| Identification |
|---|
| HMDB Protein ID
| CDBP04227 |
| Secondary Accession Numbers
| Not Available |
| Name
| Histone-lysine N-methyltransferase SETD2 |
| Description
| Not Available |
| Synonyms
|
- HIF-1
- HIP-1
- Huntingtin yeast partner B
- Huntingtin-interacting protein 1
- Huntingtin-interacting protein B
- Lysine N-methyltransferase 3A
- SET domain-containing protein 2
- hSET2
- p231HBP
|
| Gene Name
| SETD2 |
| Protein Type
| Enzyme |
| Biological Properties |
|---|
| General Function
| Involved in histone-lysine N-methyltransferase activity |
| Specific Function
| Histone methyltransferase that methylates 'Lys-36' of histone H3. H3 'Lys-36' methylation represents a specific tag for epigenetic transcriptional activation. Probably plays a role in chromatin structure modulation during elongation via its interaction with hyperphosphorylated POLR2A. Binds DNA at promoters. May also act as a transcription activator that binds to promoters. Binds to the promoters of adenovirus 12 E1A gene in case of infection, possibly leading to regulate its expression.
|
| GO Classification
|
| Biological Process |
| peptidyl-lysine trimethylation |
| pericardium development |
| neural tube closure |
| regulation of transcription, DNA-dependent |
| transcription, DNA-dependent |
| forebrain development |
| angiogenesis |
| stem cell development |
| cell migration involved in vasculogenesis |
| coronary vasculature morphogenesis |
| embryonic cranial skeleton morphogenesis |
| embryonic placenta morphogenesis |
| histone H3-K36 methylation |
| mesoderm morphogenesis |
| morphogenesis of a branching structure |
| Cellular Component |
| chromosome |
| nucleus |
| Component |
| organelle |
| membrane-bounded organelle |
| intracellular membrane-bounded organelle |
| nucleus |
| non-membrane-bounded organelle |
| intracellular non-membrane-bounded organelle |
| chromosome |
| Function |
| cation binding |
| metal ion binding |
| binding |
| catalytic activity |
| transition metal ion binding |
