mRNA_A-nodosum_M_contig1124.20.1 (mRNA) Ascophyllum nodosum dioecious

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview
NamemRNA_A-nodosum_M_contig1124.20.1
Unique NamemRNA_A-nodosum_M_contig1124.20.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: D8LIK4_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LIK4_ECTSI)

HSP 1 Score: 902 bits (2330), Expect = 0.000e+0
Identity = 450/533 (84.43%), Postives = 485/533 (90.99%), Query Frame = 1 
Query:  310 MVNETVSAMLKENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAESKGYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVESARNKAADEAWAQLSA 1908
            M ++ + AMLKENVAKMNQVEGFDVVIVCTNNDPQA+YWQQRLEAAKGSSVAKDATVLAVYEDW GGAGNALGTLYAY+KAT LAESKGYDLAGKM+AGEISVGLYHTAGKGTRLAPMPGSENNNKPGVK+AVT DINGKPSPLTILESV+KQTGVYGKSRKGRLSVFWGDQVFIPSVGVEY STHHADILC LGPMM+E EW  KGL+NYGLIAVNSEGNAAQVEKVSHAVATRLLSSLG I +VGASLGSFSMSSLL  AL+EEF PEL+ K GKLDSDPHLWMPFTLE SAYVEIMGGKGT  E +LAHY RMR CLDKFMA+ E+KS+GVFGAVNVG+ A WWDYGQL+LYRTNN LLT +  ES LLREFLG S R+SNSD+A +AEVD+VSMVSAS +GGG VK+S L NVRC +IEAE CILVNVTAKRIVAP+GSIIYN++DTSPTGVGV EGGV+VGV  EDGSQQPVWSNTD LDGGKVWK K AGNPMTFESIY SNHTTDVFAVESAR+KA+DEAWA+LS+
Sbjct:    1 MSSDGIKAMLKENVAKMNQVEGFDVVIVCTNNDPQATYWQQRLEAAKGSSVAKDATVLAVYEDWAGGAGNALGTLYAYQKATALAESKGYDLAGKMKAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKLAVTADINGKPSPLTILESVVKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYESTHHADILCTLGPMMNETEWKEKGLDNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGEIVNVGASLGSFSMSSLLVDALIEEFKPELTSKVGKLDSDPHLWMPFTLEESAYVEIMGGKGTSAEEALAHYTRMRGCLDKFMAKSESKSMGVFGAVNVGDEACWWDYGQLRLYRTNNSLLTGVCEESALLREFLGCSSRVSNSDIAADAEVDDVSMVSASTLGGGSVKNSALTNVRCGYIEAEDCILVNVTAKRIVAPRGSIIYNIVDTSPTGVGVGEGGVMVGVHAEDGSQQPVWSNTDTLDGGKVWKKKCAGNPMTFESIYNSNHTTDVFAVESARSKASDEAWAKLSS 533
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A7S3XRS2_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XRS2_HETAK)

HSP 1 Score: 536 bits (1380), Expect = 2.380e-175
Identity = 282/529 (53.31%), Postives = 363/529 (68.62%), Query Frame = 1 
Query:  346 NVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAES-KGYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDIN--GKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNY-GLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMARE----EAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVESARNKAADEAWAQLSA 1908
            NV  MN++EGFD+VI+CT N+ QASYWQ+RLE  KG  + K   VL+V EDW GGAGNALGTLYA++ A +L++    +DL   +R   ISVGL+HTAG+GTRLAP+PGSENNNKPGVK+  TVD+    +  P+TILE+V+KQ GVY +SRKGRLSVFWGDQVFIPS  V+Y  THH DILC LGPM+   EW+A+G+  Y GLIAV+   NAAQVEKV + +A  +L  LG  + +G SLGSFS+S  +   L+ EFS EL+ + G+L+SD H WMP  L   AY+ +M  KG P   + AH+ RM+A +D+F   +        LG+ GAV+VG+ A WWDYGQL+LY  NN L+T  + E+D LR FLGV  R+  + + +  EVD  S+V A  +G G V+ SVLA+VRC H+EAE CIL+NVTAK I AP GS+IYNVID S  G+ +AEGGVL GV  ED +Q  V S T  +DGGK W   V GN  +FE I + N  +DV  +E  R +    AW +++A
Sbjct:   25 NVDSMNKLEGFDIVIICTGNEKQASYWQERLENGKGVVIGKHTKVLSVSEDWTGGAGNALGTLYAFQNACSLSKQLHEFDLLQGLREESISVGLFHTAGRGTRLAPLPGSENNNKPGVKLGTTVDLGDGSQHPPMTILEAVVKQAGVYARSRKGRLSVFWGDQVFIPSAAVDYEPTHHIDILCRLGPMLSRDEWVARGMEKYYGLIAVDKNNNAAQVEKVPYDLAREMLRELGDPQRIGTSLGSFSVSHHMLDTLVNEFSDELATRRGQLNSDQHWWMPLGLPRPAYITLMAQKGVPEPEARAHHARMKAMVDRFWKVQGPSARGAGLGLLGAVDVGQGAYWWDYGQLRLYFLNNMLMTQDTVEADCLRRFLGVRSRVRRAQLRD-VEVDAGSVVQACALGRGSVRSSVLAHVRCDHVEAEYCILINVTAKSIKAPPGSLIYNVIDESQEGIDLAEGGVLAGVMREDDTQLLVRSMTH-IDGGKSWHESVEGNLYSFEEIQEMNAESDVKQIEQRRARRRTRAWRRVNA 551
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A835YJK1_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YJK1_9STRA)

HSP 1 Score: 531 bits (1367), Expect = 1.360e-173
Identity = 289/535 (54.02%), Postives = 356/535 (66.54%), Query Frame = 1 
Query:  346 NVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAESK--GYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDING-----------KPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEE---AEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVESARNKAADEAWAQL 1902
            NV +M  +EGFDV+IVCT ++ QASYWQ RLEA +GS +   + VLAV EDW GGAGNALGTL+A++ A  LA ++  G+DL  ++ +G IS GL+HTAGKGTRLAP+PGSE+NNKPGVK+   V   G               LTILE+VIKQT +Y +SR+GRLSVFWGDQVFI SV  +YT T HADILC LGPM D   W A+GL+ YGLIAV + G AAQVEKV HA A RLL+SLG +  VGASLGSFS+S+ L  ALL EF+ EL  + GKLD+DPHLWMP TL  +AYVE+M  KG     + AH+ RM    ++ M  +   + G+FGAV+VG  A WWDYGQL LY  N  LL +  PE+ LLR F                  A VD  S+VSA  +G G V+ S LA VRC+ +EAEGCILVNVTA+++ A  G+++YNV+D S  G+ VA GGVLVGV    G Q  V S+ D +DGGK WK  V GN  +FE IY++N T DV AVE  R  AA   W  +
Sbjct:   16 NVDRMCSLEGFDVIIVCTGSEHQASYWQARLEAGQGSIIPHGSKVLAVTEDWPGGAGNALGTLFAWQNAAALARARYPGFDLDAELNSGRISAGLFHTAGKGTRLAPLPGSESNNKPGVKLPAAVRRGGGSXXXXXADGESAVALTILEAVIKQTSIYARSRRGRLSVFWGDQVFIASVSADYTPTCHADILCTLGPMPDAETWRARGLDKYGLIAVTASG-AAQVEKVDHATAVRLLASLGAVSQVGASLGSFSVSAALLAALLSEFAGELRARAGKLDTDPHLWMPLTLPCAAYVELMAQKGVAEGDAAAHHARMAGVRERLMQADGGGACGLFGAVDVGAAAYWWDYGQLPLYVKNCLLLCAQGPEAALLRRFAXXXXXXXXXXXXXXXXXASVDAASVVSACALGAGSVRGSALAFVRCARVEAEGCILVNVTARKVTAGPGAVVYNVVDDSEEGLSVAAGGVLVGVGDAQGGQTLVRSSKD-VDGGKAWKEAVLGNSRSFEQIYEANMTADVAAVERLRTAAAHVLWRSI 548
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A7S2SWP6_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SWP6_9STRA)

HSP 1 Score: 516 bits (1329), Expect = 5.440e-168
Identity = 286/531 (53.86%), Postives = 357/531 (67.23%), Query Frame = 1 
Query:  310 MVNETVSAMLKENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAES-KGYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISP--ESDLLREFLGVSH-----RI-SNSDVAEEAEVDEVSMVSASVIG-GGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGG-VLVGVFGEDGSQQ---PVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVE 1860
            +V    + M  EN A M+   GFDVVIVCT+ +  A YWQQRLEA +GS + +D  VLAV+EDW GGAGNALGTLYA+KKA   A      D+AG++ +GE+S  +YHTAGKGTRLAP+PGSENNNKPGVK+  +++ +   + ++ILE+VIKQTGVY  SRKGRLSVFWGDQVF+P+  V YT  HHADILC LGPM    EW A+GL  YGLIAVN +G AAQVEKV HA ATRLLSSLG +ESVG SLGSFS+SS L   L+EEF  E+  K+GKLD+DP LWMP TL   AYVE+MG KG     + AH+ RM     K +A  EA  + + GAV+VG+ A WWDYGQL+LY  NN  LT+     ES ++R F G+       R+ ++S + +   +   S +S SVI   G+++ SVLA V+  H+E +G ILVNVTAK++V   G ++YNV  TS  G+ V E G V+  V   DG Q     + S TD LDGGK WK  V GN  TFE IY+ N   DV A+E
Sbjct:    5 LVRTMATNMYAENAALMDGAHGFDVVIVCTSTEKLAEYWQQRLEAGRGSILKQDTVVLAVFEDWPGGAGNALGTLYAWKKAVKAASDILEMDIAGRLASGEVSCAIYHTAGKGTRLAPLPGSENNNKPGVKLPASLEPSDCSTAISILEAVIKQTGVYASSRKGRLSVFWGDQVFVPTAAVTYTPLHHADILCTLGPMPSAEEWAAQGLEKYGLIAVNGDGEAAQVEKVDHATATRLLSSLGAVESVGTSLGSFSVSSQLLQCLMEEFQAEIDAKQGKLDTDPGLWMPMTLSCEAYVELMGQKGMDAAEATAHHGRMNTMKAK-LAGGEASDVKLMGAVDVGKAAYWWDYGQLRLYLANNLKLTNPDEDHESGIMRSFFGIPSAPGMPRVDASSTIGDAVALTGGSCLSHSVIRQSGDIQGSVLAGVKAEHVECQGAILVNVTAKKVVVAPGCVLYNVRSTSAEGIVVEEPGQVITNVLMADGDQVREITMRSRTD-LDGGKKWKEVVEGNEYTFEQIYQMNGDADVKALE 533
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: W7TWX4_9STRA (Uncharacterized protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TWX4_9STRA)

