Human Metabolome Database: Showing Protein Histone-lysine N-methyltransferase ASH1L (HMDBP09007)

Identification Biological properties Gene properties Protein properties External links References XML Show 2 metabolites

Identification

HMDB Protein ID

HMDBP09007

Secondary Accession Numbers

14748

Name

Histone-lysine N-methyltransferase ASH1L

Synonyms

ASH1-like protein
Absent small and homeotic disks protein 1 homolog
Lysine N-methyltransferase 2H
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

Nucleus
Chromosome (Probable)
Cell junction
tight junction

Gene Properties

Chromosome Location

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

Bromodomain (PF00439 )
PHD (PF00628 )
SET (PF00856 )
BAH (PF01426 )

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

External Links

GenBank ID Protein

7739725

UniProtKB/Swiss-Prot ID

Q9NR48

UniProtKB/Swiss-Prot Entry Name

ASH1L_HUMAN

PDB IDs

3MQM
3OPE

GenBank Gene ID

GeneCard ID

GenAtlas ID

HGNC ID

References

General References

Ota T, Suzuki Y, Nishikawa T, Otsuki T, Sugiyama T, Irie R, Wakamatsu A, Hayashi K, Sato H, Nagai K, Kimura K, Makita H, Sekine M, Obayashi M, Nishi T, Shibahara T, Tanaka T, Ishii S, Yamamoto J, Saito K, Kawai Y, Isono Y, Nakamura Y, Nagahari K, Murakami K, Yasuda T, Iwayanagi T, Wagatsuma M, Shiratori A, Sudo H, Hosoiri T, Kaku Y, Kodaira H, Kondo H, Sugawara M, Takahashi M, Kanda K, Yokoi T, Furuya T, Kikkawa E, Omura Y, Abe K, Kamihara K, Katsuta N, Sato K, Tanikawa M, Yamazaki M, Ninomiya K, Ishibashi T, Yamashita H, Murakawa K, Fujimori K, Tanai H, Kimata M, Watanabe M, Hiraoka S, Chiba Y, Ishida S, Ono Y, Takiguchi S, Watanabe S, Yosida M, Hotuta T, Kusano J, Kanehori K, Takahashi-Fujii A, Hara H, Tanase TO, Nomura Y, Togiya S, Komai F, Hara R, Takeuchi K, Arita M, Imose N, Musashino K, Yuuki H, Oshima A, Sasaki N, Aotsuka S, Yoshikawa Y, Matsunawa H, Ichihara T, Shiohata N, Sano S, Moriya S, Momiyama H, Satoh N, Takami S, Terashima Y, Suzuki O, Nakagawa S, Senoh A, Mizoguchi H, Goto Y, Shimizu F, Wakebe H, Hishigaki H, Watanabe T, Sugiyama A, Takemoto M, Kawakami B, Yamazaki M, Watanabe K, Kumagai A, Itakura S, Fukuzumi Y, Fujimori Y, Komiyama M, Tashiro H, Tanigami A, Fujiwara T, Ono T, Yamada K, Fujii Y, Ozaki K, Hirao M, Ohmori Y, Kawabata A, Hikiji T, Kobatake N, Inagaki H, Ikema Y, Okamoto S, Okitani R, Kawakami T, Noguchi S, Itoh T, Shigeta K, Senba T, Matsumura K, Nakajima Y, Mizuno T, Morinaga M, Sasaki M, Togashi T, Oyama M, Hata H, Watanabe M, Komatsu T, Mizushima-Sugano J, Satoh T, Shirai Y, Takahashi Y, Nakagawa K, Okumura K, Nagase T, Nomura N, Kikuchi H, Masuho Y, Yamashita R, Nakai K, Yada T, Nakamura Y, Ohara O, Isogai T, Sugano S: Complete sequencing and characterization of 21,243 full-length human cDNAs. Nat Genet. 2004 Jan;36(1):40-5. Epub 2003 Dec 21. [PubMed:14702039 ]
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