mRNA_P-littoralis_Contig180.104.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig180.104.1
Unique NamemRNA_P-littoralis_Contig180.104.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A6H5KCA7_9PHAE (AAA domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KCA7_9PHAE)

HSP 1 Score: 761 bits (1966), Expect = 1.660e-263
Identity = 448/628 (71.34%), Postives = 502/628 (79.94%), Query Frame = 3 
Query:   75 IERKQLCLGLVLAFSLQPAVGLLSPHPFLSRPSLPAAXXXXXXXXXXXXXXXSRGVQPHRLPLLGAASPRPRCPRPCCRLPATAAAASMTNTAAGFYPTRQPLVDGNVIRQHFYHRTRVASNTALA--AGRPSSG-GVRGG-GQDEKDGGGGWRQRVVRSVVSVFLKFRAMVAALGARLGLNRRSKSKGDSTQSLFSSIGGKKAAALNKSRGAWGRSMLRLPTKKTALLLAVVMLAFAARFGSSHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPGLSSIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVAGLQSMLKGILS 1946
            ++  +LC+ +VL  SL  A G L+ +PFLSRP  P    XXXXXXXX     +  +   R P   A   RPR  R    L A +AA S T  AAGF   +   ++G+V ++    R    SNTALA  A R S+G G  GG G  + D GGGWRQR+V+++V V L+ RA+ A LGA LGL R +KS   S QSLFSS  GKK AA  KSRG    +  RL  K+TA LL V++   A  F S+  P++TEVPMSTFMQLMEGKRGADVVESVRV++ GTMFFKMNGKECYT+PLRVSKEVFKAL  SGIPF A KSPPGLS IFPV YL AVY+F++KRG GSMVGSTGKLASST++DTSL+FGDVAGVDQAK QVQELVSMIK+P PFIAAGARLPSGLLMVGPPGTGKTLMARVMA+EAGVPFYYCSGSDFVEM+VGRGAARVRKLF KAGKTAPCIIFLDELDALGKERS G GGRQ+NDEAEQTLNQLLA MDGLDTNNNGVMVIAATNRYEVLD ALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMK++D+ VL+AVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFL+SVTNFY+SRKK VAGLQ+M KG+L+
Sbjct:    9 MQWPELCVIVVLTLSLSSAAGFLTSNPFLSRPQQPTHSSXXXXXXXXHCRRPAPRLLLSRPP--SAILLRPRRSR-IHSLSADSAAGSPTR-AAGFSSLQS--LEGSVGQR----RRLAGSNTALALAASRGSNGVGEEGGSGGADSDKGGGWRQRMVQTIVFVVLRIRAVAAGLGAMLGLGRPTKSS-SSNQSLFSSASGKKKAAAGKSRGRRATAFSRLFRKRTATLLLVMLFVLAMGFRSAGTPAVTEVPMSTFMQLMEGKRGADVVESVRVSKTGTMFFKMNGKECYTLPLRVSKEVFKALCNSGIPFRASKSPPGLSFIFPVVYLLAVYYFIVKRGQGSMVGSTGKLASSTELDTSLTFGDVAGVDQAKSQVQELVSMIKNPAPFIAAGARLPSGLLMVGPPGTGKTLMARVMAAEAGVPFYYCSGSDFVEMYVGRGAARVRKLFVKAGKTAPCIIFLDELDALGKERS-GTGGRQTNDEAEQTLNQLLACMDGLDTNNNGVMVIAATNRYEVLDNALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKLEDVAVLRAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLESVTNFYISRKKGVAGLQNMFKGMLT 624
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: D7G2Q1_ECTSI (Cell division protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G2Q1_ECTSI)

HSP 1 Score: 686 bits (1769), Expect = 7.240e-236
Identity = 370/493 (75.05%), Postives = 405/493 (82.15%), Query Frame = 3 
Query:  531 VVRSVVSVFLKFRAMVAALGARLGLNRRSKSKGDSTQSLFSSIGGKKAAALNKSRGAWGRSMLRLPTKKTALLLAVVMLAFAARFGSSHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPGLSSIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVP---------------------FYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVAGLQSMLKGILS 1946
            +VR++V V L+ RA+ A LGA LGL R +K                      KSRG    +  RL  K+TA LL V++   A  F S+  P++TEVPMSTFMQLMEGKRGADVVESVRV++ GTMFFKMNGKECYT+PLRVSKEVFKAL  SGIPF A KSPPGLS IFPV YL AVY+F++KRG GSMVGSTGKLASST++DTSL+FGDVAGVDQAK QVQELVSMIK+P PFIAAGARLPSGLLMVGPPGTGKTLMARVMA+EAGVP                     FYYCSGSDFVEM+VGRGAARVRKLF KAGKTAPCIIFLDELDALGKERS G GGRQ+NDEAEQTLNQLLA MDGLDTNNNGVMVIAATNRY+VLD ALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMK++D+DVL+AVAELTPGLAGAELATIANEAAISAARRGSQQLLE DFL+SVTNFYVSRKK VAGLQ+M KG+L+
Sbjct:    1 MVRTIVFVVLRIRAVAAGLGAMLGLGRWTKKSXXXXXXXXXXXXXXXXXXXGKSRGRRATAFSRLFRKRTATLLVVMLFVLAMGFRSAGTPAVTEVPMSTFMQLMEGKRGADVVESVRVSKTGTMFFKMNGKECYTLPLRVSKEVFKALCNSGIPFRASKSPPGLSFIFPVVYLLAVYYFIVKRGQGSMVGSTGKLASSTELDTSLTFGDVAGVDQAKSQVQELVSMIKNPAPFIAAGARLPSGLLMVGPPGTGKTLMARVMAAEAGVPLPPPRRFRGVGGYLLIGRLPKFYYCSGSDFVEMYVGRGAARVRKLFVKAGKTAPCIIFLDELDALGKERS-GTGGRQTNDEAEQTLNQLLACMDGLDTNNNGVMVIAATNRYDVLDNALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKLEDVDVLRAVAELTPGLAGAELATIANEAAISAARRGSQQLLETDFLESVTNFYVSRKKGVAGLQNMFKGMLT 492
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A835Z243_9STRA (Cell division protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z243_9STRA)

HSP 1 Score: 420 bits (1079), Expect = 3.000e-133
Identity = 228/419 (54.42%), Postives = 307/419 (73.27%), Query Frame = 3 
Query:  708 RSMLRLPTKKTAL-LLAVVMLAFAARFG-SSHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPG-----LSSIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVAGLQSMLKGIL 1943
            R  L L  ++T L ++ +++LA A  +G +S      E+PMS F++L   K     + S++VT  G M +++ G+  +T  + ++  + + L   G+ F A ++ P      L+ +FP+A+L A+ + V++R  G  VGS G+      +D SL+F DVAG+D+AK +V+ELV++++DP P++AAGARLPSG+++VGPPGTGKTL+ARVMA+EAGVP+YYCSGSDFVEMFVGRGAARVRKLFA+A KTAPCI+F DELDALGK+RS G   R SNDEAEQTLNQLLA MDGLDTNNNGV+V+AATNR+++LD ALTRPGRFDRIVRV VP+ AGR+A   VHTR M+++D  +L  VA +TPGL GAELA++ANEAAI AARR   Q+   DF  +V  +Y SR K    LQ+++KG+L
Sbjct:   41 RIRLLLSKRRTWLGIVVLLLLAKALVWGPASKMVPPAELPMSEFLRLTATKAKEPALTSLKVTSRGKMLYEVAGRPHFTRQVPLADPLLEHLLRHGVKFGAAEAEPVGRGLILAQLFPLAWL-AMMYSVLRRNLGETVGSAGRQVQGDTLDRSLTFDDVAGIDEAKAEVRELVAILRDPAPYVAAGARLPSGVMLVGPPGTGKTLLARVMAAEAGVPYYYCSGSDFVEMFVGRGAARVRKLFARAAKTAPCIVFFDELDALGKQRSMGAN-RGSNDEAEQTLNQLLACMDGLDTNNNGVIVVAATNRFDMLDDALTRPGRFDRIVRVGVPEEAGRQASCTVHTRNMQLEDPALLVTVAAITPGLTGAELASVANEAAIRAARRSCVQVSLDDFQGAVKAYYTSRSKIPTNLQNLMKGLL 457
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A7S2V103_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V103_9STRA)

HSP 1 Score: 369 bits (948), Expect = 1.740e-114
Identity = 210/420 (50.00%), Postives = 278/420 (66.19%), Query Frame = 3 
Query:  726 PTKKTALLLAVVMLAFAA------RFGSSHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKE-VFKALSTSGIPFMAVKSPPG------LSSIFPVAYLFAVYFFVIKR--GSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVA-GLQSMLKG 1937
            PT +  ++  ++M+AF +      +F SS      E+ MS F+  M       V   V V+  G++ + +NG    T P+  S++ V   +   G+ F A  +         L   FP+ YLF +Y F +K   G    +G  G   +  +ID SL+F D+AG+D++K++V+E+V ++++P P++ AGARLPSG+L+VGPPGTGKTL+ARVMA+E+GVPFYYC+GSDFVEMFVGRGAARVR LFA+A K+APCIIF DELDALG++R  G    ++N+E +QT+NQLL  +DGLDTNNNG++V+ ATNRYEVLD ALTRPGRFDR+VRV  PD  GR  IL VHTR MK D+   L  VA LTPGL GAELA IANEAAI A RR S +   ADF  ++ +FY SR   +  GL   L G
Sbjct:    9 PTGRRKMVNMLMMVAFVSFFILRLKFASSPVVKTVELGMSGFVAAMADP---SVFSEVLVSPSGSLHYMLNGVPHLTRPVAGSEQMVIHLMLAKGVAFKAGAAGKATLLNIALRVAFPLCYLFFLYRFFVKSMPGRNEKIGKRGDGQAGDNIDRSLTFDDIAGIDESKQEVKEIVEILRNPLPYLKAGARLPSGVLLVGPPGTGKTLLARVMAAESGVPFYYCAGSDFVEMFVGRGAARVRSLFARAQKSAPCIIFFDELDALGRKR--GDSFMRTNEEFDQTINQLLTCLDGLDTNNNGIIVVGATNRYEVLDEALTRPGRFDRVVRVPAPDQEGRREILSVHTRNMKCDEDVDLDRVAALTPGLNGAELANIANEAAIRAVRRNSVKTCSADFTHAIKDFYGSRGTNLQRGLLQQLLG 423
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A4D9DB51_9STRA (AAA domain-containing protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9DB51_9STRA)