HSP 1 Score: 515 bits (1327), Expect = 7.950e-168
Identity = 272/514 (52.92%), Postives = 352/514 (68.48%), Query Frame = 1 
Query:  337 LKENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEG-GAGNALGTLYAYKKATTLAES--KGYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVE-YTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSH-RISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVES 1863
            L  NVA M+ +EGFD VIVC + + QA YWQ RL   +G  +     VLAV+EDW G GAGN  GTLYAY+ A T A+S   GYDL   M A ++SVGLYHTAGKGTRLAP+PG+ENNNKPGVK+  T+ + G+  P+TILE+V+KQTGVY   RKGRLSVFWGDQVF+P+V V  YT THHADILC LGPM    EW AKGL+ YGLIAVN++G AAQ+EKV HA A  LL+  G +  VG SLGSFS+S+ L  A L+EF  EL++K  KLD+DP +WM  TL   +Y++++  K TP   S  H+ RM A + +F A  E    G+FGAV++G+ A WWDYGQLKLY  NN  +T    ES L R FLGV   R +++ +AE  +VD  S++SA+ + GG +K SVL NV    +EAEG +LVNVTA+++VA +G+++YNV+D S  G+ +    VLVGVF   G QQ + S+ +K DGG  WK ++     +FE++Y +N   DV  VE+
Sbjct:    8 LAANVAAMSGLEGFDAVIVCCSGEKQAEYWQSRLMTVRGQVLPATCKVLAVFEDWAGDGAGNGFGTLYAYQNAMTKAKSLYNGYDLHADMLAKKVSVGLYHTAGKGTRLAPLPGAENNNKPGVKLPATLSVGGEQVPMTILEAVLKQTGVYAPMRKGRLSVFWGDQVFVPTVPVAAYTPTHHADILCSLGPMPSAEEWEAKGLDKYGLIAVNADGEAAQIEKVKHATARALLADFGEVTRVGVSLGSFSLSAYLLVAFLDEFQKELTEKTAKLDTDPGMWMALTLSKDSYIQLLEAKKTPAAESGPHFDRMHAMVARFRATTEGAG-GLFGAVDIGQGAYWWDYGQLKLYFANNISVTHTDEESRLYRAFLGVPESRRTHAKIAEVVDVDPWSVISAARVDGGTIKQSVLTNVSAVSVEAEGAVLVNVTARKVVAGRGAVLYNVVDESEEGLVLGPKEVLVGVFDAHGKQQLMTSSFEK-DGGVWWKKEIRDGQPSFEAVYLANRDVDVALVEA 519
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A0P1AAU9_PLAHL (Protein n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1AAU9_PLAHL)

HSP 1 Score: 506 bits (1303), Expect = 2.070e-164
Identity = 266/508 (52.36%), Postives = 345/508 (67.91%), Query Frame = 1 
Query:  340 KENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAESK-GYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVE 1860
            + N+ ++N+++G+D++IVCT+   QA YWQ RL A +GS   K A V+AVYEDW+GGAGN LGTLYAY KA   A+   G D+   +  G ISV LYHTAGKGTRLAP+PGSENNNK GVK+   V++ GK  P+TILE+V+KQTGVY  SR+GRLSVFWGDQVFIPS  V+Y + HH DIL  L PM  E EW  KGL  YGLIAVN + +AAQV+KV+H  A RLL+S G ++SVG SLGSFS+ S +  ALL EFS EL+ K GKLDSDPH WMP TLE++AY E+M  KGT    + AHY RM+  +  F  +   K LG+FG V+VG +  WWDYGQLKLY  NN L+T +  E+D LR FLG+ +   +S + E A +D   +++   IG G++K SVL+ V    + AEG IL+NVTA  I+AP   ++YNV      G+ + EG V+VGV   DG +  + S+ D + GGK WK  +  N  +FE+IY+ N   +V  +E
Sbjct:    8 QRNIDEINRLDGYDIIIVCTSTPHQAQYWQDRLMATRGSISPKYAKVIAVYEDWDGGAGNGLGTLYAYNKALAAAKKLYGIDVPTLLADGRISVALYHTAGKGTRLAPLPGSENNNKSGVKLPAMVEVTGKHVPMTILEAVVKQTGVYASSRRGRLSVFWGDQVFIPSAEVKYNANHHIDILAALAPMPTEKEWKEKGLEKYGLIAVNQQDSAAQVDKVTHETAIRLLASFGEVKSVGTSLGSFSVDSDMLQALLTEFSKELAAKSGKLDSDPHFWMPLTLELNAYTEVMTQKGTEIPEATAHYQRMQKMMATFK-KNRTKELGLFGCVDVGSDVYWWDYGQLKLYLKNNRLVTQLGLEADCLRLFLGIGNNTEHSQIGENAIIDGAFVLNCE-IGHGDIKHSVLSGVCAKEVHAEGSILINVTAHSIMAPN-CVVYNVTSDEVDGLCLEEGSVVVGVLLPDGKRIVMRSSMD-VCGGKAWKTVLQENQHSFEAIYELNADANVQKLE 511
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A7S3ZR67_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S3ZR67_9STRA)

HSP 1 Score: 504 bits (1297), Expect = 2.250e-163
Identity = 280/521 (53.74%), Postives = 348/521 (66.79%), Query Frame = 1 
Query:  349 VAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAESKG-YDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVT--VDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTH-HADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVESARNKAADEAWAQ 1899
            +A M +VEGFDV+I+C     QA++WQ RLE  +G  V KDATVL V+EDW GGAGN LGTLYA+ KA  LAE KG   LA K+ +G IS  LYHTAGKGTRLAP+PG+ENNNKPGVK+  T  + ++G   PLTILESV+K TG+Y  SRKGRLSVFWGDQVF+P+   +Y S   HADILC L PM   AEW AKGL  YGL+AV   G A QVEKV HA A  +  +LG+I+ VG SLGSFS+++ L  ALL EF+ EL+ K+G+LDSDPH WMP TL + AYV++MG KGT  + + AHY R++  L+ F    + K   + G V+VG +A WWDYGQLKLY  N C L     E+D +REFLGV+ R       E   +D  S  S+  I  G  K SVLANV    I+AEG +LVNVTAK+IVA +G+I YNV+D S   V +  G V+  VFGE+GS+    S  D  DGGK WK  + GN  TFE +YK N +T+V    S + +AA  A A+
Sbjct:   21 LAAMLKVEGFDVIIICCGTSHQAAFWQARLERGRGVIVPKDATVLCVHEDWPGGAGNGLGTLYAWTKAAKLAEDKGDSQLASKLASGSISAALYHTAGKGTRLAPLPGAENNNKPGVKLPATAPLGVDGAVVPLTILESVVKSTGIYASSRKGRLSVFWGDQVFVPTKSYDYDSKRAHADILCMLAPMPSAAEWAAKGLEKYGLVAVAKNGAACQVEKVDHATALAMTKTLGSIKQVGTSLGSFSLTASLLSALLNEFANELASKKGQLDSDPHWWMPMTLPLDAYVQLMGRKGTSEKEASAHYARIQKLLNNF----DKKGAHLLGPVDVGGDAYWWDYGQLKLYLRNACRLVEDGKEADSMREFLGVT-RGDKGACGESFGIDAYSTASSCRIVAGVSKRSVLANVAAKEIDAEGAVLVNVTAKKIVAGEGAIAYNVVDDSDELV-LKPGEVITDVFGENGSKLRQRSTLDN-DGGKKWKEIICGNKKTFEGVYKDNLSTNVIKA-SEKGEAAHAALAR 533
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A2D4BIU5_PYTIN (Uncharacterized protein n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4BIU5_PYTIN)

HSP 1 Score: 497 bits (1280), Expect = 4.650e-161
Identity = 264/508 (51.97%), Postives = 345/508 (67.91%), Query Frame = 1 
Query:  340 KENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLA-ESKGYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVE 1860
            + N+A++N+++G++V+IVCT+   QA+YWQ+RL A +GS   +DA V+AV+EDW+GGAGN LGTLYAY KA     E  G DL  ++  GEISV LYHTAGKGTRLAP+PGSENNNK GVK+   V +N    P+TILE+VIKQTGVY  SR+GRLSVFWGDQVFIPS  V+Y   HH DIL  L PM    EW  KGL  YGLIAVN +  AAQV+KVS+  A R+L+SLG ++SVG SLGSFS+ + +  ALL EFS ELS ++GK DSDPH WMP TLE  AYVE+M  KG     S  HY RM   + +F A   ++SLG+FG V+VG +  WWDYGQLKLY  NNCL+T    E+D LR FLG+S+ + +S++  E E+D  ++++   I  G +K SVL+ V    + A+G IL+N T  RI AP+  ++YNV      G+ + EG VLVGV    G +  + S+ + + GG+ WK  +  N  +FESIY+ N   +V  +E
Sbjct:    7 QRNIAEINRLDGYNVIIVCTSTPQQAAYWQERLMATRGSISPRDARVIAVHEDWDGGAGNGLGTLYAYTKAVAAGRELYGIDLPAQLARGEISVALYHTAGKGTRLAPLPGSENNNKSGVKLPAMVKVNELFVPMTILEAVIKQTGVYASSRRGRLSVFWGDQVFIPSAAVQYEPXHHIDILAALAPMPTXQEWTDKGLEKYGLIAVNQQDXAAQVDKVSYXTARRMLASLGELQSVGTSLGSFSVDADMLAALLSEFSKELSARQGKYDSDPHFWMPLTLEKEAYVEVMASKGVDKAVSATHYERMAQMMTRFXATR-SRSLGLFGCVDVGSDVYWWDYGQLKLYLKNNCLVTQPGVEADCLRLFLGISNSLEHSEIGAETEIDAATVLNCQ-IASGSIKRSVLSGVCAREVHADGSILINRT--RINAPR-CVLYNVTSEESEGLTLEEGTVLVGVLLPSGEKVVMRSHLE-VCGGQAWKTILEQNEHSFESIYELNAHANVAELE 508
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A067BZQ1_SAPPC (Uncharacterized protein n=3 Tax=Saprolegniaceae TaxID=4764 RepID=A0A067BZQ1_SAPPC)

HSP 1 Score: 487 bits (1253), Expect = 7.650e-157
Identity = 263/517 (50.87%), Postives = 338/517 (65.38%), Query Frame = 1 
Query:  325 VSAMLKENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSSVAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAESKG-----YDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVE 1860
            +S+  + N+  MN + G+DVV+VC +   QA+YWQ+RL A +G+    D  V+ V+EDW GGAGN LGTLYAY+KA  +AE K      +DL  +++AG IS+ LYHTAGKGTRLAP+PGSENNNKPGVK+   + I+    P+TILE+VIKQTGVY  SR+GRLSVFWGDQVFIPS  V YT  HH DIL  L PM    EW  KGL  YGLIAVN++  AAQV+KVSHA A RLL+  G ++SVG SLGSFS+   +   LL+EF+ ELS+KEGKLD+DPH WMPFTL ++AYVE+M  KGT    S  HY RM++ L +F      K LG+FG ++VG  A WWDYGQLKLY  NNCL+T  + E+  LR FLG+   +  SDV      D V+++  S +  G +  SVL+ V    ++ E  IL+NVTA  I A K  ++YNV      G+ + +G VLVGV   +G +  V S+   + GG  WK  +  N  +FE IY  N   DV  +E
Sbjct:    1 MSSTTEANIGLMNSLLGYDVVVVCCSTPFQAAYWQKRLTATRGTISPLDMKVITVHEDWVGGAGNGLGTLYAYQKA--VAEGKALYGPAFDLTEELKAGRISIALYHTAGKGTRLAPLPGSENNNKPGVKLPAMLKIDDTYVPMTILEAVIKQTGVYAASRRGRLSVFWGDQVFIPSAAVHYTPVHHIDILATLAPMPSAQEWHDKGLEKYGLIAVNADNQAAQVDKVSHATALRLLADFGHLKSVGTSLGSFSVDHDMLVGLLDEFAQELSQKEGKLDTDPHFWMPFTLPLTAYVEVMAQKGTSAAFSRRHYERMQSMLQRFYTSRREK-LGLFGCIDVGSAAYWWDYGQLKLYLKNNCLVTESTTEASCLRSFLGIQDPLQWSDVGSSVSTDHVAVL-GSKVSTGRIVRSVLSGVATGAVDVEDSILINVTAHSIKA-KRCVLYNVTSEDVNGLELEDGTVLVGVLLPNGDRLVVESHLS-ICGGDAWKTTLDKNVHSFEQIYVLNEEADVAEIE 511
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BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Match: A0A7S0KBA9_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus aporus TaxID=1398097 RepID=A0A7S0KBA9_9STRA)

