mRNA_A-nodosum_M_contig90.49.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig90.49.1
Unique NamemRNA_A-nodosum_M_contig90.49.1
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_contig90.49.1 vs. uniprot
Match: A0A6H5J605_9PHAE (Rhodanese domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5J605_9PHAE)

HSP 1 Score: 645 bits (1665), Expect = 5.860e-221
Identity = 332/473 (70.19%), Postives = 377/473 (79.70%), Query Frame = 2 
Query:   98 PQANIKTMLELELENEALRRRVADLEKEKNASPTTSNGDA---GFAAVESSAPNGTVETGPATPNGANCGSCREISRESLGKAGMTAAEIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKHGLTVERTVPEQNDDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALSAGRSLPVYCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            P+  +  +  L+ ENEALR R+A LE      P   +G         VESS+  G+        NG       E+SRESLGKAGMTAAEIARYSRHLLVPAVGVEGQRN+L KTCLVIGAGGLASA+LPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRE QAG+SKA CAA  VR IN ++RC+AIE A THDNA+  +A  DLVVDASDNPRTRYLVND CVLSG PLV GSALGMEGQ+SV H +GGPCYRC+FPAPLAAEA RRCSDNGVLGT+PGVIGCLQATEALKVLG FG PL GRLCT+D QDGSFYT+RLRPRSK CAACGDNPTV++ME S AFA KHGLTV R VPE  + VP+ TCQEYA VVA G+ H+LLDVR  VQF VCALD AVN+PL++L+  ++KVE LS  RSLPVYC+CRRG+DS+AAV+IL ++GF  V +VSGGLT+WA+ V+  FPMY
Sbjct:   15 PEQQLLAVANLKAENEALRARIAALEAAAGPLPDQPSGSTVQPNTTHVESSSSVGSTSCCSNNKNGVG----NEVSRESLGKAGMTAAEIARYSRHLLVPAVGVEGQRNLLDKTCLVIGAGGLASAVLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYREGQAGQSKAKCAAATVRDINSSIRCTAIEEALTHDNAMGTLAGVDLVVDASDNPRTRYLVNDACVLSGTPLVSGSALGMEGQVSVFHHRGGPCYRCVFPAPLAAEAGRRCSDNGVLGTIPGVIGCLQATEALKVLGGFGSPLVGRLCTYDGQDGSFYTVRLRPRSKTCAACGDNPTVRSMEGSKAFAAKHGLTVARVVPEM-ERVPTATCQEYADVVAGGRRHVLLDVRVGVQFAVCALDDAVNVPLSQLEASMEKVETLSENRSLPVYCICRRGVDSKAAVSILAKKGFPNVMDVSGGLTEWARTVDREFPMY 482
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: A0A7R9ZQM9_9STRA (Adenylyltransferase and sulfurtransferase MOCS3 homolog n=1 Tax=Craspedostauros australis TaxID=1486917 RepID=A0A7R9ZQM9_9STRA)

HSP 1 Score: 362 bits (928), Expect = 1.080e-110
Identity = 178/393 (45.29%), Postives = 259/393 (65.90%), Query Frame = 2 
Query:  353 EIARYSRHLLVP-AVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFA-TKHGLTVERTVPEQNDDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALSAGRSLPVYCVCRRGIDSRAAVAILRQE------GFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            +I RYSR LL+    GVEGQ  +   + L++GAGG+ S ++ YLA  GVG + I+DFD ++ SNLHRQV++     G +KA  A  AV+ +NP++RC  +++  T+ NAL +V+D   VVDASDNP+TRYLVND CVL+G PLV GSA+GMEGQL++ + + GPCYRC++P P  +E ++ CSDNGVLG VPG IG LQATE +K++   G+ +  RL  +DA   SF +++  P+   CA CG  PT+ +M+DS   +    G++ +        ++  ++C +Y QV   G+ H+LLDVRA  QFD+C+L GA+N+  ++L+T ++ +  LS    LPVYCVCRRGI S AA  +L +           V+N++GGL +W K ++P+FP Y
Sbjct:  125 QIERYSRQLLMTHGFGVEGQLKLAKSSVLIVGAGGIGSTVILYLAACGVGRLSIVDFDHVDVSNLHRQVIHGTRNVGMNKAESACRAVKELNPSIRCEPVQSPLTYHNALQLVSDHTCVVDASDNPQTRYLVNDACVLAGVPLVSGSAIGMEGQLTIYNHKEGPCYRCLYPKPSKSEGTKTCSDNGVLGPVPGTIGILQATETIKLITGMGKTMHDRLLMYDASQCSFLSLKKPPKKSNCAVCGIEPTICSMQDSHEVSQVARGISCDYVAIPLAPEM-EISCADYFQVRQSGKPHVLLDVRAPEQFDICSLPGAMNMSFSDLQTGLESLSNLSLNGDLPVYCVCRRGIFSAAATKMLLEAKQAEATSIGVVQNITGGLERWRKDIDPSFPKY 516
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: S8C363_9LAMI (Rhodanese domain-containing protein (Fragment) n=1 Tax=Genlisea aurea TaxID=192259 RepID=S8C363_9LAMI)

HSP 1 Score: 355 bits (911), Expect = 3.940e-109
Identity = 197/419 (47.02%), Postives = 265/419 (63.25%), Query Frame = 2 
Query:  281 NGANCGSCREISRESLGKAGMTAAEIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKHGLTVER--TVPEQNDDVPS---VTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEA-LSAGRSLPV----YCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            NGAN  S      E L    ++A  I RYSRHLL+P+ GVE Q N+L  + LVIGAGGL +  L YLA  GVG + I+D D +E +NLHRQV++ E+  G+SK   AA A RAIN +V+    + AFT  NAL ++   D+VVDA+DN  +RYL++D CV+ GKPLV G+ALG+EGQL+V +F GGPCYRC+FP P  + A +RC+D+GVLG VPG+IGCLQA EA+KV G  GEPLSGR+  FDA    F  +R+R +S  C ACG+N   K  E+S         T     T P + + VP    +T +EY   VA G+ H+L+DVR    + + +L G++N+PL  ++  + ++ A LS+     V    Y +CRRG DS+ AV  L + G    K++ GGL  WAK V+PTFP Y
Sbjct:   37 NGANSSSA-----ELLQTGELSADMIYRYSRHLLLPSFGVEAQANLLKSSVLVIGAGGLGAPALLYLAACGVGRVGIVDHDVVELNNLHRQVIHTEAYIGRSKVESAAAACRAINSSVKIVEHKEAFTTSNALEIMRRYDVVVDATDNVPSRYLISDCCVVLGKPLVSGAALGLEGQLTVYNFNGGPCYRCLFPTPPPSTACQRCADSGVLGVVPGIIGCLQALEAIKVTGGIGEPLSGRMLLFDAISSRFRVVRIRGKSSQCEACGEN--AKMSEESFRNFDYEKFTESSLITSPWKLELVPREARITGREYHSRVANGERHVLIDVRPSHHYKIVSLPGSINVPLGRMEGKVGEIRAALSSDDETGVVGGLYVICRRGNDSQRAVEFLHKVGLSCAKDIIGGLESWAKDVDPTFPTY 448
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: A0A448ZR85_9STRA (Rhodanese domain-containing protein n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448ZR85_9STRA)

HSP 1 Score: 355 bits (911), Expect = 5.400e-109
Identity = 177/408 (43.38%), Postives = 268/408 (65.69%), Query Frame = 2 
Query:  314 SRESLGKAGMTAAEIARYSRHLLVPA-VGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDS-AAFATKHG---LTVERTVPEQNDDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALSAGRSLPVYCVCRRGIDSRAAVAIL-----RQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            S E + +  +   EI RYSR LL+    GVEGQ  +L    LV+GAGG+ S ++ YL+ +G+G+I ++DFD+++ SNLHRQ++++    G +KA  A  AV ++NP+V  + ++   T DNAL +++  D VVDA+DNP+TRY++ND CV+SG PLV GSA+G EGQL+V +++GGPCYRC++P P   E S+ C+DNGVLG VPG+IG LQA E +K++ E    +S RL  +D+   SF  I+  P+   C +CG  PT+ +ME+S AA     G    +V +T P+  D + S++C+EY+++  RG DH+L+DVR   QF++C+L GA+N+PL  +   ++K+  L+ G   P+YC+CRRGI S +A  I+     +      +KN++GGL  W   ++ TFP Y
Sbjct:   53 SEEGVYQGRLKPDEIKRYSRQLLLTGGFGVEGQLKLLKSKVLVVGAGGIGSTVILYLSASGIGNISVVDFDEVDLSNLHRQIIHKSKDVGLNKAESARRAVESLNPSVFFTVVDKPLTIDNALGLISSSDCVVDATDNPQTRYIINDACVISGTPLVSGSAMGTEGQLTVYNYKGGPCYRCLYPTPNLKEGSKSCADNGVLGPVPGLIGILQALEVIKIITETNAVMSERLLMYDSLQCSFMRIKKPPKQPLCPSCGTEPTITSMEESFAASEMARGPSSCSVTKTRPDLPDAL-SLSCEEYSRIRDRGDDHVLVDVRVEEQFELCSLPGAINIPLRSIPQEMEKLSDLAGGVK-PIYCICRRGIASVSATNIIVENVKKYPKICSIKNITGGLAYWRTKIDETFPSY 458
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: A0A6A7G6H5_9CRUS (Adenylyltransferase and sulfurtransferase MOCS3 homolog n=2 Tax=Hirondellea gigas TaxID=1518452 RepID=A0A6A7G6H5_9CRUS)

