WERAM Information

Tag Content
WERAM ID WERAM-Hos-0148
Ensembl Protein ID ENSP00000274031.3
Uniprot Accession Q8WTS6; SETD7_HUMAN; B5WWL3; Q0VAH3; Q4W5A9; Q9C0E6
Genbank Protein ID NP_001293128.1; NP_085151.1
Protein Name Histone-lysine N-methyltransferase SETD7
Genbank Nucleotide ID NM_001306199.1; NM_030648.3
Gene Name SETD7;KMT7;SET7;SET9;SET7/9
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
ENSG00000145391.13 ENST00000274031.7 ENSP00000274031.3
Details
Type Family Domain Substrates AA References (PMIDs)
HMT HMT_other SET H3K4; H4K20 K 25537518; 26807165; 20889125; 20951770
Status Reviewed
Classification
Type Family E-value Score Start End
HMT HMT_other 0 760
Organism Homo sapiens
NCBI Taxa ID 9606
Functional Description
(View)		 Histone methyltransferase that specifically monomethylates 'Lys-4' of histone H3. H3 'Lys-4' methylation represents a specific tag for epigenetic transcriptional activation. Plays a central role in the transcriptional activation of genes such as collagenase or insulin. Recruited by IPF1/PDX-1 to the insulin promoter, leading to activate transcription. Has also methyltransferase activity toward non-histone proteins such as p53/TP53, TAF10, and possibly TAF7 by recognizing and binding the [KR]-[STA]-K in substrate proteins. Monomethylates 'Lys-189' of TAF10, leading to increase the affinity of TAF10 for RNA polymerase II. Monomethylates 'Lys-372' of p53/TP53, stabilizing p53/TP53 and increasing p53/TP53-mediated transcriptional activation.
Domain Profile
  HMT HMT_other
Query: 1   MDSDDEMVEEAVEGHLDDDGLPHGFCTVTYSSTDRFEGNFVHGEKNGRGKFFFFDGSTLE 60
           MDSDDEMVEEAVEGHLDDDGLPHGFCTVTYSSTDRFEGNFVHGEKNGRGKFFFFDGSTLE
Sbjct: 1   MDSDDEMVEEAVEGHLDDDGLPHGFCTVTYSSTDRFEGNFVHGEKNGRGKFFFFDGSTLE 60
Query: 61  GYYVDDALQGQGVYTYEDGGVLQGTYVDGELNGPAQEYDTDGRLIFKGQYKDNIRHGVCW 120
           GYYVDDALQGQGVYTYEDGGVLQGTYVDGELNGPAQEYDTDGRLIFKGQYKDNIRHGVCW
Sbjct: 61  GYYVDDALQGQGVYTYEDGGVLQGTYVDGELNGPAQEYDTDGRLIFKGQYKDNIRHGVCW 120
Query: 121 IYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRP 180
           IYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRP
Sbjct: 121 IYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRP 180
Query: 181 HFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNT 240
           HFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNT
Sbjct: 181 HFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNT 240
Query: 241 VMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFT 300
           VMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFT
Sbjct: 241 VMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFT 300
Query: 301 PNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDHSPPGKSGPEAPEWYQVELKAF 360
           PNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDHSPPGKSGPEAPEWYQVELKAF
Sbjct: 301 PNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDHSPPGKSGPEAPEWYQVELKAF 360
Query: 361 QATQQK 366
           QATQQK
Sbjct: 361 QATQQK 366
Protein Sequence
(Fasta)		MDSDDEMVEE AVEGHLDDDG LPHGFCTVTY SSTDRFEGNF VHGEKNGRGK FFFFDGSTLE 60
GYYVDDALQG QGVYTYEDGG VLQGTYVDGE LNGPAQEYDT DGRLIFKGQY KDNIRHGVCW 120
IYYPDGGSLV GEVNEDGEMT GEKIAYVYPD ERTALYGKFI DGEMIEGKLA TLMSTEEGRP 180
HFELMPGNSV YHFDKSTSSC ISTNALLPDP YESERVYVAE SLISSAGEGL FSKVAVGPNT 240
VMSFYNGVRI THQEVDSRDW ALNGNTLSLD EETVIDVPEP YNHVSKYCAS LGHKANHSFT 300
PNCIYDMFVH PRFGPIKCIR TLRAVEADEE LTVAYGYDHS PPGKSGPEAP EWYQVELKAF 360
QATQQK 366
Nucleotide Sequence
(Fasta)		GGGAACACGG ACAGTGCACG ACGGACTTTC AAGTTGCTCC CGGCACAACG GGAGGTCGGG 60
AGCTCGGAGC CCCTACGGGC GGTCCAAGTG TCCGCGAGAA GCCCGCAGCG CCCAGGACCG 120
CGTTGAGCGC TCGGGGCGCG CCAAGCCGCA CCTAAGCAAA AGAGAAACGC TGACGGGCCG 180
GAGGCGGGTT GGCTGGGACG CGGAATACGC GCGGCCCCGG AGCGCCTTTC GTTTTAAGGA 240
GCCTTACTTC TGGAAAGGGA CAGGGAACTG TCAATCAGCG AGGGAGGGAG CGCACCGGCG 300
CTGGGTGATG TCAGCGGATC AGCTGCTCGA TAACAAAGAG AGGGTATTAC AGGAGAAAGT 360
TGCAGCAGCG GCAGCGGCCA AGGCGGCACA CCGGAGCCTC CGAGGCGAGG GGCAAGTGGG 420
CGAAGGGAGG GGGGACGACG GCTGCTGCCG CAGCAGCTGA AGGCCAAGGA ATTGAAAGGG 480
CTGTAGGGGG AGGCAGTGCG AGCCAGCCCC GACTGCTCCT CCTCTTCCTC CTCCTCCTCC 540
AAACTCGCGA GCCCCAGAGC TCGCTCAGCC GCCGGGAGCA CCCAGAGGGA CGGGAGGCAG 600
CCGCGCAGCC CCGAGCTGGG CAGTGTCCCC AGCCGCCATG GATAGCGACG ACGAGATGGT 660
GGAGGAGGCG GTGGAAGGGC ACCTGGACGA TGACGGATTA CCGCACGGGT TCTGCACAGT 720
CACCTACTCC TCCACAGACA GATTTGAGGG GAACTTTGTT CACGGAGAAA AGAACGGACG 780
GGGGAAGTTC TTCTTCTTTG ATGGCAGCAC CCTGGAGGGG TATTATGTGG ATGATGCCTT 840
GCAGGGCCAG GGAGTTTACA CTTACGAAGA TGGGGGAGTT CTCCAGGGCA CGTATGTAGA 900
