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Identification
HMDB Protein ID HMDBP09007
Secondary Accession Numbers
  • 14748
Name Histone-lysine N-methyltransferase ASH1L
Synonyms
  1. ASH1-like protein
  2. Absent small and homeotic disks protein 1 homolog
  3. Lysine N-methyltransferase 2H
  4. huASH1
Gene Name ASH1L
Protein Type Unknown
Biological Properties
General Function Involved in DNA binding
Specific Function Histone methyltransferase specifically methylating 'Lys-36' of histone H3 (H3K36me).
Pathways
  • Lysine degradation
  • Tight junction
Reactions
S-Adenosylmethionine + L-lysine-[histone] → S-Adenosylhomocysteine + N(6)-methyl-L-lysine-[histone] details
Protein lysine + S-Adenosylmethionine → Protein N6-methyl-L-lysine + S-Adenosylhomocysteine details
S-Adenosylmethionine + Protein N6-methyl-L-lysine → S-Adenosylhomocysteine + Protein N6,N6-dimethyl-L-lysine details
S-Adenosylmethionine + Protein N6,N6-dimethyl-L-lysine → S-Adenosylhomocysteine + Protein N6,N6,N6-trimethyl-L-lysine details
GO Classification
Biological Process
cell-cell signaling
DNA packaging
histone lysine methylation
transcription from RNA polymerase II promoter
regulation of transcription, DNA-dependent
Cellular Component
chromosome
Golgi apparatus
nucleus
tight junction
Component
organelle
membrane-bounded organelle
intracellular membrane-bounded organelle
nucleus
Function
ion binding
cation binding
metal ion binding
binding
catalytic activity
transition metal ion binding
zinc ion binding
transferase activity
protein binding
protein methyltransferase activity
protein-lysine n-methyltransferase activity
histone-lysine n-methyltransferase activity
nucleic acid binding
dna binding
transferase activity, transferring one-carbon groups
methyltransferase activity
Molecular Function
histone-lysine N-methyltransferase activity
metal ion binding
zinc ion binding
DNA binding
Cellular Location
  1. Nucleus
  2. Chromosome (Probable)
  3. Cell junction
  4. tight junction
Gene Properties
Chromosome Location 1
Locus 1q22
SNPs ASH1L
Gene Sequence
>8910 bp
