mRNA_A-nodosum_M_contig10.55.6 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig10.55.6
Unique NamemRNA_A-nodosum_M_contig10.55.6
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: D7FM24_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FM24_ECTSI)

HSP 1 Score: 728 bits (1878), Expect = 3.140e-254
Identity = 357/439 (81.32%), Postives = 396/439 (90.21%), Query Frame = 3
Query:  399 TVPEENAGE-DLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDWLSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGWLVILVVSLTLFPDSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVFYPSEG 1712
            TVP E+  E DLPFS R+KQVFWQFLPLGV+AYGGP AHIALLHERFVDKSKWL+EEQFVELMAVGQGLPGPTSTQMVVSMG +RAGIPGGLLSFALWNIPSFIVL LAG+GV++LLGD DPDWLSG+GPAA+SLVFVAAYKLGKKVN + LKF+LSLVSACVTLLINGDE+I+P VSAWVFPLML+CGG+V L D               +KAEL LEG+TYSRINIPMW+G AI VGW  ILVVS++ FP SGLGGLFK+FFRIGSIIYGGGQVVLPMLVDEVVDPGWLTE+QF+QGFAL QALPGPLFNLSAYLGAVY+GVPGAFVGW+GLFGPGV LIFGFLPFWGT+RK+AWFKIFLQGVNSTAIGLV+AACVLLWG+A+D+YADAIVAVVAGCMQ+FLG+QAPWCI+ GGVLG+LLSD++ASL Q  F+P EG
Sbjct:    2 TVPVEDPSEADLPFSERIKQVFWQFLPLGVVAYGGPTAHIALLHERFVDKSKWLSEEQFVELMAVGQGLPGPTSTQMVVSMGAYRAGIPGGLLSFALWNIPSFIVLTLAGLGVKELLGDDDPDWLSGLGPAAISLVFVAAYKLGKKVNKSPLKFSLSLVSACVTLLINGDEDINPNVSAWVFPLMLVCGGLVMLAD---------------SKAELALEGKTYSRINIPMWLGGAIAVGWATILVVSISAFPGSGLGGLFKAFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEKQFYQGFALVQALPGPLFNLSAYLGAVYRGVPGAFVGWLGLFGPGVSLIFGFLPFWGTIRKVAWFKIFLQGVNSTAIGLVVAACVLLWGAAIDSYADAIVAVVAGCMQAFLGFQAPWCILAGGVLGFLLSDTLASLGQAPFFPIEG 425          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A2R5G6L9_9STRA (Uncharacterized protein n=1 Tax=Hondaea fermentalgiana TaxID=2315210 RepID=A0A2R5G6L9_9STRA)

HSP 1 Score: 407 bits (1046), Expect = 8.080e-129
Identity = 225/434 (51.84%), Postives = 292/434 (67.28%), Query Frame = 3
Query:  423 EDLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDWLSGVGPAAVSLVFVAAYKLGKKVNN------TKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGRTYSR-INIPMWMGCAIIVGWLVILVVSLTL-----FPDSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQ 1688
            E + F  RL +VF  FLPLG+IA+GGP AHI +L ++FV+K KWL  E+FVELM+VGQGLPGPTSTQMVV++G  RAGIPGGL++F LWN+PSFIV V   +     L ++ PD+L G+  AA SLVF+AAY LG KV +       KLK  L+  S   TLLI GD+ I+ + ++  FP+MLI GG++T+VD + RP   E      T+ + E + R+  + INI   +G  + + W+V LV  + L         G G LF++FFR GSIIYGGGQVVLPML+ EVV+ GWL E  FF GF L Q+LPGPLFN S+YLGAVYKG+ GA V WVGLFGPG++LIF FLP W  VR+   FK FL GVN+ AIGL++AAC  LW  AV+++A   V V+ G +  F     P  I+ GG++G+LLS +  + AQ
Sbjct:   34 EGMSFIERLAEVFVGFLPLGLIAFGGPAAHIGILQQQFVEKRKWLDTERFVELMSVGQGLPGPTSTQMVVAIGATRAGIPGGLVAFVLWNLPSFIVCVTVALLAVSTLDETLPDYLIGLPAAATSLVFLAAYSLGVKVLSHEESYVQKLKIALATASTVGTLLITGDDRINNRWASLAFPVMLIIGGVITVVDSR-RPGKLENYFTPPTEID-EADNRSILKNINISPRLGLLLFITWIVTLVSFIALRSAGVLAPGGYGELFEAFFRTGSIIYGGGQVVLPMLLVEVVETGWLAESDFFIGFGLVQSLPGPLFNFSSYLGAVYKGIVGALVAWVGLFGPGLLLIFAFLPLWMHVRRNPTFKCFLAGVNAAAIGLIVAACAQLWEKAVNSWASTAVFVLTGSLIRFFDVFVPLAILIGGLVGFLLSPTGVNFAQ 465          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A6T7FFJ8_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A6T7FFJ8_9STRA)

HSP 1 Score: 400 bits (1027), Expect = 8.090e-126
Identity = 218/440 (49.55%), Postives = 290/440 (65.91%), Query Frame = 3
Query:  399 TVPEENAGEDLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLG-DSDPDWLSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEG-RTYSRINIPMWMGCAIIVGWLVILVVSLTLFP----DSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVFY 1700
            T  EE   ++ P++ R  +V   F PLG +A+GGP AH+A+L +  V +  W+ EEQF EL A+GQG+PGPTSTQ+VVS  T RAG  GGL++F LW +P  ++L + GV +   +  D+ P +L G+ PAA SLVF A Y    K++  KL   LS+ S  V +LINGD NI  KVS WV+P ML  GG+VT  D +      E    T++K   +++  R   RI IP+W+G AI   WL +LV  + L      ++   G+F+  +RIGSII+GGGQVVLPML  EVV P W+T++QFFQG  LSQ++PGPLFN SAYLGAV++GVPGA V +VGLFGPGV+LIF  +P+W  +R + WF+  LQGVN+TAIGLV AAC++LW +AV T ADAIV V AG +      QAP  I+ GG+LG +L D   SL Q  ++
Sbjct:   47 TEEEEELEDEAPWNERFWEVVTTFWPLGFVAFGGPQAHVAILRDHLVVQRNWMDEEQFTELFAIGQGIPGPTSTQLVVSTATSRAGPLGGLVAFFLWTLPGLVILTVCGVLIETFVDQDNAPFYLIGLPPAATSLVFKAFYGFSTKLD--KLGIFLSMCSGMVAILINGDYNIDVKVSQWVYPTMLAVGGLVTYTDSRREKPFSEY---TKSKKGWDVQSDRLMKRIGIPLWVGAAIAGVWLFLLVSCILLVDVFKVENTYLGIFEVMYRIGSIIFGGGQVVLPMLQGEVV-PQWMTKDQFFQGLGLSQSMPGPLFNFSAYLGAVHQGVPGALVAYVGLFGPGVILIFAMVPYWAWLRHVPWFRSGLQGVNATAIGLVGAACIILWEAAVLTAADAIVFVFAGTLACVFNVQAPLVILAGGILGAILCDDALSLGQVPYH 480          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A7S2YB08_9STRA (Hypothetical protein n=1 Tax=Amphiprora paludosa TaxID=265537 RepID=A0A7S2YB08_9STRA)

HSP 1 Score: 398 bits (1022), Expect = 1.480e-124
Identity = 214/435 (49.20%), Postives = 288/435 (66.21%), Query Frame = 3
Query:  426 DLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDW-LSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGW-----LVILVVSLTLFPDSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVFYPSEG 1712
            D P+S R+ +VF  F PLG +A+GGP AH+A+L +  V++  WL EEQF EL A+GQGLPGPTSTQ+V+S  T RAG  GGL++F LWN+P  IVL   GV + + +   +  W L+G+ PAA+SLVF A Y    K+++  L+  ++L S+ V +LIN D NI P  S WVFP  L  GG+ T +D K R N + T   + +K     +  T+ RI IP+W+G  I + W     LVI++V +    +  L  +F++ +RIGSII+GGGQVVLPML DEVV P W+T++QF QG  L+Q++PGPLFN ++YLGAVY+GVPGA VG++GLFGPGV+LIF  +PFW  +R  A FK  L+GVN+TAIGLV AACV+LW SA+   ADA+V  V+  M      QAP CI  GGV+G +L      L Q  +   +G
Sbjct:   68 DAPWSERMWEVFTTFWPLGFVAFGGPQAHVAILRDHLVEQRDWLDEEQFTELFAIGQGLPGPTSTQLVISTATSRAGPLGGLMAFFLWNLPGLIVLTCCGVLIDEFVNPDEAPWYLAGLPPAAISLVFKAFYGFASKLDS--LQIWMALCSSLVAILINNDANIKPSSSQWVFPCCLALGGLTTYIDSK-RANPFSTYTKSPSKGWDRDDDTTFKRIGIPLWVGALIFLVWGGVLALVIILVDVAEVTNVYLE-IFETMYRIGSIIFGGGQVVLPMLQDEVV-PDWMTKDQFLQGLGLAQSMPGPLFNFASYLGAVYQGVPGALVGFLGLFGPGVILIFAMVPFWARLRHNAAFKAILKGVNATAIGLVGAACVILWESAIVDAADAMVFAVSLTMAIVFSVQAPICIFVGGVIGAILHPDALDLGQVPYCEDQG 497          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: B7G7I4_PHATC (Predicted protein n=3 Tax=Phaeodactylum tricornutum TaxID=2850 RepID=B7G7I4_PHATC)

