WERAM Information

Tag Content
WERAM ID WERAM-Met-0033
Ensembl Protein ID KEH43887
Gene Name MTR_1g103830
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
MTR_1g103830 KEH43887 KEH43887
Status Unreviewed
Classification
Type Family E-value Score Start End
Me_Reader PHD 1.00e-09 39.9 710 812
Organism Medicago truncatula
Domain Profile
  Me_Reader PHD
   PHD.txt   2 tiClvCgkddegekemvqCdeCddwfHlkCvklplsslpegkswyCpsCk 51 
               ++C +C  d+ +   +++Cd+C+  fH++C++++   lp g +w+Cp+C+
  KEH43887 710 DTCGIC-GDGGD---LICCDGCPSTFHQSCLDIQ--MLPPG-EWRCPNCT 752
               58****.44444...9******************..*****.*******8 PP
   PHD.txt   4 ClvCg.....kddegeke...mvq....CdeCddwfHlkCvklp.....lsslpegkswyCpsCk 51 
               C +Cg     + d+   e    v+    Cd C++ +H +C+k        s+++e  s++ +sCk
  KEH43887 753 CKFCGlasatT-DK---EddaTVNalrtCDLCEKKYHDRCTKDMgallaNSNMSEH-SFCGKSCK 812
               88996544321.22...23444444445*************988665433344444.67666776 PP
Protein Sequence
(Fasta)		MEPGTRIGSP SGVVVKNRSS SGCLIVRKKG DGLGGGVGGG GSSSRKQFDS KKVRKKVKVE 60
VDSSDSESSG ELVMPSGRRL GPETIRVCNS LSALERGGGG NVGGGEISRK RERMEQIRRN 120
GDGMVEGNGL ERREKKVKLD VFDFDEYDGV GKERMRRQFD NDRVGLGGGR FMGTMHAARG 180
SVDREIETGS SRHIVDKRKK AYYNRAIGLH PGDGGEHSRI KMKRDGTQPP LPLLKEKFKP 240
DESIRVQGKN GVLKVMVNKK KVGGSVERYE QRKPVESKQS LRAEGTSKRS VPIHPSSHLE 300
TKSAEKQGLL VRPEKKQITT RKSLSSKEDS KGMEQDSDDN DTSMNLEVKN IKAHTPSKKI 360
TSENEQTPVH DKLPTTKSSE GKIRRGSGTE KQKLREQIRE MLLNKGWTID YRPRRNRDYL 420
DAVYINPGGT AYWSIIKAYD ALQKQLIEDE RAAKGESSSF APIADDVLSQ LTRKTRKKME 480
KDLKMKKKKQ RIDDIDSGKE RQIKRTSGKK HHMNSIDSDS NEDKLSSFIK QQGSKSMKAK 540
LTENAVTGGS SKSQNATTEK PFSENDPQNP HGRKSRKHGR CTLLVRNKGL NSESDDFVPY 600
TGKRTVLSWL VDSGVVQVSQ KVQYRRRKKV MLEGWITREG IHCGCCSKIL TVSKFELHAG 660
SKLPQPYQNI YLDSGVSLLQ CQIDAWEKQE NSGKISFHSV DVDGNDPNDD TCGICGDGGD 720
LICCDGCPST FHQSCLDIQM LPPGEWRCPN CTCKFCGLAS ATTDKEDDAT VNALRTCDLC 780
EKKYHDRCTK DMGALLANSN MSEHSFCGKS CKELFENLKK YLGTKHELDA GFTWCLVRRT 840
NDDSEAASRG VTQRVECNSK LAVALTVMDE CFLPVVDRRS GINLIHNSLY NSGSNFSRLN 900
YTGFYTAILE RGDEIISAAS IRFHGTNLAE MPFIGTRHIY RNQGMCRRLF SAIELALCSL 960
KVEKLVIPAI SELVHTWTTV FGFTHLEEPL RQEMRSLNML VFPGIDMLQK LLAEQGKHED 1020
