| Identification |
|---|
| HMDB Protein ID
| CDBP04868 |
| Secondary Accession Numbers
| Not Available |
| Name
| Nuclear receptor corepressor 2 |
| Description
| Not Available |
| Synonyms
|
- CTG repeat protein 26
- N-CoR2
- SMAP270
- SMRT
- Silencing mediator of retinoic acid and thyroid hormone receptor
- T3 receptor-associating factor
- TRAC
- Thyroid-, retinoic-acid-receptor-associated corepressor
|
| Gene Name
| NCOR2 |
| Protein Type
| Receptor |
| Biological Properties |
|---|
| General Function
| Involved in DNA binding |
| Specific Function
| Mediates the transcriptional repression activity of some nuclear receptors by promoting chromatin condensation, thus preventing access of the basal transcription. Isoform 1 and isoform 5 have different affinities for different nuclear receptors |
| GO Classification
|
| Function |
| binding |
| nucleic acid binding |
| dna binding |
| Process |
| biological regulation |
| regulation of biological process |
| regulation of metabolic process |
| regulation of macromolecule metabolic process |
| regulation of gene expression |
| regulation of transcription |
|
| Cellular Location
|
- Nucleus
|
| Pathways
|
Not Available
|
| Gene Properties |
|---|
| Chromosome Location
| Chromosome:1 |
| Locus
| 12q24 |
| SNPs
| NCOR2 |
| Gene Sequence
|
>7575 bp
ATGTCGGGATCCACACAGCCTGTGGCACAGACGTGGAGGGCCACTGAGCCCCGCTACCCG
CCCCACAGCCTTTCCTACCCAGTGCAGATCGCCCGGACGCACACGGACGTCGGGCTCCTG
GAGTACCAGCACCACTCCCGCGACTATGCCTCCCACCTGTCGCCCGGCTCCATCATCCAG
CCCCAGCGGCGGAGGCCCTCCCTGCTGTCTGAGTTCCAGCCCGGGAATGAACGGTCCCAG
GAGCTCCACCTGCGGCCAGAGTCCCACTCATACCTGCCCGAGCTGGGGAAGTCAGAGATG
GAGTTCATTGAAAGCAAGCGCCCTCGGCTAGAGCTGCTGCCTGACCCCCTGCTGCGACCG
TCACCCCTGCTGGCCACGGGCCAGCCTGCGGGATCTGAAGACCTCACCAAGGACCGTAGC
CTGACGGGCAAGCTGGAACCGGTGTCTCCCCCCAGCCCCCCGCACACTGACCCTGAGCTG
GAGCTGGTGCCGCCACGGCTGTCCAAGGAGGAGCTGATCCAGAACATGGACCGCGTGGAC
CGAGAGATCACCATGGTAGAGCAGCAGATCTCTAAGCTGAAGAAGAAGCAGCAACAGCTG
GAGGAGGAGGCTGCCAAGCCGCCCGAGCCTGAGAAGCCCGTGTCACCGCCGCCCATCGAG
TCGAAGCACCGCAGCCTGGTGCAGATCATCTACGACGAGAACCGGAAGAAGGCTGAAGCT