HSP 1 Score: 395 bits (1014), Expect = 9.470e-124
Identity = 213/434 (49.08%), Postives = 286/434 (65.90%), Query Frame = 3
Query:  426 DLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDW-LSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGWLVILVVSLTLFP----DSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVFYPSEG 1712
            D P+  R+ +VF  F PLG+IA+GGP AH+A+L +  V++  WL EE F EL A+GQGLPGPTSTQ+V+S    RAG  GGLL+F LWN+P  I+L L G  +   +  + P W L G+ PAA+SLVF A Y    K+++  L   L+L S  V +++N D++I P  S WVFP  L  GG+VT +D K R   + T A+     + + +  T  RI IP+W+G  I + WL IL++ + L      D+    +F++ +RIGSII+GGGQVVLPML DEVV PGW+T++QF QG  L+Q++PGPLFN SAYLGAVYKGVPGA V +VGLFGPGV+LIFG +PFW  +R    FK  L+GVN+TAIGLV AACV LW SA+   ADA+V  +A  M      QAP+CI+ GG++G ++      L Q+ +   +G
Sbjct:   58 DAPWKERMWEVFTTFWPLGLIAFGGPQAHVAILRDHLVEQRDWLDEEAFTELFAIGQGLPGPTSTQLVISTALSRAGPLGGLLAFFLWNLPGLIILTLCGALIDAFVDPNSPPWYLIGLPPAAISLVFKAFYGFAIKLDS--LGIILALCSCLVAIVLNNDDDIDPASSQWVFPTTLALGGLVTYLDSK-REKPFATYASPGKGWDKDSD-ETMKRIGIPLWVGALIFLLWLGILILVIILVDVAEVDNVYLKIFETMYRIGSIIFGGGQVVLPMLQDEVV-PGWMTKDQFLQGLGLAQSMPGPLFNFSAYLGAVYKGVPGALVAYVGLFGPGVILIFGMVPFWARLRHNDTFKAVLKGVNATAIGLVGAACVTLWESAISGAADAMVFSIALTMAVAFSIQAPFCILAGGIIGAIMHPDALDLGQQPYCVDQG 486          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A1Z5K7W6_FISSO (Chromate transporter n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5K7W6_FISSO)

HSP 1 Score: 383 bits (984), Expect = 2.360e-119
Identity = 207/434 (47.70%), Postives = 278/434 (64.06%), Query Frame = 3
Query:  426 DLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDW-LSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGWLVILVVSLTLFPDSGLGG----LFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVFYPSEG 1712
            D P+  R+ +VF  F PLG IA+GGP AH+A+L +  V +  WL EEQF EL A+GQGLPGPTSTQ+V+S    RAG  GGL++  LWN+P  +VL L GV +   +  ++P W L G+ PAA+SLVF A Y    K++   L   L+L S+CV +LIN D++I    S WVFP  L  GG++T +D K R   +    +     + + +  T+ RI IP+W G  I V ++ +LV+++ L   + +      +F+  +RIGSII+GGGQVVLPML DEVV P W+T  QF QG  ++Q++PGPLFN SAYLGAVY+GVPGA V +VGLFGPGV+LIF F PFW  +R    FK  L+G+NSTAIGLV AAC++LW SA+   ADAIV  +A  +      QAP CI+ GG++G L+      L Q  +    G
Sbjct:   54 DAPWRDRMWEVFTTFWPLGFIAFGGPQAHVAILRDHLVIQRDWLDEEQFTELFAIGQGLPGPTSTQLVISTALSRAGPLGGLMALLLWNLPGLVVLTLCGVLIDAYIDPNNPPWYLIGLPPAAISLVFKAFYGFAVKLDT--LGIILALFSSCVAILINNDDDIKASSSQWVFPTCLALGGLITWIDSK-REKPFSDYGSPSKGWDRDTD-ETFKRIGIPLWAGALIFVVYIGVLVMAIVLADVAKVENEYLEIFEIMYRIGSIIFGGGQVVLPMLQDEVV-PAWMTNSQFLQGLGIAQSMPGPLFNFSAYLGAVYQGVPGALVAFVGLFGPGVILIFAFCPFWARLRHNQDFKAILKGLNSTAIGLVGAACIILWESAISGSADAIVFSIAFTLAVVFNVQAPLCILVGGIVGALMHPDALDLGQRAYCVDSG 482          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A6U6J7K4_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A6U6J7K4_9STRA)

HSP 1 Score: 380 bits (976), Expect = 1.650e-118
Identity = 200/436 (45.87%), Postives = 284/436 (65.14%), Query Frame = 3
Query:  426 DLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDW-LSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRT--KAELELEGRTYSRINIPMWMGCAIIVGWLVILVVSLTLFPDSGLGG----LFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVFYPSEG 1712
            D P+  R+K+VF  +  LG +A+GGP AH+A+L +  + + +W+ E+ F+EL A+GQGLPGPTSTQ+VVS    RAG  GGL++F LWN+P  +VL + GV +   +   +P W L G+  AA+SLVF A Y   KK++  KL   L+L+S  V +LINGD  ISP  S +V+P +L+ G  + ++DW+      ++    ++  K     + RT  RI IP+W+G  +I  W  +L +S+ L    G+      +F+  FR+GS+I+GGGQVVLP+L  EVV P W+T++ F QG  L+Q++PGPLFN S+YLGAVY+GV GA V + GLFGPGVMLIF  +PFW  +R + WF+  L G+N+TAIGLV AACVLLW +AV T ADA++  VAG + ++ G  AP+ +  G VLG +LS   A L Q+ +    G
Sbjct:   30 DAPWIDRMKEVFQTYWYLGFVAFGGPQAHVAILRDHLIVQRQWMDEDAFMELFAIGQGLPGPTSTQLVVSTALARAGPLGGLMAFFLWNLPGLVVLTVCGVLISTFVDPDNPPWYLIGLPAAAISLVFKAFYGFTKKLD--KLGVPLALMSCTVAILINGDTKISPLASQFVYPCLLVLGATIAVLDWRRGVRTGKSVGTYKSASKGWDAEDDRTMRRIGIPLWVGGFLIFLWAFLLGLSVILVDRVGVTNPYLEIFEVMFRVGSLIFGGGQVVLPLLQTEVV-PVWMTKDTFLQGLGLAQSMPGPLFNFSSYLGAVYRGVGGALVAYCGLFGPGVMLIFAVVPFWARLRHVLWFRAVLNGLNATAIGLVGAACVLLWEAAVSTAADAMIFCVAGTLAAYYGVGAPYVVASGWVLGAILSPEAADLGQQTWCDKAG 462          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A1V9ZXF4_9STRA (Chromate Ion Transporter (CHR) Family n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1V9ZXF4_9STRA)

HSP 1 Score: 358 bits (919), Expect = 1.690e-110
Identity = 194/429 (45.22%), Postives = 275/429 (64.10%), Query Frame = 3
Query:  435 FSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDWLSGVGPAAVSLVFVAAYKLGKKV-NNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDW--KYRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGWLVILVV-----SLTLFPDSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVF 1697
            +  RL  V  Q LP+ + A+GGP AH+ + HERFV+K +WL +E+F+E++A+G  LPGPTSTQ++ SMG FRAG  GGL+SF  W +P F+ + +AG+G ++ L    P W++G+ PAAVSLV +AA KL  KV  + +LK  ++ +SA + L   G       +  W+FPL+++ GG+ T++     Y   +  +     T    E E      + IP W+G  +++ W+    +     SL    DS LG LF +F+R+GSII+GGGQV+LPML++++V+ GW++++QFF GFAL Q+LPGPLFN+SAYLGAV  GVPGAF+   GLFGPGV L    LP W  VRK    ++F+ GVNS AIGLV+AA  LLW  AV   A A V +  G +    G  AP+ I+ GGVLG++LS +V ++AQ  F
Sbjct:   27 YLARLLSVPVQVLPVSLFAFGGPQAHLGIAHERFVEKLQWLDDERFLEVIALGSALPGPTSTQVITSMGFFRAGPLGGLVSFIAWALPGFLAMTVAGLGAQEYLKGGVPVWMAGLAPAAVSLVVIAAVKLWNKVCGDNQLKMAIAALSAFIVLATQG-------LGTWIFPLLMLVGGLTTVIATFSGYNEPLVTSKQRRGTNPLPERE------LGIPTWVGIILLIVWIATFAILSYFNSLHELGDSYLG-LFYAFYRMGSIIFGGGQVMLPMLMNDIVNAGWVSKDQFFIGFALIQSLPGPLFNISAYLGAVALGVPGAFLAAAGLFGPGVGLFIAVLPLWERVRKNRGLQVFMAGVNSAAIGLVVAAIALLWQHAVHNNASASVCLATGVLVGLFGVPAPFGIVIGGVLGYILSPAVLNIAQTSF 441          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A7S2KXW7_9STRA (Hypothetical protein (Fragment) n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2KXW7_9STRA)