| transferase activity |
| protein binding |
| protein methyltransferase activity |
| protein-lysine n-methyltransferase activity |
| histone-lysine n-methyltransferase activity |
| oxidoreductase activity |
| transferase activity, transferring one-carbon groups |
| methyltransferase activity |
| ion binding |
| Molecular Function |
| DNA binding |
| histone-lysine N-methyltransferase activity |
| transition metal ion binding |
| oxidoreductase activity |
| Process |
| metabolic process |
| biological regulation |
| regulation of biological process |
| regulation of metabolic process |
| regulation of macromolecule metabolic process |
| regulation of gene expression |
| regulation of transcription |
| regulation of transcription, dna-dependent |
| oxidation reduction |
|
| Cellular Location
|
- Nucleus (Probable)
- Chromosome (Probable)
|
| Pathways
|
Not Available
|
| Gene Properties |
|---|
| Chromosome Location
| 3 |
| Locus
| 3p21.31 |
| SNPs
| SETD2 |
| Gene Sequence
|
>7695 bp
ATGAAGCAGCTGCAGCCGCAGCCGCCTCCGAAGATGGGGGATTTCTACGACCCGGAGCAC
CCGACCCCTGAAGAAGAAGAAAATGAGGCAAAGATTGAAAATGTGCAGAAAACAGGTTTC
ATCAAAGGACCAATGTTCAAAGGTGTTGCTTCTAGTCGATTTTTGCCCAAAGGCACCAAA
ACAAAAGTTAATTTGGAAGAACAGGGACGACAGAAGGTGTCATTCAGCTTCAGCCTTACA
AAGAAAACTTTGCAGAATAGGTTTCTCACTGCACTTGGCAATGAAAAGCAAAGTGATACT
CCAAACCCTCCAGCTGTACCTCTTCAGGTAGACTCGACTCCTAAAATGAAAATGGAAATT
GGTGATACCTTATCTACTGCAGAAGAATCTTCCCCACCAAAGTCAAGGGTGGAATTGGGC
AAAATTCATTTTAAGAAACATCTGCTTCATGTAACATCCAGGCCACTGCTGGCTACTACC
ACAGCAGTAGCATCTCCACCTACTCATGCAGCACCATTACCAGCAGTGATAGCAGAATCA
ACAACTGTAGACTCACCGCCCTCATCTCCGCCTCCACCGCCTCCACCTGCCCAAGCCACA
ACACTCTCATCACCAGCACCAGTAACAGAGCCAGTGGCCTTGCCACATACACCAATAACA
GTTCTAATGGCAGCACCAGTACCCTTACCAGTAGATGTAGCAGTTAGATCTCTGAAAGAA
CCACCAATTATAATTGTACCAGAATCTTTAGAAGCAGATACTAAGCAGGACACTATATCT
AATAGTTTAGAAGAACACGTAACTCAAATATTGAATGAGCAAGCAGATATTTCCTCAAAA
AAAGAAGATTCCCATATTGGGAAGGATGAAGAAATTCCAGATAGTTCTAAGATTAGTCTG
AGCTGTAAAAAAACAGGTTCTAAGAAGAAATCCTCACAATCTGAAGGCATCTTTCTTGGT
