mRNA_P-littoralis_Contig623.53.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig623.53.1
Unique NamemRNA_P-littoralis_Contig623.53.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A6H5KF62_9PHAE (ALDH protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KF62_9PHAE)

HSP 1 Score: 826 bits (2133), Expect = 6.690e-291
Identity = 410/521 (78.69%), Postives = 464/521 (89.06%), Query Frame = 3 
Query:  270 AAAAMSKMTTMP--PKSIFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGD-ADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITSCKQSFSYNAYGGA 1823
            A A+   +TTM   P ++FISN F++ R   TFEVLNPATETV+SVC N GEEDVD+AVK+ARACFDGP+WG SS+G QR  CL+ALASAIE+D +AFALAET+DTGKPI DSEGEIDEA+ YLR++AGLAEGL++E PE L TPNY+ NF TRVVREP+GVV AITPWN+PLCTAV K+A ALAAGC VVLKPSE+APSTC+RMAGL EAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVM AAAKAGPTDVHLELGGKSAM+VFDDVE VEA VDWAC+GIFSNSGQ   ATSRLLVQSKIY++VV++VVDRASRISVGDPMRRG +APGPCMGPLVS  Q+E VLGF++RAVEGGA ++ GD AD   + +KP VGYYVSPTILS +S  +E WDSE+FGPVLCV+RFE+ESEA+E AN SEFGLAA+VMSSD +RCK+VSRAL+AGVVWENCSQCAPVEAPWGG+KKSGVGGRE+GRWGLDEFLGVKAITSCKQ+FSYN+YGGA
Sbjct:   40 AGASTPTLTTMATTPATLFISNTFREARAGATFEVLNPATETVLSVCANGGEEDVDDAVKAARACFDGPSWGMSSTGVQRGGCLRALASAIEDDKEAFALAETQDTGKPIEDSEGEIDEAIDYLRYYAGLAEGLDEESPEQLETPNYNQNFRTRVVREPIGVVGAITPWNYPLCTAVNKVAAALAAGCTVVLKPSELAPSTCLRMAGLAEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMAAAAKAGPTDVHLELGGKSAMIVFDDVEQVEAAVDWACIGIFSNSGQRV-ATSRLLVQSKIYDQVVSSVVDRASRISVGDPMRRGRDAPGPCMGPLVSGPQKERVLGFVTRAVEGGATIISGDGADRNAAVQKPAVGYYVSPTILSEVSDENEVWDSEVFGPVLCVRRFEEESEAIEAANRSEFGLAASVMSSDEERCKKVSRALRAGVVWENCSQCAPVEAPWGGFKKSGVGGRELGRWGLDEFLGVKAITSCKQTFSYNSYGGA 559
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A6H5JQK1_9PHAE (Aldedh domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JQK1_9PHAE)

HSP 1 Score: 639 bits (1649), Expect = 8.780e-219
Identity = 325/493 (65.92%), Postives = 393/493 (79.72%), Query Frame = 3 
Query:  357 TFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGE-EAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFG-----DADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITSCKQSFSYNAYG 1817
            TFE LNPATE  +  C NA  EDVD+AV +ARACF+GP WG  S+GAQRA CL+A+  AIE+D  AFA  E+ D GKPI +S  ++D+AV  LRF+A LAE L +E PE +A P  D++F TRVVREP+GV+ AITPWN+PL  AV K+APALAAGC VVLKPSE+AP TC+RMA L EAAG PPGALNV+TGEG P G +LS H G+DKVSFTGSVPTGQ+VM AAA  GP  VHLELGGK AM+VFDD+ED++ATVDW C+GIF NSGQVCSATSRLL+ SKI++KVVA +++RA+ ++VG P+R  + EA G CMGPLVS  QR+ VLGFISRAV+ GA VL G     DADA  +  KPG GYYVSPT+L+G+   DEAW +EIFGPVLCV++FE+E EA+  AN+SEFGLAA+VMS+D+DRC+RV+RAL+ G+VW+NCSQ A ++APWGGYKKSG G RE+GRWGL+ FLGVK ITSC  SFSY  YG
Sbjct:    9 TFESLNPATEESIRSCANAQAEDVDKAVAAARACFEGPDWGLKSTGAQRAACLRAMGKAIEDDKDAFARLESEDCGKPIKESVDDMDQAVEALRFYADLAEKLGNEEPEEIAVP--DDSFRTRVVREPIGVIGAITPWNYPLLMAVQKVAPALAAGCTVVLKPSELAPLTCVRMATLAEAAGLPPGALNVLTGEGSPAGASLSAHRGVDKVSFTGSVPTGQKVMAAAA-GGPAGVHLELGGKGAMIVFDDIEDIDATVDWICMGIFFNSGQVCSATSRLLLHSKIHDKVVAKILERAASVTVGAPLRDDDKEAEGTCMGPLVSGPQRDKVLGFISRAVDAGAKVLCGGGPPPDADAASTDRKPGKGYYVSPTVLTGVKETDEAWTAEIFGPVLCVRQFEEEDEALAAANNSEFGLAASVMSADKDRCERVARALRVGIVWQNCSQPAFIQAPWGGYKKSGFG-RELGRWGLEAFLGVKQITSCAGSFSYEWYG 497
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A0T7A522_9HYPH (Aldedh domain-containing protein n=22 Tax=Sinorhizobium/Ensifer group TaxID=227292 RepID=A0A0T7A522_9HYPH)

HSP 1 Score: 434 bits (1116), Expect = 4.670e-139
Identity = 238/490 (48.57%), Postives = 319/490 (65.10%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITS 1784
            +FI  K+++ R+  T +V++PATE V+     A  EDVD A K+AR  FD  +W   S G +RA  L+A+A+ IEE   + A  E  D GKP+ ++  +ID+A    RF+AGLAE L D  PE    P  D+ F  R VREPLGVV AITPWN+PL     K+APALAAGC +VLKPSE+ P T + +  + E  G PPG LN++TG G   G  L+ HP +DK++FTGSV TG++VM A A+    +V LELGGKS  +VF D  D++  V+W   GIF N GQVCSATSR+LV+ +IYE VV+ + + A++I +G+ +  G       +GP+VS  Q + V+G I RA + GA V  G             GY++ PT+L+ +      W  EIFGPV+CVK F +E++A+ +AN S FGLAAAVMS+DR+RC+RV+RA +AG+VW NCSQ    EAPWGGYK+SG+G RE+GRWGL  +L  K ITS
Sbjct:    5 LFIGGKWEKPRRGGTLDVVDPATEEVIHRAPAATYEDVDRAAKAARIAFDSGSWPKLS-GTERAVYLRAIAAKIEEKRHSLARLEVADNGKPLPEALWDIDDAAGCFRFYAGLAEEL-DADPEE-TIPVGDSRFTARAVREPLGVVGAITPWNYPLLMVSWKVAPALAAGCTIVLKPSELTPLTALELGVIAEEVGLPPGVLNILTGTGQDAGQPLTEHPLIDKLAFTGSVVTGRKVMMAGAQ-DIKNVSLELGGKSPFVVFAD-SDIDKAVEWIMFGIFWNQGQVCSATSRVLVEEEIYETVVSRLCEEAAKIKIGNGLEDGT-----LLGPIVSRGQYDKVIGAIDRARQDGATVAAGGGRPAGLNS----GYFLEPTVLTDMREDSFVWREEIFGPVVCVKPFREEADAIRMANDSRFGLAAAVMSADRERCERVARAFRAGIVWINCSQPTFPEAPWGGYKQSGIG-RELGRWGLSNYLETKQITS 479
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: UPI000DF1AC09 (aldehyde dehydrogenase family protein n=1 Tax=Candidatus Halocyntiibacter alkanivorans TaxID=2267619 RepID=UPI000DF1AC09)

HSP 1 Score: 432 bits (1112), Expect = 2.160e-138
Identity = 237/489 (48.47%), Postives = 320/489 (65.44%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAIT 1781
            +FI+  +   +     +V++PA+E VV    +A   D+D AVK+A++ FD  TW S  +GA+RA  L+ +A+ IE   +  A  E  D GKP+ ++  +I++A     F+AGLAE L+ E  +++     D+ F TRVV+EP+GVV AI PWNFPL  A  K+APALAAGC +VLKPSE+   T + +  + + AG P G LN+VTG G   G  L+ HP +DK++FTGSV TG R+M++AAK    ++ LELGGKS  +VF D  D+E  V+W   GIF N G+VCSATSR+LV+  IYEK+VA +   A +I++GD M  G       +GPLV+ SQ + VLG I+  VE GA ++ G A           GY+V+PTI + +      W  EIFGPV+C+K F  ESEAV +AN SEFGLAAAVMS D  RC+RV+RAL+AG+VW NCSQ   VEAPWGGYKKSG+G RE+G+WGL+ +L  K IT
Sbjct:    5 LFINGAWVAAQSGGMIDVIDPASEQVVHQIASAEAADIDAAVKAAKSAFDAGTW-SGMTGAERAKVLRNIATNIEARTEELARLEVLDNGKPLPEARWDIEDAAACFNFYAGLAEELDAEDAQNITVS--DDRFTTRVVKEPVGVVGAIIPWNFPLLMAAWKVAPALAAGCTMVLKPSEVTALTALELGDIAQKAGLPDGVLNIVTGFGPSAGQPLTEHPDIDKLAFTGSVTTGSRIMQSAAK-DIKNLSLELGGKSPFVVFGD-SDIEQAVEWIMFGIFWNQGEVCSATSRVLVEDTIYEKLVARLELEARKITIGDGMDEGV-----LLGPLVNKSQYDKVLGLIATGVEEGARLVCGGAHTDICK-----GYFVAPTIFADVDENSVIWQEEIFGPVVCLKSFSSESEAVRLANDSEFGLAAAVMSKDDARCERVARALRAGIVWINCSQPTFVEAPWGGYKKSGIG-RELGQWGLNNYLETKQIT 477
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A7W7KRM4_9PSED (Betaine-aldehyde dehydrogenase n=29 Tax=Pseudomonadaceae TaxID=135621 RepID=A0A7W7KRM4_9PSED)

HSP 1 Score: 432 bits (1110), Expect = 3.390e-138
Identity = 239/489 (48.88%), Postives = 321/489 (65.64%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAIT 1781
            ++I  ++Q   Q   FEV  P++E V++    A  ED+D AV+SAR  FD   WG S+ G +RA  L+A+A  +    +  A  E +D GKP+ +++ +ID+A+    ++A LA+GLND+G E +A P  D  F  RV+REP+GV   I PWN+PL  A  K+APALAAGC  VLKPSE+ P T + +A   +A G P G LNVVTG G   G  LS HPG+DK++FTGSVPTG+ +M+AAA+    +V LELGGKSA +VFDD  DVEA V+W   GIF N GQVCSATSRLLVQ  ++++++  +V+   RI++G+ +      PG  +GPLVSA Q   VL  I   V  GA +  G    K+ A +   G++V PT+          W  EIFGPVL V+RF+DE+EA+ +AN S+FGLAAAVMS+D  RC+RVSR L+AG+VW NCSQ    +APWGGYK+SG+G RE+G WGLD +L  K +T
Sbjct:    5 LYIDGQWQAPAQGGRFEVYEPSSEAVLTEVAAATGEDIDRAVQSARRAFDEGEWGRST-GKERAGYLRAIADNLRGRREDLARLEVQDNGKPLPEAQWDIDDAIGCFDYYAELADGLNDQG-EVVALP--DERFTCRVLREPVGVAGQIIPWNYPLLMASWKVAPALAAGCTAVLKPSELTPLTALELAAAADAVGLPKGVLNVVTGLGRDAGSPLSAHPGVDKLAFTGSVPTGRAIMQAAAQ-DIKNVSLELGGKSAFIVFDDA-DVEAAVEWILFGIFWNQGQVCSATSRLLVQDGLHDRLIERLVEETRRITIGNGLE-----PGVLLGPLVSAGQHAKVLQAIEAGVRDGAKLATG---GKRPAHRD-KGWFVEPTVFIDAPLESAVWREEIFGPVLAVRRFKDEAEALRLANDSQFGLAAAVMSADPARCQRVSRGLRAGIVWVNCSQPTFTQAPWGGYKQSGIG-RELGVWGLDNYLETKQVT 477
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A4S5J562_9HYPH (Aldehyde dehydrogenase family protein n=6 Tax=Sinorhizobium/Ensifer group TaxID=227292 RepID=A0A4S5J562_9HYPH)

