- Transcript 'Harore.CG.MTP2014.S4...' >
- Transcript 'KH2012:KH.L152.39.v1...'
Transcript Model
Transcript Id
KH2012:KH.L152.39.v1.A.SL1-1
Possible name(s)
BAZ1B; TAF1; TAF1L
Gene model
Location
KhL152 [353,326 / 368,217]
Amino acid sequence
Length: 1,525
>KH.L152.39.v1.A.SL1-1
KLIETKMPFLGKKIFDGGVTSSGVTSSGVISSGMTRSGVTSPKVTSPDVTSPGATSPEVT
PQEVAPQEVTSPDVTPPDVTPQEVTSPDVTSSGVTSPDVTSPDVTSPDVTSPDVTSPDVT
SPDVTSPDVTPPDVTPQEVTSPDVTSSGVTSPAVTSQKKKFTIPHTKETFDDETEYNERL
KLYEKRVWTCQCTGHINLTHENAMLSEASCRERLLQTYDEVWMEPVLKLVHHSFLPLESI
VAQAYNLLLTNYVHGETVKFTAKPGVSFDAKIEEQHLETNEVDLNKTDETEPSISPTTSD
VTHVNNGETLADKPVTVSPSSDKENKRQSLITDIFKTDIRRSTRSPSAVVRSGVSLKKRP
KIIPAKYNILLVEENKIVSKVPSEHLSRTMKPPNRDNIRLFIRSSAMRPNNSKKKIPWLV
SEDLVCKYSLPSRITPEEVTELIQLSTITTQQYFNNADPLLSINGHNNCNGDIIEVEELE
EFKSEKNKKRKSEKLNLSPNKKARKETKEGKSPLDVFLKKASKIVKEDIINGENSLQRHG
SSRKSASPKKKKQATLLELTKKGSIKMMSSRAPTKPRSTGKSRKPRQPLIILQLLSLKKE
KRFRAHKYKLTVTAACKILTEKQRENLPLEVKEDVLKKWELFEFKRKYDSLSISERKAFL
AERRKAKRGSLVEETNQSDKFEDQHLSRMASCRQLPTMELVELPDSLPNTSFGNVAMICE
FIHSYHHLLAPKEPAFHKQFNFNNVIEAVTMGRKGYSLTSRILVVLLQTLLADDIAKDYM
ELGYRLNQVQVTPTICCELMRICLRQNDDELDEEKSDSNSNIGSCDSELADSTFRRMYEL
ELYDMEPPEQIDVLAALTYRVMNTYAVQIHIEDTTEKATTIYKKVLQQKKEKKLYEVPKK
KESNEEPSIDPYFVKNPIKAEDVEDEGIDLKRKMLSEKHRREEEERRRRIREEEEVILQE
QRSKQESERADRQLEETRTLARHLRRRLPLGTDRNHSRYWLFCDGIPGFYVEKGWVNDNI
DYSTHVDINTAPATPKKTGGSPSKSPKKRMKVDHSSDDDVPLAQMSPSKKPRFRKSKEEV
TWPHVGLNLWHSIDDQQQLDHLVSSLCNNGIRESRLLKSIRKHYDVIVKSMERKKQLLEP
SEAPSRRSGAPSDGEELHRSFIKKNMRSMIHDACRGGLATVTEPEVLEQRVEVAETVQEF
ALLLLEFHEHILPNCFKPYLAVNSETASDRERAKAAKRLLKWRQAVEEVSLFSRFTLLFT
FLNTSIKWEMYHYQRISRRRVTRNRNYADINNGVIEEEESEEEDETIESEEEMNQRRSSR
LRQRKGTKKVVEEVRERRVRRKPRYMEEYDDDDDVEEQEQEEEEEEEEEMEEGSEEEGGS
ESGEEEEEEEEEGLVCKRIIEKLIGYQYSELFRHPVDVTIVPDYYDIVTRPISLYEIVGK
IDGTNPDVGLPFPRSTRRSSHNNYTYELLMDDMKLLVDNAALYNSPDSYTMKQARRLELS
FVRLCKENFDTDELVTRLNSLFKRK
Nucleotide sequence
Length: 4,885
>KH2012:KH.L152.39.v1.A.SL1-1
GGTTCAGAGAGCTTTCATAAACATGGGCCGTGGTAGAAATTAATTGAAACAAAGATGCCG