TCAGAATCTGATGAAGATTCTGTACGGACTTCTTCAAGTCAAAGATCACATGATTTAAAA
TTTTCAGCAAGCATTGAAAAGGAAAGAGATTTTAAAAAGAGCTCAGCACCTTTAAAAAGT
GAGGATCTAGGGAAACCTTCACGATCTAAAACAGACAGAGATGATAAATATTTTAGCTAT
TCAAAACTTGAAAGAGATACTCGGTATGTATCTTCCCGATGTAGATCAGAAAGAGAGCGA
CGGCGGAGCAGATCTCACTCTAGGTCTGAGAGAGGCTCTAGAACTAATTTATCCTATTCC
AGGTCAGAACGATCTCATTATTATGACTCTGATCGTCGCTACCATAGGAGCTCCCCTTAT
CGAGAGAGGACGCGCTATTCTCGGCCATACACAGATAACAGAGCACGAGAGAGTTCTGAC
TCAGAAGAAGAGTATAAGAAGACATACTCAAGGCGTACCTCATCTCATTCCTCTTCTTAC
AGAGACCTAAGGACATCATCCTATTCTAAATCTGATCGGGACTGTAAAACTGAGACCTCT
TACTTAGAGATGGAAAGAAGAGGCAAGTATTCTTCAAAACTAGAAAGAGAATCTAAAAGG
ACTTCAGAAAATGAAGCAATTAAAAGATGTTGTTCTCCCCCTAATGAACTGGGATTCCGA
CGAGGGTCATCATATTCTAAGCATGACAGTAGTGCTTCCCGTTATAAATCTACCCTTTCA
AAACCTATACCCAAGTCTGATAAATTTAAAAATTCTTTCTGTTGTACAGAATTAAATGAA
GAAATCAAACAGTCTCATTCTTTTAGTTTACAGACACCTTGTTCAAAAGGTAGTGAATTA
AGAATGATTAATAAAAATCCTGAAAGAGAAAAGGCTGGGTCTCCAGCTCCATCAAATCGA
TTAAATGATTCACCTACTTTAAAAAAGCTAGATGAATTGCCTATTTTTAAGTCCGAATTT
ATAACACATGATAGCCATGATAGTATTAAGGAATTAGACTCTTTATCTAAAGTGAAGAAT
GATCAATTAAGAAGTTTTTGTCCCATAGAATTAAATATAAATGGATCTCCTGGGGCAGAA
TCTGATTTGGCAACATTTTGCACTTCTAAAACTGATGCTGTTTTAATGACTTCTGATGAT
AGTGTGACTGGATCGGAATTATCCCCTTTGGTCAAAGCATGCATGCTTTCATCAAATGGA
TTTCAGAATATTAGTAGGTGCAAAGAAAAAGACTTGGATGATACCTGCATGCTGCATAAG
AAGTCAGAAAGCCCATTTAGAGAAACAGAACCTCTGGTGTCACCACACCAAGATAAACTC
ATGTCTATGCCAGTTATGACTGTGGATTATTCCAAAACAGTAGTTAAAGAACCAGTTGAT
ACGAGGGTTTCTTGCTGCAAAACCAAAGATTCAGACATATACTGTACTTTGAACGATAGC
AACCCTTCTTTGTGTAACTCTGAAGCTGAAAATATTGAGCCTTCAGTTATGAAGATTTCT
TCAAATAGCTTTATGAATGTGCATTTGGAATCAAAACCAGTTATATGTGATAGTAGAAAT
TTGACAGATCACTCAAAATTTGCATGTGAAGAATATAAGCAGAGCATCGGTAGCACTAGT
TCAGCTTCTGTTAATCATTTTGATGATTTATATCAACCTATTGGGAGTTCAGGTATTGCT
TCATCTCTTCAGAGTCTTCCACCAGGAATAAAGGTGGACAGTCTAACTCTCTTGAAATGC
GGAGAGAACACATCTCCAGTTCTGGATGCAGTGCTAAAGAGTAAAAAAAGTTCAGAGTTT
TTAAAGCATGCAGGGAAAGAAACAATAGTAGAAGTAGGTAGTGACCTTCCTGATTCAGGA
AAGGGATTTGCTTCCAGGGAGAACAGGCGTAATAATGGGTTATCTGGGAAATGTTTGCAA
GAGGCTCAAGAAGAAGGGAATTCCATATTGCCTGAAAGAAGAGGAAGACCAGAAATCTCT
