mRNA_P-littoralis_Contig151.17.28 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig151.17.28
Unique NamemRNA_P-littoralis_Contig151.17.28
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: D8LMX0_ECTSI (N/a n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LMX0_ECTSI)

HSP 1 Score: 923 bits (2385), Expect = 0.000e+0
Identity = 520/726 (71.63%), Postives = 563/726 (77.55%), Query Frame = 2 
Query:  233 SKGPGGG-KGDQILAALPTIKLTPGKA-KQESLGLSRSLVWIQEKNFEDKFEVVKVIGQGSIGEVSIVRRKPLDNSAHGNT---------HGSHRGS--ISKDLPYLPSSSPVGQNRGGFAKDGKESQGGDSASPSSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKDVSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGS---VTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLREHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMMRPVVAQEYRKDAEDMLKDSSAACIEAAEVGRRAVDQTPSYAQSAAADRST 2362
            SKG GGG +GDQ LA LP+    PG + KQ+S GLSRSL WIQE NFEDKFEVVKVIGQGSIGEVSIVRRK L +SAHG +          G H G   + +DL ++ +S P+      F  DG+  + G SA P  PP  SG TGERLYAMKSIH+ RL K+RVEEF+NEV+MLQ+LHHPNIIQLREVF++ KKIYMCM LCTG                                                 GQLN+RSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLES DEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSG GYTQKADLWSAGVIAF+LL G+FPFLKDEADLND+ ++E L+QARF+FNDPAWK VSAG K FVRGLLKKQPGFRWTAREALDHCADTWG TF RAS+ADLS QAE AAAENAA+             A  PLSP  +PRG         + LSPESPTHAS+ RLRAVNGSIAKS+ RFADYGELKKAALMVTAFQLDR EIKQLKDAFLEVDT+GNGAISLEELR VLREHGVDGAEVDRVFGAVDMDSSG LHYMEFLAATIEARGYIEEESLK+AFERLDVDSTG ISRDNLK VLGKTYDN LIDKMLEEGDSS+SGSIEWEDFL MM+PVV QEYR+DAE MLKD+  AC EAAEVGRRAVDQTPSYAQ+ A+   T
Sbjct:   38 SKGTGGGVRGDQFLAELPST--APGNSTKQKSFGLSRSLAWIQETNFEDKFEVVKVIGQGSIGEVSIVRRKSLCSSAHGGSAHGRVNSFFDGHHHGKAGVQRDLSHV-TSPPIELKDPSFG-DGEGGEKGASAGP--PPVPSGGTGERLYAMKSIHVARLHKLRVEEFKNEVAMLQQLHHPNIIQLREVFHYKKKIYMCMALCTG-------------------------------------------------GQLNERSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESQDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGDGYTQKADLWSAGVIAFILLSGTFPFLKDEADLNDQGQVESLRQARFVFNDPAWKTVSAGAKGFVRGLLKKQPGFRWTAREALDHCADTWGLTFSRASFADLSGQAELAAAENAANGIGNTSPIFTNVSA-PPLSPSASPRGGGXXXGAPEAPLSPESPTHASRGRLRAVNGSIAKSMHRFADYGELKKAALMVTAFQLDREEIKQLKDAFLEVDTEGNGAISLEELRIVLREHGVDGAEVDRVFGAVDMDSSGHLHYMEFLAATIEARGYIEEESLKDAFERLDVDSTGFISRDNLKEVLGKTYDNGLIDKMLEEGDSSMSGSIEWEDFLIMMKPVVEQEYRRDAEAMLKDTPVACREAAEVGRRAVDQTPSYAQTKASGEKT 707
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A835ZEJ0_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZEJ0_9STRA)

HSP 1 Score: 496 bits (1278), Expect = 4.460e-154
Identity = 299/692 (43.21%), Postives = 397/692 (57.37%), Query Frame = 2 
Query:  326 GLSRSLVWIQEKNFEDKFEVVKVIGQGSIGEVSIVRRKPLDNSAHGNTHGSHRGSISKDLPYLPSSSPVGQNRGGFAKDGKESQGGDSASPSSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRD-------------------------------------------LKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKDVSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPR-GTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLREHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMMRPVVAQEYRKDAEDMLKDS 2269
            GL+++LVW+QEK+ ++++EV+ VIG+GSIGEVS+VRRKP           SH+ SIS            G N G  A  G                GS S  ER YAMK+I+++R+ K R++EFENEV++LQRLHHPNII LREVF H ++IYM M LCTG                                                 GQLN R +TE+QVCSV++Q++RAL YMH++  ICHRD                                           L MENIMLESPD+PLVVKLIDFGLS+VF  G+ ++T  GTVYTMAPEVL G+GYTQ++D+WS GVIAF LLCG +PFL+DE D ND+D +++L   RF F  P W  V+  G+D V  LL+  PGFRW+A+ AL HC   W     R +Y ++       +   AA+ +    GT   +GA +    R G P  + T            HAS      V+  IA S+R FA YGELKKAALM+TAFQL++ E+  LK AFLE+DT+ NG I+  EL+ VLR+ GVD AE++R+F ++D D SG   YMEFLAAT+EARG+IEE+ L E F+RLDVD++G ISR NLK ++G  Y  +++D M++EGD   +G I  + F+ +MRP +   +     ++L  S
Sbjct:   22 GLAKNLVWLQEKSLQERYEVLDVIGKGSIGEVSVVRRKPQ----------SHQQSISS-----------GSNDGALAPIGGRGF------------GSSSGKERRYAMKTIYVSRMTKARLQEFENEVAILQRLHHPNIIHLREVFLHKRQIYMLMDLCTG-------------------------------------------------GQLNARKYTEDQVCSVVTQILRALAYMHDSVGICHRDQAGAVALIACRTLQRDSPQCDSNYSACCSELVSIRLHVVCAVTLTMENIMLESPDDPLVVKLIDFGLSQVFARGEALKTIVGTVYTMAPEVLLGSGYTQQSDIWSVGVIAFYLLCGEYPFLRDEKDFNDEDLVQRLVTGRFEFAHPLWLAVTQEGRDLVINLLRLTPGFRWSAKRALSHCRQ-WEDAVQRGAYENMQRLLAVGSDRTAANGNGV--GTVSVSGANSSEGAREGRPWSAATRE----------HASN-----VDVKIATSIRSFAGYGELKKAALMITAFQLEKEELHHLKAAFLEIDTEENGVITYPELQAVLRKQGVDDAEIERLFASMDQDRSGLCSYMEFLAATLEARGFIEEDRLLETFQRLDVDNSGYISRANLKVLMGPLYPEAMLDAMMKEGDPMNTGRISLDSFVRLMRPTLRAVHSITLRELLGSS 613
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A6U6KDL9_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A6U6KDL9_9STRA)