HSP 1 Score: 431 bits (1109), Expect = 5.100e-138
Identity = 235/490 (47.96%), Postives = 314/490 (64.08%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITS 1784
            +FI  K+++ R+  T +V+NPATE V++        DVD AVK+AR  FD   W   + GA+RA  L+A+A  I+E   A A  E  D GKP+ ++  +ID+A     ++AGLAE L++   E +A    D  FA++ VREPLGVV AITPWN+PL     K+APALAAGC +VLKPSE+ P T + +  + E    PPG LN+VTG G   G+ L+ HP +DK++FTGSVPTG++VM A A+    ++ LELGGKS  +VF D  D+E  V+W   GIF N GQVCSATSR+LV+  IY+ V+  + + A++I +G  +  G       +GP+VS  Q + +LG I RA   GA V  G             GY++ PT+L+ ++     W  EIFGPV+CV  F DE EA+ +AN S FGLAAAVMS DR RC+RV+RA +AG+VW NCSQ    EAPWGGYK+SG+G RE+GRWGL  +L VK ITS
Sbjct:    5 LFIDGKWEKPRKGGTIDVINPATEEVIAKAAAGTSYDVDHAVKAARIAFDSGPWPKLT-GAERAGYLRAIAQKIDERRHALARLEVTDNGKPLPEALWDIDDAAGCFNYYAGLAEELDNNVEEPIAVA--DTRFASKAVREPLGVVGAITPWNYPLLMVAWKVAPALAAGCTIVLKPSELTPLTALELGRIAEEIDLPPGVLNIVTGTGPEAGEPLTEHPLVDKLAFTGSVPTGRKVMMAGAQ-DIKNISLELGGKSPFVVFAD-SDIEKAVEWIMFGIFWNQGQVCSATSRVLVEEPIYDAVLKRLTEEAAKIKIGSGLDEGT-----LLGPIVSKGQYDKILGAIERARLDGATVATGGGRPAGFDS----GYFIEPTVLTDITTDSFVWREEIFGPVVCVMPFSDEEEAIRLANDSRFGLAAAVMSEDRARCERVARAFRAGIVWINCSQPTFTEAPWGGYKQSGIG-RELGRWGLANYLEVKQITS 479
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A0F2P4G7_9HYPH (Aldehyde dehydrogenase n=1 Tax=Hoeflea sp. BRH_c9 TaxID=1629712 RepID=A0A0F2P4G7_9HYPH)

HSP 1 Score: 431 bits (1108), Expect = 6.940e-138
Identity = 237/490 (48.37%), Postives = 317/490 (64.69%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITS 1784
            +FI+  ++   +  T EV++PATE V+        ED+D AV +AR  FD   W   S GA RA  L+ +A  I E  +A AL E RD GKP+ ++  +ID+A     F+AGLAE L D  PE +  P  D  FA++VV+EP+GV   ITPWN+PL     K+APALAAGC VVLKPSE+ P   + +  + +  G PPG LN+VTG G   G+ L+RHP +DK++FTGSV TG++VM A A+    +V LELGGKS  +VF D  D+E  V+W   GIF N GQVCSATSR+L+++ +Y+ V+A +V+ A +I +G+ +  G       +GP+VS  Q + VL  I R    GA +  G   A+        GY+++PT+L+G+S  + AW  EIFGPV+CV+ FE E EAV  AN+S FGLAAAVMS D  RC+RV+RALQAG++W NCSQ    EAPWGGYK+SG+G RE+GRWGL  +L  K ITS
Sbjct:    5 LFINGAWESPLRGGTLEVIDPATEAVIHQAPAGTAEDIDRAVSAARTAFDTGPWPKMS-GADRAVYLRKIARKITEKREALALLEVRDNGKPLPEALWDIDDAAGCFEFYAGLAEEL-DANPEEIV-PLGDARFASKVVQEPIGVAGTITPWNYPLLMVSWKVAPALAAGCTVVLKPSELTPLNALELGLIAQETGLPPGVLNIVTGTGPDAGEPLTRHPDVDKLAFTGSVATGRKVMIAGAQ-DIKNVSLELGGKSPFIVFAD-SDIEQAVEWIMFGIFWNQGQVCSATSRVLIEAPVYDAVLARLVEAAGKIRIGNGLDDGT-----LLGPIVSRGQYDKVLAAIERGRTEGATIAAGGGRAEGFDR----GYFIAPTVLTGMSEDNYAWREEIFGPVVCVRSFETEDEAVRSANNSRFGLAAAVMSKDLARCERVARALQAGILWINCSQPTFTEAPWGGYKQSGIG-RELGRWGLSNYLQTKQITS 479
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: UPI0012FA8E46 (aldehyde dehydrogenase family protein n=1 Tax=Azohydromonas aeria TaxID=2590212 RepID=UPI0012FA8E46)

HSP 1 Score: 429 bits (1102), Expect = 5.380e-137
Identity = 238/489 (48.67%), Postives = 311/489 (63.60%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAIT 1781
            +FI+ ++    +  TF V+NPATETV+        ED+D AVK+ARA FD   W     GA+RA  L+A+A AI       A  E  D GKP+ ++  +I +A     ++AGLAE L+ +  E +A P  D+ F ++ VREPLGV  AI PWN+PL  A  K+APALAAGC +VLKPSE+ P T + +  + +    PPG LN+VTG G   G  LS HP +DK++FTGSVPTG ++M AAA+     V LELGGKS  +VFDD  DV   V+W   GIF N GQVCSATSR+LVQ  +Y+K++  +V  A RI +G+ +  G       +GPLVS  Q + VL  +S+A E GA V  G   A   A     GY++ PT+L  +     AW+ EIFGPV+CV+RF DE EAV +AN S FGL AAVMS+D +R +RV+ AL+AG+VW NCSQ    EAPWGGYK+SG+G RE+G WGLD +L  K IT
Sbjct:    5 LFINGQWADPVRKGTFPVVNPATETVIHHAPAGTAEDIDAAVKAARAAFDDGPWPRMK-GAERAKYLRAMAKAIRSRQDELARLEVADNGKPLPEASWDIGDAAGCFDYYAGLAEALDQQPEEAIALP--DDRFTSKAVREPLGVAGAIVPWNYPLLMASWKVAPALAAGCTMVLKPSELTPLTALELGAIAQQVELPPGVLNIVTGTGPDAGAPLSSHPSVDKLAFTGSVPTGSKIMAAAAR-DIKKVSLELGGKSPFIVFDDA-DVAQAVEWIMFGIFWNQGQVCSATSRVLVQDGLYDKLLERLVQEARRIKIGNGLDDGT-----LLGPLVSKGQFDKVLSAVSQAQEEGATVATGGRAAGGFA----AGYFMEPTVLVDVPLDSAAWNEEIFGPVVCVRRFSDEGEAVRLANDSIFGLGAAVMSTDSERAERVAAALRAGIVWINCSQPTFTEAPWGGYKQSGIG-RELGHWGLDNYLETKQIT 478
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A5J5G7I7_9GAMM (Aldehyde dehydrogenase family protein n=1 Tax=Affinibrenneria salicis TaxID=2590031 RepID=A0A5J5G7I7_9GAMM)

HSP 1 Score: 427 bits (1097), Expect = 3.170e-136
Identity = 238/505 (47.13%), Postives = 314/505 (62.18%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITSCKQSFSYNAYGGAPS 1829
            ++I  ++Q   +     V NPA+  ++     AG ED+D+AV +AR  FD   W   S G  RA CL+A+A  + E     AL E  D GKP+ +++ ++++A+    ++A LAEGL+ E    +A P  D+ F  RVVREP+GV   I PWN+P   A  K+APALAAGC  VLKPSE+ P   + +A + +AAG P GALNVVTG G   G  LS HPG+DK+SFTGSVPTG+ +M+A A+    +V LELGGKSA +VFDD  D++A V+W   GIF N GQVCSATSRLLVQ  +Y++++  ++D   RI +GD    G +     +GPLVSA Q E V+  I R    GA +  G        +    G++V PTI          W  EIFGPVL V+RF DE EAV +AN S +GLAAAVMS+D +RC+RVSRAL+AG+VW NCSQ    +APWGGYK+SG+G RE+G WGLD +L  K IT       +  Y   PS
Sbjct:    5 LYIDGEWQTATRGARLGVFNPASGALIRQVAAAGAEDIDKAVAAARRAFDEGPWPRLS-GKARAACLRAMAGIMRERQLGLALLEVEDNGKPLPEAQWDVEDAIGCFDYYADLAEGLDTEALP-IALP--DDRFRCRVVREPMGVAGLIIPWNYPFLMAAWKVAPALAAGCTCVLKPSELTPLGALELAAIADAAGLPAGALNVVTGLGNEAGAPLSGHPGVDKLSFTGSVPTGRAIMQAGAQ-DIKNVSLELGGKSAFIVFDD-SDIDAAVEWTLFGIFWNQGQVCSATSRLLVQEGVYDRLIERLIDATRRIRIGDGRLEGVQ-----LGPLVSAGQYEKVMQAIERGRREGATLACGGRRPDHLPQ----GWFVEPTIFVDTPTESALWTEEIFGPVLAVRRFGDEQEAVRLANDSRYGLAAAVMSADPERCRRVSRALRAGIVWVNCSQPTFTQAPWGGYKQSGIG-RELGTWGLDNYLETKQITEYTSESEWGWYLKHPS 493
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BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Match: A0A0G4JW78_9GAMM (Aldehyde dehydrogenase n=5 Tax=Brenneria TaxID=71655 RepID=A0A0G4JW78_9GAMM)

