Tag |
Content |
WERAM ID |
WERAM-Sac-0022 |
Ensembl Protein ID |
YIL126W |
Uniprot Accession |
P32597; STH1_YEAST; D6VVG1; Q45U09 |
Genbank Protein ID |
NP_012140.1 |
Protein Name |
Nuclear protein STH1/NPS1 |
Genbank Nucleotide ID |
NM_001179474.1 |
Gene Name |
STH1;NPS1;YIL126W |
Ensembl Information |
|
Details |
Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
Ac_Reader |
Bromodomain |
Bromodomain |
|
K |
12419247 |
|
Status |
Reviewed |
Classification |
Type |
Family |
E-value |
Score |
Start |
End |
Ac_Reader |
Bromodomain |
8.80e-16 |
56.2 |
435 |
1340 |
|
Organism |
Saccharomyces cerevisiae |
NCBI Taxa ID |
559292 |
Functional Description (View)Functional Description
Catalytic component of the chromatin structure-remodeling complex (RSC), which is involved in transcription regulation and nucleosome positioning. RSC is responsible for the transfer of a histone octamer from a nucleosome core particle to naked DNA. The reaction requires ATP and involves an activated RSC-nucleosome intermediate. Remodeling reaction also involves DNA translocation, DNA twist and conformational change. As a reconfigurer of centromeric and flanking nucleosomes, RSC complex is required both for proper kinetochore function in chromosome segregation and, via a PKC1-dependent signaling pathway, for organization of the cellular cytoskeleton. This subunit is the essential ATPase of the complex. It is a DNA translocase capable of nucleosome remodeling. Required for full expression of early meiotic genes. Essential for mitotic growth and repression of CHA1 expression. Also involved in G2 phase control. |
Catalytic component of the chromatin structure-remodeling complex (RSC), which is involved in transcription regulation and nucleosome positioning. RSC is responsible for the transfer of a histone octamer from a nucleosome core particle to naked DNA. The reaction requires ATP and involves an activated RSC-nucleosome intermediate. Remodeling reaction also involves DNA translocation, DNA twist and conformational change. As a reconfigurer of centromeric and flanking nucleosomes, RSC complex is required both for proper kinetochore function in chromosome