mRNA_A-nodosum_M_contig1111.13.4 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig1111.13.4
Unique NamemRNA_A-nodosum_M_contig1111.13.4
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_contig1111.13.4 vs. uniprot
Match: D7G8N3_ECTSI (Calcium/ calmodulin-dependent protein kinase 1 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G8N3_ECTSI)

HSP 1 Score: 831 bits (2147), Expect = 3.160e-276
Identity = 553/1113 (49.69%), Postives = 646/1113 (58.04%), Query Frame = 3 
Query:   84 VDSLSGIESKKHRMATGQESEDFARRYKLLEQVGSGASGTVWKCRLADG----LPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQGTRKYVRMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPWLKDLAEKPEPPP-----TQLPPARMQDMMPIVENAAFTIPEAEPASSTSAKPGAGAGKDFSRRKPYYQ--------------DGS-RGQPPVITEQQTPPSATEKNPFKFGGRTGPQIRELNSDESPFSSLDSGMGDPITADQDYGHEDANHG-----------HHASEGM--------------DECCQDHETAMVKAYRAD-LGLVGRY-GGTVPLLQLQKRITACMETSMTTYSENPEAGASLRRSATLCRENLRESVTLLRRIERTAAQARMRHYLSGKMIGEKKKCFPRVITLFPDLMLAVEEGVPELAHDFFSTVKTWVREMYAAVSLVQARNNANAEKVSEAMKIHAEGGLYRGQKQRGPGDEASRAEAATESAAFTAESQRSGGSGGLSGDIEADAGRQASDKTITVDPETFELIQKIQAMKKR-----------AKDPALRPSGFVGDDAQVEGP--------------------------------------------------------NNPIDFVSDEKLINLGGERGRGGSSSSVGEETPSQASAERNWSLEGHASGSFNSGVEQAASTFAEAALFKPTSGGASGTGSGSDLGVLDAAGKRKASGARDSSADAPPAAVGASGVADTTRVVGGHDGALAYGLAAQMSIDGGAGGLGQTTANVNTVENTS----GDEDGAEGEEDAGRWEG-MQLARLRNDDDKVFLEVQQALKVLHEVDSVLEQLALFWANSEVIFDVLLRKGDLVEKFVAFSNKPRLFQRFKERLADYKMFWEGVQVVCNRYVSGQVVNGG 3053
            VD+LSGIESKKHRM TGQ+S+DF+ RY+LLEQVGSGASGTVWKCRLA G       GG   G+DPVPG +YAAKIIDLRPFKLRERFSMQRLMREV+IMRRLRHPNII LVEALDTPEQLVL+LEYAPGVELFDAIL K SFSE EARPVFVQVARALQYMHSK IVHRD+KPENVMI+DR APDGLYPEAKLLDFGLSKAID D GGSVARTFVGTPSYLAPEVE++ GGKGKPYGT VDCWSLGAMLYVMLVARFPEFQVQG RK+VRM GAAWDKVS+EAKELIR LMAFDAG+RLTV +ALRHPWL DLA +  PP      T  P  + Q M P+ E+  F +       + +    A  G D    +PY                DG+  G+ P++TEQ+TPP+ T +  F+F   TGP IREL  DESP  SLD GMGD   AD   G +  N+             H S G+              DE  +  ETAM+  +    +GL      G VPLLQLQ RITA MET++ TYS+ P+  ASLRRSA LCRE+LRESVTLL++IERTAAQ                     VITLFPDL LAVEEG P+LA DFF+TVK+WVREMY  V++VQA N ANA +V +AMK HAE G+  G + R   +E  + +      A+ A+ +R    G  +        +   DK I +DPETFE++++IQ ++             A   A   +    + A                                                              +P + +SDEKLINL                    A    NW  +G   G    G  +++S                    G D+                             GVA               GL A+MSID GA       A +               G +G  + G W G MQLAR+   DD  + EV+QAL++L EVDSVLEQLALFWANSEVIFDVLLRKGDLVEKFVAF+NKPRL QRF+ERLADYK FWEGVQ VCN+YV G    GG
Sbjct:   14 VDTLSGIESKKHRMQTGQDSDDFSSRYELLEQVGSGASGTVWKCRLAPGNGPPKRAGGPVAGEDPVPGRIYAAKIIDLRPFKLRERFSMQRLMREVDIMRRLRHPNIIHLVEALDTPEQLVLILEYAPGVELFDAILSKASFSESEARPVFVQVARALQYMHSKSIVHRDVKPENVMIIDRTAPDGLYPEAKLLDFGLSKAIDADTGGSVARTFVGTPSYLAPEVEERKGGKGKPYGTPVDCWSLGAMLYVMLVARFPEFQVQGARKHVRMHGAAWDKVSAEAKELIRNLMAFDAGARLTVDKALRHPWLGDLAARDAPPSPLQQATAPPRNQFQGMPPLSESYEFVVSPVPAGGAKAEAAAAVGGSDSLGSQPYQXXXXXXXXXXXXXXXDGAWGGRLPIVTEQETPPAKTARKSFEFTP-TGPSIRELGPDESPLGSLDYGMGD-TAADGGGGVQSRNNKDVKEASNASPREHNSNGIGGGGNMNRSNSMQVDEPSKGGETAMISVHNHQGIGLTRPPPDGHVPLLQLQARITAVMETAVGTYSDCPQGAASLRRSAALCRESLRESVTLLKKIERTAAQ---------------------VITLFPDLTLAVEEGEPDLARDFFATVKSWVREMYTDVNVVQAHNKANAVEVGDAMKTHAEMGME-GLRLR---EEELQRQQQQGGTAYMAKGERHSAHGSANTGAAQHQNQHHGDKQIDLDPETFEVVRQIQELRNHLSRTGSSQGSAAPGAATTATATAANGAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGKSPKEIMSDEKLINL----------------FLLMAGRGPNWPHDGP--GRSTGGTGESSSXXXXXXXXXXXXXXXXXXXQGVDV----------------------------DGVA---------------GLTAKMSIDDGADAPSGQEAEMPPXXXXXWVGXXXXXGEQGGGEHGAWGGGMQLARVH--DDTCYSEVKQALQMLQEVDSVLEQLALFWANSEVIFDVLLRKGDLVEKFVAFANKPRLLQRFRERLADYKRFWEGVQSVCNKYVCGHHKCGG 1036
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A7S3HNC2_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3HNC2_9STRA)

HSP 1 Score: 354 bits (909), Expect = 1.280e-99
Identity = 299/990 (30.20%), Postives = 452/990 (45.66%), Query Frame = 3 
Query:  144 EDFARRYKLLEQVGSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQGTRKYV-RMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPWLKDLAEKPEPPPTQLPPARMQDMMPIVENAAFTIPEAEPASSTSAKPGAGAGKDFSRRKPYYQDGSRGQPPVITEQQTPPSATEKNPFKFGGRTGPQIRELNS--DESPFSSLDSGMGDPITADQDYGHEDANHGHHASEGMDECCQDHETAMVKAYRADLGLVGRYGGTVPLLQLQKRITACMETSMTTYSENPEAGASLRRSATLCRENLRESVTLLRRIERTAAQARMRHYLSGKMIGEKKKCFPRVITLFPDLMLAVEEGVPELAHDFFSTVKTWVREMYAAVSLVQARNNANAEKVSEAMKIHAEGGLYRGQKQRGPGDEASRAEAATESAAFTAESQRSGGSGGLSGDIEADAGRQASDKTITVDPE-TFELIQKI------------QAMKKRAKDPALRPSGFVGDDAQVEGPNNPIDFVSDEKLINLGGERGRGGSSSSVGEETPS---------QASAERNWSLEGHA-SGSFNSGVEQAASTFAEAALFKPTSGGASGTGSGSDLGVLDAAGKRKASGARDSSADAPPAAVGASGVADTTRVVGGHDGALAYGLAAQMSIDGGAGGLGQTTANVNTVENTSGDEDGAEGEEDAGRWEGMQLARLRNDDDKVFLEVQQALKVLHEVDSVLEQLALFWANSEVIFDVLLRKGDLVEKFVAFSNKPRLFQRFKERLADYKMFWEGVQVVCNRYVSG 3035
            +DF  +Y ++ ++G G   TV++ +              D   G  YA KI+DLRP +LRERF+  RL REV+IM+RL HPNII  V+  +  + L++V+EY PG ELFD IL +  F E++ARP+FVQ+ARAL Y+HS  I+HRD+KPENV++   P   G    AKLLDFGLSK       GS A+TFVGTP Y+APEVE    G G  Y    DCWSLGA+LYVMLVARFPEF+   + K V ++  + W  VSSEAK+LIR LM  +  +RLT+   L HPWLK               A  +++  +  ++     + +   +  A+    A    +        G R +P       T  S  E +          ++    +         + + + DP++                           E  +      D G+        PLL LQ+ I  C +    +Y + PE  + +R  A+LCRE L +S+ +LR++E+TAA                      V+++FPDL LAVEEG P+LA +FF+TVK WV+++   V+  Q+ N A+  ++   ++    G L R QKQ    ++ S      ++A              L G +E      + +  + +D +   +L   +             A      D +  P GF G    ++  +  +D  S                ++S G++TP            +A  + SL  H  S + N     A ST + +     T   AS       L  + +      S A D   D          + D  R               Q+S+D     +     N+    +   D        D  +  G   +      +     +  ALK L +VD +LE+L++FWAN+EV+ D+L +KG+ VE+FV F++KP+L  RF ER+ +YK FWE V ++C+ Y++G
Sbjct:   62 DDFGSKYDIIREIGKGGFSTVYQTK--------------DRRTGKDYAVKIVDLRPLRLRERFNPLRLRREVDIMKRLHHPNIIQFVDVFEDNDNLMMVMEYCPGQELFDVILDRKFFHEEDARPIFVQIARALYYLHSLNILHRDVKPENVLVSSIPDAQGNI-VAKLLDFGLSKNAG---NGSAAKTFVGTPCYVAPEVEYTSKGLGGTYSFPADCWSLGALLYVMLVARFPEFEQDSSGKIVVKLSPSLWGSVSSEAKDLIRSLMNTNPAARLTMGSTLMHPWLKQYR------------ATQEELSRVAVSSYDLSRKLQEEETRLAEVERQARAAVAHANHMQSQGMREEP-------TTSSHVEMHRIDSDSAEDIELTSTGAVVHHQAMVVVRNNLSDPLS---------------------------EAVVPATKNPDHGIQ-----LAPLLHLQRSIATCFDEVHASYKDLPEVASEIREGASLCREQLTQSMKMLRQVEQTAAA---------------------VLSMFPDLELAVEEGEPQLALNFFATVKVWVKDLRELVNSTQSINKASMHQIQLIVERSTIGLLER-QKQN-KANKISLPRKLLDTAMVKLGLAEKANE--LLGSVEVTLVPDSKEDKVEIDADHVLDLFMSLFGSGGVGPNGHSGATNLDESDGSGAPEGFFGRVFSIDSDSRTLDATS----------------TNSGGKQTPPLPPGTTAALHGNAATSKSLLQHLNSNTSNLSTTSAISTRSTSLTPSHTPRDAS------LLPPVSSPEPSYPSYAMDLEEDEEE-----DNIVDVNRNXXXXXXXXXXXXXXQISLDNFTPLM---PGNLPVPPHLLMD--------DKSKSNGQYKSH-----ENAAAHLADALKKLRQVDMILEELSVFWANTEVVLDLLSKKGEHVEQFVGFASKPKLKARFLERMEEYKRFWENVSMMCSNYIAG 914
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A835YLX8_9STRA (Kinase-like domain-containing protein (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YLX8_9STRA)

