Showing Protein Histone-lysine N-methyltransferase NSD3 (CDBP04215)

IdentificationBiological propertiesGene propertiesProtein propertiesExternal linksReferencesXMLShow 3 compounds
Identification
HMDB Protein ID CDBP04215
Secondary Accession Numbers Not Available
Name Histone-lysine N-methyltransferase NSD3
Description Not Available
Synonyms
  1. Nuclear SET domain-containing protein 3
  2. Protein whistle
  3. WHSC1-like 1 isoform 9 with methyltransferase activity to lysine
  4. WHSC1-like protein 1
  5. Wolf-Hirschhorn syndrome candidate 1-like protein 1
Gene Name WHSC1L1
Protein Type Enzyme
Biological Properties
General Function Involved in histone-lysine N-methyltransferase activity
Specific Function Histone methyltransferase. Preferentially methylates 'Lys-4' and 'Lys-27' of histone H3. H3 'Lys-4' methylation represents a specific tag for epigenetic transcriptional activation, while 'Lys-27' is a mark for transcriptional repression.
GO Classification
Biological Process
cell growth
cell differentiation
regulation of transcription, DNA-dependent
transcription, DNA-dependent
Cellular Component
chromosome
nucleus
Component
organelle
membrane-bounded organelle
intracellular membrane-bounded organelle
nucleus
Function
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
transferase activity, transferring one-carbon groups
methyltransferase activity
ion binding
Molecular Function
histone-lysine N-methyltransferase activity
metal ion binding
zinc ion binding
Cellular Location
  1. Nucleus
  2. Chromosome
Pathways
Gene Properties
Chromosome Location 8
Locus 8p11.2
SNPs WHSC1L1
Gene Sequence 
>4314 bp
ATGGATTTCTCTTTCTCTTTCATGCAAGGGATCATGGGAAACACAATTCAGCAACCACCT
CAACTCATTGACTCCGCCAACATCCGTCAGGAGGATGCCTTTGATAACAACAGTGACATT
GCTGAAGATGGTGGCCAGACACCATATGAAGCTACTTTGCAGCAAGGCTTTCAGTACCCA
GCTACAACAGAAGATCTTCCTCCACTCACAAATGGGTATCCATCATCAATCAGTGTGTAT
GAAACTCAAACCAAATACCAGTCATATAATCAGTATCCTAATGGGTCAGCCAATGGCTTT
GGTGCAGTTAGAAACTTTAGCCCCACTGACTATTATCATTCAGAAATTCCAAACACAAGA