segregation and, via a PKC1-dependent signaling pathway, for organization of the cellular cytoskeleton. This subunit is the essential ATPase of the complex. It is a DNA translocase capable of nucleosome remodeling. Required for full expression of early meiotic genes. Essential for mitotic growth and repression of CHA1 expression. Also involved in G2 phase control.
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Domain Profile |
Ac_Reader Bromodomain
BROMO.txt 11 epvdpq.leipdYydi...ike 28 +p + e +dYy++ ike YIL126W 435 QPITDEeREKTDYYEVahrIKE 456 56666668889***99666665 PP BROMO.txt 2 ehevsepFrepvdpqleipdYydiikePmdLstikerleegnYsspeefvkDvrlifnNakaynenkssvq 72 +h+ ++F++ + ++pdY+++i++Pm ++ i +++++g Y+++ee+ + ++ +f+Na+ yne++s v+ YIL126W 1271 SHPRTSIFEKLPSK-RDYPDYFKVIEKPMAIDIILKNCKNGTYKTLEEVRQALQTMFENARFYNEEGSWVY 1340 5889999*776666.49*************************************************99886 PP
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Protein Sequence (Fasta) | MLQEQSELMS TVMNNTPTTV AALAAVAAAS ETNGKLGSEE QPEITIPKPR SSAQLEQLLY 60 RYRAIQNHPK ENKLEIKAIE DTFRNISRDQ DIYETKLDTL RKSIDKGFQY DEDLLNKHLV 120 ALQLLEKDTD VPDYFLDLPD TKNDNTTAIE VDYSEKKPIK ISADFNAKAK SLGLESKFSN 180 ATKTALGDPD TEIRISARIS NRINELERLP ANLGTYSLDD CLEFITKDDL SSRMDTFKIK 240 ALVELKSLKL LTKQKSIRQK LINNVASQAH HNIPYLRDSP FTAAAQRSVQ IRSKVIVPQT 300 VRLAEELERQ QLLEKRKKER NLHLQKINSI IDFIKERQSE QWSRQERCFQ FGRLGASLHN 360 QMEKDEQKRI ERTAKQRLAA LKSNDEEAYL KLLDQTKDTR ITQLLRQTNS FLDSLSEAVR 420 AQQNEAKILH GEEVQPITDE EREKTDYYEV AHRIKEKIDK QPSILVGGTL KEYQLRGLEW 480 MVSLYNNHLN GILADEMGLG KTIQSISLIT YLYEVKKDIG PFLVIVPLST ITNWTLEFEK 540 WAPSLNTIIY KGTPNQRHSL QHQIRVGNFD VLLTTYEYII KDKSLLSKHD WAHMIIDEGH 600 RMKNAQSKLS FTISHYYRTR NRLILTGTPL QNNLPELWAL LNFVLPKIFN SAKTFEDWFN 660 TPFANTGTQE KLELTEEETL LIIRRLHKVL RPFLLRRLKK EVEKDLPDKV EKVIKCKLSG 720 LQQQLYQQML KHNALFVGAG TEGATKGGIK GLNNKIMQLR KICNHPFVFD EVEGVVNPSR 780 GNSDLLFRVA GKFELLDRVL PKFKASGHRV LMFFQMTQVM DIMEDFLRMK DLKYMRLDGS 840 TKTEERTEML NAFNAPDSDY FCFLLSTRAG GLGLNLQTAD TVIIFDTDWN PHQDLQAQDR 900 AHRIGQKNEV RILRLITTDS VEEVILERAM QKLDIDGKVI QAGKFDNKST AEEQEAFLRR 960 LIESETNRDD DDKAELDDDE LNDTLARSAD EKILFDKIDK ERMNQERADA KAQGLRVPPP 1020 