GCACATCGGATTCTGGAAGGCCTGGGGCCCCAGGTGGAGCTGCCGCTGTACAACCAGCCC
TCCGACACCCGGCAGTATCATGAGAACATCAAAATAAACCAGGCGATGCGGAAGAAGCTA
ATCTTGTACTTCAAGAGGAGGAATCACGCTCGGAAACAATGGGAGCAGAAGTTCTGCCAG
CGCTATGACCAGCTCATGGAGGCCTGGGAGAAGAAGGTGGAGCGCATCGAGAACAACCCC
CGGCGGCGGGCCAAGGAGAGCAAGGTGCGCGAGTACTACGAGAAGCAGTTCCCTGAGATC
CGCAAGCAGCGCGAGCTGCAGGAGCGCATGCAGAGCAGGGTGGGCCAGCGGGGCAGTGGG
CTGTCCATGTCGGCCGCCCGCAGCGAGCACGAGGTGTCAGAGATCATCGATGGCCTCTCA
GAGCAGGAGAACCTGGAGAAGCAGATGCGCCAGCTGGCCGTGATCCCGCCCATGCTGTAC
GACGCTGACCAGCAGCGCATCAAGTTCATCAACATGAACGGGCTTATGGCCGACCCCATG
AAGGTGTACAAAGACCGCCAGGTCATGAACATGTGGAGTGAGCAGGAGAAGGAGACCTTC
CGGGAGAAGTTCATGCAGCATCCCAAGAACTTTGGCCTGATCGCATCATTCCTGGAGAGG
AAGACAGTGGCTGAGTGCGTCCTCTATTACTACCTGACTAAGAAGAATGAGAACTATAAG
AGCCTGGTGAGACGGAGCTATCGGCGCCGCGGCAAGAGCCAGCAGCAGCAACAACAGCAG
CAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCCCATGCCCCGCAGCAGCCAGGAGGAGAAA
GATGAGAAGGAGAAGGAAAAGGAGGCGGAGAAGGAGGAGGAGAAGCCGGAGGTGGAGAAC
GACAAGGAAGACCTCCTCAAGGAGAAGACAGACGACACCTCAGGGGAGGACAACGACGAG
AAGGAGGCTGTGGCCTCCAAAGGCCGCAAAACTGCCAACAGCCAGGGAAGACGCAAAGGC
CGCATCACCCGCTCAATGGCTAATGAGGCCAACAGCGAGGAGGCCATCACCCCCCAGCAG
AGCGCCGAGCTGGCCTCCATGGAGCTGAATGAGAGTTCTCGCTGGACAGAAGAAGAAATG
GAAACAGCCAAGAAAGGTCTCCTGGAACACGGCCGCAACTGGTCGGCCATCGCCCGGATG
GTGGGCTCCAAGACTGTGTCGCAGTGTAAGAACTTCTACTTCAACTACAAGAAGAGGCAG
AACCTCGATGAGATCTTGCAGCAGCACAAGCTGAAGATGGAGAAGGAGAGGAACGCGCGG
AGGAAGAAGAAGAAAGCGCCGGCGGCGGCCAGCGAGGAGGCTGCATTCCCGCCCGTGGTG
GAGGATGAGGAGATGGAGGCGTCGGGCGTGAGCGGAAATGAGGAGGAGATGGTGGAGGAG
GCTGAAGCCTTACATGCCTCTGGGAATGAGGTGCCCAGAGGGGAATGCAGTGGCCCAGCC
ACTGTCAACAACAGCTCAGACACCGAGAGCATCCCCTCTCCTCACACTGAGGCCGCCAAG
GACACAGGGCAGAATGGGCCCAAGCCCCCAGCCACCCTGGGCGCCGACGGGCCACCCCCA
GGGCCACCCACCCCACCACCGGAGGACATCCCGGCCCCCACTGAGCCCACCCCGGCCTCT
GAAGCCACCGGAGCCCCTACGCCCCCACCAGCACCCCCATCGCCCTCTGCACCTCCTCCT
GTGGTCCCCAAGGAGGAGAAGGAGGAGGAGACCGCAGCAGCGCCCCCAGTGGAGGAGGGG
GAGGAGCAGAAGCCCCCCGCGGCTGAGGAGCTGGCAGTGGACACAGGGAAGGCCGAGGAG
CCCGTCAAGAGCGAGTGCACGGAGGAAGCCGAGGAGGGGCCGGCCAAGGGCAAGGACGCG
GAGGCCGCTGAGGCCACGGCCGAGGGGGCGCTCAAGGCAGAGAAGAAGGAGGGCGGGAGC
