KEGG   Homo sapiens (human): 287
Entry
287               CDS       T01001                                 
Symbol
ANK2, ANK-2, CFAP87, FAP87, LQT4, brank-2
Name
(RefSeq) ankyrin 2
  KO
K09255  ankyrin-2
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
hsa05205  Proteoglycans in cancer
Network
nt06546  IgSF CAM signaling
  Element
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
Disease
H00720  Long QT syndrome
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    287 (ANK2)
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    287 (ANK2)
 09160 Human Diseases
  09161 Cancer: overview
   05205 Proteoglycans in cancer
    287 (ANK2)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    287 (ANK2)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Intermediate filaments
   Intermediate filament-binding proteins
    287 (ANK2)
SSDB
Motif
Pfam: Ank Ank_2 Ank_4 Ank_3 Ank_5 UPA_2 ZU5 ANK_LRRK2 Death Ank_KRIT1
Other DBs
NCBI-GeneID: 287
NCBI-ProteinID: NP_001139
OMIM: 106410
HGNC: 493
Ensembl: ENSG00000145362
UniProt: Q01484
Structure
LinkDB
Position
4:112705622..113383736
AA seq 3957 aa
MMNEDAAQKSDSGEKFNGSSQRRKRPKKSDSNASFLRAARAGNLDKVVEYLKGGIDINTC
NQNGLNALHLAAKEGHVGLVQELLGRGSSVDSATKKGNTALHIASLAGQAEVVKVLVKEG
ANINAQSQNGFTPLYMAAQENHIDVVKYLLENGANQSTATEDGFTPLAVALQQGHNQAVA
ILLENDTKGKVRLPALHIAARKDDTKSAALLLQNDHNADVQSKMMVNRTTESGFTPLHIA
AHYGNVNVATLLLNRGAAVDFTARNGITPLHVASKRGNTNMVKLLLDRGGQIDAKTRDGL
TPLHCAARSGHDQVVELLLERGAPLLARTKNGLSPLHMAAQGDHVECVKHLLQHKAPVDD
VTLDYLTALHVAAHCGHYRVTKLLLDKRANPNARALNGFTPLHIACKKNRIKVMELLVKY
GASIQAITESGLTPIHVAAFMGHLNIVLLLLQNGASPDVTNIRGETALHMAARAGQVEVV
RCLLRNGALVDARAREEQTPLHIASRLGKTEIVQLLLQHMAHPDAATTNGYTPLHISARE
GQVDVASVLLEAGAAHSLATKKGFTPLHVAAKYGSLDVAKLLLQRRAAADSAGKNGLTPL
HVAAHYDNQKVALLLLEKGASPHATAKNGYTPLHIAAKKNQMQIASTLLNYGAETNIVTK
QGVTPLHLASQEGHTDMVTLLLDKGANIHMSTKSGLTSLHLAAQEDKVNVADILTKHGAD
QDAHTKLGYTPLIVACHYGNVKMVNFLLKQGANVNAKTKNGYTPLHQAAQQGHTHIINVL
LQHGAKPNATTANGNTALAIAKRLGYISVVDTLKVVTEEVTTTTTTITEKHKLNVPETMT
EVLDVSDEEGDDTMTGDGGEYLRPEDLKELGDDSLPSSQFLDGMNYLRYSLEGGRSDSLR
SFSSDRSHTLSHASYLRDSAVMDDSVVIPSHQVSTLAKEAERNSYRLSWGTENLDNVALS
SSPIHSGFLVSFMVDARGGAMRGCRHNGLRIIIPPRKCTAPTRVTCRLVKRHRLATMPPM
VEGEGLASRLIEVGPSGAQFLGKLHLPTAPPPLNEGESLVSRILQLGPPGTKFLGPVIVE
IPHFAALRGKERELVVLRSENGDSWKEHFCDYTEDELNEILNGMDEVLDSPEDLEKKRIC
RIITRDFPQYFAVVSRIKQDSNLIGPEGGVLSSTVVPQVQAVFPEGALTKRIRVGLQAQP
MHSELVKKILGNKATFSPIVTLEPRRRKFHKPITMTIPVPKASSDVMLNGFGGDAPTLRL
LCSITGGTTPAQWEDITGTTPLTFVNECVSFTTNVSARFWLIDCRQIQESVTFASQVYRE
IICVPYMAKFVVFAKSHDPIEARLRCFCMTDDKVDKTLEQQENFAEVARSRDVEVLEGKP
IYVDCFGNLVPLTKSGQHHIFSFFAFKENRLPLFVKVRDTTQEPCGRLSFMKEPKSTRGL
VHQAICNLNITLPIYTKESESDQEQEEEIDMTSEKNDETESTETSVLKSHLVNEVPVLAS
PDLLSEVSEMKQDLIKMTAILTTDVSDKAGSIKVKELVKAAEEEPGEPFEIVERVKEDLE
KVNEILRSGTCTRDESSVQSSRSERGLVEEEWVIVSDEEIEEARQKAPLEITEYPCVEVR
IDKEIKGKVEKDSTGLVNYLTDDLNTCVPLPKEQLQTVQDKAGKKCEALAVGRSSEKEGK
DIPPDETQSTQKQHKPSLGIKKPVRRKLKEKQKQKEEGLQASAEKAELKKGSSEESLGED
PGLAPEPLPTVKATSPLIEETPIGSIKDKVKALQKRVEDEQKGRSKLPIRVKGKEDVPKK
TTHRPHPAASPSLKSERHAPGSPSPKTERHSTLSSSAKTERHPPVSPSSKTEKHSPVSPS
AKTERHSPASSSSKTEKHSPVSPSTKTERHSPVSSTKTERHPPVSPSGKTDKRPPVSPSG
RTEKHPPVSPGRTEKRLPVSPSGRTDKHQPVSTAGKTEKHLPVSPSGKTEKQPPVSPTSK
TERIEETMSVRELMKAFQSGQDPSKHKTGLFEHKSAKQKQPQEKGKVRVEKEKGPILTQR
EAQKTENQTIKRGQRLPVTGTAESKRGVRVSSIGVKKEDAAGGKEKVLSHKIPEPVQSVP
EEESHRESEVPKEKMADEQGDMDLQISPDRKTSTDFSEVIKQELEDNDKYQQFRLSEETE
KAQLHLDQVLTSPFNTTFPLDYMKDEFLPALSLQSGALDGSSESLKNEGVAGSPCGSLME
GTPQISSEESYKHEGLAETPETSPESLSFSPKKSEEQTGETKESTKTETTTEIRSEKEHP
TTKDITGGSEERGATVTEDSETSTESFQKEATLGSPKDTSPKRQDDCTGSCSVALAKETP
TGLTEEAACDEGQRTFGSSAHKTQTDSEVQESTATSDETKALPLPEASVKTDTGTESKPQ
GVIRSPQGLELALPSRDSEVLSAVADDSLAVSHKDSLEASPVLEDNSSHKTPDSLEPSPL
KESPCRDSLESSPVEPKMKAGIFPSHFPLPAAVAKTELLTEVASVRSRLLRDPDGSAEDD
SLEQTSLMESSGKSPLSPDTPSSEEVSYEVTPKTTDVSTPKPAVIHECAEEDDSENGEKK
RFTPEEEMFKMVTKIKMFDELEQEAKQKRDYKKEPKQEESSSSSDPDADCSVDVDEPKHT
GSGEDESGVPVLVTSESRKVSSSSESEPELAQLKKGADSGLLPEPVIRVQPPSPLPSSMD
SNSSPEEVQFQPVVSKQYTFKMNEDTQEEPGKSEEEKDSESHLAEDRHAVSTEAEDRSYD
KLNRDTDQPKICDGHGCEAMSPSSSAAPVSSGLQSPTGDDVDEQPVIYKESLALQGTHEK
DTEGEELDVSRAESPQADCPSESFSSSSSLPHCLVSEGKELDEDISATSSIQKTEVTKTD
ETFENLPKDCPSQDSSITTQTDRFSMDVPVSDLAENDEIYDPQITSPYENVPSQSFFSSE
ESKTQTDANHTTSFHSSEVYSVTITSPVEDVVVASSSSGTVLSKESNFEGQDIKMESQQE
STLWEMQSDSVSSSFEPTMSATTTVVGEQISKVIITKTDVDSDSWSEIREDDEAFEARVK
EEEQKIFGLMVDRQSQGTTPDTTPARTPTEEGTPTSEQNPFLFQEGKLFEMTRSGAIDMT
KRSYADESFHFFQIGQESREETLSEDVKEGATGADPLPLETSAESLALSESKETVDDEAD
LLPDDVSEEVEEIPASDAQLNSQMGISASTETPTKEAVSVGTKDLPTVQTGDIPPLSGVK
QISCPDSSEPAVQVQLDFSTLTRSVYSDRGDDSPDSSPEEQKSVIEIPTAPMENVPFTES
KSKIPVRTMPTSTPAPPSAEYESSVSEDFLSSVDEENKADEAKPKSKLPVKVPLQRVEQQ
LSDLDTSVQKTVAPQGQDMASIAPDNRSKSESDASSLDSKTKCPVKTRSYTETETESRER
AEELELESEEGATRPKILTSRLPVKSRSTTSSCRGGTSPTKESKEHFFDLYRNSIEFFEE
ISDEASKLVDRLTQSEREQEIVSDDESSSALEVSVIENLPPVETEHSVPEDIFDTRPIWD
ESIETLIERIPDENGHDHAEDPQDEQERIEERLAYIADHLGFSWTELARELDFTEEQIHQ
IRIENPNSLQDQSHALLKYWLERDGKHATDTNLVECLTKINRMDIVHLMETNTEPLQERI
SHSYAEIEQTITLDHSEGFSVLQEELCTAQHKQKEEQAVSKESETCDHPPIVSEEDISVG
YSTFQDGVPKTEGDSSATALFPQTHKEQVQQDFSGKMQDLPEESSLEYQQEYFVTTPGTE
TSETQKAMIVPSSPSKTPEEVSTPAEEEKLYLQTPTSSERGGSPIIQEPEEPSEHREESS
PRKTSLVIVESADNQPETCERLDEDAAFEKGDDMPEIPPETVTEEEYIDEHGHTVVKKVT
RKIIRRYVSSEGTEKEEIMVQGMPQEPVNIEEGDGYSKVIKRVVLKSDTEQSEDNNE
NT seq 11874 nt   +upstreamnt  +downstreamnt
atgatgaacgaagatgcagctcagaaaagcgacagtggagagaagttcaacggcagtagt
cagaggagaaaaagacccaagaagtctgacagcaatgcaagcttcctccgtgctgccaga
gcaggcaacctggacaaagttgtggaatatctgaaggggggcatagacatcaatacctgc
aatcagaatggactcaacgctctccatctggctgccaaggaaggccacgtggggctggtg
caggagctgctgggaagagggtcctctgtggattctgccactaagaagggaaataccgct
cttcacattgcatctttggctggacaagcagaagttgtcaaagttcttgttaaggaagga
gccaatattaatgcacagtctcagaatggctttactcctttatacatggctgcccaagag
aatcacattgatgttgtaaaatatttgctggaaaatggagctaatcagagcactgctaca
gaggatggctttactcctctagctgtggcactccagcaaggacacaaccaggcggtggcc
atcctcttggagaatgacaccaaagggaaagtgaggctgccagctctgcatattgccgct
aggaaagacgacaccaaatctgccgcacttctgcttcagaatgaccacaatgctgacgta
caatccaagatgatggtgaataggacaactgagagtggttttacccctttgcacatagct
gcacattacggaaatgtcaacgtggcaactcttcttctaaaccggggagctgctgtggac
ttcacagccaggaatggaatcactcctctgcatgtggcttccaaaagaggaaatacaaac
atggtgaagctcttactggatcgaggcggtcagatcgatgccaaaactagggatgggttg
acaccacttcactgtgctgcacgaagtgggcatgaccaagtggtggaacttctgttggaa
cggggtgcccccttgctggcaaggactaagaatgggctgtctccactacacatggctgcc
cagggagaccacgtggaatgtgtgaagcacctgttacagcacaaggcacctgttgatgat
gtcaccctagactacctgacagccctccacgttgctgcgcactgtggccactaccgtgta
accaaactccttttagacaagagagccaatccgaacgccagagccctgaatggttttact
ccactgcacattgcctgcaagaaaaaccgcatcaaagtcatggaactgctggtgaaatat
ggggcttcaatccaagctataacagagtctggcctcacaccaatacatgtggctgccttc
atgggccacttgaacattgtcctccttctgctgcagaacggagcctctccagatgtcact
aacattcgtggtgagacggcactacacatggcagcccgagccgggcaggtggaagtggtc
cgatgcctcctgagaaatggtgcccttgttgatgccagagccagggaggaacagacacct
ttacatattgcctcccgcctgggtaagacagaaattgtccagctgcttctacaacatatg
gctcatccagatgcggccactacaaatgggtacacaccactgcacatctctgcccgggag
ggccaggtggatgtggcatcagtcctattggaagcaggagcagcccactccttagctacc
aagaagggttttactcccctgcatgtagcagccaagtatggaagcctggatgtggcaaaa
cttctcttgcaacgccgtgctgccgcagattctgcagggaagaacggccttaccccgctc
catgttgctgctcattatgacaaccagaaggtggcgctgctgttactggagaagggtgct
tcccctcatgccactgccaagaatggctatactccgttacatattgctgccaagaagaat
caaatgcagatagcttccacactcctgaactatggagcagagacaaacattgtgacaaag
caaggagtaactccactccatctggcctcgcaggaggggcacacagatatggttaccttg
cttctggataagggagccaatatccacatgtcaactaagagtggactcacatccttacac
cttgcagcccaggaagataaagtgaatgttgctgatattctcaccaagcatggagctgat
caggatgctcatacaaagcttggttacacacctttaattgtggcctgtcactatggaaat
gtgaaaatggtcaactttcttctgaagcagggagcaaatgttaacgcaaaaaccaagaac
ggctacacgcctttgcaccaggccgctcagcagggtcacacgcacatcatcaacgtcctg
ctccagcatggggccaagcccaacgccaccactgcgaatggcaacactgccttggcgatt
gctaagcgtctgggctacatctccgtggtcgacaccctgaaggttgtgactgaggaggtc
accaccaccaccacaactattacagaaaaacacaaactaaatgtacctgagacgatgact
gaggttcttgatgtttctgatgaagagggtgatgacacaatgactggtgatgggggagaa
taccttaggcctgaggacctaaaagaactgggtgatgactcactacccagcagtcagttc
ctggatggtatgaattacctgcgatacagcttggagggaggacgatctgacagccttcga
tccttcagttccgacaggtctcacactctgagccatgcctcctacctgagggacagtgcc
gtgatggatgactcagttgtgattcccagtcaccaggtgtcaactctagccaaggaggca
gaaaggaattcttatcgcctaagctggggcactgagaacttagacaacgtggctctttct
tctagtcctattcattcaggtttcctggttagttttatggtggatgcccgaggtggtgct
atgcgaggatgcagacacaatgggctccgaatcattattccacctcggaaatgtactgct
ccaacgcgagtcacctgccgactggtcaagcgccacagactggcaacaatgcctccaatg
gtggaaggagaaggcctggccagtcgcctgatcgaagttggaccttctggtgctcagttc
cttggtaaacttcacctgccaacggctcctcccccacttaatgagggagaaagtttggtc
agccgcattcttcagctggggcctcctggaaccaaattccttgggcctgtgatcgtggag
atccctcactttgcggcccttcgaggaaaggaaagggaactggtggtcctgcgcagtgag
aatggggacagctggaaagagcatttctgtgactacactgaagatgaattgaatgaaatt
cttaacggcatggatgaagtactggatagcccagaagacctagaaaagaaacgaatctgc
cgcatcatcacccgagacttcccacagtactttgcagtggtgtctcgtatcaaacaggac
agcaatctgattggcccagaaggaggtgtactgagcagcacagtggtgccccaggtgcag
gccgtcttcccagagggggcactcaccaagcggatccgcgtaggcctgcaggctcaacct
atgcacagtgagctggttaagaagatcctaggcaacaaagctaccttcagccctatagtc
actttggaacctagaagaagaaaattccacaaaccaattaccatgaccattcctgtcccc
aaagcttcaagtgatgtcatgttgaatggttttgggggagatgcaccaaccttaagatta
ctatgcagcataacaggtggaaccacccctgcccagtgggaagatattacaggaactacg
ccattaacatttgtcaatgaatgtgtttcctttacaacaaacgtgtctgccaggttctgg
ctgatagattgtcgacagatccaggaatccgttacttttgcatcacaagtatacagagaa
attatctgcgtaccttatatggccaaatttgtagtgtttgccaaatcacatgaccccatt
gaagccaggttgaggtgtttctgcatgactgatgataaagtggataagacccttgaacaa
caagaaaattttgctgaggtggccagaagcagggatgtggaggtgttagaaggaaaaccc
atctacgttgattgtttcggcaacttggtaccattaactaaaagtggccagcatcatata
ttcagtttttttgccttcaaagaaaatagacttcctctatttgtcaaggtacgcgatacg
actcaggaaccttgcggacgactatcatttatgaaggagccaaaatccacgagaggcctg
gtgcatcaagctatttgcaacttaaacatcactttgccgatttatacaaaggaatcagag
tcagatcaagaacaggaggaagagatcgatatgacatcagaaaaaaatgatgagacagaa
tctacagaaacatctgtcctgaaaagtcacctggttaatgaagttcctgtcctagcaagt
ccggacttgctctctgaagtttctgagatgaaacaagatttgatcaaaatgaccgccatc
ttgaccacagatgtgtctgataaggcaggttctattaaagtgaaggagctggtgaaggct
gctgaggaagagccaggagagccttttgaaatcgttgaaagagttaaagaggacttagag
aaagtgaatgaaatcctgagaagtggaacctgcacaagagatgaaagcagtgtgcagagc
tctcggtctgagagaggattagttgaagaggaatgggttattgtcagtgatgaggaaata
gaagaggctaggcaaaaagcacctttagaaatcactgaatatccatgtgtagaagttaga
atagataaagagatcaaaggaaaagtagagaaagactcaactgggctagtgaactacctt
actgatgatctgaatacctgtgtgcctcttcccaaagagcagctgcagacagttcaagat
aaggcagggaagaaatgtgaggctctggctgttggcaggagctctgaaaaggaagggaaa
gacatacccccagatgagacacagagtacacagaaacagcacaaaccaagcttgggaata
aagaagccagtaagaaggaaattaaaagaaaagcagaaacaaaaagaggaaggtttacaa
gctagtgcagagaaagctgaacttaaaaaaggtagttcagaagagtcattaggtgaagac
ccaggtttagcccctgaaccccttcccactgtcaaggccacatctcctttgatagaagaa
actcccattggttccataaaggacaaagtaaaggcccttcagaagcgagtggaagatgaa
cagaaaggtcgaagcaagttgcccatcagagtcaaaggcaaggaggacgtgccaaaaaag
accacccacaggccacatccagctgcgtcaccctctctgaagtcagagagacatgcgcca
gggtctccctcccctaaaacagaaagacactctactctttcctcttccgcaaaaactgaa
aggcaccctccagtatcaccatcaagtaaaactgagaaacactcacctgtgtcaccctct
gcaaaaacggaaagacattcacctgcgtcatcatcgagtaaaactgagaaacactcacct
gtatcaccctcgacaaaaactgaaaggcactctcctgtgtcatctacaaaaacagaaaga
cacccacctgtttcgccttcaggcaaaacagacaaacgtccacctgtatcgccctccggg
aggacagaaaaacacccgccagtatcgcctgggagaacagaaaaacgcttgcctgtttca
ccctccggaagaacggacaagcaccaacctgtatcaacagctgggaaaactgagaagcac
ctgcctgtgtcaccttctggcaaaacagaaaagcaaccacctgtatcccccacttcaaaa
acagagaggattgaggaaaccatgtctgttcgggagctgatgaaggctttccagtcaggt
caggacccttctaaacataaaactggactctttgagcacaaatcagcaaaacaaaagcag
ccacaagagaaaggtaaagttcgggtagaaaaagaaaaggggccgatactaacccagaga
gaagctcagaaaacagagaatcagacaatcaaacgaggccagagactcccggtaacgggc
acagcagaatccaaaagaggagttcgtgtttcctccataggagttaagaaagaagatgca
gctggaggaaaggagaaagttctcagccacaaaatacctgaacctgttcagtcagtgcct
gaagaagaaagccacagagagagcgaagtgcccaaagaaaagatggctgatgagcaggga
gacatggatctacagatcagcccagataggaaaacctccactgacttctctgaggtcatt
aagcaagagttggaagacaatgacaaataccaacaattccgcctgagtgaggagacagaa
aaggcacagcttcacttagaccaagtactcactagtcctttcaacacaacatttccactc
gactacatgaaagatgagttccttccagctctgtctttacaaagcggtgctttagatggc
agttctgaaagcctaaagaatgagggggtagccggctctccgtgtggcagcctgatggag
gggacccctcagattagttcagaagaaagctataagcatgaaggcctagcagagacccct
gagacgagcccagaaagcctttctttctcaccaaagaaaagtgaggagcaaactggggaa
acaaaggaaagcaccaagacagaaaccaccacagaaattcgttcagaaaaagagcatccc
acgaccaaagacattactggtggctctgaagagcgaggtgccacagtcactgaggactca
gagacctctactgagagttttcagaaagaggccactctaggctctcccaaagacacaagc
cctaaaagacaagatgattgcacaggcagctgtagtgtagcattagctaaagagacacct
acaggactgactgaggaggcagcctgtgatgaaggtcaacgtacctttggtagttcagcc
cacaagacacaaactgatagtgaggttcaagaatccacagccacctcagacgagacaaag
gccttgccgctgcctgaggcttctgtaaagacagatacaggaactgaatcaaaacctcag
ggagtcattagaagtccccaagggttagaacttgcactccctagccgagatagcgaagtc
ctcagcgctgtggctgatgactcattagcagtgagccacaaagactctctggaagccagc
cctgtgctagaagataactcttcacacaaaacccctgattctctggagccaagtcctctg
aaagaatccccttgccgtgactctctggaaagcagccctgttgaaccaaagatgaaggct
ggaatttttccaagtcactttcctcttcctgcagctgttgccaaaacagaactcttgacg
gaagtggcctctgtgcggtcccggctactccgagaccctgatggcagtgctgaggatgac
agtcttgagcagacatcgctcatggagagctcagggaagagccccctttctcctgacacc
cccagctctgaagaagtcagctatgaggttacacccaaaaccacagatgtaagtacacca
aaaccagctgtgattcatgaatgtgcagaggaggatgattcagaaaacggggagaaaaag
aggttcacacctgaagaggagatgtttaaaatggtaaccaaaatcaaaatgtttgatgaa
cttgaacaagaagcaaagcagaaaagggactacaaaaaagaacccaaacaagaagaatct
tcttcatcttctgacccagatgctgactgttcagtagatgtggatgaaccaaaacataca
ggcagtggggaggatgaaagtggtgtccctgtgttagtaacttcggagagcaggaaggtg
tcttcctcctcagaaagtgaacctgagttggcacagcttaaaaaaggtgctgactcaggc
cttttaccagaaccagtgattcgagtacaacctccttctccacttccatcaagcatggac
tccaattccagtccagaagaagtacaattccagcctgtcgtttccaaacaatatactttc
aagatgaatgaagatactcaggaagagccaggcaaatcagaagaagaaaaagattctgaa
tcccatttagctgaagaccgtcatgctgtttccactgaggctgaagacaggtcttatgat
aagctaaacagagacactgatcagccaaaaatctgtgatggccatggatgtgaggccatg
agtcctagcagctcagctgctcctgtctcttcaggtctacagagtccgactggtgatgat
gttgatgaacagccagtcatctataaagaatcattagctctccaaggcactcatgaaaaa
gacacagagggagaagagcttgatgtttctagagcagaatctccacaagcagattgcccc
agtgaaagcttttcatcttcatcctctttgcctcattgtttggtatctgaaggaaaagaa
ttagatgaagacatatctgccacatcttctattcaaaaaacagaggtcacaaaaactgat
gaaacatttgagaacttaccaaaggactgcccctctcaagactcatccattactactcaa
acagatagattttccatggatgttcccgtgtctgacctagctgagaatgatgaaatctat
gatccacaaatcactagcccttatgaaaatgtcccttcccaatcttttttctctagtgaa
gaaagcaaaacccaaacagatgcaaatcacaccacaagttttcactcttctgaagtgtat
tctgttaccatcacatcccctgttgaagacgttgtagtggcaagctcctctagtggaact
gttttaagcaaagaatctaattttgagggccaggacataaaaatggaatcccaacaggaa
agtaccttgtgggaaatgcaatcagacagtgtctcttcatctttcgagcctactatgtcc
gctacaacaacagttgttggtgaacaaataagcaaagtcatcatcacaaaaactgatgtg
gattctgattcttggagtgaaattcgggaagacgatgaagcctttgaggctcgtgtgaaa
gaggaagaacaaaagatatttggtttgatggtagacagacaatcacagggtaccacccct
gacaccactcctgctaggaccccaactgaagaggggaccccaacaagtgagcaaaaccca
tttctgtttcaggaaggaaaattgtttgaaatgacccgaagtggtgccattgatatgacc
aaaaggtcctatgcagatgaaagttttcactttttccaaattggtcaagaatccagggaa
gagactctctctgaagatgtgaaagaaggggctactggggctgatcccctaccgctggag
acatcagctgaatcactagcactttcagaatcaaaagaaacagtggatgatgaggcagac
ttacttccagatgacgtgagtgaggaagtagaggaaatacctgcttcggatgctcaactt
aactcccaaatggggatttcagcctccactgaaacacctacaaaagaagctgttagtgta
gggaccaaggacctccccaccgtgcaaacgggtgatatacctcctctctctggtgtaaag
