Centromere-associated protein E
Details
- Name
- Centromere-associated protein E
- Synonyms
- CENP-E
- Centromere protein E
- Kinesin-related protein CENPE
- Gene Name
- CENPE
- Organism
- Humans
- Amino acid sequence
>lcl|BSEQ0006699|Centromere-associated protein E MAEEGAVAVCVRVRPLNSREESLGETAQVYWKTDNNVIYQVDGSKSFNFDRVFHGNETTK NVYEEIAAPIIDSAIQGYNGTIFAYGQTASGKTYTMMGSEDHLGVIPRAIHDIFQKIKKF PDREFLLRVSYMEIYNETITDLLCGTQKMKPLIIREDVNRNVYVADLTEEVVYTSEMALK WITKGEKSRHYGETKMNQRSSRSHTIFRMILESREKGEPSNCEGSVKVSHLNLVDLAGSE RAAQTGAAGVRLKEGCNINRSLFILGQVIKKLSDGQVGGFINYRDSKLTRILQNSLGGNA KTRIICTITPVSFDETLTALQFASTAKYMKNTPYVNEVSTDEALLKRYRKEIMDLKKQLE EVSLETRAQAMEKDQLAQLLEEKDLLQKVQNEKIENLTRMLVTSSSLTLQQELKAKRKRR VTWCLGKINKMKNSNYADQFNIPTNITTKTHKLSINLLREIDESVCSESDVFSNTLDTLS EIEWNPATKLLNQENIESELNSLRADYDNLVLDYEQLRTEKEEMELKLKEKNDLDEFEAL ERKTKKDQEMQLIHEISNLKNLVKHAEVYNQDLENELSSKVELLREKEDQIKKLQEYIDS QKLENIKMDLSYSLESIEDPKQMKQTLFDAETVALDAKRESAFLRSENLELKEKMKELAT TYKQMENDIQLYQSQLEAKKKMQVDLEKELQSAFNEITKLTSLIDGKVPKDLLCNLELEG KITDLQKELNKEVEENEALREEVILLSELKSLPSEVERLRKEIQDKSEELHIITSEKDKL FSEVVHKESRVQGLLEEIGKTKDDLATTQSNYKSTDQEFQNFKTLHMDFEQKYKMVLEEN ERMNQEIVNLSKEAQKFDSSLGALKTELSYKTQELQEKTREVQERLNEMEQLKEQLENRD STLQTVEREKTLITEKLQQTLEEVKTLTQEKDDLKQLQESLQIERDQLKSDIHDTVNMNI DTQEQLRNALESLKQHQETINTLKSKISEEVSRNLHMEENTGETKDEFQQKMVGIDKKQD LEAKNTQTLTADVKDNEIIEQQRKIFSLIQEKNELQQMLESVIAEKEQLKTDLKENIEMT IENQEELRLLGDELKKQQEIVAQEKNHAIKKEGELSRTCDRLAEVEEKLKEKSQQLQEKQ QQLLNVQEEMSEMQKKINEIENLKNELKNKELTLEHMETERLELAQKLNENYEEVKSITK ERKVLKELQKSFETERDHLRGYIREIEATGLQTKEELKIAHIHLKEHQETIDELRRSVSE KTAQIINTQDLEKSHTKLQEEIPVLHEEQELLPNVKEVSETQETMNELELLTEQSTTKDS TTLARIEMERLRLNEKFQESQEEIKSLTKERDNLKTIKEALEVKHDQLKEHIRETLAKIQ ESQSKQEQSLNMKEKDNETTKIVSEMEQFKPKDSALLRIEIEMLGLSKRLQESHDEMKSV AKEKDDLQRLQEVLQSESDQLKENIKEIVAKHLETEEELKVAHCCLKEQEETINELRVNL SEKETEISTIQKQLEAINDKLQNKIQEIYEKEEQFNIKQISEVQEKVNELKQFKEHRKAK DSALQSIESKMLELTNRLQESQEEIQIMIKEKEEMKRVQEALQIERDQLKENTKEIVAKM KESQEKEYQFLKMTAVNETQEKMCEIEHLKEQFETQKLNLENIETENIRLTQILHENLEE MRSVTKERDDLRSVEETLKVERDQLKENLRETITRDLEKQEELKIVHMHLKEHQETIDKL RGIVSEKTNEISNMQKDLEHSNDALKAQDLKIQEELRIAHMHLKEQQETIDKLRGIVSEK TDKLSNMQKDLENSNAKLQEKIQELKANEHQLITLKKDVNETQKKVSEMEQLKKQIKDQS LTLSKLEIENLNLAQKLHENLEEMKSVMKERDNLRRVEETLKLERDQLKESLQETKARDL EIQQELKTARMLSKEHKETVDKLREKISEKTIQISDIQKDLDKSKDELQKKIQELQKKEL QLLRVKEDVNMSHKKINEMEQLKKQFEAQNLSMQSVRMDNFQLTKKLHESLEEIRIVAKE RDELRRIKESLKMERDQFIATLREMIARDRQNHQVKPEKRLLSDGQQHLTESLREKCSRI KELLKRYSEMDDHYECLNRLSLDLEKEIEFQKELSMRVKANLSLPYLQTKHIEKLFTANQ RCSMEFHRIMKKLKYVLSYVTKIKEEQHESINKFEMDFIDEVEKQKELLIKIQHLQQDCD