WERAM Information


Tag Content
WERAM ID WERAM-Aet-0085
Ensembl Protein ID EMT25277
Gene Name
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
F775_25150 EMT25277 EMT25277
Status Unreviewed
Classification
Type Family E-value Score Start End
HMT SUV39 1.60e-46 158.7 1220 1357
Organism Aegilops tauschii
Domain Profile
  HMT SUV39

  SUV39.txt    1 vrLqvfktenkGwGvrclddiakgsFvciyaGeiltddeaekegleegdeyladldskesvenlkegyesdvplssdssntrqekdkeeseyiidakk 98  
v+L++fkt ++GwGvr+l i+ gsFvc+y+Ge+l+++eae++ e+deyl+d+ + ++ +++e++ +s+ ++++e + e+ y+ida+k
EMT25277 1220 VPLEIFKTGKTGWGVRSLSFIPSGSFVCEYVGEVLQETEAERT---ENDEYLFDIGRDDDD----DEEEEE---GSE--SSKSEMTAESLGYTIDAAK 1305
689**************************************99...9*********97664....222222...222..334566678999******* PP
SUV39.txt 99 egnvgrflnHscspNlfvqnvfvdthdlrfprvafFaskrikagtELtwdYg 150
gnvgrf+nHscspN++ q v+ d+ d+r+p+v++Fa k+i++ +ELt+dY+
EMT25277 1306 CGNVGRFINHSCSPNMHAQDVLWDHDDRRMPHVMLFAEKNIRPLQELTYDYN 1357
***************************************************7 PP

Protein Sequence
(Fasta)
MRDDEDVAFL LYRVALVGPV GGVLGLVRVS SLAGGDVGGR GDGQVREGVG DDGHHCVFLA 60
VGISVGGAPA EVDDAGDGHG IKEAETKVVL YRVALVGPVG GVLGLVRVSS LAGGDVGGRG 120
DGQVREGVGD DGHHCVFLAV GISVGGARAE VDDAGDGHGI KEAEVCAASS DGRRVCAPTA 180
GVEVLPPRGR GGVSAQRSWP PSCGRVAENG DGERGVQGTA DEAAGHAGVS SAACNGGLPR 240
DPPQPQPPGV GDARPSDGQA EVRALDVMPL AFAVPRKCAV APANGSMEDG GHMAESLNVE 300
GQLVRDEDVV IGNGDGSVVG SRVGDGELER EEDESRKKRW SASVMNPPPK RRAVSAKRRF 360
PPGCGSVAAT GIGVGGCGVP PMLKRDDSNH ETESKREEVG GATEAHNDMQ ESQVVNCVAP 420
DDFADRPRNY VGMKTRQSFF ASWYAYAVDA LLTITISGHG ASPILRRDGS NHETEGKREE 480
VEGATEAHNH MQESQVVNCV APDDFADRPR NYVGMKTRQS FFASGCAYVV DALLTITISG 540
HGTSPILRRD DSNNETEGKR EEVGGATEAH NHMQESQVVN CVAPDRPQNY VGHGASPILR 600
RADSNHETEG KREEVGGATE AHNHKQESQA VNCVAPDDFA DRPQNYVGHG ASPILRRDNS 660
NVEMEGKIKE VGGATEAHNQ KIQESQVVNV IVQDGFARGQ HGHDNPLNDV TSDSPRHSFL 720
EQMNGRRVLR ERKRAPLVAR NAEIRSKREG RLHEGTPRTH PRGPLNVKRK GKSSEIVKIN 780
VTLVDDARVL DVIRSASKCG DHVATDQIED KDGVGLNTNR VIIQALMAPD RCPWTQRKKS 840
IGSVPKSLAP RKNVKKVATP RKELRSKVTP STSARRKARE DGEDSLEDDE KSLAVLAHER 900
NNKSCVNIPR CAPSDDLSVD TRSKITKIDE RSRLRDPKDI PLVGGVGDVK NKCEGSLQEG 960
TSRTHVRALV NVKTKGKRPD NVKVNGILLD DRRVFEDDKT GNQISRTRRG VARSSNIKNV 1020
KKGLFAHKLK HDGISKDSGN RFTKESKCGD HLPTDQIKEN DNVGLVTNKM TVLALMAPDK 1080