cagatatcctgccccgactcttctgaaccagctgtacaagtccagttagatttttccaca
ctcaccaggtctgtttattcagataggggtgatgattctcccgattcttccccagaagaa
cagaaatcagtaatcgagattcctactgcacccatggagaatgtgccttttactgaaagc
aaatccaaaattcctgtaaggactatgcccacttccaccccagcacctccatctgcagag
tatgagagttcagtttctgaagattttctatccagtgtagatgaggaaaataaggcggat
gaagcaaaaccaaagtccaaactccctgtcaaagtacccctccaaagagttgaacagcag
ctctcagatctagacacctctgtccagaagacagtggctcctcagggacaggacatggca
agcatcgcaccagataatagaagcaaatctgaatctgatgctagttctttggattcaaag
accaaatgcccagtaaaaacccgaagttacactgagacagaaacagagagcagagagagg
gccgaggaacttgagttagaatcagaagaaggggccacaagaccaaagatacttacatcc
cgattgccagttaagagcagaagcactacatcttcctgcagggggggcacgagccccaca
aaagaaagtaaggagcatttctttgacctttacagaaattccatagaattctttgaggag
attagtgatgaggcttccaaattagtggataggctgacacagtcagagagggagcaggaa
atagtttcagacgatgaaagtagtagtgccctggaagtatcagtaattgaaaatctgcca
cctgttgagaccgagcactcagttcctgaggacatctttgacacaaggcccatttgggat
gagtctattgagactctgattgaacgcatccctgatgaaaatggccatgaccatgctgaa
gatccacaggatgagcaggaacggatcgaggaaaggctggcttatattgctgatcacctt
ggcttcagctggacagaattagcaagagaactggatttcactgaggagcaaattcatcaa
attcgaattgaaaatcccaactctcttcaagaccagagtcatgcactgttgaagtactgg
ctagagagggatgggaaacatgctacagataccaacctcgttgaatgtctcaccaagatc
aaccgaatggatattgttcatctcatggagaccaacacagaacctctccaggagcgcatc
agtcatagttatgcagaaattgaacagaccattacactggatcatagtgaagggttctcg
gtacttcaagaggagttatgcactgcacagcacaagcagaaagaggagcaagctgtttct
aaagaaagtgagacctgcgatcaccctcctatcgtctcagaggaagacatttctgttggt
tattccacttttcaggatggcgtccccaaaactgagggggacagctcagcaacagcactc
tttccccaaactcacaaggagcaagttcaacaggatttctcagggaaaatgcaagacctg
cctgaagagtcatctctggaatatcagcaggaatattttgtgacaactccaggaacagaa
acatcagagactcagaaggctatgatagtacccagctctcccagcaagacacctgaggaa
gttagcacccctgcagaggaggagaagctgtacctccagaccccaacatccagcgagcgg
ggaggctctcccatcatacaagaacccgaagagccctcagagcacagagaggagagctct
ccgcggaaaaccagcctcgtaatagtggagtctgccgataaccagcctgagacctgtgaa
agactcgatgaagatgcagcttttgaaaagggagacgatatgcctgaaatacccccagaa
acagtcacagaagaagaatacattgatgagcatggacacaccgtggtaaagaaggttact
aggaaaatcattaggcggtatgtatcctctgaaggcacagagaaagaagagattatggtg
cagggaatgccacaggaacctgtcaacatcgaggaaggggatggctattccaaagttata
aagcgtgttgtattgaagagtgacaccgagcagtcagaggacaacaatgagtaa

KEGG   Homo sapiens (human): 288
Entry
288               CDS       T01001                                 
Symbol
ANK3, ANKYRIN-G, MRT37
Name
(RefSeq) ankyrin 3
  KO
K09259  ankyrin-3
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
hsa05205  Proteoglycans in cancer
Network
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N01848  Membrane-associated periodic skeleton (MPS)
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
Disease
H00768  Autosomal recessive intellectual developmental disorder
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    288 (ANK3)
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    288 (ANK3)
 09160 Human Diseases
  09161 Cancer: overview
   05205 Proteoglycans in cancer
    288 (ANK3)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    288 (ANK3)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Intermediate filaments
   Intermediate filament-binding proteins
    288 (ANK3)
SSDB
Motif
Pfam: Ank Ank_2 Ank_4 Ank_3 Ank_5 UPA_2 ZU5 Death ANK_LRRK2 Ank_KRIT1
Other DBs
NCBI-GeneID: 288
NCBI-ProteinID: NP_066267
OMIM: 600465
HGNC: 494
Ensembl: ENSG00000151150
UniProt: Q12955
Structure
LinkDB
Position
10:complement(60026298..60733528)
AA seq 4377 aa
MAHAASQLKKNRDLEINAEEEPEKKRKHRKRSRDRKKKSDANASYLRAARAGHLEKALDY
IKNGVDINICNQNGLNALHLASKEGHVEVVSELLQREANVDAATKKGNTALHIASLAGQA
EVVKVLVTNGANVNAQSQNGFTPLYMAAQENHLEVVKFLLDNGASQSLATEDGFTPLAVA
LQQGHDQVVSLLLENDTKGKVRLPALHIAARKDDTKAAALLLQNDNNADVESKSGFTPLH
IAAHYGNINVATLLLNRAAAVDFTARNDITPLHVASKRGNANMVKLLLDRGAKIDAKTRD
GLTPLHCGARSGHEQVVEMLLDRAAPILSKTKNGLSPLHMATQGDHLNCVQLLLQHNVPV
DDVTNDYLTALHVAAHCGHYKVAKVLLDKKANPNAKALNGFTPLHIACKKNRIKVMELLL
KHGASIQAVTESGLTPIHVAAFMGHVNIVSQLMHHGASPNTTNVRGETALHMAARSGQAE
VVRYLVQDGAQVEAKAKDDQTPLHISARLGKADIVQQLLQQGASPNAATTSGYTPLHLSA
REGHEDVAAFLLDHGASLSITTKKGFTPLHVAAKYGKLEVANLLLQKSASPDAAGKSGLT
PLHVAAHYDNQKVALLLLDQGASPHAAAKNGYTPLHIAAKKNQMDIATTLLEYGADANAV
TRQGIASVHLAAQEGHVDMVSLLLGRNANVNLSNKSGLTPLHLAAQEDRVNVAEVLVNQG
AHVDAQTKMGYTPLHVGCHYGNIKIVNFLLQHSAKVNAKTKNGYTPLHQAAQQGHTHIIN
VLLQNNASPNELTVNGNTALGIARRLGYISVVDTLKIVTEETMTTTTVTEKHKMNVPETM
NEVLDMSDDEVRKANAPEMLSDGEYISDVEEGEDAMTGDTDKYLGPQDLKELGDDSLPAE
GYMGFSLGARSASLRSFSSDRSYTLNRSSYARDSMMIEELLVPSKEQHLTFTREFDSDSL
RHYSWAADTLDNVNLVSSPIHSGFLVSFMVDARGGSMRGSRHHGMRIIIPPRKCTAPTRI
TCRLVKRHKLANPPPMVEGEGLASRLVEMGPAGAQFLGPVIVEIPHFGSMRGKERELIVL
RSENGETWKEHQFDSKNEDLTELLNGMDEELDSPEELGKKRICRIITKDFPQYFAVVSRI
KQESNQIGPEGGILSSTTVPLVQASFPEGALTKRIRVGLQAQPVPDEIVKKILGNKATFS
PIVTVEPRRRKFHKPITMTIPVPPPSGEGVSNGYKGDTTPNLRLLCSITGGTSPAQWEDI
TGTTPLTFIKDCVSFTTNVSARFWLADCHQVLETVGLATQLYRELICVPYMAKFVVFAKM
NDPVESSLRCFCMTDDKVDKTLEQQENFEEVARSKDIEVLEGKPIYVDCYGNLAPLTKGG
QQLVFNFYSFKENRLPFSIKIRDTSQEPCGRLSFLKEPKTTKGLPQTAVCNLNITLPAHK
KETESDQDDEIEKTDRRQSFASLALRKRYSYLTEPGMIERSTGATRSLPTTYSYKPFFST
RPYQSWTTAPITVPGPAKSGFTSLSSSSSNTPSASPLKSIWSVSTPSPIKSTLGASTTSS
VKSISDVASPIRSFRTMSSPIKTVVSQSPYNIQVSSGTLARAPAVTEATPLKGLASNSTF
SSRTSPVTTAGSLLERSSITMTPPASPKSNINMYSSSLPFKSIITSAAPLISSPLKSVVS
PVKSAVDVISSAKITMASSLSSPVKQMPGHAEVALVNGSISPLKYPSSSTLINGCKATAT
LQEKISSATNSVSSVVSAATDTVEKVFSTTTAMPFSPLRSYVSAAPSAFQSLRTPSASAL
YTSLGSSISATTSSVTSSIITVPVYSVVNVLPEPALKKLPDSNSFTKSAAALLSPIKTLT
TETHPQPHFSRTSSPVKSSLFLAPSALKLSTPSSLSSSQEILKDVAEMKEDLMRMTAILQ
TDVPEEKPFQPELPKEGRIDDEEPFKIVEKVKEDLVKVSEILKKDVCVDNKGSPKSPKSD
KGHSPEDDWIEFSSEEIREARQQAAASQSPSLPERVQVKAKAASEKDYNLTKVIDYLTND
IGSSSLTNLKYKFEDAKKDGEERQKRVLKPAIALQEHKLKMPPASMRTSTSEKELCKMAD
SFFGTDTILESPDDFSQHDQDKSPLSDSGFETRSEKTPSAPQSAESTGPKPLFHEVPIPP
VITETRTEVVHVIRSYDPSAGDVPQTQPEEPVSPKPSPTFMELEPKPTTSSIKEKVKAFQ
MKASSEEDDHNRVLSKGMRVKEETHITTTTRMVYHSPPGGEGASERIEETMSVHDIMKAF
QSGRDPSKELAGLFEHKSAVSPDVHKSAAETSAQHAEKDNQMKPKLERIIEVHIEKGNQA
EPTEVIIRETKKHPEKEMYVYQKDLSRGDINLKDFLPEKHDAFPCSEEQGQQEEEELTAE
ESLPSYLESSRVNTPVSQEEDSRPSSAQLISDDSYKTLKLLSQHSIEYHDDELSELRGES
YRFAEKMLLSEKLDVSHSDTEESVTDHAGPPSSELQGSDKRSREKIATAPKKEILSKIYK
DVSENGVGKVSKDEHFDKVTVLHYSGNVSSPKHAMWMRFTEDRLDRGREKLIYEDRVDRT
VKEAEEKLTEVSQFFRDKTEKLNDELQSPEKKARPKNGKEYSSQSPTSSSPEKVLLTELL
ASNDEWVKARQHGPDGQGFPKAEEKAPSLPSSPEKMVLSQQTEDSKSTVEAKGSISQSKA
PDGPQSGFQLKQSKLSSIRLKFEQGTHAKSKDMSQEDRKSDGQSRIPVKKIQESKLPVYQ
VFAREKQQKAIDLPDESVSVQKDFMVLKTKDEHAQSNEIVVNDSGSDNVKKQRTEMSSKA
MPDSFSEQQAKDLACHITSDLATRGPWDKKVFRTWESSGATNNKSQKEKLSHVLVHDVRE
NHIGHPESKSVDQKNEFMSVTERERKLLTNGSLSEIKEMTVKSPSKKVLYREYVVKEGDH
PGGLLDQPSRRSESSAVSHIPVRVADERRMLSSNIPDGFCEQSAFPKHELSQKLSQSSMS
KETVETQHFNSIEDEKVTYSEISKVSKHQSYVGLCPPLEETETSPTKSPDSLEFSPGKES
PSSDVFDHSPIDGLEKLAPLAQTEGGKEIKTLPVYVSFVQVGKQYEKEIQQGGVKKIISQ
ECKTVQETRGTFYTTRQQKQPPSPQGSPEDDTLEQVSFLDSSGKSPLTPETPSSEEVSYE
FTSKTPDSLIAYIPGKPSPIPEVSEESEEEEQAKSTSLKQTTVEETAVEREMPNDVSKDS
NQRPKNNRVAYIEFPPPPPLDADQIESDKKHHYLPEKEVDMIEVNLQDEHDKYQLAEPVI
RVQPPSPVPPGADVSDSSDDESIYQPVPVKKYTFKLKEVDDEQKEKPKASAEKASNQKEL
ESNGSGKDNEFGLGLDSPQNEIAQNGNNDQSITECSIATTAEFSHDTDATEIDSLDGYDL
QDEDDGLTESDSKLPIQAMEIKKDIWNTEGILKPADRSFSQSKLEVIEEEGKVGPDEDKP
PSKSSSSEKTPDKTDQKSGAQFFTLEGRHPDRSVFPDTYFSYKVDEEFATPFKTVATKGL
DFDPWSNNRGDDEVFDSKSREDETKPFGLAVEDRSPATTPDTTPARTPTDESTPTSEPNP
FPFHEGKMFEMTRSGAIDMSKRDFVEERLQFFQIGEHTSEGKSGDQGEGDKSMVTATPQP
QSGDTTVETNLERNVETPTVEPNPSIPTSGECQEGTSSSGSLEKSAAATNTSKVDPKLRT
PIKMGISASTMTMKKEGPGEITDKIEAVMTSCQGLENETITMISNTANSQMGVRPHEKHD
FQKDNFNNNNNLDSSTIQTDNIMSNIVLTEHSAPTCTTEKDNPVKVSSGKKTGVLQGHCV
RDKQKVLGEQQKTKELIGIRQKSKLPIKATSPKDTFPPNHMSNTKASKMKQVSQSEKTKA
LTTSSCVDVKSRIPVKNTHRDNIIAVRKACATQKQGQPEKGKAKQLPSKLPVKVRSTCVT
TTTTTATTTTTTTTTTTTSCTVKVRKSQLKEVCKHSIEYFKGISGETLKLVDRLSEEEKK
MQSELSDEEESTSRNTSLSETSRGGQPSVTTKSARDKKTEAAPLKSKSEKAGSEKRSSRR
TGPQSPCERTDIRMAIVADHLGLSWTELARELNFSVDEINQIRVENPNSLISQSFMLLKK
WVTRDGKNATTDALTSVLTKINRIDIVTLLEGPIFDYGNISGTRSFADENNVFHDPVDGW
QNETSSGNLESCAQARRVTGGLLDRLDDSPDQCRDSITSYLKGEAGKFEANGSHTEITPE
AKTKSYFPESQNDVGKQSTKETLKPKIHGSGHVEEPASPLAAYQKSLEETSKLIIEETKP
CVPVSMKKMSRTSPADGKPRLSLHEEEGSSGSEQKQGEGFKVKTKKEIRHVEKKSHS
NT seq 13134 nt   +upstreamnt  +downstreamnt
atggctcatgcagcctcacaattaaagaaaaacagggatttagaaatcaatgctgaagaa
gagcctgagaaaaaaaggaaacaccgcaaacggtcccgggatcggaagaaaaagtctgat
gccaatgcaagttacttaagagcagctcgagctggacaccttgaaaaggccctcgactac
ataaaaaatggagttgacatcaacatttgcaatcagaatgggttgaacgctctccacctt
gcttccaaagaaggccatgtagaggttgtttctgagctgctgcagagagaagccaatgtg
gatgcagctacaaagaaaggaaacacagcattgcacatcgcatctttggctgggcaagca
gaggtggtaaaagtcttggttacaaatggagccaatgtcaatgcacaatctcagaatggt
ttcacgccattgtatatggcagcccaggaaaatcacctggaagttgtcaagtttcttctt
gacaatggtgcaagccagagcctagccacagaggatggcttcacaccattggcagtggct
ttgcaacaaggtcacgaccaagtcgtttcgctcctgctagagaatgacaccaaaggaaaa
gtgcgtctcccagctcttcatatcgcggcccgaaaagacgacacgaaagccgccgccctg
ctgctgcagaatgacaacaatgcagatgtggaatcaaagagtggcttcactccgctccac
atagctgctcactatggaaatatcaatgtagccacgttgctgttaaaccgagcggctgct
gtggatttcaccgcaaggaatgacatcactcctttacatgttgcatcaaaaagaggaaat
gcaaatatggtaaaactattgctcgatcgaggagctaaaatcgatgccaaaaccagggat
ggtctgacaccactgcactgtggagcaaggagtggccacgagcaggtggtagaaatgttg
cttgatcgagctgcccccattctttcaaaaaccaagaatggattatctccattgcacatg
gccacacaaggggatcatttaaactgcgtccagcttctcctccagcataatgtacccgtg
gatgatgtcaccaatgactacctgactgccctacacgtggctgcccactgtggccattac
aaagttgccaaggttctcttggataagaaagctaaccccaatgccaaagccctgaatggc
tttacccctcttcatattgcctgcaagaagaatcgaattaaagtaatggaactccttctg
aaacacggtgcatccatccaagctgtaaccgagtcgggccttaccccaatccatgttgct
gccttcatggggcatgtaaatattgtatcacaactaatgcatcatggagcctcaccaaac
accaccaatgtgagaggagaaacagcactgcacatggcagctcgctccggccaagctgaa
gttgtgcggtatctggtacaagacggagctcaggtagaagctaaagctaaggatgaccaa
acaccactccacatttcagcccgactggggaaagcagacatagtacaacagctgttgcag
caaggggcatctccaaatgcagccacaacttctgggtacaccccacttcacctttccgcc
cgagaggggcatgaggatgtggccgcgttccttttggatcatggagcgtctttatctata
acaacaaagaaaggatttactcctcttcatgtggcagcaaaatatggaaagcttgaagtc
gccaatctcctgctacagaaaagtgcatctccagatgctgctgggaagagcgggctaaca
ccactgcatgtagctgcacattacgataatcagaaagtggcccttctgcttttggaccaa
ggagcctcacctcacgcagccgcaaagaatggttatacgccactgcacatcgctgccaaa
aagaaccagatggacatagcgacaactctgctggaatatggtgctgatgccaacgcagtt
acccggcaaggaattgcttccgtccatctcgcagctcaggaagggcacgtggacatggtg
tcgctgctcctcggtagaaatgcgaatgtgaacctgagcaataagagcggcctgacccca
ctccatttggctgctcaagaagatcgagtgaatgtggcagaagtcctcgtaaaccaaggg
gctcatgtggacgcccagacaaagatgggatacacaccactgcatgtgggctgccactat
ggaaatatcaagattgttaatttcctgctccagcattctgcaaaagttaatgccaaaaca
aagaatgggtatacgccattacatcaagcagcacagcaggggcatacgcatataataaat
gtcttacttcagaacaacgcctcccccaatgaactcactgtgaatgggaatactgccctt
ggcattgcccggcgcctcggctacatctcagtagtggacaccctgaagatagtgaccgaa
gagaccatgaccacaactactgtcacagagaagcacaaaatgaatgttccagaaacgatg
aatgaagttcttgatatgtctgatgatgaagttcgtaaagccaatgcccctgaaatgctc
agtgatggcgaatatatctcagatgttgaagaaggtgaagatgcaatgaccggggacaca
gacaaatatcttgggccacaggaccttaaggaattgggtgatgattccctgcctgcagag
ggttacatgggctttagtctcggagcgcgttctgccagcctccgctccttcagttcggat
aggtcttacaccttgaacagaagctcctatgcacgggacagcatgatgattgaagaactc
cttgtgccatccaaagagcagcatctaacattcacaagggaatttgattcagattctctt
agacattacagctgggctgcagacaccttagacaatgtcaatcttgtttcaagccccatt
cattctgggtttctggttagctttatggtggacgcgagagggggctccatgagaggaagc
cgtcatcacgggatgagaatcatcattcctccacgcaagtgtacggcccccactcgaatc
acctgccgtttggtaaagagacataaactggccaacccaccccccatggtggaaggagag
ggattagccagtaggctggtagaaatgggtcctgcaggggcacaatttttaggccctgtc
atagtggaaatccctcactttgggtccatgagaggaaaagagagagaactcattgttctt
cgaagtgaaaatggtgaaacttggaaggagcatcagtttgacagcaaaaatgaagattta
accgagttacttaatggcatggatgaagaacttgatagcccagaagagttagggaaaaag
cgtatctgcaggattatcacgaaagatttcccccagtattttgcagtggtttcccggatt
aagcaggaaagcaaccagattggtcctgaaggtggaattctgagcagcaccacagtgccc
cttgttcaagcatctttcccagagggtgccctaactaaaagaattcgagtgggcctccag
gcccagcctgttccagatgaaattgtgaaaaagatccttggaaacaaagcaacttttagc
ccaattgtcactgtggaaccaagaagacggaaattccataaaccaatcacaatgaccatt
ccggtgcccccgccctcaggagaaggtgtatccaatggatacaaaggggacactacaccc
aatctgcgtcttctctgtagcattacagggggcacttcgcctgctcagtgggaagacatc
acaggaacaactcctttgacgtttataaaagattgtgtctcctttacaaccaatgtttca
gccagattttggcttgcagactgccatcaagttttagaaactgtggggttagccacgcaa
ctgtacagagaattgatatgtgttccatatatggccaagtttgttgtttttgccaaaatg
aatgatcccgtagaatcttccttgcgatgtttctgcatgacagatgacaaagtggacaaa
actttagagcaacaagagaattttgaggaagtcgcaagaagcaaagatattgaggttctg
gaaggaaaacctatttatgttgattgttatggaaatttggccccacttaccaaaggagga
cagcaacttgtttttaacttttattctttcaaagaaaatagactgccattttccatcaag
attagagacaccagccaagagccctgtggtcgtctgtcttttctgaaagaaccaaagaca
acaaaaggactgcctcaaacagcggtttgcaacttaaatatcactctgccagcacataaa
aaggagacagagtcagatcaagatgatgagattgagaaaacagatagacgacagagcttc
gcatccttagctttacgtaagcgctacagctacttgactgagcctggaatgattgaacgg
agtacaggagcaacaagatccctccccaccacttactcatacaagccattcttttctaca
agaccataccagtcctggacaacagctccgattacagtgcctgggccagccaagtcaggc
ttcacttccttatcaagttcttcctctaatacgccatcagcttctccgttaaaatcaata
tggtctgtttcgacaccttctccaatcaaatccacattaggcgcgtcaactacatcttca
gttaaatccattagtgacgtggcatctccaattagatcctttcggacaatgtcttcgccg
ataaaaactgtggtgtcacaatctccatacaatatccaagtttcctctggtaccctggct
agagctccagcagtcacggaagctacgcccttaaaagggctggcatccaattctacgttt
tcctctcgaacctctccagtgactacagcagggtctcttttggagaggtcatcaattact
atgacaccccctgcctcccccaaatcaaacattaatatgtattcctcaagtttgccattt
aagtcaattattacatcagcagcaccgctaatatcttcacctttaaagtcagtggtgtct
ccagttaaatcagcagttgatgtcatttcatcagccaaaattacaatggcatcttctctc
tcatcacctgtgaagcagatgcctggacatgcagaggtagcattagtcaatggatctatt
tcccctctaaaatatccatcatcctcaactttaattaatggatgcaaagccactgccacg
ttacaggaaaaaatttcttctgctacaaactctgtgagctctgtggtcagtgcagccact
gacacagttgagaaagtgttttctaccacgactgcaatgccattttccccactcaggtca
tatgtttctgcagcaccatcagcttttcagtctctaagaactccttccgcaagtgcactc
tatacatcccttgggtcgtcaatatctgcaactacctcatctgtaacttcatcaattata
acagtgccagtatactctgtagtcaatgttttgccagaaccagcattaaagaaacttcca
gactctaattcatttacaaaatcagcagcagccttgctgtcacccattaaaacattgact
acggagacacatcctcagcctcacttcagtcgaacttcatctccagttaagtcatctttg
ttccttgcaccctctgcccttaagttgtctacaccatcttctttatcttccagtcaggag
atactaaaagatgtagctgaaatgaaagaggacctaatgcggatgaccgcaatactacag
acagatgtgcctgaggagaagccattccaacctgaactcccaaaggaagggagaatagat
gatgaagaacctttcaaaattgtagagaaagtaaaggaagacttagtgaaagttagtgaa
atccttaaaaaggatgtatgtgtagataataaaggatcacccaaatcaccaaagagtgac
aaaggacactctcctgaagatgactggatagaatttagttcggaagaaatccgggaagcc
agacaacaagctgctgcgagccagtctccatctctgccagagagagtgcaagtaaaagca
aaagccgcctccgaaaaggattataacttgaccaaagttattgattacctaacaaatgat
attgggagtagttcactgacaaacttaaaatacaagtttgaggatgcaaagaaggatggt
gaggagagacagaaaagagttttaaaaccagcaattgctttgcaggaacacaaactcaaa
atgcctccagcctccatgaggacttccacctctgagaaagaattgtgtaaaatggctgat
tccttttttggaacagatactattttagagtctcctgatgacttttctcaacacgaccaa
gataaaagtcccttgtctgacagtggctttgaaacaagaagtgaaaagacaccttcagcc
ccacaaagcgctgaaagcactggtcctaaaccactttttcatgaagttcccatccctcct
gtcattacagaaacaagaactgaagtggttcatgttatcaggagctatgatccctcagct
ggggatgttccccagacccaaccagaggagcctgtgtcacctaaaccttcacctactttt
atggaattggaaccaaagcccaccacctctagtattaaagaaaaggttaaagcatttcaa
atgaaagccagtagtgaagaagatgaccacaatcgggttttaagcaaaggcatgcgtgtt
aaagaagagactcacataaccacaaccaccagaatggtttatcattctccaccaggcggt
gaaggtgcatctgaaagaattgaagaaaccatgtcagtccatgacatcatgaaggccttt
cagtccgggcgggatccttccaaagaactggcaggtctgtttgaacataagtcggcagtg
tctccagatgttcacaagtctgctgctgaaacctcagcccagcatgcagagaaggacaac
caaatgaaacccaaactggagcgtataatagaagtccacatcgaaaaaggtaaccaagct