HSP 1 Score: 317 bits (813), Expect = 7.500e-95
Identity = 167/283 (59.01%), Postives = 199/283 (70.32%), Query Frame = 3 
Query:  183 GSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQGT-RKYVRMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPWLKDLAEKPEP 1028
            G GAS TVW+C               D   GV YAAK+IDLRP K RERF+++RL REV IMR+L HP+I+ +  A +T +QL+LVLE+A GVELFDAIL +  +SED+ARPVF+QVARAL Y+HS  ++HRD+KPEN+M+ D  + DGL+PEAKLLDFGLSK +  D G S ARTFVGTP YLAPEVE +  G+G  YG AVDCWSLGA+LYVML ARFPEF V G  R+ VRM G  WD +S  AK LIR LMA D   R+T  QALR  W    A  P P
Sbjct:    1 GKGASSTVWRCV--------------DRRSGVAYAAKVIDLRPLKFRERFNVERLRREVNIMRKLHHPSIVNMENAFETEDQLILVLEFAQGVELFDAILARKRYSEDDARPVFLQVARALYYLHSMNVLHRDVKPENIMVRDVVSADGLFPEAKLLDFGLSKMVGEDMG-SAARTFVGTPCYLAPEVEMRSRGQGGSYGAAVDCWSLGAVLYVMLAARFPEFTVLGGGRQSVRMAGPVWDGISDAAKALIRGLMAHDPTQRMTADQALRSVWATQGAPVPLP 268
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A7S1UJ38_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1UJ38_9STRA)

HSP 1 Score: 306 bits (783), Expect = 3.460e-84
Identity = 215/601 (35.77%), Postives = 284/601 (47.25%), Query Frame = 3 
Query:  150 FARRYKLLEQVGSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIM-----------DRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQGTRKYVRMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPWLKDLAEKPEPPPTQLPPARMQDMMPIVENAAFTIPEAEPASSTSAKPGAGAGKDFSRRKPYYQDGSRGQPPVITEQQTPPSATEKNPFKFGGRTGPQIRELNSDESPFSSLDSGMGDPITADQDYGHEDANHGHHASEGMDECCQDHETAMVKAYRADLGLVGRYGGTVPLLQLQKRITACMETSMTTYSENPEAGASLRRSATLCRENLRESVTLLRRIERTAAQARMRHYLSGKMIGEKKKCFPRVITLFPDLMLAVEEGVPELAHDFFSTVKTWVREMYAAVSLVQARNNANAEKVSEAMKIHA 1919
            F   Y L E++G GA  TV+KC    G  G           G+ +AAK+IDLRP +LR+ F + RL RE EIMR+L++P+II L E  +T + L+LV+EY PGVELFDAI+ + S  E  A  +F Q   AL Y+H K I+HRDIKPEN+++            D  A    YP  KLLDFGLSK + P  GGS ARTFVGTP Y+APEVE    GK + YGT VD WS GA+LYVML+ARFPE   +     ++ +  A   VS+ A++LIR+LM  D   RLT   A+ HPWL + A     P T +   R + M  +VE A   +P   PA + SA                           I     PP+ TE                             G                                             G V +Y    PL  +QK +  CM  +   Y+++P   A +RRSA +CR    ES  LLRR+++TA                       V+ L PDL LAV E  PELA +FFSTV+TWV+ +   ++ VQ  N  +   +S+A +  A
Sbjct:   19 FEEVYDLREELGRGAFSTVYKC----GHRG----------TGMEFAAKVIDLRPLRLRQAFKIDRLRREYEIMRKLKNPHIIQLEEVFETADTLILVMEYCPGVELFDAIIAQRSCPEPAAAIIFYQCLVALSYLHRKHIIHRDIKPENILLCKADAEGRSTADDPTAASRDYPMVKLLDFGLSKTLSPSEGGSAARTFVGTPCYVAPEVEANAQGKKQEYGTKVDLWSAGALLYVMLIARFPEVDRETYDVSMKTLERAG--VSAGAQDLIRKLMEADPEKRLTADAAMAHPWLAEAARVVPVPVTSI--DRYESMSNVVEPAIMDVP---PAVAGSAN-------------------------AIQAYVPPPATTEARAXXXXXXXXXXXXXXXXXXXXXXXXXGGA-------------------------------------------TGQVVQYSPLGPLTSMQKEVARCMALAHAAYADSPVVAAEVRRSAIICRTAQVESAALLRRVQQTADS---------------------VLDLIPDLELAVREQEPELAMEFFSTVRTWVQRLTDEITRVQGENKNSLVALSDAFEAVA 509
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A4D9CU84_9STRA (Protein kinase domain-containing protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9CU84_9STRA)

HSP 1 Score: 291 bits (746), Expect = 1.430e-81
Identity = 157/286 (54.90%), Postives = 191/286 (66.78%), Query Frame = 3 
Query:  144 EDFARRYKLLEQVGSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQGTRKYVRMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPWL 1001
            E F R Y L E++G GA   V +C               + V G  +A K++DLRP +LRE F   RL REVEIM+RL HP+II L    +    LVLVLEYA G ELFD+IL K  ++E+ ARP+FVQVA AL Y+H   IVHRD+KPENV+++D  +P+G YP AKLLDFGLSK I  D  GS ARTFVGTP YLAPEVE +  G+G  YGT VDCWSLGA+LYVMLVARFPEF        V++   AW  VS+ AK+L+R LM  D G R TV +AL+HPW+
Sbjct:   64 EAFNRLYALHEEIGRGAFSVVHRCT--------------NRVTGEDFAVKLMDLRPLQLRENFDQARLRREVEIMQRLEHPHIIRLEGVFEDASTLVLVLEYARGTELFDSILQKKRYTEETARPIFVQVAHALAYLHRLHIVHRDVKPENVILLDALSPEGFYPFAKLLDFGLSKMIGQD-DGSAARTFVGTPCYLAPEVEARAYGRGGGYGTKVDCWSLGAVLYVMLVARFPEFDRSQGGMAVKLEAPAWGGVSAAAKDLLRCLMQVDPGLRFTVEEALQHPWV 334
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: W7TL39_9STRA (Protein serine threonine kinase n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TL39_9STRA)

HSP 1 Score: 253 bits (647), Expect = 2.810e-72
Identity = 135/235 (57.45%), Postives = 162/235 (68.94%), Query Frame = 3 
Query:  144 EDFARRYKLLEQVGSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPE 848
            E F R Y L E++G GA   V +C               + + G  +A K++DLRP +LRE F   RL REVEIM+RL HP+II L    +    LVLVLEYA G ELFD+IL K  ++E+EARP+FVQVA AL Y+H   IVHRD+KPENV+++D  +P+G YP AKLLDFGLSK I  D  GS ARTFVGTP YLAPEVE +  G+G  YGT VDCWSLGA+LYVMLVARFPE
Sbjct:   64 EAFNRLYALHEEIGRGAFSVVHRCT--------------NRITGEDFAVKLMDLRPLQLRENFDQARLRREVEIMQRLEHPHIIRLEGVFEDASTLVLVLEYARGTELFDSILQKKRYTEEEARPIFVQVAHALAYLHRLHIVHRDVKPENVILLDALSPEGFYPFAKLLDFGLSKMIGQD-DGSAARTFVGTPCYLAPEVEARAYGRGGGYGTKVDCWSLGAVLYVMLVARFPE 283
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A7S3XLU5_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XLU5_HETAK)

HSP 1 Score: 252 bits (644), Expect = 2.290e-71
Identity = 142/288 (49.31%), Postives = 186/288 (64.58%), Query Frame = 3 
Query:  150 FARRYKLLEQVGSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTS--FSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQ--GTRKYVRMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPWL 1001
            FA  Y L EQ+GSGAS  V+ C                   GV YA K++D+RP K R  FS  +++ EV I+++ +HPNI+ LV+ +   ++L L++EYAPG ELFD IL +    ++E++ARP+F QVA+AL Y+HS  I+HRDIKPEN++++D P P+   P AK+LDFGLSK ++   G S+A+TFVGTP YLAPEVE     K   YG  VD WSLGA+L+VMLVARFPEF+    G +  VR     W   S+ AK+LI  LM      RLTVAQAL HPWL
Sbjct:   34 FADSYILGEQIGSGASSIVYTCTNMKN--------------GVEYAVKVMDIRPLKFRADFSKSKMINEVHILQKAKHPNIVQLVDTILEGDRLYLIMEYAPGEELFDGILNQPEGHYTEEKARPIFHQVAQALVYLHSVGIIHRDIKPENILLLDNPDPNST-PVAKILDFGLSKNVES--GMSMAKTFVGTPCYLAPEVESSRQTKAA-YGKEVDAWSLGAVLWVMLVARFPEFEPLPGGAKGPVRFSPEIWSGASAAAKDLIAGLMCPSPQRRLTVAQALAHPWL 303
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A7S2WFE1_9STRA (Hypothetical protein n=2 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WFE1_9STRA)

HSP 1 Score: 254 bits (650), Expect = 2.510e-67
Identity = 140/287 (48.78%), Postives = 183/287 (63.76%), Query Frame = 3 
Query:  150 FARRYKLLEQVGSGASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYP-EAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVED---KHGGKGKPYGTAVDCWSLGAMLYVMLVARFPEFQVQGTRKYVRMVGAAWDKVSSEAKELIRQLMAFDAGSRLTVAQALRHPW 998
            F + Y   E +G GA  TV +C   D               G   A K+IDLRP +LR+ F   RL+REV IMRRL HPNI+ L +  + P+ L+LV+E  PGVELFD+IL K+ ++EDEARPVF+Q+A AL+Y+H + IVHRDIKPEN+++++    +       KLLDFGLSK++D ++G S A+TFVGTP YLAPEVE     +G  G+ YG AVD WSLGA+L+V L A+FP F        V + G AW+  +   K+LIR LM  D   RLT+ QAL HPW
Sbjct:   51 FDQIYARHELLGKGAFSTVHRCVRHD--------------TGEACAVKVIDLRPLRLRQHFDAHRLLREVTIMRRLDHPNIVKLYDVFEEPDSLLLVMELVPGVELFDSILSKSRYTEDEARPVFIQIASALKYLHDQNIVHRDIKPENIVLVEYSKGERKNGCTVKLLDFGLSKSLDSEFG-SAAKTFVGTPCYLAPEVESLKTTNGTSGQTYGLAVDVWSLGAVLFVTLAAQFPAFDRATGVPLVLLDGKAWEGATPVVKDLIRNLMHPDPAQRLTMDQALSHPW 322
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A835YWD1_9STRA (Putative death-associated protein kinase (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YWD1_9STRA)

HSP 1 Score: 223 bits (567), Expect = 3.550e-63
Identity = 119/189 (62.96%), Postives = 141/189 (74.60%), Query Frame = 3 
Query:  183 GSGASGTVWKC-RLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEV 746
            G GAS TVW+C R ADG                  AAK++DLRP K RERFSM+RL REV+IMR+LRHPNI+ L +  +T +QLVLVLEYA GVELFDAIL +  ++ED+ARP+F+QVARAL Y+HS QIVHRD+KPEN+M+ +    DGLYPEAKLLDFGLSK +  D G S ARTFVGTP YLAPEV
Sbjct:    1 GKGASSTVWRCARRADGD---------------ALAAKVMDLRPLKFRERFSMERLRREVDIMRQLRHPNIVRLEDVFETDDQLVLVLEYARGVELFDAILTRGRYTEDDARPIFLQVARALYYLHSLQIVHRDVKPENIMVSETA--DGLYPEAKLLDFGLSKMVGEDMG-SAARTFVGTPCYLAPEV 171
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BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Match: A0A7S2XZA1_9STRA (Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XZA1_9STRA)