HSP 1 Score: 478 bits (1230), Expect = 1.740e-153
Identity = 261/518 (50.39%), Postives = 336/518 (64.86%), Query Frame = 1 
Query:  376 FDVVIVCTNNDPQASYWQQRLEAA-----KGSSVAKDATVLAVYEDW-EGGAGNALGTLYAYKKATTLAESK-GYDLAGKMRAGEISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESVIKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDEAE-WMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASLGSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMGGKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYGQLKLYRTNNCLLTSISPESDLLREFLGV-SHRISNSDVAEEAEVDEVSMVSASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVIDTSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMTFESIYKSNHTTDVFAVESARNKAADEAWAQL 1902
            +DV I+CT +D QA YW +RL +      +G+       VL V EDW +GGAGN LGTLYAY+KA  LA+ + G D+A  +  GEIS  LYHTAGKGTRLAP+P SENNNKP VK+ +   +NG  +P+T+LE+VI+QTGVY +SRKGRLSV+WGDQVFIPS   +Y+ +HH DILC LG      E W  +GL+ YG+IAV   G +AQVEKV HA A  +LSSLG I+ VG SLGSFS+SS +  AL EE+  EL+ K GKLD+DPH WMP TL  + Y ++M  KG   E  + H+ RM      F+       +G+FGAV+VG+NA WWDYGQ+KLY TNN  L      SDLLR+FLGV + + S+S++  EA +   S +++  I  G + DSVL  V C  + A G I+VN TAK+I APKGSIIYNVID S  G+ V EG V V V   DGS   + SN   +DG + WK  + GN  +FE ++  N   DV  ++  R  A DE  ++L
Sbjct:   20 YDVTIICTTDDYQAEYWMERLGSGICAKDEGAVSGSFPIVLGVSEDWAKGGAGNGLGTLYAYQKACRLAQERYGVDIASFLGKGEISAALYHTAGKGTRLAPLPASENNNKPAVKLPICHMVNGVSAPMTVLEAVIRQTGVYAQSRKGRLSVYWGDQVFIPSAPFKYSPSHHVDILCALGESAPTPEEWKERGLDKYGVIAVMPSGESAQVEKVDHATAVSMLSSLGEIKRVGPSLGSFSISSAILEALCEEYKEELNAKVGKLDTDPHFWMPLTLPEAEYAKLMSDKGEDKEKCIEHHKRMSKMKTSFLDSNSG-DMGMFGAVDVGDNACWWDYGQVKLYSTNNLKLIDTDKNSDLLRKFLGVKTKQSSDSNIGVEATICPKSSIASCNIKSGSIIDSVLCCVSCPDVTATGAIIVNCTAKKIYAPKGSIIYNVIDDSDEGIVVGEGDVRVSVMSADGSSMILNSNMS-VDGKEAWKKVLDGNTDSFEGVHAKNFNADVATIDRKRKFAYDETSSKL 535
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1124.20.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LIK4_ECTSI0.000e+084.43Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A7S3XRS2_HETAK2.380e-17553.31Hypothetical protein (Fragment) n=1 Tax=Heterosigm... [more]
A0A835YJK1_9STRA1.360e-17354.02Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A7S2SWP6_9STRA5.440e-16853.86Hypothetical protein n=1 Tax=Rhizochromulina marin... [more]
W7TWX4_9STRA7.950e-16852.92Uncharacterized protein n=2 Tax=Monodopsidaceae Ta... [more]
A0A0P1AAU9_PLAHL2.070e-16452.36Protein n=1 Tax=Plasmopara halstedii TaxID=4781 Re... [more]
A0A7S3ZR67_9STRA2.250e-16353.74Hypothetical protein n=1 Tax=Pelagomonas calceolat... [more]
A0A2D4BIU5_PYTIN4.650e-16151.97Uncharacterized protein n=1 Tax=Pythium insidiosum... [more]
A0A067BZQ1_SAPPC7.650e-15750.87Uncharacterized protein n=3 Tax=Saprolegniaceae Ta... [more]
A0A7S0KBA9_9STRA1.740e-15350.39Hypothetical protein n=1 Tax=Leptocylindrus aporus... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig1124contigA-nodosum_M_contig1124:170094..195744 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LIK4
Model size3427
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons13
Evalue0.0
EggNOG OGs28Q43@1|root,2QWSX@2759|Eukaryota
Ec32 ortholog descriptionconserved unknown protein
Ec32 orthologEc-18_003290.1
Cds size1602
Relationships

The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig1124.20.1prot_A-nodosum_M_contig1124.20.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig1124 181513..194228 +


The following UTR feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680866524.0301747-UTR-A-nodosum_M_contig1124:170093..1701621680866524.0301747-UTR-A-nodosum_M_contig1124:170093..170162Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1124 170094..170162 +
1680866524.0413997-UTR-A-nodosum_M_contig1124:180549..1807431680866524.0413997-UTR-A-nodosum_M_contig1124:180549..180743Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1124 180550..180743 +
1680866524.0513108-UTR-A-nodosum_M_contig1124:181466..1815121680866524.0513108-UTR-A-nodosum_M_contig1124:181466..181512Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1124 181467..181512 +
1680866524.2776222-UTR-A-nodosum_M_contig1124:194228..1957441680866524.2776222-UTR-A-nodosum_M_contig1124:194228..195744Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1124 194229..195744 +


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680866524.1640515-CDS-A-nodosum_M_contig1124:181512..1816521680866524.1640515-CDS-A-nodosum_M_contig1124:181512..181652Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 181513..181652 +
1680866524.1762378-CDS-A-nodosum_M_contig1124:185496..1856561680866524.1762378-CDS-A-nodosum_M_contig1124:185496..185656Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 185497..185656 +
1680866524.1851737-CDS-A-nodosum_M_contig1124:186139..1863551680866524.1851737-CDS-A-nodosum_M_contig1124:186139..186355Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 186140..186355 +
1680866524.1949234-CDS-A-nodosum_M_contig1124:186789..1869451680866524.1949234-CDS-A-nodosum_M_contig1124:186789..186945Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 186790..186945 +
1680866524.204385-CDS-A-nodosum_M_contig1124:187390..1875011680866524.204385-CDS-A-nodosum_M_contig1124:187390..187501Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 187391..187501 +
1680866524.2161756-CDS-A-nodosum_M_contig1124:188149..1882271680866524.2161756-CDS-A-nodosum_M_contig1124:188149..188227Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 188150..188227 +
1680866524.2243073-CDS-A-nodosum_M_contig1124:189049..1891491680866524.2243073-CDS-A-nodosum_M_contig1124:189049..189149Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 189050..189149 +
1680866524.2345276-CDS-A-nodosum_M_contig1124:190290..1904211680866524.2345276-CDS-A-nodosum_M_contig1124:190290..190421Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 190291..190421 +
1680866524.2446704-CDS-A-nodosum_M_contig1124:191191..1914211680866524.2446704-CDS-A-nodosum_M_contig1124:191191..191421Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 191192..191421 +
1680866524.259404-CDS-A-nodosum_M_contig1124:193672..1937721680866524.259404-CDS-A-nodosum_M_contig1124:193672..193772Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 193673..193772 +
1680866524.2690916-CDS-A-nodosum_M_contig1124:194048..1942281680866524.2690916-CDS-A-nodosum_M_contig1124:194048..194228Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1124 194049..194228 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig1124.20.1

