Tag |
Content |
WERAM ID |
WERAM-Mum-0090 |
Ensembl Protein ID |
ENSMUSP00000030102.5 |
Uniprot Accession |
Q8VCD7; KDM4C_MOUSE; Q3UNP7; Q69ZZ5; Q8BUY6; Q8BWA1 |
Genbank Protein ID |
NP_001165566.1; NP_659036.1; XP_006538415.1 |
Protein Name |
Lysine-specific demethylase 4C |
Genbank Nucleotide ID |
NM_001172095.1; NM_144787.2; XM_006538352.2 |
Gene Name |
KDM4C;JMJD2C;GASC1 |
Ensembl Information |
|
Details |
Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
HDM |
JHDM3_JMJD2 |
Jmjc |
H3K9; H3K36 |
K |
26805559 |
|
Status |
Reviewed |
Classification |
Type |
Family |
E-value |
Score |
Start |
End |
HDM |
JHDM3_JMJD2 |
2.10e-90 |
302.6 |
144 |
310 |
|
Organism |
Mus musculus |
NCBI Taxa ID |
10090 |
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 (By similarity). |
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 (By similarity).
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Domain Profile |
HDM JHDM3_JMJD2
JHDM3.txt 1 dedveeWnlnklktildsvekelkieieGvntpylyvgmlkttfaWhvedmdlysinylhfGapktWyavpseaakrlekllrkefses 89 de v+eWn+++l+t+ld+ve+e++i+ieGvntpyly+gm+kttfaWh+edmdlysinylhfG+pk+Wya+p+e++krle+l++ +f++s ENSMUSP00000030102.5 144 DEGVDEWNIARLNTVLDVVEEECGISIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHFGEPKSWYAIPPEHGKRLERLAQGFFPSS 232 57899************************************************************************************ PP JHDM3.txt 90 akeceaflrhkttlisPellkkagipfnrivqeagefvitfPygyhaGfnhGfnlaestnfaterwievgkeaakcsc 167 +++c+aflrhk+tlisP++lkk+gipf++i+qeagef+itfPygyhaGfnhGfn+aestnfat rwi++gk a++c+c ENSMUSP00000030102.5 233 SQGCDAFLRHKMTLISPSVLKKYGIPFDKITQEAGEFMITFPYGYHAGFNHGFNCAESTNFATVRWIDYGKVAKLCTC 310 *****************************************************************************9 PP
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Protein Sequence (Fasta) | MEVVEVESPL NPSCKIMTFR PSMEEFREFN KYLAYMESKG AHRAGLAKVI PPKEWKPRQC 60 YDDIDNLLIP APIQQMVTGQ SGLFTQYNIQ KKAMTVKEFR QLANSSKYCT PRYLDYEDLE 120 RKYWKNLTFV APIYGADING SIYDEGVDEW NIARLNTVLD VVEEECGISI EGVNTPYLYF 180 GMWKTTFAWH TEDMDLYSIN YLHFGEPKSW