mRNA_A-nodosum_M_contig1144.10.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig1144.10.1
Unique NamemRNA_A-nodosum_M_contig1144.10.1
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_contig1144.10.1 vs. uniprot
Match: A0A6H5K0G0_9PHAE (Nucleotid_trans domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K0G0_9PHAE)

HSP 1 Score: 381 bits (978), Expect = 9.250e-108
Identity = 177/261 (67.82%), Postives = 220/261 (84.29%), Query Frame = 2 
Query: 1826 GLVVVTSVNCGYLDMAANFLVSVRRHS-DVQILFVAMDEVSFDYVDAMAPGTAVLF--SEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAA---EIMLQIDGKPINKCTCFMYLDTTPSVMQLIQLWKEEIIKTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVEGWEFPSCQKKR 2590
            G+VVVTSVNCGYLDMA NFL+SVRR   DV++LFVAMDE SFD++D ++PG  VLF   +G  R  AV AGQWGD IF+ ET+VRPDILLS++ QG+KVLWTDVD+VWLGNPL LLP+ +++++AA   E+MLQIDGKPINKCTCFMYLD TP+   L++LWK EI++T+V QNQMAF+ PL QME  GL L+ILPDEVMPPGFK F++ ++EEN+DRY+D LL+VHNNW+IGH+PK+ RFR+ GLW VEGWEFPSCQ++R
Sbjct: 1217 GMVVVTSVNCGYLDMAVNFLLSVRRAGGDVKVLFVAMDEASFDFLDDLSPGCVVLFPQEDGSERHRAVKAGQWGDEIFKHETVVRPDILLSIMAQGYKVLWTDVDIVWLGNPLPLLPDTQKNSTAAKCAEVMLQIDGKPINKCTCFMYLDCTPNAATLLELWKREIVETEVSQNQMAFRAPLAQMEQAGLNLEILPDEVMPPGFKAFDDAFLEENYDRYRDNLLMVHNNWIIGHDPKRDRFRKSGLWDVEGWEFPSCQRRR 1477
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BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: D8LU02_ECTSI (Xylosyltransferase, family GT77 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LU02_ECTSI)

HSP 1 Score: 335 bits (858), Expect = 8.140e-99
Identity = 216/562 (38.43%), Postives = 301/562 (53.56%), Query Frame = 2 
Query: 1139 LPDKLLAQVWFNRAMLAAARRKGADLHDERVEGL-------TMLQVLRRLVRDPASLGALLVDGTNVVGSTHARSRRPFPP----FEAVAAAAVGAGAE---------------AGDSRERDRSSRGDPEDVPAPPPLG------------ETSXXXXXXXXXXXXXXXXXXXXXXXXXFPDGVGGGSYYGRAAWAKQDS-CEEGEPGDVYIGKVDHALVFGEGKKSAALRGATVAGSGPRSDGSGYAIVKASWPRRYILDGVADA--------------------------------ETGLVVVTSVNCGYLDMAANFLVSVRRHS-DVQILFVAMDEVSFDYVDAMAPGTAVLFSEGGSRR-YAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVR-EDASAAEIMLQIDGKPINKCTCFMYLDTTPSVMQLIQLWKEEIIKTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVEGWEFPSCQKKRTLSR 2602
            + DK +AQVW NRAML AA   G D  +    GL       T L +++ LVR+P++ G ++VDGT V+ S     R   PP     E +   + G+G                 A + RE +R    + +  P PPP G             +                           P G    +   R    + DS    G     Y     H++  GEG +         A +GP ++ S   I++A WP  YILD V                                   + G+V+V+SVNCGYLDMA+NFL SV + + DV++LFVA DEV+FD++DA++PG  V F E GS R +A+ AGQWGD+IF+ +T+ RPDILL +LRQG+K L+TDVD+ WLGN L LLPN R       E++LQ D K   KCTCFMYLD+TP+ ++L++LWK+EI +    Q+Q AFQ PL QM+  GL L +LP E M PG + F+ETY++ N+   +D+LLIVHNNW++GH+PK++RFR  GLW+V+ WEFP+CQ++   S+
Sbjct:    1 MSDKFVAQVWCNRAMLVAA---GRDFMNPTEPGLVAKRERTTFLHMIQGLVREPSAEGVVIVDGTKVIPS-----RYLHPPTTAGVEEIGGDSSGSGGRGQPNRFVFLQRLVQHAREKREHERQLHRE-QQQPQPPPEGVKTSGSTAAPVLTSQEFQPLPEINYYIGTLEFTLGFDLEAMPTGSENNTATARVLPNRGDSPTVTGTTKSGY-----HSVGDGEGDR---------AENGPGANASVATIMRALWPPEYILDTVIQPLFTKDEEEERAASSMVGLFDRGSWGASQRERKQQGVVIVSSVNCGYLDMASNFLQSVGQAAGDVKVLFVARDEVAFDFLDALSPGCTVFFPEVGSERAHAIQAGQWGDNIFKQQTVARPDILLPILRQGYKALYTDVDIFWLGNVLSLLPNSRVTQTPPVEVILQADAK--QKCTCFMYLDSTPNAIRLLELWKQEIAEKSSFQDQRAFQSPLAQMQEAGLALQLLPKEAMLPGNRGFDETYVKNNYALLQDKLLIVHNNWIVGHDPKRERFRMAGLWEVDDWEFPTCQRRNLRSQ 537
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BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: A0A1Y1HWG2_KLENI (Nucleotid_trans domain-containing protein n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1HWG2_KLENI)

HSP 1 Score: 128 bits (322), Expect = 4.680e-29
Identity = 87/268 (32.46%), Postives = 133/268 (49.63%), Query Frame = 2 
Query: 1811 ADAETGLVVVTSVNCGYLDMAANFLVSVRRHS-DVQILFVAMDEVSFDYVDAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPN-----VREDAS-----AAEIMLQIDGK-----PINKCTCFMYLDTTPSVMQLIQLWKEEII----KTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQV 2554
            A A    ++V+ VN GYLD A N+++S+ R     ++L  A D+ +FD++DA  PG  ++++     R    A  +G   F   T  RPD L ++LR G  VL+ D+DMVWL NP           V +D +      A   LQ D +       N C+C +Y+  T    QL+  W   +     K  + Q+Q  F   L  ++ L  ++ ILP    P G  +F + Y     D + D   +VHNNW++GH+ K+QRF+  G+W V
Sbjct:   21 AIAVDNTIIVSLVNSGYLDFAENWMISISRQGFGDRVLLFAEDQEAFDHIDARWPGHVIMYNYSSIPRAGESAHDFGSLGFFLMTERRPDYLRAVLRLGVNVLYNDLDMVWLKNPFTAFTGDFDVWVNDDWTDDTGLEAVHPLQKDRRFPSHYHPNICSCLLYMRPTAQSYQLLDTWAGLMSLKDWKPPI-QDQPFFNKALNMLKDL--KVGILPQRQFPAGCLYFADDYWR---DAFGDEAALVHNNWIVGHDVKRQRFQNLGIWFV 282
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BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: A0A6A5N1F9_LUPAL (Glycosyltransferase n=6 Tax=Lupinus TaxID=3869 RepID=A0A6A5N1F9_LUPAL)

HSP 1 Score: 124 bits (311), Expect = 6.320e-27
Identity = 95/290 (32.76%), Postives = 141/290 (48.62%), Query Frame = 2 
Query: 1760 YAIVKASWPRRYILDGVAD--AETGLVVVTSVNCGYLDMAANFLVSVRRHS-DVQILFVAMDEVSFDYVDAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDGKPINK---------------CTCFMYLDTTPSVMQLIQLWKEEI-----IKTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFF-NETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVE 2557
            Y+   + W   Y LD   +  A+ G V+V  V+  YL    N+L+SV R      +L +A D VS D V+   PG AVL         A  A ++G   F   T  RP  LL +L  G+ V++ DVDMVWL +PL  L     D    + M  I  KP+N                C+C ++L  T     +++ W EE+      + K   +Q AF W L++     + L +LP    P G  +F N+T+++E     K   +I+HNN+++G E K +RFR+YGLW V+
Sbjct:   69 YSHSSSKWGH-YTLDKALNFVAKNGTVIVCIVSQPYLPFLNNWLISVTREKRQDMVLVIAEDYVSLDKVNERWPGHAVLIPP---VLDAENAHKFGSKGFFNFTARRPSHLLKILELGYNVMYNDVDMVWLADPLAKLEG-NHDVYFTDDMTAI--KPLNHSHDLPPPGKKGRPYICSCMIFLRPTDGAKLVLKKWLEELQLQPWSRAKKSNDQPAFNWALMKTAK-EVDLYLLPQAAFPTGGLYFKNKTWVKET----KGMHVIIHNNYIVGFEKKIKRFRDYGLWLVD 346
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BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: A0A3P3YFC4_PLABS (Uncharacterized protein n=2 Tax=Plasmodiophora brassicae TaxID=37360 RepID=A0A3P3YFC4_PLABS)

HSP 1 Score: 125 bits (315), Expect = 8.980e-26
Identity = 87/287 (30.31%), Postives = 134/287 (46.69%), Query Frame = 2 
Query: 1781 WPRRYILDGVADAETGLVVVTSVNCGYLDMAANFLVSVRRHSDVQILFVAMDEVSFD-----YVDAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDGKPI---------NKCTCFMYLDTTPSVMQLIQLWKEEIIKTKVDQNQMAFQ---WPLVQMESLG----LRLDILPDEVMPPGFKFFNETYMEENHDRYKDRL--LIVHNNWVIGHEPKKQRFREYGLWQVEGWEFP 2572
            WP   +L  VA A+   +VV +VNCGYLD   N+L S++       + +A+D  ++      Y D       V  S     +    A ++G + F      RP+ LL  LRQG+ V ++D+D  WLGNP   +     DA         DG P          N CT  +YL+ T   ++L++ W   +I+T  + NQ  F      LV+ +  G    +R ++L  +  PPG+ +F +     +   YK +   +IVH NWV+G   K+Q  +E GLW+  G   P
Sbjct:  428 WPDPDLLSRVAIAKR--LVVAAVNCGYLDFVDNWLASIQALGITNYILIALDMHAYKTLMGAYPDHTILSVTVSESTQNQAQPDPNAREYGSAGFGNVVRSRPEFLLPFLRQGYTVFYSDIDTFWLGNPFDEIRQGEYDAQGPT-----DGHPSAPDDRQDASNICTGMLYLEATYPTIRLLEKWSSLLIQTNAEVNQAPFADALATLVRGDESGHTQKIRFNVLERDAYPPGYMYFKKDARWTSMHTYKPKRSPVIVHANWVVGKNKKRQILQEKGLWKPTGKLLP 707
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BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: A0A6P4CS42_ARADU (Glycosyltransferase n=8 Tax=Arachis TaxID=3817 RepID=A0A6P4CS42_ARADU)

HSP 1 Score: 120 bits (300), Expect = 1.660e-25
Identity = 86/268 (32.09%), Postives = 136/268 (50.75%), Query Frame = 2 
Query: 1820 ETGLVVVTSVNCGYLDMAANFLVSV-RRHSDVQILFVAMDEVSFDYVDAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDGKPINK---------------CTCFMYLDTTPSVMQLIQLWKEEI-----IKTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFF-NETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVE 2557
            + G V++  V+  YL    N+L+S+ R++    +L +A D  S   V+   PG AVL         A  A ++G   F   T  RP  LL +L  G+ V++ DVDMVWLG+PL  L     D    + M+ I  KP+N                C+C ++L  T     +++ W EE+      +T+   +Q AF W L++     + L +LP    P G  +F N+T+++E     K + +I+HNN+++G E K +RFR+YGLW V+
Sbjct:   88 KNGTVIICIVSQPYLPFLNNWLISITRQNRQDMVLVIAEDYASLYKVNERWPGHAVLIPP---VLDAESAHKFGSKGFFNFTARRPSHLLKILELGYSVMYNDVDMVWLGDPLLQLEG-NHDVYFTDDMIPI--KPLNHSHALPPPGKKGRPYICSCMIFLRPTDGAKLVLRRWIEELQNQPWSRTQKSNDQPAFNWALMKTAK-EVDLYLLPQAAFPTGGLYFKNKTWVKET----KGKHVIIHNNYIVGFEKKIKRFRDYGLWLVD 344
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BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: UPI0018D7AB2B (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 3-like n=1 Tax=Patiria miniata TaxID=46514 RepID=UPI0018D7AB2B)