HSP 1 Score: 357 bits (915), Expect = 1.210e-109
Identity = 213/399 (53.38%), Postives = 271/399 (67.92%), Query Frame = 3 
Query:  741 ALLLAVVMLAFAARFGSSHAP---SLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPGLS-------SIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKE 1907
            AL+LA V+L+   R GS  A    S  EVP S F++L++ + G  VV  +R+       F MNG   +T P++    +   L    IPF A  SP   S       ++ P A++F +   + +R  G M GS GK A   +ID SL+F DVAG+D+AK +V+ELV M+K P  +   GARLP G+L+ GPPGTGKTL+AR +ASEAGVPF Y +GS+FVEMFVGRGAAR+R LF KA K APCIIFLDELD LGK+RS   GG  SNDE EQTLNQLLA MDGLD+N +GV+VIAATNRYE+LD ALTRPGR DRIVRV++PD +GREAIL+VHTRK  ++    L  +A+LTPG++GA+LA + NEAAI A RR S  + + D   +V +F+ SR  E
Sbjct:   21 ALMLAFVLLSSVMR-GSGRAGRGVSPAEVPYSDFLKLVK-EHGPGVVSRLRIAPD-RFDFLMNGAPSFTRPVKAHPALLFFLDKYNIPFYA-GSPSSKSLVVFLLLNLLPFAWIF-LSMGMGRRMYGDMAGSVGKNAEENNIDRSLTFDDVAGIDRAKREVRELVDMLKSPQKYGKLGARLPKGILLAGPPGTGKTLLARALASEAGVPFLYSAGSEFVEMFVGRGAARIRTLFQKAQKQAPCIIFLDELDTLGKQRSLRLGG--SNDEVEQTLNQLLACMDGLDSNQSGVIVIAATNRYEILDDALTRPGRLDRIVRVELPDRSGREAILRVHTRKTPLEHDADLGKIAQLTPGMSGADLAGLVNEAAIRAVRRSSPMVGQVDLDLAVKDFFRSRGTE 412
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: W7U1P6_9STRA (Atp-dependent metalloprotease n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7U1P6_9STRA)

HSP 1 Score: 359 bits (922), Expect = 1.260e-108
Identity = 214/399 (53.63%), Postives = 272/399 (68.17%), Query Frame = 3 
Query:  741 ALLLAVVMLAFAARFGSSHAP---SLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPGLS-------SIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKE 1907
            AL+LA V+L+   R GS  A    S  EVP S F++L++ + G DVV  +R+       F MNG   +T P++    +   L    IPF A  SP   S       ++ P A++F +   + +R  G M GS GK A   +ID SL+F DVAG+D+AK +V+ELV M+K P  +   GARLP G+L+ GPPGTGKTL+AR +ASEAGVPF Y +GS+FVEMFVGRGAAR+R LF KA K APCIIFLDELD LGK+RS   GG  SNDE EQTLNQLLA MDGLD+N +GV+VIAATNRYE+LD ALTRPGR DRIVRV++PD +GREAIL+VHTRK  ++    L  +A+LTPG++GA+LA + NEAAI A RR S  + + D   +V +F+ SR  E
Sbjct:  174 ALMLAFVLLSSVMR-GSGRAGRGVSPAEVPYSDFLKLVK-EHGPDVVSRLRIAPD-RFDFLMNGAPSFTRPVKAHPALLFFLDKYNIPFYA-GSPSSKSLVAFLLLNLLPFAWIF-LSMGMGRRMYGDMAGSVGKNAEENNIDRSLTFDDVAGIDRAKREVRELVDMLKSPQKYGKLGARLPKGILLAGPPGTGKTLLARALASEAGVPFLYSAGSEFVEMFVGRGAARIRTLFQKAQKQAPCIIFLDELDTLGKQRSLRLGG--SNDEVEQTLNQLLACMDGLDSNQSGVIVIAATNRYEILDDALTRPGRLDRIVRVELPDRSGREAILRVHTRKTPLEHDADLGKIAQLTPGMSGADLAGLVNEAAIRAVRRSSPMVGQVDLDLAVKDFFRSRGTE 565
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A7S0LIX3_9EUKA (Hypothetical protein n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0LIX3_9EUKA)

HSP 1 Score: 349 bits (896), Expect = 1.930e-107
Identity = 188/386 (48.70%), Postives = 268/386 (69.43%), Query Frame = 3 
Query:  792 SHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPG---LSSIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDID-TSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVAGLQSMLKG 1937
            S AP + E+  + F+ L+  +     + ++R++     F  ++G   +  P+R   +V   L  SG+ F A  +      +  +FP+ +L A+ F V+++      GS GK A++  +  T LSF DVAG+D A+++VQE+VSM+++P  + AAGAR+P+G+LMVGPPGTGKTL+ARVMA++A VPF+YCSGSDFVE+FVGRGAAR+R LF +A  T PC+IF+DELDALGK+RS   GG+  NDE EQTLNQ+LA MDG+D++NNG++V+ ATNRYE+LD ALTRPGRFDR+VR+++PD  GR AIL+VHTRK+ ++    L  VA    G +GAELA +ANEAAI   RR  +++   DF  ++ +F  SR++ + GL S + G
Sbjct:    6 SAAPRVVELSYAAFLHLVADEPAR--ISALRISLSRYSFM-LDGAPAFARPVRAPMDVLNILIRSGVDFRAAATSAAAGLIPLVFPILWLAAI-FSVLRKQLNGATGSVGKRATAKKLSSTELSFDDVAGIDSARDEVQEVVSMLREPERYAAAGARVPAGVLMVGPPGTGKTLLARVMAAQAEVPFFYCSGSDFVELFVGRGAARMRALFKEASATRPCVIFIDELDALGKQRSMRLGGQ--NDEVEQTLNQMLACMDGVDSSNNGIVVMGATNRYEILDPALTRPGRFDRLVRMELPDEEGRAAILRVHTRKLHLEPDVQLGRVAAAASGFSGAELAALANEAAIRCVRRKGERIGMDDFTSALVDFTSSRRRGIGGLVSKIVG 385
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A7R9U5K1_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U5K1_9STRA)

HSP 1 Score: 353 bits (907), Expect = 3.720e-107
Identity = 196/385 (50.91%), Postives = 262/385 (68.05%), Query Frame = 3 
Query:  810 TEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPG-------LSSIFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVAG--LQSMLKG 1937
            T VP STF+ +++ K  ++ + SV V   G + F+  G+ C+T  + V + +   LS + I F+A    PG       +S +   AY+  ++  V +   GS      KL   T+  T+L+F DVAGVDQAK +V+E+V+M++DP  ++AAGAR+P+G+L+VGPPGTGKTL+AR MA EA VPF+YC+GSDFVEMFVGRGAARVR LF KA K +PCI+F+DELDALGK+RS     ++ NDEAEQTLNQLLA MDGLD +  G++V+ ATNRY++LD ALTRPGRFDRIV V+ PD  GR  IL+VH RK+ +     L+ +A LTPGL GAEL +I NEAAI A RR    +L  DF ++   FY SR+K +    L+ + KG
Sbjct:  143 TVVPYSTFLSMLQDKGVSERITSVLVNPTGLISFRDAGELCWTQVVNVPQYLVDRLSEANITFLAEVITPGRGALTRFISLLLNAAYIVFLFMIVRRSFGGSQSSPAKKL---TETPTTLTFDDVAGVDQAKGEVREIVTMLRDPQKYLAAGARIPAGVLLVGPPGTGKTLLARCMAGEARVPFFYCTGSDFVEMFVGRGAARVRTLFEKAKKASPCILFIDELDALGKQRSFRL--QRGNDEAEQTLNQLLACMDGLDKSGRGIIVLGATNRYDILDEALTRPGRFDRIVTVNPPDRDGRRDILQVHCRKLNLAPSVDLRQIANLTPGLTGAELESICNEAAIRAVRRSDTTVLPIDFEEAAAQFYSSRRKSLGMGILEQLYKG 522
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A7S4BJQ8_CHRCT (Hypothetical protein n=2 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4BJQ8_CHRCT)

HSP 1 Score: 351 bits (900), Expect = 3.210e-106
Identity = 201/405 (49.63%), Postives = 275/405 (67.90%), Query Frame = 3 
Query:  741 ALLLAVVMLAFAARFGSSHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPGLSS-----IFPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTS-LSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADFLDSVTNFYVSRKKEVAGLQSMLKG 1937
            A  +  V+  F+ R   S  P   EV  + F+ L   +     + ++R++     F  ++G   YT+P+R + E+   L  +G+ F AV  P  L +     IFP+ Y+  +Y  + K+ +G   GS GK A +  ++T+ LSF DVAGVD A+ +VQE+V+M+++P  + A GAR+PSG+LMVGPPGTGKTL+ARVM+++A VPF+YCSGSDFVEMFVGRGAAR+R LF +A   APC+IF+DELDALGK+RS   GG   NDEAEQTLNQ+LA MDGL+T+NNGV+V+ ATNR E+LD ALTRPGRFDR+VR+D+PD AGR AI++VHTR   +D    L  +A  + GL+GAELA +ANEAAI + RR    +  ADF  ++ +F  SR++ +  L S L G
Sbjct:  124 AAFIVGVLRGFSTR--GSGVPLFLEVSYAKFLSLASTEPSR--ISNLRISSSRYAFL-LDGSPAYTLPVRAAPELLLFLHRTGVDFRAV--PTSLVAGIIPYIFPLLYIGLMYSVIRKQMNGGS-GSVGKRAVAKRLETTNLSFDDVAGVDAARAEVQEVVAMLREPERYAAVGARVPSGVLMVGPPGTGKTLLARVMSAQAQVPFFYCSGSDFVEMFVGRGAARMRALFKEAAAAAPCVIFIDELDALGKQRSMRLGG---NDEAEQTLNQMLACMDGLETSNNGVVVMGATNRVEILDPALTRPGRFDRLVRMDLPDEAGRLAIMRVHTRNFNLDPDVQLARIATASNGLSGAELAALANEAAIRSVRRQGATVNMADFTSALLDFTASRRRGIGSLVSKLVG 517
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BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Match: A0A7S0IXE4_9EUKA (Hypothetical protein n=2 Tax=Calcidiscus leptoporus TaxID=127549 RepID=A0A7S0IXE4_9EUKA)

