mRNA_A-nodosum_M_contig97.15.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig97.15.1
Unique NamemRNA_A-nodosum_M_contig97.15.1
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_contig97.15.1 vs. uniprot
Match: A0A6H5K350_9PHAE (Letm1 RBD domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K350_9PHAE)

HSP 1 Score: 370 bits (951), Expect = 2.090e-103
Identity = 311/859 (36.20%), Postives = 364/859 (42.37%), Query Frame = 2 
Query:  584 RRFASTMPEQQDERKSDSSNSNSRRIGRAGQRVFEESFQGQLKPSDKEMELFNDRSGSTQSLKDLYDLQEEYRLYQTARKDSKAL-------------KMEETPMATTHRKNVIIKLEKIPETLRGTTKIAASATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLA-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------AFLIIPFMDFLLPVAVKLFPDMLPSTFQ--------------------------DRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRAEDEATSAELTEFIEKAKMGEITNQDIPKFAKMFK------------------------DELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHL-------------SSKRSVPISLLVMSRPFTLEAPNPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENK 1999
            R FAS+ P + D  K++SS+SN R+  +  QR   ES    LKPSDKE+E   D S          DLQEEY LY+ ARKD K               K+E++ MA T RK  +  ++KIP      TK    A V FLWE+  NP+VLKD L  A++HL EF RHYWLG KLLW +IKTA++I+ RILRG  MTRRERKQLLRT SDI RMVPLA                                                                                                                                                                                                                                                                                                                       AF++IPFM+FLLPVA+K+FP+MLPSTFQ                          D LKEE+ LK+ELRLR+A                    E EAT+ ELTEFIEKAKMGEITNQDIPKFAKMFK                        DELT++NISRSGLVNMCRYMG+  FG++NFLR+ LRSKLR IT+DDQRILWEGVSSL+KQE+QEACRERGMRATGLTKQGY RQLSQWL L             S+K+SVPISLL+MSR FTL+AP+P++A+AQ+ISAMD  VVTEVMIEAAS  EQ TPEYR RKLESLTRQN+LIE EN+
Sbjct:  163 RSFASSTPTKPDF-KAESSDSNKRKGLQPRQR---ESLGDLLKPSDKEIEPVKDESAQR-----FKDLQEEYTLYEAARKDPKQASEQVCCLFPRGLSKVEQSQMALT-RKKAVAMVKKIPVMTWNATK----AIVLFLWEIIKNPIVLKDKLGVAQYHLKEFGRHYWLGLKLLWGDIKTAKKILRRILRGFPMTRRERKQLLRTVSDIFRMVPLAVSLVGIELFFVVPDVLPKSNKESMKAAKIILACSKRTSNAAVRAELGIQSLRSGRDARKLTWQCRMCGMGEERLPRIVWEAKWANKKRGRQPTEWVKVVEDVWRGLDIDEDETLETEGLQGFTEKIYVACGEREEQNLRKETKDKEGLEVYGMLKEGIGFKDYLHGPMDAETKLKVEFRTGDIGLRERRRRHRTVDEEDDEFKCDCSFECEDRVHVVAECPLYKKESEVYVTELGKIDGTYREMFEACKREERTVAVLGHRRWVEKAGRDIVRIDRLGKTFLSHLWQSRKERLTIGDRSCGNNSPSSRGRVAFVLIPFMEFLLPVALKVFPNMLPSTFQVKCIRDIACKADLRIFAMACQSTVLQDNLKEEEKLKKELRLRMAAEDG---------------EESEATTGELTEFIEKAKMGEITNQDIPKFAKMFKVGRQYALTHPSVPTLLVLLVGFAQDELTMDNISRSGLVNMCRYMGVPPFGNDNFLRYCLRSKLRAITQDDQRILWEGVSSLTKQELQEACRERGMRATGLTKQGYVRQLSQWLDLRQLSAYCFVLPLCSTKKSVPISLLIMSRAFTLQAPDPAKALAQSISAMDDDVVTEVMIEAASSEEQKTPEYRTRKLESLTRQNELIEEENR 992
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: W7TVQ8_9STRA (Mitochondrial proton/calcium exchanger protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TVQ8_9STRA)

HSP 1 Score: 360 bits (925), Expect = 1.900e-101
Identity = 195/370 (52.70%), Postives = 270/370 (72.97%), Query Frame = 2 
Query:  893 LEKIPETLRGTTKIAASATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRAEDEA----TSAELTEFIEKAKMG-EITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAP--NPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKL 1981
            L+ +P  +   T  A    + F+ E   NP  L+D     K  ++E   HY LGSK+LW++IKT+  IV R+L G+ ++RRER+QL RT +D+ R+VP A F+I+PFM+ LLP A+K+FP+MLPSTFQD LK+E+NLKREL++RLA AGFL++ +  +A KKK + E E      +A LTEF+EKA+ G  I+  DI +FA++FKDELTL+N+SR  L  MC YMG+  +GS+NFLRFQLR+KLR +  DDQRI+WEGV +++K E++EACRERGMRA GLT+ GY RQL QWL LS  + VPISLL++SR FTL++   +P+ A+A +IS++D+ VV EV+++ A+  E   P+ RARKLES+ RQN+L
Sbjct:  234 LQILPAAIFSFTVTAGRWMITFVVETVKNPSSLRDRWLHLKKVVVEEFHHYKLGSKVLWSDIKTSSSIVSRVLHGNTLSRRERRQLTRTTADLFRLVPFAFFVIVPFMELLLPFALKIFPNMLPSTFQDNLKKEENLKRELKVRLALAGFLKDTLGEIASKKKGQGEGEGKESPNAALLTEFVEKARAGTHISTNDINRFARLFKDELTLDNMSRPQLAGMCVYMGLRPYGSDNFLRFQLRAKLRNLKEDDQRIVWEGVDNMNKAELREACRERGMRAYGLTQLGYRRQLQQWLDLSINKEVPISLLILSRAFTLDSKFTDPAAAVADSISSLDEDVVNEVLLDVATRSELQNPDLRARKLESIERQNEL 603
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A7R9UER3_9STRA (Hypothetical protein (Fragment) n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9UER3_9STRA)

HSP 1 Score: 345 bits (885), Expect = 1.410e-99
Identity = 200/419 (47.73%), Postives = 292/419 (69.69%), Query Frame = 2 
Query:  818 RKDSKALKMEET--PMATTHRKNVIIK-----LEKIPETLRGTTKIAASATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRA----EDEATSAELTEFIEKAKMGEITNQD-IPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAP--NPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENKSLEKEATARID 2032
            RK  K+L  +E+  PM +T   +VI K     L K+P T+   +  A   T+  +W    NP  L+D +  +  H+ E A HYW+G+KLLW +I+TA  I+ R+LRG  +TRRER+QLLRT +DI R+VPL+ F+I+PFM+FLLP+A++ FP+MLPSTFQD LK+E+ ++RE++ R+A AGF  + +  +A KKKK      E+++ ++E ++F+EKA+ G   + D I + A++F+DELTL+N+ RS LV++C+YM +  +GS+ FLR+QLR+KL  I  DDQRILWEGV SLS++E++EA  ERGMR+ GL +QGY RQL  WL LS ++SVPISLL+MSR F LE    N +  I +AI ++D +V+ EV+I+AAS  E  T E R RK++++  Q KLIE E +  ++E + R+D
Sbjct:   63 RKPPKSLVKKESSAPMPSTTLTHVIGKWVGDFLWKLPGTVLRASFDATVWTLTVIW----NPRKLRDVIVHSWQHIKEGAEHYWVGTKLLWRDIQTATVILRRMLRGSRLTRRERRQLLRTVTDIFRLVPLSFFIIVPFMEFLLPIALRFFPNMLPSTFQDNLKKEEEMRREMKSRIALAGFFADALAEMAKKKKKSDPDADEEDSLASECSKFVEKARYGAHFDADEITRIARLFRDELTLDNLPRSQLVSLCQYMNLRPYGSDAFLRWQLRTKLADIREDDQRILWEGVESLSREELREASAERGMRSHGLLRQGYERQLRNWLELSMQKSVPISLLIMSRAFALENQDQNATTLIGEAIGSLDDTVLNEVIIDAASEREANTSEIRQRKIDAILSQQKLIEKEREDQQREESLRLD 477
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A5D6YNX5_9STRA (Uncharacterized protein n=1 Tax=Pythium brassicum TaxID=1485010 RepID=A0A5D6YNX5_9STRA)

HSP 1 Score: 325 bits (833), Expect = 4.180e-91
Identity = 186/376 (49.47%), Postives = 267/376 (71.01%), Query Frame = 2 
Query:  893 LEKIPE-TLRGTTKIAASATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRA----EDEATSAELTEFIEKAKMGE-ITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEA-PNPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENK 1999
            L+++P  TL G     A A VR +  V T+P  +K   A+ K H+    +HYWLG+KLL+ ++ T+ RI+ R++RG+ ++RRERKQL RT +D+LR+VP + FLI+PFM+ LLPVA+KLFP+MLPST++D  + E++LKR+L+LR+A A FLQE V  +    +       E +AT+ E+ +F+E+A+ GE +++++  K A +F DEL L+NISR  LV MCRYMG+  +G++N LRFQLR+K+R + +DDQ I+WEG+ SL K+E+Q AC ERGMRATGLTK GY RQ+ QWL LS  ++VP SLL+MSR   + A  NP  A+A ++S+MD+ VVTEV + AAS  +++  E R  KLES+  QN++I  E K
Sbjct:  185 LKRVPRLTLDG-----AKALVRGVALVFTDPAAVKAWWAKTKEHIKAELKHYWLGTKLLYADVSTSTRILRRLVRGNALSRRERKQLQRTVADLLRLVPFSFFLIVPFMELLLPVALKLFPNMLPSTYKDSFQREEDLKRQLQLRVALAEFLQETVKEVMQDTRDTEGVTEERKATAREVMDFVERAQRGEPLSSEETLKVATLFNDELMLDNISRPQLVAMCRYMGVQHYGNDNLLRFQLRNKVRQLKKDDQDIIWEGLDSLDKEELQMACMERGMRATGLTKAGYVRQMKQWLDLSINKNVPASLLIMSRALNITAMDNPEAALATSMSSMDEEVVTEVALAAASSSKESL-EMRELKLESIRYQNEMIADEEK 554
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A833S8I6_PHYIN (Mitochondrial proton/calcium exchanger protein n=1 Tax=Phytophthora infestans TaxID=4787 RepID=A0A833S8I6_PHYIN)

HSP 1 Score: 320 bits (821), Expect = 8.280e-90
Identity = 177/379 (46.70%), Postives = 266/379 (70.18%), Query Frame = 2 
Query:  884 IIKLEKIPE-TLRGTTKIAASATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRA----EDEATSAELTEFIEKAKMGE-ITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAP-NPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENK 1999
            ++ L++ P+ T++G   +A +  V F     T+P  +K+ L + K  +     HYWLG+KLL+ ++ T+ RI+ R+L+G+ ++RRERKQL RT +D+LR+VP A F+I+PFM+ LLPVA+K+FP+MLPST++D  + E+++KR+L+LR+A AGFLQ+ V  +            E +AT++E+  F+E+A+ GE +T+++  + AK+F DEL L+NISR  LV MCR+MG+  +G++N LRFQLR+++R + +DDQ I+WEG+ SL K+E+Q AC ERGMRATGLTK GY RQ+ QWL LS  ++VP SLL+MSR   + A  N   A+A ++S+MD+ VVTEV + A +  E  T E R  KL+S+  QN++I  E K
Sbjct:  145 VLLLKRTPQLTMQGVKAVAHALQVLF-----TDPAAVKEWLGKMKGKVKHELDHYWLGTKLLYADVSTSTRIIRRLLKGNALSRRERKQLQRTVADLLRLVPFAFFVIVPFMELLLPVALKVFPNMLPSTYKDSFQREEDMKRQLQLRVALAGFLQDTVKEIMQDTHDTEGVSEERKATASEVVNFVERAQRGEPLTSEETLQVAKLFNDELMLDNISRPQLVGMCRFMGVQHYGNDNLLRFQLRNRIRQLKKDDQDIIWEGLDSLDKEELQMACMERGMRATGLTKAGYVRQMRQWLDLSINKNVPASLLIMSRALNITAADNLEEALATSMSSMDEEVVTEVALAAKASTEGETAEMRKLKLDSIRYQNEMIADEEK 518
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A7S2R3U2_9STRA (Hypothetical protein (Fragment) n=1 Tax=Eucampia antarctica TaxID=49252 RepID=A0A7S2R3U2_9STRA)