HSP 1 Score: 109 bits (272), Expect = 1.920e-22
Identity = 77/245 (31.43%), Postives = 125/245 (51.02%), Query Frame = 2 
Query: 1832 VVVTSVNCGYLDMAANFLVSVRR-HSDVQILFVAMDEVSFDYVDAMAPGTAVLFSEGGSRRYAVGAGQ--WGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDGKP-INKCTCFMYLDTTPSVMQLIQLWKEEI--IKTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLW 2548
            V++ + N  +LD  AN+L S+RR  ++ +IL VA D+ +  ++    PG  V  S+G    +   A Q  W   I+ A    RP  +  LL+QGH VL++DVD VWL +P    P ++ D   A  + +   KP +  C  F++        + ++ W   +   KTK+  +Q+     L + +  GL+  ++P E+ P G  FF      + H   +  + +VHNNW+   E K QRF+E+GLW
Sbjct:   48 VILATTNKAFLDFTANWLESIRRLDTNPKILIVAEDKETQRFLYGR-PGVHVAASQG----FNTPAEQLPWDSPIYNAMVNKRPAYIYQLLQQGHDVLFSDVDTVWLRDPF---PYLQGDFHVA--VEEDQHKPYVAYCAGFVFFRAAEKTREFVREWLRRLHQSKTKIS-DQVLMNEMLTKDQIPGLKKMVMPSEIFPNGKLFFMTPGWRQQH---RQSVAVVHNNWIQSKERKLQRFKEHGLW 278
[Close]
BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: A0A2I0AKH8_9ASPA (Glycosyltransferase n=1 Tax=Apostasia shenzhenica TaxID=1088818 RepID=A0A2I0AKH8_9ASPA)

HSP 1 Score: 110 bits (276), Expect = 2.380e-22
Identity = 88/268 (32.84%), Postives = 131/268 (48.88%), Query Frame = 2 
Query: 1826 GLVVVTSVNCGYLDMAANFLVSVRR--HSDVQILFVAMDEVSFDYVDAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDGKPINK---------------CTCFMYLDTTPSVMQLIQLWKEEII------KTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFF-NETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVE 2557
            G ++V +V+  YL    N+L+S+ R  H D Q+L +A D  +   V+   PG AVL         A  A ++G   F   T  RP  LL LL  G++V++ DVDMVWL +P   L     D    + M  +  KP+N                C+C ++L  T     +++ W EE+       KTK + +Q AF W L +     + L +LP    P G  +F NET++ E     K + +I+HNN++ G E K  RFR +GLW V+
Sbjct:   94 GTIIVCAVSQPYLPFLQNWLISISRQKHQD-QVLVIAEDYATLYEVNNKWPGHAVLVPPAPD---AQTAHKFGSQGFFNFTSRRPQHLLHLLDLGYRVMYNDVDMVWLADPFPYLEG-HHDVYFTDDMAAV--KPLNHPHSLPPPGKKGRTYICSCMIFLRPTDGAKVVMKKWIEELQLQPWSKKTKSN-DQPAFNWALNKTAG-QVDLYLLPQAAFPSGGLYFKNETWVSET----KGKHVIIHNNYITGFEKKITRFRHFGLWFVD 348
[Close]
BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: UPI0014557604 (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like n=1 Tax=Asterias rubens TaxID=7604 RepID=UPI0014557604)

HSP 1 Score: 107 bits (266), Expect = 1.210e-21
Identity = 72/255 (28.24%), Postives = 125/255 (49.02%), Query Frame = 2 
Query: 1823 TGLVVVTSVNCGYLDMAANFLVSVRR-HSDVQILFVAMDEVSFDYV-DAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDG-KPINKCTCFMYLDTTPSVMQLIQLWKEEIIKTK-VDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVEGWEFPS 2575
            +G +++T+ N  YLD   N+L S+RR  +   I  V  D+ +F+Y+ +    G  VL ++  + +   G   +    ++     R   +L LL QG +VL++DVD  WL +P              ++ L+ D  KP + C  F+Y   T   MQ ++ W   +   K +  +Q+     + +    GL+L +L     P G  FF++ + ++  D      ++VHNNW++GH+PK +RFR   +W V+  E  S
Sbjct:   44 SGTILLTTTNSAYLDFTENWLESIRRTRACPNISVVTEDDQAFNYLSNKTMAGLNVLKTQ--TAKSTTGKLVFNTKEYKKFVNKRQGYILDLLEQGWEVLFSDVDTFWLRDPFLFFQG------NFDMALEEDNHKPASYCAGFVYFRPTERTMQFVKEWIRFMANDKTMKPDQVVMNIMIRRKVIAGLKLRVLDSNKFPNGKLFFDDEWRKDKKD-----FVVVHNNWIVGHDPKVERFRNCSMWLVDHNEIKS 285
[Close]
BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Match: UPI001454F6E2 (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like isoform X1 n=2 Tax=Asterias rubens TaxID=7604 RepID=UPI001454F6E2)

HSP 1 Score: 109 bits (272), Expect = 1.750e-21
Identity = 72/255 (28.24%), Postives = 126/255 (49.41%), Query Frame = 2 
Query: 1823 TGLVVVTSVNCGYLDMAANFLVSVRR-HSDVQILFVAMDEVSFDYV-DAMAPGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVLWTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDG-KPINKCTCFMYLDTTPSVMQLIQLWKEEIIKTK-VDQNQMAFQWPLVQMESLGLRLDILPDEVMPPGFKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVEGWEFPS 2575
            +G +++T+ N  YLD   N+L S+RR  +   I  V  D+ +F+Y+ +    G  VL ++  + +   G   +    ++     R   +L LL QG +VL++DVD  WL +P              ++ L+ D  +P + C  F+Y   T   MQ ++ W   +   K +  +Q+     + +    GL+L +L     P G  FF++ + ++  D      ++VHNNW++GH+PK +RFR   +W V+  EF S
Sbjct:  170 SGTILLTTTNSAYLDFTENWLESIRRTRACPNISVVTEDDQAFNYLSNKTMAGLNVLMTQ--TAKSTTGKLVFNTKEYKKFVNKRQGYILDLLEQGWEVLFSDVDTFWLRDPFLFFQG------NFDMALEEDNHEPASYCAGFVYFRPTERTMQFVKEWIRFMANDKTMKPDQVVMNIMIRRKVIAGLKLRVLDSNKFPNGKLFFDDEWRKDKKD-----FVVVHNNWIVGHDPKVERFRNCSMWLVDHKEFKS 411
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1144.10.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5K0G0_9PHAE9.250e-10867.82Nucleotid_trans domain-containing protein n=1 Tax=... [more]
D8LU02_ECTSI8.140e-9938.43Xylosyltransferase, family GT77 n=1 Tax=Ectocarpus... [more]
A0A1Y1HWG2_KLENI4.680e-2932.46Nucleotid_trans domain-containing protein n=1 Tax=... [more]
A0A6A5N1F9_LUPAL6.320e-2732.76Glycosyltransferase n=6 Tax=Lupinus TaxID=3869 Rep... [more]
A0A3P3YFC4_PLABS8.980e-2630.31Uncharacterized protein n=2 Tax=Plasmodiophora bra... [more]
A0A6P4CS42_ARADU1.660e-2532.09Glycosyltransferase n=8 Tax=Arachis TaxID=3817 Rep... [more]
UPI0018D7AB2B1.920e-2231.43UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]
A0A2I0AKH8_9ASPA2.380e-2232.84Glycosyltransferase n=1 Tax=Apostasia shenzhenica ... [more]
UPI00145576041.210e-2128.24UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]
UPI001454F6E21.750e-2128.24UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig1144contigA-nodosum_M_contig1144:116969..147880 -
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.D8LU02
PFAMsNucleotid_trans
Model size3584
Max annot lvl2759|Eukaryota
KEGG koko:K11714,ko:K20784
KEGG Pathwayko00514,map00514
Hectar predicted targeting categorysignal anchor
GOsGO:0000003,GO:0000271,GO:0003006,GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005794,GO:0005975,GO:0005976,GO:0006464,GO:0006486,GO:0006807,GO:0008150,GO:0008152,GO:0008194,GO:0008378,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009664,GO:0009832,GO:0009856,GO:0009987,GO:0010306,GO:0010383,GO:0010393,GO:0010396,GO:0012505,GO:0016043,GO:0016051,GO:0016740,GO:0016757,GO:0016758,GO:0016763,GO:0017144,GO:0019538,GO:0022414,GO:0032501,GO:0032502,GO:0033692,GO:0034637,GO:0034645,GO:0035250,GO:0035252,GO:0036211,GO:0042285,GO:0042546,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0043413,GO:0044036,GO:0044038,GO:0044085,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044262,GO:0044264,GO:0044267,GO:0044424,GO:0044444,GO:0044464,GO:0044706,GO:0045229,GO:0045488,GO:0045489,GO:0048856,GO:0048868,GO:0051704,GO:0052325,GO:0052546,GO:0070085,GO:0070589,GO:0070592,GO:0071554,GO:0071555,GO:0071669,GO:0071704,GO:0071840,GO:1901135,GO:1901137,GO:1901564,GO:1901566,GO:1901576
Exons8
Evalue1.99e-102
EggNOG OGs28KPY@1|root,2QT5X@2759|Eukaryota
Descriptionrhamnogalacturonan II biosynthetic process
Cds size2502
COG categoryM
CAZyGT77
BRITEko00000,ko00001,ko01000,ko01003
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig1144.10.1prot_A-nodosum_M_contig1144.10.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig1144 117885..130450 -


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

Feature NameUnique NameSpeciesTypePosition
1680866549.8485346-UTR-A-nodosum_M_contig1144:116968..1178841680866549.8485346-UTR-A-nodosum_M_contig1144:116968..117884Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1144 116969..117884 -
1680866549.9516423-UTR-A-nodosum_M_contig1144:130450..1305361680866549.9516423-UTR-A-nodosum_M_contig1144:130450..130536Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1144 130451..130536 -
1680866549.9605281-UTR-A-nodosum_M_contig1144:147800..1478801680866549.9605281-UTR-A-nodosum_M_contig1144:147800..147880Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1144 147801..147880 -


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

Feature NameUnique NameSpeciesTypePosition
1680866549.8622515-CDS-A-nodosum_M_contig1144:117884..1182201680866549.8622515-CDS-A-nodosum_M_contig1144:117884..118220Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 117885..118220 -
1680866549.8736444-CDS-A-nodosum_M_contig1144:123394..1235351680866549.8736444-CDS-A-nodosum_M_contig1144:123394..123535Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 123395..123535 -
1680866549.887619-CDS-A-nodosum_M_contig1144:124102..1242881680866549.887619-CDS-A-nodosum_M_contig1144:124102..124288Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 124103..124288 -
1680866549.9010732-CDS-A-nodosum_M_contig1144:124821..1249111680866549.9010732-CDS-A-nodosum_M_contig1144:124821..124911Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 124822..124911 -
1680866549.9198587-CDS-A-nodosum_M_contig1144:127469..1282221680866549.9198587-CDS-A-nodosum_M_contig1144:127469..128222Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 127470..128222 -
1680866549.9301624-CDS-A-nodosum_M_contig1144:128953..1296401680866549.9301624-CDS-A-nodosum_M_contig1144:128953..129640Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 128954..129640 -
1680866549.9389827-CDS-A-nodosum_M_contig1144:130141..1304501680866549.9389827-CDS-A-nodosum_M_contig1144:130141..130450Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1144 130142..130450 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig1144.10.1