HSP 1 Score: 341 bits (874), Expect = 1.750e-102
Identity = 187/357 (52.38%), Postives = 253/357 (70.87%), Query Frame = 3 
Query:  792 SHAPSLTEVPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEVFKALSTSGIPFMAVKSPPGLSSI---FPVAYLFAVYFFVIKRGSGSMVGSTGKLASSTDIDTS-LSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGLLMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFAKAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLDTNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHTRKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQL 1850
            S AP + E+  + F+ ++  +     V ++R++     F  ++G+  +T P+R   +V   L  SGI F A  +      +   FPV +L A+Y  V++R      GS GK A++  +    LSF DVAGVD AKE+VQE+VSM++ P  + AAGAR+P+G+LMVGPPGTGKTL+ARVMA++A VPF+YCSGSDFVE+F+GRGAAR+R LF +A   APC+IF+DELDALGK+R+   GG+  NDE EQTLNQ+LA MDG+D++NNGV+V+ ATNRYE+LD ALTRPGRFDR+VR+++PD AGR AIL+VHTRK+ + D   L  +A   PG +GAELA +ANEAAI + RR  + L
Sbjct:   91 SPAPRIAELSYAAFLNMVSVEPAR--VSALRISLSRYSFL-LDGEPAFTRPVRAPMDVLNMLHRSGIDFRAAATSGAAGLVPLLFPVLWLAAIYS-VLRRQLTGATGSVGKRATARKLSADDLSFDDVAGVDSAKEEVQEVVSMLRQPERYAAAGARVPAGVLMVGPPGTGKTLLARVMAAQAQVPFFYCSGSDFVELFIGRGAARMRALFKEAAAVAPCVIFIDELDALGKQRTLRLGGQ--NDEVEQTLNQMLACMDGVDSSNNGVVVMGATNRYEILDPALTRPGRFDRLVRMELPDDAGRLAILRVHTRKLALADDVQLARIASTAPGFSGAELAALANEAAIRSVRRQVRDL 441
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig180.104.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KCA7_9PHAE1.660e-26371.34AAA domain-containing protein n=1 Tax=Ectocarpus s... [more]
D7G2Q1_ECTSI7.240e-23675.05Cell division protein n=1 Tax=Ectocarpus siliculos... [more]
A0A835Z243_9STRA3.000e-13354.42Cell division protein n=1 Tax=Tribonema minus TaxI... [more]
A0A7S2V103_9STRA1.740e-11450.00Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
A0A4D9DB51_9STRA1.210e-10953.38AAA domain-containing protein n=1 Tax=Nannochlorop... [more]
W7U1P6_9STRA1.260e-10853.63Atp-dependent metalloprotease n=1 Tax=Nannochlorop... [more]
A0A7S0LIX3_9EUKA1.930e-10748.70Hypothetical protein n=1 Tax=Coccolithus braarudii... [more]
A0A7R9U5K1_9STRA3.720e-10750.91Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi... [more]
A0A7S4BJQ8_CHRCT3.210e-10649.63Hypothetical protein n=2 Tax=Chrysotila carterae T... [more]
A0A7S0IXE4_9EUKA1.750e-10252.38Hypothetical protein n=2 Tax=Calcidiscus leptoporu... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig180contigP-littoralis_Contig180:387579..410920 -
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.D7G2Q1
PFAMsAAA,FtsH_ext
Model size3152
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorychloroplast
GOsGO:0003674,GO:0003824,GO:0004176,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0006508,GO:0006807,GO:0008150,GO:0008152,GO:0008233,GO:0008237,GO:0009507,GO:0009526,GO:0009536,GO:0009941,GO:0016462,GO:0016787,GO:0016817,GO:0016818,GO:0016887,GO:0017111,GO:0019538,GO:0031967,GO:0031975,GO:0042623,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044238,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464,GO:0070011,GO:0071704,GO:0140096,GO:1901564
Exons11
Evalue7.24e-243
EggNOG OGsCOG0465@1|root,KOG0731@2759|Eukaryota
Ec32 ortholog descriptionP-loop containing nucleoside triphosphate hydrolase
Ec32 orthologEc-11_003070.1
Descriptionmetalloendopeptidase activity
Cds size1884
COG categoryO
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig180.104.1prot_P-littoralis_Contig180.104.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig180 388782..410855 -


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

Feature NameUnique NameSpeciesTypePosition
1680789873.391372-UTR-P-littoralis_Contig180:387578..3887811680789873.391372-UTR-P-littoralis_Contig180:387578..388781Pylaiella littoralis U1_48UTRP-littoralis_Contig180 387579..388781 -
1680789873.5135934-UTR-P-littoralis_Contig180:410855..4109201680789873.5135934-UTR-P-littoralis_Contig180:410855..410920Pylaiella littoralis U1_48UTRP-littoralis_Contig180 410856..410920 -


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

Feature NameUnique NameSpeciesTypePosition
1680789873.4015431-CDS-P-littoralis_Contig180:388781..3888621680789873.4015431-CDS-P-littoralis_Contig180:388781..388862Pylaiella littoralis U1_48CDSP-littoralis_Contig180 388782..388862 -
1680789873.4100444-CDS-P-littoralis_Contig180:396644..3967391680789873.4100444-CDS-P-littoralis_Contig180:396644..396739Pylaiella littoralis U1_48CDSP-littoralis_Contig180 396645..396739 -
1680789873.4202745-CDS-P-littoralis_Contig180:397375..3975031680789873.4202745-CDS-P-littoralis_Contig180:397375..397503Pylaiella littoralis U1_48CDSP-littoralis_Contig180 397376..397503 -
1680789873.4306777-CDS-P-littoralis_Contig180:400042..4001821680789873.4306777-CDS-P-littoralis_Contig180:400042..400182Pylaiella littoralis U1_48CDSP-littoralis_Contig180 400043..400182 -
1680789873.439339-CDS-P-littoralis_Contig180:400795..4009631680789873.439339-CDS-P-littoralis_Contig180:400795..400963Pylaiella littoralis U1_48CDSP-littoralis_Contig180 400796..400963 -
1680789873.4483395-CDS-P-littoralis_Contig180:401398..4015391680789873.4483395-CDS-P-littoralis_Contig180:401398..401539Pylaiella littoralis U1_48CDSP-littoralis_Contig180 401399..401539 -
1680789873.4567885-CDS-P-littoralis_Contig180:402127..4022391680789873.4567885-CDS-P-littoralis_Contig180:402127..402239Pylaiella littoralis U1_48CDSP-littoralis_Contig180 402128..402239 -
1680789873.4666994-CDS-P-littoralis_Contig180:403308..4034631680789873.4666994-CDS-P-littoralis_Contig180:403308..403463Pylaiella littoralis U1_48CDSP-littoralis_Contig180 403309..403463 -
1680789873.4814405-CDS-P-littoralis_Contig180:404284..4043981680789873.4814405-CDS-P-littoralis_Contig180:404284..404398Pylaiella littoralis U1_48CDSP-littoralis_Contig180 404285..404398 -
1680789873.4903665-CDS-P-littoralis_Contig180:405085..4052801680789873.4903665-CDS-P-littoralis_Contig180:405085..405280Pylaiella littoralis U1_48CDSP-littoralis_Contig180 405086..405280 -
1680789873.5043454-CDS-P-littoralis_Contig180:410300..4108551680789873.5043454-CDS-P-littoralis_Contig180:410300..410855Pylaiella littoralis U1_48CDSP-littoralis_Contig180 410301..410855 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig180.104.1