HSP 1 Score: 316 bits (810), Expect = 8.780e-90
Identity = 201/445 (45.17%), Postives = 276/445 (62.02%), Query Frame = 2 
Query:  974 TNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRAED-------------------EATSAELTEFIEKAKMGEITNQD-IPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTL--EAPNPSR---------AIAQAISAMDKSVVTEVMIEAASGVEQA-TPEYRARKLESLTRQNKLIEMENKSLE----KEATARIDKKRAEEACKVEETLKAVKRID---EANVQAKRGTAQDGVTMPASEKQFVTAFEREE 2191
            T+P   K  LAE      + A HYW+GSKLL  +++TAR I+ R L G+ ++RRERKQLLRT +D+ R+VP++ F+++PF++F LP A+KLFP+MLPSTFQD LK E+N+K+EL  RLA A F QE +  LA   ++R E                    + T+A   EFI+KA+ GE+   D I K++  FKDELTL+N+ R  L+NMC+YM I  +GS   LRFQLR K+R +  DDQRILWEG+ SL+K E++EAC+ERGMR+TGL K  Y R L QWL LS  ++VPISLL+MSR F L  E   PSR         ++A AIS +DK VV EV++E A+  E++ +PE  A KLE L  QN+LI+ ENK  +    K+  A ++K   E+         A K  D   EA ++    + +  +  P  E +  T F++EE
Sbjct:  118 THPREFKLKLAELTDAAKKEAHHYWMGSKLLAADLRTARHILGRTLEGNSLSRRERKQLLRTVTDLFRVVPMSIFVLVPFLEFALPFALKLFPNMLPSTFQDSLKAEENMKKELATRLAMAEFFQETLQNLAKDHRRRYETKITKAVEGECAAESVNIKRQETAASFLEFIDKARNGEMLPPDVIIKYSSYFKDELTLDNMPRMQLINMCKYMNILPYGSEALLRFQLRHKIRILQEDDQRILWEGIDSLTKMELREACQERGMRSTGLNKDSYTRALQQWLDLSVNQNVPISLLIMSRTFFLQKEMSGPSRVQDDSKSLTSLADAISGLDKDVVNEVVLEVATSKEKSFSPEVLAIKLEVLETQNELIQEENKMRDAVAKKKKAAEMEKMEREKENSNSMIADATKGNDLKLEAGIEINESSKEPMMQTPVMEDK--TIFDKEE 560
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A662WU16_9STRA (Mitochondrial proton/calcium exchanger protein n=1 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662WU16_9STRA)

HSP 1 Score: 320 bits (820), Expect = 2.280e-89
Identity = 184/418 (44.02%), Postives = 279/418 (66.75%), Query Frame = 2 
Query:  893 LEKIPETLRGTTKIAASATVRFLWEVT-------TNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRA----EDEATSAELTEFIEKAKMGE-ITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAP-NPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENKSLEK--EATARIDKKRAEEACKVEETLKAVKRIDEA 2101
            L K+PE      K A   TV  +  V        ++P  +K  L + K    E   HYWLG+KLL+ ++ T+ RI+ R+L+G+ ++RRERKQL RT +D+LR+VP A F+++PFM+ LLPVA+K+FP+MLPST++D  + E+++KR+L+LR+A AGFLQ+ V  +    +       E +AT++E+  F+E+A+ GE +T+++  + A +F DEL L+NISR  LV MCR+MG+  +G++N LRFQLR+++R + +DDQ I+WEG+ SL K+E+Q AC ERGMRATGLTK GY RQ+ QWL LS  ++VP SLL+MSR   + A  N   A+A ++S+MD+ VVTEV + A +  E+ TPE R  KL+S+  QN++I  E K  ++  +  +   KK   +A  ++ TL+    +++A
Sbjct:  143 LPKVPERAVTLLKRAPQMTVNGMKAVAHALQVLVSDPAAVKAWLIKMKGKAKEELDHYWLGTKLLYADVSTSTRIIRRLLKGNALSRRERKQLQRTVADLLRLVPFAFFVVVPFMELLLPVALKVFPNMLPSTYKDSFQREEDMKRQLQLRVALAGFLQDTVKEIMQDTRDTEGVSEERKATASEVMSFVERAQRGEPLTSEETLQVALLFNDELMLDNISRPQLVGMCRFMGVQHYGNDNLLRFQLRNRIRQLKKDDQDIIWEGLDSLDKEELQMACMERGMRATGLTKAGYVRQMRQWLDLSINKNVPASLLIMSRALNITATDNLEEALATSMSSMDEEVVTEVALAANASTEKETPEMRKLKLDSIRYQNEMIADEEKFRDEAQKKDSEAQKKAESDAAAIQATLEPQTEVEQA 560
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: K3WUC8_GLOUD (Mitochondrial proton/calcium exchanger protein n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3WUC8_GLOUD)

HSP 1 Score: 318 bits (815), Expect = 7.460e-89
Identity = 176/360 (48.89%), Postives = 259/360 (71.94%), Query Frame = 2 
Query:  938 ASATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRA----EDEATSAELTEFIEKAKMGE-ITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEA-PNPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENK 1999
            A A VR +  +  +P  +K   A+ K  +    +HYWLG+KLL+ ++ T+ RI+ R++RG+ ++RRERKQL RT +D+LR+VP + FLI+PFM+ LLPVA+K+FP+MLPST++D  + E+++KR+L+LR++ A FLQE V  +    +       E +AT+ E+ +F+E+A+ GE +T+++  K A +F DEL L+NISR  LV MCRYMG+  +G++NFLRFQLR+K+R + +DDQ I+WEG+ SL K+E+Q+AC ERGMRATGLTK GY RQ+ QWL LS  ++VP SLL+MSR   + A  +P  A+A ++S+MD+ VVTEV + AAS  +++  E R  KLES+  QN++I  E K
Sbjct:  181 AKALVRGIALIYKDPAAVKAWWAKMKDKVKAELKHYWLGTKLLYADVSTSTRILRRLVRGNALSRRERKQLQRTVADLLRLVPFSFFLIVPFMELLLPVALKIFPNMLPSTYKDSFQREEDMKRQLQLRVSLAEFLQETVKEVMQDTRDTEGVTEERKATAREVMDFVERAQRGEPLTSEETLKVATLFNDELMLDNISRPQLVAMCRYMGVQHYGNDNFLRFQLRNKVRQLKKDDQDIIWEGLDSLDKEELQQACMERGMRATGLTKAGYVRQMKQWLDLSINKNVPASLLIMSRALNITAMDSPEAALATSMSSMDEEVVTEVALAAASSSKESL-EMRELKLESIRYQNEMIADEEK 539
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A0P1AVJ4_PLAHL (Mitochondrial proton/calcium exchanger protein n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1AVJ4_PLAHL)

HSP 1 Score: 317 bits (813), Expect = 1.000e-88
Identity = 179/382 (46.86%), Postives = 265/382 (69.37%), Query Frame = 2 
Query:  893 LEKIPET----LRGTTKIAAS---ATVRFLWEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRA----EDEATSAELTEFIEKAKMGE-ITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAP-NPSRAIAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENK 1999
            L K+PE     L+ T ++A     A  R L  + T+P  +K+ L + K  +     HYWLG+KLL+ ++ T+ RI+ R+L+G+ ++RRERKQL RT +D+LR+VP A F+++PFM+ LLPVA+K+FP+MLPST++D  + E+++KR+L+LR+A AGFLQ+ V  +    +       E +AT++E+  FIE+A+ GE +T+ +  + A++F DEL L+NISR  LV MCR+MG+  +G++N LRFQLR+++R + +DDQ I+WEG+ SL K+E+Q AC ERGMRATGLTK GY RQ+ QWL LS  ++VP SLL+MSR   + A  N  +A+A ++S+MD  VVTEV + A +  E  T E R  KL+S+  QN++I  E K
Sbjct:  141 LPKVPERAVSLLKRTPQLAVQGVKAVARALQILFTDPAAVKEWLVKMKEKVKHEVDHYWLGTKLLYADVSTSTRILRRLLKGNALSRRERKQLQRTVADLLRLVPFAFFVVVPFMELLLPVALKVFPNMLPSTYKDSYQREEDMKRQLQLRVALAGFLQDTVKEIMQDTRDTEGVSEERKATASEVMNFIERAQRGEPLTSDETLQVAQLFNDELMLDNISRPQLVGMCRFMGVQHYGNDNLLRFQLRNRIRQLKKDDQDIIWEGLDSLDKEELQMACMERGMRATGLTKAGYVRQMRQWLDLSINKNVPASLLIMSRALNITATDNLEQALATSMSSMDDEVVTEVALAAKAYAEGETAEMRKLKLDSIRYQNEMIADEEK 522
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BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Match: A0A7S3PXN2_9STRA (Mitochondrial proton/calcium exchanger protein n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3PXN2_9STRA)

HSP 1 Score: 322 bits (826), Expect = 1.180e-88
Identity = 190/394 (48.22%), Postives = 261/394 (66.24%), Query Frame = 2 
Query:  935 AASATVRFL-------WEVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILRGHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLPSTFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRAE-------------------DEATSAELTEFIEKAKMGE-ITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISGFGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRATGLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAPNPSRA-------------IAQAISAMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMEN 1996
            A S  V FL       W   T+P   KD L+E K    + A HY++G+KLL  +++TAR+++ R L+G  +TRRERKQLLRT +D+ R+VP++ F++IPFM+F LP A+KLFP+MLPSTFQD LK E+N+KREL+ RLA A F QE +  LA ++K+RAE                    E T+A   EFIEKA+ GE +  + + ++AK F+DELTL+N+ R  L+NMC+YM +  +G++N LRFQLR K+RT+  DDQRILWEG++SL+K E++EAC+ERGMR+TGL+K+ Y R L QW+ LS  R+VPISLL+MSR F L+    S               +A AIS  DK VV EV++E+ +  +Q  PE    KLE L +QN+LI+ EN
Sbjct:  271 AISTLVSFLMKIPGVTWFYLTHPKEFKDKLSELKEAAKKEAHHYYMGTKLLIADLRTARQMLGRTLQGSSLTRRERKQLLRTVTDVFRLVPMSIFVLIPFMEFALPFALKLFPNMLPSTFQDSLKAEENMKRELKSRLAMAEFFQETLHGLAKEQKQRAELKKQKLVDAGSSDLESTENREETAASFLEFIEKARNGEFLPPKVVIRYAKYFQDELTLDNMHRMQLINMCKYMALPPYGNDNLLRFQLRHKIRTLLEDDQRILWEGITSLTKMELREACQERGMRSTGLSKESYKRALQQWIDLSVNRNVPISLLIMSRTFFLQEEITSTTKRADGDTSKSVTGLADAISGFDKEVVNEVILESVTK-DQNDPELTKLKLEVLEQQNELIQEEN 663
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig97.15.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5K350_9PHAE2.090e-10336.20Letm1 RBD domain-containing protein n=1 Tax=Ectoca... [more]
W7TVQ8_9STRA1.900e-10152.70Mitochondrial proton/calcium exchanger protein n=2... [more]
A0A7R9UER3_9STRA1.410e-9947.73Hypothetical protein (Fragment) n=1 Tax=Pinguiococ... [more]
A0A5D6YNX5_9STRA4.180e-9149.47Uncharacterized protein n=1 Tax=Pythium brassicum ... [more]
A0A833S8I6_PHYIN8.280e-9046.70Mitochondrial proton/calcium exchanger protein n=1... [more]
A0A7S2R3U2_9STRA8.780e-9045.17Hypothetical protein (Fragment) n=1 Tax=Eucampia a... [more]
A0A662WU16_9STRA2.280e-8944.02Mitochondrial proton/calcium exchanger protein n=1... [more]
K3WUC8_GLOUD7.460e-8948.89Mitochondrial proton/calcium exchanger protein n=1... [more]
A0A0P1AVJ4_PLAHL1.000e-8846.86Mitochondrial proton/calcium exchanger protein n=1... [more]
A0A7S3PXN2_9STRA1.180e-8848.22Mitochondrial proton/calcium exchanger protein n=1... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig97contigA-nodosum_M_contig97:247518..280586 +
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 ortholog115417.EPrPW00000023714
PFAMsEF-hand_8,LETM1
Model size4434
Max annot lvl121069|Pythiales
Hectar predicted targeting categorymitochondrion
Exons14
Evalue2.56e-96
EggNOG OGsKOG1043@1|root,KOG1043@2759|Eukaryota,1MEJD@121069|Pythiales
DescriptionLETM1 and EF-hand domain-containing protein 1. Source PGD
Cds size2199
COG categoryT
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig97.15.1prot_A-nodosum_M_contig97.15.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig97 247582..278415 +


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

Feature NameUnique NameSpeciesTypePosition
1680870490.2228465-UTR-A-nodosum_M_contig97:247517..2475811680870490.2228465-UTR-A-nodosum_M_contig97:247517..247581Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig97 247518..247581 +
1680870490.633607-UTR-A-nodosum_M_contig97:278415..2805861680870490.633607-UTR-A-nodosum_M_contig97:278415..280586Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig97 278416..280586 +


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

Feature NameUnique NameSpeciesTypePosition
1680870490.3578694-CDS-A-nodosum_M_contig97:247581..2482381680870490.3578694-CDS-A-nodosum_M_contig97:247581..248238Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 247582..248238 +
1680870490.4427989-CDS-A-nodosum_M_contig97:271601..2717211680870490.4427989-CDS-A-nodosum_M_contig97:271601..271721Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 271602..271721 +
1680870490.457018-CDS-A-nodosum_M_contig97:272223..2724121680870490.457018-CDS-A-nodosum_M_contig97:272223..272412Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 272224..272412 +
1680870490.4730182-CDS-A-nodosum_M_contig97:272593..2727551680870490.4730182-CDS-A-nodosum_M_contig97:272593..272755Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 272594..272755 +
1680870490.4877136-CDS-A-nodosum_M_contig97:273151..2732351680870490.4877136-CDS-A-nodosum_M_contig97:273151..273235Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 273152..273235 +
1680870490.5019495-CDS-A-nodosum_M_contig97:274328..2744381680870490.5019495-CDS-A-nodosum_M_contig97:274328..274438Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 274329..274438 +
1680870490.515674-CDS-A-nodosum_M_contig97:274729..2748351680870490.515674-CDS-A-nodosum_M_contig97:274729..274835Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 274730..274835 +
1680870490.534944-CDS-A-nodosum_M_contig97:275193..2753251680870490.534944-CDS-A-nodosum_M_contig97:275193..275325Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 275194..275325 +
1680870490.5515516-CDS-A-nodosum_M_contig97:275894..2759511680870490.5515516-CDS-A-nodosum_M_contig97:275894..275951Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 275895..275951 +
1680870490.564661-CDS-A-nodosum_M_contig97:276642..2767281680870490.564661-CDS-A-nodosum_M_contig97:276642..276728Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 276643..276728 +
1680870490.5772312-CDS-A-nodosum_M_contig97:277146..2772701680870490.5772312-CDS-A-nodosum_M_contig97:277146..277270Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 277147..277270 +
1680870490.5922887-CDS-A-nodosum_M_contig97:277563..2776831680870490.5922887-CDS-A-nodosum_M_contig97:277563..277683Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 277564..277683 +
1680870490.6086226-CDS-A-nodosum_M_contig97:277914..2780011680870490.6086226-CDS-A-nodosum_M_contig97:277914..278001Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 277915..278001 +
1680870490.6198459-CDS-A-nodosum_M_contig97:278250..2784151680870490.6198459-CDS-A-nodosum_M_contig97:278250..278415Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig97 278251..278415 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig97.15.1