>prot_A-nodosum_M_contig1144.10.1 ID=prot_A-nodosum_M_contig1144.10.1|Name=mRNA_A-nodosum_M_contig1144.10.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=834bp
MPSPNKRISAVAPPPPLHPAAAGPTLVLPNKPRRRPRRRMTLRRAGCVTA
VICLLIAFTNLLWEGVFIGGVILPGGRRERDGGDSSSGGSEGFDFGWHPR
SREETSPPHGSNEVGTVLLVALASGEEGKAALRAWSDFVLAERYLQQRPG
ERKEGEKQEGRLARERLETHRRPRRRLSVGGGGVAGAGEGGFQSKKKAVA
RPPSSSFPTVWVLTSDPSLDEAVRSWMPHLLSFFVPKAAAAADSGSGGEA
TSPRWIDVIESFLLANEGVDVFGVFGEGTLPSPGLGKVVETLRPVLASSV
PPTAVLSRSRWDDRIREGAGKREWLPDKLLAQVWFNRAMLAAARRKGADL
HDERVEGLTMLQVLRRLVRDPASLGALLVDGTNVVGSTHARSRRPFPPFE
AVAAAAVGAGAEAGDSRERDRSSRGDPEDVPAPPPLGETSSTWWREENKE
ESKAWGDDFFFGGGGFPDGVGGGSYYGRAAWAKQDSCEEGEPGDVYIGKV
DHALVFGEGKKSAALRGATVAGSGPRSDGSGYAIVKASWPRRYILDGVAD
AETGLVVVTSVNCGYLDMAANFLVSVRRHSDVQILFVAMDEVSFDYVDAM
APGTAVLFSEGGSRRYAVGAGQWGDSIFRAETLVRPDILLSLLRQGHKVL
WTDVDMVWLGNPLGLLPNVREDASAAEIMLQIDGKPINKCTCFMYLDTTP
SVMQLIQLWKEEIIKTKVDQNQMAFQWPLVQMESLGLRLDILPDEVMPPG
FKFFNETYMEENHDRYKDRLLIVHNNWVIGHEPKKQRFREYGLWQVEGWE
FPSCQKKRTLSREEEQGDALREDWLRAEHVTYS*
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mRNA from alignment at A-nodosum_M_contig1144:116969..147880-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1144.10.1 ID=mRNA_A-nodosum_M_contig1144.10.1|Name=mRNA_A-nodosum_M_contig1144.10.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=30912bp|location=Sequence derived from alignment at A-nodosum_M_contig1144:116969..147880- (Ascophyllum nodosum dioecious)
TGGTCTCCTTCGAGAGACACAACTGCCGTCAAGAATCTACTGGGAGTTGA
AGAACTCCATAACAACTAACCGTGGTGCAGGTGGGTACGACATTGGGCGG
ACAGCCGCCCATTCCCAAGGCTGTGTCCGAGGTTGTGACGAAGCAGTGGC
ACTGCTCCCCCTTGGTAATAGAAAAGAAAGAGAAACTGTCTTCAGTAACC
TGTCTTGACGTGCTGACCAGGAATCTCAGCGTGGATCATCCTTCGGATGG
CGGTTGCCCCGCGACTTGTGGGACCAGCGAAACTTTGGGTGAGACATGTC
AAAGGGAAAAGCTGAACGCCTCAATCTCTCCGAGCATCCACCGTCCGGGT
GTAGTGTATGTGGTGTGTCGAAGGAAACCTTTGGTTTGGAGCATCGAATG
CTGTAACAACAAAAAATCACGCGACAGTTGATCGGGTTCTCTGTAAGGAT
AATCGTACAGGGAAAAAATATACTGGTACCAAAATATAATGATGTCGCTT
TTACCGAGTATTTTTTGTACCATTTCCGCTTTCTCTTTGTATGGAGAGTG
CGTCTTTCGTTCTTTCCTTCCGAATGGTGTTTTTCTTTCTACCTTGTGAC
CACGGGCTGGATTTTTTACATCAGCGTATGTTGTTGTTGTTGTTGTTGTC
TTCACATTAACCGATCGGGCCTCAACCATACCCAGTAATATACGTGGTTG
CCAATCCGGTACGTGGTCACAAAGAGGTACCAAGGTCAACGGGTCACATC
ATGGTGACAACCCGCTACTCAGACCAACAGGGATCCAAATCGCGACAAAA
AGTTATGCGACTCTACAAGCGATGGCACCGACCAATAGCAAAACGGTTCA
TCAAACTTCCTTTATTCCATATCGAGAGCAGCCTCGATCGACTCGGATTG
TTGTCGCCTACCCACGACCAGCGTTCTCAGCAACAAATCGGACAAACACG
TTCCAACCAGTTTTGATCAACAATTCCAAGTTTCTCAAGGCTAGACATCG
TACAAAAATAAGGAAAATTGAAATACCGAGGTCCATGCCGGTCGCCCCGG
TAGCTCAGAGGTACCATGTAACCTCTGACACGTTGGGACGTGAGTTCGAT
CCCGGCAAACGGGATTTTTCTCACTGAAAAACTAAAAAATGAAAATAAAA
ATGCCCAACGGGTGGAGAACGATTAAATCGTAAGTACACAAAAATTCGAC
TTCACGTTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGAGAAAAA
TCAAGACAAGCACCGCAGAAAGAAGGTGGATGGAAAATCCTGTGTTACCT
TCTTCCTGTGTGACCCCGGCTGGTACGTCCATTGAAGTCCAGAATAAATG
GGAAGAAAACACACACACACACATGGTGGTGGAGGCCTTGAGCTGTTGCA
GCCGGCACGCGAGCCAGCATCCAGCCGTCACAAAGCCCTGTGCATCCTTG
AAAAAACCCCACGAATCTTGCCCGTTCGCCGCTCCATGTGGCCCTCGTAG
GAAGAAAAATGACCGTGGTCAGAGATCAGCTTTTCCCTCAGAAACCTCCC
GGTTCGCGCTTTCGATTCTCGCGCACAGGGTTCAGCCCTCCCCTGGCTCG
TCAACGATCGAGCTGCCCTCCGCCTTCGCCGAATCTGGTGCGTACCCACC
TGATAGAGAACCACCAGGCTCTCCGCGACAGTGCTCCCTGCCTCTCGCGT
GCCGCCACCCTCCCGAAGGCCACCGAATTGGAGCTCGGAAGAGGCGCACA
CCTGAAAACACCATCCTCAGCCAACCATACTGGCGCCGCGTCTCAACCGA
CAGGTCGGATCGCGAAGGCAGCCAGTCGGCTGCATCTCTCGAGGGTGAGC
CCGGCCCTACTCCCGCCGGAAAGACCCTCCCACACTCATACCCCGAAACC
AGGTTTCGGAGGGAGAGGGCACGAGGTAGCTTATGTGAGAATTCGGTCAA
TCAATCAATCAATGTGACGTGAAATACATTCACAACCTTTCCATTCCCAG
CGTACAGTACATATTTTTTCACCTGGGGATTGAAAATCTGAACGCATCTA
GACCTTCTGAGCATGCCCCAGTGGTCGGGGGGAAAAAATGCCAAAACATT
TAGGTAGGATCATAGTCTGTTGTTTACAGAAAATTCAGAACGCGCATCTA
ATCCTTCTATTAATATCAATATAATAGAGCTGTTAATAGATCATCCAGCT
CAGAGGTACCTCGTAACCCTCTGACACGTTGGGACGTGAGTTCGATCCCG
GCAAACGGGATTTTTCTGCCCAACGGGTGGAGAACGATTAAATCGTTAGT
ACACAAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCT
TCTCGCGAGAAAAATTAAGGCACGCACCGCAGAAAGAAGGCGGATGATAA
ATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAA
CTTGATGTCCAGAATGAATGGGAAGAAAACACACACACACACACACACCT
AGTCCGGGGGGAATTTGTCAAAGCGTTTAGGTGGGAACTTTGGTTGTAAA
CGGGACGAAAATCCTTCGTGGAATATTTTCAGATTCCCCAATTCTAGTAG
CATACTACTCTGTATGTATGGTCATCACACATAGCAGAATATGGATCAAC
CGGGTAAGGTTGCCAATCCTGCTCGTGGCCAGCTGAACAGGGAAAATAAT
ATTCCCCTGTCCACGTGCGTGCCTGAGAATTTGGTCTCGCGAGACGGGTT
CAGCCGTCCCGTCCCGCGTCAGCCTGCTCATTTCCATACTCAAGCTGAAT
CTGGTGCTTACTTACGGGATTCCTCCCGAGTTCCGCGGCGGCGTCCATTT
ATGAGACCGCCATACGCCATCGGGTCAGTCCCGAGTTTATCGGGTCATGC
AAATGCGTACCGATGGCGTTCACTGCCGAGAGTCCGCCGGCACAGGGCCA
GTAAACCTCAAGGTAATTCCAAACGGGTGCTGCCTTGGCAGATCACCATG
GACCAATTAATATTCGCCTCTCTTTCCCACACCCACTATTGGATATGAAG
TGGGCATGTTGAAAGTACCGGCGGATGGGTCGACAGTATAACATCGTAGA
GAAACCCACCGTCATACTGTACACTTACATGAAATCGCCATGCAGGGAGA
CCGAAACAGAGACAATGTGTCCCCCGACAGGGTGGATGCTCAGAAGGTTT
AGATGCGTTAGCTCAGATTTTTATTTAAAAACAGATGCAAAGGTACACGG
TGGACCGTTGGATATAGACTATAGTAACCCAGCTGCAGTATGTTATAGAG
TATTGGGTTTGGGATCGGGTCCAAATATTGGTGAATCGGAGCCGATTGTA
GAAGTTACACTGGTACCTATCAATAGATATGATACCCTAGTACTAATACT
ATAGTATGTTTTCTGACAACGATGAGGTGCGATGATATAACGTGAGATTA
GTATTCCGTACCTACTATAATTGGACGCCGCCGCGGAAATCGGGCGGAAT
CCCGTAAGTAAGCCACCAGGTTCAACCTGAGTATGGAGATGAGCAGGCTG
ACGCGGGACGGGATTGCCGAACCCGTCTCGCGAGACCAAATTCTCAGGCG
CGAACGGGGACAGGGAAATATTCATTTTTCCGTGTTCAGCCGACCACGAG
CAGGGTTGGCAACATTACTCGATTTTGATCCTTCTTTTGCTGTATGTGAT
GACCATACATACATACATACATACATACATACATACATACATGCATCATA
CCTACCGCCGGTACTTTCAACATGCTATAACTATTTAATATTAATATAAC
CACTTCATGCCAATAATAGTATAGTGGGTGTGGGAAAGAGAGGCGCGTGT
TAATTGGTCCATGGTGACCTGCCAAGGCAGCACCCGTTTGGAACTACGTT
GAGGCTTACTGGCCCTGTGCCGGTGGACTCCCGGCAGTGAACGCCATCGG
TACGCAATTGCGTGACCCGATAAACTTGGAACTGACCCGATGGCGTATGC
GGCTTAAATAAATAAATGGACGCCGCCGCGGAACTCGGGAGGAATCCCGT
AAGTCAGCACCAGATTCAGCTTGAGTATGGAGATAAGCAGGCTGACGCGG
GACGGAACTGCCGAACCCGTCTCGCGAGTCCAAATTCTCAGGCGCGAGCG
GGGATAGGGAAATATCAATTTTCCCTGTTCAGCTGACCACGAGCAAGATT
GGCAACCTTACCCGGTTGATCTTTACCCTTGCTACATGTGATGACCATAT
ATACATACATACATACATATAACATTGTTTGCCAATCCGAATAAAATAAA
AGAAACGGTTTGGCCGATCCGCGAGGGGAAGAGATAGATCCTGCTGAGGG
CCTCTGACCAAATACTGTATCGCATCCCCACTGTGGGTGCGTTGCGCTTC
GAGAGATCGATACGATGCTTCTGTTGGGAAATGTTGGTTTGGTATCCTTA
TTACAGCAGTCCAGAAGACTACATAATATGTACAGGCTGTCGTTAGTACG
TCCACCGAGTCCTACTTTCCCACCCGTCCACCTGTGGCGGTTTAAGGTAC
GGTTTTTGTAAAGCACTTTTTTCTTGGAAAAAATAATTTACCTTTAATTT
ATTTAAAAATAAAGTGAATTTTTCGTCAGTAACTTATCGCAGTTTAATCT
TACCCACCACTGCAAGCTTTGGCTTGCTATCATAGCTTCCCTACCAGAGC
GACTACATCCGGCGGTAAATTAATGTTGGGAAAATCCGCTAGGCTTGAAT
TTACTCAGTTGTCAGCACTGAAAAGCAGTGATCCTGCGCGTTCCCCTCAT
CTTGAAGAGTTGAAAGTTCCCTACTACAGGGGATGCTACTGCTGTACCTC
TGTGATGGTACTCTACAGTAGTAGTATTAATTAAAATTATTATAATACGC
AATCCGCCCAAACATTAAAGTAATAATGAATAGTATTGTAGTACGCAGTT
CGTAGTAGTGTCACTATGATAGCAACGACGGCAGTGTGGACGCTCAGAGG
GTTTAGATGCGCTCGTCTAGGTATATTATAACTGTGTACTAAAGGCGACG
AAACCAACGAGTCGTTTGGTAGCCAGAACAGAAAAAAAAAAAAACTGAAA