AEQFENGDVG SIKPAVVNGL DINSPALQDP HGSEDASSNL ANKINNECSD ASQDISNQGL 1080
TGRTVCSKSH SEERISNFVS ENCASPSNSS HGVLKKKIKI SMSSPINDPS PKCQLISPND 1140
TSTNGLPSDH SDSHEIRALG QATACSDLAT TVKNMVEPAS EGKPHAFTDL NCDSPGLNQN 1200
PVSDSQVVDN ALSFKEFDMN DAHVEVLEAG PLVNSSQANN TEENNENVDV SGSVLNHAIT 1260
DMNCDSPGLD QNPVSDSRVA DNDMSLKKFD MNDAHVEVVE AGPLVNSFKG NNAKENDENV 1320
DVSGSVLNHA ITDMNCDSPG LDQNPVSDSQ VVDNDLSLKK FDMNDSLGLV LEAGPLGNSS 1380
QANNTKENNE NVDVSGSALN QDITDMNCDS PGLDQNPVSD SRVVDNALSC KEFDMNDTHV 1440
EVLESGPLAN LSEANNAKEN DENVDVSGSV LDHTESDMNN NSPGHDRNPV LDSQVTDNAL 1500
PFKEFDMNDV RDEVVEASPS VNSSEGNNTK ENNKNVDVSG SALNHASIDM NSNSPGLDQN 1560
PVVDSQLAES ASCKEFDMND THVEVLEAGP LVNFPEGNNA KENDENVDVS SSVLNHAGES 1620
SLQVRSDLNG ELAYEREKNS HLDTEVASNE MHFDETGVNP SGDSAETDQA LNG 1673
Nucleotide Sequence
(Fasta)		CATGCATGAA TCCTCGTGAG ACATGAGCAT CGTCACAAGT TGTAGAAACA GTTCCCTCCC 60
TCGGTTTTCC TGATTTCTCA ATCAAACCCA GTACGACCAA AACTGTAGAG ACAGCCACCA 120
ACTCCACTTT ACAACTCTTT AGATCTCGCC ACGTCATCAA TAACTCAAAA CATTACAACG 180
TGTCACCATC TCCACCGTCC ACAACACCAG TAATTCCTTT ATTCGGAGGG AAAATAAATA 240
AATTCTACCA CCGTATTTTC ATTTTCCATG GAAGAAACAA AAAACGAAAA AGAAACGCAT 300
AAATAGATAA TTAAATTAAA ATAAAATTAA TAAAAAAGAG AAAGTGCACC ATGGTTTTAT 360
AAAGCAAAAT TCTCAATCCC AATTTTCTTC TCTCTCTTCT CTCTCTAAAT TGCGTTTCTC 420
TTCTTCGATC AGTTTTGTTT TCTCCGGCGA ATTGATTCAC TCATCGGCGT TTATTTTTCC 480
GGTGAGGTAA GATTCTCGAT CGAAACGATT TGCTTTCCAT TTCTTCTCCG ATTAGTTTTT 540
GCTTCAGATC TGGGAAATTT CTGTTGACTT TGATTTAGGG CTTTATTTTT TTGCGTTGGA 600
TTAGGTTTTG GGATTTGTGC TCAATTGCGC TTAATTGTGG TTAATTACTG GTGATGAAAT 660
TTTTGCGGAA TTAGGTTTTG TTGCGGTGTT GGGTGGATGG AACCGGGAAC GAGAATTGGT 720
AGTCCTTCTG GAGTTGTGGT GAAGAATAGA AGCTCCTCTG GGTGTTTGAT TGTTAGGAAG 780
AAAGGAGATG GTTTGGGTGG CGGTGTTGGT GGTGGTGGTT CAAGTTCGCG GAAGCAGTTT 840
GATTCGAAGA AAGTAAGGAA AAAGGTGAAG GTGGAGGTTG ATTCGAGTGA TTCAGAATCG 900
AGTGGGGAGT TAGTGATGCC GTCTGGTAGG AGGCTTGGGC CGGAGACAAT CCGAGTTTGT 960
AATAGTTTGA GTGCTCTTGA GCGAGGTGGT GGTGGTAATG TTGGTGGCGG GGAGATTAGT 1020
AGGAAGAGGG AGAGGATGGA GCAGATTCGG CGCAATGGGG ATGGTATGGT TGAGGGGAAT 1080
GGGTTGGAGA GGAGGGAGAA GAAAGTTAAA TTGGATGTAT TTGATTTTGA TGAGTATGAT 1140
GGAGTGGGTA AGGAAAGGAT GAGGAGGCAG TTTGATAATG ACAGGGTTGG TTTAGGAGGG 1200
