WERAM Information

Tag Content
WERAM ID WERAM-Met-0023
Ensembl Protein ID AES60886
Gene Name MTR_1g072130
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
MTR_1g072130 AES60886 AES60886
Status Unreviewed
Classification
Type Family E-value Score Start End
Me_Reader PHD 1.80e-09 39.1 918 1020
Organism Medicago truncatula
Domain Profile
  Me_Reader PHD
   PHD.txt   2 tiClvCgkddegekemvqCdeCddwfHlkCvklplsslpegkswyCpsCk 51 
               ++C vC  d+ +   +++Cd+C+  fH +C++++  + p+g +w+C  C 
  AES60886 918 DTCGVC-GDGGD---LICCDGCPSTFHKSCLDIK--KFPSG-DWHCAYCC 960
               58****.44444...9******************..*****.*******7 PP
   PHD.txt    3 iClvCgkddegeke...........mvqCdeCddwfHlkCvklp..lsslpegkswyC.psC 50  
                +C +C+ ++  +++           ++ C  C++ fH++Cv+ +  ++  +++ + +C ++C
  AES60886  960 CCKFCRLVGGSSNQsvvndeftmpaLLTCHLCEEKFHISCVEANggKTDDSKD-ALFCgNKC 1020
                7999985555544444556667777888**************99443333344.55552555 PP
Protein Sequence
(Fasta)		MREGLRSQTP ARKGSVGGGG EVVRKKRVRV KNEGLVLGLE GLVEPTELNE KGEVEGLVLG 60
DEGSGGDGGV VQKKRARLQN EGMVTGDEVL LGPTESIEKK GNVECADDVE CAVKVEALVK 120
PTSTIEKKGG VECAGDFECA GEVDALAKPT SSIEKGGVEC AGDIECAGEV EAFTKPTSSI 180
EKKGGVECAE DIECSGEVEA LVKNTSSNDK KGAVECAGDV ECTGEVEALV KPTSSTEKKV 240
AVECEGNVEC TGEVEALVKP TSSTEKKGAV ECAGNVDCAG EVECAVRRGR DLDLNVSLCM 300
DDDIAENGES SPQSSLKDRD INVEAKADKK EDEGVSGVRL LRSRSKNGGE RISYNEENYG 360
VFSGSDGKHG VLERIKVKIE EADEVLTDGN KNEKVKVKIG GKVKKKLKRK RGRPRKTEIK 420
EKDELVDQPP RKLGRPHKTE LKEDDRLVDQ PQRKLGRPRK TELKDHDQSP RKLPRTRKSE 480
LKGDGQFVDQ SPRKLGRPRK TELNEDDQSP RKRGRPFKAD QQKHLMTVAH NSKGKMSREN 540
GKKVLTVTDS ASTNEVDDTC SGRSSGKKLK EKRFSPVRKN NPRKVLKTEN DEMVSPLVST 600
TVKAAVAKEG PRRKEQQLVR DKIRECLFAA GWTVDHRPRN GRNYVDSVYV SLDGTTHWSV 660
TLAYKRLKQH YEAGDGEGKL YKPGFIFTPI LQEDFNRLTR VVTKSKKGSN VKCEPFEEKG 720
GKKVGVKRKE KKIKPDSGAG KGKSVKGKMK RKLKRKRPLP EEGNTNVTSP NRDRKRHKTQ 780
NKTRSTLLVR DATEEVDSEI NGYVPYSGKR TILSWMIDLG TILQNGKVHY TQDRLENASL 840
EGKITGDGIH CGCCNEIVTI SDFGAHAGSK QSDPLKNIYT EEETSLLQCL LDSWNKQDES 900