TGTGATTGGACTATGATACTATTCATATTAATATTAACACTATTATTTGC
ACTAACTGTGGGTTTTGGCCCCAACGACGACTTCTATGATACGAGAATGC
TTCGGTCTGGCACAAATAATATTTGATCGGACTGAGAACGTCGTTTGCCT
GTACTTAACATAGGATAGGTTCGGGTCTATAGCATTCTGACCCTCGGAAT
ATCCACACCCGTAATCCTTTTTTTATACACTGGTACTTTCAACATGCCCA
CTTCATATCCAATAGTGGGTGTGGGAAAGAGAGGCGTATATTAATTGGTC
CATGGTGATCTGCCAAGGCAGCACTCGTTCGGAACTACCTTGAGGTTTAC
AGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAATT
GCGTGACCCGATAAACTCGGGACTGACCCAATGGCGTATGGCGGTTTAAA
ATAACTAAATGGACGCCGTCGCGGATCTCGGGAGGAATCCCGTAAGTAAG
CACCAGATTCAGCCTGAGTATGGAGAATGAGGAGGCTGACGCGGGACGGC
ACTGCCAAAACCGTCTCGCGAAACCAAATTCTCAGGCACGAACGCGGACC
ACAGGGAAATATTCATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGC
AACCTTACCCGGTTGATCCATACTCTTGATACAGTATATGTGTGTGGCCA
TACACAAGAACCCGCGGCGAAAAATTGGGGAGGAAGGGAGGACTCGAGTC
CATGAGGATTTTGTAGTATAATAGCACTACACCAACGGGTCCCTGCTATC
CTTCCCTGTGTGTGTATTTCACATAAAACAGGAAACCTCGCTATGTAGAT
GGACATGGAGGGGACCCATGCAGCAGGATAGCTGTAAGCAGTAGACGAAG
CTAAACGATGGTAGTATACTGTGAAACAAAGATAGAGCTTTGTCTTTATA
ACTGGAGTACACCCCACATTTCTGGGAAAAAGGAACACCATCGGCGCTGG
ATGAAACTAGACTAAATAAACTGTAAGAGACCCTTACCCCTTGCCTAAGA
CAACCAGGGTCTCGATATACAAAAGGACTGTACTATACTGTGCTGTTCCG
TTTTCGCGTTTTAAATATTTATAGTCGAACGTTTGTACTGTAGGCTATAC
ACATCTTGAAAGGTACAACGTAAAGAAGAAAGAAGCCCACCGTTACACTG
CACAAAGTTTAGCACAGTAACTGAGCTCTCTAACTCTACCCTTAGTTTAA
AGAAAAATCGGAATGTACCTAGACCTTCTGAGCTTAGTTGTCATACTCGT
ACCCTTAACTGGCATAGGCTAAATCCATAAACCGTTAATGTACTCGTGGC
CTGCGCGTGGAGAAAGAGCAGGCCGACGCGGGCCGGGACGGCCGAACCCG
TCTCGCGCAACCAAATTCTCAGGCGCGAACGGCGACAGGGAAATATTTAT
CTTCCCTGTCCAGCTGACCTCGAGCAGGATTGGCAACGTTCCCCGGTTGA
TCCATACTCTACTGCATGTGAGGACCATACATACTTACATACATACATTA
CTGTACCACCATATTGGGTGCAACTTGGACTGAACCGTACTACTGGCTGC
ACATCTCGTCCAAACCAAAACCAAAACAGATTGGACTGAGTATTTTGGTT
TATGGGCCAGGCCGTGACTTTCGTTTTCTCTGTTTTAAGTAGTCCCAACT
ATTAAGTACTTCGTATTTCATAGCGTAACTATATATTGTTAATGGTAGGT
TTTACCCTGAAGCGTAGACGTAGGTAATTCGTAGGGTCTCTTATAAATTT
ATTTTTCTGCCCAAAATTGAAAGCCTTTGTTAGTTGCCTGGTACAGGTGT
CAAGTTGGGCATCGCCAGAGAATAAACAGCCCTGGGATGCATCCCGCTGT
CCAGCAAGAGGTCGCCGATAGTCTGTAACACAGCTTAAGAAAACAGTTAC
CTGGTATATTAAGAAGTAGGTTTTCGTAGAGGCAGCGGCTCACTCGCGAG
CAACGTGAGCCCTCCGATATATATCTCGCGCAAATCTTGCCGAGCCACGG
ACACCCCAAAGCGCTAGGGGATAGCTGGTGTAGTGCCCCATGCCCCTATA
CCGGGAGTCTTGAGTAATGGTCTGAGTCGTCATCGTGGGCTTCATTGAAC
GAGTATCGCAAACAGTAGCAAGCCCGTGATAAATCTAATTTTCAGTTGCC
GCAGCGCCGCCATGCCGGCAGCAGTCGTTCGTGTCCACCGATACGGGGGA
GCGGTTCCCCGCAGGAAGACTATTAGTCTCTAATAACAAGTAAAATCAAC
AACAACAACAACAAACAAACAAAAACGGGAGTGTTTTTCTACAACGTCGC
GACATCAGACACGGACTAGGGCTTGGGTCCAGGAAAATATTCCGAAACGG
AGCGGACTAGGTGGGCATCGGTATGATGCAGGCGACCCCCGTTGCTTTTA
TCGGGGATGTTAGCATTGTTTGGGTGCTGTACGTGCATGTCGACTAATTA
GACTAATTTTTCATGTGTAATCGAATCAAATATTTGTGTTGTGGATTGTC
CGGGTTGGATAATTGGGATTCGGTATAAACCCCTGGCACAAACATCTAGT
TTCAATTATAATACTTTTTACGGTTGGGCGCACTCGCGGTGACTTGACCT
CCTTAATATTTGTTTGTATACTACTAAAGCAGTGAGCCGGTCGCCCCGGT
AGCTCAGAGGTACCTCAAACCCTCTGACACGTTGGGACGTGAGTTCGATC
CCGGCAAACGGGATTTTCTCACTAAAAAAAAAAAAAAACAAAAAAAATGC
CCAACGAGTGGAGAACGATTAAATCGTTAGTACACAAAATTCGGCTTCAC
GGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGAGAAAAATTAAG
GCACGCACCGCAGAAAGGACGTGGATGAGAAATCCTTTGTGACCTTCCTC
CTTTGTGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGAAT
GGGAAGAAAACACACACAGTGTGTTTAAAGAAAAATCTGAACGCGTCTAG
ACCTTTTGAGCATCCCCCAGTCAGGGGGGAAAATGTTAAAACGTTTAGGT
GGGATCATAGGCTGCAAATAGCAAATGTAGTTTGTTAACTCGCATTAACT
GATCCGCTTCGAATCCAGCCGTGGTCACAAGATAGACGGAACCGAACCAA
ACCAAACCGAGAACACGCTCGGAGGGAAAAAAACAGGGAAAGCAGACAGG
GGGAAATGAACCAGAAAGTAGCCTGCAAAGGACATCGTCGCCAGAAAGGG
ACACAGAAGAGACAAAAAAAAAAAAAAAGCGAGAAGACAAACTAAAGCAC
GAATAAAAACAGAAGAAACAAACAAAAGGCGACCACATTCTTGTATAATA
CACGTAGGGCAAGTAAAATATCCTCCTCAAGCAGGCTACGGAAGAAAGGC
GGTCATACAAGCAGCGGGAGACAACCCAGACAGGAAGACAATAGGTTTTC
GTAAAGGCAGCGGCTTACTCGCGAGCAACGTGAGCCCTCCGATATATATC
TCGCGCAAATCTTGCCGAGCCACGGACACCCCAAAGCGCTAGGGGATAGC
TGGTGTAGTGCCCCATGCCCCTATACCGGGAGTCTTGAGTAATGGTCTGA
GTCGTCATCGTGGGCTTCCTTGAACGAGTATCGCAAACAGTAGCAAGCCC
GTGATAAATCTAATTTTCAGTTGCCGCAGCGCCGCCATGCCGGCAGCAGT
CGTTCGTGTCCACCGATACGGGGGAGCGGTTCCCCGCAGGAAGACTATTA
GTCTCTAATAGCAAGTAAAATCAACAACAACAACAACAAACAAACAAACA
AAAACGGGAGTGTTTTTCTACAACGTCGCGACATCAGACACGGACTAGGT
CTTGGGTCCAGGAAAATATTCCGAAACGGAGCGGACTAGGTGGGCATCGG
TACGATGCAGGCGACCCCCGTTGCTTTTATCGGGGATGTTAGCATTGTTT
GGGTGCTGTACGTGCATGTCGACTAATTAGACTAATTTTTCATGTGTAAT
CGAATCAAATATTTGTGTTGTGGATTGTCCGGGTTGGATAATTAGGATTC
GGTATAAACCCCTGGCACAAACATCTAGTTTCAATTATAATACTTTTTAC
GGTTGGGCGCACTCGCGGTGACTTGACCTCCTTAATATTTTTTTGTATAC
TACTAAAGCAGTGAGCCGGTCGCCCCGGTAGCTCAGAGGTACCTCGTAAC
CCTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAAACGGGATTTTTCT
CACTTAAAAAAACAAAAAACAAAAAAACAAAAATGCCCAACGGGTGGAGA
ACGATTAAATCGTTAGTACACAAAATTCGACTTCACGGTCGACGAGGGAA
AGGAATGGCTGAATCCTTCTCGCGAGAAAAATTAAGGCACGCACCGCAGA
AAGGACGTGGATGAGAAATCCTGTGTGACCTTCCTCCTTTGTGACCCCGG
CTGGTACGTCCAACGAACTTGATGTCCAGAATGAATGGGAAGAAAACACA
CACACAGTGTGTTGAAAGAAAAATCTGAACGCATCTAGACCTTTTGAGCA
TCCCCCAGTCAGGGGGGAAAATGTTAAAACGTTTAGGTGGGATCATAGGC
TGCAAATAGCAAATGTAGTTTGTTAACTCGCATTAACTGATCCGCTTCGA
ATCCAGCCGTGGTCACAAGATAGACGGAACCGAACCAAACCAAACCGAGA
ACACGCTCGGAGGGAAAAAAACAGGGAAAGCAGACAGGGGGAAATGAACC
AGAAAGTAGCCTGCAAAGGACATCGTCGCCAGAAAGGGACACAGAAGAGA
CAAAAAAAAAAAAAGCGAGAAGACAAACTAAAGCACGAATAAAAACAGAA
GAAACAAACAAAAGGCGACCACATTCTTGTATAATACACGTAGGGCAAGT
AAAATATCCTCCTCAAGCAGGCTACGGAAGAAAGGCGGTCATACAAGCAG
CGGGAGACAACCCAGACAGGAAGACAAGAGGTTTTCGTAAAGGCAGCGGC
TTACTCGCGAGCAACGTGAGCCCTCCGATATATATCTCGCGCAAATCTTG
CCGAGCCACGGACACCCCAAAGCGCTAGGGGATAGCTGGTGTAGTGCCCC
ATGCCCCTATACCGGGAGTCTTGAGTAATGGTCTGAGTCGTCATCGTGGG
CTTCCTTGAACGAGTATCGCAAACAGTAGCAAGCCCGTGATAAATCTAAT
TTTCAGTTGCCGCAGCGCCGCCATGCCGGCAGCAGTCGTTCGTGTCCACC
GATACGGGGGAGCGGTTCCCCGCAGGAAGACTATTAGTCTCTAATAGCAA
GTAAAATCAACAACAACAACAAACAAACAAAAACGGGAGTGTTTTTCTAC
AACGTCGCGACATCAGACACGGACTAGGTCTTGGGTCCAGGAAAATATTC
CGAAATGGAACGGACTAGGTGGGCATCGGTACGATGCAGGCGACCTCCGT
TGCTTTTATCGGGGATGTTAGCATTGTTTGGGTGCTGTACGTGCATGTCG
ACTAATTAGACTAATTTTGGATAATTGGGATTCGGTATAAACCCCTGGCA
CAAACATCTAGTTTCAATTGTAATACTTTTTACGGTTGGGCGCACTCGCG
GTGACTTGACCTCCTTAATATTTTTTTGTATACTACTAAAGCAGTGAGCC
GGTCGCCCCGGTAGCTCAGAGGTACCTCGTAACCCTCTGACACGTTGGGA
CGTGAGTTCGATCCCGGCAAACGGGATTTTTCTCACTAAAAAAAACAAAA
AAACAAAAAAACAAAAATGCCCAACGAGTGGAGAACGATTAAATCGTTAG
TACACAAAATTCGGCTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCC
TTCTCGCGAGAAAAATTAAGGCACGCACCGCAGAAAGGACGTGGATGAGA
AATCCTGTGTGACCTTCCTCCTTTGTGACCCCGGCTGGTACGTCCAACGA
ACTTGATGTCCAGAATGAATGGGAAGAAAACACACACACAGTTTGTTTAA
AGAAAAATGTGAACGCGTCTAGACCTTTTGAGCATCCCCCAGTCAGGGGG
GAAAATGTCAAAACGTTTAGGTGGGATCATAGGCTGCAAATAGCAAATGT
AGTTTGTTAACTCGCATTAACTGATCCGCTTCGAATCCAGCCGTGGTCAC
AAGATAGACGGAACCGAACCAAACCAAACCGAGAACACGCTCGGAGGGAA
AAAAACAGGGAAAGCAGACAGGGGGAAATGAACCAGAAAGTAGCCTGCAA
AGGACATCGTCGCCAGAAAGGGACACAGAAGAGACAAAAAAAAAAAAAGC
GAGAAGACAAACTAAAGCACGAATAAAAACAGAAGAAACAAACAAAAGGC