>prot_A-nodosum_M_contig1124.20.1 ID=prot_A-nodosum_M_contig1124.20.1|Name=mRNA_A-nodosum_M_contig1124.20.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=534bp
MVNETVSAMLKENVAKMNQVEGFDVVIVCTNNDPQASYWQQRLEAAKGSS
VAKDATVLAVYEDWEGGAGNALGTLYAYKKATTLAESKGYDLAGKMRAGE
ISVGLYHTAGKGTRLAPMPGSENNNKPGVKIAVTVDINGKPSPLTILESV
IKQTGVYGKSRKGRLSVFWGDQVFIPSVGVEYTSTHHADILCGLGPMMDE
AEWMAKGLNNYGLIAVNSEGNAAQVEKVSHAVATRLLSSLGTIESVGASL
GSFSMSSLLTYALLEEFSPELSKKEGKLDSDPHLWMPFTLEMSAYVEIMG
GKGTPPEASLAHYMRMRACLDKFMAREEAKSLGVFGAVNVGENALWWDYG
QLKLYRTNNCLLTSISPESDLLREFLGVSHRISNSDVAEEAEVDEVSMVS
ASVIGGGEVKDSVLANVRCSHIEAEGCILVNVTAKRIVAPKGSIIYNVID
TSPTGVGVAEGGVLVGVFGEDGSQQPVWSNTDKLDGGKVWKMKVAGNPMT
FESIYKSNHTTDVFAVESARNKAADEAWAQLSA*
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mRNA from alignment at A-nodosum_M_contig1124:170094..195744+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1124.20.1 ID=mRNA_A-nodosum_M_contig1124.20.1|Name=mRNA_A-nodosum_M_contig1124.20.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=25651bp|location=Sequence derived from alignment at A-nodosum_M_contig1124:170094..195744+ (Ascophyllum nodosum dioecious)
CGTACATCACTCCTTACTCGCAGCTGATTCCCAGACGTTCCGTCAAACTC
GGATAGGATACTCTCAAAGGTGAGTGCATGTGTGACAATCTAGGCTTATT
TGAAGGAAGACGAGCTCCTTGCGATACTGCTGCAACCGCATGCAAAGCCG
GGCGATCCTGGAACTCGCGGTCTCCCTCTTCTAGCCGCTCTTCGATGCAG
TCCCTGCAGTCATTCTGTTTCAGCGCAGCACCTCTCTGTTCCTAGTCGCC
TCGGAAACTGGTGGTGAACCTTGAGGCCTTCCCTGGCATCCGCCAGACCC
GAAACGCCAGGTAGTGCCGCTAGCCATGCGTCGCTTAATTGTTGTCGTTT
CGCGAGGTTGGACACAGCAGGAAGACGAAACGCACCCTGCGAAGAATTTA
CAGCTGCTACGATATAGAAAAACCTATGCGGAAAGTTCTCCCATCTGTCG
TACTTTGCATACATACCTGTATAATTCACCGGTGCTTCTTACTACGAAGC
TCTATTTTAGTTTCTCAGGTTTGTTCTATCTCGTCTAGCGAGACTGGATT
GTGCAGGAGCTACGCCTGCCCCCGACACAGCTCCCTCGGGAAGGCTCCAC
GGTGCGATGTCTTGCACATTGGAACGACGCCTTGACGTGGCCTTCAAGGC
ACTGTCGCCCACATATACCTCATTCATTGCGACCGAGAACACTCGAAAAT
TCCATAGATCGCTGCCGACCGTTACAGGAAGAACAAACCTTTTGACTAAT
TGGAAGGTTTAGATGCGTTCAGATTTCCAGGTACAAGATAGACTACAAGT
ACTAGAAATAGTGTTGGAAGAACTCTGTATCTGTTTTTAGTGTGCTCAAC
GCTTTTGGGGGGGGGGCGGTATAAAATCTGTCGGAAGGTCCACAATCTGA
ATAACTGAGGCTTCGTCGCGCATAATAAGCGCACGCGGAGCACGCACTCT
GTGCGGCAATTATGAAAGATGCCTTTCCTTGGACTGCTCTAGCAGGCGAC
CGCTCCGACGAACTGATGTTGTAGTGGTTTCCCGAACGGTTCGCACACAT
TCCACAAAATCAACGGCTCTGGCCACACACACGTTTTGTTGTGTTTTATG
TGGCTCTCACATGATCATTTGTTCCAAGAGCCCAACCTGTCGAAGTGCGA
ACAACGATGTTCTAGGTTACTCTCAGAAAGTGAGACACAGACAGTTACTC
TGTACTTTTGTCTGTATCGCGCGTGCCCACTGTAACCAATACTTGGAGTG
GGTGTGGGAAAAAAAGGGGTGCACACAAATTAGTCCATGGGGTTGGTTCC
CTGAATACTGTAGGTAGCACCCGTTACTTCGAGCCACCTAGAGGGCGACC
GTCTTTGTGCCGGCGGACTCTCGCCGGTAAACGCCATTTGCACGCAATAG
CGTGACCTGGTAAACTCGGGGCTGGTCCGATGGCGGTTGGTAGAGGAACG
TCGTCGCGGAAAGCGGGCCCCCGTGAGTAAGTGCCACATTTAACTGGGGT
GTGGAGAATGAGCGAACTGACGCGGGACGGGACGGCCGAAGCCGTTTCGC
GAGACCAAATTATCTGGTGCGGACGAGGACAGGAAAAAAATATTTTGCCT
GTTCAGCTAACTACAAACAGGATTATTGGTAACCATACCGGTTGATGCAG
AGGTGTGCTGAACGTGATGGCCATGCATTATCTAATAATAGTTACAAAAA
CAATACAGCCTAGACTATGTTCCCACCTAAACGTTTTGACAGTTGTCCCC
GTAAGGTTCAGACATGCGTTCAGATTTTTCTTTAACATCACGAATCACTC
ACTATGAGTACATCATTTTGATTCGATCTAGATTCGTTTCCTGTTCCGTG
TGCTGTATGTACTGTACGTCTGTGAGTCCGAAGGCAGAACTGGGCCCATC
TCTGCTGTCGTTTGGGGATACAGGTATTTGTACAAGAAGACCATATAGCC
ACGAATTTGAGGTTGACAACTGACGCAGTGTAGTGTCCAATCAGCTTTTC
TAATCACACACACATACCGCGATGTCACGAGTGCGTGCATACACCACAGT
ACACAGTACCATTGATCCCCCCTTGGTATTAAGAGGACCAGTCCAAGTAT
TAGCATGTAAACTGACTAAATAGGATGGAAAGGCCGGATGACGTGGTTAT
GTGTAATTAAATAAATTCAGACGCATAATATTATTGTATGTATGGTCACA
CATATAAAGGTATGGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGT
CAGCTGAACAGGGAGAATGAATATTTCCCTGTCCCCGTTCGCGCCTGAGA
ATTTGGTCTCGCGAGACGGGTTCACCCGTCCCATCCCGCGTCAGCCTGCT
CATTCTCCATACTCAGGCGGAATCTGGTGCTTACTTACGGGATTTCTCCC
GAGTTCCGCGGCGACGTTAGAATGACTAAATTATTATTGCAGGGCAGGGT
CGAATTCCCCAAATATGTAGGGTGACTCGTGTACTGAGTCGAGCTAGAAG
GTAATGTAGGGGGTATTTTTACCGGCTGACGAACTGCCGCCCTCTTGAGG
AGGACGGAGGAATGGCGTGCCTCTCACCTTTAAGAAAATCTTTGGCCGGA
GTCCCATTTTTTAATATTATTAGGGTTGACTCCGAGGGTGGAAGGTGACA
AGGTGGCGGGAATTTCTTACCCCTGGTCTTCTGGGGATTAAAAAAAAAAG
AAGAAAAAAAGAGCCGAATTGTGCGGTTTAGAGTATTTCAATCGATCCCC
TGATTCCCCCATTGGGGGGGAGCAAATACGAATAGCTTACCTCAAGACAA
GGGTACTAATAGACTGATTATTAATAGCACGGATTGGGCGGTTATGTCCA
ACTGACCAAATACCCACACATGCACACCGTGTCACGCACGTCTGATGAGA
GTTCAGAGGTTTCCGTGCCAAGAACAATAATTATTCTTCCCCTACTAACT
GTAGTTGGGGAGACCAAATATTATGTATGCATACTGGTACACGAGTATCA
GTTACTTATTAATAAAGGTACTTTCAACATGCCCACTTCATACCAATAGT
GGGTGTGGGAAAGAGAGGTGCATATTAATTGGTAGACCGGTCGACCCCGG
TAGCTCAGTTGGCACCTCGTAACCTTCTGACACGTTGGGACGTGAGTTCG
ATTCCGGCAAACGGGATTTTTCTCACAAAAAACTAAAAAACCAAAATAAA
AATGCCCAACGGGTGGAGAACGATTAATTCGTTAGTACACAAAATTCGAC
TTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGACAAAAA
TCAAGGCACGCACCGCAGAAGGAAGGTGGATGAAAAATCCTGTGTGACCT
TCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAA
TGGATGGGAAGAAAACACACACACACATATTAATTGGTCCATGGCGACCT
GCCAAGGCAGCACCCGTTTGGAACTACCTTGAAGTTTACTGTCCCTGTGC
CGGCGGACTCTCGGCAGATGAACCGCCATAGGTACGCAATTGCGTGGCCC
GATAAACTCGAGACTAACCCGACGGCGTATGGCGGTTTAAATAAATAAAT
GGACGCCGCGGCGGAACTCGGAAGGAATCCCGTAAATAAGCACCAGATTC
AGCCTGAGTATGGAGATGAGCACGCTGGCGCGGGACGTGACTGCCGAACC
CGTCTCGCGAGACCGAATTCTCAGGCGCGAACGGGGACAGGGAAATATTC
ATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCGGTT
GATCCATACTCTTTCTATATGTTGTTGTTATTGTTGTTGATTCACACATT
CAGCGTTTTGTATTTGCAACTGAAGAAACTACGGTGGCACAAGTCAGCCA
TAGACCTCTCAAATGCCAATCCCGCTGTTGTTGATTGTTGTTGTTGATTT
ACACATTCAGCGCGTTGTCCTTGCAACTGAAGAAACTACGGTGACACAAC
AGGTCAGCCATAGACCTATCAAATGCCAATCCCACTTGTGGTCACAACGA
GGTACGAAGGTCAACGGGTCACATCATGGTGATAACCCGCTACTCAGAAC
AACAGGGATTAATGCGACTCTACAAGCAATGGCACCGACCAATGTCAAAA
CGGTTCACTAAAACTCCTTACTCGAGAGCAACCTCGATCAACTCGGATTG
TTGTCGCCTACCCACGACCAGCGTTCTCAGCAAAAAAGCAAACAAATAAC
GCTCCAATCAGTTTTGATCAACAAGTCCATGTTTCTCAAGGCTACACATC
GTACAGAAATAAGGAAAATCGAAATACCGAGGTCCATGGTGATAAAGGCT
TTGAGCTGGTGAAGCCGGCGCGCGACCCAGCATCCGGCCGCGTCCAAAAG
CCCTGTGCACCCCTGAAAAAGCCCCACGAATCTTGCTCGTTCGCCGCTTC
TTGTAGGCCCTCGTAGGAAGAAAAAAGACCGTGGTCAGACATCAGCTTTT
CCCTCAGAAACCTCCCGATTCACGCCTTTGATCCTTTGATTCTCGCTATC
GCACAGGGGAGGGGTTCAGCACTACTACCCCCCTGGCTCGTGGACGATCG
AGCTGCCCTCCGCCTTCGTCTGTGACCATAACATGATCATTATGACGACA
GGGCCGGATTGCGCTACCACTGCTATTGTATATATATATATATACCTTAT
TTCTCTTAACCTTTCTTATAAAATGTATTTTCCGCTTTTAATATTATTAT
ATTATTGTGGCATACACCTTGCTCATGGGCCTCGGGCCTATTAAAACTTT
GAGGTCTTTCACATCGTATGGCTGGTATCATAGACTTCCTTCGCCGCAAT
ACCTGTAACCATACTAAAATTAGTATTGTTACGTTCCTTACCTTTATCGT
TTTTTCGACAATATTACTGTAGTCCTAAACTCTTGGTCAAAATATAAAAT
ATGCTGTATATCTAGACTCATGGTGTTACCGGTTTTTGTTTTGGTGTCCC
TGAATAGTGATTAATGTGAGTGTACAGTGTAACGGTGGGCTTCTCCCCAG
TATTATAATGGCAACCAATACACTGAATGTGAGAAACAACTGTTGACCCT
ACTGTGCGACTAACACTGGGGAACCCTTTTAATACCATGAAGAGTTAGTT
TGTCCCTACAGCCGATGTTCCCACCTAAACCTTTTGACAATTTTTCCGCC
GAGGATGGATGCTCAGAAGGTTTAGATGCATTCAGATTTTTCTTTAAATA
TGTGCAAAATGATGGATAGGCACAGAGCAAATATGTGTGCGTGTGTGTGT
ATTTATTAAATTGCACATAACCGCGCAATCCGGCCTTGTCATCCTAGTCA
TTCTATGCCACTCGCATTGATCCTCCCAAGGGGGGATCAATGTGTGTGTG
TGTGAGTGTGTGTGTGTATTTATTAAATTGCACATAACCGCGCAATCCGG
CCCTGTCATCCTAGTCATTCTATGCCACTCGCATTGATCCTCCCAAGGGG
GGATCAATGATACTTGTTACGAAAACCTCTGAATGTGTGTGTGTGTTTAT
GTAAATTGAATTGCACATGACCGCGCAATCCGTGCTATACTGTACTAAAC