CCACATGAAATTCTGGAAAAACCTTCCCCTCCACAGCCACCACCTCCTCCTTCGGTACCA
CAAACTGTGATTCCAAAGAAGACTGGCTCACCTGAAATTAAACTAAAAATAACCAAAACT
ATCCAGAATGGCAGGGAATTGTTTGAGTCTTCCCTTTGTGGAGACCTTTTAAATGAAGTA
CAGGCAAGTGAGCACACGAAATCAAAGCATGAAAGCAGAAAAGAAAAGAGGAAAAAAAGC
AACAAGCATGACTCATCAAGATCTGAAGAGCGCAAGTCACACAAAATCCCCAAATTAGAA
CCAGAGGAACAAAATAGACCAAATGAGAGGGTTGACACTGTATCAGAAAAACCAAGGGAA
GAACCAGTACTAAAAGAGGAAGCCCCAGTTCAGCCAATACTATCTTCTGTTCCAACAACG
GAAGTGTCCACTGGTGTTAAGTTTCAGGTTGGCGATCTTGTGTGGTCCAAGGTGGGAACC
TATCCTTGGTGGCCTTGTATGGTTTCAAGTGATCCCCAGCTTGAGGTTCATACTAAAATT
AACACAAGAGGTGCCCGAGAATATCATGTCCAGTTTTTTAGCAACCAGCCAGAGAGGGCG
TGGGTTCATGAAAAACGGGTACGAGAGTATAAAGGTCATAAACAGTATGAAGAATTACTG
GCTGAGGCAACCAAACAAGCCAGCAATCACTCTGAGAAACAAAAGATTCGGAAACCCCGA
CCTCAGAGAGAACGTGCTCAGTGGGATATTGGCATTGCCCATGCAGAGAAAGCATTGAAA
ATGACTCGAGAAGAAAGAATAGAACAGTATACTTTTATTTACATTGATAAACAGCCTGAA
GAGGCTTTATCCCAAGCAAAAAAGAGTGTTGCCTCCAAAACCGAAGTTAAAAAAACCCGA
CGACCAAGATCTGTGCTGAATACTCAGCCAGAACAGACCAATGCAGGGGAGGTGGCCTCC
TCACTCTCAAGTACTGAAATTCGGAGACATAGCCAGAGGCGGCACACAAGTGCGGAAGAG
GAAGAGCCACCGCCTGTTAAAATAGCCTGGAAAACTGCGGCAGCAAGGAAATCCTTACCA
GCTTCCATTACGATGCACAAAGGGAGCCTGGATTTGCAGAAGTGTAACATGTCTCCAGTT
GTGAAAATTGAACAAGTGTTTGCTCTTCAGAATGCTACAGGGGATGGGAAATTTATCGAT
CAATTTGTTTATTCAACAAAGGGAATTGGTAACAAAACAGAAATAAGTGTCAGGGGGCAA
GACAGGCTTATAATTTCTACACCAAACCAGAGAAATGAAAAGCCAACGCAGAGTGTATCA
TCTCCTGAAGCAACATCTGGTTCTACAGGCTCAGTAGAAAAGAAGCAACAGAGAAGATCA
ATTAGAACTCGTTCTGAATCAGAGAAATCCACTGAGGTTGTGCCAAAGAAGAAGATCAAA
AAGGAGCAGGTTGAAACAGTTCCTCAGGCTACAGTGAAGACTGGATTACAGAAAGGTGCC
AGCGAGATTTCAGATTCCTGTAAACCTCTAAAGAAAAGGAGTCGCGCCTCAACTGATGTA
GAAATGACTAGTTCAGCATACAGAGACACATCTGACTCCGATTCTAGAGGACTGAGTGAC
CTGCAGGTAGGCTTTGGAAAGCAAGTAGATAGCCCTTCAGCTACTGCAGATGCAGACGTT
TCTGATGTGCAGTCCATGGATTCAAGTTTGTCGAGAAGAGGCACTGGAATGAGTAAGAAG
GACACTGTATGTCAGATTTGTGAAAGCTCTGGTGACTCTCTGATTCCTTGTGAGGGAGAG
TGCTGCAAACACTTTCACCTGGAGTGCCTGGGATTGGCATCACTTCCTGATAGCAAGTTC
ATCTGCATGGAATGTAAAACTGGGCAGCACCCATGTTTTTCGTGTAAAGTGTCTGGTAAA