HSP 1 Score: 224 bits (570), Expect = 6.230e-63
Identity = 122/219 (55.71%), Postives = 151/219 (68.95%), Query Frame = 3 
Query:  240 GGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQRLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKTSFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPEAKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKP----------YGTAVDCWSLGAMLYVMLVARFPEF-QVQG 863
            GG G G  PV    YA K++D RP +  E F   R++REV+IMR+L HP+II L E   T ++L+LVLEY PG+ELFDAIL +  F E EARP+FVQ+ +A+QY+H KQI HRD+KPEN+++M           AKLLDFGLSK +  + G S+ +TFVGTP YLAPEVE +   +G P          YGTAVDCWSLGA+LYVMLVARFPEF Q QG
Sbjct:    1 GGDGGGPQPV---FYAVKVMDTRPMRFNEGFDPSRMLREVDIMRQLDHPHIIRLHEVFQTDQELLLVLEYCPGLELFDAILQRGHFQEAEARPLFVQILQAIQYLHHKQIAHRDVKPENIILMQGDK------VAKLLDFGLSKRMGSEMG-SLGKTFVGTPCYLAPEVEARQRLRGAPDGERCADLGRYGTAVDCWSLGAVLYVMLVARFPEFMQTQG 209
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1111.13.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7G8N3_ECTSI3.160e-27649.69Calcium/ calmodulin-dependent protein kinase 1 n=1... [more]
A0A7S3HNC2_9STRA1.280e-9930.20Hypothetical protein n=1 Tax=Spumella elongata Tax... [more]
A0A835YLX8_9STRA7.500e-9559.01Kinase-like domain-containing protein (Fragment) n... [more]
A0A7S1UJ38_9STRA3.460e-8435.77Hypothetical protein n=1 Tax=Phaeomonas parva TaxI... [more]
A0A4D9CU84_9STRA1.430e-8154.90Protein kinase domain-containing protein n=1 Tax=N... [more]
W7TL39_9STRA2.810e-7257.45Protein serine threonine kinase n=1 Tax=Nannochlor... [more]
A0A7S3XLU5_HETAK2.290e-7149.31Hypothetical protein (Fragment) n=1 Tax=Heterosigm... [more]
A0A7S2WFE1_9STRA2.510e-6748.78Hypothetical protein n=2 Tax=Rhizochromulina marin... [more]
A0A835YWD1_9STRA3.550e-6362.96Putative death-associated protein kinase (Fragment... [more]
A0A7S2XZA1_9STRA6.230e-6355.71Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig1111contigA-nodosum_M_contig1111:204980..229186 +
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.D7G8N3
PFAMsFHA,Pkinase
Model size4832
Max annot lvl2759|Eukaryota
KEGG koko:K05869
KEGG Pathwayko04020,ko04024,ko04211,ko04371,ko04380,ko04720,ko04722,ko04725,ko04921,ko04925,ko05031,ko05034,map04020,map04024,map04211,map04371,map04380,map04720,map04722,map04725,map04921,map04925,map05031,map05034
Hectar predicted targeting categoryother localisation
Exons18
Evalue8.06e-284
EggNOG OGsKOG0032@1|root,KOG0032@2759|Eukaryota
EC2.7.11.17
Descriptionprotein serine/threonine kinase activity
Cds size3273
COG categoryT
BRITEko00000,ko00001,ko01000,ko01001
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig1111.13.4prot_A-nodosum_M_contig1111.13.4Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig1111 205021..227668 +


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

Feature NameUnique NameSpeciesTypePosition
1680866506.438213-UTR-A-nodosum_M_contig1111:204979..2050201680866506.438213-UTR-A-nodosum_M_contig1111:204979..205020Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1111 204980..205020 +
1680866506.9195948-UTR-A-nodosum_M_contig1111:227668..2291861680866506.9195948-UTR-A-nodosum_M_contig1111:227668..229186Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1111 227669..229186 +


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

Feature NameUnique NameSpeciesTypePosition
1680866506.4525614-CDS-A-nodosum_M_contig1111:205020..2051361680866506.4525614-CDS-A-nodosum_M_contig1111:205020..205136Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 205021..205136 +
1680866506.4652498-CDS-A-nodosum_M_contig1111:205962..2061481680866506.4652498-CDS-A-nodosum_M_contig1111:205962..206148Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 205963..206148 +
1680866506.475571-CDS-A-nodosum_M_contig1111:207937..2080221680866506.475571-CDS-A-nodosum_M_contig1111:207937..208022Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 207938..208022 +
1680866506.4841814-CDS-A-nodosum_M_contig1111:208846..2090591680866506.4841814-CDS-A-nodosum_M_contig1111:208846..209059Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 208847..209059 +
1680866506.4920776-CDS-A-nodosum_M_contig1111:209914..2101331680866506.4920776-CDS-A-nodosum_M_contig1111:209914..210133Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 209915..210133 +
1680866506.5044672-CDS-A-nodosum_M_contig1111:212160..2122801680866506.5044672-CDS-A-nodosum_M_contig1111:212160..212280Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 212161..212280 +
1680866506.512522-CDS-A-nodosum_M_contig1111:216249..2164561680866506.512522-CDS-A-nodosum_M_contig1111:216249..216456Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 216250..216456 +
1680866506.5237803-CDS-A-nodosum_M_contig1111:217037..2171481680866506.5237803-CDS-A-nodosum_M_contig1111:217037..217148Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 217038..217148 +
1680866506.5342164-CDS-A-nodosum_M_contig1111:219512..2197311680866506.5342164-CDS-A-nodosum_M_contig1111:219512..219731Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 219513..219731 +
1680866506.544159-CDS-A-nodosum_M_contig1111:220432..2204951680866506.544159-CDS-A-nodosum_M_contig1111:220432..220495Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 220433..220495 +
1680866506.6575406-CDS-A-nodosum_M_contig1111:221610..2217691680866506.6575406-CDS-A-nodosum_M_contig1111:221610..221769Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 221611..221769 +
1680866506.8405952-CDS-A-nodosum_M_contig1111:222777..2228611680866506.8405952-CDS-A-nodosum_M_contig1111:222777..222861Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 222778..222861 +
1680866506.8519416-CDS-A-nodosum_M_contig1111:223434..2236951680866506.8519416-CDS-A-nodosum_M_contig1111:223434..223695Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 223435..223695 +
1680866506.859855-CDS-A-nodosum_M_contig1111:224100..2242761680866506.859855-CDS-A-nodosum_M_contig1111:224100..224276Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 224101..224276 +
1680866506.867743-CDS-A-nodosum_M_contig1111:224302..2248281680866506.867743-CDS-A-nodosum_M_contig1111:224302..224828Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 224303..224828 +
1680866506.881381-CDS-A-nodosum_M_contig1111:225390..2254801680866506.881381-CDS-A-nodosum_M_contig1111:225390..225480Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 225391..225480 +
1680866506.893704-CDS-A-nodosum_M_contig1111:226220..2263521680866506.893704-CDS-A-nodosum_M_contig1111:226220..226352Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 226221..226352 +
1680866506.905373-CDS-A-nodosum_M_contig1111:227362..2276681680866506.905373-CDS-A-nodosum_M_contig1111:227362..227668Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1111 227363..227668 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig1111.13.4

