Tag |
Content |
WERAM ID |
WERAM-Hos-0022 |
Ensembl Protein ID |
ENSP00000361473.3 |
Uniprot Accession |
O75164; KDM4A_HUMAN; Q5VVB1 |
Genbank Protein ID |
NP_055478.2; XP_005271411.1; XP_005271412.1; XP_011540769.1 |
Protein Name |
Lysine-specific demethylase 4A |
Genbank Nucleotide ID |
NM_014663.2; XM_005271354.2; XM_005271355.2; XM_011542467.1 |
Gene Name |
KDM4A;JMJD2A;JHDM3A;JMJD2A;KIAA0677 |
Ensembl Information |
|
Details |
Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
HDM |
JHDM3_JMJD2 |
Jmjc |
H3K9; H3K36 |
K |
20951770 |
Me_Reader |
TTD |
Tudor1,2 |
H3K4me3; H4K20me3 |
K |
18084306 |
|
Status |
Reviewed |
Classification |
Type |
Family |
E-value |
Score |
Start |
End |
HDM |
JHDM3_JMJD2 |
1.40e-89 |
300.7 |
143 |
699 |
Me_Reader |
PHD |
2.50e-07 |
33.1 |
729 |
865 |
|
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. Participates in transcriptional repression of ASCL2 and E2F-responsive promoters via the recruitment of histone deacetylases and NCOR1, respectively. |
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. Participates in transcriptional repression of ASCL2 and E2F-responsive promoters via the recruitment of histone deacetylases and NCOR1, respectively.
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Domain Profile |
HDM JHDM3_JMJD2
JHDM3.txt 2 edveeWnlnklktildsvekelkieieGvntpylyvgmlkttfaWhvedmdlysinylhfGapktWyavpseaakrlekllrkefsesakec 93 ++v+eWn+++l+tild veke++i+ieGvntpyly+gm+kt+faWh+edmdlysinylhfG+pk+Wy+vp+e++krle+l++ +f++sa++c ENSP00000361473.3 143 KHVDEWNIGRLRTILDLVEKESGITIEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSC 234 6899**************************************************************************************** PP JHDM3.txt 94 eaflrhkttlisPellkkagipfnrivqeagefvitfPygyhaGfnhGfnlaestnfaterwievgkeaakcsc 167 eaflrhk+tlisP +lkk+gipf++++qeagef+itfPygyhaGfnhGfn+aestnfat+rwie+gk+a++csc ENSP00000361473.3 235 EAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSC 308 *************************************************************************9 PP JHDM3.txt 129 tfPygyhaGfnhGfnlaestnfater 154 t+ + + Gfn n+++++++a ++ ENSP00000361473.3 676 TYHQVEFGGFNQ--NCGNASDLAPQK 699 555556667775..899999988765 PP