>prot_P-littoralis_Contig180.104.1 ID=prot_P-littoralis_Contig180.104.1|Name=mRNA_P-littoralis_Contig180.104.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=628bp
MMGIERKQLCLGLVLAFSLQPAVGLLSPHPFLSRPSLPAAASSSSVVVPR
SSSSSSRGVQPHRLPLLGAASPRPRCPRPCCRLPATAAAASMTNTAAGFY
PTRQPLVDGNVIRQHFYHRTRVASNTALAAGRPSSGGVRGGGQDEKDGGG
GWRQRVVRSVVSVFLKFRAMVAALGARLGLNRRSKSKGDSTQSLFSSIGG
KKAAALNKSRGAWGRSMLRLPTKKTALLLAVVMLAFAARFGSSHAPSLTE
VPMSTFMQLMEGKRGADVVESVRVTRGGTMFFKMNGKECYTIPLRVSKEV
FKALSTSGIPFMAVKSPPGLSSIFPVAYLFAVYFFVIKRGSGSMVGSTGK
LASSTDIDTSLSFGDVAGVDQAKEQVQELVSMIKDPGPFIAAGARLPSGL
LMVGPPGTGKTLMARVMASEAGVPFYYCSGSDFVEMFVGRGAARVRKLFA
KAGKTAPCIIFLDELDALGKERSSGGGGRQSNDEAEQTLNQLLASMDGLD
TNNNGVMVIAATNRYEVLDGALTRPGRFDRIVRVDVPDAAGREAILKVHT
RKMKVDDLDVLKAVAELTPGLAGAELATIANEAAISAARRGSQQLLEADF
LDSVTNFYVSRKKEVAGLQSMLKGILS*
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mRNA from alignment at P-littoralis_Contig180:387579..410920-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig180.104.1 ID=mRNA_P-littoralis_Contig180.104.1|Name=mRNA_P-littoralis_Contig180.104.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=23342bp|location=Sequence derived from alignment at P-littoralis_Contig180:387579..410920- (Pylaiella littoralis U1_48)
CATCATGTCATAGCTGCCACGCTGCCGCTCTGTGCACTGCTCTCGTGCAC
TACACACACGTCATCATGATGGGTATTGAACGAAAACAGCTGTGCCTTGG
TCTGGTGCTGGCTTTCTCATTGCAGCCAGCTGTTGGGCTCCTATCCCCTC
ACCCATTCCTCTCGCGACCGAGCCTTCCCGCAGCTGCATCATCATCATCA
GTTGTCGTCCCTCGCAGCAGCAGTAGTAGCAGTCGCGGCGTTCAACCTCA
TCGATTACCGCTGTTGGGTGCTGCATCACCTCGACCGCGATGCCCCCGTC
CTTGTTGCCGGTTACCAGCAACAGCTGCAGCAGCATCGATGACAAATACT
GCGGCGGGATTTTACCCAACACGACAACCCCTTGTGGACGGAAACGTTAT
TCGGCAGCATTTTTACCACCGAACGAGGGTAGCCTCAAACACAGCCTTGG
CGGCGGGCAGACCAAGCAGTGGGGGGGTGCGGGGGGGGGGTCAGGACGAA
AAGGATGGCGGCGGCGGATGGCGGCAGCGCGTGGTCCGGAGTGTGGTGTC
GGTGTTTCTGAAGTTTAGGGCGATGGTGGCTGCCTTGGGGGCTAGGCTCG
GTCTGAATCGACGGAGCAAGGTGACTGAGACAGCAGTCCAAAAGGCAGCG
ATTTTTTCTCCCCCTCGTATAAATACGGAGTACATGTGCTTCGAATATCA
AATACTGCTATCATATGATACATAGACTACCTGTCTGCTGTGGACTTGCT
TACGGTATTTCGTGTTTATTTTTATTTTATTTTTTTCTCTCTAGGGCCCA
CTCTTATGGTAGAGCCGAAAACTGGAATCCAAGGGTTTCACATGAGGAAC
TGGAATCCGAATTCCAGGTCGGAAAATATTTCTATCTTATGGGGGTTGTT
TTCGGTCGGAATTGGAAAATATTTTCCATTTCTTCGGATTCCAGGCGAGT
CGCCTGGAATCTGCCCTCGGATTCGAGGCCAAATGACCTCGGATTCCAAG
CTGGAATCCGTTGCGCGCGCGCAGCCACGAGGTTCCGCCGCAGTGGTTCA
CAGCACACAACAAGCACAAATACAACAACCGAGCACACAAATACACGGGC
CAGGTGCAGGTACCAAAGCGACGTGCGATCCTGGCTGTGCTGGCGATAAC
CCTTGCCGCTCTGCGCCATCAGTAGCAGTTTTATCAAAATTAGCCCAAAC
CGCCTGCCGTCCATCCTGCAACCCCATCTGATTTCCAATCGCTGCCCAAA
TTTTCCAGTTCTCCCATAAAGTTGGCACCAGTCTGATTGTCCGACTTGGA
ATACCAGGCTTGGAAAACGCTTTTCCAGCTCTGGAAATTCCAGTTGCCCA
TCTCCCACAAGATTGGGCCTAAGAGAGCTCATGATCATGATTTTGGAGCG
CTGGGAGCGCAGCGGGGAGTATCGCCACCCTCTTCGAATCGAGACGTTGT
TATGACCATCCAGGCAGCCGCTGCACACAAATTTTATCGAGAAACTCTTT
TTTTCCCAAATTATTTCGGAGCTCCCCAACAACCAGGGTAATTGCCCAAT
TATCCTGGAATTCCAAATTATTCACGACGGCCTGGATTTTTTATTTCTGA
ATTCCAGCAGATTACCCCCCCATAAGGTCTGGTCGGCCGAAACGACCGGA
AATAAATTCAAATTATTTCCGGAAAAGGCCCAAATCAGTGTTGGAGATCG
AGATCGAATTTTAGAAAAAGATCGCGGTATTGATCCCGATCCGGCCGGAT
CAGTATCGGGAATTTTGAACGCGATACTCCGATACTGTTTTTCACGCGTA
ACCCCCTTTATCCCCCCCCCCCCCCCCCCGTTATTTTTCTTGTCCCCCCT
TCACAAATTGATGTCGATCTCTCGATATGGCCGTTTCGACATTGAGATTG
GCCGTATCGACATCGAGATCGACCGGATCGCGACTGAAATTGGGATCGAT
CCGCGGATCGGTATCGCTATCGGACATTTTCTCGAGTATCGAAAAAATAT
CGAGTATCGCGCTTTGTTCTCCTCGATCCAAAAAGATCGTATGAGAACGT
TGTTGGGCTCGATCTCCAACACACTAGCCCAATATCCCGACGATAAGAGT
CGGTCATACAGCCCCGTGAAGTTTTGCACAAATACTCGCTCGCGACATTT
ACGGGAAAATTCCCGGCGCTAAGACTGCCTCTGAAGACCAAGGTACAGGC
TCGTGAAGGTGTCTCAAAATGCTCGCTTGCGGCATTTACGGGAAAATTCC
CGGCGCTGATACTTGCTACACTGACGTTACCTTGGCGGCCCGCAGCACAG
GATATGTCACTCGGATGCATCCAACAAATTGCAAGTAGCAAGTGAGAGAA
GAGTCTGCAGAAATTCAAAATAAAAATGAGGAAGGTCCTCGTGTATCTGC
CCTGATTATAACACCAACCAACGTACCATACCTACCACCTGTCCAGAGGA
GGCTTCAAGTTTCTAACGTTCCTCACATTCTCCACTAGAATAGTCTCGGG
GCTTGTCGATGGTCTGCGTACTGTCCGAGTGATCCTTCAACACGCCCAGC
CTTGTCACTGTCACAACACAAGTCGCCGTGGAACCTTCTGTGAGTGTTCC
CGGGCACGCTATGGTCCGGCTGTCGGAAAAATAGGATGTAGTGCGAAGTG
TCCCGTCGCACGCCCGTCTCGGCACTTCTCTCCCTCCTCTGTCCACCTCT
GCCCGAGACCTTGTCACTCAAAGGGCGTTGTAGCTCAGTTGTTAGAGCAC
TCGGGTGTCCTCGGAGAGACGAGGGATCACTACAGTACCCTCCAGCGGCT
TCTCACGCACATCCACTCTTATTGGCGTCGGCTTGCTTAATTAAGCGTGC
GTGTCTTGTCACTGCTGTGCACGTTTTGAAGCCACGTTTGCTCTCTTGAG
CCTTCCCACAGAGGAGTTGAGTTATGTCCCAACGAGAGGAAAACGGTGAG
AGCGAACAGTCCAATTGCCCGGAGCTTGCATCTGTAAATGCCCCAACCTC
TCCTGAATTTCCTGGATGCATGAGCAAGGCCAGACCGGTCGGAGCAGGGC
GTCCTGGTCACCCTACCACCACCGGCAAGTCTGTCTGCTGACTCTGTTGC
TTCAAGTAGCGTCATGATATAATCTACATACCTGGTACCAATGATGTCAC
GGATAGGTAGGACGTTGCGCGTAACACTGCTTTCGTTCAAACCACAGCAG
CCCAAAATCGACTGTTGCCCCCCGAGGGTGAACTCCCCAGGCTGCCTCGT
TTCAGCAAAACTGTCGAGAAGTTCGTTGTGCATACATGACAATGCCCTGT
CTAATCTCCAGCAGTGCAAGTACTGCTGTGGTGTCACGGACTATGGTGCC
CAAGCTGTCCGTCGCTGGCGAGTTTTCAGTCTGGTTCTTGATGGCCCTGC
AGTGATCGTGTACGAGTATCAGCATCTCATGTCTGGTCGAAGACACCGGT
CCTTCCTCACAGAATGCCGGTTCGTTTACCCCTTCTTCCAAGTGGAAGGA
ACTGTCAGCACGCTGTGCTTGATGTGATTATGCTGAGCACACGTGTGGAG
GAATGCGCTCTCCGCCTTGTGTCGTTGAAAATGGAGAAAACGAGATAGTT
CGAAATTATACTCTTCGTCTCAGATCGCTGTTGTCACGCCTTGAAGCGTC
TGTCGAGCGGGCGTGTCCAGGCAGAACGCCCTGTGGACCGCCATGTATTT
TGTCTTGTAGCAAAACGGTCTAGCTCCTACATTCCACGCCTATTCTGTTT
GTTAAACAGGTCACCTTTTCCCGTATGTTGTCAACCGTGCTAGAGGCATC
GACTGCCTGCCGGTTCGATGTCACCCCCACACAACCCCTTCAGCACAAAT
AATGTTAAGGGTCGCCCCTTTGCGACAGCAGTGACGACGAATGATGCTGC
CCAGCTGCTGTAGCGCTTGTAGCGGTTTGAATATGTCCTGTGTCTCGCAG
GAAAAGGCGTAGAGAAATAAATGTTTCTCCACGTCGGAAGCTGTCGGCAC
CACTGGCCTAGTAGGACCCCTTGTCGGTGTCCGCAATGGTCACTTTATCG
TGCCTCGGTTTTGTGTCCGTCCTTGTGGTACCGAAAAAATACTTTGAGGA
AAACGTGTTGGCGGAATTCGCGATTCTTCCTCCAGAGTTGTCGATGGTGT
TATTTCATCTCCCGTGCGCGAAGTCATGCAAACGGTTGTCTCTTTGTCGG
TGATGTACCCTCGCCTCCAAAAATCAAGTCATGCTTACGGAGGTCGTCTG
CAGGTGATGTCAACTCACCCTCCGCTCGAATGTCAAAGAAGCGGGTGTCT
TTTTCACTACTCCCCAAGCGGTTTCTTTAGCATGCACACTCCTACTATCA
TACCTCCTGCAAAAAAATGTAAAAAAAAAGTTCCGAGACTCGCAAGTGAT
GAAAAAGAAAAAAAAAAGGGCCGCAAAATGGCCCCCCTGTGAAATGGCGT
GTAACTGCAAGTACTGCTGTTAAATGTAAAAATGTTGTGGCGGCCCGGCC
CGGAAAGGAAGCTATCATCATATGTGTAAATTCCAAGAAAAACAAACGTC
TGGACATGATCAATGGTGCACTCTCTTGATAGTATAAGCCGTTTCACACC
TCTCGCCTTCGAACCCATCTCCTCTTCAAGCCCTCCATCTGTAAATTGTA
AGTAAAGAAACAACATCTGCGCATCCTACACTCTTGGTATGCCGCTAGTT
TTACACAGTATTTCGCCTTCCACTCATCTTCTCTTCCCGCCCTGCACGGA
GGACGGGTGGGCCGTCAGGCCTACGCGTCCGGAGCGCTTGCATACACTGA
CTTACATAAAACACGTTCGGACGGACGCCCTTCCCTCTCTTGCTCCTGTT
GCACAGAGCAGCAAATGGCCCAACACTGCTGTGAGGTGCATGTTGAGCTA
ATATGGTGGCACGTATCGGCCATGGAAGAGTATCGTGCATGAATCGGGCG