HSP 1 Score: 328 bits (840), Expect = 2.550e-94
Identity = 213/637 (33.44%), Postives = 341/637 (53.53%), Query Frame = 2 
Query:  335 RSLVWIQEKNF-EDKFEVVKVIGQGSIGEVSIVRRKPLDNSAHGNTHGSHRGSISKDLPYLPSSSPVGQNRGGFAKDGKESQGGDSASPSSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDR--SFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTF--VRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVL----REHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMM 2212
            + L W +E     D ++V++++GQGS+GEV+IV+RK +D          HR      L  L   S   +   G A    E+         + P  + +  +R YA K+++  R+    + EF NE+ +L+ L HPNI+QL EV+   +K+++   LC+G                                                 G L  R    TE  V  ++ Q++RA+ YMH+   +CHRD+K+ENIM E+PD    +KLIDFGLS  FT+G+KM  ACGTVYT APE+L G GYT++ D+WS G++A+V+L  ++PF+K   ++ND+ K EQL  A++ F    W+D  +S  G++FV   LKK PG RW A EAL++  D W P    +  S  D+     +    ++ D S        + G+C   S   TP      +P   +P   + AS  +   ++  + + L+ FAD+ E+KK  LM  A+ +D+  + +L+D F  +D+KG G I+L +L+  L     +  +D   ++++F  +D+D SG++HY EF+AA +E++G I  E L  AF+RLD    G IS+D+L+ +LG   D ++++KM++E D   +G I++++FL +M
Sbjct:   37 QKLAWHRENVLVTDVYDVLEIVGQGSMGEVTIVQRK-ID----------HRSISEAKLKDLAERSL--READGSAAAALEAV-------KNAPLTNLTKRKRRYACKTVNTIRMRDNEMIEFINEIDILRDLDHPNIVQLFEVYKVKRKMWIITELCSG-------------------------------------------------GDLTSRMEGMTEADVVIILEQILRAISYMHKR-NVCHRDIKLENIMYENPDVTSPIKLIDFGLSNKFTKGEKMLKACGTVYTAAPELLLGTGYTEQTDIWSIGIVAWVMLSQAYPFMKALEEMNDEAKKEQLANAQYTFGKE-WEDRKISKYGREFVANCLKKHPGARWFASEALEYVEDQWIPHLESLAPSLLDVENSCVSNNNSDSLDGSGQGGMETESGGSCNGDSADKTP------SPKLCNPLERSVASTKKRTKMSSDVLEGLQNFADHSEIKKTILMTMAYTMDKSSLNELRDLFTVLDSKGTGTITLVDLKNALGKMHSDKHMDDKTIEKLFQGIDVDRSGQIHYNEFIAAVVESQGLITMEHLAVAFDRLDSSGKGYISKDDLRNMLGVDCDENMVNKMMDEADMKKNGQIDYDEFLRLM 596
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A7S1FMX8_9STRA (Hypothetical protein n=2 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1FMX8_9STRA)

HSP 1 Score: 317 bits (813), Expect = 5.950e-91
Identity = 233/701 (33.24%), Postives = 352/701 (50.21%), Query Frame = 2 
Query:  218 MGCSGSKGPGGGKGDQILAALPTIKLTPGKAKQESLGLSRSLVWIQEK-NFEDKFEVVKVIGQGSIGEVSIVRR------------KP--LDNSAHGNTHG-------------SHRGSISKDLPYLPSSSPVGQNRGGFAKDGKESQGGDSASP--SSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLRE----HGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMM 2212
            MGCS SK      G  I  A  +    P      +    ++L W ++  +F + ++VVK IGQGS+GEVSIVR+            KP  L++    NT               S   SIS     + S+SP   N    + D  E     S  P  SS P GS    +RLYA K++    +    ++EF NE+ + +   HPNI+QL EV+   +KI++ M +CTG  L                                  R+S               + +E +V  VM Q++  L YMH +  +CH DLKMENIM E   +   +KLIDFGLS+  ++      ACGT+YT+APEVL G  YT + D+WSAGV+AFVLL   +PFLK+  DL D+ K+     AR+  +D  WK+  +S+  KDF+  LL+++PG RWTA+E+L+     W P  V+  + D+    E             ++   C      P     +PRG +         E+ T   + RLR V  S+  ++R+F +YG+ KK  L+  A  +D+  +  LK+ FL +D++  G I L EL+  L+E    H     +++++F  +D D SG+++Y+EFLAA  E  G +  +++++AF+RLD D++G ISR+NL +VLG  + + L+  ML+EG +   G I +  FL +M
Sbjct:    1 MGCSNSKRADRAYGYYIDVASGSENGNPLDNTVHTF--RKTLAWYRKDCHFNEIYDVVKAIGQGSMGEVSIVRKRVNSSIATIKKIKPESLNSLKRQNTTSTTSLTVGSSSRRCSSTSSISTTASLVGSNSPNQDNIDSPSLDNIEMTLLGSPFPYFSSSPEGS----DRLYACKTVMTNNMTDAEMDEFINEIDIQREFDHPNIVQLFEVYRKDRKIWLIMEICTGGDL--------------------------------ESRMS---------------NMSEERVAVVMEQMMAGLSYMH-SRNVCHSDLKMENIMYEDTSDDAAIKLIDFGLSQRISKNQSNNRACGTIYTVAPEVLMGHPYTVQNDIWSAGVLAFVLLSEEYPFLKNMKDLADEKKMANFVYARYTMSD-TWKERKISSFAKDFIANLLQREPGMRWTAKESLNFIQTKWIPHLVKR-HDDMYAIEE-------------KNSLEC------PEFGMPSPRGVL---------ENSTALKRKRLR-VESSLVAAMRQFGEYGQFKKMVLVTLAHTMDKSSLGDLKELFLSIDSENTGTILLSELKLALQEYAYNHNFTDEDIEKIFVGLDHDKSGQVYYIEFLAAVAEIYGLVTMDNVEDAFDRLDCDNSGFISRENLISVLGTDHCDKLVLNMLKEGKADQRGRINYPQFLKLM 616
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A7S1B6N4_9STRA (Hypothetical protein n=4 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1B6N4_9STRA)

HSP 1 Score: 315 bits (806), Expect = 3.410e-90
Identity = 215/648 (33.18%), Postives = 328/648 (50.62%), Query Frame = 2 
Query:  335 RSLVWIQEK-NFEDKFEVVKVIGQGSIGEVSIVRR------------KPLDNSAHGNTHGSHRGSISKDLPYLPSSSPVGQNRGGFAKDG---KESQGGDSASPSSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLRE----HGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMM 2212
            ++L W ++  +F + ++VV+VIGQGS+GEVSIVR+            KP         H       S D   + S                  K + G      SSP  GSG    RLYA K++    +    ++EF NE+ +L+   HPNI+QL EV+   +KI++ M LC G  L                                  R+S               + +E +V   M Q++  L YMH +  +CH DLKMENIM E   +   +KLIDFGLS+  ++      ACGT+YT+APEVL G  YT + D+WSAGV+AFVLL   +PFLK+  DL D+ K+     AR+  +D  WK+  +S+  KDF+  LL+++PG RWTA+E+L+     W P  V+  + D+    E             ++   C      P     +PRG +         E+ T   + RLR V  S+  ++R+F +YG+ KK  L+  A  +D+  +  LK+ FL +D++  G I L EL+  L+E    H     +++++F  +D D SG+++Y+EFLAA  E  G +  +++++AF+RLD D++G ISR+NL +VLG  + + L+  ML+EG +   G I +  FL +M
Sbjct:   34 KTLPWYRKDCHFSEIYDVVRVIGQGSMGEVSIVRKRVNSSIDTIKKKKPESLELLNRQHIQRTSGCSNDASTIGSXXXXXXXXXXXXXXXXXXKTADGVKKTDSSSPLGGSG----RLYACKTVMTNNMTDAEMDEFINEIDILREFDHPNIVQLFEVYRKDRKIWLIMELCKGGDL--------------------------------ESRIS---------------NMSEERVAVAMEQMMAGLAYMH-SGNVCHSDLKMENIMYEDTSDDAAIKLIDFGLSQRISKDQANNRACGTIYTVAPEVLMGHPYTVQNDIWSAGVLAFVLLSEEYPFLKNMKDLADEKKMANFVYARYTMSD-TWKERKISSFAKDFIANLLQREPGMRWTAKESLNFIQTKWIPHLVKR-HDDMYAIEE-------------KNSLEC------PEFGMPSPRGVL---------ENSTALKRKRLR-VESSLVAAMRQFGEYGQFKKMVLVTLAHTMDKSSLGDLKELFLSIDSENTGTILLSELKLALQEYAYNHNFTDEDIEKIFVGLDHDKSGQVYYIEFLAAVAEIYGLVTMDNVEDAFDRLDCDNSGFISRENLISVLGTDHCDKLVLNMLKEGKADQRGRINYPQFLKLM 598
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A6V2IFV9_9STRA (Hypothetical protein n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6V2IFV9_9STRA)