HSP 1 Score: 351 bits (900), Expect = 4.420e-108
Identity = 177/399 (44.36%), Postives = 251/399 (62.91%), Query Frame = 2 
Query:  353 EIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTM--EDSAAFATKHGLTVERTVPEQNDDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALSAGRS------------LPVYCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            +I RY RHL++PA+G++ QR +   + LV+GAGGL S +L YLAGAGVG I IID D+++ SNLHRQV++ ES+    K   A ++  AIN ++        F+  NA+ +V + DLV D +DN  +RYL+ND  V+ GKP V G A+G EGQL+V +++GGPCYRC+ P P   E    CSDNGVLG VPG+IG LQA E LK++G+FGEPLS +L  FD    SF ++RLR RS  C  CGD PT+  +  + +A     +       V     D PSV+C+EY  +V +G +H+LLDVR  VQ+++C+L  ++N+P A++K  I +V     G++            +PVY +CRRGIDS +A  +L  +    V N+ GGL QW + ++  FP+Y
Sbjct:   11 QILRYGRHLILPAIGMDVQRRICNSSVLVVGAGGLGSPVLQYLAGAGVGRIGIIDADEVDISNLHRQVIHSESEVSNPKVDSARDSCLAINSSIIVETFNERFSRSNAIELVQNYDLVADCTDNVSSRYLINDIAVMCGKPDVSGGAIGTEGQLTVYNYKGGPCYRCLHPKPPPPETVSNCSDNGVLGVVPGIIGSLQAMEILKIVGQFGEPLSAKLLIFDGLSCSFRSMRLRSRSPTCDVCGDKPTIPNVLTDPTADLIDYNEFCGSCHVELDAKDCPSVSCEEYKSIVDQGDEHVLLDVRELVQYEICSLPNSINIPFAQMKERIGEVFK-EIGQTDIDPLFGKPVQPVPVYLICRRGIDSLSAARLLLSKDAKNVINIRGGLLQWHRTIDSEFPLY 408
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: A0A1E7EU96_9STRA (Adenylyltransferase and sulfurtransferase MOCS3 homolog n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7EU96_9STRA)

HSP 1 Score: 351 bits (900), Expect = 4.560e-108
Identity = 176/398 (44.22%), Postives = 252/398 (63.32%), Query Frame = 2 
Query:  341 MTAAEIARYSRHLLVPA-VGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDS-AAFATKHG--LTVERTVPEQNDDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALSAGRSLPVYCVCRRGIDSRAAV-----AILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            + A  I RYSR LL+    GVEGQ  +L  + LVIGAGG+ S ++ YLA  G+G + +IDFD ++ SNLHRQV+++ +  G +KA  A  AV  +NP + C  I+   T +NAL +++  D +VDASDNP+TRY++ND CVLSGKPLV GSA+G+EGQL+V +++GGPCYRC++P P   E ++ CSDNGVLG VPG+IG LQA E +K++    + LS RL  +D+   SF  I+  P+   C  CG   T+ +M++   A  T  G   ++ ++ P    +  S++C EY Q+   G  H+LLDVR + QFD+C+L GA+NLPL  +   ++ +  +S G   PVYC+CRRG  S  A       + +      VKN++GGLT W   V+ +FP Y
Sbjct:   13 LKAEHIERYSRQLLIKGGFGVEGQLKLLNSSVLVIGAGGIGSTVILYLAACGIGSLSVIDFDDVDVSNLHRQVIHKTNDVGMNKAESARRAVENLNPTLSCKIIKEPLTVNNALELISSHDCIVDASDNPQTRYIINDACVLSGKPLVSGSAMGIEGQLTVCNYKGGPCYRCLYPKPNVKEGNKSCSDNGVLGPVPGLIGILQAVETIKIITGTDDVLSDRLLMYDSLQCSFLRIKKPPKQTHCPVCGPEATITSMKECFEASQTARGPSCSLAKSEPRNISNSLSISCTEYDQIRNSGDTHILLDVRGKEQFDLCSLPGAINLPLGSITQQMEYISTISNGTK-PVYCICRRGNASVMATNKIVEGLQKYPNIHSVKNITGGLTSWRSKVDKSFPNY 409
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: UPI00053F3D28 (adenylyltransferase and sulfurtransferase MOCS3 isoform X1 n=2 Tax=Beta vulgaris subsp. vulgaris TaxID=3555 RepID=UPI00053F3D28)

HSP 1 Score: 353 bits (905), Expect = 4.900e-108
Identity = 183/416 (43.99%), Postives = 261/416 (62.74%), Query Frame = 2 
Query:  296 GSCREISR--ESLGKAGMTAAEIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKHGLTVERTVPEQNDDVPS---VTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKV-------EALSAGRSLPVYCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            GSC  IS    +L + G+ +  I RYSRHLL+P+ GV+GQ N+L  + LV+GAGGL S  L YLA  GVG I I+D D +E +N+HRQV++ ES  GKSK   AA A RAIN  +       A    NAL + +  D ++DA+DN  +RY++ND CV+  KPLV G+ALG+EGQL+V +++GGPCYRC+FPAP  A A +RC+D+GVLG VPG+IG LQA EA+K+    G+PLSGR+  FDA  G    +++R +S  C ACG+  T    +       K       T P + + +P+   ++C+EY++ V  G+ H+L+DVR    FD+ +L  +VN+PL+ L++ + ++       E         +Y VCRRG DS+ AV +L + GF   K++ GGL+ WA+ V+P FP Y
Sbjct:   49 GSCPSISAVDSNLSRHGLPSDAIYRYSRHLLLPSFGVQGQSNLLKSSMLVVGAGGLGSPALLYLAACGVGRIGIVDHDVVELNNMHRQVIHTESYIGKSKVESAAAACRAINSTIEIVEYREALRTSNALEIFSKYDYIIDATDNVPSRYMINDCCVVLKKPLVSGAALGLEGQLTVYNYKGGPCYRCLFPAPPPATACQRCADSGVLGVVPGIIGTLQALEAIKIASNVGDPLSGRMLIFDALSGRIRVVKIRGQSPQCEACGERSTFTPEKFRDFDYEKFTQFPLSTAPPKLNLIPADSRISCKEYSEKVVNGEAHILVDVRPSHHFDIISLPNSVNIPLSTLESRLPEIAAALKEEETRKGVSGAHLYTVCRRGNDSQRAVHLLHKLGFTSAKDIVGGLSSWAQEVDPNFPAY 464
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: W1NQ46_AMBTC (Adenylyltransferase and sulfurtransferase MOCS3 n=2 Tax=Magnoliopsida TaxID=3398 RepID=W1NQ46_AMBTC)

HSP 1 Score: 353 bits (905), Expect = 5.720e-108
Identity = 185/404 (45.79%), Postives = 257/404 (63.61%), Query Frame = 2 
Query:  335 AGMTAAEIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKHGLTV---ERTVPEQN--DDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEA--------LSAGRSLPVYCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            A +T  +I RYSRHLL+P+ GV+GQ N+L  + LV+GAGGL S  L YLA  GVG I I+D D +E +NLHRQ+++ E+  G+SK   AAEA   IN  +R      A    NAL +V+  D+V+DA+DN  TRYL++D CV+ GKPLV G+ALG+EGQL+V H +GGPCYRC+FP+P    A + CSD+GVLG VPGVIGCLQA EA+K+    GEPLSGR+  FDA     + +++R RS  C ACG+N T  T +   +F  +        ++T P+ +   +   ++ +EY + V RG+ H+L+DVR    F + +L  ++NLPL+ L++ + ++E         LS G    +Y VCRRG DS+ AV  L   GF   +++ GGL  WA+ V P FPMY
Sbjct:   67 ASLTPQDIYRYSRHLLLPSFGVQGQLNLLKSSILVVGAGGLGSPALLYLAACGVGCIGIVDHDVVELNNLHRQIIHNEAYIGQSKVKSAAEACHGINSTIRIVEYPEALGSQNALDIVSKYDVVIDATDNVSTRYLISDCCVVLGKPLVSGAALGLEGQLTVYHHKGGPCYRCLFPSPPPQAACQNCSDSGVLGVVPGVIGCLQALEAIKIASSVGEPLSGRMLLFDALPARIHIVKIRGRSLNCVACGENATF-TRDSFQSFDYEKFTQAPFSDKTRPKLSLLPESARISSKEYNECVERGEPHVLVDVRPEHHFMIASLPKSLNLPLSTLQSRLGEIEEALKREESDLSPGSHASLYVVCRRGNDSQRAVDYLHGVGFPLAQDIIGGLESWARDVYPNFPMY 469
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: A0A2P6NHP9_9EUKA (Adenylyltransferase and sulfurtransferase MOCS3 homolog n=1 Tax=Planoprotostelium fungivorum TaxID=1890364 RepID=A0A2P6NHP9_9EUKA)

HSP 1 Score: 358 bits (918), Expect = 5.920e-108
Identity = 178/413 (43.10%), Postives = 261/413 (63.20%), Query Frame = 2 
Query:  299 SCREISRESLGKAGMTAAEIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKHGLTVERTVPEQNDDVP----------SVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALSAGRSLPVYCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            S R I  +S     +  AEI+RY R L++P +G++GQ+ +   + L+IGAGGL S +  YLAGAG+G I I+DFD +E SNLHRQV+++ES  G  KA+ A  A+R  N  V+      AFT DNAL +V+  D++VDA+DN  TRYL+ND CVLS KPLV  +AL M+GQ++V H  GGPCYRC++P+P  AE    CS+ GVLG VPG++GC+QA E +K+    GE +S +L  FD     +  ++LRPR+K CA CGD+P+V  + D  +F                DD P          SV+C++Y   +  G++ +LLDVR  VQ+D+C+L  + N+ L ++K     +  + + +   V+C+CRRG DS++AV  +++ G+  V N+SGGL+ W+K ++P FP+Y
Sbjct:  216 SSRAIVPDSSSVDTLNNAEISRYGRQLIMPEIGMQGQKKIKKSSVLIIGAGGLGSPVSLYLAGAGIGRIGILDFDTVEASNLHRQVIHKESSVGIPKAISAGRAIREFNSLVKVEEHVTAFTTDNALGLVSRYDIIVDATDNVATRYLINDACVLSNKPLVSAAALRMDGQVTVYHHNGGPCYRCLYPSPPPAETVTDCSNGGVLGVVPGIVGCIQALEVIKIAAGTGESMSQKLLLFDGMSPRYTMVKLRPRNKECAVCGDSPSVTGLIDYKSFCGS-----------SYDDKPCTRSILDASLSVSCEDYVAHLKGGEEFVLLDVREPVQYDICSLPQSKNVSLHDMKRDPAIITDMISDKDKKVFCLCRRGNDSQSAVKFMKELGYTNVFNISGGLSSWSKDIDPNFPVY 617
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BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Match: A0A0L0HJ14_SPIPD (Adenylyltransferase and sulfurtransferase UBA4 n=3 Tax=Spizellomyces TaxID=4815 RepID=A0A0L0HJ14_SPIPD)