TGATGCAGCACTTTTGAGCGTTGGTAGTTTTCGTTTCTTCTGACGCATAG
TGTAACCGCTCGTTTTTGGCATCATACAGAAGACTTTCACAACAAACCCC
GAATCGCTACGTACTTGCGGCAGAGCAGTCTCGAGTGTGATGTGGACATG
ATTCAACACTCAACACTGAAGGAGTTGGCTGTGTCCGCCACGACACTGCT
GCGGTTAACTTCTGCACGCGTTATGCAGTCCATGATGCACGTGCAGAATA
AAACTAACGAGACAAACAACGGCCCCGCTGAAAGCAATCGTTCGTTCGTT
CGGACAATCACTGGAAGTACATCGTGAGAGCTCGTGTAGCGAGTCGTCAA
TTCTGCCGCGTGTTGCCTATCGCTGTGCTGTAACTGCTGTACCTATTTAT
CGTAGGTGCTAAAAATACACCAAGTACTTCGAAGTATTGCTCTACCTGGG
ACCATTCCACAGTAGTAGACTTTGCAGCCCTGTCTACTTCAAAGCCAAGT
GGTATCGTTGGGTTTGCGTTCACTCCATTCCACTTTTCCTCTTTTCGATT
TTCACTCTCCCCCGCCCCTTCCCCCCGCCCATCCGTCGGTCTTCTTCGTT
GCCTATCCTGTCCTGTCTTGTTCTGCATTGCGTGCATGCATGCACGCCAC
GCATGCTCTCTCGCATGTTCCCATGTCTGTGTGGTCGCAGTCGAAGGGTG
ATTCGACCCAGTCGCTGTTTAGCTCCATCGGCGGCAAGAAGGCGGCGGCG
TTAAATAAATCCCGAGGTGCCTGGGGTCGATCGATGCTGCGATTGCCCAC
GAAAAAAACGGCGCTGCTGCTTGCCGTGGTGATGTTGGCCTTTGCGGCCA
GGTTCGGTTCCTCGCACGCCCCTTCTCTCACCGAGGTTGGTGGGCGTTAT
GACTTGTGCAGCAGCCTTGAACTGCGTTGTTGTTGATGATGATGTTGTTT
TTGTTGCCGCTGTTGTTGCTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGT
GGTGGTGGTGTTGGTGTTGGTGTTGGTGTTGGTGTTGGTGTTGTCGTTGT
CGTTGTCGTTGTCGTTGTCGTTGTCGTTGTCGTTGTCGTTGTCGTTGGTG
TTGGTGTTGGTGTTGGTGTTGTCGTCGTTGTTGGTGGTGGTGTTGGTGGT
GTTGGTGTTGTTATTGATTGCCACATTTGCTTTAGCGTACACCAAGATAA
GCTCGTGTTGACGAAACCAGGCGTAAACAATAGTCACACCCATCAAAAGA
GAGAAATTAAAATAAGGGCAGCAGCAGCAGTAGAAGTACTATCCATATGA
CCAGGAGTACTGCCGATGGATGAGGTGGCCTCGATCTATGGTGACAGAGA
ATACACCCAGTGTGTGCGCGTCATGAGTTGCCTTCACGTTAAAACCCGCT
CCGATCATTGCTCGTACCTTCCTGACGGCACTCGTACCATGCTGTAGGGG
TTAAGAGTTGTGATAGAAAAGAGATGACTGAAGGCACGTGTGTTTCTGAG
CCTCCGAGTTTTTTTCGTTGTGCGCGTGTGTATGTATTTTTTGGTGTGTT
TTTGTGTTGTTTGTACAACCAGGTGCCGATGTCGACTTTCATGCAGCTCA
TGGAAGGGAAGCGGGGAGCCGACGTCGTGGAAAGCGTCCGCGTGACCAGG
GGCGGAACGATGTTCTTCAAAATGAACGGCAAGGAGGTATGGCAAACGCT
TTTTCTTCTTGTCTCTTACCGAAGGCAGTAGCGTAACTCGTAGCGTCTGC
GGTTTTGTGCTCATGTGGCGCGTGGCTAAGAGGGATCCGCCTACCGTACC
GTACCGTACAGTACAGTACCGCACCGCGCCGCACCGCACCGCACCGCACC
GCACCGCACCGTACCGTACCGCACCGGTGTTGTTTCTGCTTGCCTAAAGA
CGGTGACTAGCGTCTACCCTTACCGTGCACACGTTTCAGGCGCTTCGCCC
AGAGGGGCCCGCCGCGGGGGGTGTCGGGCAGATCGCTTCGTGCCGGCTAG
AACAGCAGCGGCCGGCGGGGTGCGTTTTGCGATACAGTGTTCGTGTCCGT
ACAAGGACCCCTCGCATGATGTCCACGCAATACCGTTTTTTAGAAATCAG
CAGCATCGATGCTCCCGCAACGTGGAAGGGGTGGGAACTGTTGGGGGCTT
TCCCCGAACTTCGCGGAACCTGCCCTCTCTTGTGTAGACCGAGGCTTGGT
CTTCATTCAATTTTGTTGGTCTGGGTTCATTATTTTGCTTGCTACACCAC
CGTACTTGTTGTTGTTCGTCTTGCTGTTGCTGTACTTGTAGTCTTCACAT
TTTTTGCCTTTCCGGCCTCTATCCACAGCACCTCCGTACGACATTCCGCA
CTGCTCCAACTGTTCAAAAGAGACAGACTGGCTTCCGTGATCGCAGGCCA
TTTTCATGAATGCAAAGCGTTTCCCATTTCTGGCTGCACCTGCTACGCAC
GAACCATTCTCCGTGTTGCGCGCACCACCCCTGCCACCCGGCCACGAACA
ACGACAGTGCTACACGATACCGCTGCGGGTCAGCAAAGAGGTTTTCAAGG
CTCTGTCCACGAGCGGCATCCCGTTCATGGCGGTCAAGTCGCCGCCGGGC
CTTTCATCCATATTCCCGGTCGCTTACCTCTTCGCCGTATACTTCTTCGT
CATCAAGAGAGGGTGGGTCTAGTTTTAGACTGATTGGTGTGTCTGTCTGA
GTGTTGCTGGGTGCGGCGTGTTCCCTAGGTTTCTCCTCTATCGGAGGCTA
GTATGCATGATGGGGATGGTGCTGATGGGTTGTGACCGGTGTGTGTGTGT
GTGCTTGTGGTGCTGTGCTCGTCGTTCTCGTTTGTTGTGCTACGGGTGTG
CGCAATTTTTGGCAAATATAGTTAAGGGTTAGTTACGGAATAAAGAGGCG
AGATCGTGTCGTATCATGGCGCTGTTTCGCAAACCAACGATCTCCTCGAG
CCGCAGACTCCGAACCCAACCCTGGATGTCCACCTCAATTTTATCTGCTG
TAGCTTGCCGGTCGCCCCGGTGGTTCAGTTGGTAATCCACCCAACCTTCT
GACATTCACGCGTGAGTTCGAATCCCAGTGCAGTAACACGATCTGGATTT
TTTTCTCACATTGCGCGTGAAAGTGGAAAGCGATCAATTCGTGAGTAAAC
AAAGTTCGATCGTACCATCGACGAGGGAAAGGGATTGCTGTCCCCTTTCT
CGCGATAAAAGCTCAACCAAAAAGGCAAGCACCGCAAAGGGAAGTGGAGA
AAAAAAAAAAAAAACTCCTGTGTTGACTTACCCCTGTGTGACCCCGGTTG
GAGCGTCTACCTACCCGAAAGGTGTAGAGTGGCGTCCAATTAAAGGGATG
ACAACACACACACAGCTTCCTTCAGCGTTTCGCCAAAAAAGGTGGGTGAT
CGAAGTTGGTCCGAAGGGCATATTGAAACCATGAAGCGACTGTTACATCC
ACGAACAGTATTCGTCCAATGTCCACACTCGTGAATGTACGCAGGTGCGA
CCCGAAGCAACAGTTGTTGCTGGTTCTCACACAAGCTCATGGCCAGGAGC
CTATGATAGCTCGTGTTCACAAACGAGGCAAAAAAAAACGTGCCGGGAGG
AAACGAAATTGAAACACACATGTACATGAAAAACAATTTTTTCGTAGATT
TACCGAAATTTCAATAATAACTCTGCCAAATATTAAAAAAAAAGGCGGAA
TTTCTGGGGTCTTGCGCGCGCGCTTCGACAGGTCCGGGAGTATGGTCGGC
TCCACGGGCAAGCTGGCGTCGTCAACGGATATAGACACTTCGCTTTCCTT
TGGAGACGTGGCCGGAGTGGACCAGGCCAAGGAACAAGTGCAGGTAGGTG
ATTCTGGCACTTAAGAAAAATATTTTTTTTGAGTATCCGTACGGTACTGT
ACGATACTACTTCCAAGTATTTTTTTTATTGGGGGGGGGGGGGGGGGGGC
AGCTTACGTTAGTCCGTGTTTTGTCTCGTAAAAGCCGCGCTACATGCGAT
ATCTATGCTGTACCTACGGTAAACATGTGTCTTTTCTTCCCAGTATCGGC
ACAGGGTATGACACACTTCACTTGCAAAACACGTGCCCATCGACGGAGAA
AGGGAAAGGTGGCACGCGCTTTCCTGAATGGTCATAACGCCTTGCGGCGA
CATTTTAAATCGAGACGATGGAAGATTTTTGGATGGCGGTCGGTGTCATC
ATCCAAGGTCGACAGGAGTGGACGGAATCAAGGGCACGGATGTGATGTAT
GCCCTCACCGGAAGGGTTACTTGGCCTCCACCAACCTCACTCCTATCTCT
CTGCGTTGTCTTGACCTCCACCTAACTCCTATCATACGTGCACTCCACGG
TCTTTTTGCTCTTCTTGCGTTGTTGGGCCCCACGCCCCGTCATACATACG
ATGATTCTCTTCCAACCTTTTTGCGTTACAGGAGCTTGTTTCTATGATCA
AGGACCCCGGCCCTTTCATCGCCGCTGGTGCTCGATTGCCGAGCGGGCTT
CTGATGGTGGGGCCGCCAGGCACGGGAAAAACGCTCATGGCCAGGGTCAT
GGCGTCAGAGGCTGGCGTTCCGGTAGGTCCCTGAGCCCTGAGAAGCATGT
ACAGCTTGTGATTGCGTTAAGACGACCGGCAGGGGAAAGGAGCGGGGGGG
GGGGGCATGGGCATTCCCTATTTATATCGCTGTGCCCCTTTTTGCGAGAA
GAGACGCTGTCATTTTTGTCGCTGCCAAGGGCGGTCCGTCCTCCCGCGCT
GCCGAGAGAGCCTCGCGGTAGTTGTCTCTCATGTACCCGTACCCGTCTGT
TGGTTTGTTTGATGGTGCTCAGTGTCGCCGGGAAAAGGAGAGTAGCTGTT
GGTTTGTCAAATCTGTCGCTTGTGTTGACCGTCGCCGCATGGACTGTAAA
CATAACCTGGCGATAGGGGCCTCGGCTTCCGCCGGAGACGACTTCCGAAA
CACGAGCTCAGCTTCACCCCCCCCCCGTCTCGTAACTTCCTTTGACGCTC
TGCGCAGTTCTACTACTGCTCGGGGTCCGACTTTGTGGAGATGTTCGTGG
GCCGCGGCGCGGCCAGGGTGCGAAAGCTGTTCGCGAAAGCGGGGAAGACC
GCTCCTTGCATCATCTTTTTGGATGAGCTCGACGCCTTGGGCAAGGAGCG
TTCTTCGGGGGGTGGAGGGCGGCAGGTGCGTACGTGAGATACCACACGGG
AACCCTGTGGATCGATGTCAAAGCTCGATCGACTACAAGTACCTCATTCC
ATAACGAAGATGAGAGGTTGTGAGCCATGCCAACATCAAGTGTGTCAACG
TGAAGCGTGCGTTTTCCGGAAAGCTCTCGGCGAGACGATTAGTTGCATGA
TTTCAACGCCGATCAATCGATCGATGAGTCACCCATCTAGATACAGCTAC
GACACGACAGGGCACAACACTATTTCTTCCTGCTGTAGAGCATTCGAGAT
TTGAAAATCAGTTCACGGGGCCCCGTGTAGTATCTAGTGCGGCCTAAAAA
TTTATATTTTATTGTATGAAAGTAAATAACCAATTTCTTCTTTTAATTTA
TGGTTATCCCTTTTTTTGTATTTTTATGCGATGAAGACTCAGCTCGGATC
CATCCTGTTGGTCGGACCAATTCAAGTTCGGAATTCATTTTGTTTTATTG
TTTAAAAGAAGACACGCTTCATAAAACGTACAGTGTGTTGCATATTACAC
CGATCTTGGTCGTTCTGCGTGACCACCTGACCTTCACCATACCCATGTGA
TACGACGGGTGTCGGTTCTCCCTTTTTCTTTTTGCCAGAGCAACGACGAG
GCGGAACAGACTTTGAACCAGCTCTTGGCGTCCATGGACGGCCTCGACAC
CAACAACAACGGGGTCATGGTGATTGCCGCGACAAATCGCTACGAGGTGC
TGGACGGCGCTCTCACTCGGCCCGGCAGGTACTGCTGTGCATCATGAACC
TTTCCTTGTGTTTCGGTTCTTCGTTGCGAAATCTGCTGCATTTGTCGGTC
TGTCGTCGTCGTCATCGTCGTTCCTCACTTTTTGGGGTAATTTGTAATTT
GTAATTTGTTTCTAGTCATTTTTTATTTCAGGGCCCACCGCTACTACTGT
TTCTTTACCCCCTGGAGAACCCTACCCGCGTTGTGCGGGAACGATACCCC
TAGAGCGCTTGAACTTAGCATGGGACTACGCTCGAATTCATACCAGGCAC