>prot_A-nodosum_M_contig97.15.1 ID=prot_A-nodosum_M_contig97.15.1|Name=mRNA_A-nodosum_M_contig97.15.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=733bp
MKFLGLFPYSGTVRATRCWRKLSQGGGTAIVIVHRTVEYRRIWQCSSRLS
CSTGTCAHRYNGTGVTAQSRVLREKHDRATSSVEEREVSSAVPIATVRSN
CNNTCTFSCGCFHRHKTPFLPSSTGKSTLIMCTSNKASYSQSWGEIQKRS
DPSTTNTVRWVQEGKWAGNWHSQRRFASTMPEQQDERKSDSSNSNSRRIG
RAGQRVFEESFQGQLKPSDKEMELFNDRSGSTQSLKDLYDLQEEYRLYQT
ARKDSKALKMEETPMATTHRKNVIIKLEKIPETLRGTTKIAASATVRFLW
EVTTNPLVLKDHLAEAKHHLIEFARHYWLGSKLLWNEIKTARRIVLRILR
GHHMTRRERKQLLRTASDILRMVPLAAFLIIPFMDFLLPVAVKLFPDMLP
STFQDRLKEEQNLKRELRLRLAYAGFLQEKVMALAIKKKKRAEDEATSAE
LTEFIEKAKMGEITNQDIPKFAKMFKDELTLENISRSGLVNMCRYMGISG
FGSNNFLRFQLRSKLRTITRDDQRILWEGVSSLSKQEIQEACRERGMRAT
GLTKQGYARQLSQWLHLSSKRSVPISLLVMSRPFTLEAPNPSRAIAQAIS
AMDKSVVTEVMIEAASGVEQATPEYRARKLESLTRQNKLIEMENKSLEKE
ATARIDKKRAEEACKVEETLKAVKRIDEANVQAKRGTAQDGVTMPASEKQ
FVTAFEREEKRANGPFLSGADILGDRVVKKNR*
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mRNA from alignment at A-nodosum_M_contig97:247518..280586+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig97.15.1 ID=mRNA_A-nodosum_M_contig97.15.1|Name=mRNA_A-nodosum_M_contig97.15.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=33069bp|location=Sequence derived from alignment at A-nodosum_M_contig97:247518..280586+ (Ascophyllum nodosum dioecious)
AACAGAGTGCCGGCTTGTTCAACATTgcggctccGAACGTAACCCGGTGG
CAGTGGTGTCACGTATGAAGTTCCTTGGATTGTTTCCGTATTCGGGAACT
GTGCGCGCCACAAGATGCTGGAGAAAGTTGTCCCAAGGCGGCGGGACGGC
TATCGTTATTGTACATCGTACTGTGGAATACCGTCGCATCTGGCAATGTA
GCTCTAGACTCTCCTGTAGCACCGGCACTTGTGCTCATCGTTACAATGGA
ACAGGTGTGACAGCACAGAGTCGGGTATTAAGAGAGAAACACGACCGGGC
GACTTCGAGTGTTGAAGAGCGAGAGGTCTCGTCGGCAGTGCCTATCGCGA
CCGTAAGAAGCAACTGCAACAACACGTGCACTTTCTCCTGTGGTTGCTTC
CACCGACATAAAACACCCTTTCTACCATCATCTACTGGTAAAAGCACACT
GATTATGTGCACAAGCAACAAGGCATCGTATTCTCAAAGTTGGGGGGAAA
TACAAAAAAGGTCTGATCCATCAACAACAAATACTGTACGTTGGGTACAA
GAAGGAAAGTGGGCCGGAAATTGGCATTCGCAGCGTAGATTCGCCTCGAC
GATGCCTGAGCAACAGGACGAACGGAAATCGGATTCCTCAAATTCCAACA
GCAGAAGGATCGGGCGGGCGGGCCAGAGGGTGTTTGAGGAATCCTTCCAA
GGCCAACTCAAGCCGAGCGATGTGAGCAACTCATGTGCTCATCTAATGAA
AGTCTTATGGTTAAAGTTGAAGATGGGGTGCTGCAATATTATGTATGATG
CACTAGAAGTATTGATAGCTCTATAATAATGGTATTATTATCATAGTGCT
ACTACTGTGCTTTTTGTGTCTCTATTACAAGTAGGAGTACTACTACTGTA
GCGCTATTATTATTTACTCTGTATTCTAATCTGAGGTGATGAGGTGATGA
GGTTATAGGTGATGCCGAGCGAGAAAGGAGAAAGTCATACATGCTTTACA
TAAAAATCGAAAGCGCAACATCCATACAGTATCGTGTTGAAGGGAACGAA
GCAGAACGAATCGATGTGGCGTAAAATAAATGGACGCCGCCGCGGAACTC
GGGAGGAATCCCGTAAGCACCAGATTTGGCCTGAGTATAGAGACTGACGC
GGGACAGGACTGCCGAATTCGTCTCGCGAGACCAAATTCTCAGGCGCGAA
CGCGGACAGGGAAATATTCATTTTTTCTTTTCAGCTGACCACGAGCAATA
TTGGCATTACTTTTGCTATATGTGTTACCATATTTACCCAACAGCAACCT
GGTGAGGTATCCCGAAAAACAACTGACGAACAAAGCGACGGCACTCCCGC
GCACGCTACTAATAATACTACAGTACTACAGTACTACAGTACTATATAGT
AGTACCAGTATATTATTTTCCAAAAGCGGCTTCTTGTGTTTTGCACGTGG
ATTTCAGCAGGATACAAAAATGGAGTAGTTGTTTAGCAAAGCTCTGTTCA
CCACATGGCCCTGAAAGGGTTGACAAAAAATGTGTTTCCTTTCATCTACC
TGGTATATCATACTATTATACACGTGCGTTACGCATAGACTAATACTTCC
AAGTATGTACCAGTAGAGCTATAGGTTAGACCCACTTCTTGGGTAAGACC
ATCTTTTATATATACCAGAAATCAGCGATTTGGGAAACTGGAAGGACCAG
TTTCCAGAGTGGCCAGCCGACTACGCCACTGCCTCCTTTCCCATTTCATC
GGACTTATGTCACTTATAGCCGCTGGGCCCCGTTGCCATCCTGCCTGTGG
TCACTAAGGATCTTGCCAGCTCTCCCCGGTTCACGCCTTACGAATTTTGA
TCGCAATGCAAGTTCACCAATCTTACAACTCGGCAATTAATGGTTGAATT
TTACTTACTCACGTACTAACGCTTTCCGCTACGGACACCTGAGTAAAAAT
CCTGCTTGTCAAGAATCGAACTCACGACTTCCGCACTACTAGCAGGTGTG
CAGGTTACCTACTAGACCACTCGGGCGTGGAAATCGGAAATCAGTTTACT
AAACCGTGGGAGGCGAGGATGATCGCTTCTTTTCGACAACGCACATGGGG
AAAGGTACCACTACTAACAGTTGTTGTTTTCTTCACATAAACCGATCGGG
CCTCAACCATACCCGCGGAACTCGGGAGGAATCCCGTAAGTAAGCACCAG
ATTCAGCCTGAGTATGGAGATGAGCAGGCTGACGCGGGACGGGACGGCTG
AACCCGTCTCGCGAGACCAAATTCTCAGGCACGCACGGGGACAGGGGAAT
GTTCATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCC
GGTTGATTCATACTCTGCTATATGTGATGACCATGCATACATACATACAT
ACCCAGTACTATACGTGGTTGCCAATCCGGTACGTGGTCTGCTGGACAGA
AAGAGATCAGAGGAACATCTACCAAGCTCCAATGAGAGCAAAATAAAAAA
CACAAACAAACAAGAGGTTACTACCAGTGGGGAACCCGTTTAAATACCAT
GTAGTGGGTTTGTATTTATAGCCTTTGTAATGTATATTACTACTATCATG
TGTGATGGTATACTACATTGTCTCTGGTTTGTTTTTAATGTTTTTCTGGT
GTCCCTGCATGGCGATTGATGTAAATGTACAGTATAACGGTGGGCTTCTC
CCCGACATTATACTGTTGACCCAATGTTATCTGCATCGGGGAACCTGTTT
AAATGCCATGAAGAGATTTTGTATTTGCAGCCTTTGATCCCACCTAAACG
TTTTGACATTTTTTCCCCCATAACCGGGGGACGCTCAGAAGGTCTAGGTG
TGCTTTGATTTTTCTTTAAAAACGACACTGCATATATGTAATCAAGCAAT
TTTCCCCCCTAACCGGGGGATGCTCAGAAGGTCTAGGTGCGTTCTGATTT
TTCTTTAAACAACGCTGGTATTTTTCAAAAGTACAGCATATGTCTTGTCG
AACATGACGTGTACCATTTGAATAGTATAATCTTGTGGCTACGGTACTTG
TGCATCTGGCACCTCGGGTCTTTTGGACTTGGTTAATGATTGACTGAATT
CTCACATCAGCTGATGGTGTCAAAAATCTAGCCCGTGGTCGCAAGGTAGG
AAAAACACCATCCGGAAGGAAAATAACGTACGACGTGCTCTTTATACAAG
AGAAAACGGCAATGGTACAAACATACTCGGAAAAAGCGACACCTCCAAAA
AAGAAAAAAAAGGACGCAGACACAGTTGTTAGGTAACTGCATGTGGCTGT
CGGGGCGCATGCATATAGAAGAACGATTGAAAGAAGGGCCGTGGCTTAAA
TAAAAGCTCAAGGACGAAAACGAAAACGGAAAAAAAACGTAACGCCAGAG
AAAGACACATTTTGCAAACCAAACGCCCGGAAGATACAAATTCGCGCCAC
TTGTGGCTGATCAACTATGGCGAGCGAACAAGCACGAGCACCCTTGCTTT
GGGCTATCCCGTCCTTGGTCCTTACCGTCACGTTCGGGCATACTACTGAA
TGCCGTAGTCCAGCCGTAACATTCTCTGCAGCGATCCATTTTGCCATGAA
ATGTTCCGCCCCTTGTTCCGCCGTTCTGTGCCATTACCCCTCGTCCTGGG
CTGCAGTCGTCCACTGGTCGGCGTTGATGCCGAAAGCTCTGAGGTCGTCC
AGGAAACACCCCATCCACTCTTTTTCCTGGCCCCCCACACAGCCCGCGCC
CCCCACCATTTCTGGGAACATCACGCATTTCGGCAGTCTCGTATCCTCCA
TGCGCGCCACAAATCCCGCGACAAGATCTGCCTCCTGCGTATAGTCGCCT
CGATACTCTCACTTCCCGTCTTCATAAGCGTGTCCAGGTAGGACATCGGG
TTGCCGGCGCGATTGTTCTTTCGCCAACCGATGCAACGAGCCAGGAAGTT
GTAGTGGGCTCGGTGCAGCGTGTCGTAGTGGCACGCGCGCGGGCTCCACG
TGACGCAGCCGTACAGCATTGTCTCCAGTACCTCGGCTCTTAGCATCTGG
ATTTTGCGCTCGAGGGGAGTGCTCGGTCGGTCGTACAGTTCAAGGGTGTA
CTCCCGGAAGCTGCACCAGTACAACATCTGTCGGCATTGTGGTTGAGAGT
ATGATGTGTATCAACCACTATATGCTCGTGTTTCAGACGTCCAAAATACA
CAGTACATCTGTCTTTGTACTCTCAAAACTAGACTTCTGCAGCAGTCAAC
ATTTGATCCATCAAGAGATGGCACCACCTAGCTGTCTACGCGATCCATCC
AGTCGGTTGACACGGTTTGGTCGTGTGAGGATGGTGTTCACCCGTTGCGC
CTCTTCCGTGCTCCACTTTGGGGCCCTTCGGGAGGTAGTGGCACGCGAGA
AGCAGGTGGCACTGTCGCGGAAAACCTGATAGGGCGCTGCAGCACGCGTA
AGCGTTCCGTGGCATGCTCTATCGGGTGAGTAGGAACAGATTCGGTGAGG
GCGGAGGCTAGCTCGATCGTCGATGAGCCAGGGGAGTGCTGAACTCTAGC
GCGGGAGAATCAAAGGCGCGAACCGGGAGGTTTCTGAGGGGAAGTCTGAT
CTCTGGCCACGGTATATTTTCTCCCTATGATACTAGAGCCAATAAGAAGC
GGCGAACAGGCAAGATTCCTGGGGCGTTTTGGGGGATGTTTAGGGCTTTG
GACGGGTGGATGCTTGCTCGCGCACCCGCTTCACGAGCTCATGGCCTCCA
TCGCCATGAACTTCGGTACATTTCTCTTATTACTGCGTATGTATGGTTAT
CGTTGCCTTGAAAACGTGGGCTTGTTGATCAAAACTGACTGGGGCGTGAT
TTGTCCGCTTTGTTGCTGAGAGCGCTGGGGCAAATTTTTTAGGCTCCGGG
ACAGGGTTTTGGGAGTTAAATTAAGCGGGCGAAGCCCGCGATTATTGAAA
CCGTGGTTATAGGGTTGCTGGTTGGTTGGTTGGTTGGCTTTCCTTTTGTG
TTGATGTGATTGATGGTGCAGAGCAGTGCAGTGTTTCGCAGGTGATAAGC
GGTGCCAATGATGGCATCATCCACAGACACTCCTGCTGGACGGGGTTCGG
GTGTTGGTTGTTTTCGTTCTTTTCGTATTAGGTGGGCTGCTGTATCAAGT
GATCGAGGTTTTCACAAAGAAGAGCGCTGTACACCTATTACTTCATACAC
ATTTTCACTGAGACAAAAAATGTTCTTGTGACACATTTTTTGAGTAACTA
TGCTGCCCGATCATGCCGGCTCTGAGTGCCTTGTTGGTCGCTATCGTTTC
ACTAGCCATCCCACACACGGCAGAGGAGAATTTTCAACCTCTCTTCGAGA
ATGCACAGAAAGTCTAGGGACGAACAACCCATGATAATATTTGTGCTCCT
TGCCAGGCCTAAATGGCGGAACTTTCCTATACTACAACGGTGGTGCATTC
CCAAACATGTAGACTATAGAGTAGATCCTGTACGAGAGCAGTAAATAAAG
CAGCTCAAGATGAGCGTACCAATACAATTGTAACAGTAATATACTTACAG
ATATTTGAAGGGGCGTCGCCATACACAGGCGGACGCAGTATCATCTCAGT