YAIPPEHGKR LERLAQGFFP SSSQGCDAFL 240 RHKMTLISPS VLKKYGIPFD KITQEAGEFM ITFPYGYHAG FNHGFNCAES TNFATVRWID 300 YGKVAKLCTC RNDMVKISMD IFVKKFQPDR YQIWKQGKDI YTIDHTKPTP ESTPEVKTWL 360 QRKKKLRKPP KSLQGNKPLC KRPKPEEDEE FAEFSGEEGA NPAMGPRHLK VTEKPEKALK 420 LGKLEESSAK EALDTRIQVD QSLLNDTKLS GKGCISSSVT AEIPPEDNRA SAVISPSQLK 480 EGADCIPLSH GHQAGKESHL LKILKLESPK IPSPLPESNK VLTEGEENDE EGHGSNLEPG 540 EIPEALSEER NGLNIPKIIE GQPKTTKSWR HPLGKPPARS PMTLVKQQVA SDEELPEVLS 600 IDEEVEETES WAKPLIHLWQ TKSPNFMAEQ EYNATVAKME PNCAICTLLM PYYKPDSSKE 660 ENDSRWETAV NEVVQSGRKT KPIIPEMCFI YSEENVDYSP PNAFLEEDGT SLLISCAKCF 720 VRVHASCYGV PSHEVCDGWL CARCKRNAWT AECCLCNLRG GALKQTKNNQ WAHVICAVAV 780 PEVRFTNVPE RTQIDVDRIP LQRLKLKCIF CRHRVKKVSG ACIQCSYGRC PASFHVTCAH 840 AAGVLMEPDD WPYVVNITCF RHRVNSNAKS KTCEKAISVG QTVITKHRNT RYYSCRVIDV 900 TSQTFYEVMF DDGSFSRDTF PEDIVSRNCV KLGPPAEGEV IQVKWPDGKL YGAKYLGSNV 960 AYMYQVEFED GSQIAMKRED IYTLDEELPK RVKARFSTAS DMRFEDTFYG ADVIQGERKR 1020 QRVLSSRLKN EYVDDPVYRT FLKSSFQKKC QKRQ 1054Protein Fasta Sequence
>ENSMUSP00000030102.5|KDM4C;JMJD2C;GASC1|Mus musculus MEVVEVESPLNPSCKIMTFRPSMEEFREFNKYLAYMESKGAHRAGLAKVIPPKEWKPRQCYDDIDNLLIPAPIQQMVTGQSGLFTQYNIQKKAMTVKEFRQLANSSKYCTPRYLDYEDLERKYWKNLTFVAPIYGADINGSIYDEGVDEWNIARLNTVLDVVEEECGISIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHFGEPKSWYAIPPEHGKRLERLAQGFFPSSSQGCDAFLRHKMTLISPSVLKKYGIPFDKITQEAGEFMITFPYGYHAGFNHGFNCAESTNFATVRWIDYGKVAKLCTCRNDMVKISMDIFVKKFQPDRYQIWKQGKDIYTIDHTKPTPESTPEVKTWLQRKKKLRKPPKSLQGNKPLCKRPKPEEDEEFAEFSGEEGANPAMGPRHLKVTEKPEKALKLGKLEESSAKEALDTRIQVDQSLLNDTKLSGKGCISSSVTAEIPPEDNRASAVISPSQLKEGADCIPLSHGHQAGKESHLLKILKLESPKIPSPLPESNKVLTEGEENDEEGHGSNLEPGEIPEALSEERNGLNIPKIIEGQPKTTKSWRHPLGKPPARSPMTLVKQQVASDEELPEVLSIDEEVEETESWAKPLIHLWQTKSPNFMAEQEYNATVAKMEPNCAICTLLMPYYKPDSSKEENDSRWETAVNEVVQSGRKTKPIIPEMCFIYSEENVDYSPPNAFLEEDGTSLLISCAKCFVRVHASCYGVPSHEVCDGWLCARCKRNAWTAECCLCNLRGGALKQTKNNQWAHVICAVAVPEVRFTNVPERTQIDVDRIPLQRLKLKCIFCRHRVKKVSGACIQCSYGRCPASFHVTCAHAAGVLMEPDDWPYVVNITCFRHRVNSNAKSKTCEKAISVGQTVITKHRNTRYYSCRVIDVTSQTFYEVMFDDGSFSRDTFPEDIVSRNCVKLGPPAEGEVIQVKWPDGKLYGAKYLGSNVAYMYQVEFEDGSQIAMKREDIYTLDEELPKRVKARFSTASDMRFEDTFYGADVIQGERKRQRVLSSRLKNEYVDDPVYRTFLKSSFQKKCQKRQ
