WERAM Information

Tag Content
WERAM ID WERAM-Hos-0205
Ensembl Protein ID ENSP00000432786.1
Uniprot Accession Q9Y2K7; KDM2A_HUMAN; D4QA03; E9PIL6; I3VM55; Q49A21; Q4G0M3; Q69YY8; Q9BVH5; Q9H7H5; Q9UK66
Genbank Protein ID NP_001243334.1; NP_036440.1; XP_011543163.1; XP_011543164.1
Protein Name Lysine-specific demethylase 2A
Genbank Nucleotide ID NM_001256405.1; NM_012308.2; XM_011544861.1; XM_011544862.1
Gene Name KDM2A;FBXL11;JHDM1A
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
ENSG00000173120.14 ENST00000529006.6 ENSP00000432786.1
ENSG00000173120.14 ENST00000308783.9 ENSP00000309302.6
ENSG00000173120.14 ENST00000398645.6 ENSP00000381640.2
Details
Type Family Domain Substrates AA References (PMIDs)
HDM JHDM1 Jmjc H3K4.me3; H3K36.me1/2 K 26674421; 16983801; 20889125
Status Reviewed
Classification
Type Family E-value Score Start End
HDM JHDM1 2.80e-95 319 148 316
Organism Homo sapiens
NCBI Taxa ID 9606
Functional Description
(View)		 Histone demethylase that specifically demethylates 'Lys-36' of histone H3, thereby playing a central role in histone code. Preferentially demethylates dimethylated H3 'Lys-36' residue while it has weak or no activity for mono- and tri-methylated H3 'Lys-36'. May also recognize and bind to some phosphorylated proteins and promote their ubiquitination and degradation. Required to maintain the heterochromatic state. Associates with centromeres and represses transcription of small non-coding RNAs that are encoded by the clusters of satellite repeats at the centromere. Required to sustain centromeric integrity and genomic stability, particularly during mitosis.
Domain Profile
  HDM JHDM1
          JHDM1.txt   1 fsktkleelvkkpevvrqidlvdnvWpkalkekqtegtnaleemkyPkvqkyclmsvkncytdfhidfgGtsvyyhvlkGskvfwliPptek 92 
                        fs+t+le++v++p++v++id+vdn+Wp++lke+qte+tna+ em+yPkvqkyclmsv++cytdfh+dfgGtsv+yh+++G+kvfwliPpt++
  ENSP00000432786.1 148 FSHTRLENMVQRPSTVDFIDWVDNMWPRHLKESQTESTNAILEMQYPKVQKYCLMSVRGCYTDFHVDFGGTSVWYHIHQGGKVFWLIPPTAH 239
                        8******************************************************************************************* PP
          JHDM1.txt  93 nlelyeewvlsgkqsdiflgdrvekcqrvelkagdtlliPsGwihavytPvdslvfgGnflhslniktqlkiyeied 169
