Tag |
Content |
WERAM ID |
WERAM-Hos-0071 |
Ensembl Protein ID |
ENSP00000370710.3 |
Uniprot Accession |
Q9H3R0; KDM4C_HUMAN; B4E1Y4; B7ZL46; F5H347; F5H7P0; O94877; Q2M3M0; Q5JUC9; Q5VYJ2; Q5VYJ3 |
Genbank Protein ID |
NP_001140167.1; NP_001140168.1; NP_055876.2 |
Protein Name |
Lysine-specific demethylase 4C |
Genbank Nucleotide ID |
NM_001146695.1; NM_001146696.1; NM_015061.3 |
Gene Name |
KDM4C;JMJD2C;GASC1 |
Ensembl Information |
|
Details |
Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
HDM |
JHDM3_JMJD2 |
Jmjc |
H3K9me2/3; H3K36me2/3 |
K |
26674421; 20951770; 20889125 |
Me_Reader |
TTD |
Tudor1,2 |
H3K4me3 |
K |
20385584 |
|
Status |
Reviewed |
Classification |
Type |
Family |
E-value |
Score |
Start |
End |
HDM |
JHDM3_JMJD2 |
5.50e-90 |
302 |
144 |
310 |
Me_Reader |
TTD |
3.90e-43 |
149.3 |
876 |
1034 |
|
Organism |
Homo sapiens |
NCBI Taxa ID |
9606 |
Functional Description (View)Functional Description
Histone demethylase that specifically demethylates 'Lys-9' and 'Lys-36' residues of histone H3, thereby playing a central role in histone code. Does not demethylate histone H3 'Lys-4', H3 'Lys-27' nor H4 'Lys-20'. Demethylates trimethylated H3 'Lys-9' and H3 'Lys-36' residue, while it has no activity on mono- and dimethylated residues. Demethylation of Lys residue generates formaldehyde and succinate. |
Histone demethylase that specifically demethylates 'Lys-9' and 'Lys-36' residues of histone H3, thereby playing a central role in histone code. Does not demethylate histone H3 'Lys-4', H3 'Lys-27' nor H4 'Lys-20'. Demethylates trimethylated H3 'Lys-9' and H3 'Lys-36' residue, while it has no activity on mono- and dimethylated residues. Demethylation of Lys residue generates formaldehyde and succinate.
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Domain Profile |
HDM JHDM3_JMJD2
JHDM3.txt 1 dedveeWnlnklktildsvekelkieieGvntpylyvgmlkttfaWhvedmdlysinylhfGapktWyavpseaakrlekllrkefsesake 92 de v+eWn+++l+t+ld+ve+e++i+ieGvntpyly+gm+kttfaWh+edmdlysinylhfG+pk+Wya+p+e++krle+l++ +f++s+++ ENSP00000370710.3 144 DEGVDEWNIARLNTVLDVVEEECGISIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHFGEPKSWYAIPPEHGKRLERLAQGFFPSSSQG 235 