>prot_A-nodosum_M_contig1111.13.4 ID=prot_A-nodosum_M_contig1111.13.4|Name=mRNA_A-nodosum_M_contig1111.13.4|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=1091bp
MDVDGQGGQEEPTRVDSLSGIESKKHRMATGQESEDFARRYKLLEQVGSG
ASGTVWKCRLADGLPGGGIGNGDDPVPGVVYAAKIIDLRPFKLRERFSMQ
RLMREVEIMRRLRHPNIIGLVEALDTPEQLVLVLEYAPGVELFDAILGKT
SFSEDEARPVFVQVARALQYMHSKQIVHRDIKPENVMIMDRPAPDGLYPE
AKLLDFGLSKAIDPDWGGSVARTFVGTPSYLAPEVEDKHGGKGKPYGTAV
DCWSLGAMLYVMLVARFPEFQVQGTRKYVRMVGAAWDKVSSEAKELIRQL
MAFDAGSRLTVAQALRHPWLKDLAEKPEPPPTQLPPARMQDMMPIVENAA
FTIPEAEPASSTSAKPGAGAGKDFSRRKPYYQDGSRGQPPVITEQQTPPS
ATEKNPFKFGGRTGPQIRELNSDESPFSSLDSGMGDPITADQDYGHEDAN
HGHHASEGMDECCQDHETAMVKAYRADLGLVGRYGGTVPLLQLQKRITAC
METSMTTYSENPEAGASLRRSATLCRENLRESVTLLRRIERTAAQARMRH
YLSGKMIGEKKKCFPRVITLFPDLMLAVEEGVPELAHDFFSTVKTWVREM
YAAVSLVQARNNANAEKVSEAMKIHAEGGLYRGQKQRGPGDEASRAEAAT
ESAAFTAESQRSGGSGGLSGDIEADAGRQASDKTITVDPETFELIQKIQA
MKKRAKDPALRPSGFVGDDAQVEGPNNPIDFVSDEKLINLGGERGRGGSS
SSVGEETPSQASAERNWSLEGHASGSFNSGVEQAASTFAEAALFKPTSGG
ASGTGSGSDLGVLDAAGKRKASGARDSSADAPPAAVGASGVADTTRVVGG
HDGALAYGLAAQMSIDGGAGGLGQTTANVNTVENTSGDEDGAEGEEDAGR
WEGMQLARLRNDDDKVFLEVQQALKVLHEVDSVLEQLALFWANSEVIFDV
LLRKGDLVEKFVAFSNKPRLFQRFKERLADYKMFWEGVQVVCNRYVSGQV
VNGGGCMGAGVNFPGTEANVPRKSGGLTRGNSTYENRHEHDHVDREASTE
DFPRDTSNRSSTGSGGGRGIRGGGGSSTADMGMRAQNFRR*
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mRNA from alignment at A-nodosum_M_contig1111:204980..229186+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1111.13.4 ID=mRNA_A-nodosum_M_contig1111.13.4|Name=mRNA_A-nodosum_M_contig1111.13.4|organism=Ascophyllum nodosum dioecious|type=mRNA|length=24207bp|location=Sequence derived from alignment at A-nodosum_M_contig1111:204980..229186+ (Ascophyllum nodosum dioecious)
TGAAGTGAACCACGGGGAAGCGACGGAGACAAGCGGGCCATATGGACGTC
GACGGGCAGGGTGGGCAGGAGGAACCTACCCGCGTGGATAGCCTGTCCGG
CATTGAGTCCAAGAAGCATCGCATGGCCACGGGACAAGAGAGCGAGGACT
TCGCCAGGTGAGATGGGAGGAAATAAAGATATAGGCTTGTTCTGTGCACA
AAATGTTGATGACACCCAGTTTCGAGGGGGGAGGGGGGGGGCATAACTTC
CGCAGGTGTCGGCTCTTTTGACCTTCATACTATAATAAAGATGTTCGATC
CTTTCTTTCCGCTGGTGTTTGCTTGAATGTGTGATAAAATCAAGACGGGA
GTAACTGTATCTATGAATTGAAGAAGGAGCCGCCCTCGGCAAGAGTCGAT
ATAACCTCGCGTGAGGGAAGATTGAGCCAGAGGGGCTCGACCATGATTTA
TCGTGGAGGCCTTCGCAGACAACCTGTGCCGAGGATGAGCGTCTTGCACC
ATTGAATTCGAACACAAGTTTGTTCACAAGACTAGAAAAACAAAGTTCAA
ATGGCAGTGATGACAAAAAAACGCCTCCTTTTTTTGGGGGGGGGGGGAGG
GAGTGGGAAAACGGTTAGCAGTAGGGGTGCTTTGGGTTCAGGTAGATACT
ACGAAACGTTTCATTAGACCAGGTCGCAGCGATTTTTCGCTCAACCACGG
CTCCAGCCAAAACACTTTGAACACAGTACAAAATGATTTACATCAAACAG
TACTTGGAAACTCAATTGCCGAGAAGCCATGAATATATACAGCTGTGGTG
CAACAACTTGCTGGAGAAACTTTGAGCAACGAAACGGCCAATCAAATGTT
CATATATATATATTTAAATACGCTGCTCCTCAACTACGATGGTTAAGTTG
AATATTCTGTATGATAGCGTAGCGATGTCGCTCGAACAAAACCGCATGCG
TGCCGGCGCTTGTTTGTGTCATACATATGGCAGGCGTTATAAACTCCTCG
AGCAGGTGGGTTCCGGAGCCTCCGGGACCGTCTGGAAGTGCCGCTTGGCG
GACGGACTGCCTGGGGGAGGCATCGGCAACGGCGATGACCCCGTACCCGG
AGTGGTCTACGCGGCCAAGATCATCGACCTCCGACCGTTTAAGTTGAGGG
AGAGGTTCAGCATGCAGAGGTGAGCCTATCCGTTCGACTATTACTAAAAT
TGAAGGTTACAGGTTGTGCACAGTACGTACTATAGCATGACATTTGCAGG
AGGATGACTTCCTATCACGTGCGCCGGCGTCGATTATGTTCATATTATTT
ACTCTAAACAACCGCCGTACTTGTAGACGAACGACGTCGCAGTAAACAGC
AGACGGAAGAAAAGGTGCGGTAACTATTTATAATATGTTGCAATGTTGCA
CTGGGAGACTATTTTTTTTTTCATGTGTTACACGAGTACAAGTTAGTGCC
TTTTCTGGCTGGCGAGTACCTTTTCTGAGTAGCCTCCTACGGTACGTTCA
AGAGTACGGGTGTAAATGGGGGCCGACCGAAGCTTTTCGACCTCGTAACT
AATAGATGTGCAAATAGCGGGAAGACATAGGCCTCCCGACTCTCATGCCT
ATTTTCCCTGTCCAAATAATGCATAAAAAACGGCAGCCTTCCGAAAACCT
CTCCTGTAACGTTTTTTTCGTGGATGTTTGTTCTCTACGTAGCGTTGAAA
AAAAATCCAGGATTGAAACAAATAAAGACTGAAATCAGACCCTAGGGGAG
GGGCTGCCGGCAGGATTGTAAGACGTTGGTTGTGACAGCGGTCAACCATT
GATGGATTTGGGCGACAGAAAAATATTTGGTAATGTATCACGCCCCATGT
GATTTTCAATTAGGCTTTTACTACAGGAAGCGCTACGTTAGCCAATTGAA
GCCAATCAAACGCCCCCACCGCTCCCTAGGATGTCGAGTGTGAGAAACAG
AGCTTTTGATTGATAAATTCTGGATGATATGCGGCATTGAGAAACTTGGG
CTTGTTGATCAAAACTGATTGGAGCGTGATTTGTCCGCTTTGTTGCTGAG
AACACTGGCCGTGGGTAGGCGACAACAATAATCCGAGTCGATCGAGGTTG
CTCTCGATACGGAGTAAGGAGGTTTGATGAACCGTTTCGGCATTGGTCGG
TGCCATTGCTTGTAAAATGTCGCATAACTTGTCTTCGTATAACCCTCCGA
GAGCTCGAGAACTTCTTGTACAGTACATATCGCTTTTGATAATTTTGTTG
GTCAGGCAGCACACCAGACAGTCTTCTCTGTAGTAATAGCTTGCAATTCA
GATTCTGACATACTGGCAGCACTCCAGACAGTAGAAACTGTAGTTCGTAC
CCAAAGACATCGTCTTGACGCCGATAAGTTTCCGATGTTCTCGGTTGGTT
GGACCTGGCATGGTCTTTGTCGCGATTTGGATCCCTGTTGGTTTGAGTGG
CAGGCTGTCACCATGATGTGACCCGTTGACCTTCGTACCCCTTTTGTGAC
CACGAGCGGGATTGGCATTTGATGGGTCTATGGCTGACTTGTTGTATCAC
CGCAATTTCTTCAGTTGCAAGGACAAGACGCTGAATGTGTGAATCAGCAA
CAACTTCGGGCACAAATATGCCCTTATCTATCATAGGCGTTTCGTGGTAC
TTGTGACTATTTCAAACAAGTATGGATAGGTCTATACACGGTATCCCCCC
TCTATAAATCGCGCTGGTATTCTGTCGATCGCTTCGTAATGTAAAGCCTC
CTCTGAGCGAACAAGAGCTATGTCCTCTGCTGCTCTGATGTACTACACTA
ATAAGTAGCATGATTGCTTTGAGTGGTGGTGCGTGTCCTCTGTTCCGACC
TCCTCCAACGCACGCGATACGGGCGCATAGCGTAGGACATGAAACACCCT
CTACACGCGAGGAAAGCGTACCGACGGCGTGTGTGCTTGGCTTGACCTTT
GTGCGCAGGCTGATGCGCGAGGTGGAGATCATGCGGCGGCTCCGGCATCC
CAACATTATTGGCCTCGTGGAGGCGTTGGACACTCCAGAACAGGTAATCT
GCAGTCATTTCTCTGGGGGTTTTGAAACATAATGAGAACTCTTATATATA
TATATGTGTGTATATAATTGACGTTGGACGCTCAGCATACCCTATCGAGT
ATATAATACCATCGGGGGTGTATGAGCCTCCCCCCCCCCACCCCTGATTT
TCTCGATACAAATTTCAATACAGGCATCAAAGGCACTCTAAATAAGCAAT
TGCACTTCTCGGTAGGAAGCTCAAAAAGGGAAAGTATTTGTGGTTACCAA
GTGCGTTCATAGTGTAGTAGGCGGGGACATGGAGGGGACATCCATTTTCC
ATCCCCGCCCATGTGGTAGGGGCGTCAAACGCACCCTGCCAATTACAGGA
CATGATTTCTAATTAAGTTTTCTTTTTATCGCAACGCCTCCCATATCTTC
GATGTAAAACCATTTGATTTTGCTCGTCGACGGTTTCATAGGTTGATCGC
GGTTCGGGAACATGTTACCGACTTGACCGGCCGGCCTCTGAGTGCCAACT
CATTCGATCGATTTACAGCTTTTGAATGCATAAAAATTCCTCTCCCGAGT
GTCCCCTCGGGCCCCTCGGCATGGGGCAATGGGTGTTCACGACCGACGAT
TTTACCAGTTCGGTAAACCATCGTTACGCCGGGAACGGTTTCCATCGCAG
AAGAGCCGGCCGTTTTAAGAAGCAATTGGTGCGACTGGTAATACGGGTAC
CCATAATAGCGCGTTGACTGGATGCGCCCCATCGTCAGAAAGTGTAAGGT
CGAAACAAAGTCCTCACACTTATCCTCCCGTTCCCGGGTCTGACCACGCG
ACGGTGTACCGCTGTAGCTGGTGCTGGTGCTGGAATACGCGCCCGGGGTG
GAGCTGTTCGACGCCATCCTCGGCAAGACAAGCTTCAGCGAGGACGAGGC
TAGGCCCGTGTTCGTGCAGGTGGCGAGGGCCTTGCAGTACATGCACTCGA
AGCAGATCGTGCACAGGGACATCAAGCCGGAGAACGTGATGATCATGGAC
AGGCCCGCGCCGGACGGCCTTTACCCAGAGGTAATATAAAACAGGGGGGG
GTATCGCGTGCGAGAAGGCTTCTGCCGTCCTCCCCGTCCCCCCCCCCCCG
CCCTCTATTGTTATTGCTATAATGACGTCTGGGTAGCTTTGAACCAAAAA
AATAAAGAGAAAAAGAAACGCGCATCCATCACCAAGACATATGTATGAGC
GCTGACTCGGGAAAAAAACGAGACTACTCTTGTCAGGATTGATTGGTTGT
TTGTTATCTGACAAATCATCAATCAATCCCTATCATAGCTGTGCAGTTTA
TATCGTGCACACCCGTCGTACGTGTAGGGATTCCCGAGGCATTTTTGATG
TTTTGAAAGGGGATGGGGATGGGGGCACGTGACGGGGGGAGGGAGGGTTG
GGATTAAGACCATGGGCATATTTTTCAAAGGGCGGGTCTCTGCACGTAAC
TTGGGGAGGATGCCTAGGGATGGCTAGCCTTTGGGGGCGGAGAGCAGGGG
GTCTCTTAGCATTGGGAGGGCTGAGGTTGGGGCGAGTGGTTCGGGGATAG
GAGAAAGTAGGGGACAAATTCGTGAATTGTCTTTCAAGTCTGCGTGAGCG
TGAGACAAATCGTCTGTGTGTTTTTTTGGAGAAGCTTCTGTTCGCGAAAG
CTACGGTTGGTTTCAAGTGCCCCGGAAGGCAGAAGGCCGGACTTGACGGG
ACGAAGCGGGACGGGAAGCCCTCAGCAGCAGCAGCAGCGAGAGCTCTCTT
TTTCCAAATAGATGCCACGCGTTGCTCACCATTCCAACTGCAGACGATCA