                        nlelye+w+lsgkq+diflgdrv++cqr+elk+g+t++iPsGwihavytP+d+lvfgGnflhs+ni++qlkiy+ied
  ENSP00000432786.1 240 NLELYENWLLSGKQGDIFLGDRVSDCQRIELKQGYTFVIPSGWIHAVYTPTDTLVFGGNFLHSFNIPMQLKIYNIED 316
                        ***************************************************************************97 PP
Protein Sequence
(Fasta)		MEPEEERIRY SQRLRGTMRR RYEDDGISDD EIEGKRTFDL EEKLHTNKYN ANFVTFMEGK 60
DFNVEYIQRG GLRDPLIFKN SDGLGIKMPD PDFTVNDVKM CVGSRRMVDV MDVNTQKGIE 120
MTMAQWTRYY ETPEEEREKL YNVISLEFSH TRLENMVQRP STVDFIDWVD NMWPRHLKES 180
QTESTNAILE MQYPKVQKYC LMSVRGCYTD FHVDFGGTSV WYHIHQGGKV FWLIPPTAHN 240
LELYENWLLS GKQGDIFLGD RVSDCQRIEL KQGYTFVIPS GWIHAVYTPT DTLVFGGNFL 300
HSFNIPMQLK IYNIEDRTRV PNKFRYPFYY EMCWYVLERY VYCITNRSHL TKEFQKESLS 360
MDLELNGLES GNGDEEAVDR EPRRLSSRRS VLTSPVANGV NLDYDGLGKT CRSLPSLKKT 420
LAGDSSSDCS RGSHNGQVWD PQCAPRKDRQ VHLTHFELEG LRCLVDKLES LPLHKKCVPT 480
GIEDEDALIA DVKILLEELA NSDPKLALTG VPIVQWPKRD KLKFPTRPKV RVPTIPITKP 540
HTMKPAPRLT PVRPAAASPI VSGARRRRVR CRKCKACVQG ECGVCHYCRD MKKFGGPGRM 600
KQSCVLRQCL APRLPHSVTC SLCGEVDQNE ETQDFEKKLM ECCICNEIVH PGCLQMDGEG 660
LLNEELPNCW ECPKCYQEDS SEKAQKRKME ESDEEAVQAK VLRPLRSCDE PLTPPPHSPT 720
SMLQLIHDPV SPRGMVTRSS PGAGPSDHHS ASRDERFKRR QLLRLQATER TMVREKENNP 780
SGKKELSEVE KAKIRGSYLT VTLQRPTKEL HGTSIVPKLQ AITASSANLR HSPRVLVQHC 840
PARTPQRGDE EGLGGEEEEE EEEEEEDDSA EEGGAARLNG RGSWAQDGDE SWMQREVWMS 900
VFRYLSRREL CECMRVCKTW YKWCCDKRLW TKIDLSRCKA IVPQALSGII KRQPVSLDLS 960
WTNISKKQLT WLVNRLPGLK DLLLAGCSWS AVSALSTSSC PLLRTLDLRW AVGIKDPQIR 1020
DLLTPPADKP GQDNRSKLRN MTDFRLAGLD ITDATLRLII RHMPLLSRLD LSHCSHLTDQ 1080
SSNLLTAVGS STRYSLTELN MAGCNKLTDQ TLIYLRRIAN VTLIDLRGCK QITRKACEHF 1140
ISDLSINSLY CLSDEKLIQK IS 1162
Nucleotide Sequence
(Fasta)		GCAGGCGACC AGCCCCTGCT GGCCGAGGGC ACGGCGAGGA GGGCGCTCCC TGCGGCCGGG 60
GCCGGCCCGG GGCTCGGGCC CGGGCTGCTG ACCGCTGGCC TGGGGGAGGC GGGGGCGCCC 120
CGGGCTCGGC GCCGAGGGGT CGCGCTCCTC TCTCCTGACG CCTCCGACTC CCGGTCTCCA 180
AAGCCAGAAG AGAAGGTTTG ATTCAGCAAC TGTTTGCTCC CTTTTCCTGG TCGCTCTGAC 240
CCTCTCTGGA TACTGGGTTG ATCCACGGAA AAACCGAAGA CGACGTTTGG GATTTAATTA 300
TTCCTCTCAG CTTTGGAATC TTTTACTTCT CACTTGGACA AGAACTCAAG AGCAGAATCT 360
CCGTGTTGCA ATCTGGTTCC TAAGGAGGAA GAGGAAGGCA GCCCTGGAGT GGTTTCTTTA 420
CAGTAATTTC AACAGAAGAG TGAGAGATGG AACCCGAAGA AGAAAGGATT CGTTACAGCC 480
