Tag |
Content |
WERAM ID |
WERAM-Mum-0169 |
Ensembl Protein ID |
ENSMUSP00000127653.1 |
Uniprot Accession |
Q80TJ7; PHF8_MOUSE; A2ABU8; A2ABV0; A2ABV2; Q8BLX8; Q8BLY0; Q8BZ61; Q8CG26 |
Genbank Protein ID |
NP_001009544.1; NP_001106825.1; NP_796175.1; XP_006528938.1; XP_006528939.1; XP_006528940.1; XP_006528943.1; XP_011246133.1 |
Protein Name |
Histone lysine demethylase PHF8 |
Genbank Nucleotide ID |
NM_001009544.2; NM_001113354.1; NM_177201.5; XM_006528875.2; XM_006528876.2; XM_006528877.2; XM_006528880.2; XM_011247831.1 |
Gene Name |
PHF8 |
Ensembl Information |
|
Details |
Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
HDM |
PHF2_PHF8 |
Jmjc |
H3K9me2 |
K |
26866517 |
|
Status |
Reviewed |
Classification |
Type |
Family |
E-value |
Score |
Start |
End |
HDM |
PHF2_PHF8 |
3.50e-95 |
317.6 |
195 |
351 |
Me_Reader |
PHD |
6.10e-12 |
47 |
6 |
54 |
|
Organism |
Mus musculus |
NCBI Taxa ID |
10090 |
Functional Description (View)Functional Description
Histone lysine demethylase with selectivity for the di- and monomethyl states that plays a key role cell cycle progression, rDNA transcription and brain development. Demethylates mono- and dimethylated histone H3 'Lys-9' residue (H3K9Me1 and H3K9Me2), dimethylated H3 'Lys-27' (H3K27Me2) and monomethylated histone H4 'Lys-20' residue (H4K20Me1). Acts as a transcription activator as H3K9Me1, H3K9Me2, H3K27Me2 and H4K20Me1 are epigenetic repressive marks. Involved in cell cycle progression by being required to control G1-S transition. Acts as a coactivator of rDNA transcription, by activating polymerase I (pol I) mediated transcription of rRNA genes. Required for brain development, probably by regulating expression of neuron-specific genes. Has activity toward H4K20Me1 only when nucleosome is used as a substrate and when not histone octamer is used as substrate. May also have weak activity toward dimethylated H3 'Lys-36' (H3K36Me2), however, the relevance of this result remains unsure in vivo. Specifically binds trimethylated 'Lys-4' of histone H3 (H3K4me3), affecting histone demethylase specificity: has weak activity toward H3K9Me2 in absence of H3K4me3, while it has high activity toward H3K9me2 when binding H3K4me3 (By similarity). |
Histone lysine demethylase with selectivity for the di- and monomethyl states that plays a key role cell cycle progression, rDNA transcription and brain development. Demethylates mono- and dimethylated histone H3 'Lys-9' residue (H3K9Me1 and H3K9Me2), dimethylated H3 'Lys-27' (H3K27Me2) and monomethylated histone H4 'Lys-20' residue (H4K20Me1). Acts as a transcription activator as H3K9Me1, H3K9Me2, H3K27Me2 and H4K20Me1 are epigenetic repressive marks. Involved in cell cycle progression by being required to control G1-S transition. Acts as a coactivator of rDNA transcription, by activating polymerase I (pol I) mediated transcription of rRNA genes. Required for brain development, probably by regulating expression of neuron-specific genes. Has activity toward H4K20Me1 only when nucleosome is used as a substrate and when not histone octamer is used as substrate. May also have weak activity toward dimethylated H3 'Lys-36' (H3K36Me2), however, the relevance of this result remains unsure in vivo. Specifically binds trimethylated 'Lys-4' of histone H3 (H3K4me3), affecting histone demethylase specificity: has weak activity toward H3K9Me2 in absence of H3K4me3, while it has high activity toward H3K9me2 when binding H3K4me3 (By similarity).