RLIQLDELPK VFREDIEEHF KKEDSEPLGR IRQKKRVYYD DGLTEEQFLE AVEDDNMSLE 1080 DAIKKRREAR ERRRLRQNGT KENEIETLEN TPEASETSLI ENNSFTAAVD EETNADKETT 1140 ASRSKRRSSR KKRTISIVTA EDKENTQEES TSQENGGAKV EEEVKSSSVE IINGSESKKK 1200 KPKLTVKIKL NKTTVLENND GKRAEEKPES KSPAKKTAAK KTKTKSKSLG IFPTVEKLVE 1260 EMREQLDEVD SHPRTSIFEK LPSKRDYPDY FKVIEKPMAI DIILKNCKNG TYKTLEEVRQ 1320 ALQTMFENAR FYNEEGSWVY VDADKLNEFT DEWFKEHSS 1359Protein Fasta Sequence
>YIL126W|STH1;NPS1;YIL126W|Saccharomyces cerevisiae MLQEQSELMSTVMNNTPTTVAALAAVAAASETNGKLGSEEQPEITIPKPRSSAQLEQLLYRYRAIQNHPKENKLEIKAIEDTFRNISRDQDIYETKLDTLRKSIDKGFQYDEDLLNKHLVALQLLEKDTDVPDYFLDLPDTKNDNTTAIEVDYSEKKPIKISADFNAKAKSLGLESKFSNATKTALGDPDTEIRISARISNRINELERLPANLGTYSLDDCLEFITKDDLSSRMDTFKIKALVELKSLKLLTKQKSIRQKLINNVASQAHHNIPYLRDSPFTAAAQRSVQIRSKVIVPQTVRLAEELERQQLLEKRKKERNLHLQKINSIIDFIKERQSEQWSRQERCFQFGRLGASLHNQMEKDEQKRIERTAKQRLAALKSNDEEAYLKLLDQTKDTRITQLLRQTNSFLDSLSEAVRAQQNEAKILHGEEVQPITDEEREKTDYYEVAHRIKEKIDKQPSILVGGTLKEYQLRGLEWMVSLYNNHLNGILADEMGLGKTIQSISLITYLYEVKKDIGPFLVIVPLSTITNWTLEFEKWAPSLNTIIYKGTPNQRHSLQHQIRVGNFDVLLTTYEYIIKDKSLLSKHDWAHMIIDEGHRMKNAQSKLSFTISHYYRTRNRLILTGTPLQNNLPELWALLNFVLPKIFNSAKTFEDWFNTPFANTGTQEKLELTEEETLLIIRRLHKVLRPFLLRRLKKEVEKDLPDKVEKVIKCKLSGLQQQLYQQMLKHNALFVGAGTEGATKGGIKGLNNKIMQLRKICNHPFVFDEVEGVVNPSRGNSDLLFRVAGKFELLDRVLPKFKASGHRVLMFFQMTQVMDIMEDFLRMKDLKYMRLDGSTKTEERTEMLNAFNAPDSDYFCFLLSTRAGGLGLNLQTADTVIIFDTDWNPHQDLQAQDRAHRIGQKNEVRILRLITTDSVEEVILERAMQKLDIDGKVIQAGKFDNKSTAEEQEAFLRRLIESETNRDDDDKAELDDDELNDTLARSADEKILFDKIDKERMNQERADAKAQGLRVPPPRLIQLDELPKVFREDIEEHFKKEDSEPLGRIRQKKRVYYDDGLTEEQFLEAVEDDNMSLEDAIKKRREARERRRLRQNGTKENEIETLENTPEASETSLIENNSFTAAVDEETNADKETTASRSKRRSSRKKRTISIVTAEDKENTQEESTSQENGGAKVEEEVKSSSVEIINGSESKKKKPKLTVKIKLNKTTVLENNDGKRAEEKPESKSPAKKTAAKKTKTKSKSLGIFPTVEKLVEEMREQLDEVDSHPRTSIFEKLPSKRDYPDYFKVIEKPMAIDIILKNCKNGTYKTLEEVRQALQTMFENARFYNEEGSWVYVDADKLNEFTDEWFKEHSS
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Nucleotide Sequence (Fasta) | ATGCTTCAGG AACAATCTGA GTTGATGAGC ACGGTGATGA ATAATACACC TACAACAGTT 60 GCCGCATTGG CTGCGGTTGC TGCAGCCTCT GAAACAAATG GAAAGCTGGG GTCCGAGGAA 120 CAACCTGAAA TCACTATTCC AAAGCCGAGG AGTAGTGCAC AGTTGGAGCA GCTACTCTAC 180 CGCTATAGGG CTATTCAAAA CCATCCAAAG