CLWTEGKRLI AGVSQSLTCR NNNSLTVREG LCLPDISQGK ESIPICVINT IDGVLPTPFK 1140
YITKVIYPPS YAKAPSVGCD CTNGCSDSSE CACAVKNGGE IPFNLNSAIV YTKPLIYECG 1200
PSCRCPPTCH NRVSQHGPKV PLEIFKTGKT GWGVRSLSFI PSGSFVCEYV GEVLQETEAE 1260
RTENDEYLFD IGRDDDDDEE EEEGSESSKS EMTAESLGYT IDAAKCGNVG RFINHSCSPN 1320
MHAQDVLWDH DDRRMPHVML FAEKNIRPLQ ELTYDYNYNI GNVRKNGKAA RVSLFSSKTI 1380
VLDLLRTSSR RAEAQADCIL RQIYQNLLRV KSTKNAAASF FKNGIVSFTQ VDEEEWYGRM 1440
HHSNAEAGRD PKKKASPKLM RKRIESISPQ WRRKWHEIQF CPHSRYSHFS NKTQAKYSRD 1500
QDWEVTFILY IGSTATSAEI KGSSTENFKW KQIWKLWGPN KYKMFVGRLL AHESLANRMK 1560
IQRLGVELDT ACPVCHRLNE DGGHIFLKCK KVKECRSRLA LGGLREILVK HKSAHEMLGE 1620
LWKADSASQL RALVLCGSGG MSGRKPTQGS QFLVLRDDFA AAGAGTSVHL RDLLHSEAVV 1680
CLAAIDGAIR LGANRIIFES LMLPIL 1706
Nucleotide Sequence
(Fasta)
ATGCGGGACG ACGAGGACGT GGCCTTCTTG CTCTACCGGG TTGCTCTGGT CGGGCCAGTT 60
GGAGGCGTGC TAGGCCTCGT CAGAGTGAGT AGCTTGGCCG GCGGCGACGT AGGCGGCCGT 120
GGAGATGGGC AGGTTCGGGA GGGAGTCGGA GACGACGGGC ATCATTGCGT GTTCCTGGCG 180
GTGGGAATTA GTGTGGGCGG CGCCCCTGCG GAAGTTGATG ATGCGGGCGA CGGACATGGC 240
ATCAAAGAGG CGGAGACGAA AGTGGTGCTC TACCGGGTTG CTCTGGTCGG GCCAGTTGGA 300
GGCGTGCTAG GCCTCGTCAG AGTGAGTAGC TTGGCCGGCG GCGACGTAGG CGGCCGTGGA 360
GATGGGCAGG TCCGGGAGGG AGTCGGAGAT GACGGGCATC ATTGCGTGTT CCTGGCGGTG 420
GGAATTAGTG TGGGCGGCGC CCGTGCGGAA GTTGATGATG CGGGCGACGG ACATGGCATC 480
AAAGAGGCGG AGGTTTGTGC GGCGTCGTCG GATGGAAGGA GGGTTTGCGC CCCGACGGCG 540
GGGGTGGAGG TGCTGCCGCC TCGCGGTCGC GGGGGTGTCT CCGCCCAGCG CTCCTGGCCG 600
CCGAGCTGCG GCCGCGTCGC CGAGAACGGC GACGGCGAGA GGGGCGTCCA GGGAACGGCG 660
GACGAGGCGG CCGGCCACGC GGGCGTTTCC TCTGCGGCGT GCAACGGCGG GCTCCCGCGC 720
GACCCCCCTC AGCCGCAGCC GCCAGGCGTC GGGGATGCGC GCCCCTCTGA TGGCCAGGCA 780
GAGGTCAGGG CGCTCGATGT GATGCCGCTG GCGTTCGCCG TCCCACGGAA ATGTGCCGTT 840
GCTCCTGCTA ATGGCTCCAT GGAAGATGGC GGTCATATGG CCGAATCGTT GAATGTGGAG 900
GGGCAATTGG TCAGGGATGA GGATGTTGTT ATTGGCAATG GAGATGGCAG TGTTGTGGGA 960
AGCAGAGTGG GCGACGGTGA ATTGGAGAGG GAGGAGGACG AGAGCAGAAA GAAGAGGTGG 1020
TCGGCATCTG TCATGAATCC GCCTCCCAAG AGGAGAGCGG TCTCAGCCAA GCGCAGATTT 1080
CCGCCTGGCT GTGGGAGTGT TGCTGCTACC GGCATCGGCG TCGGAGGTTG TGGTGTTCCT 1140
CCGATGTTGA AGCGAGATGA TTCTAATCAC GAAACAGAAA GCAAAAGAGA AGAGGTCGGA 1200
GGTGCCACCG AGGCACACAA TGATATGCAA GAATCTCAAG TCGTCAATTG TGTTGCTCCA 1260