HSP 1 Score: 351 bits (901), Expect = 1.370e-107
Identity = 186/413 (45.04%), Postives = 251/413 (60.77%), Query Frame = 2 
Query:  317 RESLGKAGMTAAEIARYSRHLLVPAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIETSNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSVVADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQGGPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGEPLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKHGLTVERTVPEQN---DDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALDGAVNLPLAELKTYIDKVEALS-------------AGRSLPVYCVCRRGIDSRAAVAILRQEGFDRVKNVSGGLTQWAKAVNPTFPMY 1507
            RE   K  +   EI+R+SR LL+  +GV+GQ  +   T LV+GAGGL +  + YLA AG+G + I+D+D +E SNL RQ+++ E++ G  KA  A   V  ++    C A        NA+ ++   D+VVDA+DN  TRYL+ND CVL+GKPLV GSAL M+GQL+V +  GGPCYRCIFPAP   E    CSD GVLG VPG+IGCLQA E +K+    G   S ++  FDA  G+F TI+LR +S  CA CG NPT+  + D   F    G       P Q    DD  S TC+EY+ V      HLLLDVR  VQF++C+L  ++N+PL +L+  +  VE  +             A  +LP+Y VCRRG DS+ AV +LRQ GF + K+++GGL +WA  ++P FP Y
Sbjct:   46 REWTHKESLDNDEISRFSRQLLMREIGVQGQLKLRNTTVLVVGAGGLGAPAVMYLAAAGIGRLGIVDYDPVEASNLQRQIVHDETRVGMMKAESAKATVNRLSSFCDCIAYNTLIESSNAMDIIRPWDIVVDATDNVATRYLLNDACVLAGKPLVSGSALRMDGQLTVYNHAGGPCYRCIFPAPPPPETVTNCSDGGVLGVVPGIIGCLQALEVIKIASGLGTSFSQKMLLFDATSGAFRTIKLRGQSPTCAICGKNPTITDLIDYVQFC---GAAPTDKTPAQTLLPDDERS-TCREYSSVRMGAWPHLLLDVRETVQFNICSLPNSLNVPLKDLERRLTDVEQAARQAAALESSAIAIAKDALPIYVVCRRGNDSQVAVQLLRQHGFLQAKDIAGGLERWASEIDPDFPTY 454
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig90.49.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5J605_9PHAE5.860e-22170.19Rhodanese domain-containing protein n=2 Tax=Ectoca... [more]
A0A7R9ZQM9_9STRA1.080e-11045.29Adenylyltransferase and sulfurtransferase MOCS3 ho... [more]
S8C363_9LAMI3.940e-10947.02Rhodanese domain-containing protein (Fragment) n=1... [more]
A0A448ZR85_9STRA5.400e-10943.38Rhodanese domain-containing protein n=1 Tax=Pseudo... [more]
A0A6A7G6H5_9CRUS4.420e-10844.36Adenylyltransferase and sulfurtransferase MOCS3 ho... [more]
A0A1E7EU96_9STRA4.560e-10844.22Adenylyltransferase and sulfurtransferase MOCS3 ho... [more]
UPI00053F3D284.900e-10843.99adenylyltransferase and sulfurtransferase MOCS3 is... [more]
W1NQ46_AMBTC5.720e-10845.79Adenylyltransferase and sulfurtransferase MOCS3 n=... [more]
A0A2P6NHP9_9EUKA5.920e-10843.10Adenylyltransferase and sulfurtransferase MOCS3 ho... [more]
A0A0L0HJ14_SPIPD1.370e-10745.04Adenylyltransferase and sulfurtransferase UBA4 n=3... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig90contigA-nodosum_M_contig90:759846..782177 +
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.D7FNE1
Preferred namecnxF
PFAMsRhodanese,ThiF
Model size3016
Max annot lvl2759|Eukaryota
KEGG rclassRC00043
KEGG koko:K11996,ko:K18469
KEGG ReactionR07459,R07461
KEGG Pathwayko04122,map04122
Hectar predicted targeting categoryother localisation
GOsGO:0000003,GO:0001403,GO:0001558,GO:0002097,GO:0002098,GO:0002143,GO:0003674,GO:0003824,GO:0004792,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005829,GO:0006139,GO:0006163,GO:0006396,GO:0006399,GO:0006400,GO:0006464,GO:0006725,GO:0006732,GO:0006753,GO:0006777,GO:0006793,GO:0006796,GO:0006807,GO:0006950,GO:0006979,GO:0007114,GO:0008033,GO:0008150,GO:0008152,GO:0008265,GO:0008641,GO:0009058,GO:0009108,GO:0009116,GO:0009117,GO:0009119,GO:0009141,GO:0009144,GO:0009150,GO:0009199,GO:0009205,GO:0009259,GO:0009451,GO:0009987,GO:0010467,GO:0010570,GO:0016070,GO:0016740,GO:0016772,GO:0016779,GO:0016782,GO:0016783,GO:0016874,GO:0016877,GO:0018117,GO:0018130,GO:0018175,GO:0019008,GO:0019538,GO:0019637,GO:0019693,GO:0019720,GO:0019954,GO:0030447,GO:0032324,GO:0032446,GO:0032447,GO:0032505,GO:0032991,GO:0033554,GO:0034227,GO:0034470,GO:0034599,GO:0034641,GO:0034660,GO:0036211,GO:0036267,GO:0040007,GO:0040008,GO:0042221,GO:0042278,GO:0042292,GO:0043170,GO:0043412,GO:0043545,GO:0044182,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044267,GO:0044281,GO:0044424,GO:0044444,GO:0044464,GO:0046039,GO:0046128,GO:0046483,GO:0050789,GO:0050794,GO:0050896,GO:0051128,GO:0051186,GO:0051188,GO:0051189,GO:0051301,GO:0051716,GO:0055086,GO:0065007,GO:0070566,GO:0070647,GO:0070733,GO:0070783,GO:0070784,GO:0070887,GO:0071566,GO:0071704,GO:0072521,GO:0090304,GO:0090407,GO:1900428,GO:1901068,GO:1901135,GO:1901360,GO:1901362,GO:1901564,GO:1901566,GO:1901576,GO:1901657,GO:2000220
Exons11
Evalue3.41e-219
EggNOG OGsCOG0476@1|root,KOG2017@2759|Eukaryota
Ec32 ortholog descriptionmolybdopterin-synthase adenylyltransferase / sulfurtransferase
Ec32 orthologEc-22_001380.1
EC2.7.7.80,2.8.1.11
Descriptionthiosulfate sulfurtransferase activity
Cds size1425
COG categoryH
BRITEko00000,ko00001,ko01000,ko03016,ko04121,ko04131
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig90.49.1prot_A-nodosum_M_contig90.49.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig90 759931..780598 +


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

Feature NameUnique NameSpeciesTypePosition
1680870342.5760565-UTR-A-nodosum_M_contig90:759845..7599301680870342.5760565-UTR-A-nodosum_M_contig90:759845..759930Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig90 759846..759930 +
1680870342.7381709-UTR-A-nodosum_M_contig90:780598..7813961680870342.7381709-UTR-A-nodosum_M_contig90:780598..781396Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig90 780599..781396 +
1680870342.7532318-UTR-A-nodosum_M_contig90:781469..7821771680870342.7532318-UTR-A-nodosum_M_contig90:781469..782177Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig90 781470..782177 +


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

Feature NameUnique NameSpeciesTypePosition
1680870342.6012578-CDS-A-nodosum_M_contig90:759930..7599631680870342.6012578-CDS-A-nodosum_M_contig90:759930..759963Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 759931..759963 +
1680870342.6123526-CDS-A-nodosum_M_contig90:768841..7691341680870342.6123526-CDS-A-nodosum_M_contig90:768841..769134Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 768842..769134 +
1680870342.6245668-CDS-A-nodosum_M_contig90:770394..7705091680870342.6245668-CDS-A-nodosum_M_contig90:770394..770509Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 770395..770509 +
1680870342.6404705-CDS-A-nodosum_M_contig90:771318..7714281680870342.6404705-CDS-A-nodosum_M_contig90:771318..771428Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 771319..771428 +
1680870342.6502244-CDS-A-nodosum_M_contig90:773780..7739221680870342.6502244-CDS-A-nodosum_M_contig90:773780..773922Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 773781..773922 +
1680870342.6629725-CDS-A-nodosum_M_contig90:775939..7760871680870342.6629725-CDS-A-nodosum_M_contig90:775939..776087Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 775940..776087 +
1680870342.6744-CDS-A-nodosum_M_contig90:777358..7774881680870342.6744-CDS-A-nodosum_M_contig90:777358..777488Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 777359..777488 +
1680870342.6908152-CDS-A-nodosum_M_contig90:778599..7787411680870342.6908152-CDS-A-nodosum_M_contig90:778599..778741Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 778600..778741 +
1680870342.7173-CDS-A-nodosum_M_contig90:779796..7799161680870342.7173-CDS-A-nodosum_M_contig90:779796..779916Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 779797..779916 +
1680870342.728243-CDS-A-nodosum_M_contig90:780406..7805981680870342.728243-CDS-A-nodosum_M_contig90:780406..780598Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig90 780407..780598 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig90.49.1

