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Reviewed, UniProtKB/Swiss-Prot Q92793 (CBP_HUMAN)

Last modified September 2, 2008. Version 109. Feed History...

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Names and origin · Protein attributes · General annotation (Comments) · Ontologies · Binary interactions · Sequence annotation (Features) · Sequences · References · Web resources · Cross-references · Entry information · Relevant documents

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Names and origin

Protein namesRecommended name:
    CREB-binding protein
    EC=2.3.1.48
Gene names
Name: CREBBP
Synonyms: CBP
OrganismHomo sapiens (Human)
Taxonomic identifier9606 [NCBI]
Taxonomic lineageEukaryotaMetazoaChordataCraniataVertebrataEuteleostomiMammaliaEutheriaEuarchontogliresPrimatesHaplorrhiniCatarrhiniHominidaeHomo

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Protein attributes

Sequence length2442 AA.
Sequence statusComplete.
Sequence processingThe displayed sequence is not processed.
Protein existenceEvidence at protein level.

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General annotation (Comments)

Function

Acetylates histones, giving a specific tag for transcriptional activation. Also acetylates non-histone proteins, like NCOA3 coactivator. Binds specifically to phosphorylated CREB and enhances its transcriptional activity toward cAMP-responsive genes.

Catalytic activity

Acetyl-CoA + histone = CoA + acetylhistone.

Subunit structure

Found in a complex containing NCOA2; NCOA3; IKKA; IKKB and IKBKG. Probably part of a complex with HIF1A and EP300. Interacts with phosphorylated CREB1. Interacts with the C-terminal region of CITED4. The TAZ-type 1 domain interacts with HIF1A. Interacts with SRCAP, CARM1, ELF3, MLLT7/FOXO4, N4BP2, NCOA1, NCOA3, NCOA6, PCAF, PELP1, PML, SMAD1, SMAD2, SMAD3, SPIB and TRERF1. Interacts with HTLV-1 Tax and p30II. Interacts with HIV-1 Tat. Interacts with KLF1; the interaction results in acetylation of KLF1 and enhancement of its transcriptional activity. Interacts with ZCCHC12 By similarity.

Subcellular location

Nucleus.

Domain

The KIX domain mediates binding to HIV-1 Tat.

Post-translational modification

Methylation of the KIX domain by CARM1 blocks association with CREB. This results in the blockade of CREB signaling, and in activation of apoptotic response By similarity.

Phosphorylated upon DNA damage, probably by ATM or ATR.

Involvement in disease

Chromosomal aberrations involving CREBBP may be a cause of acute myeloid leukemias. Translocation t(8;16)(p11;p13) with MYST3/MOZ; translocation t(11;16)(q23;p13.3) with MLL/HRX; translocation t(10;16)(q22;p13) with MYST4/MORF. MYST3-CREBBP may induce leukemia by inhibiting RUNX1-mediated transcription.

Defects in CREBBP are a cause of Rubinstein-Taybi syndrome (RSTS) [MIM:180849]. RSTS is an autosomal dominant disorder characterized by craniofacial abnormalities, broad thumbs, broad big toes, mental retardation and a propensity for development of malignancies.

Sequence similarities

Contains 1 bromo domain.

Contains 1 KIX domain.

Contains 2 TAZ-type zinc fingers.

Contains 1 ZZ-type zinc finger.

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Ontologies

Keywords

   Biological processHost-virus interaction
Transcription
Transcription regulation
   Cellular componentNucleus
   Coding sequence diversityChromosomal rearrangement
   DiseaseDisease mutation
   DomainBromodomain
Repeat
Zinc-finger
   LigandMetal-binding
Zinc
   Molecular functionActivator
Transferase
   PTMAcetylation
Methylation
Phosphoprotein
   Technical term3D-structure

Gene Ontology (GO)