gagcccactgaagtcattattagagaaaccaaaaagcatccagaaaaagaaatgtatgta
tatcagaaagacttatcccggggagatattaacctaaaagattttctgccagaaaaacac
gatgcttttccttgttcagaggaacagggtcagcaagaagaagaagaacttactgctgaa
gagtcattgccttcttatctggagtcttccagagtaaacactcctgtgtcccaagaagaa
gatagccgccctagttctgctcaactcatatctgatgactcttataaaacattgaagctt
ttgagtcaacactcaatagaataccatgacgatgagttgtcagaactaagaggggagtct
tacaggtttgctgagaaaatgcttctgtcagaaaagctagatgtgtctcattctgatact
gaggaatcggttacagaccatgcaggaccccctagctcagagttacaggggtctgataag
cggtccagagaaaaaatagccactgcccccaaaaaagaaattctctccaaaatctataaa
gatgtttctgaaaatggtgtaggtaaagtgtctaaagatgagcattttgataaagtgaca
gtgttgcactattctggcaatgttagtagtccaaaacatgccatgtggatgcgctttact
gaggacagattagacagaggtagagagaagttgatatatgaagatagggtggacaggact
gtgaaggaggctgaagaaaaactgactgaagtgtcacagttttttcgtgacaaaactgaa
aagctaaatgatgaactgcagtccccagagaaaaaggcacgccctaaaaatggcaaagaa
tattcttctcaaagccctaccagtagcagccctgagaaagtgctactgacagaactgctg
gcatccaatgatgagtgggttaaggcaagacagcatggccctgatggacaaggcttcccc
aaggccgaggagaaggcacccagtctgcccagcagcccagagaagatggttctctcccaa
cagactgaggacagcaagtccacagtggaagccaaaggaagtatttcacagagcaaagca
ccagatgggccccagtctggattccagctcaaacaatctaaactcagttccattagatta
aaatttgaacaaggcacacacgcaaaaagtaaggacatgtctcaagaagacagaaagtca
gatggccagtccagaatcccagttaaaaaaatacaggagagcaagctacccgtctaccaa
gtttttgctagagaaaaacagcagaaggccatagacctcccagatgaaagtgtatctgtg
caaaaagattttatggtattaaaaaccaaagatgagcatgcccaaagcaacgaaattgtt
gtaaatgattctggctctgataatgtgaaaaaacagagaactgaaatgtcaagtaaagca
atgcctgactctttttctgagcagcaggctaaagacttggcatgtcatataacctcagat
ttagcaactaggggaccatgggacaaaaaggtctttagaacatgggagagttcgggagcc
actaacaataagtctcagaaagaaaaactttcgcatgtacttgttcatgatgtaagagag
aatcacattggtcaccctgagagtaaaagtgttgatcaaaagaatgaatttatgtctgtg
actgagagagaacgcaaattgttaacaaacggctctctctcagaaattaaagaaatgact
gtaaaatctccctccaaaaaagtcttatatagggaatatgttgtgaaagaaggggaccat
ccaggcggattgcttgatcagccttccaggaggagcgagagctcagcagtgtcacacatt
cccgtcagagttgctgatgagaggagaatgctgtcttctaatattcccgatggtttttgt
gaacagtcggcatttccaaaacatgaactatcacaaaaattgtcccagtcaagcatgagt
aaagagacagttgagacacagcactttaattctatagaagatgaaaaagttacctattca
gaaatcagcaaagtttccaaacaccagagttatgtaggtttatgcccacctctcgaggaa
accgaaacctcccccaccaaatctcctgattctttagagtttagcccaggaaaggaatct
ccctctagtgatgtattcgaccacagtcccattgatggattggaaaaactcgcaccacta
gcccagacagagggagggaaagagataaaaactttacccgtttatgtcagttttgtacaa
gtggggaagcaatatgaaaaggagatacaacaaggaggtgtaaaaaaaatcataagtcag
gaatgtaagacagtacaagaaaccagggggaccttttatacaactagacagcaaaagcaa
cctccttctccccaaggtagtccagaagatgatactctagagcaagtatcctttctagac
agctctgggaaaagccctttaaccccagaaacacccagttcagaggaagtgagttatgaa
tttacatctaagacacctgactcgctcatagcttatataccaggcaaacccagcccaatt
cccgaggtttctgaggagtcagaggaggaggaacaggccaagtcaacctcccttaagcag
actacagtggaggaaacagcagttgagcgtgaaatgcctaatgacgtgagcaaagactct
aaccaaagacccaaaaataacagagttgcctatattgaatttccccctcctccaccactg
gatgcggaccagattgagtcagataagaagcatcattatctcccagaaaaagaggttgac
atgattgaagtcaatctgcaagatgagcatgacaagtaccagctggctgaacctgtcatt
agagtgcagccaccttcaccagttcctcccggggcagacgtcagtgattcaagcgatgac
gaatctatttatcagccagtcccagttaaaaaatataccttcaaattaaaggaagtggac
gatgaacaaaaagaaaaacccaaagcttctgctgaaaaggcttccaaccagaaagaactg
gaaagtaatggatctggaaaagataatgaatttggccttggccttgattcacctcagaat
gaaattgcccagaatgggaacaacgaccagtccatcacagagtgttccattgccaccaca
gcagagttttctcatgacacggatgccacagagatcgactctctggatggctatgacctg
caagatgaagatgatggcttgacagagagtgattctaaactcccaattcaagccatggaa
attaagaaagatatctggaacacagagggcattctgaagccagctgaccgctcttttagc
caaagtaaacttgaagttatcgaggaggagggaaaggtgggaccagatgaggacaagcca
ccttctaaaagttcttcatctgaaaagactcctgataagactgatcagaagtcaggggcc
cagttcttcacactggaaggcagacatcctgacagatcagtgtttcctgatacttacttc
agttacaaagtagatgaagaatttgccactccttttaaaacagtagctaccaaaggtcta
gattttgacccttggtctaataaccgaggggatgatgaagtttttgacagtaaatcacgg
gaagatgaaactaagccatttgggctggcggtagaagaccgctctccagcaacaacccct
gatacaacgccagccagaacgccaactgatgaaagtaccccaactagtgagcctaacccc
ttcccatttcatgaaggaaaaatgtttgagatgactcgcagtggtgcaattgacatgagc
aagagggattttgttgaagagaggctccaatttttccagattggtgagcatacttctgaa
gggaagtcaggggaccagggggaaggggataaaagtatggtcactgccacaccacagcca
cagtcaggggacaccactgtagaaaccaatctagagagaaatgtagagacacctacagtg
gaacctaaccccagcatcccgaccagcggagagtgtcaggaaggcacatccagtagtggc
tccctggagaaatcagcagcagccactaacacctctaaagttgaccccaagttgcgcacg
cctataaaaatgggaatttctgcatccaccatgaccatgaagaaagaaggccctggagaa
ataacagataagatagaagcggtgatgaccagttgtcagggattagaaaatgaaactata
acaatgatttcaaatacagccaatagccagatgggcgttaggccccatgaaaaacatgat
tttcaaaaagataactttaataacaacaacaatttggattcttccactatacagacagat
aacattatgagtaatatagttctgacagaacattctgcacccacttgtaccacagagaaa
gataacccagtgaaagtctcatcaggaaaaaagacaggggtactacaaggacactgtgta
agagataagcagaaagttcttggagaacagcaaaaaacaaaggaattgatagggattagg
caaaaatccaaacttcccataaaggccacttcaccaaaagataccttcccaccgaaccat
atgtcaaacactaaagcaagtaaaatgaagcaggttagtcaatccgagaaaaccaaagcc
cttactacttcttcatgtgtagatgtaaagtccagaattccagtgaaaaacacacacagg
gataacataattgcagttagaaaagcatgtgccacacaaaagcaagggcagccagagaaa
ggcaaggccaaacagcttccatccaagttgccagtaaaggtaagatccacctgtgtcact
accaccaccaccactgccaccaccaccaccactaccaccactaccaccaccaccagctgc
acagttaaagttaggaaaagtcagctcaaggaagtatgtaaacattccattgaatatttt
aagggaattagtggtgagaccttaaagcttgtggaccgcctctctgaagaagaaaaaaag
atgcagtccgagttgtccgatgaggaagaaagtacctcaagaaacacgtcgttgtccgag
acttcccggggtggccagccttcggttacaacgaagtctgctagagataagaaaacagag
gcagcacctttaaaatcaaagagtgaaaaggccggcagtgagaaaaggagcagtagaagg
actggtccacagagtccatgtgaacggacagatatcaggatggcaatagtagccgatcac
ctgggacttagttggacagaactggcaagggaactgaatttttcagtggatgaaatcaat
caaatacgtgtggaaaatccaaattctttaatttctcagagcttcatgttattaaaaaaa
tgggttaccagagacggaaaaaatgccacaactgatgccttaacttcggtcttgacaaaa
attaatcgaatagatatagtgacactgctagaaggaccaatatttgattatggaaatatt
tcaggcaccagaagttttgcagatgagaacaatgttttccatgaccctgttgatggttgg
cagaatgagacatcaagtggaaacctagagtcctgcgctcaagctcgaagagtaactggt
gggttactagatcgactggatgacagccctgaccagtgtagagattccattacctcatat
ctcaaaggagaagctggcaaatttgaagcaaatggaagccatacagaaatcactccagaa
gcaaagacaaaatcttactttccagaatcccaaaatgatgtaggaaaacagagtaccaag
gaaactctgaaaccaaaaatacatggatctggtcatgttgaagaaccagcatcaccacta
gcagcatatcagaaatctctagaagaaaccagcaagcttataatagaagagactaaaccc
tgtgtgcctgtcagtatgaaaaagatgagtaggacttctccagcagatggcaagccaagg
cttagcctccatgaagaagaggggtccagtgggtctgagcaaaagcagggagaaggtttt
aaggtgaaaacgaagaaagaaatccggcatgtggaaaagaagagccactcgtaa

KEGG   Homo sapiens (human): 6709
Entry
6709              CDS       T01001                                 
Symbol
SPTAN1, DEE5, DEVEP, EIEE5, HMN11, HMND11, NEAS, SPG91, SPTA2
Name
(RefSeq) spectrin alpha, non-erythrocytic 1
  KO
K06114  spectrin alpha, non-erythrocytic (fodrin)
Organism
hsa  Homo sapiens (human)
Pathway
hsa04210  Apoptosis
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
Network
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N01848  Membrane-associated periodic skeleton (MPS)
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
N01936  CNTN1 interactions
N01937  CNTN2 interactions
Disease
H00266  Hereditary spastic paraplegia
H00606  Early infantile epileptic encephalopathy
H00856  Distal hereditary motor neuropathies
H02989  Developmental delay with or without epilepsy
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    6709 (SPTAN1)
 09140 Cellular Processes
  09143 Cell growth and death
   04210 Apoptosis
    6709 (SPTAN1)
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    6709 (SPTAN1)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    6709 (SPTAN1)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Cross-linking proteins
     6709 (SPTAN1)
  Intermediate filaments
   Intermediate filament-binding proteins
    6709 (SPTAN1)
SSDB
Motif
Pfam: Spectrin EFhand_Ca_insen SH3_1 EF-hand_1 EF-hand_7 EF-hand_6 SH3_9 EF-hand_8 SH3_2 EF-hand_5 SH3_3 SH3_10 SCO1-SenC Tetrabrachion
Other DBs
NCBI-GeneID: 6709
NCBI-ProteinID: NP_003118
OMIM: 182810
HGNC: 11273
Ensembl: ENSG00000197694
UniProt: Q13813
Structure
LinkDB
Position
9:128552587..128633662
AA seq 2472 aa
MDPSGVKVLETAEDIQERRQQVLDRYHRFKELSTLRRQKLEDSYRFQFFQRDAEELEKWI
QEKLQIASDENYKDPTNLQGKLQKHQAFEAEVQANSGAIVKLDETGNLMISEGHFASETI
RTRLMELHRQWELLLEKMREKGIKLLQAQKLVQYLRECEDVMDWINDKEAIVTSEELGQD
LEHVEVLQKKFEEFQTDMAAHEERVNEVNQFAAKLIQEQHPEEELIKTKQDEVNAAWQRL
KGLALQRQGKLFGAAEVQRFNRDVDETISWIKEKEQLMASDDFGRDLASVQALLRKHEGL
ERDLAALEDKVKALCAEADRLQQSHPLSATQIQVKREELITNWEQIRTLAAERHARLNDS
YRLQRFLADFRDLTSWVTEMKALINADELASDVAGAEALLDRHQEHKGEIDAHEDSFKSA
DESGQALLAAGHYASDEVREKLTVLSEERAALLELWELRRQQYEQCMDLQLFYRDTEQVD
NWMSKQEAFLLNEDLGDSLDSVEALLKKHEDFEKSLSAQEEKITALDEFATKLIQNNHYA
MEDVATRRDALLSRRNALHERAMRRRAQLADSFHLQQFFRDSDELKSWVNEKMKTATDEA
YKDPSNLQGKVQKHQAFEAELSANQSRIDALEKAGQKLIDVNHYAKDEVAARMNEVISLW
KKLLEATELKGIKLREANQQQQFNRNVEDIELWLYEVEGHLASDDYGKDLTNVQNLQKKH
ALLEADVAAHQDRIDGITIQARQFQDAGHFDAENIKKKQEALVARYEALKEPMVARKQKL
ADSLRLQQLFRDVEDEETWIREKEPIAASTNRGKDLIGVQNLLKKHQALQAEIAGHEPRI
KAVTQKGNAMVEEGHFAAEDVKAKLHELNQKWEALKAKASQRRQDLEDSLQAQQYFADAN
EAESWMREKEPIVGSTDYGKDEDSAEALLKKHEALMSDLSAYGSSIQALREQAQSCRQQV
APTDDETGKELVLALYDYQEKSPREVTMKKGDILTLLNSTNKDWWKVEVNDRQGFVPAAY
VKKLDPAQSASRENLLEEQGSIALRQEQIDNQTRITKEAGSVSLRMKQVEELYHSLLELG
EKRKGMLEKSCKKFMLFREANELQQWINEKEAALTSEEVGADLEQVEVLQKKFDDFQKDL
KANESRLKDINKVAEDLESEGLMAEEVQAVQQQEVYGMMPRDETDSKTASPWKSARLMVH
TVATFNSIKELNERWRSLQQLAEERSQLLGSAHEVQRFHRDADETKEWIEEKNQALNTDN
YGHDLASVQALQRKHEGFERDLAALGDKVNSLGETAERLIQSHPESAEDLQEKCTELNQA
WSSLGKRADQRKAKLGDSHDLQRFLSDFRDLMSWINGIRGLVSSDELAKDVTGAEALLER
HQEHRTEIDARAGTFQAFEQFGQQLLAHGHYASPEIKQKLDILDQERADLEKAWVQRRMM
LDQCLELQLFHRDCEQAENWMAAREAFLNTEDKGDSLDSVEALIKKHEDFDKAINVQEEK
IAALQAFADQLIAAGHYAKGDISSRRNEVLDRWRRLKAQMIEKRSKLGESQTLQQFSRDV
DEIEAWISEKLQTASDESYKDPTNIQSKHQKHQAFEAELHANADRIRGVIDMGNSLIERG
ACAGSEDAVKARLAALADQWQFLVQKSAEKSQKLKEANKQQNFNTGIKDFDFWLSEVEAL
LASEDYGKDLASVNNLLKKHQLLEADISAHEDRLKDLNSQADSLMTSSAFDTSQVKDKRD
TINGRFQKIKSMAASRRAKLNESHRLHQFFRDMDDEESWIKEKKLLVGSEDYGRDLTGVQ
NLRKKHKRLEAELAAHEPAIQGVLDTGKKLSDDNTIGKEEIQQRLAQFVEHWKELKQLAA
ARGQRLEESLEYQQFVANVEEEEAWINEKMTLVASEDYGDTLAAIQGLLKKHEAFETDFT
VHKDRVNDVCTNGQDLIKKNNHHEENISSKMKGLNGKVSDLEKAAAQRKAKLDENSAFLQ
FNWKADVVESWIGEKENSLKTDDYGRDLSSVQTLLTKQETFDAGLQAFQQEGIANITALK
DQLLAAKHVQSKAIEARHASLMKRWSQLLANSAARKKKLLEAQSHFRKVEDLFLTFAKKA
SAFNSWFENAEEDLTDPVRCNSLEEIKALREAHDAFRSSLSSAQADFNQLAELDRQIKSF
RVASNPYTWFTMEALEETWRNLQKIIKERELELQKEQRRQEENDKLRQEFAQHANAFHQW
IQETRTYLLDGSCMVEESGTLESQLEATKRKHQEIRAMRSQLKKIEDLGAAMEEALILDN
KYTEHSTVGLAQQWDQLDQLGMRMQHNLEQQIQARNTTGVTEEALKEFSMMFKHFDKDKS
GRLNHQEFKSCLRSLGYDLPMVEEGEPDPEFEAILDTVDPNRDGHVSLQEYMAFMISRET
ENVKSSEEIESAFRALSSEGKPYVTKEELYQNLTREQADYCVSHMKPYVDGKGRELPTAF
DYVEFTRSLFVN
NT seq 7419 nt   +upstreamnt  +downstreamnt
atggacccaagtggggtcaaagtgctggaaacagcagaggacatccaggagaggcggcag
caggtcctagaccgataccaccgcttcaaggaactctcaacccttaggcgtcagaagctg
gaagattcctatcgattccagttctttcaaagagatgctgaagagctggagaaatggata
caggaaaaacttcagattgcatctgatgagaattataaagacccaaccaacttgcaggga
aagcttcagaagcatcaagcatttgaagctgaagtgcaggccaactcaggagccattgtt
aagctggatgaaactggaaacctgatgatctcagaagggcattttgcatctgaaaccata
cggacccgtttgatggagctgcaccgccagtgggaattacttttggagaagatgcgagaa
aaaggaatcaaactgctgcaggcccagaagttggtgcagtacttacgagaatgtgaggac
gtgatggactggatcaatgacaaggaagcaattgttacttctgaagagctgggccaggat
ctggagcatgtagaggttttacagaagaaatttgaagagtttcaaacagatatggctgct
catgaagaaagagttaatgaagtgaaccagtttgctgccaaactcatacaggagcagcac
cctgaggaggaactgatcaagactaagcaggatgaagtcaatgcagcctggcagcggctg
aagggcctggctctgcagaggcaggggaagctctttggggcagcagaagttcagcgcttt
aacagggatgtggatgagactatcagttggattaaggaaaaggagcagttaatggcctct
gatgattttggccgagacctggcaagtgttcaggctctgcttcggaagcacgagggtctg
gagagagatcttgctgctctagaagacaaggtcaaagccctgtgtgctgaggctgaccgc
ctgcaacagtcccaccctctgagtgcaacacagattcaagtgaagcgagaggaactgatt
acaaactgggagcagatccgcaccttggcggcagagagacatgcacggctcaatgattca
tacaggcttcaacgcttccttgctgacttccgtgacctcaccagctgggtgactgagatg
aaagccctcatcaatgcagatgagcttgccagtgatgtggctggggctgaagccctgcta
gatagacaccaagagcacaagggtgaaattgatgcccatgaagacagcttcaaatctgca
gatgaatctggacaggcactgcttgctgctggtcactatgcctcagatgaagtgagggag
aagctgaccgtcctttccgaggagagagcggcgctgctggagctgtgggagctgcgcagg
cagcagtacgagcagtgcatggacctgcagctcttctaccgggacactgagcaggtggac
aactggatgagcaagcaggaggcgttcctgttgaatgaagacttgggagattccttggat
agtgtggaagcgcttcttaagaagcacgaagactttgagaaatcccttagtgcccaggag
gaaaagattacagcattagatgaatttgcaaccaagctaattcagaacaaccactatgca
atggaagatgtggccactcgccgagatgctctgttgagccgccgcaatgcccttcacgag
agagccatgcgtcgccgggcccagctagccgattctttccatctgcagcagtttttccgt
gattctgatgagctcaagagttgggtcaatgagaagatgaaaactgccacagatgaagct
tataaagatccatccaacctacaaggaaaagtacagaagcatcaggcttttgaggctgag
ctctcagcaaaccagagccgaattgatgccttggagaaagctggccaaaagctgattgat
gtcaaccactatgccaaggatgaagtggcagctcgtatgaatgaggtgatcagtttgtgg
aagaaactgctagaggccactgaactgaaaggaataaagcttcgtgaagccaaccagcaa
cagcaatttaatcgcaatgttgaggatattgaattgtggctatatgaagtagaaggtcac
ttggcttcggatgattacggcaaagatcttaccaatgtgcagaacctccagaagaaacat
gcactgctagaggcagatgtggctgctcaccaggaccgaattgatggcatcaccattcag
gcccgccagttccaagatgctggccattttgatgcagaaaacatcaagaagaaacaggaa
gccctcgtggctcgctatgaggcactcaaggagcccatggttgcccggaagcagaagctg
gccgattctctgcggttgcagcagctcttccgggatgttgaggatgaggagacgtggatt
cgagagaaagagcccattgccgcatctaccaacagaggtaaggatttaattggggtccag
aatctgctaaagaaacatcaagccttacaagcagaaattgctggacatgaaccacgcatc
aaagcagttacacagaaggggaatgccatggtggaggaaggccattttgctgcagaggat
gtgaaggccaagcttcacgagctgaaccaaaagtgggaggcactgaaagccaaagcttcc
cagcgtcggcaggacctggaggactctctgcaggcccagcagtactttgctgatgctaac
gaggctgaatcctggatgcgggagaaggaacccattgtgggcagcactgactatggcaag
gacgaagactctgctgaggctctactgaagaaacacgaagctttgatgtcagatctcagt
gcctacggcagcagcatccaggctttgcgagaacaagcacagtcctgccggcaacaagtg
gcccccacggatgatgagactgggaaggagctggtcttggctctctacgactatcaggag
aagagtccccgagaggtcaccatgaagaagggagatatccttaccttactcaacagcacc
aacaaggattggtggaaagtggaagtgaacgatcgtcagggttttgtgccggctgcgtac
gtgaagaaattggaccccgcccagtcagcctcccgggagaatctcctggaggagcaaggc
agcatagcactgcggcaggagcagattgacaatcagacacgcataactaaggaggccggc
agtgtatctctgcgtatgaagcaggtggaagaactatatcattctctgctggaactgggt
gagaagcgtaaaggcatgttggagaagagttgcaagaagtttatgttgttccgtgaagcg
aatgaactacagcaatggatcaatgagaaggaagccgctctgacaagtgaggaggtcgga
gcagacttggagcaggttgaggtgctccagaagaagtttgatgacttccagaaggacctg
aaggccaatgagtcacggttgaaggacattaacaaggtagctgaagacctggagtctgaa
ggtctcatggcagaggaggtgcaggctgtgcaacaacaggaagtgtatggcatgatgccc
agggatgaaactgattccaagacagcctccccgtggaagtctgctcgtctgatggttcac
accgtggccacctttaattccatcaaggagctgaatgagcgctggcggtccctacagcag
ctggccgaggaacggagccagctcttgggcagcgcccatgaagtacagaggttccacaga
gatgctgatgaaaccaaagaatggattgaagagaagaatcaagctctaaacacagacaat
tatggacatgatctcgccagtgtccaggccctgcaacgcaagcatgagggcttcgagagg
gaccttgcggctctcggtgacaaggtaaactcccttggtgaaacagcagagcgcctgatc
cagtcccatcccgagtcagcagaagacctgcaggaaaagtgcacagagttaaaccaggcc
tggagcagcctggggaaacgtgcagatcagcgcaaggcaaagttgggtgactcccacgac
ctgcagcgcttccttagcgatttccgggacctcatgtcttggatcaatggaatacggggg
ttggtgtcctcagatgagctagccaaggatgtcaccggagctgaggcattgctggagcga
caccaggaacaccggacagaaatcgatgccagggctggcactttccaggcatttgagcag
tttggacagcagctgttggctcacggacactatgccagccctgagatcaagcagaaactt
gatattcttgaccaggagcgtgcagacctggagaaggcctgggttcagcgcaggatgatg
ctggatcagtgccttgaactgcagctgttccatcgggactgtgagcaagctgagaactgg
atggctgcccgggaggccttcttgaataccgaagacaaaggagactcactggacagcgta
gaggctctgatcaaaaaacatgaagactttgacaaagcgattaacgtccaggaagagaag
attgctgctctgcaggcctttgccgaccagctcatcgctgccggccattatgccaaggga