TTCCTTGGTAAGAAGATATTTGATGGGGGTGTGACGTCATCAGGTGTGACGTCATCGGGT
GTGATATCATCGGGTATGACGAGATCAGGTGTGACATCACCAAAAGTGACATCACCAGAC
GTGACATCACCAGGCGCGACATCACCAGAGGTTACACCACAAGAAGTGGCACCACAAGAA
GTGACATCACCAGACGTGACACCACCAGACGTTACACCACAAGAAGTGACATCACCAGAC
GTGACATCATCAGGTGTGACATCACCAGACGTGACATCACCAGACGTGACATCACCAGAC
GTGACATCACCAGACGTGACATCACCAGACGTGACATCACCAGACGTGACATCACCAGAT
GTGACACCACCAGACGTTACACCACAAGAAGTGACATCACCAGACGTGACATCATCAGGT
GTGACATCACCAGCAGTGACATCACAAAAGAAGAAGTTCACCATCCCGCACACTAAGGAG
ACTTTTGATGATGAAACCGAATACAACGAACGATTGAAACTTTATGAGAAGAGAGTTTGG
ACTTGCCAGTGCACGGGTCATATCAACCTAACCCATGAAAATGCTATGCTGTCTGAGGCT
TCTTGTAGGGAAAGACTCCTCCAAACGTACGATGAGGTGTGGATGGAACCGGTGTTGAAG
CTCGTCCATCATTCATTCTTGCCACTAGAGAGCATTGTTGCGCAAGCTTACAATTTATTG
CTGACTAATTACGTGCACGGAGAAACAGTGAAGTTCACTGCTAAACCTGGAGTATCTTTT
GACGCCAAAATAGAGGAGCAACATCTTGAAACCAACGAGGTTGATTTGAATAAAACTGAT
GAAACCGAACCCTCCATTTCACCCACTACGTCGGATGTCACCCATGTTAACAACGGGGAA
ACTCTGGCAGACAAACCTGTCACTGTATCGCCATCTAGTGACAAAGAAAATAAGCGACAG
TCGCTGATAACGGACATCTTTAAAACTGATATTCGTCGTTCCACCCGATCACCAAGTGCG
GTGGTTAGAAGCGGCGTCTCGTTGAAGAAAAGACCTAAAATAATCCCGGCTAAATACAAT
ATACTGCTGGTTGAAGAGAATAAGATTGTGAGCAAAGTTCCAAGCGAGCATTTATCGCGA
ACCATGAAACCACCCAACCGCGATAACATTCGCTTGTTTATTCGATCAAGCGCGATGCGT
CCGAATAATTCTAAGAAGAAGATCCCGTGGTTGGTCAGCGAGGATTTGGTTTGTAAATAT
TCACTGCCAAGTCGAATAACACCAGAGGAAGTCACGGAATTAATACAACTCTCCACCATC
ACCACACAGCAATATTTCAACAATGCTGATCCTCTTTTATCGATTAACGGACATAATAAT
TGCAATGGTGACATCATAGAGGTGGAAGAATTAGAGGAATTCAAATCGGAGAAAAATAAA
AAACGAAAATCCGAGAAACTTAATTTAAGTCCGAACAAAAAAGCTCGGAAGGAAACCAAA
GAAGGGAAATCCCCTCTTGACGTTTTTTTAAAGAAAGCGTCCAAGATTGTAAAAGAAGAT
ATCATAAACGGGGAAAACTCGTTACAAAGGCACGGCTCATCTAGAAAGAGCGCTTCACCT
AAAAAGAAGAAGCAAGCCACATTATTGGAGTTAACGAAGAAAGGGAGCATCAAGATGATG
TCATCCCGTGCTCCAACTAAACCAAGATCAACGGGGAAATCCAGGAAACCCCGGCAACCA
TTGATTATTCTTCAACTGCTTTCATTGAAGAAAGAAAAACGATTCAGAGCTCATAAATAT
AAGCTTACTGTAACCGCGGCATGCAAGATCCTGACAGAAAAGCAACGCGAGAATTTACCC