ATGGACCCTAGAAATACTGCTATGTTAGGATTGGGTTCTGATTCCGAAGGTTTTTCAAGA
AAGAGTCCTTCTGCCATCAGTACTGGCACATTGGTCAGTAAGAGAGAAGTAGAGCTAGAA
AAAAACACAAAGGAGGAAGAGGACCTTCGCAAACGGAATCGAGAAAGAAACATCGAAGCT
GGGAAAGATGATGGTTTGACTGATGCACAGCAACAGTTTTCAGTGAAAGAAACAAACTTT
TCAGAGGGAAATTTAAAATTGAAAATTGGCCTCCAGGCTAAGAGAACTAAAAAACCTCCA
AAGAACTTGGAGAACTATGTATGTCGACCTGCCATAAAAACAACTATTAAGCACCCAAGG
AAAGCACTTAAAAGTGGAAAGATGACGGATGAAAAGAATGAACACTGTCCTTCAAAACGA
GACCCTTCAAAGTTGTACAAGAAAGCAGATGATGTTGCAGCCATTGAATGCCAGTCTGAA
GAAGTCATCCGTCTTCATTCACAGGGAGAAAACAATCCTTTGTCTAAGAAGCTGTCTCCA
GTACACTCAGAAATGGCAGATTATATTAATGCAACGCCATCTACTCTTCTTGGTAGCCGG
GATCCTGATTTAAAGGACAGAGCATTACTTAATGGAGGAACTAGTGTAACAGAAAAGTTG
GCACAGCTGATTGCTACCTGTCCTCCTTCCAAGTCTTCCAAGACAAAACCGAAGAAGTTA
GGAACTGGCACTACAGCAGGATTGGTTAGCAAGGATTTGATCAGGAAAGCAGGTGTTGGC
TCTGTAGCTGGAATAATACATAAGGACTTAATAAAAAAGCCAACCATCAGCACAGCAGTT
GGATTGGTAACTAAAGATCCTGGGAAAAAGCCAGTGTTTAATGCAGCAGTAGGATTGGTC
AATAAGGACTCTGTGAAAAAACTGGGAACTGGCACTACAGCGGTATTCATTAATAAAAAC
TTAGGCAAAAAGCCAGGAACTATCACTACAGTAGGACTGCTAAGCAAAGATTCAGGAAAG
AAGCTAGGAATTGGTATTGTTCCAGGTTTAGTGCATAAAGAGTCTGGCAAGAAGTTAGGA
CTTGGCACTGTGGTTGGACTGGTTAATAAAGATTTGGGAAAGAAATTGGGTTCTACTGTT
GGCCTAGTGGCCAAGGACTGTGCAAAGAAGATTGTAGCAAGTTCAGCAATGGGATTGGTT
AATAAGGACATTGGAAAGAAACTAATGAGTTGTCCTTTGGCAGGTCTGATCAGTAAAGAT
GCCATAAACCTTAAAGCCGAAGCACTGCTCCCCACTCAGGAACCGCTTAAGGCTTCTTGT
AGTACAAACATCAATAATCAGGAAAGTCAGGAACTTTCTGAATCCCTGAAAGATAGTGCC
ACCAGCAAAACTTTTGAAAAGAATGTTGTACGGCAGAATAAAGAAAGCATATTGGAAAAG
TTCTCAGTACGAAAAGAAATCATTAATTTGGAGAAAGAAATGTTTAATGAAGGAACATGC
ATTCAGCAAGACAGTTTCTCATCCAGTGAAAAGGGATCTTATGAAACCTCAAAGCATGAA
AAGCAGCCTCCTGTATATTGCACTTCTCCGGACTTTAAAATGGGAGGTGCTTCTGATGTA
TCTACCGCTAAATCCCCATTCAGTGCAGTAGGAGAAAGCAATCTCCCTTCCCCATCACCT
ACTGTATCTGTTAATCCTTTAACCAGAAGTCCCCCTGAAACTTCTTCACAGTTGGCTCCT
AATCCATTACTTTTAAGTTCTACTACAGAACTAATCGAAGAAATTTCTGAATCTGTTGGA
AAGAACCAGTTTACTTCTGAAAGTACCCACTTGAACGTTGGTCATAGGTCAGTTGGTCAT
AGTATAAGTATTGAATGTAAAGGGATTGATAAAGAGGTAAATGATTCAAAAACTACCCAT
ATAGATATTCCAAGAATAAGCTCTTCCCTTGGAAAAAAGCCAAGTTTGACTTCTGAATCC
AGCATTCATACTATTACTCCTTCAGTTGTTAACTTCACTAGTTTATTTAGTAATAAGCCT
TTTTTAAAACTGGGTGCAGTATCTGCATCAGACAAACACTGCCAAGTTGCTGAAAGCCTA