>prot_A-nodosum_M_contig90.49.1 ID=prot_A-nodosum_M_contig90.49.1|Name=mRNA_A-nodosum_M_contig90.49.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=475bp
MSSLPQANIKTMLELELENEALRRRVADLEKEKNASPTTSNGDAGFAAVE
SSAPNGTVETGPATPNGANCGSCREISRESLGKAGMTAAEIARYSRHLLV
PAVGVEGQRNMLGKTCLVIGAGGLASALLPYLAGAGVGHIKIIDFDKIET
SNLHRQVLYRESQAGKSKALCAAEAVRAINPNVRCSAIEAAFTHDNALSV
VADCDLVVDASDNPRTRYLVNDTCVLSGKPLVFGSALGMEGQLSVLHFQG
GPCYRCIFPAPLAAEASRRCSDNGVLGTVPGVIGCLQATEALKVLGEFGE
PLSGRLCTFDAQDGSFYTIRLRPRSKGCAACGDNPTVKTMEDSAAFATKH
GLTVERTVPEQNDDVPSVTCQEYAQVVARGQDHLLLDVRARVQFDVCALD
GAVNLPLAELKTYIDKVEALSAGRSLPVYCVCRRGIDSRAAVAILRQEGF
DRVKNVSGGLTQWAKAVNPTFPMY*
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mRNA from alignment at A-nodosum_M_contig90:759846..782177+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig90.49.1 ID=mRNA_A-nodosum_M_contig90.49.1|Name=mRNA_A-nodosum_M_contig90.49.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=22332bp|location=Sequence derived from alignment at A-nodosum_M_contig90:759846..782177+ (Ascophyllum nodosum dioecious)
CACCACATCATGCACCTGCTGAGTTGTTGAGACAGAGCCCACCATCTTCA
CTCGAAGCCAGGCCCATCTCCTTACGCCCAACAGCATGTCTTCCCTCCCG
CAGGCGAACATCAAAACCGTGAGTTCATGTATGCAGCTGATGTATGTAGT
GTAGCCACCAAAGCATCGGTGAGTGAGAGGATTGGTGTGGTGAAAATCGG
AAAACAGAAGAGACGGACGTTCACAAAACACCGGTTACACAGTACTGTAA
ATACAGTTTGGTACTGTAGTAAGTAGTAGAAGCAAGGAGCTATCAGGTGC
CTTGTACCCATTGTAATATAATGTAATCAGTTACCACTGCAGTGATTTTA
CACGTGGAATCTGCGAACAACCTGAACTTGCGGTTGTACCCACAGTACTT
TCGACTCTTCGAGCGTGAGCAATAGACCTACTCTACACGGTTCAACACTG
AGCAATCCTCTGTGCAGTAAAGCGGAAAGTCGGAGTGGATAGCCTCCATG
TCCACTTGGGGAGCATACCTGGTAGACTTCTCGAGCGAGGTTTCTGTGAG
ATACGGAGTGAACCGTCTTGTCTACTCGTGAACATCTGCACCCGCGGGTC
ATGCCGTAGCTTTGGTCCAACCCGCACTTGTCACCCACCGTAAGCTTGAA
GAAGGAAACAAAAACCTAACTCCGCCTGTAGGCCGTATGCAATCAATCTG
ATATACTTGTATACCCTGGGTTAACTATTTGTACCCCCAGCGAGTATGTA
GTATGCACGTATGTCCCTTCGTACCGTATCAGGTACTGTACATGTATTTA
CCTGGTATTTACAGTGTGAAGTTGCACATAACCGCGCCATCCGACCCTGT
CCTCCTACCGATAGTAATTAGGTGGGGATCAATGTATGCATATATATATG
CATGCATGCATGTAAGGTCGCTACGTATAGCAGACCGGTCCGGTATACAG
TCAAGTATGGAAGCCAATCCTGCTCGTGGTCAGCTGAACAGGGAAAGTTC
AATGTTCCTGGTCCCCGTTCGCGCCTGAGAATTTGGTCCCGCCAGACAGG
TTCGGTCGTCCCGTCCCGCGTCAGCTCGCTCATTCTCCACACCCACAGGT
GTCACGCAGTACATTTAGACTAAATATATATATATATACCAGGTATGAAG
GATGAGATCCTCAACAACCTAAACGTCTCGATGCTCAGAAGGTCTAGATG
CGCTCAGATTTTTCTTTAACCAGATAAGATTATGCTCTTTATTCCGAGCG
AATCACCATGAAATTGGTCGCGGAGGATCATTTCGGGCTGGTTGATTAAC
GTGCCCGTTGGGCACATATTGATATAATGTACCAGCTCAAAGGAAGTTGA
CTGTTGGTTTTTGGGGGGATTTTTCTCGAAGCTTGTAAATAACAACCAAC
TATTTTATTTTCTTGTAAACAACACAGTATAACGGTGGGCTTCTCCCCGA
CATTATACTGTTGACTCAATGTTATCTGCATCGGGGAACCTGTTTGAATG
CCATGAAGAGGTTTTGTATTATTTGCAGCCTTTGATCCCACCTTAACGTT
TTGACATTTTTTTCCCCACAACCGGGGGATGCTCAGAAGGTCTAGGTGTG
CTCTGATTTTTCTTTAAACAAGAAGGTCTAGGTGCATTCAGATTTTTCTC
TAAACAACACGTAGCCATTCCAATACGTGTAACTGGTTGCCACGTGGGCA
GGTTTTTGAACGAGGATCTTGCCTTGGTTGCTCAACAGACAGCAGGGTTC
ACAAGACAGTCAGCCATCGAAACCTGGTCGGACCGCAGCTGTCCTTACCT
GTCATATCTAGGGTTCAACTTACATGTTCTGTGCAAATCGTTTTCTATTT
TTCTTAAGTCCGGTCATACCGCTGTGATACTTCCTGTATTTTTCATGCCC
ACTACATACCAATAGTGGGTGTGGGAAAAGAGAGACGCATGGAAATTGAC
CCATGGTGATTACCTGAACAGGCAGCACCCGTTACTGGAACTACCTTGAA
GAAAAATCATTCTCCGTATTCAGTTGACCACGAACAGGATTGGCAACCAC
ACCCGGTAGATCGATACCTGATTGAAAGTGCTGACCATAGTGGGTTTGGG
AAAAAGAGAGGTCCATGGTGATACCTGAAAAGGCAGCACCCGCTACTTGA
ACTACCTTGAGGACTACTGGCCCTGTGCCGACGGACTCTCGGTAGGAAAG
CCATCGGTACGCAATTGCGTGACCCGATAAACTCTGGACTGACTTGTCCA
AACGACCATATTTGGAAATGCGGTGTCATTAGACAGCCACGCCCCCGAGT
CATTTTCAAGACCTATACACTGGTGAGGGCAGCAGAGTGGGCGGCCAGCG
CAACGAGGTTCGATCTCGCTCGAACCTCGACCTTACGCCCTCCTCGGAGC
TCCGCTACTCGGCGCTCGGCGAGCCGACAGTCAAGCCTCCCAATCAAACG
TGACTGTCAAGAGACCGCAACAAACTACTTACTGTACCAAAGTAGGGCAA
CACTGAGCACCAGAGCTTTCTAAGCGTTTCACAAGCCCCTCGAACGATTT
ATGAAAGCCCAACTGCTCGAGCAGTAGTGCATGGTACCAGTACCTCGCGC
GTGGTTTTGGGGCGTCGAGAATACATCAAAATTCGGTGTACTTGTCGGAC
TCGCAACTACTGTTGTCCAGACCCAGCGTTAGCGACGCGTACTTTAGTTA
TGCACTAGAAAAACAACTACCACGTACGAAGTCGGGTACCAGGTATCAGG
TATGCTGTTTCCAGTACGTCGCAGGTGTTGTCTTTTTTTTCTTTTTCTTG
TAGTCCCAGTTGTACTATTAGTATCTAGCAGGTGTGTATTTTGTCTTGCC
GTCGAATCATTTCGCACGACAGAATCTACGTGGAACAGAAAGAAAGTGTC
GGTGGACAGATTCTATCAAAGGTCAAAACAACAATTTGAATCTGTCTGCA
ACCGACAGATTCTGTAGTGTACAGAACTTGCCGACTAGTAGTGTCGGGCT
CCATTTGGCCAATCACAGAGCTGTATTCTCGACAGATTCTATCGACAGAT
TCTAAACGGACAAATTATTTCTCGTCGTTGAGACAGGGCCTAAGCACCAG
ATTCAGCCCGAGTATGGAGAATGAGGAGGCTGACGCGGGACGGGACGGCC
CAACCCGTCTCTCGAGACCAAATTATCAGGCGCGAACGGGGACAGGGAGA
TATTCATTTTCCCAGTTCAGCTGACCGCGAGCAGGATTGGTAACCTTTAC
CCGGTTGATCCATACTCTTGCTATAGCTGAAATGACTATAAATACATAGT
CTACATACATACAAAAAAGAAGAAAAATCCCGAGGGTGTCCAGATTACAA
TATACCCGAGGTACTGGTACTATTTTAAGTTAGACCGTTTCTTACGCTGT
CATTTTTTCCCATCGGAAAATGCCTATTTCCGATCGGGAGAAAAAATAAA
AATCCATGTCTTACGCTGTCGGAAATGCGAGCAATTTCCGACAGGATTTT
CATCGGAAATCGCTCGTCGGAAATTGTTTGAGCCTGATTGCACCGCACAA
TATAGTACCTGGTATAATATATAGTATTGCTGTTTGTTTGATACCACAAA
AATATACTCCGTAGTATGTATCTATGTATGGTCATCACATATAGCAAAAG
CATGGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGCTGAATA
GGGAAAATGAATATTTCCCTGTCCCCGTTCGCGCCTGAGAATTTGGTCTC
GCGAGACGGGTTCGGCAGTCCCGTCCCGCGTCAATATAGTATTATTGGCT
GTTGATCCAAACGAAGGTAGATGGATGACACAAAAATACAGCAGTTTCTG
GGTTTGACTACTGTTGTGTACGAAGCATAGACACATCGCCCATGCGCTCT
AGTCTACCTGGTATGGATCAGGCAGGGACCTTTCTGATGTACTACTGCTG
GTGTGTGATACCACACAAACAAGTACAGATTTAGGAAAGGCAGGCTCAAT
GACACCAACATCGTTAGCGGTGTCGTTATTTTTTTCTATCAGGGGATAAG
CGTCGTCGAGAAATTTAATTATCGTGTGTTAAATATTCGTAGTCATTTGA
AGAGATCAGCGAAAACCCGGAACCTACTAATTGGTGCATGAGATGTACCG
CCAGCGTTCGTATGGGCGCGCCATCTTTTCAAAAACTGTTGACAGGCCTT
TTAGCACACGCCTTCGATATTTCCAGAACTGCTGGGGATAAAAAAATGCT
CGATCGGAAATAGGCAATTCCCGATGGGAAAAAACGACAGCGTAAGAAAC
GGCCTTCATTCTTCGAGATAAAAAATTGCGCGTGGTGGGTTGGGTTATCT
CATTATATAATATTAAATTAATAGAATCATATGATCATTTCACGGATAAC
CCTTCGCTTCATCACCGACATGCAGCTAAGGGATCTGATCCGCCTGTATG
GGTTGAGAGAGCTCACTTGATCAGCGGTACCGGTAGACCTTTACTCACCT
TGTCCAGTTCCAAGCTAAAGGCATTGCTTCGTCGCCATACGTACTGACTG
CTGTATGAACAGCTATCCGATAACCTACTCTGTACCATAGTTATTAACCA
TGCAGTGCACAGTAATTTGGTGAGTTTTCGAGCCATTTCAGAATATATAC
AGGGGAAACATTTCATTTTTTCATTTTTCCTGTTCAGCTGACCTCGAGCC
ATTTCAGAATATACGGGGGAAACATTTCATTTTTCCTGTTCAGCTGACCA
CAAGCAGGATTGGCAATCTTACCCGCTTGATGCTTACTCTTGCTATGATG