GATGTGAAGCGTTGTTCTGTTGGTGCTTGTGGGAAATTTTATCATGAAGCCTGTGTCCGC
AAATTCCCCACTGCCATCTTTGAATCAAAAGGATTCCGCTGTCCTCAGCACTGCTGCTCT
GCCTGCTCTATGGAGAAAGATATCCACAAAGCAAGTAAAGGCCGCATGATGAGATGTTTA
AGATGTCCAGTTGCCTATCACTCTGGAGATGCTTGCATTGCGGCCGGAAGCATGTTAGTA
TCCTCCTACATTCTCATCTGTAGTAATCATTCCAAACGGAGCAGTAATTCTTCTGCTGTA
AATGTAGGCTTTTGTTTCGTTTGTGCCAGAGGGCTGATAGTTCAGGACCATTCAGACCCC
ATGTTCAGTTCATATGCCTATAAGTCCCACTACCTACTGAATGAATCAAATCGTGCTGAG
TTGATGAAATTACCTATGATTCCTTCTTCGTCAGCTTCCAAAAAGAAATGTGAGAAAGGT
GGAAGATTGCTCTGCTGTGAATCGTGCCCAGCTTCCTTCCACCCGGAATGCCTAAGCATA
GAAATGCCAGAAGGCTGCTGGAATTGTAATGACTGTAAAGCTGGCAAGAAACTACATTAC
AAGCAGATTGTTTGGGTCAAATTGGGAAATTACAGATGGTGGCCAGCAGAGATCTGCAAC
CCCAGGTCTGTGCCACTGAACATCCAGGGCCTTAAACATGACTTGGGGGACTTCCCTGTA
TTCTTCTTTGGTTCTCATGACTACTACTGGGTACACCAGGGCAGAGTGTTCCCTTATGTT
GAAGGAGACAAAAGCTTTGCTGAAGGGCAGACTAGTATTAACAAGACCTTCAAAAAGGCA
CTGGAAGAAGCTGCAAAACGTTTCCAGGAATTGAAAGCACAAAGAGAAAGTAAAGAAGCC
CTAGAGATTGAAAAAAACTCAAGAAAACCCCCTCCCTACAAACACATCAAAGCTAACAAA
GTAATAGGAAAGGTGCAGATCCAGGTTGCTGACCTGTCAGAGATTCCCCGCTGTAACTGC
AAGCCAGCTGATGAAAACCCTTGTGGCTTGGAATCGGAGTGCCTGAACAGAATGTTGCAG
TATGAATGCCACCCGCAGGTGTGCCCAGCTGGAGATCGTTGTCAGAACCAGTGCTTTACA
AAGAGACTATACCCTGATGCAGAGATCATCAAAACGGAGCGGAGAGGCTGGGGCCTCAGG
ACCAAAAGGAGCATTAAGAAGGGTGAATTTGTAAATGAATACGTCGGTGAATTAATTGAT
GAAGAAGAATGCAGATTGCGAATCAAGCGAGCCCACGAGAACAGTGTAACTAATTTTTAT
ATGTTAACTGTTACCAAGGACCGTATAATTGATGCCGGCCCAAAAGGAAATTATTCTCGC
TTCATGAACCACAGTTGTAATCCCAACTGTGAAACACAAAAGTGGACAGTGAATGGAGAT
GTTCGAGTGGGACTATTTGCTCTCTGTGATATTCCTGCAGGGATGGAGTTAACATTTAAT
TATAACCTAGATTGTCTGGGCAACGGCAGAACGGAGTGCCACTGTGGAGCAGATAACTGC
AGTGGTTTTCTAGGAGTGCGGCCAAAGTCGGCATGTGCGTCAACAAATGAAGAGAAGGCA
AAAAATGCTAAGTTAAAACAGAAGAGACGAAAGATCAAAACAGAACCAAAGCAGATGCAT
GAAGATTACTGTTTTCAATGTGGAGATGGTGGAGAGCTGGTCATGTGTGACAAAAAAGAC
TGTCCCAAAGCATACCACCTCCTATGCCTTAACCTGACTCAGCCACCATATGGAAAGTGG
GAGTGTCCGTGGCATCAGTGCGATGAGTGCAGCAGTGCAGCTGTTTCCTTCTGTGAATTC
TGTCCACATTCATTTTGTAAAGATCATGAAAAGGGGGCCCTGGTTCCCTCTGCACTGGAA
GGCCGCCTCTGCTGCTCGGAACATGACCCCATGGCTCCTGTGTCACCAGAATACTGGAGC