GAAAACAAGT TGGAGATCAA GGCAATAGAA 240 GACACTTTTA GGAATATATC ACGTGATCAG GATATCTACG AAACAAAGTT GGATACCTTG 300 AGAAAGAGTA TAGATAAAGG ATTTCAGTAC GATGAGGATT TATTGAATAA ACACTTGGTT 360 GCCTTACAGT TACTGGAGAA AGATACAGAT GTCCCTGACT ACTTCTTAGA CTTACCAGAC 420 ACCAAGAACG ATAACACTAC GGCGATCGAA GTAGACTATT CTGAAAAGAA ACCAATAAAA 480 ATATCAGCAG ATTTCAATGC GAAGGCCAAA AGTTTGGGTT TAGAATCAAA ATTTTCTAAC 540 GCTACGAAGA CTGCATTGGG CGATCCAGAT ACCGAAATAA GGATTTCTGC ACGTATATCC 600 AACAGAATTA ACGAGCTGGA AAGATTACCT GCCAATCTGG GTACATACTC ACTAGATGAT 660 TGTTTAGAGT TTATTACAAA AGATGATTTA TCGTCCAGAA TGGATACTTT CAAAATCAAA 720 GCTCTTGTGG AATTGAAAAG TTTAAAGCTA CTAACTAAAC AAAAATCGAT TAGGCAAAAG 780 TTAATCAACA ATGTTGCCAG CCAGGCACAC CACAATATTC CATATCTACG TGATTCTCCT 840 TTCACAGCAG CTGCACAAAG ATCTGTTCAA ATTAGAAGCA AAGTTATTGT CCCACAAACC 900 GTTCGTTTGG CAGAAGAATT AGAAAGGCAA CAACTATTGG AAAAAAGAAA AAAGGAACGT 960 AATTTACATT TACAAAAAAT AAACAGCATC ATTGATTTCA TCAAAGAAAG GCAGTCCGAG 1020 CAATGGTCTC GTCAAGAACG TTGCTTTCAG TTCGGTAGAT TAGGCGCTTC ATTACACAAT 1080 CAAATGGAGA AAGATGAACA GAAAAGAATA GAAAGAACTG CTAAGCAACG TTTAGCTGCT 1140 TTGAAGTCTA ACGATGAGGA GGCTTATTTA AAGCTTTTAG ATCAAACTAA GGATACTAGA 1200 ATTACACAGT TATTGAGGCA GACTAATTCC TTTTTGGATT CTTTGTCGGA GGCTGTTAGA 1260 GCACAACAAA ACGAAGCAAA AATTCTTCAT GGTGAGGAAG TCCAACCAAT TACAGATGAA 1320 GAAAGAGAAA AGACTGACTA TTATGAAGTC GCTCATAGGA TCAAAGAAAA AATTGATAAA 1380 CAACCTTCTA TTCTTGTTGG CGGCACTTTA AAAGAGTATC AATTACGAGG TTTAGAATGG 1440 ATGGTGTCGT TGTACAATAA TCATTTGAAC GGTATTCTAG CAGATGAGAT GGGTTTAGGT 1500 AAAACCATCC AATCTATTTC TCTAATAACA TATCTTTATG AAGTTAAGAA AGACATCGGC 1560 CCTTTCCTAG TCATTGTACC TTTATCCACA ATAACCAATT GGACTTTAGA ATTTGAAAAA 1620 TGGGCTCCGA GCTTAAACAC TATTATATAC AAAGGTACAC CAAATCAAAG ACACTCTTTA 1680 CAGCATCAAA TAAGGGTTGG AAATTTTGAC GTCTTATTGA CAACATATGA GTATATTATT 1740 AAAGATAAAT CTCTTTTATC AAAACATGAT TGGGCTCATA TGATCATTGA CGAAGGTCAT 1800 AGAATGAAAA ATGCTCAATC GAAGTTATCA TTCACAATTT CTCATTATTA TCGTACAAGA 1860 AACAGATTGA TTTTAACGGG TACTCCTTTG CAGAACAATC TACCAGAATT ATGGGCACTG 1920 TTGAACTTTG TTTTGCCTAA AATTTTCAAT TCTGCGAAGA CTTTTGAAGA TTGGTTTAAT 1980 ACTCCATTTG CCAACACCGG TACCCAAGAG AAACTAGAAT TAACGGAAGA AGAAACTCTG 2040 TTAATTATTA GAAGATTACA