57899*************************************************************************************** PP JHDM3.txt 93 ceaflrhkttlisPellkkagipfnrivqeagefvitfPygyhaGfnhGfnlaestnfaterwievgkeaakcsc 167 c+aflrhk+tlisP++lkk+gipf++i+qeagef+itfPygyhaGfnhGfn+aestnfat rwi++gk a++c+c ENSP00000370710.3 236 CDAFLRHKMTLISPSVLKKYGIPFDKITQEAGEFMITFPYGYHAGFNHGFNCAESTNFATVRWIDYGKVAKLCTC 310 **************************************************************************9 PP
Me_Reader TTD
TTD.txt 2 dasievGakvaakdrdeewyqaevvkvsaettkyevdfeegkeredlskeyivpleklklrpegdpeaefqkgekVlarypdttfYpAkvia 93 +++i+vG++v++k+r++++y+++v++v+++t+ yev+f++g++++d+++e+iv++++lkl+p++ +ge+V++++pd+++Y+Ak+++ ENSP00000370710.3 876 EKVISVGQTVITKHRNTRYYSCRVMAVTSQTF-YEVMFDDGSFSRDTFPEDIVSRDCLKLGPPA-------EGEVVQVKWPDGKLYGAKYFG 959 579*****************************.*******************************.......********************* PP TTD.txt 94 skkdgtysvkFeDgssevvkraqvyalskeenk 126 s+ +++y+v+FeDgs+ ++kr+++y+l++e++k ENSP00000370710.3 960 SNIAHMYQVEFEDGSQIAMKREDIYTLDEELPK 992 *******************************94 PP TTD.txt 85 tfYpAkvia..skkdgtysvkFeDgs 108 tfY+A +i k++ s +F+ + ENSP00000370710.3 1009 TFYGADIIQgeRKRQRVLSSRFKNEY 1034 69999888766677777788887544 PP
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Protein Sequence (Fasta) | MEVAEVESPL NPSCKIMTFR PSMEEFREFN KYLAYMESKG AHRAGLAKVI PPKEWKPRQC 60 YDDIDNLLIP APIQQMVTGQ SGLFTQYNIQ KKAMTVKEFR QLANSGKYCT PRYLDYEDLE 120 RKYWKNLTFV APIYGADING SIYDEGVDEW NIARLNTVLD VVEEECGISI EGVNTPYLYF 180 GMWKTTFAWH TEDMDLYSIN YLHFGEPKSW YAIPPEHGKR LERLAQGFFP SSSQGCDAFL 240 RHKMTLISPS VLKKYGIPFD KITQEAGEFM ITFPYGYHAG FNHGFNCAES TNFATVRWID 300 YGKVAKLCTC RKDMVKISMD IFVRKFQPDR YQLWKQGKDI YTIDHTKPTP ASTPEVKAWL 360 QRRRKVRKAS RSFQCARSTS KRPKADEEEE VSDEVDGAEV PNPDSVTDDL KVSEKSEAAV 420 KLRNTEASSE EESSASRMQV EQNLSDHIKL SGNSCLSTSV TEDIKTEDDK AYAYRSVPSI 480 SSEADDSIPL SSGYEKPEKS DPSELSWPKS PESCSSVAES NGVLTEGEES DVESHGNGLE 540 PGEIPAVPSG ERNSFKVPSI AEGENKTSKS WRHPLSRPPA RSPMTLVKQQ APSDEELPEV 600 LSIEEEVEET ESWAKPLIHL WQTKSPNFAA EQEYNATVAR MKPHCAICTL LMPYHKPDSS 660 NEENDARWET KLDEVVTSEG KTKPLIPEMC FIYSEENIEY SPPNAFLEED GTSLLISCAK 720 CCVRVHASCY GIPSHEICDG WLCARCKRNA WTAECCLCNL RGGALKQTKN NKWAHVMCAV 780 AVPEVRFTNV PERTQIDVGR IPLQRLKLKC IFCRHRVKRV SGACIQCSYG RCPASFHVTC 840 AHAAGVLMEP DDWPYVVNIT CFRHKVNPNV KSKACEKVIS VGQTVITKHR NTRYYSCRVM 900 AVTSQTFYEV MFDDGSFSRD TFPEDIVSRD CLKLGPPAEG EVVQVKWPDG KLYGAKYFGS 960 NIAHMYQVEF EDGSQIAMKR EDIYTLDEEL PKRVKARFST ASDMRFEDTF YGADIIQGER 1020 KRQRVLSSRF KNEYVADPVY RTFLKSSFQK KCQKRQ 1056Protein Fasta Sequence