GATGATTTTG CAGACCGTCC ACGAAATTAC GTTGGTATGA AGACACGCCA ATCATTTTTT 1320
GCTAGTTGGT ATGCCTATGC AGTGGATGCC TTGCTCACAA TTACAATTTC AGGTCATGGT 1380
GCTTCTCCGA TTTTGAGGCG AGATGGTTCC AATCACGAAA CAGAAGGCAA AAGAGAAGAG 1440
GTTGAAGGTG CCACCGAGGC ACACAATCAT ATGCAAGAAT CTCAAGTCGT TAATTGTGTC 1500
GCTCCAGATG ATTTTGCAGA CCGTCCAAGA AATTATGTTG GTATGAAGAC ACGCCAATCA 1560
TTTTTCGCTA GTGGGTGTGC CTATGTAGTG GATGCCTTGC TCACGATTAC AATTTCAGGT 1620
CATGGCACCT CTCCGATTTT GAGGCGAGAT GATTCTAATA ACGAAACGGA AGGCAAAAGA 1680
GAAGAGGTCG GAGGTGCCAC CGAGGCACAC AATCATATGC AAGAATCTCA GGTCGTCAAT 1740
TGTGTCGCTC CAGACCGTCC ACAAAATTAT GTTGGTCATG GCGCTTCTCC GATTTTGAGG 1800
CGAGCTGATT CTAATCACGA AACGGAAGGT AAAAGAGAAG AGGTCGGAGG TGCCACCGAG 1860
GCACACAATC ATAAGCAAGA ATCTCAAGCC GTCAATTGTG TCGCTCCAGA TGATTTTGCA 1920
GACCGTCCAC AAAATTATGT TGGTCATGGT GCTTCTCCGA TTTTGAGGCG AGATAATTCT 1980
AATGTGGAAA TGGAAGGCAA AATAAAAGAG GTTGGTGGAG CTACCGAGGC ACACAATCAA 2040
AAGATCCAAG AATCTCAAGT CGTCAACGTT ATTGTTCAAG ATGGTTTTGC AAGAGGCCAA 2100
CACGGCCATG ATAATCCACT AAATGATGTT ACAAGTGACT CACCAAGACA TAGTTTCTTG 2160
GAGCAGATGA ATGGTAGAAG AGTATTACGT GAAAGGAAGC GCGCACCGCT AGTAGCGAGG 2220
AACGCTGAGA TTAGAAGCAA ACGCGAAGGA CGCTTGCATG AAGGCACTCC GAGGACTCAT 2280
CCGAGAGGCC CTCTTAATGT GAAGAGAAAG GGCAAGAGTT CAGAGATTGT CAAGATCAAT 2340
GTGACATTGG TAGATGATGC ACGTGTGCTT GACGTGATAC GCTCGGCATC TAAGTGTGGA 2400
GACCATGTTG CGACCGATCA AATTGAAGAT AAGGATGGTG TGGGCCTTAA TACTAATAGG 2460
GTAATTATAC AAGCATTGAT GGCTCCAGAC AGATGCCCTT GGACGCAACG AAAGAAATCT 2520
ATTGGTAGTG TTCCTAAATC GCTTGCTCCT AGGAAAAATG TGAAGAAGGT TGCTACTCCA 2580
AGGAAAGAAT TGCGCTCCAA AGTTACCCCT TCTACATCGG CTAGGCGCAA GGCAAGAGAG 2640
GATGGAGAAG ATTCCTTAGA AGATGATGAG AAATCTTTGG CAGTACTTGC GCATGAAAGA 2700
AATAATAAAT CATGCGTCAA CATCCCTCGA TGTGCTCCTT CAGATGACTT GAGTGTTGAT 2760
ACCCGAAGCA AAATTACGAA GATTGATGAG AGAAGTCGAT TGCGCGATCC AAAGGATATA 2820
CCACTTGTAG GGGGGGTTGG TGATGTAAAA AACAAATGTG AAGGAAGCTT GCAAGAAGGT 2880
ACTTCGAGGA CGCATGTGAG AGCTCTTGTT AATGTGAAGA CAAAGGGCAA GAGACCAGAT 2940
AATGTCAAGG TGAATGGGAT ATTGCTAGAT GATAGGAGGG TCTTTGAAGA TGACAAGACA 3000
GGAAACCAGA TTTCAAGAAC TCGAAGAGGA GTGGCGCGCT CCTCAAATAT TAAAAACGTG 3060
AAGAAAGGCT TGTTTGCTCA TAAGTTAAAG CACGATGGCA TCAGCAAGGA CTCTGGGAAT 3120
AGGTTCACGA AGGAATCTAA GTGTGGGGAT CATCTTCCGA CCGATCAAAT TAAAGAAAAT 3180
