatgagaacccgctggag
actcgcaacattgctttcttctctacaaactgcgtggaaggcacagcccgtggaattgtc
gttaacaccggtgatcgtacagtgatgggccgtattgccactctggcttctggcctggat
ggaggacgcacccccattgccattgaaattgagcattttattcacatcatcactggtgtg
gcggtcttcctgggggtctccttcttcatcctgtcactcattctgcagtacacttggctg
gaggccgtcatcttcctcattggtatcattgttgccaatgtgccagaggggctgctggct
acagtcacggtttgcctcacactgaccgccaaaagaatggcccgcaagaattgtcttgta
aagaatctggaagctgtggagactctgggatccacttctaccatttgctctgacaaaacc
gggaccctaacgcagaaccgaatgactgtagctcatatgtggtttgataaccagatccat
gaagccgacaccacagagaatcagagcggtgcctcctttgataagagctccccaacatgg
acagccctgtctcgggttgctggtttgtgtaacagagcagtgtttcaagctggacaggag
aacacccccatcctgaagagagatgttgctggagatgcatcagagtccgctctgctgaag
tgcattgagctgtgttgtgggtctgtgagggatatgagagaaaagaaccacaaagtggca
gaaattcctttcaactctacaaacaaataccagctgtctgtacacaagaatgcaaaccca
tccgagtcccgctacattctggtcatgaaaggagcccctgagcgtatcttggatcgatgc
acttccattatcttgcagggcaaggagcagcccttggatgaggaactgaaggatgctttc
cagaatgcctacctggagctgggtggcctgggagaaagagtgttaggtttctgccacctc
gctttgcctgatgaccagttcccagatggatttcagtttgacacagaagaagtgaacttc
ccaacagagaacctttgctttgttggattgatctctatgattgatccaccccgtgctgct
gtgcctgatgctgttggcaaatgccgaagtgccggaatcaaggttatcatggtaacaggc
gaccacccaattacagccaaggccattgctaagggagtgggaatcatctctgaaggcaac
gaaactgtggaggatattgcagccaggctcaacattcctgtcaaccaggtgaaccccaga
gatgccaaggcgtgtgtgatccatggcacagacctaaaggacatgacagaagagcagatt
gatgacatcctcaggcatcacacagagatcgtatttgccagaacatctcctcagcagaag
ctcatcattgtggagggttgtcagcgacagggtgcgattgtagcagtgacaggtgatggt
gtaaatgactcccctgctctgaagaaggcagatataggtatcgctatgggcatcgctggt
tctgatgtctccaagcaggcagccgacatgatcctgttggatgataactttgcttctatt
gttactggagtcgaggaaggtcgtctgatctttgataacctgaagaaatcaatcgcctac
accctgaccagtaacatccctgaaatcacacccttcctcatcttcatcatcgccaacatt
cctctgcccttgggcactgtcaccatcctatgtatcgatctgggcacagacatggtccct
gctatctccctggcttatgagcaagctgagagtgacatcatgaagcgacagccccgaaat
cccaaaacagacaagctggtgaatgaaagactcatcagtatggcctatgggcagatcggt
atgatccaagccctggggggattcttcacatactttgttatcttggctgagaatggcttc
ctgccctggaccctgcttggtatcagagtgaactgggacgaccgctggacaaacgatgta
gaagacagttatggacaacagtggacctacgagcagaggaagattgtggagttcacgtgc
catacatctttcttcatcagtattgtggttgtacagtgggccgatctgatcatctgtaag
accagaaggaactcagtcttccagcagggaatgaagaataaaatcctcatctttgggctg
tttgaagagacggcactggcggccttcctgtcctactgtcctggaatggatgttgctctg
cgcatgtacccgctcaaaccgacctggtggttctgtgccttcccatactcactgatcatc
ttcatatatgatgaagtccgtaaactgattatcaggcgcagcccaggtggctgggtggaa
aaagaatcctattattaa |
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