ACCAATACGTACATAATATGCTGTCCCTTGGATTCGAGCAAGCAAAGGTT
CAACAACGAAGCGTAAGTTATTATGAACGTTGAACTTGAATAGCGGGCGA
TGAAAAGCGCGAACCATAGCCGGGGTTGGGGATACGTAGCGTTACTGCAT
ATTGGTACGAAATATAGAAGCACGGGGATACAGCGGATAAAATCGGACAA
ATCCATCGGTGGTTGAAGAAAGTGCGGTGCAAGCAAACAAAAGTTGACCT
TTCGTCTAGCGTAGACCGGGAAGTGATGAATATGTATGTATGTATGCCGG
GAAGTGATGAAGAATGTGTAGGTATGTATGCATGTATGTATGTATTTATT
AAATTGCACATAACCACGCAATCCGGCCCTGTCATCCTAGTCATTCTATG
CCACTCGCATTGATCCTCCCGAGGGGGATCAATTATTACGAAAACCTCTG
ATCAGACGCGACAAAGGGGACACGCTCTCTCTACTTGTACAATTCTTACT
TAAGCTCAGAGTTCCTTGTTTTGTATGTATGTATGTAAATTTTTTAAATT
GCACATAACCGCGCAATCCGGCCCTGTCATCCGAGTCATTCTATGCCACT
CGCATTGATCCTCCTTGTATGTACATTTATTAAATTGCACATAACCGCGC
AATCCGGCCCTGTCATCCGAGTCATTCTATGCCACTCGCATTGATCCTCC
CAAGGGGGGATCAATGATACTTGTGTTACGAAAACCACTGATCAAACGCG
ACAATGTTTGTTTGTATGTATGTATGAATGTATGGATGTATATTTGTTAA
ATTGCACATAACCACGCAATCCGACCCTGTCATCCTAGTCATTCTATGCC
ACTCGCACTGATCCTCCCAAGAAGGTATGCATAAGTATCGGAGTCTTGGC
ACACCCGCTAGACTGACGTTCCAGGCTCGATTCCTCCACAACCAAGAGGA
TGTGAACAACGACCGATACGTGTAAAGAAAGTTCTCGACGAGATCTTTCA
AAAACCGCCCTTTTCGACATTGGCACCCTCTTGGTTGTGGAGCAATCGAG
CCTGGAAAGTCAGCCTAGGGGGTGTGCCAAGACTCTGATAGGTATGTATG
AATGTATGTATGTATGTATGCATGTATGTATATATGTCTGTATGTCTGTA
TATGTGTGTATGTATGTATGTATGTATGTAAAGAAAAAATCTGAACGCAG
CTAAACCTCCTGAGCAATCAGAAGGTTTAGGTGGGAACATTGGCTGTTAG
TATATGTATGTATGTATATATGTATGAATGTATGTCCGTCTGCATGCATG
TATGTATGCATGTACCTGATATGTATGTATGTATGTATGTATTTATTAAA
TTGCACATAACCGCGCAATCCGGCCCTGTAATCTACTCATTCTATGCTAC
TGTATGTAACCCACCTGGGGGTTACTTATCGTAAACACATTCTCGGCTAG
AAATGCGCGTGCACACAGCTACAACTCCTCTCCCCGCTACGACCGCTCTC
GGCCGGAACCGTAAAGCTGGTTTCTCGCCGCTTGTCGCAACAAATAGAGA
CGGATATTCGACAAACAGGGAGCACCATGACCAGCTCTCCTTGTAACCTC
CCCTCCAAACCCAAAAAATCTCGCCCCCCATCAAACCGTGCGACGTACTG
CAGCAGTGGTGTCGTCATTCCGCCCTCTTCCCCCTTCAACACCCAATCGG
TGCGTGTCCCGACTACACCCGCGCATCTTTTCTTTCTACGTAAGAAAATC
CCCGCCAGCCAAAAGGCCCGGGTTGGAACATCAACCGTAAGTCTTGCACG
GGGCGCTAATCGTGAGGTTAAGGAGAGAGTCAAGGGTAAAGCTAGTCGGG
TACAAAGTACCCGAATAGGTCTGCGCTCGTGTGTGTGCGCCGGAACGTCC
AACATCTTGAGCTAAAACTCTCCAAGTCCACACGATTTGTGCTCGTTACT
GTCGTCATGGTTGCTGTACCCACCGGTTGCGTAGTAAGTCCTCCTCCACT
ATTTTCCCAAAACATGCAGTCACACGAAAAACCCCCCACAAGCCATAGGG
CACAGGATGTACCACCAACCGTAAGTCTGGCGCTGGGCGCGAATCGTAAG
GGCAAGTGAAGAGTCAAGGGTAGAGCTAGTCGGATACAAAGTAGCCGAAT
AGGGTCTGCGCTCGTGTGTGTACGTCGAAACGCACAGCATCCCGAGCTAA
AACTTCCCGAGTCCACGCGATTTGTGCTCAATACTGTTCTAATAGTTGCT
GTGTCCACTCGTGGGCCCACCGGCGCAAGTCCTCCTCCCCTCTCGTCCCG
AAACATACAGTCACACGAAAAATCCTTCACAAGCCCTAGGGCACGAGGTG
AAGCACCAACCATGAGTTTTGTGCTGGGCACAGATTCTGAGGGCAAGGAG
AGAGTCAAGGGTAAAGCTAGTCGGATACAAATTAGCCGAATAGGGTCTGC
GCTCGGATGTGTACGCCGGAACGCCCAACATCTCGAGCTAAAACTTCTCG
ATGTATGTCTATGTATGCATGTATATTTATTAAATTGCACATAACTGCGC
AATCCGGCCCTGTCATCCTAGTCATTCTATGCCACTCGCATTGATCCTCC
CAAGGAGGGATCCATGATATTGGGTATGTATATATGTATGTATGTATGTA
GGTATGTAATATATGTATGTATGGATGTATGTATGTATGTATGTATGTAT
GTATGTATGTATGTATGTATGGATGGATGGATGGATGGATGTACGTATGT
ATGTATGTATATATGAATGTATGAATGTATATATGTATTATTTTTTAAAT
TGCACATAACCACGCAATCCGGCCCTGTCATCCTAGTCATTCTATGCCAC
TCGCATTGATCTGTATGTATGTATGTATTTATTAAATTGCACATAACCAC
GCAATCCGGCCCTGTCATCCTAGTCATTCTATGCCACTCGCATTGATCCT
CCCGAGGGGGGATCAATGATACTTATTACGAAAACCTCTGATCAGACGCG
ACAAAGGGGACACGCTCTCTCTACTTGTACAATTCTTACTTAAGCTCAGA
GTTCCTTGTGCTCCCCCCCCTGCTTCCTTATTAATCTCTACAATATTTGA
GTTGGCAGCTACTGGACCGACACTTCCTTTTCTACATCTCTTCCTCGTTC
CACCAAAGTCTCCCCCGTTTCCCCCTTGGCGTCTACAGCTATTTAGCGGT
TTCTTGCGCTTCTTATATGTATGTATGTATGTATGTATGTATGTATGTAT
GTATTTATTAAATTGCACATAACCACGCAATCCGGCCCTGTCATCCTAGT
CATTCTATGCCACTCGCATTGATCCTCCCGAGGGGGGATCAATATGTATG
TATGTATATATGAATGTATGAATGTATGAATGTATGTATCTATGTATCTA
TGTATCTATGTATCTATGTATCTATGTATCTATGTATCTATGTATCTATG
TATGAATGTATGAATGTATGAATGTATGAACGTATGTATGTATGTATGTA
TGTATGTATGTATGTATGTATTTATTAAATTGCACATAACCACGCAATCC
GGCCCTGTCATCCTAGTCATTCTATGCCACTCGCATTGATCCTCCCGAGG
GGGGATCAATGATACTTATGTATGTATGTATGTATATGTTTGAACGTATG
ATTGTATGTATGAATGCATGGTCATCACGTACAAGTATACATTGGCAGAG
TATGTACCAACCGAAGATGGTTTCGTCAATCCTACTATGATCGTGGTCAG
CTTAAGAGGGAAAATGTTTTGTTCCCTGTCTTCATTCGCGCCTGAGAACT
TGATCTCGCGAGACGGGTTCGACCGTCCCGTCCCGCGTCAGCCCACTCGT
TCTCCACACTCAGGTTGAATCTGGTGAATCTGGCAGGGGGGCGTGGGGAC
GTTGATTCGGTAGAAGTTCCATCAAAACACACAAAAAAAGCGAAAGACAT
ACACACACACACACACACACAAAAAAAACTATTGAGTACCAGGTCTAGAT
AGCTCTACACCCAGTACTTCTGCACCAGGAGAACATTTCACAAAAAAAAA
AACGGGGGGGTGGGAGGAAATGAAAAAACTTTAGCTCCATTCAAGTATTG
AAAAACCAAAACCAAAACAAAACAGCCCACCCCGCCTTACTCGCTTGACG
AAATGACGTGCGTATCGCTTGACCATGACAACCAATGACGGAACAGATGC
TCGAGCTCGAACTCGAAAACGAAGCCCTACGCAGGCGGGTAGCCGACCTC
GAGAAGGAAAAAAATGCGTCTCCAACGACAAGCAACGGGGATGCAGGGTT
CGCCGCCGTCGAAAGCTCCGCGCCGAATGGGACCGTTGAGACCGGTCCTG
CAACTCCGAATGGAGCCAATTGCGGATCCTGCCGAGAAATTTCCCGGGAA
TCTCTGGGAAAGGCGGGCATGACCGCCGCTGAGATTGCCAGGTACTCGCG
GCATCTGCTGGTGCCCGCGGTTGGCGTCGAGGGCCAAAGGTGCGTGGGAG
TGGGACCCACATGATAAAGTGATACAGTATGCTTTTAGCGTAGCACATGT
GCGTTGGGCGGGTAATGCATGGCTTCGGCCGGGGGGGGGAAACGGTGAAG
AACCAGTGAGGTTTTATTTTTGTCTTTTGGGGGCACGCGCCAATCTGTCC
GTCGGTTTACTTCTCTTTTTTTTTCATCTCCCCCTTTCTGTCTGCCTGTG
TTACCCTCTCCCCTCAGACCCTAAGCCTATTTTGCCTGTGTTACAATTTA
CGCCCCCCTTGCATTTTTATCTGGCTTGCTTTCGCGATGTCTGTTGGTCG
TTTCGTGATGCCTATCGATCCATTGGGCGTACGTCTATGTGTGTATATGC
ACGTGGGTGTGTGTGTGTGTGTTTGTGGGTATGACATTTACACGGAACGA
TCAGGCCTCAACCCTTTCCCAGAAATATAGACGGTTGCCAAATCAGGTAC
TGTACACATGGTCTGCTGAGCAGGAGAAAGGTCAGATGAACATCTACAAT
TTAATACCACAGCTGCTAAGAAAGCAAAAATAACAAGAACAAACAAACCC
CCCCCCCCATCCCATAAAGGCGCAGGATTATGTTATCTTTCGAAATAGCC
AAAGGCGGACGATGTTACAGATACAAAAAATCGAAATACACAAGATATTG
CTTAATTTGTCTATCAAAAAGACAAAACGCTCTGCCTCTCTATCTTGTCT
CTATTTTAGGCTTATATATTCATAGCTCTACTACAACTGTAGTATGTCTC
AAGCTATGATATCTCAATGTGATGTGTTCAAACCGAGTGCGTGTTTGCAT
GAAGTCTGGATTCCACCGAGGTAGCCCTGAGTCGAGAACATTCGGGGGAA
GAAGCCTCCCGTGGTCGTGGTCCTGAATACATGTGGTTCGTACCTGGTAC
CAGGGTACGCCGTACCTGAACTCGTCCAAGGGGTGCATCGGTAACCCCCC
CCCTCCCCCCCCCCGCAGGCGCTTGGTATCGTGGTATCGTGTGACATGGT
CGGTGGTGTTATGTCGACGAGGTTTCCGCCGCACAGGGCACGTTATTTAC
CTTCGTTTTCCTTCCTTCGTCTTCCCTTTTTATTTATTTATTTATTTTCC
TTTTCTCTTCCTTTCTACGTTTTGTCGCTCACTTTCCCCTTGAGAACGTC
TTTTTTTTCTTCACTTGACTTCTTAACATTCGCATTCTCCTTTAATTTAA
CATTATCTATATTCCATTTTTTGTTTTTGTTTTTTTGTCCTCTCAAAAGA
AACATGCTCGGCAAGACCTGTCTGGTGATCGGCGCGGGAGGACTCGCGTC
CGCCTTGCTGCCTTACCTTGCGGGCGCAGGTGTAGGACACATCAAGATCA
TCGATTTCGACAAGGTACGAAGAATCTCCCCCTCCCCCGCCCATTGGGGG