GATAATGTTG GCCTTGTCAC CAACAAGATG ACTGTATTAG CATTGATGGC TCCTGACAAA 3240
TGCCTGTGGA CAGAAGGGAA GAGGCTTATT GCTGGTGTTT CTCAGTCTCT CACTTGTAGG 3300
AATAATAACT CTCTTACCGT TCGTGAAGGC CTTTGTTTGC CTGACATATC TCAAGGAAAA 3360
GAGAGCATTC CCATATGTGT GATCAACACA ATTGATGGCG TGCTGCCAAC GCCATTTAAG 3420
TACATTACCA AAGTCATATA TCCGCCCTCA TATGCAAAAG CACCTTCAGT AGGCTGTGAC 3480
TGCACTAACG GTTGCTCGGA CTCTAGTGAA TGTGCTTGTG CTGTGAAAAA TGGAGGGGAG 3540
ATCCCATTCA ATTTGAATAG CGCAATTGTT TATACAAAGC CTCTCATATA TGAGTGTGGC 3600
CCATCATGCA GGTGCCCGCC AACATGCCAC AATAGGGTGA GCCAGCACGG CCCCAAAGTT 3660
CCACTGGAAA TATTCAAGAC CGGGAAGACA GGTTGGGGCG TAAGATCCCT CAGTTTTATC 3720
CCTTCAGGTA GTTTCGTATG CGAGTATGTA GGTGAGGTAT TGCAAGAGAC AGAAGCTGAG 3780
AGGACAGAAA ATGATGAATA CCTTTTTGAT ATTGGTCGTG ACGATGACGA TGATGAAGAA 3840
GAAGAAGAAG GTTCAGAATC TTCTAAATCC GAGATGACGG CGGAAAGCTT GGGCTATACA 3900
ATAGATGCTG CAAAGTGTGG TAATGTTGGA AGATTCATCA ACCATAGCTG CTCTCCAAAC 3960
ATGCATGCAC AGGATGTTCT CTGGGACCAT GATGATAGGA GGATGCCGCA TGTTATGCTT 4020
TTCGCCGAAA AGAATATCCG TCCTCTACAA GAGCTTACTT ACGATTACAA TTATAACATA 4080
GGTAATGTGC GCAAGAATGG CAAGGCGGCT AGGGTTTCTC TATTCTCCAG CAAGACCATC 4140
GTTCTCGACC TGCTCAGGAC GTCATCTAGG CGTGCTGAGG CACAGGCGGA CTGCATTCTT 4200
CGTCAGATTT ACCAGAATCT CTTAAGAGTT AAGTCCACAA AGAATGCCGC AGCTTCCTTT 4260
TTCAAGAATG GTATAGTCAG CTTCACCCAA GTTGATGAGG AAGAATGGTA TGGCCGCATG 4320
CATCACTCTA ATGCAGAGGC CGGGCGTGAC CCTAAAAAAA AAGCTTCACC CAAGTTGATG 4380
AGGAAGAGAA TAGAATCCAT CAGTCCCCAA TGGAGACGAA AGTGGCATGA AATCCAATTT 4440
TGCCCCCATT CAAGATATTC ACACTTCTCT AACAAAACAC AAGCAAAATA TTCAAGAGAT 4500
CAAGACTGGG AAGTAACTTT TATCCTGTAT ATAGGATCAA CGGCTACCTC CGCAGAAATA 4560
AAAGGGAGCA GCACTGAAAA TTTCAAGTGG AAGCAAATTT GGAAGTTGTG GGGTCCCAAT 4620
AAGTACAAAA TGTTTGTGGG GCGCCTCCTT GCTCACGAAA GTTTGGCAAA CAGGATGAAG 4680
ATTCAGAGGT TGGGGGTGGA ACTAGACACG GCCTGCCCGG TGTGTCATCG GTTGAATGAA 4740
GACGGCGGCC ACATTTTCCT CAAATGTAAG AAGGTAAAAG AATGTCGGAG CAGGCTGGCG 4800
TTGGGTGGTC TTAGGGAAAT CTTGGTTAAG CACAAGTCTG CCCATGAGAT GCTTGGTGAA 4860
TTGTGGAAAG CTGATAGTGC CTCCCAGCTG AGGGCTCTTG TCTTGTGTGG GAGTGGTGGG 4920
ATGTCAGGAA GAAAGCCAAC ACAGGGGAGC CAGTTTCTAG TCCTCAGAGA TGATTTTGCT 4980
GCTGCTGGCG CAGGAACATC TGTGCACCTG AGAGATTTAC TTCATTCTGA AGCAGTGGTG 5040
TGCCTTGCTG CTATTGATGG GGCTATCAGA CTTGGCGCAA ACCGAATTAT TTTCGAGAGT 5100