HSP 1 Score: 314 bits (804), Expect = 8.600e-90
Identity = 213/640 (33.28%), Postives = 329/640 (51.41%), Query Frame = 2 
Query:  341 LVWIQEKNFEDKFEVVKVIGQGSIGEVSIVRRK--PLDNSAHGNTHGSHRGSISKDLPYLPSS--SPVGQNRGGFAKDGKESQGGDSASPSSPPPGSGSTGE-RLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGY--TQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGT--PRGSVTTNPSELSPESPTHASQNRLRA-VNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLR----EHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMM 2212
            + W++EK+  + ++V+++IGQGS+GEV+IV++K  PLD             ++ +    LP +  S  G      ++D K+             P    T E R YA K+++  R+    + EF NEV +L+ L HPNI+QL EVF   +K+++   LC G  L                                  R+                + TE  V   + Q++RAL YMH+   +CHRD+K+ENIM  +      VK IDFGLS  FT+G KM  ACGT+YT APE+L  +G+  TQ+ D+WS GV AF+LL   +PFL+D  DL+D  K + L  A++ F +  W    V+   + FV+  LKK+P  RW A +ALD+  + W P                   E   DSS   D T   A A  P++P     P  SV + P + S       S  R RA ++ ++ K +  FA YGE+KK  LM  A+ +D+  + +L++ F  +D+ G+G I+L +L+  L+    +  +D   ++ +F  VD+D SG++HY EFLAA +E++G I +E L E F+RLD    G I++D+LK VLG  Y+  ++  M++E     +G +++  FL ++
Sbjct:   44 MAWVREKDMNEVYDVLEIIGQGSMGEVAIVQKKEDPLD-------------AVQRRQEELPGNNCSLTGSEE---SRDTKQ-------------PSKNETKEKRRYACKTVNTLRMRDDELMEFINEVEILRDLDHPNIVQLFEVFRFKRKLWIITELCAGGDL--------------------------------TARMD---------------NMTEAGVVVALEQILRALAYMHKR-NVCHRDIKLENIMYATRQPDSEVKFIDFGLSNKFTKGHKMIKACGTIYTAAPEILLSSGHSLTQQTDIWSIGVCAFILLSKEYPFLRDRQDLDDPAKRDDLANAKYTFTE-TWDKLRVTEQARFFVQQCLKKEPFHRWDAIDALDYIQNQWIPHL-----------------ETTLDSSDKNDITELEADADCPMTPTKADRPESSVLSQPLKHS------VSSIRKRARISSNMVKGMTSFALYGEVKKTILMTMAYTMDKASVVELRNIFTSIDSDGSGTITLIDLKRALKSMHSDKHLDNETIENLFEGVDVDKSGQIHYNEFLAALVESQGLITQERLAETFDRLDSTGKGYITKDDLKNVLGTNYNEDVVQDMMDEAAVENNGQVDYNAFLRLI 582
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BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A7S1B6C0_9STRA (Hypothetical protein n=1 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1B6C0_9STRA)

HSP 1 Score: 308 bits (789), Expect = 1.160e-87
Identity = 230/702 (32.76%), Postives = 349/702 (49.72%), Query Frame = 2 
Query:  218 MGCSGSKGPGGGKGDQILAALPTIKLTPGKAKQESLGLSRSLVWIQEK-NFEDKFEVVKVIGQGSIGEVSIVRR------------KP--LDNSAHGNTHG-------------SHRGSISKDLPYLPSSSPVGQNRGGFAKDGKESQGGDSASP--SSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLRE----HGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMMR 2215
            MGCS SK      G  I  A  +    P      +    ++L W ++  +F + ++VVK IGQGS+GEVSIVR+            KP  L++    NT               S   SIS     + S+SP   N    + D  E     S  P  SS P GS    +RLYA K++    +    ++EF NE+ + +   HPNI+QL EV+   +KI++ M +CTG  L                                  R+S               + +E +V  VM Q++  L YMH +  +CH DLKMENIM E   +   +KLIDFGLS+  ++      ACGT+YT+APEVL G  YT + D+WSAGV+AFVLL   +PFLK+  DL D+ K+     AR+  +D  WK+  +S+  KD++   L++ PG RWT +EALD     W P  ++                   D+  T +  R         SP  + R  V   PS +  E+ T   +  LR VN ++  ++++F +YG  KK  L+  A  +D+  +  LK+ FL +D++  G + L +L+  L+E    H +   ++  +F  +D D SG++ Y+EFLAA  E  G +  +++ +AF+RLD D++G I+++NL +VLG  Y + LI KML+EGD   +G I++  F+ +M+
Sbjct:    1 MGCSNSKRADRAYGYYIDVASGSENGNPLDNTVHTF--RKTLAWYRKDCHFNEIYDVVKAIGQGSMGEVSIVRKRVNSSIATIKKIKPESLNSLKRQNTTSTTSLTVGSSSRRCSSTSSISTTASLVGSNSPNQDNIDSPSLDNIEMTLLGSPFPYFSSSPEGS----DRLYACKTVMTNNMTDAEMDEFINEIDIQREFDHPNIVQLFEVYRKDRKIWLIMEICTGGDL--------------------------------ESRMS---------------NMSEERVAVVMEQMMAGLSYMH-SRNVCHSDLKMENIMYEDTSDDAAIKLIDFGLSQRISKNQSNNRACGTIYTVAPEVLMGHPYTVQNDIWSAGVLAFVLLSEEYPFLKNMKDLADEKKMANFVYARYTMSD-TWKERKISSFAKDYIAKSLQRDPGSRWTTKEALDFIQTKWIPYLMKRH-----------------DNMYTSEENR---------SPPSSERAPVI--PSTIL-ENSTALKRKHLR-VNSNLVAAMKQFGEYGRFKKMVLITLAHTMDKRSLGNLKELFLSIDSENTGTLHLRDLKLALQEYASKHDLTDDDIASMFVGLDSDQSGKVRYIEFLAAVAEIYGLVTMDNVADAFDRLDCDNSGFITKENLISVLGTDYCDDLILKMLKEGDLGKTGIIDYSAFVKLMQ 617
[Close]
BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A7S1FNB0_9STRA (Hypothetical protein n=2 Tax=Corethron hystrix TaxID=216773 RepID=A0A7S1FNB0_9STRA)