TATGCTATACTATTCATACAGTTCTTGCATTGGTCCTCCCAACTGGGGAT
CAACTATACTTGTTACGGAGGTGTGTGTGTGTGTGTGTGTGTGTATTTAT
TAAATTGCACAATGTGTGTCTGTGTGTGGCCATCACTTGGGCAGATTAGG
AAACAAGCTATGGTTAAAGTATCTTCGAATAATAAGGGCCGGAATGAAAA
TCTGAACGCATGTAAACCTTCCTTATTCTGAGCATCCCCCAGTCAAGGGG
GGGGGGACATAGGCTGCAAAGACAAAAACTCTTGATGACATTTAATCGGC
TTCCCCAATGGTAGTTACATAGGGTCGACAGTATAATGTCGGGGACAAAT
CCACCGTTACACTGTCTGTACATATATTTTCAACATGCCCACTTCATACC
AATAATGGGTGTGGGAAAAGAGAGGCGCACATTAATTGGTCCATGGTGGC
CTGCAAAATGGCAGCACCCGTTACTGGAACTATCTTGAGGACTACTGGCC
CTGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAATTGCTTG
ACACGAATAACTCGGGACTGACCCGATGGCGTATGACGGTTGAAATAAAT
AAGTGGACGCCGCGCGGAAATCGGGGGGAATCCCGTGAGTAACCACCAGA
TTCAGCCTGAGTATGGAAAATGAGCAGGCTGACGCGGGACGGGGCGGCTG
AACCCGTATCGCGAGACCAAATTCTCAGGCGCGTACGGGGACAGGGGAAT
ATTTATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCC
GGTTGATACAAACTCTGCTATATGTGATGACCATTCATACGTAAATACAC
TTATTCATACATTAATCGTCATAGTCATACAGGGACACCAAAACAGAGGC
AAAAATACACGATAGACCTGGATACAAATCATTTTTGTTACATTGGGTCT
GGGATCGGATGGGTGTCAACACTATTATATTACCATATTATTAGCCATGA
AACAAATTATTACTAAAGTTATTACTAGAGTTATTACTAGAGTTATTACT
AGAGATTGACAAGGCAGGAGGGCAAGATTTTGCATCCTGATAAATATTTT
ACGAGAATCTAACCGAGTGGTCTATTAATAGCAGGTAACCTGCACGCGTG
CTAGTGCGGAAGTCATGAGTTCGATTCTTACCAAAGTAGGATTTGTGTTC
TTTCTTTCGTAACGGAAAGCGTGGGAACGGGAGTAAGTAAAATTCAACCA
TTGGTTGACGAGTTGTATTAAGAGTGCTAAACTTGCATCGCGATAAAAAA
TTCGTAAGGCGTGAACCGGGGAGAGATGGGAAGATCCTTAGTGACCACAG
GCAGGATGGTAATGATGAGGTCCATCGGCTATAAGTGAGATTAAAGCAAC
AAAAAAAAGAGGCTAAGGAAAAGAGAAGTAATTTATCTAGTAGTGCAATT
TTTGGTGCAGCAAATAATACGTAGTTATAATAGCAATATAATGCAGGTAC
CTTAGCTCTATAGATTGTGTTCAGAGCTTTGTTTCTAGAGCTATTTAGTA
CTTGTAGCACAGAACAGTGCCGGTTCACTATTAAGTATTAATAGTATAGT
GTATAGTATATAGTAAAAGGTACCAGGGACACCGCCCCGCGGGAGATGGG
AGACTTCGCTCGATTTTTTCAGCAGTTACTACAGTGTTGTTGTTTTTGTT
GTTACTATAACATACTATTAATAACCTGTGGCACGAACTGTACCAGATAG
TTCGGTGTACAGACAGTACACACCCGGTGAAACAAGATAACTGATTTGAT
ATTTGATATTTAGATTGGAGAAATCGTTACGTCGCCTCCTTGACGCGCAA
GTTTCGTCTTGGTCGGTACCGAGAACGTCCACAATGCGAATCAAGTCAAG
TGAAGGAAGGGTACGGCAGTACTACCCTGACTGGGGGATGCTCAGAAGGT
CTAGGTGCATTCAGATTTTTCTTTATACACGGTACGGCATAGAGGAGGAT
GTTTTCCGCCATGGTCGTAACGAATGCGACTCTCACGCATGGTCATTTCC
CCTCTCGACAGGGCTAGCAGGGATCTCGGTGCCCCAGGCGCCGAACACCG
TTACATGTATTGTGTGATGGACTACAGTATGTACGTGGTCCCCATTAGTT
TTCGCCTCGAGTTTCCCTTGTATTAAATAGTAAGTACTCTTATCTATGTA
TGTGTATTTATGGTCACACATATAGCAAGATTATGGATCATCAACCGGGT
AAGGTTACCAATCCTGCTCGCGGTCAGCTGAACAGGGGAAATGATTTAAT
CCTGTTTTAGATTATCAATACCTACTCAAAATGTAGACTATGTACTGTAC
TGTACTGTACTGTACTTTGTTGCTCGTATTATGCTGTTGTGCTGTCTTTG
GTGTTCGAAAACGGGGTGTAGAGAGCTTCGTTCTAAAAATAATGAAAAAA
TTGACAAAATATTTAGGTGGGAACATTGGCTGCAGGGACAAAAACTCTTC
ATGATATCAAAAGGGTTCCCAATGTAGTCACAGAGGGTCAACAGTATAAT
ATCGGGCAGAAGCAGCCCTTACATTAATCGCCATGCAGGGACACACCAGA
ACTACAATCAAGGAACACAGTGAGTCTAGGTGTACAATATGTTTGGACTA
GAGTTCCGGACTACTGTTGTCGTTCGTCCTTTCTGTCGGTCGGTACAGTA
CAGTACATTACAGTCGAGTAGAGTAGTGAAAGCAGGCGACAAAACTGCGG
GCGTCCAGTGGCACGAGCCCCGTTTATGCTATTGTTTATTGAGCGCGAAA
GTATGCCCTCTCTAACGTACCTATTATAGTTTTTTGTACGAGATATACAT
CAACATGTTACATACCCTTGCTCTATGTGATGACTAGTCTATACTGTATA
TGGTATGTTGTGAGACCACGCACGGACTACTGTACCGAACGTTACAGCCG
TTACTGGTGATGTACGTTGCCCTCGAGGTTTGTTAGGATGTGCCACAAAA
CAGCTTTCTTAAATCCTTCGTTGATATATGGTAGCACCTCTTAATACTTG
TACCCCATAGGGCTATTAATAATTGCGGCACCTGGTACTCGATAGCAAAA
TCCACACCGAAATCCTCTCCAGATGTCAGATTTACTCCTCCATGTGTCTT
GTTTTTATTTTCTTTCATCTCACTTATAGCCGATGGAGCCCCAACGTTGC
CATCGTGCCTGTGGACACTAAGAATCTTCGCATCTCTCCCCGGTTCACGC
CTTTGCGATGCGATATCAGCTCTCTTACAACTCGTCAACCAATGGTTGAA
TTTTCCGTTACAGACGCCAGAATAAAAATCCCGCTTTGACGAGAGTCGAA
CTCACGACTTGTGTACTATCAGGTGTGCAGGTTATCTACTATATAGACCA
ATCGGGCGACAAGGATCTACACCATAATTTCGCATCATGAAGATACTGCC
TCGTGTTCGGTGCCAAATCACACATCATCGAAGAAAAATACCTTCAATCG
AAAAGGATTCAATATCCCTTGTGCTCTTGTCTCCACAAACTACATGGCGA
TTGATTTTAGGGCTAGGTAAATCTCACGTGAAAGCTCTACTGTCTCAAGT
CAAAGGAAAGCTTTGACGGTGTTGGGGGTGGGGAGGCGAGGACAGAGTGT
TTTTTGGCGGCGCTTTAAAACAAAGCACTTGAAGGTATATCTCCTCATTT
CGAAAGTATAAATTTGGGTGGGATTTTTCCCCACCAAAAAAATAAAAAAA
TAAAAAAATAAAAAATGCCTATTAAGTGGAGAACGATTGATTCGTTAGTA
CACAAAAGTCGAATTCACGGTCGATGAGGGAAAGGAACGGCTGAATCCTT
CTCGCGAGAAAAATTCAGGCACGCACCGCAGAAGGAAGGTGTAGAAATTC
TGTGGGGGTTTCCTCCTGTGTAACCTCGGCTGGTACGTCCACAAACCTGG
CGTCCAGAATAAATGGGATGACAACACAAACACACAACACACAGCATACC
GGAAAGTTTTTCGACACTGTACTGTAGTACCTTTTGAGAAGTAACGGCGT
ACAACGTACGGCGTACAGTATTCAAAAGCGGAGAGATGGAAACTCTTTGT
TAACCCGAAAAAAACACAAAAAATGAAAAAAAAAGCAAAAAAAAAGCAAA
AAAAGAGAGGGGATTTTGGTCCCCCCGGGTATGGCTTACCGAAGCGGGTA
AAGTGCACCGCACCTCGTCTGTTGCGTCTCTTGATGAGGGTACACGGACC
GTGATTGTATTTACTCGCTCACGCGTTGCGTTGTGATGACTCGCTTATAC
GCTTGAACTGCGGTAACCCCTTGGCCGTAATCGTGCCCGACGACGGCGGA
AGGTACCTATTATAGAGTAGTAATTACTAAACACGCATCCTTTGTTTCGC
CAATGATTTGCACCCTAACCCCAAAGCCCTCACGTTTATGCCTCTATTCG
ATTGATGCTTGTATTATGTAGTGTATTCTCGCTTTGTTGTGTACCCACAC
AGCGCGGTAAGTGTAAGTGTACAGCACGATGACGGTAGGTCTCTCCCCGA
CAGTATACTGTTGGCGAACAGTGAGGAACTCAAGTACATTAAAAATGCCG
TTTGTGGAGTTTTTGTTCGAATCAGGCATGTTCCCCATCTAATGTAAACG
TTTCGATATATTCGCGGAAGGTTTGCTCTAGATACGTTGAGATGTTTGTT
GTGAAATGTGCGACAAGACAGCATTGCTGTCGTTTTTCGTACTCGAGGGA
GGTGTTCCATCCTTCGCCATCCGCTTGAATGCACTCTCCTGTAGTACTAA
TCTTCTACAGTATACCTGCTAAATCAACAGTTGCATCGGTCGCCACGGTG
GTTCAGGTGGTAACCTCGAAACGTTCTGACGTTGAGACGTGAGTTCGAAT
CTCGGCGCAGTTACACGAACTGGGATAAAATATACTGTATAAATATATGC
CCAACAAGTGGAGAAGGATTAATTCGTGGGTACACAAATTTCGCCTGCAC
GGTCGACGAGGGAAAGGGACGGCTGAATCCTTCTCGCGAGAAAATTTAAG
GCAAGCACCGCAGAAAGAAGATGGATGAGAAATCCTGTGTGGCCTTCCTC
CTGTGTGTCCCCGGCTGGTGTGTCCACAAGTGTGGCGTCCAGAATATGGG
ATGACAACAGCTCAGAAGGTCTAGGCGCGTTCTGATTTCTCTTCAAACAC
ACACACACACACACACACTGAATAACCCATCGCGGTTGGGCCTGTGGGTC
GAGCAGCGGCCATACGCATCGGACTAGGACCGACTACACAGGCGGACGGA
CGAAGTTCGTGCAGTGTACATGCCATTCAGGCATTACTCCGACGTGTCAC
ATTTCTGAACCCTTGACAGCGACGCCGGACGGGACGGCCGAACCTTACTC
GGGAGACCAAATTCTCTGGCGCGAACGGGGACAGGAGAAAACCCATTTTC
TCTCGTCAGCTGACCACGAACAGGATTGGCAACCTTACCCGGTTGATGCC
CAAAACTGCTATTACGAGCATACGTGATGGCCATACATACTACATACATA
CATACAGTATACATCAACCGAGTATATTGCTGGGGATGGCTGAGGTCCGA
TTGTTTAATGTGAATCATACACACACACTCGAACGCCCATACGTGATCGC
ATTGACTCATTTTTAATTCTACACCAACAGTCACTCACTCTACCCCCTAC
TTATACAACGAAACCCCTTACTTTCCTTTCTTGTTTGTCGTTGACCCTTG
ACTTTGTCTCTGGGACCCACCAGACACTAGTTGTTTTCAGAACGCCAATA
ATCGACAATAATAACGACGATGGTGAACGAGACGGTTAGCGCGATGCTCA
AGGAGAACGTGGCCAAGATGAATCAAGTGGAGGGCTTCGACGTGGTGATC
GTGTGCACCAACAACGATCCCCAGGCGTCGTACTGGCAGCAGCGTCTTGA
GGCCGCCAAGTGAGTGTGTCTGTACATGTGTGACAGAGAGCATGAAACGA
CGGTTTTTCGTTTTTGTCGCCGATTTTGCCCCGCCACACGGTATACCAGT
ATATAGATTCGACTGCAGAGCTCCACGGCTCGAGGCAGTGACAGACGCGA
CTTTTATACTACCGTATGTATGTATATATGGTCACATATATAGCAAGAGT
ATGGATCAACCGGGTACACGAACTACTCAACGCTGTAGGTTTAATCATCA
AAGCGCGCAGCGATCTCCCATGGGACGTCGTTGATTGCGCGGGCCGGCGC
TGTACCGGCAGGTCAAAGAACCCGTTACCGGCTACCGATGGAAACTATCA
ACAGATACATATATATGGGGGAGTGTAATAAAGTAGAAAAAAATATACGC
ACGGAACCCGACTGAATCCCATGTATACGTGCGTAGAGCTTTTGTGCTAC
GGGTAACAGCCGATGGTCCCTCACCATTAGTATTATAAAGAGGAAGGTTT
GGATGATATCAATAAATAGTACGACGGTGTGAATGATACTAATAGTATTA
TATTAATATTATATTACATAAAGAGGGACGTTTGGAGGCGTTTTTTATGA
TAAACATTTGCGACCAACCACGCTGTTCGGGGGAACAGAGCCGGAACGTG
TGGTTGAACAATCGCCCGTGAGGACTTTTAGTGTTTTTTTTTCTTCCTTT
TTCCTTTTTTTTTCTCGCACTTTTTTTCTTTTTTAGAAAAATATTTTCCT