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Domain Profile |
HDM PHF2_PHF8
PHF2.txt 1 fsdtklselveppdivkklslvenlwpdeavlekpkvekycligvkdsytdfhidfggasvyyhvlkgekifylirpteanlalyeawe 89 fsdt+ls+lve+p+iv+kls+venlwp+e+v+e+p+v+kycl++v+dsytdfhidfgg+sv+yhvlkgekifylirpt+anl+l+e+w+ ENSMUSP00000127653.1 195 FSDTRLSNLVETPRIVRKLSWVENLWPEECVFERPNVQKYCLMSVRDSYTDFHIDFGGTSVWYHVLKGEKIFYLIRPTNANLTLFECWS 283 79*************************************************************************************** PP PHF2.txt 90 sssdqsevffgdkvdkaykvvvkqgqtllipagwihavltpvdclafggnflhslniemqlrayelek 157 sss+q+e+ffgd+v+k+yk++vkqgqtl+ip+gwihavltpvdclafggnflhslniemql+aye+ek ENSMUSP00000127653.1 284 SSSNQNEMFFGDQVEKCYKCSVKQGQTLFIPTGWIHAVLTPVDCLAFGGNFLHSLNIEMQLKAYEIEK 351 ******************************************************************97 PP
Me_Reader PHD
PHD.txt 2 tiClvCgkddegekemvqCdeCddwfHlkCvklplsslpegkswyCpsCk 51 +Cl C+ +++ +++m++Cd C+dwfH++Cv+++++++ + + ++Cp+C+ ENSMUSP00000127653.1 6 VYCL-CRLPYDVTRFMIECDMCQDWFHGSCVGVEEEKAADIDLYHCPNCE 54 69*9.*****************************777775558******7 PP
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Protein Sequence (Fasta) | MASVPVYCLC RLPYDVTRFM IECDMCQDWF HGSCVGVEEE KAADIDLYHC PNCEVLHGPS 60 IMKKRRGSSK GHDNHKGKPL KTGSSMFIRE LRGRTFDSSD EVILKPTGSQ LTVEFLEENS 120 FSVPILVLKK DGLGMTLPSP SFTVRDVEHY VGSDKEIDVI DVARQADCKM KLGDFVKYYY 180 SGKREKVLNV ISLEFSDTRL SNLVETPRIV RKLSWVENLW PEECVFERPN VQKYCLMSVR 240 DSYTDFHIDF GGTSVWYHVL KGEKIFYLIR PTNANLTLFE CWSSSSNQNE MFFGDQVEKC 300 YKCSVKQGQT LFIPTGWIHA VLTPVDCLAF GGNFLHSLNI EMQLKAYEIE KRLSTADLFK 360 FPNFETICWY VGKHILDIFR GLRENRRHPA SYLVHGGKAL NLAFRAWTKK EALPDHEDEI 420 PETVRTVQLI KDLAREIRLV EDIFQQNVGK TSNIFGLQRI FPAGSIPLTK PAHSTSVSMS 480 KLSLPSKNGS KKKGLKPKDI FKKAERKGKQ SSALGPAGQL SYNLMDPYSH QALKTGPSQK 540 AKFNMSGTSL NDSDDDSADM DLDGSENPLA LLMANGSTKR MKSVSKSRRA KIAKKVDSAR 600 LVAEQVMGDE FDLDSDDELQ IDERLGKEKA NLLIRSKFPR KLPRAKPCSD PNRIREPGEV 660 EFDIEEDYTT DEDMVEGVES KLGNGSGAGG ILDLLKASRQ VGGPDYAALT EAPASPSTQE 720 AIQGMLCMAN LQSSSSSPAT SSLQAWWTGG QERSSGSSSS GLGTVSSSPA SQRTPGKRPI 780 KRPAYWKNES EEEENASLDE QDSLGACFKD AEYIYPSLES DDDDPALKSR PKKKKNSDDA 840 PWSPKARVTP TLPKQDRPVR EGTRVASIET GLAAAAAKLA QQELQKAQKK KYIKKKPLLK 900 EVEQPRPQDS NPIMTMPAPT VATTPQPDTS SSPQPPPEPK QEALSGSLAD HEYTARPNAF 960 GMAQANRSTT PMAPGVFLTQ RRPSVGSQSS QAGQGKRPKK GLATAKQRLG RILKIHRNGK 1020 LLL 1023Protein Fasta Sequence
>ENSMUSP00000127653.1|PHF8|Mus musculus