AGAGATTGCG TGGTACCATG CGACGACGCT ATGAAGATGA TGGCATTTCA GATGATGAAA 540
TTGAAGGAAA AAGAACTTTT GACTTGGAAG AGAAACTGCA CACCAACAAA TATAATGCCA 600
ATTTTGTTAC TTTTATGGAA GGAAAAGATT TTAATGTAGA GTATATTCAG CGGGGTGGCT 660
TGAGAGATCC TCTGATTTTC AAGAATTCTG ATGGACTCGG AATAAAAATG CCGGATCCAG 720
ACTTCACTGT GAATGATGTC AAAATGTGTG TGGGGAGTCG TCGCATGGTG GATGTCATGG 780
ACGTGAACAC ACAGAAAGGC ATTGAAATGA CCATGGCTCA GTGGACACGC TACTATGAGA 840
CCCCAGAGGA GGAGCGAGAG AAACTCTATA ATGTCATCAG CCTCGAGTTT AGCCACACCA 900
GGCTGGAGAA TATGGTGCAG AGGCCCTCCA CGGTGGATTT CATTGACTGG GTAGACAACA 960
TGTGGCCAAG GCACTTGAAG GAAAGCCAGA CTGAATCAAC AAATGCCATC TTGGAGATGC 1020
AGTACCCTAA AGTGCAGAAG TACTGTCTAA TGAGTGTTCG AGGCTGCTAT ACTGACTTCC 1080
ATGTGGACTT TGGTGGTACC TCTGTTTGGT ATCACATCCA TCAAGGGGGA AAGGTCTTCT 1140
GGCTCATCCC CCCTACAGCC CACAACCTGG AGCTGTACGA GAATTGGCTG CTGTCAGGGA 1200
AACAGGGAGA CATCTTTCTG GGTGACCGGG TATCAGATTG TCAGCGCATT GAGCTCAAGC 1260
AGGGCTATAC CTTCGTCATT CCCTCAGGCT GGATTCATGC TGTGTATACT CCTACAGACA 1320
CATTAGTGTT TGGGGGCAAT TTTTTGCATA GCTTCAACAT CCCTATGCAG TTAAAAATAT 1380
ACAACATTGA AGATCGGACA CGGGTTCCAA ATAAGTTTCG CTATCCATTC TACTATGAGA 1440
TGTGTTGGTA TGTGTTGGAG CGCTATGTGT ACTGCATAAC CAACCGTTCC CACCTAACTA 1500
AGGAATTTCA GAAAGAGTCC CTCAGCATGG ATTTGGAGTT AAATGGGTTG GAGTCTGGGA 1560
ATGGGGATGA GGAAGCAGTG GATCGAGAAC CCCGACGCTT GAGCAGCAGG CGTTCTGTCC 1620
TCACTAGCCC TGTAGCGAAT GGAGTCAACC TGGATTATGA TGGACTGGGC AAAACCTGCC 1680
GAAGTCTTCC AAGTCTGAAG AAAACTTTGG CTGGGGACTC ATCTTCTGAC TGTAGCCGGG 1740
GCTCCCACAA TGGACAAGTG TGGGATCCCC AGTGTGCTCC CCGAAAGGAC AGGCAAGTGC 1800
ATCTGACCCA TTTTGAGCTT GAAGGCCTTC GCTGCCTTGT AGATAAGTTG GAGTCTCTGC 1860
CACTGCACAA GAAATGTGTC CCCACAGGGA TAGAAGATGA AGATGCTCTC ATTGCTGATG 1920
TAAAGATTTT GCTGGAGGAG CTTGCCAACA GCGATCCCAA GTTAGCCCTC ACTGGAGTTC 1980
CTATAGTACA GTGGCCAAAA AGGGATAAGC TTAAATTCCC CACTCGGCCA AAGGTGCGGG 2040
TTCCTACCAT CCCCATTACG AAGCCTCACA CTATGAAACC AGCTCCACGG TTAACACCTG 2100
TGAGGCCAGC TGCTGCCTCC CCGATTGTGT CAGGAGCCAG ACGGAGACGA GTGCGATGTC 2160
GAAAATGCAA AGCCTGTGTG CAAGGAGAGT GTGGTGTTTG CCACTACTGC AGAGACATGA 2220
AGAAGTTTGG GGGGCCTGGA CGCATGAAGC AGTCCTGTGT CCTCCGACAG TGCTTGGCAC 2280
CCAGACTGCC TCACTCAGTC ACATGTTCCC TCTGTGGAGA GGTGGATCAG AATGAAGAGA 2340
CACAAGACTT TGAGAAGAAA CTCATGGAAT GCTGTATCTG CAATGAGATT GTTCATCCTG 2400