GGAAGGTTTA TGGGAACAAT GCACGCTGCT AGAGGTAGTG TTGATAGGGA AATTGAAACT 1260
GGTTCAAGCA GACACATTGT GGATAAGAGG AAAAAAGCGT ATTACAACAG GGCAATTGGC 1320
TTGCATCCCG GAGATGGCGG TGAACATAGT AGGATAAAGA TGAAAAGGGA TGGAACTCAA 1380
CCTCCTCTGC CCTTGTTGAA GGAGAAGTTT AAACCTGACG AGTCCATTAG GGTTCAGGGA 1440
AAAAATGGTG TTTTGAAGGT GATGGTTAAC AAGAAGAAGG TGGGTGGGTC AGTAGAACGC 1500
TATGAACAAC GTAAACCAGT AGAAAGCAAA CAAAGTTTAA GGGCTGAAGG CACTTCTAAG 1560
AGGAGTGTTC CGATCCATCC TTCATCACAC TTAGAAACAA AATCTGCTGA GAAACAGGGT 1620
TTACTTGTTA GGCCAGAGAA GAAACAGATA ACAACAAGAA AATCCTTGTC AAGTAAGGAG 1680
GACAGCAAGG GAATGGAGCA GGATTCAGAT GACAATGACA CATCAATGAA TCTGGAAGTA 1740
AAAAATATTA AAGCTCACAC ACCATCAAAA AAGATAACCT CTGAAAATGA ACAGACTCCT 1800
GTACATGACA AGCTCCCGAC TACAAAGTCA AGTGAAGGGA AAATCAGGCG AGGTAGTGGC 1860
ACAGAAAAGC AGAAACTACG AGAACAAATA CGGGAGATGC TTCTGAATAA AGGCTGGACC 1920
ATAGACTATC GCCCACGGAG GAATAGAGAC TATTTAGATG CAGTTTACAT TAATCCTGGG 1980
GGAACAGCTT ATTGGTCCAT CATCAAGGCC TATGATGCAC TTCAAAAGCA ATTGATTGAG 2040
GATGAGCGAG CGGCCAAAGG GGAGAGTTCT TCTTTTGCTC CTATTGCTGA TGATGTGCTC 2100
AGTCAATTAA CAAGGAAAAC TCGGAAGAAG ATGGAGAAAG ATTTGAAGAT GAAGAAGAAG 2160
AAGCAAAGGA TTGATGACAT TGATAGCGGA AAAGAACGGC AGATTAAAAG AACTTCTGGC 2220
AAAAAGCATC ACATGAATAG CATTGATAGT GATAGCAATG AAGACAAGTT AAGCTCCTTT 2280
ATCAAGCAAC AAGGAAGTAA ATCGATGAAA GCTAAATTGA CTGAAAATGC TGTTACCGGT 2340
GGTAGCTCTA AAAGCCAGAA TGCTACAACT GAGAAACCAT TCTCTGAAAA TGACCCTCAG 2400
AACCCACATG GAAGGAAAAG TAGAAAACAT GGAAGGTGCA CTTTATTAGT TCGTAACAAG 2460
GGATTGAATT CAGAATCCGA TGACTTTGTT CCATATACGG GCAAACGAAC AGTGCTTTCC 2520
TGGTTGGTTG ACTCAGGGGT AGTACAGGTA AGTCAGAAGG TTCAGTACCG CAGGAGGAAG 2580
AAAGTAATGC TGGAGGGATG GATCACCAGA GAAGGCATTC ACTGTGGCTG CTGTAGTAAG 2640
ATCCTCACAG TTTCAAAGTT CGAGCTTCAT GCAGGAAGCA AATTGCCTCA GCCATATCAG 2700
AACATATATT TAGATTCTGG AGTTTCTCTT CTACAGTGCC AGATAGATGC GTGGGAAAAA 2760
CAAGAGAATT CTGGGAAAAT CAGTTTCCAT TCAGTAGATG TTGATGGTAA CGATCCAAAT 2820
GATGATACCT GTGGTATATG TGGAGATGGA GGAGATTTGA TCTGCTGTGA TGGTTGTCCA 2880
TCAACATTTC ATCAGAGTTG CTTGGATATA CAGATGCTCC CTCCTGGGGA ATGGCGTTGT 2940
CCAAATTGCA CCTGTAAATT TTGTGGACTA GCCAGTGCAA CTACTGACAA AGAAGATGAT 3000
GCAACTGTAA ATGCTCTACG TACTTGTGAC TTGTGCGAGA AAAAATATCA TGACCGCTGC 3060
