mRNA_A-nodosum_M_contig112.26.2 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig112.26.2
Unique NamemRNA_A-nodosum_M_contig112.26.2
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_contig112.26.2 vs. uniprot
Match: A0A6H5KZC7_9PHAE (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KZC7_9PHAE)

HSP 1 Score: 515 bits (1327), Expect = 2.510e-161
Identity = 720/990 (72.73%), Postives = 793/990 (80.10%), Query Frame = 3 
Query:   57 SMASHQHRATKWRHIQRA-ANISALALSITSVAGDRNEPDALDKQRIPTATSLSTRDSSLVPVESNIPFFIQDPTDGLCLSGGIFKRCAVDTLWKLDRKASRRVVRRMAVKDDGEEGAKQPCLCRKSCDSATSPLRAGSCDHCGAKGWVITGDEETGYALSVGPDQPVSVSSDGIGGIDGITGIGLPTDLEQATSGVGLHG-------LCVVRDITTSMTMTVEGAKMAACREGNGLTVQFVSDEDMAAMSAPGVRLITAASDGDKRGVKRWLDQGVNVDSRDWDNLTPLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPGRGRTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLKKGGDVSVTDKDGVTTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDVNARVEASEAYKANLLVLKTAAGEGDADHSQATQTMVSGEEVEVEVEVSGXEVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGRANPNTKDKXXXXXXXXXXXXXXXXXXXXXXRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGGKQDD-NAEIIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDLRSAHGERDVHGNVGDLEGATDRTGPLKTPDAVQS--PLRDREEL 2993
            ++A  + RA  W  + R  A++S LA++ TS  G+ NE  A       T+   + R+ +     +N PFFIQDPTDGLCLSGG FKRCAVDTLWK++ +A R  +RR+AV +DGEE AKQ CL RKSCDSATS LR  SCDHCGAKGW I GD ++ Y LSVG  QPV V++      DG+    L T  EQA +GVG+ G       +C+VRD  T        A+M  C E   LT+QF S+ DMAAM APGVRLITAASDG+K+GV++WLDQGV+VDSRDWDNLTPL XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX PG+G T XXXXXXXXXXXXXXXXXXXXXXXXXXX  LKKG DVSVTDKDGV  XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX VN  V+ASE YKANLL  K+  GEGD+                      G E HT+GVTS+M+AAVGGH DV++ LVEGGADV A D++G++ALL+AVKGNFGDAASYLVE G  A+DVY+DEGG+RHSLLMDAI+VENVPFAELLV HGADV  TDEQGVTTL QAAHRGM  +CXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX     +A+P+    XXXXXXXXXXXXXXXXXXXX  R+GA+VDQQN DGHTALMFAYNGRNQVAALLSRYLEYVGGK+DD NA+IIQ SLQVH+ IIAAL+AAGA+  +LD +GNSAQDF+ +   G         + EG     G L+ P A  +  P  DR EL
Sbjct:    9 ALARGRRRAITWWRLHRVVASLSVLAITFTSARGNENEASA-------TSHLENGREGN--NSNNNKPFFIQDPTDGLCLSGGTFKRCAVDTLWKVEGEAGRHSIRRVAVLEDGEEEAKQLCLDRKSCDSATSVLRTASCDHCGAKGWDIVGDVDSSYTLSVGRVQPV-VAAAAAAASDGMA---LSTVFEQAAAGVGVGGGVAAVAQMCIVRDGET--------ARMGGCEEQTRLTLQFASEHDMAAMGAPGVRLITAASDGNKKGVRKWLDQGVDVDSRDWDNLTPLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPGKGTTGXXXXXXXXXXXXXXXXXXXXXXXXXXXLLLKKGADVSVTDKDGVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXHVNDTVQASETYKANLL--KSNTGEGDSP--------------------MGAETHTDGVTSLMVAAVGGHMDVMRALVEGGADVRAVDDQGLSALLNAVKGNFGDAASYLVEKGXXANDVYVDEGGDRHSLLMDAIIVENVPFAELLVKHGADVNVTDEQGVTTLIQAAHRGMLVICXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLLGKAKADPDXXXXXXXXXXXXXXXXXXXXXXXXLLRHGANVDQQNLDGHTALMFAYNGRNQVAALLSRYLEYVGGKEDDGNAKIIQDSLQVHTNIIAALQAAGADPGLLDTNGNSAQDFESQHPAGH--------ETEGGASGAGRLEPPRARPAVPPTGDRNEL 947
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BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A7R9U5G3_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U5G3_9STRA)

HSP 1 Score: 180 bits (457), Expect = 8.370e-43
Identity = 554/888 (62.39%), Postives = 633/888 (71.28%), Query Frame = 3 
Query:  207 SLSTRDSSLVPVESNIPFFIQDPTDGLCLSGGIFKRCAVDTLWKLDRKASRRVVRRMAVKDDGEEGAKQPCLCRKSCDSATSPLRAGSCDHCGAKGWVITGDEETGYALSVGPDQPVSVSSDGIGGIDGITGIGLPTDLEQATSGVGLHGLCVVRDITTSMTMTVEGAKMAACREGNGLT-VQFVSDEDMAAMSAPGVRLITAASDGDKRGVKRWLDQGVNVDSRDWDNLTPLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPGRGRTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLKKGGDVSVTDKDGVTTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDVNARVEASEAYKANLLVLKTAAGEGDADHSQATQTMVSGEEVEVEVEVSGXEVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGRANPNTKDKXXXXXXXXXXXXXXXXXXXXXXRYGAD-VDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGGKQDDNAEIIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFD 2864
            S+  +DS +        FF+Q   DGLCL+G  FKRCA+DTLW +  K     +    V ++  E     CL RK C  + SPLR GSC+HCGAK W I GD ETGY LS           DG                       G +  C+ RD T +M        + +C +G  L  +QF + +D+ +MS+PG R+ITAASDGD+R VK++L +GV+V++RDWDNLT LIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX      XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX                 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX    +V+A+ AY                   Q  + +  G E          E H +GVT++M+AA+GGHT+V+K+L+E  ADVTA DE   T LL+AVKGN  D A+ LVE+GA  +DV++D+ G  H+LL D+I+V N  FA LL+  GAD+   +   VT L QAAH+G+ +V           XXXXXXXXXXXXXXXXXXXXXXXXXXXXX          XXXXXXXXXXXXXXXXXXXXXX      +D QN DGHTALMFAYNG++QVA LL +Y EY+  + D+N  +I+ +L  H+ ++  L   GAN D+ D +G++A DFD
Sbjct:   15 SVQAQDSKVAKSLGPPAFFLQSSEDGLCLAGPEFKRCALDTLWYVTGKPGAYQLHHRPVDEEENE----LCLDRKVCKGSESPLRLGSCNHCGAKAWNILGDAETGYVLS----------EDG-----------------------GKN--CLQRDGTKAM--------VTSCDDGYALLFLQFTTQDDLESMSSPGARMITAASDGDERMVKKYLKEGVDVNARDWDNLTALIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX-----XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXKVQATFAYI-----------------DQIAKAIADGSE--------DVEPHKDGVTALMVAALGGHTEVVKMLLEAEADVTAADEENWTPLLNAVKGNHADLAALLVEHGANPNDVFVDDEGVEHNLLFDSILVGNEKFALLLIEKGADLSYKNSHNVTHLIQAAHKGLFNVTKALVASGKVDXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLDAQNDDGHTALMFAYNGKSQVATLLDKYTEYIKDENDNNTALIKEALTTHTKVVNLLLEGGANPDVKDKEGHTAIDFD 825
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BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A7S1GGD5_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1GGD5_CYCTE)

HSP 1 Score: 170 bits (430), Expect = 1.970e-41
Identity = 132/298 (44.30%), Postives = 171/298 (57.38%), Query Frame = 3 
Query: 2031 HTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGRANPN----TKDKXXXXXXXXXXXXXXXXXXXXXXRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGG----KQDDNAE--IIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDLRSAHGERDV 2894
            H +GVT++ +AA GGH D + VL+E  A V  +D+ G TALL A+KGN G+ A  LV+ GA  +  Y+DE G+ H+LLMDAI+VEN  FA LL+  GAD+   DE+ VTTL QA+HRG+  V                                           N N     KDK XXXXXXXXXXXXXXXXXXXX + GA V++QN DGHTALMFA+NG+NQV  L  RY +YV      K+DD     II+ +L  H+ ++  L   GA+  + D +G++A+DFD    H E D 
Sbjct:  162 HVDGVTALHVAAQGGHLDCVNVLLEAKAKVEVKDDEGRTALLLAIKGNHGEVAVELVKAGANPNTPYVDEDGDSHNLLMDAIIVENNDFATLLIEKGADLYYKDERKVTTLLQASHRGLTDVVKALLDKHGKKKDYVDDASDEGITPLIAACSEGHQEVVQLLVENKNIDVNAKDKDXXXXXXXXXXXXXXXXXXXXLKAGASVNEQNSDGHTALMFAFNGKNQVETLWERYSQYVKDDEKDKEDDGGTGPIIREALDNHTALVELLIKNGADETLKDKEGHTAKDFDF---HPETDA 456
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BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A7S2UKR6_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2UKR6_9STRA)

HSP 1 Score: 166 bits (421), Expect = 4.020e-39
Identity = 135/295 (45.76%), Postives = 172/295 (58.31%), Query Frame = 3 
Query: 2025 EVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX----GRA--NPNTKDKXXXXXXXXXXXXXXXXXXXXXXRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGG------KQDDNAE--IIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDL 2867
            E H +GVT+V +AA GGH   ++VLV  GAD T  D+   +ALL AVKGN+G+ AS LV+ GA  +  Y+D+ GE H+LLMDAI+VEN  FA LLV +G  +   DE  VTTL QA HRGM SV                                            G++  + N KDKXXXXXXXXXXXXXXXXXXXXX + GA V++QN DGHTALMFAYNG+NQV  L  RY ++V        K DD     IIQ +L  H+ ++  L  +GA++ + D +G++A DFD 
Sbjct:  325 EPHVDGVTAVHVAAQGGHLAAVEVLVAAGADATVLDQEKRSALLLAVKGNYGEVASALVKGGADPNTPYVDDDGEPHNLLMDAIIVENEEFAVLLVKNGGALYHQDEHQVTTLLQATHRGMVSVVEALLAQYDPTAHPEYLNAPSDEGITPLIAASSEGHVEIIKLLLGQSGIDVNVKDKXXXXXXXXXXXXXXXXXXXXXLKAGASVNEQNIDGHTALMFAYNGKNQVETLWERYHQFVRDSSASEEKVDDGGTGPIIQEALDNHTALVDLLLKSGADATLKDKEGHTAGDFDF 619
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BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A6U3Q8H2_9STRA (Hypothetical protein n=2 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6U3Q8H2_9STRA)

HSP 1 Score: 166 bits (421), Expect = 3.050e-38
Identity = 129/301 (42.86%), Postives = 165/301 (54.82%), Query Frame = 3 
Query: 2031 HTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX-------GRANPNTKDKXXXXXXXXXXXXXXXXXXXXXXRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVG---GKQDDNAE------------IIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDL 2867
            H +GVT+V +AA GGH + +K LV  GADVT  D+   + LL +VKGNFG+ A+ LV  GA  + VY+DE GE H+LLMDAI+VEN  FA LL+ +GAD    DE  VTTL QA+HRGMA V                                                +A+ + KDK     XXXXXXXXXXXXXXXX   GA V++QN DGHTALMFAYNG+NQV  L  RY ++V     +Q D  E            II+ +L  H+ ++  L   GA+  + D +G++A DFD 
Sbjct:  593 HVDGVTAVHVAAQGGHLECVKHLVAAGADVTILDDEERSPLLLSVKGNFGEVATELVRAGADPNTVYVDEDGESHNLLMDAIIVENDEFAILLIGNGADPYHEDENKVTTLLQASHRGMADVVKALLKRHKDAGGKEGYVDSPSDEGITPLIAAASEGHVEVVKLLIDEAKADVDAKDKDETNSXXXXXXXXXXXXXXXXLAAGAKVNEQNVDGHTALMFAYNGKNQVETLWERYNQFVNEAKAEQTDKGESEEEIDDGGTGPIIREALDNHTALVELLLKNGADEKLKDKEGHTAADFDF 893
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BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A6U4F0Y7_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A6U4F0Y7_9STRA)

HSP 1 Score: 160 bits (404), Expect = 2.580e-36
Identity = 541/872 (62.04%), Postives = 611/872 (70.07%), Query Frame = 3 
Query:  258 FFIQDPTDGLCLSGGIFKRCAVDTLWKLDRKASRRVVRRMAVKDDGEEGAKQPCLCRKSCDSATSPLRAGSCDHCGAKGWVITGDEETGYALSVGPDQPVSVSSDGIGGIDGITGIGLPTDLEQATSGVGLHGLCVVRDITTSMTMTVEGAKMAACREGNGL-TVQFVSDEDMAAMSAPGVRLITAASDGDKRGVKRWLDQGVNVDSRDWDNLTPLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPGRGRTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLKKGGDVSVTDKDGVTTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDVNARVEASEAYKANLLVLKTAAGEGDADHSQATQTMVSGEEVEVEVEVSGXEVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGRANPNTKDKXXXXXXXXXXXXXXXXXXXXXXRY-GADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGGKQDDNAEIIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDL 2867
            FF+Q   DGLCL+G  FKRCA+DTLW +  K     +   AV    +EG    CL RK+C  + SPLR GSC+HCGAK W I GD +TGY LS           DG                       G +  C+ RD +         AK+ +C +G  L T+QF + +D+ AMS+PG R+ITAASDG++R VK++L +GV+V++RDWDNLT LIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX      XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX                 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX     V+A+  Y                   Q  + +  G E          E H +GVT++M+AA+GGHT V+++L+E GADVTA DE                           A+DV+ D+ G  H+LL D+IMV N  FA LL+  GA+V   +   VTTL QAAH+G+  V              XXXXXXXXXXXXXXXXXXXXXXXXXX          XXXXXXXXXXXXXXXXXXXXXX   GAD+D QN DGHTALMFAYNG++QVA+LL +Y EYV  + D+N  +I+ +L  H+ ++  L   GAN D+ D +G++A DFD 
Sbjct:   33 FFLQSSEDGLCLAGAEFKRCAIDTLWYVTGKPGAYQLHHRAV----DEGDSDVCLDRKNCKGSDSPLRLGSCNHCGAKAWNILGDSDTGYVLS----------EDG-----------------------GKN--CLQRDGSK--------AKVVSCDDGYALLTLQFTTQDDLEAMSSPGARMITAASDGEERAVKKYLKEGVDVNARDWDNLTALIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX-----XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVKATFEYI-----------------DQIAKAIADGSE--------DVEPHKDGVTALMVAALGGHTKVVEMLLEAGADVTAVDEXXXXXXXXXXXXXXXXXXXXXXXXXXNANDVFTDDEGNEHNLLFDSIMVGNEKFASLLIAKGANVDYKNSHNVTTLIQAAHKGLFDVTKALVATGAIDMEAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSGADLDAQNVDGHTALMFAYNGKSQVASLLDKYTEYVQDENDNNTALIREALTTHTKVVNVLLEGGANPDVKDKEGHTAIDFDF 827
[Close]
BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A482RYB2_9ARCH (Ankyrin repeat domain-containing protein (Fragment) n=1 Tax=archaeon TaxID=1906665 RepID=A0A482RYB2_9ARCH)