ELKSFHFFDV AGEDPNDDTC GVCGDGGDLI CCDGCPSTFH KSCLDIKKFP SGDWHCAYCC 960
CKFCRLVGGS SNQSVVNDEF TMPALLTCHL CEEKFHISCV EANGGKTDDS KDALFCGNKC 1020
QELSERLEML LGVKHEIEDG FSWSFIRRSD VGCDLSLTNP QLVECNSKLA VALSIMNECF 1080
MPYIDHRSGT NLLRSILYNC GSNFKRLDYS GFITVILERG DEIICVASIR VHGNRLAEMP 1140
YIGTRYMYRR QGMCRRLLNA IESALSSLDV ELLVIPAISE LRETWTSVFG FEPLKQTSKQ 1200
ITNNMNLLVF PHVDLLQKKI SKHAIANENL IHNEVSNHQK NLTAYKVACQ DGEDSSGSDC 1260
CPKIEKNISV ESGCLQLENS LNNAPDITSN NIQNIESQKD VTYHAACQIV NEKLVVDNKI 1320
SDSCELRLTT DCAQPGCIGS KVYAESDDGC GSHSRPDGDS ASGEAGLTSN ILRHVESQNT 1380
TKDVPVNCEN NSSVVSVLNA DEELHYSKTI DLQTKKNPGD RSSILVSSGI CDKIAHGVNG 1440
TNKASREADT DFLPADIELI LDDKPGSHSR PNGHSAHGEA GVTTNVLMHL ESQSITKDFP 1500
VNCENNSSVV GAPNADESER CYSKTIDLQT NKNPGDREKI ADVVNERNKV SNAADADFLP 1560
IDLELVPNNK PGIKESSELS EVNLQVDQTE SSNANTASGA ALHCTSTGST SCGSAEGIVL 1620
SNQAVE 1626
Nucleotide Sequence
(Fasta)		AAAATATTTT CCACGTATTT ACCTAAAAAG AAAAGAAAAG AAAAGAAGAA GAAATCTCGT 60
CTCGTATAAA ATCTGAAGTC ACACGGTTTC TCTTCAAATT CTCTAAACCT TGTTTTCTGT 120
CTTTTCGTTT TCCTGAAACC ACAATCTTCG AATAATGCGC TCGGTTTTCT AGGTTTCGTT 180
GATTTCTCTG TAACCGGTTT CACATTGGTA AGTTACGAAA TTTCAGTATA ATTTTTTTTG 240
TTTGCTTTTG ATCTGATTAT TTTAATCGAT TTTTTTTCTA AGTTTTTTTG TGGTTTTTTT 300
TTGTTACAGA AATGACGATG GTGTGTTTGA TGTGAAATCT TGTACGGGAA TTTGGTTTGT 360
GTGAAGTGTA ATTTGTAACT GTTAAGGTTT TTGAACTTGA GAATTGAATG GGTTATCTGT 420
GTTTTTGTTT TTTGTTTAGG TTTGTTTAAG GTTTGCGGTG TTTGTAGAGT TAGGGTTTTG 480
TGAGAAATGA GGGAAGGGTT GAGATCTCAA ACTCCGGCGA GGAAGGGTTC TGTTGGTGGT 540
GGTGGAGAAG TTGTTAGGAA GAAAAGGGTA CGTGTGAAGA ATGAGGGTTT GGTTTTGGGT 600
TTAGAGGGTT TAGTGGAACC TACCGAGTTG AATGAGAAGG GTGAAGTTGA AGGTTTAGTT 660
TTGGGTGATG AGGGTTCTGG TGGTGATGGG GGAGTTGTTC AAAAGAAAAG GGCACGTCTG 720
CAGAATGAGG GTATGGTTAC GGGCGATGAG GTTTTATTGG GACCTACCGA ATCGATTGAG 780
AAGAAGGGCA ATGTTGAATG TGCTGACGAT GTTGAGTGTG CTGTCAAAGT TGAGGCTTTA 840
GTGAAGCCTA CCTCAACGAT TGAGAAGAAG GGCGGGGTTG AATGTGCAGG TGATTTTGAG 900
TGTGCCGGTG AAGTTGATGC TTTAGCGAAG CCTACCTCAT CGATTGAGAA GGGCGGGGTT 960