Me_Reader PHD
PHD.txt 11 degekemvqCdeCddwfHlkCvklplsslpegkswyCpsCk 51 ++g++++v C++C+ +H++C+++p +++++++w+C +C ENSP00000361473.3 729 EDGTSILVSCKKCSVRVHASCYGVP--PAKASEDWMCSRCS 767 4566679******************..6665556******7 PP PHD.txt 4 ClvCgkddegekemvqCdeCddwfHlkCv 32 Cl C g ++q + d+w+H++C ENSP00000361473.3 776 CL-C-SLRGG---ALQRANDDRWVHVSCA 799 44.6.33333...456666689******7 PP PHD.txt 4 ClvCg.kddegekemvqCde..CddwfHlkCvklpl 36 C++C+ +++ + ++vqC++ C+++fH++C + + ENSP00000361473.3 830 CIFCKkRRKRTAGCCVQCSHgrCPTAFHVSCAQAAG 865 ****6244445667*****************99874 PP
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Protein Sequence (Fasta) | MASESETLNP SARIMTFYPT MEEFRNFSRY IAYIESQGAH RAGLAKVVPP KEWKPRASYD 60 DIDDLVIPAP IQQLVTGQSG LFTQYNIQKK AMTVREFRKI ANSDKYCTPR YSEFEELERK 120 YWKNLTFNPP IYGADVNGTL YEKHVDEWNI GRLRTILDLV EKESGITIEG VNTPYLYFGM 180 WKTSFAWHTE DMDLYSINYL HFGEPKSWYS VPPEHGKRLE RLAKGFFPGS AQSCEAFLRH 240 KMTLISPLML KKYGIPFDKV TQEAGEFMIT FPYGYHAGFN HGFNCAESTN FATRRWIEYG 300 KQAVLCSCRK DMVKISMDVF VRKFQPERYK LWKAGKDNTV IDHTLPTPEA AEFLKESELP 360 PRAGNEEECP EEDMEGVEDG EEGDLKTSLA KHRIGTKRHR VCLEIPQEVS QSELFPKEDL 420 SSEQYEMTEC PAALAPVRPT HSSVRQVEDG LTFPDYSDST EVKFEELKNV KLEEEDEEEE 480 QAAAALDLSV NPASVGGRLV FSGSKKKSSS SLGSGSSRDS ISSDSETSEP LSCRAQGQTG 540 VLTVHSYAKG DGRVTVGEPC TRKKGSAARS FSERELAEVA DEYMFSLEEN KKSKGRRQPL 600 SKLPRHHPLV LQECVSDDET SEQLTPEEEA EETEAWAKPL SQLWQNRPPN FEAEKEFNET 660 MAQQAPHCAV CMIFQTYHQV EFGGFNQNCG NASDLAPQKQ RTKPLIPEMC FTSTGCSTDI 720 NLSTPYLEED GTSILVSCKK CSVRVHASCY GVPPAKASED WMCSRCSANA LEEDCCLCSL 780 RGGALQRAND DRWVHVSCAV AILEARFVNI AERSPVDVSK IPLPRFKLKC IFCKKRRKRT 840 AGCCVQCSHG RCPTAFHVSC AQAAGVMMQP DDWPFVVFIT CFRHKIPNLE RAKGALQSIT 900 AGQKVISKHK NGRFYQCEVV RLTTETFYEV NFDDGSFSDN LYPEDIVSQD CLQFGPPAEG 960 EVVQVRWTDG QVYGAKFVAS HPIQMYQVEF EDGSQLVVKR DDVYTLDEEL PKRVKSRLSV 1020 ASDMRFNEIF TEKEVKQEKK RQRVINSRYR EDYIEPALYR AIME 1064Protein Fasta Sequence