CGGAGAGCTG AACGGTCCAG CCCAGGAATA TGACACAGAT GGGAGACTGA TCTTCAAGGG 960
GCAGTATAAA GATAACATTC GTCATGGAGT GTGCTGGATA TATTACCCAG ATGGAGGAAG 1020
CCTTGTAGGA GAAGTAAATG AAGATGGGGA GATGACTGGA GAGAAGATAG CCTATGTGTA 1080
CCCTGATGAG AGGACCGCAC TTTATGGGAA ATTTATTGAT GGAGAGATGA TAGAAGGCAA 1140
ACTGGCTACC CTTATGTCCA CTGAAGAAGG GAGGCCTCAC TTTGAACTGA TGCCTGGAAA 1200
TTCAGTGTAC CACTTTGATA AGTCGACTTC ATCTTGCATT TCTACCAATG CTCTTCTTCC 1260
AGATCCTTAT GAATCAGAAA GGGTTTATGT TGCTGAATCT CTTATTTCCA GTGCTGGAGA 1320
AGGACTTTTT TCAAAGGTAG CTGTGGGACC TAATACTGTT ATGTCTTTTT ATAATGGAGT 1380
TCGAATTACA CACCAAGAGG TTGACAGCAG GGACTGGGCC CTTAATGGGA ACACCCTCTC 1440
CCTTGATGAA GAAACGGTCA TTGATGTGCC TGAGCCCTAT AACCACGTAT CCAAGTACTG 1500
TGCCTCCTTG GGACACAAGG CAAATCACTC CTTCACTCCA AACTGCATCT ACGATATGTT 1560
TGTCCACCCC CGTTTTGGGC CCATCAAATG CATCCGCACC CTGAGAGCAG TGGAGGCCGA 1620
TGAAGAGCTC ACCGTTGCCT ATGGCTATGA CCACAGCCCC CCCGGGAAGA GTGGGCCTGA 1680
AGCCCCTGAG TGGTACCAGG TGGAGCTGAA GGCCTTCCAG GCCACCCAGC AAAAGTGAAA 1740
GGCCTGGCTT TGGGGTTCAG AGACCTGGAA TAGAAACTTG GATCTATGCA CTACGTTTAT 1800
CTGACAATGG GACAACCAGG GACTGCTCAT GCTGTGACGT CACATCCTCT CACCATGCGT 1860
TAGCAACGAC TTTCTCGCAT ACTAACTAGG TTTGACTGTA TTACTCATAC CAGATTTAAA 1920
ATTAGCTAGC CTTGCAACAA CGTCCTACTG AGAGGTATTG TCGAGCATTT GACATAAGAC 1980
AGCGTGATGT TCTTTGGTGG TTCAAGTCTA AATCTGTACC ACATTCGGAG ATGCCAAATG 2040
ATTAGACTGA AACAGGGAAA CGGGGTTTTT CAGTCATTTT TAGTCAGTGG TTTTTCCATA 2100
GTGCTTTTTT CCTATGGCCA GTGCAAATTG TGTTAGCACA CTTGCATATG TGCCGTATTA 2160
AGGGTTGACA ATTACTACAT CTTTATTCTC TAAATGTAGT ATAATTTGCC TTTTAACCTT 2220
TGATCTGTAT CTTGCAATAG AATGGCTTTG GTTTTTTTCT TAGTAAATAG GAGCCCACTT 2280
CTAAAGTCAT TTCACCCCTC AGCCCTATTC TCTTTCTTAG ATACCCTTTA CAAGAGAAAA 2340
CTTCCAAATG GATTTTTGCA TCAATAGCAG TGTGTAGGTC TCTCTGGTTC TTTCTATATC 2400
ATCATTTTAT TATTATGTCC TAATATAAAG TACTGGCTCA TAGGGCCAGG GTATTATTAT 2460
AGAATATTAT TCTCGCATGT AAACAAAGAT ATCTTTGCTT TAAGATGTGA GAAGAAATGA 2520
ATTTACTTTG TTTGCATTAA GTTATGGAAG AGTTGTAATA TATACTTTAA GAAAGAAGAG 2580
AAGAAAACTA GTATCTCTAA GCGGTAACTA TGGCAATTTT GCAATATTTT CAGTAGTGCT 2640
AGTAATTTTT TCCTCCTTGA GTACACATTA AATGTACATA ACATAGCGCG GTCAGGCTTG 2700
TGGCACAGTG CATTGAATTC AAAAGTCAAA CAGCAAATTT GAATTCTAAC AGAATTCAAA 2760
AAAAAATTTT TTTAGTCAGT ACTACTAAGG CAGACACACT GATTACTAGG TACAAATCAA 2820