TTAGATGAAAGAGGAGAAGGAGGACATGTGCATACTTCTGATGACTCAGAAGTTGTATTT
TCTTCTTGTGATTTGAATTTAACCATGGAAGACAGTGATGGTGTAACTTATGCATTAAAG
TGTGACAGTAGTGGTCATGCCCCAGAAATTGTGTCTACAGTTCATGAAGATTATTCTGGC
TCTTCTGAAAGTTCAAATGATGAAAGTGATTCAGAAGATACAGATTCGGATGATAGCAGT
ATTCCAAGAAACCGTCTCCAGTCTGTTGTGGTTGTGCCAAAGAATTCTACTTTGCCCATG
GAAGAAACAAGTCCTTGTTCTTCTCGGAGCAGTCAAAGTTATAGACACTATTCTGACCAT
TGGGAAGATGAGAGATTGGAGTCAAGGAGACATTTGTATGAGGAAAAATTTGAAAGTATA
GCAAGTAAAGCCTGTCCTCAAACTGATAAGTTTTTCCTTCATAAAGGAACAGAGAAGAAT
CCGGAAATTTCTTTTACACAGTCCAGTAGAAAACAAATAGATAATCGCCTGCCTGAACTT
TCTCATCCTCAGAGTGATGGGGTTGATAGTACAAGTCATACAGATGTGAAATCTGACCCT
CTGGGTCACCCAAATTCAGAGGAAACCGTGAAAGCCAAAATACCTTCTAGGCAGCAAGAA
GAGCTGCCAATTTATTCTTCTGATTTTGAAGATGTCCCAAATAAGTCTTGGCAACAGACC
ACTTTCCAAAACAGGCCAGATAGTAGACTGGGAAAAACAGAATTGAGTTTTTCTTCCTCT
TGTGAGATACCACATGTGGATGGCTTGCACTCATCAGAAGAGCTCAGAAACTTAGGTTGG
GACTTCTCTCAAGAAAAGCCTTCTACCACGTATCAGCAACCTGACAGTAGCTATGGAGCT
TGTGGTGGACACAAGTATCAGCAAAATGCAGAACAGTATGGTGGGACACGTGATTACTGG
CAAGGCAATGGTTACTGGGATCCAAGATCAGGTAGACCTCCTGGAACTGGGGTTGTGTAT
GATCGAACTCAAGGACAAGTACCAGATTCCCTAACAGATGATCGTGAAGAAGAGGAGAAT
TGGGATCAACAGGATGGATCCCATTTTTCAGACCAGTCCGATAAATTTCTTCTATCCCTT
CAGAAAGACAAGGGGTCAGTGCAAGCACCTGAAATAAGCAGCAATTCCATTAAGGACACT
TTAGCTGTGAATGAAAAGAAAGATTTTTCAAAAAACTTAGAAAAAAATGATATCAAAGAT
AGAGGGCCTCTTAAAAAAAGGAGGCAGGAAATAGAGAGTGATTCTGAAAGTGATGGTGAG
CTTCAGGACAGAAAGAAAGTTAGAGTGGAGGTAGAGCAGGGAGAGACATCAGTGCCCCCA
GGTTCAGCACTGGTTGGGCCCTCCTGTGTCATGGATGACTTCAGGGACCCACAGCGATGG
AAGGAATGTGCCAAGCAAGGGAAAATGCCATGTTACTTTGATCTTATTGAAGAAAATGTT
TATTTAACAGAAAGAAAGAAGAATAAATCTCATCGAGATATTAAGCGAATGCAGTGTGAG
TGTACACCTCTTTCTAAAGATGAAAGAGCTCAAGGTGAAATAGCATGTGGGGAAGATTGT
CTTAATCGTCTTCTCATGATTGAATGTTCTTCTCGGTGTCCAAATGGGGATTATTGTTCC
AATAGACGGTTTCAGAGAAAACAGCATGCAGATGTGGAAGTCATACTCACAGAAAAGAAA
GGCTGGGGCTTGAGAGCTGCCAAAGACCTTCCTTCGAACACCTTTGTCCTAGAATATTGT
GGAGAGGTACTCGATCATAAAGAGTTTAAAGCTCGAGTGAAGGAGTATGCACGAAACAAA
AACATCCATTACTATTTCATGGCCCTGAAGAATGATGAGATAATAGATGCCACTCAAAAA
GGAAATTGCTCTCGTTTCATGAATCACAGCTGTGAACCAAATTGTGAAACCCAAAAATGG