MASVPVYCLCRLPYDVTRFMIECDMCQDWFHGSCVGVEEEKAADIDLYHCPNCEVLHGPSIMKKRRGSSKGHDNHKGKPLKTGSSMFIRELRGRTFDSSDEVILKPTGSQLTVEFLEENSFSVPILVLKKDGLGMTLPSPSFTVRDVEHYVGSDKEIDVIDVARQADCKMKLGDFVKYYYSGKREKVLNVISLEFSDTRLSNLVETPRIVRKLSWVENLWPEECVFERPNVQKYCLMSVRDSYTDFHIDFGGTSVWYHVLKGEKIFYLIRPTNANLTLFECWSSSSNQNEMFFGDQVEKCYKCSVKQGQTLFIPTGWIHAVLTPVDCLAFGGNFLHSLNIEMQLKAYEIEKRLSTADLFKFPNFETICWYVGKHILDIFRGLRENRRHPASYLVHGGKALNLAFRAWTKKEALPDHEDEIPETVRTVQLIKDLAREIRLVEDIFQQNVGKTSNIFGLQRIFPAGSIPLTKPAHSTSVSMSKLSLPSKNGSKKKGLKPKDIFKKAERKGKQSSALGPAGQLSYNLMDPYSHQALKTGPSQKAKFNMSGTSLNDSDDDSADMDLDGSENPLALLMANGSTKRMKSVSKSRRAKIAKKVDSARLVAEQVMGDEFDLDSDDELQIDERLGKEKANLLIRSKFPRKLPRAKPCSDPNRIREPGEVEFDIEEDYTTDEDMVEGVESKLGNGSGAGGILDLLKASRQVGGPDYAALTEAPASPSTQEAIQGMLCMANLQSSSSSPATSSLQAWWTGGQERSSGSSSSGLGTVSSSPASQRTPGKRPIKRPAYWKNESEEEENASLDEQDSLGACFKDAEYIYPSLESDDDDPALKSRPKKKKNSDDAPWSPKARVTPTLPKQDRPVREGTRVASIETGLAAAAAKLAQQELQKAQKKKYIKKKPLLKEVEQPRPQDSNPIMTMPAPTVATTPQPDTSSSPQPPPEPKQEALSGSLADHEYTARPNAFGMAQANRSTTPMAPGVFLTQRRPSVGSQSSQAGQGKRPKKGLATAKQRLGRILKIHRNGKLLL
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Nucleotide Sequence (Fasta) | GTGCCCGAGC CTCGTAAGAT GGCGGCGGGC TCGTCTCTTT CCCAGAACGC CGCCACTCTC 60 AATATGGTAG CTGTTTACCA TATCTCTCCA CCCCTCTCCG CCTCAACTGC CTCGCGATTT 120 TGAATAAACT TTATTGATTG CTTTGAATCT CCTACAACCC CCCGAGAGTG GCTTCTCCCG 180 GCGACCTCTC CGGCGGTCTT TCTCCAGCCG CCGCAAGCCT GTCTCGCGAA GGGGGCAGCG 240 ACAAAGCCAC TTGCCAGTGC GCCCGGCGGC CCCGACCCCG ACCCCCAGCC CCGGCTGAGA 300 CCTCGGTCTC TAGAAGGCTC TGAGGGCCAG ACGGTGGGAG GGCTGAGGTG GACACTGCCC 360 GAAAGCCCCG TCAGAGCCCG GGCACTGCGT GACGCGGCAT GTGGTTTCTA GGAGAAGGCA 420 AGTCAGCTTC ACAGTTTGGC AGCGGCAATC CCAGCATTCA GCGCGCGCCG CCTCGGGCCG 480 GAACTGCCCG GCCAGCCTGT GCTTAGCGCA GAGCTGGGTT GCCCCGGAGC GAGCCCAGCG 540 GCAGGCGAGT CTCTGGGGCT GAGCTCTGTT CCCTGAGGAC TTGCCCCCTG CAGCCTCGGG 600 CATGAAGAGA GCTCTGTAGC GTTTGGGACC GTGGACATTT TTTATCAGGT TTGGGGCATA 660 AAAAAGGTTC CTGTCAGTGT GTGTGTGGGG AGGCGTAGAG AGCTCCTCGT AAGTTTTGGG 720 GGCTGCAAGC AAGCTGCGTT CTAATTTAAG ACGAGACGTC TGTCAGCCAT CGTCTAGAGA 780 AGGCGCTTGT TGCTGCCTTC AGACCCAGTA AAGCTTCAAA ACTGGCACGG CGCAAAACGA 840 TCCAACCCCC TGTGAAGATG GCCTCGGTGC CTGTGTATTG CCTCTGTCGA CTGCCTTATG 900 ATGTGACCCG CTTCATGATC GAGTGTGACA TGTGCCAGGA CTGGTTTCAC GGCAGTTGTG 960 TTGGTGTTGA GGAGGAGAAG GCTGCTGATA TTGATCTTTA CCACTGCCCT AACTGTGAGG 1020 TCTTACATGG ACCTTCCATT ATGAAAAAAC GTCGTGGATC TTCCAAAGGA CATGATAATC 1080 ACAAGGGGAA GCCACTGAAG ACTGGAAGCT CTATGTTTAT CCGAGAACTT CGGGGCAGAA 1140 CTTTTGACAG CTCAGATGAA GTGATTCTGA AGCCCACTGG AAGTCAGCTG ACTGTGGAAT 1200 TCTTGGAAGA GAATAGCTTC AGCGTGCCTA TCCTTGTCTT GAAGAAGGAT GGGTTGGGGA 1260 TGACATTACC CTCTCCATCA TTCACTGTGA GGGATGTGGA ACACTATGTT GGTTCTGACA 1320 AAGAGATTGA TGTGATTGAT GTGGCCCGCC AGGCTGACTG CAAGATGAAA CTCGGTGATT 1380 TTGTCAAATA CTATTACAGT GGGAAGAGGG AAAAAGTCCT CAATGTCATT AGTTTGGAAT 1440 TCTCCGATAC CAGGCTTTCA AACCTCGTGG AAACACCCAG GATTGTTCGC AAGCTGTCAT 1500 GGGTGGAGAA CTTGTGGCCA GAGGAATGTG TCTTTGAGAG ACCCAATGTG CAGAAGTACT 1560 GCCTCATGAG TGTGCGGGAT AGCTATACAG ATTTTCACAT TGACTTTGGT GGGACCTCAG 1620 TTTGGTACCA TGTGCTTAAG GGTGAGAAGA TCTTCTACCT GATCCGCCCA ACAAATGCTA 1680 ATCTGACTCT CTTTGAGTGC TGGAGTAGCT CCTCCAATCA GAACGAGATG TTCTTTGGTG 1740 ACCAAGTGGA AAAGTGCTAC AAGTGTTCTG TGAAGCAAGG ACAAACACTG TTTATTCCTA 1800 CAGGATGGAT