WERAM Information

Tag Content
WERAM ID WERAM-Amt-0045
Ensembl Protein ID ERN15883
Gene Name
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
AMTR_s00039p00203500 ERN15883 ERN15883
Status Unreviewed
Classification
Type Family E-value Score Start End
Me_Reader PHD 4.30e-11 43.2 955 1051
Organism Amborella trichopoda
Domain Profile
  Me_Reader PHD
   PHD.txt   2 tiClvCgkddegekemvqCdeCddwfHlkCvklplsslpegkswyCpsCk 51 
               ++C +C  d+ +   +++Cd C+  fHl C++ +  +lpeg sw Cp C+
  ERN15883 955 DTCGLC-GDGGD---LICCDYCPSTFHLACLSAQ--ELPEG-SWNCPYCT 997
               579999.44444...9******************..*****.*******8 PP
   PHD.txt    3 iClvCgkddegeke.....mvqCdeCddwfHlkCvklplsslpeg...kswyCps 49  
                +C +Cg +   ++      +++C++C++ +H  Cvk + ++ +e+   ++w+C +
  ERN15883  997 TCKICGSVVSHKEAlslpvVLECSQCEHKYHSICVKGNGTRGEEEvvsDNWFCGQ 1051
                6999*86666655568888999****************666665566568***64 PP
Protein Sequence
(Fasta)		MVNKGATGGR DFVAEGLARA LFGEDIGGNS FLDASFEGSA EEHHIFSSIF FGKDHPFKMV 60
PGKSGNSNPD TGSSFSFKEP LGTSLIEAGA IKTYSPLAAS NPENTIIIRQ LLKPLEKLSG 120
LGNQVERPEG QPEPVPGSSC SQEGSSLLGH GVGMDSNNGL SSKSMISHDR RSSCEYYESS 180
SCFVAVPSGK LPKVLNQRIE AGTSKASPQF DPYDKTCRLI TSPIVESSGH GIILRRYFLN 240
NSTKKEFKGS GDANGCSGYM YQKPVAPLEA CNMNSASPDG RQSHKNFDEQ NFSASDFQEP 300
CRALAIVKET EDVKPIDILP SESDFHNLSA LEKSFMISDL RQRFRQHLRD FLVDAGWEIR 360
LRARRNRPSQ DSVYISREQG SVYFASLPKA WKACGEGFGF CCHMETAEDK WCDKNRVWAD 420
LSDTLNYLEK EAQKNKCSSS LPLRWDLLDP FVSAILIEKL ATFHRDWTVR SIAGALDVAE 480
DNDASARGIH HHPEFVAKKE KGSLRLTRAM KGKRKMWSDE VSESLMKSGK SNGEIWKQQA 540
VWDPLASGEA PLIVDHEVSC VINPTGQYSN MSRILPGNSN KMELQLRERN CEVGPSLSYE 600
DPRYYGYMDG SHTASNDING EILDFSAQPE EKSFQLLKGP LPRGSVNNLR SNSLVRTSNL 660
RKKSKKAWAI ETSDPCERHD KTDGFFELVD KVRKTHSGMF QKNDLNKSRK GCRRSVIGAD 720
EENGPGGKNI AVHENGQSLE TRYSKKAKKS NRCKLSSKIA GKRLRYEVAS NTPRCEIEDD 780
DLLVAAIIKK NEFTPKSKKF KLRARKLPSR STRKLKSQKR GCKLQPRNPS KGGKDSMGEC 840
WSPFGKRTVL AWLIDEGVLF ENEVIQYRTP KDNEIVKDGW VTKDGLLCKC CQAVFSVSEF 900
KVHAGYKPCQ PSLNIFLERG KPLTLCQLEA WSNEYKVRKS GKPIVETEEM DLNDDTCGLC 960
GDGGDLICCD YCPSTFHLAC LSAQELPEGS WNCPYCTCKI CGSVVSHKEA LSLPVVLECS 1020
QCEHKYHSIC VKGNGTRGEE EVVSDNWFCG QSCQEVYSGL RSRVGVVNHI GDGFSWTLLR 1080