ACTAAGGACA TGGGTGCCCT TCTTGCCAAC TCCAATATGT CAGAGCATTC CTTTTGTGGA 3120
AAAAGCTGCA AAGAGCTCTT TGAGAACTTG AAGAAGTACC TTGGTACCAA GCATGAACTT 3180
GATGCAGGCT TTACATGGTG TCTTGTTCGT AGAACAAACG ATGATTCGGA AGCAGCTAGT 3240
AGGGGAGTCA CCCAGAGGGT GGAGTGCAAC TCCAAGCTGG CTGTTGCACT GACCGTGATG 3300
GACGAATGCT TTTTACCTGT TGTTGATAGG AGGAGTGGGA TCAATTTAAT CCATAATAGT 3360
TTATATAATA GCGGGTCAAA CTTCAGTCGG TTGAATTATA CTGGCTTTTA TACCGCTATT 3420
TTGGAGCGGG GTGATGAAAT AATTTCTGCA GCATCTATCA GGTTCCATGG GACTAATTTA 3480
GCAGAGATGC CATTCATTGG AACTCGCCAC ATATATAGGA ATCAGGGAAT GTGCCGCCGG 3540
CTTTTTTCTG CCATTGAACT CGCTCTTTGC TCATTGAAGG TTGAGAAGCT GGTAATTCCT 3600
GCAATTTCTG AACTTGTTCA TACATGGACA ACAGTTTTTG GTTTCACACA TCTTGAGGAA 3660
CCACTTAGGC AAGAAATGAG GTCATTGAAT ATGTTGGTGT TCCCTGGCAT TGATATGTTA 3720
CAGAAGCTTC TAGCAGAGCA AGGAAAACAT GAGGATGCTG AGCAATTTGA GAATGGAGAC 3780
GTGGGTTCTA TTAAGCCTGC TGTGGTCAAT GGATTAGATA TCAATTCACC CGCTTTGCAA 3840
GATCCTCATG GAAGTGAGGA TGCTAGTTCC AATCTCGCCA ATAAGATTAA CAATGAATGT 3900
AGTGATGCTT CTCAAGATAT AAGCAATCAA GGTTTAACTG GCAGAACTGT GTGCTCCAAA 3960
TCTCATTCTG AGGAAAGAAT ATCTAATTTT GTTTCAGAAA ACTGTGCTTC TCCTTCTAAT 4020
TCTAGTCATG GGGTACTCAA AAAGAAAATT AAAATATCGA TGTCTTCTCC CATCAATGAT 4080
CCATCACCCA AATGTCAACT CATTTCGCCA AATGATACTT CTACAAATGG TCTTCCATCG 4140
GATCACTCAG ATAGTCATGA AATCCGAGCT TTGGGTCAAG CAACTGCATG TTCTGACCTA 4200
GCTACTACTG TAAAGAACAT GGTTGAACCT GCTTCTGAGG GGAAACCCCA TGCTTTCACT 4260
GATTTGAATT GTGATTCACC AGGTCTTAAC CAAAATCCTG TGTCGGATTC TCAAGTAGTG 4320
GATAATGCTT TGTCTTTTAA AGAGTTTGAT ATGAATGATG CCCATGTTGA GGTTCTCGAA 4380
GCTGGTCCTT TAGTGAATTC ATCTCAGGCG AACAATACCG AAGAGAATAA TGAAAATGTA 4440
GATGTCTCTG GTTCTGTTCT GAATCATGCT ATCACTGATA TGAATTGTGA TTCACCAGGG 4500
CTAGACCAAA ATCCTGTGTC GGATTCCCGA GTGGCGGATA ATGATATGTC TTTAAAAAAG 4560
TTTGATATGA ATGATGCCCA TGTTGAGGTT GTTGAAGCTG GTCCTTTAGT GAATTCGTTC 4620
AAAGGGAACA ATGCCAAAGA GAATGATGAA AATGTAGATG TATCTGGTTC TGTTCTTAAT 4680
CATGCTATCA CTGATATGAA TTGTGATTCA CCAGGGCTTG ACCAAAATCC TGTGTCGGAC 4740
TCTCAAGTGG TGGATAATGA TTTGTCTTTA AAAAAGTTTG ATATGAATGA TTCCCTTGGT 4800
TTGGTTCTTG AAGCTGGTCC TTTAGGGAAT TCATCTCAGG CGAACAATAC CAAAGAGAAT 4860
AATGAAAATG TAGATGTCTC TGGTTCAGCT CTTAATCAAG ATATCACTGA TATGAATTGT 4920