GAGTGTGCAG GTGATATTGA GTGTGCTGGT GAAGTCGAGG CTTTTACAAA GCCTACCTCA 1020
TCAATTGAGA AGAAGGGTGG GGTTGAATGT GCAGAAGATA TTGAGTGTTC TGGTGAAGTT 1080
GAGGCTTTAG TGAAAAATAC TTCATCGAAT GATAAGAAAG GTGCAGTTGA ATGTGCAGGT 1140
GATGTTGAGT GTACTGGTGA AGTTGAGGCT CTAGTGAAAC CTACCTCATC GACTGAGAAG 1200
AAAGTTGCAG TTGAATGTGA AGGCAATGTT GAGTGTACTG GTGAAGTTGA GGCTCTAGTG 1260
AAACCTACCT CATCGACTGA GAAGAAAGGT GCAGTTGAAT GTGCAGGCAA TGTTGACTGT 1320
GCTGGTGAAG TTGAGTGTGC TGTGAGAAGA GGACGTGACT TGGATTTAAA TGTGAGTTTG 1380
TGTATGGATG ATGACATAGC TGAGAATGGG GAGAGTAGCC CTCAGAGTTC TTTAAAAGAC 1440
AGGGATATCA ATGTCGAAGC TAAAGCTGAT AAGAAGGAGG ATGAAGGGGT GAGTGGGGTT 1500
CGATTGTTGC GGTCAAGGTC AAAGAACGGG GGTGAGAGAA TATCTTATAA TGAAGAGAAT 1560
TATGGTGTCT TTTCTGGGAG TGATGGAAAA CATGGTGTGT TGGAGAGGAT CAAAGTCAAG 1620
ATTGAAGAAG CTGATGAGGT TTTAACTGAT GGTAACAAGA ATGAAAAGGT TAAGGTGAAA 1680
ATAGGGGGAA AGGTAAAGAA GAAATTGAAA CGGAAGCGTG GGAGGCCTCG GAAAACAGAG 1740
ATAAAAGAGA AAGATGAATT AGTTGATCAG CCACCGCGTA AGCTTGGGAG GCCTCATAAA 1800
ACAGAGTTAA AAGAGGATGA TCGGTTAGTT GATCAACCAC AACGTAAGCT TGGAAGGCCG 1860
CGCAAAACAG AGTTAAAAGA CCATGATCAG TCACCGCGAA AGCTTCCGAG GACTCGCAAA 1920
TCAGAGTTAA AAGGGGATGG TCAGTTCGTT GATCAGTCAC CGCGTAAGCT TGGGAGGCCT 1980
CGCAAGACAG AGTTAAACGA GGATGATCAG TCACCACGTA AGCGTGGAAG ACCCTTCAAG 2040
GCCGACCAAC AAAAACATCT CATGACCGTG GCACATAATA GTAAAGGAAA GATGAGCCGT 2100
GAAAATGGTA AAAAAGTTTT AACTGTAACA GATAGTGCAA GTACAAATGA AGTTGATGAT 2160
ACATGCTCAG GGAGATCTTC TGGCAAAAAG TTAAAAGAGA AGAGATTTTC TCCTGTAAGG 2220
AAAAATAATC CACGAAAGGT TTTGAAAACT GAGAATGATG AGATGGTCTC GCCATTGGTA 2280
TCAACTACTG TGAAAGCAGC TGTTGCTAAA GAAGGGCCAA GGCGTAAAGA ACAGCAGTTG 2340
GTGAGGGATA AAATAAGGGA ATGTCTCTTT GCTGCGGGAT GGACAGTAGA CCATAGACCT 2400
AGAAACGGCA GAAATTATGT TGATTCAGTA TATGTTAGTC TGGATGGAAC TACACATTGG 2460
TCTGTAACCT TGGCGTACAA AAGGCTTAAA CAGCATTATG AAGCTGGGGA TGGTGAAGGT 2520
AAGTTGTACA AACCTGGATT TATATTTACA CCCATACTGC AGGAAGATTT CAATAGACTA 2580
ACCAGAGTAG TTACCAAGTC CAAAAAAGGA AGTAATGTTA AATGTGAGCC CTTTGAAGAA 2640