CIHGDQKVHS AQKFALMAEC NTKLAVSLTI MEECFVPMLD PRTGIDMIPH VLYSWGSDFS 1140
RLNFQGFYTI VLEKDDELIS VATIRVHGVT VAEMPLIATC SQHRRQGMCR RLMNALEEML 1200
ISFKVEKLVI SAIPDLVDTW TSGFGFKPLE DSEREEFIDM NLMMFPGTTL LGKRLSGCKE 1260
VENIEAAPEE YLSLKADEPK EVGFSEDRIV SVDEMNLGVN SGRGLIQEFE HGETDSSKLS 1320
IKKIVSSSVE NEPEHIDCNA MSKCLDASEV IPVKENVSGV NHLSANNMSR GTDVYSNHVS 1380
RGPLIGQDSA CMDPKSKSDR KISYNAHDAN DSSMGGMNGM TNQENCICDS EYSKGGTFTK 1440
TISTVMGHVE TISNTIEEKK DDASSSPLTV DKYEDSEVLS LSKPISVEFD LAGAPVDVSS 1500
TWKTQLSSSK YSLDGLEENL QKDIAISGKE CSCMSEKSTD SCLKENMDPR EPVSKDLTEN 1560
ANGEMGILQE IREVNCQLLK HGKAENLKTE SVSNGSPSLS SAKGEKDDID DMDTELKDLP 1620
SHVSGCVELS ESTFTGSAIS KTSDTQLDGI FPGSILVSLA APVEPQFSAA APDISL 1676
Nucleotide Sequence
(Fasta)		ATGGTGAACA AAGGCGCTAC AGGGGGGCGA GATTTTGTAG CCGAGGGCTT AGCCAGGGCC 60
CTTTTTGGTG AAGATATCGG CGGTAACAGT TTCCTTGATG CTAGCTTCGA AGGTTCCGCT 120
GAAGAGCATC ACATATTTTC CTCCATTTTC TTTGGAAAGG ATCACCCTTT CAAGATGGTC 180
CCTGGGAAAT CAGGAAACTC TAATCCAGAT ACAGGGTCCA GTTTCAGTTT TAAGGAGCCA 240
CTGGGAACTA GTCTCATAGA GGCTGGTGCA ATTAAGACCT ATTCCCCATT GGCTGCTTCC 300
AATCCTGAAA ACACTATTAT AATCCGTCAG TTGTTGAAGC CATTGGAGAA ACTTTCTGGC 360
CTTGGGAACC AAGTGGAGAG ACCTGAAGGT CAACCAGAGC CGGTTCCTGG ATCAAGCTGC 420
TCTCAAGAAG GCTCGAGTTT GCTTGGTCAT GGAGTTGGCA TGGATTCTAA CAATGGGTTG 480
AGTTCGAAGA GCATGATATC TCATGACAGA AGATCTAGCT GTGAGTATTA TGAGTCAAGT 540
TCTTGCTTTG TTGCCGTGCC TTCTGGGAAG CTACCCAAAG TTCTAAACCA GAGAATTGAG 600
GCAGGAACCA GTAAGGCAAG CCCTCAGTTC GATCCTTATG ATAAAACTTG CAGGCTTATA 660
ACGAGCCCCA TTGTTGAATC CTCTGGTCAT GGCATTATAT TGAGGCGCTA TTTCTTGAAC 720
AACTCCACTA AAAAAGAATT TAAGGGCAGT GGTGATGCCA ATGGGTGTTC TGGGTACATG 780
TATCAGAAGC CCGTGGCCCC TTTGGAAGCT TGTAACATGA ATTCTGCAAG CCCAGATGGT 840
AGACAGAGCC ACAAAAATTT CGATGAACAA AATTTTTCTG CTTCTGATTT TCAAGAGCCC 900
TGTAGAGCTC TTGCTATTGT AAAAGAAACT GAGGACGTGA AACCCATTGA TATTCTTCCG 960
TCGGAATCGG ATTTTCATAA TTTGTCAGCA CTGGAGAAGA GCTTTATGAT ATCAGATCTT 1020
CGCCAGAGGT TTCGTCAGCA TCTAAGAGAT TTTCTTGTGG ATGCTGGGTG GGAAATCAGG 1080
CTTCGGGCAA GGCGTAACAG GCCCTCTCAG GACTCTGTGT ATATATCACG GGAGCAAGGA 1140
TCGGTGTACT TCGCTTCTCT TCCTAAAGCT TGGAAGGCAT GTGGAGAGGG CTTTGGTTTT 1200
TGCTGTCACA TGGAAACAGC TGAAGATAAG TGGTGTGACA AGAACAGGGT ATGGGCTGAC 1260