ACCTTGATGC TAAAACTCTT CATCATTGTA ATTTCAAAGC ACTTACCTGC TTCAAAACAT 2880
TGTAAACTAA GACTGAACAC CTGTATAGTT TAAAAGCAAC ACTATCAATA GCATTTCAGC 2940
CATTTTGCCA GCCATGTGTA ATCACAACTG CAGAAATAAG GAGAAAACCC CTGTTTTTTT 3000
AGTTTAGCTA ATTAGATCTG TAACATCACT GGGATTGCTC TGAATGAATC CTGAGAGTTT 3060
TGTTTTTTAT AAGCACCCTC ACCACATGCC ATAGCTTTGT CTCTTTTAGA CACCTCGATG 3120
CAGCGGCTGG AAGGACTGGA GAGCAGCTGT TGTGCTGATC TGTAGCTGTC AGCTGTGATT 3180
CCTGTCACCT GAGTCAGTTT GGTCTGGAAA GCGAAGGCCT TCCAAGCTGT AGCAGATAGT 3240
GAGCTCCAGC TGATGAGAGA AGGCTTCAGT GGAAGAAGAG TGAGGACATA GGCAGAAGGA 3300
AGTTTGCTAT TTCTTGTCAG TTGCACATTG CTTTATGAAG ACTACAACAA AAGTGCTTAA 3360
TCCCAGGCTG CTCATGACTT TCATTTCAGG TGGCCCTTGG GCACATTGAC AGAGTTGCCC 3420
TTCCCTTCTT TGCAACACCA GGCTTCCTAG AGCACCCGGT TGCATGCTTT GCAGCTAGGT 3480
GGCAGTGGTT TCAGGGAGAT CCAGTTGGAT CCCTGCTTGA AAGCTTAAGC CAATGGTTCA 3540
CCCATGAGAG GAAGTTGTCA GTGCTTCCAG GAAGATTGCC CACCAAAGGA ACTGAATAGT 3600
TTTTAGATTT AAAGGCACCA GGATAGGGTC ACTCTTACTC TGTAGAAAGA GACCGTTCTA 3660
TACACTGTGA CGGATGGGCC AGGGCCTCTG GACTTGCATT CTGATAGGTG CTTTAATTTA 3720
AATGTGCCCA AAGGGAGTGA CTGTCTTCAG GAGAAAGATG GCTTGCATTA ACCTCGATCA 3780
AGTGGGTTGT GCAGCCAGGT CAGGGAATAC GGTCAGGGAG AGGATAGTGC TGGTCATGCC 3840
CCCGATGCAG CTATGCTCTG AATGATTTCA TTCCTGAGAG TGATAGCATT CTGGTCCTGG 3900
CTGCAGTGGG GTACAATTTA CGTCCTAAGT GGGGGCTACT CTAATTATCC CATTCAAATG 3960
GAATTTTTTT CAACATTGGA TAGAAGGAAT TGAAGAGTTG TAAGTAGTGA TTAGTCTGCT 4020
AATCAGTTCT TCAGATGAGA TATTGAATGG TAACACTCTG AGCTTAAAAC TCAGCAGTGT 4080
GTCTGTGACC TCCACGCAAA TCAGAGGAAG CAATGCATCC ACGCTGAGCC TCACCATGTC 4140
TTCCTCCCAA CTCTCTTCAT ACTCTCTGTG TCTTCCAGCT CTTCTTTCTC TGGCCGGCTC 4200
TCTTTCCTCT TCTCTCTGCA TATGTGAGAA CGCCTGGGCA TCCTGGGTAA CAGCAGCCCC 4260
AGCTGCCCTC TCCTGTTCCC TGTTCCAAGT CCCCTGCACT GACCTTTCTT GAGTCTCTCT 4320
GGCTCTGTGC ATGTCTTTGG GACTCTGCTC ATCTGGCTTT TCCTCTGTGT GTGCCTCTCT 4380
GTTTGCTTAT GTCTCTGGCT CTGTCTTCCC CACCCCTCCC CTCACACACA CACATACTCC 4440
CAAATGTAAG GCTCTGTGGC AGGTTGGAAT CGGAGTAAGG CTTGAGATTC ACTGAGTTCT 4500
GTAGGTAGGG AAAGAAGTCA AGGGAGTGGA GGTTCTATAA GGAATTAACA GCTGAGGACG 4560
GAAGGGTTTG TTTCCCGTTT GAACCTAAAC GCAAGTGGAA AAGAATACTC AGAATGTATT 4620
TTTCTACTTT ACATCTGCTG GGGAAGGAAA TGTGTCAGGA AGCCGCTGCA TCTGGTCATT 4680