TAAGGTGTTA AGGCCATTTT TATTGCGTCG TTTGAAAAAG 2100 GAAGTGGAAA AGGATTTGCC TGATAAAGTG GAAAAAGTTA TCAAATGTAA ACTGTCTGGT 2160 TTGCAACAAC AGTTATATCA GCAAATGCTA AAGCATAACG CGCTATTTGT TGGTGCAGGG 2220 ACTGAGGGGG CTACAAAGGG TGGTATTAAA GGTTTGAACA ATAAGATTAT GCAATTAAGA 2280 AAAATCTGCA ACCATCCATT CGTATTTGAT GAAGTGGAAG GTGTTGTAAA CCCCTCAAGA 2340 GGTAATAGTG ATTTACTTTT CAGAGTAGCG GGCAAGTTTG AATTACTGGA TAGAGTGCTA 2400 CCGAAATTCA AAGCCTCAGG CCACAGAGTG CTAATGTTTT TCCAAATGAC TCAAGTTATG 2460 GATATTATGG AAGACTTCCT AAGAATGAAA GATTTGAAGT ATATGAGATT AGATGGTAGC 2520 ACTAAGACTG AAGAAAGAAC AGAAATGCTG AATGCATTTA ATGCTCCAGA TTCAGATTAT 2580 TTCTGTTTCC TTTTGTCAAC TAGAGCCGGT GGTTTGGGTT TGAATTTACA AACTGCAGAT 2640 ACGGTGATCA TCTTTGATAC AGATTGGAAT CCACACCAAG ATTTACAGGC CCAAGATAGA 2700 GCTCACAGAA TTGGACAAAA GAATGAGGTT AGAATTTTAA GATTAATTAC CACTGATTCC 2760 GTAGAGGAAG TTATTTTGGA AAGAGCTATG CAGAAATTGG ACATTGACGG CAAGGTTATC 2820 CAGGCAGGTA AGTTTGATAA CAAATCAACT GCAGAAGAGC AAGAAGCTTT TTTGAGAAGA 2880 TTGATCGAAA GTGAAACGAA CAGGGATGAT GATGACAAAG CAGAATTAGA TGACGATGAG 2940 TTAAACGATA CTTTGGCCAG AAGCGCTGAT GAAAAAATAC TATTTGATAA AATTGATAAG 3000 GAGAGAATGA ACCAAGAAAG AGCAGATGCT AAAGCGCAAG GCCTGAGAGT CCCTCCTCCT 3060 AGATTGATTC AATTAGACGA GCTACCCAAA GTATTCAGAG AAGACATTGA AGAACATTTC 3120 AAGAAAGAGG ATTCTGAACC ATTGGGAAGG ATTAGACAAA AGAAAAGAGT TTACTATGAT 3180 GACGGTCTAA CTGAAGAACA ATTTTTGGAG GCTGTAGAAG ATGATAATAT GTCTTTAGAA 3240 GATGCCATTA AAAAAAGACG TGAAGCACGT GAAAGAAGGA GATTACGTCA AAATGGTACA 3300 AAAGAGAATG AAATAGAAAC CCTGGAAAAC ACGCCTGAAG CATCCGAAAC TTCATTGATT 3360 GAGAACAATA GCTTCACTGC AGCTGTGGAT GAGGAAACTA ATGCTGATAA AGAGACTACA 3420 GCTTCCAGGT CAAAACGCCG GAGTAGTAGA AAGAAAAGGA CCATTAGCAT TGTTACGGCA 3480 GAAGACAAAG AGAATACTCA AGAAGAGAGT ACATCTCAAG AAAACGGGGG CGCTAAGGTG 3540 GAAGAGGAAG TAAAAAGTAG CTCCGTTGAA ATTATAAATG GTTCAGAATC CAAGAAAAAG 3600 AAACCGAAAC TGACCGTCAA GATCAAACTA AACAAAACAA CTGTGTTGGA GAATAATGAT 3660 GGTAAGCGAG CAGAAGAAAA GCCAGAGAGT AAATCGCCCG CGAAGAAGAC TGCAGCCAAA 3720 AAAACTAAAA CTAAATCCAA GTCGCTTGGG ATTTTTCCCA CGGTGGAAAA ATTGGTGGAA 3780 GAAATGCGCG AACAGTTAGA TGAGGTAGAC TCCCATCCAA GGACGTCCAT TTTTGAAAAG 3840 CTTCCTTCGA AACGCGACTA TCCGGACTAT TTTAAAGTAA TTGAAAAACC CATGGCCATT 3900 GATATTATAT TGAAAAACTG CAAGAATGGC ACTTACAAAA CTTTGGAGGA GGTAAGGCAA 3960 GCCTTACAAA CGATGTTTGA AAATGCTAGA TTCTATAATG AAGAGGGATC CTGGGTTTAC 4020 GTTGATGCTG ACAAGTTAAA TGAGTTTACT GATGAATGGT TCAAGGAACA CTCTTCGTAA 4080