   Biological processN-terminal peptidyl-lysine acetylation

Inferred from direct assay. Source: UniProtKB

histone acetylation Ref.27

Inferred from direct assay. Source: UniProtKB

homeostatic process

Non-traceable author statement. Source: UniProtKB

positive regulation of transcription Ref.27

Inferred from direct assay. Source: UniProtKB

protein complex assembly

Traceable author statement. Source: ProtInc

regulation of transcription, DNA-dependent

Inferred from direct assay. Source: HGNC

response to hypoxia

Traceable author statement. Source: UniProtKB

signal transduction

Non-traceable author statement. Source: UniProtKB

   Cellular componentcytoplasm

Traceable author statement. Source: ProtInc

nucleus

Inferred by curator. Source: HGNC

   Molecular functionMyoD binding

Inferred from direct assay. Source: UniProtKB

histone acetyltransferase activity Ref.27

Inferred from direct assay. Source: UniProtKB

signal transducer activity

Traceable author statement. Source: ProtInc

transcription coactivator activity Ref.6

Inferred from direct assay. Source: UniProtKB

transcription factor activity

Traceable author statement. Source: ProtInc

Complete GO annotation...

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Sequence annotation (Features)

Feature keyPosition(s)LengthDescriptionGraphical view

Molecule processing

Chain1 – 24422442CREB-binding protein

Regions

Domain587 – 66680KIX
Domain1103 – 117573Bromo
Zinc finger347 – 43387TAZ-type 1
Zinc finger1701 – 174444ZZ-type
Zinc finger1765 – 184682TAZ-type 2
Region227 – 410184Interaction with SRCAP
Region1460 – 1891432Interaction with TRERF1
Compositional bias1061 – 10644Poly-Glu
Compositional bias1199 – 1487289Cys/His-rich
Compositional bias1555 – 15628Poly-Glu
Compositional bias1943 – 19486Poly-Pro
Compositional bias1967 – 19704Poly-Gln
Compositional bias2081 – 20855Poly-Gln
Compositional bias2199 – 221618Poly-Gln
Compositional bias2245 – 22484Poly-Gln
Compositional bias2297 – 23004Poly-Gln

Sites

Site29 – 302Breakpoint for translocation to form MYST4-CREBBP
Site266 – 2672Breakpoint for translocation to form MYST3-CREBBP

Amino acid modifications

Modified residue1241Phosphoserine
Modified residue6011Omega-N-methylated arginine By similarity
Modified residue6251Omega-N-methylated arginine By similarity
Modified residue10011Phosphothreonine
Modified residue10301Phosphoserine
Modified residue10721Phosphoserine
Modified residue15881N6-acetyllysine
Modified residue15911N6-acetyllysine
Modified residue15921N6-acetyllysine
Modified residue15951N6-acetyllysine
Modified residue15971N6-acetyllysine
Modified residue17551Phosphoserine

Natural variations

Natural variant11751Y → C in RSTS; mild form. dbSNP rs28937315.
Natural variant12781E → K in RSTS; abolishes acetyltransferase activity.
Natural variant13781R → P in RSTS; abolishes acetyltransferase activity and the ability of transactivate CREB.
Natural variant14141V → I: dbSNP rs130015.
Natural variant14471T → I in RSTS.
Natural variant14501Y → H in RSTS.
Natural variant14701H → R in RSTS.
Natural variant16641R → H in RSTS; abolishes acetyltransferase activity.

Experimental info

Sequence conflict1511 – 15133FAE → NSG in AAC51340. Ref.2
Sequence conflict1724 – 17252ED → VV in AAC51340. Ref.2
Sequence conflict17701L → V in AAC51770. Ref.1
Sequence conflict17891N → F in AAC51340. Ref.2
Sequence conflict18121T → P in AAC51340. Ref.2

Secondary structure

......................... 2442
Helix Strand Turn

Details...

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Sequences

Sequence LengthMass (Da)Tools
Q92793-1 [UniParc].

Last modified October 17, 2006. Version 3.
Checksum: 3BEA9B8558BA1A5E

FASTA2,442265,351
        10         20         30         40         50         60 
MAENLLDGPP NPKRAKLSSP GFSANDSTDF GSLFDLENDL PDELIPNGGE LGLLNSGNLV 

        70         80         90        100        110        120 
PDAASKHKQL SELLRGGSGS SINPGIGNVS ASSPVQQGLG GQAQGQPNSA NMASLSAMGK 

       130        140        150        160        170        180 
SPLSQGDSSA PSLPKQAAST SGPTPAASQA LNPQAQKQVG LATSSPATSQ TGPGICMNAN 