HSP 1 Score: 427 bits (1097), Expect = 7.620e-136
Identity = 236/489 (48.26%), Postives = 309/489 (63.19%), Query Frame = 3 
Query:  315 IFISNKFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWGSSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVRYLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFPLCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVVTGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGGKSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVAAVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGAAVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKRFEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCAPVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAIT 1781
            ++I  ++Q   +   F V NPATE  +     AG EDV +AV +AR  FD   W   S G +RA  L+++A+ + +   A A  E  D GKP+ +++ +ID+A+    ++A LAEGL+ E       P  D  F+ RVVREP+GV   I PWN+PL  A  K+APALAAGC  VLKPSE+ P   + +A + +AAG P G LNVVTG G   G  LS HPG+DK++FTGSVPTG+ +M+AAA+    +V LELGGKSA +VFDD  D+EA V+W   GIF N GQVCSATSRLLVQ  IYE+++  ++D   RI +G   ++G +     +GPL+SA Q + VL  I R    GA + +G             G+++ P I          W  EIFGPVL V+RF DE EAV +AN S FGLAAAVMS+D  RC+RVSRAL+AG+VW NCSQ    +APWGGYK+SG+G RE+G WGLD +L  K IT
Sbjct:   32 LYIDGEWQTAERGARFAVFNPATEEQIRHVAAAGAEDVGKAVAAARRAFDEGPWPRLS-GKERAGYLRSMANIMRQRQAALAQLEVEDNGKPLPEAQWDIDDAIGCFEYYADLAEGLDTE---EQCIPLPDERFSCRVVREPMGVAGQIIPWNYPLLMAAWKVAPALAAGCTTVLKPSELTPLGALELAAIADAAGLPAGVLNVVTGLGAEAGAPLSSHPGVDKLAFTGSVPTGRAIMQAAAQ-DIKNVSLELGGKSAFIVFDDC-DIEAAVEWTLFGIFWNQGQVCSATSRLLVQEGIYERLIERLIDATRRIRIGAGGQQGVQ-----LGPLISAGQYDKVLQAIERGKREGATLAYGGRRPAHLDR----GWFIEPAIFLDTPTESALWTEEIFGPVLAVRRFRDEEEAVRLANDSRFGLAAAVMSADTQRCRRVSRALRAGIVWVNCSQPTFTQAPWGGYKQSGIG-RELGAWGLDNYLETKQIT 504
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig623.53.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KF62_9PHAE6.690e-29178.69ALDH protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A... [more]
A0A6H5JQK1_9PHAE8.780e-21965.92Aldedh domain-containing protein n=2 Tax=Ectocarpu... [more]
A0A0T7A522_9HYPH4.670e-13948.57Aldedh domain-containing protein n=22 Tax=Sinorhiz... [more]
UPI000DF1AC092.160e-13848.47aldehyde dehydrogenase family protein n=1 Tax=Cand... [more]
A0A7W7KRM4_9PSED3.390e-13848.88Betaine-aldehyde dehydrogenase n=29 Tax=Pseudomona... [more]
A0A4S5J562_9HYPH5.100e-13847.96Aldehyde dehydrogenase family protein n=6 Tax=Sino... [more]
A0A0F2P4G7_9HYPH6.940e-13848.37Aldehyde dehydrogenase n=1 Tax=Hoeflea sp. BRH_c9 ... [more]
UPI0012FA8E465.380e-13748.67aldehyde dehydrogenase family protein n=1 Tax=Azoh... [more]
A0A5J5G7I7_9GAMM3.170e-13647.13Aldehyde dehydrogenase family protein n=1 Tax=Affi... [more]
A0A0G4JW78_9GAMM7.620e-13648.26Aldehyde dehydrogenase n=5 Tax=Brenneria TaxID=716... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig623contigP-littoralis_Contig623:112297..137917 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7G1L8
Preferred nameAMADH2
PFAMsAldedh
Model size2909
Max annot lvl2759|Eukaryota
KEGG rclassRC00080
KEGG koko:K00130
KEGG ReactionR02565,R02566
KEGG Pathwayko00260,ko01100,map00260,map01100
KEGG ModuleM00555
Hectar predicted targeting categorymitochondrion
GOsGO:0001101,GO:0003674,GO:0003824,GO:0004029,GO:0005575,GO:0005618,GO:0005622,GO:0005623,GO:0005737,GO:0005777,GO:0005829,GO:0006950,GO:0006970,GO:0008150,GO:0008152,GO:0008802,GO:0009414,GO:0009415,GO:0009507,GO:0009516,GO:0009536,GO:0009628,GO:0009636,GO:0009651,GO:0009719,GO:0009725,GO:0009737,GO:0009987,GO:0010033,GO:0010035,GO:0016491,GO:0016620,GO:0016903,GO:0030312,GO:0033554,GO:0033993,GO:0034059,GO:0036293,GO:0036294,GO:0042221,GO:0042579,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044424,GO:0044444,GO:0044464,GO:0050896,GO:0051410,GO:0051716,GO:0055114,GO:0070458,GO:0070482,GO:0070887,GO:0071453,GO:0071454,GO:0071944,GO:0097237,GO:0097305,GO:0098754,GO:1901698,GO:1901700,GO:1990748
Exons11
Evalue3.81e-305
EggNOG OGsCOG1012@1|root,KOG2450@2759|Eukaryota
Ec32 ortholog descriptionAldehyde dehydrogenase
Ec32 orthologEc-26_000920.1
EC1.2.1.8
Descriptionaldehyde dehydrogenase (NAD) activity
Cds size1656
COG categoryC
BRITEko00000,ko00001,ko00002,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig623.53.1prot_P-littoralis_Contig623.53.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig623 112476..136843 +


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

Feature NameUnique NameSpeciesTypePosition
1680791300.7752934-UTR-P-littoralis_Contig623:112296..1124751680791300.7752934-UTR-P-littoralis_Contig623:112296..112475Pylaiella littoralis U1_48UTRP-littoralis_Contig623 112297..112475 +
1680791300.93163-UTR-P-littoralis_Contig623:136843..1379171680791300.93163-UTR-P-littoralis_Contig623:136843..137917Pylaiella littoralis U1_48UTRP-littoralis_Contig623 136844..137917 +


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

Feature NameUnique NameSpeciesTypePosition
1680791300.7926528-CDS-P-littoralis_Contig623:112475..1126421680791300.7926528-CDS-P-littoralis_Contig623:112475..112642Pylaiella littoralis U1_48CDSP-littoralis_Contig623 112476..112642 +
1680791300.8036373-CDS-P-littoralis_Contig623:125281..1253921680791300.8036373-CDS-P-littoralis_Contig623:125281..125392Pylaiella littoralis U1_48CDSP-littoralis_Contig623 125282..125392 +
1680791300.814289-CDS-P-littoralis_Contig623:127460..1275541680791300.814289-CDS-P-littoralis_Contig623:127460..127554Pylaiella littoralis U1_48CDSP-littoralis_Contig623 127461..127554 +
1680791300.82454-CDS-P-littoralis_Contig623:128698..1287841680791300.82454-CDS-P-littoralis_Contig623:128698..128784Pylaiella littoralis U1_48CDSP-littoralis_Contig623 128699..128784 +
1680791300.8369813-CDS-P-littoralis_Contig623:129210..1294111680791300.8369813-CDS-P-littoralis_Contig623:129210..129411Pylaiella littoralis U1_48CDSP-littoralis_Contig623 129211..129411 +
1680791300.847716-CDS-P-littoralis_Contig623:130314..1304971680791300.847716-CDS-P-littoralis_Contig623:130314..130497Pylaiella littoralis U1_48CDSP-littoralis_Contig623 130315..130497 +
1680791300.8577778-CDS-P-littoralis_Contig623:131241..1313971680791300.8577778-CDS-P-littoralis_Contig623:131241..131397Pylaiella littoralis U1_48CDSP-littoralis_Contig623 131242..131397 +
1680791300.868367-CDS-P-littoralis_Contig623:131798..1319821680791300.868367-CDS-P-littoralis_Contig623:131798..131982Pylaiella littoralis U1_48CDSP-littoralis_Contig623 131799..131982 +
1680791300.8805864-CDS-P-littoralis_Contig623:134053..1342031680791300.8805864-CDS-P-littoralis_Contig623:134053..134203Pylaiella littoralis U1_48CDSP-littoralis_Contig623 134054..134203 +
1680791300.8926983-CDS-P-littoralis_Contig623:135149..1352531680791300.8926983-CDS-P-littoralis_Contig623:135149..135253Pylaiella littoralis U1_48CDSP-littoralis_Contig623 135150..135253 +
1680791300.9173024-CDS-P-littoralis_Contig623:136623..1368431680791300.9173024-CDS-P-littoralis_Contig623:136623..136843Pylaiella littoralis U1_48CDSP-littoralis_Contig623 136624..136843 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig623.53.1