CTGATGCTCC CAATTTTGTG A 5122
Sequence Source Ensembl
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Tru-0044 TRIUR3_20106-P1 Triticum urartu 74 0.0 2108
WERAM-Tra-0237 Traes_5DL_C92E862A2.2 Triticum aestivum 94 0.0 2052
WERAM-Hov-0030 MLOC_32627.1 Hordeum vulgare 84 0.0 1243
WERAM-Brd-0105 BRADI4G28460.1 Brachypodium distachyon 61 0.0 886
WERAM-Zem-0104 GRMZM2G300955_P01 Zea mays 71 9e-109 393
WERAM-Sob-0027 Sb02g022936.1 Sorghum bicolor 72 2e-108 392
WERAM-Sei-0041 Si012231m Setaria italica 66 4e-104 377
WERAM-Orm-0092 OMERI09G05880.1 Oryza meridionalis 71 3e-103 375
WERAM-Amt-0001 ERN01091 Amborella trichopoda 65 2e-102 372
WERAM-Orbr-0107 OB09G14850.1 Oryza brachyantha 67 3e-102 372
WERAM-Orr-0105 ORUFI09G07880.1 Oryza rufipogon 67 6e-102 370
WERAM-Ori-0109 BGIOSGA030599-PA Oryza indica 67 8e-102 370
WERAM-Ors-0090 OS09T0362900-01 Oryza sativa 67 1e-101 370
WERAM-Orl-0090 KN540051.1_FGP003 Oryza longistaminata 66 1e-101 369
WERAM-Lep-0098 LPERR09G05040.1 Leersia perrieri 67 1e-101 369
WERAM-Orgl-0098 OGLUM09G07810.1 Oryza glumaepatula 66 4e-101 368
WERAM-Orb-0102 OBART09G07450.1 Oryza barthii 66 8e-100 363
WERAM-Org-0097 ORGLA09G0054000.1 Oryza glaberrima 66 1e-99 362
WERAM-Viv-0003 VIT_00s0309g00020.t01 Vitis vinifera 60 4e-97 354
WERAM-Met-0121 AES94344 Medicago truncatula 61 1e-96 353
WERAM-Pot-0036 POPTR_0003s08130.1 Populus trichocarpa 61 2e-95 348
WERAM-Glm-0008 GLYMA01G41340.2 Glycine max 62 3e-95 348
WERAM-Orp-0095 OPUNC09G06250.1 Oryza punctata 65 9e-94 343
WERAM-Sol-0078 Solyc06g060960.1.1 Solanum lycopersicum 60 1e-93 343
WERAM-Prp-0019 EMJ11616 Prunus persica 62 2e-93 342
WERAM-Sot-0080 PGSC0003DMT400067504 Solanum tuberosum 58 4e-93 341
WERAM-Thc-0040 EOY24196 Theobroma cacao 61 1e-90 333
WERAM-Orni-0091 ONIVA08G14800.1 Oryza nivara 58 5e-90 331
WERAM-Arl-0129 scaffold_402114.1 Arabidopsis lyrata 55 6e-85 314
WERAM-Bro-0077 Bo4g150950.1 Brassica oleracea 56 4e-83 308
WERAM-Brr-0150 Bra030212.1-P Brassica rapa 56 1e-82 306
WERAM-Art-0053 AT2G35160.1 Arabidopsis thaliana 54 1e-81 303
WERAM-Sem-0004 EFJ22703 Selaginella moellendorffii 47 6e-63 241
WERAM-Php-0129 PP1S9_150V6.1 Physcomitrella patens 42 5e-61 234
WERAM-Mua-0084 GSMUA_Achr5P13120_001 Musa acuminata 39 5e-47 188
Created Date 25-Jun-2016