HSP 1 Score: 149 bits (376), Expect = 1.670e-35
Identity = 141/268 (52.61%), Postives = 185/268 (69.03%), Query Frame = 3 
Query: 2025 EVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGRANPNTKDKXXXXXXXXXXXXXXXXXXXXXXRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGGKQDDNAEIIQGSLQVHSGIIAALEAAGANSDI 2828
            E H +GVT++ LAA GGH D++  LV+  A V   DE   T LL + K    + + YL+E+GA  +DVY+D+  + HSLL+D++ + NVP A LLV  GA++  TDE+GVT L QAA++G  S+     XXXXXXXXXXXXXXXXXXXXXXXXXXXXX       +++ N    XXXXXXXXXXXXXXXXXXXXXX +  D++ QN DGHTALMFAYNG+NQV  LL +Y EY+     D+ +II+ ++Q H  +++ L   GA++ I
Sbjct:   70 EPHKDGVTALSLAAQGGHLDLVHALVDAQAAVDVADEEDETPLLASFKNKHYNVSYYLLEHGANPNDVYVDDKRKMHSLLLDSVQLSNVPLATLLVQRGANLSVTDEEGVTPLIQAAYQGHNSLVMEMLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRTLLAHPQSDVNXXXXXXXXXXXXXXXXXXXXXXXXXXEHKVDINAQNTDGHTALMFAYNGKNQVETLLDKYSEYMKEMNGDSMKIIREAVQTHLDVVSLLLQYGADASI 337
[Close]
BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: W7T4W4_9STRA (Ankyrin n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7T4W4_9STRA)

HSP 1 Score: 154 bits (390), Expect = 1.450e-34
Identity = 510/892 (57.17%), Postives = 592/892 (66.37%), Query Frame = 3 
Query:  258 FFIQDPTDGLCLSGGIFKRCAVDTLWKLDRKASRRVVRRMAVKDDGEEGAKQPCLCRKSCDSATSPLRAGSCDHCGAKGWVITGDEETGYALSVGPDQPVSVSSDGIGGIDGITGIGLPTDLEQATSGVGLHGLCVVRDITTSMTMTVEGAKMAACREGN--GLTVQFVSDEDMAAMSAPGVRLITAASDGDKRGVKRWLDQGVNVDSRDWDNLTPLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPGRGRTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLKKGGDVSVTDKDGVTTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDVNARVEASEAYKANLLVLKTAAGEGDADHSQATQTMVSGEEVEVEVEVSGXEVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGRANPNTKDKXXXXXXXXXXXXXXXXXXXXXX-RYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGGKQDDNAEIIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDL-RSAHGERDVHGNVGDLEG 2921
            FF+QDP+DG CL+GG FKRCA+DTLW +  K     +    V++  EE     CL +KSC++  S +R  SC HCGA  W I GD +TGY LS G  +                                    C++R+  +  T      KM  C +     L +QF + +D+ AMS+ G RLITAASDGDK+ +K +L   V+V+SRDWD LT L XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX      XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX                 XXXXXXXX                     XXXXXXXXXXXXXXXXXXXXX    DVNARV+A+E YK  +                         E  ++    G E H + VT++++AA+GG  +V K+L+E GADV                                 +++Y+DE G  H+LLMDAI+VEN  FA+LL+  GAD+  T + G+TTL QA+H+G+  V              XXXXXXXXXXXXXXXXXXXXXXXXXX          XXXXXXXXXXXXXXXXXXXXX  ++GA+V+ QN DGHTAL FAYNG NQVA+LL +Y EYV G+ D+N +II+ +L+ H+ ++  L+ +GA+ ++ D +G++A DF   R + GE +     G  EG
Sbjct:   47 FFLQDPSDGSCLAGGEFKRCAIDTLWYVQGKPGHYQIHHRPVEETDEE----LCLDKKSCNADKSDVRLASCKHCGATNWNILGDSDTGYVLSEGDGK-----------------------------------YCLMREKGSKKT------KMVLCEKDGYTALHLQFANRDDIKAMSSVGARLITAASDGDKKLIKNYLKNKVDVNSRDWDQLTALXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX----XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTEVCKLLLAQPGVEPNAMANSXXXXXXXXXXXXXXXXXXXXXAHKADVNARVKATEDYKKYV-------------------------EDGLKAGTEGVEEHKDDVTALIVAALGGSAEVTKILLEAGADVRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPNELYVDEDGVEHNLLMDAIIVENEKFAKLLLEKGADMTQTTKHGITTLIQASHKGLGEVVRILIEGKKVNVDAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLLKHGAEVNAQNSDGHTALFFAYNGLNQVASLLDKYGEYVQGENDNNTKIIKEALETHTQVVDLLKLSGADENLKDKEGHTAADFGYKRVSSGEAEEAATTGGNEG 864
[Close]
BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A7S1FMT5_9STRA (Hypothetical protein n=2 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1FMT5_9STRA)

HSP 1 Score: 152 bits (384), Expect = 8.360e-34
Identity = 117/286 (40.91%), Postives = 160/286 (55.94%), Query Frame = 3 
Query: 2025 EVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLHAVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELLVNHGADVKATDEQGVTTLTQAAHRGMASVCXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX--GRANPNTKDKXXXXXXXXXXXXXXXXXXXXXXRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYV--GGKQDDNAEIIQGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDLR 2870
            E H +GVT++ +AA+GGH   +K L+E GADV A+D+     L++AVKGN+GD AS LVENGA  ++ Y+DE G++H+LLMDAI+VEN  FA LL+  GAD+   D+  VTTL QAAHRG+ ++                                            AN N  DK  XXXXXXXXXXXXXXXXXXXX                  FAYNGR QV  +  RY +++     Q+ +++IIQ +L  H+ I+  L   GA+  + D +G++A DF+ +
Sbjct:  587 EPHVDGVTAIHVAAMGGHLKCVKSLIEAGADVKAKDDEDKGPLMNAVKGNYGDIASLLVENGADPNETYVDENGKKHNLLMDAIIVENKEFATLLIKAGADLTYVDDHKVTTLIQAAHRGLDTIVDTLLEYGNDKLDVDAASDEGVTAIIASSSEGHKAIVDALIAAGANVNAHDKDKXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXFAYNGRTQVRTMWERYSKHLKDDSVQEGSSDIIQNALNNHTAIVDMLTNGGADLTLKDKEGHTAADFEYK 872
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BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Match: A0A7S2SDH4_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SDH4_9STRA)

HSP 1 Score: 140 bits (352), Expect = 2.720e-30
Identity = 87/217 (40.09%), Postives = 115/217 (53.00%), Query Frame = 3 
Query:  258 FFIQDPTDGLCLSGGIFKRCAVDTLWKLDRKASRRVVRRMAVKDDGEEGAKQPCLCRKSCDSATSPLRAGSCDHCGAKGWVITGDEETGYALSVGPDQPVSVSSDGIGGIDGITGIGLPTDLEQATSGVGLHGLCVVRDITTSMTMTVEGAKMAACREG-NGLTVQFVSDEDMAAMSAPGVRLITAASDGDKRGVKRWLDQGVNVDSRDWDNLTPLI 905
            FF+QDP DGLCL G  FKRCA+DTLW +  +     +    V    EE   + CL + +C    S  R GSC HCGAK W I GD+E+GY LS           DG                       G +  C+ RD T         AKM  C +G   +T+QF + +D+  M + G RLIT+ASDG+K+ VK +LD+G++V+SRDWDNLT +I
Sbjct:   51 FFLQDPNDGLCLGGAEFKRCAIDTLWYVTGRPGNYQLHHRKV----EEVEDELCLDKVNCHLPESATRLGSCKHCGAKKWNILGDQESGYVLS----------EDG-----------------------GKN--CLSRDGTK--------AKMNKCDDGYTAMTLQFATRDDIKVMESQGARLITSASDGEKKVVKEFLDEGIDVNSRDWDNLTAII 220
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig112.26.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KZC7_9PHAE2.510e-16172.73Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A7R9U5G3_9STRA8.370e-4362.39Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi... [more]
A0A7S1GGD5_CYCTE1.970e-4144.30Hypothetical protein n=1 Tax=Cyclophora tenuis Tax... [more]
A0A7S2UKR6_9STRA4.020e-3945.76Hypothetical protein n=1 Tax=Attheya septentrional... [more]
A0A6U3Q8H2_9STRA3.050e-3842.86Hypothetical protein n=2 Tax=Ditylum brightwellii ... [more]
A0A6U4F0Y7_9STRA2.580e-3662.04Hypothetical protein n=1 Tax=Phaeomonas parva TaxI... [more]
A0A482RYB2_9ARCH1.670e-3552.61Ankyrin repeat domain-containing protein (Fragment... [more]
W7T4W4_9STRA1.450e-3457.17Ankyrin n=2 Tax=Monodopsidaceae TaxID=425072 RepID... [more]
A0A7S1FMT5_9STRA8.360e-3440.91Hypothetical protein n=2 Tax=Corethron hystrix Tax... [more]
A0A7S2SDH4_9STRA2.720e-3040.09Hypothetical protein n=1 Tax=Rhizochromulina marin... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig112contigA-nodosum_M_contig112:80636..117664 +
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.D7FRY0
PFAMsAnk_2,Ank_4,Ank_5
Model size3729
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons19
Evalue2.21e-110
EggNOG OGsCOG0666@1|root,KOG4177@2759|Eukaryota
Descriptionspectrin binding
Cds size2937
COG categoryI
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig112.26.2prot_A-nodosum_M_contig112.26.2Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig112 80695..116931 +


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

Feature NameUnique NameSpeciesTypePosition
1680866518.7227437-UTR-A-nodosum_M_contig112:80635..806941680866518.7227437-UTR-A-nodosum_M_contig112:80635..80694Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig112 80636..80694 +
1680866518.9200737-UTR-A-nodosum_M_contig112:116931..1176641680866518.9200737-UTR-A-nodosum_M_contig112:116931..117664Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig112 116932..117664 +


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

Feature NameUnique NameSpeciesTypePosition
1680866518.7323875-CDS-A-nodosum_M_contig112:80694..810281680866518.7323875-CDS-A-nodosum_M_contig112:80694..81028Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 80695..81028 +
1680866518.7440395-CDS-A-nodosum_M_contig112:95635..957501680866518.7440395-CDS-A-nodosum_M_contig112:95635..95750Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 95636..95750 +
1680866518.752906-CDS-A-nodosum_M_contig112:98070..983141680866518.752906-CDS-A-nodosum_M_contig112:98070..98314Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 98071..98314 +
1680866518.763316-CDS-A-nodosum_M_contig112:99147..993241680866518.763316-CDS-A-nodosum_M_contig112:99147..99324Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 99148..99324 +
1680866518.7717185-CDS-A-nodosum_M_contig112:100209..1003321680866518.7717185-CDS-A-nodosum_M_contig112:100209..100332Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 100210..100332 +
1680866518.7800167-CDS-A-nodosum_M_contig112:100856..1010301680866518.7800167-CDS-A-nodosum_M_contig112:100856..101030Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 100857..101030 +
1680866518.7947943-CDS-A-nodosum_M_contig112:101769..1018971680866518.7947943-CDS-A-nodosum_M_contig112:101769..101897Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 101770..101897 +
1680866518.8032277-CDS-A-nodosum_M_contig112:106096..1061931680866518.8032277-CDS-A-nodosum_M_contig112:106096..106193Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 106097..106193 +
1680866518.8115184-CDS-A-nodosum_M_contig112:107200..1072841680866518.8115184-CDS-A-nodosum_M_contig112:107200..107284Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 107201..107284 +
1680866518.8217137-CDS-A-nodosum_M_contig112:108478..1085591680866518.8217137-CDS-A-nodosum_M_contig112:108478..108559Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 108479..108559 +
1680866518.83345-CDS-A-nodosum_M_contig112:109160..1092831680866518.83345-CDS-A-nodosum_M_contig112:109160..109283Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 109161..109283 +
1680866518.8414483-CDS-A-nodosum_M_contig112:109950..1101001680866518.8414483-CDS-A-nodosum_M_contig112:109950..110100Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 109951..110100 +
1680866518.8499193-CDS-A-nodosum_M_contig112:110517..1107091680866518.8499193-CDS-A-nodosum_M_contig112:110517..110709Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 110518..110709 +
1680866518.8582406-CDS-A-nodosum_M_contig112:111511..1115981680866518.8582406-CDS-A-nodosum_M_contig112:111511..111598Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 111512..111598 +
1680866518.8668556-CDS-A-nodosum_M_contig112:114355..1145561680866518.8668556-CDS-A-nodosum_M_contig112:114355..114556Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 114356..114556 +
1680866518.8756506-CDS-A-nodosum_M_contig112:115079..1152561680866518.8756506-CDS-A-nodosum_M_contig112:115079..115256Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 115080..115256 +
1680866518.8869066-CDS-A-nodosum_M_contig112:115464..1156081680866518.8869066-CDS-A-nodosum_M_contig112:115464..115608Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 115465..115608 +
1680866518.8951247-CDS-A-nodosum_M_contig112:116208..1162921680866518.8951247-CDS-A-nodosum_M_contig112:116208..116292Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 116209..116292 +
1680866518.9067683-CDS-A-nodosum_M_contig112:116709..1169311680866518.9067683-CDS-A-nodosum_M_contig112:116709..116931Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig112 116710..116931 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig112.26.2

