Entry
Symbol
ATP6V0A2, A2, ARCL, ARCL2A, ATP6A2, ATP6N1D, J6B7, RTF, STV1, TJ6, TJ6M, TJ6S, VPH1, WSS, a2V
Name
(RefSeq) ATPase H+ transporting V0 subunit a2
KO
K02154 V-type H+-transporting ATPase subunit a
Organism
Pathway
hsa05120 Epithelial cell signaling in Helicobacter pylori infection
Module
Disease
Brite
KEGG Orthology (KO) [BR:hsa00001 ]
09100 Metabolism
09102 Energy metabolism
00190 Oxidative phosphorylation
23545 (ATP6V0A2)
09140 Cellular Processes
09141 Transport and catabolism
04145 Phagosome
23545 (ATP6V0A2)
04142 Lysosome
23545 (ATP6V0A2)
09150 Organismal Systems
09155 Excretory system
04966 Collecting duct acid secretion
23545 (ATP6V0A2)
09156 Nervous system
04721 Synaptic vesicle cycle
23545 (ATP6V0A2)
09160 Human Diseases
09172 Infectious disease: viral
05165 Human papillomavirus infection
23545 (ATP6V0A2)
09171 Infectious disease: bacterial
05110 Vibrio cholerae infection
23545 (ATP6V0A2)
05120 Epithelial cell signaling in Helicobacter pylori infection
23545 (ATP6V0A2)
05152 Tuberculosis
23545 (ATP6V0A2)
09163 Immune disease
05323 Rheumatoid arthritis
23545 (ATP6V0A2)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:hsa04147 ]
23545 (ATP6V0A2)
Exosome [BR:hsa04147 ]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
23545 (ATP6V0A2)
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
12:123712353..123761755
Genome browser
AA seq
856 aa AA seq DB search
MGSLFRSETMCLAQLFLQSGTAYECLSALGEKGLVQFRDLNQNVSSFQRKFVGEVKRCEE
LERILVYLVQEINRADIPLPEGEASPPAPPLKQVLEMQEQLQKLEVELREVTKNKEKLRK
NLLELIEYTHMLRVTKTFVKRNVEFEPTYEEFPSLESDSLLDYSCMQRLGAKLGFVSGLI
NQGKVEAFEKMLWRVCKGYTIVSYAELDESLEDPETGEVIKWYVFLISFWGEQIGHKVKK
ICDCYHCHVYPYPNTAEERREIQEGLNTRIQDLYTVLHKTEDYLRQVLCKAAESVYSRVI
QVKKMKAIYHMLNMCSFDVTNKCLIAEVWCPEADLQDLRRALEEGSRESGATIPSFMNII
PTKETPPTRIRTNKFTEGFQNIVDAYGVGSYREVNPALFTIITFPFLFAVMFGDFGHGFV
MFLFALLLVLNENHPRLNQSQEIMRMFFNGRYILLLMGLFSVYTGLIYNDCFSKSVNLFG
SGWNVSAMYSSSHPPAEHKKMVLWNDSVVRHNSILQLDPSIPGVFRGPYPLGIDPIWNLA
TNRLTFLNSFKMKMSVILGIIHMTFGVILGIFNHLHFRKKFNIYLVSIPELLFMLCIFGY
LIFMIFYKWLVFSAETSRVAPSILIEFINMFLFPASKTSGLYTGQEYVQRVLLVVTALSV
PVLFLGKPLFLLWLHNGRSCFGVNRSGYTLIRKDSEEEVSLLGSQDIEEGNHQVEDGCRE
MACEEFNFGEILMTQVIHSIEYCLGCISNTASYLRLWALSLAHAQLSDVLWAMLMRVGLR
VDTTYGVLLLLPVIALFAVLTIFILLIMEGLSAFLHAIRLHWVEFQNKFYVGAGTKFVPF
SFSLLSSKFNNDDSVA
NT seq
2571 nt NT seq +upstream nt +downstream nt
atggggtccctgttccggagcgagaccatgtgcctggcgcagctcttcctgcagtcgggc
acggcctacgagtgcctcagcgccctgggcgagaaaggcctggtccagttccgagacctc