TCATCGCATC AGAATCACAG CAGACGTGGA AGATTCCATG TGGTGGGGAA TAAAGAAATA 4740
ACTTTATGCT CTCCTGAAAA ACAGCGGGAG CCTATGTGTG TGTGCGACAC TGTAATCTCA 4800
AGGAGATTCA CTCAGAGCTG TCTCAGTCCA ACTCCTGCAT GACCAGATCT TCCCTTAGCA 4860
TCTTTTCTGT GATGAAATAT TATCTTGTGT TAGAGTTAGG AATAGGAACT AACCTGTAGG 4920
AGCATGTCCC CAAATGGACA TTTGAATGGA CTAACAAAAA CAACTGGAAA GACTGAATTT 4980
CCGACACAAA GGAATGATGG GATCAAAAAG AAAGCAGTGA GGAGTTCTTG AGTCTTGTAG 5040
TACCTATTCT TATTTTAACT TGCTTCATCC TTGATCTACC TGAGACACTA AGAAGGAAAT 5100
TAGTTTTCCA AGAGCTCTTT GAACCTGTCT AGGACTGTAG TTAAACCTAT TTGCCCTATG 5160
GGGGTTCTTC ACACTCGAAA AACTATTTCC TTATCACCAA CGACCCACCC AGAAAGGCCA 5220
ATGAGGCCAA ATGTAACAAT TTTTAACATT TAAATATAAC TATTAAAATT GCATTAATTG 5280
TGAACAGTGA ATTAAAGGGT TGTCTTCTCC AGGAGACAGT ATGTGGCACT TTTCGTAAAT 5340
TTCATTTAAT ATATAAAAAT TTAAATCACT CACTGCAACA TGCATTTAAA ATCTTCCAAG 5400
AAGGTAGAGG TATCATTTTC TGTTTTGCTT TGTTTTAAAA CAGTTGCCTC AAGCTTCTGT 5460
CTTAAGAGTA GTGACTTAGA ATCCAGATAT CTTTTGTTTT AGAAAAACAA GCAAAACTAT 5520
GTTGCAAGAC TGACAGTTGT AATGTTTATT TGCCACAGAT CAAAGGTTCA CAAAGTATAT 5580
CAAATTTACA TCTACTTGGG GTACCTTGAT AGATTATTAT TGTTTTTCTT TTATCTTTCC 5640
CTTCAGGAAT TTGGAAACTC GTTGTCACTT TTTTTAATTT TAAAAATACT AAATTGTAAT 5700
AGTTTTCTTT TGCCAAATGT GTGCGTACAT ATTCAAAGCA ATGAAACTAT TTCAAGCCAT 5760
ACAACCACAG GGGTGGGAAC CCTTTTCACA AATTTTAATG TGTTTGTATG TAAATAGATG 5820
TTTGTATGAA ATATTTTCAT GATAGAATGA ATATATTTAA ATGAAGTTGA ATTATTCCAG 5880
TGCTACTTAA ACACATTACA AAAATTTTGG TGAGAATTAT CTGAGTCTAT TGAGATGTAA 5940
TGCAGATCAA TTTTGATTTT TAAAAATCAA AAGCCTACAA TAACTCTGAC TCTCAGCAAC 6000
TTCCTCGGCG TTGTTGCACC TGACGTGGAG AGAGCTCGTA GGCTTCCCCA GTGCCTCAGC 6060
CGCTTCCTGG TGGAAGTTAG GTGCTAATGG AGGTGTGTTC ACCTTTTAGT GATATCACTG 6120
CAGGCCTTTG AGGGGCCTGA GAGTGAATCA GAGGCATTAG AGACACCGGT GCAGTTATCT 6180
GGAGCACAAT TTCTTTGCAG GGCAGCAGAA TCAGAAGCCA GACTTGGCCA TGTGAACCTC 6240
GAAACTCGGT TTCCCGGCCG CCATCAACCG CCACCCTTAC TGCCTAGTCA CACACGTCAG 6300
GGAGGCTGCC CTCAGTGGAG TTGGGGTTGA GACCCCAGGG TGGGACTTCA CAGTTTTGCC 6360
AGCAATCTCT ACCTTCTGAC TTCTGCCTCG CAGAGAGGAA GGAGAGGGGA GCATCTGGCA 6420
AGGGGCCCAT TTCTCAGCAC AGTACATTTC CTGTCTCAGC TCTGGAAGAC TATGCACCCA 6480
AGCACCAAAC TTCCAACCAG AGAGAGAGAC GTCCTCCGAT AACAAAAATC CTTGCTTCCT 6540
CTGTCTGTGA CTTTACACAC AGTTGTTCAA AGTTGTTAAA TGTCAAGAGT CAATCACATC 6600