>prot_A-nodosum_M_contig112.26.2 ID=prot_A-nodosum_M_contig112.26.2|Name=mRNA_A-nodosum_M_contig112.26.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=979bp
MASHQHRATKWRHIQRAANISALALSITSVAGDRNEPDALDKQRIPTATS
LSTRDSSLVPVESNIPFFIQDPTDGLCLSGGIFKRCAVDTLWKLDRKASR
RVVRRMAVKDDGEEGAKQPCLCRKSCDSATSPLRAGSCDHCGAKGWVITG
DEETGYALSVGPDQPVSVSSDGIGGIDGITGIGLPTDLEQATSGVGLHGL
CVVRDITTSMTMTVEGAKMAACREGNGLTVQFVSDEDMAAMSAPGVRLIT
AASDGDKRGVKRWLDQGVNVDSRDWDNLTPLIAASSQGYLDVVKILLQRG
AGVNCKDKDNITALMEASIMDHRDVVKHLLKEGAEVDAKTTTGVTALWLA
AGEGRKDVVASLIARGADVNNRREDGITAVMAASLGGHKEVVKMLVDASA
GVSQQDRDGLTALMNAAEIGAVEIVTYLLQKGADPNAMSETGFTALILAA
AGGHLDVVKTLVEKGAEINGEHPEGVNALMYGAAGAHLGVVQYLLEPGRG
RTGAEVNQLHIHGGSALLEASTSGNVGVMNLLLKKGGDVSVTDKDGVTTL
MSAASHGHLEACRVLLDAGAPLDTKSSSGGTALMFAAAAGYTDIVRLLLA
RGADVNARVEASEAYKANLLVLKTAAGEGDADHSQATQTMVSGEEVEVEV
EVSGEEVHTEGVTSVMLAAVGGHTDVLKVLVEGGADVTAEDERGMTALLH
AVKGNFGDAASYLVENGARASDVYLDEGGERHSLLMDAIMVENVPFAELL
VNHGADVKATDEQGVTTLTQAAHRGMASVCELLLEKGVDVEAMSEDGFTA
LIAGASEGHAGVVELLLEKGRANPNTKDKDGTTALMGASVRGHKGVVDVL
LRYGADVDQQNGDGHTALMFAYNGRNQVAALLSRYLEYVGGKQDDNAEII
QGSLQVHSGIIAALEAAGANSDILDDDGNSAQDFDLRSAHGERDVHGNVG
DLEGATDRTGPLKTPDAVQSPLRDREEL*
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mRNA from alignment at A-nodosum_M_contig112:80636..117664+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig112.26.2 ID=mRNA_A-nodosum_M_contig112.26.2|Name=mRNA_A-nodosum_M_contig112.26.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=37029bp|location=Sequence derived from alignment at A-nodosum_M_contig112:80636..117664+ (Ascophyllum nodosum dioecious)
TGATTAACTGCTGGGTCTAGCAGGAAGGTCAATTCTGTACAGTACTCTTC
CCCTGTTCCATGGCAAGCCATCAACACAGAGCTACCAAATGGAGGCATAT
ACAGCGAGCAGCGAATATATCTGCACTGGCGCTCAGCATCACCTCTGTAG
CTGGAGATCGCAACGAACCCGATGCACTCGACAAGCAACGAATACCAACT
GCAACCAGCCTTTCGACCCGAGATAGCTCTCTAGTACCTGTAGAAAGCAA
CATACCGTTCTTCATCCAAGATCCTACAGATGGCCTATGCCTGAGCGGAG
GCATATTCAAGCGCTGTGCGGTTGACACTCTTTGGAAGTTGGATCGTAAG
GCCTCTCGGCGGGTGGTCCGGCGCATGGCTGTTAAGGATGACGGTGAGTG
ACTTTACTTGTACTAGAACTGCTCTTATGTCAAGTCCTGTAGCGTTAAAC
GCGTGGCAGCTCACGAGCGATCCTTACTAAAAACTTACCAGTACATCATT
CATTATCTACTGTACAAGCTGAGCTCTAACCTCTGCTGTCATGCAGTTTC
TCGATCATTAGCTGCTTTCGCGTGCGCATCACCTCGATGGCTGGCCAGGG
GGCGGTTAACTTTCAATCGTGATTCCTCGTTTTCCCGTTGATGGCGCCCT
CGAACTTGTGCCCCAGCACCGACAACCCAGGTGTATAAGCCTTCCACATT
AATCTATGATTTACAGACACCCCTCTGAAATAATAACATTGAACCCTACC
AATTTTTGTTTTTCTCTACATGACTCACTACTGTAATCCGGAACTCCTAT
TATTAGTCTAAATATTTTGTACACCTGTATGATACTAATACAATTCTAGT
ACCTGCtTTTTAAAGAAAAATCTGAATGCACCTAGACCTTCTGAGCATCC
CCCAGTCAGTGGGAAAAAATGTCAAAACGTTTAGGTGGGATCAATAGCTG
AAAATACAAAACCTCTTCATGGCATTTAAACGGGTTCCCCGATGGTAATA
ACATTGGGTCAACAGTATAATGTTTGTTCCTGCTTGATGATTAATGTACT
GGTACAGTTCCCTCTCCGACCCTAATTGAATTTCCCCTGTGTTGCCCATC
AGATTATATCAACAAAGATGAACCTCACCTATATACTAATATTAGTGAGG
TTTATTTAACTTCTCTAAGACCATATAAGACATATTACTACTACTGTAGT
CCGGAACTCCCAGACAGATAAAAAGGATTGTGGTTTTGGTGTCCCTGCAT
GGTGATTAATGTAAGTGTACAGTAGTATAACGGAGGGCTTCGCCCCGATA
TTATACTGTTGGCCCGATGTGGTTACATTGGGGAACCCGTTTGATACCGT
CTATCTTGTGACCACGGCTGGATTCGTAGCGGATCAGTTAATGTGAGAAA
ACAACAACAACAACAACAACCATGAAGAGGTTTTGTCTCTACTGCCAATG
TTCCCACCTAAGCCTTTAGACATTTTTTCCCCTGAAGGTGGATGCTCAGA
AGGCTTAGATGCGTTCAGATTTTTCTTAAACTATACCAGGTAACATACTT
TGACCACTGTTCTGTGCCGGAATCACACGAAATGTATTCAGTACACTATT
AGCTCAAATATTACAGAGGAAATAGCTCATTCGTTAAATAATGTACTTTC
AAGTACGCTCTGTACTAATATAATCTAAAATCCTAGTACAAAATGTATAT
TAGGAGCACTTATAGTGTACATAGTCTACATACATACATAAATACATACA
ATAGTAGCTCTTGATCAGTGCAATGCAACTTTGTATTTATGTGTATGTAT
GTATATATGTATGGTCATCATATATAGCAGAGTATTGATCAACCGGGTAA
GGTTGCCAATCCTGCTCGTGGTCAGCTTAACAGGGAAAATGAATATTCCT
CTGTCCCCGTGCGTGCCTGAGAATTTGGTCTCGCGAAACGGGTTCAGCCG
TCCCGTCCCGCGTCAGCCTGCTCATCTTCATACGAGTTCCGCGGCGGCGT
CCATTTATGAAACCGCCATACGCCATTGGGTCAGTCCCGACTTAATCGGG
TCACGCAATTGCGTACCAATGCAACTGGTTTGTTTTGGTGTCCCTACATG
GTGATTAATGTAAGTGTACAGTGTTACGGTGGGCTTTTCCCCGATATTAT
ACTGTTGACCCTATGTGATTCCATTGGGGAACCCTTTTAATACCATGTAG
AATTTTTGTCCCTACACAAGCCATTGTTCCCACCTAAACCCTTTGACTAA
TAATTGGAAGGTTTAGATGCGTTCAGATTTTTTCTAAACTGTGTACAGTA
CTGCAGTTACCGTATAATCGAATAAATCAGTATACCAATAGTGGAGTCCT
TTGATATATTAGTACAGTGAACCTCTACGTATCCTGTTGCAAGTACGATT
ACCGGTAGTTTACAAGTACGATCGCAGTACAAGTAGGGTTAAATTGTTTG
TTTTTAAGGGAAATTGTCGAATTGTGTGTGACGGCAGTCCGCAGGTCCAG
GGCTTCCAAAAGAAGCGGGATCTAACGGGAATCGGAGACGGGACGGGAAT
GGGATTATCTCCCGTCCCGTCCCATTAAGATTTTCGAAAGACGACGTTCC
CGTCCTGTCCCGTCCCGTTCTCTCGCTCCGCTCTAAATAGCGTCGGCGGG
AACAGTTCCCGTCCCTTCGTGTTCGAGACCATGAATTCCCGTTCAATACG
CAAGTTATTACGGGAATGAATCCCGTCATAATAGTCTAATCCAGTTAGTT
CCACGTTTATTCACTCCCTTTAACTTAGACCGGGAAATCTTTTGGGATGG
TACGGGAAATGAACAAGTCTTCACTATTGTAGGAATCCTGAATCTTTCTT
GCCTGAACTTCTCGTGCGAGCATCAATCATTGATCATTAATCGGTACCGC
CTCCGATAATTTTAACATGCTATAACTATTAATATAACCCCCTTCATACC
AATAATAGTATAGTGGTCTAGTAGGTTACCTGCACATCTGCTAGTGCGGA
AGTCGTGAGTTCGATTCTTACCAAAGTCGGATTTGTGTTCTTTCTTTCGT
AACGGAAAGCGTGGGAACGTAAGTAAGCAAAATTCAACCATTGGTTGACG
AGTTGTAAGAGTGCTGAACTTGCATCGCGATAAAAAATTGCAATGCGTGA
ACCGGGAGAGATGGGAAGATCCTTTGTGACCACAAGCAGAATGGTAATTA
TGAGGTCCATCGGCTATAAGTGACATTAAAAATAAAATACAAATAAAATA
CCAAAAGTGGGCGTGGGAAAAAAGAGGCACACATGAATTGGGCCATGGTG
ATCGAAGGTAGCACCCGTTACTGGAACTATCTTAAAGTTTACTGGCCCTG
TGCCGGCGGACTCTCGGCAGTAAACGCCATCGGTACGCAATTGCGTGACC
CGATAAACCCGGGACTGACCCGATGGCGTATGGCAGTTTTAAATAAATAA
ATGGACGCCGCCGAGGAAATCGAGAGAAATCCCGTGAGGAAGCACCAGAT
CCAGCCTGCTGAGTATCGAGAATGAGCAATGAGCAGGCTGACGCGGGACG
GGACGGCCGAACCCGTCTCGCGAGACGAAGTTCTCAGGCGCGAACGGGGA
CAGGGGAGTATTCATTTTCCCTGTTCAACTGACCACGAGCAAGATTGGCA
GCCTTACCTGGTTGATCATACTCTGCTATATGTGATGACCATACATTTAC
TACAGTTGTAGCTCTACAAGTACACTCTAAAACTGAGTTGAGAGTACTGT
ACCTCAAGAAATGTCGACAACCAGCTGTTCTCCAGGCATATTTGTATCTC
CTGGGTATCAGCTGGAATTTCGCGTTCCTGTGGAGGGATAGGCGGCAAGC
GAAGTCGACATGTCTTTCCCCTGTGTTTCGAGTCCGGCTGGCGCCTACGT
TTTTTTTTAGCAATGGCCAAAAACAGGAGCTCCCGGTACTTTTTTGGCGA
AAAACGGGTGTACCTGTAACCAATAGTGGCAGAGAGTGTTGTTGGCGATA
TCTGATTGGCCAACACCGACTTGTGTACCTGAAAACAATAGTGGCAGAGA
GTGTTGTTGGCCGTATCTGATTGGCCAACACCCACTTTCTCCCGTTTTTG
GCCAAAAACGACCGGGTGCTCCCGATTGTAGCTATTTTGCTCAGCTTCCA
CCCGTTTTTGGCCATTTGATGTCCCGTTTTGGGCCATTATATGCTCCTCT
CCGGCGGGCTGTTCGACTATTATAATCGAACAGATTTGTCTTTGCAGCCT
ATGATCCCACCTGAGCGTTTTGACATGTTTTCCATCTATGTGGGATGCTC
AGAAGGTCTAGATGCGTTCAGATTTTTTTTTGAACAAAGTACAGTAGTCT
AGATGCGTTCAGATTTTCCCTTGAACAGAACAGTAATATTTTAGGTCAAT
TTTCCAACATCACCTCTATGCTCTATATCTTTAACTTGTAGACTTCCTTC
ATTGGCACCCATCCGCTCGTAGACCCAATGTAACAAATTGAGCTGTATCC
TAGTTTAAGAAAAATATGAACGCATCTAAGCCTTCTGAGCATCCACCTTC
AGGGGAAAAAATGTCTGAAGGCTTAGGTGGGAACATTGTCTGTAGAGACA
AAACCTCTTCATGGTATCAAACGGGTTCCCCAATGTAACAACATCGGGTC
AACAGTATAATATCGAGGAGAAGCCCTCCGTTATACTGTACACTTACATC
AATCTCCATGCAGGGACACGAAAACCACAATCCTTTTCTACAGTAGTAGT
AATATGGTCTTATATGGTCTTCTCGTGCCTTTTGTAATTGTTGTGTTTTG
GTGTCGTCCCTGCATGGTTGTTATTAATTTGATAGTAATGCCATGAAGAG
GTTGTATTTTTAGCCTACGAAACAACAATTTTACACACGTAGTAGAATGT
CCCTGTGGACTTGTTGTAAATGTAAATGTATTTCTCTTTACCAATTACAA
TATTGTAACATTGCTTGTGTTCTAGACTGTAAGCCCTTATTGTATTTAAT
TATTATTGTATATAATTATAAATCTATTTTAGTATGTACTAAAAATGTTT
CTGTTTTGTTTTTGTCTGGTGTCCCTGCATGGCGATTAATGTAAGTGTAC
AGCATAACGGTGGGTTTCTCCCCGATATTATACTGTTGACCCAATGTTAC
TACCATCGGGGAACCCGTTGAAATGCCATGAAGAGGTTTGTTTCGTATGC
CTATGATCCCACCTAAACGTTTTGACATTTTCCCCCCTGACTGGGGGATG
CTCAAGGTCTAGATGCGTTCAGATTTTTATTTAAACAGAAGGTCTAGATG
CGTTCAGATTTTCTTTAAACGATTGAAAATTACACCAGGGTGACGTGGAG
ATTGAGAACATTTTCTCATTTTTCTTCAAACAATTTTGGGGCCAACCATT
TATCCCCCTGTCTGTCTGGGGGATGCTCAGAAGCTTTACTAGGTGCGCTC
GGACTAGCAATAACATCAGCAGCCCGAACCACAACAAGAAGAACCTGCAA
ACATATGTCGATGGAGAGATGCATAGATTGCCGTCAGAGTCGCCAGTTGA
TGGCAGAACGCACCTTAACTCTTAATCACACACGTTAACCACCCAATAAA
ACTCGCAATAAGACGCATCTTGTTTTGGAGTATCGGCACCACGCAAAGGT
TTTCGAATAAGTATAACGAAGACGCATAGCCGATATGGACATGGACGTAG
ACTTCGTGGGAGAGGTACAATGTCGGTGCAGCATCCACAATCAGAAGGTC
TAGATGCGTTCAGATTTTCTTTTAAACACACAAAACGTTATACAACGATT
ACCCTCTTCCCTCGGTTGTCCTACATCCTACAGCAGTATTAATAGTCTAC
TGCAGTAGTATTAGCTCTAATAGTATTAGAACTGCCGGTACTTCAAATAT
GCCTGTCCACTTCATACCAATAGGGGATGTGTGGGGAAAAGAGGCGCATA
TTAATTGGTCCATGGTGACCTACCTGCCAAGGCAGCACTCGTTCGGAACT
ACCTTGAGGCTTACTGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCC
ATCGGTACGCCATTGCGTGACCCGATAGGGACTGATCTAATGGCGTCTGG
CGGTTTTAAATATATAAATGGACGCCGCCGGAGAACTCTGGAGAAATCCT
GCGAGTAAGCACCAGATTTAGCCAGAGTATGGAGATGAGCAGGCTGACGC