       190        200        210        220        230        240 
FNQTHPGLLN SNSGHSLINQ ASQGQAQVMN GSLGAAGRGR GAGMPYPTPA MQGASSSVLA 

       250        260        270        280        290        300 
ETLTQVSPQM TGHAGLNTAQ AGGMAKMGIT GNTSPFGQPF SQAGGQPMGA TGVNPQLASK 

       310        320        330        340        350        360 
QSMVNSLPTF PTDIKNTSVT NVPNMSQMQT SVGIVPTQAI ATGPTADPEK RKLIQQQLVL 

       370        380        390        400        410        420 
LLHAHKCQRR EQANGEVRAC SLPHCRTMKN VLNHMTHCQA GKACQVAHCA SSRQIISHWK 

       430        440        450        460        470        480 
NCTRHDCPVC LPLKNASDKR NQQTILGSPA SGIQNTIGSV GTGQQNATSL SNPNPIDPSS 

       490        500        510        520        530        540 
MQRAYAALGL PYMNQPQTQL QPQVPGQQPA QPQTHQQMRT LNPLGNNPMN IPAGGITTDQ 

       550        560        570        580        590        600 
QPPNLISESA LPTSLGATNP LMNDGSNSGN IGTLSTIPTA APPSSTGVRK GWHEHVTQDL 

       610        620        630        640        650        660 
RSHLVHKLVQ AIFPTPDPAA LKDRRMENLV AYAKKVEGDM YESANSRDEY YHLLAEKIYK 

       670        680        690        700        710        720 
IQKELEEKRR SRLHKQGILG NQPALPAPGA QPPVIPQAQP VRPPNGPLSL PVNRMQVSQG 

       730        740        750        760        770        780 
MNSFNPMSLG NVQLPQAPMG PRAASPMNHS VQMNSMGSVP GMAISPSRMP QPPNMMGAHT 

       790        800        810        820        830        840 
NNMMAQAPAQ SQFLPQNQFP SSSGAMSVGM GQPPAQTGVS QGQVPGAALP NPLNMLGPQA 

       850        860        870        880        890        900 
SQLPCPPVTQ SPLHPTPPPA STAAGMPSLQ HTTPPGMTPP QPAAPTQPST PVSSSGQTPT 

       910        920        930        940        950        960 
PTPGSVPSAT QTQSTPTVQA AAQAQVTPQP QTPVQPPSVA TPQSSQQQPT PVHAQPPGTP 

       970        980        990       1000       1010       1020 
LSQAAASIDN RVPTPSSVAS AETNSQQPGP DVPVLEMKTE TQAEDTEPDP GESKGEPRSE 

      1030       1040       1050       1060       1070       1080 
MMEEDLQGAS QVKEETDIAE QKSEPMEVDE KKPEVKVEVK EEEESSSNGT ASQSTSPSQP 

      1090       1100       1110       1120       1130       1140 
RKKIFKPEEL RQALMPTLEA LYRQDPESLP FRQPVDPQLL GIPDYFDIVK NPMDLSTIKR 

      1150       1160       1170       1180       1190       1200 
KLDTGQYQEP WQYVDDVWLM FNNAWLYNRK TSRVYKFCSK LAEVFEQEID PVMQSLGYCC 

      1210       1220       1230       1240       1250       1260 
GRKYEFSPQT LCCYGKQLCT IPRDAAYYSY QNRYHFCEKC FTEIQGENVT LGDDPSQPQT 

      1270       1280       1290       1300       1310       1320 
TISKDQFEKK KNDTLDPEPF VDCKECGRKM HQICVLHYDI IWPSGFVCDN CLKKTGRPRK 

      1330       1340       1350       1360       1370       1380 
ENKFSAKRLQ TTRLGNHLED RVNKFLRRQN HPEAGEVFVR VVASSDKTVE VKPGMKSRFV 

      1390       1400       1410       1420       1430       1440 
DSGEMSESFP YRTKALFAFE EIDGVDVCFF GMHVQEYGSD CPPPNTRRVY ISYLDSIHFF 

      1450       1460       1470       1480       1490       1500 
RPRCLRTAVY HEILIGYLEY VKKLGYVTGH IWACPPSEGD DYIFHCHPPD QKIPKPKRLQ 