HSP 1 Score: 305 bits (782), Expect = 6.610e-87
Identity = 212/649 (32.67%), Postives = 325/649 (50.08%), Query Frame = 2 
Query:  335 RSLVWIQEK-NFEDKFEVVKVIGQGSIGEVSIVRR------------KPLDNSAHGNTHGSHRGSISKDLPYLPSSSPVGQNRGGFAKDG---KESQGGDSASPSSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLRE----HGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMMR 2215
            ++L W ++  +F + ++VV+VIGQGS+GEVSIVR+            KP         H       S D   + S                  K + G      SSP  GSG    RLYA K++    +    ++EF NE+ +L+   HPNI+QL EV+   +KI++ M LC G  L                                  R+S               + +E +V   M Q++  L YMH +  +CH DLKMENIM E   +   +KLIDFGLS+  ++      ACGT+YT+APEVL G  YT + D+WSAGV+AFVLL   +PFLK+  DL D+ K+     AR+  +D  WK+  +S+  KD++   L++ PG RWT +EALD     W P  ++                   D+  T +  R         SP  + R  V   PS +  E+ T   +  LR VN ++  ++++F +YG  KK  L+  A  +D+  +  LK+ FL +D++  G + L +L+  L+E    H +   ++  +F  +D D SG++ Y+EFLAA  E  G +  +++ +AF+RLD D++G I+++NL +VLG  Y + LI KML+EGD   +G I++  F+ +M+
Sbjct:   34 KTLPWYRKDCHFSEIYDVVRVIGQGSMGEVSIVRKRVNSSIDTIKKKKPESLELLNRQHIQRTSGCSNDASTIGSXXXXXXXXXXXXXXXXXXKTADGVKKTDSSSPLGGSG----RLYACKTVMTNNMTDAEMDEFINEIDILREFDHPNIVQLFEVYRKDRKIWLIMELCKGGDL--------------------------------ESRIS---------------NMSEERVAVAMEQMMAGLAYMH-SGNVCHSDLKMENIMYEDTSDDAAIKLIDFGLSQRISKDQANNRACGTIYTVAPEVLMGHPYTVQNDIWSAGVLAFVLLSEEYPFLKNMKDLADEKKMANFVYARYTMSD-TWKERKISSFAKDYIAKSLQRDPGSRWTTKEALDFIQTKWIPYLMKRH-----------------DNMYTSEENR---------SPPSSERAPVI--PSTIL-ENSTALKRKHLR-VNSNLVAAMKQFGEYGRFKKMVLITLAHTMDKRSLGNLKELFLSIDSENTGTLHLRDLKLALQEYASKHDLTDDDIASMFVGLDSDQSGKVRYIEFLAAVAEIYGLVTMDNVADAFDRLDCDNSGFITKENLISVLGTDYCDDLILKMLKEGDLGKTGIIDYSAFVKLMQ 599
[Close]
BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A6U6K7F4_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A6U6K7F4_9STRA)

HSP 1 Score: 300 bits (767), Expect = 5.740e-86
Identity = 165/430 (38.37%), Postives = 260/430 (60.47%), Query Frame = 2 
Query:  953 GGQLNDR--SFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIAFVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKD--VSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTF--VRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVL----REHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMM 2212
            GG L  R    TE  V  ++ Q++RA+ YMH+   +CHRD+K+ENIM E+PD    +KLIDFGLS  FT+G+KM  ACGTVYT APE+L G GYT++ D+WS G++A+V+L  ++PF+K   ++ND+ K EQL  A++ F    W+D  +S  G++FV   LKK PG RW A EAL++  D W P    +  S  D+     +    ++ D S        + G+C   S   TP      +P   +P   + AS  +   ++  + + L+ FAD+ E+KK  LM  A+ +D+  + +L+D F  +D+KG G I+L +L+  L     +  +D   ++++F  +D+D SG++HY EF+AA +E++G I  E L  AF+RLD    G IS+D+L+ +LG   D ++++KM++E D   +G I++++FL +M
Sbjct:   29 GGDLTSRMEGMTEADVVIILEQILRAISYMHKR-NVCHRDIKLENIMYENPDVTSPIKLIDFGLSNKFTKGEKMLKACGTVYTAAPELLLGTGYTEQTDIWSIGIVAWVMLSQAYPFMKALEEMNDEAKKEQLANAQYTFGKE-WEDRKISKYGREFVANCLKKHPGARWFASEALEYVEDQWIPHLESLAPSLLDVENSCVSNNNSDSLDGSGQGGMETESGGSCNGDSADKTP------SPKLCNPLERSVASTKKRTKMSSDVLEGLQNFADHSEIKKTILMTMAYTMDKSSLNELRDLFTVLDSKGTGTITLVDLKNALGKMHSDKHMDDKTIEKLFQGIDVDRSGQIHYNEFIAAVVESQGLITMEHLAVAFDRLDSSGKGYISKDDLRNMLGVDCDENMVNKMMDEADMKKNGQIDYDEFLRLM 450
[Close]
BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Match: A0A6U0UQP9_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A6U0UQP9_9STRA)

HSP 1 Score: 290 bits (742), Expect = 4.550e-82
Identity = 200/638 (31.35%), Postives = 306/638 (47.96%), Query Frame = 2 
Query:  356 EKNFEDKFEVVKVIGQGSIGEVSIVRRKPLDNSAHGNTHGSHRGSISKDLPYLPSSSPVGQNRGGFAKDGKESQGGDSASPSSPPPGSGSTGERLYAMKSIHMTRLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHLIMLLVFFGHCLITLSCIVCLSVWXXXXXXXXXXGRLSVCLCVGAVGGQLNDRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVVKLIDFGLSKVFTEGDKMRTACGTVYTMAPEVL---SGAGYTQKADLWSAGVIAFVLLC-GSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKDVSAGGKDFVRGLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAADSSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRAVNGSIA----KSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGNGAISLEELRTVLREHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEARGYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDSSLSGSIEWEDFLTMMRPVVAQEYRKD 2245
            E++F   ++VV+ +G+GS+G V IVRRK   N               + LP  P           F  D                       +RL+AMK+IH+ R+PK  V    NE+ +L++L HP II L EV Y  ++IY+ M LC G HL                                    S C            R FTE + C V  Q+++ L Y+H  + I H D+K EN++         V+LIDFGLS+ +  G+  R  CGT YTMAPEV       GY  +AD+WSAGV+ +++L  G FPFL+    L D   +E+ + A++LF+   W+ VS   ++ V  LLK+ P  R TA+EAL +  D W P F +     + ++             + R+             P G     + +  + +   +P     ++   +N  +     KS+R +A Y ELKK  L+V A  LDR ++K++   F+  D  G G I   E +  L  H ++  E+ R+F AVDMD +GR+ Y EFLAA++EA  + E+ +L++AF+R+D D++G IS  NL+ +LG    +  +  M+EE   + +  I++E FL+ MR    +E R +
Sbjct:    1 EEDFLALYDVVEGLGEGSMGMVCIVRRKKGFN---------------RSLPNAP-----------FESDP----------------------DRLFAMKTIHIGRVPKSDVRALRNEIEVLKQLDHPKIIHLYEVLYSKRRIYLVMELCRGGHL----------------------------------SKSGC------------RKFTEARACFVFKQILQGLAYLHGQS-ISHNDVKAENVVFVDRRVYSDVRLIDFGLSQKYV-GEYFRRVCGTYYTMAPEVYFSTEAGGYGLQADMWSAGVLLYIMLAKGQFPFLESSEQLVDDILVERWRTAKYLFDPVTWQGVSHEARELVARLLKRLPTTRATAKEALTYLQDVWEPIFPKDEDGYILKE-----------KMLLRE-------------PSGEEESIIMSPQNSVEDLTPLREGDSKTELLNQGVLEPMLKSMRDYASYSELKKKILLVVAHNLDRNKLKKMARDFVAFDRDGEGTIDFAEFQKALESHNMENEELKRIFEAVDMDHTGRIRYNEFLAASVEALEFREDAALQDAFDRMDSDNSGYISCQNLRDILGSDRSDGEVRAMIEEVGGTSAKGIDYEHFLSFMREKRREETRAE 518
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig151.17.28 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LMX0_ECTSI0.000e+071.63N/a n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LMX0_ECT... [more]
A0A835ZEJ0_9STRA4.460e-15443.21Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A6U6KDL9_9STRA2.550e-9433.44Hypothetical protein n=1 Tax=Odontella aurita TaxI... [more]
A0A7S1FMX8_9STRA5.950e-9133.24Hypothetical protein n=2 Tax=Corethron hystrix Tax... [more]
A0A7S1B6N4_9STRA3.410e-9033.18Hypothetical protein n=4 Tax=Corethron hystrix Tax... [more]
A0A6V2IFV9_9STRA8.600e-9033.28Hypothetical protein n=1 Tax=Ditylum brightwellii ... [more]
A0A7S1B6C0_9STRA1.160e-8732.76Hypothetical protein n=1 Tax=Corethron hystrix Tax... [more]
A0A7S1FNB0_9STRA6.610e-8732.67Hypothetical protein n=2 Tax=Corethron hystrix Tax... [more]
A0A6U6K7F4_9STRA5.740e-8638.37Hypothetical protein n=1 Tax=Odontella aurita TaxI... [more]
A0A6U0UQP9_9STRA4.550e-8231.35Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig151contigP-littoralis_Contig151:91129..125794 -
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 ortholog2850.Phatr1864
PFAMsEF-hand_7,Pkinase
Model size4043
Max annot lvl2836|Bacillariophyta
Hectar predicted targeting categoryother localisation
Exons18
Evalue1.43e-70
EggNOG OGsKOG0032@1|root,KOG0032@2759|Eukaryota,2XEB3@2836|Bacillariophyta
DescriptionEF-hand domain pair
Cds size2313
COG categoryT
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig151.17.28prot_P-littoralis_Contig151.17.28Pylaiella littoralis U1_48polypeptideP-littoralis_Contig151 92642..125577 -