ACTGTGAACGGACAACTGAGGGTTGGGTTTTTTACCACCAAACTGGTTCCTTCAGGCTCA
GAGTTAACGTTTGACTATCAGTTCCAGAGATATGGAAAAGAAGCCCAGAAATGTTTCTGC
GGATCAGCCAATTGCCGGGGTTACCTGGGAGGAGAAAACAGAGTCAGCATCAGAGCAGCA
GGAGGGAAAATGAAGAAGGAACGATCTCGTAAGAAGGATTCAGTGGATGGAGAGCTAGAA
GCTCTGATGGAAAATGGTGAGGGTCTCTCTGATAAAAACCAGGTGCTCAGCTTATCCCGG
CTAATGGTTAGAATTGAAACTTTGGAGCAGAAACTTACCTGTCTGGAACTCATACAGAAC
ACACACTCACAGTCCTGCCTGAAGTCCTTTCTGGAACGTCATGGGCTGTCTTTGTTGTGG
ATCTGGATGGCAGAGCTAGGTGACGGCCGGGAAAGTAACCAGAAGCTTCAGGAAGAGATT
ATAAAGACTTTGGAACACTTGCCCATTCCTACTAAAAATATGTTGGAGGAAAGCAAAGTA
CTTCCAATTATTCAACGCTGGTCTCAGACTAAGACTGCTGTCCCTCCGTTGAGTGAAGGA
GATGGGTATTCTAGTGAGAATACATCGCGTGCTCATACACCACTCAACACACCTGATCCT
TCCACCAAGCTGAGCACAGAAGCTGACACAGACACTCCCAAGAAACTAATGTTTCGCAGA
CTGAAAATTATAAGTGAAAATAGCATGGACAGTGCAATCTCTGATGCAACCAGTGAGCTA
GAAGGCAAGGATGGCAAAGAGGATCTTGATCAATTAGAAAATGTCCCTGTAGAGGAAGAG
GAAGAATTGCAGTCACAACAGCTACTCCCACAACAGCTGCCTGAATGCAAAGTTGATAGT
GAAACCAACATAGAAGCTAGTAAGCTACCTACATCTGAACCAGAAGCTGACGCTGAAATA
GAGCCCAAAGAGAGCAACGGCACAAAACTAGAAGAACCTATTAATGAAGAAACACCATCC
CAAGATGAAGAGGAGGGTGTGTCTGATGTGGAGAGTGAAAGGAGCCAAGAACAGCCAGAT
AAAACAGTGGATATAAGTGATTTGGCCACCAAACTCCTGGACAGTTGGAAAGACCTAAAG
GAGGTATATCGAATTCCAAAGAAAAGTCAAACTGAAAAGGAAAACACAACAACTGAACGA
GGAAGGGATGCTGTTGGCTTCAGAGATCAAACACCTGCCCCGAAGACTCCTAATAGGTCA
AGAGAGAGAGACCCAGACAAGCAAACTCAAAATAAAGAGAAAAGGAAACGAAGAAGCTCC
CTCTCACCACCCTCTTCTGCCTATGAGCGGGGAACAAAAAGGCCAGATGACAGATATGAT
ACACCAACTTCTAAAAAGAAAGTACGAATTAAAGACCGCAATAAACTTTCTACAGAGGAA
CGCCGGAAGTTGTTTGAGCAAGAGGTGGCTCAACGGGAGGCTCAGAAACAACAGCAACAG
ATGCAGAACCTGGGAATGACATCACCACTGCCCTATGACTCTCTTGGTTATAATGCCCCG
CATCATCCCTTTGCTGGTTACCCACCAGGTTATCCCATGCAGGCCTATGTGGATCCCAGC
AACCCTAATGCTGGAAAGGTGCTCCTGCCCACACCCAGCATGGACCCAGTGTGTTCTCCT
GCTCCTTATGATCATGCTCAGCCCTTGGTGGGACATTCTACAGAACCCCTTTCTGCCCCT
CCACCAGTACCAGTGGTGCCACATGTGGCAGCTCCTGTGGAAGTTTCCAGTTCCCAGTAT
GTGGCCCAGAGTGATGGTGTAGTACACCAAGACTCCAGCGTTGCTGTCTTGCCAGTGCCG
GCCCCCGGCCCAGTTCAGGGACAGAATTATAGTGTTTGGGATTCAAACCAACAGTCTGTC
AGTGTACAGCAGCAGTACTCTCCTGCACAGTCTCAAGCAACCATATATTATCAAGGACAG