AAAATATCATTTACGGCCTTGCCCTGGAAGACAGGCGAGAACTGGCTCGT
GGCAGGTTTCCCGGATGCTTTTGACAAGATAGGAGAACTTTGAAGCCCCG
GTGTGTGTAACTTTTACTGCAGATCTTCGTGGTGCTGCAGTAGCAAATGT
GCAAATGAGAACTTTGAAGATTTCAAGTGAAGAGAAGTTTTTTTGTGGAC
AGCAATTGGACGTTGAATCTGATTGGTCAGTCTCAGTCACTCCTAAGCGA
TGGGAGAAGTCCGTTCAGAAGAAGCGGCCTCCGTGCCGCCAATATCGAAA
GGGAAGCGGGTTAAGATTCCCACACCGGAACGCGGACACTTGAGGGGCGA
CACAAGCGCAATGGGAGACGTTGGCGAGAGCCCCCGGCGAGAATTGTCTT
TTTCTCGTGTACGCCCTCGACCGACCAATCAGATCAGATTCAACGACCAA
TCAGATTCAACCCAGGTAATCTTGCGGGACTAAGACGAAGGCTTGGACGG
GGACGAGGCAGGGAGGATCACAGTCGTGCAGCAAATACAGCTCGACCAAT
CAAAATCATTCCGCCCGTCTCCAGCATCAAACGGGACAAAGCGATGAATG
TAATGTAATGTAATGTAATATATGCTCTCACCACTGGAGAGGATTATCAC
AAATCCCGTCCGAATCAGCTCTCTACAGTATATTGTCCCTGGAAGCCGTT
TTTTTTTTACTACTTTTGAACTAGATCAAAACACCGCTTTCCCCCCCGTT
CTTGTTGGCCGGCCGCGCGTCAGATCGAGACCAGTAACCTCCACCGACAG
GTGCTGTACAGGGAGTCCCAGGCGGGGAAGAGCAAGGCTCTTTGCGCGGC
GGAGGCCGTCAGGGCGATCAACCCAAACGTCAGGTGCGGAACACTTCTCT
CTTTCCCTTTTCAATAATATTATTATTATTATTATTTTTCTTATGTCATC
ATTTTTTACTTGTTTCGGTTTTCAAAACTTGGCAGTTGGTCGACGAAACC
ACGCCACTCCTCCAAAACAGAAAATAAAAAACAACAATATGTATATTATA
CGTGGTATAGTAAAATTACTGTAGTTTTCACCCGATTAGGGTGCGCATTG
TTACATAGAGCAGAGTCGAGCAGAAAAGCAGACGCCGAAAAACTGCGTTA
TACGAGTTTTGGCATGACCGATCGAAAAACTGCGTCGAGAATAGATTCGT
CCATGGGCATTTACGTCAAAAAGCCTTGATATTTTTGGCGTGGGAAAAAA
GAAACCTTCATGTGTGAAGGAAATATTTCTGTAGAAGACTCCAGTTGGAG
ATTTCACTCGCGGCTTCATGATGTCGCTGTTTTTGTCGCTTATTTACGGG
ATGAAACACTCACCATAATATATTTTTTATTGGTTTGCCAAATAATTCCG
CATTTTCGTTTCACTTTTTTTTCTCTGTCTCTCTTTTATCGTGGTTCAAT
GAAAATAGCTCTCAACAATATAGAGAAGCTAAAGGCAACTAGTCTAATAA
TATAAGAATGAAGAAAACGGCAGCAGCATCTCCACAGCACCCCAGATTGT
AGAATATATAGTGATGCACACAGTCTGTTTTGTTGTTCTTCGCGAAGACA
ACTTGGCCCAGCACTTTACTGTAGAAATAAGTTCGTTTCTGGCGAGCCGT
ACAATCGCGGCACTGAAAATGATAAGAAAAAAAATACACTAGTAATAATT
GTAATATAACATTAGTGATACGTAGTATTATTACTGTTATTATTATTATT
ATTGTTACTATCTTTTTCATTATTCTTCTTAATAGCACTGTTATTATTAT
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTA
TTATTACTATTATCATTATTATTATTATTATTATTATCATTATTATTATT
GTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTAT
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTA
TTATTACTGTTATTGTCATTGTTTAAAGAAAAATCAGAACGCGCCTAGAC
CTTCTGAGCATCCCCCAGTCAGGGGGGGGGAAATGTCAAAACGTTTAGGT
GGGATCAAAGGCTGCAAATATAAAACATTTTCTTGGTAGTATTGTTATTA
TTATTACCAGGTTTTATTTTTATTGTTATTATTTTGTTATTATGATTATG
ATTATTATTTATTATTATTATTATTATTATTATTGTTATTATTATTGTTA
TTTTTATTATTTTTATTGTTATTAGTAGTAGTAGTAGTAGTAGTAGAACT
CTTATTATTACTATTACTATTATTACTACTATTATTACTACTACTACTAT
TATTATTATAATTACTACTATTATTACTATTATTACTCTTATTATTATTA
TTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTACT
ATTATTATTATTATTGCATTATTTTATTACTTCGGCAGTATATTATTTTA
ATTATGACAGTAATAATGATAAATGATAACGGCAGTGGTAACAAATAATG
GTAACGAGAGCGATTTTTTTCGTTACAAAAACTACGATCGTTGTAGAGTG
TACCAGGTCGCCCCCTCTCAAAGAGACGCAACATCAGGGCGCTTCAAGTC
AAATGGCGGTACAATGTTCTCTGTCGCAGAGTGCCTGAAGTAGCGTCAGT
TCCGAGGGTGGCAGAGGGTGCATGGTTGCGTGGTGTTTGTTAGTTATTGG
TCATGGAAAAAGATCCTCGTAGTAATCAATGCAGTGATCGCCGCTGCATA
GGGCGAAGCGACAGTGATCACGAGGCGAGCCCCCTCTACTCTCCCGCGGA
GGGTTCGACGTAAAAGGCGTTCTCGCTCCATTCGTAAGGCGTTGGATGTC
TTGCTTTTAAGCCATTGTGCAGGATGGTAAGGCAAGGGATACACTTGTAC
TATTAGTAGGAGTGTATCTTTGGGGCGATATTATAAATTCGAGAAATAAA
CTGCCCCCGAACAAGCTAACCTCGAAGGCGTTTACTTAAAAACTCATAAT
AGTATAATTGACTTTCGCTCGGGAACATTTTTGGGCTGTCATAAAGTTGG
CATGCCATAGAAACGAGTTTCGGAAACGCTGTGTAGTAAAATAATAATAA
TAATAATAATAACATATCATGCTCTTGTCCCTCGCACTATATCTAAGCTG
TTTTTTTTTGTTATGGTGGGAACGGCGCGGTCCAGGTGCAGCGCGATAGA
GGCGGCTTTTACCCACGACAACGCCCTAAGTGTGGTGGCCGACTGTGACC
TCGTGGTCGATGCTAGCGACAATCCTCGTACTCGATACCTCGTCAACGAC
ACCTGCGTGCTCTCTGGAAAACCCCTGGTGAGCGATATCGGGAGACATAT
AACAGCACAAACGCATAAGTAGTTGTTTTTTAAGCAACGAGGGATGGTAC
AAGTTTGCCGCAAAACAAGCCCGACTGTCTCTGATTCGAAACGAAGCGGG
GAAATGCCGTGACTGCTCTTCTTTCTTTGATCGTTTTTTCTTTTGTTTTT
TTCCTGTCGTTTGGTCTCGTTTTGTTAATAATATTGTTGTCAGTGTCTCT
TTTGGTCTCTCTCTCACCACGGGTCTCGTTGGGGGGGAAGGGTTACAACC
CCCATCCCCCCTTTTCCCCCTTGTTTTTGTTGTTTTCCGTCTTTCCCTTC
TAATCATATTTTCCTTGTTCCCACCCCCCCCCATTGTTTTTTTTCGTTTT
TTTTAATGTATGTGTCTATGTATGTGTCGTGTCTGTGTGTGTGTGTGTAT
TTATTAAATTGCACATAACCACGCAATCCGGCCCTGTCATCCTAGTCATT
CTATGCCACTCGCATTGATCCTCCCGAGGGGGGATGTGTGTTGTGTGTGT
GTGTTTGCGTGTGTGTATGTGTGTGTCTGTGTTTGTGTTCTGTGTCTGCG
TCTGTGTCTTTGTCTGTGTGTGTGTGTATGTGTGTGTCTGTGTCTGTGTC
TGTGTCTGTGTGTCTGTGTCTGTGTCTGTGTGTGTATGTGGGTGTGGGTG
TGTGTGTGTGTGTATTTATTAAATTGCATATAACCGCGCAATCCGGCCCT
GTCATCCTAGTCATTATATGCCACTCGCATTGATCCTCCCAAGGGGGGAT
CAATGATACTTGTTACGAAAACCTCTGATCAGACGCGACAAAGGGGACAC
ACTCTCTCTACTTGTACAAATCTTACTTGAGCCCTGTGTGTGTGTGTATT
TATTAAATTGCACATAACCACGCAATCCGGCCCTGTCATCCTAGTCATTC
TATGCCACTCGCATTGATCCTcCCTAgGGGGGATCAATGATACTTATTAC
GAAAACCTCTGATCAGACGCGACAAAGGGGACACGCTCTCTCTACTTGTA
CAATTCTTACTTAAGCTCAGAGTTCCTTGTGCTCCCCGTGTGTGTGTGTG
TGTATTTATTAAATTGCACATAACCGCGCAATCCGGCCCTGTCCTCCTAG
TCATTCTATGCCACTCGCATTGATCCTCCCAAgGGGGGATATGTGTGTGT
GTGTGTGTGTGTATTTATTAAATTGCACATAACCGCGCAATCCGGCCCTG
TCATCCTAGTCATTCTATGCCACTCGCATTGATCCTCCCAAGGGGGGATC
AATGATACTTGTTACGAAAACCTCTGATCAGGCGCGACATGCGTGTGTGT
GTGTTTGCGTTTGTGTGTGTTTGTGTTTATTAAATTGCACATAACCGCGC
AATCCGGCCCCGTCATCCTAGTCATTCTACGCCACTCGCATTGATTGATC
CTCCCAAAAGGGGGCATCAGTGATACTTATAACGAAAACCTCTCATCAGT
GTGTGTGTGTGTGTGTATTTATTAAATTGCACATAACCACGCAATCCGGC
CCTGTCATCCTAGTCATTCTATGCCACTCGCATTGATCCTCCCGAGGGGG
GATCAATGATACTTATTACGAAAACCTCTGATCAGTGTGTGTGTGTGTGT
TTTCCCCCCTGATGTTAAGGGACAGAGGCTAGACCAAGGCGTTGTGGATG
TGTGTTCAAGCTTGTGTGTGTGTGCGAGCTACGACAACCGGGACCCATCT
TGAGTTAATATATTACCTGATAATATAATGATAATATAATACTTGATAAT
ATAATACTTGATAATATAATACTTGATAATATAATACTTGATAATATAAT
ACTTGATAATATAATACTTGATAATATAATACTTGATAATATAATATCTG
ATAATATAATACTTGATAATATAATACTTGATAATATAATACTTGATAAT
ATAATACTTGATAATATAATACTTGATAATATAATACTTGATAATATAAT
ACTTGATAATATAATACTTGAAAATATAATACTGTTTTATGAAGGTCTTC
GGCAGCGCCCTGGGCATGGAAGGACAGCTGTCGGTCCTCCACTTTCAAGG
GGGACCGTGCTACCGATGCATCTTCCCGGCGCCCCTTGCTGCCGAGGCCA
GCAGGAGGTGCAGCGATAATGGCGTGCTCGGTACTGTCCCCGGTAAGACA
TGCTCCGGTGTCTTTGTTTTTAAAAGGCAGAAAAGAGGCTACGTGTGTGT
TTTGTTTTCTTCCCATTCATTCTGGACATCAAGTTCGTTGGACGTACCAA
CCGGGGTCACACAGGAGGAAGGTCACACAGGATTTTTCATCCGCCTTCTT
TCTGCGGTGCGTGCCCTAATTTTTCTCGCGAGAAGGATTCAGCCATTCCT
TTCCCTCGTCGGCCGTGAAGTCGAATTTTGTGTACTTACGATTTAATCGT
TCTCCACCCTTTGTGCGAAAATCCCGTTTGCCGGGATCGAACTCACGTCC