aaccagaacgtaagttctttccaaagaaaatttgttggtgaggtgaagaggtgtgaagag
ctagagcgaatattggtgtatttggtacaggaaattaatagagctgatattccccttcct
gaaggagaggccagccctcctgcgccacccctgaaacaggttctagaaatgcaggagcag
ttgcagaagctcgaggttgaactgagagaagtcactaagaacaaggagaaactgaggaaa
aacttgctggaactgatagagtacactcacatgctgagagtgacaaagacctttgtgaaa
cgcaatgttgagtttgaacccacttatgaagaattcccttccttagagagtgattctttg
ttggattacagctgtatgcagaggctgggagcaaaactgggatttgtgtctggcctaatt
aaccaaggaaaagtggaagcatttgaaaaaatgttgtggagagtctgcaaagggtacacc
atcgtgtcctatgcagaactggatgaatcccttgaagaccctgaaacaggggaagtcata
aaatggtatgtctttttaatatccttttggggagagcagattggccacaaggttaagaag
atatgtgattgctaccactgccacgtgtacccctatccaaacacagccgaggagcggagg
gagatccaggaggggctgaacacccgcatccaggatctctacactgtactgcacaaaacc
gaggactatttgaggcaagtgctatgtaaagccgccgagtctgtctacagccgtgtgatc
caggtgaagaaaatgaaggccatctatcacatgctgaacatgtgcagctttgacgtgacc
aacaagtgcctcattgctgaggtctggtgtcccgaggcggatctgcaggacctgcgccgg
gcactggaggagggctcgagagagagtggtgctacaatcccctcattcatgaatataatc
cccacaaaagaaacaccccccactcggatccgcaccaacaaattcaccgagggatttcag
aacatcgtggatgcttatggagtcggaagctacagagaagtcaatccagctctctttacc
atcatcaccttcccgtttttatttgctgtgatgtttggagacttcggacatggctttgtg
atgtttttatttgccctcttgttggtgttaaatgaaaatcatcccagactaaatcagtca
caagagatcatgaggatgttttttaatggccggtacatcctcctgctgatggggctgttc
tcagtgtacactggcctcatctacaacgactgcttttcaaagtcagtcaacctgttcggc
tctgggtggaacgtgtcggccatgtacagctccagccacccacccgcagagcataagaag
atggtgctttggaatgacagcgtcgttagacacaacagcattttgcagctggatccaagc
attcctggagtgttccgaggcccttatccccttggcattgatcctatttggaacttggcc
acaaatcgcctcacttttctaaactctttcaaaatgaaaatgtccgtgattttaggaatc
attcatatgacttttggagtcattctgggaatatttaaccacttgcacttcaggaagaag
ttcaacatttacctggtttccatcccggaacttctcttcatgctctgtatctttggatac
cttatatttatgattttctacaagtggctggttttttcagcagaaacctccagagttgct
cccagcattctgattgaatttattaacatgtttttattcccagccagtaaaacaagtggc
ctttacacagggcaggagtatgtccagagagtgctgctggttgtcacagcattgtctgtc
cctgtcctcttcttgggaaagccactgtttttgttgtggcttcacaatgggcgtagttgc
ttcggggtgaaccggagtggctacacacttataaggaaagatagtgaggaagaagtttca
ttgctgggaagccaagatatagaagagggaaatcaccaggtggaagatggatgtagagaa
atggcgtgtgaagagtttaattttggagaaatattaatgacccaagtaatccattccatc
gagtactgtctgggatgcatctccaacaccgcctcctacctgaggctctgggcgcttagc
ctggctcacgcacagttgtctgatgtcctgtgggccatgctgatgcgcgtgggcctccgc
gttgacaccacctatggcgtcttgctactgctcccggttatcgcgctctttgcagttttg
accattttcatccttctgatcatggaagggctttctgcgtttcttcacgccatacgcctc
cactgggtagaatttcagaacaaattctacgttggtgcaggcaccaaatttgttcctttc
tcattcagtctactttcatcaaagttcaataacgacgacagtgtggcatga