AGTACTAGTTTGCAGTCCAAACCATTAAAAAAAAGAAAAGGAAGAAAACCTCGGTGGACT
AAAGTGGTGGCAAGAAGCACATGCCGGTCTCCAAAAGGGCTAGAATTAGAAAGATCAGAG
CTTTTTAAAAACGTTTCATGTAGCTCACTATCAAATAGTAATTCTGAGCCAGCCAAGTTT
ATGAAAAACATTGGACCCCCTTCATTTGTAGATCATGACTTCCTTAAACGCCGATTGCCA
AAGTTGAGCAAATCCACAGCTCCATCTCTTGCTCTCTTAGCTGATAGTGAAAAACCATCT
CATAAGTCTTTTGCTACTCACAAACTATCCTCCAGTATGTGTGTCTCTAGTGACCTTTTG
TCTGATATTTATAAGCCCAAAAGAGGAAGGCCTAAATCTAAGGAGATGCCTCAACTGGAA
GGGCCACCTAAAAGGACTTTAAAAATCCCTGCTTCTAAAGTGTTTTCTTTACAGTCTAAG
GAAGAACAAGAACCCCCAATTTTACAGCCAGAAATTGAAATCCCTTCCTTCAAACAAGGT
CTGTCTGTGTCTCCTTTTCCAAAAAAGAGAGGCAGGCCTAAGAGGCAAATGAGGTCACCA
GTCAAGATGAAGCCACCTGTACTGTCAGTGGCTCCATTTGTTGCCACTGAAAGTCCAAGC
AAGCTAGAATCTGAAAGTGACAACCATAGAAGTAGCAGTGATTTCTTTGAGAGCGAGGAT
CAACTTCAGGATCCAGATGACCTAGATGACAGTCATAGGCCAAGTGTCTGTAGTATGAGT
GACCTTGAGATGGAACCAGATAAAAAAATTACCAAGAGAAACAATGGACAATTAATGAAA
ACAATTATCCGCAAAATAAATAAAATGAAGACTTTAAAGAGAAAGAAACTGTTGAATCAG
ATTCTTTCAAGTTCTGTAGAATCAAGTAATAAAGGGAAAGTGCAATCCAAACTCCATAAT
ACGGTATCAAGTCTTGCTGCCACATTTGGCTCTAAATTGGGCCAACAGATAAATGTCAGC
AAGAAAGGAACCATTTATATAGGAAAGAGAAGAGGTCGCAAACCAAAAACTGTCTTAAAT
GGTATTCTTTCTGGTAGTCCTACTAGCCTTGCTGTTCTTGAGCAAACAGCTCAACAGGCA
GCTGGGTCAGCATTAGGACAGATTCTTCCCCCATTACTGCCTTCATCTGCTAGTAGTTCT
GAGATTCTTCCATCACCTATTTGCTCTCAGTCTTCTGGGACTAGTGGAGGTCAGAGCCCT
GTAAGTAGTGATGCAGGTTTTGTTGAACCCAGTTCAGTGCCATATTTGCATTTACACTCC
AGACAGGGCAGTATGATTCAGACTCTTGCAATGAAGAAGGCCTCAAAGGGGAGGAGGCGG
TTATCTCCTCCTACTTTGTTGCCAAATTCTCCTTCGCACTTGAGTGAACTCACATCTCTA
AAAGAAGCTACTCCTTCCCCAATCAGTGAGTCTCATAGTGATGAGACCATTCCCAGTGAT
AGTGGAATTGGAACAGATAATAACAGCACATCAGACAGGGCAGAGAAATTTTGTGGGCAA
AAAAAGAGGAGGCATTCTTTTGAGCATGTTTCTCTGATTCCCCCTGAAACCTCTACAGTG
CTAAGCAGTCTTAAAGAAAAACATAAACACAAATGTAAGCGCAGGAATCATGATTACCTC
AGCTATGACAAGATGAAAAGGCAGAAACGAAAACGGAAAAAGAAATATCCCCAGCTTCGA
AATAGACAGGATCCAGACTTTATTGCAGAGCTGGAGGAACTAATAAGTCGCCTAAGTGAA
ATTCGGATCACTCATCGAAGTCATCATTTTATCCCCCGAGATCTTCTGCCAACTATCTTT
CGAATCAACTTTAATAGTTTCTATACACATCCTTCTTTCCCCTTAGACCCTTTGCACTAC
ATTCGAAAACCTGACTTAAAAAAGAAAAGAGGGAGACCCCCTAAGATGAGGGAGGCAATG
GCTGAAATGCCTTTTATGCACAGCCTTAGTTTTCCTCTTTCTAGTACTGGATTCTATCCA