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

Feature NameUnique NameSpeciesTypePosition
1680789721.8071306-UTR-P-littoralis_Contig151:91128..926411680789721.8071306-UTR-P-littoralis_Contig151:91128..92641Pylaiella littoralis U1_48UTRP-littoralis_Contig151 91129..92641 -
1680789722.0117755-UTR-P-littoralis_Contig151:125577..1257941680789722.0117755-UTR-P-littoralis_Contig151:125577..125794Pylaiella littoralis U1_48UTRP-littoralis_Contig151 125578..125794 -


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

Feature NameUnique NameSpeciesTypePosition
1680789721.8173187-CDS-P-littoralis_Contig151:92641..926721680789721.8173187-CDS-P-littoralis_Contig151:92641..92672Pylaiella littoralis U1_48CDSP-littoralis_Contig151 92642..92672 -
1680789721.829569-CDS-P-littoralis_Contig151:92951..930371680789721.829569-CDS-P-littoralis_Contig151:92951..93037Pylaiella littoralis U1_48CDSP-littoralis_Contig151 92952..93037 -
1680789721.8427806-CDS-P-littoralis_Contig151:93118..932351680789721.8427806-CDS-P-littoralis_Contig151:93118..93235Pylaiella littoralis U1_48CDSP-littoralis_Contig151 93119..93235 -
1680789721.8522685-CDS-P-littoralis_Contig151:93782..939231680789721.8522685-CDS-P-littoralis_Contig151:93782..93923Pylaiella littoralis U1_48CDSP-littoralis_Contig151 93783..93923 -
1680789721.8614519-CDS-P-littoralis_Contig151:94268..943941680789721.8614519-CDS-P-littoralis_Contig151:94268..94394Pylaiella littoralis U1_48CDSP-littoralis_Contig151 94269..94394 -
1680789721.8712118-CDS-P-littoralis_Contig151:94950..950821680789721.8712118-CDS-P-littoralis_Contig151:94950..95082Pylaiella littoralis U1_48CDSP-littoralis_Contig151 94951..95082 -
1680789721.8871403-CDS-P-littoralis_Contig151:95793..958561680789721.8871403-CDS-P-littoralis_Contig151:95793..95856Pylaiella littoralis U1_48CDSP-littoralis_Contig151 95794..95856 -
1680789721.897883-CDS-P-littoralis_Contig151:96404..966271680789721.897883-CDS-P-littoralis_Contig151:96404..96627Pylaiella littoralis U1_48CDSP-littoralis_Contig151 96405..96627 -
1680789721.9104419-CDS-P-littoralis_Contig151:97537..976441680789721.9104419-CDS-P-littoralis_Contig151:97537..97644Pylaiella littoralis U1_48CDSP-littoralis_Contig151 97538..97644 -
1680789721.9227786-CDS-P-littoralis_Contig151:98366..985431680789721.9227786-CDS-P-littoralis_Contig151:98366..98543Pylaiella littoralis U1_48CDSP-littoralis_Contig151 98367..98543 -
1680789721.9309745-CDS-P-littoralis_Contig151:99514..996341680789721.9309745-CDS-P-littoralis_Contig151:99514..99634Pylaiella littoralis U1_48CDSP-littoralis_Contig151 99515..99634 -
1680789721.9396968-CDS-P-littoralis_Contig151:100039..1001741680789721.9396968-CDS-P-littoralis_Contig151:100039..100174Pylaiella littoralis U1_48CDSP-littoralis_Contig151 100040..100174 -
1680789721.954134-CDS-P-littoralis_Contig151:105542..1058031680789721.954134-CDS-P-littoralis_Contig151:105542..105803Pylaiella littoralis U1_48CDSP-littoralis_Contig151 105543..105803 -
1680789721.9662864-CDS-P-littoralis_Contig151:106589..1066941680789721.9662864-CDS-P-littoralis_Contig151:106589..106694Pylaiella littoralis U1_48CDSP-littoralis_Contig151 106590..106694 -
1680789721.9763072-CDS-P-littoralis_Contig151:107597..1076751680789721.9763072-CDS-P-littoralis_Contig151:107597..107675Pylaiella littoralis U1_48CDSP-littoralis_Contig151 107598..107675 -
1680789721.984514-CDS-P-littoralis_Contig151:108325..1085541680789721.984514-CDS-P-littoralis_Contig151:108325..108554Pylaiella littoralis U1_48CDSP-littoralis_Contig151 108326..108554 -
1680789721.9948275-CDS-P-littoralis_Contig151:110624..1107891680789721.9948275-CDS-P-littoralis_Contig151:110624..110789Pylaiella littoralis U1_48CDSP-littoralis_Contig151 110625..110789 -
1680789722.0031998-CDS-P-littoralis_Contig151:125560..1255771680789722.0031998-CDS-P-littoralis_Contig151:125560..125577Pylaiella littoralis U1_48CDSP-littoralis_Contig151 125561..125577 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig151.17.28