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Nucleotide Sequence (Fasta) | GATTCCGTGG TGGCGCCCCG TGCGCGTGCG CAGCGAACAG CTGTCACCCA GTGCGGAACA 60 AGTCTTCCAA AGATTCCCAA AACCCTCAGG GGAGGCCGCA CTTTTCATCC CTTTCATTCG 120 GGTGGCGTCT GGACCTCCGC CAGCGGCGCA GAAACATCTG TGGCCATCAT GGAGGTGGTG 180 GAGGTGGAGA GTCCCCTAAA TCCCAGCTGT AAGATAATGA CCTTCAGACC TTCCATGGAG 240 GAGTTTCGGG AGTTCAACAA ATACCTCGCA TACATGGAAT CCAAAGGAGC CCATCGAGCA 300 GGTCTTGCCA AGGTGATTCC TCCTAAGGAG TGGAAGCCAA GACAGTGCTA TGATGATATT 360 GATAATTTGC TCATCCCAGC ACCAATTCAG CAGATGGTCA CAGGGCAGTC GGGACTGTTC 420 ACGCAATACA ACATCCAGAA GAAAGCCATG ACTGTGAAGG AGTTCAGGCA GCTGGCTAAC 480 AGCAGCAAAT ACTGTACTCC AAGATACTTG GATTATGAAG ATTTGGAACG CAAATACTGG 540 AAAAACTTAA CTTTTGTGGC ACCTATTTAT GGAGCAGATA TAAATGGGAG CATTTATGAT 600 GAGGGTGTGG ATGAATGGAA TATAGCTCGC CTAAATACAG TCTTGGATGT GGTTGAAGAA 660 GAGTGTGGTA TTTCTATTGA GGGGGTAAAT ACCCCTTATC TCTATTTTGG AATGTGGAAA 720 ACAACATTTG CGTGGCACAC GGAGGACATG GATCTCTACA GTATTAATTA TCTCCACTTT 780 GGGGAGCCCA AGTCTTGGTA TGCTATACCT CCGGAGCATG GAAAGCGACT TGAAAGACTA 840 GCCCAAGGCT TCTTCCCCAG TAGCTCCCAA GGCTGTGATG CATTTCTCCG GCACAAGATG 900 ACCCTCATTT CCCCCTCAGT GCTGAAGAAG TATGGCATTC CCTTCGACAA GATCACCCAG 960 GAGGCTGGAG AGTTTATGAT CACTTTTCCT TATGGATATC ATGCTGGTTT TAATCATGGT 1020 TTCAATTGTG CTGAGTCTAC AAATTTTGCT ACAGTCAGAT GGATTGACTA CGGCAAGGTT 1080 GCTAAGTTGT GCACTTGTCG GAATGACATG GTGAAGATAT CAATGGATAT ATTTGTGAAG 1140 AAATTTCAGC CAGATAGATA CCAGATTTGG AAACAAGGAA AGGATATATA TACTATTGAC 1200 CATACAAAGC CCACTCCAGA ATCTACTCCA GAAGTAAAAA CATGGCTACA GAGGAAGAAA 1260 AAATTAAGAA AGCCTCCCAA GAGCTTACAG GGCAATAAGC CACTTTGTAA AAGGCCTAAA 1320 CCTGAAGAAG ATGAGGAATT TGCTGAATTT AGTGGGGAAG AGGGTGCAAA CCCTGCCATG 1380 GGCCCTAGGC ACCTCAAAGT CACTGAAAAG CCAGAAAAAG CATTAAAGCT GGGGAAATTA 1440 GAAGAATCTT CAGCAAAAGA AGCTTTGGAT ACCAGGATAC AAGTGGATCA AAGCTTACTG 1500 AACGACACCA AGCTCTCGGG AAAAGGTTGC ATAAGTTCAT CAGTAACAGC TGAAATTCCA 1560 CCAGAAGACA ACAGAGCCAG TGCTGTAATT TCACCATCTC AGCTGAAGGA GGGCGCTGAC 1620 