4081Nucleotide Fasta Sequence
>YIL126W|Bromodomain|Saccharomyces cerevisiae ATGCTTCAGGAACAATCTGAGTTGATGAGCACGGTGATGAATAATACACCTACAACAGTTGCCGCATTGGCTGCGGTTGCTGCAGCCTCTGAAACAAATGGAAAGCTGGGGTCCGAGGAACAACCTGAAATCACTATTCCAAAGCCGAGGAGTAGTGCACAGTTGGAGCAGCTACTCTACCGCTATAGGGCTATTCAAAACCATCCAAAGGAAAACAAGTTGGAGATCAAGGCAATAGAAGACACTTTTAGGAATATATCACGTGATCAGGATATCTACGAAACAAAGTTGGATACCTTGAGAAAGAGTATAGATAAAGGATTTCAGTACGATGAGGATTTATTGAATAAACACTTGGTTGCCTTACAGTTACTGGAGAAAGATACAGATGTCCCTGACTACTTCTTAGACTTACCAGACACCAAGAACGATAACACTACGGCGATCGAAGTAGACTATTCTGAAAAGAAACCAATAAAAATATCAGCAGATTTCAATGCGAAGGCCAAAAGTTTGGGTTTAGAATCAAAATTTTCTAACGCTACGAAGACTGCATTGGGCGATCCAGATACCGAAATAAGGATTTCTGCACGTATATCCAACAGAATTAACGAGCTGGAAAGATTACCTGCCAATCTGGGTACATACTCACTAGATGATTGTTTAGAGTTTATTACAAAAGATGATTTATCGTCCAGAATGGATACTTTCAAAATCAAAGCTCTTGTGGAATTGAAAAGTTTAAAGCTACTAACTAAACAAAAATCGATTAGGCAAAAGTTAATCAACAATGTTGCCAGCCAGGCACACCACAATATTCCATATCTACGTGATTCTCCTTTCACAGCAGCTGCACAAAGATCTGTTCAAATTAGAAGCAAAGTTATTGTCCCACAAACCGTTCGTTTGGCAGAAGAATTAGAAAGGCAACAACTATTGGAAAAAAGAAAAAAGGAACGTAATTTACATTTACAAAAAATAAACAGCATCATTGATTTCATCAAAGAAAGGCAGTCCGAGCAATGGTCTCGTCAAGAACGTTGCTTTCAGTTCGGTAGATTAGGCGCTTCATTACACAATCAAATGGAGAAAGATGAACAGAAAAGAATAGAAAGAACTGCTAAGCAACGTTTAGCTGCTTTGAAGTCTAACGATGAGGAGGCTTATTTAAAGCTTTTAGATCAAACTAAGGATACTAGAATTACACAGTTATTGAGGCAGACTAATTCCTTTTTGGATTCTTTGTCGGAGGCTGTTAGAGCACAACAAAACGAAGCAAAAATTCTTCATGGTGAGGAAGTCCAACCAATTACAGATGAAGAAAGAGAAAAGACTGACTATTATGAAGTCGCTCATAGGATCAAAGAAAAAATTGATAAACAACCTTCTATTCTTGTTGGCGGCACTTTAAAAGAGTATCAATTACGAGGTTTAGAATGGATGGTGTCGTTGTACAATAATCATTTGAACGGTATTCTAGCAGATGAGATGGGTTTAGGTAAAACCATCCAATCTATTTCTCTAATAACATATCTTTATGAAGTTAAGAAAGACATCGGCCCTTTCCTAGTCATTGTACCTTTATCCACAATAACCAATTGGACTTTAGAATTTGAAAAATGGGCTCCGAGCTTAAACACTATTATATACAAAGGTACACCAAATCAAAGACACTCTTTACAGCATCAAATAAGGGTTGGAAATTTTGACGTCTTATTGACAACATATGAGTATATTATTAAAGATAAATCTCTTTTATCAAAACATGATTGGGCTCATATGATCATTGACGAAGGTCATAGAATGAAAAATGCTCAATCGAAGTTATCATTCACAATTTCTCATTATTATCGTACAAGAAACAGATTGATTTTAACGGGTACTCCTTTGCAGAACAATCTACCAGAATTATGGGCACTGTTGAACTTTGTTTTGCCTAAAATTTTCAATTCTGCGAAGACTTTTGAAGATTGGTTTAATACTCCATTTGCCAACACCGGTACCCAAGAGAAACTAGAATTAACGGAAGAAGAAACTCTGTTAATTATTAGAAGATTACATAAGGTGTTAAGGCCATTTTTATTGCGTCGTTTGAAAAAGGAAGTGGAAAAGGATTTGCCTGATAAAGTGGAAAAAGTTATCAAATGTAAACTGTCTGGTTTGCAACAACAGTTATATCAGCAAATGCTAAAGCATAACGCGCTATTTGTTGGTGCAGGGACTGAGGGGGCTACAAAGGGTGGTATTAAAGGTTTGAACAATAAGATTATGCAATTAAGAAAAATCTGCAACCATCCATTCGTATTTGATGAAGTGGAAGGTGTTGTAAACCCCTCAAGAGGTAATAGTGATTTACTTTTCAGAGTAGCGGGCAAGTTTGAATTACTGGATAGAGTGCTACCGAAATTCAAAGCCTCAGGCCACAGAGTGCTAATGTTTTTCCAAATGACTCAAGTTATGGATATTATGGAAGACTTCCTAAGAATGAAAGATTTGAAGTATATGAGATTAGATGGTAGCACTAAGACTGAAGAAAGAACAGAAATGCTGAATGCATTTAATGCTCCAGATTCAGATTATTTCTGTTTCCTTTTGTCAACTAGAGCCGGTGGTTTGGGTTTGAATTTACAAACTGCAGATACGGTGATCATCTTTGATACAGATTGGAATCCACACCAAGATTTACAGGCCCAAGATAGAGCTCACAGAATTGGACAAAAGAATGAGGTTAGAATTTTAAGATTAATTACCACTGATTCCGTAGAGGAAGTTATTTTGGAAAGAGCTATGCAGAAATTGGACATTGACGGCAAGGTTATCCAGGCAGGTAAGTTTGATAACAAATCAACTGCAGAAGAGCAAGAAGCTTTTTTGAGAAGATTGATCGAAAGTGAAACGAACAGGGATGATGATGACAAAGCAGAATTAGATGACGATGAGTTAAACGATACTTTGGCCAGAAGCGCTGATGAAAAAATACTATTTGATAAAATTGATAAGGAGAGAATGAACCAAGAAAGAGCAGATGCTAAAGCGCAAGGCCTGAGAGTCCCTCCTCCTAGATTGATTCAATTAGACGAGCTACCCAAAGTATTCAGAGAAGACATTGAAGAACATTTCAAGAAAGAGGATTCTGAACCATTGGGAAGGATTAGACAAAAGAAAAGAGTTTACTATGATGACGGTCTAACTGAAGAACAATTTTTGGAGGCTGTAGAAGATGATAATATGTCTTTAGAAGATGCCATTAAAAAAAGACGTGAAGCACGTGAAAGAAGGAGATTACGTCAAAATGGTACAAAAGAGAATGAAATAGAAACCCTGGAAAACACGCCTGAAGCATCCGAAACTTCATTGATTGAGAACAATAGCTTCACTGCAGCTGTGGATGAGGAAACTAATGCTGATAAAGAGACTACAGCTTCCAGGTCAAAACGCCGGAGTAGTAGAAAGAAAAGGACCATTAGCATTGTTACGGCAGAAGACAAAGAGAATACTCAAGAAGAGAGTACATCTCAAGAAAACGGGGGCGCTAAGGTGGAAGAGGAAGTAAAAAGTAGCTCCGTTGAAATTATAAATGGTTCAGAATCCAAGAAAAAGAAACCGAAACTGACCGTCAAGATCAAACTAAACAAAACAACTGTGTTGGAGAATAATGATGGTAAGCGAGCAGAAGAAAAGCCAGAGAGTAAATCGCCCGCGAAGAAGACTGCAGCCAAAAAAACTAAAACTAAATCCAAGTCGCTTGGGATTTTTCCCACGGTGGAAAAATTGGTGGAAGAAATGCGCGAACAGTTAGATGAGGTAGACTCCCATCCAAGGACGTCCATTTTTGAAAAGCTTCCTTCGAAACGCGACTATCCGGACTATTTTAAAGTAATTGAAAAACCCATGGCCATTGATATTATATTGAAAAACTGCAAGAATGGCACTTACAAAACTTTGGAGGAGGTAAGGCAAGCCTTACAAACGATGTTTGAAAATGCTAGATTCTATAATGAAGAGGGATCCTGGGTTTACGTTGATGCTGACAAGTTAAATGAGTTTACTGATGAATGGTTCAAGGAACACTCTTCGTAA