TCCTCCACCCCCCCCCCCCACCCGTTTTTTTGTTCAACGATCTGCGGATG
ATGTGACACCATCCAACGTCCCTAATACAGTCAGTTACAGTTACAGTTAC
AGTTTGCTTCATTCAAAGTTGCAATTTCACGGCACTCCTAAAGACCACAT
CTCGCAGACAGTGTTTGATGCTTCCTGTTTCTACTGTAATTGTGAATGAT
TCTGAAACCTTACGGAGGGAATGAGTCGAAACGTTCGGATGAGATGGCAT
CGGTTGTTTACCACTGCTGTAGGACAGAAATTCTACCTTACATTAGACCT
TGTCGGGTTCTAAAGTCATAAATACCAGTATAATTTTGGGGGGGGGGGGA
TCGGACGTTATACAGTTAGTATACTATAAGACTTGCGTTGAGTCTAGGCA
TGTAGATGCGTCACGTGATTTTTATTTTATTTTCTCCGAACGAGCAGCGT
GGGGGGTGCTGCCAGACTTTCTCTTTTTCTTTTTCTATTTTCCCTGTTCA
GCAGACCACGAGCGGGATTGGCCACCGTGTAAAGTATTTTTTCGGGTTGG
CAACCAATACGCTGGATGTGAGAAACAACGCTCAGAAGGTCTAGGCGCGT
TCTGATTTTTCTTTAAACAATTATTTATTGATTGATTGATTGATTGATTG
ATTGAATTCTCACATAAGCTAATGTAAAAAACAGGGATGTACATTACTGG
TTAAAAGTAATGTTGAGTAAGTAATGTTTTGGCCAGTAATGTTCGAAGCG
GCCAGTAATGTTGGGCCCGAAGGTTTCTGTTTGACGCTTTGAACTTTGGA
CGCTGGCGGTGCAGTGTGGAGTGTGGAGGGTGGAGCATGGGACATCGTTT
ATGTAAAAAAAACAAAACACGCTTGCATGGGTCGTGTGCAAGCTTTTCGC
ACACCGTGGTCGAGACGCAGGTGTCCAGCAAGAAGGGGCTGTGTGTGCAG
CAGAGAGAAGTTAACGATGCTGCGATGGTACTTCATTCAGTGTATAAAGC
CCGCATGTTCATGTAGTAACAAAGTTTGTTGCACATCGAAGGGAGCTACA
GCAAAAAAAACCCCGACGTATGTACGAACATTCGCATCTAAAAAAAAAAA
AAGTGCTCATCATGGAAGGGAGTTCCTCATCTCCGGCGCCAGCTCGCGAG
TAATGTTAGTAAGTAATGTTTTTCCCATGACTGAGGCATTACTGAGTAAG
TAATGTGTCCAAAACCCAGTAATGTACATCCCTGGTAAAAAATCCAGCCC
GTGGTCACAAGGTAGAAAAACACAATTCGGAAGGAAAGAACGTACGACGT
ACTCTCCATACAAAGATGAAGTGGAAATGGTACAAATAATACTCGAAAAA
AGCGACATCTCCAAATAAGCAAAAATTAAGAAAAAGAAAAAGAAACACGT
GTGGCTGTCGGGACGCATGTATAATATCGAAGAACGAAGAACGATTGGAC
GAAGGGCCGCGGCTTCAGTGAAAGCATAACAAAACAAACGTAACACCAGA
GAAAGACGACATGACAACATGACACCATATCTGCAAACCAACATGCCCCA
ACGGATGGATGAGAGCACTCTTATTAATAGTATGGAGCTGCCGCTAGACG
CGTACAGCACAACAGCTGTTACAACTGTTGCAGATGAACAACGGAGCAGT
CGGGGCATGGGCGCTGCTATTAGGTAAATAGAACCTGCAGTGGCTGTTGA
CCGTAGCACGGCCGAGGGCGCGGCAGGTGGTCAGGGGGAGGGGGGCGCGA
CGAGAATGCGCGGAGGGCCGCAGGTTGGCAAGGGCGCCCGTTCCCAGCGT
TCGCCATGTCCCATTGCAATCGTGACGGGTCTGCAGTACATTGTCTCGCT
CGGTCGGAGGTTCGAGTAATTCAGATTTTGTTTGTAACATGTAGGGATTG
TTTTGTAGTGCTGGTTCATAAACAGCTACGTTGCGCTTCCGACCTTGGTG
TTTCAGAGAGGTTAAAAGTAGAAGATGATAAACAAAAAATAAATATGTTT
TTTTGCTTTTTCTCGGTCGCCAAAAAAAGAAATTAGCCATTCAAGAAATT
GGCAGCTCGCACGCCTGCCCGAAATAAGAGGCTTTGAGACCTCCGCCCAA
ATAAGAGTTTCTCATCAGCAGGGCCGTACAGGATACTGTATACTGTATAG
TATATTGTATTTCCGGAGGGTTAGAGCGGGGAGGTTTAAGGGTCTCGACG
AAGGGTAAGATATTTATGAAGGATACAGTACCATGCCCACCACTAAAGTA
TTGGGGTATAGATAGATCTTGAACATAATCCAGAAGACACCAGAAACCGT
TACACGTACCATTGATACTGTATTCAACTTGGGAGCAAACATGGCTGTAA
ATACTTTTTACAAATCACTCCACGCATGAAGTGCTTCTTCGGAGTTCTGC
TGGATTATGTTCAGAACGCCACTCGGGGATGCCGAATGACAACGGACAGT
TGTTGTTGTTGTTGTTGTTGTTTATCTCACATTAACTGATCCGCTACGAA
TCCAGTAATATTTACCCCTGCAAAAACAAGACAATAATAAATAAACAAGT
AAAACTGGAAGGGGGGGGAAGGGGGCACGGCTCCACGAAGTCGAAAAATA
CAAGAGTGAAAGCAGGATCCGGCTAGTAAGGTCCAAAACGACGTGTTTCG
TTTTTCCTTTCTCTTCCATGGCCGCATGACGAGGAGCCGTTCAGGGTTCC
CGTCTACGGTTTTACTGTCGGGACCATGCCACCCGTGAACCAACCAACAA
CCGGAGTAAAGTATAGCGCTCTCGGACTACTGTACATTTCTTGTATTATT
ATGTCCGTTCATGCCTGGTCTGGCAAAATAATGGAGCTAGTCGTACAGTA
CAACAGTAGCGTTCTTTTTCTTCCCAGATGCGATTAGCTATAGCTGTAGT
AGCACTGGTAATGGTACGTACGAGGTTGATTTTCTTCTCTCTCTGAAAAC
ACAGGGGGGCAAATGCTAGCTCCGTGCCTTATAAACGCCGCCCTTTGCTA
GAAACCCATCTACAGTTCTGGCTCACGCGCACACTTGTACGTAAACGCGA
CCATATTCGCCCGTCTGTCACCCCCTCCATTGTTACCTCACCTTACCGTG
CAGGGGCTCCTCTGTGGCGAAAGACGCTACCGTGCTGGCTGTGTACGAGG
ACTGGGAAGGAGGAGCCGGAAATGCCCTCGGTACCCTCTACGCCTACAAG
AAGGCCACGACGCTGGCGGAGTCTAAGGGCTACGACCTTGCGGGGAAGAT
GAGAGCCGGCGAGGTGAAGCATTGCAGTAGGGGCCGGTATTGTGTTGGGG
GGGGGGGGGTTGAGGAGTGCTGCGCTGCCGCGACGACGTTTCGGCGTCCT
CGCAGGAATAAAACATATGTTACTGTCTAATTCTTTGCGATGCTGTGGTC
AACTCTTGCGTGTGGGGGGAACGCTTACGGCAGAGCATTGGCCGCCCGGT
AACCGCTCAAACGTTGGGGGGGGTATAAAAGCCTGTAATATTATCTGCAC
TACTTGATGTCGTTGCTTCCGAAAAGCGAACGGGTTTCCTTGGTCTCAAA
ATCAAAGTCTTGAAATAATGATAGCGCCAAAGTCCTGGTACTTCATTCTA
CGGACCATACCCACCCCACCCCACCCCCCCCCTCAAAAAAGAAGAAGCGT
GTTTACGGCACCGGTACACCCCCGTAAGTCGGTTGGTGTTGTTTTTTTTT
TTCAACAGCGCGCGGAGAACCCCATCTCTCCTCCGTCACCTCGCAGATCA
GCGTCGGCCTCTACCACACGGCGGGCAAAGGCACCCGCCTGGCCCCCATG
CCCGGCTCGGAGAACAACAACAAGCCTGGGGTGAAGATCGCGGTGACGGT
AGATATCAACGGAAAGCCGTCGCCTCTCACAATCCTCGAGAGCGTCATCA
AGCAGACCGGCGTTTACGGGAAGAGCCGCAAGGGCCGCCTCTCCGTCTTC
TGGGGCGACCAGGTATATATACATATGTATAGTAGGTGGTGGTAAGGGCG
AGTGACCTTTTTTGGAGAAGGCGGGGGGCGGAAGGGTGCCCCACCTGTCA
TAACTGTTTTTTTTACGTTTTGACTTGGTGTATCTTGAGTCAGGCATTAT
GCCTTAAACAGGGCAACAGAGATGTGTGTGTTGGGACTGGGGGGGGAGGG
GGGGTTGTGATAtatTTTTTTTGTGCGCAGGCGTTTTGAAGTCAGGCGCT
AAGCCCTTGCTGAGTCACGCACCGATCGGGAAGTCGTTGGCACACCCGTC
GGTGTTGTCGTATCCTTTCAGCTGAAGATATAACCAGAACTCTTACGAGA
CGGCGATTCCCGCTGACGTCGCCCTTCTCCGGTTTCTGCTCACCCCCCCC
CGCCCCCCTTGACGCATGGTTTTCTTGGGGTTTGACGAGGTGCCAGGTGT
TCATCCCTTCCGTCGGAGTGGAGTACACCTCCACCCACCACGCCGATATA
TTGTGCGGCCTGGGCCCCATGATGGATGAGGCCGAGTGGATGGCCAAGGG
TCTCAACAATTACGGTCTTATCGCCGTGAACTCGGAGGGAAACGCCGCCC
AGGTAATAACAACACTACTCAACTGCAGCATCGGTACAACGCCTAGCGCG
GCAGGAGGCCCCTTTACCCGGGGGAAAATGAGAGCATTAGCTACGTACGA
TGCAGCGGTACAAAATAGCGTTGGGCTCGAATGCCCAAGTTTATTTTTAT
CGTCCTACACCAAGTATTAACACCAATAGTGATACCAGTATATATTTTCC
TCCCGTGACGGTAGCTAGCGTGTGCACAGCCCATAGCTACTCTTGATTTG
CCCTTCGATCAACACGGCCATGGTTTTATTTAGCTCTTCTTCTTTTTTTC
ACCCGACGGTCGGTGACGCGCGATCCGTGATTTTAGATTTTTTACCGTAT
CTGTGTGTTTTGGGTCTTTTATAGTAGTACTTGAAAAAATAAAAATAAAA
GCCGCGCCCATTTTCTCTTCGTTTGGTGTTCTTGTTGTGGGGATCAGGTG
GAGAAGGTTTCGCACGCTGTGGCCACCCGGCTGCTGTCTTCACTGGGCAC
GATCGAAAGCGTCGGCGCTTCCTTGGGGTCCTTCAGCATGTCGTCCCTTC
TTACCTATGTAAGCGGAGGGGAAAACTAATCACGCACTCTTCCCCCGATT
GTTCGACAAAGAAGGGACATAAAGTACTACTAGATTAACAAGAGGCATCG
GTCGTGCTTTGCATATTATAGTACTGTTAATGCTATTAATCCTTCAGGGC
ACGGGGGGGTGGCGCTCCTTCTGTCGCGGTCGGTACTTCAACCGCGCCTC
TCTGGTGCTGCCTCAGCGCGATTAGCCAGCCCCTCCCGCGACTGTGTTTT
CTACCGATGATTGCCCCCCCCCCCTCCCCCCGAGAACCTCTGTTTATAGC
TCATACGGTACATATCGACTTACAATGAGCGGCACCGGTTGTTGGCAGTC
GCGGGCGAGTGACGCGTTTGATTGAAAGCCGGCACGAGATATGTCTGGGC
GATGTTTCGATTAACCCCCTTCCGCCGTTGTGTGTCTTTTGTGTCTTTTG
TGTCTTTTGTGTGTGTGTGTGTGTTTTTGCACATAACCACGCAATCCGGC
CCTGTCATCCTAATCATTCTATGCCACTCGCATTGATCCTCCCGAGGGGG
GATCAATGATACTTATTACGAAAACCTCTGATCAGACGGTGTGTGTGTGT
GTGTGTGTGTGTGTGTTTTCCGCCGTAATGCCGCCGTCTCTCGTGGACGC
GCGCAGGCTCTCCTGGAGGAGTTCTCGCCCGAGCTGAGCAAGAAGGAGGG
CAAGCTCGACTCCGACCCTCACCTCTGGATGCCTGTAAGCTGTGGCACTG
CTCTTCAATGGAGAAACAAAAACATACCAGTATTAAAAATAGGGTAATAC
TCCATAGGTTTGGTATCAACATGGAAGGCTTGTCTCtCTCTTTGCCACCC
CGTGTTGGTTCAAAAAATGTGTTTTTGTTTTGTTTTTAATTTTTAGGGGA
CGGGGGAGGGTGTTGTTTCAAAAGAGGCCTATGCAGGCAAAAATTCCAGG
TGCAGATTAATTAAGAAACTAGTACATCCGTAGGAAGAATAATAACAATC
ATACAAAATATTGCAATTTTTTGGCGAAAAAATATTGCAAATATTTTGTC
TAACGAACAAAATAAACAATAATAGGTCGTGACGGCTTCGCTGTCGCTCA
TTTCTTCCAGAAAATACTATTAACATAGAGTAGAGAAATATTTGGGACAT
AATCTACTAATCCTCAGTAGTGCGTTGTTGAGCATTTCCCTACGACGATA
TCACGATATAGAATGAACGGCCACCATAACCGCCATCGGCCCCATCTTCT
GTAGTGAGGTATCATAATCTTACGACGCGGGCACGTTTTTTACTCCAGAT
CGAGATATCACTAGCAgTCCTCCCCAAACGAATCGAAAACGCGAGGCTCG
ATCGAAACAGCCCTGGAAGAAACGCGCGTTCGAGTATCCTCACCATAACC
TATAGGTGGGAGACAAATGAACAACCCACACAGCTTGAGTCACAAACAtT
TTTTTACCATGAGCTGAATCGACGCGTTTTCATGGGTAGACTTATGGCTA
ATTATTGCTCGATTTTCGCTTGGTCGCCTCGGCACAACCTGTgaAAAAAA
AAACAGTTCACCCTCGAGATGTCGGCCTACGTGGAGATCATGGGCGGCAA
GGGAACTCCCCCCGAAGCCTCTCTGGCGCACTACATGAGGATGAGGGCAT