VPSRELRDLKLNQNMDLHIEEILKDFSESEFPSIKTEFQQVLSNRKEMTQFLEEWLNTRF DIEKLKNGIQKENDRICQVNNFFNNRIIAIMNESTEFEERSATISKEWEQDLKSLKEKNE KLFKNYQTLKTSLASGAQVNPTTQDNKNPHVTSRATQLTTEKIRELENSLHEAKESAMHK ESKIIKMQKELEVTNDIIAKLQAKVHESNKCLEKTKETIQVLQDKVALGAKPYKEEIEDL KMKLVKIDLEKMKNAKEFEKEISATKATVEYQKEVIRLLRENLRRSQQAQDTSVISEHTD PQPSNKPLTCGGGSGIVQNTKALILKSEHIRLEKEISKLKQQNEQLIKQKNELLSNNQHL SNEVKTWKERTLKREAHKQVTCENSPKSPKVTGTASKKKQITPSQCKERNLQDPVPKESP KSCFFDSRSKSLPSPHPVRYFDNSSLGLCPEVQNAGAESVDSQPGPWHASSGKDVPECKT Q
- Number of residues
- 2701
- Molecular Weight
- 316413.1
- Theoretical pI
- 5.36
- GO Classification
- FunctionsATP binding / ATPase activity / kinetochore binding / microtubule motor activityProcessesantigen processing and presentation of exogenous peptide antigen via MHC class II / attachment of mitotic spindle microtubules to kinetochore / blood coagulation / cell division / chromosome segregation / kinetochore assembly / microtubule-based movement / mitotic cell cycle / mitotic chromosome movement towards spindle pole / mitotic metaphase plate congression / multicellular organismal development / positive regulation of protein kinase activity / regulation of mitotic metaphase/anaphase transition / small GTPase mediated signal transductionComponentschromosome / chromosome, centromeric region / condensed chromosome kinetochore / condensed chromosome, centromeric region / cytoplasm / cytosol / kinesin complex / kinetochore / membrane / microtubule / microtubule cytoskeleton / midbody / mitotic spindle midzone / nucleus
- General Function
- Microtubule motor activity
- Specific Function
- Essential for the maintenance of chromosomal stability through efficient stabilization of microtubule capture at kinetochores. Plays a key role in the movement of chromosomes toward the metaphase plate during mitosis. Is a slow plus end-directed motor whose activity is essential for metaphase chromosome alignment. Couples chromosome position to microtubule depolymerizing activity. The highly processive microtubule-dependent motor activity of CENPE serves to power chromosome congression and provides a flexible, motile tether linking kinetochores to dynamic spindle microtubules. Necessary for the mitotic checkpoint signal at individual kinetochores to prevent aneuploidy due to single chromosome loss. Required for the efficient recruitment of BUBR1, MAD1 and MAD2 to attached and newly unattached kinetochores. Stimulates mammalian BUBR1 kinase activity. Accumulates just before mitosis at the G2 phase of the cell cycle.