>prot_P-littoralis_Contig151.17.28 ID=prot_P-littoralis_Contig151.17.28|Name=mRNA_P-littoralis_Contig151.17.28|organism=Pylaiella littoralis U1_48|type=polypeptide|length=771bp
MGCSGSKGPGGGKGDQILAALPTIKLTPGKAKQESLGLSRSLVWIQEKNF
EDKFEVVKVIGQGSIGEVSIVRRKPLDNSAHGNTHGSHRGSISKDLPYLP
SSSPVGQNRGGFAKDGKESQGGDSASPSSPPPGSGSTGERLYAMKSIHMT
RLPKMRVEEFENEVSMLQRLHHPNIIQLREVFYHHKKIYMCMTLCTGNHL
IMLLVFFGHCLITLSCIVCLSVWLSVWLSVWLSGRLSVCLCVGAVGGQLN
DRSFTENQVCSVMSQVIRALVYMHETAKICHRDLKMENIMLESPDEPLVV
KLIDFGLSKVFTEGDKMRTACGTVYTMAPEVLSGAGYTQKADLWSAGVIA
FVLLCGSFPFLKDEADLNDKDKLEQLKQARFLFNDPAWKDVSAGGKDFVR
GLLKKQPGFRWTAREALDHCADTWGPTFVRASYADLSEQAETAAAENAAD
SSMTRDGTRCAAGACAPLSPRGTPRGSVTTNPSELSPESPTHASQNRLRA
VNGSIAKSLRRFADYGELKKAALMVTAFQLDRGEIKQLKDAFLEVDTKGN
GAISLEELRTVLREHGVDGAEVDRVFGAVDMDSSGRLHYMEFLAATIEAR
GYIEEESLKEAFERLDVDSTGVISRDNLKAVLGKTYDNSLIDKMLEEGDS
SLSGSIEWEDFLTMMRPVVAQEYRKDAEDMLKDSSAACIEAAEVGRRAVD
QTPSYAQSAAADRSTPPPTSESPEGGNTPHQQLGAKGGAGEYFRKWWAEV
LWRTSSIPLQRGATYFEVQF*
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mRNA from alignment at P-littoralis_Contig151:91129..125794-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig151.17.28 ID=mRNA_P-littoralis_Contig151.17.28|Name=mRNA_P-littoralis_Contig151.17.28|organism=Pylaiella littoralis U1_48|type=mRNA|length=34666bp|location=Sequence derived from alignment at P-littoralis_Contig151:91129..125794- (Pylaiella littoralis U1_48)
GGGAGAGAGAGAGCGTTTGCCGAACCCCAGGCACCGAAGGCACACGCGGA
GCGGGGAGTAAAAGCTAGTCGCGTCATATCTGCCTGACCTAGGCTGCTGT
GGAGAGACGCTCTGGTTCGGACCTGTCAGAGAACGGTGCTCCCGCACTTG
ACTGACAGAGCACGTCAAGGTCGCACTTGTTCCCTGCAGAGAGCAGTAGA
CAAAAAACAGCCTGGGTATGGGGTGCAGCGGCAGGTAAGTGGAGAGAGAG
ATAACGTGGTGGAGACAGGGTACTTCTGCGCTTTCTACCAGCTGACACCC
CAGCAGCGCGTATTTACAACCCACCATCTCCTGCTGTAAATATCGTGGGT
TTAAGATCTGGAGAAAAATAAGCTCAGATCTGAAAAGTCACCTGCGGGAC
ATGTTTCTTCTCGTTTCGTTTGTTCATATACTCCGGAGTATATGATATGT
ACGGCATGTATCATGTACGAGGACTGCTGAACTTGCATGATACTCCGGAG
TACAGCAGTACACACAAAGATGGTGAACCCCGGCAAGGTTAGTTCAAGGT
CACACCAACCGCAGATCGTTAATTACCCTCCATTGACGTTGTCGTCGTCG
TTGTGGTTGTTGTTGGCTCTCACATTCGCTCATCGGTAGTTGTCACAAAA
ATCACTGCGTCCTGCATACGATATGATACTTTGAGTGGTTATACTCGTAT
CATATCATATCATACGAGGAGGAAGATTGAATTCAAACATTCGGATCATG
AAGAGGACAGAAATCGGGTACGAAGGTAATTTACTGATTGTATGTGCGTA
CTCATTCGTTCGATAGGACATAAATCGGGTACTGTACAGTACTGGCTGCC
TGATGTGCTACTCACTGCCTGTGCTGCTGTCACGTGATACTCGGTTGTCC
TAATGCACGGCAGCAGCGTGCGTTGGTCTCACATGGTACGATTGTTCCTG
GTGTGCAACAATAATAAACTGGAAAACACCACCATTCCGCAGGCACCCAT
TCAACCACGACACCGACGTGTCCAGTCTCCATTCGTCACATTTAGTTACA
GCAGTAACCAAGTCGTGGATGCAGACTAGATGCAGAGGAACGGGGGTTCG
ATTCCCGGTGAATGTGTTCCTTTGCTACTTTGAAAGCGGCTATGCTGTTA
GTGAAAGCAGATTCGGCTTCGCCGACGAAGGTAGGGACCGCGGATCCCTG
CTCGCGAGAAAAAATCTCACGCATGTACCGCAGAAGGAAGGTGGGGGTAA
CCCCTCCTGTGTTGACCTTTCTCCTGTGTGACCCCGTCGATGGGCCCAGC
CTGTAGTTTGAACCGCAGGGTGCAGACTAGTGTGCCAGAGAATATGGGAT
GACAACACACGTCGGCAGTTGCTATCTGGAGAGCTTGTTGCCCGCAGGGT
ACAGCAGCAGTAGGACCGGCAGTCGGGTAAACAGAACAGCGAAAACGCAG
CAACATGAAAATGTCTGGAACACTGTCAGGATGACGAGACCCGCGCAGGC
AGAAGTGTATGATAGCGATCAACAAGAGCCGCACGAGCACTGTCATACAA
CAGCAGTTTGGCCGACAATATCCGTTTTCCCCGATGTCGTGTACTGCTGT
ACAAGCCGCAGTGGATGGGCATAGCAGTGAATTACGTTGGTGAAAATGCA
AAGGAGTCGTTCCACCCTCACCGGTGCGTCACGTTATGGCACGCCGACGC
GTGATGTAGTGGAAGTTGCGAGATACCCTGCTGCTGCTGCTAGCTGTGTT
CCTTTTTTATTCCTACTGCTGTGTTCTAATAATTCCGAGCAACGTTTGGC
TCAAATCCAACTTCGTACACGTACATGTTGTGCAAAGCTAGTTACGCTGT
GAGGGGAGAAACCGTGCGTGCACAGCAGAGATGCTCCAAGTGTGACCACG
GCGGTACTGATGGAGAAACGAACTGGTTGTATTCCTAGAGCTTCTTGATG
AGTGCGCATGCTCTTTTCGCTTGTAGACGTGGGCTTGTAGGCGTGGGTAT
ACAACGTGCCGGTATCCTTCGTACAAACCGCTACCAAAAAATATGAAAAA
AAAGCGACCCCCCCCTGGATGCGCATCTTAGAGATGCGCCCTCAACCAAG
AGAACTGGATAGAAACCAAGAACAGCATGAATTGCTTCATTAGCGCAGAG
CAAAGCAGTAGGTTTCGGCACAGTATTGAAGCAGCCAGACACTTTCATCC
GCTGAGCAGGATAAAATGAAATCATGACAGGTCGTATGACGATGTAGACG
ATGGAGCAGAGATTCATAGCAGCAGCACGACGAGAGCGTATCCGCCGAGC
ACATCGACCTAGCATATCCGCCGAGCACACCAACCTAGCATCTGCCAACC
AACTCGAACCTAGCATATTCGCCAAGCACACCAACCTAGCATATCCGCCA
GGCACACCAACCTAGCTTATCCGCCAGGCACACCAACCTAGCATATCTGC
CGAGCACACCAACCTAGCATATGCACCAGGCACAACAACCTAGCATATCC