CAACGTGTCAGAAGGTTATGAGGTTACCCCTGAGCTACCGGGGTGACCGG
CAGCCAAAGTCATTTCAATTAGAGGCTACATTTTTAAATACGATCTGCTT
TATATAACGAAGTGCTTCGCATACATATATATACTGTATATTACTGATTA
CTATATTTTTTTTGGGGGGGGGAGGGTTCTGTTTGTCCCCGGTATTAATG
ACATCAACGGTATTAACAGTGTACCCGGTATTGATACTGTAAACAGAGCA
GCATTGATACAGTACAGACATCTATACCTTTTTTTTTCTTCATTTTTCTA
GTAAAGAAATCCAAGACTTTTGTCACATGTATACTATCTATAGCACAGAC
ACGTCGGGAGAAGAAGTGTTACAAATATGTCCAGTATGTCCCCGTGGTAG
CCTACACGTAAAGTAACCCATGCAAACAATTATTTTTTCTCGCCCCAACC
AGTCATGGCTTAACTAAGATTATATAGTATATAGTATATACTAAGATTAC
AACGGTCAAGCGTGCAGAGCGCAGCTGCCTTGTCCCTACACTACATATAT
ATATATATATATATATTATATTATATAATATATATACTGCAACAAGGCAG
GCTAATGTTCACAACGAAAATAATCCTCTGTTCTTCGATGTGAAACAAAA
AAAATGGCTTTAAAAGAAAATCATTTTTTTTAGATACTCGAAAAAATATC
TTCTTTTTTTATAACACCTCAAAAAAAGGTTTATCGCCGACGCCTCTTTT
TTTTTCCTGCCGCACGACTAATATATATATGTTAAAGAAAATACTCGGTA
ATTCAATATATACAGTATCTCCTGTACTTTGTCTAAATAGTACAGCCACG
ACCTCGAAGGCGGAAATGGCGAGGAATCTCTCCTACCTAACATATCCTTC
TGCGTCGACATTTACACACTTTTTAATGTCATACTCTTGTGCTTGTAAAC
CTTTCTTTTCCAGGGGTGATCGGCTGCCTCCAGGCTACGGAGGCCCTCAA
GGTTCTGGGAGAGTTCGGCGAGCCACTGTCGGGCAGGCTGTGCACCTTCG
ACGCTCAAGACGGCTCCTTCTATACCATTCGCCTCCGCCCCAGGTACTGG
CTGCTGTTGTTTTGTTTTTGTGACCATGATCCATATATATATATATATTT
TTTTTTTAAGTCGTATACTAAAAACAAATACAAAACAAAACGTGCCAGAC
GATTAAAAAAACTACTTCATTTCGATTTTTGTTGATATACCTAACGAATG
AAAGAATATATATATATATATATATATATATATTTATATCGCTATATATA
CACTTGTACACAAAACAATATTATATCGATAACTGAAATATATTGGAAGA
AATATATATATATATATATCGCTATATATACACTTGTACACAAAACAATA
TTATATTGATAACTGAAATATATTGGAAGAAAGTCTTATGTTACCAAAAA
AATAGGGTTGCTGTTGATGATAATGTACTACACACAGACCATTGCATGAT
ATTTCAAGCTATGCGACCACCTCCTAATAGCACGATCTGATCGTTCTGCA
AACGAAAGAAACACAACAGTATCTAGAGGTTAAGTCCAAATTTCTTCCGC
CGCTCCATGTCTATGCATTGTCCGGGCGCCGTCACAGCAGCGGCTGGCCC
CCACCGTTGAGATCACAGGCAAAGCAACGCTCTTCCTGGCCACGCTTGAC
GCAGTTTCTCGACCGCGTGGAAGCTTTCAGAAAGTTTCAGCTGCCGCGCA
CTGTCTCAGCAGTCCCGTGCCGCCGCCGCCGCCACCGCCGCTAGCGTCCT
TGACCACTTCGTAGGAGGATGTATCTCCCTAGGGCAAAGTACTTGTGTTT
TATGGACTGGAGAATCAATATAATTGACCCCATGGTTGATGCGGACTCAA
CCCAACCGTAACCGTAACCCCAACTATGCAGTATGCAGTAAACAGAAACA
TCCTTCTCCTGCGAGGAAGTAAGAGTCTGTTGGCCGTCGCCGCCGCGACA
GAGCCTGAAAATAACGCTCCATAAGTGACGCTCCACTATGAATTCTTTTA
AGGCGCGATAAAATTTCAAAATATTGTTTCCGCCGTCCCCCCCCCCCGTC
AGCAAAACAATTACACCCATTTGAAAGTTTTTCTTTTGAAAAGAGGGGAT
TTTAGTGTTAGACCTACCGCTGTTCTTCGCACGCATAATCCTCTACCCCG
CCAGGTCGAAGGGTTGCGCCGCGTGCGGGGACAACCCCACGGTGAAGACC
ATGGAAGACAGCGCGGCTTTCGCGACGAAGCACGGTCTCACCGTGGAGAG
GACAGTGCCCGAGCAGAATGATGACGTGCCGAGCGTCACTTGCCAGGTGC
ATGGAGTGTAAGAAAAATCTAGGCAACAGTTTTTTTTCCGAGCCTCCAAC
ACCCCGTGTCGAGCCTAGCGCGCGTGGTGTATGCATACATATGTAGTTGT
TGTGTGTTGGGTATATACAATAGTATGTATGTATCATAAAAAGTGTGTTG
GGTAAGTTAATAACTGTGTATCGTGTATCGTTGAAAAGCGTCCGTTATAG
TGTTGATAGTGTGTGTTTGAGTGTTGGTTGGGTACGACGAAGAATCAGTT
GCTCTCTGTATCGCACATATTCACTACATACGGTGGGTGTGGGAATAGAG
AGGCGCAACAAAAGTTGGTCCATAGAGCCTAGTGATACACGAAAAGGCAG
AACTATCTTAAGGACCACTGGCCCTGTGCCGGCGGACTCTAGGCGATGAA
CGCCACCGGCACGCACTTGCGTGACCCGATAAACTCGGAACTGGCCCGAT
GGCGGTTGGGGGTATAGATGGACGCCGTCGTGGAAATTGGAAGAAATCCC
GCGAGCAAGTAACAGATTCATCCTGGGTTTCGAGGCTGACGCGGGACGGG
ACGGCCGATCCTGTCCCGCGAGACTCAGACGGTCTAGATGCGTTCAGATT
TTTCTTTAGAAACCAAATGCTCAGGAACGAACGGGGACGCGGAAACGTTA
TGTTTCCCTGTTTAGCTGAGCACGGGCAGGTTTGGTAACCATACCGGTTG
ATCCATACTCCTCTGTATGTGGTGACCGTACAGACATACAATACAGTTCA
GTGTGTACTGTAGTGTAGTAGTAGTCTCAAGTGTGTAGTTGGTGGTAAGT
GACTTAAAAAAAGCAACCAGCCTCAGGCGTCGGAGGGACGATTTTTTCCC
TTCCTCCCAGCGCCCGCCTTTGTTCCCCAAGAAACTTACTGAGCAGATAG
GGAGTTGCACCTGTTGCATGGCGTTTAGCACTGTATTGCTGCCCGTGCAG
CGAGGCCTCGCGAGGTTTTTCCGACGAAGGTTCGAATCAAAACCTCAGCA
CAAAATACACAACAACTCGCGCGTGACCACCGTTCTCCATTGATTCGCCA
GGAGTACGCCCAAGTGGTGGCTCGGGGCCAGGATCACCTGCTGCTGGACG
TCCGGGCCCGAGTGCAGTTCGACGTTTGCGCCCTGGATGGTGCGGTGAAC
CTCCCCCTCGCCGAGCTGAAGGTATGATGCGGCACCAAGTAGCGCGATTT
TCACACCGTTCGACAGTATTCGGTTCGCAACCGAACCGTAGGATCCGGAA
CTATACCGCGCGACCGAATTCGGACCGGTGACCCGCAGTTACTCTTTTTA
CAGGCTGGATTGGAATGGTGTCAAGAATATAAGGCTCTTGCGAAAATATA
AAAAGCTTTTTTTTTGGAGGAGGAGGAGGACGGAGGGGGGATGCTTATTT
CCACGCCAGTTTGACCTTTTAAGAATCGACAAATTACCCGTAAAAAAGTG
AAGTTTTTTTTTTCCCGGCTCGGAACTTGTAAAACAACTACCTGGTAAAA
TATGTAATTCCGAGTCAAGTCAAGTCCGCTCCCCCCCCCCCCAAAAAAAA
GCAAAAAAAGCAACAACAAAAAAGCAACAACAGAAGAGGTAGCATATTTG
TGTTTGTTTTTTTAACGATTTCCCGCTCGGCGCCGCCGGACTGTCGCACC
AACCTTGTCAGACCTACATTGACAAGGTGGAAGCGTTGAGCGCCGGCCGA
TCGCTGCCGGTGTACTGCGTCTGTCGGCGAGGCATCGACTCCCGTGCGGC
GGTGGCGATCCTACGCCAAGAGGGCTTCGACCGCGTCAAGAATGTCTCGG
GGGGGCTGACCCAATGGGCGAAGGCCGTCAACCCCACGTTTCCAATGTAC
TGAGAATGTCTCGGGGGGGGCAGACCCAATGGGCGAAGGCCATCAACCCC
GAGTTTCCAATACTGATGAGAATGTCTCGGCGGGGCTGACCCAATGGGCG
AAGGCCGTCAACCCCGAGTTTCCAGTGTACTGAATCAAGGCTTGGCTCTT
TTTGCAAAATATTTCCACGTAGTATCTCTTGAACGTGTTGATTGACCCAC
GAGCAGGGTTAGCAACCTTACCGGGTTGATTTATACTCTTGCTGTAAGTG
ATGACCATACATTAATCCATACATTCACGCAACACGTGGGTACAAAATTC
ATGCATAGTAAGTTGTGTTCGTCCTCGTACGTTGCGAGACATTTTTAGTA
ACAGTACCACTCCGGATGACTTGAGCAACACAAAGTGATCCTTTTTTTTC
TTCCTCTTTTTTCTTCTTCTAGAGTGGCTACTCTTCGGGGGGAAAAGTGA
ATATAAATCTTGTTCCGGGTCTTCTCTTTATTGAATGCGTGAGGGTAAAA
CATTTTCCGAGAATATTTTCCCGGTGGTGCAGGGCCCCCTTGCCTTATCT
CTTCAATAGTATCAACAGTATCAATAGTATCAATAGTTTCAATAGTATTA
ATAGTATAGAGACGGTTGACGTATGAAATTGTAATATAAAAATGTTATCC
CCAGACCCTAGATCATTGATTGGCGTGGGAAGTCGATCATCGATTGTCGC
GGGAAGTCGATCATTGATTAGCGTGGGAAGTCGATCACTGATTGTCGCGG
GAAGTCGATCATTGATTGTCAGGGGAAGTCGATCATTGATTAGCGTGGGA
AGTCGATCATTGATTGTCGCGGGAAGTCGATCATTGATTGTCAGGGGAAG
TCGATCATTGATTGTCGCGGGAAGTCGATCATTGATTGTCGCGGGAAGTC
GATCATTGATTGTCGCGGGAAGTCGATCATTGATTGTCGCGGGAAGTCGA
TCATTGATTGGCGTGGGAAGTCGATGTCTTTCCCGTCTTAGGGTTCATCC
TGCGGTGTCCGCGCGCCCCAACTAGGGTAACGATTTCAGGGCCACGCTGT
GGACTTGTAGGCCACCGAAACGCAGACCTAATTTATGCCGATAAGATTTC
ATGCCCTTCGTCGCTGAAAGAGACGATAACCCGAATGTTGATTACAATGT
TATCTAGTACTCCAGTAGTGTAGTATCAATAGGAGGTTAGGATGACCTTC
TCGAGACCATGAGTATCGGCGACCACAGTCTTTCTTTTTGAAAGAGGAGT
TGCATATTTCTTTTTTATTTTCTCTTTTTTTATATACATGAATGTTTTAG
AGCTACTCAAGGATATTTTATGTAGTGAGTTACGTTGTGTGTGTATCGGG
GAGACAATAATGGGATTATAGTATATATACATAACGTGCTCGAGATAGGA
GCACTGGTACACGGTAATATCCAAGTTAATGATGTACGAAGTATGTATCT
TTCTTCGAGAGCCGCATATGTGAACTAGGGTTCTCTCCCCAACGAGGCGG
GTTTTTTCTTGGAAGACTGGGCAAAGATATTTTTTTTGTCGAGAGCCGCA
ATCGGGTAATAAGAGGGGCTTTCCCAAGGAGG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig90:759846..782177+