GGCAGGGCCACCACAGCCAAGAGCTCGGGCGCCCCCCAGGACAGCGACTCCAGTGCTACC
TGCAGTGCAGACGAGGTGGATGAGGCCGAGGGCGGCGACAAGAACCGGCTGCTGTCCCCA
AGGCCCAGCCTCCTCACCCCGACTGGCGACCCCCGGGCCAATGCCTCACCCCAGAAGCCA
CTGGACCTGAAGCAGCTGAAGCAGCGAGCGGCTGCCATCCCCCCCATCGTCACCAAAGTC
CATGAGCCCCCCCGGGAGGACGCAGCTCCCACCAAGCCAGCTCCCCCAGCCCCACCGCCA
CCGCAAAACCTGCAGCCGGAGAGCGACGCCCCTCAGCAGCCTGGCAGCAGCCCCCGGGGC
AAGAGCAGGAGCCCGGCACCCCCCGCCGACAAGGAGGCAGAGAAGCCTGTGTTCTTCCCA
GCCTTCGCAGCCGAGGCCCAGAAGCTGCCTGGGGACCCCCCTTGCTGGACTTCCGGCCTG
CCCTTCCCCGTGCCCCCCCGTGAGGTGATCAAGGCCTCCCCGCATGCCCCGGACCCCTCA
GCCTTCTCCTACGCTCCACCTGGTCACCCACTGCCCCTGGGCCTCCATGACACTGCCCGG
CCCGTCCTGCCGCGCCCACCCACCATCTCCAACCCGCCTCCCCTCATCTCCTCTGCCAAG
CACCCCAGCGTCCTCGAGAGGCAAATAGGTGCCATCTCCCAAGGAATGTCGGTCCAGCTC
CACGTCCCGTACTCAGAGCATGCCAAGGCCCCGGTGGGCCCTGTCACCATGGGGCTGCCC
CTGCCCATGGACCCCAAAAAGCTGGCACCCTTCAGCGGAGTGAAGCAGGAGCAGCTGTCC
CCACGGGGCCAGGCTGGGCCACCGGAGAGCCTGGGGGTGCCCACAGCCCAGGAGGCGTCC
GTGCTGAGAGGGACAGCTCTGGGCTCAGTTCCGGGCGGAAGCATCACCAAAGGCATTCCC
AGCACACGGGTGCCCTCGGACAGCGCCATCACATACCGCGGCTCCATCACCCACGGCACG
CCAGCTGACGTCCTGTACAAGGGCACCATCACCAGGATCATCGGCGAGGACAGCCCGAGT
CGCTTGGACCGCGGCCGGGAGGACAGCCTGCCCAAGGGCCACGTCATCTACGAAGGCAAG
AAGGGCCACGTCTTGTCCTATGAGGGTGGCATGTCTGTGACCCAGTGCTCCAAGGAGGAC
GGCAGAAGCAGCTCAGGACCCCCCCATGAGACGGCCGCCCCCAAGCGCACCTATGACATG
ATGGAGGGCCGCGTGGGCAGAGCCATCTCCTCAGCCAGCATCGAAGGTCTCATGGGCCGT
GCCATCCCGCCGGAGCGACACAGCCCCCACCACCTCAAAGAGCAGCACCACATCCGCGGG
TCCATCACACAAGGGATCCCTCGGTCCTACGTGGAGGCACAGGAGGACTACCTGCGTCGG
GAGGCCAAGCTCCTAAAGCGGGAGGGCACGCCTCCGCCCCCACCGCCCTCACGGGACCTG
ACCGAGGCCTACAAGACGCAGGCCCTGGGCCCCCTGAAGCTGAAGCCGGCCCATGAGGGC
CTGGTGGCCACGGTGAAGGAGGCGGGCCGCTCCATCCATGAGATCCCGCGCGAGGAGCTG
CGGCACACGCCCGAGCTGCCCCTGGCCCCGCGGCCGCTCAAGGAGGGCTCCATCACGCAG
GGCACCCCGCTCAAGTACGACACCGGCGCGTCCACCACTGGCTCCAAAAAGCACGACGTA
CGCTCCCTCATCGGCAGCCCCGGCCGGACGTTCCCACCCGTGCACCCGCTGGATGTGATG
GCCGACGCCCGGGCACTGGAACGTGCCTGCTACGAGGAGAGCCTGAAGAGCCGGCCAGGG
ACCGCCAGCAGCTCGGGGGGCTCCATTGCGCGCGGCGCCCCGGTCATTGTGCCTGAGCTG
GGTAAGCCGCGGCAGAGCCCCCTGACCTATGAGGACCACGGGGCACCCTTTGCCGGCCAC