CCTAGGACAT ACCTCCCAAC TCTCCTGACT CTTATGTTAT TGAAAAAACA AACAAACAAA 6660
AACTCCTTTA TGATGATATT CAACTTGAGT GGGGTTTTTT TTCCACTTTG GTCCTGGATA 6720
TAATGAAATG ATACATATTA GGATAAATTT TCACTGTGTA TAGTAGCAAT ACGAACACAC 6780
ATGCCAATGT ATCAACATAT CTACTTGGTT ACATTTTGGT TTATGATAAT TAACCTTGAT 6840
TCATGTATTG GGAAGCTACA GGGACTACGT AATACCTGCT TATCACATAG GAAAATTATG 6900
TCCATGATTC TGAGCTCCCT TCTTCAAAAG TTTCCTCCTG GGTGTTCTAT GTTCTCTCTT 6960
TATCCTGAAA TACATTTATT AGGTTGTGAG GTATGTTGAA GAAGTAGAAG CCAGGGGTAT 7020
GCTTTCAGCA TTTATTGCAA CCAAAAGTTA ACCCCATCAC GGTTAACGAG CATCTTTGGT 7080
CTCTTGTGGA ATTTGAACTA AAACTATGAG CCTTATTCAA TATCTATAAT TCTATGATTT 7140
TTTTAAATTA TGGGAAATTA ATGAAAGATG TTTACATGAA TAATGTTTGC CCTTACTGTG 7200
TTATGAATGA GTTTTTTGTA GTGTGTCTGG GTGCATGATG CAAGAGAGTA GGAAAAATGT 7260
TTCTGAAACA AAACTTGACA AATATTTGTA ATGAAAGTAA ATTTAAAGAT TGCTATAATT 7320
GCGCTATAGA AACAATGCAA GTATTAAACA AAATATACAA TCATC 7366
Sequence Source Ensembl
Keyword

KW-0002--3D-structure
KW-0010--Activator
KW-0156--Chromatin regulator
KW-0158--Chromosome
KW-0181--Complete proteome
KW-0903--Direct protein sequencing
KW-0489--Methyltransferase
KW-0539--Nucleus
KW-1185--Reference proteome
KW-0677--Repeat
KW-0949--S-adenosyl-L-methionine
KW-0804--Transcription
KW-0805--Transcription regulation
KW-0808--Transferase
--
Interpro

IPR017155--Hist-Lys_N-MeTrfase_SET
IPR003409--MORN
IPR001214--SET_dom
PROSITE

PS51577--SAM_MT43_SET7
PS50280--SET
Pfam

PF02493--MORN
PF00856--SET
Gene Ontology

GO:0005694--C:chromosome
GO:0005730--C:nucleolus
GO:0005654--C:nucleoplasm
GO:0003682--F:chromatin binding
GO:0018024--F:histone-lysine N-methyltransferase activity
GO:0002039--F:p53 binding
GO:0016279--F:protein-lysine N-methyltransferase activity
GO:0006974--P:cellular response to DNA damage stimulus
GO:0016568--P:chromatin modification
GO:0070828--P:heterochromatin organization
GO:0018027--P:peptidyl-lysine dimethylation
GO:0018026--P:peptidyl-lysine monomethylation
GO:0045893--P:positive regulation of transcription, DNA-templated
GO:0051570--P:regulation of histone H3-K9 methylation
GO:0045471--P:response to ethanol
GO:0006351--P:transcription, DNA-templated
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Nol-0051 ENSNLEP00000006131.1 Nomascus leucogenys 100 0.0 760