>mRNA_A-nodosum_M_contig90.49.1 ID=mRNA_A-nodosum_M_contig90.49.1|Name=mRNA_A-nodosum_M_contig90.49.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1425bp|location=Sequence derived from alignment at A-nodosum_M_contig90:759846..782177+ (Ascophyllum nodosum dioecious)
ATGTCTTCCCTCCCGCAGGCGAACATCAAAACCATGCTCGAGCTCGAACT
CGAAAACGAAGCCCTACGCAGGCGGGTAGCCGACCTCGAGAAGGAAAAAA
ATGCGTCTCCAACGACAAGCAACGGGGATGCAGGGTTCGCCGCCGTCGAA
AGCTCCGCGCCGAATGGGACCGTTGAGACCGGTCCTGCAACTCCGAATGG
AGCCAATTGCGGATCCTGCCGAGAAATTTCCCGGGAATCTCTGGGAAAGG
CGGGCATGACCGCCGCTGAGATTGCCAGGTACTCGCGGCATCTGCTGGTG
CCCGCGGTTGGCGTCGAGGGCCAAAGAAACATGCTCGGCAAGACCTGTCT
GGTGATCGGCGCGGGAGGACTCGCGTCCGCCTTGCTGCCTTACCTTGCGG
GCGCAGGTGTAGGACACATCAAGATCATCGATTTCGACAAGATCGAGACC
AGTAACCTCCACCGACAGGTGCTGTACAGGGAGTCCCAGGCGGGGAAGAG
CAAGGCTCTTTGCGCGGCGGAGGCCGTCAGGGCGATCAACCCAAACGTCA
GGTGCAGCGCGATAGAGGCGGCTTTTACCCACGACAACGCCCTAAGTGTG
GTGGCCGACTGTGACCTCGTGGTCGATGCTAGCGACAATCCTCGTACTCG
ATACCTCGTCAACGACACCTGCGTGCTCTCTGGAAAACCCCTGGTCTTCG
GCAGCGCCCTGGGCATGGAAGGACAGCTGTCGGTCCTCCACTTTCAAGGG
GGACCGTGCTACCGATGCATCTTCCCGGCGCCCCTTGCTGCCGAGGCCAG
CAGGAGGTGCAGCGATAATGGCGTGCTCGGTACTGTCCCCGGGGTGATCG
GCTGCCTCCAGGCTACGGAGGCCCTCAAGGTTCTGGGAGAGTTCGGCGAG
CCACTGTCGGGCAGGCTGTGCACCTTCGACGCTCAAGACGGCTCCTTCTA
TACCATTCGCCTCCGCCCCAGGTCGAAGGGTTGCGCCGCGTGCGGGGACA
ACCCCACGGTGAAGACCATGGAAGACAGCGCGGCTTTCGCGACGAAGCAC
GGTCTCACCGTGGAGAGGACAGTGCCCGAGCAGAATGATGACGTGCCGAG
CGTCACTTGCCAGGAGTACGCCCAAGTGGTGGCTCGGGGCCAGGATCACC
TGCTGCTGGACGTCCGGGCCCGAGTGCAGTTCGACGTTTGCGCCCTGGAT
GGTGCGGTGAACCTCCCCCTCGCCGAGCTGAAGACCTACATTGACAAGGT
GGAAGCGTTGAGCGCCGGCCGATCGCTGCCGGTGTACTGCGTCTGTCGGC
GAGGCATCGACTCCCGTGCGGCGGTGGCGATCCTACGCCAAGAGGGCTTC
GACCGCGTCAAGAATGTCTCGGGGGGGCTGACCCAATGGGCGAAGGCCGT
CAACCCCACGTTTCCAATGTACTGA
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