GCCAGGCATACCAACCTAGCTGTTCTCTATGGGTTTGGGGTTAGGGTCAG
GGTTATACTACAGCAGTAGTTCAAAGTACAGGTATGATATGTACTTCGTA
TGATACAATGAAACAACAGCAGCACCGGCACCAGCAATAGGGTTGGGCGC
ATCTCTTAGATGCGCCCCCGGAGGGGGGATGGAATTTTTGCCCAAAAAAT
ACCTGTTTTAACACGGGTCCAAGATGAATAGCCCCAAACGATAAGAAAAA
CTACTCGTTTTTCTGACAGCCTGCACCTAGGCATCAGAAAATAACTGCTT
GTGGATGACGGCTGTAGTGACATCACAACCATGGTAGGCACGCACAAGAA
GATAGGACCGACTTCTTGTAGTCTATGCGCTTGTGGCCGCACCTCTCCAG
GTGTCACCCGGGGTTAGTGCACGGGTCAAAGTTAGCTTTCGCTATAGTAC
TTTGGCCGGTCCACGGCCCCCCCTGCCCACGGCGGTCCCGGCGCCCCTGA
CCGCCACGCTATGTGTTTCGACGAAGTGTTGGTCGCCTGTTTTTGCTTGT
TGCGCATTTTCGAGGCTAGGTTCGCGAGTTCCACAGCCTGGGAGGCTACG
GACTCGCGGAGATGGTGGTCGTCCGCTGGCATGAGCAGTCGGAGTAGCCA
AGCCAGAGGGTCGGTCTTATTCTCGTTGTGGTCTTGTAGCATCCTGGAGC
CGGAAATGCGCAACAACCAAAAACAGGCGACCAACACTTCGTCGAAACAC
ATAGCGTGGCGGTCAGGGGCGCCGGGACTGCCGTGAGCAGGGGAGGGGCG
TGGACCGGCCAAAGTACTGTAGCGAAAGCTAACTTTGACCCGTGCACGTA
CCCCGGTTGCCACCGACCGGAGACGCATTCCCCAGAGAGGCGCGGCCACA
AGCGCCAAGTCGAGAAGAATTGTTTCAACAAAGCCGCCGTGAAGAAGCAA
GGATGACGAGGCCCGACTTGGGTCCCCTCGCTCATGGGGATAGCCACCGC
AGCAGTTGCAACAGAAGCAGATAGCCCGGTAGCAGTAGCCACTGGTACAC
AGCAGTCTGTGAAAGTTGTTGTAGCTAGTGGTAACAAGGGGGATACCATA
CGCCTCATGAAGAGCGTTAACCTTCGGGCAGGCAGGAGTCACGCAAAGTC
AAAGGACCAGGTTATTCACAGCAGAGTACAGAGACAAGTTGTTGAGAATC
AGGATGAGAGTCGGAATGCAAAACGCGCACGCGCGTCAAGTTGTTTGACT
GTAGCCCCACAGGCTACACATGTGTCCCGCGCTACGGAATCACAACACCA
TGATGACCATTTGCGTGCTTACTACAAGTACACGACCTGGTTGCATTGTT
CCAAACAATACGCCACGTTCCATGCGTCCGCACTTAGCAGGTATCCACAA
TATCCCTGCGCGATAAGCGCATCATCCAAATGAGTACATGAACCTGCCCG
AGTACACGACCACCCTGTGTCCGATTTAGCTGTTGACACAGCAGCTGATG
TGCCTTGCGTATCGGCCGAATTTTTCAAAAACACCAGCGCTGAAAAAATA
TATTTACACCGGTTCCACCAGGAGCTATTAAACTCAACAGCGCTGATGGG
TCTCCCCTGAAAAATTAAGGGTAAATACGGGTAGTCTAGTATCGCCTAGC
GCTTGTGTTGCCAAATCTGGGACCAGACCACATGCTACTGGATGACAGCA
TTATGGACGCTTGTAGCGCCATTTTAGACTGGAGAACCGAGGAAAATGAT
TTCAAGAATTCCATTCGGAAAAAACAAGCTGAACACCAAACTATGGACGA
TGACCCTACATAATGCTCTTGGACTGCAACTCGATTTTCTTTTTCTTTTC
TTTTGGTCAATTCTTATGTCATTTTTGGAGGTAGACCTCCCACGCAAACT
GCTGGCCAGAGTTCATTTCAAGTAGGCATCCCCCGACCAGGCGGGGGTGA
GTATGATGTGACCCGCGGCGCTCGCTCACACTACTCTCGTGGCTCACCAC
CTCGCGATAGCATGAGCATCATCTGCCGTCGAATTGTGTGTGCGATCGAG
TAGTAGCACGAGGAGTACTTGTGGCGAAGGAAGCATCATGATCGGTCAAC
GGGGCGTCCAGAACACGTAATAGCTTACACCGGGGGGACGTTTAGAGCGC
AATTCGATGTTCCATCTATGCCAGGAAGCAGTGCTCACCTCCAAGCGTGG
GACACCTATGCTATGTTCCGGCTTCCGGCTACGCATTTGTACATCTCGCC
GTGTCCATCATCCAACAATCCGCTTACGAATCCATGATCTGTACGTCGAG
CTAGGTGAAATCTCCGCTGTTGAAAGTTGCTAAACATGTCGCCTGGCCTT
CATCTCAAAAACAGTTATGACTTTGTTCCACCCCAGATGCTAAATTTTCA
TGCGCGTGAAAATACGAAAATACAGCAGCAGCAGGCGCTCCCGTTATTTT
TGAGATGCAGCCCAGGCGACATGCCTACTTGGCAACTTTCAACAGCGGAG
ATTTCACCTAGCTCGACGTACAGATCATGGATTCGGAAGCAGGTTGTTGG
ATGATGGACCCTGCGAGATGTACATATGCGTAGGTGGAACATGGCATGGG
TGCCCCACGCTTGGAGGTGAGCACTGCTTGCTGGCACAGATGGAACATCG
AATTGCGCGTTAAACGTCCCCGGTATAAGCCCTTACGTGTTCTGGACGCC
CCGTTGACCAAATTTGATTTTCCTTCGCCACAACTCCTCTTGCTAGTACT
CGAGCGCACACACAATTTGACAGTAGATGATGCTCGTGGTGTCGCGAAGT
GGTGGGCCACGAGCGCAGTTTGAGCGAGTGTTGCGGGGTTCAATATACTC
ACCCCCGCCTGGTCGGGGGACGCCTACTTGAAATGAACTCTGGCCAGCAG
CTCGCTACAGGAAAAAAATCGAGTTGCAGCCCAAGGGCTGTTATATAGGG
TCATCGTCCATAGACGCCGAAAATCCAGCCATGTCCGACAATCCACCGCT
GATGTACACGCACAGCAGTGCTCTGCCGTCACGTTGGATACTTGGGCCGG
TGCGGTACCTGTACGAGTATACCTCAGTAAGAAATGCTGCATCCCACCAG
GGCATGGAATTGCAGTAGAAGTCGTCATGAGTCAAGCACCGCAGGAGACC
ATCCCTGCGAACCAAGGGTTTTAACTGCCCCAAGATGTTTAATAAAAAAT
TGCATCAGAAAACGAATCTTCTCATGATGTCAGTATGACGAACAATATTG
CAATCTGCTGAGCGTTTACCCAAGGCGTTCCATCCACCACATGGTTGTTG
CCAGGACCAGTATGCAACTGGTCAGCAGAAGACGAAAGACGGCCGCAGTA
CAACTTGCTGACCCATCAGGATACCACGTACACATCGAACGCGATACAGT
TTTGGGTTAGATCTCACCAGTTAAAGACCGTGGCTGCACAAACTATCAGC
GCGGTGAGCAGTGATCACTCATTTAGGCAGAAGCGAGACGAACTAAAAAA
TGCAATGGGGAAAAGCTTTTGAAGATACCACCTTTTCCCCTGAACAATGC
TCTGAAAATTCTTGATCTCTGCCAAATACCGTAGTGTATTTTCCTAATCT
GCTGAAGAGCAGGGTAAATGCACTATGATACACCACTCGTAGAATTTCTA
CTTCAACCCAACACACAACCAGTCAATCGCGCGCCGTACAAAACTAATCC
TCGAGCACAGCAGTAAGTATTCGACGAGTGCGCTGAACAAATGGAAGAAG
ACGATATCATCGAACAAAGATCCAGTCCTTGGGGATGTGCCGTAGCGATA
GTAGCCAAAGCTGACGAAACCCCGCGTTTCTGTGTTGACTGCCGTGCTAC
TGTTAGCAGGCACTAATTTCGGAAATTTTGGCCGATGCCAGATATCGAAG