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Sequence Source |
Ensembl |
Keyword |
KW-0067--ATP-binding KW-0103--Bromodomain KW-0131--Cell cycle KW-0156--Chromatin regulator KW-0181--Complete proteome KW-0903--Direct protein sequencing KW-0347--Helicase KW-0378--Hydrolase KW-0547--Nucleotide-binding KW-0539--Nucleus KW-0597--Phosphoprotein KW-1185--Reference proteome KW-0804--Transcription KW-0805--Transcription regulation --
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Interpro |
IPR001487--Bromodomain IPR018359--Bromodomain_CS IPR014001--Helicase_ATP-bd IPR001650--Helicase_C IPR014012--HSA_dom IPR027417--P-loop_NTPase IPR029295--SnAC IPR000330--SNF2_N
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PROSITE |
PS00633--BROMODOMAIN_1 PS50014--BROMODOMAIN_2 PS51192--HELICASE_ATP_BIND_1 PS51194--HELICASE_CTER PS51204--HSA
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Pfam |
PF00439--Bromodomain PF00271--Helicase_C PF07529--HSA PF14619--SnAC PF00176--SNF2_N
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Gene Ontology |
GO:0000775--C:chromosome, centromeric region GO:0005634--C:nucleus GO:0016586--C:RSC complex GO:0005524--F:ATP binding GO:0016887--F:ATPase activity GO:0015616--F:DNA translocase activity GO:0008094--F:DNA-dependent ATPase activity GO:0004386--F:helicase activity GO:0070577--F:lysine-acetylated histone binding GO:0043044--P:ATP-dependent chromatin remodeling GO:0006284--P:base-excision repair GO:0031055--P:chromatin remodeling at centromere GO:0007059--P:chromosome segregation GO:0007010--P:cytoskeleton organization GO:0006302--P:double-strand break repair GO:0000086--P:G2/M transition of mitotic cell cycle GO:0007126--P:meiotic nuclear division GO:0006337--P:nucleosome disassembly GO:0016584--P:nucleosome positioning GO:0006355--P:regulation of transcription, DNA-templated GO:0006368--P:transcription elongation from RNA polymerase II promoter GO:0061587--P:transfer RNA gene-mediated silencing
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Orthology |
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Created Date |
25-Jun-2016 |