CGAAATGGAGCTGCTTTGCGTCTTGTATGCTCGGTACTAGTTTTTCCTCA
CGTATTCGAGACTTACTGTACTCTAATATTACATCGAGCGTACAAAGTTT
GGTGGCTACGTCTAAAACAAACTGTACTCTAGTATTGCATCGAGCGTATA
AAGTTTGGTGGTTATGTCTAAAACAAACTGCTTGTACTCTAGTATTGCAT
CGAGCGTATAAAGTTTGTTGGCTATGTCAAAAACAGACTGGAAGCTTACC
CGAGCGGCCAGATATTTAGTGCTATGGAAGCTGAAGGGTGGCTGAAAGGT
GCTTCAGCAGCTGAAGGGTGGCTGAAGAGTGCTTGCTGAAGCTTACCAGC
AACGAAAATTTTAGGCGCCAATACTTAGAGGCGGCGTAAATTGATGACTA
TGTCAAAAACAGCCAAGTGAGCCAAGTGATTGGTCCGTGTTATATACAAC
AACGGCTTGGATTTGCCCGTGTTATGTCGTTTCTGTACCGGAGCGTACAA
CACTCGCCGCCGTGGGCAAATTTTTTAGGCTCCAGGACAGGGTTTTGGAG
TTAAATTAAGCGGGCGAAGCCCGCGATTATTGAAACCGTGGTTATAGGGT
TGCTGGTTGGTTGGTTGGTTGGCTTTCCTTTTGTGTTGATGTGATTGATG
GTGCAGAGCAGTGCAGTGTTTCGCAGGTGATAAGCGGTGCCAATGATGGC
ATCATCCACAGACACTCCTGCTGGACGGGGTTCGGGTGTTGGTTGTTTTC
GTTCTTTTCGTATTAGGTGGGCTGCTGTATCAAGTGATCGAGGTTTTCAC
AAAGAAGAGCGCTGTACACCTATTACTTCATACACATTTTCACTGAGACA
AAAAATGTTCTTGTGACACATTTTTTGAGTAACTATGCTGCCCGATCATG
CCGGCTCTGAGTGCCTTGTTGGTCGCTATCGTTTCACTAGCCATCCCCAC
ACGGCAGAGGAGAATTTTCAACCTCTCTTCGAGAATGCACAGAAAGTCTA
GGGACGAACAACCCATGATAATATTTGTGCTCCTTGCCAGGCCTAAATGG
CGGAACTTTCCTATACTACAACGGTGGTGCATTCCCAAACATGTAGACTA
TAGAGTAGATCCTGTACGAGAGCAGTAAATAAAGCAGCTCAAGATGAGCG
TACCAATACAATTGTAACAGTAATATACTTACAGATATTTGAAGGGGCGT
CGCCATACACAGGCGGACGCAGTATCATCTCAGTCGAAATGGAGCTGCTT
TGCGTCTTGTATGCTCGGTACTAGTTTTTCCTCACGTATTCGAGACTTAC
TGTACTCTCTAATATTACATCGAGCGTACAAAGTTTGGTGGCTACGTCTA
AAACAAACTGTACTCTAGTATTGCATCGAGCGTATAAAGTTTGGTGGTTA
TGTCTAAAACAAACTGCTTGTACTCTAGTATTGCATCGAGCGTATAAAGT
TTGTTGGCTATGTCAAAAACAGACTGGAAGCTTACCCGAGCGGCCAGATA
TTTAGTGCTATGGAAGCTGAAGGGTGGCTGAAAGGTGCTTCAGCAGCTGA
AGGGTGGCTGAAGAGTGCTTGCTGAAGCTTACCAGCAACGAAAATTTTAG
GCGCCAATACTTAGAGGCGGCGTAAATTGATGACTATGTCAAAAACAGCC
AAGTGAGCCAAGTGATTGGTCCGTGTTATATACAACAACGGCTTCGGATT
TGCCCGTGTTATGTCGTTTCTGTACCGGAGCGTACAACACTCGCCGCCGT
GGGCAAATTTTTTAGGCTCCGGGACAGGGTTTTGGGAGTTAAATTAAGCG
GGCGAAGCCCGCGATTATTGAAACCGTGGTTATAGGGTTGCTGGTTGGTT
GGTTGGTTGGCTTTCCTTTTGTGTTGATGTGATTGATGGTGCAGAGCAGT
GCAGTGTTTCGCAGGTGATAAGCGGTGCCAATGATGGCATCATCCACAGA
CACTCCTGCTGGACGGGGTTCGGGTGTTGGTTGTTTTCGTTCTTTTCGTA
TTAGGTGGGCTGCTGTATCAAGTGATCGAGGTTTTCACAAAGAAGAGCGC
TGTACACCTATTACTTCATACACATTTTCACTGAGACAAAAAATGTTCTT
GTGACACATTTTTTGAGTAACTATGCTGCCCGATCATGCCGGCTCTGAGT
GCCTTGTTGGTCGCTATCGTTTCACTAGCCATCCCACACACGGCAGAGGA
GAATTTTCAACCTCTCTTCGAGAATGCACAGAAAGTCTAGGGACGAACAA
CCCATGATAATATTTGTGCTCCTTGCCAGGCCTAAATGGCGGAACTTTCC
TATACTACAACGGTGGTGCATTCCCAAACATGTAGACTATAGAGTAGATC
CTGTACGAGAGCAGTAAATAAAGCAGCTCAAGATGAGCGTACCAATACAA
TTGTAACAGTAATATACTTACAGATATTTGAAGGGGCGTCGCCATACACA
GGCGGACGCAGTATCATCTCAGTCGAAATGGAGCTGCTTTGCGTCTTGTA
TGCTCGGTACTAGTTTTTTCCTCACGTATTCGAGACTTACTGTACTCTAA
TATTACATCGAGCGTACAAAGTTTGGTGGCTACGTCTAAAACAAACTGTA
CTCTAGTATTGCATCGAGCGTATAAAGTTTGGTGGTTATGTCTAAAACAA
ACTGCTTGTACTCTAGTATTGCATCGAGCGTATAAAGTTTGCTGGCTATG
TCAAAAACAGACTGGAAGCTTACCCGAGCGGCCAGATATTTAGTGCTATG
GAAGCTGAAGGGTGGCTGAAAGGTGCTTCAGCAGCTGAAGGGTGGCTGAA
GAGTGCTTGCTGAAGCTTACCAGCAACGAAAATTTTAGGCGCCAATACTT
AGAGGCGGCGTAAATTGATGACTATGTCAAAAACAGCCAAGTGAGCCAAG
TGATTGGTCCGTGTTATATACAACAACGGCTTCGGATTTGCCCGTGTTAT
GTCGTTTCTGTACCGGAGCGTACAACACTCGCCGCCGTGGGTAGACGACA
ACAATCCGAGTCGATCGGGGTTGCGCTTGCTATGGAGGAAATAATGTTTT
ATGGACCGTTTTGCCATCGGTCGGTGTCATTCCTTGTAAAGCGTCGCATA
AATTGTCTTCGTGTAGCCCTCCGAGATAGCTTGGAAAAGTTTGAGTCATT
TTGGTGATTTTGGTACATCGGCGCAGCACGGCAGTTTTCTCTGTAGCTTG
TATTTCAGGTTCTGAAATAATGGCAACAAGGTTCAGTTGGTGAACTCGAA
ACCCTCTGACGTTGGGACCTGAGTTCGAATCTCGGTGTCGTCACACGAAC
TGGGATTTTTCCTCCCCCCCCAAAAAATATATGCCCAACAAGTGGAGAAA
TCGTTATTAATAGTATACAAGATTCGACTTCACGGTCGACGAGGGAAAGG
AACGGCTAAATTCTTCTCGAGAGAAAAGTTAAGGCAAGCACCGCAGAAGA
AAGGGGAGAAATTCTGTGTGACCCGGGCTGGTACGTCCACAAACCTGACG
TCCGGAATAAATGGGATGACAACACAACACACCAAAGTACAATGATACAG
TCCCGCTCTGCTTAAAGATTCGAGAAGCGAAGGATGGCAATGGGGCTGGT
GTCATATGGGGCACGACAGTTCGGAATAAAAGAGTACCCATCTCGGGCTT
CATGGGGATCTTTGCTACTGAAGATTGAGACGAGGAGTTAAAGACATTTT
GGGAATCTATGGTTCTTCAGGAATATCGTATGGGGATTGTCACGAGGAGG
TTGTGAGGCCTACTTAGTGACTTTGATAGACATATGCTCTTTCCTCTGTT
TTTGTGGTCAACGCGGGACCATAGCTCTCTATTTAAATCTATGTATGAGG
AGCATCTGTGTGTCGTAGCCCTGCGATAAGTATTGAGCGAGGAACCCAGC
TATTTCCGCCTGCCTCTTACTTCCTTGTGTGATCTCCCACTGCTCTACGT
CTACTTCCAGGTGAATAACGGTGTCTTGTACTTTCTGTATTATGTTGAAG
ATATCTACATCATGGTCCTCTCTGTCCTCGTTTCAATGTAGTGACTTGTC
TTCACAGCGTATGTAACAGTATATTATTACTACCTTCTGCCTGCTTTCTT
TTCTTTTCTTTTCTTTTCCGACCGTGTTCGCCCCCAATTTGTTTTGGTGA
AACTTCCTCTATCTTGTGACCACAACTGGATTCGTAGCGGACCAGTTAAT
AATGTGAGATAAAAACAACGTGTGCGACTTTGTGTGTTTTGTTTTAATTT
GTCTTCTTCCTGCGATATAGATGAGCCCGACAGGGGTTCCGCTCCTCTTT
CCTTTTTGGGTAGTTAACTCATTGCTTTATTTTCCCTTGATTGTTGTCTC
CTTCTCTCCATCTGTGTTATATTTCGCTGTATGTTGCACCCGTTGCCCTT
GCCATTGTCTTCATGCCTGGGTTGTATCCCACCGCTTATAGGGCTACCTT
CCCTGCGTTTTTATGCGGTTGGCTCTAGTTTGTTTCTACTGTCTGTGTGT
TTTTGTTTATGTTCTCTATTTTATCGCGACGATGTCCTTTGCTGGCTACT
TCTTGCCCGTCCTTTTCTGTATGCTTTCCATGCTCATCTCCGATTCCCGG
TTGATTTGGTTTGGTTCCGTCTATCTTGTGACCACGGCTGGATTCGTAGC
GGATCAGTTAATGTGAGAAAACAACAACAACCATGTTTGATGATGTACTA
TAATGTTTTTGTTTTCGCTGTTTTTCTGGTGTCCCTGCATGGCGATTAAT
AATGTAAGTGTGAGGTCATATAACGGTGGGCTTCTCCCCGATATTATACT
GTTGATCCAATGTTACTACCATAGGGGAACCCGTTTAAATGCCATGAAGA
GATTTTGTATTTGCACCCTATGATCTCACCTAAACGTTTTGACATTTTTT
CCCCCTGACTGGGGGATGCTCAGAAGGTCTAGGCGCGTTCTGATTTTCTT
TTAACACACACACCCTCGACAGGAGACCCTGTAGTTCGTGCCCAAAACAA
ACACCGTTTTGACGCGGATAAGTTTATGATGTTCTCGGGTGGTCAGAGCT
GGCAAGGGTTTTGTCGCGATTTAGATCTCTGTTCAGTTCCAGCAGCGATT
TGTCACCATGATGTGACCCGTTGACCTTGTAATATTTATGAGACCACGAG
AGGGACCACGAGAGGGATTGACATATGGTAGGTTAGGGTTGACTGTTTAT
GTTGCCATAGTCTTCAGTTGCAAGGACAATACGCTGAATGTGCGTATCAA
TCAACCAAATTAAAGTATTTAAAGGAAAATCTGAACGCATCTAGACCTTC
TGAGCATCCCCGAGTCAGGGGGGGGAAATATGTCAAAATATTTAGGTGGG
ATCATAGGCTGCAAAGACAAAACCTCTCCATGGCATTTAATCGGGTTTCC
CAATGGTAGTAGCATTGGTGGGTCAACAGTATTATGTAATGTCGGGGAGA
AACCCACCGTTATACTGTACACTTACATTAATCGCCATGCAGGGACACCA
AAACAAGCATAGACAAAAGACACGATGAGCTTGGATTATAGCTCAATTTG
TTACAATGAGTCTAGGATAGCAATAGGATGGGTGTCGATGAAGGAAATAT
TCAAGTCATGGATGGATGATGTAGAAATGATAAATGGAAAATTGTCCAAT
AACTATTCCTACGGTACATCTTACAAGTATTAATAGCAATTATGGTGTAC
AAATTGAGGAGACTTTCAAGGTTGTGTTGAGTCGAGTAGAGTATTTAGAG
TAGAGTATTGAAAGCGGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATG
GAAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTTGT
ACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACTCGATAC
TCGACTCATCGTTGAGTATTTTGCCCGATACCGTACTCATACTCGAGTAG
AGTATGGAAAGTTGTACTCAAGCTATGAGTATGTTGAGTCGAGTATGGGA
AGTTGTACTCAAGCTTTTGAGTATTTTGAGTCGAGTATGGGAAGTTGTAC
TCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACTCGATACTC
GACTCATCGTTGAGTATTTGCCCGATACCGTACTCATACTCGAGTAGAGT
ATGGAAAGCGGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGC
GGTACTCAAGCTATGAGTATTTTGAGTATGGAAAGCGGTACTCAAGCTAT
GAGTATGTTGAGTCGAGTACATACTCGAGTAGAATACTCGAGTAGTTGAG
TAGTACTTTTCTCACCACAACCTAAAAAACTAAAAATTAAACTACATATC
ACCCTACTTCAATTCACCCCTGCATTTTCACCCGCCCTCCCCGTTGGTCA
TAGCGGTGAAAGGCTGAACGCTGCACCCCTGGTCGGTTGTCAACCGCCAC
CGATGGCCTGTTTGCAAGCACTCGCACTAATCACTAATATATAGCAAAAG
AGATATAAAAAACCAAAATACTATACTTTCTATGGTAGTAATTTTGATAT
TGCACGACCGCAAAAGCAGTACGAAACAAAAAACAAAACAACTAGCTGCC
CTACGCATGTCCTAGTTGATGTCTATGCCACTGAGAGTGGGAGGCGCGTT
GTTGACCAGCGGGTCAATCGACGCCTCTGCGTCCAGAAGATCCTTGTCCT
GTCCGTCGAACCTCGCGGGGAGGTGATTGCGGATGTCCTCCGATGCGATC
TGGGGGATGTCCTTGTACGCCGGAATGGAGCTGTAGTTCGCCTTCAGGAA
CATCACCATTTCCACCCAGTAATGTCGGGGAGAAGCCCACCGTTATACTG