ATTCCAACTGCCCGAAAAACGCGTTTTCAACGCACGCACATTCCTCGCCT
TTGCGTCCCCTTCCCCTGAAACACGCCTCGAGCAGGCGAAACTCCTGGAC
TTCGGCCTGTCAAAGGCCATCGATCCGGACTGGGGAGGCTCCGTGGCGCG
AACGTTCGTGGGGACGCCATCCTATCTGGCCCCAGAGGTGGAGGACAAGC
ACGGCGGCAAAGGCAAGCCGTACGGTACCGCGGTGGACTGCTGGAGCCTG
GGGGCGATGCTGTACGTGATGCTGGTGGCGCGATTTCCGGAGTTCCAAGT
GCAGGTGCGGTAGCTTTGACGTACATATTTTAGTCAGGTTCGTTGATACG
AGCAAGTCCCTGCCCCCCCCCCCCTCCCTCTTTCAATTTTTTTTTGTGAG
GGTGTTTGCGACATCAGAATTTCCGTTGCTATGTGATCCGCAAAATTTTC
TCCGCGATGGAATTTCAGTCTGACATAAATACGCAAGAAATTTCCGCCAC
GGAGGGCCGTCAAGTCAGCATCCGTCATCTCCCTTCGATAAACATTGGAT
CCGTCTCGCCTAAATCTGATTTCGAGGGTACTTGCACTTTTGGGCGGGAC
AGCTCCAATGTTTAGACTTGCGAGCCTTCTCGAGCGTGCGGGGTGCCTCT
TCTCATATCGCAAAGAGGGACTGTAGATACGAGCCGTCGGCACACCATTG
CCTCGATGCTTGCTTCCTAATCAATTTGGCGGTGACCTCCTGTTAGAAGA
GGAAAGGAAGGGACGGGTGCTCTAAACTCACAAAAGGCGTTCTTACGGAA
GGGAAAAAGTGACAAATGCCACCTGTAGGTATAACTCCAACCAGTTGTTC
CCTCGGTCCAAAAGCTAACTCGCAAGGAAAACTCCTTGCCCTCGCAAAGG
AGGGAACAGCCTGTGGGAAATTACTCTAGCAGGGGGTGTTTGCCGTTTTT
TTCCTACACCGTTACGCCTTATGAACGTTCTAGAATACTGCCCCTTTCCT
CTTCAGGGAGGTGTCCGTCGATGGCTCCGGAAGCAAGCATCAAGGCAAAA
GTGTGCCGACGACTCGCATCTCCTGTCGAGTCCTTCTGAGTTGCTCCATC
CGAGATTTCAGCTTCATGCTGCTACGCCATACAAAGAAGTCCCCTCAAAA
TTAAAATGATGCGGGACAGCTCCAATATTTATCGTAGGAAGTGGAAATAC
ATGAATTTTCCGATTGATTTGTGCGGGAACACATGGAAACGCAGATTCTG
ACTTCGCAAACATCCTCTTACATATTAAAGTACTTTGTTTATATATATAT
ATATATTTCCCCCTCTTTTTTCCTTTCTCCGTTTTGTCTCTTTTTTTTCT
AGTATCTTTTTACTTTCGTTTTTTTATTTTTTTGTTCACCCCCCCTCCTC
CCCCCCCCCTTTTTTTCTTGAGATATCTTTTTCCCTTTTTTGTTTTTACG
ATCATTTCCTTTTCTTCCTCCGTGGATCTAATCTGATCAAGATCTCGACG
GCCGAGAAAACATGAAGTTCGCTTTACGAGTACTCTGTAGGTTGTAGAAA
ATTCCGTTACGTTTCTCGCGCGAGCACTAATCAAGTGTTGTTTCTTCCGC
TCCGGGATTATGGGGGGGGGGGGGGGAGGGATTTTATCTTATTCTTTGTT
CTTGTAGTCCTGCGAATATTACCGATGGTGGCCAGTCGACGTGTTTGTGT
GTGTGTATTTTTGTTGTCATCCCATTTTCTCTGGACGTCAGACTTGCAGA
CGCACCAGCCGGGGTCACACAGGATTTATTTCTGCGTTACTTGCCTTAAT
TTTTATCGCGAGAAGAATTCAGCCATCCCTTTCCCTCGTCGACCGTGAAG
TCGAATTTTGTGTCTCCACGAATTAATCGTTCTCCACTTGTTGGGCATGA
TTATTTTTATTTTTTTTATGCCAGTTTACCAATTCCACATTTTCCATACG
GCATACAGTGTTCCCGGTCTTCTTTTTTTTCTGTACTTGCAAATGAGAGC
TTGACGTTACAGTACTTGATTTTACAATTTGTTCCTTTCTCTCTTTTTCT
CGTAAAAGTCGATGCCTTTTGCAAAATCTTGCGCTGAGCGATATACCGGC
GTTGCTTTTCACCCTTTTCCCTCTATTTCCTGTTTTTTTTATCGTTTTTA
TTTATTTGTTTATTATTTATTTAGTTTTTTTTTAGTCGAATCTAGTAAAG
CAAAAAAAAAAGCGGGCAAAAAATACAACGAAAGAAAATGCGAAATATAA
AAAAAGGCGGTAGAAAATATATCATATGAGGAAACCAAAATATTTTATTG
TCTTGGTATTACTGTATCGTTTCTGTCCCAGGGAACACGAAAATATGTGC
GAATGGTGGGGGCTGCGTGGGACAAGGTGTCGTCGGAGGCGAAGGAGTTG
ATAAGACAGCTGATGGCGTTCGATGCGGGGTCCAGACTCACGGTAGCCCA
GGTGCGAGAGTCGTTTCTTCGCTGTTTTATCTCAAAAGGAACTGTGAGTG
AGCGGTTCGATGATTCTTCCAACCCAATTTTCGAAAATCCTCCCGGAGGA
ACTTTCGGGCGTGAAATTCTCATTTGAGAGTATGCCCCCTGCGATAGGAA
AATTCTCTCGCAAACCTGGTGCGCAAGTGTTTCTGCCGAATTATTTTTTC
ATATTTTTTTACAATTTTTCATTTTTTATTATTATTTTTTTGTTAAATTC
GGAAATCCTAGCAAATACGACTTTTTTAGTTTCTAATATACTCAACGCTT
TCTTCCGTCTTCCACACAGCATTACTAATAGCTATATAACTCGGTTCCAT
CGAAAAACGAGAGGTTATTCCTCTGTTACATGCGTAAAATACCTAGCTCT
AGGACGACACGACAGGTTCCATGGAAAAGCGAGAGTTAATTCTCCGTCGT
ATGCGTATGGCATCTATAGCTTTAAGACGAAAGGTTCCATGGAAAAGCAA
GAGTTGATTCTCTGATTATGCGGAAATAGCTCTAGGGGTATATATGAGTA
CTTTTCAAGGTACGTACGTCTAAACATGCCGTCGTGGAAAGCGGGAGGAA
CCTCGTGAGTGAGCACCATTAACCAATCAGATTCAGCCCGAGTGTGGACG
GGCAGGCTGACGCGGGACGGGACGGCAAAACCTGTCGCGCGAGACCAAAT
TCTCAGGCGCGAAGGGGGACACGAAAATATTTTTTCCTGTTCAGCTGACC
ACGGGCAGATTTGGCAACCTTACCCGGTTGACCCATACTTGTTGTGATGA
TTGGTGTGTAATCCCTCCGCATTAGGAGACGACCTAGGGGTAGAATAGGA
CCTATCCCCGCTTTTGGATTCTTTCGTAGATGTTCTTCAACTTTGTGTTC
TTCGAACAAAGGCCACTCGGGACCAGTATTTTCTCCTCCGCCAGCGATTT
AATAAAGAGACTATTTTAGCGAGAGCATCACAAGAACCACAGCATCAACC
GAGGCATCGGAACCTACCGCGGACCAGGAAAATCATGACCTTCCCAACAA
GAACACCATGGCCACCTCTGCCGCGCCGCCTACTTCGCCGCCAGCCACTG
CCGGAACGGATTCGGCGACGGTCTCTCCCTCTGCCCCACTTCTCCTCCGC
ACGGCCGCTCATCCTGGACTCGGCCGCTCCCGGGACCAGCGCCCCAGCTC
CCCGGTCTCCTCCACTCTTGCCGCTCCACCGGCGCACATGCGTGCGTTCG
CTCCCTTCTGGGACACCATTCCTGCCGCCATCAAGCAGCAGATGCTCCAG
GTTCCATTTCACGACGTGGAGCAAAGCGTCGAAGACGCGAAGGCCGAGGC
GACGGCCACAGCAATTAAGCTCGCGGACGACGAGCACCGCGAGCAACACG
ACCTCCTCGTCGCCAACAAGAACCACCTCACCGCGGCCCTCCACGACACC
AGAGGTCACCTTGCCCCCCTGGAAAAGAAAATTAGGGAATGCCAAATTCG
CCTGTGGTTCTTGTGATGCTCTCGCTAAAATAGTCACCTTATCACATACT
GGTACTATGCTATAGGTGATGGTCATACATACACACATACAATCTTCGTG
TATAGGAAGGAGACTACGCTTCGTTGAGTCTCCTTTCTAGCGAGGTTTTG
CTCCTGGCGTGATCGGCATGGACCACTCGCCGAAATTTCTCGCAGGAAAA
CCCTTGAGATTGGAAGTTCTCGTAATAACGAGAAGTAGTTCAAAATATAT
GAAAATTGTTGTACACTCTGCATAAATTGTGCGGTAGGTGTAGAGAAACA
TATACCCATTTCATGAAATTTTATTAAAAAAATCACGGTCTGTACAATCA
GCAGTACGTGTCATTGTTATACACATGTGCATAAAGCTATACATATATAT
ATCTGCTCGGTATATACGGAACTCCGTATATACTAGCAGTGAAGGAGGCG
TTTTTTCGCATGGGAGAAGTGTGGGAGGTCCCCTCTTCTTTCCGGACTTA
GAGCGAATAATGATGCAATTCTGTAGTTTGTTTACTTTGCGGCCTTAAAC
AACCCCCGAAATAAATGAATGGAAGCGGAAATTGTCGCCTCGGAGCAAGA
GTCAAGGCAGTACGGTAGTCGTTGGCCAGCCACGTCGAAATGGCCCCGGT
GGGCCGCAGCTACCAACATCGTACAGCAGGAAACTTGACCTCCCCCCGGA
GGAAGCATTTTCCTTGTGGTGGCCCCACCATGGTATACAGAGATCCTTGA
AGCCGTTGAGCGAGGTTTATGGTTGTGCGTGTTGTTGGTCATCACGTTCA
CCAGGTTGGACATCCACCGCCGCGTCAGGTTGCTTTCAATCCCGCTTGCG
GTCAGGTTAACGGGGAAAACAGTTGAAATCTCCCCCCTGTCCCCGACCGC
GCTTGAGGGTGTGGTCTTGCGTGACAGGTTCGCTCATTCTCCACACCCCG
AGGAGATGAAAGCAGTGTGTGATTTTTTGTCTAGACGACTTAACGGGGCC
CCACGTACATTTTTCAAAAATACATATTCCAAACGTAAGAGTATCATCGG
TACTGTATTGTGAATACGGGCGTTTTTGCCTCAAAATACAATTTTGGTAT
CAGCAACTCGAGGTACGAGACCGCTCGGGGCCCTATCACCACATGTTCCA
AACGTAAGAGTGCATAGTCATGTATCTTTGTTCAGTAGGAAGTTTTGGGC
TTCGAAGGTCATGTACCGAGGTTCAGCGGCCGACATTTTGGTGGTTTTGT
GTATACCCGGGAATCCCACCGCAAATGCCACAGAAGATGACTACACACAT
TTAGACAACTTCCTTCGGCTTAGTGGCATGTAGAAGGTTGTCCTCTTCGG
AGGGTGCTCGGGCAGGGTTTTAGGAGGTCTTCTGCGCAAAACCGCGGTCT
CGGGGGCGATGTCACGCTCAAGAGCGGAGAACCTGCTGCTGTTCCTACTG
CTGCTGCAGCTGTAGGAGTACAGAAAACCACCGAATAGTCGGCCGCCGAA
CCTCGGTATATGACCTTCGAAGCCCAAAACTTCCTACTGAACAAAGATAC
ATGACTATGCACTCTTACGTTTGGAACATGTGGCGATAGGGCCCCGAGCG
GTCTCGCGCCTCGAATTGCTGATACCAAAATTGTATTTTGAGGCAAAAAC
GCCCGTATTCACTCCTTTACAGTACCGATGATACTCTTAGGTTTGGAATA
TATTTTTTTGAAAAATATGCGTGGGGTCCCGTTAAGACCTCATCTGCATC
CATTGTTTACTACAGTACCGGCGTAACGGGAAAAAAAAAAGGAAATTGTA
ATTTGAAATGAAATGAAGTATAATAGCGTGGCAGAGAACCTCGTACTTCT
TTCGCACGATACACACACTGACTGTTGTATAACTAATCAATAAATCAGGT
GCATTTTTCTCACTAAAAACTAAAAAACCAAAATAAAAATGCCCGACGGG
TGGAGAACGATTAATTCGTTAGTACACAAAATTCAACTTCACGGTCGACG
AGGGAAAGGAATGGCTGAATCCTTCTCGCGACAAAAATCAAGGCACGCAC
CGCAGAAGGAAGGTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTGTGA
CCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGGATGGGAAGAA
AACACACACACACACACACACATGGACGGACATCCGTAAGAACCAATCAG
AGCACAGACATCAATAAGTAGATCACCGGTCCGGCAACATATTATTAAAA
TGGGTGGAGACAACATATATATATATATATATATATATATATTTACACAC
ATATTACTGTGCCCAAAATAGAATAATGGCGTAGACGTCCCTCCCTTCAT
AGCTCTAAGTACCCATGTTTATACTAGTATCTCGTTTTTTACGCACAGCT
TACTGCTATCCAACCTCGCCATTCCAGACGAAGCCTTCGCTGTGCGCCAA
TCCTTCAACCTCTTGCCCAGGCCCTCCGGCACCCGTGGCTCAAGGATCTC