gacatttctagccggcgcaatgaggtcttggacaggtggcgacgtctgaaagcccagatg
attgagaaaaggtcaaagctaggagaatctcaaaccctccaacagttcagccgggatgtg
gatgagattgaggcttggatcagtgaaaaattgcaaacagcgagtgatgagtcgtacaag
gatcccaccaacatccagagcaagcaccagaagcaccaggcttttgaagcagagctgcat
gccaacgctgaccggatccgtggggttatcgacatgggcaactccctcattgaacgtgga
gcctgtgccggcagtgaggatgctgtcaaggcccgcctggctgccttagctgaccagtgg
cagttcttggtgcaaaagtcagcggaaaagagccagaaactgaaagaagccaacaagcag
cagaacttcaacacagggatcaaggactttgacttctggctgtctgaggtggaggccctg
ctggcatccgaagattatggcaaagacctagcttctgtgaacaacctgctgaaaaagcat
caactgctggaagcagatatatctgcccatgaggatcgcctgaaggacctgaacagccag
gcagacagcctgatgaccagcagtgccttcgacacctcccaagtaaaggacaagagggac
accatcaacgggcgcttccagaagatcaagagcatggcggcctcccggcgagccaagctg
aatgaatcccatcgcctgcaccagttcttccgggacatggatgacgaggagtcctggatc
aaggagaagaagctgctggtgggctcagaggactacggccgggacctaaccggcgtgcag
aacctgaggaagaagcacaagcggctggaagcagaactggctgcgcatgagccggctatt
cagggtgtcctggacactggcaagaagctgtccgatgacaacaccatcgggaaagaggag
atccagcagcggctggcgcagtttgtggagcactggaaagagctgaagcagctggcagct
gcccggggtcagcggctggaagagtccttggaatatcagcagtttgtagccaatgtggaa
gaggaagaagcctggatcaatgagaaaatgaccctggtggccagcgaagattatggcgac
actcttgccgccatccagggcttactgaagaaacatgaagcttttgagacagacttcacc
gtccacaaggatcgcgtgaatgatgtctgcaccaatggacaagacctcattaagaagaac
aatcaccatgaggagaacatctcttcaaagatgaagggcctgaacgggaaagtgtcagac
ctggagaaagctgcagcccagagaaaggcgaagctggatgagaactcggccttccttcag
ttcaactggaaggcggacgtggtggagtcctggatcggtgaaaaggagaacagcttgaag
acagatgattatggccgagacctgtcttctgtgcagacgctcctcaccaaacaggaaact
tttgacgctgggctgcaggccttccagcaggaaggcattgccaacatcactgccctcaaa
gatcagcttctcgccgccaaacacgttcagtccaaggccatcgaggcccggcacgcctcc
ctcatgaagaggtggagccagcttctggccaactcagccgcccgcaagaagaagcttctg
gaggctcagagtcacttccgcaaggtggaggacctcttcctgaccttcgccaaaaaggct
tctgccttcaacagctggtttgaaaatgcagaggaggacttaacagaccccgtgcgctgc
aactccttggaagaaatcaaagctttgcgcgaggcccacgacgccttccgctcctccctc
agctctgcccaggctgacttcaaccagctggccgagctggaccgccagatcaagagcttc
cgcgtagcctccaacccctacacctggtttaccatggaggccctggaggagacctggagg
aacctacagaaaatcatcaaggagagggagctggagctgcagaaggaacagcggcggcag
gaggagaacgacaagctgcgccaggagtttgcccagcacgccaacgccttccaccagtgg
atccaagagaccaggacatacctcctcgatgggtcctgtatggtggaagagtcggggacc
ctcgaatcccagcttgaagctaccaaacgcaagcaccaggaaatccgagccatgagaagt
cagctcaaaaagatcgaggacctgggggccgccatggaggaggccctcatcctggacaac
aagtacacggagcacagcaccgtgggcctcgcccagcagtgggaccagctggaccagctg
ggcatgcgcatgcagcacaacctggagcagcagatccaggccaggaacacaacaggtgtg
actgaggaggccctcaaagaattcagcatgatgtttaaacactttgacaaggacaagtct
ggcaggctgaaccatcaggagttcaaatcttgcctgcgctccctgggctatgacctgccc
atggtggaggaaggggaacctgaccctgagttcgaggcaatcctggacacggtggatccg
aacagagatggccatgtctccttgcaagaatacatggctttcatgatcagccgcgaaact
gagaacgtcaagtccagcgaggagattgagagcgccttccgggccctcagctcagaggga
aagccttacgtgaccaaggaggagctctaccagaacctgacccgggaacaagccgactac
tgcgtctcccacatgaagccctacgtggacggcaagggccgcgagctccccaccgcgttc
gactacgtggagttcacccgctcgcttttcgtgaactga

KEGG   Homo sapiens (human): 6711
Entry
6711              CDS       T01001                                 
Symbol
SPTBN1, DDISBA, ELF, HEL102, SPTB2, betaSpII
Name
(RefSeq) spectrin beta, non-erythrocytic 1
  KO
K06115  spectrin beta, non-erythrocytic 1/4/5
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
Network
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N01848  Membrane-associated periodic skeleton (MPS)
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
Disease
H02685  Developmental delay with neuropsychiatric disorders
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    6711 (SPTBN1)
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    6711 (SPTBN1)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    6711 (SPTBN1)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Cross-linking proteins
     6711 (SPTBN1)
  Intermediate filaments
   Intermediate filament-binding proteins
    6711 (SPTBN1)
SSDB
Motif
Pfam: Spectrin CH PH_9 PH CAMSAP_CH SLATT_6 SOS1_NGEF_PH PH_11
Other DBs
NCBI-GeneID: 6711
NCBI-ProteinID: NP_003119
OMIM: 182790
HGNC: 11275
Ensembl: ENSG00000115306
UniProt: Q01082 B2ZZ89
Structure
LinkDB
Position
2:54456327..54671446
AA seq 2364 aa
MTTTVATDYDNIEIQQQYSDVNNRWDVDDWDNENSSARLFERSRIKALADEREAVQKKTF
TKWVNSHLARVSCRITDLYTDLRDGRMLIKLLEVLSGERLPKPTKGRMRIHCLENVDKAL
QFLKEQRVHLENMGSHDIVDGNHRLTLGLIWTIILRFQIQDISVETEDNKEKKSAKDALL
LWCQMKTAGYPNVNIHNFTTSWRDGMAFNALIHKHRPDLIDFDKLKKSNAHYNLQNAFNL
AEQHLGLTKLLDPEDISVDHPDEKSIITYVVTYYHYFSKMKALAVEGKRIGKVLDNAIET
EKMIEKYESLASDLLEWIEQTIIILNNRKFANSLVGVQQQLQAFNTYRTVEKPPKFTEKG
NLEVLLFTIQSKMRANNQKVYMPREGKLISDINKAWERLEKAEHERELALRNELIRQEKL
EQLARRFDRKAAMRETWLSENQRLVSQDNFGFDLPAVEAATKKHEAIETDIAAYEERVQA
VVAVARELEAENYHDIKRITARKDNVIRLWEYLLELLRARRQRLEMNLGLQKIFQEMLYI
MDWMDEMKVLVLSQDYGKHLLGVEDLLQKHTLVEADIGIQAERVRGVNASAQKFATDGEG
YKPCDPQVIRDRVAHMEFCYQELCQLAAERRARLEESRRLWKFFWEMAEEEGWIREKEKI
LSSDDYGKDLTSVMRLLSKHRAFEDEMSGRSGHFEQAIKEGEDMIAEEHFGSEKIRERII
YIREQWANLEQLSAIRKKRLEEASLLHQFQADADDIDAWMLDILKIVSSSDVGHDEYSTQ
SLVKKHKDVAEEIANYRPTLDTLHEQASALPQEHAESPDVRGRLSGIEERYKEVAELTRL
RKQALQDTLALYKMFSEADACELWIDEKEQWLNNMQIPEKLEDLEVIQHRFESLEPEMNN
QASRVAVVNQIARQLMHSGHPSEKEIKAQQDKLNTRWSQFRELVDRKKDALLSALSIQNY
HLECNETKSWIREKTKVIESTQDLGNDLAGVMALQRKLTGMERDLVAIEAKLSDLQKEAE
KLESEHPDQAQAILSRLAEISDVWEEMKTTLKNREASLGEASKLQQFLRDLDDFQSWLSR
TQTAIASEDMPNTLTEAEKLLTQHENIKNEIDNYEEDYQKMRDMGEMVTQGQTDAQYMFL
RQRLQALDTGWNELHKMWENRQNLLSQSHAYQQFLRDTKQAEAFLNNQEYVLAHTEMPTT
LEGAEAAIKKQEDFMTTMDANEEKINAVVETGRRLVSDGNINSDRIQEKVDSIDDRHRKN
RETASELLMRLKDNRDLQKFLQDCQELSLWINEKMLTAQDMSYDEARNLHSKWLKHQAFM
AELASNKEWLDKIEKEGMQLISEKPETEAVVKEKLTGLHKMWEVLESTTQTKAQRLFDAN
KAELFTQSCADLDKWLHGLESQIQSDDYGKDLTSVNILLKKQQMLENQMEVRKKEIEELQ
SQAQALSQEGKSTDEVDSKRLTVQTKFMELLEPLNERKHNLLASKEIHQFNRDVEDEILW
VGERMPLATSTDHGHNLQTVQLLIKKNQTLQKEIQGHQPRIDDIFERSQNIVTDSSSLSA
EAIRQRLADLKQLWGLLIEETEKRHRRLEEAHRAQQYYFDAAEAEAWMSEQELYMMSEEK
AKDEQSAVSMLKKHQILEQAVEDYAETVHQLSKTSRALVADSHPESERISMRQSKVDKLY
AGLKDLAEERRGKLDERHRLFQLNREVDDLEQWIAEREVVAGSHELGQDYEHVTMLQERF
REFARDTGNIGQERVDTVNHLADELINSGHSDAATIAEWKDGLNEAWADLLELIDTRTQI
LAASYELHKFYHDAKEIFGRIQDKHKKLPEELGRDQNTVETLQRMHTTFEHDIQALGTQV
RQLQEDAARLQAAYAGDKADDIQKRENEVLEAWKSLLDACESRRVRLVDTGDKFRFFSMV
RDLMLWMEDVIRQIEAQEKPRDVSSVELLMNNHQGIKAEIDARNDSFTTCIELGKSLLAR
KHYASEEIKEKLLQLTEKRKEMIDKWEDRWEWLRLILEVHQFSRDASVAEAWLLGQEPYL
SSREIGQSVDEVEKLIKRHEAFEKSAATWDERFSALERLTTLELLEVRRQQEEEERKRRP
PSPEPSTKVSEEAESQQQWDTSKGEQVSQNGLPAEQGSPRMAETVDTSEMVNGATEQRTS
SKESSPIPSPTSDRKAKTALPAQSAATLPARTQETPSAQMEGFLNRKHEWEAHNKKASSR
SWHNVYCVINNQEMGFYKDAKTAASGIPYHSEVPVSLKEAVCEVALDYKKKKHVFKLRLN
DGNEYLFQAKDDEEMNTWIQAISSAISSDKHEVSASTQSTPASSRAQTLPTSVVTITSES
SPGKREKDKEKDKEKRFSLFGKKK
NT seq 7095 nt   +upstreamnt  +downstreamnt
atgacgaccacagtagccacagactatgacaacattgagatccagcagcagtacagtgat
gtcaacaaccgctgggatgtcgacgactgggacaatgagaacagctctgcgcggcttttt
gagcggtcccgcatcaaggctctggcagatgagcgtgaagccgtgcagaagaagaccttc
accaagtgggtcaattcccaccttgcccgtgtgtcctgccggatcacagacctgtacact
gaccttcgagatggacggatgctcatcaagctgctggaggtcctctctggagagaggctg
cctaaacccaccaagggacgaatgcgcatccactgcttagagaatgtggacaaggccctt
cagttcctgaaggagcagagagtccatcttgagaacatggggtcccatgacatcgtggat
ggaaaccaccggctgacccttggcctcatctggaccatcatcctgcgcttccagatccag
gatatcagtgtggaaactgaagacaacaaagagaagaaatctgccaaggatgcattgctg
ttgtggtgccagatgaagacagctgggtaccccaatgtcaacattcacaatttcaccact
agctggagggacggcatggccttcaatgcactgatacacaaacaccggcctgacctgata
gattttgacaaactaaagaaatctaacgcacactacaacctgcagaatgcatttaatctg
gcagaacagcacctcggcctcactaaactgttggaccccgaagacatcagcgtggaccat
cctgatgagaagtccataatcacttatgtggtgacttattaccactacttctctaagatg
aaggccttagctgttgaaggaaaacgaattggaaaggtgcttgacaatgctattgaaaca
gaaaaaatgattgaaaagtatgaatcacttgcctctgaccttctggaatggattgaacaa
accatcatcattctgaacaatcgcaaatttgccaattcactggtcggggttcaacagcag
cttcaggcattcaacacttaccgcactgtggagaaaccacccaaatttactgagaagggg
aacttggaagtgctgctcttcaccattcagagcaagatgagggccaacaaccagaaggtc
tacatgccccgggaggggaagctcatctctgacatcaacaaggcctgggaaagactggaa
aaagcggaacacgaaagagaactggctttgcggaatgagctcataagacaggagaaactg
gaacagctcgcccgcagatttgatcgcaaggcagctatgagggagacttggctgagcgaa
aaccagcgtctggtgtctcaggacaactttgggtttgaccttcctgcagttgaggccgcc
acaaaaaagcacgaggccattgagacagacattgccgcatacgaggagcgtgtgcaggct
gtggtagccgtggccagggagctcgaggccgagaattaccacgacatcaagcgcatcaca
gcgaggaaggacaatgtcatccggctctgggaatacctactggaactgctcagggcccgg
agacagcggctcgagatgaacctggggctgcagaagatattccaggaaatgctctacatt
atggactggatggatgaaatgaaggtgctagtattgtctcaagactatggcaaacactta
cttggtgtggaagacctgttacagaagcacaccctggttgaagcagacattggcatccag
gcagagcgggtgagaggtgtcaatgcctccgcccagaagttcgcaacagacggggaaggt
tacaagccctgtgacccccaggtgatccgagaccgcgtggcccacatggagttctgttat
caagagctttgccagctggcggctgagcgcagggcccgtctggaagagtcccgccgcctc
tggaagttcttctgggagatggcagaagaggaaggctggatacgggagaaggagaagatc
ctgtcctcggacgattacgggaaagacctgaccagcgtcatgcgcctgctcagcaagcac
cgggcgttcgaggacgagatgagcggccgcagtggccactttgagcaggccatcaaggaa
ggcgaagacatgatcgcggaggagcacttcgggtcggagaagatccgtgagaggatcatt
tacatccgggagcagtgggccaacctagagcagctctcggccattcggaagaagcgcctg
gaggaggcctccctgctgcaccagttccaggcagatgctgatgacattgatgcctggatg
ctggacatcctcaagattgtctccagcagcgacgtgggccacgatgagtattccacacag
tctctggtcaagaaacacaaggacgtggcggaagagatcgccaattacaggcccaccctt
gacacgctgcacgaacaagccagcgccctcccccaggagcatgccgagtctccagacgtg
aggggcaggctgtcgggcatcgaggagcggtataaggaggtggcagagctgacgcggctg
cggaagcaggcactccaggacactctggccctgtacaagatgttcagcgaggctgatgcc
tgtgagctctggatcgacgagaaggagcagtggctcaacaacatgcagatcccagagaag
ctggaggatctggaggtcatccagcacagatttgagagcctagaaccagaaatgaacaac
caggcttcccgggttgcagtggtgaaccagattgcacgccagctgatgcacagcggccac
ccaagtgagaaggaaatcaaagcccagcaggacaaactcaacacaaggtggagccagttc
agagaactggttgacaggaagaaggatgccctcctgtctgccctgagcatccagaactac
cacctcgagtgcaatgaaaccaaatcctggattcgggaaaagaccaaggtcatcgagtcc
acccaggacctgggcaatgacctggctggcgtcatggccctgcagcgcaagctgaccggc
atggagcgggacttggtggccattgaggcaaagctgagtgacctgcagaaggaggcggag
aagctggagtccgagcaccccgaccaggcccaggccatcctgtctcggctggccgagatc
agcgacgtgtgggaggagatgaagaccaccctgaaaaaccgagaggcctccctgggagag
gccagcaagctgcagcagttcctacgggacttggacgacttccagtcctggctctctagg
acccagacagcgatcgcctcggaggacatgccaaacaccctgaccgaggctgagaagctg
ctcacgcagcacgagaacatcaagaacgagatcgacaactacgaggaggactaccagaag
atgagggacatgggcgagatggtcacccaggggcagaccgatgcccagtacatgtttctg
cggcagcggctgcaggccctggacactggatggaacgagctccacaagatgtgggagaac
agacaaaatctcctatcccagtcacatgcctaccagcagttcctcagagacacgaagcaa
gccgaagcctttcttaacaaccaggagtatgttctggctcacactgaaatgcctaccacc
ttggaaggagctgaagcagcaattaaaaagcaagaggacttcatgaccaccatggacgcc
aatgaggagaagatcaatgctgtggtggagactggccggaggctggtgagcgatgggaac
atcaactcagatcgcatccaggagaaggtggactctattgatgacagacataggaagaat
cgtgagacagccagtgaacttttgatgaggttgaaggacaacagggatctacagaaattc
ctgcaagattgtcaagagctgtctctctggatcaatgagaagatgctcacagcccaggac
atgtcttacgatgaagccagaaatctgcacagtaaatggttgaagcatcaagcatttatg
gcagaacttgcatccaacaaagaatggcttgacaaaatcgagaaggaaggaatgcagctc
atttcagaaaagcctgagacggaagctgtggtgaaggagaaactcactggtttacataaa
atgtgggaagtccttgaatccactacccagacaaaggcccagcggctctttgatgcaaac
aaggccgaacttttcacccagagctgtgcagatctagacaaatggctgcacggcctggag
agtcagattcagtctgatgactatggcaaagacctgaccagtgtcaatatcctgctgaaa
aagcaacagatgctggagaatcagatggaagtgcggaagaaggagatcgaagagctccaa
agccaagcccaggccctgagtcaggaagggaagagcaccgacgaggtagacagcaagcgc
ctcaccgtgcagaccaagttcatggagttgctggagcccttgaacgagaggaagcataac
ctgctggcctccaaagagatccatcagttcaacagggatgtggaggacgagatcttgtgg
gttggagagaggatgcctttggcaacttccacggatcatggccacaacctccagactgtg
cagctgttaataaagaaaaatcagaccctccagaaagaaatccaggggcaccagcctcgc
attgacgacatctttgagaggagccaaaacatcgtcactgacagcagcagcctcagcgct
gaggccatcagacagaggcttgccgacctgaagcagctgtggggtctcctcattgaggag
acagagaaacgccacaggcggctggaggaggcgcacagggcccagcagtactactttgac
gctgctgaggccgaagcctggatgagcgagcaggagctgtacatgatgtcagaggagaag
gccaaggatgagcagagtgctgtctccatgttgaagaagcaccagatcttagaacaagct
gtggaggactatgcagagaccgtgcatcagctctccaagaccagccgggccctggtggcc
gacagccatcctgaaagtgagcgcattagcatgcggcagtccaaagtggataaactgtac
gctggtctgaaagaccttgctgaagagagaagaggcaagctggatgagagacacaggtta
ttccagctcaaccgggaggtggacgacctggagcagtggatcgctgagagggaggtggtc
gcagggtcccatgaactgggacaggactatgagcatgtcacgatgttacaagaacgattc
cgggagtttgcccgagacaccgggaacattgggcaggagcgcgtggacacggtcaatcac
ctggcagatgagctcatcaactctggacattcagatgccgccaccatcgctgaatggaag
gatggcctcaatgaagcctgggccgacctcctggagctcattgacacaagaacacagatt
cttgccgcttcctatgaactgcacaagttttaccacgatgccaaggagatctttgggcgt
atacaggacaaacacaagaaactccctgaggagcttgggagagatcagaacacagtggag
accttacagagaatgcacactacatttgagcatgacatccaggctctgggcacacaggtg
aggcagctgcaggaggatgcagcccgcctccaggcggcctatgcgggtgacaaggccgac
gatatccagaagcgcgagaacgaggtcctggaagcctggaagtccctcctggacgcctgt
gagagccgcagggtgcggctggtggacacaggggacaagttccgcttcttcagcatggtg
cgcgacctcatgctctggatggaggatgtcatccggcagatcgaggcccaggagaagcca
agggatgtatcatctgttgaactcttaatgaataatcatcaaggcatcaaagctgaaatt
gatgcacgtaatgacagtttcacaacctgcattgaacttgggaaatccctgttggcgaga
aaacactatgcatctgaggagatcaaggaaaaattactgcagttgacggaaaagaggaaa
gaaatgatcgacaagtgggaagaccgatgggaatggttaagactgattctggaggtccat
cagttctcaagagacgccagtgtggccgaggcctggctgcttggacaggagccgtaccta
tccagccgagagataggccagagcgtggacgaggtggagaagctcatcaagcgccacgag
gcatttgaaaagtctgcagcaacctgggatgagaggttctctgccctggaaaggctgact
acattggagttactggaagtgcgcagacagcaagaggaagaggagaggaagaggcggccg
ccttctcccgagccgagcacgaaggtttcagaggaagccgagtcccagcagcagtgggat
acttcaaaaggagaacaagtttcccaaaacggtttgccagctgaacagggatctccacgg
atggcagaaacggtggacacaagcgaaatggtcaacggcgctacagaacaaaggacgagc
tctaaagagtccagccccatcccctccccgacctctgatcgtaaagccaagactgccctc
ccagcccagagtgccgccaccttaccagccagaacccaggagacaccttcggcccagatg
gaaggcttcctcaatcggaaacacgagtgggaggcccacaataagaaagcctcaagcagg
tcctggcacaatgtttattgtgtcataaataaccaagaaatgggtttctacaaagatgca
aagactgctgcttctggaattccctaccacagcgaggtccctgtgagtttgaaagaagct
gtctgcgaagtggcccttgattacaaaaagaagaaacacgtattcaagctaagactaaat
gatggcaatgagtacctcttccaagccaaagacgatgaggaaatgaacacatggatccag
gctatctcttccgccatctcctctgataaacacgaggtgtctgccagcacccagagcacg
ccagcatccagccgcgcgcagaccctccccaccagcgtcgtcaccatcaccagcgagtcc
agtcccggcaagcgggaaaaggacaaagagaaagacaaagagaagcggttcagccttttt
ggcaaaaagaaatga

KEGG   Homo sapiens (human): 6712
Entry
6712              CDS       T01001                                 
Symbol
SPTBN2, GTRAP41, SCA5, SCAR14
Name
(RefSeq) spectrin beta, non-erythrocytic 2
  KO
K23932  spectrin beta, non-erythrocytic 2
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
hsa05017  Spinocerebellar ataxia
hsa05022  Pathways of neurodegeneration - multiple diseases
Network
nt06462  Spinocerebellar ataxia
nt06466  Pathways of neurodegeneration
nt06546  IgSF CAM signaling
  Element
N00960  Mutation-caused aberrant SPTBN2 to mGluR1-TRPC3 signaling pathway
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
N01936  CNTN1 interactions
N01937  CNTN2 interactions
Disease
H00063  Spinocerebellar ataxia (SCA)
H01891  Autosomal recessive spinocerebellar ataxias
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    6712 (SPTBN2)
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    6712 (SPTBN2)
 09160 Human Diseases
  09164 Neurodegenerative disease
   05017 Spinocerebellar ataxia
    6712 (SPTBN2)
   05022 Pathways of neurodegeneration - multiple diseases
    6712 (SPTBN2)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    6712 (SPTBN2)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Cross-linking proteins
     6712 (SPTBN2)
  Intermediate filaments