GACCACATTCTTGTATAATACACGTAGGGCAAGTAAAATATCCTCCTCAA
GCAGGCTACGGAAGAAAGGCGGTCATACAAGCAGCGGGAGACAACCCAGA
CAGGAAGACAAGAGGTTTTCGTAAAGGCAGCGGCTTACTCGCGAGCAACG
TGAGCCCTCCGATATATATCTCGCGCAAATCTTGCCGAGCCACGGACACC
CCAAAGCGCTAGATAGCTGGTGTAGTGCCCCATGCCCCTATACCGGGAGT
CTTGAGTAATGGTCTGAGTCGTCATCGTGGGCTTCCTTGAACGAGTATCG
CAAACAGTAGCAAGCCCGTGATAAATCTAATTTTCAGTTGCCGCAGCGCC
GCCATGCCGGCAGCAGTCGTTCGTGTCCACCGATACGGGGGAGCGGTTCC
CCGCAGGAAGACTATTAGTCTCTAATAGCAAGTAAAATCAACAACAACAA
CAACAAACAAACAAAAACGGGAGTGTTTTTCTACAACGTCGCGACATCAG
ACACGGACTAGGTCTTGGGTCCAGGAAAATATTCCGAAATGGAGCGGACT
AGGTGGGCATCGGTACGATGCAGGCGACCTCCGTTGCTTTTATCGGGGAT
GTTAGCATTGTTTGGGTCCTGTACGTGCATGTCGACTAATTAGACTAATT
TTTCATGTGTAATCGAATCAAATATTTGTGTTGTGGATTGTCCGGGTTGG
ATAATTAGGATTCGGTATAAACCCCTGGCACAAACATCTAGTTTCAAGTG
TAATACTTTTTACGGTTGGGCGCACTCGCGGTGACTTGACCTCCTTAATA
TTTTTTTGTATACTACTAAAGCAGTGAGCCGGTCGCCCCGGTAGCTCAGA
GGTACCTCGTAACCCTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAA
ACGGGATTTTTCTCACTAAAAAAAACAAAAATGCCCAACGAGTGGAGAAC
GATTAAATCGTTAGTACACAAAATTCGACTTCACGGTCGACGAGGGAAAG
GAATGGCTGAATCCTTCTCGCGAGAAAAATTAAGGCACGCACCGCAGAAA
GGACGTGGATGAGAAATCCTGTGTGACCTTCCTCCTTTGTGACCCCGGCT
GGTACGTCCAACGAACTTGATGTCCAGAATGAATGGGAAGAAAACACACA
CACAGTGTGTTGAAAGAAAAATCTGAACGCGTCTAGACCTTCTGAGCATC
CCCCAGTCAGGGGGGAAAATGTCAAAACGTTTAGGTGGGATCATAGGCTG
CAAATAGCAGATGTAGTTTGTTGTTAACTCGCATTAACTGATCCGCTTCG
AATCCAGCCGTGGTCACAAGATAGACGGAACCGAACCAAGCCAAACCGAG
AACACGCTCGGAGGGAAAAAAAACAGGGAAAGCAGACAGGAGGAAATGAA
CCAGAAAGTAGCCTGCAAAGGACATCGTCGCCAGAAAGGGACACAGAAGA
GACAAAAAAAAAAAAAAAACCGAGAAGACAAACTAAAGTACGAATAAAAA
TAGAAGAAACAAACAAAAGGCGACCACATTCTTGTATAATACGCGTAGGG
CAAGTAAAATATCCTCCTCAAGCAGGCTACGGAAGAAAGGCGGTCATACA
AGCAGCGGGAGACAACCCAGACAGGAAGACAAGGACAATGGGTGCGACAC
ACTGCGAGATAACAACCCAGGCAGGAGGAGGGAAAGGGGGACAGCAATCA
AACCAATTAAAACAGTGAGGTAAACAGACACAGGGAGAAGCATCGCGAGG
GGTTAGCTACCCAAAAATTAAACAGGAGCAGTACCCATCACCGGACTCAC
CTATCGTATATCGCAGGAAGAAAACAAATATAATCAACAGAAAATTATAA
TACAGTAACGCAAGTGACCAGCGTGATTGCTCTTTAGACAGCATCGCACT
CACCGTACACACGTACACATGCGCGCCACACGCGCGCTTGGTGGAGTGGG
CGTTGGCGTCTACCATAGCTGGTGGTGGTTGAGACGAGCTGCCGCGGCAG
GGCTGCCAACCGCGGAGGAAGTAGCCCGCGATCCCAGCGTATGTCAGAAC
CAGACCTACATGGGACATGAAGCATTACGCCAGACCCGCCTTCACCGCCC
AAGGTGGCGGTCTCGGACTTGCCAGCAGCAACTCAATCTAAGGTGCAGCC
TACATCGGTCAACACGCCTTGGTTCTGGGACGTGTTGTCACTGCCTCCGT
CCGAGGAAACCTGCCGTCCCTCCTCGAGCGGAAACCCCTAATTCCCCAAC
GGCGCTGGGGCTTCTTGAAGGCGTGAAGAATGTAGCCACTGAGGGAAAGA
GAAGCCAGTTATAGGGAGCGATGGTCGCTTCGTGGGCAGCCCCGGCGGTG
GAAAAGAACCCCTCAAGGGAGAGAGGTAGGGCCCTGCTGGTTGATGCGGG
AGCAGGAGGAGGGGCGGGGAGGGGGGAAGGTCAGACAAAGGGTAAAAAAG
ATCCGTCGGGAGGATGATCTGAGCCCAGACCAACCGACGCGTTGTGGGAG
TTGTGACCCGTGTCCATCCAAGCTCTTGCGCGCCGTCGAGCCAAGCTCGT
GGAGGACAACGTACAATAGGAAAGTAACACCATGAAGAGAGCGATGGTGA
GGTTTAAGGAGCGCGGGAGAATGGGGCCAGGGTATTCGTTGAATGCAGGG
AGATCTTGCAAGAAGACATGACGGAGGACTCCCCGTGGAGGGAGCCTTGG
GCAGGAGCAGAGCGCGGGCAGCTAAATGATACCCCGGGTGACGGGGTAGC
TGCTCTGTAGATCTACCATATCTCCTACCCCCCCCCCCCCCCGCCCCATC
CCCTAGTGTATCACACCTAATGGTATATCGTAGCCCATGGTATACTGCAA
CGCATGGTGTACCACAACCTATGGGATACCGTAACCCATGGTGCACCGTA
ACCCATAGTACACCACAACCCATGGTACACCGCAACCCACGGTGTACCGT
AACCCATGGGACACTGCCGCCCATGGTATACCGCACCTCATGGTAGACTC
CACCCCGCTCACCCTGGTATACCACACACTATTTTCACTCCTATACCACA
CCCCATGTCGTATTGTATGTACCACACGCCCTTGGTGTACCACACACCCA
TGGTGTACCACATCCCCATGGTATACCATAGACTCGTCGCCCGAGTGTTC
CAGTAGGTAACGGTGTGAATCTCTTGAGTTGAATTTTAAGTTCGATTCTC
AATTCAGGATGATCCGGTGTCCGCGGCGGAAAGCATGAAAACATGAGTGA
GTAAGTAAAACCGGGGCATAAACCGGGGAGAGATGGATTTAATCCCCTGA
TGAAACTACTAGCGGGATGGGTAACTTCGCAGTAGGTAGTATTTAGTAAC
CTTGGGGAGATGATTGTTTCTCATCGGCAAAAAGTAATGTATGATAGATA
ACAAACAGAAGAGAAAGACATATCCTCTGTCATCTATATGGCAAACCTCC
CCGGGATTTTGCGGGTTAAGGTTTTGACCCATGCGGTCGTTATTTTTCCC
TATAAAAGGCTTGGTTCTACAGCACCTGGTCTGGTATGCTATTACACCAT
CGGAGATGTAGCTCCATGCTATGCTGTCTACACAGTAAATACCTCCGCCA
ATCACGCCGATGCGGTACCGTTCTATCTATTAATAGCTTGTTTCCTTTTG
AGTATGTGAAACACTTTGCTCGCTGACTCCGTGCCTCGACTATCACTTGC
CCTTTACAAACCAAACAAGAAGATAGAAAGTGGCAGAAGGAAGTACCTAT
AGGGGGAAATTAGAGTCGGAGAGGGGGGTGGAGTTCCATTCCAAGGAGTT
GGCGTTCGGATCTTTGGTCCACCTGTTGCCTTTTGTCTTTTGAGTTATTG
TTATTAGAGGTAGTTTCAGTAGTTTGGTGGCTGGAACTGCTTTGATTCCT
CCCACAGGAGGCAGGCTTCGTTTTTGGTTGCCTCTCATCTTACATTTCTG
CCGGTGGCCCCAATCAACCAATCATCGTGCTAGTAGATCAACAGTACCAC
TCACAGTAGCAACGTTGCCATTCTGCCTGTTGTGGTTACTGAGGAGTTTC
CCCATCTCTCTCCGGTTGTGCCCTTCGAGTTTTTCAGTGGCGATGCAAGT
TCAGCACGAACTACTCTTACACATGCCATCGTTAACCAATCAATGATGTA
CCAATCAATGATGTACCAATCAATGACGGTGAAAGTTTTCTTACTCGTGT
TCCCGCTACGGAGACCAGAATAAAAGAAATCGTCCTGTCAAGAAAGGAAT
TTACAAGATCTGTACTCTGTAGTTTTTTGAGGAGTTCGCTACTATTTATA
CTGATAATAGCATCTCGTGCCCTCTCCCTCCGAAACCTGGTTTCGGGGTA
TGAGTGTGGGAGGGTCTTTCCGGCGGGAGTAGGGCCGGGCTCACCCTCGA
GAGATGCAGCCAACTGGCTGCCTTCGCGATCCGACCTGTCGGTTGAGACG
CGGCGGCAGTATGGTTGGCTGAGGATGGTGTTTCAGGTGTGCGCCTCTTC
CGAGCTCCAATTTGGTGGCCTTCGGGAGGGTGGCGGCACGCGAGAGGCAG
GGAGCACTGTCGCGGAGAGCCTGGTGGTTCTCTATCGGGTGGGTACGCAC
CAGATTCGGCGAAGGCGGAGGGCAGCTCGATCGTTGACGAGCCAGGGGAG
GGCTGAACCCCTGTGCGAGGTTTCTGAGGGAAAAGCTGATCTCTGACCAC
GGTCATTTTTCTTCCTACGAGGGCCACATGGAGCGGCGAACGGGCAAGAT
TCGTGGGGCTTTTTCAAGGATGCACAGGGCTTTGTGACGGCTGGATGCTG
GCTCGCGCGCCGGCTTCAACAGCTCAAGGCCTCCACCACCATGGACCTCG
GTATTTCAATTTTCCTTATTTTTGTACGATGTGTAGCCTTGAGAAACTTG
GAATTGTTGATCAAAACTGGTTGGAACGTGTTTGTCCGATTTGTTGCTGA
GAACGCTGGTCGTGGGTAGGCGACAACAATCCGAGTCGATCGAGGCTGCT
CTCGATATGGAGTAAAGGAAGTTTGATGAACCGTTTTGCTATTGGTCGGT
GCCATCGCTTGTAGAGTCGCATAACTTTTTGTCGCGATTTGGATCCCTGT
TGGTCTGAGTAGCGGGTTGTCACCATGATGTGACCTGTTGACCTTGGTAC
CTCTTTGTGACCACGTACCGGATTGGCAACCACGTATATTACTGGGTATG
GTTGAGGCCCGATCGGTTAATGTGAAGACAACAACAACAACATAGTACAT
TTGGGTGACGAGTGAACAGAGCTCCAACAGAGCTCCAACAGCCGAAAACC
TCCTGAAAGTGGTTCGTTACCTGCCAACCCGGCATACCTCCGGCGACGGT
CCACCAAATATGTACAGTATGTTGAAAATGTACCACAAATGCTGACAATA
TTTTCATTGTATTGAAAGTCTAACAAATATCCTGATTGTCCATAATATAT
GTTGGAACGTCGAGCAAAGCACGTTGGCAGCCTTATCATAAACAGATTGT
CCATCAATACATGTTGATCCTCTATTAATAGCCAATACGTCGATACTCTA
GCAAGCATATTTTTATCTGTTCAGATCTGGTCTCTGGTCTCGTTTGCAAG
AGTATAATAATAAATAACAATAATAATAATAATAATAATAATAATAATGA
TAATAATAATAATAAATAGTAGTAGTAATAGTAATAATAATAATTATTAT
TATACAAATTGTTTTATATTATTACTGTATTATTATTATTATTATACGTT
CTCGTGCAGAGAGTTCCTTAGCCCACTACTAATACAGGGAGAAACGTTAA
CCCTTCGCGTTCGCCCGAATAAACGCTTGCGCCTGTGGCAGCAGCGCTCC
GCCGGAACAAGTGATCGTCAGCTTGGAAACACACACCCGCGTCGCTGGGA
GGTATAGGTAGGTTACACCGCAGGAGCGGCATGCCGTCACCCAACAAGAG
GATCTCCGCCGTAGCCCCACCGCCGCCCTTACACCCGGCTGCAGCCGGGC
CGACCCTCGTGCTACCGAACAAACCCCGAAGGCGGCCTCGCCGACGGATG
ACGCTCCGACGAGCGGGCTGCGTGACCGCGGTGATCTGTCTCCTGATCGC
CTTCACCAATCTTCTGTGGGAAGGCGTGTTTATCGGCGGCGTGATCTTGC
CGGGGGGTCGCCGGGAGCGTGACGGTGGAGATAGCAGCAGCGGCGGAAGC
GAGGGGTTTGATTTCGGGTGGCATCCGCGAAGCAGAGAGGTGAGTGAGTG
AGTGAGTGAGTGAAAACACGCCTTCTGCAACCTGCTGCTGGAAATTCGTT
TCTCTGGCTAGCTAGCACTGACTGGCTGACTGCCGGACTCAATGAATTCG
TCGATTAAAACACGTACTCTGCAACCTGCTGCTGGTAAAATCGTTTCACT
GGCTGACTAGCTAGCTAGCCCTAGTTTGGTCTGTTCATTAGCTTTTCGGC
TTTCAGGGTCCCTCTACCTCAACCAACAAGCCGCCGACGTTCGAATCGCG