CTCCCACGAGGTTCGCCCGTGACCACGCGGGAGCCCACGCCGCGCCTGCAGGAGGGCAGC
CTTTCGTCCAGCAAGGCATCCCAGGACCGAAAGCTGACGTCGACGCCTCGTGAGATCGCC
AAGTCCCCGCACAGCACCGTGCCCGAGCACCACCCACACCCCATCTCGCCCTATGAGCAC
CTGCTTCGGGGCGTGAGTGGCGTGGACCTGTATCGCAGCCACATCCCCCTGGCCTTCGAC
CCCACCTCCATACCCCGCGGCATCCCTCTGGACGCAGCCGCTGCCTACTACCTGCCCCGA
CACCTGGCCCCCAACCCCACCTACCCGCACCTGTACCCACCCTACCTCATCCGCGGCTAC
CCCGACACGGCGGCGCTGGAGAACCGGCAGACCATCATCAATGACTACATCACCTCGCAG
CAGATGCACCACAACGCGGCCACCGCCATGGCCCAGCGAGCTGATATGCTGAGGGGCCTC
TCGCCCCGCGAGTCCTCGCTGGCACTCAACTACGCTGCGGGTCCCCGAGGCATCATCGAC
CTGTCCCAAGTGCCACACCTGCCTGTGCTCGTGCCCCCGACACCAGGCACCCCAGCCACC
GCCATGGACCGCCTTGCCTACCTCCCCACCGCGCCCCAGCCCTTCAGCAGCCGCCACAGC
AGCTCCCCACTCTCCCCAGGAGGTCCAACACACTTGACAAAACCAACCACCACGTCCTCG
TCCGAGCGGGAGCGAGACCGGGATCGAGAGCGGGACCGGGATCGGGAGCGGGAAAAGTCC
ATCCTCACGTCCACCACGACGGTGGAGCACGCACCCATCTGGAGACCTGGTACAGAGCAG
AGCAGCGGCAGCAGCGGCAGCAGCGGCGGGGGTGGGGGCAGCAGCAGCCGCCCCGCCTCC
CACTCCCATGCCCACCAGCACTCGCCCATCTCCCCTCGGACCCAGGATGCCCTCCAGCAG
AGACCCAGTGTGCTTCACAACACAGGCATGAAGGGTATCATCACCGCTGTGGAGCCCAGC
ACGCCCACGGTCCTGAGGTCCACCTCCACCTCCTCACCCGTTCGCCCGGCTGCCACATTC
CCACCTGCCACCCACTGCCCACTGGGCGGCACCCTCGATGGGGTCTACCCTACCCTCATG
GAGCCCGTCTTGCTGCCCAAGGAGGCCCCCCGGGTCGCCCGGCCAGAGCGGCCCCGAGCA
GACACCGGCCATGCCTTCCTCGCCAAGCCCCCAGCCCGCTCCGGGCTGGAGCCCGCCTCC
TCCCCCAGCAAGGGCTCGGAGCCCCGGCCCCTAGTGCCTCCTGTCTCTGGCCACGCCACC
ATCGCCCGCACCCCTGCGAAGAACCTCGCACCTCACCACGCCAGCCCGGACCCGCCGGCG
CCACCTGCCTCGGCCTCGGACCCGCACCGGGAAAAGACTCAAAGTAAACCCTTTTCCATC
CAGGAACTGGAACTCCGTTCTCTGGGTTACCACGGCAGCAGCTACAGCCCCGAAGGGGTG
GAGCCCGTCAGCCCTGTGAGCTCACCCAGTCTGACCCACGACAAGGGGCTCCCCAAGCAC
CTGGAAGAGCTCGACAAGAGCCACCTGGAGGGGGAGCTGCGGCCCAAGCAGCCAGGCCCC
GTGAAGCTTGGCGGGGAGGCCGCCCACCTCCCACACCTGCGGCCGCTGCCTGAGAGCCAG
CCCTCGTCCAGCCCGCTGCTCCAGACCGCCCCAGGGGTCAAAGGTCACCAGCGGGTGGTC
ACCCTGGCCCAGCACATCAGTGAGGTCATCACACAGGACTACACCCGGCACCACCCACAG
CAGCTCAGCGCACCCCTGCCCGCCCCCCTCTACTCCTTCCCTGGGGCCAGCTGCCCCGTC
CTGGACCTCCGCCGCCCACCCAGTGACCTCTACCTCCCGCCCCCGGACCATGGTGCCCCG
GCCCGTGGCTCCCCCCACAGCGAAGGGGGCAAGAGGTCTCCAGAGCCAAACAAGACGTCG