GCTGCCTCCA GATGGACGGA GAGGGGTTGC TTAACGAAGA ATTGCCAAAT TGCTGGGAAT 2460
GTCCAAAGTG CTACCAGGAG GACAGCTCGG AGAAAGCCCA GAAGCGGAAA ATGGAAGAGA 2520
GTGACGAAGA AGCTGTGCAA GCCAAAGTCC TGCGGCCCCT GCGGAGCTGC GATGAGCCTC 2580
TCACGCCCCC GCCTCATTCA CCCACTTCCA TGCTGCAGCT CATCCATGAC CCGGTTTCCC 2640
CCCGGGGTAT GGTGACTCGG TCATCCCCTG GGGCTGGCCC CAGCGACCAC CACAGTGCCA 2700
GCCGCGATGA GCGCTTCAAA CGGCGGCAGT TGCTGCGGCT GCAGGCCACA GAGCGCACCA 2760
TGGTACGGGA AAAGGAGAAC AATCCCAGCG GCAAAAAGGA GCTGTCTGAA GTTGAGAAAG 2820
CCAAGATCCG GGGATCGTAC CTCACTGTCA CGCTACAGAG GCCCACCAAA GAGCTCCACG 2880
GGACATCCAT TGTGCCCAAG CTGCAGGCCA TCACGGCCTC CTCTGCCAAC CTTCGCCATT 2940
CCCCCCGTGT GCTAGTGCAG CACTGCCCAG CCCGAACCCC CCAGCGTGGG GATGAGGAGG 3000
GGCTGGGGGG AGAGGAGGAG GAAGAGGAGG AGGAGGAGGA GGAAGATGAC AGTGCAGAGG 3060
AGGGGGGTGC AGCCAGGCTG AATGGCCGGG GCAGTTGGGC TCAGGATGGA GACGAAAGCT 3120
GGATGCAGCG GGAGGTCTGG ATGTCTGTCT TCCGCTACCT CAGCCGCAGA GAACTTTGTG 3180
AATGTATGCG AGTGTGCAAG ACGTGGTATA AATGGTGCTG CGACAAGAGA CTTTGGACAA 3240
AAATTGACTT GAGTAGGTGT AAGGCCATTG TGCCCCAGGC CCTCAGTGGC ATCATCAAGA 3300
GGCAGCCAGT CAGCCTTGAC CTCAGTTGGA CCAACATCTC TAAAAAGCAA CTGACATGGC 3360
TCGTCAATAG GCTGCCAGGA CTGAAAGACC TCCTCCTAGC AGGCTGCTCC TGGTCTGCAG 3420
TCTCTGCCCT CAGCACCTCC AGCTGCCCCC TTCTCAGGAC CCTTGATCTT CGGTGGGCAG 3480
TAGGAATCAA GGACCCTCAA ATTCGGGACT TGCTTACTCC ACCGGCTGAT AAACCAGGTC 3540
AGGACAATCG CAGCAAGCTC CGGAACATGA CCGACTTCCG GCTGGCAGGC CTTGACATCA 3600
CAGATGCCAC GCTTCGCCTC ATAATTCGCC ACATGCCCCT CCTGTCTCGA CTCGACCTCA 3660
GTCACTGCAG CCACCTTACA GATCAGTCCT CCAATCTACT CACTGCTGTC GGGTCTTCCA 3720
CTCGCTACTC TCTCACAGAG CTCAATATGG CAGGTTGCAA TAAATTGACA GACCAGACCC 3780
TGATCTACCT ACGGCGCATT GCCAACGTCA CCTTGATCGA CCTTCGAGGA TGCAAGCAGA 3840
TCACTCGAAA AGCCTGCGAG CACTTCATCT CAGACTTGTC CATCAACAGC CTCTACTGCC 3900
TGTCTGACGA GAAGCTGATA CAGAAGATCA GCTAAGACAC ACCCAGCCCA GATTCAACAG 3960
GAAACCGATC TTCCCCTGAC TCCCCACCGA GGAGAGCCTC TCCTCGACCC TGCACGGGCT 4020
CTGAGGCCAG CGTCACACTC CCTCTCTGCT CTCCTGTCCC TTGAGCCCTT CCTCTACAGG 4080
TGGGGCAGAG AGGGTGGTGG ACACCAGGCT TATCTGCCTG CTCCTCTCCC TCCTAAGGAA 4140
AAGGGAGTAG CAGATTGATC TGAGGGGAAA GCACAGGCTG TGCTGTCGAG GCGCCTGCTC 4200
GCTTACTCGC CTGCCAGGAG GCCGGGCTCT CAGTTTGGGG TGTTTGTGCA ACCTTCATCT 4260
GCACTGGGCC CTGTGCCCCT CCTCCCCATC CATGGTCCCC AGCAGTGCCT GGTTCTGAGC 4320