>ENSP00000361473.3|KDM4A;JMJD2A;JHDM3A;JMJD2A;KIAA0677|Homo sapiens MASESETLNPSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEKESGITIEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFLKESELPPRAGNEEECPEEDMEGVEDGEEGDLKTSLAKHRIGTKRHRVCLEIPQEVSQSELFPKEDLSSEQYEMTECPAALAPVRPTHSSVRQVEDGLTFPDYSDSTEVKFEELKNVKLEEEDEEEEQAAAALDLSVNPASVGGRLVFSGSKKKSSSSLGSGSSRDSISSDSETSEPLSCRAQGQTGVLTVHSYAKGDGRVTVGEPCTRKKGSAARSFSERELAEVADEYMFSLEENKKSKGRRQPLSKLPRHHPLVLQECVSDDETSEQLTPEEEAEETEAWAKPLSQLWQNRPPNFEAEKEFNETMAQQAPHCAVCMIFQTYHQVEFGGFNQNCGNASDLAPQKQRTKPLIPEMCFTSTGCSTDINLSTPYLEEDGTSILVSCKKCSVRVHASCYGVPPAKASEDWMCSRCSANALEEDCCLCSLRGGALQRANDDRWVHVSCAVAILEARFVNIAERSPVDVSKIPLPRFKLKCIFCKKRRKRTAGCCVQCSHGRCPTAFHVSCAQAAGVMMQPDDWPFVVFITCFRHKIPNLERAKGALQSITAGQKVISKHKNGRFYQCEVVRLTTETFYEVNFDDGSFSDNLYPEDIVSQDCLQFGPPAEGEVVQVRWTDGQVYGAKFVASHPIQMYQVEFEDGSQLVVKRDDVYTLDEELPKRVKSRLSVASDMRFNEIFTEKEVKQEKKRQRVINSRYREDYIEPALYRAIME
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Nucleotide Sequence (Fasta) | GGAGTTTCGG CCTTCGCCTG CTGGAAAAGC AGTAGGATCG GCCAGTGGCG ACAGCAGGAG 60 CTGAGCCTAA GCCCTGGCGG GGCTTTGGGC TGTAGATTCC TGTCTGACTA AAGGGACCTC 120 AAAAAGGAGG GAAAATGGCT TCTGAGTCTG AAACTCTGAA TCCCAGTGCT AGGATAATGA 180 CCTTTTATCC AACTATGGAA GAGTTCCGAA ACTTCAGTAG ATACATTGCC TACATTGAAT 240 CCCAAGGAGC TCATCGGGCA GGGCTAGCCA AGGTTGTTCC TCCAAAAGAG TGGAAGCCAC 300 GAGCATCCTA TGATGACATT GATGATTTGG TCATTCCTGC CCCCATTCAA CAGCTGGTGA 360 CGGGGCAGTC TGGCCTCTTT ACTCAGTACA ACATACAGAA GAAAGCCATG ACTGTTCGAG 420 AGTTCCGCAA GATAGCCAAT AGCGATAAGT ACTGTACCCC ACGCTATAGT GAGTTTGAAG 480 AGCTCGAGCG GAAATACTGG AAAAATCTTA CATTCAATCC TCCAATCTAT GGTGCAGATG 540 TGAATGGTAC CCTCTATGAA AAGCATGTTG ATGAGTGGAA TATTGGCCGG CTGAGAACAA 600 TCCTGGACTT GGTGGAAAAG GAGAGTGGGA TCACCATTGA GGGTGTGAAC ACCCCATACC 660 TGTACTTTGG CATGTGGAAG ACATCCTTTG CTTGGCACAC TGAAGACATG GACCTCTACA 720 GCATCAACTA CCTGCACTTT GGAGAACCAA AGTCCTGGTA CTCTGTTCCA CCTGAGCATG 780 GAAAGCGGTT GGAACGCCTC GCCAAAGGCT TTTTCCCAGG AAGTGCTCAA AGCTGTGAGG 840 CATTTCTCCG CCACAAGATG ACCCTGATTT CCCCGTTAAT GCTGAAGAAA TATGGAATTC 