   Intermediate filament-binding proteins
    6712 (SPTBN2)
SSDB
Motif
Pfam: Spectrin CH PH_9 PH PH_11
Other DBs
NCBI-GeneID: 6712
NCBI-ProteinID: NP_008877
OMIM: 604985
HGNC: 11276
Ensembl: ENSG00000173898
UniProt: O15020
Structure
LinkDB
Position
11:complement(66682497..66744682)
AA seq 2390 aa
MSSTLSPTDFDSLEIQGQYSDINNRWDLPDSDWDNDSSSARLFERSRIKALADEREAVQK
KTFTKWVNSHLARVTCRVGDLYSDLRDGRNLLRLLEVLSGEILPKPTKGRMRIHCLENVD
KALQFLKEQKVHLENMGSHDIVDGNHRLTLGLVWTIILRFQIQDISVETEDNKEKKSAKD
ALLLWCQMKTAGYPNVNVHNFTTSWRDGLAFNAIVHKHRPDLLDFESLKKCNAHYNLQNA
FNLAEKELGLTKLLDPEDVNVDQPDEKSIITYVATYYHYFSKMKALAVEGKRIGKVLDHA
MEAERLVEKYESLASELLQWIEQTIVTLNDRQLANSLSGVQNQLQSFNSYRTVEKPPKFT
EKGNLEVLLFTIQSKLRANNQKVYTPREGRLISDINKAWERLEKAEHERELALRTELIRQ
EKLEQLAARFDRKAAMRETWLSENQRLVSQDNFGLELAAVEAAVRKHEAIETDIVAYSGR
VQAVDAVAAELAAERYHDIKRIAARQHNVARLWDFLRQMVAARRERLLLNLELQKVFQDL
LYLMDWMEEMKGRLQSQDLGRHLAGVEDLLQLHELVEADIAVQAERVRAVSASALRFCNP
GKEYRPCDPQLVSERVAKLEQSYEALCELAAARRARLEESRRLWRFLWEVGEAEAWVREQ
QHLLASADTGRDLTGALRLLNKHTALRGEMSGRLGPLKLTLEQGQQLVAEGHPGASQASA
RAAELQAQWERLEALAEERAQRLAQAASLYQFQADANDMEAWLVDALRLVSSPELGHDEF
STQALARQHRALEEEIRSHRPTLDALREQAAALPPTLSRTPEVQSRVPTLERHYEELQAR
AGERARALEAALALYTMLSEAGACGLWVEEKEQWLNGLALPERLEDLEVVQQRFETLEPE
MNTLAAQITAVNDIAEQLLKANPPGKDRIVNTQEQLNHRWQQFRRLADGKKAALTSALSI
QNYHLECTETQAWMREKTKVIESTQGLGNDLAGVLALQRKLAGTERDLEAIAARVGELTR
EANALAAGHPAQAVAINARLREVQTGWEDLRATMRRREESLGEARRLQDFLRSLDDFQAW
LGRTQTAVASEEGPATLPEAEALLAQHAALRGEVERAQSEYSRLRALGEEVTRDQADPQC
LFLRQRLEALGTGWEELGRMWESRQGRLAQAHGFQGFLRDARQAEGVLSSQEYVLSHTEM
PGTLQAADAAIKKLEDFMSTMDANGERIHGLLEAGRQLVSEGNIHADKIREKADSIERRH
KKNQDAAQQFLGRLRDNREQQHFLQDCHELKLWIDEKMLTAQDVSYDEARNLHTKWQKHQ
AFMAELAANKDWLDKVDKEGRELTLEKPELKALVSEKLRDLHRRWDELETTTQAKARSLF
DANRAELFAQSCCALESWLESLQAQLHSDDYGKDLTSVNILLKKQQMLEWEMAVREKEVE
AIQAQAKALAQEDQGAGEVERTSRAVEEKFRALCQPMRERCRRLQASREQHQFHRDVEDE
ILWVTERLPMASSMEHGKDLPSVQLLMKKNQTLQKEIQGHEPRIADLRERQRALGAAAAG
PELAELQEMWKRLGHELELRGKRLEDALRAQQFYRDAAEAEAWMGEQELHMMGQEKAKDE
LSAQAEVKKHQVLEQALADYAQTIHQLAASSQDMIDHEHPESTRISIRQAQVDKLYAGLK
ELAGERRERLQEHLRLCQLRRELDDLEQWIQEREVVAASHELGQDYEHVTMLRDKFREFS
RDTSTIGQERVDSANALANGLIAGGHAARATVAEWKDSLNEAWADLLELLDTRGQVLAAA
YELQRFLHGARQALARVQHKQQQLPDGTGRDLNAAEALQRRHCAYEHDIQALSPQVQQVQ
DDGHRLQKAYAGDKAEEIGRHMQAVAEAWAQLQGSSAARRQLLLDTTDKFRFFKAVRELM
LWMDEVNLQMDAQERPRDVSSADLVIKNQQGIKAEIEARADRFSSCIDMGKELLARSHYA
AEEISEKLSQLQARRQETAEKWQEKMDWLQLVLEVLVFGRDAGMAEAWLCSQEPLVRSAE
LGCTVDEVESLIKRHEAFQKSAVAWEERFCALEKLTALEEREKERKRKREEEERRKQPPA
PEPTASVPPGDLVGGQTASDTTWDGTQPRPPPSTQAPSVNGVCTDGEPSQPLLGQQRLEH
SSFPEGPGPGSGDEANGPRGERQTRTRGPAPSAMPQSRSTESAHAATLPPRGPEPSAQEQ
MEGMLCRKQEMEAFGKKAANRSWQNVYCVLRRGSLGFYKDAKAASAGVPYHGEVPVSLAR
AQGSVAFDYRKRKHVFKLGLQDGKEYLFQAKDEAEMSSWLRVVNAAIATASSASGEPEEP
VVPSTTRGMTRAMTMPPVSPVGAEGPVVLRSKDGREREREKRFSFFKKNK
NT seq 7173 nt   +upstreamnt  +downstreamnt
atgagcagcacgctgtcacccacagactttgacagcttggaaatccagggccagtacagt
gacatcaacaaccgctgggaccttcctgactcggactgggacaatgacagcagctcggcc
cgcctctttgagaggtctcgcattaaggctctggcagatgaacgagaagctgtgcagaag
aaaaccttcaccaagtgggtaaactcgcacctggcccgggtcacgtgccgggtgggggac
ctgtacagcgacctccgggacggacgcaacctgctgaggctcctcgaggtgctctcggga
gagatactgccaaagcctacaaagggccgcatgcggatccactgcctggagaacgtggac
aaggcactgcagttcctcaaggagcagaaagtgcacttggaaaacatgggctcccatgac
attgtggacggaaaccaccgactgacccttgggctggtctggaccatcatccttcgattc
cagatccaagacatcagtgtggagacagaagacaacaaggagaagaagtcagccaaggat
gccctgcttctgtggtgccagatgaagactgcaggttatcccaacgtcaatgtacacaac
ttcaccaccagctggagagatggactagctttcaacgccatcgtgcataaacaccggcca
gacctgctggattttgagtctctgaagaagtgtaatgcacactataatctgcagaatgca
ttcaatctggctgaaaaggaactgggacttaccaagctgctggatcccgaagacgtgaat
gtggaccagccagatgagaagtcaatcattacctatgtggctacttactaccattacttc
tccaagatgaaggccctggccgtggaaggcaagagaattggcaaggtgctggaccatgcc
atggaggcagagcgcctggtggagaaatacgagtccctggcctcggagctgctgcagtgg
atcgagcaaacgatcgtgaccctcaatgaccggcagttggccaactcccttagcggggtc
cagaaccagctgcagtccttcaactcctaccgcaccgtggagaagccgcccaagtttacc
gagaaagggaacttggaagtgctgctcttcaccatccagagcaagcttcgggccaacaac
cagaaggtctacacgccccgcgagggccggctcatctcggacatcaacaaggcttgggag
cggctggagaaggcggagcacgagcgtgagctggccctgcgcaccgagctcatccgccag
gagaagctggagcagctggccgcccgcttcgaccgcaaggctgccatgcgggagacctgg
ctcagcgagaaccagcgcctcgtgtcccaggacaactttgggctggagctggcagctgtc
gaggcagcagtacggaagcacgaagccattgagacggacatcgtggcctacagcggccgg
gtgcaggcagtggacgccgtggctgcagagctggccgccgagcgctaccacgacatcaag
cgcatcgccgctcggcagcacaacgtggcacggctctgggacttcttgcggcagatggtg
gccgcccggcgggagcggctcctcctcaacctggagctgcagaaggtgttccaggacctg
ctctacctcatggactggatggaagagatgaagggccggctgcagtctcaggacctgggc
aggcacctagcaggagtggaggacctgctgcagctgcacgagctggtggaggcagacatc
gccgtgcaggccgagagggtgcgggccgtcagcgcctctgccctgcgcttctgcaaccca
gggaaagagtatagaccttgcgacccgcagctggtgtcggagcgggtggccaagctagag
cagagctatgaggcactgtgcgagttggcagcggcgcggcgggcccggctggaggaatca
cggcggctctggcgtttcctctgggaggtgggtgaagctgaggcctgggtgcgggagcag
cagcacctcctggcctcagccgacacgggccgagacctgaccggtgccctccgcctgctc
aacaagcacacagccctgcggggcgagatgagcggccggctggggcccctgaagctcacc
ctggagcagggccagcagttggtggccgagggtcaccctggggcaagccaggcctctgcc
cgtgcagctgaactccaagcccagtgggagcggctagaggccctggccgaggagcgtgcc
cagcggctggcccaagccgccagcctctaccagttccaggccgatgcaaacgacatggag
gcctggttggttgacgcactgcgcctggtgtccagccccgagctggggcacgacgagttc
tccacgcaggctctagccaggcagcatcgggccctggaggaggagattcgaagccaccgg
ccaaccctggacgccttgagggaacaggcagcagccctgccccccacactgagccgcacg
cccgaggtgcagagccgggtgcccaccctggagcggcactacgaggagctgcaggcccgg
gcaggcgagcgagcgcgggccttggaggcagccctggcgctctacaccatgctcagcgag
gccggggcctgtggactctgggtggaggagaaggagcagtggctcaacgggctggccctg
cctgaacgcctggaggacctggaggtcgtgcagcagaggttcgagaccctggagcctgaa
atgaacacccttgcagcacaaatcaccgcggtgaatgacattgccgagcagttactgaag
gccaaccccccaggcaaagaccgcattgtcaacacccaggagcagctcaaccacaggtgg
cagcagtttcggcgtctggcagacggcaagaaggcagctctcacctcagccctgagcatc
cagaactaccacttagagtgcacggagacccaggcctggatgagagagaagaccaaagtc
atcgagtccacccagggcctaggcaacgatctggctggggtgctggccctgcagcgcaag
ctggccggcacggagcgggacctggaggccatcgccgcccgggtgggcgaactgactcga
gaggcaaatgccctggctgccggccatcccgctcaggcagtggccatcaacgcccggctg
agagaggtgcagaccggctgggaggacctcagggccaccatgcggcgtcgagaagagtcg
ctgggggaggcgcggcggctgcaggacttcttgcgcagcttggatgacttccaggcctgg
ctaggccgcactcagactgctgtggcctctgaagaagggccggccaccctgcctgaggca
gaggccctcctggcccaacatgcagccctgcggggagaggtggagcgggcccagagcgag
tatagccggctgcgagccctgggcgaggaggtgacccgggaccaggctgacccccagtgc
ctcttcctacgacagcgactggaggccctgggaactggctgggaggagctgggccgaatg
tgggagagccggcaaggtcgcctggcccaggcccacggcttccagggattcctgcgggat
gctcgtcaggctgagggcgtgctcagcagccaggaatatgttctgtctcacacggagatg
ccagggacactccaggctgctgatgctgccattaaaaaactggaggacttcatgagcacc
atggacgccaatggggaacggatccacgggctcctggaggctggccgccagctggtatct
gaaggcaacatccacgccgacaagattcgggaaaaggcagactccattgagaggaggcac
aagaagaatcaagacgcagcgcagcaatttctgggccgtcttcgggacaaccgggagcag
cagcatttcctgcaagattgtcacgagctgaagctctggatcgacgagaagatgctgaca
gcccaggacgtgtcctatgacgaggcccgcaacctgcatactaagtggcagaagcaccag
gcattcatggccgagctggctgccaacaaagactggctggacaaggtggacaaggaaggg
cgagagctcacccttgagaagccagagctgaaagccctggtgtcggagaagctgagagac
ctgcacaggcgctgggacgagctggagaccaccacccaagccaaggcccgcagcctcttt
gatgccaaccgagctgagctgtttgcccagagctgctgtgccctggagagctggctggag
agcctgcaggcccagctgcactcggatgactacggcaaggacctcaccagcgtcaacatc
ctgctcaagaagcagcagatgctggaatgggagatggctgtgagagagaaggaggtggag
gcaatccaggcccaggccaaagcactggcccaggaggaccagggtgcaggggaggtggag
agaacctcgagggccgtggaggagaagttcagggccttgtgccagcccatgcgggaacgc
tgccggcgcctgcaggcttctcgcgagcagcaccagttccaccgcgatgtggaagatgag
attttgtgggtgacagagcggctgcccatggccagctccatggagcatggcaaggacctg
cccagcgtccagcttctcatgaagaaaaaccagaccctgcagaaagagattcagggccat
gagccccggatcgcggacctgagggagcggcagcgtgctctaggtgcagcagcagcaggt
ccagagctggctgagctgcaggaaatgtggaaacgcctgggccacgagctggaacttcga
gggaagcgactggaggatgccctgcgagcccagcagttctaccgcgatgccgccgaggcg
gaggcctggatgggcgagcaggaattacacatgatgggccaggagaaggccaaggatgag
ctgagtgcccaggcagaggtgaagaagcaccaggtgctggagcaagccctggccgactac
gcgcagaccatccaccagctggcggccagcagccaggacatgattgaccacgagcaccca
gagagcactcggatatccatccgccaagcccaggtggacaagctgtatgccggcctgaag
gagctggctggagagcggcgggagcgcctgcaggagcacctccggctgtgccagctccgc
cgcgagctggatgacctggaacagtggatccaggagcgcgaggtggtggcggcctcccac
gagctgggccaggactacgagcatgtgactatgctccgagacaaattccgagagttctcc
cgggacacaagcaccatcggtcaggagcgcgtagatagcgccaatgcgctggccaatggg
ctcattgctgggggccatgctgcacgggccaccgtggccgagtggaaggacagtctcaac
gaggcctgggctgacctgcttgagctgctggacacacggggtcaggtgctggccgcggcg
tacgagctgcagcgcttcctgcacggggcacgccaagccctggcgcgggtgcagcacaag
cagcagcagcttccggacgggactggccgcgacctcaacgctgccgaggccctgcagcgc
cgacactgtgcctacgagcatgacattcaggccctcagcccccaggtccagcaggtgcag
gacgacggccaccggctccagaaggcctacgctggagacaaggctgaggagatcggccgc
cacatgcaggccgtggccgaggcctgggcccagcttcagggaagctctgccgcccgccgg
cagctgctgctggacaccacagacaagttccgcttcttcaaggctgtccgggaactgatg
ctctggatggatgaggtcaacctgcagatggatgcccaggagcgtccccgggatgtgtcc
tccgcggatctagtcatcaagaaccagcaaggcatcaaggcagagatagaggcccgggca
gaccgcttctcctcctgcatcgacatggggaaggagctgctggccaggagccactatgcg
gccgaggagatctcagagaagctgtctcagctgcaggcacggcgccaggagacagctgag
aagtggcaggagaagatggactggcttcagctggttttggaggtgcttgtgtttggaaga
gatgcagggatggcagaggcctggctctgcagccaggagccactggtgcgcagcgctgag
ctgggttgcacggtcgacgaagttgagagcctcatcaagcggcacgaggccttccagaag
tcagcagtggcctgggaggagcgattctgtgcgctggagaagcttactgcgctagaggag
cgggagaaggagcgaaagagaaagagggaggaggaggagcggcggaaacagccgcctgct
cccgaacccacagccagtgtgcctccaggggacctggtgggcggccagacagcttctgac
accacctgggacggaacccagccacggccaccaccatccacacaagcacccagtgttaat
ggagtctgcacagatggagagccctcacagcccctgctgggacaacagagacttgagcac
agcagcttccccgaagggccgggacctggctcaggggacgaagccaatgggccccgggga
gagaggcagacccggactcggggcccggccccatctgcaatgccccagagcaggtctacc
gagtcagcccatgctgccaccctgccgcctcgaggcccagagccatctgcccaggagcag
atggaggggatgctgtgccgcaagcaggagatggaggccttcgggaagaaggctgccaac
aggtcctggcagaacgtgtactgtgtcctgcggcgtgggagcctcggcttttacaaggat
gccaaggcagccagcgcgggagtgccataccacggagaagtgcctgtcagcctggccagg
gcccagggcagcgtcgcctttgattaccgaaagcgcaaacatgtcttcaagctgggctta
caggatggaaaagaatatttattccaggccaaggatgaggcagagatgagctcgtggcta
cgggtggtgaatgcagccattgccacagcgtcttctgcctctggagagcctgaagagccg
gtggtgcccagcaccacccggggcatgacccgggccatgaccatgcccccagtgtcaccc
gtcggggctgaggggcctgttgtgctccgcagcaaagacggcagagaacgagagcgagaa
aaacgcttcagcttctttaagaagaacaagtag

KEGG   Homo sapiens (human): 57731
Entry
57731             CDS       T01001                                 
Symbol
SPTBN4, CMND, NEDHND, QV, SPNB4, SPTBN3
Name
(RefSeq) spectrin beta, non-erythrocytic 4
  KO
K06115  spectrin beta, non-erythrocytic 1/4/5
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
Network
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N01848  Membrane-associated periodic skeleton (MPS)
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
Disease
H01810  Congenital myopathy
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    57731 (SPTBN4)
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    57731 (SPTBN4)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    57731 (SPTBN4)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Cross-linking proteins
     57731 (SPTBN4)
  Intermediate filaments
   Intermediate filament-binding proteins
    57731 (SPTBN4)
SSDB
Motif
Pfam: Spectrin CH PH_9 PH PH_11 Rv3651-like_N
Other DBs
NCBI-GeneID: 57731
NCBI-ProteinID: NP_066022
OMIM: 606214
HGNC: 14896
Ensembl: ENSG00000160460
UniProt: Q9H254
LinkDB
Position
19:40467001..40576464
AA seq 2564 aa
MAQVPGEVDNMEGLPAPNNNPAARWESPDRGWEREQPAASTAAASLFECSRIKALADERE
AVQKKTFTKWVNSHLARVGCHIGDLYVDLRDGFVLTRLLEVLSGEQLPRPTRGRMRIHSL
ENVDKALQFLKEQRVHLENVGSHDIVDGNHRLTLGLVWTIILRFQIQVIKIETEDNRETR
SAKDALLLWCQMKTAGYPEVNIQNFTTSWRDGLAFNALIHRHRPDLVDFSKLTKSNANYN
LQRAFRTAEQHLGLARLLDPEDVNMEAPDEKSIITYVVSFYHYFSKMKALAVEGKRIGKV
LDQVLEVGKIIERYEELAAELLAWIHRTVGLISNQKFANSLSGVQQQLQAFTAYCTLEKP
VKFQEKGNLEVLLFSIQSKLRACNRRLFVPREGCGIWDIDKAWGELEKAEHEREAALRAE
LIRQEKLELLAQRFDHKVAMRESWLNENQRLVSQDNFGYELPAVEAAMKKHEAIEADIAA
YEERVQGVAELAQALAAEGYYDIRRVAAQRDSVLRQWALLTGLVGARRTRLEQNLALQKV
FQEMVYMVDWMEEMQAQLLSRECGQHLVEADDLLQKHGLLEGDIAAQSERVEALNAAALR
FSQLQGYQPCDPQVICNRVNHVHGCLAELQEQAARRRAELEASRSLWALLQELEEAESWA
RDKERLLEAAGGGGAAGAAGAAGTAGGAHDLSSTARLLAQHKILQGELGGRRALLQQALR
CGEELVAAGGAVGPGADTVHLVGLAERAASARRRWQRLEEAAARRERRLQEARALHQFGA
DLDGLLDWLRDAYRLAAAGDFGHDEASSRRLARQHRALTGEVEAHRGPVSGLRRQLATLG
GASGAGPLVVALQVRVVEAEQLFAEVTEVAALRRQWLRDALAVYRMFGEVHACELWIGEK
EQWLLSMRVPDSLDDVEVVQHRFESLDQEMNSLMGRVLDVNHTVQELVEGGHPSSDEVRS
CQDHLNSRWNRIVELVEQRKEEMSAVLLVENHVLEVAEVRAQVREKRRAVESAPRAGGAL
QWRLSGLEAALQALEPRQAALLEEAALLAERFPAQAARLHQGAEELGAEWGALASAAQAC
GEAVAAAGRLQRFLHDLDAFLDWLVRAQEAAGGSEGPLPNSLEEADALLARHAALKEEVD
QREEDYARIVAASEALLAADGAELGPGLALDEWLPHLELGWHKLLGLWEARREALVQAHI
YQLFLRDLRQALVVLRNQEMALSGAELPGTVESVEEALKQHRDFLTTMELSQQKMQVAVQ
AAEGLLRQGNIYGEQAQEAVTRLLEKNQENQLRAQQWMQKLHDQLELQHFLRDCHELDGW
IHEKMLMARDGTREDNHKLHKRWLRHQAFMAELAQNKEWLEKIEREGQQLMQEKPELAAS
VRKKLGEIRQCWAELESTTQAKARQLFEASKADQLVQSFAELDKKLLHMESQLQDVDPGG
DLATVNSQLKKLQSMESQVEEWYREVGELQAQTAALPLEPASKELVGERQNAVGERLVRL
LEPLQERRRLLLASKELHQVAHDLDDELAWVQERLPLAMQTERGNGLQAVQQHIKKNQGL
RREIQAHGPRLEEVLERAGALASLRSPEAEAVRRGLEQLQSAWAGLREAAERRQQVLDAA
FQVEQYYFDVAEVEAWLGEQELLMMSEDKGKDEQSTLQLLKKHLQLEQGVENYEESIAQL
SRQCRALLEMGHPDSEQISRRQSQVDRLYVALKELGEERRVALEQQYWLYQLSRQVSELE
HWIAEKEVVAGSPELGQDFEHVSVLQEKFSEFASETGMAGRERLAAVNQMVDELIECGHT
AAATMAEWKDGLNEAWAELLELMGTRAQLLAASRELHKFFSDARELQGQIEEKRRRLPRL
TTPPEPRPSASSMQRTLRAFEHDLQLLVSQVRQLQEGAAQLRTVYAGEHAEAIASREQEV
LQGWKELLSACEDARLHVSSTADALRFHSQVRDLLSWMDGIASQIGAADKPRDVSSVEVL
MNYHQGLKTELEARVPELTTCQELGRSLLLNKSAMADEIQAQLDKLGTRKEEVSEKWDRH
WEWLQQMLEVHQFAQEAVVADAWLTAQEPLLQSRELGSSVDEVEQLIRRHEAFRKAAAAW
EERFSSLRRLTTIEKIKAEQSKQPPTPLLGRKFFGDPTELAAKAAPLLRPGGYERGLEPL
ARRASDTLSAEVRTRVGYVRQELKPERLQPRIDRLPEIPGRVEPAALPAAPEDAAETPAT
PAAAEQVRPRPERQESADRAEELPRRRRPERQESVDQSEEAARRRRPERQESAEHEAAHS
LTLGRYEQMERRRERRERRLERQESSEQEMPIRGDLVKGKATLADIVEQLQEKEAGPGLP
AGPSLPQPRELPPGRLPNGLELPERTPRPDRPRARDRPKPRRRPRPREGGEGGGSRRSRS
APAQGGSAPAPPPPPTHTVQHEGFLLRKRELDANRKSSNRSWVSLYCVLSKGELGFYKDS
KGPASGSTHGGEPLLSLHKATSEVASDYKKKKHVFKLQTQDGSEFLLQAKDEEEMNGWLE
AVASSVAEHAEIARWGQTLPTTSSTDEGNPKREGGDRRASGRRK
NT seq 7695 nt   +upstreamnt  +downstreamnt
atggcgcaggtaccaggggaagtggacaacatggagggcctgcctgctcctaacaacaac
cctgctgcccgctgggagagtccggatcggggctgggagcgggagcagccggctgcgtcc
accgcagcggcctcgctctttgagtgctcccggatcaaggccttggcagatgagcgggaa
gccgtgcagaagaaaaccttcaccaagtgggtgaactcgcacctcgcccgcgtgggctgc
cacatcggggacctctatgtggacctccgggacggcttcgtgctcacgcggctcctggaa
gtgctgtctggggagcagctgcccaggcccacgcgcggccgcatgcggatccactcactg
gagaacgtggacaaggcgctgcagtttctgaaggagcagcgcgtgcacctggagaacgtg
ggttcgcatgacatcgtggatgggaatcaccggctgacgctggggctggtctggaccatc
atcctgcgcttccagattcaagtcatcaaaattgagactgaggacaacagagagacacgc
tcagccaaggatgctctgctcttgtggtgtcagatgaagacagctggttaccctgaggta
aacatccagaatttcaccaccagctggcgggatggcttggccttcaatgccctcattcac
cggcacaggcctgatctcgtggacttcagcaaactcaccaagtccaatgccaactacaac
ctgcagagagccttccgcacagctgagcagcacctggggctggcgcggctgctggatcct
gaagatgtgaacatggaggctccagatgagaagtccatcatcacctacgtggtctctttc
taccactatttctccaagatgaaggctctggctgtggaggggaagcgtatcgggaaggtc
ttggaccaggtattggaggtggggaagatcatagaacgctacgaggagctggcggctgag
ctgctggcctggatccaccgcaccgtgggcctcatcagcaatcagaaatttgccaactcc
ttaagtggggtgcagcagcaactccaggctttcacggcctattgcacgctggagaagcct
gtcaagttccaggagaaggggaacctagaggtgctgctcttcagcatccagagcaaactg
cgtgcctgcaaccgtcgcctctttgtgcctcgggagggctgtggcatctgggatattgac