HSP 1 Score: 357 bits (915), Expect = 2.030e-110
Identity = 191/372 (51.34%), Postives = 255/372 (68.55%), Query Frame = 3
Query:  423 EDLPFSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPD-WLSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGWLVILVVSLTLFP----DSGLGGLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAA 1523
            ED P+ TRL +V   F PLG +A+GGP AH+A+L +  V +  W+ EE F EL A+GQGLPGPTSTQ+VVS    RAG  GGLL+F LWN+P  IVL   GV +++ +   DP  +L G+ PAA+SLVF A Y  G K++  +L   L+  S  + +L+NGD+NI P  + +VFP+ML+CGG+VT  D K R N + T      K   + + +T+ RI I + +G  I + W V+LV S+ L      D+    LF+  +RIGSII+GGGQVVLP+L  EVV P WL+E+QF+QG  L+Q++PGPLFN S+Y+GAV+KG+PGA V +VGLFGPGV+LIFG +PFW  +R +AWFK  L GVN+TAIGLV AA
Sbjct:   42 EDTPWLTRLHEVLVTFWPLGFVAFGGPQAHVAILRDHLVVQRDWMDEEAFTELFAIGQGLPGPTSTQLVVSTALARAGPVGGLLAFFLWNLPGLIVLTTCGVLIKEFINPDDPPFYLIGLPPAAISLVFKAFYGFGLKLD--QLGIALATFSCIIAILLNGDDNIEPTATQYVFPIMLLCGGLVTYFDSK-RENPWGTYKTP--KGWDKEDDKTFKRIGISVPVGIFIWIVWAVVLVASIVLVDVGDVDNEYLQLFEKMYRIGSIIFGGGQVVLPLLEAEVV-PHWLSEDQFYQGLGLAQSMPGPLFNFSSYIGAVFKGIPGALVAYVGLFGPGVILIFGMVPFWAKLRHVAWFKAALNGVNATAIGLVGAA 407          
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Match: A0A1V9ZB66_9STRA (Chromate Ion Transporter (CHR) Family n=1 Tax=Achlya hypogyna TaxID=1202772 RepID=A0A1V9ZB66_9STRA)

HSP 1 Score: 357 bits (917), Expect = 2.560e-110
Identity = 193/428 (45.09%), Postives = 267/428 (62.38%), Query Frame = 3
Query:  435 FSTRLKQVFWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPGPTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSDPDWLSGVGPAAVSLVFVAAYKLGKKV-NNTKLKFTLSLVSACVTLLINGDENISPKVSAWVFPLMLICGGMVTLVDWK--YRPNIYETAAATRTKAELELEGRTYSRINIPMWMGCAIIVGWLVILVVSLTLFPDSGLG----GLFKSFFRIGSIIYGGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVYKGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIGLVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWLLSDSVASLAQEVF 1697
            F  RL  V  Q LP+ + ++GGP AH  L HERFV+K +WL +E+F+E++A+G  LPGPTSTQ++ SMG FRAG  GG+L+F  W +P F+V++ AG+G ++ LG   P W++G+ PAAVSLV +AA KL +K   +  LK  ++ VS+CV L   G       +  W+FPL+++ GG+ T+      Y   +             E E      + IP+W+G A+I GW+    +   L     LG    GLF +FFR+GSII+GGGQV+LPML++++V  GW+T++QFF GFAL QALPGP+FN++ YLGAV  GVPGA +   GLFGPGV L F  LP W  VR+    ++F+ GVNS AIGLV+AA  LLW  AV   A A V +  G +       AP  I+ GG+LG++ S +V  +AQ  F
Sbjct:   18 FIARLLSVPIQMLPVALFSFGGPQAHYGLAHERFVEKLQWLDDERFLEVIALGSALPGPTSTQVLTSMGIFRAGPLGGILAFVTWMLPGFLVMLFAGLGAQEYLGGGVPVWMAGLAPAAVSLVIIAAVKLWQKACGDDSLKMAIAGVSSCVVLATQG-------LGTWIFPLLMLLGGLTTVAASAAGYAKPLIAPKRGHGGSPHFERE------LGIPLWVGAALIAGWIAAFGLLAYLDTTHALGHHYLGLFYAFFRMGSIIFGGGQVMLPMLLNDIVSAGWVTKDQFFVGFALIQALPGPMFNIATYLGAVALGVPGALLAAAGLFGPGVGLFFAVLPLWELVRRNHHLQVFMAGVNSAAIGLVVAAIALLWEHAVHNNASAAVCLATGILVGLFQVPAPVGILVGGLLGFIFSPAVFDVAQTNF 432          
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig10.55.6 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FM24_ECTSI3.140e-25481.32Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A2R5G6L9_9STRA8.080e-12951.84Uncharacterized protein n=1 Tax=Hondaea fermentalg... [more]
A0A6T7FFJ8_9STRA8.090e-12649.55Hypothetical protein n=1 Tax=Attheya septentrional... [more]
A0A7S2YB08_9STRA1.480e-12449.20Hypothetical protein n=1 Tax=Amphiprora paludosa T... [more]
B7G7I4_PHATC9.470e-12449.08Predicted protein n=3 Tax=Phaeodactylum tricornutu... [more]
A0A1Z5K7W6_FISSO2.360e-11947.70Chromate transporter n=2 Tax=Fistulifera solaris T... [more]
A0A6U6J7K4_9STRA1.650e-11845.87Hypothetical protein n=1 Tax=Odontella aurita TaxI... [more]
A0A1V9ZXF4_9STRA1.690e-11045.22Chromate Ion Transporter (CHR) Family n=1 Tax=Thra... [more]
A0A7S2KXW7_9STRA2.030e-11051.34Hypothetical protein (Fragment) n=1 Tax=Leptocylin... [more]
A0A1V9ZB66_9STRA2.560e-11045.09Chromate Ion Transporter (CHR) Family n=1 Tax=Achl... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig10contigA-nodosum_M_contig10:580028..600709 +
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.D7FM24
PFAMsChromate_transp
Model size2974
Max annot lvl2759|Eukaryota
KEGG koko:K07240
KEGG TC2.A.51.1
Hectar predicted targeting categoryother localisation
Exons10
Evalue7.8e-263
EggNOG OGsCOG2059@1|root,2QRJG@2759|Eukaryota
DescriptionChromate transporter
Cds size1407
COG categoryP
BRITEko00000,ko02000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig10.55.6prot_A-nodosum_M_contig10.55.6Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig10 580336..599450 +


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

Feature NameUnique NameSpeciesTypePosition
1680866349.8201225-UTR-A-nodosum_M_contig10:580027..5803351680866349.8201225-UTR-A-nodosum_M_contig10:580027..580335Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig10 580028..580335 +
1680866349.967839-UTR-A-nodosum_M_contig10:599450..6007091680866349.967839-UTR-A-nodosum_M_contig10:599450..600709Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig10 599451..600709 +


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

Feature NameUnique NameSpeciesTypePosition
1680866349.8398936-CDS-A-nodosum_M_contig10:580335..5803631680866349.8398936-CDS-A-nodosum_M_contig10:580335..580363Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 580336..580363 +
1680866349.8548186-CDS-A-nodosum_M_contig10:592525..5926441680866349.8548186-CDS-A-nodosum_M_contig10:592525..592644Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 592526..592644 +
1680866349.8636086-CDS-A-nodosum_M_contig10:593450..5936181680866349.8636086-CDS-A-nodosum_M_contig10:593450..593618Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 593451..593618 +
1680866349.8752859-CDS-A-nodosum_M_contig10:594529..5947271680866349.8752859-CDS-A-nodosum_M_contig10:594529..594727Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 594530..594727 +
1680866349.892526-CDS-A-nodosum_M_contig10:595420..5956281680866349.892526-CDS-A-nodosum_M_contig10:595420..595628Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 595421..595628 +
1680866349.9096012-CDS-A-nodosum_M_contig10:596419..5966101680866349.9096012-CDS-A-nodosum_M_contig10:596419..596610Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 596420..596610 +
1680866349.9230878-CDS-A-nodosum_M_contig10:597116..5972031680866349.9230878-CDS-A-nodosum_M_contig10:597116..597203Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 597117..597203 +
1680866349.9337227-CDS-A-nodosum_M_contig10:597882..5980471680866349.9337227-CDS-A-nodosum_M_contig10:597882..598047Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 597883..598047 +
1680866349.9456668-CDS-A-nodosum_M_contig10:598713..5988391680866349.9456668-CDS-A-nodosum_M_contig10:598713..598839Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 598714..598839 +
1680866349.9572556-CDS-A-nodosum_M_contig10:599333..5994501680866349.9572556-CDS-A-nodosum_M_contig10:599333..599450Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig10 599334..599450 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig10.55.6