900 CCTTTGACAA GGTGACTCAA GAGGCTGGAG AGTTTATGAT CACTTTCCCT TATGGTTACC 960 ATGCCGGCTT TAACCATGGT TTTAACTGTG CGGAGTCTAC CAATTTTGCT ACCCGTCGGT 1020 GGATTGAGTA CGGCAAGCAA GCTGTGCTGT GCTCCTGTAG AAAGGACATG GTGAAGATCT 1080 CCATGGATGT GTTTGTGAGA AAGTTCCAGC CAGAAAGGTA CAAACTTTGG AAAGCTGGGA 1140 AGGACAACAC AGTTATTGAC CATACTCTGC CCACGCCAGA AGCAGCTGAG TTTCTTAAGG 1200 AGAGTGAACT GCCTCCAAGA GCTGGCAACG AGGAGGAGTG CCCAGAGGAG GACATGGAAG 1260 GGGTGGAGGA TGGAGAGGAA GGAGACCTGA AGACAAGCCT GGCCAAGCAC CGAATAGGGA 1320 CAAAGAGGCA CCGAGTTTGT CTTGAAATAC CACAGGAGGT GAGTCAGAGT GAGCTCTTCC 1380 CCAAGGAGGA TCTGAGTTCT GAGCAGTATG AGATGACGGA GTGCCCGGCA GCCCTCGCCC 1440 CTGTGAGGCC CACCCATAGC TCTGTGCGGC AAGTTGAGGA TGGTCTTACC TTCCCAGATT 1500 ATTCTGACTC CACTGAAGTC AAATTTGAAG AGCTTAAAAA TGTCAAACTA GAAGAGGAGG 1560 ATGAGGAGGA AGAACAAGCA GCAGCTGCCT TGGATCTTTC TGTGAATCCT GCGTCTGTAG 1620 GGGGACGCCT TGTCTTCTCA GGCTCCAAAA AGAAATCATC TTCTAGCCTG GGCTCTGGCT 1680 CTTCACGGGA TTCTATCTCT TCTGATTCAG AAACTAGTGA GCCTCTCTCC TGCCGAGCCC 1740 AAGGGCAAAC GGGAGTTCTC ACTGTGCACA GTTATGCCAA AGGGGATGGC AGGGTCACTG 1800 TGGGAGAGCC ATGCACGAGG AAGAAAGGAA GCGCCGCTAG AAGTTTCAGT GAGCGGGAGC 1860 TGGCAGAGGT TGCAGATGAA TACATGTTTT CCCTAGAAGA GAATAAGAAG TCCAAGGGAC 1920 GCCGTCAGCC TTTAAGCAAG CTCCCCCGCC ATCACCCACT TGTGCTGCAG GAGTGTGTCA 1980 GTGATGATGA GACATCTGAA CAGCTGACCC CTGAGGAAGA GGCTGAGGAG ACAGAGGCCT 2040 GGGCCAAGCC TCTGAGCCAA CTGTGGCAGA ACCGACCTCC AAACTTTGAG GCTGAGAAGG 2100 AATTCAATGA GACCATGGCC CAACAGGCCC CTCACTGCGC TGTCTGTATG ATCTTCCAGA 2160 CTTATCATCA GGTTGAATTT GGAGGCTTTA ATCAGAACTG TGGAAATGCT TCAGATTTAG 2220 CCCCCCAGAA GCAGAGGACC AAGCCATTGA TTCCAGAAAT GTGCTTCACT TCGACTGGCT 2280 GCAGCACGGA CATCAACCTT TCTACTCCTT ATCTTGAGGA GGATGGCACC AGCATACTCG 2340 TTTCCTGCAA GAAGTGCAGC GTCCGGGTCC ATGCCAGTTG CTATGGGGTC CCCCCTGCAA 2400 AGGCTTCTGA AGACTGGATG TGTTCTCGGT GTTCAGCCAA TGCCCTAGAG GAGGACTGCT 2460 GTTTATGCTC ATTACGAGGA GGGGCCCTGC AGAGAGCAAA TGATGACAGG TGGGTCCACG 2520 TTTCATGTGC TGTGGCAATT CTGGAAGCAA GGTTTGTCAA CATTGCAGAA AGAAGTCCGG 2580 TGGATGTGAG CAAAATCCCC CTGCCCCGCT TCAAACTGAA