ACATGCTGTG TTAACACCCG TGGACTGCTT AGCATTCGGA GGGAACTTCT 1860 TACACAGTCT TAACATTGAA ATGCAACTCA AGGCTTATGA AATTGAGAAG AGGCTGAGCA 1920 CAGCAGACCT TTTCAAGTTT CCCAACTTCG AGACCATCTG TTGGTATGTG GGAAAACATA 1980 TTCTGGACAT CTTTCGAGGC TTACGAGAAA ATAGAAGACA CCCTGCCTCC TACCTGGTCC 2040 ATGGTGGTAA AGCTCTGAAC TTGGCATTTA GAGCTTGGAC AAAGAAAGAA GCTTTGCCAG 2100 ACCACGAGGA TGAGATCCCA GAGACAGTGC GGACTGTACA GCTCATTAAA GATCTGGCTA 2160 GGGAGATCCG TCTGGTTGAA GACATCTTCC AACAGAACGT TGGGAAGACG AGCAATATCT 2220 TTGGGCTGCA GAGGATCTTC CCAGCTGGCT CCATCCCCTT AACCAAGCCA GCCCATTCCA 2280 CTTCAGTATC CATGTCCAAG CTGTCACTGC CCTCCAAAAA TGGTTCAAAG AAGAAAGGCC 2340 TGAAGCCCAA GGATATCTTC AAGAAGGCAG AGCGAAAGGG CAAGCAGAGT TCAGCCTTGG 2400 GGCCTGCTGG CCAGTTGAGC TATAATCTCA TGGACCCATA CAGTCATCAG GCACTGAAGA 2460 CAGGCCCTTC CCAGAAAGCA AAGTTCAACA TGAGTGGTAC CAGCTTGAAT GATTCAGATG 2520 ATGACTCAGC AGACATGGAC CTTGATGGCA GTGAGAACCC TCTGGCCCTG TTGATGGCTA 2580 ATGGCAGTAC GAAGAGGATG AAGAGTGTAT CCAAATCTCG GAGAGCCAAA ATTGCAAAGA 2640 AGGTAGACAG TGCAAGACTG GTAGCAGAAC AGGTCATGGG AGATGAATTT GACTTGGATT 2700 CAGATGATGA GCTGCAGATT GACGAGAGAT TGGGAAAGGA AAAGGCGAAC CTGTTAATAA 2760 GATCAAAATT TCCCCGGAAG TTGCCCCGTG CAAAACCTTG CTCTGACCCC AACCGAATTC 2820 GTGAACCTGG AGAAGTTGAG TTTGACATTG AGGAGGACTA TACCACAGAT GAGGACATGG 2880 TGGAAGGGGT TGAAAGCAAG CTTGGGAATG GGAGTGGAGC CGGTGGAATT CTTGATCTAC 2940 TTAAGGCCAG CAGGCAGGTG GGGGGACCTG ACTATGCTGC CCTCACTGAG GCCCCAGCCT 3000 CCCCCAGCAC TCAAGAGGCC ATCCAGGGCA TGTTGTGTAT GGCCAACCTG CAGTCCTCAT 3060 CATCCTCACC AGCTACCTCC AGTCTGCAGG CTTGGTGGAC TGGAGGGCAA GAAAGAAGCA 3120 GCGGGAGCTC CAGCAGTGGC CTGGGCACTG TGTCTAGTAG TCCTGCTTCC CAGCGCACCC 3180 CAGGGAAGCG GCCCATCAAG AGGCCAGCAT ACTGGAAAAA CGAGAGTGAA GAGGAGGAGA 3240 ATGCCAGTCT TGATGAGCAA GACAGCTTGG GAGCATGCTT CAAGGATGCT GAGTATATCT 3300 ATCCATCTCT GGAGTCTGAT GATGATGACC CTGCTTTGAA ATCTCGACCC AAGAAAAAGA 3360 AGAATTCAGA TGATGCTCCA TGGAGTCCTA AAGCCCGTGT GACTCCAACC CTACCCAAGC 3420 AGGACCGTCC TGTTCGTGAG GGGACCAGAG TTGCCTCCAT TGAGACAGGC TTGGCTGCAG 3480 CAGCTGCAAA GCTTGCCCAG CAGGAGCTAC AAAAGGCCCA AAAGAAGAAA TATATCAAGA 3540 AGAAGCCTTT GCTGAAGGAG GTAGAACAGC CGCGCCCTCA AGATTCCAAT CCCATCATGA 3600 CAATGCCTGC ACCAACTGTG GCTACAACAC CCCAGCCTGA CACCTCCTCC TCACCCCAGC 3660 CACCTCCTGA GCCTAAACAA GAGGCTCTGT CAGGAAGTCT TGCTGACCAT GAGTACACTG 3720 CTCGTCCCAA TGCCTTTGGC ATGGCTCAGG CAAATCGCAG CACCACACCC ATGGCCCCTG 3780 GAGTCTTCCT CACCCAGCGG CGCCCTTCAG TTGGTTCCCA GAGCAGTCAG GCAGGACAAG 3840 GAAAGCGTCC TAAAAAGGGC CTGGCCACAG CAAAGCAGAG ACTCGGCCGC ATCCTGAAAA 3900 TCCACAGAAA TGGCAAGTTA CTTCTGTGAG ACGAGCCCCA TCATGTCCTA CTCCTTCATC 3960 CCTTCACCCC CATTGCCTTC TTCGTTGTCA ACTCGGGGCA CTCCTGGATC CTATGAGCCC 4020 CGGACAAGGT GCATTGTCCT GCTTTCTTGG GACTGACCAA AGGCACGGAC TATCTCCAAC 4080 TCCCTTTCCC ACTTCCCCTA TGAGTATCCT ACCTTCTTTT TCCATATCCA TAAATAGCAG 4140 GTAAATGGGA GACATTTCCA ACTGACAAGA ACCTTTTCCT GCTCCACCCA