>ENSP00000370710.3|KDM4C;JMJD2C;GASC1|Homo sapiens MEVAEVESPLNPSCKIMTFRPSMEEFREFNKYLAYMESKGAHRAGLAKVIPPKEWKPRQCYDDIDNLLIPAPIQQMVTGQSGLFTQYNIQKKAMTVKEFRQLANSGKYCTPRYLDYEDLERKYWKNLTFVAPIYGADINGSIYDEGVDEWNIARLNTVLDVVEEECGISIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHFGEPKSWYAIPPEHGKRLERLAQGFFPSSSQGCDAFLRHKMTLISPSVLKKYGIPFDKITQEAGEFMITFPYGYHAGFNHGFNCAESTNFATVRWIDYGKVAKLCTCRKDMVKISMDIFVRKFQPDRYQLWKQGKDIYTIDHTKPTPASTPEVKAWLQRRRKVRKASRSFQCARSTSKRPKADEEEEVSDEVDGAEVPNPDSVTDDLKVSEKSEAAVKLRNTEASSEEESSASRMQVEQNLSDHIKLSGNSCLSTSVTEDIKTEDDKAYAYRSVPSISSEADDSIPLSSGYEKPEKSDPSELSWPKSPESCSSVAESNGVLTEGEESDVESHGNGLEPGEIPAVPSGERNSFKVPSIAEGENKTSKSWRHPLSRPPARSPMTLVKQQAPSDEELPEVLSIEEEVEETESWAKPLIHLWQTKSPNFAAEQEYNATVARMKPHCAICTLLMPYHKPDSSNEENDARWETKLDEVVTSEGKTKPLIPEMCFIYSEENIEYSPPNAFLEEDGTSLLISCAKCCVRVHASCYGIPSHEICDGWLCARCKRNAWTAECCLCNLRGGALKQTKNNKWAHVMCAVAVPEVRFTNVPERTQIDVGRIPLQRLKLKCIFCRHRVKRVSGACIQCSYGRCPASFHVTCAHAAGVLMEPDDWPYVVNITCFRHKVNPNVKSKACEKVISVGQTVITKHRNTRYYSCRVMAVTSQTFYEVMFDDGSFSRDTFPEDIVSRDCLKLGPPAEGEVVQVKWPDGKLYGAKYFGSNIAHMYQVEFEDGSQIAMKREDIYTLDEELPKRVKARFSTASDMRFEDTFYGADIIQGERKRQRVLSSRFKNEYVADPVYRTFLKSSFQKKCQKRQ
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Nucleotide Sequence (Fasta) | CGGCGCCCAG GAGGACGTGT GGCGCGTGGA CTACATCAGG TCCAGCCCTG CGGGACCCCA 60 GCCAGCGCTT CCGGGCAAGG TTCTGTGCAC CTGTTTTCTC CTTCTACGCG AGTATCTTTC 120 CCCTCCGGAA AGAATGGGAT ATGCCTGTGT CCAAAGGACA AGAAGATGCG CGCCAGCAAG 180 CCTAAGTTAA CCACAGCGCG GAAGTTGAGC CCAAAGCAAG AGCGTGCCGG GCACCTTTAA 240 GCTGTTTGTA AGCCCACGTG ACTCACCAAG TGCGGGCCCC AGCGGTCACG TGACGGCGCG 300 CGCGCCCTCG CGCAGGGAGA GCCGGCGGTG CGCGCGCCTT CGCCGCTGCC TCCCACCCAC 360 CCCCTCGACG GGAGGGTGAG GCGCGGCGCA GTGATCGGGC GGCCGGGGTC CTGTGCGCGT 420 GCGCAGCGAA CAGCTGTCAC CTAGTGCGGA ACAAGTCTCC CAAATTTCCC AAATCTCCCT 480 GGGCCGGAGG CCACTGTCTT CTCTTCCTCC TCCACCGAGT CGTGCTCTCG CCCCAACCCG 540 CGCGCCAGAC ACTGCCCTAA CCATCATGGA