aaggcatggggtgagctggagaaggctgagcatgagcgggaggctgccctacgggctgag
ctgattcggcaggagaagctggaactactggcacagaggtttgaccacaaggtggctatg
agggagagctggctgaatgagaaccagcgtctggtctcccaggacaactttgggtatgag
ctgcccgcagtggaggcagccatgaagaaacacgaagcgatcgaggcagacattgcggcc
tacgaggagcgggtgcagggtgtggcggagctggcccaggcattggcagccgaaggctac
tacgatatccggcgggtggcagcccagcgtgacagcgtcctgcgccagtgggccctgcta
actgggcttgtgggtgcccggcggacacgacttgagcagaaccttgccctgcagaaggtc
ttccaggagatggtgtacatggtggactggatggaggagatgcaggctcagctgctgtcc
cgggagtgtgggcagcacctggtggaggcagacgacctgttgcagaagcatggactgctg
gagggagacattgccgcccagagcgagcgggtggaggctctcaatgccgctgccctgcgc
ttctcccagctgcagggctaccagccctgcgacccgcaggtcatctgcaaccgcgtgaac
cacgtgcacggctgcctggcggagctgcaggagcaggcagcgcggcgacgcgcggagctg
gaggcttcgcggagcctgtgggcgctgctgcaggagctggaggaggccgagagctgggcg
cgcgacaaggagcgtctcctggaggctgcgggcggcggcggtgcggcgggcgcagcgggc
gcagcgggaacagcgggcggcgcgcatgacctgtccagcacagcgcgcctcctggcccag
cacaagatcctgcagggcgagctgggcgggcggcgagcgttgctgcagcaggccctgcgg
tgtggcgaggagctggttgcggccggcggtgccgtcggcccgggagcagacaccgtgcac
ctggtaggcctggcggagcgcgcggcgagcgcccggcgccgctggcagaggctggaagag
gcggcggcgcggcgagagcggcggctgcaggaggcgcgggcgctgcaccagttcggcgct
gacctcgacgggctgctggactggcttcgcgacgcttaccgcctggcagccgccggtgac
ttcggccacgacgaagcttccagccgccgcctggcgcgccagcaccgcgcgctcaccggg
gaggtggaggcacatcgcgggcccgtgagcggcctgcggcgccagctggcgacactcggg
ggtgccagtggcgcagggccactggtggtggcgctgcaggtgcgcgtggtggaagcagag
cagttgttcgctgaggtgaccgaagtggcggcgctgaggcgccagtggctgcgggacgcg
ctcgctgtctaccgcatgtttggcgaggtgcacgcgtgtgagctgtggatcggcgagaag
gagcaatggctgctctccatgcgtgtgccggattcactcgacgacgtcgaggtggtgcag
caccgattcgagagcctggaccaagagatgaacagcctgatgggccgcgttctggacgtg
aaccacacagtccaggagctggtggaaggaggccaccccagttcagatgaggtgcgttcc
tgccaggaccacctcaacagcaggtggaaccgcatcgtggagctagtggaacagcgcaaa
gaggaaatgagcgcggtgctgctggtggagaaccacgtgctggaggtggccgaggtgcgc
gcccaggtgcgtgagaagcggagagctgtggagagcgcgccccgggccggcggcgccctg
cagtggcgtcttagcggcctagaggccgctctgcaggcgctggagccgcgccaggcggcc
cttctggaggaggcagccctgctggctgagcgcttcccggcgcaggcggcgcggctgcac
cagggcgcggaggagctgggcgccgagtggggcgcgctagctagcgcggctcaggcctgc
ggcgaggcggtggcggcagcagggcgcctgcagcgcttcctacatgacctcgacgctttc
ctggactggctcgtgcgcgcccaggaggcggcgggcggcagcgaggggcccctgcccaac
agcctagaagaggcggacgcgctgctggcgcgccacgctgcgctcaaggaggaggtggac
cagcgcgaggaagactatgctcgcatcgtggcggccagcgaggcgctgctggccgccgac
ggcgcagagctgggcccgggcctggcactagacgagtggctgccacacctcgaacttggc
tggcataaactgctcggcttgtgggaggcgcgcagggaggcgctggtccaggcgcacatc
taccagctcttcctgcgggatctacgccaggcgctcgtggtgctgcgtaaccaggagatg
gcgctgtctggtgcggagctcccgggcacagtggaatcggtggaggaggccttgaaacag
caccgtgactttctcaccaccatggagctgagccagcaaaagatgcaggtggccgtgcag
gctgcagagggcctgctgaggcagggcaacatctacggggagcaggctcaggaggctgtg
acccggctgctggagaagaaccaagaaaaccagttacgggcccagcaatggatgcaaaag
ctacatgaccaacttgagctgcagcacttcctccgagactgccacgagctggatggctgg
atccatgagaagatgctgatggcgcgggatggcacgcgggaggacaaccacaagctgcat
aagagatggctccggcaccaggcattcatggccgagctggctcagaataaggagtggctg
gagaagatcgagcgggagggccagcaactgatgcaggagaagcccgaactggcggcctcc
gtgcggaagaagctgggcgagatccgccagtgctgggcggagctggagagcaccacccag
gccaaggcacggcagctctttgaggccagcaaagcagaccagctggtgcagagctttgct
gagctggacaagaagctccttcacatggagagccagctgcaagacgtggaccctggagga
gacctggccactgtcaacagtcagctcaagaagctgcagtccatggagtcgcaggtggag
gagtggtaccgcgaggtgggagagctgcaggcgcagacggcggcgctgccgctggagccg
gcgagcaaggagctggtgggtgagcggcagaacgcggtgggcgagcgcctggtgcgcctg
ctcgagccgttgcaggagcgccgccgcttgctgctggcttccaaggagttgcaccaggtg
gcgcacgacctggacgacgagctggcatgggttcaggagcggctgccactggccatgcag
acagagcgaggcaacggtttgcaggcggtccagcagcacatcaaaaagaaccagggcctg
cggcgggagatccaggcgcatgggccgcgcctggaggaggtgctggagcgcgcgggcgcg
ctggcgtcgctgcgcagcccggaggcagaggcagtgcgccggggcctggagcagctgcag
agcgcctgggccggactgcgggaggctgccgagcgacggcagcaggtgctggacgccgcc
ttccaggtggagcagtactacttcgacgtggctgaggtggaggcgtggctgggcgagcag
gagctgctcatgatgagtgaggacaagggcaaggacgaacagagcaccctgcagctgctc
aagaaacacctgcagctggagcaaggcgtggagaactacgaggaaagcatcgcgcagctg
tcgcgccagtgccgggcgctgctggagatggggcacccggacagcgagcagatcagccgg
cggcagtctcaggtggaccgcctgtacgtggcgctcaaggagctgggtgaggagcgccgg
gtggctctggaacagcagtactggctgtaccagctcagccgccaggtgagcgagcttgag
cactggattgccgagaaggaggtggtggctggctcacccgagctcggccaggactttgag
catgtctcggtgctgcaggagaaattctcagagtttgccagcgagacaggtatggcaggg
cgggaacggctggcagctgtgaaccagatggtggatgagctgatcgagtgtggccataca
gcagcggccaccatggccgagtggaaggacggactgaacgaggcctgggctgagctgctg
gagctcatgggcacacgggcccagctgctggccgcctctcgggagcttcataagttcttc
agtgacgcccgagagcttcagggacagattgaggagaagcggaggcggctgccccgcctg
accaccccgcctgagccgagacccagtgccagttccatgcagcggaccctgagagccttt
gagcatgacctgcagctcctcgtgtcccaggtacggcagctgcaggagggggcggcccag
ctgcggacggtgtatgcgggtgaacatgccgaggccatcgctagccgggagcaggaggtg
ctgcagggttggaaagagctgctgtcagcctgtgaggatgcccgcctgcatgtcagctcc
acagccgacgccctgcgcttccacagccaagtccgcgacctgctctcctggatggatggc
atcgccagccagattggggcagccgacaagcccagggacgtgtcatcagtggaggtgctc
atgaactaccaccagggcctgaagactgagctggaggcgcgggtgcctgagctgaccacc
tgccaggagctggggcgatctctgctgctcaacaaaagtgccatggctgatgagatccag
gcacagctggacaagctgggaaccaggaaggaggaggtgtcggaaaagtgggaccgccat
tgggagtggctgcagcagatgctggaggtgcaccagtttgcccaggaggcggtggtggct
gatgcctggctgacagcccaggagccgctcctgcagagccgggagctgggcagcagcgtg
gatgaggtggagcagcttatccggcgacatgaggccttccgcaaagcggctgcagcctgg
gaagagaggttcagctctctgcggcgcctgaccacgatcgagaaaatcaaagcggaacag
agcaagcagccgcctaccccactgctggggcgcaagttctttggggaccccacggaactg
gcggccaaggcggcgcccctgctgcggccagggggctatgaaaggggcttggagcccctg
gcccgccgagcctcggacacgctctcggccgaggtgcggactcgggtggggtatgtgcgc
caggagctcaagcccgagcgcctccagccgcgcattgaccggctgccggagatcccgggg
agggtggagcccgcggccctgccggccgcaccagaggacgcggcggagacccccgcgacc
cccgcggcggcggagcaggtgcggccacgaccggagcgccaggagtcagctgatcgcgcg
gaggagctgcccaggaggcggcggcctgagcggcaagagtcagtcgatcaatccgaggag
gctgcgcggaggcggcggccggagcggcaggagtcagcggagcacgaggcggcacacagc
cttaccctgggccgctatgagcagatggagcggcggcgcgagcggcgtgagcggcgcttg
gagcggcaggagtccagcgaacaggagatgcccatcagaggagacctggtcaaggggaag
gccaccctggctgacattgtggaacagctgcaggagaaagaggcaggcccagggctgcct
gctgggccgtcgctgcctcagccacgcgagcttcccccaggtcgcctgcccaacgggctt
gagctgcccgagcggacacctcggccggaccggccccgggcgcgggaccggcccaagccg
cgacggcggccgcggcccagagagggtggtgagggcgggggaagccggcgctcgcgctcc
gccccggcccagggcggctccgcccccgcgcctccgccaccgcccactcacacagtgcag
cacgagggcttcctactgcgcaagcgcgagctcgacgctaaccgcaagtcgtccaaccgg
tcgtgggtgagcctgtactgtgtgcttagtaagggggaactgggcttctacaaggactcc
aagggcccggcatccgggagcacacacggtggggaaccgctgctcagcctgcacaaggcc
accagcgaggtggctagtgactacaagaaaaagaagcatgtcttcaagctccagacccag
gatggcagtgagtttttgctccaggcaaaagatgaggaggagatgaacggctggctggag
gctgtagcttcctcggtggcggaacacgcagagatcgcccgctggggccagacactaccc
actacttcatccacagatgagggcaaccctaagagggaaggcggagatcgcagggccagc
gggcgcaggaagtga

KEGG   Homo sapiens (human): 51332
Entry
51332             CDS       T01001                                 
Symbol
SPTBN5, BSPECV, HUBSPECV, HUSPECV
Name
(RefSeq) spectrin beta, non-erythrocytic 5
  KO
K06115  spectrin beta, non-erythrocytic 1/4/5
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04820  Cytoskeleton in muscle cells
Network
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N01848  Membrane-associated periodic skeleton (MPS)
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    51332 (SPTBN5)
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    51332 (SPTBN5)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    51332 (SPTBN5)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Cross-linking proteins
     51332 (SPTBN5)
  Intermediate filaments
   Intermediate filament-binding proteins
    51332 (SPTBN5)
SSDB
Motif
Pfam: Spectrin CH PH PH_9 jr-ZPR1
Other DBs
NCBI-GeneID: 51332
NCBI-ProteinID: NP_057726
OMIM: 605916
HGNC: 15680
Ensembl: ENSG00000137877
UniProt: Q9NRC6
LinkDB
Position
15:complement(41848146..41894053)
AA seq 3674 aa
MAGQPHSPRELLGAAGHRSRRPSTELRVPPSPSLTMDSQYETGHIRKLQARHMQMQEKTF
TKWINNVFQCGQAGIKIRNLYTELADGIHLLRLLELISGEALPPPSRGRLRVHFLENSSR
ALAFLRAKVPVPLIGPENIVDGDQTLILGLIWVIILRFQISHISLDKEEFGASAALLSTK
EALLVWCQRKTASYTNVNITDFSRSWSDGLGFNALIHAHRPDLLDYGSLRPDRPLHNLAF
AFLVAEQELGIAQLLDPEDVAAAQPDERSIMTYVSLYYHYCSRLHQGQTVQRRLTKILLQ
LQETELLQTQYEQLVADLLRWIAEKQMQLEARDFPDSLPAMRQLLAAFTIFRTQEKPPRL
QQRGAAEALLFRLQTALQAQNRRPFLPHEGLGLAELSQCWAGLEWAEAARSQALQQRLLQ
LQRLETLARRFQHKAALRESFLKDAEQVLDQARAPPASLATVEAAVQRLGMLEAGILPQE
GRFQALAEIADILRQEQYHSWADVARRQEEVTVRWQRLLQHLQGQRKQVADMQAVLSLLQ
EVEAASHQLEELQEPARSTACGQQLAEVVELLQRHDLLEAQVSAHGAHVSHLAQQTAELD
SSLGTSVEVLQAKARTLAQLQQSLVALVRARRALLEQTLQRAEFLRNCEEEEAWLKECGQ
RVGNAALGRDLSQIAGALQKHKALEAEVHRHQAVCVDLVRRGRDLSARRPPTQPDPGERA
EAVQGGWQLLQTRVVGRGARLQTALLVLQYFADAAEAASWLRERRSSLERASCGQDQAAA
ETLLRRHVRLERVLRAFAAELRRLEEQGRAASARASLFTVNSALSPPGESLRNPGPWSEA
SCHPGPGDAWKMALPAEPDPDFDPNTILQTQDHLSQDYESLRALAQLRRARLEEAMALFG
FCSSCGELQLWLEKQTVLLQRVQPQADTLEVMQLKYENFLTALAVGKGLWAEVSSSAEQL
RQRYPGNSTQIQRQQEELSQRWGQLEALKREKAVQLAHSVEVCSFLQECGPTQVQLRDVL
LQLEALQPGSSEDTCHALQLAQKKTLVLERRVHFLQSVVVKVEEPGYAESQPLQGQVETL
QGLLKQVQEQVAQRARRQAETQARQSFLQESQQLLLWAESVQAQLRSKEVSVDVASAQRL
LREHQDLLEEIHLWQERLQQLDAQSQPMAALDCPDSQEVPNTLRVLGQQGQELKVLWEQR
QQWLQEGLELQKFGREVDGFTATCANHQAWLHLDNLGEDVREALSLLQQHREFGRLLSTL
GPRAEALRAHGEKLVQSQHPAAHTVREQLQSIQAQWTRLQGRSEQRRRQLLASLQLQEWK
QDVAELMQWMEEKGLMAAHEPSGARRNILQTLKRHEAAESELLATRRHVEALQQVGRELL
SRRPCGQEDIQTRLQGLRSKWEALNRKMTERGDELQQAGQQEQLLRQLQDAKEQLEQLEG
ALQSSETGQDLRSSQRLQKRHQQLESESRTLAAKMAALASMAHGMAASPAILEETQKHLR
RLELLQGHLAIRGLQLQASVELHQFCHLSNMELSWVAEHMPHGSPTSYTECLNGAQSLHR
KHKELQVEVKAHQGQVQRVLSSGRSLAASGHPQAQHIVEQCQELEGHWAELERACEARAQ
CLQQAVTFQQYFLDVSELEGWVEEKRPLVSSRDYGRDEAATLRLINKHQALQEELAIYWS
SMEELDQTAQTLTGPEVPEQQRVVQERLREQLRALQELAATRDRELEGTLRLHEFLREAE
DLQGWLASQKQAAKGGESLGEDPEHALHLCTKFAKFQHQVEMGSQRVAACRLLAESLLER
GHSAGPMVRQRQQDLQTAWSELWELTQARGHALRDTETTLRVHRDLLEVLTQVQEKATSL
PNNVARDLCGLEAQLRSHQGLERELVGTERQLQELLETAGRVQKLCPGPQAHAVQQRQQA
VTQAWAVLQRRMEQRRAQLERARLLARFRTAVRDYASWAARVRQDLQVEESSQEPSSGPL
KLSAHQWLRAELEAREKLWQQATQLGQQALLAAGTPTKEVQEELRALQDQRDQVYQTWAR
KQERLQAEQQEQLFLRECGRLEEILAAQEVSLKTSALGSSVEEVEQLIRKHEVFLKVLTA
QDKKEAALRERLKTLRRPRVRDRLPILLQRRMRVKELAESRGHALHASLLMASFTQAATQ
AEDWIQAWAQQLKEPVPPGDLRDKLKPLLKHQAFEAEVQAHEEVMTSVAKKGEALLAQSH
PRAGEVSQRLQGLRKHWEDLRQAMALRGQELEDRRNFLEFLQRVDLAEAWIQEKEVKMNV
GDLGQDLEHCLQLRRRLREFRGNSAGDTVGDACIRSISDLSLQLKNRDPEEVKIICQRRS
QLNNRWASFHGNLLRYQQQLEGALEIHVLSRELDNVTKRIQEKEALIQALDCGKDLESVQ
RLLRKHEELEREVHPIQAQVESLEREVGRLCQRSPEAAHGLRHRQQEVAESWWQLRSRAQ
KRREALDALHQAQKLQAMLQELLVSAQRLRAQMDTSPAPRSPVEARRMLEEHQECKAELD
SWTDSISLARSTGQQLLTAGHPFSSDIRQVLAGLEQELSSLEGAWQEHQLQLQQALELQL
FLSSVEKMERWLCSKEDSLASEGLWDPLAPMEPLLWKHKMLEWDLEVQAGKISALEATAR
GLHQGGHPEAQSALGRCQAMLLRKEALFRQAGTRRHRLEELRQLQAFLQDSQEVAAWLRE
KNLVALEEGLLDTAMLPAQLQKQQNFQAELDASMHQQQELQREGQRLLQGGHPASEAIQE
RLEELGALWGELQDNSQKKVAKLQKACEALRLRRSMEELENWLEPIEVELRAPTVGQALP
GVGELLGTQRELEAAVDKKARQAEALLGQAQAFVREGHCLAQDVEEQARRLLQRFKSLRE
PLQERRTALEARSLLLKFFRDADEEMAWVQEKLPLAAAQDYGQSLSAVRHLQEQHQNLES
EMSSHEALTRVVLGTGYKLVQAGHFAAHEVAARVQQLEKAMAHLRAEAARRRLLLQQAQE
AQQFLTELLEAGSWLAERGHVLDSEDMGHSAEATQALLRRLEATKRDLEAFSPRIERLQQ
TAALLESRKNPESPKVLAQLQAVREAHAELLRRAEARGHGLQEQLQLHQLERETLLLDAW
LTTKAATAESQDYGQDLEGVKVLEEKFDAFRKEVQSLGQAKVYALRKLAGTLERGAPRRY
PHIQAQRSRIEAAWERLDQAIKARTENLAAAHEVHSFQQAAAELQGRMQEKTALMKGEDG
GHSLSSVRTLQQQHRRLERELEAMEKEVARLQTEACRLGQLHPAAPGGLAKVQEAWATLQ
AKAQERGQWLAQAAQGHAFLGRCQELLAWAQERQELASSEELAEDVAGAEQLLGQHEELG
QEIRECRLQAQDLRQEGQQLVDNSHFMSAEVTECLQELEGRLQELEEAWALRWQRCAESW
GLQKLRQRLEQAEAWLACWEGLLLKPDYGHSVSDVELLLHRHQDLEKLLAAQEEKFAQMQ
KTEMEQELLLQPQELKPGRAGSSLTSFQWRPSGHQGLGAQLAETRDPQDAKGTPTMEGSL
EFKQHLLPGGRQPSSSSWDSCRGNLQGSSLSLFLDERMAAEKVASIALLDLTGARCERLR
GRHGRKHTFSLRLTSGAEILFAAPSEEQAESWWRALGSTAAQSLSPKLKAKPVSSLNECT
TKDARPGCLLRSDP
NT seq 11025 nt   +upstreamnt  +downstreamnt
atggctggtcagccccacagtccccgggagctcctcggggctgcagggcaccgcagcagg
aggcccagcacagaactccgggtcccgcccagtccaagtctcaccatggactctcagtac
gagacgggccacattcgcaagctacaggcccggcacatgcagatgcaggagaagactttc
accaagtggatcaataacgtcttccagtgcggccaggcgggcatcaagatccggaacctg
tacacagagctggctgacggcatccacctcctgcggctgctggagctcatctcaggggag
gccctgccacccccgagccggggccgcctgcgtgtgcacttcctggagaacagcagccga
gctctggccttcctcagggccaaggtgccagtaccactcatcgggccagagaacatcgtg
gacggagaccagacactcatcctgggactcatctgggtcatcattctgcgtttccagatc
tcccacatctccttggacaaggaggagtttggggccagcgcagccctgctgtccaccaag
gaagccctgctggtctggtgccagcggaagacagccagctacaccaacgtgaacattaca
gatttctcccgaagctggagcgatgggctgggcttcaatgccctcatccatgcccacagg
ccagacctgttggactacggctccctgcgtccagaccgcccactgcacaaccttgctttt
gctttcctggtggctgagcaggagctgggcattgctcagctgctggaccccgaggacgtg
gcagccgcacagccagatgagcgctctatcatgacctacgtctccctctactaccactac
tgctcccgcctgcatcaggggcagactgtccagaggagactcactaagatcctgcttcag
ctccaggagacagagctgctgcagacccagtacgagcagctggtggctgaccttctacgc
tggattgcagagaagcagatgcagctggaggcgcgggattttccagactcgctgcccgcc
atgcggcagctactggcagcattcaccatcttccgcacccaggagaagccaccccggcta
cagcagcgaggggccgcagaggccctgctcttccggctacagacagcactccaagcccag
aaccgcaggcccttcctgcctcatgagggcctgggccttgcagagctgtcccagtgctgg
gcagggctggagtgggcagaggctgcaaggagccaggccctgcagcagaggctactgcag
ctgcagcggctagaaaccctggcccggcgcttccagcacaaggcagccctccgggagagt
ttccttaaggatgcagagcaggtgctagaccaggccagagccccgccagccagcctggcc
acagtggaggcagccgtccagaggctgggcatgctggaggctggcatcctgccccaggag
gggcgcttccaggccctggctgagatcgcagacatcctccggcaggagcagtaccacagc
tgggcagatgtggcccgcaggcaggaggaagttaccgtgcgctggcagaggctccttcag
catctacagggacagaggaagcaggtggcagacatgcaggctgtgctgagcctgctgcag
gaggtggaggctgcctcccaccagctggaggagctgcaggagccggccaggtccaccgcc
tgtgggcagcagctggcagaagtggtggagctgctgcagaggcatgacctgctggaggct
caagtctcggcccacggagcccatgtgagccatcttgctcagcagacagcagagctggac
tcctccctgggcaccagtgtggaggtgctgcaggccaaggccaggacactggcccagctc
caacagagcctggtggctcttgtcagggcccggcgggccctgctggagcagaccctgcag
cgggcagagttcctgcgcaactgtgaggaggaggaagcctggctgaaggagtgcggacag
cgggtggggaatgcggccctgggccgggatctcagccagatcgcaggcgccctgcagaaa
cacaaggccctggaagctgaggtccaccgccaccaggccgtgtgcgtagatctcgtgcgg
aggggacgcgacctcagcgcccgcaggcccccaacgcagccggatcccggggaacgggca
gaggccgttcagggagggtggcagctgctccagacccgggtggtggggcggggcgcacgg
ctgcagacagccctgctggtcctgcagtacttcgcggacgcggcggaggcggcttcgtgg
ctgcgcgagcggcgatcctcgctggagagagcgtcctgcggtcaggaccaggcggccgcc
gagaccctgctgaggcgccacgtgcggctggagcgcgtcctgcgcgccttcgcggccgag
ctgcggcggctggaggagcaggggcgggcggcctcggcccgggcgtcgttattcacggtg
aactctgccctgagccctccaggagaaagcctgaggaacccagggccctggagtgaggct
tcctgccaccctggccctggggatgcctggaagatggccctcccagctgagcctgaccct
gactttgatcccaacactatactccagacacaggaccacttgagtcaggactatgagagt
ctgcgggccctggcacagctccgcagggcccggttggaggaggccatggccctgttcggt
ttctgcagttcctgtggggagctccagttgtggctggagaagcagacagtgctgctccaa
agggtgcagccccaggctgacaccctggaggtcatgcagctcaaatatgagaacttcctc
actgccctggctgtgggaaagggcctctgggctgaggtcagcagctctgctgagcaactg
aggcagagatatcctgggaactccacacaaatccaacgacagcaggaggaactgagccag
aggtgggggcagctggaggccctgaagagggagaaggccgtgcagctggcacacagtgtg
gaagtgtgcagttttctgcaggagtgtggacccacacaggtccagctgcgagacgtgctc
ctccagctggaggccctgcagccagggagctcagaggacacctgccacgccctgcagctg
gcccagaagaagaccctggtgctggagaggagggtccacttcctccaaagtgtggtcgta
aaggtcgaggagccaggctacgcagagagccagcctctgcaaggacaggtggagacactg
caggggctgctgaagcaagtacaggaacaagtggcccaacgggcccggcgccaggctgag
actcaggcccggcagagcttcctgcaagagagccagcaactgctactgtgggcagagagt
gtccaggctcagctgcgcagcaaggaggtgtcagtggatgtggcctcggctcagcggctg
ctgagggagcaccaagacctgctggaggagatccacctgtggcaggagaggctgcagcag
ctggacgctcagagccagcccatggcagccttggactgcccagactcccaagaggtgccc