- Pfam Domain Function
- Kinesin (PF00225)
- Transmembrane Regions
- Not Available
- Cellular Location
- Chromosome
- Gene sequence
>lcl|BSEQ0012404|Centromere-associated protein E (CENPE) ATGGCGGAGGAAGGAGCCGTGGCCGTCTGCGTGCGAGTGCGGCCGCTGAACAGCAGAGAA GAATCACTTGGAGAAACTGCCCAAGTTTACTGGAAAACTGACAATAATGTCATTTATCAA GTTGATGGAAGTAAATCCTTCAATTTTGATCGTGTCTTTCATGGTAATGAAACTACCAAA AATGTGTATGAAGAAATAGCAGCACCAATCATCGATTCTGCCATACAAGGCTACAATGGT ACTATATTTGCCTATGGACAGACTGCTTCAGGAAAAACATATACCATGATGGGTTCAGAA GATCATTTGGGAGTTATACCCAGGGCAATTCATGACATTTTCCAAAAAATTAAGAAGTTT CCTGATAGGGAATTTCTCTTACGTGTATCTTACATGGAAATATACAATGAAACCATTACA GATTTACTCTGTGGCACTCAAAAAATGAAACCTTTAATTATTCGAGAAGATGTCAATAGG AATGTGTATGTTGCTGATCTCACAGAAGAAGTTGTATATACATCAGAAATGGCTTTGAAA TGGATTACAAAGGGAGAAAAGAGCAGGCATTATGGAGAAACAAAAATGAATCAAAGAAGC AGTCGTTCTCATACCATCTTTAGGATGATTTTGGAAAGCAGAGAGAAGGGTGAACCTTCT AATTGTGAAGGATCTGTTAAGGTATCCCATTTGAATTTGGTTGATCTTGCAGGCAGTGAA AGAGCTGCTCAAACAGGCGCTGCAGGTGTGCGGCTCAAGGAAGGCTGTAATATAAATCGA AGCTTATTTATTTTGGGACAAGTGATCAAGAAACTTAGTGATGGACAAGTTGGTGGTTTC ATAAATTATCGAGATAGCAAGTTAACACGAATTCTCCAGAATTCCTTGGGAGGAAATGCA AAGACACGTATTATCTGCACAATTACTCCAGTATCTTTTGATGAAACACTTACTGCTCTC CAGTTTGCCAGTACTGCTAAATATATGAAGAATACTCCTTATGTTAATGAGGTATCAACT GATGAAGCTCTCCTGAAAAGGTATAGAAAAGAAATAATGGATCTTAAAAAACAATTAGAG GAGGTTTCTTTAGAGACGCGGGCTCAGGCAATGGAAAAAGACCAATTGGCCCAACTTTTG GAAGAAAAAGATTTGCTTCAGAAAGTACAGAATGAGAAAATTGAAAACTTAACACGGATG CTGGTGACCTCTTCTTCCCTCACGTTGCAACAGGAATTAAAGGCTAAAAGAAAACGAAGA GTTACTTGGTGCCTTGGCAAAATTAACAAAATGAAGAACTCAAACTATGCAGATCAATTT AATATACCAACAAATATAACAACAAAAACACATAAGCTTTCTATAAATTTATTACGAGAA ATTGATGAATCTGTCTGTTCAGAGTCTGATGTTTTCAGTAACACTCTTGATACATTAAGT GAGATAGAATGGAATCCAGCAACAAAGCTACTAAATCAGGAGAATATAGAAAGTGAGTTG AACTCACTTCGTGCTGACTATGATAATCTGGTATTAGACTATGAACAACTACGAACAGAA AAAGAAGAAATGGAATTGAAATTAAAAGAAAAGAATGATTTGGATGAATTTGAGGCTCTA GAAAGAAAAACTAAAAAAGATCAAGAGAATGAACTCAGTTCAAAAGTAGAGCTGCTTAGA GAAAAGGAAGACCAGATTAAGAAGCTACAGGAATACATAGACTCTCAAAAGCTAGAAAAT ATAAAAATGGACTTGTCATACTCATTGGAAAGCATTGAAGACCCAAAACAAATGAAGCAG ACTCTGTTTGATGCTGAAACTGTAGCCCTTGATGCCAAGAGAGAATCAGCCTTTCTTAGA