AAAGGTGGAA AGAAAGTTGG AGTCAAACGA AAAGAGAAAA AAATAAAACC TGATTCTGGT 2700
GCAGGCAAGG GTAAGTCAGT AAAGGGGAAA ATGAAAAGGA AACTTAAAAG GAAACGACCG 2760
CTTCCTGAGG AGGGCAACAC AAATGTTACA TCACCTAACA GGGATCGTAA GCGGCACAAA 2820
ACACAGAACA AGACGCGGAG CACTCTGTTG GTTCGTGATG CTACAGAGGA GGTAGATTCA 2880
GAAATTAATG GATATGTGCC ATACAGTGGA AAACGAACCA TACTTTCCTG GATGATTGAT 2940
TTGGGCACAA TCCTCCAAAA TGGGAAGGTC CATTATACAC AAGATAGGTT GGAAAATGCT 3000
TCACTGGAAG GTAAGATCAC AGGAGATGGC ATTCACTGTG GCTGCTGTAA TGAAATCGTA 3060
ACAATTTCAG ACTTTGGAGC TCATGCAGGA AGCAAACAAT CTGATCCTCT GAAAAATATA 3120
TATACGGAGG AAGAAACTTC ACTCCTACAA TGCCTGTTAG ATTCATGGAA TAAACAAGAT 3180
GAATCTGAAC TTAAAAGTTT TCATTTCTTT GATGTTGCGG GTGAAGATCC AAATGATGAT 3240
ACATGTGGTG TCTGCGGGGA TGGTGGAGAC CTGATCTGCT GTGATGGTTG CCCATCAACA 3300
TTCCATAAAA GCTGCTTAGA TATAAAAAAG TTCCCGTCTG GTGACTGGCA CTGTGCTTAC 3360
TGTTGTTGCA AATTTTGTCG GTTGGTTGGC GGAAGTTCAA ACCAAAGTGT TGTCAATGAT 3420
GAGTTTACTA TGCCTGCATT GCTCACATGC CATTTATGTG AGGAAAAATT TCACATATCC 3480
TGTGTTGAGG CAAATGGTGG CAAGACCGAT GATTCCAAGG ATGCATTATT TTGTGGAAAC 3540
AAATGTCAAG AGTTATCGGA GAGACTTGAA ATGCTTCTTG GGGTTAAACA TGAAATTGAA 3600
GATGGATTTT CTTGGTCTTT TATTCGCCGG TCAGATGTTG GCTGTGATCT TTCTCTGACA 3660
AATCCTCAGT TGGTAGAATG TAATTCTAAG CTGGCTGTTG CATTATCAAT AATGAATGAG 3720
TGCTTCATGC CATATATTGA TCATAGAAGT GGGACCAATC TGCTCCGCAG TATTCTATAT 3780
AATTGTGGGT CAAATTTCAA ACGACTGGAC TATAGTGGGT TTATTACTGT AATTCTAGAG 3840
AGAGGTGATG AGATCATCTG TGTTGCATCT ATCAGGGTCC ATGGGAACCG ACTTGCAGAG 3900
ATGCCATATA TTGGGACCCG CTATATGTAT AGGCGACAAG GAATGTGCCG TCGGCTTCTA 3960
AATGCCATTG AATCGGCACT CAGTTCTTTA GATGTTGAGT TATTGGTCAT ACCAGCAATA 4020
TCAGAACTCA GAGAAACCTG GACCTCCGTT TTTGGGTTTG AGCCACTTAA ACAAACAAGC 4080
AAGCAAATAA CAAATAACAT GAATCTGTTG GTGTTTCCTC ATGTAGATTT GTTACAGAAG 4140
AAGATATCAA AGCATGCAAT TGCTAATGAA AATTTGATTC ATAATGAAGT TTCCAATCAT 4200
CAGAAGAATC TTACTGCATA CAAGGTAGCA TGTCAGGATG GGGAAGACTC ATCTGGATCT 4260
GATTGTTGCC CGAAAATTGA AAAAAATATA TCTGTTGAAT CTGGTTGTCT GCAACTTGAG 4320