>prot_A-nodosum_M_contig10.55.6 ID=prot_A-nodosum_M_contig10.55.6|Name=mRNA_A-nodosum_M_contig10.55.6|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=469bp
MAAVQDEKIAEAAAAALDEAARGRSAEENGTVPEENAGEDLPFSTRLKQV
FWQFLPLGVIAYGGPNAHIALLHERFVDKSKWLTEEQFVELMAVGQGLPG
PTSTQMVVSMGTFRAGIPGGLLSFALWNIPSFIVLVLAGVGVRDLLGDSD
PDWLSGVGPAAVSLVFVAAYKLGKKVNNTKLKFTLSLVSACVTLLINGDE
NISPKVSAWVFPLMLICGGMVTLVDWKYRPNIYETAAATRTKAELELEGR
TYSRINIPMWMGCAIIVGWLVILVVSLTLFPDSGLGGLFKSFFRIGSIIY
GGGQVVLPMLVDEVVDPGWLTEEQFFQGFALSQALPGPLFNLSAYLGAVY
KGVPGAFVGWVGLFGPGVMLIFGFLPFWGTVRKIAWFKIFLQGVNSTAIG
LVIAACVLLWGSAVDTYADAIVAVVAGCMQSFLGYQAPWCIIGGGVLGWL
LSDSVASLAQEVFYPSEG*
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mRNA from alignment at A-nodosum_M_contig10:580028..600709+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig10.55.6 ID=mRNA_A-nodosum_M_contig10.55.6|Name=mRNA_A-nodosum_M_contig10.55.6|organism=Ascophyllum nodosum dioecious|type=mRNA|length=20682bp|location=Sequence derived from alignment at A-nodosum_M_contig10:580028..600709+ (Ascophyllum nodosum dioecious)
GCAGAAGACGTTGATACGTGGTGTGGTCAAAGACGGCGAAGCATCAGCGA TGCCGAAATAGAGGGCACAGGCAGTGGCGGAACTTAAAGGGCCCCTCTTT TATACAATCGTTCAGAACTGTTTTAGTCCCTGCTGCGGTGCTCCTTCTCT GCGCTTCAACATCAGGACTTGCTTCCACCAAACCGGACGCTCCCAACGGT AGAGCGCACACTGAAAGACGTCCTGGTGGGTACAGGTGGTTGCTGGGACG CGCTCATTGCATCCTCCTTCCATTATTAGGCGGAAGAAAAGAGCGGAGGC AAGCGACAATGGCTGCCGTCCAGGATGAGAAGATTGGTAAGAGACAAGGA TAGCCTAACGGGTCAGATTGATTCAGTATTTCATTATTAATACAAACAGT ACCAGTACTCGTACTACCGAACAGTATTTCCAACATACTTGTTTATTCTA TACTTATTACAAAACGAACCAGAGATTTCCTGTACATACATACATAAGTG GTTGAGCTACAGAACGATATTGGTTGGAGAGCCGGTTGGATCGACTGGCT AATCTGGATGCATCGACCCCTTTGCTTGCTGTGAGTCGGTGTGAGTCGGC TACGACTAACTGTAGTCGTTGCAAACTCTGCTACGGTTACCTGTACCTCT TGGCGTGTATCTACTCTCCTTGCGGCTGCGTGCCGGACTTCAAAAATTAC TGTCAGCGGACGTCGTCTCCCTACCAGTACGTTATATGTACGAAATTTTT GTGTAGAATTATTTATTTATTTTTTGCAGCATAATTCGGCCCTGTCCTGC TCTTATAGTCTAGTACCAACCAAATTCAGCCTGACGGGGAACAGGCAGGC TGACGCGGGGCGGGACAACTGAACCCGTCTCGCGAGACTAAATTCTCAGG CGTGAACGGAAACCGGGGAATATTAATTTCGCCTGTTCAGCTGACCACGA GCGGGATTCGCAACCTTACCCGGTTGATCCATACTCTGCGACCATATATA TGTGATGATCATACAACTGTACATAATACGCACATCCATCCATTCATCCA TACACACACATACATATATACTATACTGGTATACAGTACTCACGAAAAAG TCTGACGAGTCGCGTCAAAGGAGATACGCTCTGTCTCATTCTCTACTCCA CTCTGCCTGCCCCTCTGGAACTCTCATACGCCTTGCGCTCCCTCTCCCCT CCCTAGTTGCCGTGTACAGTATAGTGGTACTACTAGTATTACTAGTATGT ACCAGGTACTGTATGTATATATTTATTAAACTGCGAATAACCGCGTACTC CGACCTTGTCCTGCTACAGTAAGTATACTGTACAGTACTCGCATCCGCCA AGTTGTAGGGATGGTCGGAGAATATGGTCTCACGGAATATTAGGTCTGGC CGTCCCGTCCCGCTTCAGCCCGCTCACTCACATACAGTACCCAGTCAGAC TGAATCTGTAGGACAGAAGATTGGAGATCAGATTCCTCCCCTGTCCTTTA TCCTTTCTAAAGAATAAATTTTGGTTTTTCATTTGCAGGGCTTGGTTTCT TATTTGCCAAGTCGCCATCTTGTCTTTTCGTGCTACGAGTAGAGCTATGT GTGTGTGTGTGTTTTCTTCCCATCCATTCTGGACATCAAGTTCGTTGGAC GTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTTTAATCCA CCTTCCTTCTGCGGTGCGTGCCTTGATTTTTGTCGCGAGAAGGATTCAGC CATTCCTTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGTACTAACGAAT TAATCGTTCTCCACCCGTTGAGCATTTTTATTTTGTTTTTTTAGTTTTTA GTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAG AAGGTTACGAGGTGCCAACTGAGCTACCGGGGTCGACCGGCTTCGTATGC ATGTAGTATGTGTGTTTTGACTTAAAGTCGTTAGTTCTAGTCTCTGCTAT ATAGGCATGTTTTTTGCCTAGGCTACGGAATAGAATGGACATAGCGCGGG CAAATCAGAAGCCGTTGTTTACACATCGCGGACCAATCACAGGTTGTTTT AGACATAGCCACCAAACTTTATACGCTCGATGTAATACTAGAGTACAGTT TGTTTTGGACATTGCCACCAAACTTTATACGCTCGATGTAATACTGTACT AGAGTACATACAGTAAAGATCGAATAAGTGAGGAAAAAACTAGTACCGAG CATACAACTAGCAAAACAGCTCGACTTCGACTGAGATGATCCTGCGTCCT CCTGTGTTTCAAGAAAAATCTGAACGCGCTGTATTGCGACGCCTCTTCGT GTATTGCGACGCCTCTTCGAATATCATCATCATCATCATCATCATCACCC TTATACTGTTTGCGTGAGAATATATCTTTCGATACATTGATAAGACGCTC CAGCCGGGGTCACAACAGTAGAAAGGCCACACAACCTTCCCCCTGCGGTA CATGCCTTATATTATTAATTTTTATCGCGAAAAGGGTTCAGCCCTCCCTT CCCTCGTCGACGTTGAGGTCGAATTTTGTGTACCCACGACAAATTAGCCG CTCTCCACGTGTTGGGCATTGTATGAGTTAGAATCCCAGTTCGTGTGACT GCAGCTAGGATTCGGACTCAATTCCCAATTGCGGTTTCCAGCCATCAGCC GTCAGCCGTCAGCCATAAGCCGTCAGCCATCAGCCATCAGCCATCAACCA TCAGCCATCAGCCATCAGCCAATTTCGGTTTCCAGCCGTCAGCCATAAGC CGTCAGCCATCAGCCAATTTCGGTTCCCAGCCATCAGCCGTCGGCCGCCA GCCATCAGCCATCACCCATCACCCCTCAGCCATCACCATCAGCCATCACC ATCACCATCAGCCTACACCATCCTACCATCCTTTGGTACCCTTGCTTTGT TTTACCCCCTTTAAAACCGGGCGTAGCTCTGGAGATGACCTAAGCCCGGT ACCTGGGGGCGCTTTTGGCATAATTTAGTCCTTGATTTACCCTCTATCGA TCGTGGGGGGTATAGATCGCTAGAGAGCCCCGCCGGAATATAAACAGTAA TGGTACGCTCATCTTGAGCTGCTTCACCGCTCTCGTACAGGATCCACTCT AAAGTCTAATAATAGGTGTTTGTGAATGGGCTCAGATCCCATACATAAGG ACGTTTTGAAAATAAATAAATTATTCGCGCGACGCGCGCCCAAAATTTGA GGAGGCATTTTTTTGTAAGAAAGAGAGGTATTACACATTGCGTCTTGCTC ATGTCTTTGGGTGTTACAAACTGGCCCTTGCTGTTCGAGATAATGCTCGG TTGCATCACGATTTTTTGCATTGAAGTCCTTCGAATATATTGAGTGACGT AAGCTTCCCCTTAGAATTCAGTTCCAAAGGACGTTCTGCTGGTACCACGG CAAAAACAACTAGGGGCGCGAAGTATTTCGGCAGCAGCCGAACGAACTTT GTATGGCGTTTGAAAACAGATATTTTATACGTAAACTGGCCTTGCTCTTC GAGATAATGCTCAATTACATCACGATTTTTTGCATTGAAGTCCTATAAAT ATAATGAGCGACGTAAGCTTCTCCTTAGCATTCAGCTCCAAAGGACGTGC TTGATTGTGGTGCGCCGTTCGGTCTCGCGGATCTACTGCCGCTGCTCGGA CCACTCTCACGATCTCCTGTTCTACTACTACTGCTGCTGCTGCTGCATGT GCTAACCCGCAGCCGCGGGACTGGTTCATTGGTACTCGGCGGTAGCGCGC TGCTGCTCCACGAGCCAGCCTCAGCAGGACTATACGTTCAAACATGCTGG TTATCTTCCGTGAGGCGGAAGTGGCTTTTTTGGCTGCAAGGGTCCTCGCG TTTGGCCCTGGCTTACGCGCTGTTGCTTTGTTAGTACTGCCCTTTGGACG CCCTCGCTTGGAGCCGAGCTCACCGTAGGGGTTCGACACGGGGACAGGTG TTGGCGTTGCTTCCACGACAGCAAACATGCCTGGGTATAGAAACGTCACC AGCGCCGGCATGCAGCCTGGTGTTGGCGCCCCTTGCCTTGCGCGATACCA AACATAGCTGGGTACAGATACACAACCAGCGCCGGTATGCAGCACTTGAC CGGCGGGGGCAGACCCCATGCTCCGATAAACGGCATAAGATACAATATAG CGTTGGTATAGTGGTATAGTGTACCACCATCCTCAACGACAGGTCACATG CTCCAAAAAACGCACCCAACCACACTATATTAGTGGGGATGTACCGCCAC ACCAGCATGGTCCATCAATGCTGCCGCCGACGCGTTCGTGTGTGTGAGTT GCCTATATGTTTTCAAGTAAAATAGACCTGTAACAGAGTAAGAAAACCTG