AGTGAAAATCTGGAGCTGAAGGAGAAAATGAAAGAACTTGCAACTACATACAAGCAAATG GAAAATGATATTCAGTTATATCAAAGCCAGTTGGAGGCAAAAAAGAAAATGCAAGTTGAT CTGGAGAAAGAATTACAATCTGCTTTTAATGAGATAACAAAACTCACCTCCCTTATAGAT GGCAAAGTTCCAAAAGATTTGCTCTGTAATTTGGAATTGGAAGGAAAGATTACTGATCTT CAGAAAGAACTAAATAAAGAAGTTGAAGAAAATGAAGCTTTGCGGGAAGAAGTCATTTTG CTTTCAGAATTGAAATCTTTACCTTCTGAAGTAGAAAGGCTGAGGAAAGAGATACAAGAC AAATCTGAAGAGCTCCATATAATAACATCAGAAAAAGATAAATTGTTTTCTGAAGTAGTT CATAAGGAGAGTAGAGTTCAAGGTTTACTTGAAGAAATTGGGAAAACAAAAGATGACCTA GCAACTACACAGTCGAATTATAAAAGCACTGATCAAGAATTCCAAAATTTCAAAACCCTT CATATGGACTTTGAGCAAAAGTATAAGATGGTCCTTGAGGAGAATGAGAGAATGAATCAG GAAATAGTTAATCTCTCTAAAGAAGCCCAAAAATTTGATTCGAGTTTGGGTGCTTTGAAG ACCGAGCTTTCTTACAAGACCCAAGAACTTCAGGAGAAAACACGTGAGGTTCAAGAAAGA CTAAATGAGATGGAACAGCTGAAGGAACAATTAGAAAATAGAGATTCTACGCTGCAAACT GTAGAAAGGGAGAAAACACTGATTACTGAGAAACTGCAGCAAACTTTAGAAGAAGTAAAA ACTTTAACTCAAGAAAAAGATGATCTAAAACAACTCCAAGAAAGCTTGCAAATTGAGAGG GACCAACTCAAAAGTGATATTCACGATACTGTTAACATGAATATAGATACTCAAGAACAA TTACGAAATGCTCTTGAGTCTCTGAAACAACATCAAGAAACAATTAATACACTAAAATCG AAAATTTCTGAGGAAGTTTCCAGGAATTTGCATATGGAGGAAAATACAGGAGAAACTAAA GATGAATTTCAGCAAAAGATGGTTGGCATAGATAAAAAACAGGATTTGGAAGCTAAAAAT ACCCAAACACTAACTGCAGATGTTAAGGATAATGAGATAATTGAGCAACAAAGGAAGATA TTTTCTTTAATACAGGAGAAAAATGAACTCCAACAAATGTTAGAGAGTGTTATAGCAGAA AAGGAACAATTGAAGACTGACCTAAAGGAAAATATTGAAATGACCATTGAAAACCAGGAA GAATTAAGACTTCTTGGGGATGAACTTAAAAAGCAACAAGAGATAGTTGCACAAGAAAAG AACCATGCCATAAAGAAAGAAGGAGAGCTTTCTAGGACCTGTGACAGACTGGCAGAAGTT GAAGAAAAACTAAAGGAAAAGAGCCAGCAACTCCAAGAAAAACAGCAACAACTTCTTAAT GTACAAGAAGAGATGAGTGAGATGCAGAAAAAGATTAATGAAATAGAGAATTTAAAGAAT GAATTAAAGAACAAAGAATTGACATTGGAACATATGGAAACAGAGAGGCTTGAGTTGGCT CAGAAACTTAATGAAAATTATGAGGAAGTGAAATCTATAACCAAAGAAAGAAAAGTTCTA AAGGAATTACAGAAGTCATTTGAAACAGAGAGAGACCACCTTAGAGGATATATAAGAGAA ATTGAAGCTACAGGCCTACAAACCAAAGAAGAACTAAAAATTGCTCATATTCACCTAAAA GAACACCAAGAAACTATTGATGAACTAAGAAGAAGCGTATCTGAGAAGACAGCTCAAATA ATAAATACTCAGGACTTAGAAAAATCCCATACCAAATTACAAGAAGAGATCCCAGTGCTT CATGAGGAACAAGAGTTACTGCCTAATGTGAAAGAAGTCAGTGAGACTCAGGAAACAATG AATGAACTGGAGTTATTAACAGAACAGTCCACAACCAAGGACTCAACAACACTGGCAAGA