GCCTCGGTGAGAGCCTGAGAGTCGTCTGCGCTTTCACACTTGTAAGGCAC
GACGAGTCCGCCCGGCGAGGGAGAGCGTCGCTCGACCGAGAATCATGGCT
TATATTTTATTATAACTATTGCTCTCCACTGTACTGTACTTGAGTATTAA
ATAGTATTATCATCCGTGATGGGAAGATGGAGGATGGAACACGGTGGTAT
TGATTTGTCTTTCCTGTCTGTGTGCTATGAGAAAGTTCCATGTCTTGTAC
ATTGTCCAGAAAAAAAATAGAAACTCTTGGGACTTTTGATGGGTTTTGTT
TTCGAGGGGGGGAAAATGGGCCGAGTTGTGTTCGAGGCAGTCATAACCCG
TGACGCTCTGGGGGGGTTGGGGGGAGGTATATTTTTGTTTTTGTTTCTGA
TTGGTGATTGAGCAAACAACTATAATATGTATAGAAGGAGTCCGCGGCGG
TATGATTTGTGGAGTCGCGACGTGACAGGAACGTGAGACGTTGTATCGCT
GGTTCGAGTACCAACCACAACCACCGCTGCAGGCTGCAGTTCTGGTTGTG
AGGCAGCCCCCCCCCTCCCCAAACACACACACACACACGGAGGAGTACAT
TAACGAGGCCTTGCAGTGTGTGCAAATCGAATACACTGTATCGCAATGCC
TACGACAAGCTAATGGGTATTTGAGATTGTCGTAGGTGGCGTCTGGAACG
TTTTAGGATTCGGGTAAAACTACTGCTGTTTGAAGAAAAATCTGAATGCA
CCTAGACCTTCTGAGCATCCCCCAGTCAGGGGGAAAAATGTCAAAACGTT
TAGGTGGGATCATAAGCTGAAAATACAAAACCTCTTCATGGCATTTAATT
GGGTTCCCCGATGATAATAACATTGGGTCAACAGTATAATGTCGGGGAGA
AACCTTGCGTGGACCGAACATGATGGCGTGCTCTACACGAAGTTGACCAC
CGCTCGTGAAATGTCTATAAAATACTAAGGTAAAGGATCATCGCTCGCAA
CGTTTTTCTCGCACCGGAGGCGTCGTGTCATCGATTTCTCAAGATCACAT
TTACGTCAGAAATATTTGGGTCCCTTTTTGCGCCTTCGTTGAAAACGACT
ACCCCCCCCCTGTCCCGTCCCCCTTGCAACGCCTTTTCATCACCCAGACA
AGTTCATGGCTCGGGAGGAAGCCAAGTCCCTTGGAGTGTTCGGTGCCGTG
AACGTGGGCGAGAACGCACTCTGGTGGGACTACGGCCAGCTCAAGCTCTA
CCGCACCAACAACTGCCTCCTTACGTCTGTAAGAACCGGGGGACCGTTGC
CTCCGTTCATGAAATGACTACAAGTGACGTGTCCATTATAGAGTAGAATG
TTTTTGTTTGTTTGTTTGTTTGGGAGTGTGTGTGTCCCCATCAAGGTTGA
TGTTAACAGGCGAACGGGTGGGGCAGGCGTAGAGAGAGACGTTTGCTCTA
GATTGCGGCGTGTCATTGGTGCTCTCTGTTGTGTCGAGGCAACTGGGCGG
GGACGGGACGTTCGGTGGGTGTACTTCCCCCCGTGATCTGCCTCCTAGGC
AAGCCTTTCCCCGTGTACAAAGGTGTCAGATTAACGCAGTAAAATTGAGT
CTCCTGGGGTTTCTGTGTCCGTATGTACATGAGGACCATCAATTATTATT
AGACTTACCTGAGGATCGGCTCCTTAGACCTGAGGAGATCGCTCTCAACG
TTCGGTTGTTTAAAACGAACAGGGTTTTATCCTCTTAGCATCATATAAAT
ATACATTAAATATACATTTATCCTTTTTTTTTTAATTCCATCATGTTTGT
ACAGTATCAAGGGTAAAGTGTGCTTGGGGGGAGAGGGGGGGGCTATGTCG
AATGTATTTTCCGTAAGCCGTCAGGAGGTAGAAATGGCGCTCCTGCAACA
TGATACAAGCTTGCGCACTGACGTAACAACAATCCAGCCTCGAAATCATG
CACGAGGTGTCAGCAATCCCGCTCGCCCTGATGTCGTTCCCTACACCCTG
CTCTGATTACACAATATGCCTCCGCAAACGCCTCGCCAACTGATCAAGAT
CTCACCGGAGTCGGACCTTCTCCGAGAGTTCCTGGGCGTCTCGCACCGAA
TCTCCAACAGCGATGTTGCCGAGGAGGCGGAGGTGGATGAAGTGAGCATG
GTGTCGGCCTCCGTCATCGGCGGTGGTGAAGTGAAGGACTCTGTCCTCGC
CAACGTGCGCTGTAGCCACATCGAGGCGGAGGGATGCATTCTGGTGAACG
TCACCGCCAAGCGCATCGTCGCGCCCAAGTGAGTCAGCCCTTCGTTGCCT
GCCTGCCCTGGCTGTTTCTTCGGGTTAAGTTCTTGCCCCGTTTGCTGCTT
GCTGTCCCTCGACCTTGGTCAAGTTTCGATATTCCGAAGGCATTCTTACG
AGGGGGATCGTGTGAAGGGGCGGCCAACTGTCAAGTACTGTGTACCTGTT
AAACTGTAACTAATTTCGATCCTTTGTCCGCCTTTTATTCTTTTTTTTTT
TTTTTTTTACACCGCATGGAAGTTTTTTTGTTTTTTTTTCGCTTTTTTCA
CATGTATGAGAAAACCGAAGTATTGGAGAGTTTATTATTAATTATTAGCC
CCGTTGCCTATTTATTACATTAGACTAGACCTCTAACAGTATTATTATTA
ATAGTATAGTACTGTATGTGTTATTACTATTATATTATATGCTGTTACGC
ACCTGGAAAACAAGGAAAGTCACCTCCTCTATTTTTATTGGTCTGCGCAG
GAAATAACCGCATAAATAATTTCATCAATAGTTGCCGAAATTACAAATTA
CCCCATTAGACGACATAGACTATTTAGTAATATTAGTAATCAGCGCTGAC
TATTTGTATTACTACTACTAGTCTAATAAATCGATTTCGGCTATTAATAC
CATGTAACCCGAGTGGTCTAGTAGGTAACCTGCACACCTGCTAGTGCGGA
AGTCGGTAGTTCGATTCTTACCGAAGTAGGATTTGTGTTCTTTCATCCGT
AACGGAAAGCGTGGGAACGTGTGAGTAAGTAAAATTCAACCATTGGTTGA
CGAGCTGTAAGATTGCTGAACTTGCATCGTGATTAAAAGTCGTAAGGCGT
GAACCGGGTAGAGATGGGAAGATTTTTAGTAACCACAGGTAGGATGGTAC
TGTTGAAGTCCATTGGCTATTATACTAAGTGATATAAGGGTATAGCCGGG
GGATCCGAAGGACTCTGCCCTTTCACTCCGATAAGGGCCAATTTCTCCAA
TATTAATTCCTATACATTTTATTATTTCAAGGCGTCACCCCCACTGTGCT
CTATCCAAGAATTGAGAATAAAATTGTACTAATTCCTATACATTTTATCC
AAGAACTTCCCCAATATTAATTCCTATACATTTTTTTGTTTCAAATCCCT
AGTGCTATTAATAGGAGTCGAGAAAAAAAAACTTGCCTGGTCTCAGCCTG
GGACTCGAACCAGCTGACTATAAATATCGTTTACAATATACAATACATCC
GAAATGAAGACGTTAGTCTAATGGGTATAGTACGAACTTTGTTGACTGAA
TCCGTTCTCACCGAGGGTCCCTCGGCAAATATTGATCGAGTACGAAATAA
AGTACAAACGGTCTATTATTTTAGTATGTTTTTTTCAAGCTCAAAGTATA
ATCATCATCACAGCTAATGCACAAAAGTACGTGTAATGTTTCTGTCCATG
TTTCTGTCCATGGAACCAACTGCAGAGAAGACTGACAAATCATCACGCTT
TGCCGGAAGAAATGTTGTAGACTCTGTCGCGAAATGCACCCGGTCAATTT
GTCAGATCCCAGCCCCCCAAGCCTTAAGCCCTTGGGCCCTTGTGCCCGAG
GGAGATTTGTTCTGTAGTTGTCGAGAGGAGGACGTTTTTCCTCGTTCCGA
TATTCCCGGTACAGCTAGAAGCAGCAGTACATTAGTAGGATATTTCCAAA
ACAAGCATTTTTTAATAGTGCGAGCACTTCGAGGTGTGTTTGGGCACAAA
CAGATAAAAATGGAAGAAAAGTATGCAGCAGCACTCGAcCCCTAATGTTA
TTAATAGTCAATGCTCCTGAGGCCGAGCTGCTGCGTGGGGCAAAAGCTCA
AAGCTTGTTGATATTTGATAAAAATATAGGGTGGGGTCAAGTTATTGACC
CTCGCGCCCAGCCCGTGCCTTACGCATCGCATCTCAAGGTTGCACAGTGT
AATATAGTATAATAATATATCCAAGCTGAGGCCCAAGGGAAAATATATAT
TTTTTAAGTGTTTGGTACTTTACAGACATCGATCGGGTTCTTGAAAACAA
CGATGTTGGAGCAAAATAAAGCTACGCACTACGTCGATTGGGTCCGTTCC
GACATTCCCTCGACTCGGTGCTGTCCCGTGCGACGGCAACATAGATCTCT
CTCGTATTATGTATATATATATATTATTTATGCTGCGTTATTTTGTGTCC
GACAGAATCATAGCTCTAAATGAATCACACCGAGTACTTACTAGAGTATT
GTGTACGTCTTACCACACGCGATCGTCAGGGGGAGCATCATATACAACGT
GATCGACACCTCCCCCACGGGGGTTGGCGTCGCTGAGGGAGGCGTTCTGG
TGGGAGTTTTCGGAGAGGACGGCTCTCAGGTAAGGGAGAGGGCGTACTAT
CCAACACAGCGTGGAGGGGGGGGAGTAAGTATAATATGGTTCCTCTCAAA
CTCTGCGACCACGGGGCTAGGATCATCGCATGTTGTGCTTGGTGTATTTC
GTCAGTAGTAGCCGTCTCTGCCGaAAAAAGGGAGACTCGCGGGGCGTTAC
ACCCGAGACCTGAGATACTGGTTTTTATAATATAACGGCGTCTCCGCGGC
CCAGCCATCTCCCCCCGTCCCCCCTTTCCGATGTACCAATCGTTTTCGTC
TAAAGCAACCCGTGTGGAGCAACACCGACAAGTTGGACGGAGGGAAGGTT
TGGAAGATGAAGGTGGCGGGGAACCCCATGACCTTCGAGAGCATCTACAA
GTCCAACCATACGACCGACGTGTTCGCGGTTGAGAGCGCCCGCAACAAGG
CTGCCGACGAGGCGTGGGCGCAGCTCAGCGCCTGATTGCAGGGAAAGGGG
AGAGTTTAGGCGCGTTTGATGGAAACCCGCTCTTGGTGGGATAACGGTTG
GACGGGGCTTTTGGCGGCGAGGCGAGAGGGGCGGTTTTACACTCAATCGC
GGCCCTATGATCGCGTTTTTTTTCTTTTGCTTGTGGTTCCTCTGAAAATG
CAATTTTGCTGAGTGTCGAGCTAGGTACCTCGAAAATAAGGTTATCAGGT
CTTGTGTGGTGCGCGGATTCAAGTCGGGTTGACGTTAAGCAAGCAAAGAA
GAGCTTTTTGGGTCGTCGGCGTCCTATCTTCTCGCGCCTCTTATAGTAAA
GAGGCAGCGACGCGCGTGCAGCATTTGTCTTCTTTTAGGCGTCGTGCGAT
GCGCGGCGGCTTGACGTTCTTGTCTAGGCTGTACTTTCTTATTGTTATTG
TGAGAGCTGGTTGGCTTGGTTGGCTTGGTTGGTCCGGTTGGTTTGCTCGT
TCGACCCGTTCGTGCGTTTCGCTTGGACGCTTTTATTAGCGTCACTAGTT
TCGTGGAGATCGCGTACAAACCAACGTACTTATAGCATGTTGTTTTGTAA
TATTTTACGTGTTTCGAAATACCCCCGTCCCTTTTTCTTGTGTGAATTGT
CTTTTTCCCCCACCCTCGCCCCTTTCACTATAAAATACTATTAATATCAT
ACAAGTATGTTTGTAGAGCCTTGCACCTCTTGCCGACAGCACGATGTCCC
GCAGCAGAGAGTTGTTAAAATTTGAAGCATGTTTTCGCCGGGTGGGGTGA
GAAAGGGGAGCCTAGGCTGTGTGTGTGTAAGTGTGCAACCCTACACTTTA
TGGCGGTGCGGTGATGTGACTCTTGTTTGCCCCCCCCCCCGTTCGCGGGC
TAGAATCGTCGTGAAAACAGGTCTGTGCTTTCTTACGTTCCTCCGTGCTC
TCTCGTCCTTTCGGCGAAAAACGCAGTTTGAAATTTGGGACTCTTTTTCA
ACTACAGAGCATCTCATCCGCGCATTGTCTAGGCTCCCGAGTAAGGAAGC
GCTTTGGGGTAGGTAGTTAATATTACTGTGGAAGGAAATCATCTTGCCAA
ACGTCCGTCTTGCCTCGACTCCGATTAACACGCCCGAGCTACAACATTAT
ATAACGCTCCTATGCGGCATATATACACGGATTGCCCAACAGCTCGTTTT
TTTGTGGCCTCAAGGGGGCATATCCTGTGTAGTGCAACAACAAACGCAGT
CAAGGGTGTACGACCTCAAAGAAGGTTGTTGGTCAACAGTTTGAGAAATC
ATTATCCCCAAAAACGCCATTTTGTGAGTTTTGGGGGGGAGCGGGGTTGA
TCAGACTATTGAATACAATGATATGTTCGGCTGTATGTACCACGAGGGGG
TTTCCAAATTTTAGTGCAGCGAAGAATATAGGGAGGGGGGCTTCTTTTCT
CGAAAAGCTGTCAACCAAATTGCGCCACGTACTAAACAATATTTGTGTTT
TTCCGAAGAGCTTGCCCGTTCCATGTAATCGGCGCAGATACTATTGTTGT
T
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Coding sequence (CDS) from alignment at A-nodosum_M_contig1124:170094..195744+