AAACTCCCAG GGAAGAAAAC GGCCCTGTCT CCATGGCCAG GTTCTTGTGG TGTCCAGTGC 4380
GCGTCTCTCC TCCATCACAC TCTCCCGGCT TGCGCAGGAG GGGCCAGCAG CCCCAGGAGT 4440
CCCAGACCCG TGCCGATCAC ACTGGTGCTG TTGAGATCTC CCAAACCTCA CGTCCTTAAC 4500
TGTGCTCTCC CTCCTTTCCT CTCCCTTGAG CTTGGTTCTG CCCAGCACTC GTGCTTGTTC 4560
ACATAATTAG GTTTCCCACC CCAGCCTACC CGACTTACTT GCTAGTCTCT ATGAGGTCCT 4620
TATTGCACTT ATTGGGGTTG AAGCTCTTCA GAGGAGCTGG AACTGTCTAC CCCAGGGACA 4680
CACCCATTTC GTTGCTACCC AAGTGGATTC TGAGACAGGC ACCATCTCCT TGTTCCCCCT 4740
CTCTCTTTTG CCTCCCACTG ACTGCCCTTT TCCATGTGTC TTCATTCTGC CTGAAGAAGG 4800
CTTTCCCAGG ATGCACGTCC TCAGAGGGAG CAGCCTATCT CCCCCAAGCT GGAGGCGGCA 4860
GAGGACTGGG CCAAGCCCCA ACCTGCCTCC CAGCCAGGCT CCTCCAGGCC TCTGGTTTAG 4920
CGGAGCCCCC TGAGCCCAGG CCTGTGTCTA GCCCCAGTGG CTCACTGAAC TTTCAGGGCA 4980
GTCAGGGGGT CCTGCTTAGA AGCCAGTCAC CAGCCCTCTG CCTGCAGCCA TGGAAGGGGG 5040
TGTGCACGTG CCTCTGTGTG TGTGGCTGAG TGTATTCTGC GCGTGTGTGT GGAGGGAGGG 5100
AGGGAGGGGA GCATGGTGTC TCCCGCTCCA CCGCCCTTTG TTGAGCCCCA TCAGCTGCCC 5160
CCTTTTACTT TGCATTGAAC GGCCTGTCCA AAGATCCTCT CTCTAGGGCA GCAGAGAGCT 5220
TTTTGCACTT TAAAAAAAAA AAGAAAGAAA GAAAGGTCGG AATTTCTTTT GGGTCAATAT 5280
TTTTAAGTGT GTGAGGAGAT GCTCAGTAGC AGCAGCCTAT GGCAAGAGCT TATAAATGAT 5340
TGATGCAAAT TTGCACTCTG CTCCCCCTCT GTAAGGATAC TGATAGCACA ACCTCTTCCC 5400
CCCACCCCGC CCCGCCTTTT GGTCGTCCAT CCCTGTCCCT TTCTGGCCCT CTTCCTGTAG 5460
CCCAGTCTCA GGCTTTCCTC TTCCTGAAGC CCTACAGAGT TAGGGAATGG AGCCCAGGCA 5520
CCAGGGGTCT AAAGTGTGAG CCACTGAGAA GAGAGACGCC AACTGCACCC TTGCCACTTC 5580
CAAAGCAATA GAGGCAGAGT GGTCCCCTCT TTGCCACCTA GGCCAGTTTT GACCCTGGCA 5640
TTAACTGGCC TTAGAAGAAA CTGGATCCTG GTAGGGGGTG GCATTTTGTT TGTTTCTTCC 5700
AATCTGCTGA ATCTTTTGAC TGCACCTTAC AAACAGCAGT CTGCTCCCAT GACCCTCTGC 5760
CCACTTCCAT TGGTCTCCAG GCCCCAATAA TCTGGGGTTG AAACTTTGAG GAAATGCCAG 5820
TGACTTATTC CAGAGTGCCT CAGTTAGGGG AACTTCTCTG TAAAGAACCC TGGGTATTGA 5880
GCAAAAACCT TATTATCGTT AATGACCTAT AATTGGAAGC TTCCTGCCTT TTTCTTTGGT 5940
TGCTCCTGTG GAAAATACTG AAAAGATTAC TTTGTTTTAT TTTGTTGTCT TTTTATAAAA 6000
GGGGAGGTGG AGAGACCCCT TCAGAGCAGG GATTGTGCCG GGAGAGTGCC TCTGACTTTG 6060
GGACATTTCA TCCACAGAAA TTTCCAAGCC AATGGTTTCT TTTGGGTTTT GGTTTTTATG 6120
TTTGTTTTTT GGGGTTTGGA AAAACATGCA TTTTTACCGT GCACGTAAAT TGGTCAGCAG 6180