GATTCCCCAG GACTTGACCA AAATCCTGTG TCGGATTCTC GAGTGGTGGA TAATGCTTTG 4980
TCTTGTAAAG AATTTGATAT GAATGATACC CATGTCGAGG TTCTTGAATC TGGTCCTTTA 5040
GCGAATTTGT CCGAGGCGAA CAATGCCAAA GAGAATGATG AAAATGTAGA TGTCTCTGGT 5100
TCAGTTCTTG ATCACACTGA AAGTGATATG AATAATAATT CACCAGGGCA TGACCGAAAT 5160
CCTGTGCTTG ATTCTCAAGT GACGGATAAT GCTTTGCCTT TTAAAGAGTT TGATATGAAT 5220
GATGTCCGTG ATGAGGTTGT TGAAGCCAGT CCTTCAGTGA ATTCATCTGA GGGGAACAAT 5280
ACCAAAGAGA ATAATAAAAA TGTAGATGTC TCTGGTTCAG CTCTTAATCA TGCTTCCATT 5340
GATATGAACA GTAATTCACC AGGTCTTGAC CAAAATCCTG TGGTGGATTC TCAACTGGCG 5400
GAAAGTGCGT CTTGTAAAGA GTTTGATATG AATGATACCC ATGTCGAGGT TCTTGAAGCT 5460
GGTCCTTTAG TGAATTTTCC TGAGGGGAAC AATGCCAAAG AGAATGATGA AAATGTAGAT 5520
GTCTCTAGTT CTGTTCTTAA TCATGCTGGT GAGAGTTCCT TGCAGGTAAG ATCTGATTTG 5580
AATGGTGAAC TTGCATATGA AAGGGAAAAG AATTCACATT TGGACACAGA AGTTGCTTCA 5640
AATGAAATGC ATTTTGATGA AACTGGCGTA AATCCTTCTG GTGATAGTGC TGAGACTGAC 5700
CAAGCATTGA ATGGTTGAGT TTAACATCAT TGATGTCTTC AGTTCTACGG CTCATGCAAC 5760
TTTTACAATT TTTCACTTAA AGATTCAATG CCTTATATGC AACCATTTTT CAAGGCTTTG 5820
GAACTTATAT GTCATGCTTT AATCTAGATA GTCTGAAAAG GTTATATAAA TTTCAAGGGA 5880
AATAGTAGCG GGTCCCTTGC GTTGTTGTTT AAGTATGAAT TTCTTAAGGT TCTAAGTTGA 5940
CTTCATTCCA TATGAATGTT TCTTCTGCCA AAATGTTTCT AGGTTGCTTT TGGTTCAAGT 6000
TGTGTCCATA TGGGTCCATC GGGTGAAGCT GTTTTCCTGT AATGTGCACC CATCCTTCAT 6060
AGTTTCATAC CCAAGCAGAT CCTTTGAGTG TACTATATAT ATGATATATG ATATATGCTT 6120
CTCGTTGTTT GTATCTGAAA ATCTGTGGAG TGAATTTGGC TTCCTTTTCA AGCCCTGTTT 6180
GCAATTGACT ATTTTACGAC AGTAATTCAT TACATATAAT CAGCAGGCAG ATACTTGTTT 6240
TATATGATAT TTTTGGTTAC TTTCCTAGTT TTGAGTCATA TATGGTACCA AGAAACTATG 6300
TTTCTCCAAT TCTGATCCTC CACATTGTTA TCCGCTTCTG CTCAAGCTCT CCAATTGGTC 6360
GTGATGTTCC CTTTTCCAGG GTCGCCAATG CATCCTCCAA CATTCAAAGG TTTGTCTTGT 6420
TAAAATTGAA TGTGTTTGAA TAGTATTTTT TGTGTACATC ATAAACCAAA TTTGTGGTGC 6480
ATGCACTATT ACCGTGCTTG TAAGAAGTAA AGACCTTTCT TTGTGGAGGG TTTATTTGGG 6540
TGTTGAGCTT TTGCTTTTGT TTCTTCAACT TTTTTGTAAT GAAGGTAATA TGTTTGATAT 6600
TAAAACGGCA ATTGCTGTCA TCTTGAATGA ATTCTTGTAC TTTTGTCATC ATGGTAATAA 6660
CTATAGGTGC GTGCTTATTT TCGGAGTGTT TGGGTATCAC GCGTCTCACT TGTTTTTGTT 6720
TTTGACGGTG AGTCCATAGA TAGAAGTGGT ATAATGGATG TTCGTTTTCT GACCCTGG 6779
Sequence Source Ensembl