GAGACGGGACTGCCGAACCCGTCTCGCGAGAGAAAATTCTCAGTCGCGAA
CGCAGACAGGGAACATTATTTTTCCCTGTTCAGCTGACCACGAGCAGGAT
TGGCAATCTTACCCGATCGATCCATACTCTTGCTATATGTGTGACCATAC
ATACACTTCATTTACATACTTGCAGCTCCCTTATTTGGTGCTTTCTCCGT
CGTTTAAACAAAAATCTGAACGCATCTAGACCTATTAATTCTGAGCATCC
CCCAGTACAGGGGGGAAAATTTCAAAAGATTTATTGAGGTGGAACCATAG
GCTGCAAAGACAAAATGGCCACGATGGTAGTAACATTGGGTCAACAGTAT
CATGTCGGGGATGTTTTTATTGATGCAACCCACGCCAGTGGGAAGGTCTT
GAGAGCTTTGATGAGGATGATGTAGACCGTATAGCATTAATATCTTGACA
TTGTTGGGGGAAACACAATAGGGTGTCTATAAACGCCTAGAGACCAAAGT
ACTTGATATGTACTGGCTCAATAGAAGACGAAAGACGAAAATACTAAATT
AAGGGGCGTGTGGCCGTCAACATAGCATAACCCTGTAGAAGGGTGTAATG
CTTGACAACTCCCTAAGATTATGACAATAATCCTTCCCCTTGCATAGTAT
GATCTATACTCGAACACCCTCCCATAGATTCTACTAGACAGTAGCAACTA
TACCGCCAAAATCAGAGGGAAAAGGCGTACGAACATCAAATATCAGTCAT
ACTTCATGCCAGAGAGATGCAAAAATGATTCTACTCATTCATGTGCTTCG
AATACCCTAAAACTCAACTGTCGCAATTGTAAGATTCACGTCGCCAATTT
GTACTGACAGGTACGCGATAGACTTCAAAAACGGATAGGAAAATTTCACC
TCCCCGATAAAACAAAGCTGAAATTTGCTGATAAGTCTGAATCACATCGG
ACAAGGAAGATCGTTTTTGTGTATTTACTTGAAGACAAGAACGGTCATAG
TTCAACCGAAAAGGACTCTTTTAATCGAAATTCTGCAAATTCGTATTGGC
AAACAGTATGCGAGTATGCTAGCAGACGATACGCGAATAATTTTTCCTTG
CTTCGACAAGCAATTCAAGTGCGTAGAAAATTCTTGTTTTAGTTGGACCG
ACTAACTCCTATTGAAAACTGGAAATTCGAATCTCAAACTATAGACTAAA
TGGCCCGAGAATTACGGAGCCTGGTTATACTTGCGCTACAACCTTTCAAA
TGATGCCTATAGCAGCTAGACAAGACCGAGGCCATTATTCGAATCTGTTT
TCAGTTCACTATAGTGAAGGAAATATATTTCACGTCACCTCTGAAACACT
TTTCAAGGAGCTTTCTCAGTTCTCGTACCAAGTGTGGAAAAACAAGCTCA
CATTTGGAGTCGGAACAATGCTTCATTGTTAACTGCTTCAAACATCTTAC
AACACACGTTGCGGGCATAAGCGGTCAAGCGGTCACGAACGATATCCCTC
CCCGATACAAGCATCACTAAGCTGATTGGCGAGTTCGAAATGGCACACCT
AAACGAACACGCTGCGCGAACTAGCCCTACGTGAATATTTGGAAAATACA
AATTGCTTCCGAAAGTACACGCGCTTCACGCGCGGGGAAAAGACATGTTA
TTGAGAAATTACGGTAGTTCTATATTAACAGTTATTTGGGAGTACTAGGT
TCTCAATGCTATACTAGGCCCCGTTACTGGACTGTCATGTACTAGAGGGG
TTTGGTATATATATGATTGGGATACTGGATAGTTCATCTTGTTGTAGAAG
CCCATCACGGGCACTCACCATGTAACCTCATCGGATAATCTCTCCACGGT
AATATAAAAGGAATTGAGTCACCCTTCTTTCTTTTTCGGCCTCTGACGAA
GCTGCCGCATCCTAACACGATATATCGGGCCTGGTGCAGGCGGCGGGGTA
TTGGCGTTAGAGCATGTGTTAAGTCGGGCCGAGGGACGACTGCACATTTT
GTGAATCGGAGAGACGGTGTACAAATGTTTAAGCTGGGACCGTAAAGGAA
CGGGGACAGCGAGTGGGAGGTATGGCGTAGCTGAGCTCGTGGCCAATGGG
GACGAGACAGCTGGTATGGTAAAGCTGAGCTCGTGGCCAATGGGGACGAG
ACAGCTGGTATGGAAAAGCTGAGCTCGTGGCCAATGGGGACGAGACAGCT
GGTATGGCGTAGCTGAGCTCGTGGCCAATGGGGACGAGACAGCTGGTATG
GTAAAGCTGAGCTCGTGGCCAATGGGGACGAGACAGCTGGTATGGCGTAG
CTGAGATCGTAGCCAATGGGGACGAGACAGCGGGTATAGCGTAGCTGAAA
TCGTGGCCAATGGGGACGAGACAGCTGGTATGGCGTTGCTGGGACCGTGG
CCAAACAGGGGACGGAACAGCGTTTATGGCTTTATTGGAGAAGGATGGGG
GAATGTGACCTGACTCCCGGGCTGCAGCAAGCAGAGGATTTTTGTCTGTG
GGTGCCACTGTGTATTTTGTTTCTGAATATCAGGTGACCATTTCGACAAG
CGAGCTGGAGTGTGGGAGAAGACCTGTACAAAGCCAACGAAGAACGTCAC
CGGAGACTCTACTCTTCAACTCCTTGAAGATCATCGCTACTGTTCCCGGT
TTGAATAGGGTTGATCTGACTTGGTTCCTTGTCCTCGTACTTAGTTTATA
CTAGAAATAAGGCCCCACGTACAAACTTCAACAAGTTGTATTTTGCGTTG
AACTCAACATGTGATAACGTAGTCCGAATCACATTGAATATTAACATGTA
CATTTTGATTGGTATGAAATGGTTCTGACACCATTTTATATGATAACTAG
GTACAGCCCAATCTGATACGATAAATGGGTGATATTTCCGTATGCGTTGA
ATAGTTGCGTATTTTACGACCCGTATGACGCAATCGGATAATAAAGCTGC
GTAGAAAATGAACGAAACGTCATGACACAGATGTTGTGACGACCTCAAAC
GTAAATACTAAATTCTATACGTAATTACGTACAACTGGTTTTGAAATGAC
TTCGTTTATAAATGCTCCTGATTAGGACCGTGAGCTTTCTTGAATGGAAC
GGTAGCGAAATACTGTATTTCTCGTACCAATTTGAGTATGGTTTAAATAC
TGTATTTGCAGCCATTTCCTACTATGTTTGGGCAAACAACTTGCTCCTGT
TTGTACTGCATGTGTACAATCAAAGTATATCCGCGTTTTACCTGTGGATT
CGGGGGAAAGTTTTCTTATTTTGTCCTGGTTATTTTTTATGTTGCCACGT
TTTTCCCATGATATCCGCAATTGATCATTCGCTACTCCAACATGTACCAG
GTAGTAATCAATGATGATTTGTAATTTTGCCAACGGGACATGTCACGGCA
GGGGGGCTCTTGGTTGTTTTTATATTTGGATTGGGAAAAGTACAGTACTG
ATTACAGTACAGTACTAAAACAAAAACAATACTAGTATGTGGGTTTCCCT
TGGCATTAATATTTTCATACGCTGGGTTTTTCAACTTTTGCCTATTTTTC
TCATGGTATTAACGTACGAAATATCTGACCCTTGGGGGTGAGTTAAATAT
ATAGTATGGTTTTACATATAGCTTAAGAGAACAAGGAGATTCTATTGCGC
GCACTGTGACTTCGTGATGAATATTCGTTGATTTTTGTTTCTATGCCGCA
ATTATTGCCTCGTTTTCTACTGTTCTTGCTTTTCGCCGTTGTGTACCACA
TGACATGTTGATTCAGCGGGGAGGCCAAATTTCTCTCTATTCTAGAGTTT
GTTCTTGTCTCGAAGCCCGCTTCTACTATTGTTGTATTATTTTCTCCTAT
GTTTGGGCAGAACCGCGGGCGTTTGTACTGCTGTCGAAAATCATAGGGGG
AATGTGATGCCATGATCTTCGCCGCAGCACGATTGTGGTGCCACGATCTT
CGCCGCAGCACGAGCAATTTTCTGGCCGATTTGTTTTGGATGCTTATTCG
TGTTGACGCGTTTTCCTACGGAAACCGGGGAAATTCCACATGTCTTGTTT
TCAACTTGCGCTTGCCCCCGAGGGTAGGTGCAAACAGACGTGTTTGTATA
ACCGCGTTTTGATATCTAAAGATGACTCAAACATTTATTTGATACGTTTT
ACTTTTGAGAAAGATGAAGACAGAGGATCGGCATTCTGTGTGGTTTTGTA
GCAGTTGCAACGGAATGGCTGATCGCATCACTGTTTGTTGAGTGTTTTGA
ATGGATTGGATTTTATGTTTGGAGAGAGACATCGGAACAGGGGGGCTATT
AAATGTCTGGATATTTTGATGGAAGGAATGGTAGATTATTGGTGACTTTG
GAAGATTTGAGGTGATCGGCGGAAACTGGAATTATTGCCGTTTTACCTGG
CAATCCATGAAGAGTTTCTGAGATAGCATCTCGAACCTAGCAGGGGGGCT
ATTTGGGAGTACTAGGTTCTCAATGCTATACTAGGCCCCGTTACTGGACT
GTCATGTACTAGAGGGGTTTGGTATATATATGATTGGGATACTGGATAGT
TCATCTTGTTGTAGAAGCCCATCACGGGCACTCACCATGTAACCTCATCG
GATAATCTCTCCACGGTAATATAAAAGGAATTGAGTCACCCTTCTTTCTC
TTTCGGCCTCTGACGAAGCTGCCGCATCCTAACAACAGTTCAGCCCAGTC
TTGGGGCAATATTACGAACGATCATAAGCGTTGCTACCCTCCCGGAACTA
TCACCTACCGCGATTCATGAGTCCGCATAGACTTGCCCTCCCTTAGAGAA
CAGCATTTCAAGGAAAGAGGGGAGGCTACTTGAGCGATTTACTAAACGCA
TAGAATGGTCATATGGCGCGTTACGGTACTGCCTACAGCAGCACACGAGT
ACACTTTTCAGCATACCATATGATTACGGAGATGGTCTTGTGTCCTTGAA
GTCCTAAGACGTCCAGAAAGCAGGAGTCCACTTCGCGGAGTTGCCGTCAA
GCTGATGGCTCCAAAACGCTCATCGCTCCATGACGCTCCTCGACAACCAT
TCGCCCCTAACTTCCAATCTCCTCGGGTCGCCATGACGTCGTGACCTCCG
TTCTTCCCTCCAGTTCGTGCAGCCCCGAGCCGCCCTCGACGGCGAGACTT
TTTCCTGGCACGGCATAATAACCAGCCTTATTCCAAAGAGCCAGCGAATC
TTGTCCGAAAAAAACGCTGAAGCTCGTCTCCAGCTGCCTCAGCCCGTAAA
TCCTCGCCACAAACCAACGCGCGCCACGGTCCCAAAAACGGGCAGGCGCG
GAGGTGACCTCGAGAACCGCCTGGATCAAAGGTCATATTTTGCCTGTATT
TTGTGTCAACAACACTCCGGCAGTGTGGAGCAGCTAGTAGTCTCCAGAAG
AAGCTGCTGCTTTCGTATGAGGCGTATGGAGTCGAAGTCTTCTTACAATT
CGGCTCCAGATCTGTTTCCACGGTCGGGCAAAACCGAAGAGGTGGCTCAT
TGAGGGTGGTCTCCGAGGCTGTAGAGGCTTCGCCGATGGGAACTAAGCCA
CCAGCGGCTGTTGGTGAGCGCATCTCCATGGATAGGAGACACGACTCGGA
TGCGGCAGGGCCGCTCTCGACCACGACATCATCCCTGCAAGGGAGAGCGA
GAGGTTCGGCCTTCACGCCGAAACTGGTCGAGTTGGTAGTTGGGTCGGGT
TCAACCCGGCGTGCAGAAAAGCAATCCCCACGCATCGCTTGTACTGCAGT
TACGGCGCCCTCCGTGCGCTCGCGAGTCTTAGTGCTTGCTCGCCCGTCCG
CCTCCATGGCAAGACGTCGCTGCCGAGCTCCATGGTCCAGGCGTGTCACA
TGCTGGTCCATCTTCTTCATCTCACCAGAAATCTCGTCCAGCTTCTTGTC
CCACCGATCAAAAGCTTCTTTCATCATTCGATATACATCCTCCATCGTGG
GTTGGCCAGACCCAAGTTCTTCTTTGAGGGGGACGGGGTCATTGCCCTCG
GGGACTGCCTCGCTCGCCTTACGTAGCATGATAGGGTCTCTTGACATCTC
TTGACACGCTAGTGTATTGATGCAATCCACGCCAGGGGGAAGGTCTTAAG
AGCTTTGATGAGGATGATGTAGACCGTATAGCATTGATATCTTGACATTA
TTGGGGGAAACACAATAGGGTGTCTATAAACGCCTAGAGACCAAAGTACT
TGATACTGGCCTGGCTCTATACAAGACGATAGACGAAAAGACTGAATTAA
GGGGCGTGTGGCCCTCAACACAGCATAACCCTGTAGAAGGGTGTAATGCT
TGGCAACTCCCTAGGATTATGACAATAATCCTTCCCCTTGCATAGTATAA
TCTATACTTGAACTGTTTTCTGTGGCACAGTTCCTCTTCTAGTAACCATC
ACAAAGCTCCGCAGTGATGCCTTCGGTCCAGGCTGCCATCAATTGGCGAC
TCTGACGGCAATCTTCGCATCTTTCCGTCGACATCTGCTTGTAGGTTCTT
CTTGTTGTGGTTCGGGCTGGTGTGATTGTTAGTCCGAACGCATCTAATAA
AGCTTCTGAGCATCCCCCAGACAGGGAGATAGATGGTTGGCCCCAGAATT
GTGAAAAATGAGAAAATTTTGTCCATCTCCACGTCGCCTGGGCGAAATTT
TGCTCCCGTGTTGATCTGTTCGAGTAGTCGAGTAGCCCACTGGAAAGGAA
CATGAATTGGCCAAAAACAGGTGGAAGCTGAGCAAAGTAGCTATAATCAG
GAGCACCCGGTCGCTTTTGGCCAAAAACGGGAGAAAGTGGGTGTTGGCCA
ATCAGATATGGCCAACAACACTCTCTGTCGCTATTGTTTCCAGGTACACC
AGTTTTTGGCCCAAAAAGCACCAGGGGCTTCCGTTTTTGGCCGTTGCCCT
TTTTTTGTGGCACCAGTTGGGCACCGTGAACCTTACCCGATCCGAAGGTC
AATGTTTACGGTTAACCAGCGCACAAAAACTGCAGCACAAAAATGTGTTA
ATTTCCTGGCTTGCGTTTTCTGGTAGCCGTTATGGCCCACTAGAAAAAAG
GGGCTTGTAGAGCATTGGCCCCCTCTTTTTTTCGGCCTTCCACGTCTCAT
CGATCGCCATTTTTGAATTGAAACTTATGTGTACAATTTCTTCAGGGTAA
AGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGCTGAAGAGGG
AAAATTAATTTTCCCCTGTCCCCTTTCGCGCCTGATAATTTGGTCTCGCG
AGACGGGTTCGGCAGTCCCGTCCCGCGTAAGGCTGCTCATCTCCATACTT
AGGCTAAATCTGGTGCTTCCGTACGGGATTCCTGCCGAGTTCCGCGGCGG
CGTCCATTTATTTATTAAAACTGCCATACGCCATCGAGTCAATCCCGATT
TTATCGGGTCACGCAATTGCATACCGATGGCGTCCACTGCCGAGAGGTCC
GCCGGTACAGGGCCAGTAAACCCCAAGGTAGTTCCACACGGGTGCTGCCT
TGGCAGGTCACCATGGACCAATTAATATGCGCCTCTCTTTCCCACACCCA
CTATTGGGATAAAGTGGGCATGTTGAAAGTACCAGCGGTATGTGGTCGTT
CTATGCATTCACAGCCACCGAGCTTGTTTCTTATTTACCAGCTTTTGAGA
AGATCTAACTGCTACAGTCTCTTTATTGTATCTTAATATACCGAAGTAAG
AGGGGTTTCTTGTTATGACCTACAGTATCTCTCTCCAGCATGCAGACAAA