AAAAGGGAGC CCAGAAAAGG CAGCAGATGG ACCATGCCCT TGCTGGGTTT TCCTTTTCTT 6240
TGGGACTGTG AGGGGAAATG GTTTTTAGAG GTGAGGGTTG GTCCATGTGG AGGAAAGAAG 6300
TGTCTCTGTT GGGGGACAGA GGAACCTGGG GAGTCCATCG CATGTCCTAC AATCTGCTCT 6360
TAGACACGGC CTTGCCAGGA GAGCCTGCCC TCAGACTGCA GGACCAGAAC CCCTGCCTCC 6420
ATCTTTCCAA GCACCGGGGC GAAAAACCAC AAAGGAAAGG AAGAAAATTT ATATATATAT 6480
AATATAAAAT CACTTGGTGA TTAAAAAAAT AACTGCTCCA TAAATAAAAC TCCTAAAGTC 6540
ACTTATGTTT AAAGGGTTTG GTTGTGTTTT TTGTTTTTCG GAGAAATATT GTAAATATAT 6600
ATTTTTTTGT TGCTGATTTA GAGTCAATCT CCAATGTTGT GCTAAAAAGT TTAAATTAAA 6660
TGTAAGCATT AAGGGGATAA GTCTTATGCT ATCTCAGTTG ACACATTGAG GTTATTTTGG 6720
GCCAGAGAAG GAGGAAGCTA GTTGGACTTT GTTTTGTTTT CCAAAAGTTC TCCACTATTG 6780
GTTTTAGAGA GAGCAAGGAC ATCTTTCCTC TGACACGTGG GAATGGGTGA TATTTGTGTA 6840
ATAAAATTTT TAAAAGACAA AAAAAGAAAT AGCCTCCAAT GGGAAATATT TTAATTTAGG 6900
TTTTGTTTTT GTTTGGGGGT TTTTGTTTTT TTAAAAAAAT AAAAAGGCTT TAAAAACAAA 6960
AACTAAA 6968
Sequence Source Ensembl
Keyword

KW-0002--3D-structure
KW-0025--Alternative splicing
KW-0156--Chromatin regulator
KW-0181--Complete proteome
KW-0223--Dioxygenase
KW-0238--DNA-binding
KW-0408--Iron
KW-0433--Leucine-rich repeat
KW-0479--Metal-binding
KW-0539--Nucleus
KW-0560--Oxidoreductase
KW-0597--Phosphoprotein
KW-1185--Reference proteome
KW-0677--Repeat
KW-0678--Repressor
KW-0804--Transcription
KW-0805--Transcription regulation
KW-0833--Ubl conjugation pathway
KW-0862--Zinc
KW-0863--Zinc-finger
--
Interpro

IPR001810--F-box_dom
IPR003347--JmjC_dom
IPR032675--L_dom-like
IPR006553--Leu-rich_rpt_Cys-con_subtyp
IPR019786--Zinc_finger_PHD-type_CS
IPR002857--Znf_CXXC
IPR011011--Znf_FYVE_PHD
IPR001965--Znf_PHD
IPR019787--Znf_PHD-finger
IPR013083--Znf_RING/FYVE/PHD
PROSITE

PS51184--JMJC
PS51058--ZF_CXXC
PS01359--ZF_PHD_1
PS50016--ZF_PHD_2
Pfam

PF00646--F-box
PF02373--JmjC
PF16866--PHD_4
PF02008--zf-CXXC
Gene Ontology

GO:0005730--C:nucleolus
GO:0005654--C:nucleoplasm
GO:0005634--C:nucleus
GO:0003677--F:DNA binding
GO:0032452--F:histone demethylase activity
GO:0051864--F:histone demethylase activity (H3-K36 specific)
GO:0008270--F:zinc ion binding
GO:0006303--P:double-strand break repair via nonhomologous end joining
GO:0070544--P:histone H3-K36 demethylation
GO:0006355--P:regulation of transcription, DNA-templated