AAGATAAAATGTAAATGGGAATCACAAGATCATGGAGAAGAAGTAAAAGAATAA
Protein Properties
Number of Residues 1437
Molecular Weight 72620.72
Theoretical pI 9.072
Pfam Domain Function
Signals Not Available
Transmembrane Regions Not Available
Protein Sequence 
>Histone-lysine N-methyltransferase NSD3
MDFSFSFMQGIMGNTIQQPPQLIDSANIRQEDAFDNNSDIAEDGGQTPYEATLQQGFQYP
ATTEDLPPLTNGYPSSISVYETQTKYQSYNQYPNGSANGFGAVRNFSPTDYYHSEIPNTR
PHEILEKPSPPQPPPPPSVPQTVIPKKTGSPEIKLKITKTIQNGRELFESSLCGDLLNEV
QASEHTKSKHESRKEKRKKSNKHDSSRSEERKSHKIPKLEPEEQNRPNERVDTVSEKPRE
EPVLKEEAPVQPILSSVPTTEVSTGVKFQVGDLVWSKVGTYPWWPCMVSSDPQLEVHTKI
NTRGAREYHVQFFSNQPERAWVHEKRVREYKGHKQYEELLAEATKQASNHSEKQKIRKPR
PQRERAQWDIGIAHAEKALKMTREERIEQYTFIYIDKQPEEALSQAKKSVASKTEVKKTR
RPRSVLNTQPEQTNAGEVASSLSSTEIRRHSQRRHTSAEEEEPPPVKIAWKTAAARKSLP
ASITMHKGSLDLQKCNMSPVVKIEQVFALQNATGDGKFIDQFVYSTKGIGNKTEISVRGQ
DRLIISTPNQRNEKPTQSVSSPEATSGSTGSVEKKQQRRSIRTRSESEKSTEVVPKKKIK
KEQVETVPQATVKTGLQKGASEISDSCKPLKKRSRASTDVEMTSSAYRDTSDSDSRGLSD
LQVGFGKQVDSPSATADADVSDVQSMDSSLSRRGTGMSKKDTVCQICESSGDSLIPCEGE
CCKHFHLECLGLASLPDSKFICMECKTGQHPCFSCKVSGKDVKRCSVGACGKFYHEACVR
KFPTAIFESKGFRCPQHCCSACSMEKDIHKASKGRMMRCLRCPVAYHSGDACIAAGSMLV
SSYILICSNHSKRSSNSSAVNVGFCFVCARGLIVQDHSDPMFSSYAYKSHYLLNESNRAE
LMKLPMIPSSSASKKKCEKGGRLLCCESCPASFHPECLSIEMPEGCWNCNDCKAGKKLHY
KQIVWVKLGNYRWWPAEICNPRSVPLNIQGLKHDLGDFPVFFFGSHDYYWVHQGRVFPYV
EGDKSFAEGQTSINKTFKKALEEAAKRFQELKAQRESKEALEIEKNSRKPPPYKHIKANK
VIGKVQIQVADLSEIPRCNCKPADENPCGLESECLNRMLQYECHPQVCPAGDRCQNQCFT
KRLYPDAEIIKTERRGWGLRTKRSIKKGEFVNEYVGELIDEEECRLRIKRAHENSVTNFY
MLTVTKDRIIDAGPKGNYSRFMNHSCNPNCETQKWTVNGDVRVGLFALCDIPAGMELTFN
YNLDCLGNGRTECHCGADNCSGFLGVRPKSACASTNEEKAKNAKLKQKRRKIKTEPKQMH
EDYCFQCGDGGELVMCDKKDCPKAYHLLCLNLTQPPYGKWECPWHQCDECSSAAVSFCEF
CPHSFCKDHEKGALVPSALEGRLCCSEHDPMAPVSPEYWSKIKCKWESQDHGEEVKE
GenBank ID Protein 13699811
UniProtKB/Swiss-Prot ID Q9BZ95
UniProtKB/Swiss-Prot Entry Name NSD3_HUMAN
PDB IDs
GenBank Gene ID NM_023034.1
GeneCard ID WHSC1L1
GenAtlas ID WHSC1L1
HGNC ID HGNC:12767
References
General References Not Available