GCAGAAAAGCCGGAGCCTCCACCGACGCAGCTTCCGCCTGCGAGAATGCA
GGATATGATGCCCATTGTGGAAAACGCGGCGTTCACTATCCCGGAGGCAG
AGCCAGCTTCGTCGACCTCCGCGAAGCCTGGGGCTGGTGCGGGGAAAGAC
TTTTCCCGGCGGAAACCGTACTACCAGGTTGGTTAGATTCATGAGCGGTT
GTTTTATTACCGACGTTAGTGTGTAAATGTGTGCGTGTGTGTGTGTGTGT
GTGCGTGTGTATTTTTATGAAATTGCTCATAACCGCGCAGTTAGGCCCGG
CCATCTTGTCATTCTCTGCAGCTCGCATTGGTCCTCCCAAGGTGCGTGTG
TGTTTGAGTGGCTGCCTCAATCTGTCCTAACCTCCCTCGCCTGACAGAGC
CTGTCTTTTCTGTACATTCATCCATGCCACCATTTCGTCACGACGAACAA
GATACCCTACACATATTTCATTACCGTCTGCATCCTTTTACCAATCGAGT
CCAAGTTTTGTTTATCGCTCCAAAGACACAACTAGATATTTTTTCCGACA
AAATGGTAGCTGCAGGAAGGTCAGCATGCACTGTATTTTTCCGTTACCCT
CAACTAGAGCTAGAATTCCTCGTCTAGTACCCCCGATAATGAATTCCCTC
CCAATCATCTATAAACCCCTTCGCTCTTAGAATCCAATTAAGTTCCCCTC
CCACACTAACTCCCATCCACCCAACCTCTTCTCACCCCCCCCACTCCTTC
CTCCGTAGGATGGTTCGAGGGGACAACCACCGGTCATCACGGAGCAACAA
ACGCCTCCTTCAGCGACAGAGAAAAATCCGTTCAAGTTCGGCGGCCGCAC
CGGGCCACAAATCCGCGAGGTGAGTCATTCACGGATGTTATTTACTTTTG
TATGCGGAAGTTACCTATTCAAAATATATACGAACTACAAAAGTCAGATG
GATTCCCGACTGCATTCAAAAAGTGCAGTCGTCGATTCGAGTCCCGCCTT
GCAAACTTTTTTTCTACCTCTTCTTCGGCACCAAAATTCTGCGGGAGTGG
ATGAATGGTGACGACGAGCAAAGTAGGAGGAAAGTTAACGGACGTGTTTC
ATGTCTAGACACCCATGCTGGCAAGGGGAGGCACCCTCTCCGCTGCCTTG
ATTGTAGTTTGGACAGCTACATTTCTCCACATTGTGCCCGTCTCCATCCT
ACGATCAATATCGCAGGACCTTCGGTAGATGAAAAATACAGGTTATGAGC
CTTGACTCGGACGCTACAACTAACTTTCAAAATGAATTCACTTGTACGAG
TAAGCGCTTGGTGGGTCTAGTATTTGTAGCTCTACGTAGGTGATCGTTTG
GGTTTTTAGCGTTGTATATATGTAGTCCGTAAAGTCTTGCCCGTTGGGTC
GACCTTTGGGAGGACGTGCGTGTACACATGTCTAGATAATTAGGAGGGGA
GAGCGTTTTCATCAGGAGGGTCTTCGCGGTACCACTTTTTCACCGCTGTC
ACGGTACGAAGAAATCACCACCAACGCAGTGCGGATCTGTAAAATATATG
GTACGGTGCTACCGGTACGGTACGCAAAGTTTGCGTGTGGTTCTGAAACG
GTACGGATCTGTAAAATCGCCGTTTTACGACAGCACGGATCTGGAGAAGC
ACGGTTCTAAGACGGTACGGATCCGTGCACGAAAAATACTGAAACATGGA
TACTGCTGTAGAGCGGTTGGACATCAGGAGGATGTCCTAACGCTTTTTTT
TTTTTTCATCGGAGTGGATGCGGTGTCTACTCGATCAACTTAATGTAGAG
CCTGCGAAGTAACAATTTGCCAGGAGAATGAGATTATTTTCTATAGACTT
TACACTTCGGTCTCAACAAGTTCGCCCGCGGCCGCACTCAGCGCCAAGTA
GTGAATGCCCTGAATGCAGTTATTACGCCGCGCCTCCCGCGCCATTATGA
CGGTTTTGTACTCCTTGACTTCCTGGATGAAGCCATAGCTCGATCGAAAC
ACCAGCATCTGCTCAGCCTCGAAGACCGACATGCTCGATCGTAGGTTGGC
TATGAGAAACTTGCACCACTAGCGCGCCGCAAGCTCTCTTCCTCCTTTGT
TTCTTGCCGTTGGTTTGTTGCCGATGTGAACTCCTGCATACGGTCTTCCA
CGCCCAGAACTGTTTGACGTTCCTTCCCTTGCGTAGAAAATTGCAACGAT
CGTGACAAGACAGGGTAAAGGGCTTTTTCCGCTTTCTAATGGGGGAAAGA
GTGTCAAACAAACGCCGTCTTGTTTTTTATTTCGAAGCTGCAGTGCCGCC
CTTGCCACACTCGTTTTGGATACAACTCAACTTGCGGTCTTTGGGAGATC
GCTCCTTCATCGCCCGCTAACTCAGGCGTTCATGGCACTCCCCACCACCA
GCACCCTGGTTTGTAGCGCGATCTACACTACACACTTTTTACCGCCGCTG
CCATTTTTGCTCTTCTGCGGAATCTCTTTCTGGAGACCAGCAGCGTCGGT
TGTGCACAGATGCAGGCAGGGCAGCTTGCCTACCCATGGCATATTCTTTC
GTGCAAAACATTCGTGAGCGCGAGCGAGAAAATTGAGCGCGAGCGAACGT
CACACGTAAGGTTTTCCTGATGGCGAGAGTCTATTAGAGTACTTCGTACT
GTAAATATGGAAGGCTTGGTAGCTTCGGAGACGGCAGAGCAGGATCACTA
TATCGTGGTTTTGTGCGGTACGCTTCGCTCGAAAATGTCACCCTTCCAAT
ATGGTAAGGGTTCGGGTTTGGGAAATACTACGGTACTTATGGTATACGGT
ACGGATCTTCGAAAACATGCCAATATTATCACGGTACTGTAGCGGTGCGG
ATAAAATGCTAGAAAAAAACACGGTTTTCCCACGGTACGAGACCCGCGAA
CATATCCGCGGTTTTTCATCACGTTGCTATTAATAACACCGTGAAGACCC
CCGATTTTCATGATTACATAAAAAGTGTAAGTTATATTTTAGTAAAAGGG
TAATTATTCGACATTCTTCGACACCCTTCCACAAAACGGTACAGGTACGC
CCGCCCCGTCTGTTGTACAGCCGCTGTGTCGATCAGTCTCCCCACCCCCC
ATCCCCTTCCTTGCCGCTTTCCGGTTCTCCCTGTGAAACCTAGACCTCTT
GCATGTGTTTTATCGACAGACCCCCGCCCCACTCCCCCCGCTACCGCCTT
CCATCCTCTCTGTAAAACCTGAACCTCTCTCAGCTCAACAGCGACGAGTC
ACCTTTTTCTTCTCTCGACAGCGGCATGGGAGACCCGATCACGGCCGATC
AGGACTACGGCCACGAAGACGCTAACCACGGGCACCACGCCAGCGAGGGA
ATGGACGAGTGTTGCCAGGATCACGAGACAGCCATGGTCAAGGCGTACAG
AGCGGACCTGGGACTCGTGGGACGTTATGGCGGTACCGTGCCCCTGCTGC
AGGTGAATGAGGGCATATGGATCAATCAAGGAGCATGGTGGAAGAGCGCT
GAAATTCATAGATAATCTGTTCTTGTGGCCACTTTGAAGGTATTTTTGGC
GTTGGGAAGGGGCGGCTCAAGATGGTTTCCTCTTTTGCTAAAAAACATGG
AAGGCGATTTGGGCAAAGGGGAATGGTGACTGGTTCCATCCTACTTTGAA
GGACAAGATGGCAAAATACGATTTAATACTGGTTCTTCGTATGTAGCCCT
TGTTCTACTGTACAGTATGCTTGTGCAAAAGGTTTTGGAGGGAATTGGAG
TAGCATGGAAGTTATATATATATAATTTTATATTTATATATATATATATG
TATTTATTTTTTTTCCCCTCCTTTGAGTAGGTGTCGTACAATAGCTGCAG
CTGCGGAGAGAAAAAAAAAAGGTGGAATTTCTGTCAACGAAGATGTTACT
ATAATATTATACTCTGTGTGAGAATGATAATATACAGAGTAAACAATGCT
CAAAGCATTTTAGGGAGGCGAAGGAACTGGAAGGGGAGAGAGGGTATTGG
GGATAAGCACGAGGGAATGACAGGAACTGATTAAAAAAAATAGCAACCCG
GAGGCTTTTCAAACGATTCGACGCATCACCGCCGACGCACGCCACTACGA
CTAATCCCCCTCCCCTCCCTTCTCCCGTACACTAAAACGACTTACTTGAT
CAGCTGCAAAAGCGGATCACGGCGTGCATGGAGACTTCGATGACCACCTA
CAGCGAAAACCCAGAGGTGACGTTAATCGTGAAAGAACGCCGCCATAAAA
GCAAATCCTCTCTCTATTTATTTCTCTCTCTCTCTCTCCATCTCTCTCCC
TTGTACCTCTTTACTGTCGTTACCAAAACATTGTCCTCGTTCAACTTCCC
GTTTGTTTGACTGATATGAAGAAGTTCCTTTCTGCTGAGGCGTTTTGGGG
AGGGAGAGAAGTAGTTTTTTGTTGTTTTTTGTTGTTTTTGGAGTGCGCGC
GGTGGGGGGGGGAGGGGAGGGTCGGAGGTTAGAGCGTTGAATGGCGACTC
TCGGGTTTTACAATCGGGTAGAGAACCTGGGATGCGCCTGTGGCTGATAC
ACACTCGTTCGCGCCAGCATTTTGACGTCATTTCGTGCAAGCAGTTTCAT
TGCCTATTTTGCTTAACATTAACTTTTAGTACGCGTTTTTTGTTTTTTTT
TCCAACCTCTTCGGGGGTTGTGGACGCATCGTAGAAGGAACACCTCGGCA
AGTTCTTGGCCACAAATCGGGGCAGCACTTGGCTATCGATAAGCCAATTC
CTATCTTTGTAACACAACAGTGTCGTACGAAGTAGGAGTGGGAGGATTTG
AAAACGCCCCATCAGAAGGCGGCATACTGTTGATCGTGCGTACGTGGCAG
CCTTTACGTTTATCTTGGAAAAAGTACTAGTAAGTCGTCATCTAATGGAT
GTTCCGATGTCTTACCTTTGACGCATCGAGCTCGATCAAGCTAGGGTTCT
AAATAAAGATTCGATGAAATCGCGTATCGGTGACCCCTACTCCGTATCTA
TTTTGCCCTTTGCCGTTACACTCCATCCCATTCCATCCCATTCCATCCCA
CTCTATTTAATGCAGTCATGGTGTACCCAATCATCCGAAACCAAACTGGT
ACAGCACGTGGCGCATATCACTTGGTGGTAGAGTGAACCTGATCACTAAT
AGTAGTGCCATATCTCTCGCCATACCGCGATCGAGATGAACATGCCGTCA
TTGCCCAAACTACGCCCGTGTTCATAGTTATGTACACAACCGTCGGTGTG
ATAATTTAGCGCCGCTCCGCCAACTTCCCCTGTGAAAACTAACTGGCGTC
ATGTACCCACAACGCGACGCACTGCCCACAGGCAGGGGCGAGTCTCCGTA
GGTCGGCGACGCTTTGCCGCGAGAACCTTCGAGAAAGTGTCACTCTACTC
CGGAGGATCGAGCGGACCGCGGCCCAGGCAAGGATGAGGCATTATTTAAG
CGGGAAAATGATCGGCGAGAAGAAAAAATGTTTCCCAAGAGTAAATATGT
TTCATGCTTATTGTAGTCGATTTCGATGGGCGCCAGGGCCTACCGGCTTT
TTTACTTTAATTGCCCCCCCCCCTCTCCACCTCCTTTGTTTTGTGTTAAG
AGTGTGTGTGTGTGTGTGTGTTTTCTTCATATCCATTCTGGACATCAAGT
TCGTTGGACGTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATT
TTTAATCCACCTTCCTTCTGCGGTGCGTGCCTTGATTTTTGTCGCGAGAA
GGATTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGTA
CTAACGAATTAATCGTTCTCCACCCGTTGGGCATTTTTATTTTGGTTTTT
TAGTTTTTAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCA
ACGTGTCAGAAGGTTACGAGGTGCCGACTGAGCTACCGGGGTCGACCGGC
CTATTGAGTACGTGGCTTTAAAAGGGGTTGCCATCAAGTTAGGCATAAGG
AGCTTATGAGGCAGCAGATGTTTTAACAGTAGTACCAGTATGCTACAGTA
CGCTATTGGTATGCGAATGCACTGGGAAAATCCGGGAAACGTTCCCCAGC
ACGTACGGAGTAGTGTCGGGGATTGAGTGTTTTGATGTTTCATTTTCGCA
CCAGTAGCAGTGATATTTTATGCCGGTGGTTTTTCATGTGTGGGTTGAAA
ATAAAGCAATATAAAAAACTCAACCAACCTAATTCGTATCAACTCATCGA
GGAGTATTTTTGCGAGGGGCGTTTGCGTCGTCCGAACTTTATTTTGCAAG
AGCAGCTGCCGTTTAGCTAGTGAACTTTATTTGGCAACCACGATTACCCA
AAACCACAGTAGTTGAATCTGTCGACCCATCCCTCGGCCTCCATTATATC
AAGACACCCATCACAGCACGAGCACATCATGATTTAGGATAAAATGACCG