CGTGCTGCTCAGACGATCATGTACTGTGTGAAATGCACCAGACGATCATC TCATGGTACTGTGCGAAATGCACCACGCCCTCCAATCATCGTCCCGTCCT TATAAAATCCTTACAAAAATCGTCTTTCATTGGTCGAATCTCACAGTATT TCCGTGCCAGGGAAGTCTGTGATTGGTGGGTCCTTACAAAACTATCCCTA CGGATGGGGTTAGTGCCTGGAAATGCACCACCGTAGTATTTATAAAAAGG AGAGTTCCGCCTTATAGGCCTGGCAAGGGGTACAAATATTCTCGTGTGCT GTTAAAAATAAGTAAATATATCTGGGGCCCAGCACGAGGGGGCGTGCTCG AGGGGGGGGGGGGGGGGTCCCTTATTTTTGGCACGGCACTGCTGTGTCCA AGCACCAGACAGGTACTGTGACTAAGCAAACAACCGGTGCTCGATGGGGG TTTCTGGGACCCAGCACCAGGGGGCGTGCTCGAGGGGGTCGGGGGGGGTT ACCCCCGGCACGGCTGCTGTGTCCAAGCATCAGACAGGTACTGTGACTAA GCAAACAACCGGTGCTCGACACGGCTGCTGTGTCCAAGCACCAGACAGGT ACTGTGACACGGCTGCTGTGCGATGACTGGGGTGATCACCCTTCCGCGAA GAAATCTCGCTTCTTTGTGCCCTGGGAGGCGGGAGGTCCGTCCCCGAATT AGCACGCCTCTGCAACACCTCCGCTTCTGAACGCTTGGCTGCAAGAACTT TCAAATTCGAAAGAAGTAAAGTTTGTACGAATGGTGTTCCTCATCGATGA CTGGGGTGGACTCAGAGTGGTTCCTCATCGATGACTGGGGTGAACTTCTT TATGGGTATACTTTCAGTGCGCTCAGACAAGACCTTCCCTTAAAATCACA CTGAACATAGCGGCGGGACTGTCAGGACAGAAATTCGAAATTGTATTCGT ACTTGAAATCACCCTCCCGCGAAGAAATCTCGCTTCTTTGTGCCCTGGGA GGCGGGAAGTCCGTCCCCGAATCAGCACGCCTCTGCAACACCTCCGCTTC TGAACGCTTAGCTGCCAGAACTTTCAAATTCGAAAGAAGTAAAACTTGTA CGAATGGTGTCCCTCATCGATGACTGGGGTGGTCTTCTTTATGGGTATAC TTTCAGTGCGCTCAGACAAGACCTTCCCTTAAAATCACACTGAACATAGC GGCAGGACTGTCAGGACAGAAATTCGAAATTTGTATCCGTACTTAAAATC ACCCTTCCACGAAGAAATCTCGCTTCTTTGTGCCCTGGGAGGCGGGAGGT CCGTCCCCATTTAGCACGCCTCTGCATCACCTCCGCTTCTGAACGCTTGG CTGCAAGAACTTTCAAATTCGAAAGAAGTAAAGTTTGTACGAATGGTGTT CCTCATCGATGACTGGGGTGGACTCAGAGTGGTTCCTCATCGATGACTGG GGTGATCTTCTTTATGGGTATACTTCAAGGTTGTGTTGAGTCGAGTAGAG TATTTAGAGTAGAGTATTGAAAGCGGTACTCAAGCTTTGAGTATTTTGAG TGGAGTATGGAAAGTTGCACTCAAGCTTTGAGTATTTTGAGTCGAGTATG GAAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCAT ACTCGATACTCGACTCATCGTTGAGTATTTTGCCCGATACCGTACTCATA CTCGAGTAGAGTATGGAAAGTTGTACTCAAGCTATGAGTATGTTGAGTCG AGTATGGGAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGGA AGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACT CGATACTCGACTCATCGTTGAGTATTTGCCCGATACCGTACTCATACTCG AGTAGAGTATGGAAAGCGGTACTCAAGCTTTGAGTATTTTTGAGTCGAGT ATGGAAAGCGGTACTCAAGCTATGAGTATTTTGAGTAGAGTATGGAAAGC GGTACTCAAGCTATGAGTATGTTGAGTCGAGTACATACTCGAGTAGAATA CTCGAGTAGTTGAGTAGTACTTTTCTCACCACAACCTAAAAAACTAAAAA ATTAAACTACATATCACCCTACTTCAATTCACCCCCTGCATTTTCACCCG CCCTCCCGTTGGTCATAGCGGTGAAAGGCTGAACGCTGCACCCCTGGTCG GTTGTCAACCGCCACCGATGGCCTGTTTGCAAGCACTCGCACTAATCACT AATATATAGCAAAAGAGATATAAAAACAAAATACTATACTTTCTATGGTA GTAATTTTGATATTGCACGACCGCAAAAGCAGTACGAAACAAAAACAAAA CAACTAGCTGCCCTACGCATGTCCTAGTTGATGTCTATGCCACTGGGAGT GGGAGGCGCGTTGTTGACCAGCGGGTCAATCGACGCCTCTGCGTCCAGAA GATCCTTGTCCTGTCCGTCGAACCTCGCGGGGAGGTGATTGCGGATGTCC TCCGATGCGATCTGGGGGATGTCCTTGTACGCCGGAATGGAGCTGTAGTT CGCCTTCAGGAACATCACCATTTCCACCCAGTAATGTCGGGGAGAAGCCC ACCGTTATACTGTACACTTACATTAATCGCCATGCAGGGACACCAGAAAA GAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGATGTTGTTGTTGTTTTTCA CATTCAGCGTATTGGTTGCCAACCCAAAAAACTACTTTACACAATGTCTG GGTACAAAATGCCCGCAGAATGACGTCACGAAGACGAAGACATGTACTCA AACTTGAGTAGAGTATTGAGTACTTTGAGTCGAGTATGGAAAGTCATACT CAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACTCGATACTCG ACTCATCGTTGAGTATTTGCCCGATACCGTACTCATACTCGAGTAGAGTA TGGAAAGTTATTCTCAAGCTATGAGTATGTTGAGTCGAGTATGGGAAGTT GTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGGAAGTTGTATTCCAA GCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACTCGATACTCGACT CATCGTTGAGTATTTGCCCGATACCGTACTCATACTCGAGTAGAGTATGG AAAGCGGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGCGGTA CTCAAGCTATGAGTATGTTTGAGTAGAGTATGGAAAGCGGTACTTGCTAT GAGTATGTTGAGTCGAGTACATACTCGAGTAGAATACTCGAGTACGCCAT GAGTAGTACTCGACTCAACACAAATTTGGTATACTTTCAGTGCGCTCAGA CAAGACCTTCCCTTAAAATCACACTGAACATAGCGGCGGGACTGTCAGGA CAGAAATTCGAAATTGTATTCGTACTTAAAATCACCCTTCCGCGAAGAAA TCTCGCTTCTTTGTGCCCTGGGAGGCAGGAAGTCCGTCCCCGAATTAGCA CGCCTCTGCAACACCTCCGCTTCTGAACGCTTGGCTGCCAGAACTTTCAA ATTCGAAAGAAGTAAAGTTTGTACGAATGGTGTCCCTCGTCGATGACTGG GGTGGACTCAGAGTGGTTCCTCATCGATGACTGGGGTGATCTTCTTTATG GGTATACTTTCAGTGCGCTCAGACAAGACCTTCCCTTAAAATCACACTGA ACATAGCAGCGGGACCGTCAGGACAGAAATTCGAAATTGTATCCGTACTT AAAATCACCCTTCCGCGAAGAAATCTCGCTTCTTTGTGCCCTGGGAGGCG GGAAGTCTGTCCCCGAATCAGCACGCCTCTGCAACACTTCCGCTTCTGAA CGCTTGGCTGCCAGAACTTTCAAATTCGAAAGAAGTAAAGCTTGTACGAA TGGTGTTCCTCATCGATGACTGGGGTGGTCTTCTTTATGGGTATACTTTC AGTGCGCTCAGACAAGACCTTCCCTTAAAATCACACTGAACATAGCGGCG GGACTGTCAGGACAGAAATTCGAAACAAGTAAAGTTTGTATTTGTACTTA AAATCACCCTTCCGCGAAGAAATCTCGCTTCTTTGTGCCCTGGGAGGCGG GAGGTCCGTCCCCGAATTAGCACGCCTCTGCAACACCTCCACGAATATGG AATATATAGCGGCGGGACTGTAAGGACAGAGAGAGAAGTGCAGCTAGCAT ATGCTTCTGAACGCTTGGCTGCTAGTCCTTTGAAATTCGAAAGAGGTAAA GTTTGTACGAATGGTGTTCCTCATCTATGACTGGGGTGGATTCAGAGCGG TTCCTCATCGATGACTGGGGTGATCTTCTTTATGGGTATACTTTCAGTGC GCTCAGACAAGACCTTCGCTTTCGCCATGTGCTCGACCGTACAACTTTGG AGGGGCAAAAACAGCATGTTCACACAAGGTTTTGTCCGTCCAACCTCGTC ATGGGTCGGCACCTCCTCCGCACAGTAAAGTGTAGAGGGGATGGGAACTG CTGGTACCACTCTATTCTCAACGGAATCTGCCATCTTAGTGGTCAGGTGC GTACCAATACACTGACCGTGGCACAAATACCCCATAAGTGCCTACGAGCG AAGCGAGCCAACACGTACTGTGACTCAACACTGACGGCCGCACAAATACC CGTCAAGTGCTTTTGAGCGAAGCGAGCCACCACGCACTGTGACCCAAGAC TGACCGCGGCACAAATACCCCATAAGTGCCCACGAGCGAAGCGAGCAACC ACGCACTGTGACCCAACACTGACTGCGCCACAAATACCCCATAAGTGCCT ACGAGCGAAGCGAGCAACCACGCACTGTGACCCAACACTGATCGCCGCAC AAATACACCATAAGTGCCTACGAGCGAAGGGAGCCACTACTACCCTCGGA TTTACTCCCATCCAAATAGTCGAATCGCACACCGAAACCCTGTGAATCTT TCGTCTCTGTTCATTCTCGGTTCATTCTCGAAGAGAGGTTGAAAATTATC CTCTGTCGCAAGTGGGATGGCTAGTGAAACAATAGCGAACTACGTGGCAC TCAGGGCTGGCATGATCGGGAAGCATTCGACTTCTTCGTAGTCATACTCA GCATGTTCAAATCTAGTGTGTGTGTGTGTGTGTGTGTATTTATTAAATTG CACATAACCACGCAATCCGGCCCTGTCATCCTAGTCATTCTATGCCACTC GCATTGATCCTCCCGAGGGGGGATGTGTGTATGTGTGTGTGTGTTGTCAT CCCATTTATTCTGGACGTCAGGCTTGTGGACGTACCAGCCGGGGTCACAC AGGAGGAAGGTTACACAGGATTTGTCCACCTTCCTTCTGCGGTGCTTGCC TTAATTTTTCTCGCGAGAAGGATTCACCTTCGTCGACCGTGAAGTCGATT