GGTGGCCGAG GTGGAAAGTC CTCTGAACCC 600 CAGCTGTAAG ATAATGACCT TCAGACCCTC CATGGAGGAG TTCCGGGAGT TCAACAAATA 660 CCTTGCATAC ATGGAGTCTA AAGGAGCCCA TCGTGCGGGT CTTGCAAAGG TGATTCCTCC 720 TAAGGAGTGG AAGCCAAGAC AGTGCTATGA TGACATTGAT AATTTGCTCA TTCCAGCACC 780 AATTCAGCAG ATGGTCACAG GGCAGTCAGG ACTGTTCACT CAGTACAACA TCCAGAAAAA 840 AGCGATGACT GTGAAGGAGT TCAGGCAGCT GGCCAACAGT GGCAAATATT GTACTCCAAG 900 ATACTTGGAT TACGAAGATT TGGAGCGCAA GTACTGGAAG AACTTAACTT TTGTGGCACC 960 TATCTATGGT GCAGATATTA ATGGGAGCAT ATATGATGAG GGTGTGGATG AATGGAACAT 1020 AGCTCGCCTC AATACAGTCT TGGATGTGGT TGAAGAAGAG TGTGGCATTT CTATTGAGGG 1080 TGTAAATACC CCATATCTCT ATTTTGGCAT GTGGAAGACC ACGTTTGCAT GGCACACCGA 1140 AGACATGGAC CTCTATAGCA TTAATTATCT CCACTTTGGA GAGCCCAAGT CTTGGTATGC 1200 TATACCTCCG GAGCATGGAA AACGACTTGA AAGACTAGCT CAAGGTTTTT TCCCAAGCAG 1260 CTCCCAAGGG TGTGATGCAT TTCTTCGCCA CAAGATGACA TTGATTTCTC CATCAGTATT 1320 GAAGAAATAT GGTATTCCCT TTGACAAGAT AACCCAGGAG GCTGGAGAAT TCATGATCAC 1380 TTTCCCATAT GGCTACCATG CTGGTTTTAA TCATGGTTTC AACTGTGCAG AATCTACAAA 1440 TTTTGCTACT GTCAGATGGA TTGACTATGG AAAAGTTGCC AAATTGTGCA CTTGCAGGAA 1500 AGACATGGTG AAGATTTCAA TGGATATCTT TGTGAGGAAA TTTCAGCCAG ACAGATATCA 1560 GCTTTGGAAA CAAGGAAAGG ATATATACAC CATTGATCAC ACGAAGCCTA CTCCAGCATC 1620 CACCCCTGAA GTAAAAGCAT GGCTGCAGAG GAGGAGGAAA GTAAGAAAAG CATCCCGAAG 1680 CTTCCAGTGT GCTAGGTCTA CCTCTAAAAG GCCTAAGGCT GATGAGGAAG AGGAAGTGTC 1740 AGATGAAGTC GATGGGGCAG AGGTCCCTAA CCCCGACTCA GTCACAGATG ACCTCAAGGT 1800 CAGTGAAAAG TCAGAAGCAG CAGTGAAGCT GAGGAACACA GAAGCATCTT CAGAAGAAGA 1860 GTCATCTGCT AGCAGGATGC AGGTGGAGCA GAATTTATCA GATCATATCA AACTCTCAGG 1920 AAACAGCTGC TTAAGTACAT CTGTAACAGA AGACATAAAA ACTGAGGATG ACAAAGCTTA 1980 TGCATATAGA AGTGTACCTT CTATATCCAG TGAGGCTGAT GATTCCATTC CATTGTCTAG 2040 TGGCTATGAG AAGCCCGAGA AATCAGACCC ATCCGAGCTT TCATGGCCAA AGTCACCTGA 2100 GTCATGCTCA TCAGTGGCAG AGAGTAATGG TGTGTTAACA GAGGGAGAAG AGAGTGATGT 2160 GGAGAGCCAT GGGAATGGCC TTGAACCTGG GGAAATCCCA GCGGTCCCCA GTGGAGAGAG 2220 AAATAGCTTC AAAGTCCCCA GTATAGCAGA GGGAGAGAAC AAAACCTCTA AGAGTTGGCG 2280 CCATCCACTT AGCAGGCCTC CAGCAAGATC TCCGATGACT CTTGTGAAGC AGCAGGCGCC 2340 AAGTGATGAA GAATTGCCTG AGGTTCTGTC CATTGAGGAG GAAGTGGAAG AAACAGAGTC 2400 TTGGGCGAAA CCTCTCATCC ACCTTTGGCA