ATGTATCTTC TGTAAGAAGC 2640 GGAGGAAAAG AACTGCTGGC TGCTGTGTGC AGTGTTCTCA CGGCCGCTGC CCAACTGCCT 2700 TCCATGTGAG CTGCGCCCAG GCTGCCGGTG TGATGATGCA GCCTGACGAC TGGCCTTTTG 2760 TGGTCTTCAT TACCTGCTTT CGGCACAAGA TTCCTAATTT GGAGCGTGCC AAGGGGGCCT 2820 TGCAAAGCAT CACTGCAGGC CAGAAAGTCA TTAGCAAGCA TAAGAACGGG CGCTTCTACC 2880 AGTGTGAAGT GGTCAGGCTC ACCACCGAGA CCTTCTATGA AGTCAACTTT GATGATGGCT 2940 CCTTCAGCGA CAATCTTTAT CCTGAGGACA TAGTGAGCCA GGACTGTCTC CAGTTTGGTC 3000 CTCCTGCTGA AGGGGAAGTG GTCCAAGTGA GATGGACAGA CGGCCAAGTC TATGGAGCCA 3060 AGTTTGTGGC CTCCCACCCT ATCCAAATGT ACCAGGTGGA GTTTGAGGAT GGCTCACAAC 3120 TTGTGGTTAA GAGAGATGAT GTATACACAC TGGATGAAGA GCTTCCCAAG AGAGTCAAAT 3180 CTAGACTGTC AGTAGCCTCA GACATGCGCT TCAATGAGAT TTTCACAGAG AAAGAGGTTA 3240 AGCAAGAAAA GAAACGGCAA CGAGTTATCA ACTCAAGATA CCGGGAAGAT TATATTGAGC 3300 CTGCACTATA CCGGGCCATC ATGGAGTAGG TGCTTCCAGG GTCCAAGGGA TTCTCAGCCA 3360 TCCAGGCAAG AGCACTCTGG GTTCCACAGC ACAGCAGACA TGGAACGCTG AAGTCTCTGA 3420 AAGTGAAGTT GTAAAAAGAA AAGGAATGAA ATAACCGACC CATCATCTTC TCACCCACCC 3480 TCATTGCATT CCGCTGTAGT GAAAGGACGA GCCATTTCTG GGCACGTGGC AGCAGTCGCT 3540 GATCTCCCAG CTGAGGGGCT GAGCACTGGA ATGCTGTGGC TGCACTGGCC CCAGTCCATA 3600 GAGGGGTCAA CTATGCTGGC TGGACTGGCT GCCTTGTTCC TGGCCTAGGA CTTAGCTTCA 3660 TAACTATCAC CTGCACCGAC TAGGCTGAGG TGCTGGTACT TGCCCCAACC CCTACTTTTG 3720 TATTTATATG TGTGTGTGTG TGTGCGTGCG TGCGTGCGTG CGTGTATGTT TGGTCTGGAC 3780 CAGCTTCTGC CAGCCCCTGG CCTTTACTTT CTTCCTTGCC TATGCAGGGC AAACAAAATG 3840 TGAAATTCTG CCCTCAGCTG AGCTGAGTAA GGGCTCCTGG GGGTTGGCTG GAGATGGGTG 3900 TGGCATCTGT CCAGGCCTGG AACCGTCTCA AGACAGTGCT GGCAAAGCTG CAGTATTGAG 3960 ATGCTAAGGA GCTGATGCCA CCTCTTTGTC TTCCCCTAAA GGAGAACATG GGGATAACAT 4020 GGGTGTGTGC CCACAACACT CTAGGTGCAG AGCCCCTGTG GCAAAGTATT ACAGGGTGTG 4080 GGTGGGGATT ACCCTGAATC GGGGATTTTA ATGATGGAAG CAGGCAGAGC CTGGTGGGTG 4140 ATTCTGTCAA CAGAAAATTG CAATCATGCA GGGGCTGGGA GGGTTAGGAT GAAAAAACTG 4200 GGGCCATTGG AGGCCCACTG TAGGTGGGAG GGAGCTGATT TTGGGGTGGG GGGTGGGACT 4260 AGAGGGCAAT ACTGAAGGGG TTAAACAGGT TTTTGCTCCT CAAGAATTTG TTTGCCTGGG 4320 CCCAGGATTG GAGGGCTTCA CACCAATACC CTGTGTATAC AAGAATCAGA TTTATAATAC 4380 TTCCCCTTTT TTGTTACGTA TGAACACTAT AAACCAAATT ATTTTGAAAA CTGGTGCATC 4440 ACCTTGTCCT TAGCAATAAA ATGTGTTGAG CAGA