GO:0006351--P:transcription, DNA-templated
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Pat-0030 ENSPTRP00000006792.4 Pan troglodytes 100 0.0 2189
WERAM-Eqc-0212 ENSECAP00000022657.1 Equus caballus 99 0.0 2167
WERAM-Mup-0036 ENSMPUP00000003662.1 Mustela putorius furo 99 0.0 2157
WERAM-Mam-0071 ENSMMUP00000011492.2 Macaca mulatta 100 0.0 2157
WERAM-Nol-0063 ENSNLEP00000007667.1 Nomascus leucogenys 100 0.0 2155
WERAM-Caf-0130 ENSCAFP00000017359.4 Canis familiaris 99 0.0 2155
WERAM-Caj-0008 ENSCJAP00000001914.2 Callithrix jacchus 99 0.0 2152
WERAM-Orc-0097 ENSOCUP00000008602.2 Oryctolagus cuniculus 99 0.0 2145
WERAM-Mum-0195 ENSMUSP00000076698.4 Mus musculus 97 0.0 2141
WERAM-Loa-0069 ENSLAFP00000005271.4 Loxodonta africana 96 0.0 2133
WERAM-Paa-0079 ENSPANP00000000080.1 Papio anubis 97 0.0 2133
WERAM-Dan-0017 ENSDNOP00000001589.3 Dasypus novemcinctus 99 0.0 2132
WERAM-Ran-0123 ENSRNOP00000051732.2 Rattus norvegicus 97 0.0 2125
WERAM-Cap-0086 ENSCPOP00000006433.2 Cavia porcellus 98 0.0 2125
WERAM-Chs-0099 ENSCSAP00000004730.1 Chlorocebus sabaeus 100 0.0 2123
WERAM-Fec-0040 ENSFCAP00000003122.3 Felis catus 99 0.0 2122
WERAM-Ocp-0120 ENSOPRP00000012395.2 Ochotona princeps 96 0.0 2100
WERAM-Tas-0128 ENSTSYP00000013512.1 Tarsius syrichta 98 0.0 2097
WERAM-Mod-0060 ENSMODP00000009649.3 Monodelphis domestica 95 0.0 2095
WERAM-Ova-0096 ENSOARP00000010105.1 Ovis aries 98 0.0 2086
WERAM-Otg-0110 ENSOGAP00000009515.2 Otolemur garnettii 99 0.0 2058
WERAM-Soa-0015 ENSSARP00000001674.1 Sorex araneus 95 0.0 2055
WERAM-Mim-0039 ENSMICP00000003694.1 Microcebus murinus 93 0.0 1978
WERAM-Sah-0004 ENSSHAP00000000156.1 Sarcophilus harrisii 95 0.0 1955
WERAM-Fia-0152 ENSFALP00000012936.1 Ficedula albicollis 87 0.0 1932
WERAM-Tag-0090 ENSTGUP00000006171.1 Taeniopygia guttata 87 0.0 1922
WERAM-Ptv-0088 ENSPVAP00000008067.1 Pteropus vampyrus 92 0.0 1920
WERAM-Gaga-0126 ENSGALP00000021661.4 Gallus gallus 86 0.0 1888
WERAM-Anc-0079 ENSACAP00000007492.3 Anolis carolinensis 85 0.0 1882
WERAM-Bot-0214 ENSBTAP00000053688.2 Bos taurus 87 0.0 1863
WERAM-Ect-0067 ENSETEP00000007585.1 Echinops telfairi 89 0.0 1859
WERAM-Tub-0024 ENSTBEP00000002970.1 Tupaia belangeri 86 0.0 1741
WERAM-Meg-0106 ENSMGAP00000010708.2 Meleagris gallopavo 75 0.0 1598