>prot_P-littoralis_Contig623.53.1 ID=prot_P-littoralis_Contig623.53.1|Name=mRNA_P-littoralis_Contig623.53.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=552bp
MLTSRPLGGRILTVFVCYTKATFRSSGPPPAAAAMSKMTTMPPKSIFISN
KFQQGRQANTFEVLNPATETVVSVCTNAGEEDVDEAVKSARACFDGPTWG
SSSSGAQRATCLKALASAIEEDNQAFALAETRDTGKPIGDSEGEIDEAVR
YLRFFAGLAEGLNDEGPEHLATPNYDNNFATRVVREPLGVVAAITPWNFP
LCTAVMKIAPALAAGCAVVLKPSEIAPSTCIRMAGLVEAAGFPPGALNVV
TGEGFPTGDALSRHPGLDKVSFTGSVPTGQRVMEAAAKAGPTDVHLELGG
KSAMLVFDDVEDVEATVDWACVGIFSNSGQVCSATSRLLVQSKIYEKVVA
AVVDRASRISVGDPMRRGEEAPGPCMGPLVSASQREGVLGFISRAVEGGA
AVLFGDADAKQSAEKPGVGYYVSPTILSGLSGGDEAWDSEIFGPVLCVKR
FEDESEAVEIANSSEFGLAAAVMSSDRDRCKRVSRALQAGVVWENCSQCA
PVEAPWGGYKKSGVGGREMGRWGLDEFLGVKAITSCKQSFSYNAYGGAPS
A*
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mRNA from alignment at P-littoralis_Contig623:112297..137917+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig623.53.1 ID=mRNA_P-littoralis_Contig623.53.1|Name=mRNA_P-littoralis_Contig623.53.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=25621bp|location=Sequence derived from alignment at P-littoralis_Contig623:112297..137917+ (Pylaiella littoralis U1_48)
CCCCGATGTTGCGAACGCCATCCAACCAAGCTTGAAAATGCGGAGCGATG
CGATGAGGTGACCGAGCAGCTCCAACAGATCAACAGCTCATCGGTCAACG
AGACTAATGATCGTAAGCCTTGCACCACCGCCTTGCCACCTTTAAAGCAC
ACCATACAGCACCTCCCTCCCGGCAACTTATGTTGACCTCAAGGCCACTC
GGTGGTAGAATCTTGACTGTTTTCGTGTGCTACACGAAAGCGACCTTTCG
ATCGTCGGGTCCTCCTCCTGCTGCTGCTGCAATGTCAAAGATGACGACAA
TGCCTCCGAAGAGTATCTTCATCTCAAACAAGTTTCAGCAGGGAAGGTGC
GTGTGTGTGCCTGTCTTGTGCGTGTTTGTGTGGTGTGTCTACTTGCGTGC
GTAGTACTGTACATAGTTGGGGCAACGATTGCGCAACATGCGTAAGCATC
AAGAAGAGTCAAGATTTACAGCAGTGTAAAGTATGTCACACGCTCATGAA
GCAACTTGTTTTTCACATCCAGGAGTACCCCGGCTGGTGCGCCCAACTTA
GGCGCAATCTTATGGTAGACGGGCAACTGGAATTTCTCGACTTGGAAAAG
CGTTTTCCAAACCTGATATTCCAAGTCGGACAATCAGACTGGTGCCAACT
TCTATGGGAGAACTGGAAAATTTGGGCAGCGATTGGAAATCAGATGGGGT
TGCCAGATGGACGGCAGGCGGTTTGGGCTATTTGCGATAAACTGCTGCTG
CTGATGGCGTAGAGCGGCAAGCGTTATCGCCAGCACGGCCGGGATCGCAC
GTCGCTTTGGTACCTGCACCTGGCTCGTGTGTTTGTGTGCTCGGTTGTTT
GTATTTGTGCTTGTTGTGTGCTGTGAACCACTGCGGCGGAACCTCGTGGC
TGCGCGCGCGCAACGGATTCCAGCTTGGAATCCGAGGTCATTTGGCCTGG
AGTCCGAGGGCAGATTCCAGGCGAGTCGCCTGGAATCCGGAGAAATGGAA
AATATTTTCCAGTTCCGACCGAAAACAACCCCCATAAGATAGAAATATTT
TCCAGGCCTGGAATTTGGATTCCAGTTCCTCATGTGAAACCCTTGGATTC
CAGTTTTCGGCTCTACCATAAGGCCCTGTATTTACGTCAATCAGGAAATC
AAAATTGGAAAGAATCAAAATCAAAATTGGTCTCTGATTGGTCGAGGCTC
TCAAGACCTACCGACGACAATTTTGATTTCTTGGACATCACCGGCAGACC
AAAGAAGTCCAAAAAGACTTCATTGCCAGAAAATCAAAATCAAAATTGGG
GGTCTTAACCCAATCGAAGGCTTTCTGAACGATGTGGCTCGCGCACCACA
CCACAGACAAGCAGACAGAGAGGCACAGGGCACACCGACGCAACCCACAC
AACACAGAGAGAGAGGTGTGCCGTCGCACCAGGTATGTCAAAACCAGCAC
CACACCTAGAGCAGAACAAAGACAGACAGACTCGCATGATGAGGCACCAG
ACAACACCTAGAGCAGGACAACGACAGCCAAACAACAACAGTAAACAAAC
AGCAGACAACCAGACGCGTACAGCAGTCTCGAGTCCATGATGAGCCAACA
CACACAAACAAACAAACCGACAGGCATACAAACAACGCGGTCTCTCTCAG
CGACGTAGCATCAGCGTGCAGTGCTGCTCCGATACATGTATCTGTACTGC
TGCTGCTGTTGTTGTTATGTTTACAGCAGTGCCGATCGATGGTGACATCA
TAGTCAATCAGAGGTTTTGGATCTCGGCAGCGTTTACAGGCCTCTACCAA
GCTGGTCCGTTAATATGGCTCGCAGTGTTTTTCGTAAAATCAAACTTTGA
TTTTGCTATTTTGATTTTTCAATTTTGATTTCCTGATTATCGTTTAACAC
AGGGCCTAAGATTGGGCCTTACACCGAAAGTCGTGGTACGACTGACTTCC
AGAACAGATAGGAGGGCACCACACACACACACTCGCACAAAAAGACCGCG
TAGGAAGGTGTATCTTCTTCGGTCTTTCTTGGGGATTCTTTTGTAGTTTC
TTTCTGTTTTTTTTATCTTCCTAGGGCTCAGCACTTTTTGTGACCACGGG
CTAGATTTTGGCGATGAGCTAATGTGAGAATCAACAATAAGACCATCGAG
TCGGCGTGTTGCATCGCATTATGAAAAACAATGAACACACGAAAAAACGA
AAAGCTACGCCACAGCAGCAGCGGTTAGCTGGCTCTATCCGACCTCGATC
CAAGGTGATGTCTCGCAATGAATGCTTCAGAAGCAGACACCTTTCCCATG
CAGGCGGTCCCGACCTGAGCAATGATATAAACCACTGTAAATAGCGGACA
TTCACCGCTATGAAGCGGCGACAAGTGTGTCGGTTGGGCTGTGATGCCAG
TGGTTGATTTTTTTTTTCAACTTCGATTTAGAAAATCAAAGAGCCCCCCG
TCAATAACGTGTTTGCGAAAACAATATTTTCACGGCTGACGACCAGTTTT
GTCTCACACTTGCACGAAAAATTTCTTTTTTATCATTCATCTCCCATCCA
TATCGGGACCAGGGATCGAGGTGGTGATTAGCCGACCCACTGCTGACATG
AAGATCCTTCCTGGCACGTTGTTTGTTATGCGAAACCAATGCAGGGTGGG
GTCATAGATATTCCCGAGATGCCGAAAGAGACCGACCACGTCGTGGCCAT
TGCCGGCTGGGGAGAGACTGAAGAGGGAGAGAAGTGAGAATAGAGCAGAT
AGGTTGGAGCTGCTACTGTGTGTGTGTGTTGTCATCCCTTTGATTGGGCG
CTCCCCCCCTTACCCCTGGCCCGATACTGCAATCGAAAACGCCTCCTCAG
GAGGAAACCTGGATGACACACATGCTGGTCAACCGAAGTTGGCCAGCAAC
TCTCCACTGCATGTGTTTCTTCTTGGATTCCGCCTCAAAACGGCCCGTTC
ATACGGGAAATTCCATTGGAAACTAAACGACTCGAACGTATCGTTCCAGT
CGACCACTACGCCCTTGCGTAGACTAATGGTTCCGCTTAAATGGCCCGTC
CAAATCCCGGGACTCATTACTCTACTGAATGGCTCGGATGGTTCCGCCTC
ATAACGGCCCGCTAGCACGATGACACAGCAGGAACCCATCACCAAAACCA
AACAAGTACGGTATTTCATGTGCTTCGTTTCCGCCTCAAAACGGCCCGTT
CATACGGGGATAATCCACACGAAGCCAAACGACGGGAACATATCGTTCCA
ATCGACCACTACGCCCTTGCGTAGACGAATGGTTCCGCTTAAACGGCCCG
TCCAATTCCCGGGACCCATTACTCCACTAAATGGCTCGGATGGTTCCGCC
TCATAACGGCCCGCCAGCACGATGGCACAGCAGGAACCCATCGCCACAGC
CAAACAAGTACGGTATTTCATGTGCTTCGTTTCCGCCTCAAAACGGCCCG
TTCATACGGGGATAATCCACACGAAGCCAAACGACGGGAACATATCGTTC
CAATCGACCACTCACTACGCCCTTGCGTAGACGAATGGTTCCGCTTTTAC
GGCCCGTCCAATTCCCGGGACCCATTACTCCACTAAATGGCTCGGATGGT
TCCGCCTCATAACGGCCCGCCAGCACGATGGCACAGCAGGAACCCATCGC
CACAGCCAAGCAAGTACGGTATTTCATGTGCTTCGTGTCCGCCTCAAAAC
GGCCCGTTCATACGGGGATAATCCACACGAAGCCAAACGACGGGAACGTA
TCGTTCCAATCGACCACTCACTACGTCCCGGTGCAAAATAATGGTTCCGC
TTTTACGGCCCGTCCAATTCCCGGGACCCATTACTCCGCCAGATGACCCG
TATAGTTCCGCCTCATAACGGCCCGCCAGCACGATGGCGCAGCGGAAAGC
TATCACCAAGGCCAACTCGAACCGGTTACGCGGAGAGGTAATTTCAAACG
CACACCTATAATCGATGCCCCCCAATCCACTCTTCTTCCCTTTTTTTTTT
TCTTGTACTTTAGTTCCATCCCACCAATACCATTGTGAGTATACTCTCAC
CAGAACAACGTACCCATCATATGTCTACCTGCCCTCAACGCCAATCCACC
CTACGTCTACTTGGCCAATGAGTACTTGCTCTCGCCCCCCCCCCTTTTTT
CTTATGTCTTCATGCCCTCAGCGCCCGTTCATCCTACACGTACTTGGCAA
TAAGTACTTGCGCCCCCCCCCCCCCTTTCGTCCTCCCCTGAACCTTATTT
TTTTTTCAACTGTGTCTATACCATCACCAAAATTGACGCTTCTACGGTGT
ATCCTACTTGTCTTTACTTCCCGGGGGGGCGGGCGGGGGCAAGAAAAGAC
GCTCTCTACCTACGATGCCGCCCTTGCGACCTGTGGCTCTCTCCTCTCCT
CCTTGTCTTCTCCAGTCCCCCTTGTCGTTCGTTCGTTGGCGTTTGTTGCT
TCTTGCTTGTGCTGCTGCTCGCTTTGTGTTTCAGCTGTGGGTGTGATTCT
CTCCTTTCTTCCCGATTTGGGGCCCCGCATTTCTGACTGCAAGCCCCTGT
GCTCATACTTGAATATTTCTTCACGTTCAGTCAAAACACCAGATTGCGTC
AAACTTAATCTTTCACATCTGCACAGCGGAAACCCACCACTAAACCAACC
AAGAACGGTCAACGGATACTAAAACATTCCAAACCACAATAATCATGCAC
ATCATAACCAACCGTGCTATCCCACGCCTGCAACTGCCAGTATATTCAAC
GTGTATTTCAAATCTCCCCCGTGTCTTTACTTCCCGGTTGTGTGGGCGGG
TAAAAGAAAAGGCGCGCTCTACCTATGCCCCCCCTTTGCGACCCCTGGCT
CTCTCCTGTCCTCCTTCTCTCCTCCCGTCCCTTTCCCGGTCCGTTTTACT
CGTCTGCTTCCTTCTTGCTCTGCTTCTTGCTTTGGGTTCAAACGATTCGT
GCTTCCCTCTTCTTTTTCCCGATTTGGGGGCCCCGCAGTTCGAACTATTT
CACATTCTCACGGCTGTCCCCTGTGCTCATTATTTACTCTTTCTTCGCGT
TCAGTCAAAACACCAGATTGCGTCGAACTTAATCTTCCACTCTGGAGCCC
CAAATGTTTATCCGGAAAATAACGTGTTTGCGCAGAACGGACCATATGAA
GGTTTCGGTTTGGTCTTTGTGCACATTTTTGTAGTAGGCGAAAAGGGATC
TTTAGGAAAAGACCCAAGTTGGTCTTTTTTTTTAAACTTACAAAAACATT
AATGTGTTCGCCTCTCTCCAGACAAGGATCTGGAGCAGATATTGCAACGA
ACACAAAGAGTGAAATACGTCTACCAGTGTTTCTATACTCAGCAACCAGT
GTACCGTTGCAGCTCCCCCGAGGGTATCAGGCTCAACAAGACAATTTGGT
GGTCGTCTTGTGTGACACACGTTACACCATGTGTTGAGTGTTTACGCTCT
ATATTTGTGCTGTTTGCATCATCCTTGGCATAGTGATGGTGGTGATTTGA
CGTTCTTCGTGCAGCAGTAGATTTTACGTTCCTGTGTGTGTTGTGTGTTG
TCATCCCTTTAATTGGACGCCACTTTACACCTTTCGGGTAGGTAGACGCT