CATACGGCCTTTTGTAGTTTGCGACAGGACAAAAAAATCGACACACTGGT
TTCAAGTACCTGGTAGTTTTTTTTTTTTCGGGCAAACGCCAGAAAACGGT
ACGTATGCTGCAAGGGTTCTTGGCCACAACGCGGTACACCAGGATGCACT
TTGACATGTGAGCCTCTCCCGCGACGCTGATTGGTCTAACTGAACCATGC
ACCGTTTTGTGACACAAACCAGCACCTGGCGGTTTACCGTGTCGCGGCTT
ACCGTGTCAGGTAGATAGACTCGCACTGTTTTTTTCAGACATGGTGTGCA
TCGATCTCTGGCGAGATCAGAGCTCCTCCCAGGGGAAAAATTCCCAGGCC
GTTCGCACCCAAGAGAAATTTCACTCCACAGCCACCGCAGCCACGTACGT
CCAAGTCAAGAAGTGAGACTCTCAGGGGGTTGTATAAACAGGGCATGGCC
TGCACGGCTATCGACTTATACACACATACCCTGCATACATACATACATAC
CGTAATATCCCTTGAGAACGCCCCCTCAGAGAGAACGCCCCCCCCTAAAA
TCGTTTTTTATACACAAAAACTTTGAGTTCGCCCCGGGGCCGCATATTTT
TTTTAATGTTTTGTTTTTCGCCCCCCTACCTTCGAGTTCGCCCCGGGGCG
ATCTTTTTTCAACTGGTTTCTTGGACGCCTCGTGGGGCGTTCGTGTGCAC
GCACCGCACATTTCTTGTGGCAGCTAGAACATTATCGTTGCTATCATGCC
TGGCGTTGTCGTTGTCGTCATTGTATTAATTAATTGTTGTGCTTGGTGCA
CATGGTATATTTTTGCAGGAGGGTCGTTCCGTCTTGGTTCATTGATACTG
CTGCCGGCAATTTCTGCACAACGCCGAAACATGGAACCACAAAGACACCA
GACACCAGACCCGTAAAGCACAACCCCGACGAGAAAACAAGACACGGTAC
ACGAAAGAAAAAATACAGCAGCGACAAAGCACACCAAACCAAGAGGCACA
ATTGTAGAGTCCTCCCTGTCTTTCTTCGGCGCGAACGCTTGCTCGTAGAT
ACTACCGAGGCCCGACATCGTGCGGGCTCTGCGCAGCAAGTGTGGGTGTG
CACATGTGTGGACAAGTACACCACGCCCCCGGGGTGATTTCGCCCCGGGG
AGTTCTTTTCTCTGAAAAAAGACCACTCGCCCCCGGGGTGATTTCGCCCC
GGGGTGTTCTTTTTCTCTGACAAAAGATCGCCCCCCTACCCTTGAGAACG
CCCCGGGGCGATTTTTAACCGCTGTGCTATTTTCGCCCCCCGGGGCGTTC
TCAAGGGATATTACGGTAGATACACACACCCGAAACATACATAGTACAAA
CGTACGTCCAAACATACAAACATACGTTAACCACTAGAGGCAGAGGAACG
GGGGTTCGATTCCCAGTGAATGTGTTCCTTTGCTGCTTTGAAAGCGGCTA
TGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGACGAGGGTAGGGACCGCG
GATCCCTGCTCGCGAGAAAAAATCTCACGCATGTACCGCAGAAGGAAGGT
GGGGGTAACTCCTCCTGTGTTGAACTTCCTCCTGTGTGACCCCGTCGATG
GGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGACTAGTGTGCCAGAGAA
TATGGGATGACAACACACACGAGCATGGCTCGGCTCTCTCGTCGCCGCTT
TGCTCCGCCAACGCAGACTTCAAAGGCTGCCAGTCCTGCTGGGCTGCAAC
CCATCCCCCCTCACCCACGCAAGTACACCACAACCCTACCCACACGCGCG
CTGCGCGCCAGGGCGACCTCGCGCCCCTCTCCCCTGACACACAACACACA
CAGTCCTGTGTCTGGCCTTCTCCTACACCAGTGATGCATTGTTTTTCCTG
TGGCGTTGGTTTTTTTTTGGTCGCCTGGCCTATTGCCTCGCGAGAACGAC
GCGAAGGCTTGCGCTAGCGGCTGACTAGTCTGTACTCGAAGTCTTTTTTT
TTTGTGTAATGTAAAGAATAGATGCCACGCTAAGCGAACGAACTGGGCCT
AACTCGCTGACGGAAGTGGTATCTAGCTCTGTGTAAAAGAAGCGTGCAAT
CCGCATAAATACGTGTGATAAAAACACTATCCCGCATTGTCGCGCACGCC
CTCCTGGCGTTTCAATCGCTGGAAAGCAATCGGCAACTTGCTTGCGCGGG
TAACATGTCCCGGATTTGATATCCATACCCCGTTTGGTGCTGGTTTTCCC
CCCCCTGTGTCATCTAGGTTTGACCGGATCGTAAGGGTCGATGTGCCGGA
CGCCGCTGGCAGGGAAGCCATCTTGAAAGTCCACACGAGGAAGATGAAGG
TCGACGATCTCGACGTCTTGAAGGCTGTTGCGGAGCTCACCCCCGGTGAG
TCAAGTCAGCCGCGACTCCAGGGGAAACTGGCCGGCGGGGGTTCCACGGC
GGAGAATCAGCGTCGTGGCATGCGACTGTTTGGCAAGCTCGTGGCTGGTG
TTTGCGATCGGGCGCCACCCTTCATTAACCTAACAGGGCCTTGAGCAGGT
TCTTCTGATGCCTGCGTTCTCCCGGCGTGTTATTTTGCAACACCGCAACG
GGCAGGTTGCCACCGTAGCGGGACTGCGGCGACTTGATCTCATCTGAGAT
TCTTCTCGCTTACCAGCACGCTGTTTTCTACTGCTGTCTTGTCAACTCCC
TTTGGAGGGATTTCTGTAGCAGCAGCGTGGCCACAATTTTTAACTCCGGC
TTCTCTTTCCGTCATGGTGGTTTCCATTCCCGTTAAACCTTCCCCCCGCG
TATGACAGTCCCAGGGGGAACCTACATACATTGTCAGCGCTCCGTTCGCG
GCATCGCCCCCCGTCGCTGACGTGCGTTTTATCATGCCAAGTCTTTGCTA
ATGCACGTCCATGCTGAGGGATGTGTCTCGTTGTGTAATTTTTATTTCAA
AGCGGCCGCTAAAAGATGCAGTCTTCATCGCTGCACGTATGTGTGTGCCT
CGATGATGGTATCGTACGCGCCATGTGATAGGTCTTGCTGGGGCAGAGCT
GGCCACGATCGCGAACGAGGCCGCCATCTCGGCCGCTCGAAGAGGCTCGC
AGCAGCTGCTCGAGGCAGATTTCTTGGTGAGTACCGGATGACACGTAGTA
AAATCAGCCACACCCGATTGGTGGAGTTTAGCTGGAATGGATCAAATGGG
TCGAACGCGGCAACATCAACAATGAATTGGCAATAATGATTGCTGCACCC
ACCTCCTCGTCGTACATACTTAAGCTGGGATGAGAGAAGTTGGACGCGGG
CAACAACAACAGAAGAACAGCAATGAAGCAATGCTGATTATTGCTGCACG
CACCCCCTAGTCGTATATACCAAGTACGTGGTGCACTTCGCAAACCCCGT
TGCACGAATGAGTTGGCGACGAATCTACACGAATCTGTGCAGACAGCAGT
CAAGTTCAGTGTGGAAATCGAACCGTGTGTGTTGGTGTGCACACATATCC
ACTGCTGTGCATACCAACACTGTGTACAAGCACAAGTATTCGGAGTCATT
TTTTTGTCGTTGTGCTGGCGGAACACCGGCTGTTCTGCGCTACGCTCTTC
ACACCACCAGCCCTTCGTATATACTCGGAGTACTTGTATTCGAGCGCAAC
GCACACGGATTGACGCAGTTGTCAGCGAAGAGGCCACACTAACGCACACT
GCTTTCAACCCCGATCCAAAATGTACACCGTGCAGCAGCAGCGCACCGCA
TACAGTAGTACTCTGACTACACATGATGTTACCACTGCTGCACGCTGACT
ACATAAGGTTGTTTTGTCCTGTATTAAAGTCGTTGTTTAGCCTTCTCGGT
CGGTGTCAACATCCGTTGTTATGGGTTTAACCCTTCTACCCCCCTGTGAA
AGATCATGGAATCATTTTTTTTAACAAAATCTCTATAAAAGCAAGTGAGG
GCGTCGCCAATAATTATGGCGACGCGTTCTCTTGCTTGTAGAATGCGTTT
GTGATTTGAGCGGTTAGCGAGGCAAAAGTTTAGCTGTTGGGAGTCACGTG
ATATTCCAAGTGACGAATAACAAATGGCGACCCAAAATGGCGACATTGGG
CTACCTGAGGGCAAGAGGGTCAAGAAGAAGCATGCCGCATGGATACAGGA
GTCCGTTAGTCGTTGGTCTCCACGCGGTGGTAACGGTTCAGCTCTGCACT
CTCCCGCCCGGATGTGGTGATGTGGTGCACTTCGCGTTGCCCCTGGAGAA
ATATTCTGGAAAGTACTGCTGAAGTACATGTATGATATGGTGCTGTGTAG
GATGTACTGTCCTACTAGACACGTTTAAAACTTGGCGATTTATATAAATC
GGCCCCAACGACCAAAAAAAAGGCGTGAATGGAGTTTCAAATCAGAGAGG
TAATCAATCAGCAATTCAATGGATTTTGCGTATCAACTCTTGTGTCGATA
GTACGATGATTGTAGAGATATATCGAATACGATCAAATCATCAGAACCGC
CTCATCGCGCTCGATGGTCCCGAAAGGAGCCGCGAAAAGCCTCTTGCACT
CCAGGGTGGATTATACAGATCAGGTTTCTGGTCCAGAGGGGATCTTGCGA
GGTGATTAACACATCACCAACGATGTCCAGCTCCTGGTTGGTAGAGATGT
GGAGATTTTCAGATTATCGATTATAATCTTGTTTCAAAAAAATACACGGC
GAATCGATTAATCACAGCGTGTTCGTGGATGGATTGCCACAGCAGTGGGT
TGGTCTCGAAGGTGCAGAAGGCATCGGACGCGAAAGCAGCAGCTCCACCA
CCACGTACAGCGCTAAAAGGGCGGAAATCTGCAACCGGGAGTGCTGCGTG
AGGTAGTTTGCCGTCAGAGTAGTAGCAGGAAGCGACAGCAGTAGTTGCAG
GAGTAGGACGGGAGGGCTGTGGGTGCACTGCCACAGGAATGGACTACCCG
CCTTTTTTATCAGCCAATCGATTATCTCTACCGTTCAGGAGCTGAACATC
GTTGGTGATGCGGTAACCATCTGGCAAGATCCCATCTGGACCAGAAATCT
GATCTGGGTATTCCACCCTGGAGGGCAAGAGACTTTTCGCGGCTCATTCT
GTGATCATCGAGCGCGATGAGGTGGGTCTGATGGTTTGATCGCCGGTCAG
TAAACTGATTGGCAACTGATCGGCGATCAAACCATCAAAACCGCCCCATC
GCACTCGATGATCACGAAAGGAGCCGCGAAAAGTCTCTTGCCCTCCACGG
TGGATTATCGAGATCAGATTTTTGGTCCAGATGGGATCTTGCGAGGGATC
ACCGCATAACCAACGATGTCCATCTCCTGGGTGGCAGAGATGTGGAGACT
ATCAGATTATCGATTATAATCTTGTTTCAAAAAAATACGTGGCGGATTGA
TTAATCAAAGCGTGTTCGTGGATGGATTGCCACAGCAGTGGGTTGGTCCC
GAACGTGCAGAAGTCATCGGATGCAAAGCAGCAGCTCCACCACCAAGACA
GCATGAACAGGGCGGTAATCTGCAACCTGGAGTGTGTGCGGTAGTTTGCC
GTCAGAGCAGCAGCAGGAAGCGAGATCAGTAGTTGCAGGAGTAGGACGGG
CGGGCTGTGGGTGCACTGCATCAGGGGCTCAAGGGTGCTGTGTGCTGTAG
TGTGCAGGTACTATCGACACAAGGAGTTGAATCGAGATAATTTACCCCGA
TTCCACTCTTCTTGTCTCGATAGTACGATGGTTGTAAAGATGTGTCGAAT
GCGATCAAACCATCAGACCCACCTCATCGCGCTGAATGATCACGGGAGGA
GCCGCGAAAAGTCGCTTGCAATCCAGAGTGGATTACCCAGATCAGGTTTG
TGGTCCAGATGGAATCTTGCGAGGGATCACCGCATAAACAACGAGGTCCA
GCTCCTGGGTGATGGGAGATTATTGATTGATTTATTAAAAGGGCGGGCAG
TCCATTCCTCATGCAGTGCACCCACAGCCCTCCCGTCCTACTCCTGCAAC
TACTGCTGTCGCTTCCTGCTGCTACTCTGACGGCAAACTACCGCAGATTT
CCGCCCTTTTTGTGCTGTTCGTGGTGGTGCTTCTCCTGCTGTTGCATCTG