TACACTTACATTAATCGCCATGCAGGGACACCAGAAAAGAAAAGAAAAGA
AAAGAAAAGAAAAGAAAAGATGTTGTTGTTTTTCACATTCAGCGTATTGG
TTGCCAACCCGAAAAAACTACTTTACACAATGTCTGGGTACAAAATGCCC
CGCAGAATGACGTCACGAAGACGAAGACATGTACTCAAACTTGAGTAGAG
TATTGAGTACTTTGAGTCGAGTATGGAAAGTCATACTCAAGCTTTGAGTA
TTTTGAGTCGAGTATGGAAAGTCATACTCGATACTCGACTCATCGTTGAG
TATTTGCCCGATACCGTACTCATACTCGAGTAGAGTATGGAAAGTTGTAC
TCAAGCTATGAGTATGTTGAGTCGAGTATGGGAAGTTGTACTCAAGCTTT
GAGTATTTTGAGTCGAGTATGGGGAAGTTGTACTCAAGCTTTGAGTATTT
TGAGTCGAGTATGGAAAGTCATACTCGATACTCGACTCATCGTTGAGTAT
TTGCCCGATACCGTACTCATACTCGAGTAGAGTATGGAAAGCGGTACTCA
AGCTTTGAGTATTTTGAGTCGAGTATGGAAAGCGGTACTCAAGCTATGAG
TATGTTGAGTAGAGTATGGAAAGCGGTACTCAAGCTATGAGTATGTTGAG
TCGAGTACATACTCGAGTAGAATACTCGAGTACGCCATGAGTAGTACTCG
ACTCAACACAAATTTGGAGACTTTACCATGTTATCTCCTCAGTCCATGTG
TGTTTGTAATTCACACTTTACCTTGTATTTAATACATTTAATAATAGTAT
GTGACATCACAGCAGCAGGACAGGAGTAAGAGATAGAAGGGCTATCATAG
CGGTAGTAAGTAGTGGTATATATATATATGCTTTTTAGGGGGGGGTTAAG
TATTAGAACAAGAGGAAAGAGAGGATCATCAACGTAGATGTCTTCACCAG
AATTCAGAAGTACGAGACACCGGTTTTCACCTGAATGTGGACGAAGATTT
GTGCAATACAGGAGTTGCTTTAATGTGCTTTTCTCAGTTTGCTGTACAGT
ACATGCACAACACAAAGATGTCGAGGTGCTGTCAACAAACAAAGACAAAG
ATGTCAAGGCCACCAGGAAGAGGAAGAGATACCCCTCTCCTTTAGCGCGG
TATTAATAGTTAGGAATGGTCGCATCATGAGGAGAAACAACTTCAGCTCC
ACCGGGATTCACAGAGCTACTTGTTTTGTACACATGTCCCCATCTGCGAT
GATGGTGGTCCATTGTTTCTACTCACGCTTCAACTATAAATAGTACCAGG
TACTGTATTAATAGTATTAATAGTACTAATAGTTGCTCCTACAACATCGC
CGAAGACGGGATGCGGAGGCGTCTCCGAAACGACTAGGCTACTCTTGAAG
GGGAGTCGTCAGCAAGCTCCCAATGGATCCTTCAGGAGCACGGTTGCTCA
AGCTAAATAAGAGAGAGATATGCCTAACGTACACTACATACATACGCCGG
ACCGCTGCTTTTTTTATTTGTCGTCTTAATCTTAATATTATTAGCAGCAA
TCATCGTCCATCGTCCTCCAAGGGTGCGAGGAAGGCACACTCCGCTTGGA
ACTTAGCGCCACACCTTATCCCTTTCTGCTCTGCGGCATCGTAGCGTGCT
GCAGCAACTGCTGCTGCTGCTGCACGCTCACTTTCGGCGCTACAGCCCTC
TGTCTTTTCTTCCGTTCTTTGTGCTCTTTGGAAGACTCCATCAAACTGCT
CGTTGCCCTAAAAGTTACCAAAAAAGCCTTCCTGCTTCGAACAATTCCGA
TTTCCGGCGGCCAATTGGGCTGGAAATCGAGCCTCCATTTGTGTGGCCTC
CACCCCGCTCGCAGGAAAGTGGTAGTTGAGCTGGCCGAAATGGGCCAATC
TTCGACCCCAGGAAAGGGTTTCCCGCCGGAAGTCGAAATTGGGACCATTT
CTGATTTCCGCCCCTATATAAAATGGTCTAAACAATATTTTTCGGCGAGG
AATGTAATACCCGCTTTTTGTATTCGTTGAAAAGTATCTGCTACAGTACT
TTTTGATCTTCACAAATGGTGGGCGTAAACAATATCCCCCCCCGGTTCTA
CTGGCTGTTGGGAAGCGGAAAATGATATCAAGGTGGGTATGACCCGAATC
TCAAATTACAACGCAAAGAGCACGTGGTGATACAAGCAACAGTTAGTACG
CCATCGCCAACACCGCTACTCCCTCCCCCGATTCTACAAAAGCGCGCAGC
CTCGCCAAAACCTCCCACATCTGACAATCCTCTCAAATCTGACAAACAAT
AACCAAGCAAAGATCTTCATAGTCAGTAGCAGACATGGTGCAGGCACGGC
GTACTAGAAACAACGTTGCATCGGGGACCCGTACCGAAAACCAGTAGAGG
AAGAGAGAGACAGAAGAGGCTATTTTGTTTCCTTTCGTTTTGTCGTTTTT
ATCTTGTTTTGTTTTGTGCTCTCGTTGGAGCTTTGTACAAGTAGATGCTC
CTATTACATTGTCCTGTCCAGCCAGCCACGTACCGAATTGGTAACCGCAT
CTTGTATTACTGGGTGGAGGCCCGATCGGTTAATGTGAACAACACACACA
CAAACGCCGATTATACGCTTACTTTGTACTTCTTTGAACAAAGTACGCTT
TCCAAAACTATGAAGCTGCACTGTGCTCTCCTAGTAACAATTGCAAACAC
GACGAGACATCGACCACCATGCAAGTATGCAATCTTCCTGTAGCGCTTAT
TAGTAATAGTATTAGTATTAGTATTAGTAGGCTGCGGTATCCATTATTGG
GCGAGCTGAGGCTGGTGCTGAAATCAGTCGAAGAACTTGTTATGATTTTA
TGTGCGATCCTCTTGACATAATCGCTTCTCAAAGCCCGGATACTCAAATT
CGTTGCTCGCGAGCACTCTGGACCAATAAGCTGTAACGACACTTGTGTAG
CACACATGTCCACTTTATACCAATATATATATATATATATAGAGGTAACT
ACTATTACGATTTAAGCCTTAGGCCTCGGAAAACGCAGCGGGTGAACTCA
ACCACACCGAGATCAAGACGTTTCCTCAAAAGTTTTCCAATCTTTTCCAA
TCTGAGGCATGTTTTTCGGCGTCTCTGCCCAATCAGGGGCCCGTTTATTG
CTTTGCGACAGTGCCGGCGGCGGGTCAACTCAACCACACCGAGGTCAAGA
TTTCTTCAGCGTCTACCCAATTTGCAACAGTGCCGGCGTTGGAGTAAACA
CTCAGATTTTGTTTTTAAAACTACGATGGGCTTCTCCCCGACATTATACT
GACTGTTTAAAGAAAATCTGAACGCATCTAAACCTTCAATCTTCTCACCC
GTTCAAATGACATGAAAGAGGTTTGACATTTCCCCCCCCCTGACTGGGGG
ACGCTCAGAATAATACAGACTTGAACGTTTTGACATTCTGACTGGGGGAT
GCTTAGAGAAGGTCTAGGTGCGTCCTATCCCCGACATTATACTGACTGTT
TAAAGGAAATCCGAACGCATCTAAACCTTCAACCTTCTCACCCGTTCAAA
TGACACGAAAGAGTTTTGACATTTCCGCCTAAACGTTTTGACATTTCCCC
CCCCCTGACTGGGGGATGCTCAGAATAATACAGACTTGAACGTTTTGAGC
GATTGTCGCGTAAATTGGACGCAAGTTGCACCCTCGTGAAGCTCTGCTGA
AGCCTTCTCAGATCTGCTGAAGCTTTTTCGCCGGGGGACCGATGGGGTCT
ACTTATTTACGACGCCCATGCAAGCCATGGCCTCACACGCATCGGGATAC
CTAGCGCGTGAATGAATCCCCGCGAGAAGCGCGCGAGCATTTCGCGAGCA
GATTGAAAGGCTGGGTTCGATTCCGACCTAGGATGTGTTTTTTTGTTTTT
TGTTTTTGTTTTTAAAAAAATGAAGAGGGACTAGAATGATATTAGTACAT
GTACAGAAGATTTACAAAACATGTACAGAAGATGTACAATATATTTAGAA
TATTAATAGAAGTCCTTCTGAGCATGCCCCGGTTAGGGGGTGTCAAAATA
AACGTTTAGGTGGGACCATTATACTGACTGTTTAAAGGAAATCCGAACGC
ATCTAAACCTTCAACCTTCTCACCCGTTCAAATGACACGAAAGAGTTTTT
TTTGTATTTGCAGCCTTTGATTCCGCCTAAACGTTTTGACATTTCCCCCC
CCTGACTGGGGGATGCTCAGAATAATACAGACTTGAACGTTTTGAGCGAT
TGTCGCGTAAATTGGACGCAAGTTGCACCCTCGTGAAGCTCTGCTGAAGC
CTTCTCAGATCTGCTGAAGCTTTTTCGCCGGGGGACCGATGGGGTCTACT
TATTTACGACGCCCATGCAAGCCATGGCCTCACACGCATCGGGATACCTA
GCGCGTGAATGAATCCCCGCGAGAAGCGCGCGAGCATTTCGCGAGCAGAT
TGAAAGGCTGGGTTCGATTCCGACCTAGGATGTGTTTTTTTGTTTTTTGT
TTTTGTTTTTAAAAAATGAAGAGGGACTAGAATGATATTAGTACATGTAC
AGAAGATTTACAAAACATGTACAGAAGATGTACAATATATTTAGAATATT
AATAGAAGTCCTTCTGAGCATGCCCCGGTTAGGGGGTGTCAAAATAAACG
TTTAGGTGGGACCATTATACTGACTGTTTAAAGGAAATCCGAACGCATCT
AAACCTTCAACCTTCTCACCCGTTCAAATGACACGAAATAGTTTTTTTTT
GTATTTGCAGCCTTTGATCCCGCCTAAACGTTTTGACATTTCCCCCCCCT
GACTGGGGGATGCTCAGAATAATACAGACTTGAACGTTTTGAGCGATTGT
CGCGTAAATTGGACGCAAGTTGCACCCTCGTGAAGCTCTGCTGAAGCCTT
CTCAGATTTGCTGAAGCTTTTTCGCCGGGGGACCGATGGGGTCTACTTAT
TTACGACGCCCATGCAAGCCATGGCCTCACACGCATCGGGATACCTAGCG
CGTGAATGAATCCCCGCGAGAAGCGCGCGAGCATTTCGCGAGCAGATTGA
AAGGCTGGGTTCGATTCCGACCTAGGATGTGTTTTTTTGTTTTTTGTTTT
TGTTTTTAAAAAAATGAAGAGGGACTAGAATGATATTAGTACATGTACAG
AAGATTTACAAAACATGTACAGAAGATGTACAATATATTTAGAATATTAA
TAGAAGTCTTTATGAGCATGCCCCGGTTAGGGGGTGTCAAAATAAACGTT
TAGGTGGGATCATAGGCTATTATTACCATAAAGGGGTCTATAACATGTAG
AAAATAACGGGCATTTAAATAAACAGCTACCAGGGTATAATTTATATACA
ATATGCAACAAAATGCCAAATGATATTATCAAATGATATTAGTACAGATG
TACAATATATTTACACTATTAAATTTGTTTTTTTTTGTTTTTCAAAATCA
GGGTTTATAAAAGAAACAATGAACAATTGATTGATGCTAGTTTGTTTTTA
TTTTTGTAGACCCTCTCCTAGATTGAAACCCTAACATCTGCGGCGACGAT
GGTTCAACCCTCAACTTGGACGTTTTATTTTTTATTTTTTCGGAGAATGT
TGTTTAAAGAAAAATCAGAACGCACCTAGACCTTCTAAGCATGCCCCGGT
TAGGGGGTGTCAAAATAAACGTTTAGGTGGGACCATAGGCTATTACTACG
ATAAAGGGGTCTATAACATGTAGAAAATAACGGGCATTTAAATAAACAGC
TATAATTTATATACAATATGCAACAAAATGTCAAATGATATTAGTACAGA
TGTACAATATATTTAGACTATAGGGGGAAAAAATGTCAAATGATATTAGT
ACAGGGTGTCAAAATAAATGTCAAATGATATTAGTACATATGTACAATAT
ATTTAGACTATTAATAGGAGTCCCGGATTACAGTATAAGTAGTGAGTCGT
GTGGAGGAAAACAAAAAAATGTAGAAAATGATGGGCATTTAAATAAACAG
CAGCTATAGAGGTAACTACTATTACGATTTAAGCCTTAGGCCTCGGAAAA
CGCAGCGGGTGAACTCAACCACACCGAGATCAAGACGTTTCCTCAAAAGT
TTTCCAATCTTTTCCAATCGGAGGCATGTTTTTCGGCATCTCTGCCCAAT
CAGGGGCCCGTTTATTGCTTTGCGACAGTGCCGGCGGCGGGTCAACTCAA
CCACACCGAGGTCAAGATTTCTTCAGCGTCTACCCAATTTGCAACAGTGC
CGGCGTTGGAGTAAACACTCAGATTTTGTTTTTAAAACTACGATGGGCTT
CTCTCCGACATTATACTGACTGTTTAAAGAAAATCTGAACGCATCTAAAC
CTTCAATCTTCTCACCCGTTCAAATGACATGAAAGAGGTTTGACATTTCC
CCTGACTGGGGGACGCTCAGAATAATACAGACTTGAACGTTTTGACATTC
TGACTGGGGATGCTTAGAGAAGGTCTAGGTGCGTCCTATCCCCGACATTA
TACTGACTGTTTAAAGGAAATCTGAACGCATCTAAACCTTCAACCTTCTC
ACCCGTTCAAATGACACGAAAGACTTTTTTTGTATTTGCAGCCTTTGATT
CCGCCTAAACGTTTTGACATTTCCCCCTGACTGGGGGATGCTCAGAATAA
TACAGACTTGAACGTTTTGACATTCTGACTGGGGGATGCTTAGAAGCCTT
CTCACCCGTTCAAATGACACGAAAGAGTTTTTTGGTATTTGCGGCCTTCT
GCCTAAACGTTTTGACATTTCCCCCCCCTGACTGGGGGATGCTCAGAATA
ATACAGACTTGAACGTTTTGACATTCTGACTGGGAGATGCTTAGAAGGTC
TATTAATAGGTGCGTTCTATTTTTGCCTTAAACTACGATGGGCTTCTCTC
TTTTGTACTAGGTGAATTTTCTTTAAACATTAAGGGTGCTCAGAAGGAGG