TTTGTGTCCTTGGCCGGTGCAAACCCGGCGGTGAATACACCCCGGCCTAG TAGGGATAAAATGATAGAATCATGCGATTTATTGTCTTGATTGGTGATCC TTGATTCTTCTTGTTTGTTTTATTTTGCTTGGCCTCACGTGTCGAGTGGG AGCGACTCTATCTATCTCCTTTGCCGGACATGTCGCCTGCGACGTCTGAC TGTCTGGAGCCTTATTTTTCTGTTTAAAAAAAATCTGAACGCATCTAAAC CTTCTGAGCATCCACCTCAAGTGGGAGAGTGTCTAAAGGTTTAGGTGGGA ACATTGGCTGTAGAGACAAAACCTCTTCATGGTATCAAAAGGGTTCCCCA ATGTAACTACATCGGGTCGACAGTATAATATCGGGGAGAAGCCCTCCGTT ATAATGTACACTTACATTAATCTCCATGCAGGGACACCAAAACCACAATC CTTTTTATCTAAGAGTCCTGGACTACAGTGTAGTGATATGGTCTTACACG GTCTTAGAGAAATTAAAGTAAAATTAAATTAATATTAAAATATAGGTGAG GTTCTTTGTTATTGATATAAATTGATGGGAGGCGACATAGGGATATTCAA TAGGGTCAGAGAGGGAACTTTACAAGTACATTAATCATTATGCGGTAGTA ACAGAAGCAAGTATGGTAAGATTATATTAGTACATGTGTACATTATATTT GCACTTCCGGATTACAGTAGTGAGGTTATAGAGAGACTCCAAAATTTAAT TCATGGGAGACTTATAAACCTCGCCCTAGAGTTTGATGTACATCAACAAC GGGTGAAAACAGACCCAAAGGGAAAATCAGGAGAAACCTTACATTATACT AAACCACTAACTATTATGCAGGGCTACAGAAGATCAGGGAAGGAGTTCTC TTAGGTATAGATGTACACTAAATAATGTGGAATTCAGTGTTGTAAAGTAG CTATAAGATATATACAATATATAGCGTATACAGTTTTAGGAGAGATGATG CAGATTGTGAAAAGAGGTACAAAGGGTAAAAGGGGTTTTTTCTGTTATTT TCCTAATATCGCGCGTGTGTTGACTTTTCTGGGTCCTTTTTTCTATTTGA TTTTTCATAATATGTACCCATAATAGTATTCCTCTGGAAAGCGAAAGTGC TGGCAATATGATTGACTTTTTCACAGCAAAAATAAAATAAGAACTAAAAT ACCCGACCCCAAAATTAAATCGTTTCTTCCACTCTCGGTTCAGCAACGTT TTTTTTTTCCGGCCATACAATCGCGGAAAATCAATTGTGGTCGTTGGTTA CATGGACGGAGAATACTATGACTTTATGAGACATGCTGCCGTAGTACCCG AGAGATGAACCAGTACAACGAATCCGGCCCGAGTCTCCAAGCTGGAACGA TTTCAAACGCCCCATCCGGAGCGGTGTTCATCGAACGAACTCGTACTATT ATGGTGGTATAAAGTCTAGTACATTACTCCCCTTCGAGCAATACCCCACT AGTACTTTCTTCTTAATCATATACAGTATTATAGCTTTACATGTGGAGAG CGGTCGCCACGCGGAATTATTTATGTGTTTAATTGTAGCAGTTACTCCAG TACGTACACCCTCTCCAAGTTTACTATATTATTCATATGTACTGTACATC TGCGGAAAAGGGTCTCCATCACAAGGAGGCAAATGCGAGCCCATTGATTG GCTCAGTTCGTAACGATATCCCATATTAATATCGGGTGCTCCTCGCTCCC TTTGAAGAGTGGGAAAACAAGGGTTGCAGCCCCCCGCGTCCACCGGACCT ATGGGCTAAGGGAGGGGGTCAAGCCTCCCGATCCTGACAGACGTCATTGC GTAAGCTTGTAAAAAAAACATGTTGAGAAACCTGGCTATTTTCTCGCCGT CGGTTGCGCCGGCACGGCAATTCAATTGACCCTCGTCTCCCAGGGAACAA ATGCCTATTTTATTAAGGTTAGCTATTCTTCCCCATCCCCTTTTTCTCGA ACACGTCGGCTCTCAGAAGGCCAAAGTCTCGTCGCCCCCAGCCCCTACAA ACAAAGCACCTGCAGTACAGTAGCAAGAGTATCGTGTGCACCCAAACAAA CACACGCGCGCGCGCGGGCGCCCTCACACCTGCACCAACGCACAATCTTG TTGGGACGGCCAATGCGAGTAATAGATGGCATAGAATGACTAAATAGCAT GGCATGACGGCCGGATTGCGCAGTTATGTGCAGTTCAATGAGTACATAAC ACACGTTTTGGGAAGCAAATACGAGCGAGTAGCGTAGACTGATTATTCAA CACAGGAACGAGTTGCGCGTTTTTGGCTCAATTCATTGGATCATACGAGC TTCAATGAATACATCCACCCGTTAACGTGTATACAAGTTTGCCACGGATC ACTCTAGCTATTATTAGCCGCTTCCCCCCTGCCGTGCTTATATTTTACTT TTTTTTAGTGTGAAACACAGTATTATCTTATGTTTATAAAGCAATATAGT AGTTATGGACTGGACTGGACCGATTCATAAGACGGAGGGACTGCCTTGTC TAAAGAACGCGCAACACTCCATCTCGTTCTTTTTTTTTGCTCTCGCCGCG CCGCCGCCCACCTCCTTCCCTCATTTTGCTGTGCATCTGTTATCCCCCAT CCCTTACCCCCGAATCCCTCGTGCGCTCTCGTGCGGACGGGGACACAGCC GAAGCAGCAGCAGCAGCGCTGGACGAGGCCGCGAGGGGTCGATCCGCTGA GGAAAACGGCACGGTGCCGGAGGAAAACGCAGGAGAGGACCTTCCCTTCT CGACTCGATTGAAGCAGGTCAGGTGAAAATGACGTGACGTGACGTGACGT TCGCCGCCACTTTTTCCGTGTTGGCTCTCCTCTCATGCCTGCGAAATGCT CTAGAAACTCCGACAACCATTATAACTGACTGTACTTTTGACGTTGAAAA TCATTACGGCAAGCTTACCTGATACAGTACAGTACCACGATACTTCGTGG TCACCTTTTTTTTTTTTTTGCGGGGGGGAGGGAGGTTTTCTTAAATGAAA AAGGAACGCTCTCAAAGATATTTTCGTCGCCTGGTGTATTTTGTATCAGA AAAAAAGGCAATGCACAATACACCAGGCGGGAGTTCGGGATTGTTTCTAC TATAATATCAATACTGTGCAGCTCTCGGTACTTCGGGAAAGAGATAAAAA GAGGAGACATGTACTGGTGTGGTGCTTCAACGACCCAAGAAAATACTGTA AATTACTGTTTCTAGACAAAGTACTTTCGTTTTGTTCTGATTATCAGTAA GCGCGGAAGAATGTTTCGGCCGGCGGAAGGGGCATGCAATCGATGGCATA CGGTATGCATTCGATGGCGTGCGGCTTTCGGCATTTATGGCTCGCTCGAG CTCGGTGCAAATCTTACTGCGTCATTCCACTGCGACCCCGCCACAGTACA GCAGTACAGCGTATCAATACCCTCTAGTACCTCTAGTACCTGTACCCTTG TTTGCTTTGCCCCTCTCTCGTCGACTTGCTAGTTTTTACCGCTTTTTTTT CGTTCTTTCTTTTTTTTGCTTTTTTTTCTCTATCACCTTCTCCGCCCGCG CGCCACATTTTGGCGACGAGCAGGTGTTCTGGCAGTTCCTCCCTCTGGGC GTGATCGCTTACGGGGGGCCCAACGCACACATCGCCCTGCTGCACGAGCG CTTCGTGGACAAGTCCAAGTGGTTGACGGAGGAGCAGTTCGTTGAGCTTA TGGCCGTCGGGCAGGGGCTGCCCGGTCCGACCTCGACACAGGCAAGCGGT TCAGCGAGGCGAGGTCTGTGGCCGTTCTTGCGTTCAACAGCCACTCGGTC GTTCCTCTGTGTACGTGCGCAGGCCTAGCAGGGTAGATCGCCGCGGAGTA TAGAAACCTTCGCAGGGAAAATGAAGAGAATGTTCACTTGTTGAACGTCG CGGATGGGGGGGTCGGGTGTGTGTGAATTTTTTATGGTTGCGTTGGCGAA TGCGGAAGAACTCAACCCATAGCGGTGCCTCGTACGCTCGTCCTGAGAGA ACGTTGTATCGTGTGTCGTCGTATACCGCTACCGTGCCACCGGCGCTTGA GGGCCACTTACTACGGTAGCTATGCCACGGCGCGTGGCCTCTGGGGTACA GTACGCCAAGAGTGGCTCATGATTGATTATCATCCCTTTTAAGGGCTTTG AGATTAAAATAGAAGACGTGGGATACTCTCCGTCGCGCGGAACTCCTCAA GCGGTCGCCAGTTCTTGCCTATAACATACGGTATCAATATTTATCGATGA AAAGTATTTGTGTACACCTCTAGGCAACACACACAACGTACCCAGGGCTT GAGTTAAAAAATGTACACGTTAAGAGAGTGTGTCGCCTTTGTCTCGTCTG ATCAGAGGTTTTCGTAATAAGTGTCATTGATCCCCCCCCTGGGAGGGGCA TATTGTAGAATGACTAGGATGACAGGGCCGGGTTGCGCGGTTATGTGCAA TTTAATAAATATACACACGTAATACACATACACATACACAAACAATACAC ATACAATACACATACAATACACATACAATACACATACAATACACATACAC ATACAATACACATACACATACACATACAATACACATACACATACACATAC AATACACATACACATACAATAAACATACGCATACACACCCACCCCCATGC AGATGGTAGTGTCGATGGGGACGTTCCGAGCGGGCATCCCGGGGGGGCTC CTCTCCTTCGCGCTGTGGAACATCCCGAGCTTCATCGTCCTCGTCCTGGC GGGCGTCGGCGTAAGAGACCTCCTCGGCGACAGCGACCCCGACTGGCTGT CCGGCGTCGGACCCGCGGCCGTTTCACTTGTCTTCGTGGCTGCCTACAAG GTAGGTTTTGTCTTGCAGTGTAATATACACACACACCTACCGTAGTACGA GTAGGGGGTTTTGTTTCGACGCGGCTTTAATCTCTTAGGGGGGCAGGTTT TCTCGTCTTGTCAGAAGCTGCTTCAAAGATAGGCCGCTGTGTTGCTTGGA AACCCCGCAAACGTGGGGTTTTGGGGCGGACGCTTTTGGCGACGTTTCTA GTCTTCGCTTTCTTTTTTGTGGGGAGGAGGGAGGAGGGTTGGGGTGAGAG GGGTAGTTAGATTCTTGACATGGGTCACTTTGTGTGCTCTCGCGACGCCG GTGCCGTACACGCCCTGGACGTGCTCCCTCGACATCCCCTCTCCTGACCG CGATATCGACCCCAAGGCAGAGAAGCGAAGAAAGCCCGTACGGGTGTAGA TGCCAAGTACGGTATGGACCACCTTTTGCTGGAGCCTTCTCCTCTCTTGA CTTTTGCCTCATTTCCCCTACGCAGTAGTGTATGGCACTGCCCCGTCCGC CCGTCCCCCCTTTCCCCCCTTTTGCTCTTCCTCCTCCCTCGACAAACTCC CACCCTCCCTGCCTCTGCCGTGTTACCAATCCGCCCTACGCCATTCAAAA