4475Nucleotide Fasta Sequence
>ENSP00000361473.3|PHD|Homo sapiens GGAGTTTCGGCCTTCGCCTGCTGGAAAAGCAGTAGGATCGGCCAGTGGCGACAGCAGGAGCTGAGCCTAAGCCCTGGCGGGGCTTTGGGCTGTAGATTCCTGTCTGACTAAAGGGACCTCAAAAAGGAGGGAAAATGGCTTCTGAGTCTGAAACTCTGAATCCCAGTGCTAGGATAATGACCTTTTATCCAACTATGGAAGAGTTCCGAAACTTCAGTAGATACATTGCCTACATTGAATCCCAAGGAGCTCATCGGGCAGGGCTAGCCAAGGTTGTTCCTCCAAAAGAGTGGAAGCCACGAGCATCCTATGATGACATTGATGATTTGGTCATTCCTGCCCCCATTCAACAGCTGGTGACGGGGCAGTCTGGCCTCTTTACTCAGTACAACATACAGAAGAAAGCCATGACTGTTCGAGAGTTCCGCAAGATAGCCAATAGCGATAAGTACTGTACCCCACGCTATAGTGAGTTTGAAGAGCTCGAGCGGAAATACTGGAAAAATCTTACATTCAATCCTCCAATCTATGGTGCAGATGTGAATGGTACCCTCTATGAAAAGCATGTTGATGAGTGGAATATTGGCCGGCTGAGAACAATCCTGGACTTGGTGGAAAAGGAGAGTGGGATCACCATTGAGGGTGTGAACACCCCATACCTGTACTTTGGCATGTGGAAGACATCCTTTGCTTGGCACACTGAAGACATGGACCTCTACAGCATCAACTACCTGCACTTTGGAGAACCAAAGTCCTGGTACTCTGTTCCACCTGAGCATGGAAAGCGGTTGGAACGCCTCGCCAAAGGCTTTTTCCCAGGAAGTGCTCAAAGCTGTGAGGCATTTCTCCGCCACAAGATGACCCTGATTTCCCCGTTAATGCTGAAGAAATATGGAATTCCCTTTGACAAGGTGACTCAAGAGGCTGGAGAGTTTATGATCACTTTCCCTTATGGTTACCATGCCGGCTTTAACCATGGTTTTAACTGTGCGGAGTCTACCAATTTTGCTACCCGTCGGTGGATTGAGTACGGCAAGCAAGCTGTGCTGTGCTCCTGTAGAAAGGACATGGTGAAGATCTCCATGGATGTGTTTGTGAGAAAGTTCCAGCCAGAAAGGTACAAACTTTGGAAAGCTGGGAAGGACAACACAGTTATTGACCATACTCTGCCCACGCCAGAAGCAGCTGAGTTTCTTAAGGAGAGTGAACTGCCTCCAAGAGCTGGCAACGAGGAGGAGTGCCCAGAGGAGGACATGGAAGGGGTGGAGGATGGAGAGGAAGGAGACCTGAAGACAAGCCTGGCCAAGCACCGAATAGGGACAAAGAGGCACCGAGTTTGTCTTGAAATACCACAGGAGGTGAGTCAGAGTGAGCTCTTCCCCAAGGAGGATCTGAGTTCTGAGCAGTATGAGATGACGGAGTGCCCGGCAGCCCTCGCCCCTGTGAGGCCCACCCATAGCTCTGTGCGGCAAGTTGAGGATGGTCTTACCTTCCCAGATTATTCTGACTCCACTGAAGTCAAATTTGAAGAGCTTAAAAATGTCAAACTAGAAGAGGAGGATGAGGAGGAAGAACAAGCAGCAGCTGCCTTGGATCTTTCTGTGAATCCTGCGTCTGTAGGGGGACGCCTTGTCTTCTCAGGCTCCAAAAAGAAATCATCTTCTAGCCTGGGCTCTGGCTCTTCACGGGATTCTATCTCTTCTGATTCAGAAACTAGTGAGCCTCTCTCCTGCCGAGCCCAAGGGCAAACGGGAGTTCTCACTGTGCACAGTTATGCCAAAGGGGATGGCAGGGTCACTGTGGGAGAGCCATGCACGAGGAAGAAAGGAAGCGCCGCTAGAAGTTTCAGTGAGCGGGAGCTGGCAGAGGTTGCAGATGAATACATGTTTTCCCTAGAAGAGAATAAGAAGTCCAAGGGACGCCGTCAGCCTTTAAGCAAGCTCCCCCGCCATCACCCACTTGTGCTGCAGGAGTGTGTCAGTGATGATGAGACATCTGAACAGCTGACCCCTGAGGAAGAGGCTGAGGAGACAGAGGCCTGGGCCAAGCCTCTGAGCCAACTGTGGCAGAACCGACCTCCAAACTTTGAGGCTGAGAAGGAATTCAATGAGACCATGGCCCAACAGGCCCCTCACTGCGCTGTCTGTATGATCTTCCAGACTTATCATCAGGTTGAATTTGGAGGCTTTAATCAGAACTGTGGAAATGCTTCAGATTTAGCCCCCCAGAAGCAGAGGACCAAGCCATTGATTCCAGAAATGTGCTTCACTTCGACTGGCTGCAGCACGGACATCAACCTTTCTACTCCTTATCTTGAGGAGGATGGCACCAGCATACTCGTTTCCTGCAAGAAGTGCAGCGTCCGGGTCCATGCCAGTTGCTATGGGGTCCCCCCTGCAAAGGCTTCTGAAGACTGGATGTGTTCTCGGTGTTCAGCCAATGCCCTAGAGGAGGACTGCTGTTTATGCTCATTACGAGGAGGGGCCCTGCAGAGAGCAAATGATGACAGGTGGGTCCACGTTTCATGTGCTGTGGCAATTCTGGAAGCAAGGTTTGTCAACATTGCAGAAAGAAGTCCGGTGGATGTGAGCAAAATCCCCCTGCCCCGCTTCAAACTGAAATGTATCTTCTGTAAGAAGCGGAGGAAAAGAACTGCTGGCTGCTGTGTGCAGTGTTCTCACGGCCGCTGCCCAACTGCCTTCCATGTGAGCTGCGCCCAGGCTGCCGGTGTGATGATGCAGCCTGACGACTGGCCTTTTGTGGTCTTCATTACCTGCTTTCGGCACAAGATTCCTAATTTGGAGCGTGCCAAGGGGGCCTTGCAAAGCATCACTGCAGGCCAGAAAGTCATTAGCAAGCATAAGAACGGGCGCTTCTACCAGTGTGAAGTGGTCAGGCTCACCACCGAGACCTTCTATGAAGTCAACTTTGATGATGGCTCCTTCAGCGACAATCTTTATCCTGAGGACATAGTGAGCCAGGACTGTCTCCAGTTTGGTCCTCCTGCTGAAGGGGAAGTGGTCCAAGTGAGATGGACAGACGGCCAAGTCTATGGAGCCAAGTTTGTGGCCTCCCACCCTATCCAAATGTACCAGGTGGAGTTTGAGGATGGCTCACAACTTGTGGTTAAGAGAGATGATGTATACACACTGGATGAAGAGCTTCCCAAGAGAGTCAAATCTAGACTGTCAGTAGCCTCAGACATGCGCTTCAATGAGATTTTCACAGAGAAAGAGGTTAAGCAAGAAAAGAAACGGCAACGAGTTATCAACTCAAGATACCGGGAAGATTATATTGAGCCTGCACTATACCGGGCCATCATGGAGTAGGTGCTTCCAGGGTCCAAGGGATTCTCAGCCATCCAGGCAAGAGCACTCTGGGTTCCACAGCACAGCAGACATGGAACGCTGAAGTCTCTGAAAGTGAAGTTGTAAAAAGAAAAGGAATGAAATAACCGACCCATCATCTTCTCACCCACCCTCATTGCATTCCGCTGTAGTGAAAGGACGAGCCATTTCTGGGCACGTGGCAGCAGTCGCTGATCTCCCAGCTGAGGGGCTGAGCACTGGAATGCTGTGGCTGCACTGGCCCCAGTCCATAGAGGGGTCAACTATGCTGGCTGGACTGGCTGCCTTGTTCCTGGCCTAGGACTTAGCTTCATAACTATCACCTGCACCGACTAGGCTGAGGTGCTGGTACTTGCCCCAACCCCTACTTTTGTATTTATATGTGTGTGTGTGTGTGCGTGCGTGCGTGCGTGCGTGTATGTTTGGTCTGGACCAGCTTCTGCCAGCCCCTGGCCTTTACTTTCTTCCTTGCCTATGCAGGGCAAACAAAATGTGAAATTCTGCCCTCAGCTGAGCTGAGTAAGGGCTCCTGGGGGTTGGCTGGAGATGGGTGTGGCATCTGTCCAGGCCTGGAACCGTCTCAAGACAGTGCTGGCAAAGCTGCAGTATTGAGATGCTAAGGAGCTGATGCCACCTCTTTGTCTTCCCCTAAAGGAGAACATGGGGATAACATGGGTGTGTGCCCACAACACTCTAGGTGCAGAGCCCCTGTGGCAAAGTATTACAGGGTGTGGGTGGGGATTACCCTGAATCGGGGATTTTAATGATGGAAGCAGGCAGAGCCTGGTGGGTGATTCTGTCAACAGAAAATTGCAATCATGCAGGGGCTGGGAGGGTTAGGATGAAAAAACTGGGGCCATTGGAGGCCCACTGTAGGTGGGAGGGAGCTGATTTTGGGGTGGGGGGTGGGACTAGAGGGCAATACTGAAGGGGTTAAACAGGTTTTTGCTCCTCAAGAATTTGTTTGCCTGGGCCCAGGATTGGAGGGCTTCACACCAATACCCTGTGTATACAAGAATCAGATTTATAATACTTCCCCTTTTTTGTTACGTATGAACACTATAAACCAAATTATTTTGAAAACTGGTGCATCACCTTGTCCTTAGCAATAAAATGTGTTGAGCAGA
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Sequence Source |
Ensembl |
Keyword |
KW-0002--3D-structure KW-0007--Acetylation KW-0025--Alternative splicing KW-0156--Chromatin regulator KW-0181--Complete proteome KW-0223--Dioxygenase KW-0945--Host-virus interaction 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-0832--Ubl conjugation 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 IPR013083--Znf_RING/FYVE/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:0005737--C:cytoplasm GO:0005730--C:nucleolus GO:0005654--C:nucleoplasm GO:0005634--C:nucleus GO:0005721--C:pericentric heterochromatin GO:0032452--F:histone demethylase activity GO:0051864--F:histone demethylase activity (H3-K36 specific) GO:0035064--F:methylated histone binding GO:0031625--F:ubiquitin protein ligase binding GO:0008270--F:zinc ion binding GO:0014898--P:cardiac muscle hypertrophy in response to stress GO:0016577--P:histone demethylation GO:0070544--P:histone H3-K36 demethylation GO:0010507--P:negative regulation of autophagy GO:0010629--P:negative regulation of gene expression GO:1900113--P:negative regulation of histone H3-K9 trimethylation GO:0045892--P:negative regulation of transcription, DNA-templated GO:0006351--P:transcription, DNA-templated GO:0016032--P:viral process
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Orthology |
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Created Date |
25-Jun-2016 |