TCTAGGCGCGTTTCCACGAACGCAGCCGCGATATTTTCACCCGTTCAAAT
TACATGAAAGAGGTTTTGTGTTTGCAGCCTTTGATCCCGCCTAAACGTTT
GACATTTTCCCCCCTGACTGGTGGATGCTCAGAATAATACAGACTTAAAC
GTTCCGCACACCCCAGCAGGCAGCTCGGCAGGAGTAGAAATTTGAAAGTT
GTTGGCCTGAGTAGCGGGTTGTCACCATGATTGTTCCATTGACCTTTGTA
CCTCTTTGCGACCACAAGAGGGATTGGCAAATTGACAATTGATAGGTCTA
TGGCTGAACTATTGTGCCACCGTATGCTCAGAATAACACAGACTTCAACG
TTTTGACATTCTGACTGGGGGATGCTTAGAAGGTCTATTAATAGGTGCGT
TCTATTTTTGGCCTTAAACTACGATGGGCTTCTCTCTTTTGTACTAGGTG
AATTTTCTTTAAACATTAAGGGTGCTCAGAAGGAGGTCTAGGCGCGTTTC
CACGAACGCAGCCGCGATATTTCACCCGTTCAAATTACATGAAAGAGGTT
TTGTGTTTGCAGCCTTTGATCCCGCCTAAACGTTTGACATTTTCCCCCCT
GACTGGGGGATGCTCAGAATAATACAGACTTAAACGTTTCGCACACCCCA
ACAGGCAGCTCGGCAGGAGTAGAAATTTGAAAGTTGTTGGCCTGAGTAGC
GGGTTGTCACCATGATTGTTCCATTGGCCTTTGTACCTCTTTGCGACCAC
AAGAGGGATTGGCAAATTGGCAATTGATAGGTCTATGGCTGAACTATTGT
GCCACCGTAGTTCTCCAGTTGTAAGGACAATACGCTGAATGCGTGTAAAT
CAAGAGTAGGCAAATAAAATTTCTCCTGCTTCAACATCCAGAGTCGACCG
ACCTTGAAGCTTGCAAAATTATTTGGGGCTATGAAAATCACATCATTTGT
TCAGCGTCTACCCAATCAGAGACCTGTCTATATTTTTGCGAAATTCCGGC
GATGGAATAAACATTAAACATCAGATTTTTCTCCAAACATTAAACATATT
AGAACATACCTGTACGTGATGTAACTAAGGACATCCATGGCGATTGATGC
AAGAGTACAAAGATAAAATTACTCCTTCCACATGCATACGAACGCGGACA
GCGGAATGTAATAATGTTGTAATTGCTGAAGGCAAATAAAACTACTGCTC
TGATTACTGCCATCACGACCTGCTCAGGAGATAATAAAAGTATCCTCTAC
ACAGAGCAAACCACGCAGGCATCCTTTAAAAAAACAATGCAAGCTATAGC
CTCGGTGTCACCCCTAAAGCGCAAGCGAGAAACAACTGACCCCGGGCGGT
CAATAATAGAGGTTGTAACTACTTTTGCGATTTAAATATACAGACTTAAA
TGTTTTGACATCTTGACTGGGAGATGCTCAGAAGGTCTAGGTACGTCCTG
TTTTTTCCCTTAAACTGCGATGGGCTTCTCTCTTTTGTACTAGATGAATT
TGCTTTAAACATTAAGGGTGCTCAGAAGGAGGTCTAGGCGCGTTTCCACG
AACGCAGCCGCGATATTTTAACCCGTTCAAATTACATGAAAGAGGTTTTG
TGTTTGCAGCCTTTGAGCCAGTCTAAACGTTTTACATTTCCCCCGTGACT
GGGGATGCTCAGAATAATACAGACTTAAACGTTTTGACATTCTGACTGGG
GATTCTCAGAAGGTCCAGCAGACAGCTCGGCAGGAGTAGAAATTTGAAAG
TTGTTGGCCTGAGTAGCGGGTTGTCACCATGATTGTTCCATTGACCTTTG
TACCTCTTTGTGAGCACAAGTGGGATTGGCAAATCGGCAATTGATAGGTC
TATGGCTGAACTATTGTGCCACCGTAGTTGTCCAGTTGCAAGGCCAATAC
GCTGAATGCGTGTAAATCAAGAGTAGTTAGATAATATTACTCCTGCTTCA
ACATCCAGAGTCGACCGACCTTGAAGCTTGCAAAATTATTTGGGGCTATG
AAAATCACATCATTTGTTCAGCGTCTACCCAATCAGAGACCTGTCTATAT
TTTTGCAAAAGTTTCGGCGGTGGAATAAACATTAAACATATTAGAACATA
CCTGTAGGTGATGTAAACTAAGGAAATCCGTGGCGATTAATGTAAGAGTA
CAGGAAAATGAAATTACTCCTTCCACATGCATACGAACGCGGACAGCGGA
ATGTAACAATGTTGTAATTTCTAAAGGTAAAAAAAACTACTGCTTTGATT
ATTGGCATCATGACCTGCCCAGGAGATAATGAAAGTATCCTCTACACAGA
GCAAACCACGCAGGCGTCCTTTAAAAAACAATGCAAGCTATGGCCTCGGT
AAAGCGCAAGCGAGAAACAACTGATACCCGGGCGGCCAATAATAGAGGTA
GTAACTACTTTTGCGATTTAAATATACAGACTTAAATGTTTTGACATCCG
AACTGGGGGATGCTCAGAAGGTCTTAAACTGCGATGGGCTTCTCTCTTTT
GTATATACAGTATTTTATCCCGCCTTCTAAACGTTTTCGATGCTCAGAAA
GAGGTCTAGGCGCGTTTCCACGAACGCAGCAGCGATATCTTCACCCGTTC
AAATGCCATGAAAGAGGTTTTGAAACTTCGTAAAGCCACTTCGTATGCAG
CTCGTGCGTACCGCTCAACCGAAACACAAAATAAACCTCCTCTCACTCTC
AACGGAGGCCGGAGGGCCTGACGTCGGCCACTTGGTATGTAGTATTAATA
GTATGCAGTTCGTCGTACCGCTCAATTCAAGCACAAACACCTCCTCGCAC
TCTACTCGCACTCTCCACGGAGGACGGGGGGCCCCCAGGCGCCCGCGTCC
GGAGCCCTTGTACATATTTATTTTTTTAATCTCACTTATAGCCGATGGAC
CTCATCATTACCATCCTGCCTGTGGTCACAAAGGATCTTCCCATCTCTCC
CCGGTTCACGCCCTACAATTTTTTATCGCGATGCAAGTTCAGCTCTCTTA
CAACTCGTCAACCAATGGTTGAATTTTACTTACTCACGTTCCCACGCTTT
CCGTTACGAAAGAAAGAACACAAATCCTACTTTGGTAAGAATCGAACTCA
TGACTTCTGCACTAGCAGGTGTGCAGGTTACCTACTAGACCACTCGGGCT
GTGGGAAATGAGAAGCGCACAAATATTGGTCCATGTTGATACCCGAAAAG
GCAGCACCCGCTACTCGATCTAACTTGAGGACGGCTACTGACCCTCTACC
GGCGGACTCTATGCAATGAACGCCATCGGTCCGCAATTGCGTGACCCGAT
AAACTCGGGATTGGCCCGATGGCGGTTGACGGTATAATTTGTGGGTGCCA
TCGCGGAAAGCGGGAGCAAACCCGCGAGAAAGCACCAGATTGATGATTGA
TGATTCAGCCTGAGTGTGGAGAATGAGTGGGCTGACGCGGGCCGGGACGG
CCAAACCCGTCCGCGAGACCAAAATCTCAGGCGCGAACGGGGACAGGGAA
AACACAATTTTCCCTGTTCAGCTTGACCACGAGCAGAATTGGCAACCATA
TATGGTTAATAACTTCCAACATGCCCACTTCATTCCAATAGTGGGCGCGG
GGAAAGAGAGGCGCACATTAATTGGTCCATGGTGACCTGCAAAGGCAGCA
CCCGTTACTGGAACTAACTTGAGGATTACTGGCCCTGCGTCGGCGAACTC
TCGGTAGTGAACGCCATCGGTAGGCAATCATTGCGTGACACGACAAACTC
GGGACTGGCCCGATGGCGTATGACGGTATAAAAAATGGACGCCGCCACGT
AAATCGGGAGGAATCCCGTAAGTAAACACCTGATTCAGCCTGAGTGAGGA
GAATGAGCAGGGTGACGCGGGATGGGACGGCCGAACCCGTCTCGCGAGAA
CGAATTCTCAGGCGCGAACGGGGACAGGGAAATATTATTTTTTTCTGCTC
AGCCGACCACGAGCAGGATTGGCAACCTTACCCGGTTGATATATACTCTA
TATGTAATGACCATACATATTCTGTTGAAAGTGCTGACCATACATACAAA
CATCGCCATAGAATGACCCAGCTCGGGAACCAAAACCCTCCAGCACGTAG
AGCGAGAGGCTTATGTCATTTGTCGCACCATGATACCGAACAGTCTCAAC
GTGAATCCTCACGCTCTCGAACGACGCAACGCAGAAGCTTTCGATAAGAG
CCACTGCCGCGGTCGTGGCGATTTTTAGGTATTAATACTTACACCTATCG
CCATGTCTCCACTTGGTGTTGGACATAATATACTTTATCCGAGGAATTTG
TATGTAGATAAAAATGCAGCACTGGTATATATTTCGTGATGGAGCGGTGC
AAAGGTAGACCTAATAATATGCTAATACCACGATGAATTGAGCTATCATA
GCTAAATACTGGATATTCTGTGACCCACCTGACCAAATATCACCGTGTAT
TTTGCGTACTTTTTTTTCGTCGCGTGCCGGCGGAACATTTGGGCAAGCCG
CCGTTGAACCCGCAGGTATCGTTACTCTTAGGTACAACACTGACTATCGT
CGAGTGATTAATGTCATCGAATGCAACCGTGCCTGACTTTGGACCCAATT
CAATGTGATCGACTGTTTCATCATGAAACGCTTAGCTTGCTTGCCCATTA
TCGTTGTTACTACTGTTCGCTGATTTCGGGTCAGAAAGAGATGGAGCTAT
TCAACGACAGATCTGGCTCTACCCAGAGCTTGAAAGATCTCTACGACTTG
CAAGAAGAGTACAGGCTGTACCAGACTGCTAGGAAGGACTCGAAAGCTCT
AAAGGTGTGGGAGGAGGTGAACCCTCGCGTATGCCCTATCCGGTCTTCTC
GCAGTTTGGCGACTATACCGACTGGCAACAAAGTGTACTCTAGAAAGTAT
GTAGAAATTCCTTGGTAGGATAGTTGTAGCCTTGAAGCTTAGGCTATCAT
AGTATTTGACCTGTCTGGTGAAGGCAACAAAGTACCCACGCTTACGTCGG
GCCGAATGCTTCTCCCTCGCCCAGGTAAAATCATTTGCTCAAATCTACTG
GTTTATTACATCTAGAGCTAGTCTATACTGGTAGAAAACGTTTCTTGGTA
AGCCAAAATACAACTTTAGCTTTCACTATAAAAAACGTAGGTACTTGTAG
GGCAACTTGTACCAGTATGCATGGTGATTACCTAATAGTACCAGGTAGTC
AGTCCCTTACCGCTTCGAAGATGCTTTGAGATTACGTGTATTGTACTGTA
CCGGCATTCCTCTGTTGTTGTGTCTCTTTCGGCGTCTCTCATGCCGTTTC
CTGTAGATGGAGGAAACACCAATGGCCACTACCCACAGAAAAAACGTGAT
CATCAAGCTTGAGAAGATCCCCGAGACGCTGAGGGGCACCACAAAGATAG
CTGCAAGTGCAACTGTGCGGTTTCTGTGGGAGGTGACAACAAACCCGCTT
GTGCTGAAGGATCACCTGGCTGAGGCTAAGCACCACCTTATCGAGGTGAG
TGAGCCCCGTCACAGAACGTGATCGTTTGACAGCGTTGTACAAACTATCT
CAAAGTGCACTCTGCGCAGACAAAATGCAATGTGAAGCACTTCTGAGGAT
CCAAATGCCACGTATCGGGCTCGAACCTTCGAGATAACATGACTTGTGAC
ATGGCTTGTCTGTTTGACTGTCACAGTTTGCCCGCCACTATTGGCTGGGG
TCCAAGCTCCTGTGGAACGAAATCAAAACCGCGAGGAGGATCGTATTGCG
GATCCTCCGGGGCCATCACATGACGAGAAGAGAGCGCAAGCAACTGCTAC
GGACGGCCAGCGACATCCTCCGAATGGTCCCACTCGCGGTGGGTTCAGCA
GATACTGTAGATTCTTTCTCAGGGTTAGGGTTTATCCACGAGTGAGTCAA
GCGGAGCCCATCCTGGTATTTGCTCTTATCAGGATGTTGTCGAGTTTATT
TTTCTGAGCTTGGCTTGATGATGGGGTGTTGACGTTAATGCTACTGCAAC
GCTTTGATCGTTTGTGAAGTCTTCTACTAATATAGGCTCTGTATCGGCCT
GGTCGCAGGTACCGGGGTTTGAGTACCATTACCATTTGCTTCGTAATTTC
TATGGCGCCTTACATCAGCCAGAAGGATAACCGACTCGCGAGTGCTTTGC
GATGTTGCTATCCTCCTCGACTGTAAAAGTATTAAGTCTCGACTTACGAG
GGTCGGGTCGCTTCGTGGTGGCGTTTGCCTTCAGGCGTTCTTGATCATCC
CGTTCATGGATTTCCTATTGCCGGTGGCGGTGAAACTGTTCCCGGACATG
CTTCCCTCTACATTTCAGGTAAAAGAGTGTCATTTGGTCATTTCCCATCC
TGATTTCAAATACGGGATCGTGCGGGGCGAAGGACTTCCTATTGCGAGGT
GCCCCCCCCAACCATTTTTTTTTGCGTCTTTCCATAGTGATGACCATACA
TATACATGCCGCAGAATTCATCCGTCACACTGCAATGTGTTTTCCTCAAC
GCTGTGGTATTGTAGCTAAACTGAAGACAACTTAGATACGCACTTCATCG
CCCTCTGGGACAAGAAAATACTCTACGCCGTCTGTCTCGGTTACCCAGGG
TTTCAATCTTGTAACCCGGTGATAGCGATCAGCGACCATTTTCCTCCCCG
TTCCCGGGGTTTTCATTCCCAAGTAGTCGGGGGGTGGTGGCAGGGAGATA
CTCCACAGATGCCCGGAGCTTGCACTTTCGTGCTCAAGTTACTTATACGT
TTCAGGTATAAGCCCAAACAAAAAAGGCGCACGTAGAGTTATGTTGGAAC
TTCAGATGGAAAAAAAGCTCATTCGAAACTATTTCTATAAAATGCAAGTA
GGCATACTTTTCTTTGCTGGTGACGTTCAGGACGTCACATTGTAAGAACG