TTGTCTGATA CGCTAAATTA TCTTGAAAAG GAAGCACAGA AGAACAAGTG CTCTTCTTCT 1320
TTACCTTTGC GGTGGGATTT ACTTGATCCT TTTGTCAGTG CTATTCTTAT TGAGAAGCTT 1380
GCTACATTTC ATAGGGACTG GACAGTGAGA TCAATTGCAG GAGCATTGGA TGTGGCTGAA 1440
GACAATGATG CGTCTGCTAG AGGCATTCAT CACCACCCAG AGTTTGTGGC CAAGAAAGAG 1500
AAAGGGTCTT TGAGATTAAC TAGGGCAATG AAGGGAAAAA GAAAGATGTG GTCTGATGAA 1560
GTTTCTGAAT CCTTGATGAA AAGTGGCAAA AGTAATGGAG AAATATGGAA GCAGCAAGCT 1620
GTTTGGGATC CTTTGGCTTC TGGGGAAGCA CCACTAATTG TCGACCATGA GGTTTCCTGT 1680
GTGATAAACC CAACAGGACA GTATTCAAAC ATGAGTAGGA TTTTGCCAGG TAATTCCAAT 1740
AAAATGGAAC TCCAACTAAG AGAGAGAAAT TGTGAGGTGG GACCGTCTCT ATCATACGAG 1800
GATCCCAGAT ATTATGGTTA CATGGATGGA TCTCATACTG CTTCTAATGA TATAAATGGA 1860
GAAATTTTAG ATTTCTCAGC CCAACCAGAA GAAAAGTCGT TTCAATTGTT GAAAGGTCCA 1920
TTGCCACGTG GGTCTGTTAA CAACCTAAGA AGTAATTCAC TTGTCAGAAC TAGCAACTTA 1980
CGAAAGAAGT CTAAGAAGGC ATGGGCTATC GAAACAAGTG ATCCATGTGA AAGACACGAC 2040
AAGACTGATG GGTTTTTTGA GCTTGTAGAT AAGGTCCGGA AAACTCATTC AGGTATGTTC 2100
CAAAAGAATG ATTTGAATAA GTCCCGGAAG GGTTGCAGAA GGTCAGTTAT AGGGGCTGAT 2160
GAGGAGAATG GTCCAGGTGG GAAAAATATT GCAGTCCATG AAAATGGCCA GTCTTTGGAG 2220
ACTCGGTATA GCAAGAAGGC TAAAAAATCA AATAGATGCA AATTGAGCAG TAAAATTGCA 2280
GGGAAGAGAC TAAGATATGA GGTCGCTTCA AACACACCTA GATGTGAGAT AGAGGATGAC 2340
GATCTTTTAG TTGCAGCTAT TATAAAGAAA AATGAATTTA CCCCCAAAAG TAAAAAGTTT 2400
AAGCTTAGGG CAAGGAAACT GCCTTCAAGA TCCACTAGGA AGCTCAAAAG TCAAAAGAGA 2460
GGTTGCAAGT TGCAACCTCG AAATCCTTCC AAAGGTGGCA AGGATTCCAT GGGGGAATGC 2520
TGGTCCCCTT TTGGTAAAAG AACAGTGCTT GCTTGGTTGA TTGATGAGGG TGTATTGTTT 2580
GAGAATGAGG TCATCCAGTA TAGAACCCCT AAGGATAATG AAATAGTCAA AGATGGGTGG 2640
GTTACTAAGG ATGGGCTGCT GTGTAAGTGC TGTCAGGCGG TTTTTTCTGT GTCTGAATTT 2700
AAAGTCCATG CCGGTTATAA ACCATGCCAA CCCTCTCTGA ACATATTCTT GGAGCGTGGA 2760
AAGCCACTTA CACTCTGTCA GCTCGAGGCT TGGTCAAATG AATACAAGGT CAGGAAAAGT 2820
GGGAAACCTA TAGTGGAAAC TGAGGAGATG GACCTGAATG ATGATACTTG TGGACTCTGT 2880
GGAGATGGGG GTGATCTCAT ATGTTGCGAT TACTGCCCTT CAACCTTCCA TTTGGCTTGC 2940
TTGTCTGCGC AGGAGCTCCC TGAAGGAAGT TGGAATTGCC CATACTGCAC CTGTAAGATT 3000
TGTGGGAGTG TTGTGTCCCA TAAAGAAGCT TTGAGTTTAC CCGTTGTATT GGAATGTTCA 3060
CAGTGTGAAC ATAAATATCA CAGTATTTGT GTGAAAGGAA ATGGCACACG GGGAGAAGAG 3120
GAAGTAGTCT CAGATAATTG GTTTTGTGGA CAAAGCTGTC AAGAGGTCTA CTCAGGTCTG 3180