CCATCCACGAACCTACCACGCACACCTACACGCCCAACGCGTACTCAGGT
GATCACGCTCTTCCCCGATCTGATGCTGGCTGTCGAAGAAGGTGTTCCAG
AACTCGCCCACGATTTTTTCTCCACAGTAAAGGTGGGCGAACTGTCGCGA
ACAACCCCCCGTATTCGCTTTTTGGTTGTTTGTTTGAATGGTTTTGAGCT
ACAGCTTGGAACCCAATGGCTCTTGCTCCGAAGCGAGCTTCACTGTTGAA
TGGCTGACTCAAAGCTCTTCGGGCGTAGAGCTCTAGTTCATCCCCCCTAG
CTTTACTGTAGACGATGCTTACAGGGTTACATATTATTGCTGGTATCTTC
TATGATCACATATATATATATATATATATATATGTGTGTGTATATCAATT
TTTGCCTGTCCGTGGCTCTCCCTGTCTCTCTGTACAGTGTTTTACTCGTA
AAAAAAGTGTTTTGACGGTTGAGTTTTGTGACGTGTATCTTTTTGTGTTG
AGAGATGATGCGTTGATTCTTTTCCCCTGTCTGGCACGTTTTGAGAACAG
TTGTGATGTGATGTGTATAGTGTTTGTTGGTTTGTGGGTGTGTCTTGAGG
GGTTGGTTTCTGTATCTAGATTTATCCCAATCGTCTTCGTGCGCATTTTT
TCAATCTTTTAGTTACACCAAGCTTGCATGTTTTTTGTTTGTTGCGTCTC
GTCAGACCTGGGTACGCGAGATGTACGCGGCCGTGAGCCTCGTACAGGCA
CGGAACAACGCTAACGCCGAGAAGGTGTCGGAAGCCATGAAGATCCACGC
CGAAGGGGGGCTGTACCGGGGACAGAAGCAACGTGGCCCCGGGGACGAGG
CTTCGAGGGCGGAGGCGGCTACAGAAAGCGCCGCCTTTACCGCCGAAAGC
CAAAGGTCTGGCGGGTCTGGTGGACTCAGCGGTGATATAGAAGCGGATGC
GGGCAGGCAGGCGAGTGTATAATGTGAACTAGTGTAGTGTACATCATTAG
GAGTAAACATGGTACAGAGAGTGATCACCGGGAAGATTTGTACGTCATCT
ACGTACATTTGCATAGTAGCAGCCGGATTTAACCTGTTAGACTAAATAGT
CAGCGGTGACTTGTCTTTTGGTGGAGAAAGTGCGTTGTTTATGTAGTGTA
CATGGGGATGTAGTGTAGTCTAGGGCAGGATTATTAAGGGAGGAGGCTGG
GAGGGCGCGTGGTGGTTAAAGAGGCGGGTTGAAAGCTGTCGCGGAGCAAG
ACTTCAAAATATATCTCTATACATTTCGATGCTCGCTTAGCACCCTCCCT
CTCCTTACCTTTTACCCTCGATGGCTGCGGTGGGGGGTGTGTTAACTGTG
CGCCCCGCTGACCCCTCGCAGGACAAGACCATCACCGTTGACCCCGAGAC
GTTTGAGCTGATTCAAAAGATTCAGGCCATGAAGAAGCGCGCCAAGGATC
CCGCCCTGAGGCCGAGCGGCTTCGTCGGCGACGATGCCCAGGTCGAGGGA
CCGAACAATCCCATTGATTTCGTCAGCGACGAGAAATTGATCAACCTGTT
CCTCCTCATGGGCAAGTCTGGAGTGGTGGGGAGAGGGGACGGGGTGGGTC
GTCCTCTTCTGTCGGGGAGGAGACTCCATCTCAAGCCTCGGCAGAGCGAA
ACTGGTCCCTAGAAGGACATGCGTCGGGGTCTTTCAATAGCGGGGTCGAG
CAGGCGGCGTCGACGTTCGCCGAAGCGGCACTTTTCAAGCCGACGAGCGG
CGGAGCGTCTGGTACCGGTTCGGGTTCCGATTTGGGAGTATTGGACGCGG
CGGGAAAGCGAAAAGCGAGCGGTGCGCGCGACTCGTCCGCCGACGCTCCT
CCAGCTGCTGTTGGTGCCTCTGGTGTTGCTGATACTACTCGCGTGGTGGG
TGGTCACGATGGCGCATTGGCCTATGGCTTGGCGGCTCAGATGTCGATCG
ACGGGGGCGCGGGAGGGTTGGGGCAAACGACAGCGAATGTGAACACTGTA
GAAAACACCTCTGGCGACGAAGACGGAGCTGAGGGAGAAGAGGATGCTGG
GCGGTGGGAGGGAATGCAGCTGGCGCGCCTCCGCAACGACGATGACAAGG
TTGGGTTAGAGACGGGTGGCGGCTTGACAAAGCTAATCCCGATTTGAAGG
GCGGTGATGAGGGAATGGGGGGCGGGGCGGGGGAGGTTCAAAGCAGCCTA
TCTCCCGGGCATGGGGCCACCCCTGGTGATACGCTAGTCCCAAGCATACC
TAGTACGTTTTTTATGGCACGTGTCCCAAACTCGACTTATTTTGCCCGGA
GATTTTTTATGCCCCCCCAGGACGGTCACGGCAACACCTTGGTAAATTGC
CCCTCTTCTGTTGGTATTACCACATGCGAGGTGCAAGAGATTTCACGTTC
TTCCTCTTGAATGCTTCACCCGTCCTGGTAGACCTGTCTTCGTAACCCCA
CGTTTAGCCGGTAATTGGATCGATGGTAACTTCTTCCAACGCCTGTCTTT
TTGAGCATCACATTGCCATCGTCTAAAAAATACTGCTTGGACGGTTTTGG
AGTGCCTTCGTGTGTCTTGGCCTTGTTGTTGTTTTCCCTACTTCTCCCGA
CCTGTCCTTGTTCAAAATACGTTGCTCGGTGTATTCGACTGCAATGGCGT
GCGGTGGGCAGGTTTTCTTGGAAGTTCAACAGGCGCTGAAGGTGTTGCAC
GAGGTGGATAGTGTCTTGGAACAGCTTGCGCTCTTTTGGGCCAACAGTGA
GGTGAATAATCGTATGCGATGTACGATAAACGTACAAACCATGACGTGCA
CCCGGTACCCGGTGTAGCACGTGACGCGTAACATGAACCCTACCTGGCTT
AATATATATATATATATATATTCATATATCGTACCGTGACTGCCGCAATA
CCCTCGAGTGTCATGTATGTAGTCCTTCGTGATCAAGTAGACTGACATGT
ACGGCAGAGATGACGTGGCATTCATACACCTGAGGTACAAAGTATTGTAG
AGCCCTATGATATTGTCGACTGTATTATTACCAGGTACCATAAGCTAATA
CGATCATGTCGCGGAGGATACCGTGGGAAGGAGCGCTAGACGCTGAGCGC
TACCGGTAGACCCCCAACCTCAAGACTATATATCAGCTCACATATAGCAT
ACAAAGCAGAACAAGAATGAACAACAGCTGAACGGATGTCACAGTGTGTC
GATGGTGTTTATTTTGCTTTGTTTTTTTATTTTGTTTTTTTCGCGCGTTC
TCTGTCCCACCCCTACCTCCGTCCCGTTTAGGTTGCTTTTTTTACCGTTT
TTCCTCTTAGTAGCCCCCCCCTCCCCCAACAAACTCAGAAATTATTGCGT
TCTTGTACTAAAACAGTATTATAGTAAACAACCATGAACGCGTCCGAAAC
GGCCATTCCCGTCAACGAAAAAAAAAACTAATACATATATATATATGTAT
ATACTTGTATATATAATCCAAACGGCAAATAAATCGAACAGGTGATTTTT
GACGTTCTTCTGAGGAAGGGGGATTTAGTGGAGAAATTCGTGGCGTTTTC
GAACAAGCCACGTCTCTTTCAGCGGTTCAAGGAAAGACTGGCCGACTACA
AGATGTTCTGGGAGGGAGTCCAGGTAAACGATAAGTTATAGTTACATTGA
AGAGCATTGACTATTCTCCAGCGGAAGAGCGCCAGCGGGGATTGGGATTG
GGACTGGGATTGGATTTACCCTAACCTGGAGAGGTCCTGGTCTGATTTTG
TAGTTTATATTCCTTTTTTAAACACAAGTATTATTTCGGTTCACATGTAT
ATTTATATCTATGCATATATATATTGAGGGGAGAGGGGGGAGTTTTTGGG
ATCCTGCTTGGACCGGGACATGGTGTCTCGCGTCTTATCCCTAATTGTTT
TAGAGGCGATGTATGTATATATGGTCACACATATAGCAAGAGTATGAATC
AACCCGGTAAGGTTGCCAATCCTGCACGTGGTCAGCTGAACACGGAAAAT
TAATATTTTCCTGTCCGCGTTCGCGCTTGAGAATTTTGGTCTCGCGAGAC
GGGTTCGGCAATCCCGTCCCGCGTCAGCCTGCTCATCTCCATACTCAGGC
TGAATCTGCTTACTTACGGGATTCCTCCCGAGTTCCGCGGCGGCGTCCAT
TTATTTATTTAAAACCGCCATACTCTATCGGGTCAGTCCCGAGTTTATCG
GGTCACATAATTGCGTACCGATGGCGTTCGCGGTCGAGAGTCCGCCGGCA
AATGGCCAGTAAACCTCAAGGTAGTTCCGAACGAGTACTCGACCATGGAC
CCCAACAATATACTTCGAGGTACACCTCTCTTTCCCACACCCACTGTTGG
CATGAAGTGGGCATGTTGAAAGTACCGAAGCAATACGGCGGCCCGGTTCG
ATCTACACGGTGACCACCTCTGCTTCCGCACAATTTGCTTTTCTCCGCGG
TGGCGCCAAGCGACGAAAACCTTTTTTGAGATTTCGATCGCCGGTACCAG
CGTCCTTTGTGCCGTATCCGCCAGACGCCACAAAACATTGCCCCTTCGAC
ACTTTTTGTCTCTTTTTCCTGGGGAAACTTACGTTTTGCTTGATACTGGC
CTGTCATGTACTGTACCGTTTTGCGCCCCGTAGGTAGTTTGCAACAGGTA
CGTGTCCGGGCAGGTGGTCAACGGCGGCGGCTGCATGGGAGCAGGCGTGA
ATTTCCCCGGGACAGAGGCGAATGTTCCGAGAAAAAGCGGCGGTTTAACG
AGAGGAAATTCCACGTACGAAAACCGACACGAGCACGATCACGTTGACAG
AGAGGCCTCCACGGAGGACTTCCCGCGCGACACCTCGAACCGGTCGTCCA
CGGGTAGCGGTGGTGGCAGAGGTATAAGAGGTGGAGGCGGCTCGTCCACT
GCTGACATGGGGATGCGTGCCCAAAACTTCCGGCGTTGATGTTGACGTTG
ACTTTGACCGTTGACGTTTGACGTCGATGTTTACATACGTTGGTATTAAC
GAGGTTGCTCTTGGACGTTGACGTTGAACTTTGACGTCGTTTTTTTACCT
TGACGCTAATAGCTTGGACGATGACGTGTGACGTTGACTTTGATGACGTT
GACACTGGCTTTGGCGTCGGATTTGACGATGACGTTGACGTGGAGTTTGA
CTTCTTGCGTTGGCGTTTTCCCTTGGCTATGGCCTTAACTTTGACTTTGG
ATTTTAGCCCTGGCTTTGGCGTTGGATTCGACGTTTGTGTTCGACGTCGA
CACGGCCGTTGTGGCGGTTGATTTCGTTTTGCGGAATCTATCGGTACATT
GTTGGTAATTAGTACTCAGGAGTTTTTTTTCCTCTTCTTCTTTTCTTGGC
TGTGCTGGCGGTGTTCATATTGCCTCTTCAAATCGGGTGTTATGCTCGGA
AAAAGATACCGGGGTAGCCAGTACACTCAAATGGATTTCACCGTGCTCCC
ATCCACATGGGGACGGGGAATGATAGGAAGGTGGACACTTTTTTCTGTTT
GAAAAAAAAAGAAATAAATATATTCTGCGATTAGTGTATAAACAAAGCCA
GGGTAGGTGGGGAGGGGGGGGGTAGTACATAACGTTTGTTACTCTCATAA
AAACAACGTGCTGGGTATGTTTAGCCACCGACCTCGCCCTCCTCCAAATA
GCGACGAAACTCTATCTTCACCAAGGTGGTGGCGGAGAGATCTATTTTTC
TTTTTCTTTGTGTTGTTGCATGTGAAACGAGCAGTTTGCTATCTTGTCAT
CGTCATTGCCAACGTAGTGAGTATGTGTGTGTGTTTGGCTCGTTTTGAAC
TGTCGTTGTCCCCTTTGCCTTCGATTTTTTTTTTTTACTTTTCGCTAGTG
ATTGGGGCGCTATTCCTTCAAAGCAAGTCTACGCACTCCTATCAAATAGT
TGTGCCGAGGCGACATCACCATCTACTGTTGTATGCATTTGTAGAGTACA
TACAGTGGGATGGAAATTAAAGACCGGGGGTGGAATTCCTATTTCCTCCC
CCCCCTCTGCGCATATTTTCGACTGCACAAACAGCACGTCCGCCGCTAAC
TTTGCGACATCCGCCCCGTATATGGTAGAGATGCGCGGGGCTTTGTTGTT
GCCGTGAGGGTAGTGCGCTCACCCCATCCATCCTCGGCGCGGGGGTTTGT
TACAAACCGTCACCCACGGAACTGGCTGCCGGGCGTCATCAGGTTAGGGG
TAGGTATAGTTGAACACTATTTTACAGTTAATGTGTGTGTCTGAGTGTAA
GTGCGAGCGTCTACACGATCGCTCGCGATTCGACTTCTCGTCGAATCGGG
CGTCTTGCCTCGGCACTCTCTAATATAGTGTCTTGTACTGTAGTGCACTG
TACCGTACATTAATGTATCCTGGGTGTTGTAGAGATATTGTGCGTGTGCC
ACAACCTTGCTTACTTTTCAGACATTATTGGCCTTGTATTTGTTTTTTTT
GGGGGGG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig1111:204980..229186+