AAAAGAAAAATGTCGACGGAAACGGCCACCTCGCCACGACGGTCCATACT
CCTCGCACTTGTGCATCAAACCCTATTAATGACTATAATAATAACAATAA
AATAATAACAATAATATAATAACAATAAAATTATAACAATAAAAACAATA
AAATAATAACGATAAAATAATAACAATTAAATTATAACAATAAAATATTA
ACAATATCAGTATTAATAATAAACTTCGACGAAAGGGGAACCGAGAAAAA
TTAATGCCGGTACAACGTATTGAATAGGGCGACCGCGACCAATGAGCTCA
AGCCGTCGTCCTCGAAAACCCGGAAGTCGTTGTCATAGCAAGCAGAAGCC
ATATCTTACGACAGCAGTTCCGGCCCTATGCCATTAAATGTGCTGACCAA
AGTGTTGACAAGGCACTCGGGAGTGGTTCCACCGAGGCTAGCGGCAAAGT
CCTTACATTACGAGGCTCTTGAATGTGTCTTTTGTTTGTTTGTTTGCGTC
ATTTTGTTGACAAGAACGCATTAAGTGTACATGTACTGTACATGTACCAG
GTATTTACAAGTAGTAATATCGTATGTCCCCTCGTCGTACTGTTCACGGC
TATGCGCGGCCCCTCTGGTATGATGTCCCGTGTATATTGTCCTGTGTATG
ATGTCCTGTGTATTTTGTCATGTGTATGTTGTCCTGTGTAAGTTGTCCTG
TGTACTTGTGTATGGCGTCCTGTGTATGGTGTCCTGTGTATAGTGTCTTG
TGTATGATGTCCTGTGTATGGTGTCCTGTGTATGATGCCCTGTGTATGAT
GTCCTGTGTATGATGTCCTGTGTATGATGTCCTGTGTATGATGTCCTGTG
TATGATGTCCTGTGTATGGTGTCCTGTGTATGATGTTCTGTGTATGGTGT
CCTGTGTATGATGTCCTGTGTATATTTGTCCTGTGTATGTTGTCTTGCAT
ATGTTGTCCTGTGTACCTATGTATGATATCCTGTGTATGGTGTCCTGTGT
GTGGTGTCCGGTTCATGTTGTTCTGTGTATGATGTATGCTGTTGATCCAG
GCGAAGAGGGTGCTAAGCAACCTTGCCTGTGCCGCAAGAGCTGCGACTCA
GCGACATCGCCGTTGCGCGCGGGCAGCTGCGACCACTGCGGGGCGAAAGG
ATGGGTTATTACCGGGTGAGTTTATTACTTTCAACATGCCCACTGCATAC
CAATAGTGGGTTTGGGAAAAGAGAGGCGCACATTAATAGGTCCATGGTGA
TGTGCAAAGCAGCAACCGTGAGGACTTCTGGCCGTGCCGGTGGATTCTCG
GCAGTATCTGTACGCAAGACCCGATAAACTCGGCACTGACCCGATGGCGT
ATGGCGGTTCAAATAAATAAATGGACGCCGCGGCGGAATCAGGAGGAATC
TCGTGAGTAAGCACCAGATTCAGCCTGAACGTGGGGAATGAGCAGGCTGA
CGCGGGACGGGACGGCCGAACCCGTCTCGCGAGACCAAACTTTCAGGCGC
AAACGGGGACAGGTAAATATTCATTTTTCCTATTCATCGGACCACGAGCA
GGATTGGCAACCTCACCCGGTTTATCTATACTCTGCTATAAGCGATTACA
ATACATTCATACAGTACGTGGGTAAGCCATATTAATTATTAATAATAGTC
AAAGTATGAGTTCAGTATCAACATTAATAAGCTTTGGCACAGGCTGTAAG
TAGGTTTGGAACATGGTGCCATTATGATTATGATACAGCAGCAGCAATCG
TCGAGTGGGTACAGTATCTTCCTCTCCTCTCGAGTACAGTTCAGCACAGG
ACAGTTATCTATCAGTGGTCCATAAGCGTCCATCACACACCCATCATGCA
ACGGTCGTACATACATACAAACATACATACCGCCGGTACTTTCAGCATGC
CCACTTCATACCAATAGTGGGTGTGGGAAAGAGAGGCGAATATTAATTGG
TCCATGATGATCTGCCAAGGCAGCACCCGTTCGGAACTACCTTGAGGTTT
GCTGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAA
TTGCGTGACCCAGTAAACTCGGGACTGACCCGATGGCGTATGGCGGTTTC
ATAAATGGACGCCGCCGCGGAACTCGGGAGGAATCCCGTCAGTAAGCACC
AGTTTCAGCCTGAGTATGGAGATGAGCAGGCTGACGCGGGACGGGACGGC
TGAACCCGTCTCGCGAGACCAAATTCTCAGGCACGCACGGGGACAGGGGA
ATATTATTTTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACC
CGGTTGATCCATACTCTGCTATATGTGATGACCATACATACATACATACA
TACATTCATGCGACCTTACATTGTACCTACCGTACACAAAAGTACTCTAC
ACATACACACAAATGGCGCTGAGACGATAATAGCACTTCATACATGCATC
ATGGGCAACATCATATCAGTACACGCATTAGAGCTTTAGATCTATGTTGT
TGTTGTTGATTCACACATTCAGCGTATCGTCCTTGCAACTGAAGAAACTA
CGGTGACACAACAAGCCGGCCATAGACCTATCAAATGCCAATCCCGCTCG
TGGTCACAAAGAGGTACGAAGATCGAGTGGTCACAGACGCCGCCGCGGAA
CTCGGGAGGAATCCCGTAAGTAAGCACCAGATTCAGCCTGAGTATGGAGA
TGAGCAGGCTGACGCGGGACGGGACTGCCGAACCCGTCTCGCGAGACCAA
ATTCTCAGGCACGAACGTGGACAGGGAAATGTTCAGCTGACCACGTGCAG
GACTGGCAATCTTACCCGGTTGATCCATACTCTTGCTATATGTATAACTA
ACATCATGGTGACAGCTCGCTACTCAGACCAACAGGGATCCAAATCGCGA
CAAAATCCTTCCCAGGTCCAACCAACCGAGAACATCGGAAACTTATCGGC
GTCGAAAGACGTGTCTTTTGTGGTACGAACTACAGTTTCTACTGTCTAGA
GTGTGTGTGTGTTTTCTTCCCATCCATTCTGGACATCAAGTTCGTTGGAC
GTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTTTAATCCA
CATTCCTTCTGCGGTGCGTGCCTTGATTTTTGTCGCGAGAAGGATTCAGC
CATGCCTTTCCCTCGTTGACCGTGAAGTCGAATTTAGTGCTGCCAGTATT
TTAGAATCTGAATTACAACACATGGTGTTCACACGATAGCCCCCATCGTG
CACACACATACACACGGCGTATTCATGCGTATTCATTCGTATTCATTCGT
ATTCACTCGTTTTCATTCGTATTCATTCGTATTCATGCGTATTCATTCGT
ATTCATTCGTTTTCACTCGTATTCATGCATATTCATTCGTATTCATTCGT
ATTCACTCGTATTCATTCGTATTCACTCGTATTCACTCGTTTCATTCGTA
TTCATTCGTCTTCATTCGTCTTCATTCGTATGCAGGGATGAGGAGACGGG
CTACGCGCTTTCGGTAGGACCCGACCAGCCAGTATCGGTCTCATCAGATG
GAATTGGTGGAATCGATGGAATTACTGGAATTGGACTGCCGACGGATCTG
GAGCAAGCCACCAGTGGGGTGGGATTACATGGCTTGTGTGTTGTAAGGGA
TATTACTACGAGTATGACTATGACTGTGGAGGGTGCGAAAATGGCTGCAT
GCCGGGAAGGGAACGGGCTGACGGTGCAGGTGAGATAATGGGGGCTACGG
TACGGTACGCTTGCTTATCCCGTACCGTACCATCCCGTACCGTGCAGTAT
ATTAATATTGTTGGAAATTACAATACAGGACAGTACATAATATATGACGC
ATCGTTCACCTTGAGCGTGTTGACTTGTAGTGTACACTAGATTATTTTTA
TTTTCATTTTTGGGGTGTAGGTTTTTCAATATGTCCAGTATGTCCAGTAT
GATCATAAAACGTGGGGGAAAATGAGGACCAATCCAGAAGAGTTTGTGCA
CAGCTCTTTCATCGCTCGAGCCTATTATATTAATAACTGAAATTATGCCA
ATAATATGCTATTATGGTATACCTACACGTACGAAGAACCAGGTACTTTT
TTACTTGGTAGTATTTATATATGTTGTACCCACTCGTAAGTAAGGCAGAT
TTGAGCAAGAGATCTTTTTTATACTTTAATATTAATATGAATCGATATCT
GGAGTGTGGTATAGTGTACCCCAGCAACTGTAATGTTCTGAACAAGGTCC
GCAAGTGTTCCCCAAATACTATACTGTCTCAGGCACCAGTACATCGGAGC
GCGTGATGATCGTAGCCTAACCTTCCTCACATAGTGTACCGTGCTGTACT
GTACTGTAGTGTACCATGCTTCTATGACCGTCACTACTCTATTGCTCGAG
AGCTACCCAACCCATGCCCCAGTGTAAGCATCTGCCAAGCTATTCTGCTG
CATTGTGTCATTTAAACGCACGACGTCACAGCAGACGTTATAGCATCTTT
CACCACACTACACCGCACTGTCGCTTGTCGAAATGATTGTCGATTGTCGA
TTGTCTTAATAGTTTGTGAGCGACGAGGATATGGCAGCGATGAGTGCTCC
AGGAGTGCGGTTGATCACAGCCGCCAGCGATGGAGACAAGAGGGGAGTCA
AGAGATGGCTCGACCAGGGCGTGAACGTGGACTCGCGTGATTGGGACAAC
CTCACGCCTCTTATTGCGGCGTCCAGTCAAGGATATCTAGTGAGAGGAGA
ATCTATGTATGTATGTATGTATGGTCACGCATGTAGCAAGAGCATGGATC
GACCGGGTAAGGTTGTCAATCCTGCTCGTGGTCAGCTGAACAGGGAAATG
AATATTTCCCTGTCCGCGTTCGCGCCTGAGAATTTGGCCTGGTCTCGCGA
GACGGGCTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCATCTCCATACTCA
GGCTGAATCTGGTGCTTACTTACGGAATTCCTTCCGAGTTCCGCGGTTTC
CGCGGCTGCGTCCATTTATTTATTTTAAACTGTCATACACCATCGGCTCA
GTCCCGTGTTTATTGGGTTACGCAATTGTGTACCGATGGCAGTCCGCTGG
CACAGGACCAATAAATTTTAAGGTAGTTGCGAACGAGTGCTGCCTTGGCA
GGTCACCATGGACCAACTAATATGCGCCTCTTTTTCCCACACCCACTGTT
GGTATGAAGTGGGCATGTCGAAAGTACCGGCGTAATAAAAAAAAGTATGG
ACTAGTCAAGTCTATTAATAGTAGAGGAAAGGCATCCAGCGACGGGACTT
TGTACATACTCCATACTTGTGTCAATAGTCAGAAAGCAGACACCTATTAT
CAATACTGTCAATGCTCTTGATACTATTGATACCACTAATAGTATTAAAA
TATTGATAATATAGTAGTAGTGAGTGGCGTGCATGTGATGGAATGTCTAT
GTCGAGCATGGTGATTATACCAGATATACACAAGAGAAGAGAGCGAAGCC
AAGGCTACATCGTACCTGATATAATACTATTCTAAAGTAGTATCATAGAT
CTAGTATCATAGATCCTGTCGTTCATCACGTATAGTGTCGAGTACCAACG
TGCACACAAACCCTTTGTCGGCAGGACGTGGTGAAAATTCTGCTGCAGCG
AGGGGCAGGGGTGAACTGTAAGGACAAGGACAACATCACCGCCCTCATGG
AGGCATCCATCATGGACCATAGGGATGTAGTAAAGCATCTCTTGAAGGTG
ATTGTTAATAGGTTATCTTTACGAATCTAGATGAATCTCAAATGAATCTA
TGAATCTCAATTGCTCATCCTTACGGCGACGATGCCTTTTATCCTTTATC
CTTTGAGATTCCTGTATAATGATAGATCTACTTTCAAGTGGTTCAGATTT
CCCAAGGGAGTATGACGACTATACTAGATTAGATTAGATTAGATTATGTA
AGTTAGTTGTTGTCATGCAAAGTTAGGTTGTGTAAGTCTTTTTTTTTTCG
TGAAGTCTAGCCGCGCGGCGATGGTCAAACGTCGCCACGAGGACCTGATA
TACCATCGCGCTTGATTGATTCCGTCCCATTTCAAACTTTTACTCTATAA
ATAGGTGATACGCAATACCCTGTAGTAGAAGACACTGTCCTTCGTATACG
GTACACTACCCAAGATGTACTGCTGTCTATACTTGTGTTTATACTTGTAT
ATACGGAGTATTGTACCTATACTGTTGTGTACGGCACATGACATATGGCA
TACATGGTACATATGGTACAGGAAGGGGCTGAGGTGGACGCGAAAACAAC
GACCGGGGTTACAGCGCTGTGGCTGGCAGCCGGAGAGGGTCGGAAGGACG
TGGTGGCCTCTCTGATCGCCAGGGGGGCTGACGTGAACAACCGCAGAGAA
GACGGGATCACCGCCGTCATGGCCGCCTCACTCGGGGGTCACAAGGTGGG
AGGGAGGGAGGGAGGGAGGGAGGGAACAGTACTATCAATACTATAATTAC
TATATTTACTATAATTACTATCATTACTATCTATACTATCATCACTATGA
CTACTATCGCTACTATCGTGACTATCAAAACTGTAGTGTGTAGTGTGAGT
GCTTGCATACAGACACCTTGTGCAGGTACGTACGGTATTATTCTTAATGA
ATGTTAATGTCAATAGTTACAGTGTTGATAGTCTATAATGTGACGTTTTT
TGTTAATAGTTACAGTGTGTGGGCTACAGTTCAAATTGTTAAGGTCAGTC
TTTGATGACTCACTAAACGTCACTCTTGTTCCGCAGCACGGCGGTGATAG
TATCTATAGCATTGATAATATTGATAGCATTGATAGTATTGATAATATTG
ATAGTACGCCGCTCTTGTCCAGCAGCACGGTGAATGTCGGTGGGTTGGCG
ATTTGGACCAGATGGTGATCGTCGTCCGTCTTGACTGCAAGTATACCGCA
CGAAACTGCCCCATGCCCTATTCTAAACTTAGGACACTAAACTAGTGTGC
ACTACAGCGCATACTTGGCTGTTGTAAGGCACGCGTATCCTGAAACATAA
CCAACATGACGTGGCACGAGATACTTTGTAGATACTGTACACGACCACAC
AAGCGCGACATGTAGATGCACGGTACGAATTCTGTAGTCAGTAATGTACA
GTAATATACAGTAATATGTTGACGTTTTTGACAGGAAGTGGTGAAGATGC
TAGTGGATGCATCGGCGGGAGTTTCTCAACAAGATCGCGACGGACTTACC
GCGCTCATGAACGCGGCAGAAATCGGCGCGGTGGAGATCGTAACGTACCT
TCTACAAAAAGGGTAAGTGTAACGTTAACGTTATCGGTAACGGTAACGGT
TTTATCGGTAACGGTAACGTTAAAAGTAAAGGTGGGAATGAAAGACAACG
GTAACGTAATTGTAACGGTAATTGTAACGGAAATTGTAACGGTAACGGTG
GGAGTGAAGCCCTCAAGTGCTGTTCTGTACTGTACTGTACTGTATACAAT
TTCCGGACCGTATTGTGCTGTCTTGTATTTTAGTGAGTTGTGATGTTGTG
AGGCGCTGCTGTACTATTAGGCTCTAGAATGTAATAGAGCTACTGTACGC
TGTTTGTAGAAGTCTACTGCACTGTAAAAGGTCGGACAGTTACTGTTGAC
AGTTACTGTTGCACGAAGGAAGCAATGTCATATGCCTTTGACCCTTTGAC