CTCGAAGTAAAAGAGGATGTTTTAAAGAAATGGGAATTATTTGAGTTCAAGCGAAAATAT
GACTCGTTGTCGATTTCTGAAAGGAAAGCGTTTCTTGCCGAACGTAGAAAAGCCAAAAGG
GGATCGCTTGTGGAAGAAACGAACCAGAGCGATAAGTTTGAAGACCAGCACTTGTCGAGA
ATGGCAAGTTGTAGACAACTCCCCACTATGGAGCTGGTAGAACTGCCTGATTCACTCCCC
AACACATCGTTTGGTAACGTGGCCATGATCTGCGAGTTTATTCATTCATATCATCACCTA
CTCGCACCAAAGGAACCAGCCTTTCATAAACAATTTAATTTCAACAATGTTATTGAAGCT
GTTACGATGGGAAGGAAGGGGTATTCCCTTACAAGTCGTATATTGGTTGTTTTGCTTCAA
ACATTACTTGCTGATGATATTGCCAAGGACTACATGGAGCTGGGGTATAGGTTGAACCAG
GTCCAAGTCACCCCCACTATTTGTTGCGAACTGATGCGGATTTGTCTTCGGCAAAACGAC
GACGAACTGGACGAGGAGAAAAGTGATTCCAACTCCAACATTGGGTCATGTGACTCGGAA
CTCGCAGATTCCACATTCCGTCGCATGTACGAACTTGAGTTGTACGACATGGAACCACCG
GAGCAGATAGATGTGTTAGCTGCCCTCACATATAGAGTGATGAACACGTACGCTGTACAA
ATACATATAGAAGACACTACGGAAAAAGCAACCACTATTTATAAGAAAGTTTTGCAGCAG
AAGAAAGAAAAGAAATTATATGAGGTTCCCAAGAAAAAGGAGTCAAATGAAGAACCTTCC
ATCGACCCATATTTTGTGAAGAATCCGATTAAAGCTGAAGATGTGGAAGATGAGGGGATT
GACCTTAAGAGAAAGATGTTGAGTGAGAAACACAGGAGGGAGGAGGAGGAGAGGAGGAGG
AGGATAAGAGAAGAGGAGGAAGTGATCCTCCAGGAGCAGAGGAGTAAACAAGAGTCGGAG
AGAGCAGATCGCCAATTGGAGGAAACGAGGACGCTCGCTCGTCATCTGAGGAGGCGGCTT
CCATTGGGCACCGATCGTAACCATAGCAGGTACTGGTTGTTCTGCGATGGTATTCCAGGT
TTCTATGTTGAGAAGGGGTGGGTTAATGATAACATTGATTATTCAACCCACGTCGACATT
AACACCGCCCCTGCTACACCTAAGAAAACTGGAGGTTCCCCAAGTAAAAGTCCGAAGAAG
CGAATGAAAGTCGATCATTCGTCCGATGATGACGTTCCTCTCGCTCAGATGTCGCCGAGT
AAGAAACCTCGGTTCCGTAAGTCCAAGGAAGAAGTGACGTGGCCTCACGTTGGATTGAAC
CTATGGCATTCCATCGACGACCAACAACAACTCGATCATTTGGTTTCATCTTTGTGTAAC
AACGGGATCCGCGAATCAAGGCTCCTCAAATCCATAAGGAAGCATTATGATGTCATTGTT
AAGTCAATGGAGCGGAAGAAACAACTTCTCGAACCCAGTGAGGCCCCGTCTCGTCGCTCT
GGTGCGCCCTCTGATGGGGAGGAACTGCACCGCTCGTTTATTAAGAAGAACATGCGTTCG
ATGATCCATGACGCTTGTCGTGGCGGGCTGGCGACCGTCACCGAGCCCGAGGTGTTGGAA
CAACGGGTCGAGGTCGCCGAGACTGTGCAAGAGTTTGCTCTCTTGTTGCTCGAGTTCCAC
GAACATATATTGCCCAATTGTTTCAAACCTTACTTGGCCGTGAACTCGGAAACAGCATCG
GACCGAGAACGGGCGAAAGCAGCGAAGCGTTTATTAAAATGGCGGCAAGCAGTTGAAGAA
GTTTCTTTATTTTCAAGATTCACGTTGTTGTTTACTTTCCTCAATACTTCTATTAAATGG