AACTCGTTGA ATAATGCACC TGACATTACT AGCAACAACA TACAGAATAT TGAATCTCAA 4380
AAAGATGTCA CATATCATGC TGCATGTCAG ATTGTTAATG AAAAATTGGT TGTGGACAAC 4440
AAGATTTCCG ACAGTTGTGA ACTGAGACTT ACGACTGACT GTGCTCAACC GGGCTGTATA 4500
GGATCAAAAG TATATGCTGA ATCTGACGAT GGTTGTGGCT CTCATTCTAG ACCAGATGGT 4560
GATAGTGCTT CTGGCGAAGC AGGTCTCACA AGCAACATCT TGAGGCACGT TGAATCACAG 4620
AATACTACCA AAGATGTGCC TGTTAATTGT GAAAACAACT CTAGTGTTGT TAGTGTGCTA 4680
AATGCTGACG AAGAACTACA TTATTCCAAA ACAATTGATC TCCAGACAAA AAAAAATCCT 4740
GGAGATCGCT CATCTATTCT AGTATCTTCA GGTATTTGTG ACAAAATTGC ACATGGTGTC 4800
AATGGAACGA ATAAAGCATC CAGGGAAGCT GATACTGATT TTCTTCCTGC TGATATTGAA 4860
CTAATTCTTG ATGATAAGCC TGGTTCTCAT TCTAGACCCA ATGGTCATAG TGCCCATGGC 4920
GAAGCAGGTG TTACAACCAA CGTTTTGATG CACCTTGAAT CCCAGAGTAT TACTAAAGAT 4980
TTTCCTGTTA ATTGTGAGAA CAATTCTAGT GTTGTTGGTG CTCCAAATGC TGATGAATCA 5040
GAACGATGTT ACTCCAAAAC AATTGATCTC CAGACAAACA AAAATCCTGG AGATCGTGAG 5100
AAAATTGCAG ATGTTGTAAA TGAGAGGAAT AAAGTGTCCA ATGCAGCTGA TGCTGATTTT 5160
CTTCCAATTG ATCTTGAATT AGTTCCCAAT AATAAGCCTG GGATAAAAGA GTCTTCAGAG 5220
CTATCAGAGG TTAATTTGCA GGTTGATCAA ACTGAATCGA GTAACGCTAA CACTGCTTCG 5280
GGTGCGGCTC TGCACTGTAC ATCTACCGGC AGTACTTCAT GTGGTAGTGC TGAAGGGATA 5340
GTTCTGTCAA ACCAGGCAGT TGAGTAGGTG ATATAGCAAT GCATTTTGGA TAGGGTCACA 5400
GGTATGCCCT TGGTTTTAAT TCAGGAGGGC CACCCCTTAC TTAATGCGAC ACGAGATTTG 5460
TCTTTGTAGC AAAGTATTTT GTAAAAAGTT GTTAGAATAG GGTGATCTTA CCTATAGATA 5520
AAGATTTCTG GAGGTTAGCT CCATTTTTTT AGAGGGTGGA GGAGCTAGGG GAGGAACAAC 5580
ACCATGACAT GAGGCTCATG TATTTTATTG CTCACGCGGT CATTGCCATT CAGACGTGAA 5640
GGAGTTGACC ATTGCTTTTG TTATAAATAT CGCTTATACT TTCGTTGTTT TAGGTGTTGC 5700
ATTGAATTTT TCATTATTAA CTTTTTTAGG TGGTAGAAAT TGACATGATC ATTGATGGTT 5760
GTGAATGGCT ATGAACTTTG TACCTTAATT GGCAATGACA AATGGAAAGT TGAAATTTGA 5820
GTTTAAAAT
Sequence Source Ensembl
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Prp-0102 EMJ01318 Prunus persica 62 7e-161 566
WERAM-Art-0101 AT4G14920.1 Arabidopsis thaliana 45 5e-143 507
WERAM-Thc-0054 EOY05682 Theobroma cacao 58 6e-139 493