CCTTTGATCCTTTGATCAATGTACCTCCCCCTATCACCTCGGCGTTGAAA
AATGCAACAAATAACAAAACATTGGGGAACCATTTCAGTACCATGTAGAG
TTTTTGTCCCTACAGCCAATGTTCCCACCCAAACCTTTTGACAGATTAGA
AGGTTTAGATGCGTTCATATTTTTCCTTAAATAACGCGATTCATACTTGG
TACGGATTATAAAATTATTAATAATAATAAAACAAAAGTAATGTGGTGAA
CTTTGTAGGTTTGATGATCGACATTCGCGCGTTTTGCACCCGGGACGCTT
TAGCTCTGCATGCGTACATATACATATACTATTCAATGGACATTTACTAC
ATAGTGTATGCAGTATATTTCCACGGTTCGCCGTGGGTCTAAAATGTGAG
GCACTCTCAGTACGGAGCGGTTTTCTTGTTTTCGCCTACAGTAAAGGGGT
TGGTTATTCTGTAGGATTTATCGCCCCACGTGAAATTTAAGCATTATTAT
CAGTATTATCATTATTATCATTATCATCATTATCATTATTACCAGTGTTA
TCATTATCATCATTATCATCATTATTATTATTGTTATCAGTATTATCAGT
ATTATCACTATTATCATTATCATCATTATCATTATTATCATTATTATCAC
TATTATTATCATCATTGTTATCAGTATTCTCAGTATTATCACTATTATCA
TTATCAGTATTATCATTGTTATCATTATCATCATTATCATTATTATCATT
ATTATCATTATCATCATTATCATTATTACCAGTGTTATCATTATCATCAC
TATCATCATTATTATTATTGTTATCATTATTATCAGTATTATCACTATTA
TCATTATCATCATTATCAGTATTATCATTATTATCACTATTATCATCATC
ATTGTTATCAGTATTCTCAGTATTATCACTATAAATATTATCATGCATTA
TCATTATCAGTATTCTCAGTATTATCACTATTATCATTATCACTATTATC
ATTATTATTACTATTATCATCATCATTGTTATCACTATTCTCAGTATTAT
CACTATTAATATTATCATGCATTATCATTATCACTATTATCATTATTATC
ACTATTATCATCATTGTTATCATTATTATCATCATTATTGTTATCAGTAT
TCTCAGTATTATCACTATTAATATTATCATCATTATCATCATTATCAGTA
TTATCATTATTATCACTATTATCATCATCATTGTTATCAGTATTCTCAGT
ATTATCATTATTATCAGTATTATCATTATTATCACTATCATCATCATCAT
TGTTATCAGTATTCTCAGTATTATCACTATAAATATTATCATGCATTATC
ATTATCAGTATTCTCAGTATTATCACTATTATCATTATCACTATTATCAT
TATTATTACTATTATCATCATCATTGTTATCACTATTCTCAGTATTATCA
CTATTAATATTATCATGCATTATTATCATTATCACTATTATCATTATTAT
CACTATTATCATCATCATTGTTATCACTATTATCATCATCATTGTTATCA
GTATTCTCAGTATTATCACTATTAATATTATCATGCATTATCATCATTAT
CCATATTATCATTATTATCACTATTATCATCATCATTGTTATCAGTATTC
TCTGTATTATCATTATTATAAGTATTATCACTATTATCATCATCATTGTT
ATCAGTATTCTCAGTATTATCACTATAAATATTATCATGCATTATCATTA
TCAGTATTCTCAGTATTATCACTATTAATATTATCATGCATTATTATCAT
TATCACTATTATCATTATTATCACTATTATCATCATCATTGTTATCAGTA
TTCTCTGTATTATCATTATTATCAGTATTATCACTATTATCATCATTGTT
ATCAGTATTCTCAGTATTATCACTATAAATATTATCATGCATTATCATTA
TCAGTATTCTCAGTATTATCACTATTATCATTATCACTATTATCATTATT
ATTACTATTATCATCATCATTGTTATCACTATTCTCAGTATCATCACTAT
TAATATTATCATGCATTATTATCATTATCACTTTTATCATTATTATcaCT
ATTATCATTATCACTATTATCATTATTATTACTATTATcATCATCATTGT
TATCACTATTCTCAGTATCATCACTATTAATATTATCATGCATTATTATC
ATTATCACTATTATCATTATTATCACTATTATCATCATCATTGTTATCAG
TATTCTCGGTATTATCATTATTATCAGTATTATCATTATTATCACTATTA
TCATCATCATTGTTATCAGTATTCTCAGTATTATCACTATAAATATTATC
ATGCATTATCATTATCACTATTATCATTATTATTACTATTATATCATCAT
TGTTATCACTATTCTCAGTATTATCACTATTAATATTATCATGCATTATT
ATCATTATCACTATTATCATTATTATCACTATTATCATTATTATCACTAT
TATCATTGTTATCACTATTATATCATCATTGTTATCACTATTCTCAGTAT
TATCACTATTAATATTATCATGCATTATCATCATTATCAGTATTATCATT
ATTATCACTATTATCATCATCATTGTTATCAGTATTCTCTGTATTATCAT
TATTATCACTATTATCACTATTATCATCATCATTGTTATCAGTATTCTCA
GTATTATCACTATAAATATTATCATGCATTATCATTATCAGTATTCTCAG
TATTATCACTATTATCATTATCACTATTATCATTATTATTACTATTATCA
TCATCATTGTTATCACTATTCTCAGTATTATCACTATTAATATTATCATG
CATTATTATCATTATCACTATTATCATTATTATCACTATTATCATCATTA
TCATTATCAGTATTCTCGGTATTATCAGTATTATCATTATCAGTATTATC
AGTATTATCACTATCATCATCATTGTTATCACTATTATCGTTATTATCAT
TATTATCATTATCATCATTATCACTATTATCATTATTATCACTATTATCA
TTATCATTGTTCTCACTATTCTCAGTATTATCACTATTATCATTATCATC
ATTATCACTATTATCACTATTATCACTATTATCATCATTGTTATCAGTAT
TCTCAGTATTATCACTATTATCATTATGATCATTATTATTATTATCATTA
TTATCGTTATTATCAGTATTATCGTTATCATTATTATCAGTATTATCAGT
ATTATCATTATGATCATTATTATTATTATCATTATTATCACTAATATCAT
AATTGTTATCAGTATTATCGTTATCATTATTATCATCATTATCGTTGTTA
TCATTATTATCACTATTCTCAGTATTATCATTATTATCATTATCAGTATT
ATCACTATCATCACTATTATTATGATGATTCGTTGATGAGGAATAAGAGT
GCTGAACTAATAACATTAACATTAACAGTAACAGTGACATCATCGCGATA
AATGGGAAGATCCCTTAGTGGACATCCACAGTAACAGGATGACAACGCTG
CAGTAGATGGGATTGGTAACCTAGCACGTTGAGGCCCATCGGCCGTAAGT
GAGACAAAAAGGGAAACACACTCTCTTCCCCTGCTGAATTGAATCGCTTC
GGCGAAGTGTTTGTCGTCGATGAACCTCGCAGATCTACCTCTTTACATGG
GCTGTAGTCTAAAACAGCGAAATCTTTTTGTGAAACCTTTCGTGAGATAT
TTTTTTTCTGCTTGTATTTTTTGTTGTTGCGTTGCACAACTTTTACTATT
ACTGTTAACAGGGCCGACCCTAACGCGATGTCAGAGACAGGATTCACGGC
TCTCATCCTGGCGGCGGCGGGGGGCCATCTGGATGTCGTCAAAACTCTGG
TGGAAAAGGTACTGTACTAATTATATCAATTGTAATGCTTACAGGCGCTA
ACTTAACTGCACAGCTAATTTTGTATTACCTTTGATGCTGTAGTCCCTAT
ACACCTGAGTCAGTCCTTATAATATATAATGGGTGGGCGGTGAGTTTGAT
CTGCGGTGTGGTATGGTATGGTATGATATGGTATAGGTAGGCAGAAGGAC
GACAGAGGTGAGGTGGATTGTGCCCCCCAGTCTCGGGTATTGCGTTGAAA
CTGTAGTCTAGAGCTATTGTATGAGGGAAATACTGTATTAAGGAAATTGT
GTATTAGTGAAATACTGTACTAATTTAGTAAAATACTGTATTAAAGTGAA
ATACTGTACTAATTTGGTGAAATACTTTAAAATAGTAATGAAATGCTGTA
ATTTGTGAAGTACTGTATTAGTGAATTATGTATTCGTGAAATACTGTATT
AGTGACTATTATATTAGTGAAATACTGTTTTAGTGACCAATAACTTGAGT
AATATAACCAATATTATTATTTTTTTCTATACTAATATTTTCTCTATTTA
ATATTAAATACTAATGAAACCTAAATTTTTTTTGGATTATACTGTCCCAA
ATTAGACCTGCCGTCGTTAAATAAAGCCCTTCAATAAGCAATTGCCAACG
GTTAGGAAAACAACTAAAACTATAACCTGAAAGACAATACTGTTTTAGTG
AAATACTGTGTTAGTGAAATACTGTATTAGTGAAATATCGTATTGGTGAA
ATACCGTATTAATGAAAAACTGCAATAGTGACGTACTGTATTAATAATAG
TGAAATACTGTATCAATAATAGTGAAATACTGCATTTTTGTAATAGTCTA
TTGTTTTAGTGTTGTATTCGTGAAATACTGGATCATACGACCTTTTTTAT
TCCCAATACCGCCGATGATCCATGATCCATGATCCATGACCGTGATCCGT
ATGATTGTTACCCGTTCCATGACCCATGACCCATGACCATCGGCTAATGA
CGGCCGGCGCCAAAGGGTGCGGAGATTAATGGCGAACATCCGGAGGGAGT
GAATGCTCTAATGTATGGGGCGGCAGGGGCGCACCTAGGTGTTGTGCAGG
TATTGCTATTAAAATATTACTAAGAGGTACTCCTTTATAAATATTATATA
CTTCCAAGTATAAAACTGATACTTTTTTTTCTTCAATATATAATACTGAC
GTTAAATTGACTCTATCAATAGCTCTATACTGTACTACATATTAGAGTAT
CATATTAGAGTATCGTATTAGAGTAGTATATGGTCACACACATAGCAGGA
GTATAGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGCTGAAC
AGGGAAAATGAGTATTTCCCTGTCCGCGTTCGTGCCTGAGAATTCGGTCT
TGCGAGACGGGCTCGATATTCCCGTCTCCCATCAGCCTGCGCATCTCCAT
ACTCAGGCTGAATCTGGTGCTTACTTACGGGATTCCTCCCGAGTTCCGCG
GCGGTGTCCATTTTTTCACTTATAACCGCCATACGCCATCGGGTCAGTCC
CGAGTTTATCGGATCACGCAATTGCGCACCGATGGCGTTCACTGTCGAGA
GTCCGCCGGCACAGGGCCAATAAACCTCACGGTAGTTCCGAACGAGTGTT
GCCTTGGCAGGTCACCATGGACCAATTAATATGCGCCTCTCTTTCCCACA
CCCACCATTGGTATAGAGGAGGCATGTTGAAAGTACCGGCGTATCTCGTG
ACGATTACCTGCACTCTGAAATCTTACTCCGTTTCCGCACTGTTTCATGT
TTTTTTTTGTGGTCAACCTTATCCCTTTCATCTGGGAGCTATTAATACTA
ATACTAATACGAATACTATTATTAATATTAATACTTGTACTTGCAAGGAT
TTGTTTCGATGCCTTGACTAGTTCGAAAACACTTGACTACATAGGATCTG
GTTCGAAGTTTTGTTACGAAAGCAGTACTACACCTCTAGAGCTACATTTG
TAGTATATATTTGTTCAGTAAATATTACAGTATATACAGTATATATTCCC
AAGAGGGTCGTGGAAGTGTTTTGTCGTCTATGAGAGGGGGAGGGAGGATG
CGCGATTCCACGGCTTTGTAACAGTAAGAGTAAGAGTAAGAGTAAGAGTA
TCGATGATCGCTTGGGTTCGACAACGGCTAGCTATACACAACATTGATAC
AGTATTTTCATGGAGCTCGTCCTTTGCTGACCTCCTATTTCGCTAACCTC
CTCCCCACCTCTGATGGTGTGGTGTGGTGTCATGTGATGCCAGTATCTGC
TGGAGCCTGGGAGGGGCAGGACTGGCGCGGAAGTGAACCAACTCCATATT
CACGGGGGATCGGCACTCTTGGAGGTGCCTCATTCTCACCCAAGATGGTT
ATAGCCATGGTCATGTTGTCATTGTCATAGTCAGAGACCTTCAAGACACG
GTACAAGGTACATTGGCCTGAGACTGAGACTGAGACTGAGACTGGAGAAA
AATACGCTCATGTTCGATTGCGACAATCTTGCCAACGTAGTGCGCTCCTG
CACAGCATCGAGCGGGAACCGAGACGTGAGCGTTAAAATCTCGGCGTTTG
TAGGATGCTGGAAAAGGACAGGATAACGTGCCAGAGGAGGCTGTTGGCTC
GTTTTTTGCGCCAGCTAGGCTAAAGCGCCTGTAAACGATATCATGTTTTA
ATAGGTCCGTTCACAGTGAAAAGGAACTCTCAAGGTAGTCAGCCCCTAGG
CCCCTAGGGGTGGAATGGTTGAGGTGGAGGCTCATATTCCTATGCCTTTG
TCACTAGTACTATGACGGAAGAAGTGTGACTATGACATTACGTAGGACTG
TGACCATATATATGGCGACATCGTGTAGCTAGGACATTAACTATGATACA
CGACTGTGTTATATCAATGATATACTATATGATATGACTTTGAAACAGTA
AGATTGTGATTGTTGGCGACAACAGGCGAGCACCTCCGGCAACGTGGGCG
TGATGAATCTGCTTCTCAAGAAGGGAGGCGATGTGTCCGTCACGGATAAG
GACGGCGTCACCACTCTTATGTCGGCCGCCAGTCACGGACACTTGGAGGT
TACAACATAAATATAAATTATACACTATACACTCTAATACAATCGCTGGT
GTCTAAAGCCACTACGACTCAATGCAATGCGCTGTGGTAGTGCGATCGAC
TCCAACTTCCAAGGTTTTGCCGGAACGTTAGCCTTGGCCTTGACGTCCCT
CTTCTGAGCTATTCCATAGGTGGTTTCTGTGGTTTCAATGGCCAACGGTC
GATGGTCGAGTTTTAATAGTCAACGGTAAAGAGATGAAGAGAGAAAGAGC
CTACGACTGGCTGACGTGTCAAACGCCGCCTCTTCCTGCTCTGTGCTGTT
TCTGCTGGAGTTTGATTGAGGATTTACCGGAGTTTGATTGATGATTGGTG
GTTTGGAGGACGACCTTTTCAGCGTGCTAGAAGGCATCACTATGAAGACT
GGCAGTGTACCGGCGCTACGGACCAGCTCAGTAGTCTTTAGTGTTATCTC
TAGGAGGGTACACTATATGAAGGTATTCGGATGAATCTTCCTTCCACTCC
CCTTCCCTCTCTCTGAAGAAACTTCTTTAACCTTTCACTCTTAACCTTTA
ACCTTTAAACTTTAACCTTTAACCTTTAACTTTTAACCTTTAAACCCGTC
ACCGCGTACTGGAGTTAATGCCCTTGACGCTGTCCGCGGTGTATGGCGTG
GGTTGTTATTGTCAGGCGTGCAGAGTGTTGCTGGACGCCGGCGCCCCGCT
GGACACGAAGTCCTCCTCGGGAGGCACCGCGCTCATGTTCGCTGCGGCAG