GACGAAGTCC CCTAACTTCG CAGCTGAGCA 2460 AGAGTATAAT GCAACAGTGG CCAGGATGAA GCCACACTGT GCCATCTGCA CTCTGCTCAT 2520 GCCGTACCAC AAGCCAGATA GCAGCAATGA AGAAAATGAT GCTAGATGGG AGACAAAATT 2580 AGATGAAGTC GTTACATCGG AGGGAAAGAC TAAGCCCCTC ATACCAGAGA TGTGTTTTAT 2640 TTATAGTGAA GAAAATATAG AATATTCTCC ACCCAATGCC TTCCTTGAAG AGGATGGAAC 2700 AAGTCTCCTT ATTTCCTGTG CAAAGTGCTG CGTACGGGTT CATGCAAGTT GTTATGGTAT 2760 TCCTTCTCAT GAGATCTGTG ATGGATGGCT GTGTGCCCGG TGCAAAAGAA ATGCGTGGAC 2820 AGCAGAATGC TGTCTCTGCA ATTTGAGAGG AGGTGCTCTT AAGCAAACGA AGAACAATAA 2880 GTGGGCCCAT GTCATGTGCG CCGTTGCGGT CCCAGAAGTT CGATTCACTA ATGTCCCAGA 2940 AAGGACACAA ATAGATGTAG GCAGAATACC TTTACAGAGG TTAAAATTGA AATGCATCTT 3000 CTGCAGACAC CGGGTTAAGA GGGTCTCTGG AGCCTGCATC CAGTGTTCCT ACGGTCGCTG 3060 CCCGGCCTCC TTCCATGTCA CTTGTGCCCA TGCTGCTGGG GTACTGATGG AGCCTGATGA 3120 CTGGCCTTAT GTGGTGAACA TTACATGCTT TCGACATAAG GTCAACCCCA ACGTGAAGTC 3180 CAAGGCTTGC GAGAAGGTCA TTTCCGTGGG TCAAACGGTC ATCACGAAGC ATCGGAACAC 3240 CCGGTATTAC AGTTGCAGAG TGATGGCTGT GACATCGCAG ACCTTCTATG AGGTCATGTT 3300 TGATGATGGC TCCTTTAGCA GAGACACATT TCCTGAGGAT ATCGTGAGCC GAGACTGTCT 3360 GAAGCTGGGC CCACCTGCTG AGGGAGAAGT CGTCCAAGTC AAGTGGCCCG ATGGCAAACT 3420 CTATGGAGCA AAATATTTTG GATCAAATAT TGCCCACATG TACCAGGTTG AGTTTGAAGA 3480 TGGATCCCAG ATAGCAATGA AGAGAGAGGA CATCTACACT TTAGATGAAG AGTTACCCAA 3540 GAGAGTGAAA GCTCGATTTT CCACAGCCTC TGACATGCGA TTTGAAGACA CGTTTTATGG 3600 AGCAGACATT ATCCAAGGGG AGAGAAAGAG ACAAAGAGTG CTGAGCTCCA GGTTTAAGAA 3660 TGAATATGTG GCCGACCCTG TATACCGCAC TTTTTTGAAG AGCTCTTTCC AGAAGAAGTG 3720 CCAGAAGAGA CAGTAGTCTG CATACATCGC TGCAGGCCAC AGAGCAGCTT GGGTTGGAAG 3780 AGAGAAGATG AAGGGACATC CTTGGGGCTG TGCCGTGAGT TTTGCTGGCA TAGGTGACAG 3840 GGTGTGTCTC TGACAGTGGT AAATCGGGTT TCCAGAGTTT GGTCACCAAA AATACAAAAT 3900 ACACCCAATG AATTGGACGC AGCAATCTGA AATCATCTCT AGTCTTGCTT TCACTTGTGA 3960 GCAGTTGTCT TCTATGATCC CAAAGAAGTT TTCTAAGTGA AAGGAAATAC TAGTGAATCA 4020 CCCACAAGGA AAAGCCACTG CCACAGAGGA GGCGGGTCCC CTTGTGCGGC TTAGGGCCCT 4080 GTCAGGAAAC ACACGGGGAC CTCTCTCTCT AGCTCCAGCA GGTGGCACCT CGGTACCCAG 4140 CGGGTAGGGC GATAATTTAT ATATTTTCCA CAGTCAGGGA AGGACTCTCA CTTATTTGTT 4200 TCAAATTGCA GTTTTTATAA AACATTTTTA AAACACAAAT GGCATGTATG CTAATGAGAT 4260 TTACCCGTGT GCTATCTGTA