GTCTTGGGTGGTGGTGAGGACGGTATTGAACCTGTGTCCCCACCGGAGGGCATGACGGAG
CCAGGGCACTCCCGGAGTGCTGTGTACCCGCTGCTGTACCGGGATGGGGAACAGACGGAG
CCCAGCAGGATGGGCTCCAAGTCTCCAGGCAACACCAGCCAGCCGCCAGCCTTCTTCAGC
AAGCTGACCGAGAGCAACTCCGCCATGGTCAAGTCCAAGAAGCAAGAGATCAACAAGAAG
CTGAACACCCACAACCGGAATGAGCCTGAATACAATATCAGCCAGCCTGGGACGGAGATC
TTCAATATGCCCGCCATCACCGGAACAGGCCTTATGACCTATAGAAGCCAGGCGGTGCAG
GAACATGCCAGCACCAACATGGGGCTGGAGGCCATAATTAGAAAGGCACTCATGGGTAAA
TATGACCAGTGGGAAGAGTCCCCGCCGCTCAGCGCCAATGCTTTTAACCCTCTGAATGCC
AGTGCCAGCCTGCCCGCTGCTATGCCCATAACCGCTGCTGACGGACGGAGTGACCACACA
CTCACCTCGCCAGGTGGCGGCGGGAAGGCCAAGGTCTCTGGCAGACCCAGCAGCCGAAAA
GCCAAGTCCCCGGCCCCGGGCCTGGCATCTGGGGACCGGCCACCCTCTGTCTCCTCAGTG
CACTCGGAGGGAGACTGCAACCGCCGGACGCCGCTCACCAACCGCGTGTGGGAGGACAGG
CCCTCGTCCGCAGGTTCCACGCCATTCCCCTACAACCCCCTGATCATGCGGCTGCAGGCG
GGTGTCATGGCTTCCCCACCCCCACCGGGCCTCCCCGCGGGCAGCGGGCCCCTCGCTGGC
CCCCACCACGCCTGGGACGAGGAGCCCAAGCCACTGCTCTGCTCGCAGTACGAGACACTC
TCCGACAGCGAGTGA
|
| Protein Properties |
|---|
| Number of Residues
| 2525 |
| Molecular Weight
| 274801.7 |
| Theoretical pI
| 7.63 |
| Pfam Domain Function
|
|
| Signals
|
|
|
Transmembrane Regions
|
|
| Protein Sequence
|
>Nuclear receptor corepressor 2
MSGSTQPVAQTWRATEPRYPPHSLSYPVQIARTHTDVGLLEYQHHSRDYASHLSPGSIIQ
PQRRRPSLLSEFQPGNERSQELHLRPESHSYLPELGKSEMEFIESKRPRLELLPDPLLRP
SPLLATGQPAGSEDLTKDRSLTGKLEPVSPPSPPHTDPELELVPPRLSKEELIQNMDRVD
REITMVEQQISKLKKKQQQLEEEAAKPPEPEKPVSPPPIESKHRSLVQIIYDENRKKAEA
AHRILEGLGPQVELPLYNQPSDTRQYHENIKINQAMRKKLILYFKRRNHARKQWEQKFCQ
RYDQLMEAWEKKVERIENNPRRRAKESKVREYYEKQFPEIRKQRELQERMQSRVGQRGSG
LSMSAARSEHEVSEIIDGLSEQENLEKQMRQLAVIPPMLYDADQQRIKFINMNGLMADPM
KVYKDRQVMNMWSEQEKETFREKFMQHPKNFGLIASFLERKTVAECVLYYYLTKKNENYK
SLVRRSYRRRGKSQQQQQQQQQQQQQQQQQPMPRSSQEEKDEKEKEKEAEKEEEKPEVEN
DKEDLLKEKTDDTSGEDNDEKEAVASKGRKTANSQGRRKGRITRSMANEANSEEAITPQQ
SAELASMELNESSRWTEEEMETAKKGLLEHGRNWSAIARMVGSKTVSQCKNFYFNYKKRQ
NLDEILQQHKLKMEKERNARRKKKKAPAAASEEAAFPPVVEDEEMEASGVSGNEEEMVEE
AEALHASGNEVPRGECSGPATVNNSSDTESIPSPHTEAAKDTGQNGPKPPATLGADGPPP
GPPTPPPEDIPAPTEPTPASEATGAPTPPPAPPSPSAPPPVVPKEEKEEETAAAPPVEEG