CATATTTCAC 4200 TTACACCTTG TCTTTATTCT TTTCCACTGC TCCTCTATAT GGAAGGAATG AGGAGGAGCA 4260 ACATAAAGGG AGTCTGGGCC TGTCAGTTTC CTCAGCCATG GAGTGAGAAG CCCAGTGCTC 4320 AACATTTTCT GCACCTCCAG CCCTGTCTCT AAGCCTGCCC ACCTCCACCC ATTCCTACCC 4380 CTTCCTCACA ACCGATGGAT ATACCCTACC TTCATTCTTG TTCCTGATAG AAGGTTGTGG 4440 TCTTTATCTT CTTTTACCTC TTTTTCATGA CAAAATGAAG AGGGTCTTTA TGACCCTATT 4500 ATGGGACAAC TCCAGAGCTG GCCTAGAAAA GCTGACTTTA TCTGTCTTTG GGGGAGGGGG 4560 AGGAGATTCC TTTTACTTTT CGAGGTGGGA AAAAGGACAG ATACCCAAGC CTTTGACCAT 4620 GATTGTTGCT TAGCCCACCA GAGGAAACTA CTTTTGTCTG ACTGCAAATG AAACCCCTAT 4680 GATGATCTTC AGGAATTTGC CTGTATTTTT GAGGCCCTGT AGAACATTAT CCCCATAGCT 4740 ATAACTGGGT TCAAGCAGGT ACAAACTCAC CTCCTAGAAA TCTGAAGTAC CTGGCACATT 4800 GAGAACTATG GCCCCTGCCA CCCCACAAAG CACAGCCTGG ACCTTCTGAA GAGGGTGTGG 4860 TGAGATAACC CTGAAGGGTC ATTATCAGGA ACTTCCATGT TTCTTTCCCC ATCTAAGCTT 4920 AGTCTAAAGA AGATTTCAGT ACTAAGATCT TCACCCCTGG GACTTTCCAC TTCCAGACCA 4980 CAGGCCAACT ATTCAAGCAT AGTACAGATA GGCTATTGAA GTCTGAAGTT AGAAACAATG 5040 CCCATATGTG AAGTAGCAGA TATTCTGATC CGCTTTTCTC TGCTTTCCTT TGTGATTGTC 5100 ACTATTTTCC AGACAATGTC CCCACCTCCC TCTTGTCTTG CCTTACTGGC AATCTGGGCT 5160 TGATGGAGAC TGCCCCTTCT GAACAACCCA TTTTGGCACT GCCCAAGTGG GAGTGTCCTC 5220 TACCTTCCAC TCGTCCTCAT CCCAGCTTGC CTAGTGCTTC TGGGGAATTT AACAGCTATG 5280 ATGCAGACCA CAGGGAATTT GTGAGGCCTC TGTGTTATCT TTTATGTTTG TGGCTTATCT 5340 TTCTTTTTTC TATAGATGTA TCACCTCCAT CCTTGTTGGG ATGGGGGGAT ACTTTAGCAT 5400 ATTTGCTTTT TCTACCTTGG GGACCCCCAG GGGCCAAGCA GTCCTCCTTT AGTCACACCA 5460 AAGGCAAAAG GCCTGGCTAC CTCCCCTTTA GCACGTGAGG TCCCTATTCC CCTCCTTTCT 5520 ACTCAGCTTT GCTTATCTTG GAGATTTCAA GGCAGCAGTA GGGAAGTAAG GGGAAAGCAG 5580 GAGAAGCTCC TAACCCTGTA TGGGCAACTT CCTGACTAAA GACTGACTGT TGTCACCAAA 5640 AACAGGTCCC TAGCCCTTTC ACCCACTAAA ACTCCCTCTT GATCTTTCAA TGGCAGCTAA 5700 TTGCTAGCAC CCTCACCCCA CCCATTCCAG GCCTCTTTTC CCTCTGTTTC TTTGTTAGAA 5760 GGTTCTGTGG AGCTGAAACC CAGCCTCTAA TGGGGTTTGT TTAGTTTAGT TGGGTTCTCA 5820 GAGTCTCCTG TTATTTTGTG TTGTTTCCAA TGAAAAGCAA GTTTACCCTC AAAGTTATGC 5880 TTTTCCAAAG AAGCTAGTGT GTTAGTGGTG TTGTTGCTGT TGTTGCTGTT GTTGTTGTTG 5940 TTTTGTTTGT TTTGTTTTTA TGTTTCAGGT TCTAAGTGAA GTGAGGTGGA GAGGAGTTGG 6000 GAATAACCAA GGTTTAGAAC ATGGTGAGAT AGTTAACCTC TGATCTGCAA TCCCCAGCAG 6060 AGAGTTGGGG TAGGATAAGA GGGCAGAGAG GATTTCTATT CACCTTTAAT ATATTTTTAC 6120 AAAAAAGCAA ACAATTTAAA AACAAACCCA CCGCTTCTGT ACATGTCTAA ATATATTTTT 6180 AGAAGTGGGT AGGATTGTGA TTTCTGATGC AGGGCCTTTT TATAAATAGG TTAGAGTAGC 6240 CTCATCCAGA TTTCTCTGTT GTTTGTTCCC CTTGTTTTTT CTTATGTTGT GTTACTAATG 6300 TAATTTATAT ATTTTTTAGA TCTCCCTTTC CTGTAGAGAT AAAAGTGATT TATCTTGGC
6360 Nucleotide Fasta Sequence