TCCACCTGGTTTCGCGTCGGAGTTGGATCTCTGGTCGAGTATAGCTTCGT
CCAGCTCAGTCGGAACCGTTTCAATCACCAGCTCCCCCCCCCCCCCCATC
TCCTTCACTTAAGTACTCCCTTAAATACAAGTGTAATCAATATATACCCC
CCTCTCCCCTTACCCTTAAAAACGCCTTGCTCTCACAACCCATCCCCTTT
TCCTTCTTTCCATCGCCATCGTATTGCCACCACACCTTAGGAGACGTCTC
CTCCGCACGGCTCGAACGAGGTTGGCACGGTTCTTCTCGTGGCGCTCGCG
AGCGGCGAAGAGGGAAAGGCCGCGCTTCGAGCGTGGTCCGACTTCGTTCT
TGCTGAGCGATACCTGCAGCAGCGCCCGGGTGAGAGGAAAGAAGGGGAGA
AACAGGAGGGAAGGCTCGCGCGCGAGCGGTTGGAAACCCATCGCCGTCCT
CGCCGGAGGCTTTCAGTCGGCGGCGGTGGGGTCGCGGGGGCGGGCGAGGG
TGGGTTTCAATCCAAGAAGAAAGCGGTAGCAAGACCGCCATCGTCATCGT
TCCCCACCGTGTGGGTGCTCACTTCCGACCCTTCTTTGGACGAAGCGGTG
CGTTCGTGGATGCCTCACCTGCTGAGCTTCTTCGTCCCCAAGGCTGCTGC
AGCTGCTGACAGCGGCAGCGGCGGCGAAGCCACCTCGCCCCGCTGGATCG
ACGTGATCGAGAGCTTCTTGTTGGCGAATGAAGGCGTCGACGTGTTCGGG
GTGTTCGGGGAAGGGACCCTTCCAAGCCCCGGCCTCGGAAAAGTGGTGGA
AACCCTGAGGCCGGTGCTCGCGAGCTCCGTGCCGCCCACCGCGGTGCTCT
CGCGATCGCGTTGGGACGACAGGATAAGGGAGGGGGCGGGGAAAAGGGAG
TGGCTGCCGGACAAGCTTTTGGCACAAGTGAGGACGAGGACCGCTTTGCT
TCTTTTATTTTTTTTGCGCTTGATATTTTGCGCGATCGTGCACTTTTGTT
GTTGTTGGTGGGGGTTTCTTGTCTTGTCCGCTCTTTGTTTGGCGTGCTTT
TGACGTTTCTCTGTAGAGCACATGCCCACTGTTTGTACCAGAAATAGTGT
GCGGGAAAAGAGGGGGGCACAAAAATTGGTCCCGGATGTTTACCGGGGTT
TCCTGAATAGGCAACACCCTCGTTGTACTCGAGCCACCTTGAGGACTACT
GGCCCTGGACCGGTGGGCTCTCGGGGGTTAACACCGTCGGTACGCTATTG
CGTGACCTGATAATCTCGGGACTGACCCGATGGCGGTTGACAGTATAGAT
GGACGCCGTGAGTAAACACCAGGTTTTGCCTGGGTATGAAGAATGAGTAG
GACGGAACGGCCGAACCTGTCTCGCGAGGCCACATTCTCAGGCGCGAATG
GGGACAGGAAAAAAAATGCATTTTTCCTGTTCGGCTGACCTCCAATCTGC
TGATGAACATATCCTGGGTTTAGGTTTCGTGCGTGATCTTGTAGTGGGCC
GTCTCCACAGTACGGCTCATATCGACTGACAACGGAACCCTGATGCTACA
ACCATCTTCAAACACTCCTTCTTTTTGTGGTCTTCCGTTGAACTCCTCAT
AACTGACATGCACGCATATTTCGAACATCGACCCCCCCCCCCCCCCTTAA
AACGCTAGGTCTGGTTCAACCGCGCGATGCTCGCCGCCGCTCGCAGGAAG
GGCGCGGACCTCCACGACGAGCGGGTCGAGGGCCTGACGATGCTGCAGGT
CCTCCGGAGGTTGGTCCGCGACCCGGCCTCACTTGGCGCGCTGCTGGTGG
ACGGAACCAACGTCGTCGGATCGACACACGCGCGTTCCCGCCGCCCGTTT
CCCCCCTTCGAAGCGGTCGCTGCCGCAGCGGTGGGAGCGGGAGCTGAAGC
GGGTGACTCTCGGGAGCGAGACCGTTCGAGCCGCGGTGACCCAGAAGATG
TCCCCGCTCCCCCTCCCCTTGGGGAAACGAGCAGCACCTGGTGGCGAGAA
GAAAATAAAGAGGAGAGCAAAGCGTGGGGTGACGATTTCTTTTTCGGCGG
AGGGGGGTTTCCTGATGGGGTGGGAGGGGGGAGTTACTACGGCAGGGCTG
CGTGGGCGAAGCAGGACTCGTGCGAGGAAGGAGAGCCGGGGGACGTGTAC
ATCGGCAAGGTCGACCACGCGTTGGTTTTTGGCGAGGGGAAGAAGTCGGC
GGCGCTGCGAGGCGCAACTGTTGCCGGCTCGGGGCCGAGGTCGGACGGCA
GCGGCTACGCAATCGTGAAGGCGTCGTGGCCACGGCGTTACATCTTGGAC
GGCGTAGCGGACGCGGAGACGGGGTTGGTGGTGGTAACGAGCGTGAACTG
CGGGTATCTGGACATGGCGGCCAATTTTTTGGTATCGGTTCGACGCCATA
GCGACGTACAGGCGAGATTCAAAACACTCTTTTTTTTGTGCTTTTTTTCA
GGCGGCGGTTGATATAACCGTCTTAGCAACCCCACCCCACCCCCCCCCCC
ACCTCACCCCCGCGATTAGACCATCTAGACAAAGTTTTTTATCCTTTTGT
GTGCTTTTTCCACACGGCCTTCGTGGTCTTCACAGCCTCCCTCAGGCCAA
CCGCTATGGGACCACTAGAATACAAAAATGCAAAACAAAAATTTGTTCAT
TTCCGCGGCAATTCTTGCTGTATTTTCTTTTTTTTTTAGTATGCCCCGCT
ATGTATGGGCTGGGCGAGTGAACGAAAAAAAAGAAAATGAGACGGAGGTC
CGTGGAATACTGGCCGCCCAGGTCTCTAGCCTCCTAGTTTGAAATTTGAA
AGTGAGGCCCACCTTGGGCACATCTCGCCCTCAGAGGCAGGTTTTGTACA
GTGCTTCGTGAACAGTTCCGTAAGTCTGTGTTTTTTTTGTGGCCACCTAT
AGAAATGACGGTCATTTCTGTAGGTGGCCACAAAAAAAACACAGTCCTAT
AAAAAATTTTTGGGACATTTCCGTTTTTTTTGCTCCCATAGCGTGCTTCC
CACAAAAATGACCTACAGAAATTTGTTCATTTTTGTCTTTTTCGGGTTTC
CATAGCGGTTGGCCTCACCATGTTTATTCAATTTTAGACTTTTCGTTTGT
TTTTTTGTGCGTTCATGTGTCCGTTTTTGTTCAATAGCATATAACCGTGC
ACTACGGCCTTTTCCTCCTTGAGTTACTCTGTGCTTTTCGCGTTAATCCT
CTCAAGGGGGATCAATGATAACTTGTCGTACGAAAGGGGACAGGTGCATG
TGTAAGAGCTCTTGTGCGTGTTTGTTAGGGCCGTCCATATTTTGGTGGAG
GTGCGTGTTTGTTAGGGCCTGGAGGAAGTTTTTCCGATGTTTTTATGTCC
AAAGGTTTTCGGCTGTGTAAATGTGAGGTTGTGTAGCGGGTCGCTAGTGC
TAGCGGATACTTCCTGAAGATTTCTTCCCCCGTAGTGACATTGTGGTAGT
ACGCCCCAGGGATACCAACTTCCCTCCCCCCCCCCCGTAAAAAAAAAAAA
AAAAAAAAAAAACGGTAAAAATCCCCCATCCGACTCTTCGGCAGCACACG
GGCAAGGCAGCACTTCGTCTGCAAAATATCTTCGCCGTGGCTTTCCACAA
AATCCACAGGCGTTTGCTCTCGCTGCCTCTGAAGTACGTATTAATATCGA
AGTAAGTAATTACCGTGAAGAATAAACGACAGGGGACGCTAATCAACCGT
GTCCCTCGGGGGAAGTGGGGCCGGGGAAGTGGACCGCCAATCGATCATCA
CCGTAGCGGGGGTAACCATTACAACGTGCCCCTCGGGGGAAGTGAACACC
AATAAGTGTTTTTCAGGGTAGGGGAGACCAGTAAATCATCCCCGGAAAAA
GAGAAATTAAATCAACCATCTCCTGGGGGGGGGGCAACCATAAATTATCC
CCGCGGGTCCACCAATCAATCATCCCGGGGACTCGGAGCCAATCAAGCTG
GCGAGTAAAGTGTTCCCGTTTACTAAATGCCTCCTCGAGGAGTCGGGATC
GTCTGGACACGGGTGATAACAACTTTACGGTTACTTCTGGCAAGTTAGCC
CCAAAATCATTTGCTGTACAGTAGTTGAAGAGATACCGGTTGGCAGAGAT
CGGTCCGCCAAAGGGGCGGGGCAATATCCCTGTAACTACAGCAAATGAAT
TGGGGACTAAGTTGTCGGAAGTAACGATAAAGTTGTCATCACCCGTGTCC
AGACGATCACGACTCCTCGAGGACGCATTTTGTAAACGGGAACACGTGCT
TTTAGTCAGAAGACAGAGGACCCCAACTGCCTACTTTACTCGGCAGCTTG
ATCGATTCGAGAGGTCACCACCGAGGCCTGACGTTTTGAGTCTGGCCGAC
GTGCAAGATGCCTGAGAGAAAAAACACCCCGATGAAAGGGTGCTAAACAG
CAGCCACGGCTTAAGAGGAGAAATCGATGCATAGCCTCGTCCACGGTAGT
GGCTTCTTTGAACGCGTGACGCATGTTGCGTCAGGTCCCACGCCGCGATC
GCTGTGCGCCATCCGTTGTCACCGAGACCAATGACTCTGATGGCTCTGGC
GTGTAGCGAGGATCGGCGTGATGTGTTCTGCATTTGCTGTCCTCATCGAC
AGAGTAAAGTAGACAAAAAAATGAAAAACCTCTTTGCGCAGCAGCGCTGT
GCCTGCGCATCGTATATATATCCGAGGCATCCGTTGTTGTTTTTTTACAG
AGTATTTTTCAAGGTATTTTCGGAAGTATTATTTTAGCCTATAGACTATA
TATATATATATATAGACTATTACATCACAAAAATGAATGGAAGCGTTATT
TATTTTTATTCATTTTTAATGTCTATTTTTTTTTACGTTATTTATGAAAC
TTGTGGCGCGTGTTTGTTTTTTTTAATGTACAAGCTATAACAAACACTCG
CCGCCCGCTGTGTGTACGTCGCTATCAAATTGTTGTCTAATAAATAATAT
TGGTAAATGTTGGAAACAGATCTTGTTCGTGGCGATGGATGAAGTTTCGT
TCGACTACGTGGACGCTATGGCACCGGGGACAGCGGTCCTCTTCAGCGAA
GGGGGTTCGGTAAGGGGTGGAAAAAAACGGAAACAGTCGTGATTTTTACC
ACGATTTTTTGTTTAATACAGTATATATCTATATATTATAACAAAGTATT
CATAGCTTCTAGAAGAAATCACGATCCCGACGCTTCTCGCAAGTATAAAG
GGTACTAGTACTTCCCACACTACGAACCGACATCCGTTCCCGCTTCCGTA
GTCTTTTTCCGTAGTCCTTTTCCGAAACTAGACCCGAAGTACCGAAACGT
GTACAAGTTCACACTTAGACTCGCAGGTATTCGCGCCTAGTAGGAGAACC
GTCAAATTTCGTACGATTCTCCGAAACCAGCAACGCACTCCTTGAATCAA
TCATTGCTGTGCAAGAACTTTTACACACACAAATTGAATACTGTAGCAAA
TTTGCACCGTGTACGATGAGATCCCCGAAAATCTGTCTCCCCGAAAACAC
CAAACCGCCGAAACGACTTTTTAACGCTCCACCGTAACGACCCCCGGGAC
ATCCGACGGGGGGGGGGGGACTCTCACCTTCACCATTGCCAGAGGCGCTA
CGCTGTTGGGGCCGGTCAGTGGGGGGATTCCATCTTCAGGGCGGAGACGT
TGGTTAGGCCCGACATCCTGCTTTCTCTATTGAGGCAGGGCCACAAGGTG
CTTTGGACCGACGTGGACATGGTCTGGCTGGGAAACCCCCTCGGGTTGCT
GCCGAACGTCCGGGAAGACGCCTCAGCGGTGAGTGGAACTCCTCCCCCCC
CCCCCCTCCTGGAGGTGTGTGGATGTTCGGCAGAAAGTTTTGCTTTCCGT
GCGTCCAAAGTTTTCTTTGAAGCCAACCTCCCCTCCCTGGGTACATTTGT
ACTGTTATTATTTATACTGGTAGATACTGGTAGATACTGGTAGATACTGG
TAGATACTGTTAGATACTGTTAGATACTGTTCATGACTTTAAACGGACGG
GGGAAAACATGGGAAAGCAACAAATAGGCCAGTATGACAGAGACTGTTGA
TAGTGACTTTTTTTACCGTAGAAACTTGGGAAATCGTAACAAAATCTAGT
TTTTTTCTCCGATGTCTCCGTGTCTTGATTTTCTCTTGCTTTTTTTTGGA
GGGGGCAGGGTAGAGGGAGTAATTCGTGAAAAGGGGTCTCGGCCATGCCA
AAATTGTTCTGCAGATCGACGAAAAATCCATAAGTTAAGGGCTTGCTTCA
CAGTTGTTGTTTTTCTCTGTGCGTTCGCGTCATAGTATGGTGAAAACACG
CATTTCTCGGCGTTTTTTTCGTTTTTTTTTTTTTTGCTTTCCCAGGCCGA
AATAATGCTGCAGATCGATGGAAAACCCATCAACAAGTGCACGTGCTTCA
TGTACCTGGACACGACCCCGTCTGTGATGCAGCTTATACAACTATGGAAG
GAGGAGATCATCAAAACCAAAGTGGATCAAAACCAGGTTTGAATCTACTT
TTATGCTACTACTAACGATACTACTGTATGTCCCTTCTCTTTTTTAACAA