CGTTCTCGTG TTGGAGTGGT GAACCACATT GGGGATGGGT TTTCCTGGAC ACTTCTTAGA 3240
TGTATTCATG GTGATCAAAA GGTCCACTCT GCACAAAAAT TTGCGCTGAT GGCGGAATGT 3300
AACACAAAGC TAGCTGTTTC CCTAACTATC ATGGAGGAAT GCTTTGTACC AATGTTAGAT 3360
CCTAGGACAG GCATAGATAT GATTCCCCAC GTCCTATACA GTTGGGGATC GGATTTCTCT 3420
CGCTTGAATT TTCAAGGATT TTACACAATT GTCCTGGAGA AGGATGATGA ACTCATATCT 3480
GTGGCTACCA TCAGGGTTCA TGGAGTCACT GTTGCAGAGA TGCCCCTTAT TGCAACTTGT 3540
AGTCAACATC GGCGCCAAGG AATGTGTCGG CGTCTCATGA ATGCACTTGA GGAGATGCTG 3600
ATATCTTTCA AGGTAGAAAA GCTGGTAATA TCAGCTATTC CTGATTTAGT GGATACATGG 3660
ACCTCAGGCT TTGGATTTAA ACCCTTGGAA GATTCAGAAA GAGAAGAGTT CATTGACATG 3720
AACTTAATGA TGTTTCCGGG GACAACTTTA CTAGGGAAAC GCCTTTCTGG ATGTAAAGAA 3780
GTGGAAAACA TAGAAGCTGC TCCTGAAGAA TATTTGTCAT TGAAAGCAGA TGAACCCAAG 3840
GAAGTGGGTT TCAGTGAAGA TAGGATTGTT TCTGTTGATG AAATGAATTT AGGGGTCAAC 3900
TCTGGCAGAG GTTTGATTCA GGAATTCGAA CATGGTGAGA CTGATAGTTC CAAATTGTCT 3960
ATAAAGAAAA TTGTTTCTTC CTCTGTAGAA AATGAACCAG AACATATTGA CTGCAATGCC 4020
ATGAGCAAAT GCTTGGATGC CTCAGAAGTA ATTCCTGTCA AGGAAAATGT TTCTGGAGTG 4080
AATCATTTAT CTGCCAATAA CATGTCTCGT GGTACGGATG TATACTCTAA TCATGTTTCT 4140
AGGGGACCTT TGATTGGGCA AGATTCTGCA TGTATGGATC CAAAGTCCAA ATCAGATAGG 4200
AAAATCAGCT ATAATGCCCA TGATGCTAAT GATTCATCCA TGGGAGGCAT GAATGGCATG 4260
ACCAACCAAG AAAATTGCAT CTGTGATTCA GAATATTCCA AAGGTGGCAC TTTTACCAAA 4320
ACAATTAGTA CTGTTATGGG TCATGTAGAA ACAATTTCGA ACACAATCGA GGAAAAGAAG 4380
GATGATGCTT CGAGTTCCCC TTTGACAGTT GATAAATATG AGGATTCTGA GGTATTGTCC 4440
TTAAGCAAGC CGATATCCGT GGAGTTTGAT TTGGCTGGTG CTCCGGTAGA TGTTTCATCT 4500
ACTTGGAAGA CCCAACTTTC TTCTAGCAAA TACTCACTGG ACGGATTAGA AGAAAATTTG 4560
CAAAAAGACA TAGCCATTTC TGGAAAGGAG TGCTCATGCA TGAGTGAAAA GTCAACTGAT 4620
TCTTGTCTGA AAGAAAATAT GGATCCTAGA GAACCCGTAT CAAAGGATTT GACTGAGAAT 4680
GCCAATGGTG AAATGGGTAT TTTACAGGAA ATTAGAGAAG TTAACTGTCA ACTGTTAAAG 4740
CATGGGAAAG CTGAGAATCT TAAAACAGAA TCTGTTTCTA ATGGGAGCCC TTCTCTTTCT 4800
TCTGCAAAAG GTGAAAAAGA TGACATAGAT GACATGGACA CTGAACTGAA AGATCTCCCT 4860
TCCCATGTTT CAGGATGTGT AGAACTTTCT GAGAGTACTT TTACTGGAAG TGCAATAAGC 4920
AAGACATCTG ATACCCAATT GGATGGGATT TTTCCTGGTT CTATTTTAGT GTCCCTGGCT 4980
GCTCCAGTTG AGCCTCAATT TTCAGCAGCT GCTCCAGACA TTAGCCTATA G 5032
Sequence Source Ensembl