CAGGTTACACAGACATCGTCAGGCTCCTGCTAGCGAGGGGTGCGGATGTC
AACGCCAGGGTCGAGGTGTGACATGTGTCATGCGTCATGTGTGCTCGACG
GGCTGTCATGTGTCATGTGTGCTCGACGGGCTGTCATGCGTCATGTGTGC
TCGACGGGCTGTCAAATTCTAAGACCAAGTTAAAATGGCCTCCCAACAAG
AGTCGGAATACGTCGTGTACAGCAGCCAAAAAAGAGCTATTAATACCGTA
TGACGCCAATGGATTACCAAGCTCACGCACGGAATTGGATTGTACGGCGT
TGCATTGTACGGCATTACAGCGAGGGTTGAGGGTTGAGGGCAAAAGTGCA
CCCGACGCGAAACAGGCCGCGTTTGCTGTCAAGTCAAGTCAAGTCAAGTC
AAGTTCACTTCAACTGCACCTGCACAATAACCGCACGAAAACTCAACGGA
TCGTCGCACCGCGCACCGCACAATAACCGCAGGCATCCGAAGCGTACAAG
GCTAACCTTTTGGTGTTGAAGACCGCCGCCGGAGAAGGGGACGCAGACCA
CTCGCAGGCCACGCAGACCATGGTGTCAGGGGAGGAAGTGGAAGTGGAAG
TGGAAGTGTCAGGGGAGGAAGTGCACACGGAAGGGGTGACGTCTGTCATG
CTGGCAGCTGTCGGAGGTCACACGGTCAGTTTAGGTACAGTACAGTACAG
TACACTAACAGTACAGCACACTACACTACACTGCAGTACGCAACAGTGCA
CTACACTGCACTACACTATATTACACTGCATTACACTACAGTACACTACA
GTACAGTACAGTATCGGTAGTTCTTGGGTACTGTACCTGGTACATTGTTT
TGGCGAGAGAGTTATACCTATATAATGTAATATTAATGGTACTTGCACTG
CAGATTTGCACGCGAAATAAAGGATAACATGTTGCAAAATAAATACCTCT
GTAGCTCCAGTGTTGCAAAAGCCACACCACACCTTCAGGCTCTGAGGCGC
TCTTTGATCTTTTATCTTTGATCTTTGATCTCTAATTTTTTATCTTTGGT
TTTTGATCTTTGATCTTTGATTTTTGGTCTTTGGTTTTTGATCTTGGATT
TTGATCTTTGATCTTTGGTCGACGACAACGACGATTACTGCAGGATTACG
ACGGGCTCAAGCGTCACCTGTTGTTTTATGTATACTATTAATATTAATAC
AGTAAAATAATGAAATTTGCGCGTAACGGCGCAGTCCGGCCCTGTCATGC
CACACTATACACTATACACTAGTAATCATTCTAAGCTTCTCGTACTTGTC
CTTATGGCGGATCGATGCTTGATGTGACTGCCGTTGATGATTGATGATCA
GCGATTTATGATCGATGATTGATGCTCGATGCTCGATGATTGCTGATTAA
TGATTGCTGATTGAATGATTATTGATGATTGATGTTTGGTGTCGTTGCGT
GTGTGTGCGGTGCGTGAATGGTGCAGGATGTGTTGAAAGTGCTGGTGGAG
GGCGGCGCAGATGTTACGGCGGAGGATGAGAGGGGTATGACCGCTCTGCT
GCATGCCGTCAAGGTACCGTACTATCAACATCAATAGAATCTGACTGTGT
CGCTTTGTGTAATGACACTTGGCGTGCTTCGTGTGTTATTTTTGAGCTGT
TCAAGGCTCGCGGTTCGATGCTATGTAAATAGGATTAATTAGACTACAGC
AACTGCAGAGGTATTAAAGTGTGTCATATAAGTATTATTGTGTTTTGATA
GCATAGTTGTTGACTCTCACAGGGGTAGCTCGAAGGCGTCATTGGTAATT
GAACATGTCTAACTTTTAATGACTTGGTTGATGTGTATAACCTTTTTACA
TCCTTTTTTGTAGAACCCGCGAACTCTCGTGTGGAAGTTTCACTGGTTTA
AGGCTGTAATAAACACAGTAGGAGGTTTGCCGGCCTCGAGGCGTGTTTTT
TCCTGTTCCCGTTGGGTTTTTTTTGTTCCTATACGACAGATTCAGACTAA
ATCACCTCCTTAAACACGCGAATAAAAAAATCTCGCGACGATTGCTGCAA
TGTACCAGTAACTTATAAGACAGTTGTGAACACATTGTGAAGTAAGAGTA
CCCTGGGCACAGAGCACTGGGTCACGTGAATTGCACACCCAGCGAACCAT
AGCAGACGGGGAAAAGAGATCCCCGAAGCGTGCCCGCAACAAACCCGAGG
TGCCCCGATAACAGGCGGGAGTTGAGGGTCAGCTTGCCAATCGTGTCCAT
GGTCAGCTGAACAGGGAAAAATTTCCTTGTTCCCGTACACGCCTGAGGAT
TTGGTTTCGTGAGACAGATTTGGCCGTCCCGTCACGTGTCAGCCTGCTCA
TTCTCCACACTCCGGCTGAATCTGGTGCTTACTCACGGGATTGCTCCCGA
TGTTCACGGCGGCGCCCATATATTTCCCCACACCTACTACGATATAAAGT
ATGTTCAAAATACAAAATACAGTACTACAACTGCTGTACTGTATGGGGAC
GTCTTATGCCTGTACAAAAAAAAACTCGCGAGTACCAGTAACTTATCAGA
CAGTTTTGTTTAGAtTTTTTTGAACACATTGCGAAGTAAGAGTACCCTGG
TACAGAGCACTGGGTCACGTGAGTTGCACACCCACCGAACCACAGTCGAC
GCGGAAAAGAAATCCACGACCGTAATAACCCCAAGGTGCCCCGATAACAG
GCGGGAGTTGAGGGTACACGCTACAACAGTTGTTGTTGTTGTTGTCATCA
CATATAGCAGAATACAAATCAACCGGAAGGTTGCCAATCCTGTTCACATG
ATCAGCTGACCAGGGAAAAATTTCCTTGTCCCCCTTCCCGCCCGGAAATT
TGGTTTCGCGAGACAGATTTGGCCGTCCCGTCTCGTGTCAGCCTGCTCAT
TCTCCACACTCAGGCTGAATCTGGTGCTTAGTCACGGGATTGCTCCCGAT
GTCCACGGTATCATCCATAAATTTTCCCACACTCACTACGATACAAAGTA
TGTTCAAATACAAAATATTAGTACTATTATACTGCTGCTGTACTGACACG
TTTTGTTGTTTAAAGAAAAATCTGAATGCACCTAGACCTTCTGAGTTTGT
TGTTGTCATAACATATAGCAGAGCTTGACAAAATGGGATGCTATAACTAG
TACTCCGGAGTATACTAATAGTGGAAAGAAAGGGACTGCTGTATGGTATG
TTCCTGGTGAAAAAAATGGGTATTTTGTACATGGGGAAACTCAAAATTCA
GTTGTGGCGCGTTTAACAAATCGCATAACACAGCACTAAATGAGTTCATC
TGGGTGTAGTCTATCTCTCTCCAACGAGCGCAAGCGTTTTCAGGAGGAGA
TTGCCCTGGTACCGCGCGTCGATGAGGACCCctTCGGGGGTACTTCGGGG
GTACCCGGTGGCCTACATGCCACATACGCCAGCATATACAGAAAAACGCG
AACCGTGTCTCCTGTGCGGCATGTTTGGAGCTCGTTCAAGTTCAGACACA
GACCATAACATCTCAAGAAAGGAATGCGTCACTGTTGTGGATGCGTGGGG
GAGTAGATGGCGACGCGAGCGTTGTTCAGGATGGTGGTATCGCGTAATGC
GGTGCAATAGCTTCTCCTGTACCAGTAGGGGAAATTGAGGCTCTACTGGA
TCACTTGGATGAGCTTGGAGCCACGGTTCAGAGACACCTGCGACGAGGCG
CCACAAGTTATATCCCTATTATATCGCAAAGACTACAATATTCTGTCTCT
GCCTTATAATTTGTTCAACCCTCCGAGTCACACGAGCACGGTGGGGGTCT
CGTGCACGACCTCCGTCGAATTTGGGGGTTGACCTCAAGGCTGATACTTC
AACCTTCGAATACGAGCGACACAGGGTATGCCTAAGCGTAAAAACTTCAA
ATGACGAGCCCTCTCATGTACCTCTACACGCACGCACCTTGAGGGGCGTC
GCTCTGTTGAGTTGATGAAGCTCTCTTTGAAGCCTGTCCGCGCAAGCCGC
GTGCAGGGGTTTCAGGGGACTTATGGAGGCTCTCAATTGGTATTGACGTT
GTACCGCATGTATATAAATGTGTAACCGTTTACCTGAAATAATGAAAAAC
GGGGATGCGGGGATATTTCCTGTTTACTACAGCCTTAAAGCTTTTGCTGT
AGAAAAACAGGGGTTAGGCGGGTCGATCCCCCTCCGCCATGTGGCGGCTC
CCCCACTGCCCTCGTGACACAAAAGTGTATTGGTACTGATACTGGTAGGA
ACTACAGTACAGTACAACACGAGCATATCAACGCTGTTATCAAAGTGCGT
GGTTAAATATGGCATTGCAGGGGAACTTCGGCGATGCGGCGTCATACCTG
GTGGAAAATGGAGCGCGTGCTAGTGACGTATACCTCGATGAGGGAGGAGA
GCGGCACTCGCTTTTGATGGACGCCATCATGGTGGAGAACGTGCCGTTCG
CGGAGCTGCTGGTTAACCATGGAGCGGACGTGAAGGCGACGGATGAACAA
GGCGTCACCACCTTGACCCAGGTGCAATGTTGCCCGCACTACCGACGCCG
CGATTGACTACCGACGTCATGATTGACTACCGACTTCGTGATTGACTACC
GACGTCGCGATTGATTACCACGTCGCGATTAATGCGGTTTCTGTAATCAA
ACTACACCTGTTATTAGAAAGGTCAGACAACGTGGTACAGTACAGCCAGC
GCTAAAGCTTAATGGCTCAATGGAGGCCCTCGGAGGGTAAAGCGCTGCAT
GTTAAGTCGCGCTGATGCATACCTTGAAAGATTGTGGACCAATGTAAACA
TATGGGTTGATGTATTGCAGTAGTATGTCATTGAAGAATACCAGTAGGTT
TGTATGGCGTTGACTCCTGAGGAGGTGAACCATGTCCATGATTTTTTCCG
ACTTGATATTATTGAAACGCTCTTACCAAAGCGCTTTGTTTCTGACATGT
TGGGTATATTGTATACCCTCTAGCTTATGAGGGGCATTGTTTATTGTGTA
TTGTGTATTGTGATATCTTTTCTGTTTGGGTGGTCGTTGGGCAGGCTGCA
CACAGAGGCATGGCGAGCGTCTGCGAGTTGCTGTTGGAGAAGGGCGTGGA
CGTGGAGGCGATGTCGGAAGACGGGTTCACCGCTCTCATTGCCGGGGCTA
GCGAAGGGCACGCAGGCGTCGTGGAGCTCCTGCTGGAGAAGGGCAGAGCC
AATCCAAACACCAAAGACAAGGTACTCTACTCACTCGTGCGATCAATGAT
CAAAGATGAAAGATGAAAAATTAGCTGTAAAGGCACAAAAGGAGAGGTTA
GGGTTTGATTTGATTTGATTTGATTTGGATACGTGAAGCGATACCGTCAC
CTACACTTGGCACATGTTGACTAGTTAGTTAGATCTAGTTAGTTGATTGC
ATCGCTTGTGATCGTCTTGCACTTTAAAGGATGGTACAACGGCGCTCATG
GGCGCATCCGTACGAGGCCACAAGGGTGTTGTGGATGTGCTATTAAGGTA
CGGGGCGGACGTGGATCAACAAAATGGGGATGGACACACGGCACTCATGT
TCGCCTACAACGGGAGAAATCAGGTGAGTCCTGTTGATTTTATGGAGGCA
TTTACTTGCCCGTTGTTTCTCCCCGGTGCTGTGTGCCATGTGATGAAAAT
GTCTTGAATGCCGTGTGATGGAAATTTCTTGAATGCCGTGGGTGCACCAG
GTCGAGTGGATTACGTCTAAGGTTTCCTTCATATAGCCTTATAGTGGAGG
TGCTTATATTTTGTTGTACTCTGACTAACTGAGGTTTTGTTTTGTGTTGT
GAACTATAATAACAAGAATGACAGCATCTACTCCCTATGACGCCAAGAGG
TAATTCCCGGTATTCTTGAAGGTCACGACCAAGTCCGCGAGAGCCAAAAG
CCGTGGGCCACTCGACGATATGCAAGTGTTTGCCCGCTTCGTATCAAAGT
ACCAGATTGCGATGCCAAACTAGGCAGGCAAACGATGTACGAGTATAGCC
ACGTATCCATCTTGGGGCCGGTTACTTTTTTTGGAATACCGCAAGTCATA
CGGTTTACACAGCACGATGGATGCGATGGTGATATTTATCGCCGAGCTAG
TTCGAGGACGATCGGGCTGGACCAATACGCGGCCCTACGTCGTGCGCCGT
GACACGTTACGCTGACCAATCAGGTGGCGGCATTGCTGTCTCGATACTTG
GAGTACGTGGGGGGGAAACAAGATGATAACGCCGAAATAATCCAGGGCTC
CCTGCAGGTGAACGACTTCGGCGTCTATGACTTGCACAGCGGCAGCACAA
ACTGTGCCGTACTCTAACTGTTTCCTTGACATGACATGAAGCGATTCCAG
CGGCATGGCCGTGACGTGTTGTGCGCATTTCTGATTCGCTCGACTCGGCG
TGTGTGTGATCCAACTGCCCGTTTGAAATGATGGGGGGACTGGCCGTCGG
TACGATGCGGTGAAGCTCTAAAGAGTACCAACCGCACATATGTTACTAAT
CATATACTGCACTGGTACTGTAGAGCTATGTCGTCGCATGAAGTGCCACT
ATTTTATACATTATTGTATAGCAGAGGTGAAAATTCCATTGTCCTTTGAT
GCACCTCGTCCCCCAGTTTGCAAAACACTTGACTTGACTGACGTCACGCG
TTACACGACTATTAATGCTTGTAGGTGCACTCGGGCATCATTGCCGCCCT
AGAGGCAGCGGGGGCCAACTCTGACATCCTTGATGACGACGGTAACTCGG
CGCAAGACTTCGACTTACGAAGTGCACACGGGGAGAGGGATGTTCATGGC
AACGTGGGGGATTTGGAAGGGGCAACAGATCGAACAGGACCCTTGAAGAC
CCCAGATGCCGTGCAATCTCCCCTTAGGGATAGGGAGGAGCTGTAGGCAA
CAAATGTTCTCGTTTGGAGTCGCGCGATATCAGGTTTCCATTTCTAGAGG
TCGAATGTTTTCATGACAAGCTGACGGCGATCTGCCAGCAATTCGGTTTC
TTGCGGGGGCGAGTAACTGAAGGTTGTTCGAATATTCGAGTGCGTCGCGG
GGATAGCATGGTGTGATTGCAACGAGAACGCCAGCCGTACCCTACCCTAT
TAAATACAAGTAGTTGTTAGAATGATTGTAATTGCGTGGAGTTGGCGAAG
GCGGCTTGGGGCCCATCTTGTACCAGTATCTCTTAGCCTAATGACTTGAA
TAACGCCATCACGTCTGTCCGGCATTTCGATTTCATTATTTCCGTATGAC
TTTGCGCCATTCGACATCCAGCGAATCACCCAACATAAATACAGCTGAGC
TCTACTCCTGTAGTAAAATATGAGCTGTGTTTCGTAGGCTCGGCACTCGG
GGTATATGCGAGGTGGTCTCAGATGCGGGCGGGCGATTTGTCCCTGCTCA
TATAGTTGGTGTCCACACATTATCTTTACTACTGTCGTCCCGGGTAGCAC
ATGGCCGTGCCACATACAACTATACCCAATACAATACACAGAGCGAGCAA
GGAAGTTAGAAGTATGTAAGGAAGTAGGGCGTGGGTACAGTACATAAGCC
TAGACAGGGAGGTATTAAATCCGCCCCCCTGTGAGTAACACATGGATACT
GATATCAGCTCCCACGCAGATGAAACGGT
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Coding sequence (CDS) from alignment at A-nodosum_M_contig112:80636..117664+