      1510       1520       1530       1540       1550       1560 
EWYKKMLDKA FAERIIHDYK DIFKQATEDR LTSAKELPYF EGDFWPNVLE ESIKELEQEE 

      1570       1580       1590       1600       1610       1620 
EERKKEESTA ASETTEGSQG DSKNAKKKNN KKTNKNKSSI SRANKKKPSM PNVSNDLSQK 

      1630       1640       1650       1660       1670       1680 
LYATMEKHKE VFFVIHLHAG PVINTLPPIV DPDPLLSCDL MDGRDAFLTL ARDKHWEFSS 

      1690       1700       1710       1720       1730       1740 
LRRSKWSTLC MLVELHTQGQ DRFVYTCNEC KHHVETRWHC TVCEDYDLCI NCYNTKSHAH 

      1750       1760       1770       1780       1790       1800 
KMVKWGLGLD DEGSSQGEPQ SKSPQESRRL SIQRCIQSLV HACQCRNANC SLPSCQKMKR 

      1810       1820       1830       1840       1850       1860 
VVQHTKGCKR KTNGGCPVCK QLIALCCYHA KHCQENKCPV PFCLNIKHKL RQQQIQHRLQ 

      1870       1880       1890       1900       1910       1920 
QAQLMRRRMA TMNTRNVPQQ SLPSPTSAPP GTPTQQPSTP QTPQPPAQPQ PSPVSMSPAG 

      1930       1940       1950       1960       1970       1980 
FPSVARTQPP TTVSTGKPTS QVPAPPPPAQ PPPAAVEAAR QIEREAQQQQ HLYRVNINNS 

      1990       2000       2010       2020       2030       2040 
MPPGRTGMGT PGSQMAPVSL NVPRPNQVSG PVMPSMPPGQ WQQAPLPQQQ PMPGLPRPVI 

      2050       2060       2070       2080       2090       2100 
SMQAQAAVAG PRMPSVQPPR SISPSALQDL LRTLKSPSSP QQQQQVLNIL KSNPQLMAAF 

      2110       2120       2130       2140       2150       2160 
IKQRTAKYVA NQPGMQPQPG LQSQPGMQPQ PGMHQQPSLQ NLNAMQAGVP RPGVPPQQQA 

      2170       2180       2190       2200       2210       2220 
MGGLNPQGQA LNIMNPGHNP NMASMNPQYR EMLRRQLLQQ QQQQQQQQQQ QQQQQQGSAG 

      2230       2240       2250       2260       2270       2280 
MAGGMAGHGQ FQQPQGPGGY PPAMQQQQRM QQHLPLQGSS MGQMAAQMGQ LGQMGQPGLG 

      2290       2300       2310       2320       2330       2340 
ADSTPNIQQA LQQRILQQQQ MKQQIGSPGQ PNPMSPQQHM LSGQPQASHL PGQQIATSLS 

      2350       2360       2370       2380       2390       2400 
NQVRSPAPVQ SPRPQSQPPH SSPSPRIQPQ PSPHHVSPQT GSPHPGLAVT MASSIDQGHL 