WERAM-Mam-0011 ENSMMUP00000002451.2 Macaca mulatta 100 0.0 760
WERAM-Paa-0090 ENSPANP00000005279.1 Papio anubis 100 0.0 759
WERAM-Fec-0149 ENSFCAP00000013984.3 Felis catus 100 0.0 758
WERAM-Gog-0134 ENSGGOP00000011484.2 Gorilla gorilla 100 0.0 758
WERAM-Chs-0040 ENSCSAP00000014521.1 Chlorocebus sabaeus 100 0.0 758
WERAM-Poa-0132 ENSPPYP00000016839.1 Pongo abelii 99 0.0 756
WERAM-Caj-0029 ENSCJAP00000005601.2 Callithrix jacchus 99 0.0 756
WERAM-Ova-0134 ENSOARP00000013992.1 Ovis aries 99 0.0 755
WERAM-Bot-0043 ENSBTAP00000004658.4 Bos taurus 98 0.0 751
WERAM-Aim-0124 ENSAMEP00000011536.1 Ailuropoda melanoleuca 98 0.0 750
WERAM-Mup-0184 ENSMPUP00000016017.1 Mustela putorius furo 98 0.0 749
WERAM-Otg-0126 ENSOGAP00000010929.2 Otolemur garnettii 98 0.0 749
WERAM-Orc-0088 ENSOCUP00000018867.1 Oryctolagus cuniculus 98 0.0 748
WERAM-Ocp-0095 ENSOPRP00000008577.1 Ochotona princeps 99 0.0 748
WERAM-Tut-0093 ENSTTRP00000007957.1 Tursiops truncatus 98 0.0 746
WERAM-Loa-0109 ENSLAFP00000009283.3 Loxodonta africana 97 0.0 746
WERAM-Dan-0152 ENSDNOP00000022951.1 Dasypus novemcinctus 97 0.0 746
WERAM-Ict-0048 ENSSTOP00000003959.2 Ictidomys tridecemlineatus 98 0.0 739
WERAM-Myl-0102 ENSMLUP00000008030.2 Myotis lucifugus 97 0.0 738
WERAM-Ran-0084 ENSRNOP00000017736.5 Rattus norvegicus 96 0.0 738
WERAM-Mum-0146 ENSMUSP00000043492.7 Mus musculus 95 0.0 733
WERAM-Pat-0208 ENSPTRP00000061371.1 Pan troglodytes 100 0.0 733
WERAM-Eqc-0157 ENSECAP00000016798.1 Equus caballus 99 0.0 729
WERAM-Caf-0043 ENSCAFP00000005518.3 Canis familiaris 99 0.0 726
WERAM-Sus-0213 ENSSSCP00000023714.1 Sus scrofa 98 0.0 725
WERAM-Mim-0067 ENSMICP00000006423.1 Microcebus murinus 99 0.0 723
WERAM-Ptv-0094 ENSPVAP00000008762.1 Pteropus vampyrus 97 0.0 716
WERAM-Cap-0173 ENSCPOP00000016480.1 Cavia porcellus 92 0.0 710
WERAM-Ora-0124 ENSOANP00000024061.1 Ornithorhynchus anatinus 92 0.0 707
WERAM-Dio-0042 ENSDORP00000004545.1 Dipodomys ordii 89 0.0 683
WERAM-Mod-0001 ENSMODP00000000137.3 Monodelphis domestica 88 0.0 677
WERAM-Gaga-0099 ENSGALP00000015924.4 Gallus gallus 88 0.0 677
WERAM-Tag-0035 ENSTGUP00000002499.1 Taeniopygia guttata 87 0.0 676
WERAM-Mae-0143 ENSMEUP00000014506.1 Macropus eugenii 88 0.0 674
WERAM-Anp-0060 ENSAPLP00000006625.1 Anas platyrhynchos 88 0.0 660