CCGACTGGGGTCACACAGGGGGAAGTCAACACAGGAGTCTTTTTTTTTTT
TCTCCACTTCCCTCTGCGGTGCTTGCCTCGTTTGGTTGAGCTTTTATCGC
GAGAGAGGGGACAGCAATCCCTTTCCCTCGTCGATGGTACGATCGAATTT
TGTTTACTCACGAATCGGTCGCTTTCCACTTTCACGCCCATTGTGAGAAA
AAAACCCAGATCGTGTTACTGCACGAGGATTCGAATTCTCGCGACATAGT
CAGAAGGTTGCGTGGGCAACCAACTGAACCACCGGGGTATGCTACAGACA
AGATCACTGTTTCTCCACAAATATATGGAATCTCCCCATCATCAAATCCA
CTTTGGTCTTTTCCTACGGCCTTTTGTGTCAAAAGACCTGAGCAAAAAGC
GACTCAGGTAGTTTTTGCTCAGGGTCTTTTTATGGAACAGTTGTTTGATT
GGCAAGATGTCCTAGATGCCCCCTGACGTCAGGGCCCATGGTTGGGTTTA
TGCGGGACCACAGCAGTACGGCTGCTGCAGAAATACAACACCACAGCCAC
GTAACAGACTGCTATCGCAACGAAGACTCACGTGGTACGTAATAACACGC
AAAACCTCTCGTGTCAGTCTACCGCCAAAATGAATAAAAGTGATCAGCTC
AGAGAAATGCAGAACGGCTAGCTGCACAGGCACGCATTCATGGGTTAGAG
AGGGAGTACAAAAGTACCTGTGCGGAGAGTGTCAGCAGCATCTCGAAGGA
AAAAATAATAATAAAGGGCGAACGGACCACTTCGAAATCTGAGTGAAACC
TGAGTCGAGTCAGGCCTCCGCAAACACCCTTGTATTATTTTTCCTTTTGG
GCCGTTCGAATCATAACGTTTCCAACAGGCTCTGTTGAAGGACCGGATAT
TATGTGTCAAAACCGAACGTGGTTTTATTTTTTTTAGTAACTTCCGAAAA
AAAAGTCCCTCCTGTTCGGCTGGGGCAGTGTGATGGTACCCAACTTGACT
CTCATTTTGCACTGCTGTAACCGGTTCGCTCTTTCGTCCACCACTCTCTC
GAACGAATGAAGCCACAGTAATGGTCAGGACATTCCTCGCGAGCTGGGTA
TATTGTCCTTCTTCTCCCGTAGTAATATAAGACCGCGAGGTATCGATAGA
CTAGCGAAAAAAGGTTGCACGTATCACTGATGACGTGTGAAGAAACGAAA
AAAAACGATGCAGCTCACCACCAGCAGGTGGTGGTGATTTCTTCTTTTTT
CCACTGGCCATCAATTCCTGCAATCCTTCTACGCCAGCCTATCGATGCCT
CGCTGCTTCAGAGGACCACCGGAGGAGAGAGACCATGTTCACAGCTCGCG
AGGCATGGCTTTGCCATTGCTGTGGCTTCATTCGTTCAAGAGCAATCAAC
AAAAAACCAAACTGGTGTGGCGGCAGTAAAAACTGCTGCTGGTTGAAGAG
TTCAGAGGACAGCAGCAGCAGCATCAGCTGGCTGCCAGCTCTCGTCCGAT
CCATTTTGGTTTTTGGTCCATCGCTCTCGAACAAAAGAACCCACAGCAAT
ACAAAAGCCATCGGCCGTGAGGCGTATGTATGGTCATTCTCCTGCGTCGG
TCATCAGAGGCCGCGAGGAATCGAGAGTCAAGTGAAATTATAATCTTCCT
ATCTGCTCGAAACCAAACAACTGAGTCACTTTATATTGTTTCTTGATATC
TACACGAAATCAAAATACTCGATATTATGTTGTCATCCCTTTAATTGGAC
GCCACTCTGCACCTTTCGGGTAGGTCGATGCTCCAACTGGGGTCACACAG
GGGGAAGTCAAAACAGGAGTTTTTTTTTTTTCTCCACTTCCCTCTGCGGT
GCTTGCCTTGTTTTTGGTTGAGCTTTTATCGCGAGAAAGAGGACAGCGAT
CCCTTTCCCTCGTCGATGGTACGATCGAATTTTTGTACACAAGGTTAAAC
ACGACAAGGCCCCCGGAATTCTCGGAACGGTCAATAACCGAGTCACTTTA
TTTTGTTTCTTGATATCTACACGAAACCAAATACTCAACATATTATTTAC
TTGGTTAAACACGACAAGGCCCCTGGATTTCTCGGAGCGTTCCAAAACCG
AGTCACTTTATTCTGTTTCTTGATATCTACACGAAACCAAATACTCAGCA
TGTTATACACTAGATGAAACACCCAAGGCCCCGGATTTCTCGGAGCGGTC
AATAACCGAGTCACTTTATATTGTTTGTTGATATCTATACGAAACCAAAC
ACTCGACATATTATACACAAGGTCAAACAACACAGAGCCCCTGAATTTCT
CGGAGCGGTCAATAACCGAGTCACTTTATATTGTTTCTTGATATCTACAC
GAAAGCAGTCACAACACGGCGTCGTGGTGAGTAAACTCCGCGTGGAAGAC
CGTATCACATCACACACGATCAAGACCTAAGGCCGTACAGCAGTACCACG
ACACCACAAGCATGATCACTCGTCAAGCTGCAGTTAGCCGCGGTGCTTGG
CAGGAATCACACTTCATCTGCGCCATCGAAAATTGCAAAGGCATTCCGCA
AGAGGAACAAGAAATTTGAGGTGTAGTGCAGAGAGAGGCTGTACCGACTG
CTGTGAGCATATTCATGATGCATGATTTGTGCGCATGGGTGGCAAGTTTG
ATGATGGTGGCGTCCTCTGCAGAATCACTCAATGCCGGAGGCACGACCAA
AGCGAAAGCTCACAGCAAGGGGTGGACCCTAACCGCGAGGGAGGGGTGCT
TGCGCCCGTCGAATTAGAACCAGACCAATGTGCTGCAGGGGTTCACTGCG
TCATCGAACCCGACCCAAGCTTGAGAAGTTTGGTTTCGAGCAGATAGGAA
GATACCATATACTTTCATTTGATTAAACAGGGCATTGGTGTTTTTTCAGC
CAATTTGCCCTCACGCAGTCTTTAAACAAGTACACTAGGTACGTGAAATA
TTGGTTTCTTTCATGATATCCGATAAGGGCCATTTTTTCGTTTCGGGCTC
CTGGGCGCTTCACTATAATCAAGTATGTTTATACCATGAAAGAAACCAAT
ATTTCACGGGCCTAATTTACTTGCTTAAAGACTGCGTGAGGGCAAATTGG
CTGAAAAAACACCAATGCCCTGTTTAATCAAGTGAAATTATATGGTATCT
TCCTATCTGCTCGAAACCAAACTACTCTAGCTTGGGTCGGGTCCGATGAC
GCAGTGAACCCCTGCAGCATATTGGTCTGGTTCTAGTTCGACGGGCGCAA
GCACCCCTCCCTCGCGGTTAGGGTCCACCCCTTGCTGTGAGCTGTCGCTT
TGGTCGTGCCTCCGGCATTGAGTGATTCTGCAGCGGACGTCACCATCATC
AAACTTGCCACCCATGCGCACAAATCATGCATCATGAATATGCTCACAGC
AGTCGGTACAGCCTCTCTCTGCACTACACCTCAAATTTCTTGTTCCTCTT
GCGGAATGCCTTTGCAATTTTCGATGGCGCAGATGAAGTGTGATTCCTGC
CAAGCACCGCGGCTAACTGCAGCTTGACGAGTGATCATGCTTGTGGTGTC
GTGGTACTGCTGTACAGCCTTAAGTCTTGATCGTGTGTGATGTGATACGG
TCTTCCACGCGGAGTATACTCACCACGACGCCGTGTTGTGACTGCTTTCG
TCAAGAAACAATATACAAAGTGACTCGGTTTTTGAGCGCTCCGAGAGATC
CAGGGGCCTTGTCGTGTTTAACCAAGTGAATAATATGTTAAGTACCTGGT
AGTTTGGTTTCGAGCAGATATCAAGAAACAATAGAAAGTGACTCGGTTTT
TGACCGCTCCGAGAAATCCGGGGCCTTGTGGTGTTTAATCTAGTGTATAA
CATGTTGAGTAGTTTGGTTTCGTGTAGATTTCAAGAAACAAAATAAAGTG
ACTCGGTTTTGGAACGCTCCGAGAAATCCAGGGGCCTTGTCGTGTTCAAC
CAAGTACCTGGTAAATAATATGGTATGTTGAGTAGTTTGGTTTTGAGCAG
ATATCAAGAAACAAAATAAAGTGACTCGGTTATTGACCGTTCCGAGAAAT
CCAGGGGCCCTGTGTTGTTTACCCTTGTGTTGTTGTTGATTCTCACATTA
GCTCATCGCCAAAATCTAGCCCGTGGTCACAAAAAGTGCTGAGCCCTAGG
AAGATCCCAAAAACAGAAAGAAACTACAAGGGAATACCCAAGAAAGACCG
AAGAAGATACACCTTCCTGCGCGGTGTGCATCACTGAACTACAGCAGTCA
TAGCAGTACCAACAGCAAACGTATATCCAGCGTCGTTCATTTGACTACAA
CATCGTCTTCGGTCTCCTCCCGCCCCACTTATAACTAATAACACACACCC
TGCTGGCAACCTCTTTGAAGCCAGCAAACAAGCTGCATCGACCGCGGAGC
GCCAGCGTGGTCGATGTCCACTATCATGTAGACGCCCGTTCCAAAATAAT
TAGGAGTTCGGAGGCCTTGTAGCTCTGATGCTGTCTGATGCCGTGAAGTG
AAGCTTGTGTCTGCAACCAAAAACCACCACCAGCGCGATTTGGAAGCGTC
TAACAGCACACACCATCTTCTTGCGACCCTCGGTGAGCCTCACACGAGCT
ACTACAAGCACGCAGCGGCAACAATACCGAGGGTCACTATCATGTAGACC
TACGTTTCGAAAGAATGAGGACTTGGGAGGTTTTCTGTATCTGTTGCTGT
CTGTTGTGAAGTGATCTTTGTCTGATTTTACAGCAGAAAAGCACCATGAC
CTGTTCGATTAGAACGGGGGTATTTTCAAGGTTTGTGTTGCCTGAAATAA
AAACCGTTCCCCTGAAATCAGGCGTCCTGCTTAAAAAGGGCCTAACGACC
AGTTTGGAGCCCCAAATGTTTCTCCGGAAAATGATTCCGACGAAATTTTG
CTCGAGTCTGAGCAAATCCGGCCGGATTTGCTCGATTTCAAAGGATTTTT
TGTAATTATAACGACCACGAGCTGTGGTTGGCGCTCTTCGCATCACAAGC
TGTAATTGGCGCTCATGAAACAGTCGCGCGATGTCAGCGGTAGAAAAGGC
CTGATACAGCTGTGGCTCCCAGCTTGGTTGTGGATGCTGACTACTACCAT
ATTATCAAGGAAAGGGACCTCTTGGAAGCAGGGCTTGGCAGGGACGCTGG
TTGCGTGGGCATAGACATGCATACAGCATACGGTACAAAACCATACGGCT
TGCGAACATATTCATTCCTCAAATGGCAATTCCAGAAAAGAAGAGGGAGT
GAGGGCTGAGGGTACAGAACACAGAACGGAGCACGTCCCTGCATATGTGT
ATGCGATGCATTCGTGAGGAGAGCAGAGAGACTGACGGAAGACAAGTCAA
TGCTTTCACGGCATGAGCTCTTGCTGAAATATTTCCGGCTCTTGCATCTA
CCGCACTCCTTCCCGCTGTCATTGCTCCCTCATTGTTGTAGATTACCGCG
GCGATACCACCCGACCGGGCATGCACGTGCATGTTCTGTTGTTTGTACGT
GTTGTTTTGTTGTACATAACTGTATGATTCAGAGCTTCATATCATACGCA
TCTAGAGACACGACCGCAACACGACGCAGACGCGCCGGAAGGGCCCTCCT
CAATTTTGGCTTTCAATTCGCAACTTTCGCGAGACACGTCTTCCATCCGA
GTTTTTTTCTGCGTTCCGATCTTATTTTCAGTGGCGTCACTTTACAAAAA
TTTGTGATTTTCGCAAACAGACCAAAACCAAACACCTTTCCGCTGCTGAT
CACACTCGACGCCAGGGCTTCCGCCCAATCTCCAGTTTCCTGAAGTGCGG
ATCTACGACAGCAGCTCATGCCACTTCTCGTAACGTACATACCAGTTGCT
GCAGGACCAGCTGTAGGCTACGTAAGCCTCAGACAAAAGTTTTCATGGGG
GTGTTAAATTACTACTGTGAGGTCATGCTCAGTGTGCGGTGGTTCTGTCG
CCCTGCTATATCTATATTTTTTCCCGGTGAGAGGCACCGGCCGTTATCCG
GACAGCCTGATTGAAGATGAAGCTCCCGCAGTCATTGCGCAACAGCGAGA
ACAAGCCTGTGATGCACACGGCAGCGCAAGGCAGCGCGACACGTGAAATA
CACACAAATACCACTTCCAACACGAGTTCCAATACTCCATAAGTTCGCCA
CACAAACCTTTCCGCAGGCGGACTTCAGTTATTGAATCCTTCGAACACAT
CTATCCACCCCCTGCTGCTCTGCGTGCTCGGAACAGGCAGCAGGTTTGGT
GGGAGCCTATCTGAACATGACTTTTTTTATGAATATTGCGGACATAATAT
TAATGATGGAATCGCATCCACAATGTTCGGTGATTTTGCTACACCTCCCG
CCGCAGTGTCGACCCCAGTTCATGCAATAGCGGACGCGTACTACGCCAAC
CCACTCCCATCCCTTGAGATTCTTGGGAGACTTGGCCTCTCCACGAAGGT
GTTACATTAGCACGAAGTCCATTTTCGTTTTCGCCATGGCTCCAACGATA
TATATATATCTGTAGAGTTGGCCTTATCGGCATGTTTTTGGCTGCCCAAT
TGCGCCGCTGCCGACCACTGACGTCAATATTCGACTTGACTTCTTCTGGC
CGGCTTCTGCAGACCTTCATCGGTCACCGTGTTGCTGATCCCTAACTGTG
CAATATCGGGATGCGCGCCATGGTCAACTGGTTTCGGAGATTCCATTTAC