ATAGAAATGGAAAGGCTCAGGTTGAATGAAAAATTTCAAGAAAGTCAGGAAGAGATAAAA TCTCTAACCAAGGAAAGAGACAACCTTAAAACGATAAAAGAAGCCCTTGAAGTTAAACAT GACCAGCTGAAAGAACATATTAGAGAAACTTTGGCTAAAATCCAGGAGTCTCAAAGCAAA CAAGAACAGTCCTTAAATATGAAAGAAAAAGACAATGAAACTACCAAAATCGTGAGTGAG ATGGAGCAATTCAAACCCAAAGATTCAGCACTACTAAGGATAGAAATAGAAATGCTCGGA TTGTCCAAAAGACTTCAAGAAAGTCATGATGAAATGAAATCTGTAGCTAAGGAGAAAGAT GACCTACAGAGGCTGCAAGAAGTTCTTCAATCTGAAAGTGACCAGCTCAAAGAAAACATA AAAGAAATTGTAGCTAAACACCTGGAAACTGAAGAGGAACTTAAAGTTGCTCATTGTTGC CTGAAAGAACAAGAGGAAACTATTAATGAGTTAAGAGTGAATCTTTCAGAGAAGGAAACT GAAATATCAACCATTCAAAAGCAGTTAGAAGCAATCAATGATAAATTACAGAACAAGATC CAAGAGATTTATGAGAAAGAGGAACAATTTAATATAAAACAAATTAGTGAGGTTCAGGAA AAAGTGAATGAACTGAAACAATTCAAGGAGCATCGCAAAGCCAAGGATTCAGCACTACAA AGTATAGAAAGTAAGATGCTCGAGTTGACCAACAGACTTCAAGAAAGTCAAGAAGAAATA CAAATTATGATTAAGGAAAAAGAGGAAATGAAAAGAGTACAGGAGGCCCTTCAGATAGAG AGAGACCAACTGAAAGAAAACACTAAAGAAATTGTAGCTAAAATGAAAGAATCTCAAGAA AAAGAATATCAGTTTCTTAAGATGACAGCTGTCAATGAGACTCAGGAGAAAATGTGTGAA ATAGAACACTTGAAGGAGCAATTTGAGACCCAGAAGTTAAACCTGGAAAACATAGAAACG GAGAATATAAGGTTGACTCAGATACTACATGAAAACCTTGAAGAAATGAGATCTGTAACA AAAGAAAGAGATGACCTTAGGAGTGTGGAGGAGACTCTCAAAGTAGAGAGAGACCAGCTC AAGGAAAACCTTAGAGAAACTATAACTAGAGACCTAGAAAAACAAGAGGAGCTAAAAATT GTTCACATGCATCTGAAGGAGCACCAAGAAACTATTGATAAACTAAGAGGGATTGTTTCA GAGAAAACAAATGAAATATCAAATATGCAAAAGGACTTAGAACACTCAAATGATGCCTTA AAAGCACAGGATCTGAAAATACAAGAGGAACTAAGAATTGCTCACATGCATCTGAAAGAG CAGCAGGAAACTATTGACAAACTCAGAGGAATTGTTTCTGAGAAGACAGATAAACTATCA AATATGCAAAAAGATTTAGAAAATTCAAATGCTAAATTACAAGAAAAGATTCAAGAACTT AAGGCAAATGAACATCAACTTATTACGTTAAAAAAAGATGTCAATGAGACACAGAAAAAA GTGTCTGAAATGGAGCAACTAAAGAAACAAATAAAAGACCAAAGCTTAACTCTGAGTAAA TTAGAAATAGAGAATTTAAATTTGGCTCAGAAACTTCATGAAAACCTTGAAGAAATGAAA TCTGTAATGAAAGAAAGAGATAATCTAAGAAGAGTAGAGGAGACACTCAAACTGGAGAGA GACCAACTCAAGGAAAGCCTGCAAGAAACCAAAGCTAGAGATCTGGAAATACAACAGGAA CTAAAAACTGCTCGTATGCTATCAAAAGAACACAAAGAAACTGTTGATAAACTTAGAGAA AAAATTTCAGAAAAGACAATTCAAATTTCAGACATTCAAAAGGATTTAGATAAATCAAAA GATGAATTACAGAAAAAGCAGGACCGACAGAACCACCAAGTAAAACCTGAAAAAAGGTTA CTAAGTGATGGACAACAGCACCTTACGGAAAGCCTGAGAGAAAAGTGCTCTAGAATAAAA