TTTCCCTTGT ACAGAACTTT TACATTTTTG AATATTCCTA 4320 TTACTTTTGA TTGTGTCTGA TGGGAACTGA GTTGTTGGCC TTTGTGAAAT GAAATTTTTG 4380 GCTCTTGAGA AAGAATTCTT ATGAATTGTT ATGCGAATTT TATATATTTA AAGAGGGAGA 4440 TCTGGGGCTG TTATTTTTAA ACACTTTTTT TCATAATACA TATTCCGAGT AGATATTTAT 4500 AAAATATATG TTTCTTTCAT TATGTGTTTG TAAAATTAGA GTTTAAATAA ATATGCTTTG 4560 ATGCATAGTT TTGAACTAAT GTAACATGAT TTTTCTTTTT TAAAACAGCC TGAAAATGTA 4620 CTAGTGTTTA AAAATAAAGA TTTCCATTTT CTCCA
4656Nucleotide Fasta Sequence
>ENSP00000370710.3|TTD|Homo sapiens CGGCGCCCAGGAGGACGTGTGGCGCGTGGACTACATCAGGTCCAGCCCTGCGGGACCCCAGCCAGCGCTTCCGGGCAAGGTTCTGTGCACCTGTTTTCTCCTTCTACGCGAGTATCTTTCCCCTCCGGAAAGAATGGGATATGCCTGTGTCCAAAGGACAAGAAGATGCGCGCCAGCAAGCCTAAGTTAACCACAGCGCGGAAGTTGAGCCCAAAGCAAGAGCGTGCCGGGCACCTTTAAGCTGTTTGTAAGCCCACGTGACTCACCAAGTGCGGGCCCCAGCGGTCACGTGACGGCGCGCGCGCCCTCGCGCAGGGAGAGCCGGCGGTGCGCGCGCCTTCGCCGCTGCCTCCCACCCACCCCCTCGACGGGAGGGTGAGGCGCGGCGCAGTGATCGGGCGGCCGGGGTCCTGTGCGCGTGCGCAGCGAACAGCTGTCACCTAGTGCGGAACAAGTCTCCCAAATTTCCCAAATCTCCCTGGGCCGGAGGCCACTGTCTTCTCTTCCTCCTCCACCGAGTCGTGCTCTCGCCCCAACCCGCGCGCCAGACACTGCCCTAACCATCATGGAGGTGGCCGAGGTGGAAAGTCCTCTGAACCCCAGCTGTAAGATAATGACCTTCAGACCCTCCATGGAGGAGTTCCGGGAGTTCAACAAATACCTTGCATACATGGAGTCTAAAGGAGCCCATCGTGCGGGTCTTGCAAAGGTGATTCCTCCTAAGGAGTGGAAGCCAAGACAGTGCTATGATGACATTGATAATTTGCTCATTCCAGCACCAATTCAGCAGATGGTCACAGGGCAGTCAGGACTGTTCACTCAGTACAACATCCAGAAAAAAGCGATGACTGTGAAGGAGTTCAGGCAGCTGGCCAACAGTGGCAAATATTGTACTCCAAGATACTTGGATTACGAAGATTTGGAGCGCAAGTACTGGAAGAACTTAACTTTTGTGGCACCTATCTATGGTGCAGATATTAATGGGAGCATATATGATGAGGGTGTGGATGAATGGAACATAGCTCGCCTCAATACAGTCTTGGATGTGGTTGAAGAAGAGTGTGGCATTTCTATTGAGGGTGTAAATACCCCATATCTCTATTTTGGCATGTGGAAGACCACGTTTGCATGGCACACCGAAGACATGGACCTCTATAGCATTAATTATCTCCACTTTGGAGAGCCCAAGTCTTGGTATGCTATACCTCCGGAGCATGGAAAACGACTTGAAAGACTAGCTCAAGGTTTTTTCCCAAGCAGCTCCCAAGGGTGTGATGCATTTCTTCGCCACAAGATGACATTGATTTCTCCATCAGTATTGAAGAAATATGGTATTCCCTTTGACAAGATAACCCAGGAGGCTGGAGAATTCATGATCACTTTCCCATATGGCTACCATGCTGGTTTTAATCATGGTTTCAACTGTGCAGAATCTACAAATTTTGCTACTGTCAGATGGATTGACTATGGAAAAGTTGCCAAATTGTGCACTTGCAGGAAAGACATGGTGAAGATTTCAATGGATATCTTTGTGAGGAAATTTCAGCCAGACAGATATCAGCTTTGGAAACAAGGAAAGGATATATACACCATTGATCACACGAAGCCTACTCCAGCATCCACCCCTGAAGTAAAAGCATGGCTGCAGAGGAGGAGGAAAGTAAGAAAAGCATCCCGAAGCTTCCAGTGTGCTAGGTCTACCTCTAAAAGGCCTAAGGCTGATGAGGAAGAGGAAGTGTCAGATGAAGTCGATGGGGCAGAGGTCCCTAACCCCGACTCAGTCACAGATGACCTCAAGGTCAGTGAAAAGTCAGAAGCAGCAGTGAAGCTGAGGAACACAGAAGCATCTTCAGAAGAAGAGTCATCTGCTAGCAGGATGCAGGTGGAGCAGAATTTATCAGATCATATCAAACTCTCAGGAAACAGCTGCTTAAGTACATCTGTAACAGAAGACATAAAAACTGAGGATGACAAAGCTTATGCATATAGAAGTGTACCTTCTATATCCAGTGAGGCTGATGATTCCATTCCATTGTCTAGTGGCTATGAGAAGCCCGAGAAATCAGACCCATCCGAGCTTTCATGGCCAAAGTCACCTGAGTCATGCTCATCAGTGGCAGAGAGTAATGGTGTGTTAACAGAGGGAGAAGAGAGTGATGTGGAGAGCCATGGGAATGGCCTTGAACCTGGGGAAATCCCAGCGGTCCCCAGTGGAGAGAGAAATAGCTTCAAAGTCCCCAGTATAGCAGAGGGAGAGAACAAAACCTCTAAGAGTTGGCGCCATCCACTTAGCAGGCCTCCAGCAAGATCTCCGATGACTCTTGTGAAGCAGCAGGCGCCAAGTGATGAAGAATTGCCTGAGGTTCTGTCCATTGAGGAGGAAGTGGAAGAAACAGAGTCTTGGGCGAAACCTCTCATCCACCTTTGGCAGACGAAGTCCCCTAACTTCGCAGCTGAGCAAGAGTATAATGCAACAGTGGCCAGGATGAAGCCACACTGTGCCATCTGCACTCTGCTCATGCCGTACCACAAGCCAGATAGCAGCAATGAAGAAAATGATGCTAGATGGGAGACAAAATTAGATGAAGTCGTTACATCGGAGGGAAAGACTAAGCCCCTCATACCAGAGATGTGTTTTATTTATAGTGAAGAAAATATAGAATATTCTCCACCCAATGCCTTCCTTGAAGAGGATGGAACAAGTCTCCTTATTTCCTGTGCAAAGTGCTGCGTACGGGTTCATGCAAGTTGTTATGGTATTCCTTCTCATGAGATCTGTGATGGATGGCTGTGTGCCCGGTGCAAAAGAAATGCGTGGACAGCAGAATGCTGTCTCTGCAATTTGAGAGGAGGTGCTCTTAAGCAAACGAAGAACAATAAGTGGGCCCATGTCATGTGCGCCGTTGCGGTCCCAGAAGTTCGATTCACTAATGTCCCAGAAAGGACACAAATAGATGTAGGCAGAATACCTTTACAGAGGTTAAAATTGAAATGCATCTTCTGCAGACACCGGGTTAAGAGGGTCTCTGGAGCCTGCATCCAGTGTTCCTACGGTCGCTGCCCGGCCTCCTTCCATGTCACTTGTGCCCATGCTGCTGGGGTACTGATGGAGCCTGATGACTGGCCTTATGTGGTGAACATTACATGCTTTCGACATAAGGTCAACCCCAACGTGAAGTCCAAGGCTTGCGAGAAGGTCATTTCCGTGGGTCAAACGGTCATCACGAAGCATCGGAACACCCGGTATTACAGTTGCAGAGTGATGGCTGTGACATCGCAGACCTTCTATGAGGTCATGTTTGATGATGGCTCCTTTAGCAGAGACACATTTCCTGAGGATATCGTGAGCCGAGACTGTCTGAAGCTGGGCCCACCTGCTGAGGGAGAAGTCGTCCAAGTCAAGTGGCCCGATGGCAAACTCTATGGAGCAAAATATTTTGGATCAAATATTGCCCACATGTACCAGGTTGAGTTTGAAGATGGATCCCAGATAGCAATGAAGAGAGAGGACATCTACACTTTAGATGAAGAGTTACCCAAGAGAGTGAAAGCTCGATTTTCCACAGCCTCTGACATGCGATTTGAAGACACGTTTTATGGAGCAGACATTATCCAAGGGGAGAGAAAGAGACAAAGAGTGCTGAGCTCCAGGTTTAAGAATGAATATGTGGCCGACCCTGTATACCGCACTTTTTTGAAGAGCTCTTTCCAGAAGAAGTGCCAGAAGAGACAGTAGTCTGCATACATCGCTGCAGGCCACAGAGCAGCTTGGGTTGGAAGAGAGAAGATGAAGGGACATCCTTGGGGCTGTGCCGTGAGTTTTGCTGGCATAGGTGACAGGGTGTGTCTCTGACAGTGGTAAATCGGGTTTCCAGAGTTTGGTCACCAAAAATACAAAATACACCCAATGAATTGGACGCAGCAATCTGAAATCATCTCTAGTCTTGCTTTCACTTGTGAGCAGTTGTCTTCTATGATCCCAAAGAAGTTTTCTAAGTGAAAGGAAATACTAGTGAATCACCCACAAGGAAAAGCCACTGCCACAGAGGAGGCGGGTCCCCTTGTGCGGCTTAGGGCCCTGTCAGGAAACACACGGGGACCTCTCTCTCTAGCTCCAGCAGGTGGCACCTCGGTACCCAGCGGGTAGGGCGATAATTTATATATTTTCCACAGTCAGGGAAGGACTCTCACTTATTTGTTTCAAATTGCAGTTTTTATAAAACATTTTTAAAACACAAATGGCATGTATGCTAATGAGATTTACCCGTGTGCTATCTGTATTTCCCTTGTACAGAACTTTTACATTTTTGAATATTCCTATTACTTTTGATTGTGTCTGATGGGAACTGAGTTGTTGGCCTTTGTGAAATGAAATTTTTGGCTCTTGAGAAAGAATTCTTATGAATTGTTATGCGAATTTTATATATTTAAAGAGGGAGATCTGGGGCTGTTATTTTTAAACACTTTTTTTCATAATACATATTCCGAGTAGATATTTATAAAATATATGTTTCTTTCATTATGTGTTTGTAAAATTAGAGTTTAAATAAATATGCTTTGATGCATAGTTTTGAACTAATGTAACATGATTTTTCTTTTTTAAAACAGCCTGAAAATGTACTAGTGTTTAAAAATAAAGATTTCCATTTTCTCCA
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Sequence Source |
Ensembl |
Keyword |
KW-0002--3D-structure KW-0025--Alternative splicing 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-0621--Polymorphism KW-1185--Reference proteome KW-0677--Repeat KW-0804--Transcription KW-0805--Transcription regulation KW-0862--Zinc KW-0863--Zinc-finger --
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Interpro |
IPR003347--JmjC_dom IPR003349--JmjN IPR002999--Tudor IPR011011--Znf_FYVE_PHD IPR001965--Znf_PHD
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PROSITE |
PS51184--JMJC PS51183--JMJN
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Pfam |
PF02373--JmjC PF02375--JmjN
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Gene Ontology |
GO:0000790--C:nuclear chromatin GO:0005654--C:nucleoplasm GO:0050681--F:androgen receptor binding GO:0051213--F:dioxygenase activity GO:0019899--F:enzyme binding GO:0032452--F:histone demethylase activity GO:0032454--F:histone demethylase activity (H3-K9 specific) GO:0008270--F:zinc ion binding GO:0033169--P:histone H3-K9 demethylation GO:0008284--P:positive regulation of cell proliferation GO:0006357--P:regulation of transcription from RNA polymerase II promoter GO:0006351--P:transcription, DNA-templated
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Orthology |
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Created Date |
25-Jun-2016 |