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Prp-0010 EMJ14932 Prunus persica 66 0.0 643
WERAM-Glm-0154 GLYMA12G35760.2 Glycine max 61 2e-179 627
WERAM-Thc-0086 EOY13226 Theobroma cacao 64 2e-175 615
WERAM-Met-0046 KEH38626 Medicago truncatula 63 6e-174 609
WERAM-Viv-0120 VIT_19s0014g01500.t01 Vitis vinifera 61 1e-172 605
WERAM-Sol-0097 Solyc07g062600.2.1 Solanum lycopersicum 54 1e-163 575
WERAM-Art-0071 AT3G14980.1 Arabidopsis thaliana 56 1e-145 515
WERAM-Mua-0094 GSMUA_Achr6P25440_001 Musa acuminata 57 5e-145 513
WERAM-Orbr-0058 OB04G37750.1 Oryza brachyantha 50 1e-140 499
WERAM-Brd-0130 BRADI5G27517.1 Brachypodium distachyon 51 3e-140 498
WERAM-Arl-0059 fgenesh2_kg.3__ 1623__ AT3G14980.1 Arabidopsis lyrata 56 4e-140 497
WERAM-Sob-0096 Sb07g000645.1 Sorghum bicolor 50 9e-140 496
WERAM-Tru-0009 TRIUR3_05331-P1 Triticum urartu 53 1e-139 495
WERAM-Aet-0007 EMT20462 Aegilops tauschii 53 7e-139 493
WERAM-Sei-0077 Si020995m Setaria italica 49 2e-138 491
WERAM-Bro-0100 Bo5g127560.1 Brassica oleracea 57 3e-137 488
WERAM-Hov-0086 MLOC_65889.1 Hordeum vulgare 53 2e-136 485
WERAM-Brr-0136 Bra027290.1-P Brassica rapa 56 8e-136 483
WERAM-Tra-0043 Traes_2AL_F68D162A8.2 Triticum aestivum 53 9e-136 483
WERAM-Orr-0048 ORUFI04G32440.1 Oryza rufipogon 50 3e-133 474
WERAM-Orni-0045 ONIVA04G29920.1 Oryza nivara 50 6e-133 473
WERAM-Orgl-0047 OGLUM04G30610.1 Oryza glumaepatula 50 8e-133 473
WERAM-Orb-0048 OBART04G30730.1 Oryza barthii 49 1e-132 472
WERAM-Zem-0025 GRMZM2G038050_P01 Zea mays 52 7e-131 466
WERAM-Sot-0038 PGSC0003DMT400032367 Solanum tuberosum 68 4e-125 447
WERAM-Orl-0058 KN539151.1_FGP008 Oryza longistaminata 48 1e-123 442
WERAM-Lep-0071 LPERR07G04130.1 Leersia perrieri 43 9e-101 366
WERAM-Ors-0046 OS04T0691700-01 Oryza sativa 56 4e-99 361
WERAM-Org-0048 ORGLA04G0270900.1 Oryza glaberrima 55 3e-98 358
WERAM-Orm-0068 OMERI07G03260.1 Oryza meridionalis 39 3e-97 355
WERAM-Ori-0082 BGIOSGA025231-PA Oryza indica 39 7e-97 353
WERAM-Orp-0069 OPUNC07G04530.3 Oryza punctata 42 3e-96 351
WERAM-Sem-0001 EFJ24916 Selaginella moellendorffii 45 3e-92 338
WERAM-Php-0118 PP1S59_348V6.1 Physcomitrella patens 34 2e-89 328
WERAM-Pot-0028 POPTR_0002s11940.1 Populus trichocarpa 35 9e-65 247
Created Date 25-Jun-2016