WERAM-Viv-0024 VIT_05s0020g03420.t01 Vitis vinifera 56 2e-137 488
WERAM-Bro-0088 Bo5g005570.1 Brassica oleracea 45 2e-136 484
WERAM-Mua-0076 GSMUA_Achr4P21300_001 Musa acuminata 57 8e-136 483
WERAM-Glm-0011 GLYMA01G44885.1 Glycine max 57 1e-135 482
WERAM-Sol-0112 Solyc09g065340.2.1 Solanum lycopersicum 56 7e-135 479
WERAM-Orgl-0070 OGLUM07G04140.1 Oryza glumaepatula 40 4e-130 464
WERAM-Org-0072 ORGLA07G0040300.1 Oryza glaberrima 40 1e-129 462
WERAM-Orr-0074 ORUFI07G04440.1 Oryza rufipogon 39 1e-129 462
WERAM-Orl-0111 KN542919.1_FGP001 Oryza longistaminata 40 3e-129 461
WERAM-Orni-0071 ONIVA07G03330.1 Oryza nivara 40 3e-129 461
WERAM-Orm-0068 OMERI07G03260.1 Oryza meridionalis 37 7e-129 460
WERAM-Ori-0082 BGIOSGA025231-PA Oryza indica 42 5e-128 457
WERAM-Sob-0017 Sb02g004100.1 Sorghum bicolor 41 2e-121 435
WERAM-Lep-0071 LPERR07G04130.1 Leersia perrieri 46 2e-115 416
WERAM-Orp-0069 OPUNC07G04530.3 Oryza punctata 48 3e-115 414
WERAM-Orbr-0080 OB07G13580.1 Oryza brachyantha 46 6e-115 413
WERAM-Sei-0098 Si028686m Setaria italica 41 3e-114 411
WERAM-Tra-0234 Traes_5DL_9FA4818AF.2 Triticum aestivum 50 1e-112 406
WERAM-Pot-0115 POPTR_0010s09810.1 Populus trichocarpa 43 3e-108 391
WERAM-Tru-0097 TRIUR3_33650-P1 Triticum urartu 44 6e-108 390
WERAM-Brr-0108 Bra020653.1-P Brassica rapa 55 8e-108 390
WERAM-Aet-0042 EMT29012 Aegilops tauschii 44 1e-106 386
WERAM-Amt-0036 ERN16161 Amborella trichopoda 47 5e-101 367
WERAM-Zem-0135 GRMZM2G412492_P01 Zea mays 48 2e-95 348
WERAM-Brd-0130 BRADI5G27517.1 Brachypodium distachyon 40 4e-82 305
WERAM-Sem-0001 EFJ24916 Selaginella moellendorffii 41 9e-78 290
WERAM-Hov-0086 MLOC_65889.1 Hordeum vulgare 39 3e-77 288
WERAM-Orb-0048 OBART04G30730.1 Oryza barthii 39 5e-74 277
WERAM-Arl-0059 fgenesh2_kg.3__ 1623__ AT3G14980.1 Arabidopsis lyrata 38 1e-72 273
WERAM-Php-0118 PP1S59_348V6.1 Physcomitrella patens 36 2e-72 272
WERAM-Sot-0081 PGSC0003DMT400067527 Solanum tuberosum 37 4e-71 268
WERAM-Ors-0046 OS04T0691700-01 Oryza sativa 43 3e-66 251
Created Date 25-Jun-2016