CCTTTCACTCCCTATTTTTCGTCAGGACTCTGTTTCGCCCCCCCCCCCCC TCTCCAAACTTGACCCTTTCACTCAAACACTTGAACAACGCAGCTGGGAA AGAAGGTCAACAACACCAAGCTGAAGTTCACCCTGTCCCTGGTCTCGGCG TGCGTAACGCTCCTCATCAACGGCGACGAGAACATCTCCCCCAAGGTGTC CGCGTGGGTTTTTCCTTTGATGCTGATCTGCGGTGGTATGGTGACCCTCG TGGACTGGAAGTATCGCCCCAACATCTACGAAACCGCCGCCGCAACAAGG AGTGAGTCCGGCCAAAACCCGACCGCGCGGGCGGGAGGCTAGGGGGCGGA GAAAATCACGCCCAATCGGAATCGTCGGTCGAATTTCTGTTTGTTTTTGG AGACTCGATTCGTCCCATCTGCCCTCATATAGCCTCACGTGTGTGCGCAG AGCGAGAGAAAGAGGGAGAGCGGTGTATTCTTCCGAGAGGTTCATAGAGA ACGTGAGGCGTAGGGAAATGAGAGAGTGCAGTAGTTTCGTTTGAGCAGCG CGGGGCAGGTGAGGTCGTGAGCCGGCGTAGACGATTGGTACTGGCCTTCA GCGCGCAGAGCTTTTAACATTTGGGTTACCCGAGATGTGCCGTGCCGGTG TCGCCCCGATAGAGACAGACGTTTCCCTCTTTGACCGCCTACCCTGTAAT GTTATCCAACAGAGTTTCTCAAGATAAAGCAGTGACCTTTTGAATAGATA TAGTTTTAAAGTATAGTTATATTTTTGAGCGCTGAGTCCCGAAGAGTGCT GTGAGTCGACCGACCTCGACCGTCTCAACCCTAAACCTTGCACACTGTCC CTCCTTCTGACTCCTCGATTGCAATCCGCCCTTAAACATCGAACCATCGA CTCCAGAGCTAAACTCGCGTGGTCGACGCCGTGACTGTAGCAACTGCTGC TTCCACCGGCCGAGTCGCGGCGGTGTCCCCCGACCCCGCTCGTTATTTCT AACCGTTAGCCCGCCGCTCCTTTTTACCACAATGGAAATGTGATAAAACA ATATGCCGTCGATGTCCACCAAAAAACAAAATAAAACGATAGCCAAAGCG GAGCTCGAGCTCGAGGGCAGGACGTATTCGAGAATTAACATCCCCATGTG GATGGGCTGCGCGATCATTGTCGGATGGCTCGTGATACTGGTGGTTTCTC TGACGCTCTTCCCCGACTCGGGGCTGGGGGGACTGTTCAAGTCGTTCTTC CGCATCGGCTCCATCATCTACGGGGGAGGGCAGGTTAGCGACCATACGAC ATGAGGGTTTTAAAAACTCGGCTTCCACACAAGAGGGATTAGGGGGGGGG GGTCGTTTCCAGGGGGCTTGTTTGTCAGGTATTCTCTGTTTCCCCGCTCA CGAAGTCACTCACTTACTCACTCAATGTACTAGTTTGGTTTTGGTGGGGT TTTCGCGTTTTCACGTTTTCGCCTCTTACTCAACGAGAGAGAAAGAGTGA GAGAGAGAGAGATCATTGCAGAACCTCCTCGCCTAGCCTTATGCCAATTG CAGGGCCCAGCGTCGCCATCACGACTCCTCTTTTAATAACGATAACAATA AATATAATAATAACGATGAATAGTTACAGCAGTTCTTGTAGCGCATTACA GTTACAGCCTCGCCTCACCTCCGCTAATAACTAAAAACTAATAACTTCGC GCGTGCAGCCTTCGTCGCCCATCCCGCTGCCGCCGCTTCTCTGGTCGATG GCTAATAATCAATAGATAATGATTAATAACTAATGACAGGTGGTGTTACC GATGCTCGTCGATGAGGTGGTCGATCCAGGATGGCTTACCGAGGAGCAGT TCTTCCAGGGATTCGCTCTTTCGCAGGCACGGTCTCTCTTATAGTTCAAG CATCAAGTAATAAAAGTTTCTGGACAAAAATAGAAAAAAGGGCGTGAAGC GCAAGCACATTTTGAGCCTTTCGGTGTCAGGGCGCGGTAAAAACTGCAGC CGCCACTGCCTCCGCGCGAATACGGAACTTGCTCTGGTCCTCGTTGTTCC GAACTATAAAAACGGTATAAAAGGCGACGGAATACCAGTACAAGAATACA ACAGTGTGCGCTTTTGCTTTTTCGGGTGCGCCGCCGGACGGTACCGACTG CATCGAATCTCTACGTCCCCTCACACTGCGGCAGCATCATTTTACCCACA CCCTGGGGTGGGGGATTGGGGGGGGGATGGTAGCTAACCTTTTGAGCGAC GAACCAAAAAGGGCATAATTTTTGTGTGGGAATTTTCAACGCGAGGGCCT GCCGAGCTCCGACTGGGTTATGGCATACCGGTACTCAGACTCGCATTTCC TGTTGCTGATGTCCCGTCCGTGGAAGCTCTGAGTGCTACAGACTCCTCTC GGTAACCTCCGCGCAACCTTTTACGGGGACGGCGTCCTACGGGGCTTCTA GGCGCGTCATGTCCATGTCATCTCACGATGTCAGACACAGTATATATACA TATTTGTGTGTGTGTGTGTGCAACGTTCGCTCTCGACGTAACTGGTACGC CACAGGCTCTGCCGGGTCCCCTCTTCAACCTCTCGGCGTACCTCGGCGCT GTGTACAAGGGCGTTCCCGGGGCGTTCGTGGGATGGGTCGGCCTGTTCGG GCCCGGTGTCATGCTGATCTTTGGCTTCCTTCCCTTCTGGGGCACCGTAC GCAAGATCGCTTGGTTTAAGGTGCGTGCGCACGGCGTGGTAAAGGAGACG GCAAGGTCTTCAGAAGCTTGCTTGCTTTGGGGCGAGGAGGGAGTTCAGGA AATGGGTCGGCGATTGTTTGAGGGGGAATTCTGGAGGTGCATCGTGTGCG AAGCACAGCGCCGTAGTTCATTCAATCTCGGTTGCGGCGTGTGCGCACGT ATGTACGGTTTTTTCCTAGAAAACACACACACACAGATACAACACACACA CAGAGTTTGCGCCCGGTTTTTGAGCACCCTCTGCCGCCTTTTATCCACCG CCGTGGGCACTGTTCGGGGCTTTAAGTCTCTGGCGAAAAAAATTGCACCG CTCAGGGCATCTAAAGCACGCACGACGTTAACAGGATCCCATGCTTTGTT TTGTTTTTTTGTTTCCCTGCCATTAAACCCCTGCGGCAAACGACTGCGCG GTATTTTTGCGGCGCCCCGAAGCAACGCCTCGGGGTCGCACGCCTCTGCC GAAGTCCGAGGCATTTCTCACCCACCTTCGCCGCGTTATGTACGCAGCCC CTGTGGACTGTAACAGCGGTAACGTCCACAGCGTAGGTTCCGCGCTAGCT CTTCCGACGTGCTTACACACTTCGGATTTTATTTTATTTTTGTCCTCAAA CGTCTCCCCTCTATCAACCCTACCCAACTCCCGCAGATATTCTTACAAGG GGTAAACTCGACGGCGATCGGGCTCGTGATTGCGGCGTGCGTGCTCTTGT GGGGCAGCGCGGTCGACACCTACGCGGACGCCATCGTCGCCGTGGTCGCG GGATGCATGCAGGTGACTTTCTTAACCTTTCTCTAACATCTCGGGATTTT TTTTGCTCTTTTGAAACCGTTTCCATCTCCTTAGGGCGTGACGTTATCCG TTTTCACCAGGACTTCCATCGCTTGATGGACTTCATCACGCGGTCACGTT ACAGCTCCAGCGCGCGCAGTGGCAGACACGTCCAACTCGAACGCGCCTGA ACGATCCGACTCAGGGTTGCGTCTCTCGCGTGGAGCCAGCGGGGGGGAGG GGTCTTGAAGCAATTACTGCTACGATTTTTCTAGAGCCCGCGTTGCGATT CGTACCGGCCCGCACTGCCCCAATGGCAAGAGAGGGGATTGAGAAAACCG CCTGAGCGTGCGTGGTTGTGCGTTTTGGGGCGTTGGGGGTGGGGAGAAAG GTCGGCGGAATGATGAGTCACAGCTTTTCCTTTCCGTCCTCCCTTCAAAA TTAATTGTGTCCCACCATGCGGCTTGCGCTTGTCCTCTCTGCTTTCTCGC CTCAAGAGTTTCCTAGGTTACCAGGCGCCTTGGTGCATCATTGGGGGCGG GGTTCTCGGCTGGCTTCTCAGCGACAGCGTCGCCTCTTTGGCGCAAGAAG TTTTCTACCCCTCTGAGGGTTAAACAGGGCGCGTCTTCCTCTCTACCACT TTTCTTCTTTGCCGTCTGCTCCAAAGACAGTCCCGGTTCTTCTGACGAGG GCCGGCTCCCGCTGGGGCACGAGTCCGTTAGACGGGTCAGTTGCGGCATT TTTTACAACATCTCTGTAAAAAAGATGGTGGAGGGGGGCAGAAAAACGTT TTTTTTGTTCTCCTATTAACACCAATCCAGAAGCAAAGCGGCAGATGCTT CTCTGAAATCAGTAGAATACTCCTGTAGAATAAATACTTTTTCTTACTAT TTTTTGAGACAGAAAGCATGTGTGTGTTTTGCTTTGATTTTTGCCTTTTT TTTTTTCAAGTTACGAGTACCGCTCATTCGCGGACGAGGAGTAAAGAAAC ACGCCGAGTGCCGTACACACTTTACCACACGGGAGCGACGCGACGATATA TCATACCGGGATCTTAGATCTTTGAACGCCGTATGGTTGTGATTGGCACC CAGTAACTAACTCTGCGTGTTTTTACCCTTGCGACCTCTTTTTTAGTACA GCTTTTTGTCTGTCTCTTCTGGGGTATACAGCACTCGGCGGGGTTCCATT CGTTCGATTTACATTGTTCTTCGTTGTCGCCAAGAATATAGTAACTTATT ATAATTATATGTTGTGCTTGTTTTGTTGTTTGGCTATCGTGGGACGACAG AACGGCTTGCTTCCCAACGCCTCCTCTCATTTCTCGTCCATTCGCGGTGC CGTGTTGGTGCCCGCCTGTGGAGGGCGGAGGGGTCGTGGGTGATCAAAGC TCGTCGTAAAGTCCTTACGATTTTTTCAATGAATGACTTGTGTACTGTAT ATACCTCGAGCGGTCGTGTCCTTCGCTAAAATCTACCGGCACTTTGTAGC TCTACGTTTTTAACCCCGATTGTTAAGGGTATTGGAAGAAATCTTTTGGT GTGGAGGCAAGGACAGTGGTTGTCAATCCACTATACTATCAAGAAGAGGA CAATGAAGTGTAGAGTTGTTGGGAGAGCAAGGGCAGTAGATGGTCAGGCA GAATACCTTGAAGGTCAGATCTTGACAGATGTGTTTGGGTTAGAAAGTGG AGTGACCACTGAGGGATCGTGCTCCCTTGTTCTTTATTATGACCGCATGA AAGGAATAACCAGAAGCATGCAGCTACTCTATATATACTACTTTGCTCCT ATTGGATATATATATATATTTTTTTCATCTCACTTATAGCCGATGGGCCT TGTAGTAACTAAGGATCTTGCCATTTCTCCCC
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Coding sequence (CDS) from alignment at A-nodosum_M_contig10:580028..600709+