WERAM-Meg-0031 ENSMGAP00000002542.1 Meleagris gallopavo 88 0.0 658
WERAM-Fia-0068 ENSFALP00000005088.1 Ficedula albicollis 87 0.0 657
WERAM-Tub-0072 ENSTBEP00000009052.1 Tupaia belangeri 90 0.0 652
WERAM-Anc-0014 ENSACAP00000002145.3 Anolis carolinensis 84 0.0 651
WERAM-Vip-0078 ENSVPAP00000007168.1 Vicugna pacos 88 0.0 632
WERAM-Leo-0096 ENSLOCP00000012888.1 Lepisosteus oculatus 82 0.0 631
WERAM-Xet-0110 ENSXETP00000036910.2 Xenopus tropicalis 83 5e-180 627
WERAM-Orn-0139 ENSONIP00000014561.1 Oreochromis niloticus 75 3e-169 591
WERAM-Asm-0018 ENSAMXP00000002201.1 Astyanax mexicanus 73 5e-167 584
WERAM-Pof-0005 ENSPFOP00000000366.2 Poecilia formosa 75 6e-166 580
WERAM-Dar-0087 ENSDARP00000056733.3 Danio rerio 73 8e-166 580
WERAM-Sah-0010 ENSSHAP00000000893.1 Sarcophilus harrisii 88 4e-164 574
WERAM-Chh-0052 ENSCHOP00000006207.1 Choloepus hoffmanni 80 2e-163 572
WERAM-Orla-0113 ENSORLP00000013383.1 Oryzias latipes 73 3e-161 565
WERAM-Tar-0105 ENSTRUP00000021388.1 Takifugu rubripes 69 1e-156 550
WERAM-Gaa-0209 ENSGACP00000025822.1 Gasterosteus aculeatus 71 3e-154 541
WERAM-Pem-0033 ENSPMAP00000004555.1 Petromyzon marinus 66 2e-136 482
WERAM-Ten-0046 ENSTNIP00000006782.1 Tetraodon nigroviridis 68 2e-129 459
WERAM-Lac-0123 ENSLACP00000014622.1 Latimeria chalumnae 69 1e-122 436
WERAM-Prc-0104 ENSPCAP00000009344.1 Procavia capensis 97 8e-122 434
WERAM-Pes-0071 ENSPSIP00000008621.1 Pelodiscus sinensis 86 2e-117 419
WERAM-Xim-0069 ENSXMAP00000006330.1 Xiphophorus maculatus 57 3e-116 416
WERAM-Soa-0072 ENSSARP00000007097.1 Sorex araneus 95 2e-99 359
WERAM-Tas-0053 ENSTSYP00000004762.1 Tarsius syrichta 96 2e-60 230
WERAM-Ect-0003 ENSETEP00000000167.1 Echinops telfairi 96 9e-60 228
WERAM-Tra-0220 Traes_5DL_145470D85.1 Triticum aestivum 30 6e-12 69.3
WERAM-Sem-0023 EFJ05734 Selaginella moellendorffii 28 2e-11 67.4
WERAM-Orbr-0113 OB09G25790.1 Oryza brachyantha 29 3e-11 67.0
WERAM-Amt-0053 ERN17043 Amborella trichopoda 29 1e-10 64.7
WERAM-Sol-0004 Solyc01g007880.2.1 Solanum lycopersicum 31 2e-10 64.3
WERAM-Aet-0034 EMT04590 Aegilops tauschii 27 3e-10 63.2
WERAM-Hov-0077 MLOC_61115.5 Hordeum vulgare 30 4e-10 63.2
WERAM-Sei-0108 Si029079m Setaria italica 29 8e-10 62.0
Created Date 25-Jun-2016