      2410       2420       2430       2440 
GNPEQSAMLP QLNTPSRSAL SSELSLVGDT TGDTLEKFVE GL

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References

« Hide 'large scale' references
[1]"MLL is fused to CBP, a histone acetyltransferase, in therapy-related acute myeloid leukemia with a t(11;16)(q23;p13.3)."
Sobulo O.M., Borrow J., Tomek R., Reshimi S., Harden A., Schlegelberger B., Housman D., Doggett N.A., Rowley J.D., Zeleznik-Le N.J.
Proc. Natl. Acad. Sci. U.S.A. 94:8732-8737(1997) [PubMed: 9238046] [Abstract]
Cited for: NUCLEOTIDE SEQUENCE [MRNA].
[2]"Construction of a 1.2-Mb contig surrounding, and molecular analysis of, the human CREB-binding protein (CBP/CREBBP) gene on chromosome 16p13.3."
Giles R.H., Petrij F., Dauwerse H.G., den Hollander A.I., Lushnikova T., van Ommen G.J.B., Goodman R.H., Deaven L.L., Doggett N.A., Peters D.J.M., Breuning M.H.
Genomics 42:96-114(1997) [PubMed: 9177780] [Abstract]
Cited for: NUCLEOTIDE SEQUENCE [MRNA].
[3]Petrij F., den Hollander A.I., Chrivia J.C.
Submitted (MAR-1999) to the EMBL/GenBank/DDBJ databases
Cited for: SEQUENCE REVISION TO 1724-1725; 1789 AND 1812.
[4]"The translocation t(8;16)(p11;p13) of acute myeloid leukaemia fuses a putative acetyltransferase to the CREB-binding protein."
Borrow J., Stanton V.P. Jr., Andresen J.M., Becher R., Behm F.G., Chaganti R.S.K., Civin C.I., Disteche C., Dube I., Frischauf A.M., Horsman D., Mitelman F., Volinia S., Watmore A.E., Housman D.E.
Nat. Genet. 14:33-41(1996) [PubMed: 8782817] [Abstract]
Cited for: NUCLEOTIDE SEQUENCE [MRNA] OF 1-405, CHROMOSOMAL TRANSLOCATION WITH MYST3.
[5]"Fusion of the MORF and CBP genes in acute myeloid leukemia with the t(10;16)(q22;p13)."
Panagopoulos I., Fioretos T., Isaksson M., Samuelsson U., Billstroem R., Stroembeck B., Mitelman F., Johansson B.
Hum. Mol. Genet. 10:395-404(2001) [PubMed: 11157802] [Abstract]
Cited for: NUCLEOTIDE SEQUENCE [MRNA] OF 1-83, CHROMOSOMAL TRANSLOCATION WITH MYST4.
[6]"A p300/CBP-associated factor that competes with the adenoviral oncoprotein E1A."
Yang X.-J., Ogryzko V.V., Nishikawa J., Howard B.H., Nakatani Y.
Nature 382:319-324(1996) [PubMed: 8684459] [Abstract]
Cited for: INTERACTION WITH PCAF.
[7]"An essential role for p300/CBP in the cellular response to hypoxia."
Arany Z., Huang L.E., Eckner R., Bhattacharya S., Jiang C., Goldberg M.A., Bunn H.F., Livingston D.M.
Proc. Natl. Acad. Sci. U.S.A. 93:12969-12973(1996) [PubMed: 8917528] [Abstract]
Cited for: INTERACTION WITH HIF1A AND EP300.
[8]"Differential transcriptional activation by human T-cell leukemia virus type 1 Tax mutants is mediated by distinct interactions with CREB binding protein and p300."
Bex F., Yin M.-J., Burny A., Gaynor R.B.
Mol. Cell. Biol. 18:2392-2405(1998) [PubMed: 9528808] [Abstract]
Cited for: INTERACTION WITH HTLV-1 TAX.
[9]"Acetylation and modulation of erythroid Krueppel-like factor (EKLF) activity by interaction with histone acetyltransferases."
Zhang W., Bieker J.J.
Proc. Natl. Acad. Sci. U.S.A. 95:9855-9860(1998) [PubMed: 9707565] [Abstract]
Cited for: INTERACTION WITH KLF1, FUNCTION.
[10]"Identification of a novel SNF2/SWI2 protein family member, SRCAP, which interacts with CREB-binding protein."
Johnston H., Kneer J., Chackalaparampil I., Yaciuk P., Chrivia J.
J. Biol. Chem. 274:16370-16376(1999) [PubMed: 10347196] [Abstract]
Cited for: INTERACTION WITH SRCAP.
[11]"Modulation of CREB binding protein function by the promyelocytic (PML) oncoprotein suggests a role for nuclear bodies in hormone signaling."
Doucas V., Tini M., Egan D.A., Evans R.M.
Proc. Natl. Acad. Sci. U.S.A. 96:2627-2632(1999) [PubMed: 10077561] [Abstract]
Cited for: INTERACTION WITH PML.
[12]"Regulation of hormone-induced histone hyperacetylation and gene activation via acetylation of an acetylase."
Chen H., Lin R.J., Xie W., Wilpitz D., Evans R.M.
Cell 98:675-686(1999) [PubMed: 10490106] [Abstract]
Cited for: ACETYLATION OF NCOA3.
[13]