>mRNA_A-nodosum_M_contig10.55.6 ID=mRNA_A-nodosum_M_contig10.55.6|Name=mRNA_A-nodosum_M_contig10.55.6|organism=Ascophyllum nodosum dioecious|type=CDS|length=1407bp|location=Sequence derived from alignment at A-nodosum_M_contig10:580028..600709+ (Ascophyllum nodosum dioecious)
ATGGCTGCCGTCCAGGATGAGAAGATTGCCGAAGCAGCAGCAGCAGCGCT
GGACGAGGCCGCGAGGGGTCGATCCGCTGAGGAAAACGGCACGGTGCCGG
AGGAAAACGCAGGAGAGGACCTTCCCTTCTCGACTCGATTGAAGCAGGTG
TTCTGGCAGTTCCTCCCTCTGGGCGTGATCGCTTACGGGGGGCCCAACGC
ACACATCGCCCTGCTGCACGAGCGCTTCGTGGACAAGTCCAAGTGGTTGA
CGGAGGAGCAGTTCGTTGAGCTTATGGCCGTCGGGCAGGGGCTGCCCGGT
CCGACCTCGACACAGATGGTAGTGTCGATGGGGACGTTCCGAGCGGGCAT
CCCGGGGGGGCTCCTCTCCTTCGCGCTGTGGAACATCCCGAGCTTCATCG
TCCTCGTCCTGGCGGGCGTCGGCGTAAGAGACCTCCTCGGCGACAGCGAC
CCCGACTGGCTGTCCGGCGTCGGACCCGCGGCCGTTTCACTTGTCTTCGT
GGCTGCCTACAAGCTGGGAAAGAAGGTCAACAACACCAAGCTGAAGTTCA
CCCTGTCCCTGGTCTCGGCGTGCGTAACGCTCCTCATCAACGGCGACGAG
AACATCTCCCCCAAGGTGTCCGCGTGGGTTTTTCCTTTGATGCTGATCTG
CGGTGGTATGGTGACCCTCGTGGACTGGAAGTATCGCCCCAACATCTACG
AAACCGCCGCCGCAACAAGGACCAAAGCGGAGCTCGAGCTCGAGGGCAGG
ACGTATTCGAGAATTAACATCCCCATGTGGATGGGCTGCGCGATCATTGT
CGGATGGCTCGTGATACTGGTGGTTTCTCTGACGCTCTTCCCCGACTCGG
GGCTGGGGGGACTGTTCAAGTCGTTCTTCCGCATCGGCTCCATCATCTAC
GGGGGAGGGCAGGTGGTGTTACCGATGCTCGTCGATGAGGTGGTCGATCC
AGGATGGCTTACCGAGGAGCAGTTCTTCCAGGGATTCGCTCTTTCGCAGG
CTCTGCCGGGTCCCCTCTTCAACCTCTCGGCGTACCTCGGCGCTGTGTAC
AAGGGCGTTCCCGGGGCGTTCGTGGGATGGGTCGGCCTGTTCGGGCCCGG
TGTCATGCTGATCTTTGGCTTCCTTCCCTTCTGGGGCACCGTACGCAAGA
TCGCTTGGTTTAAGATATTCTTACAAGGGGTAAACTCGACGGCGATCGGG
CTCGTGATTGCGGCGTGCGTGCTCTTGTGGGGCAGCGCGGTCGACACCTA
CGCGGACGCCATCGTCGCCGTGGTCGCGGGATGCATGCAGAGTTTCCTAG
GTTACCAGGCGCCTTGGTGCATCATTGGGGGCGGGGTTCTCGGCTGGCTT
CTCAGCGACAGCGTCGCCTCTTTGGCGCAAGAAGTTTTCTACCCCTCTGA
GGGTTAA
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