aacactctgagggtcctggggcagcagggccaggagctgaaggttttgtgggagcagagg
cagcagtggctgcaagaggggctggagctgcagaagtttggccgagaagtggatggtttc
actgccacctgtgccaaccaccaggcctggctgcacctggacaaccttggggaggacgtg
agggaggccctgagcctgctgcagcagcaccgggagtttgggcggctcctgagcaccctg
gggcctcgggcagaggctctgcgggcacacggcgagaagctggttcagagccagcaccca
gctgcacacacggtcagagagcagctgcagagtatccaggcacagtggaccaggctccag
gggaggagtgagcagaggaggaggcagttgctggcttccctccagctccaggagtggaag
caggatgtggcagagctgatgcagtggatggaagagaaggggctgatggctgcgcatgag
ccctccggagcgcgcagaaacatcctgcagacactcaagcggcacgaagcagctgagagc
gagctactcgccacccgcagacacgtggaggccctgcagcaggttgggagagagctgttg
agtaggaggccctgtggccaggaggacatacagaccaggcttcaaggcctgagaagcaag
tgggaagctttgaaccgcaagatgactgagcgtggggacgagctccagcaggctggacag
caggagcaactcctgaggcagctgcaggatgcaaaggagcagctggagcagctcgaaggg
gccctacagagctcggaaacagggcaggacctgcgctccagccagaggctgcagaaacgg
caccaacagctggagagtgagagccggaccctggctgccaagatggctgccctcgcctcc
atggcccatggcatggccgcctccccggccatcctggaagagacccagaagcacctccgg
aggctggagcttctgcaggggcatctggccatccggggcctgcagctgcaggcctcagtg
gagctgcaccagttctgccacctgagcaacatggagctctcttgggtagccgagcacatg
ccccatggcagccccaccagctataccgagtgcttgaatggtgcccagagccttcaccgc
aagcacaaggagctccaggtggaggtaaaagctcaccaggggcaggtgcaacgggtgctg
agttctgggcggagcctggcagcctcagggcacccccaagcccaacacatcgtggagcag
tgccaggagctggaaggccactgggcagagctggagagggcatgtgaagcgcgggcccag
tgtctgcagcaggctgtcactttccagcagtactttctggatgtgtcagagctggagggc
tgggtggaggagaagcggccgctggtgagcagtcgggactatggcagagacgaggcagcc
accctcaggctcattaacaagcaccaggctctacaggaggaactagccatttactggagc
tccatggaggagcttgaccagacggcccaaaccctcactggccccgaagtccctgagcag
cagcgtgtggtgcaggagaggctccgggagcagctgcgggcactgcaggagttggcggcc
acacgggaccgggaactggaggggaccctgaggctgcatgagttcctgagggaggctgag
gacctgcagggctggctggcaagccagaagcaggcagccaaaggaggggagagcctggga
gaggaccccgagcacgccctgcacctctgcaccaagtttgcaaagtttcagcaccaagtg
gagatgggcagccagcgggtggccgcctgccggctgctggcggagagcctgctagagcgt
gggcacagtgctggccccatggtccgtcagaggcagcaggatctgcagaccgcctggtcg
gagctgtgggagctgacccaggcccgaggccacgcgctccgagacaccgagaccaccctc
agagttcacagagatctcttggaagtcctcacccaggtccaggagaaagccacgagcctc
cccaacaatgtggcacgggacctgtgtgggctggaggcgcagctgagaagccaccagggg
ctggagcgagaactcgtgggcaccgagcggcagctgcaggaactgctggagactgcaggc
agggtgcagaagctgtgtccggggcctcaggcccatgcggtgcagcagaggcagcaagct
gtgacgcaggcgtgggcagtgctgcagcgacgcatggagcagcgcagggcccagctggag
cgggcacgcctcctggcccgcttccgcacggcggtgcgtgactatgcctcctgggcagcc
cgcgtgcgccaggacctgcaggtggaggagagttcgcaagagcctagcagtggcccgctg
aagctcagtgcccaccagtggctccgggcggagctggaggcccgggagaagctgtggcag
caggccacccagctggggcagcaggcacttcttgctgcagggacacccaccaaggaggtc
caggaagagcttcgagccctgcaggaccagcgggaccaggtgtatcagacctgggcacgg
aagcaagagaggctgcaggccgagcagcaggagcagctcttcctcagagagtgcggccgc
ctggaggagatcctcgcggcccaggaggtctccctgaaaaccagtgccttggggagctcg
gtggaagaggtagagcagttgattcgcaagcacgaggtcttcctgaaggttctgactgcc
caggacaagaaggaggcagccctgcgtgagcggctgaagacgctccggcgcccccgggtg
cgggaccggcttcccatcctgctgcagcgccggatgagagtgaaggagctggcggagagc
cggggacacgccctgcatgcctccctgctgatggccagcttcacccaggccgcaacccag
gctgaggactggatccaggcgtgggcccagcagctgaaggagccggtccctcctggggac
ctgagagataagctgaagcccctgctgaaacaccaggcctttgaggctgaagtccaggcc
catgaggaggtcatgacctctgttgccaagaagggagaggctctcctggcacagagtcac
cctcgagccggagaggtctcccagcggctgcagggcctgcggaagcactgggaggacctg
aggcaggcaatggccctcaggggccaggagctggaggacaggcggaacttcctggagttc
ctgcagagagtggaccttgcagaggcctggatccaggagaaggaggtgaagatgaatgtt
ggtgacctgggccaggacctggagcactgcctgcagctccgacggcggctccgcgagttc
cgaggaaactcggccggggacacagtgggtgatgcctgcatcaggagcatcagtgacttg
tcactgcagctcaagaaccgggaccctgaggaagtcaagatcatctgccagcggcgaagc
cagctcaacaacaggtgggcgagtttccatggcaacttgctccggtaccagcagcagctc
gaaggggccttggagatacacgtgttgtcccgagagctggacaatgtcaccaagaggatt
caggagaaggaagccctgatccaggccctggactgtgggaaagatctggagagcgtgcag
aggctgctgcggaaacacgaggagctggagcgggaagtgcaccccatccaggcccaggtg
gagtccctagagcgtgaagtgggccgcctctgccaaagaagccccgaggcagcccacggc
ctcaggcacaggcagcaggaggtggctgagagctggtggcagctccggagcagggcccag
aagcggagggaggcgctggatgccttgcaccaagctcagaaactccaggcaatgctgcag
gaattgctggtcagcgcccagaggctgcgggctcagatggacacgagccccgctcctcgc
agccctgtggaagcccggcgtatgttagaagagcatcaggagtgcaaggccgagctggac
tcctggacagacagcatcagcctggcccgaagcactgggcagcaactgctcacagcgggg
caccccttcagctccgacattcgccaggtgctggctggcttagaacaggagctgagcagc
ctggaaggggcctggcaggagcatcagctacagctgcagcaggccctggagctacagctg
tttctgagctcagtggagaagatggaacgttggctttgcagcaaggaagactccctagcc
agtgagggtctatgggaccccttggcccccatggagccccttctgtggaagcacaagatg
ctggagtgggacctggaggtgcaggcgggaaagatcagtgctctggaggccacggcccgc
ggcctgcaccagggtgggcaccccgaggcccagagtgccctgggcaggtgccaggccatg
cttctgaggaaggaggcgctcttcaggcaagccgggacccgccgccatcgcctggaggag
ctccggcagctgcaggccttcctgcaggactcccaggaggtggctgcgtggctgagggag
aagaacctggtggccttggaggagggtttgctggacacagccatgctgccagcacagtta
cagaagcagcagaatttccaggcggagctggacgcgagcatgcaccaacagcaggagctg
cagcgggagggacagaggctgctgcaggggggccacccagcctcggaggccatccaggag
cgactggaggagctgggagcactctggggtgagctgcaagacaactcccagaagaaggtg
gccaagctccagaaggcctgtgaggccctgcgtctgcggcggagcatggaggaactggag
aactggctggagcccatcgaggttgagctgagagcccccactgtgggccaggccctgcct
ggggtgggcgagctcctgggcacacagagggagctggaggcagcagtggacaagaaggcc
aggcaggctgaggcactgctgggccaggcccaggcctttgtgagggaaggccactgcctt
gcccaagatgtggaagagcaggcccggcggctgcttcagaggttcaagagcctgagggag
cccctgcaggagcgcaggacggccctggaggcccggagcctcctcttgaagttcttcagg
gacgccgacgaggaaatggcctgggtgcaggagaagctgcctctggccgctgcccaggac
tatggccagagcctgagtgcggtgcggcacctgcaggagcagcaccagaacctggagagt
gagatgagcagccacgaggctctgacccgggtggtgctgggcactgggtacaagctggtg
caggctgggcactttgccgcccacgaggtggccgcccgggtgcagcagctggagaaggcc
atggcccacctgcgggcagaggcggcgcggaggcggcttctgctgcagcaggctcaggag
gcccagcagtttctgactgagctcctggaggcgggatcctggctggctgagcggggccat
gtcctggacagcgaggacatgggccacagtgctgaagccacacaggcccttctgcggcgg
ctggaggccaccaagagagacctggaagcgttcagcccacgcatcgagcggctgcagcag
acagcagcactcctggagagcaggaagaacccagaaagccccaaggtgctagcccagctg
caggcagttcgggaggcccacgcagagctgctgcggagggcggaggccagggggcacggc
ctgcaggagcagctgcagctacaccagctggagcgagagaccctgctcctcgacgcctgg
ctgaccaccaaggcggccaccgccgagtcccaggactacgggcaggacctggagggtgtc
aaggtgctggaagagaagtttgatgctttcagaaaggaagtgcagagcctgggccaggcc
aaggtgtatgccctgaggaagttggcaggcaccctggagcggggtgcacccaggcgctat
ccccacatccaagcccagaggagccgcattgaggctgcttgggagaggttggaccaagca
ataaaagcccgcacagagaacttggctgcagcccatgaggtccacagctttcagcaggca
gcagctgagctccagggaaggatgcaggagaagacggccctgatgaagggggaggacgga
ggccacagcctgtcatctgtgcggaccctgcagcaacagcacaggcgcctggagagagag
ctggaagctatggagaaggaggtggcacggctacagacggaggcctgccgactgggccag
ctacatcctgcagctccggggggcctggccaaggtgcaggaggcctgggccaccctgcag
gcgaaggcccaggagcgaggccagtggctggcgcaggctgcacagggccatgccttcctc
gggcgctgccaggaactgctagcatgggcacaggagaggcaggagctggcgtcctccgag
gagctggctgaggacgtggcgggggctgagcagctccttgggcagcatgaagagctgggg
caagaaatcagggagtgccgccttcaagcccaggacctgcggcaggaaggacagcagctg
gtggacaacagccacttcatgtctgcggaggtgacagagtgcctgcaggagctggaaggg
cggctgcaggagctggaggaggcttgggccctgcgctggcaacgctgtgccgagagctgg
ggcctgcagaagcttcggcagaggctggagcaggctgaggcctggctggcctgctgggag
ggactcctgctgaagcccgactatgggcactcagtgtcagatgtggagttgctgctgcac
agacaccaggacttagaaaagctgctggcagcccaggaagagaagtttgcccaaatgcaa
aagacagagatggaacaggagctcctgctgcagccacaggagctgaagcccgggagagct
ggcagctcgctgacatcctttcagtggaggccctctggacaccaggggctaggagcacag
ctggctgagacgagggacccccaggatgcaaagggtacccccaccatggaggggtctttg
gagttcaagcagcacctgctgcctggcgggaggcagcctagctcgagctcctgggacagc
tgccgcgggaacttgcagggcagctctctgagcctgttcctggatgagaggatggcagcg
gagaaagtagcttccatagccctccttgacctcacgggagcccggtgtgagaggctgcgg
ggccgccacggcaggaaacacacattctccttaaggctgaccagtggggcagagatcctg
tttgcagcaccgtccgaagagcaggctgagagctggtggcgagccctgggcagcactgca
gcccagagtctgagcccaaaactcaaagccaaacctgtcagctctctgaatgagtgcacg
accaaggatgcccggcctggatgtctactcaggtctgatccctga

KEGG   Homo sapiens (human): 7430
Entry
7430              CDS       T01001                                 
Symbol
EZR, CVIL, CVL, HEL-S-105, VIL2
Name
(RefSeq) ezrin
  KO
K08007  ezrin
Organism
hsa  Homo sapiens (human)
Pathway
hsa04517  IgSF CAM signaling
hsa04530  Tight junction
hsa04670  Leukocyte transendothelial migration
hsa04810  Regulation of actin cytoskeleton
hsa04971  Gastric acid secretion
hsa05130  Pathogenic Escherichia coli infection
hsa05205  Proteoglycans in cancer
hsa05206  MicroRNAs in cancer
Network
nt06180  Pathogenic Escherichia coli
nt06546  IgSF CAM signaling
  Element
N01095  Escherichia Map to LPA-GNA12/13-RhoA signaling pathway
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
N01962  ICAM1 interactions
N01965  ICAM2 interactions
N01966  ICAM3 interactions
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    7430 (EZR)
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04530 Tight junction
    7430 (EZR)
  09142 Cell motility
   04810 Regulation of actin cytoskeleton
    7430 (EZR)
 09150 Organismal Systems
  09151 Immune system
   04670 Leukocyte transendothelial migration
    7430 (EZR)
  09154 Digestive system
   04971 Gastric acid secretion
    7430 (EZR)
 09160 Human Diseases
  09161 Cancer: overview
   05206 MicroRNAs in cancer
    7430 (EZR)
   05205 Proteoglycans in cancer
    7430 (EZR)
  09171 Infectious disease: bacterial
   05130 Pathogenic Escherichia coli infection
    7430 (EZR)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    7430 (EZR)
   04147 Exosome [BR:hsa04147]
    7430 (EZR)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Ezrin/Radixin/Moesin
     7430 (EZR)
Exosome [BR:hsa04147]
 Exosomal proteins
  Proteins found in most exosomes
   7430 (EZR)
SSDB
Motif
Pfam: ERM_C FERM_M ERM_helical FERM_C FERM_N
Other DBs
NCBI-GeneID: 7430
NCBI-ProteinID: NP_001104547
OMIM: 123900
HGNC: 12691
Ensembl: ENSG00000092820
UniProt: P15311
Structure
LinkDB
Position
6:complement(158765748..158819368)
AA seq 586 aa
MPKPINVRVTTMDAELEFAIQPNTTGKQLFDQVVKTIGLREVWYFGLHYVDNKGFPTWLK
LDKKVSAQEVRKENPLQFKFRAKFYPEDVAEELIQDITQKLFFLQVKEGILSDEIYCPPE
TAVLLGSYAVQAKFGDYNKEVHKSGYLSSERLIPQRVMDQHKLTRDQWEDRIQVWHAEHR
GMLKDNAMLEYLKIAQDLEMYGINYFEIKNKKGTDLWLGVDALGLNIYEKDDKLTPKIGF
PWSEIRNISFNDKKFVIKPIDKKAPDFVFYAPRLRINKRILQLCMGNHELYMRRRKPDTI
EVQQMKAQAREEKHQKQLERQQLETEKKRRETVEREKEQMMREKEELMLRLQDYEEKTKK
AERELSEQIQRALQLEEERKRAQEEAERLEADRMAALRAKEELERQAVDQIKSQEQLAAE
LAEYTAKIALLEEARRRKEDEVEEWQHRAKEAQDDLVKTKEELHLVMTAPPPPPPPVYEP
VSYHVQESLQDEGAEPTGYSAELSSEGIRDDRNEEKRITEAEKNERVQRQLLTLSSELSQ
ARDENKRTHNDIIHNENMRQGRDKYKTLRQIRQGNTKQRIDEFEAL
NT seq 1761 nt   +upstreamnt  +downstreamnt
atgccgaaaccaatcaatgtccgagttaccaccatggatgcagagctggagtttgcaatc
cagccaaatacaactggaaaacagctttttgatcaggtggtaaagactatcggcctccgg
gaagtgtggtactttggcctccactatgtggataataaaggatttcctacctggctgaag
ctggataagaaggtgtctgcccaggaggtcaggaaggagaatcccctccagttcaagttc
cgggccaagttctaccctgaagatgtggctgaggagctcatccaggacatcacccagaaa
cttttcttcctccaagtgaaggaaggaatccttagcgatgagatctactgcccccctgag
actgccgtgctcttggggtcctacgctgtgcaggccaagtttggggactacaacaaagaa
gtgcacaagtctgggtacctcagctctgagcggctgatccctcaaagagtgatggaccag
cacaaacttaccagggaccagtgggaggaccggatccaggtgtggcatgcggaacaccgt
gggatgctcaaagataatgctatgttggaatacctgaagattgctcaggacctggaaatg
tatggaatcaactatttcgagataaaaaacaagaaaggaacagacctttggcttggagtt
gatgcccttggactgaatatttatgagaaagatgataagttaaccccaaagattggcttt
ccttggagtgaaatcaggaacatctctttcaatgacaaaaagtttgtcattaaacccatc
gacaagaaggcacctgactttgtgttttatgccccacgtctgagaatcaacaagcggatc
ctgcagctctgcatgggcaaccatgagttgtatatgcgccgcaggaagcctgacaccatc
gaggtgcagcagatgaaggcccaggcccgggaggagaagcatcagaagcagctggagcgg
caacagctggaaacagagaagaaaaggagagaaaccgtggagagagagaaagagcagatg
atgcgcgagaaggaggagttgatgctgcggctgcaggactatgaggagaagacaaagaag
gcagagagagagctctcggagcagattcagagggccctgcagctggaggaggagaggaag
cgggcacaggaggaggccgagcgcctagaggctgaccgtatggctgcactgcgggctaag
gaggagctggagagacaggcggtggatcagataaagagccaggagcagctggctgcggag
cttgcagaatacactgccaagattgccctcctggaagaggcgcggaggcgcaaggaggat
gaagttgaagagtggcagcacagggccaaagaagcccaggatgacctggtgaagaccaag
gaggagctgcacctggtgatgacagcacccccgcccccaccaccccccgtgtacgagccg
gtgagctaccatgtccaggagagcttgcaggatgagggcgcagagcccacgggctacagc
gcggagctgtctagtgagggcatccgggatgaccgcaatgaggagaagcgcatcactgag
gcagagaagaacgagcgtgtgcagcggcagctgctgacgctgagcagcgagctgtcccag
gcccgagatgagaataagaggacccacaatgacatcatccacaacgagaacatgaggcaa
ggccgggacaagtacaagacgctgcggcagatccggcagggcaacaccaagcagcgcatc
gacgagttcgaggccctgtaa

KEGG   Homo sapiens (human): 60
Entry
60                CDS       T01001                                 
Symbol
ACTB, BKRNS, BNS, BRWS1, CSMH, DDS1, PS1TP5BP1, THC8
Name
(RefSeq) actin beta
  KO
K05692  actin beta/gamma 1
Organism
hsa  Homo sapiens (human)
Pathway
hsa03082  ATP-dependent chromatin remodeling
hsa04015  Rap1 signaling pathway
hsa04145  Phagosome
hsa04210  Apoptosis
hsa04390  Hippo signaling pathway
hsa04510  Focal adhesion
hsa04517  IgSF CAM signaling
hsa04520  Adherens junction
hsa04530  Tight junction
hsa04611  Platelet activation
hsa04613  Neutrophil extracellular trap formation
hsa04670  Leukocyte transendothelial migration
hsa04714  Thermogenesis
hsa04810  Regulation of actin cytoskeleton
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
hsa04919  Thyroid hormone signaling pathway
hsa04921  Oxytocin signaling pathway
hsa04971  Gastric acid secretion
hsa05014  Amyotrophic lateral sclerosis
hsa05100  Bacterial invasion of epithelial cells
hsa05110  Vibrio cholerae infection
hsa05130  Pathogenic Escherichia coli infection
hsa05131  Shigellosis
hsa05132  Salmonella infection
hsa05135  Yersinia infection
hsa05164  Influenza A
hsa05205  Proteoglycans in cancer
hsa05225  Hepatocellular carcinoma
hsa05410  Hypertrophic cardiomyopathy
hsa05412  Arrhythmogenic right ventricular cardiomyopathy
hsa05414  Dilated cardiomyopathy
hsa05416  Viral myocarditis
hsa05418  Fluid shear stress and atherosclerosis
Network
nt06180  Pathogenic Escherichia coli
nt06181  Salmonella
nt06182  Shigella
nt06464  Amyotrophic lateral sclerosis
nt06529  Thermogenesis
nt06539  Cytoskeleton in muscle cells
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N00465  Deleted DMD to dystrophin-associated protein complex
N01066  ARNO-ARF-ACTB_G signaling pathway
N01067  Shigella IpgD to ARNO-ARF-ACTB_G signaling pathway
N01078  EGF-EGFR-Actin signaling pathway
N01079  Shigella IpaC to Actin signaling pathway
N01080  ITGA/B-TALIN/VINCULIN signaling pathway
N01081  Shigella IpaB/C/D to ITGA/B-TALIN/VINCULIN signaling pathway
N01086  Escherichia EspT to RAC signaling pathway
N01092  Escherichia Eae/Tir to Actin signaling pathway
N01094  Escherichia Eae/Tir/TccP to Actin signaling pathway
N01096  Escherichia Map to CDC42 signaling pathway
N01128  Salmonella SopE to RAC signaling pathway
N01129  Salmonella SopB to ARNO-ARF-ACTB/G signaling pathway
N01161  Actin polymerization
N01162  Mutation-caused aberrant PFN1 to actin polymerization
N01287  Tight junction-Actin signaling pathway
N01304  ANXA2-S100A10-regulated actin cytoskeleton
N01305  Salmonella SopB to ANXA2-S100A10-regulated actin cytoskeleton
N01688  ADRB3-UCP1 signaling pathway
N01815  Vinculin-talin-integrin macromolecular complex
N01837  Regulation of neurite extension, NAV1-TRIO
N01838  Regulation of synaptic plasticity, p140Cap
N01848  Membrane-associated periodic skeleton (MPS)
N01849  Axonal actin ring structure
N01850  MYO5B-mediated vesicle transport
N01851  MYO5A-mediated vesicle transport