GAAGCGTAACGTTCGCGTGAAAGTTGCGTTCCGAGAGCTAGAAGGATTCG
CACAAAACAAGAGCAAACGGTTCGCAATACGATTAAATGACGCAGGATTC
CTCTCGTTTAAAGCCGAATCAAAGCGTGTCAACAGCTGTAGAATGGAGGG
CGCGACTTGCTTGATGTGCCTCTCTACTTTTCCGGCGACCCTTTTGGTCT
GTGCGAGGAGCAAAAGTGTTCAACTTTGGAGGGGGAGGCTTGCAAAAAGA
GTTATTTTCTCGCGAGGGCCCACACGAGTTCGATTTCGTCTCTACGCGTG
ATCCTTTTTTTTCATTTCCCATACTGAATGAGAAAGGCCGCGACACCTGT
GTCCACCTTGTACCACTCACTGGCACCGGCGCAATTCATGAGAAACGCCT
TCTTACGTAGAAACCCAGCTTTAGGTTCAAAGAAAGAGAAGAAGCTCGAC
CCTCCGAATGAACTCAGTGGCCGGCGCCACACTAAACCAAGGTAGATAAC
GGCCTGTGCTCAGTGGTGGAGACAAAACTCGGTCACGAGTCGTACTCGAA
GTAGCTGTTTCTTCATTCGTGGGCCGGCACTGCTTTAGTGGCTAGTAGTA
GCACCAACAGAGCTCCTCCCGTATTGCATCCCACACGCGTTCGGTGCCCC
CATGATACCTCATGAAACCCTATGCGTGGAGGCAGACAGGCAAACACCTT
CGAAGTTCTCAACCCCGCCACGGAAACCGTTGTGTCGGTCTGCACCAACG
CCGGGGAGGAGGACGTCGACGAAGCCGTCAAGTCTGCACGAGCCTGGTGA
GCAAGTTGTGAAAAGACCTTGGCTACTACTGTCGTTGTCGGCAACTTTGG
CGGAGAAAGCAAAAGCAATATAACAAAAAATGAACGTCCGCGCACTTGAG
ACCGAACTCGCTCGGTGGGAAATATCAATATTGTGTCTTAGGTTCGTCGC
AGCGCGGGGTTCATACAGAATACGTACAAGCAGATTCCGAGTGGAAAGTA
GTCACTCTTTCTACAACATTCACCTGGTATGTCTGTAGAATCTCAAGCTT
TTTTTTTTTTTCGTGTACTTCCTTCCTTCTGCGTGACCGGCCCCAGCTGG
TACGCCGAAATTAGACAGAAATATTAATGTAGACTGGCGTCAAGGACAGG
TGTGGTGGCAACGCACACGCCTCTTTTCATTTCCCGAGAGGTGTAGACTC
GCGTCCAGGATATAAAGGTGGGATGACAACACAACACTCACATACATACG
CTGCCCATAAATACATACATATCAAAGTAAATTCTTGACAGTATCCGGCG
AGGGTACGGGACGGTCGAACCCTTATCGCGATAAAAAGCTGGAAAGCAAT
GACGACAAGCACCGCAGAAGGTACAGTAATTTGTGCCGAGAGGACCTGTA
GGTGGAGGGGAAAATAAAAAGCTCGTGTGTGACCCTTCCTTCCGTGTGAC
CCCGGCTGCTTCACCCACTTCATGCCGAAAGGTGAAGACTGCTGCCCAGA
ATAAACGAGATGAAAAGACACACACACTCTACAGCAGTTACCAGTAGTTT
TTTTTTTTCTCTCTTTCGGCATACTTTTGTGTCGGCGATACGAAGGGTTG
ACTGCTGTGTTTTCAGGAGACAACATCAGCAGCCTGACCTTTGTCGGCAT
GCATGTTTTGGCATTGTTTTGGTTACGCACGAATCAGAAGTTTGCGCGGG
TGCTTTCAGGAGGCACTATCAGCAGCCTCGGCTTGTTGTCGGCAAGCATG
TATGATATGGCATCCTTTGTTGTGTATCTGGGCTTTTGGGAGGCAACAAC
CGAATTTGCAACCCCGAGGTCGCCTCTTTTGGACACAGAGGTACGATGTT
ATACAGGGTTTGAGCATCAATATACCTGAACTTGAACTCCTACACGAGTA
TACATACAAGGTTTCTGGGGGTTGGATACGGGCTCTCCCGGGGGTGACGC
AGTCAGTATACCTGAACTGTAGAGTCCCATATACATACAAGGTTCCGGGG
GTTGGATACGGGCTCTTCCGCGGGTGACGCAGTCAATATACCTGAACTAT
AGAATCTCATAAGTATACATACTTCGTACAAGGTTCCGGGGGTTGGATAC
GGGCTCTTACGGGGATGACTCAGTCAATATACCCGAACTGTGAAATCCCA
TATACACACGGTACAGGGTTCCGGGGGTTGGGTACGCAGGGGACACGAAA
CACGAAATGCAACGCTAGTGTTGCGATGATGGCATGCATGTCGTCGGTGG
ACGGTCGTAGCCCAACGTCCTGTAATCCTAATTTCTGTGAGAAAAACGTT
GCATGTGTGGGGGATGGTGGCGAGCAAGTTTGCACGCATGTATCATACGT
ATGTTTCATAATTTTCGTCCTTCTATACATACAACACATCCTTGTATCAT
ATGTGTCTGTGAGAAGTCTACTGATTAATCTTAAGGGACGGCGCATTTTT
TTTCAAGCCCTCCTGAAGCCAACGCTGTCGTCATGCCAGGGTCGTCCGTC
CGTGCCCTCGTCAACGTACCTTTTCCGTACCGTCAACTAGTAGGATACCA
CATCATGACGATAGAAAGCTCCACAGTAGACTTTCGTATGTTTCCATGTG
TCTGCAGCAAGTGAAACGCCGTATTTGTGTTTGGTATTGTTGTGTCATTC
TGAGAAGTGCACCAAGCCAACAAACGGGGGGCACACGGCTTAATACATCC
TGTGTGTGGTGGGAGTTGTCGTTTCTTGAAATCCAGCTTCGATGGGTCGT
CACTGGTTGTTAGTTGAGACGCATGTGCGTGACTTTCTCAGTCGTCATTT
CACATCATACGAGTAATGTCATGTTCACTGACTGTCGTTTGTTGTGTGCT
GTGGATAACAACAGCTTCGATGGACCCACGTGGGGATCAAGCAGCTCAGG
GGCGCAGCGTGCGACCTGTCTGAAAGCGTTGGCATCGGCCATCGAGGAAG
ATAATCAGGTGACAAAACCTGCGAGTACGCGTAAAGTGCTTGTAGTAGTA
TTCTTTTTTTAACGGCCATGCGATAAAAAAGCTGAAAAGACGATAAGGAC
AAGCACCGCATAAGGTGGGTGGAGGAAAAGAGAAATAAATCCTGTCTGGC
CTTCCTTCTGTGTGACCCCGGCTGGTGCACCCACTTTCATACCGGAAGGT
GTAGACTGCTGCCCAGAATAAACGGGATGAAAGCACTCACATATGACGAA
AATGAATTTCAAGGTGGGGTGTGAAAGACTGAACGGGACTCGCGGGTTCA
CGGAGGTATCATACTGTTGTGCTTATCTATATGTGGAGACAGCAACAAAA
CAATAGACAACAGTGATCTAAACAACAACACAACAACAACAACAACAACA
ACAACAACAACAACAACAACAACAACAGAAGCAGTCACAGCAGGAACACC
AGCAGTACAACAGCAACGAGGACGAGGACAACCTTACTGTGCTGCTGCTG
CTGCTACTGCTGCCTGCGGCATCGAAATCGAGTGACGCGAATAATTCCAT
CGGGCCCTTTTCTTTTTGCTCTTCTCAAGTAGGGTGCTACAAATGTGAGT
CTTCATGTACTTACTGCTTTGGTACCTCCTTGTTCCTGTCTGTTGTGACC
CCGGCTGGTGCGCTCAGCCTTAAGCACCTTAAGGTGTAGACTGGCGCCCA
AAATAAATGGAATAGCAGTCTGTGCCGACTAAGGGGACGGCGTCCACGAT
TGCAATCAACAGCTGAAAAGCAGGCCAGGCCTCTCGTGATTGCGGTCATG
TTTACATGCTCACGGTAAGCGTCGTCTGCACGGCATGGGTCTTCATACCA
CAGAAGGCATGCAAAGCTCCGAGACCGTTCTTGTTTTGACGCATGCATGA
AAAAAGGAACGCCCCTTCGCGATCGGTATATCTATCCACCACCGGTACAT
CTACCACCGGTACATCGACAAAAAAAACGCCTTTCGCAATCGGTATCTCT
ATCGACCACCGGTATATCTACCTTCACCTCCCCCGTTGTACTTGGTCATC
TACTTCAGTCGTCCTTCACCGCCGCCCTGCTTTGACCCATTTTTTCACCC
CTTCTCCCCTGACCTTGTTGCTACGCACGGGTCGGGTTTTCACGACAAAC
AGGCGTTCGCCCTCGCGGAAACTCGAGACACGGGCAAGCCTATCGGAGAT
TCGGAGGGCGAGATCGATGAGGCGGTCAGATATCTCAGGTTCGTTTGCGT
GCAACAGCCTAACTTTCTTCCACAGGATGCGGTTTGTTCTTTCTCATGGC
ATTGATGTCACGTAAGATCTTTTCCGTTGTGATACACAACAAGGACGTAC
ATATTTCACGGCACCGCAATCATGGAATATGCCCTTCCTATGGACGCGAA
AGAGAGAGGGGAGGAAGAGGTACCGCTGTACACCAGTAGCAGGAAGCAAG
TCAGAGGAGGAAATTATTGGTATATATAGGAGAAGTCACGTCGTTGCGGG
AGAACAATGACCCGATAGAGCAGTCCTGGCGTCATGTGATACGAGTTACA
TCACGGATGAATGACTGGATCAATGAATAGAAGTTTATTCGCGGGCCGCG
GAGCCCCCCCTCCCCCGCCGCACACACGCGTCCTCGGGTGAATAACTGAA
TGAATGCATCGAAGGTTCTTCGCGGGCCTCGCGGAGGGGCTGAACGACGA
AGGCCCCGAGCACTTGGCCACGCCGAACTACGACAACAATTTCGCGACCC
GAGTTGTGCGGGAGCCGCTGGGGGTGGTGGCTGCCATCACCCCGTGGAAC
TTTCCCCTCTGCACAGCGGTAATGAAGATCGCCCCAGCCCTCGCCGCCGG
CTGCGCTGTTGTCTTGTGAGTTTTTGCTTCGTAGGTTTTTTTTTTTTTAT
GTGTACAAGTACATACCGTATGCCGCTCCTGGTGTACTGCTGTGGTCAGG
GATGTATGCCACTCGTGGTCGGGCGTTCATTGTGCAAGTCAGCGGGGACG
TGCAAGAGATCGTTGTGAAATCATCAATATTTTTTCGCCATTCTATTGTA
TTTCACGAAATGTAGAAGAACGTCCTGCCTTTATTTTTGCTCGTTTGCAA
ATTACAAATTCCGCATGTACGACGGGTGTATACCGCATGATACCTTTAAT
TTACTACGAGTTCTCGATCTAGTGTGACGGGGGTGTTCAACGCTGAAACA
GGCGGTTCTCTTCGGTAGGTGTGTCAAGGGGAGCACGCACGCCCCCCCCC
CTCACGACGAGAGGGAGGTACGAGAAAGAGTAGCCGGGTTGTAGTGAGGC
AAAAATAGGCAACAGCAGTGCCCTGGAGAACTTCACGGGGTAGTCTGTGA
TAAAAGCACGGGAGATACATATCATACTACGTGTGATCATTCGCGGTCAA
GTATACGCGGGGACTGGTAGCGCATCTTCCTTTTTCCATTTTTTTCTTTT
TTGGTGGTACGCACATACGGAGTGTGTACGATTGATTGATAGCAGTCCTG
TACATTGCATTGTGCGGTACTCTTGTCGACGCCTGCTCTTTTTTTAGTCC
CTTGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCGTTGTTGCTGCTGT
TGTGGTGGCCTAGATTCGTTGGAAAGCCACGTGTCGGGTGGTGCTGTGGT
GGACCCCAGGTCTGACAGGCAACATATATATATACTACCGACGTGTTCCT
TTGTATTTCTAGGAAGATGCAATATCCTGGGCTCCAGTGAATAAACAATA
GTCCTGCCCCTCCTCCAGGAAACCTTCGGAGATTGCCCCTTCCACGTGCA
TCCGGATGGCTGGACTTGTGGAGGCCGCCGGTTTCCCGCCGGGAGCTTTG
AACGTAGTCACTGGAGAGGGGTTTCCAACAGGGGATGCGTTGTCGAGACA
CCCGGGTTTGGACAAGGTGTCGTTCACGGGGTCGGTGCCCACGGGTCAAA
GGTACAAAAACAATACCGGGCGCGTGCACACTCTTTGAGCTGTGAGACTG
TTCGAGCGCAAGGTTTTCGCGTGAACTGTACTGTTGTAGAGCAACGGCAG
GAATAATAGTACTAACAATAATAATAATAATGATAATAATAGTTTATTGA
TAATAGTAATAATAATAGTAGTAAAGTATAAACGCTTAGTATTTATTAAT
ACAGATAATAACAATAGTTCAAGACCTTAATTTTTTTTTAAAACAGAAGA
GATACTTCATAAGAGACAATAATATTTTATGACGAATAAAAGAGATAATA
CTTCGAAGTACCAAGTAACATTTTATTACGAATCATCATGAGGGTACTTG
ATAGCAGTTGTTATATAATGCATCATCGCAATAAAGTAATTAAAACAGCA
GTGGAGCAGCGCGTATCTCAATGCCACCACCACCGCTGTCGGACGAGTCA
CGCGTGGGATGGTGTGACTCCCGTCAACCATGAGATGGGGAAGTCTTTCG
CCCGAGTTGCCCACGACAAGTCGCGTGACACGATGGTTGATAAGCGCCAA
AGTATCCAACGCCCACCGGTCACACCGGACCAGGTCTTTCAGAGATGTAC
GCTGTCTGCCGATTGATTTGGACCAGGTCTTTCAGAGATCTATCTACACC
CACTGCCAATCGTTTGTGCTTCGCTGGGTCGTGTGAGCGAGCCTTGCCGT
GTCGTCTTGGGCCGTCTCGTGTTGTTGTGTCGTGTCCTGTGCAAGGGTGA
TGGAAGCAGCCGCGAAGGCAGGACCTACCGACGTGCACCTCGAGCTCGGG