TCTTATGGTATGCCTTACTCTCCTTCACCCCTTACAGCTGCTCCCATAGGATTAGGTTAC
TATGGAAGGTATCCTCCCACTCTTTATCCACCTCCTCCATCTCCTTCTTTCACCACGCCA
CTTCCACCTCCTTCCTATATGCATGCTGGTCATTTACTTCTCAATCCTGCCAAATACCAT
AAGAAAAAGCATAAGCTACTTCGACAGGAGGCCTTTCTTACAACCAGCAGGACTCCCCTC
CTTTCCATGAGTACCTACCCCAGTGTTCCTCCTGAGATGGCCTATGGTTGGATGGTTGAG
CACAAACACAGGCACCGTCACAAACACAGAGAACACCGTTCTTCTGAACAACCCCAGGTT
TCTATGGACACTGGCTCTTCCCGATCTGTCCTGGAATCTTTGAAGCGCTATAGATTTGGA
AAGGATGCTGTTGGAGAGCGATATAAGCATAAGGAAAAGCACCGTTGTCACATGTCCTGC
CCTCATCTCTCTCCTTCAAAAAGCTTAATAAACAGAGAGGAACAGTGGGTCCACCGAGAG
CCTTCAGAATCTAGTCCATTGGCCTTGGGATTGCAGACACCTTTACAGATTGACTGTTCA
GAAAGTTCTCCAAGCTTATCCCTTGGAGGATTCACTCCCAACTCTGAGCCAGCCAGCAGT
GATGAACATACAAACCTTTTCACAAGTGCAATAGGCAGCTGCAGAGTTTCAAACCCTAAC
TCCAGTGGCCGGAAGAAATTAACTGACAGCCCTGGACTCTTTTCTGCACAGGACACTTCA
CTAAATCGGCTTCACAGAAAGGAGTCACTGCCTTCTAACGAAAGGGCAGTACAGACTTTG
GCAGGCTCCCAGCCAACCTCTGATAAACCCTCCCAGCGGCCATCAGAGAGCACAAATTGT
AGCCCTACCCGGAAAAGGTCTTCATCTGAGAGTACTTCTTCAACAGTAAACGGAGTTCCC
TCTCGAAGTCCAAGATTAGTTGCTTCTGGGGATGACTCTGTGGATAGTCTGCTGCAGCGG
ATGGTACAAAATGAGGACCAAGAGCCCATGGAGAAAAGTATTGATGCTGTGATTGCAACT
GCCTCTGCACCACCTTCTTCCAGTCCAGGCCGTAGCCACAGCAAGGACCGAACCCTGGGA
AAACCAGACAGCCTTTTAGTGCCTGCAGTCGCAAGTGACTCTTGCAATAATAGCATCTCA
CTCCTATCTGAAAAGTTGACAAGCAGCTGTTCCCCCCATCATATCAAGAGAAGTGTAGTG
GAAGCTATGCAACGCCAAGCTCGGAAAATGTGCAATTACGACAAAATCTTGGCCACAAAG
AAAAACCTAGACCATGTCAATAAAATCTTAAAAGCCAAAAAACTTCAAAGGCAGGCCAGG
ACAGGGAATAACTTTGTGAAACGTAGGCCAGGTCGACCTCGGAAATGTCCCCTTCAGGCT
GTCGTATCAATGCAAGCATTCCAGGCTGCTCAGTTTGTCAACCCAGAATTGAACAGAGAC
GAGGAAGGAGCAGCACTGCACCTCAGTCCTGACACAGTTACAGATGTAATTGAGGCTGTT
GTTCAGAGTGTAAATCTGAACCCAGAACATAAAAAGGGGTTGAAGAGAAAAGGTTGGCTA
TTGGAAGAACAGACCAGAAAAAAGCAGAAGCCATTACCAGAGGAAGAAGAGCAAGAGAAT
AATAAAAGCTTTAATGAAGCACCAGTTGAGATTCCCAGTCCTTCTGAAACCCCAGCTAAA
CCTTCTGAACCTGAAAGTACCTTGCAGCCTGTGCTTTCTCTCATCCCAAGGGAAAAGAAG
CCCCCACGTCCCCCAAAGAAGAAGTATCAGAAAGCAGGGCTGTATTCTGACGTTTACAAA
ACTACAGACCCAAAGAGTCGATTGATCCAATTAAAGAAAGAGAAGCTGGAGTATACTCCA
GGAGAGCATGAATATGGATTATTTCCAGCGCCCATTCATGTTGTGTTTTTTGTTTCAGGA
AAGTATCTAAGACAAAAGAGAATTGACTTCCAGCTTCCTTATGATATCCTTTGGCAGTGG