>mRNA_A-nodosum_M_contig1124.20.1 ID=mRNA_A-nodosum_M_contig1124.20.1|Name=mRNA_A-nodosum_M_contig1124.20.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1602bp|location=Sequence derived from alignment at A-nodosum_M_contig1124:170094..195744+ (Ascophyllum nodosum dioecious)
ATGGTGAACGAGACGGTTAGCGCGATGCTCAAGGAGAACGTGGCCAAGAT
GAATCAAGTGGAGGGCTTCGACGTGGTGATCGTGTGCACCAACAACGATC
CCCAGGCGTCGTACTGGCAGCAGCGTCTTGAGGCCGCCAAGGGCTCCTCT
GTGGCGAAAGACGCTACCGTGCTGGCTGTGTACGAGGACTGGGAAGGAGG
AGCCGGAAATGCCCTCGGTACCCTCTACGCCTACAAGAAGGCCACGACGC
TGGCGGAGTCTAAGGGCTACGACCTTGCGGGGAAGATGAGAGCCGGCGAG
ATCAGCGTCGGCCTCTACCACACGGCGGGCAAAGGCACCCGCCTGGCCCC
CATGCCCGGCTCGGAGAACAACAACAAGCCTGGGGTGAAGATCGCGGTGA
CGGTAGATATCAACGGAAAGCCGTCGCCTCTCACAATCCTCGAGAGCGTC
ATCAAGCAGACCGGCGTTTACGGGAAGAGCCGCAAGGGCCGCCTCTCCGT
CTTCTGGGGCGACCAGGTGTTCATCCCTTCCGTCGGAGTGGAGTACACCT
CCACCCACCACGCCGATATATTGTGCGGCCTGGGCCCCATGATGGATGAG
GCCGAGTGGATGGCCAAGGGTCTCAACAATTACGGTCTTATCGCCGTGAA
CTCGGAGGGAAACGCCGCCCAGGTGGAGAAGGTTTCGCACGCTGTGGCCA
CCCGGCTGCTGTCTTCACTGGGCACGATCGAAAGCGTCGGCGCTTCCTTG
GGGTCCTTCAGCATGTCGTCCCTTCTTACCTATGCTCTCCTGGAGGAGTT
CTCGCCCGAGCTGAGCAAGAAGGAGGGCAAGCTCGACTCCGACCCTCACC
TCTGGATGCCTTTCACCCTCGAGATGTCGGCCTACGTGGAGATCATGGGC
GGCAAGGGAACTCCCCCCGAAGCCTCTCTGGCGCACTACATGAGGATGAG
GGCATGCCTCGACAAGTTCATGGCTCGGGAGGAAGCCAAGTCCCTTGGAG
TGTTCGGTGCCGTGAACGTGGGCGAGAACGCACTCTGGTGGGACTACGGC
CAGCTCAAGCTCTACCGCACCAACAACTGCCTCCTTACGTCTATCTCACC
GGAGTCGGACCTTCTCCGAGAGTTCCTGGGCGTCTCGCACCGAATCTCCA
ACAGCGATGTTGCCGAGGAGGCGGAGGTGGATGAAGTGAGCATGGTGTCG
GCCTCCGTCATCGGCGGTGGTGAAGTGAAGGACTCTGTCCTCGCCAACGT
GCGCTGTAGCCACATCGAGGCGGAGGGATGCATTCTGGTGAACGTCACCG
CCAAGCGCATCGTCGCGCCCAAGGGGAGCATCATATACAACGTGATCGAC
ACCTCCCCCACGGGGGTTGGCGTCGCTGAGGGAGGCGTTCTGGTGGGAGT
TTTCGGAGAGGACGGCTCTCAGCAACCCGTGTGGAGCAACACCGACAAGT
TGGACGGAGGGAAGGTTTGGAAGATGAAGGTGGCGGGGAACCCCATGACC
TTCGAGAGCATCTACAAGTCCAACCATACGACCGACGTGTTCGCGGTTGA
GAGCGCCCGCAACAAGGCTGCCGACGAGGCGTGGGCGCAGCTCAGCGCCT
GA
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