>mRNA_A-nodosum_M_contig112.26.2 ID=mRNA_A-nodosum_M_contig112.26.2|Name=mRNA_A-nodosum_M_contig112.26.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=2937bp|location=Sequence derived from alignment at A-nodosum_M_contig112:80636..117664+ (Ascophyllum nodosum dioecious)
ATGGCAAGCCATCAACACAGAGCTACCAAATGGAGGCATATACAGCGAGC
AGCGAATATATCTGCACTGGCGCTCAGCATCACCTCTGTAGCTGGAGATC
GCAACGAACCCGATGCACTCGACAAGCAACGAATACCAACTGCAACCAGC
CTTTCGACCCGAGATAGCTCTCTAGTACCTGTAGAAAGCAACATACCGTT
CTTCATCCAAGATCCTACAGATGGCCTATGCCTGAGCGGAGGCATATTCA
AGCGCTGTGCGGTTGACACTCTTTGGAAGTTGGATCGTAAGGCCTCTCGG
CGGGTGGTCCGGCGCATGGCTGTTAAGGATGACGGCGAAGAGGGTGCTAA
GCAACCTTGCCTGTGCCGCAAGAGCTGCGACTCAGCGACATCGCCGTTGC
GCGCGGGCAGCTGCGACCACTGCGGGGCGAAAGGATGGGTTATTACCGGG
GATGAGGAGACGGGCTACGCGCTTTCGGTAGGACCCGACCAGCCAGTATC
GGTCTCATCAGATGGAATTGGTGGAATCGATGGAATTACTGGAATTGGAC
TGCCGACGGATCTGGAGCAAGCCACCAGTGGGGTGGGATTACATGGCTTG
TGTGTTGTAAGGGATATTACTACGAGTATGACTATGACTGTGGAGGGTGC
GAAAATGGCTGCATGCCGGGAAGGGAACGGGCTGACGGTGCAGTTTGTGA
GCGACGAGGATATGGCAGCGATGAGTGCTCCAGGAGTGCGGTTGATCACA
GCCGCCAGCGATGGAGACAAGAGGGGAGTCAAGAGATGGCTCGACCAGGG
CGTGAACGTGGACTCGCGTGATTGGGACAACCTCACGCCTCTTATTGCGG
CGTCCAGTCAAGGATATCTAGACGTGGTGAAAATTCTGCTGCAGCGAGGG
GCAGGGGTGAACTGTAAGGACAAGGACAACATCACCGCCCTCATGGAGGC
ATCCATCATGGACCATAGGGATGTAGTAAAGCATCTCTTGAAGGAAGGGG
CTGAGGTGGACGCGAAAACAACGACCGGGGTTACAGCGCTGTGGCTGGCA
GCCGGAGAGGGTCGGAAGGACGTGGTGGCCTCTCTGATCGCCAGGGGGGC
TGACGTGAACAACCGCAGAGAAGACGGGATCACCGCCGTCATGGCCGCCT
CACTCGGGGGTCACAAGGAAGTGGTGAAGATGCTAGTGGATGCATCGGCG
GGAGTTTCTCAACAAGATCGCGACGGACTTACCGCGCTCATGAACGCGGC
AGAAATCGGCGCGGTGGAGATCGTAACGTACCTTCTACAAAAAGGGGCCG
ACCCTAACGCGATGTCAGAGACAGGATTCACGGCTCTCATCCTGGCGGCG
GCGGGGGGCCATCTGGATGTCGTCAAAACTCTGGTGGAAAAGGGTGCGGA
GATTAATGGCGAACATCCGGAGGGAGTGAATGCTCTAATGTATGGGGCGG
CAGGGGCGCACCTAGGTGTTGTGCAGTATCTGCTGGAGCCTGGGAGGGGC
AGGACTGGCGCGGAAGTGAACCAACTCCATATTCACGGGGGATCGGCACT
CTTGGAGGCGAGCACCTCCGGCAACGTGGGCGTGATGAATCTGCTTCTCA
AGAAGGGAGGCGATGTGTCCGTCACGGATAAGGACGGCGTCACCACTCTT
ATGTCGGCCGCCAGTCACGGACACTTGGAGGCGTGCAGAGTGTTGCTGGA
CGCCGGCGCCCCGCTGGACACGAAGTCCTCCTCGGGAGGCACCGCGCTCA
TGTTCGCTGCGGCAGCAGGTTACACAGACATCGTCAGGCTCCTGCTAGCG
AGGGGTGCGGATGTCAACGCCAGGGTCGAGGCATCCGAAGCGTACAAGGC
TAACCTTTTGGTGTTGAAGACCGCCGCCGGAGAAGGGGACGCAGACCACT
CGCAGGCCACGCAGACCATGGTGTCAGGGGAGGAAGTGGAAGTGGAAGTG
GAAGTGTCAGGGGAGGAAGTGCACACGGAAGGGGTGACGTCTGTCATGCT
GGCAGCTGTCGGAGGTCACACGGATGTGTTGAAAGTGCTGGTGGAGGGCG
GCGCAGATGTTACGGCGGAGGATGAGAGGGGTATGACCGCTCTGCTGCAT
GCCGTCAAGGGGAACTTCGGCGATGCGGCGTCATACCTGGTGGAAAATGG
AGCGCGTGCTAGTGACGTATACCTCGATGAGGGAGGAGAGCGGCACTCGC
TTTTGATGGACGCCATCATGGTGGAGAACGTGCCGTTCGCGGAGCTGCTG
GTTAACCATGGAGCGGACGTGAAGGCGACGGATGAACAAGGCGTCACCAC
CTTGACCCAGGCTGCACACAGAGGCATGGCGAGCGTCTGCGAGTTGCTGT
TGGAGAAGGGCGTGGACGTGGAGGCGATGTCGGAAGACGGGTTCACCGCT
CTCATTGCCGGGGCTAGCGAAGGGCACGCAGGCGTCGTGGAGCTCCTGCT
GGAGAAGGGCAGAGCCAATCCAAACACCAAAGACAAGGATGGTACAACGG
CGCTCATGGGCGCATCCGTACGAGGCCACAAGGGTGTTGTGGATGTGCTA
TTAAGGTACGGGGCGGACGTGGATCAACAAAATGGGGATGGACACACGGC
ACTCATGTTCGCCTACAACGGGAGAAATCAGGTGGCGGCATTGCTGTCTC
GATACTTGGAGTACGTGGGGGGGAAACAAGATGATAACGCCGAAATAATC
CAGGGCTCCCTGCAGGTGCACTCGGGCATCATTGCCGCCCTAGAGGCAGC
GGGGGCCAACTCTGACATCCTTGATGACGACGGTAACTCGGCGCAAGACT
TCGACTTACGAAGTGCACACGGGGAGAGGGATGTTCATGGCAACGTGGGG
GATTTGGAAGGGGCAACAGATCGAACAGGACCCTTGAAGACCCCAGATGC
CGTGCAATCTCCCCTTAGGGATAGGGAGGAGCTGTAG
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