AAACACAATCAGCTATACAAAAAGCCAGATGTCCCACTATATAAGAAAATTCGTTCAAAT
GTCTACGTTGATGTCAAACCCCTTTCTGGTTACGAAGCTACCACCTGTAACTGTAAGAAG
CCAGATGATGACACCAGGAAGGGCTGTGTTGATGACTGCCTCAATAGAATGATCTTTGCT
GAGTGTTCCCCCAACACTTGCCCATGTGGCGAGCAATGCTGTAACCAGAGGATACAGAGG
CATGAATGGGTGCAATGTCTAGAACGATTTCGAGCTGAGGAAAAAGGTTGGGGAATCAGA
ACCAAAGAGCCCCTAAAAGCTGGGCAGTTCATCATTGAATACCTAGGGGAGGTCGTCAGT
GAACAGGAGTTCAGGAACAGGATGATTGAGCAGTATCATAATCACAGTGACCACTACTGC
CTGAACCTGGATAGTGGGATGGTGATTGACAGTTACCGCATGGGAAATGAGGCCCGATTC
ATCAACCATAGCTGTGACCCAAATTGTGAAATGCAGAAATGGTCTGTTAATGGAGTATAC
CGGATTGGACTCTATGCTCTTAAAGACATGCCAGCTGGGACTGAACTCACTTATGATTAT
AACTTTCATTCCTTCAATGTGGAAAAACAGCAACTTTGTAAGTGTGGCTTTGAGAAATGT
CGAGGAATCATCGGAGGCAAGAGTCAGCGTGTGAATGGACTCACCAGCAGCAAAAACAGC
CAGCCCATGGCCACACACAAAAAATCTGGACGGTCAAAAGAGAAGAGAAAGTCTAAGCAC
AAGCTGAAGAAAAGGAGAGGCCATCTCTCTGAGGAACCCAGTGAAAATATCAACACCCCA
ACTAGATTGACCCCCCAATTACAGATGAAGCCAATGTCCAATCGTGAAAGGAACTTTGTG
TTAAAGCATCATGTATTCTTGGTCCGAAACTGGGAGAAGATTCGTCAAAAACAGGAGGAA
GTAAAGCACACCAGTGATAATATTCACTCAGCATCATTATATACCCGTTGGAATGGGATC
TGCCGAGATGATGGGAATATCAAGTCTGATGTCTTCATGACCCAGTTCTCTGCCCTGCAG
ACAGCTCGATCTGTTCGAACAAGACGGTTGGCAGCTGCAGAGGAAAATATTGAAGTGGCT
CGGGCAGCCCGCCTAGCCCAGATCTTCAAAGAAATTTGTGATGGTATCATCTCTTATAAA
GATTCTTCCCGGCAAGCACTGGCAGCTCCACTTTTGAACCTTCCCCCAAAGAAAAAGAAT
GCTGATTATTATGAGAAGATCTCTGATCCCCTAGATCTTATCACCATAGAGAAGCAGATC
CTCACTGGTTACTATAAGACAGTGGAAGCTTTTGATGCTGACATGCTCAAAGTCTTTCGG
AATGCTGAGAAGTACTATGGGCGTAAATCCCCAGTTGGGAGAGATGTTTGTCGTCTACGA
AAGGCCTATTACAATGCCCGGCATGAGGCATCAGCCCAGATTGATGAGATTGTGGGAGAG
ACAGCAAGTGAGGCAGACAGCAGTGAGACCTCAGTCTCTGAAAAGGAGAATGGGCATGAG
AAGGACGACGATGTTATTCGCTGTATCTGTGGCCTCTACAACGATGAAGGTCTCATGATC
CAGTGTGACAAGTGCATGGTATGGCAGCACTGTGATTGTATGGGAGTGAACTCAGATGTG
GAGCACTACCTTTGTGAGCAGTGTGACCCAAGGCCTGTGGACAGGGAGGTTCCCATGATC
CCTCGGCCCCACTATGCCCAACCTGGCTGTGTCTACTTCATCTGTTTGCTCCGAGATGAC
TTGCTGCTTCGTCAGGGTGACTGTGTGTATCTGATGAGGGATAGTCGGCGCACCCCTGAT
GGCCACCCGGTCCGTCAGTCCTATCGACTGTTATCTCACATTAACCGACATAAACTTGAC
ATCTTTCGCATTGAGAAGCTTTGGAAGAATGAAAAAGAGGAACGGTTTGCCTTTGGTCAC
CATTATTTCCGTCCCCACGAAACACACCACTCTCCATCCCGTCGGTTCTATCATAATGAA
CTATTTCGGGTGCCACTCTATGAGATCATTCCCTTGGAGGCTGTAGTGGGGACCTGCTGT