GGCAAGAGCGCCATGCTCGTGTTCGACGACGTCGAAGATGTCGAGGCCAC
GGTAGACTGGGCTTGCGTCGGAATTTTCTCCAACTCCGGTCAGGTTTGCA
GGTATTTTTTCTGGGAAGGGGGGGGGGGGGGGGGGGATTGGGTGGGGGGG
GAGGGGGTTGCGCGTACGCACTCATTTGTTACTTGCCGCTGACCGCGCGT
CCGTCCCTTTCGAACCGGAGCACAGGGAAGGGGGCAACGGGCTGTAAGTG
GAGACATACATACTTGTATGATTGGAAGTACATGTGCGCATATTTTATAC
TTCGAAGTACTTCGAAGTAACTCTGTCCGTGGAGACATTTCGTAGCCAGG
GGCTATGATACGCAAGCAAGTTTTTTTCCCTTTTTTTTAGAGCATACTTC
GTATGCGATTAGTTTTTTCCCGTCTCCGTTCTCCGAACCCGCCGCTGCTC
CTTCCCTCCCTCAACCCTCTATTGTCTTTTTTCTTACGTGTGTTTTTTCC
AGCGCAACTTCTCGGCTGCTCGTGCAGTCGAAGATCTACGAAAAAGTCGT
TGCGGCGGTCGTAGATCGGGCGTCACGCATCTCCGTCGGAGACCCCATGA
GGAGGGGAGAGGAAGCTCCAGGCCCCTGCATGGGCCCTCTCGTGAGCGCT
TCGCAGCGGGAGGGGGTGCTTGGTTTCATCTCCAGGGTGCGTACGCGATG
AATGTCGAATGAATACACTTCCGTTCGTCTATGTTTCTTCCGTTCGATGA
GATTTTATTTGTTTATCCTCACCCCCTTGCTTATTATGGTACTTCGAAAA
GTATGTATGTAGGGAGGCAGCCGGCTTGCTTCTTTTTTTACCTATGAGTT
TTTGTGTAAATCACACGCGTACGTCACACACACACGAAAAACAAAAACAA
ATCACGTGTTGTGTTGATGATCCTCCCTTGTGACTCCTGGCACTGAAGAG
CCCGACTCAAGTCTCAACTCATACCGAACGGTGTTCAAGTAGACCGGCGC
GAAGAAAAAAATGATACGACAAAAAAAAAACGAAGTCCTTTGTTGACCTT
CCTCCTGTGTGACCCCCGGCTACTGATGCGCGCGACTATCGTACACCGAA
AAGGGTAAGAATACAAACGCCTCTTTTCATTTCGCCACACACAAACGCCT
CATTTCGTCGCTTCCGGCTATTGGTGCGCGCGATTAACGTACACCGAAAA
GTGTAGACTGGCGTCCAGAATAAAAAAACGGGGTGGCAATACAACACACA
AACGAATACAAACGCCTCTTTTCATTTCGCCACACACAAACGCCTCATTT
AGTTTCTTCCGGCTACTGATGCGCCTAACGTACAGTATACCGAAAAGTGT
AGACTGGCGTCCAGAATAAAAAAACGGGGTGGCAATACAACACACAAACG
AATACAAACGCCTCTTCTCATTTTGCCACACGCAAACGCCTCATTACGTT
TCTTCACACACACGAACGCCTCTTTTTACTTGGCACACACACCCCCCACA
TTTTTCGTGATCCACGTCAAAGCTCGATTACTCCGCCACAAACAAACGAC
GCGTATTCGGTTATACTGTACAAACGACGCGTTTTCGGAAACTAAACGAT
CCGTTTTCGGAATCTTGAAACCAAGCGATCCGTTTTCGGAAACCAAACGA
CAATTTTTTCGCAACACCAAGCGACACGTTGTCACAACAACACCAAACCA
CGACTTTTTCGGAACGCCCTCGAAAATTTTCCGCGTCGACGTATTTGCAC
CCCGACATCCATCCTCGTCCTGCGATAACATCGGGCTTTGGAAATCGGCC
CTTAGTGAAGGTTATACCTGATATTATGTCACATGGAAACGAGCCCCTCA
TCCTCGTTTTGTTCGCCTACTAATTATGTGAGAAGTTGCCTCGCCCAGAC
TAAAATCATTGTGAGGGATAAAAACTGCAGGAAACGTTCGTTCTTTTCAC
CAAAATCCGATTCATTCAAGAGACGAGCGTGTCTCAGCGGAGGCGGAGTT
CTGCACCTTTTTCTGGCGTTTTTTGTGTCTCAACATGGCGGAGTTCAGAC
GGAGTGCTGTACCTTATGCTGACCGTATCCCCTCAGCAACACGGGAAACT
TGCGTGTGTTTGTGTGTTCGTTGTTGTTCTTGTTCTTGTTCTTGTTGTTG
TTGATGTTGTTGCTGTTGTTGCTGTTGATTATCACACATTAGCTCATCGC
CAAAATCCAGCCCGCGGTCATAAAAGTGTCGAGCCCTTTAAAAAAAGTGA
AGTAAAAGTAATGGTACGCAAAACGCCGAATAAGATATGCGCCTTCACTC
CTACACACACGTATTTGGTGCAAAATAAGCCTACAGCTCTTCATTCGACT
ACAACATCACGATGTGCAGCAGTCTCCCCTCCGTCCCGCTATTAACCACT
CGTGGCTGCAGACTTCGGCAGCATTTGCTGTCTGGAGAGCTGCCTGCAAC
GTACAACAGGGCCGGTAGTCGAACAAAGCAGAACAATAGAAAAACACCAT
AATGATGATGTCCGGAGTGCTGTGCGTGTGATGTCGAACTGCTGAGCAAT
GGTCTATGGTATGTATGCACGCCCACAGTGCAAAAAACGCCCGTTTCGCA
CCGCAAGCCCGCAATCGCTCTGTGCACAAACTGAAAAACGCCAATTTTAG
TTTTTCGACCGCAAACGATGCTATCATGAACCGCGCTGACTGTTTCACCG
GCACAAAAATGACAACATTATCACGAACCAAAACAATATGACAAAATTAC
CGCACAGGCGGTGGAAGGCGGAGCCGCGGTCCTCTTCGGGGACGCCGACG
CGAAGCAATCCGCGGAGAAACCCGGGGTTGGATACTACGTGTCCCCGACA
ATTTTGTCCGGGTTGTCCGGCGGGGATGAGGCCTGGGATTCAGAGATCTT
CGGGCCGGTGAGAATTACTTTTTCTTCTTCTATTTCTTTTCTGTTTCTTT
TTCTTTTTCTTTTGCTCTATTTTTTTCTTTACGTAGTACACTATTTTCCC
CCCCTCTTTTTTTGTTTGTGTGTCCAACAGCAGCTGAAGCGCACCAGCAA
CGGCGCGGACTGCTGTGAAACGGTGTAGTAGGTAGTCGTGCCGATGCGTC
GACTCTGCCTTAGTGAATACGAAGTACTTCGTAGCTTCATCCATACAGTA
CATGGTGTAAAATCATACTTCGAAGTATCGTTTGTGCGTAAGACTGGAAC
GATATCCATCTCTGAAGGTAGTAGATTACGAGGCAGCGAGAATCATGTCA
CGCAGGACACCCTCGGCCTTCTCCTTTCATGCGAGGACACATAGTAAGAG
AATGTCTGTTGAACGGCCAGAAACACAATTGGGTGCGGAGAGGGCAAGGG
GGCGGGGGGGGACGGAGATTATGTGGCGGGGACAAGCACTGCCGTACGCG
AGTCTGCACACAGTGTCCACTGCTGCAGTATTTTTACGTCTTTTGCGATC
TTGTAGTGGCGAGAACGAACAGGCGCTGCATCATGCATGTATGCGAATGA
CTTCGACGCACGAAAAACAAGTCTTCTTCTTCTTCATGCTGTAGCGGGGA
CGACCAGTGCTGCTGTACTTTTGAGACTGCTCACAACTTCTTTATCTTCT
GTGTTTTCGTGTTTTGCGATCTCGTGGCCGAAACGAACAGGAGCTGCATC
ATAACTGAATGAATTTCTCGGTAACAAAAAAAAAAGCCTTCATACTTTTT
TTTTTTCGTGTAACCCTTGTAGTTTTTCTGTGCTTCATTGTGTGTGTGTG
CATGCGCGTGGCGAAAGCAAACAGGTGCTGCATCAAACATGAATGAATCA
CTCGGTAACAAAAATGTGTGCCTTCGTACTTTCTTCTTTGTGTGTCCTTG
CAGGTGCTGTGCGTCAAGCGGTTCGAGGACGAAAGCGAGGCCGTCGAAAT
CGCGAACAGCTCGGAATTCGGCCTGGCCGCTGCGGTCATGTCGTCTGACC
GAGACCGGTGTGTGTGTGAAAAGAAATATATATAATCCCGTCTACGCTCT
TTCGAAAACATGGTCGCCCACCCCCCGAAATTTTATATGTATGATAAGGC
TGAATTGTGATCCTTCTCTCTCTTCGAAAACACGGCAGTCGTCTCTCCCC
CGAAATTTTAGATGTATATCACGCAATTTTGATCCCGTGTCCCTCTTTAA
AAATATTTCCTCCTCTCCCCCCTCCCCTCCCAAACTTTGTGTCAAATCCA
AAGTATGATCCCGTCGTGCTCTTCGAAACACAGCAGTCGTCTCTCCCCGA
AATTTTAGATGTATAGCACGCAACTTTGATCCCGTCTCCCTCTTTAAAAA
CGATTCCGTCCCCCCCCCAAACTTTATGTCAAGTCCAAAACATGATCCCG
TCTTTCTCTTCGAAAATATGGACGTCTCCCCCCTCCCAAATGCCATACAA
GTCTGTCAAGCCCGAATGTGATACCGCTTCCCGGCTTGTATGCCCCCCAC
TCTCAATAAGAAGCAGGACCGACCGTGCCACGTCTTGAATGAGATGCGCG
TGGTAGCCAGTGGCGATACGACCGAGGCAGGCACCAAAACGATTACCCCT
TTCCTTTCCCCCCCTCCCCCTATTTTGGGCCAATCGGATCAAAGCCAGCC
CAAAGAAAAAGAAAAATGTTTTCAATGTTGTATCAAAAAAAGATAAGGAA
TTGCAACCAGATAAACGAACGTCAAAGAGCATTTCGCTCTTTTTTTTCAC
GTCTTGAATTATTTTTTTTATAGTTAAGCTTTCATATTTACGAAGTACAG
TGACAAAAAACTTTTCAGAAAAGAACCTGCGGGCCCAAGCAAATACGACG
GTGATACCACGTCGGAACAAGAGTGGCGGCTCACAAGTGTACTCATTCAC
CCTCCATGAAAAAATCGCAACAATATCGCCTCTTCTTCTGCTTCTCAACT
ATAATAGGCGCGACCAGAATACCCCGCAACAGTCACGCCAACCTCCACCC
GAAACCCCGCATCACCCTTCTTTTTCCGCTTTTTATGGTGTATATTTCCA
AGTACTAAGATGACTCTCGGAGTGGGTTTTTTGTAAGAGGACAAGTGACA
AGGTATTTATTTGTCAAGAGCGAAACAAATCTTTGCACTGACCAAACGCG
ATAATCAATATTTGTGTCGTACTGCAAAAAAAGACGCAGTTGTTTATCGC
GCTTTTCCTGCTACCTGAGTACACCGCAACTTATCGTCCGCATCCAATAC
TTGATTCGTACCGTTTTTTGGAGCCCAAGCGCTCGCTGCCTTACGAAAGC
CACGCACAACCTACGCGCATCCTTAATCTGAATGAACACCCTTTCATTTC
CGGCCAACTCACAATGGAAATAACCAGCTGCAAGAGGGTTTCCAGAGCGC
TGCAGGCGGGGGTAGTCTGGGAAAACTGCAGCCAGTGTGCCCCTGTGGAG
GCCCCGTGGGGAGGCTACAAGAAGAGCGGGGTCGGGGGACGCGAGATGGG
ACGGTGGGGCCTGGACGAGTTTCTGGGCGTGAAGGCGATAACCTCGTGCA
AACAATCGTTCAGCTACAACGCTTATGGTGGGGCACCGTCAGCCTGAGGA
CTAAAGCACCATGTCCTGATTTGCCTCGCAAAATGATAATATTATAGTAA
AGATGTGGCGACGTACGTACTCGAGAACCCCGATGACATCCCAGTGTAGA
CTAAAGCAACTCCCTTGGGCGTACTTTGAGGCGTTCTCGTAGGCACGCCT
CTCGGGAAAAGACGCACACCAACACAGGGATACGGGCGACTCCCGAAGTG
GCGAATGCTCGCGAAACTCGTAGGGCGCGAGGATCTGAGCCGAGGCCGTC
CGACTCGCAGCACCGGCTAAAATCGTTGGAGGACGATTTCAGAGCTCTTG
AAGCCACGGACGGTCCGCGACGGACGACAGCAGCCGACAAGCATTTGGGA
TCGGCACCGCCGTGTGGATGGATAATGGCCGCGACGGAAAAAACGGTGCA
GCATGGCGCATGAGGGCGGCGTTGGAGGGGGCTGCGAGGCTTTATGACCG
CCTGACAGAAGGATGAGGAGGAGGGGAGCAAAAAACGAGTGGGAACACGA
GAGGCGAGGAAATGGTCTACTAGCGCAGCCGAGGAGAAATCCAAAGAGGA
AATAGTCTGGAAAAAGGGGAGGGGGGGATATCGGGCAAGGAAGCGCAGAA
AGATTCAGAATGATGTGACAGGGTGGCGGCAGAGGAGAGCAAAACGAAGT
GAGATGGCAATCCAAACAGATGTTTGTTATTCTAGAATGAAATCGGTAAA
TATAGTGAAACCTCCTGATTGTGTCGCGAGGATTTTCCCGCGCACGGCAT
ACCCTTTTTATGGGCAGGTAGGTACTCGAAAATAATTGAATGGATAGATA
CTGACTGGCTGTCCTGTCGATGTTTTTGTTCCGATTTACGACAACGCCCA
CCCAATACCCACCCGGTAATAATGGGTCGACGATTCGCAGTCAGTTCTCA
TCGAACACACGTATCATATCTTGGAAACGCTTCACTAGTTGTTTTGGGAT
TGTGTCTTGACTCCATCGAACACACATATTATATCTCGGAAACGCTTCTC
TGATTGTCTTGGGATTGTTTCTTGACCTTACCATCTCGTCAGTCTATCGC
GAATCCTTCGCGAAGGCACAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig623:112297..137917+