CACCTCGGACGGAAACACTCGATTTTGATGGGTTTTTTTTTTTTTTTTTT
TCGCCTGCTTTTTTGTTGCATTTTTTGCGCGGCCAAAATGTTCCCTTCGA
AAAATCGTCGATTTGGCGTGTACCCTCAATCGTCGGGAGTTACCGTACTA
CTACCGTACCTGCAACAAGGTACTATTATATGGTAGTAGCTACAGCAGCA
TTCATAGTCCGTTTTGGTTACATTGTACCGTTACCTGGAGTCGTTCAACG
AAAGGGGTAGGGGATTCCACGATCCTGTCCCCGATTTTGGGAGGGACAGC
ACGAAAATATCCGCTGCCGGGGACAGATTTACCCCTGGTAGAATGAGTTG
AGTTCGCGGCTGCAGCGGATCAGGCAGTTCCATCCCCGATAGGGGTTGTT
TTTTGGTGTCATCCCCACCATAAAACCGGGGACAGGATCGTAAAATACCC
TCTTCCCATTTCGTTGAAGTCGACGAAAAAAAAGTCGAAGAAAACACGAA
AACTAATTAATATTTCCCGGATATTTTATACTGACAACCGCAAAACTTTC
CACGGGGATGGCTGAACCGTGCCCCCTGTCGACGCCCCCCCCCCCCTCCG
ATTTTTATTGAATTTAAAACAATTTCAGAGTGCGTTTTAAACAATCTCCG
TGAAATGTTTCCCTCGCAAAGAGGAGTGTTTGTCTATTTTCGTGGGAATA
GGCTTCCTTAATACCTTTACTTTATTCTGGGATATATACAGTATAGTACA
ACTGTAATAATAGTCCTAACACAAAGTAATTGTTGATCGTGTTAAGACGA
AGATACAACTGTACAGCGCTATTAATGGTAATAGCGATCTATTATGACGT
GGATGTCGAGAGAAAGTTGAGTAAGGAGGCATTTTCGCGTGGGGGCGTGT
CCCACGCTGTTGTATGTCTATTATTATTGATGGTGTGTACAGAAGAATCT
GAACGCGCCTAGACCTTCTGAGCATCCCCCAGCCAGGGGGGGAGGAAATG
TCAAAACGTTCTTATTAATAGCTAATAATACCCACGCCCTACACGTGATG
TATACATGTATACCGTACTATACTTAATACGAAGAGCTGTAGGGAAAGGC
ACTCTTTCCGACTTGTATGCTACACTAAATAGAGCTTATTGATACAGGTA
GGGGCTTATTGTCTGTACTTTTTTGTGATGGTTTGCTTTGAGCCTAAGAT
GACATAATATATATTTTTGTACATCTACCAACCACTGTACTATTTACTGC
GAAGTACATTGCGATATATATATATAGAGTATTGTACAGCATTTGTTCCA
TAAGTGTTTCAACACAGTGTGAATCTCTTGCTGGCCTAAAGAATCCTATT
TATAGTAGTTTTTTTTTCTGTAGTACGAATGAACGATTTTATAAACAAAA
CAACGTACGGCTTCACCATCGCGTTTCGCTCGTACCAAGTACTCAAGTAG
GTCGGGATATCTCTAGTACTCAAGTAGGTCGGGATATCTCTAGTAGGTCA
GGATATCTCTAGAGCTAATATGATAGAATGCAAACCATCACGTCGTTCAT
GTTCATATTTACAAATGCGAGTACTTCTCCGGTACCAAAGTCGGCACACT
CAGTTCTGTCCACTGCACAACATACTCTTATCTTCTCTACATTTTCATTC
AACGATTTTTTACGTTGGGATTGCTTTTAGATGCATAGACTGCTATAATA
GGTAGGTGTGCGTTTAAACTTTCAACCGGCAGTGTAACGAGCTCGTGGGC
AGTAGTAGACATGTTATTAGCCTGACATAAGGCAAGCGTCAACATCGAGG
TTTGAAGAAAAATCCGAACGCCTTTATATTTTCTGAGCATCCCCCAGACA
GGGGGGGAAATTGTCAAAACGTCTAGGTGGGAACATAGGCTGCCGAGACA
AAACCTCTTCTTGGCATATAATCAGGTTCCCCGATGGTAGTAGCGTAGGG
TCAACAGTATAATGCCGTAGAGAAACATACCGTTATACTGCTGTACGCCT
ACATTAATCGTCATGCAGGGACACCAAAAGAGACACAACAAGACATGATG
GGCCTGGATACAGCTCAATTTTGTTACAACATTGGGTCTAGGATCGGATG
GGTGTCAGCACTAAAACAGTACCATATCATTAGCAATCAAGCGCATTACA
GTTACAGATTGACAAGGAAGGAGACAAGGTTTTCCTATGAAATGTCTTAA
AATTATGGGATGAATGTAACTGCTAGAGGCTAAGATAAGTACTTATATCT
ATGCAGTGTTTTTTTTTTGGTGCAGATAGTAGTTAGTAATAAGTATAATA
CTTCAGTACAGGCATGTATTTATGTATAGTCATCGCGTATATCAAGAGGA
AAGATCAACCGCGTAAGGTTGCCGATCCTGCTCGTGGTCAGCTGAACAGG
GAAAATTAATATTTCTCTGTCTCCGTTCGCGTCTGAGAATTTGGTCTCGC
GAGACGGGTTCGACAGTCCCGTCCCGCGTCAGCCTGCTCATCTCCATACT
CAGGCTGAATCTGGTGCTTACTTACGGGACTCCTCCCGAGTTCCGCGGCG
GCGTCCATTTATTTATTTTGAACCGTCATACGCCATCGGGTCAGTCCCGA
GTTCATCGGGTCACGATTGCGTAACGATGGCGTTCACTGCCAAGAGTCCG
CCGGCATAGGGCCAGTTAACCTCAAGGTAGTTCCAAACGGGTGTTGCCTT
GGCAGGTCACCGTGGACCAATTAATATGCGCCCCTCTTTCCCCTCACCCT
CTATTGGGTATGAAGTGGGCATGTTGAAAGTACCAGCGTATAAAAAAGGG
ATTACGGGTGTGGATATTCCGAGGGCCAGAATGCTATGGACCCGAACCTA
TCCCATGTTAAGTACAGGCAAAAACGGCGTTCTCAGTCCGATCAAATATT
ATTTGTGCCAGACCAAAGTATTCTCGTATCATAGAAGTCGTCGTTGGGGC
CAAAACCCACAGTTGGTGCAAATAATAGTGTTAATATTAATATTAGTAGA
ATCATAGTCCAATCACATTTCAGTTTTTTTTCTTTTGTTCGGGCTACTGA
ACGACTCGTTGCTGGTTTCGTCGCCTGTAGTACACAGTTATAACATACCT
AGATGAACGCATCTAAACTCTCTGAGCGTCCACACTGCCGTCGTTGCTAT
CATAGTGACACTACGAATTGCGTACTACTTCGTATAATACTATTCATTAT
CACTTTTATGTTTGGGCGGATTGCGTACTACAGTATAATAATTTAAATTA
ATACTACTACTGTAGAGTACCATCCCAGAGGTACAGCAGTATAATAGCAT
CCCCTGTAGCAGGGAACTTTCAAATCTACAAGATGAGGGGAACGCGCAGA
GTCACTGCTTTCCAGTGCTGACAGTTGAGTAAATTCAAGCCTAGCGGATT
TTCCCAACACTAATTTACCGCCGGATGTAGTCGCTCTGATAGGGGGAAAG
CAGGACTAGGTGGACGTACTAATGAAAGTCTGTGCATATTATACTCCGGA
GTATGTAGCTTTCTGGACTGCTGTTATAAGGATACCAAACTAACATGACC
CAACAGAAGCATCGTATCGATCTCTCGAAGCGCAACGCACCGACAGTGGA
GATGTGGTAAAGTATTTGATCAGGCCCTCAGCAGGATTTATCCCTTCACC
TCGCGGATCGGCCAAACCGCTTATTTTATTTTATTCGGATTGGCAAACAA
TGTTGTATGTATGTATGTATGTATGTATGTATGTATGTGTGTATGGTCAT
CACATATAGCAAGGGTAAAGATCAACCGGGTAAGGTTGCCAATCCTGCTC
GTGGTCAGCTGAACAGGGAAAATGAATATTTTTCTGTCCCCGTCCGCGCC
TGAGAGTTTGGGCTCGCGAGACGGGTTTGGCAGGCCCGTCCCGCGTCAGC
CTGCTCATCTCTATACTCAGGCTGAATCTGGTGCTTACTTACGGGATTCC
CCCCGATTTCCGCAGCGGCGTCCATGTATGTATGTATGGTCATCACATAT
AGCAAGAGTATGGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCA
GCTGAACAGGGAAAATAAATATCCCCCTGTCCGCGTTCGCGCCTGAGAAT
TTGGTCTCGCGAGACGGGTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCA
TCTCTATACTCAGGCTGAATCTGGTGCTTACTTACAGGATTCCTCCCGAG
TTCCGCGGCGGCGTCCATTTATTTATTTTGAACCGTCATACCCCATCGGG
TCAGTCCCGAGTTTATCGGGTCACGATTACGTACCAATGGCGTTCACTGC
CAAGAGTCCGCCGGCACAGGGCCAGTTAACCTCAAGGCAGTTCCAAACGG
GTGTGGCCTTGGCAGGTCACCATGGACCAATTAATATGCGCCTCTCTTTC
CCCACACCCACTATTGGTACGAAGTGGGCATGTTGAAAGTACCGGCGTGT
CCATATAAGTGCACGACTACCATATCCAATATTTTCTCTGTGAAAGCAAA
AAAGAGTGTATATGACTTCAGGAGTAGCTTTCAGCCGAAGGGCGCAAAAT
GAGTCTACAAATATATTCAGGGTGTTTGCCGAGGTTCTAACATAGTCTAA
TGAGGCAGATGAGGTTAGAGTCTTGTCTCTATTAAGAGGAAGGTTAGGAG
ATGAGGGGACAAAGGGGACTTTAAGCTCCCCTCAAGTCTTGAACATAATT
CAGAAAGTACCGGAGACCGTTATTCACCTGAAAGTACTGTAGACGAAGAG
CAATAGAAGTCCTCGAAGAGAAGTAAGGCCAGATGGGCAGGCGCACCTAA
TCTACCTGTCAAGGTACTGCACCCAAATGCTCCAGAGGTCAATCTCTATG
TCAAGTACTAAAGTCGTCGCGTGCGACCTGAGAAACATGAAACATAAGGA
GCATTCAGGGGCAAACACAAAAGCTTTATTTCCCCCCCTCACCCCTTTGT
AACCGTTTCACCTTTGAAATGTGTAACCTTTTCACCTTTGAAGTGTGTAA
CCGTTTCACCTTTGAAATGTGTAACCGTTTCACCTTTGAAATATGCAACC
GTTTTACCTTTGAAATGTGTAGCCGTTTCACCTTTGAAACGTTTTCTATT
GCGCCGCCAGATGGCGTTTCAGTGGCCCTTGGTGCAAATGGAAAGCCTGG
GGCTGCGACTCGACATCCTTCCGGACGAGGTGATGCCTCCGGGGTTCAAG
TTCTTCAACGAGACTTACATGGAGGAAAACCACGACCGCTACAAGGACAG
GCTGCTGATCGTTCACAACAACTGGGTCATTGGACACGAGCCCAAGAAGC
AGAGGTTTCGAGAGTACGGCCTGTGGCAGGTGGAGGGCTGGGAGTTCCCC
AGCTGTCAAAAGAAGCGTACATTATCACGGGAGGAAGAGCAAGGCGACGC
CCTGCGAGAAGATTGGCTCCGGGCAGAGCACGTGACGTATTCCTAGAGGC
CTCTCGCTGATTTTGTTGTGTGATCTGTGTTCTTTTTAATCTAAGACGAT
CGCGGTTTGCAGTACTCGTAGCTGTGACCGGAGAACGCCGACTACAGCGC
TGTTGACGGAGTTTTTGTACAGTAATTGGGTAGACCATGAGTTAATCCGT
CGCGGCTTAAAACTCCTGGGAGAAGACCCCTCTCGAGATCCTGTAGCGGA
TTATGTACCACGTGTACTCCTTCTAACTGTCGTGTTGCGTAAAACAACAC
ACAGCCTGACGCTGTGGATGAGGGGAGTTCACGATCTGAGGTGGTGTTTT
TCAATTCAGCTCATGAAACGTCGTGTGTTTTCATCTGTCTGAATCCTAGG
GAGGGTCTTGCGTTCTAGGCTCGTCGCACACAGGCACGTTTGGAACAAGA
TATTTTTACCAAAAATATATATATTTTCGCACACAATCAGGCGAAGGGCA
CTCCCCCCAACCCCGCGCGCTCTACGATAACCCCATGACGCGTGAACAAA
CCTCTGCTCCTTGACGCCCATAATTTATCTTTGCTTCGATTTAGCGTGTT
CCTTTTTTCACCATCTGCGTACTGTACTCGGGTGGAATATTTATATGTCT
TCAATAGTATGTAAACCGCGACAGGTACGCCGCACGCTGAGCGAATGGGC
GCGATACGGGCATAAATAATTTGGTTTAGCTTTCTACTTTTTGGTGTGAG
AGGAGGGCGGTTGAAAAAAAAACTTGTGTTGTTTCCTTTTTTAGGCATAG
CCTATATACTCGTTACGGAGGTGTTATTTTTACATCCCCCGGTGGGTATT
TCTCGCAAAAGCGGGGCATGTTCGGATAGTGCTCCCATCGACCGGGCGGA
TAGTCTTTTGTCACATCACAAAAGGGCTAGTCTATCGGTGGACCGCACTT
GCAGAATGATGC
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Coding sequence (CDS) from alignment at A-nodosum_M_contig1144:116969..147880-

