Entry |
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Symbol |
atp1a2.S, atp1a2, atp1a2.L, fhm2, mhp2
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Name |
(RefSeq) ATPase, Na+/K+ transporting, alpha 2 polypeptide S homeolog
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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
398752 (atp1a2.S)
09150 Organismal Systems
09153 Circulatory system
04260 Cardiac muscle contraction
398752 (atp1a2.S)
04261 Adrenergic signaling in cardiomyocytes
398752 (atp1a2.S)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:xla04147]
398752 (atp1a2.S)
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
398752 (atp1a2.S)
Exosome [BR:xla04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
398752 (atp1a2.S)
Exosomal proteins of other body fluids (saliva and urine)
398752 (atp1a2.S)
Exosomal proteins of colorectal cancer cells
398752 (atp1a2.S)
Exosomal proteins of bladder cancer cells
398752 (atp1a2.S)
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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 |
8S:99807416..99828131
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AA seq |
1020 aa
MGRGEGREYSPAATNADNGGGKKKQKEKEMDELKKEVAMDDHKLSLEEIGRKYGTDLAKG
LTNARAAEILAQDGPNSLTPPPTTPEWVKFCRQLFGGFSILLWIGAILCFLAYGIQIAME
DEPVNDNLYLGVVLAAVVIVTGCFSYYQEAKSSKIMDSFKNMVPQQALVIREGEKLQINA
EQVVVGELVEIKGGDRIPADLRITVAHGCKVDNSSLTGESEPQTRSPEFTHENPLETRNI
CFFSTNCVEGTARGIVIATGDRTVMGRIATLASGLEVGRTPIAMEIEHFIHIITGVAVFL
GLSFFILSLILGYSWLEGVIFLIGIIVANVPEGLLATVTVCLTLTAKRMARKNCLVKNLE
AVETLGSTSTICSDKTGTLTQNRMTVAHMWFDNQIHEADTTEDQSGATFDKRSPTWTALS
RIAGLCNRAVFKVGQDKIPVSKRDTAGDASESALLKCIELSCGSVRKLRDRNPKVAEIPF
NSTNKFQLSVHEREDSPEGHLLVMKGAPERILDRCSSIMIHGQEQPLDEEMKDAFQNAYF
ELGGLGERVLGFCHFYLPADKFQRGFKFDSEDPNFPITDLCFIGLISMIDPPRAAVPDAV
GKCRSAGIKVIMVTGDHPITAKAIAKGVGIISEGNETVEDIADRLNIPVNQVNPREAKAC
VIHGSDLKDMTSEQLDDLLKNHTEIVFARTSPQQKLIIVEGCQRQGAIVAVTGDGVNDSP
ALKKADIGVAMGIAGSDVSKQAADMILLDDNFASIVTGVEEGRLIFDNLKKSIAYTLTSN
IPEITPFLLFIIANIPLPLGTVTILCIDLGTDMVPAISLAYEAAESDIMKRQPRNPRTDK
LVNERLISMAYGQIGMIQALGGFFTYFVILAENGFLPYTLLGIRLDWDDRSKNDVEDSYG
QEWTYEQRKVVEFTCHTAFFASIVVVQWADLIICKTRRNSVFQQGMKNKILIFGLLEETA
LAAFLSYCPGMDVALRMYPLKVTWWFCAFPYSLLIFLYDEVRKLILRRDPGGWVEKESYY |
NT seq |
3063 nt +upstreamnt +downstreamnt
atggggagaggggagggacgggagtattctcccgcagcaaccaacgcagacaatggaggg
ggcaagaagaaacagaaagaaaaggagatggatgagctgaagaaggaagtggccatggat
gatcacaagctctccttggaagagattggtcgaaaatatgggacggaccttgctaagggt
ttgacaaatgctcgtgcagcagagattctggcccaagatggacccaactccctcacacca
ccaccaaccaccccagaatgggtaaagttttgcaggcagctcttcggcggattctccatt
ctcctgtggattggagccattctgtgctttctggcctatggtatccagattgccatggag
gatgaaccagtcaatgacaatctgtaccttggagtggtcttagccgctgtcgtcattgtc