ATGGCTTCTGCTCCTTCGGGACCAACCCACTGCTGTGTTAGTCCATGCAC
CAACACGCTGTGACTAATCATTCCGCTATGTATTTTTTTTAAACAAGATT
ATAATCGATAATCTGATAATCTCTACATCTCTACCCCAGGAGCCAACCTT
CGAGGTTTTAGCTCGAGAAGTGGTCGACAAAGAGTTTCGTCGTGTCATGT
GATTTCGTGCATGATATGCGTTTTGTTTCTACGATAGCCGCGCTGAACAG
AACAACACCAGAAACTCCAGGCTGGTTCACGCAAAAAGCCCCAAGTATAT
TCAACAGACTGTCCCGAGCGCAATAATCACTCGATCACGACACATTTGGT
GCCAAACTGACCGCCGTCAGCACAAAAACACCCTGACATCACTCGTCTTT
TTGTCCAAGGCTCTAGCAGTGGATTTAAAGGAGAGCATGTGTCATTTTCA
TGGCATGACGTAGTATAACACCCCTCTTACTTTCACAAAAATCAGGCTCT
CAAAACCGAATGCAATACAAAATCAAATGGAGGTATACACTTTTTTCGCA
CACGTATGTTGTTGATTCTAACATTAGCTCACTACCGCCGCAGTCTAGCC
CGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAATGAATAAATA
AAATATATGGACTATGATCACCCACAGTCAAATCAGATATGGTACCGTTG
GGGTACCATCTGTGGTGGCCAGAGTACCAAACAAAATACAGAAAAAAATA
ACTGGTTCGAAAGAAAAAACAAAAGTTGGAAACACCCCGACAAACAAAAA
ATAACCAAGACAAACCTCAACCATAACCATATACTTCGAAGTACTTCGTA
CATCAAACCAGGGCCCAGGGCCATGCCAGACCAAGGCAAAGGCAAACCAG
AGCGATGGTCCAGTAACTATAAGATCAATAGACGAAAGACAAAAAACTAA
AAAAGAAGATGCAGGGAGGGCACAAAGACTGAGGGAGTGCACTCGTACAC
AAACACAACAAACAGGCCGCCGAACAAAGAGGAAGCAGGGGAACGAAAAG
GGAAAATAAAAAAAGAGACAACGAGGAATAAAATACAGACATGGAGAGTG
CAGAGGGAAGACTGGAAGTGAGTACCGGAAGTCGGGGAGGGGGAGGGGGA
GGTGATAAAAATAAAATAAAAGGCATACAATCAATCGCAAACATGTCTTG
CCACGAGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCGCACTCGTGCCC
CCTGCTACTGGCACCACCGTACCCAGTTGTTTCTGCCCCACATCTTTGGC
AGCAGCTACACCACCGTTCGGCCCTACAGGTTTTCCACTCCGGCCACCCC
GTAGCTTGGCTTTGGACTGCTTCTTCTTGTGCTGTGCAACTCCAACCCCA
CTACCCCGCTGCCCTTGTGCCCCCCCGTACTCCTCGTCTCGTTTATCCCC
GCCATCCGTTCTCCCTCTTTTGGCCAAGGCCTGCCCCTCAGCCGCGTCCC
TCTCCCTTTTCCGTCGACGTGTCTCTGATAAGTCTCCCTCTTTCTTGCGC
CACTCGTCCGTGAACCGCCGCGCACCCTCGTCGATCCTGTCGTACCACTC
GTCAGCTCTCTTGGCACTTGCCTCCCACCCCTCTTTTTTGTCGACCACGA
TGTCGAACGCTTCGAGGTCCTCCTGCATTCGCCTCAGCCAGTCAAACTCT
TGCCCCCCCCAGATACCTCGCTCCCCCCTGCAATTCTCCCAAAAGAGCAA
TTTTCGGGAGTCTCTCGTCTCTCATGCGCGCAACGAATCCTGCGAAGCAC
AGTCGCCGCTTGCGCACGGTGGCCTCAACGCTCTCGTCGCAACCCGCGGT
GATCAGGGCTTTGGCGTAGGAGAGGGGTCGGTCTGTTCTCTCCCTGTTTT
TCCATCCGATGCAGCGAAGGAGGAAGAAGTGGTGGGCTGGCCGAAGCTTG
CGGTACTCCGCTGGCTTCAGATTCCATGTGACACACCCGTAGAGAAGGGT
CTCCACGACTTCAGCTTGGAGGAGTCGTACTTTTAGTCGAAGAGGGGCCC
CCGGTATGTTCCCATGTGTCTTAAGAAAGGTGTCGATGATTTTTAGTTTT
CGAAATTATAGAGAAACTGACGTAGTATGGCCAATATAGCCAAAAAATGC
GCCAAACACAAAGCCAATTCTACAGTACACTACCCGAGTAATTCGGGTTA
GGTCTCGGAGCTGAACACACCTTTGTGAGTTTTCTCGAGTGGGTTCGGTT
TTTTGTAGTCAGACCCTGAAACTTTGCACACGTATTCGTTGGATCATGTC
GAAACTTCGGAGGACCGGGGTGATTCGAGTTTGTTTCTTTATTACCTGAC
TTGTCGGGTCTTAGACGGCCCATGCGGACATAAAATACCTCAAGCTTCTG
TAACTTCTAGGCGATTTAATGATCAAACATTATTAATGATTTATCTTTTA
TTTTTTTTGTTTGGTCTCTTCGGGACGGGGACAGAAACAAAAAAGTCTCG
AACCCCATCGCGTTGGGAGTTGAGCAGCATTCCGGCTGCACTCAGATACG
GGCAAGAGGGCAAACAAACACCGCTCACTGCTGCTGTGTGTGTGGCCAAG
GGGTGTGAGGGTGCCCTAGACTGTATGTCAATGTAATAAATCCCCGGCAT
GTCGAAATCTGAAATCATCAGTAGTGCGTAGTATCAGCAGTATACACTTC
GCGGTATTATATATACATGGAGTGCAACACCACCAGCAGTATAGTAGCTC
TACTCCTACTTCAACTGCTGCTGCCGCTGCTGTACAGGAGTACATCACAT
GCCATCGAGACAGATCGCCCTCCTGGCCGTCGACACATGGATTCGCTTCC
ACGACCTGCACAAACTGTGTGTGGCAAGCCTGAGCGTTGTCACCCACGTA
GCAAGCGACGTCGGGCGTGGGTATCTTGGACATGGTGTACGTAGAGCTGT
TGGTTTGTTGGTTACCGGTTAGTTTGCCAGCTGCTTGACCCGAGGCAGAA
GGGCAGCGGCAGGCCCCCGCAGGGCCTCCTACTCCATGCATACTGCTGTG
CCCCAGATTGACAAAATCAAGGTCTGTATGATAGCTACAGTGGACAAAAA
TGCGCAAAAAAATAAAAAAATATGCGCTATTCCTGGATAATGTTGATTTC
ATTGGGGTATGGGTAAGGAGGGCCTGTGCTGAACAGCCACCATTTCGCAA
TAGTTGAAAGCAGGAGGCGGCGTCGCAATCATCGCGTAACCCTTCTAGCC
TCTCCAGGGACGCTACCAGCCTGTTGTTGGGCCTTGTTAGTGACCCTGGC
TGTACGTAAAACTGTGAGGTGCTCACATGTCAATTTTCTCTTGATTTGCT
CACACGGAACACGGAGCTGATTTGAGTCTGGTTCTCGGGCGGTGGAATAC
CGGCTGATTGAGTTGTTTTGTGTTTGTTTTTTGGAACCCGGGCTATTCGG
GTAGCCCCGCAAAAATACCCTGGTCGCATAAGGGTTTACATCAATATATC
TTTCAACTAAAACAAAAATCGAACCGCCCCGGTCTTCGAAAGTTGCGCAG
TAGAACATAGAACATGCGTGCAAAATTTCAAGATTTCAGGGTCTAACTCG
AAAAAACCGCGTGAGAAAACAATGGTGAATACATTTGTTTCTTCTTAGGT
GAACCAGCCTGTACTGGGTTTTTATTTTTTATTTTTTAGAACAACTGTGT
CAAAGAGGATCGTGTCCAAACAACTGGGTCACGTGTCGGTAGGCCAGGTG
TGCCTGTAAAATACCCCGAGATTCCGCTGTTTGTTTGATTTGATGGAAAG
ATCTGTGACCGACGTTGCGTCCTCTCCTGGTGATTAAACCAATACATACA
CGCGAAACCAAACTGATGTCGACATTATATCCAGTGAGATGGCGTGCCAT
CCTTCGAGGTTTTAGCTCGAGAGATGTGTCGGTCAAAGCGTTTAGTTCGA
AATCATCGTGTCAGATAGATGTGCGCGTGTGCTGTACAGCAGCAGCGCTG
ACAGATTGCATGTAAGGATTGTTGGATGTCCATTTGCTCATTTGTCTATT
TTTTCGTCAACAAGTAGGTCTCAGTGTGCTGCCCTCATTGTTTTAGAGGG
TATTTTTTGTGTGTGTGTTTCTTTACTAAGTGAGTCGATCACATTATGCC
GCACTTGTTGAACTGTTGGTTTTCGAGTTGATCATAAAGAAGAAATGCTA
GTTCAAGATGATATGCGAGGCGTGTATTGTTGAACTCGCTCGCAGTGACC
GCCGCCGGTCAGGCAGCCGGATGCCGCGCTACTCCTGGTTTGTGCGAGGG
CACCGCCACGAGCTCGTGTACGTGCCTTTCATGAGCTCAGCAAAATTTCG
GAGGGTCACTTTCACCGCTTCGATTTCGTACTGGGACAAAGAGTGCGAAT
AAACGACTCGAAATAAACGACACGGTTTCTTGAGTGTTTTTTTTTTTAGT
CGCAACAGAAACCACCCCCCACAAGGATTGGATTATATATGTGCATACTT
CGAACATATCTGCCATCAAGAAGAGCAACATCCGATCGCTGCGTGTAGCA
ATGCGTTGAGGAGATCGTCTTCTTACGGTTTCTCATGGCTCCGAAAGGTC
TTGTCGAGTACACGTACTTGTAGTAGAGGAGGGAAGTACAGCGATTTAGT
TCCCGTTGCCCCATGATACATGGATGATGCGTCGAAACACCACGCTTGAC
TTGCCCACCACCTAACCGCCGACCCCCGTATCGACCATACTTTCCCCCCC
CGGGCTTCTTGCTTGCCGCTGCTGTCGCTGCTATCGCTTCCGTTTTCTTC
TCCCGCAGGATTCCGTGACAAATTTTTACGTCTCCCGAAAGAAGGAAGTG
GCCGGCTTGCAGAGCATGTTAAAGGGCATACTTTCATAATGCCTGTTAAG
AGAAGGGCGATATGAGATTGAACATTTGTGTGTCGACGATTTGAGAATGG
ACAGACGTGCCGAGGGGCGTGTTCCTGGTTTGGTTTGGTTTGGTTTGGTT
TGGTTTGAGAGGCACTTTAGACCCTAGACGTGTACGGTAGCCAGGGGTTT
CCATGTCTGGTGTTGGTGCTCTGCTTGCGAGGGACTGGGCGGGGTTTGAT
TGTGCGCCAACTGCAAATGGCTGCTTGCTTGGGTCACATGTTGTAACGAC
CGGGGAATCGTGTGCCGGAAGACTGCTGATGCGGTAGTCTGCGCGCGCAT
CATCAGTACGTGTCGCTCGGGGTTGCAAGAAAGCACCATTACTGGGTACG
TTTTCGGCGCGTGGGTGTCGCCCTCTCGTTTCATGTCTCGTCTCGATGGC
AGAATATACGTCATCGGTAAATCATCGCGAAGAGGCGTGTAGGTCCGAAA
TCTGCCTGCACGAAAAGTTACGCACCACGTTTGTATTCGTTGTTGTTCGT
CTTGTCACCCGCCTTCTGCTACAGTACATCACAGACAGCCGCAGCAGTGC
TTTACCAGCAGCCTTCACACCACCTGTAGCTTTCGTGTACACAATAGAGT
GGCATCGTGTTTGTGTATTACGTGGCGTCTCCATCATACGCTCGCCATCT
TCTACGTTCAGTGGATTCGGTCCGACGCAAAGATAAGAGAATGGAAATGC
CGGTGTACATGACATGTTGGCGCCAGACAAGAAAATGATTAAATGTCTTC
CTTTCGTTGATACTTCGAAGTAGTACTCTCCGTTATCGTTGCCTCTACTT
CGTATCATGTCACCTGCGGTGTCTGGGGTACGCGAGATGAGTAAGTGCAA
TCCGTCGATGACGCTCGAACAGCAATGCCTGTAAATCTGACATCGTCGAG
GAATGCGGGGAAAAAAAAATACTGATCACCCGGGTCGTCTGGGTCGATTC
TTCACGCTCGATATCTTCACGGCAACACCAGTAAGAGTGCCGGCTACCGA
CACGGGTGTCGCTGTTGAGAAGAAATTAGCGAGGCCTATTTACGAAAATG
TATCGTTTGGCGTCGTGACATCGTCATCCCCGCACGACAAGATGAGAAGG
TCGCAGTGCGAGGGTCCAGCTTCAGCTGCTGTCAGCTGATCACCGTGGGG
ATGCCAGCTGTCGCTGAACAGTCCATCATCAGAGGTTCCAAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig180:387579..410920-