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Glm-0120 GLYMA11G00755.1 Glycine max 65 0.0 1436
WERAM-Prp-0110 EMJ25684 Prunus persica 58 0.0 1112
WERAM-Thc-0054 EOY05682 Theobroma cacao 53 0.0 1044
WERAM-Viv-0024 VIT_05s0020g03420.t01 Vitis vinifera 56 0.0 979
WERAM-Pot-0115 POPTR_0010s09810.1 Populus trichocarpa 55 0.0 842
WERAM-Art-0101 AT4G14920.1 Arabidopsis thaliana 52 0.0 795
WERAM-Sol-0114 Solyc09g076010.2.1 Solanum lycopersicum 50 0.0 795
WERAM-Bro-0088 Bo5g005570.1 Brassica oleracea 47 0.0 683
WERAM-Mua-0076 GSMUA_Achr4P21300_001 Musa acuminata 47 4e-173 607
WERAM-Ori-0082 BGIOSGA025231-PA Oryza indica 44 2e-144 511
WERAM-Sei-0098 Si028686m Setaria italica 43 1e-142 505
WERAM-Orp-0069 OPUNC07G04530.3 Oryza punctata 44 3e-142 504
WERAM-Tru-0097 TRIUR3_33650-P1 Triticum urartu 44 6e-141 500
WERAM-Tra-0100 Traes_2DS_F7E8E6B22.1 Triticum aestivum 43 1e-139 496
WERAM-Aet-0042 EMT29012 Aegilops tauschii 43 3e-139 494
WERAM-Sob-0017 Sb02g004100.1 Sorghum bicolor 42 9e-139 493
WERAM-Brr-0108 Bra020653.1-P Brassica rapa 64 4e-138 490
WERAM-Orgl-0070 OGLUM07G04140.1 Oryza glumaepatula 50 4e-130 464
WERAM-Org-0072 ORGLA07G0040300.1 Oryza glaberrima 49 3e-129 461
WERAM-Orni-0071 ONIVA07G03330.1 Oryza nivara 50 4e-129 460
WERAM-Orl-0111 KN542919.1_FGP001 Oryza longistaminata 49 4e-129 460
WERAM-Orm-0068 OMERI07G03260.1 Oryza meridionalis 49 5e-129 460
WERAM-Orr-0074 ORUFI07G04440.1 Oryza rufipogon 49 1e-128 459
WERAM-Orbr-0080 OB07G13580.1 Oryza brachyantha 54 4e-127 454
WERAM-Lep-0071 LPERR07G04130.1 Leersia perrieri 46 1e-120 432
WERAM-Zem-0135 GRMZM2G412492_P01 Zea mays 42 6e-118 424
WERAM-Amt-0036 ERN16161 Amborella trichopoda 50 3e-110 398
WERAM-Hov-0086 MLOC_65889.1 Hordeum vulgare 43 9e-93 340
WERAM-Brd-0130 BRADI5G27517.1 Brachypodium distachyon 44 3e-92 338
WERAM-Orb-0048 OBART04G30730.1 Oryza barthii 45 2e-91 335
WERAM-Php-0118 PP1S59_348V6.1 Physcomitrella patens 36 2e-86 319
WERAM-Sot-0081 PGSC0003DMT400067527 Solanum tuberosum 40 4e-86 318
WERAM-Sem-0001 EFJ24916 Selaginella moellendorffii 45 2e-85 315
WERAM-Arl-0059 fgenesh2_kg.3__ 1623__ AT3G14980.1 Arabidopsis lyrata 39 3e-82 305
WERAM-Ors-0046 OS04T0691700-01 Oryza sativa 47 1e-72 273
Created Date 25-Jun-2016