actggctgcttctcttactaccaagaggcaaaaagttccaagatcatggattccttcaag
aacatggtgccacagcaagccttggttatccgtgaaggagagaagttgcagataaatgct
gagcaggtggtggtcggagagctggtggaaattaaaggaggagatcgaatacctgcagac
ttaagaataactgtagctcatgggtgcaaggtggataattcctctttgacgggagagtct
gaaccccaaactcgctctccagaattcacccacgaaaacccacttgagaccagaaacatt
tgcttcttctctaccaactgtgttgaaggtactgccagaggaattgttatcgctacagga
gaccgcactgtcatggggcgtattgccaccctagcttcaggccttgaagtaggccgcact
cctattgccatggagatcgagcatttcattcacattataactggggtggccgtgttcctt
ggactcagttttttcatcctttctcttattcttggctatagttggctagaaggtgtgata
ttcctcattggcatcattgtggccaacgtgccagagggtcttcttgcaacagttacggtg
tgtctaactctgactgccaaaagaatggcccgcaagaactgtctggtgaagaacctggaa
gccgtggagacacttggttccacctcaaccatctgctcagataagactggaactctgaca
cagaatcgaatgactgtggctcacatgtggttcgacaaccagatccacgaggctgacacc
accgaagaccagtcaggcgcaacatttgacaaacgctcccctacctggactgctctgtct
cgaattgccggactttgcaatcgcgcagtcttcaaagtgggacaagataaaatacctgtg
tcgaagagagacaccgctggtgatgcctcagaatcggctctgctgaaatgcattgaactg
tcctgcggctcggtccggaaattacgggatcggaacccgaaagtggctgaaatcccattt
aattctacaaacaagttccagttgtctgttcatgagcgggaagacagcccggagggccac
ctcttggtgatgaagggggccccagagagaatcttagatcgctgttccagcataatgatt
cacggccaagagcagcccttggatgaggagatgaaggatgctttccagaatgcctacttt
gaattggggggactgggagagagagttctagggttctgccacttctacctacctgctgat
aagttccaacgtgggttcaagtttgactcggaagatcccaacttccctatcactgacctt
tgctttattggcctcatctccatgattgatccccccagagcagcggtgcctgatgccgtt
ggaaaatgccgcagcgcagggatcaaggtgatcatggtaactggcgaccatccaatcacc
gcaaaggccatagccaaaggtgtgggtatcatctctgaaggaaatgagacggtggaggat
atagcagaccgactaaacataccagtcaaccaggtgaacccaagggaggcaaaggcatgt
gtgatccatggctctgatttgaaggacatgacctctgaacaactggatgacctcctcaag
aaccacacggaaatcgtctttgctcggacctccccccagcagaagctgatcattgtcgag
ggctgccagagacagggggcaattgtagcagtgacaggggatggtgtaaatgactcccca
gctctaaagaaagcagatatcggtgtggccatgggaatcgcgggatctgacgtctccaaa
caggcagccgacatgatcctattggacgataactttgcttccattgtgacgggggtagaa
gaaggtcgacttatttttgacaacctaaagaagtccatagcctacacactgaccagcaac
atccctgagataacccctttcctccttttcatcattgccaacattccgctgccactgggg
acagttaccatcctctgtattgatcttggaacagacatggtgcctgccatctctctagcg
tatgaggcagccgagagcgacattatgaaaaggcagccaaggaacccgcggacggacaag
ctggtgaacgaacgtctaatcagcatggcctatgggcagattggtatgatccaggccttg
ggtgggttcttcacctactttgtaatcctggcggagaatggatttctgccctacaccttg
ctgggaatccgcttggactgggatgatcgttccaaaaatgacgtggaagacagttatggg
caggagtggacctatgaacagcgcaaagtggtggagttcacatgccataccgcattcttt
gctagtatcgtggtggtgcaatgggctgatctaatcatctgtaaaacccgaagaaactct
gtgttccagcaaggaatgaagaataagattctcatctttggtcttctggaagagacggct
ctggctgcattcttgtcatactgtcctggaatggatgtggctttgagaatgtatcctctc
aaggtgacctggtggttctgtgcattcccctacagcctgctgatatttttgtatgatgaa
gtaaggaagctgatcttgagacgtgatccaggcggttgggtggagaaggagagctactac
tga |