WERAM-Vip-0108 ENSVPAP00000009910.1 Vicugna pacos 93 0.0 1476
WERAM-Ere-0091 ENSEEUP00000009301.1 Erinaceus europaeus 84 0.0 1408
WERAM-Aim-0009 ENSAMEP00000000617.1 Ailuropoda melanoleuca 89 0.0 1160
WERAM-Myl-0057 ENSMLUP00000004620.2 Myotis lucifugus 91 0.0 1148
WERAM-Gaa-0187 ENSGACP00000023440.1 Gasterosteus aculeatus 55 0.0 1138
WERAM-Xim-0117 ENSXMAP00000009995.1 Xiphophorus maculatus 54 0.0 1117
WERAM-Tar-0167 ENSTRUP00000035595.1 Takifugu rubripes 55 0.0 1116
WERAM-Orn-0218 ENSONIP00000022876.1 Oreochromis niloticus 53 0.0 1072
WERAM-Pof-0139 ENSPFOP00000011700.1 Poecilia formosa 51 0.0 1035
WERAM-Anp-0026 ENSAPLP00000003146.1 Anas platyrhynchos 78 0.0 1001
WERAM-Pes-0153 ENSPSIP00000018112.1 Pelodiscus sinensis 84 0.0 808
WERAM-Asm-0097 ENSAMXP00000010134.1 Astyanax mexicanus 60 0.0 767
WERAM-Lac-0182 ENSLACP00000020988.1 Latimeria chalumnae 58 0.0 758
WERAM-Poa-0047 ENSPPYP00000005754.2 Pongo abelii 59 0.0 754
WERAM-Gam-0153 ENSGMOP00000015244.1 Gadus morhua 59 0.0 744
WERAM-Leo-0042 ENSLOCP00000006157.1 Lepisosteus oculatus 58 0.0 734
WERAM-Orla-0116 ENSORLP00000013894.1 Oryzias latipes 58 0.0 723
WERAM-Dar-0105 ENSDARP00000093306.3 Danio rerio 57 0.0 721
WERAM-Mae-0022 ENSMEUP00000001662.1 Macropus eugenii 56 0.0 720
WERAM-Ten-0161 ENSTNIP00000016121.1 Tetraodon nigroviridis 57 0.0 708
WERAM-Sus-0150 ENSSSCP00000025010.1 Sus scrofa 100 0.0 676
WERAM-Xet-0130 ENSXETP00000059375.1 Xenopus tropicalis 55 0.0 671
WERAM-Ora-0061 ENSOANP00000009538.1 Ornithorhynchus anatinus 79 0.0 667
WERAM-Dio-0063 ENSDORP00000006291.1 Dipodomys ordii 74 2e-145 514
WERAM-Ict-0192 ENSSTOP00000017380.1 Ictidomys tridecemlineatus 61 5e-145 513
WERAM-Prc-0078 ENSPCAP00000006985.1 Procavia capensis 53 1e-140 498
WERAM-Drm-0062 FBpp0289915 Drosophila melanogaster 61 1e-116 419
WERAM-Cis-0003 ENSCSAVP00000000437.1 Ciona savignyi 58 2e-115 415
WERAM-Cii-0015 ENSCINP00000005646.3 Ciona intestinalis 61 8e-102 369
WERAM-Gog-0162 ENSGGOP00000014352.2 Gorilla gorilla 48 2e-74 278
WERAM-Tut-0006 ENSTTRP00000000351.1 Tursiops truncatus 49 9e-74 276
WERAM-Cae-0065 T26A5.5a Caenorhabditis elegans 45 7e-71 266
WERAM-Pem-0097 ENSPMAP00000010124.1 Petromyzon marinus 45 1e-69 263
WERAM-Miv-0040 MVLG_06132T0 Microbotryum violaceum 43 6e-62 237
Created Date 25-Jun-2016