GAAATGTACCATTATCAACGCATTTCTCGTCGAAGAGTTACCCGTAATCGAAATTACGCC
GACATTAACAATGGAGTTATTGAAGAGGAAGAAAGTGAGGAGGAGGATGAAACAATAGAA
TCTGAGGAGGAAATGAACCAACGACGATCGAGTCGACTTCGACAACGAAAAGGAACCAAG
AAAGTTGTTGAAGAAGTTCGTGAGCGCCGAGTCAGACGGAAACCTCGATACATGGAGGAG
TATGATGATGATGATGACGTGGAAGAGCAAGAGCAAGAGGAGGAGGAAGAGGAGGAGGAG
GAGATGGAGGAGGGAAGTGAAGAGGAGGGTGGGAGTGAGAGTGGGGAGGAGGAGGAAGAG
GAGGAGGAGGAGGGGTTGGTCTGCAAGAGGATAATCGAGAAATTGATCGGATATCAATAT
TCAGAGTTGTTTAGACACCCGGTCGACGTCACCATCGTGCCCGATTATTACGACATCGTC
ACGCGACCAATTTCCCTCTACGAGATCGTGGGAAAGATTGACGGAACGAACCCTGACGTG
GGACTCCCTTTCCCGAGGTCTACACGAAGAAGTTCTCACAATAACTATACATATGAACTA
CTGATGGATGATATGAAACTATTAGTTGATAATGCTGCGTTGTATAACTCTCCTGACTCT
TACACGATGAAACAGGCACGAAGGTTGGAACTATCATTTGTAAGATTGTGTAAAGAGAAT
TTCGATACCGATGAATTGGTCACCAGACTTAACAGTTTGTTTAAACGAAAATAGAAATCT
TATATTTCACATTGAAATCTTATTTTTCGCATAAAAATATTTTTTTTGCATCAGGCAAAA
TTTTAGTTCGAAAAAAGTTATGAATTTTCTCTCGATTTTATGTTTTGGGGATTTTCCCCA
AACCAGGATCATAACATAGACATCTTGCACCAAACGTTGTAAATATATTTTGACTTCTAG
GCAATTTGTCGCCCATGTGTATATAGTATGTTGGGGTAAGATGGGATACGTTTTCATTAT
TTTTTATCGTCCCATTTGGTGAAAC
| ProSiteProfiles |
WSTF_Acf1_Cbp146 (IPR013136) - T[158-264] 27.75 |
| Pfam |
WSTF_Acf1_Cbp146 (IPR013136) - T[160-258] 1.2E-22 |
| ProSiteProfiles |
DDT_dom (IPR018501) - T[709-776] 11.307 |
| SMART |
DDT_dom (IPR018501) - T[709-776] 1.5E-6 |
| Pfam |
WHIM2_dom (IPR028941) - T[986-1123] 2.5E-16 |
| Gene3D |
Bromodomain-like_sf (IPR036427) - T[1353-1516] 9.3E-23 |
| SMART |
Bromodomain (IPR001487) - T[1385-1510] 5.3E-11 |
| SUPERFAMILY |
Bromodomain-like_sf (IPR036427) - T[1391-1512] 8.63E-22 |
| Pfam |
Bromodomain (IPR001487) - T[1396-1495] 1.1E-11 |
| ProSiteProfiles |
Bromodomain (IPR001487) - T[1404-1491] 14.721 |
| PRINTS |
Bromodomain (IPR001487) - T[1407-1420] 7.4E-7 - T[1421-1437] 7.4E-7 - T[1472-1491] 7.4E-7 |
| Protein Name | Identity | Bit Score | e-value |
|---|---|---|---|
| BAZ1B_HUMAN | 29.879 % | 444 | 1.96E-131 |