>mRNA_A-nodosum_M_contig1111.13.4 ID=mRNA_A-nodosum_M_contig1111.13.4|Name=mRNA_A-nodosum_M_contig1111.13.4|organism=Ascophyllum nodosum dioecious|type=CDS|length=3273bp|location=Sequence derived from alignment at A-nodosum_M_contig1111:204980..229186+ (Ascophyllum nodosum dioecious)
ATGGACGTCGACGGGCAGGGTGGGCAGGAGGAACCTACCCGCGTGGATAG
CCTGTCCGGCATTGAGTCCAAGAAGCATCGCATGGCCACGGGACAAGAGA
GCGAGGACTTCGCCAGGCGTTATAAACTCCTCGAGCAGGTGGGTTCCGGA
GCCTCCGGGACCGTCTGGAAGTGCCGCTTGGCGGACGGACTGCCTGGGGG
AGGCATCGGCAACGGCGATGACCCCGTACCCGGAGTGGTCTACGCGGCCA
AGATCATCGACCTCCGACCGTTTAAGTTGAGGGAGAGGTTCAGCATGCAG
AGGCTGATGCGCGAGGTGGAGATCATGCGGCGGCTCCGGCATCCCAACAT
TATTGGCCTCGTGGAGGCGTTGGACACTCCAGAACAGCTGGTGCTGGTGC
TGGAATACGCGCCCGGGGTGGAGCTGTTCGACGCCATCCTCGGCAAGACA
AGCTTCAGCGAGGACGAGGCTAGGCCCGTGTTCGTGCAGGTGGCGAGGGC
CTTGCAGTACATGCACTCGAAGCAGATCGTGCACAGGGACATCAAGCCGG
AGAACGTGATGATCATGGACAGGCCCGCGCCGGACGGCCTTTACCCAGAG
GCGAAACTCCTGGACTTCGGCCTGTCAAAGGCCATCGATCCGGACTGGGG
AGGCTCCGTGGCGCGAACGTTCGTGGGGACGCCATCCTATCTGGCCCCAG
AGGTGGAGGACAAGCACGGCGGCAAAGGCAAGCCGTACGGTACCGCGGTG
GACTGCTGGAGCCTGGGGGCGATGCTGTACGTGATGCTGGTGGCGCGATT
TCCGGAGTTCCAAGTGCAGGGAACACGAAAATATGTGCGAATGGTGGGGG
CTGCGTGGGACAAGGTGTCGTCGGAGGCGAAGGAGTTGATAAGACAGCTG
ATGGCGTTCGATGCGGGGTCCAGACTCACGGTAGCCCAGGCCCTCCGGCA
CCCGTGGCTCAAGGATCTCGCAGAAAAGCCGGAGCCTCCACCGACGCAGC
TTCCGCCTGCGAGAATGCAGGATATGATGCCCATTGTGGAAAACGCGGCG
TTCACTATCCCGGAGGCAGAGCCAGCTTCGTCGACCTCCGCGAAGCCTGG
GGCTGGTGCGGGGAAAGACTTTTCCCGGCGGAAACCGTACTACCAGGATG
GTTCGAGGGGACAACCACCGGTCATCACGGAGCAACAAACGCCTCCTTCA
GCGACAGAGAAAAATCCGTTCAAGTTCGGCGGCCGCACCGGGCCACAAAT
CCGCGAGCTCAACAGCGACGAGTCACCTTTTTCTTCTCTCGACAGCGGCA
TGGGAGACCCGATCACGGCCGATCAGGACTACGGCCACGAAGACGCTAAC
CACGGGCACCACGCCAGCGAGGGAATGGACGAGTGTTGCCAGGATCACGA
GACAGCCATGGTCAAGGCGTACAGAGCGGACCTGGGACTCGTGGGACGTT
ATGGCGGTACCGTGCCCCTGCTGCAGCTGCAAAAGCGGATCACGGCGTGC
ATGGAGACTTCGATGACCACCTACAGCGAAAACCCAGAGGCAGGGGCGAG
TCTCCGTAGGTCGGCGACGCTTTGCCGCGAGAACCTTCGAGAAAGTGTCA
CTCTACTCCGGAGGATCGAGCGGACCGCGGCCCAGGCAAGGATGAGGCAT
TATTTAAGCGGGAAAATGATCGGCGAGAAGAAAAAATGTTTCCCAAGAGT
GATCACGCTCTTCCCCGATCTGATGCTGGCTGTCGAAGAAGGTGTTCCAG
AACTCGCCCACGATTTTTTCTCCACAGTAAAGACCTGGGTACGCGAGATG
TACGCGGCCGTGAGCCTCGTACAGGCACGGAACAACGCTAACGCCGAGAA
GGTGTCGGAAGCCATGAAGATCCACGCCGAAGGGGGGCTGTACCGGGGAC
AGAAGCAACGTGGCCCCGGGGACGAGGCTTCGAGGGCGGAGGCGGCTACA
GAAAGCGCCGCCTTTACCGCCGAAAGCCAAAGGTCTGGCGGGTCTGGTGG
ACTCAGCGGTGATATAGAAGCGGATGCGGGCAGGCAGGCGAGTGACAAGA
CCATCACCGTTGACCCCGAGACGTTTGAGCTGATTCAAAAGATTCAGGCC
ATGAAGAAGCGCGCCAAGGATCCCGCCCTGAGGCCGAGCGGCTTCGTCGG
CGACGATGCCCAGGTCGAGGGACCGAACAATCCCATTGATTTCGTCAGCG
ACGAGAAATTGATCAACCTTGGTGGGGAGAGGGGACGGGGTGGGTCGTCC
TCTTCTGTCGGGGAGGAGACTCCATCTCAAGCCTCGGCAGAGCGAAACTG
GTCCCTAGAAGGACATGCGTCGGGGTCTTTCAATAGCGGGGTCGAGCAGG
CGGCGTCGACGTTCGCCGAAGCGGCACTTTTCAAGCCGACGAGCGGCGGA
GCGTCTGGTACCGGTTCGGGTTCCGATTTGGGAGTATTGGACGCGGCGGG
AAAGCGAAAAGCGAGCGGTGCGCGCGACTCGTCCGCCGACGCTCCTCCAG
CTGCTGTTGGTGCCTCTGGTGTTGCTGATACTACTCGCGTGGTGGGTGGT
CACGATGGCGCATTGGCCTATGGCTTGGCGGCTCAGATGTCGATCGACGG
GGGCGCGGGAGGGTTGGGGCAAACGACAGCGAATGTGAACACTGTAGAAA
ACACCTCTGGCGACGAAGACGGAGCTGAGGGAGAAGAGGATGCTGGGCGG
TGGGAGGGAATGCAGCTGGCGCGCCTCCGCAACGACGATGACAAGGTTTT
CTTGGAAGTTCAACAGGCGCTGAAGGTGTTGCACGAGGTGGATAGTGTCT
TGGAACAGCTTGCGCTCTTTTGGGCCAACAGTGAGGTGATTTTTGACGTT
CTTCTGAGGAAGGGGGATTTAGTGGAGAAATTCGTGGCGTTTTCGAACAA
GCCACGTCTCTTTCAGCGGTTCAAGGAAAGACTGGCCGACTACAAGATGT
TCTGGGAGGGAGTCCAGGTAGTTTGCAACAGGTACGTGTCCGGGCAGGTG
GTCAACGGCGGCGGCTGCATGGGAGCAGGCGTGAATTTCCCCGGGACAGA
GGCGAATGTTCCGAGAAAAAGCGGCGGTTTAACGAGAGGAAATTCCACGT
ACGAAAACCGACACGAGCACGATCACGTTGACAGAGAGGCCTCCACGGAG
GACTTCCCGCGCGACACCTCGAACCGGTCGTCCACGGGTAGCGGTGGTGG
CAGAGGTATAAGAGGTGGAGGCGGCTCGTCCACTGCTGACATGGGGATGC
GTGCCCAAAACTTCCGGCGTTGA
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