>mRNA_P-littoralis_Contig623.53.1 ID=mRNA_P-littoralis_Contig623.53.1|Name=mRNA_P-littoralis_Contig623.53.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1656bp|location=Sequence derived from alignment at P-littoralis_Contig623:112297..137917+ (Pylaiella littoralis U1_48)
ATGTTGACCTCAAGGCCACTCGGTGGTAGAATCTTGACTGTTTTCGTGTG
CTACACGAAAGCGACCTTTCGATCGTCGGGTCCTCCTCCTGCTGCTGCTG
CAATGTCAAAGATGACGACAATGCCTCCGAAGAGTATCTTCATCTCAAAC
AAGTTTCAGCAGGGAAGACAGGCAAACACCTTCGAAGTTCTCAACCCCGC
CACGGAAACCGTTGTGTCGGTCTGCACCAACGCCGGGGAGGAGGACGTCG
ACGAAGCCGTCAAGTCTGCACGAGCCTGCTTCGATGGACCCACGTGGGGA
TCAAGCAGCTCAGGGGCGCAGCGTGCGACCTGTCTGAAAGCGTTGGCATC
GGCCATCGAGGAAGATAATCAGGCGTTCGCCCTCGCGGAAACTCGAGACA
CGGGCAAGCCTATCGGAGATTCGGAGGGCGAGATCGATGAGGCGGTCAGA
TATCTCAGGTTCTTCGCGGGCCTCGCGGAGGGGCTGAACGACGAAGGCCC
CGAGCACTTGGCCACGCCGAACTACGACAACAATTTCGCGACCCGAGTTG
TGCGGGAGCCGCTGGGGGTGGTGGCTGCCATCACCCCGTGGAACTTTCCC
CTCTGCACAGCGGTAATGAAGATCGCCCCAGCCCTCGCCGCCGGCTGCGC
TGTTGTCTTGAAACCTTCGGAGATTGCCCCTTCCACGTGCATCCGGATGG
CTGGACTTGTGGAGGCCGCCGGTTTCCCGCCGGGAGCTTTGAACGTAGTC
ACTGGAGAGGGGTTTCCAACAGGGGATGCGTTGTCGAGACACCCGGGTTT
GGACAAGGTGTCGTTCACGGGGTCGGTGCCCACGGGTCAAAGGGTGATGG
AAGCAGCCGCGAAGGCAGGACCTACCGACGTGCACCTCGAGCTCGGGGGC
AAGAGCGCCATGCTCGTGTTCGACGACGTCGAAGATGTCGAGGCCACGGT
AGACTGGGCTTGCGTCGGAATTTTCTCCAACTCCGGTCAGGTTTGCAGCG
CAACTTCTCGGCTGCTCGTGCAGTCGAAGATCTACGAAAAAGTCGTTGCG
GCGGTCGTAGATCGGGCGTCACGCATCTCCGTCGGAGACCCCATGAGGAG
GGGAGAGGAAGCTCCAGGCCCCTGCATGGGCCCTCTCGTGAGCGCTTCGC
AGCGGGAGGGGGTGCTTGGTTTCATCTCCAGGGCGGTGGAAGGCGGAGCC
GCGGTCCTCTTCGGGGACGCCGACGCGAAGCAATCCGCGGAGAAACCCGG
GGTTGGATACTACGTGTCCCCGACAATTTTGTCCGGGTTGTCCGGCGGGG
ATGAGGCCTGGGATTCAGAGATCTTCGGGCCGGTGCTGTGCGTCAAGCGG
TTCGAGGACGAAAGCGAGGCCGTCGAAATCGCGAACAGCTCGGAATTCGG
CCTGGCCGCTGCGGTCATGTCGTCTGACCGAGACCGCTGCAAGAGGGTTT
CCAGAGCGCTGCAGGCGGGGGTAGTCTGGGAAAACTGCAGCCAGTGTGCC
CCTGTGGAGGCCCCGTGGGGAGGCTACAAGAAGAGCGGGGTCGGGGGACG
CGAGATGGGACGGTGGGGCCTGGACGAGTTTCTGGGCGTGAAGGCGATAA
CCTCGTGCAAACAATCGTTCAGCTACAACGCTTATGGTGGGGCACCGTCA
GCCTGA
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