>ENSMUSP00000127653.1|PHD|Mus musculus GTGCCCGAGCCTCGTAAGATGGCGGCGGGCTCGTCTCTTTCCCAGAACGCCGCCACTCTCAATATGGTAGCTGTTTACCATATCTCTCCACCCCTCTCCGCCTCAACTGCCTCGCGATTTTGAATAAACTTTATTGATTGCTTTGAATCTCCTACAACCCCCCGAGAGTGGCTTCTCCCGGCGACCTCTCCGGCGGTCTTTCTCCAGCCGCCGCAAGCCTGTCTCGCGAAGGGGGCAGCGACAAAGCCACTTGCCAGTGCGCCCGGCGGCCCCGACCCCGACCCCCAGCCCCGGCTGAGACCTCGGTCTCTAGAAGGCTCTGAGGGCCAGACGGTGGGAGGGCTGAGGTGGACACTGCCCGAAAGCCCCGTCAGAGCCCGGGCACTGCGTGACGCGGCATGTGGTTTCTAGGAGAAGGCAAGTCAGCTTCACAGTTTGGCAGCGGCAATCCCAGCATTCAGCGCGCGCCGCCTCGGGCCGGAACTGCCCGGCCAGCCTGTGCTTAGCGCAGAGCTGGGTTGCCCCGGAGCGAGCCCAGCGGCAGGCGAGTCTCTGGGGCTGAGCTCTGTTCCCTGAGGACTTGCCCCCTGCAGCCTCGGGCATGAAGAGAGCTCTGTAGCGTTTGGGACCGTGGACATTTTTTATCAGGTTTGGGGCATAAAAAAGGTTCCTGTCAGTGTGTGTGTGGGGAGGCGTAGAGAGCTCCTCGTAAGTTTTGGGGGCTGCAAGCAAGCTGCGTTCTAATTTAAGACGAGACGTCTGTCAGCCATCGTCTAGAGAAGGCGCTTGTTGCTGCCTTCAGACCCAGTAAAGCTTCAAAACTGGCACGGCGCAAAACGATCCAACCCCCTGTGAAGATGGCCTCGGTGCCTGTGTATTGCCTCTGTCGACTGCCTTATGATGTGACCCGCTTCATGATCGAGTGTGACATGTGCCAGGACTGGTTTCACGGCAGTTGTGTTGGTGTTGAGGAGGAGAAGGCTGCTGATATTGATCTTTACCACTGCCCTAACTGTGAGGTCTTACATGGACCTTCCATTATGAAAAAACGTCGTGGATCTTCCAAAGGACATGATAATCACAAGGGGAAGCCACTGAAGACTGGAAGCTCTATGTTTATCCGAGAACTTCGGGGCAGAACTTTTGACAGCTCAGATGAAGTGATTCTGAAGCCCACTGGAAGTCAGCTGACTGTGGAATTCTTGGAAGAGAATAGCTTCAGCGTGCCTATCCTTGTCTTGAAGAAGGATGGGTTGGGGATGACATTACCCTCTCCATCATTCACTGTGAGGGATGTGGAACACTATGTTGGTTCTGACAAAGAGATTGATGTGATTGATGTGGCCCGCCAGGCTGACTGCAAGATGAAACTCGGTGATTTTGTCAAATACTATTACAGTGGGAAGAGGGAAAAAGTCCTCAATGTCATTAGTTTGGAATTCTCCGATACCAGGCTTTCAAACCTCGTGGAAACACCCAGGATTGTTCGCAAGCTGTCATGGGTGGAGAACTTGTGGCCAGAGGAATGTGTCTTTGAGAGACCCAATGTGCAGAAGTACTGCCTCATGAGTGTGCGGGATAGCTATACAGATTTTCACATTGACTTTGGTGGGACCTCAGTTTGGTACCATGTGCTTAAGGGTGAGAAGATCTTCTACCTGATCCGCCCAACAAATGCTAATCTGACTCTCTTTGAGTGCTGGAGTAGCTCCTCCAATCAGAACGAGATGTTCTTTGGTGACCAAGTGGAAAAGTGCTACAAGTGTTCTGTGAAGCAAGGACAAACACTGTTTATTCCTACAGGATGGATACATGCTGTGTTAACACCCGTGGACTGCTTAGCATTCGGAGGGAACTTCTTACACAGTCTTAACATTGAAATGCAACTCAAGGCTTATGAAATTGAGAAGAGGCTGAGCACAGCAGACCTTTTCAAGTTTCCCAACTTCGAGACCATCTGTTGGTATGTGGGAAAACATATTCTGGACATCTTTCGAGGCTTACGAGAAAATAGAAGACACCCTGCCTCCTACCTGGTCCATGGTGGTAAAGCTCTGAACTTGGCATTTAGAGCTTGGACAAAGAAAGAAGCTTTGCCAGACCACGAGGATGAGATCCCAGAGACAGTGCGGACTGTACAGCTCATTAAAGATCTGGCTAGGGAGATCCGTCTGGTTGAAGACATCTTCCAACAGAACGTTGGGAAGACGAGCAATATCTTTGGGCTGCAGAGGATCTTCCCAGCTGGCTCCATCCCCTTAACCAAGCCAGCCCATTCCACTTCAGTATCCATGTCCAAGCTGTCACTGCCCTCCAAAAATGGTTCAAAGAAGAAAGGCCTGAAGCCCAAGGATATCTTCAAGAAGGCAGAGCGAAAGGGCAAGCAGAGTTCAGCCTTGGGGCCTGCTGGCCAGTTGAGCTATAATCTCATGGACCCATACAGTCATCAGGCACTGAAGACAGGCCCTTCCCAGAAAGCAAAGTTCAACATGAGTGGTACCAGCTTGAATGATTCAGATGATGACTCAGCAGACATGGACCTTGATGGCAGTGAGAACCCTCTGGCCCTGTTGATGGCTAATGGCAGTACGAAGAGGATGAAGAGTGTATCCAAATCTCGGAGAGCCAAAATTGCAAAGAAGGTAGACAGTGCAAGACTGGTAGCAGAACAGGTCATGGGAGATGAATTTGACTTGGATTCAGATGATGAGCTGCAGATTGACGAGAGATTGGGAAAGGAAAAGGCGAACCTGTTAATAAGATCAAAATTTCCCCGGAAGTTGCCCCGTGCAAAACCTTGCTCTGACCCCAACCGAATTCGTGAACCTGGAGAAGTTGAGTTTGACATTGAGGAGGACTATACCACAGATGAGGACATGGTGGAAGGGGTTGAAAGCAAGCTTGGGAATGGGAGTGGAGCCGGTGGAATTCTTGATCTACTTAAGGCCAGCAGGCAGGTGGGGGGACCTGACTATGCTGCCCTCACTGAGGCCCCAGCCTCCCCCAGCACTCAAGAGGCCATCCAGGGCATGTTGTGTATGGCCAACCTGCAGTCCTCATCATCCTCACCAGCTACCTCCAGTCTGCAGGCTTGGTGGACTGGAGGGCAAGAAAGAAGCAGCGGGAGCTCCAGCAGTGGCCTGGGCACTGTGTCTAGTAGTCCTGCTTCCCAGCGCACCCCAGGGAAGCGGCCCATCAAGAGGCCAGCATACTGGAAAAACGAGAGTGAAGAGGAGGAGAATGCCAGTCTTGATGAGCAAGACAGCTTGGGAGCATGCTTCAAGGATGCTGAGTATATCTATCCATCTCTGGAGTCTGATGATGATGACCCTGCTTTGAAATCTCGACCCAAGAAAAAGAAGAATTCAGATGATGCTCCATGGAGTCCTAAAGCCCGTGTGACTCCAACCCTACCCAAGCAGGACCGTCCTGTTCGTGAGGGGACCAGAGTTGCCTCCATTGAGACAGGCTTGGCTGCAGCAGCTGCAAAGCTTGCCCAGCAGGAGCTACAAAAGGCCCAAAAGAAGAAATATATCAAGAAGAAGCCTTTGCTGAAGGAGGTAGAACAGCCGCGCCCTCAAGATTCCAATCCCATCATGACAATGCCTGCACCAACTGTGGCTACAACACCCCAGCCTGACACCTCCTCCTCACCCCAGCCACCTCCTGAGCCTAAACAAGAGGCTCTGTCAGGAAGTCTTGCTGACCATGAGTACACTGCTCGTCCCAATGCCTTTGGCATGGCTCAGGCAAATCGCAGCACCACACCCATGGCCCCTGGAGTCTTCCTCACCCAGCGGCGCCCTTCAGTTGGTTCCCAGAGCAGTCAGGCAGGACAAGGAAAGCGTCCTAAAAAGGGCCTGGCCACAGCAAAGCAGAGACTCGGCCGCATCCTGAAAATCCACAGAAATGGCAAGTTACTTCTGTGAGACGAGCCCCATCATGTCCTACTCCTTCATCCCTTCACCCCCATTGCCTTCTTCGTTGTCAACTCGGGGCACTCCTGGATCCTATGAGCCCCGGACAAGGTGCATTGTCCTGCTTTCTTGGGACTGACCAAAGGCACGGACTATCTCCAACTCCCTTTCCCACTTCCCCTATGAGTATCCTACCTTCTTTTTCCATATCCATAAATAGCAGGTAAATGGGAGACATTTCCAACTGACAAGAACCTTTTCCTGCTCCACCCACATATTTCACTTACACCTTGTCTTTATTCTTTTCCACTGCTCCTCTATATGGAAGGAATGAGGAGGAGCAACATAAAGGGAGTCTGGGCCTGTCAGTTTCCTCAGCCATGGAGTGAGAAGCCCAGTGCTCAACATTTTCTGCACCTCCAGCCCTGTCTCTAAGCCTGCCCACCTCCACCCATTCCTACCCCTTCCTCACAACCGATGGATATACCCTACCTTCATTCTTGTTCCTGATAGAAGGTTGTGGTCTTTATCTTCTTTTACCTCTTTTTCATGACAAAATGAAGAGGGTCTTTATGACCCTATTATGGGACAACTCCAGAGCTGGCCTAGAAAAGCTGACTTTATCTGTCTTTGGGGGAGGGGGAGGAGATTCCTTTTACTTTTCGAGGTGGGAAAAAGGACAGATACCCAAGCCTTTGACCATGATTGTTGCTTAGCCCACCAGAGGAAACTACTTTTGTCTGACTGCAAATGAAACCCCTATGATGATCTTCAGGAATTTGCCTGTATTTTTGAGGCCCTGTAGAACATTATCCCCATAGCTATAACTGGGTTCAAGCAGGTACAAACTCACCTCCTAGAAATCTGAAGTACCTGGCACATTGAGAACTATGGCCCCTGCCACCCCACAAAGCACAGCCTGGACCTTCTGAAGAGGGTGTGGTGAGATAACCCTGAAGGGTCATTATCAGGAACTTCCATGTTTCTTTCCCCATCTAAGCTTAGTCTAAAGAAGATTTCAGTACTAAGATCTTCACCCCTGGGACTTTCCACTTCCAGACCACAGGCCAACTATTCAAGCATAGTACAGATAGGCTATTGAAGTCTGAAGTTAGAAACAATGCCCATATGTGAAGTAGCAGATATTCTGATCCGCTTTTCTCTGCTTTCCTTTGTGATTGTCACTATTTTCCAGACAATGTCCCCACCTCCCTCTTGTCTTGCCTTACTGGCAATCTGGGCTTGATGGAGACTGCCCCTTCTGAACAACCCATTTTGGCACTGCCCAAGTGGGAGTGTCCTCTACCTTCCACTCGTCCTCATCCCAGCTTGCCTAGTGCTTCTGGGGAATTTAACAGCTATGATGCAGACCACAGGGAATTTGTGAGGCCTCTGTGTTATCTTTTATGTTTGTGGCTTATCTTTCTTTTTTCTATAGATGTATCACCTCCATCCTTGTTGGGATGGGGGGATACTTTAGCATATTTGCTTTTTCTACCTTGGGGACCCCCAGGGGCCAAGCAGTCCTCCTTTAGTCACACCAAAGGCAAAAGGCCTGGCTACCTCCCCTTTAGCACGTGAGGTCCCTATTCCCCTCCTTTCTACTCAGCTTTGCTTATCTTGGAGATTTCAAGGCAGCAGTAGGGAAGTAAGGGGAAAGCAGGAGAAGCTCCTAACCCTGTATGGGCAACTTCCTGACTAAAGACTGACTGTTGTCACCAAAAACAGGTCCCTAGCCCTTTCACCCACTAAAACTCCCTCTTGATCTTTCAATGGCAGCTAATTGCTAGCACCCTCACCCCACCCATTCCAGGCCTCTTTTCCCTCTGTTTCTTTGTTAGAAGGTTCTGTGGAGCTGAAACCCAGCCTCTAATGGGGTTTGTTTAGTTTAGTTGGGTTCTCAGAGTCTCCTGTTATTTTGTGTTGTTTCCAATGAAAAGCAAGTTTACCCTCAAAGTTATGCTTTTCCAAAGAAGCTAGTGTGTTAGTGGTGTTGTTGCTGTTGTTGCTGTTGTTGTTGTTGTTTTGTTTGTTTTGTTTTTATGTTTCAGGTTCTAAGTGAAGTGAGGTGGAGAGGAGTTGGGAATAACCAAGGTTTAGAACATGGTGAGATAGTTAACCTCTGATCTGCAATCCCCAGCAGAGAGTTGGGGTAGGATAAGAGGGCAGAGAGGATTTCTATTCACCTTTAATATATTTTTACAAAAAAGCAAACAATTTAAAAACAAACCCACCGCTTCTGTACATGTCTAAATATATTTTTAGAAGTGGGTAGGATTGTGATTTCTGATGCAGGGCCTTTTTATAAATAGGTTAGAGTAGCCTCATCCAGATTTCTCTGTTGTTTGTTCCCCTTGTTTTTTCTTATGTTGTGTTACTAATGTAATTTATATATTTTTTAGATCTCCCTTTCCTGTAGAGATAAAAGTGATTTATCTTGGC
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Sequence Source |
Ensembl |
Keyword |
KW-0002--3D-structure KW-0010--Activator KW-0025--Alternative splicing KW-0131--Cell cycle KW-0156--Chromatin regulator KW-0181--Complete proteome KW-0223--Dioxygenase KW-0408--Iron KW-0479--Metal-binding KW-0539--Nucleus KW-0560--Oxidoreductase KW-0597--Phosphoprotein KW-1185--Reference proteome KW-0804--Transcription KW-0805--Transcription regulation KW-0862--Zinc KW-0863--Zinc-finger --
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Interpro |
IPR003347--JmjC_dom IPR019786--Zinc_finger_PHD-type_CS IPR011011--Znf_FYVE_PHD IPR001965--Znf_PHD IPR019787--Znf_PHD-finger IPR013083--Znf_RING/FYVE/PHD
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PROSITE |
PS51184--JMJC PS01359--ZF_PHD_1 PS50016--ZF_PHD_2
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Pfam |
PF02373--JmjC PF00628--PHD
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Gene Ontology |
GO:0031965--C:nuclear membrane GO:0005730--C:nucleolus GO:0005634--C:nucleus GO:0003682--F:chromatin binding GO:0032452--F:histone demethylase activity GO:0071558--F:histone demethylase activity (H3-K27 specific) GO:0051864--F:histone demethylase activity (H3-K36 specific) GO:0032454--F:histone demethylase activity (H3-K9 specific) GO:0035575--F:histone demethylase activity (H4-K20 specific) GO:0005506--F:iron ion binding GO:0035064--F:methylated histone binding GO:0016706--F:oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, 2-oxoglutarate as one donor, and incorporation of one atom each of oxygen into both donors GO:0008270--F:zinc ion binding GO:0007420--P:brain development GO:0000082--P:G1/S transition of mitotic cell cycle GO:0071557--P:histone H3-K27 demethylation GO:0070544--P:histone H3-K36 demethylation GO:0033169--P:histone H3-K9 demethylation GO:0035574--P:histone H4-K20 demethylation GO:0061188--P:negative regulation of chromatin silencing at rDNA GO:0045943--P:positive regulation of transcription from RNA polymerase I promoter GO:0045893--P:positive regulation of transcription, DNA-templated GO:0006351--P:transcription, DNA-templated
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Orthology |
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Created Date |
25-Jun-2016 |