EEQKPPAAEELAVDTGKAEEPVKSECTEEAEEGPAKGKDAEAAEATAEGALKAEKKEGGS
GRATTAKSSGAPQDSDSSATCSADEVDEAEGGDKNRLLSPRPSLLTPTGDPRANASPQKP
LDLKQLKQRAAAIPPIQVTKVHEPPREDAAPTKPAPPAPPPPQNLQPESDAPQQPGSSPR
GKSRSPAPPADKEAEKPVFFPAFAAEAQKLPGDPPCWTSGLPFPVPPREVIKASPHAPDP
SAFSYAPPGHPLPLGLHDTARPVLPRPPTISNPPPLISSAKHPSVLERQIGAISQGMSVQ
LHVPYSEHAKAPVGPVTMGLPLPMDPKKLAPFSGVKQEQLSPRGQAGPPESLGVPTAQEA
SVLRGTALGSVPGGSITKGIPSTRVPSDSAITYRGSITHGTPADVLYKGTITRIIGEDSP
SRLDRGREDSLPKGHVIYEGKKGHVLSYEGGMSVTQCSKEDGRSSSGPPHETAAPKRTYD
MMEGRVGRAISSASIEGLMGRAIPPERHSPHHLKEQHHIRGSITQGIPRSYVEAQEDYLR
REAKLLKREGTPPPPPPSRDLTEAYKTQALGPLKLKPAHEGLVATVKEAGRSIHEIPREE
LRHTPELPLAPRPLKEGSITQGTPLKYDTGASTTGSKKHDVRSLIGSPGRTFPPVHPLDV
MADARALERACYEESLKSRPGTASSSGGSIARGAPVIVPELGKPRQSPLTYEDHGAPFAG
HLPRGSPVTTREPTPRLQEGSLSSSKASQDRKLTSTPREIAKSPHSTVPEHHPHPISPYE
HLLRGVSGVDLYRSHIPLAFDPTSIPRGIPLDAAAAYYLPRHLAPNPTYPHLYPPYLIRG
YPDTAALENRQTIINDYITSQQMHHNAATAMAQRADMLRGLSPRESSLALNYAAGPRGII
DLSQVPHLPVLVPPTPGTPATAMDRLAYLPTAPQPFSSRHSSSPLSPGGPTHLTKPTTTS
SSERERDRDRERDRDREREKSILTSTTTVEHAPIWRPGTEQSSGSSGSSGGGGGSSSRPA
SHSHAHQHSPISPRTQDALQQRPSVLHNTGMKGIITAVEPSTPTVLRSTSTSSPVRPAAT
FPPATHCPLGGTLDGVYPTLMEPVLLPKEAPRVARPERPRADTGHAFLAKPPARSGLEPA
SSPSKGSEPRPLVPPVSGHATIARTPAKNLAPHHASPDPPAPPASASDPHREKTQSKPFS
IQELELRSLGYHGSSYSPEGVEPVSPVSSPSLTHDKGLPKHLEELDKSHLEGELRPKQPG
PVKLGGEAAHLPHLRPLPESQPSSSPLLQTAPGVKGHQRVVTLAQHISEVITQDYTRHHP
QQLSAPLPAPLYSFPGASCPVLDLRRPPSDLYLPPPDHGAPARGSPHSEGGKRSPEPNKT
SVLGGGEDGIEPVSPPEGMTEPGHSRSAVYPLLYRDGEQTEPSRMGSKSPGNTSQPPAFF
SKLTESNSAMVKSKKQEINKKLNTHNRNEPEYNISQPGTEIFNMPAITGTGLMTYRSQAV
QEHASTNMGLEAIIRKALMGKYDQWEESPPLSANAFNPLNASASLPAAMPITAADGRSDH
TLTSPGGGGKAKVSGRPSSRKAKSPAPGLASGDRPPSVSSVHSEGDCNRRTPLTNRVWED
RPSSAGSTPFPYNPLIMRLQAGVMASPPPPGLPAGSGPLAGPHHAWDEEPKPLLCSQYET
LSDSE
|
| External Links |
|---|
| GenBank ID Protein
| 116256453 |
| UniProtKB/Swiss-Prot ID
| Q9Y618 |
| UniProtKB/Swiss-Prot Entry Name
| NCOR2_HUMAN |
| PDB IDs
|
|
| GenBank Gene ID
| Not Available |
| GeneCard ID
| NCOR2 |
| GenAtlas ID
| NCOR2 |
| HGNC ID
| HGNC:7673 |
| References |
|---|
| General References
| Not Available |