CGGAACGCCCTGGTGCTGTGGGAGGGTAAGCTGCGTGGGGGTGGCCACGC
AGCATTTCGTAATGCATCACAAATCGCTATGGAATATTTCACAATTTACA
ACCGTGTAGAGCACTCGTAGCTTCCGGTTAGCGAGCCGCGACCGATGCCA
GAGTTGGTGGGGGAACATATATTTTTATCGCATGGCTTATTATGCTAATG
GTGAAGATACCCGGGGCAATGGGAGGGTGGGAAGGAGGCAGTTGCGTGCA
ATTGGCGGTATCTGCCGCATTCCGACGCCGACGCGTGCTCGCTAATGTAT
TCGTAGCTTCGGGTTTGTAAGCCGCGACCGATGCCAGAGCTGGTGGGGGA
AACATAGCTTTTTATCGCATGACTTACGCTGATGATGAAGATGCCCGGGG
CAATGGAAGGGTGGGAAGGAAACGGTTGCGTGCAATTGCTTTACCAGGCG
GTATCCGCCGCATTCCGATGCCGACGCTTGCTCGCTGATGTACTTACTAC
GAGTATGATAGGACCGTCTCAAGGAAGAACAGAACCTCAAGAGGGAGCTT
CGTCTTCGTCTAGCTTACGCAGGGTTCTTGCAGGAGAAGGTTATGGCTTT
GGCGATAAAAAAGAAAAAGAGGTTCGTTCGTTTTGGTCGCTGGGTTGCTT
TCGATGAAATATTATGAACTTTGGCAAGCGCTGATGGCGAGGGAGTCCCA
TAGGGTCTCGTATGCATCTGCCTGAGATACTTGCCCATGAATAAATAATT
AAGTTACACTTTGAACGGCTTACCGGAGAGGAGACGCGCTGCTTAACGTA
TGGGACAAATATTTAAACTAGTCTATTAATTGTTCACGGCATGTTGATAA
CCTATGTGGCGTCGCGTGATGTGATGGTTTTGTACACGGCACAATCGCGC
ACTGTACACTAGGGCGGAGGATGAGGCCACCTCGGCTGAGCTGACGGAGT
TTATCGAGAAAGCGAAGATGGGAGAGATCACTAACCAGGACATCCCCAAG
TTTGCGAAAATGTTCAAGGTGGAAGAGGAGATTCATAGCATCTTGTCTGT
GGCGCTGTCCTGCCGCGGTCTTACTCATAAGTATTCGATGGTCCCACACG
CGTCCCACAAGTTGTTTCCAAAAGAATCTTAGTATATGATCACCCGACGA
AACTTTGTCGGAAGATTGTGGCAACCCAGACGAAACTCCACTCGGGCATC
GTTCGATCGTGTCAAGTTGGCTTGATGTTTTAGTAGAAACTCAAGTACAC
CTAAACGTTTTGACATTTTTTCCCTCCTAACCGGGGGATGCTCAGAAGGT
CTAGGTGCGTTCTGATTTGTCTTCAAACTATAAGCGTTCAAATATCCTTC
GATCGTCGTCGGTGACCTGCCATCAGGACGAGCTCACTTTGGAGAATATC
TCGCGATCGGGACTGGTCAACATGTGTCGCTATATGGGGATATCAGGGTT
TGGGAGTAACAACTTCCTGCGCTTCCAACTACGATCGAAGTTGCGAACTA
TCACAAGGGTAAGGTTTGTTTCGGATATCTAGAAAGTTCCGACTTCGCCT
TCATTTTAACTTGAATACGACACCATGCTGCTCCATCTGTCTTGTGTGTG
TGTGTGTGTGTGTTGTCATCTCATTTATTCTGGACGTCAGACTTGTGGAC
GCACAAGCCGGGGTCACACATGAAGGTCACACAGGATTTCTCCACCTTCC
TTCTGCAGTGCTTGCCTTAATTTTTATCGCGAGAAGGATTCAGCCGTCCC
TTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGTACCCACGAAGTAATCG
TTCTCCACTTGTTGGGCATGATTTTGCGAGGGAAAATCCCAGGTCGTGTG
ACTGCACCGAGATTCGAACTCACGTCCCAACGTCATAAGGCTTCGAGGTT
ACCAACTGAACCACCGGGGCGACCGGCTGTATATGATAGTCGTGATTTGC
ATGGTCGAAAACAGGTGAAAATATGACAAAAAAAATCTATGTCACAGGAA
AGTTTGTTGTGGTTTTTGTCGTAGCTGAGCGCTAAATAGGCTTTTGAGTT
TCCTTGTTGATGTCGCTGACCTTGCAGGATGACCAGCGTATATTGTGGGA
AGGAGTGTCGAGTCTCTCGAAGCAAGAAATCCAGGTCAGTGCAGTCAGAC
CAAACCATGACGCTTTTTGATACGAAGTAGTTATTATGTTTAATGTGCGG
AGGCATTCTGGGACAGCCAAAGTCGGGAGGTCCTGAAAGCGTGACCTGCT
GCTGGTCACACTCGTTACTCCTCACGAGAAGTACGAGGGCGTGGAGGGTT
GTTGTTGTTGTTGATTCACACGTTCAGCGTATTGTCCTTGCAACTGAAGA
AACTACGGTGACACAACAAGTCAGCCATAGGCCTATCAAATACCAATCCC
GCTTGTGGTCACAAAGAGGTACGGAGGTCAACGAGTCACACCATGGTGAC
AACCCGCTATTCAGAACAACAGGGATCCAAATCGCGACAAACAGTTATGC
GACTCTACAAGTGACGGCACCGACCAATATCAAAACGGTTCATCAAACCT
CCGGGTGTGGAGGGATTGAAATGGTACTCATGACGAAAGCGATGGCACCA
ACCAATATCAAAACGGTTCATCAAACCTCCGGGTGTGGAGGGATTGAAAT
GGTACTCATGACGAAAGCGATGGCACCGACCAATATCAAAACGGTTCATC
AAATCTCCGGGTGTGGAGGGATTGAAATGATACTCATGATGAAATAATCT
CAAGCGATAGGACTCCGAATGCCACTCGAAAGGGTTCAATGTCGCACCGT
GTCGTTTGGTGTCATGCTCTTGCAGGAGGCTTGCCGAGAGCGTGGTATGC
GCGCCACGGGTCTCACCAAGCAAGGATATGCCCGGCAACTCAGCCAGTGG
TTACACCTCAGGTGCCATGAAACCCGTCCCGCTTCACCGAAGCAAAACAC
TGAACTATTATGAACATCTAAGTCGTATACACGCTACATCTACTTATCTG
CATTATCATTTGACTTCCTAAACAGCTTTTCGCCTTGCCCTCCGAAAGTT
AGAAAACTATGCATTAGTCCGTTGTTTCAGTACGTGTTGATGCACAAGTA
CTTAAGACGTTATCGTGCCTCTTTTATAACCGAATGGGTAGAGCGCCCAT
TGATAATGTGCTTCAAACATGCCTACGACATTACGACTTGTTCCTCGACG
GAGATCCCGCCAAAGCCGTAGCCTAAGGTCAAGCCCACTCTTTGGCTTTT
ACCGCTCCTCGCCCTCGGTTATCGTTCGCGTTTTGTATCATTCTTTATAC
GATGCGTAACATCATACGCCCAAGTTTAGTTCCAAGAGGAGTGTGCCTAT
TTCGTTGCTTGTCATGAGTCGACCATTCACTCTGGAGGCGCCAAACCCAT
CAAGGGCCATAGCACAGGCAATCTCCGCTATGGACAAGAGTGTTGTAACA
GAAGTGAGTGGCTCAGATCGGAACAACGATGAACCTTCGTACAGTATTGA
GACTACGCGCAATAAGTATTTTTCTGCGTTGGTTCGGTATAGCGACTCAT
GTGGCCATCTGGGTATCTCGTCATCTGGTCGAGGAGTCTTGAGTACTCCA
ATTGTTGGGGGCGTTCCGCGGCGGACGATTCCGTCTCCTTGCAATTGGGA
ATTTCCGTTGCTATACCATGGAAGGCATCGCGTGAGTTTACTGTTGCAAG
GTGGTCACTGAGAAAAAGATGTGTTGCATCCTCCTCGCTCATTCAGGTTA
TGATCGAAGCTGCTTCTGGCGTAGAGCAAGCGACGCCCGAGTACCGAGCC
AGAAAACTGGAGTCGTTGACTCGTCAAAATAAGCTCATCGAGATGGAGAA
CAAGAGCCTCGAGAAGGTTTAAAAAAATAAACATCATACATGCAAATAGT
TTTGGAGTTGGGATGACAAAGCTTTAGTATCGCTTGTTCCTTGTACCAGC
AGTATAGCATAGGGCATGCAACAGCCATGCAACACCTTTAAAAATACTAT
TAATGGACTAGTAACTGGATATTGACTATCCCCAGCAGCCCCACGGTGAA
GTAAGTCGCGCGCTATGTTTCGACTCGAAACTCGTTGCTGCTTTCAGGAG
GCTACAGCTCGTATCGATAAAAAGAGGGCCGAGGAGGCTTGTAAGGTGGA
AGAGACTCTGAAGGCAGTAAAAAGAATTGACGAGGTAAATGACGCTATAT
TGCAGTTTGCCACAGCGGGGCGTGGGGTATCGTCATTGCGCACATTGTCT
GGCGAGAACGCCATGAACCCAAATTACCCTCGGCCTATGGTTTGCGAGGA
AACTTCTACTTTCTTGGGGGGGCGGCGAGGGGGGTCGTGTACACACTCTA
TGCTTTTGAGCATCTCCAATGCATGTGCATGATGTCATCTTACGTTGCCC
AAGTGATGATGTGCTACGTACGCTTACGACCAGGCCAACGTTCAAGCAAA
GAGGGGAACGGCGCAAGACGGTGTGACCATGCCAGCAAGTGAAAAGCAGT
TCGTGACCGCTTTCGAGAGAGAAGAGAAGAGGGCGAATGGACCTTTTCTC
TCCGGAGCAGACATCCTTGGCGATCGTGTTGTAAAGAAGAACCGATAGCT
TGCCCCACCCCATTCTGGCCAAGGTTTACGGAAAGCTACTTGTCAAGCAT
ACTTGAAAGTTCGAAAATGTACGCGTATGACTTGTACCAGCGCTAACCGG
TCGACCAGATGACACTGAATTGCTTTGCCAGTTGCCGGCTGACGTGCTGC
ATGAGAAACATAATATTAGTGTTGGCACGATCTATCAACGAGAGGAGCCG
AGAGGATTCCTGCAATGGTGAGATCTCCACTCATTATTTGATGTCAAATT
GAAGGACGCATGACCTCTCTTTCGCCAAAATGACGCTGCACACGGTCACA
AAAGTGCAGCCTAGCGTCGATACTGAAAGGCAATTCCGAAATGCGGATAG
ATTAGTAGAATATTCCGACCAATAGGATACATGATAGTTTCAGTAATCGA
TCTACGATACGTGTTTGGGAGATCAGTGTTTGTCCGGTAGACTTGCACAC
CTTGATCAGTTCGCTGGGAACCATGTGGTGATCTCGTGTCGTCTGGTAGG
ACCCAAGATGTGCTTCAGCAACACTATAATAATATATCGGTCTTTTATAC
TCGTCTGACATGTGTTCATGTCCAGCCTACTCCACCCGTGTGAGACCCAT
CCCGCTCAGAGACCTTCCATTACACTAGTGGATGATTAATCGATGGTTTC
TCGAGCTTAGGAGGGCAGCGATTGGAGACTGTCGTGCTTTGTGTAATATG
GGAATTTTAGAAATTACTCCAGTTTGAGGAAGAGCGAAGGGCCACCCTGC
CGCAGGAGCTTGCGTGGCCACCGATCGGCAAGGAGCCGGAGACACCACCG
GCCGAGAGCGTTTTGAGGATAGCGCCAGTGTGTAAGGAACCACCGGCCGC
ACGAGCTCGAGGACCTCGTGACCAGCGCAATAGCCCGGGGAGGTGAGACT
GGATTTAGGGTACTGTAACCCGGAGTCAACGGGGGACCCCCCTGCAACTG
CTAGAAAGCAGGAACATCATCGGCCCGTACCACAGCACCAAGAGAGAAGT
GCGAGTACGTCAAGTACTACCGGCGGAGGAACCGGCCGAGAGCGCTGCGA
AGAAGCGCCAGTGTTATAGGAGGCACCAGTCGAAAGAAGAAACGTCGCGA
GAGCCGCAATTGCCAGGGAATCCAAGGGAGTCTGGACTACGGGAGGTCGC
CGTGGAGGCGACGTGGACTATAATAGAGGTCAAGTAAAACGCGAGTACTG
CGTTTTTTATCTGAAAAGGCATGACTACTGTCGACGAGCGCGATATCACA
AAAATGATCGCTGAGGTAGAAGTGACGAGTTGGCGTCTTCGCGAAACGAT
TCGAGTCAGGGAGCTTGCTGCGACGCTAGGGCAAATGCGTCGTTTGCTTA
TGCTCGTGGAGGAGAAGGCCTGGAAGCGAGATTTCGGCTTCGACCGTATT
GAGACGACAGTCGAGATGGATGAAAAACGTTTTCGCACCAGCCTCGTTTC
AGACCCGTTCTTCTTAGGAATATGTTCAATCCGAAGCACCTACACAACCC
TGACGAGTTTACACTTGAAATGAAAGTGGACGTCGGGCGCTTAAGGATGG
AGATTATTCTTTCACAGTCCGCGGTTGATGCGGGGTCAGAGGAACCCGGA
ACGCTGCGACGGTCGCCCGCGATCGGTTCGGGGTCAGATGAACCCGGAGT
ATCGCGAGCTCAGACGTCAACGGGTACGGAAGAAATTTCCCTCTTGGAAA
CCAGTATGGATGGTTTTTTGCATTCAAATTGCACAAGCCCTAAGCAGAAG
TGTATTCTGCTTCAGCCAGTCGTCGGGGTAGAAGACGAGAAAGAAACTAT
CACTACTACACACAAGCCGCTGTTCGCGAGGAGTTCACACGAGACCAACG
AAGAAGCAGCAGCAACAAAAGACTCAACGCAAGCAATTTGACCGGGGTCG
GTCAACAGTGAAATCATTACTCTTCTGAAGAGAGGAATGTTTTGTCGCAT
ACACTACTGTTTGGTTTGTTCAGAGTTGCCTACTAAATGTATATGGATTA
CTGGGAAAGTCTGACCAATAGGATTCATGGCAGTTCCAGCAGTCGATCTA
CGATGCGTGTTAGGTAGATCCTTAGTTGTGTTTGACCGTACCACCCTCGT
CCAGTTCGTTATGTGGACTCAAGGTGTTCTCTATATTGACTGTAGTGCCG
AGGAGGGGTCTTCAGCAAT
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Coding sequence (CDS) from alignment at A-nodosum_M_contig97:247518..280586+