ACATGTCCAACAGTCTATGGTGTGACATCACCTTATTCACAGACAACTCCACCAATTGTA
CAGAGTTATGCCCAGCCAAGTCTTCAGTATATCCAGGGGCAACAGATTTTCACAGCTCAT
CCACAAGGAGTGGTGGTACAGCCAGCCGCAGCAGTGACTACAATAGTTGCACCAGGGCAG
CCTCAGCCCTTGCAGCCATCTGAAATGGTTGTGACAAATAATCTCTTGGATCTGCCGCCC
CCCTCTCCTCCCAAACCAAAAACCATTGTCTTACCTCCCAACTGGAAGACAGCTCGAGAT
CCAGAAGGGAAGATTTATTACTACCATGTGATCACAAGGCAGACTCAGTGGGATCCTCCT
ACTTGGGAAAGCCCAGGAGATGATGCCAGCCTTGAGCATGAAGCTGAGATGGACCTGGGA
ACTCCAACATATGATGAAAACCCCATGAAGGCCTCGAAAAAGCCCAAGACAGCAGAAGCA
GACACCTCCAGTGAACTAGCAAAGAAAAGCAAAGAAGTATTCAGAAAAGAGATGTCCCAG
TTCATCGTCCAGTGCCTGAACCCTTACCGGAAACCTGACTGCAAAGTGGGAAGAATTACC
ACAACTGAAGACTTTAAACATCTGGCTCGCAAGCTGACTCACGGTGTTATGAATAAGGAG
CTGAAGTACTGTAAGAATCCTGAGGACCTGGAGTGCAATGAGAATGTGAAACACAAAACC
AAGGAGTACATTAAGAAGTACATGCAGAAGTTTGGGGCTGTTTACAAACCCAAAGAGGAC
ACTGAATTAGAGTGA
|
| Protein Properties |
|---|
| Number of Residues
| 2564 |
| Molecular Weight
| 287594.195 |
| Theoretical pI
| 6.137 |
| Pfam Domain Function
|
|
| Signals
|
Not Available
|
|
Transmembrane Regions
|
Not Available
|
| Protein Sequence
|
>Histone-lysine N-methyltransferase SETD2
MKQLQPQPPPKMGDFYDPEHPTPEEEENEAKIENVQKTGFIKGPMFKGVASSRFLPKGTK
TKVNLEEQGRQKVSFSFSLTKKTLQNRFLTALGNEKQSDTPNPPAVPLQVDSTPKMKMEI
GDTLSTAEESSPPKSRVELGKIHFKKHLLHVTSRPLLATTTAVASPPTHAAPLPAVIAES
TTVDSPPSSPPPPPPPAQATTLSSPAPVTEPVALPHTPITVLMAAPVPLPVDVAVRSLKE
PPIIIVPESLEADTKQDTISNSLEEHVTQILNEQADISSKKEDSHIGKDEEIPDSSKISL
SCKKTGSKKKSSQSEGIFLGSESDEDSVRTSSSQRSHDLKFSASIEKERDFKKSSAPLKS
EDLGKPSRSKTDRDDKYFSYSKLERDTRYVSSRCRSERERRRSRSHSRSERGSRTNLSYS
RSERSHYYDSDRRYHRSSPYRERTRYSRPYTDNRARESSDSEEEYKKTYSRRTSSHSSSY
RDLRTSSYSKSDRDCKTETSYLEMERRGKYSSKLERESKRTSENEAIKRCCSPPNELGFR
RGSSYSKHDSSASRYKSTLSKPIPKSDKFKNSFCCTELNEEIKQSHSFSLQTPCSKGSEL
RMINKNPEREKAGSPAPSNRLNDSPTLKKLDELPIFKSEFITHDSHDSIKELDSLSKVKN
DQLRSFCPIELNINGSPGAESDLATFCTSKTDAVLMTSDDSVTGSELSPLVKACMLSSNG
FQNISRCKEKDLDDTCMLHKKSESPFRETEPLVSPHQDKLMSMPVMTVDYSKTVVKEPVD
TRVSCCKTKDSDIYCTLNDSNPSLCNSEAENIEPSVMKISSNSFMNVHLESKPVICDSRN
LTDHSKFACEEYKQSIGSTSSASVNHFDDLYQPIGSSGIASSLQSLPPGIKVDSLTLLKC