GTGTTGGACCTTTATACGTATTGTAAAGGGAGACCCAAAGGAGTAAAGGAGCAAGATGTG
TACATCTGTGATTATCGGCTTGACAAGTCAGCACACCTGTTTTACAAGATCCACCGGAAC
CGCTATCCTGTCTGCACCAAACCCTATGCTTTTGATCACTTCCCCAAGAAGCTCACTCCC
AAAAAAGATTTCTCGCCTCATTACGTCCCAGACAACTACAAGAGGAATGGAGGACGATCA
TCCTGGAAGTCTGAGCGCTCAAAGCCACCCCTAAAAGACTTGGGCCAGGAGGATGATGCT
CTACCCTTGATTGAAGAGGTTCTAGCCAGTCAAGAGCAAGCAGCCAATGAGATACCCAGC
CTGGAGGAGCCAGAACGGGAAGGGGCCACTGCTAACGTCAGTGAGGGTGAAAAAAAAACA
GAGGAAAGTAGTCAAGAACCCCAGTCAACCTGTACCCCTGAGGAACGACGGCATAACCAA
CGGGAACGACTCAACCAGATCTTGCTCAATCTCCTTGAAAAAATCCCTGGAAAAAATGCC
ATTGATGTGACCTACTTGCTGGAGGAAGGATCAGGCAGGAAACTGCGAAGGCGTACTTTG
TTTATCCCAGAAAACAGCTTTCGAAAGTGA
Protein Properties
Number of Residues 2969
Molecular Weight 332207.495
Theoretical pI 9.392
Pfam Domain Function
Signals Not Available
Transmembrane Regions Not Available
Protein Sequence
>Probable histone-lysine N-methyltransferase ASH1L
MDPRNTAMLGLGSDSEGFSRKSPSAISTGTLVSKREVELEKNTKEEEDLRKRNRERNIEA
GKDDGLTDAQQQFSVKETNFSEGNLKLKIGLQAKRTKKPPKNLENYVCRPAIKTTIKHPR
KALKSGKMTDEKNEHCPSKRDPSKLYKKADDVAAIECQSEEVIRLHSQGENNPLSKKLSP
VHSEMADYINATPSTLLGSRDPDLKDRALLNGGTSVTEKLAQLIATCPPSKSSKTKPKKL
GTGTTAGLVSKDLIRKAGVGSVAGIIHKDLIKKPTISTAVGLVTKDPGKKPVFNAAVGLV
NKDSVKKLGTGTTAVFINKNLGKKPGTITTVGLLSKDSGKKLGIGIVPGLVHKESGKKLG
LGTVVGLVNKDLGKKLGSTVGLVAKDCAKKIVASSAMGLVNKDIGKKLMSCPLAGLISKD
AINLKAEALLPTQEPLKASCSTNINNQESQELSESLKDSATSKTFEKNVVRQNKESILEK
FSVRKEIINLEKEMFNEGTCIQQDSFSSSEKGSYETSKHEKQPPVYCTSPDFKMGGASDV
STAKSPFSAVGESNLPSPSPTVSVNPLTRSPPETSSQLAPNPLLLSSTTELIEEISESVG
KNQFTSESTHLNVGHRSVGHSISIECKGIDKEVNDSKTTHIDIPRISSSLGKKPSLTSES
SIHTITPSVVNFTSLFSNKPFLKLGAVSASDKHCQVAESLSTSLQSKPLKKRKGRKPRWT
KVVARSTCRSPKGLELERSELFKNVSCSSLSNSNSEPAKFMKNIGPPSFVDHDFLKRRLP
KLSKSTAPSLALLADSEKPSHKSFATHKLSSSMCVSSDLLSDIYKPKRGRPKSKEMPQLE
GPPKRTLKIPASKVFSLQSKEEQEPPILQPEIEIPSFKQGLSVSPFPKKRGRPKRQMRSP
VKMKPPVLSVAPFVATESPSKLESESDNHRSSSDFFESEDQLQDPDDLDDSHRPSVCSMS
DLEMEPDKKITKRNNGQLMKTIIRKINKMKTLKRKKLLNQILSSSVESSNKGKVQSKLHN
TVSSLAATFGSKLGQQINVSKKGTIYIGKRRGRKPKTVLNGILSGSPTSLAVLEQTAQQA
AGSALGQILPPLLPSSASSSEILPSPICSQSSGTSGGQSPVSSDAGFVEPSSVPYLHLHS
RQGSMIQTLAMKKASKGRRRLSPPTLLPNSPSHLSELTSLKEATPSPISESHSDETIPSD