>mRNA_A-nodosum_M_contig1144.10.1 ID=mRNA_A-nodosum_M_contig1144.10.1|Name=mRNA_A-nodosum_M_contig1144.10.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=2502bp|location=Sequence derived from alignment at A-nodosum_M_contig1144:116969..147880- (Ascophyllum nodosum dioecious)
ATGCCGTCACCCAACAAGAGGATCTCCGCCGTAGCCCCACCGCCGCCCTT
ACACCCGGCTGCAGCCGGGCCGACCCTCGTGCTACCGAACAAACCCCGAA
GGCGGCCTCGCCGACGGATGACGCTCCGACGAGCGGGCTGCGTGACCGCG
GTGATCTGTCTCCTGATCGCCTTCACCAATCTTCTGTGGGAAGGCGTGTT
TATCGGCGGCGTGATCTTGCCGGGGGGTCGCCGGGAGCGTGACGGTGGAG
ATAGCAGCAGCGGCGGAAGCGAGGGGTTTGATTTCGGGTGGCATCCGCGA
AGCAGAGAGGAGACGTCTCCTCCGCACGGCTCGAACGAGGTTGGCACGGT
TCTTCTCGTGGCGCTCGCGAGCGGCGAAGAGGGAAAGGCCGCGCTTCGAG
CGTGGTCCGACTTCGTTCTTGCTGAGCGATACCTGCAGCAGCGCCCGGGT
GAGAGGAAAGAAGGGGAGAAACAGGAGGGAAGGCTCGCGCGCGAGCGGTT
GGAAACCCATCGCCGTCCTCGCCGGAGGCTTTCAGTCGGCGGCGGTGGGG
TCGCGGGGGCGGGCGAGGGTGGGTTTCAATCCAAGAAGAAAGCGGTAGCA
AGACCGCCATCGTCATCGTTCCCCACCGTGTGGGTGCTCACTTCCGACCC
TTCTTTGGACGAAGCGGTGCGTTCGTGGATGCCTCACCTGCTGAGCTTCT
TCGTCCCCAAGGCTGCTGCAGCTGCTGACAGCGGCAGCGGCGGCGAAGCC
ACCTCGCCCCGCTGGATCGACGTGATCGAGAGCTTCTTGTTGGCGAATGA
AGGCGTCGACGTGTTCGGGGTGTTCGGGGAAGGGACCCTTCCAAGCCCCG
GCCTCGGAAAAGTGGTGGAAACCCTGAGGCCGGTGCTCGCGAGCTCCGTG
CCGCCCACCGCGGTGCTCTCGCGATCGCGTTGGGACGACAGGATAAGGGA
GGGGGCGGGGAAAAGGGAGTGGCTGCCGGACAAGCTTTTGGCACAAGTCT
GGTTCAACCGCGCGATGCTCGCCGCCGCTCGCAGGAAGGGCGCGGACCTC
CACGACGAGCGGGTCGAGGGCCTGACGATGCTGCAGGTCCTCCGGAGGTT
GGTCCGCGACCCGGCCTCACTTGGCGCGCTGCTGGTGGACGGAACCAACG
TCGTCGGATCGACACACGCGCGTTCCCGCCGCCCGTTTCCCCCCTTCGAA
GCGGTCGCTGCCGCAGCGGTGGGAGCGGGAGCTGAAGCGGGTGACTCTCG
GGAGCGAGACCGTTCGAGCCGCGGTGACCCAGAAGATGTCCCCGCTCCCC
CTCCCCTTGGGGAAACGAGCAGCACCTGGTGGCGAGAAGAAAATAAAGAG
GAGAGCAAAGCGTGGGGTGACGATTTCTTTTTCGGCGGAGGGGGGTTTCC
TGATGGGGTGGGAGGGGGGAGTTACTACGGCAGGGCTGCGTGGGCGAAGC
AGGACTCGTGCGAGGAAGGAGAGCCGGGGGACGTGTACATCGGCAAGGTC
GACCACGCGTTGGTTTTTGGCGAGGGGAAGAAGTCGGCGGCGCTGCGAGG
CGCAACTGTTGCCGGCTCGGGGCCGAGGTCGGACGGCAGCGGCTACGCAA
TCGTGAAGGCGTCGTGGCCACGGCGTTACATCTTGGACGGCGTAGCGGAC
GCGGAGACGGGGTTGGTGGTGGTAACGAGCGTGAACTGCGGGTATCTGGA
CATGGCGGCCAATTTTTTGGTATCGGTTCGACGCCATAGCGACGTACAGA
TCTTGTTCGTGGCGATGGATGAAGTTTCGTTCGACTACGTGGACGCTATG
GCACCGGGGACAGCGGTCCTCTTCAGCGAAGGGGGTTCGAGGCGCTACGC
TGTTGGGGCCGGTCAGTGGGGGGATTCCATCTTCAGGGCGGAGACGTTGG
TTAGGCCCGACATCCTGCTTTCTCTATTGAGGCAGGGCCACAAGGTGCTT
TGGACCGACGTGGACATGGTCTGGCTGGGAAACCCCCTCGGGTTGCTGCC
GAACGTCCGGGAAGACGCCTCAGCGGCCGAAATAATGCTGCAGATCGATG
GAAAACCCATCAACAAGTGCACGTGCTTCATGTACCTGGACACGACCCCG
TCTGTGATGCAGCTTATACAACTATGGAAGGAGGAGATCATCAAAACCAA
AGTGGATCAAAACCAGATGGCGTTTCAGTGGCCCTTGGTGCAAATGGAAA
GCCTGGGGCTGCGACTCGACATCCTTCCGGACGAGGTGATGCCTCCGGGG
TTCAAGTTCTTCAACGAGACTTACATGGAGGAAAACCACGACCGCTACAA
GGACAGGCTGCTGATCGTTCACAACAACTGGGTCATTGGACACGAGCCCA
AGAAGCAGAGGTTTCGAGAGTACGGCCTGTGGCAGGTGGAGGGCTGGGAG
TTCCCCAGCTGTCAAAAGAAGCGTACATTATCACGGGAGGAAGAGCAAGG
CGACGCCCTGCGAGAAGATTGGCTCCGGGCAGAGCACGTGACGTATTCCT
AG
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