GENTSPVLDAVLKSKKSSEFLKHAGKETIVEVGSDLPDSGKGFASRENRRNNGLSGKCLQ
EAQEEGNSILPERRGRPEISLDERGEGGHVHTSDDSEVVFSSCDLNLTMEDSDGVTYALK
CDSSGHAPEIVSTVHEDYSGSSESSNDESDSEDTDSDDSSIPRNRLQSVVVVPKNSTLPM
EETSPCSSRSSQSYRHYSDHWEDERLESRRHLYEEKFESIASKACPQTDKFFLHKGTEKN
PEISFTQSSRKQIDNRLPELSHPQSDGVDSTSHTDVKSDPLGHPNSEETVKAKIPSRQQE
ELPIYSSDFEDVPNKSWQQTTFQNRPDSRLGKTELSFSSSCEIPHVDGLHSSEELRNLGW
DFSQEKPSTTYQQPDSSYGACGGHKYQQNAEQYGGTRDYWQGNGYWDPRSGRPPGTGVVY
DRTQGQVPDSLTDDREEEENWDQQDGSHFSDQSDKFLLSLQKDKGSVQAPEISSNSIKDT
LAVNEKKDFSKNLEKNDIKDRGPLKKRRQEIESDSESDGELQDRKKVRVEVEQGETSVPP
GSALVGPSCVMDDFRDPQRWKECAKQGKMPCYFDLIEENVYLTERKKNKSHRDIKRMQCE
CTPLSKDERAQGEIACGEDCLNRLLMIECSSRCPNGDYCSNRRFQRKQHADVEVILTEKK
GWGLRAAKDLPSNTFVLEYCGEVLDHKEFKARVKEYARNKNIHYYFMALKNDEIIDATQK
GNCSRFMNHSCEPNCETQKWTVNGQLRVGFFTTKLVPSGSELTFDYQFQRYGKEAQKCFC
GSANCRGYLGGENRVSIRAAGGKMKKERSRKKDSVDGELEALMENGEGLSDKNQVLSLSR
LMVRIETLEQKLTCLELIQNTHSQSCLKSFLERHGLSLLWIWMAELGDGRESNQKLQEEI
IKTLEHLPIPTKNMLEESKVLPIIQRWSQTKTAVPPLSEGDGYSSENTSRAHTPLNTPDP
STKLSTEADTDTPKKLMFRRLKIISENSMDSAISDATSELEGKDGKEDLDQLENVPVEEE
EELQSQQLLPQQLPECKVDSETNIEASKLPTSEPEADAEIEPKESNGTKLEEPINEETPS
QDEEEGVSDVESERSQEQPDKTVDISDLATKLLDSWKDLKEVYRIPKKSQTEKENTTTER
GRDAVGFRDQTPAPKTPNRSRERDPDKQTQNKEKRKRRSSLSPPSSAYERGTKRPDDRYD
TPTSKKKVRIKDRNKLSTEERRKLFEQEVAQREAQKQQQQMQNLGMTSPLPYDSLGYNAP
HHPFAGYPPGYPMQAYVDPSNPNAGKVLLPTPSMDPVCSPAPYDHAQPLVGHSTEPLSAP
PPVPVVPHVAAPVEVSSSQYVAQSDGVVHQDSSVAVLPVPAPGPVQGQNYSVWDSNQQSV
SVQQQYSPAQSQATIYYQGQTCPTVYGVTSPYSQTTPPIVQSYAQPSLQYIQGQQIFTAH
PQGVVVQPAAAVTTIVAPGQPQPLQPSEMVVTNNLLDLPPPSPPKPKTIVLPPNWKTARD
PEGKIYYYHVITRQTQWDPPTWESPGDDASLEHEAEMDLGTPTYDENPMKASKKPKTAEA
DTSSELAKKSKEVFRKEMSQFIVQCLNPYRKPDCKVGRITTTEDFKHLARKLTHGVMNKE
LKYCKNPEDLECNENVKHKTKEYIKKYMQKFGAVYKPKEDTELE
|
| External Links |
|---|
| GenBank ID Protein
| 197313748 |
| UniProtKB/Swiss-Prot ID
| Q9BYW2 |
| UniProtKB/Swiss-Prot Entry Name
| SETD2_HUMAN |
| PDB IDs
|
|
| GenBank Gene ID
| NM_014159.6 |
| GeneCard ID
| SETD2 |
| GenAtlas ID
| SETD2 |
| HGNC ID
| HGNC:18420 |
| References |
|---|
| General References
| Not Available |