>mRNA_A-nodosum_M_contig97.15.1 ID=mRNA_A-nodosum_M_contig97.15.1|Name=mRNA_A-nodosum_M_contig97.15.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=2199bp|location=Sequence derived from alignment at A-nodosum_M_contig97:247518..280586+ (Ascophyllum nodosum dioecious)
ATGAAGTTCCTTGGATTGTTTCCGTATTCGGGAACTGTGCGCGCCACAAG
ATGCTGGAGAAAGTTGTCCCAAGGCGGCGGGACGGCTATCGTTATTGTAC
ATCGTACTGTGGAATACCGTCGCATCTGGCAATGTAGCTCTAGACTCTCC
TGTAGCACCGGCACTTGTGCTCATCGTTACAATGGAACAGGTGTGACAGC
ACAGAGTCGGGTATTAAGAGAGAAACACGACCGGGCGACTTCGAGTGTTG
AAGAGCGAGAGGTCTCGTCGGCAGTGCCTATCGCGACCGTAAGAAGCAAC
TGCAACAACACGTGCACTTTCTCCTGTGGTTGCTTCCACCGACATAAAAC
ACCCTTTCTACCATCATCTACTGGTAAAAGCACACTGATTATGTGCACAA
GCAACAAGGCATCGTATTCTCAAAGTTGGGGGGAAATACAAAAAAGGTCT
GATCCATCAACAACAAATACTGTACGTTGGGTACAAGAAGGAAAGTGGGC
CGGAAATTGGCATTCGCAGCGTAGATTCGCCTCGACGATGCCTGAGCAAC
AGGACGAACGGAAATCGGATTCCTCAAATTCCAACAGCAGAAGGATCGGG
CGGGCGGGCCAGAGGGTGTTTGAGGAATCCTTCCAAGGCCAACTCAAGCC
GAGCGATAAAGAGATGGAGCTATTCAACGACAGATCTGGCTCTACCCAGA
GCTTGAAAGATCTCTACGACTTGCAAGAAGAGTACAGGCTGTACCAGACT
GCTAGGAAGGACTCGAAAGCTCTAAAGATGGAGGAAACACCAATGGCCAC
TACCCACAGAAAAAACGTGATCATCAAGCTTGAGAAGATCCCCGAGACGC
TGAGGGGCACCACAAAGATAGCTGCAAGTGCAACTGTGCGGTTTCTGTGG
GAGGTGACAACAAACCCGCTTGTGCTGAAGGATCACCTGGCTGAGGCTAA
GCACCACCTTATCGAGTTTGCCCGCCACTATTGGCTGGGGTCCAAGCTCC
TGTGGAACGAAATCAAAACCGCGAGGAGGATCGTATTGCGGATCCTCCGG
GGCCATCACATGACGAGAAGAGAGCGCAAGCAACTGCTACGGACGGCCAG
CGACATCCTCCGAATGGTCCCACTCGCGGCGTTCTTGATCATCCCGTTCA
TGGATTTCCTATTGCCGGTGGCGGTGAAACTGTTCCCGGACATGCTTCCC
TCTACATTTCAGGACCGTCTCAAGGAAGAACAGAACCTCAAGAGGGAGCT
TCGTCTTCGTCTAGCTTACGCAGGGTTCTTGCAGGAGAAGGTTATGGCTT
TGGCGATAAAAAAGAAAAAGAGGGCGGAGGATGAGGCCACCTCGGCTGAG
CTGACGGAGTTTATCGAGAAAGCGAAGATGGGAGAGATCACTAACCAGGA
CATCCCCAAGTTTGCGAAAATGTTCAAGGACGAGCTCACTTTGGAGAATA
TCTCGCGATCGGGACTGGTCAACATGTGTCGCTATATGGGGATATCAGGG
TTTGGGAGTAACAACTTCCTGCGCTTCCAACTACGATCGAAGTTGCGAAC
TATCACAAGGGATGACCAGCGTATATTGTGGGAAGGAGTGTCGAGTCTCT
CGAAGCAAGAAATCCAGGAGGCTTGCCGAGAGCGTGGTATGCGCGCCACG
GGTCTCACCAAGCAAGGATATGCCCGGCAACTCAGCCAGTGGTTACACCT
CAGTTCCAAGAGGAGTGTGCCTATTTCGTTGCTTGTCATGAGTCGACCAT
TCACTCTGGAGGCGCCAAACCCATCAAGGGCCATAGCACAGGCAATCTCC
GCTATGGACAAGAGTGTTGTAACAGAAGTTATGATCGAAGCTGCTTCTGG
CGTAGAGCAAGCGACGCCCGAGTACCGAGCCAGAAAACTGGAGTCGTTGA
CTCGTCAAAATAAGCTCATCGAGATGGAGAACAAGAGCCTCGAGAAGGAG
GCTACAGCTCGTATCGATAAAAAGAGGGCCGAGGAGGCTTGTAAGGTGGA
AGAGACTCTGAAGGCAGTAAAAAGAATTGACGAGGCCAACGTTCAAGCAA
AGAGGGGAACGGCGCAAGACGGTGTGACCATGCCAGCAAGTGAAAAGCAG
TTCGTGACCGCTTTCGAGAGAGAAGAGAAGAGGGCGAATGGACCTTTTCT
CTCCGGAGCAGACATCCTTGGCGATCGTGTTGTAAAGAAGAACCGATAG
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