>mRNA_P-littoralis_Contig180.104.1 ID=mRNA_P-littoralis_Contig180.104.1|Name=mRNA_P-littoralis_Contig180.104.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1884bp|location=Sequence derived from alignment at P-littoralis_Contig180:387579..410920- (Pylaiella littoralis U1_48)
ATGATGGGTATTGAACGAAAACAGCTGTGCCTTGGTCTGGTGCTGGCTTT
CTCATTGCAGCCAGCTGTTGGGCTCCTATCCCCTCACCCATTCCTCTCGC
GACCGAGCCTTCCCGCAGCTGCATCATCATCATCAGTTGTCGTCCCTCGC
AGCAGCAGTAGTAGCAGTCGCGGCGTTCAACCTCATCGATTACCGCTGTT
GGGTGCTGCATCACCTCGACCGCGATGCCCCCGTCCTTGTTGCCGGTTAC
CAGCAACAGCTGCAGCAGCATCGATGACAAATACTGCGGCGGGATTTTAC
CCAACACGACAACCCCTTGTGGACGGAAACGTTATTCGGCAGCATTTTTA
CCACCGAACGAGGGTAGCCTCAAACACAGCCTTGGCGGCGGGCAGACCAA
GCAGTGGGGGGGTGCGGGGGGGGGGTCAGGACGAAAAGGATGGCGGCGGC
GGATGGCGGCAGCGCGTGGTCCGGAGTGTGGTGTCGGTGTTTCTGAAGTT
TAGGGCGATGGTGGCTGCCTTGGGGGCTAGGCTCGGTCTGAATCGACGGA
GCAAGTCGAAGGGTGATTCGACCCAGTCGCTGTTTAGCTCCATCGGCGGC
AAGAAGGCGGCGGCGTTAAATAAATCCCGAGGTGCCTGGGGTCGATCGAT
GCTGCGATTGCCCACGAAAAAAACGGCGCTGCTGCTTGCCGTGGTGATGT
TGGCCTTTGCGGCCAGGTTCGGTTCCTCGCACGCCCCTTCTCTCACCGAG
GTGCCGATGTCGACTTTCATGCAGCTCATGGAAGGGAAGCGGGGAGCCGA
CGTCGTGGAAAGCGTCCGCGTGACCAGGGGCGGAACGATGTTCTTCAAAA
TGAACGGCAAGGAGTGCTACACGATACCGCTGCGGGTCAGCAAAGAGGTT
TTCAAGGCTCTGTCCACGAGCGGCATCCCGTTCATGGCGGTCAAGTCGCC
GCCGGGCCTTTCATCCATATTCCCGGTCGCTTACCTCTTCGCCGTATACT
TCTTCGTCATCAAGAGAGGGTCCGGGAGTATGGTCGGCTCCACGGGCAAG
CTGGCGTCGTCAACGGATATAGACACTTCGCTTTCCTTTGGAGACGTGGC
CGGAGTGGACCAGGCCAAGGAACAAGTGCAGGAGCTTGTTTCTATGATCA
AGGACCCCGGCCCTTTCATCGCCGCTGGTGCTCGATTGCCGAGCGGGCTT
CTGATGGTGGGGCCGCCAGGCACGGGAAAAACGCTCATGGCCAGGGTCAT
GGCGTCAGAGGCTGGCGTTCCGTTCTACTACTGCTCGGGGTCCGACTTTG
TGGAGATGTTCGTGGGCCGCGGCGCGGCCAGGGTGCGAAAGCTGTTCGCG
AAAGCGGGGAAGACCGCTCCTTGCATCATCTTTTTGGATGAGCTCGACGC
CTTGGGCAAGGAGCGTTCTTCGGGGGGTGGAGGGCGGCAGAGCAACGACG
AGGCGGAACAGACTTTGAACCAGCTCTTGGCGTCCATGGACGGCCTCGAC
ACCAACAACAACGGGGTCATGGTGATTGCCGCGACAAATCGCTACGAGGT
GCTGGACGGCGCTCTCACTCGGCCCGGCAGGTTTGACCGGATCGTAAGGG
TCGATGTGCCGGACGCCGCTGGCAGGGAAGCCATCTTGAAAGTCCACACG
AGGAAGATGAAGGTCGACGATCTCGACGTCTTGAAGGCTGTTGCGGAGCT
CACCCCCGGTCTTGCTGGGGCAGAGCTGGCCACGATCGCGAACGAGGCCG
CCATCTCGGCCGCTCGAAGAGGCTCGCAGCAGCTGCTCGAGGCAGATTTC
TTGGATTCCGTGACAAATTTTTACGTCTCCCGAAAGAAGGAAGTGGCCGG
CTTGCAGAGCATGTTAAAGGGCATACTTTCATAA
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