SGIGTDNNSTSDRAEKFCGQKKRRHSFEHVSLIPPETSTVLSSLKEKHKHKCKRRNHDYL
SYDKMKRQKRKRKKKYPQLRNRQDPDFIAELEELISRLSEIRITHRSHHFIPRDLLPTIF
RINFNSFYTHPSFPLDPLHYIRKPDLKKKRGRPPKMREAMAEMPFMHSLSFPLSSTGFYP
SYGMPYSPSPLTAAPIGLGYYGRYPPTLYPPPPSPSFTTPLPPPSYMHAGHLLLNPAKYH
KKKHKLLRQEAFLTTSRTPLLSMSTYPSVPPEMAYGWMVEHKHRHRHKHREHRSSEQPQV
SMDTGSSRSVLESLKRYRFGKDAVGERYKHKEKHRCHMSCPHLSPSKSLINREEQWVHRE
PSESSPLALGLQTPLQIDCSESSPSLSLGGFTPNSEPASSDEHTNLFTSAIGSCRVSNPN
SSGRKKLTDSPGLFSAQDTSLNRLHRKESLPSNERAVQTLAGSQPTSDKPSQRPSESTNC
SPTRKRSSSESTSSTVNGVPSRSPRLVASGDDSVDSLLQRMVQNEDQEPMEKSIDAVIAT
ASAPPSSSPGRSHSKDRTLGKPDSLLVPAVTSDSCNNSISLLSEKLTSSCSPHHIKRSVV
EAMQRQARKMCNYDKILATKKNLDHVNKILKAKKLQRQARTGNNFVKRRPGRPRKCPLQA
VVSMQAFQAAQFVNPELNRDEEGAALHLSPDTVTDVIEAVVQSVNLNPEHKKGLKRKGWL
LEEQTRKKQKPLPEEEEQENNKSFNEAPVEIPSPSETPAKPSEPESTLQPVLSLIPREKK
PPRPPKKKYQKAGLYSDVYKTTDPKSRLIQLKKEKLEYTPGEHEYGLFPAPIHVVFFVSG
KYLRQKRIDFQLPYDILWQWKHNQLYKKPDVPLYKKIRSNVYVDVKPLSGYEATTCNCKK
PDDDTRKGCVDDCLNRMIFAECSPNTCPCGEQCCNQRIQRHEWVQCLERFRAEEKGWGIR
TKEPLKAGQFIIEYLGEVVSEQEFRNRMIEQYHNHSDHYCLNLDSGMVIDSYRMGNEARF
INHSCDPNCEMQKWSVNGVYRIGLYALKDMPAGTELTYDYNFHSFNVEKQQLCKCGFEKC
RGIIGGKSQRVNGLTSSKNSQPMATHKKSGRSKEKRKSKHKLKKRRGHLSEEPSENINTP
TRLTPQLQMKPMSNRERNFVLKHHVFLVRNWEKIRQKQEEVKHTSDNIHSASLYTRWNGI
CRDDGNIKSDVFMTQFSALQTARSVRTRRLAAAEENIEVARAARLAQIFKEICDGIISYK
DSSRQALAAPLLNLPPKKKNADYYEKISDPLDLITIEKQILTGYYKTVEAFDADMLKVFR
NAEKYYGRKSPVGRDVCRLRKAYYNARHEASAQIDEIVGETASEADSSETSVSEKENGHE
KDDDVIRCICGLYKDEGLMIQCDKCMVWQHCDCMGVNSDVEHYLCEQCDPRPVDREVPMI
PRPHYAQPGCVYFICLLRDDLLLRQGDCVYLMRDSRRTPDGHPVRQSYRLLSHINRDKLD
IFRIEKLWKNEKEERFAFGHHYFRPHETHHSPSRRFYHNELFRVPLYEIIPLEAVVGTCC
VLDLYTYCKGRPKGVKEQDVYICDYRLDKSAHLFYKIHRNRYPVCTKPYAFDHFPKKLTP
KKDFSPHYVPDNYKRNGGRSSWKSERSKPPLKDLGQEDDALPLIEEVLASQEQAANEIPS
LEEPEREGATANVSEGEKKTEESSQEPQSTCTPEERRHNQRERLNQILLNLLEKIPGKNA
IDVTYLLEEGSGRKLRRRTLFIPENSFRK
GenBank ID Protein 7739725
UniProtKB/Swiss-Prot ID Q9NR48
UniProtKB/Swiss-Prot Entry Name ASH1L_HUMAN
PDB IDs
GenBank Gene ID AF257305
GeneCard ID ASH1L
GenAtlas ID ASH1L
HGNC ID HGNC:19088
References
General References
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