TGCATACCAC TTTCTCATGG CCATCAAGCA GGCAAAGAGT CACATCTACT TAAGATTCTA 1680 AAGCTTGAAT CTCCCAAGAT ACCTTCCCCC CTGCCAGAAA GTAATAAAGT ATTGACAGAG 1740 GGAGAAGAAA ATGATGAAGA GGGCCATGGA AGTAACCTTG AGCCTGGGGA AATCCCAGAA 1800 GCTCTTAGTG AAGAGAGAAA TGGGCTCAAC ATTCCTAAGA TAATTGAAGG ACAGCCAAAA 1860 ACTACTAAGA GTTGGCGCCA TCCACTTGGT AAGCCTCCGG CCAGATCCCC AATGACACTT 1920 GTGAAGCAGC AGGTAGCGAG TGATGAAGAA TTGCCTGAGG TTCTAAGCAT TGACGAAGAA 1980 GTTGAAGAAA CAGAGTCTTG GGCAAAGCCT CTCATCCACC TTTGGCAGAC AAAGTCTCCT 2040 AACTTTATGG CTGAACAGGA GTACAATGCA ACTGTTGCAA AAATGGAGCC AAACTGTGCC 2100 ATCTGCACTC TGCTCATGCC GTACTACAAG CCTGATAGCA GCAAAGAAGA AAATGATTCT 2160 AGATGGGAGA CAGCAGTAAA TGAAGTGGTT CAATCTGGAA GAAAGACTAA GCCCATTATT 2220 CCAGAGATGT GTTTTATTTA TAGTGAAGAA AATGTAGACT ATTCCCCCCC AAATGCCTTC 2280 CTTGAAGAAG ATGGAACAAG TCTTCTGATT TCCTGTGCCA AGTGCTTCGT GCGGGTTCAT 2340 GCAAGTTGTT ATGGTGTCCC TTCTCATGAA GTCTGTGATG GATGGCTGTG TGCCCGGTGC 2400 AAGAGAAATG CATGGACTGC AGAATGCTGT CTCTGCAATT TGAGGGGAGG TGCTCTGAAA 2460 CAGACTAAGA ACAATCAGTG GGCTCATGTC ATATGTGCTG TTGCAGTTCC AGAAGTGCGA 2520 TTCACTAATG TCCCAGAACG GACACAAATA GATGTAGACA GAATACCTTT ACAGAGGTTA 2580 AAATTGAAAT GCATCTTCTG TAGACACCGG GTTAAAAAGG TTTCTGGAGC CTGCATCCAG 2640 TGTTCTTATG GCCGCTGCCC AGCTTCATTC CATGTTACGT GTGCCCATGC TGCTGGAGTG 2700 CTCATGGAGC CTGATGACTG GCCTTACGTG GTAAACATCA CATGCTTCAG ACATAGAGTC 2760 AACTCAAACG CGAAATCCAA AACTTGTGAG AAAGCCATTT CTGTGGGTCA GACAGTCATC 2820 ACAAAACATC GAAACACTCG GTACTACAGC TGCAGAGTGA TAGATGTGAC ATCTCAAACC 2880 TTCTATGAGG TCATGTTTGA TGATGGCTCC TTCAGCAGAG ACACATTTCC TGAAGATATT 2940 GTGAGCCGAA ACTGTGTGAA GCTGGGCCCT CCTGCGGAGG GAGAAGTCAT CCAAGTCAAA 3000 TGGCCTGATG GTAAACTCTA TGGGGCAAAG TATCTTGGAT CAAATGTTGC CTATATGTAT 3060 CAGGTTGAAT TTGAAGATGG ATCGCAGATT GCAATGAAGA GAGAAGACAT ATACACTTTA 3120 GATGAAGAGT TACCCAAGAG AGTAAAGGCT CGTTTTTCCA CAGCCTCCGA CATGCGATTT 3180 GAAGACACAT TTTATGGAGC AGATGTAATC CAAGGGGAGA GGAAGAGGCA AAGAGTGCTA 3240 AGCTCCAGGC TCAAGAATGA GTATGTGGAT GACCCTGTGT ATCGTACTTT CCTGAAGAGT 3300 TCTTTCCAGA AGAAGTGTCA GAAGAGACAG TAGTTGATAA TGTGCAGCAG CCACAGTGCA 3360 