N01852  MYO6-mediated vesicle transport
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
N01943  SLIT-ROBO signaling in podocyte
N01953  NECL1 interactions
N01954  NECL2 interactions
N01962  ICAM1 interactions
N01965  ICAM2 interactions
N01966  ICAM3 interactions
Disease
H00978  Thrombocytopenia (THC)
H01255  Juvenile-onset dystonia
H02023  Baraitser-Winter syndrome
H02716  Becker nevus syndrome
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09120 Genetic Information Processing
  09126 Chromosome
   03082 ATP-dependent chromatin remodeling
    60 (ACTB)
 09130 Environmental Information Processing
  09132 Signal transduction
   04015 Rap1 signaling pathway
    60 (ACTB)
   04390 Hippo signaling pathway
    60 (ACTB)
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    60 (ACTB)
 09140 Cellular Processes
  09141 Transport and catabolism
   04145 Phagosome
    60 (ACTB)
  09143 Cell growth and death
   04210 Apoptosis
    60 (ACTB)
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    60 (ACTB)
   04520 Adherens junction
    60 (ACTB)
   04530 Tight junction
    60 (ACTB)
  09142 Cell motility
   04814 Motor proteins
    60 (ACTB)
   04820 Cytoskeleton in muscle cells
    60 (ACTB)
   04810 Regulation of actin cytoskeleton
    60 (ACTB)
 09150 Organismal Systems
  09151 Immune system
   04611 Platelet activation
    60 (ACTB)
   04613 Neutrophil extracellular trap formation
    60 (ACTB)
   04670 Leukocyte transendothelial migration
    60 (ACTB)
  09152 Endocrine system
   04921 Oxytocin signaling pathway
    60 (ACTB)
   04919 Thyroid hormone signaling pathway
    60 (ACTB)
  09154 Digestive system
   04971 Gastric acid secretion
    60 (ACTB)
  09159 Environmental adaptation
   04714 Thermogenesis
    60 (ACTB)
 09160 Human Diseases
  09161 Cancer: overview
   05205 Proteoglycans in cancer
    60 (ACTB)
  09162 Cancer: specific types
   05225 Hepatocellular carcinoma
    60 (ACTB)
  09172 Infectious disease: viral
   05164 Influenza A
    60 (ACTB)
  09171 Infectious disease: bacterial
   05110 Vibrio cholerae infection
    60 (ACTB)
   05130 Pathogenic Escherichia coli infection
    60 (ACTB)
   05132 Salmonella infection
    60 (ACTB)
   05131 Shigellosis
    60 (ACTB)
   05135 Yersinia infection
    60 (ACTB)
   05100 Bacterial invasion of epithelial cells
    60 (ACTB)
  09164 Neurodegenerative disease
   05014 Amyotrophic lateral sclerosis
    60 (ACTB)
  09166 Cardiovascular disease
   05418 Fluid shear stress and atherosclerosis
    60 (ACTB)
   05410 Hypertrophic cardiomyopathy
    60 (ACTB)
   05412 Arrhythmogenic right ventricular cardiomyopathy
    60 (ACTB)
   05414 Dilated cardiomyopathy
    60 (ACTB)
   05416 Viral myocarditis
    60 (ACTB)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03021 Transcription machinery [BR:hsa03021]
    60 (ACTB)
   03019 Messenger RNA biogenesis [BR:hsa03019]
    60 (ACTB)
   03036 Chromosome and associated proteins [BR:hsa03036]
    60 (ACTB)
   03029 Mitochondrial biogenesis [BR:hsa03029]
    60 (ACTB)
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    60 (ACTB)
   04147 Exosome [BR:hsa04147]
    60 (ACTB)
Transcription machinery [BR:hsa03021]
 Eukaryotic type
  RNA polymerase II system
   Coactivators
    BAF/PBAF complex
     60 (ACTB)
Messenger RNA biogenesis [BR:hsa03019]
 Eukaryotic type
  mRNA surveillance and transport factors
   Factors involved in mRNA localization
    Factors that have mRNA localization signals
     60 (ACTB)
Chromosome and associated proteins [BR:hsa03036]
 Eukaryotic type
  Histone modification proteins
   HAT complexes
    TIP60 complex
     60 (ACTB)
    NuA4 complex
     60 (ACTB)
  Chromatin remodeling factors
   BAF complex
    60 (ACTB)
   PBAF complex
    60 (ACTB)
   GBAF(ncBAF) complex
    60 (ACTB)
   SWR1 complex
    60 (ACTB)
Mitochondrial biogenesis [BR:hsa03029]
 Mitochondrial quality control factors
  Mitochondrial dynamics
   Actin cytoskeleton organization
    60 (ACTB)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actins
    Actins
     60 (ACTB)
Exosome [BR:hsa04147]
 Exosomal proteins
  Proteins found in most exosomes
   60 (ACTB)
SSDB
Motif
Pfam: Actin
Other DBs
NCBI-GeneID: 60
NCBI-ProteinID: NP_001092
OMIM: 102630
HGNC: 132
Ensembl: ENSG00000075624
UniProt: P60709 Q1KLZ0
Structure
LinkDB
Position
7:complement(5527148..5530601)
AA seq 375 aa
MDDDIAALVVDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEAQS
KRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLTEAPLNPKANREKMT
QIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTVPIYEGYALPHAILRLDL
AGRDLTDYLMKILTERGYSFTTTAEREIVRDIKEKLCYVALDFEQEMATAASSSSLEKSY
ELPDGQVITIGNERFRCPEALFQPSFLGMESCGIHETTFNSIMKCDVDIRKDLYANTVLS
GGTTMYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWISKQ
EYDESGPSIVHRKCF
NT seq 1128 nt   +upstreamnt  +downstreamnt
atggatgatgatatcgccgcgctcgtcgtcgacaacggctccggcatgtgcaaggccggc
ttcgcgggcgacgatgccccccgggccgtcttcccctccatcgtggggcgccccaggcac
cagggcgtgatggtgggcatgggtcagaaggattcctatgtgggcgacgaggcccagagc
aagagaggcatcctcaccctgaagtaccccatcgagcacggcatcgtcaccaactgggac
gacatggagaaaatctggcaccacaccttctacaatgagctgcgtgtggctcccgaggag
caccccgtgctgctgaccgaggcccccctgaaccccaaggccaaccgcgagaagatgacc
cagatcatgtttgagaccttcaacaccccagccatgtacgttgctatccaggctgtgcta
tccctgtacgcctctggccgtaccactggcatcgtgatggactccggtgacggggtcacc
cacactgtgcccatctacgaggggtatgccctcccccatgccatcctgcgtctggacctg
gctggccgggacctgactgactacctcatgaagatcctcaccgagcgcggctacagcttc
accaccacggccgagcgggaaatcgtgcgtgacattaaggagaagctgtgctacgtcgcc
ctggacttcgagcaagagatggccacggctgcttccagctcctccctggagaagagctac
gagctgcctgacggccaggtcatcaccattggcaatgagcggttccgctgccctgaggca
ctcttccagccttccttcctgggcatggagtcctgtggcatccacgaaactaccttcaac
tccatcatgaagtgtgacgtggacatccgcaaagacctgtacgccaacacagtgctgtct
ggcggcaccaccatgtaccctggcattgccgacaggatgcagaaggagatcactgccctg
gcacccagcacaatgaagatcaagatcattgctcctcctgagcgcaagtactccgtgtgg
atcggcggctccatcctggcctcgctgtccaccttccagcagatgtggatcagcaagcag
gagtatgacgagtccggcccctccatcgtccaccgcaaatgcttctag

KEGG   Homo sapiens (human): 71
Entry
71                CDS       T01001                                 
Symbol
ACTG1, ACT, ACTG, DFNA20, DFNA26, HEL-176
Name
(RefSeq) actin gamma 1
  KO
K05692  actin beta/gamma 1
Organism
hsa  Homo sapiens (human)
Pathway
hsa03082  ATP-dependent chromatin remodeling
hsa04015  Rap1 signaling pathway
hsa04145  Phagosome
hsa04210  Apoptosis
hsa04390  Hippo signaling pathway
hsa04510  Focal adhesion
hsa04517  IgSF CAM signaling
hsa04520  Adherens junction
hsa04530  Tight junction
hsa04611  Platelet activation
hsa04613  Neutrophil extracellular trap formation
hsa04670  Leukocyte transendothelial migration
hsa04714  Thermogenesis
hsa04810  Regulation of actin cytoskeleton
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
hsa04919  Thyroid hormone signaling pathway
hsa04921  Oxytocin signaling pathway
hsa04971  Gastric acid secretion
hsa05014  Amyotrophic lateral sclerosis
hsa05100  Bacterial invasion of epithelial cells
hsa05110  Vibrio cholerae infection
hsa05130  Pathogenic Escherichia coli infection
hsa05131  Shigellosis
hsa05132  Salmonella infection
hsa05135  Yersinia infection
hsa05164  Influenza A
hsa05205  Proteoglycans in cancer
hsa05225  Hepatocellular carcinoma
hsa05410  Hypertrophic cardiomyopathy
hsa05412  Arrhythmogenic right ventricular cardiomyopathy
hsa05414  Dilated cardiomyopathy
hsa05416  Viral myocarditis
hsa05418  Fluid shear stress and atherosclerosis
Network
nt06180  Pathogenic Escherichia coli
nt06181  Salmonella
nt06182  Shigella
nt06464  Amyotrophic lateral sclerosis
nt06529  Thermogenesis
nt06539  Cytoskeleton in muscle cells
nt06541  Cytoskeleton in neurons
nt06546  IgSF CAM signaling
  Element
N00465  Deleted DMD to dystrophin-associated protein complex
N01066  ARNO-ARF-ACTB_G signaling pathway
N01067  Shigella IpgD to ARNO-ARF-ACTB_G signaling pathway
N01078  EGF-EGFR-Actin signaling pathway
N01079  Shigella IpaC to Actin signaling pathway
N01080  ITGA/B-TALIN/VINCULIN signaling pathway
N01081  Shigella IpaB/C/D to ITGA/B-TALIN/VINCULIN signaling pathway
N01086  Escherichia EspT to RAC signaling pathway
N01092  Escherichia Eae/Tir to Actin signaling pathway
N01094  Escherichia Eae/Tir/TccP to Actin signaling pathway
N01096  Escherichia Map to CDC42 signaling pathway
N01128  Salmonella SopE to RAC signaling pathway
N01129  Salmonella SopB to ARNO-ARF-ACTB/G signaling pathway
N01161  Actin polymerization
N01162  Mutation-caused aberrant PFN1 to actin polymerization
N01287  Tight junction-Actin signaling pathway
N01304  ANXA2-S100A10-regulated actin cytoskeleton
N01305  Salmonella SopB to ANXA2-S100A10-regulated actin cytoskeleton
N01688  ADRB3-UCP1 signaling pathway
N01815  Vinculin-talin-integrin macromolecular complex
N01837  Regulation of neurite extension, NAV1-TRIO
N01838  Regulation of synaptic plasticity, p140Cap
N01848  Membrane-associated periodic skeleton (MPS)
N01849  Axonal actin ring structure
N01850  MYO5B-mediated vesicle transport
N01851  MYO5A-mediated vesicle transport
N01852  MYO6-mediated vesicle transport
N01933  NrCAM interactions
N01934  L1CAM interactions
N01935  NFASC interactions
N01943  SLIT-ROBO signaling in podocyte
N01953  NECL1 interactions
N01954  NECL2 interactions
N01962  ICAM1 interactions
N01965  ICAM2 interactions
N01966  ICAM3 interactions
Disease
H00604  Deafness, autosomal dominant
H01705  Bilateral sudden sensorineural hearing loss
H02023  Baraitser-Winter syndrome
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09120 Genetic Information Processing
  09126 Chromosome
   03082 ATP-dependent chromatin remodeling
    71 (ACTG1)
 09130 Environmental Information Processing
  09132 Signal transduction
   04015 Rap1 signaling pathway
    71 (ACTG1)
   04390 Hippo signaling pathway
    71 (ACTG1)
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    71 (ACTG1)
 09140 Cellular Processes
  09141 Transport and catabolism
   04145 Phagosome
    71 (ACTG1)
  09143 Cell growth and death
   04210 Apoptosis
    71 (ACTG1)
  09144 Cellular community - eukaryotes
   04510 Focal adhesion
    71 (ACTG1)
   04520 Adherens junction
    71 (ACTG1)
   04530 Tight junction
    71 (ACTG1)
  09142 Cell motility
   04814 Motor proteins
    71 (ACTG1)
   04820 Cytoskeleton in muscle cells
    71 (ACTG1)
   04810 Regulation of actin cytoskeleton
    71 (ACTG1)
 09150 Organismal Systems
  09151 Immune system
   04611 Platelet activation
    71 (ACTG1)
   04613 Neutrophil extracellular trap formation
    71 (ACTG1)
   04670 Leukocyte transendothelial migration
    71 (ACTG1)
  09152 Endocrine system
   04921 Oxytocin signaling pathway
    71 (ACTG1)
   04919 Thyroid hormone signaling pathway
    71 (ACTG1)
  09154 Digestive system
   04971 Gastric acid secretion
    71 (ACTG1)
  09159 Environmental adaptation
   04714 Thermogenesis
    71 (ACTG1)
 09160 Human Diseases
  09161 Cancer: overview
   05205 Proteoglycans in cancer
    71 (ACTG1)
  09162 Cancer: specific types
   05225 Hepatocellular carcinoma
    71 (ACTG1)
  09172 Infectious disease: viral
   05164 Influenza A
    71 (ACTG1)
  09171 Infectious disease: bacterial
   05110 Vibrio cholerae infection
    71 (ACTG1)
   05130 Pathogenic Escherichia coli infection
    71 (ACTG1)
   05132 Salmonella infection
    71 (ACTG1)
   05131 Shigellosis
    71 (ACTG1)
   05135 Yersinia infection
    71 (ACTG1)
   05100 Bacterial invasion of epithelial cells
    71 (ACTG1)
  09164 Neurodegenerative disease
   05014 Amyotrophic lateral sclerosis
    71 (ACTG1)
  09166 Cardiovascular disease
   05418 Fluid shear stress and atherosclerosis
    71 (ACTG1)
   05410 Hypertrophic cardiomyopathy
    71 (ACTG1)
   05412 Arrhythmogenic right ventricular cardiomyopathy
    71 (ACTG1)
   05414 Dilated cardiomyopathy
    71 (ACTG1)
   05416 Viral myocarditis
    71 (ACTG1)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03021 Transcription machinery [BR:hsa03021]
    71 (ACTG1)
   03019 Messenger RNA biogenesis [BR:hsa03019]
    71 (ACTG1)
   03036 Chromosome and associated proteins [BR:hsa03036]
    71 (ACTG1)
   03029 Mitochondrial biogenesis [BR:hsa03029]
    71 (ACTG1)
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    71 (ACTG1)
   04147 Exosome [BR:hsa04147]
    71 (ACTG1)
Transcription machinery [BR:hsa03021]
 Eukaryotic type
  RNA polymerase II system
   Coactivators
    BAF/PBAF complex
     71 (ACTG1)
Messenger RNA biogenesis [BR:hsa03019]
 Eukaryotic type
  mRNA surveillance and transport factors
   Factors involved in mRNA localization
    Factors that have mRNA localization signals
     71 (ACTG1)
Chromosome and associated proteins [BR:hsa03036]
 Eukaryotic type
  Histone modification proteins
   HAT complexes
    TIP60 complex
     71 (ACTG1)
    NuA4 complex
     71 (ACTG1)
  Chromatin remodeling factors
   BAF complex
    71 (ACTG1)
   PBAF complex
    71 (ACTG1)
   GBAF(ncBAF) complex
    71 (ACTG1)
   SWR1 complex
    71 (ACTG1)
Mitochondrial biogenesis [BR:hsa03029]
 Mitochondrial quality control factors
  Mitochondrial dynamics
   Actin cytoskeleton organization
    71 (ACTG1)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actins
    Actins
     71 (ACTG1)
Exosome [BR:hsa04147]
 Exosomal proteins
  Proteins found in most exosomes
   71 (ACTG1)
SSDB
Motif
Pfam: Actin
Other DBs
NCBI-GeneID: 71
NCBI-ProteinID: NP_001186883
OMIM: 102560
HGNC: 144
Ensembl: ENSG00000184009
UniProt: P63261
Structure
LinkDB
Position
17:complement(81509971..81512799)
AA seq 375 aa
MEEEIAALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEAQS
KRGILTLKYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLTEAPLNPKANREKMT
QIMFETFNTPAMYVAIQAVLSLYASGRTTGIVMDSGDGVTHTVPIYEGYALPHAILRLDL
AGRDLTDYLMKILTERGYSFTTTAEREIVRDIKEKLCYVALDFEQEMATAASSSSLEKSY
ELPDGQVITIGNERFRCPEALFQPSFLGMESCGIHETTFNSIMKCDVDIRKDLYANTVLS
GGTTMYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWISKQ
EYDESGPSIVHRKCF
NT seq 1128 nt   +upstreamnt  +downstreamnt
atggaagaagagatcgccgcgctggtcattgacaatggctccggcatgtgcaaagctggt
tttgctggggacgacgctccccgagccgtgtttccttccatcgtcgggcgccccagacac
cagggcgtcatggtgggcatgggccagaaggactcctacgtgggcgacgaggcccagagc
aagcgtggcatcctgaccctgaagtaccccattgagcatggcatcgtcaccaactgggac
gacatggagaagatctggcaccacaccttctacaacgagctgcgcgtggccccggaggag
cacccagtgctgctgaccgaggcccccctgaaccccaaggccaacagagagaagatgact
cagattatgtttgagaccttcaacaccccggccatgtacgtggccatccaggccgtgctg
tccctctacgcctctgggcgcaccactggcattgtcatggactctggagacggggtcacc
cacacggtgcccatctacgagggctacgccctcccccacgccatcctgcgtctggacctg
gctggccgggacctgaccgactacctcatgaagatcctcactgagcgaggctacagcttc
accaccacggccgagcgggaaatcgtgcgcgacatcaaggagaagctgtgctacgtcgcc
ctggacttcgagcaggagatggccaccgccgcatcctcctcttctctggagaagagctac
gagctgcccgatggccaggtcatcaccattggcaatgagcggttccggtgtccggaggcg
ctgttccagccttccttcctgggtatggaatcttgcggcatccacgagaccaccttcaac
tccatcatgaagtgtgacgtggacatccgcaaagacctgtacgccaacacggtgctgtcg
ggcggcaccaccatgtacccgggcattgccgacaggatgcagaaggagatcaccgccctg
gcgcccagcaccatgaagatcaagatcatcgcacccccagagcgcaagtactcggtgtgg
atcggtggctccatcctggcctcactgtccaccttccagcagatgtggattagcaagcag
gagtacgacgagtcgggcccctccatcgtccaccgcaaatgcttctaa

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