GAGCTTTTGAAGAGATACTCAGAGATGGATGATCATTATGAGTGCTTGAATAGATTGTCT CTTGACTTGGAGAAGGAAATTGAATTCCAAAAAGAGCTTTCAATGAGAGTTAAAGCAAAC CTCTCACTTCCCTATTTACAAACCAAACACATTGAAAAACTTTTTACTGCAAACCAGAGA TGCTCCATGGAATTCCACAGAATCATGAAGAAACTGAAGTATGTGTTAAGCTATGTTACA AAAATAAAAGAAGAACAACATGAATCCATCAATAAATTTGAAATGGATTTTATTGATGAA GTGGAAAAGCAAAAGGAATTGCTAATTAAAATACAGCACCTTCAACAAGATTGTGATGTA CCATCCAGAGAATTAAGGGATCTCAAATTGAACCAGAATATGGATCTACATATTGAGGAA ATTCTCAAAGATTTCTCAGAAAGTGAGTTCCCTAGCATAAAGACTGAATTTCAACAAGTA CTAAGTAATAGGAAAGAAATGACACAGTTTTTGGAAGAGTGGTTAAATACTCGTTTTGAT ATAGAAAAGCTTAAAAATGGCATCCAGAAAGAAAATGATAGGATTTGTCAAGTGAATAAC TTCTTTAATAACAGAATAATTGCCATAATGAATGAATCAACAGAGTTTGAGGAAAGAAGT GCTACCATATCCAAAGAGTGGGAACAGGACCTGAAATCACTGAAAGAGAAAAATGAAAAA CTATTTAAAAACTACCAAACATTGAAGACTTCCTTGGCATCTGGTGCCCAGGTTAATCCT ACCACACAAGACAATAAGAATCCTCATGTTACATCAAGAGCTACACAGTTAACCACAGAG AAAATTCGAGAGCTGGAAAATTCACTGCATGAAGCTAAAGAAAGTGCTATGCATAAGGAA AGCAAGATTATAAAGATGCAGAAAGAACTTGAGGTGACTAATGACATAATAGCAAAACTT CAAGCCAAAGTTCATGAATCAAATAAATGCCTTGAAAAAACAAAAGAGACAATTCAAGTA CTTCAGGACAAAGTTGCTTTAGGAGCTAAGCCATATAAAGAAGAAATTGAAGATCTCAAA ATGAAGCTTGTGAAAATAGACCTAGAGAAAATGAAAAATGCCAAAGAATTTGAAAAGGAA ATCAGTGCTACAAAAGCCACTGTAGAATATCAAAAGGAAGTTATAAGGCTATTGAGAGAA AATCTCAGAAGAAGTCAACAGGCCCAAGATACCTCAGTGATATCAGAACATACTGATCCT CAGCCTTCAAATAAACCCTTAACTTGTGGAGGTGGCAGCGGCATTGTACAAAACACAAAA GCTCTTATTTTGAAAAGTGAACATATAAGGCTAGAAAAAGAAATTTCTAAGTTAAAGCAG CAAAATGAACAGCTAATAAAACAAAAGAATGAATTGTTAAGCAATAATCAGCATCTTTCC AATGAGGTCAAAACTTGGAAGGAAAGAACCCTTAAAAGAGAGGCTCACAAACAAGTAACT TGTGAGAATTCTCCAAAGTCTCCTAAAGTGACTGGAACAGCTTCTAAAAAGAAACAAATT ACACCCTCTCAATGCAAGGAACGGAATTTACAAGATCCTGTGCCAAAGGAATCACCAAAA TCTTGTTTTTTTGATAGCCGATCAAAGTCTTTACCATCACCTCATCCAGTTCGCTATTTT GATAACTCAAGTTTAGGCCTTTGTCCAGAGGTGCAAAATGCAGGAGCAGAGAGTGTGGAT TCTCAGCCAGGTCCTTGGCACGCCTCCTCAGGCAAGGATGTGCCTGAGTGCAAAACTCAG TAG
- Chromosome Location
- 4
- Locus
- Not Available
- External Identifiers
Resource Link UniProtKB ID Q02224 UniProtKB Entry Name CENPE_HUMAN GenBank Gene ID CH471057 GenAtlas ID CENPE HGNC ID HGNC:1856 - General References
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