GCTCAGACCA GAAGAGGGAA GACAAAGGGA CAGCCTTGGG GTACACATTG GGACAGGTGG 3420 CTGGGTGCTT CTTTGGTATT GGTAATAAAC CAGGCTTCTG GAGTTTGATT ACCAAGCAAC 3480 CAAGAAGAGA CATATTAGTT GCTTCTGTAA TCTGATCACC CCTCAGTCAT TTGTTTGACC 3540 CCAAAGAATA TTCCTAAATT AAAGGAAACA GCAGTGAATG GCCCACTAGA TAAAACAACT 3600 GCTAAAGAAG CGGGGTTCCC TCTCTGGCTC AGGTCCCTTC CTCAGGGAAC ACATTTGGAG 3660 GCTCCTTTCC CACCTCCTTC AGTGGCAGCC TCATCACCCA ACAGCCGGTG GGTGTATTTA 3720 TATATATTTT CCACAGCCAG GGAAAGAGTC TCACTCACAT TTGTTTTCAG TGGCAGTTTT 3780 TATAAAACAT TTTTAAAACA CAAATGGCAT GTATGGTAAT AGGATTTACC TGTATGCTAT 3840 CTTCCCTTGT ACAGAACTTT TCCATTTTTT ATATTATTAC TTTTGATTGT GTCTGAAAAC 3900 TGAGTTGGCC TTTATAAGAG GAAATTTTTT GCTCTTGAAG AGGAATTCAT ATGAAGTATA 3960 TGGGAATTTT ATATATTTAC AGAGGAAAAA TCTTGGCCTG ATATTTTGAA CACTTCATAA 4020 TTCCTGTTCT GAAATGATAT TTATAAAATA TATATTTCTT TCATTATGTG TTTGTAAAAA 4080 TTAGAGTTTA AAGAAATATA CTTAATGCAT AGTTTTAAAC TAATGTAACA TGATTTTTCT 4140 TTGCAAAACA GCCTGGAGAT GTATTAATAT TTAAAAATTA AAATCTGTTT TCTCCT
4197Nucleotide Fasta Sequence
>ENSMUSP00000030102.5|JHDM3_JMJD2|Mus musculus GATTCCGTGGTGGCGCCCCGTGCGCGTGCGCAGCGAACAGCTGTCACCCAGTGCGGAACAAGTCTTCCAAAGATTCCCAAAACCCTCAGGGGAGGCCGCACTTTTCATCCCTTTCATTCGGGTGGCGTCTGGACCTCCGCCAGCGGCGCAGAAACATCTGTGGCCATCATGGAGGTGGTGGAGGTGGAGAGTCCCCTAAATCCCAGCTGTAAGATAATGACCTTCAGACCTTCCATGGAGGAGTTTCGGGAGTTCAACAAATACCTCGCATACATGGAATCCAAAGGAGCCCATCGAGCAGGTCTTGCCAAGGTGATTCCTCCTAAGGAGTGGAAGCCAAGACAGTGCTATGATGATATTGATAATTTGCTCATCCCAGCACCAATTCAGCAGATGGTCACAGGGCAGTCGGGACTGTTCACGCAATACAACATCCAGAAGAAAGCCATGACTGTGAAGGAGTTCAGGCAGCTGGCTAACAGCAGCAAATACTGTACTCCAAGATACTTGGATTATGAAGATTTGGAACGCAAATACTGGAAAAACTTAACTTTTGTGGCACCTATTTATGGAGCAGATATAAATGGGAGCATTTATGATGAGGGTGTGGATGAATGGAATATAGCTCGCCTAAATACAGTCTTGGATGTGGTTGAAGAAGAGTGTGGTATTTCTATTGAGGGGGTAAATACCCCTTATCTCTATTTTGGAATGTGGAAAACAACATTTGCGTGGCACACGGAGGACATGGATCTCTACAGTATTAATTATCTCCACTTTGGGGAGCCCAAGTCTTGGTATGCTATACCTCCGGAGCATGGAAAGCGACTTGAAAGACTAGCCCAAGGCTTCTTCCCCAGTAGCTCCCAAGGCTGTGATGCATTTCTCCGGCACAAGATGACCCTCATTTCCCCCTCAGTGCTGAAGAAGTATGGCATTCCCTTCGACAAGATCACCCAGGAGGCTGGAGAGTTTATGATCACTTTTCCTTATGGATATCATGCTGGTTTTAATCATGGTTTCAATTGTGCTGAGTCTACAAATTTTGCTACAGTCAGATGGATTGACTACGGCAAGGTTGCTAAGTTGTGCACTTGTCGGAATGACATGGTGAAGATATCAATGGATATATTTGTGAAGAAATTTCAGCCAGATAGATACCAGATTTGGAAACAAGGAAAGGATATATATACTATTGACCATACAAAGCCCACTCCAGAATCTACTCCAGAAGTAAAAACATGGCTACAGAGGAAGAAAAAATTAAGAAAGCCTCCCAAGAGCTTACAGGGCAATAAGCCACTTTGTAAAAGGCCTAAACCTGAAGAAGATGAGGAATTTGCTGAATTTAGTGGGGAAGAGGGTGCAAACCCTGCCATGGGCCCTAGGCACCTCAAAGTCACTGAAAAGCCAGAAAAAGCATTAAAGCTGGGGAAATTAGAAGAATCTTCAGCAAAAGAAGCTTTGGATACCAGGATACAAGTGGATCAAAGCTTACTGAACGACACCAAGCTCTCGGGAAAAGGTTGCATAAGTTCATCAGTAACAGCTGAAATTCCACCAGAAGACAACAGAGCCAGTGCTGTAATTTCACCATCTCAGCTGAAGGAGGGCGCTGACTGCATACCACTTTCTCATGGCCATCAAGCAGGCAAAGAGTCACATCTACTTAAGATTCTAAAGCTTGAATCTCCCAAGATACCTTCCCCCCTGCCAGAAAGTAATAAAGTATTGACAGAGGGAGAAGAAAATGATGAAGAGGGCCATGGAAGTAACCTTGAGCCTGGGGAAATCCCAGAAGCTCTTAGTGAAGAGAGAAATGGGCTCAACATTCCTAAGATAATTGAAGGACAGCCAAAAACTACTAAGAGTTGGCGCCATCCACTTGGTAAGCCTCCGGCCAGATCCCCAATGACACTTGTGAAGCAGCAGGTAGCGAGTGATGAAGAATTGCCTGAGGTTCTAAGCATTGACGAAGAAGTTGAAGAAACAGAGTCTTGGGCAAAGCCTCTCATCCACCTTTGGCAGACAAAGTCTCCTAACTTTATGGCTGAACAGGAGTACAATGCAACTGTTGCAAAAATGGAGCCAAACTGTGCCATCTGCACTCTGCTCATGCCGTACTACAAGCCTGATAGCAGCAAAGAAGAAAATGATTCTAGATGGGAGACAGCAGTAAATGAAGTGGTTCAATCTGGAAGAAAGACTAAGCCCATTATTCCAGAGATGTGTTTTATTTATAGTGAAGAAAATGTAGACTATTCCCCCCCAAATGCCTTCCTTGAAGAAGATGGAACAAGTCTTCTGATTTCCTGTGCCAAGTGCTTCGTGCGGGTTCATGCAAGTTGTTATGGTGTCCCTTCTCATGAAGTCTGTGATGGATGGCTGTGTGCCCGGTGCAAGAGAAATGCATGGACTGCAGAATGCTGTCTCTGCAATTTGAGGGGAGGTGCTCTGAAACAGACTAAGAACAATCAGTGGGCTCATGTCATATGTGCTGTTGCAGTTCCAGAAGTGCGATTCACTAATGTCCCAGAACGGACACAAATAGATGTAGACAGAATACCTTTACAGAGGTTAAAATTGAAATGCATCTTCTGTAGACACCGGGTTAAAAAGGTTTCTGGAGCCTGCATCCAGTGTTCTTATGGCCGCTGCCCAGCTTCATTCCATGTTACGTGTGCCCATGCTGCTGGAGTGCTCATGGAGCCTGATGACTGGCCTTACGTGGTAAACATCACATGCTTCAGACATAGAGTCAACTCAAACGCGAAATCCAAAACTTGTGAGAAAGCCATTTCTGTGGGTCAGACAGTCATCACAAAACATCGAAACACTCGGTACTACAGCTGCAGAGTGATAGATGTGACATCTCAAACCTTCTATGAGGTCATGTTTGATGATGGCTCCTTCAGCAGAGACACATTTCCTGAAGATATTGTGAGCCGAAACTGTGTGAAGCTGGGCCCTCCTGCGGAGGGAGAAGTCATCCAAGTCAAATGGCCTGATGGTAAACTCTATGGGGCAAAGTATCTTGGATCAAATGTTGCCTATATGTATCAGGTTGAATTTGAAGATGGATCGCAGATTGCAATGAAGAGAGAAGACATATACACTTTAGATGAAGAGTTACCCAAGAGAGTAAAGGCTCGTTTTTCCACAGCCTCCGACATGCGATTTGAAGACACATTTTATGGAGCAGATGTAATCCAAGGGGAGAGGAAGAGGCAAAGAGTGCTAAGCTCCAGGCTCAAGAATGAGTATGTGGATGACCCTGTGTATCGTACTTTCCTGAAGAGTTCTTTCCAGAAGAAGTGTCAGAAGAGACAGTAGTTGATAATGTGCAGCAGCCACAGTGCAGCTCAGACCAGAAGAGGGAAGACAAAGGGACAGCCTTGGGGTACACATTGGGACAGGTGGCTGGGTGCTTCTTTGGTATTGGTAATAAACCAGGCTTCTGGAGTTTGATTACCAAGCAACCAAGAAGAGACATATTAGTTGCTTCTGTAATCTGATCACCCCTCAGTCATTTGTTTGACCCCAAAGAATATTCCTAAATTAAAGGAAACAGCAGTGAATGGCCCACTAGATAAAACAACTGCTAAAGAAGCGGGGTTCCCTCTCTGGCTCAGGTCCCTTCCTCAGGGAACACATTTGGAGGCTCCTTTCCCACCTCCTTCAGTGGCAGCCTCATCACCCAACAGCCGGTGGGTGTATTTATATATATTTTCCACAGCCAGGGAAAGAGTCTCACTCACATTTGTTTTCAGTGGCAGTTTTTATAAAACATTTTTAAAACACAAATGGCATGTATGGTAATAGGATTTACCTGTATGCTATCTTCCCTTGTACAGAACTTTTCCATTTTTTATATTATTACTTTTGATTGTGTCTGAAAACTGAGTTGGCCTTTATAAGAGGAAATTTTTTGCTCTTGAAGAGGAATTCATATGAAGTATATGGGAATTTTATATATTTACAGAGGAAAAATCTTGGCCTGATATTTTGAACACTTCATAATTCCTGTTCTGAAATGATATTTATAAAATATATATTTCTTTCATTATGTGTTTGTAAAAATTAGAGTTTAAAGAAATATACTTAATGCATAGTTTTAAACTAATGTAACATGATTTTTCTTTGCAAAACAGCCTGGAGATGTATTAATATTTAAAAATTAAAATCTGTTTTCTCCT
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Sequence Source |
Ensembl |
Keyword |
KW-0156--Chromatin regulator KW-0181--Complete proteome KW-0223--Dioxygenase KW-0903--Direct protein sequencing KW-0408--Iron KW-0479--Metal-binding KW-0539--Nucleus KW-0560--Oxidoreductase 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 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:0000790--C:nuclear chromatin GO:0005721--C:pericentric heterochromatin 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:0001825--P:blastocyst formation GO:0033169--P:histone H3-K9 demethylation GO:1900113--P:negative regulation of histone H3-K9 trimethylation GO:0008284--P:positive regulation of cell proliferation GO:0010468--P:regulation of gene expression GO:2000736--P:regulation of stem cell differentiation GO:2000036--P:regulation of stem cell population maintenance 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 |