CTCATATCATATCGACACCGTTGGTGGAGTGAAATTTATTACAGCATGCG
ATGTACAAGGTGCACACCAATCAATCCCTGTGAAATGTGCAGAACAGGGC
AAAAACGCTTCTGTAACACGTACATGGAAAGTGGGCTTTCAAACGCCTGC
CTTTCGGGATTGCAGATGCACCACACCCTTTTTTTCGCTCGCAAGGTGTC
GTCAGCCCTTTGCTCACTTTGAACCCCGGAGTGGTTTACTCGTGTCCATG
GACGATGTCCTCTGCTATAGCTCAACTTGGGAAAGGCATTTACCACTGCT
GGAAAATATGCTCCAAGCATTTCAAGCAGCAGTACTTACCCTAAAACTCT
ACACGGTACAGTCCAGACCGCGAGGGGTAAAATACTTGAGCCACATTCAG
TCATCAGAAGGCATTCGCAGCATCGGAACAGGTCGCACCAAAGCCGTCGT
AGACCTTCCAACACCCACCACTATCGAAGAACTGCGCTCTGTATTGGGTA
TGATCAGCTTTGTAAGGAAATTCATTCCAGACCTATCTAACTGCTGTGAA
GTACCTCTGGCCGGACTCCCAAACAAAAAAGAAGGAGGCGATTAAATCAA
TCGCGAAACGTTGGGGTCCGGAGCACGATGAAGCATTCGCACAAGTCAAT
CGCACAAGTCAAACGGCTTCTCACGGATGCTCCACCCATCTTCCTCTTCC
CGAACTTTACCGAAGAGTTCGTTGTACATGTTGATGCCAGCGAGGGTTGG
GGCTGGAGCATTCCTTGCCCAACGAAGCGGCGACGACTTGTCCATCGTAG
CATACTCTAGCCAACGTTTCGACGCCGCCCAACGGCACAACTCGGCCGCA
TTGAAGGAGTGCTATGTATGCTGTCGTCCTCACAATACAACACTGCAGAC
CCTACCTCTACCTCTGGGGAAAGCACTTTCATGCCGTGACCGATCACGCT
GCTCTCACTTATTTATGTACCATGCAGGACGCTCCGAACATATTTAACTC
GGTGGGCTGTTGCATTGCAGTCATCTGACTCTACTGTCACACACAGACCC
GGCAGATTACACGTTGTCCCGCACACCTTATCTCGATGTTTTTATTTTGA
ACATCAGCAAGAGCTAGATGCACCGAAGCTAGCACCTATTTGAAGGAACG
AACCGGATGCCCCTGCTTTGCACATACACACACACACACCCCACACCCCA
CCCAGGCCACACCTAGCGTGAGCCGATCGCCTGAACACTTTCCAACCCGT
ACAAAGCAATCGCGAACTCTCTTCACTGCTGACTCAGTCTACATCAGTGC
AACTAATGTTTTCGAAACCATCAACCATGGCATTTTACGTGAAAATCAAG
CAGCCGAATTTGGCAAATACATCGATTATATGGTGAACAAAGATGCACTC
GTCCCTGTCAACTAGACACCAACTACAATGTCTTACTATTTGGCACAGGA
CGGTCTCTTGTTCAAATTATACTTACCTGGTTACCAGCGGAAACGAAGCA
CATTTGTCAACCAAAAAGTGTGACCACAAGCCCTCACAGGTTTAGTATTA
CACGCTTACCATGATCACGTGTTGTCTGGAGGTCATCTAGCGTCTCGACC
AACATACGAATAAATCCGCCAGAAAATACTGGTGACCAAGCATGAATCGC
GACATTCGAAACTGGTGTGAGGAATGCCCAGTGTGTCAACGCCGCGAAAC
CCCTCACAATCAACAGAAAATACCGACTGGACATACACACACCAGTAACA
CGACTGTTCGAACGCATGTCAGTAAATTTGGTTGAATACAAAGCGGACTC
AATTTCAGCAGCCGGTGTCAAGTGTAGATACGTTATTTCCTTAATGGACC
ACCTGACCCGGTCTACTGTTTTGCTGACACAGTTTCCGAATAATGCAGCT
GCGCTGTTCCGCATACTGCTATTGACCGCATCATCGGAATCCTAATCTTG
GGATCACCCGAGATGTTACATTCTAACTACGGTCCTTAATTTGAAAACAA
GGCAATCCATCAGTTGCAGAGTTTTCTCAAATACAAGAAAACTCGAACAA
CACCATACCGCATACAAGGCAACTCTGTGTCCGAACGCGAAAATTCAACC
ATGCACGCAATGTTTGCCAGACATAGTTCGATGAACCGTGATAACTTGGC
TCCCTTGCTTCCATTTACACAACTGGCGTAAAACACATATTTTAGCGCCA
CGATGCATGAGACACTTTTTTTTCTCACGTTCGGCACACAACCAAGATTA
CCAGCTGACACCATCCTTGGCACCCCTCACGTGGGGAACAAAAAAGCAGA
TACGGAGGACTTCACGAAAGACACACGTGAACTTTCGCGGATTGCTTTTG
GGCTTGCGCGACGTTATAACCTAAATGAGCGTGCACAAAAACAAGCAGAT
AGCAATGCCAAACTCCGCTCCTACCCCGTATTCAAACCTGGAACACAAAT
GGTAGTATTCCGGACATACCAGACCAGGACTCGGACGAACCAAAACCCCA
ACCTGCTGTTACGTTGGCGAGGACCTTACGTGGTGTGCTCACAGCTCTCA
CCCGTAGTATACAGAGTACGGCGTCTCAAGGAAACTTGAAAAGTGTCAAT
ACATCTCGCCCGCATAATACTTTACTACGCGCGGAGCAAAGTCCCGGCAC
CTGATTTTGACATAGTGTCCGAATGTTTTTCTTGGGCCGACAAATACCGT
TACCCGCGTTAGGCCATCCTGATGAGACTCAACCCAAAATCGAGTCATTG
GTTGTGGAAAACATTATCGACCACAAACGTGGACGGGGCCCGAAAACTCC
GTTCAACTACCAGTACCGCATACCAGCTACGTCTGAAGGGACACGGACCC
GAATCAGATCGTAAGCTCATGTACCGTGCTGATGAAATCCCACAATGTCA
AGGAATTATATGATAGCTGCATACCGAATTCGCTGTTGTTTGGAAATCGC
GCCTCCTAAACAACCCTTGCCTCGCAACTCTACACGGAAGACTGATGCTT
CATCACCTCTTCCAGCTAGAAAGCGATGACGAACGCGAGAATGGAGATGA
GTGGAAAACAGATGGAGCGCTCTATTATACATCAGTAGCTCAGCAACTCA
CTTATATACCTCACCATGTATCATGCACATACTGCAGGAGATGTTTGTGT
CTACCCAGACAACGGAAATCGCGACGGCAAAGAGGATTATCACACACGAT
AACCCTATCAGCATTTTGTTGGAGAATATGCTGACAAGGACAAAACCAAT
ACGATTGGACGTAATTTTCAGCACGTGGGACGTCACGCGAATACCTACCC
CATAGCAGGATTTACCCGTCCAACCACCGTTCTCCACCACCACACCACCA
CATGATTGTGTGGGAAGTTTCTCTTCGAATCCTTCAATGGAGCCACCCAG
TCCACTCCAACTCGGTATCGGTCACGCGACTGACTCCGATCACCACATGT
CAACGACATGCAAACCACCATCGTCATGCTGCGACTTGATCGCCGCTGCG
ACATAGACGATGTATCATTGCAAGCTGCAATTAGCAACCACATTTCATCG
GAGCTGTACTTAATACTCGAAGTATTTGCTTGCGAAAGTGCACACACAGC
CGACGCCACACAGCTGAGCAATCGGTTTTGTTAGTGATAGTTATACAGGA
TAGCCGATGAATAGTGTCGACCTATTCCGCGCGAATCCACTTCATTTAGC
AGAACATTAGCTGGGTGTGGCCACACATGAGATATGTTGAATCAGCTGGG
ACACCAACTGCTTCCAGAATTATACACACAATACACACCATCTTGTTTAT
TAGTACATCACCTTGCAACGTCTGACGACTCACGTGTCTACTCACTCACG
TGTCTACTCAACACGCAATCCACTCGAGACATTTTTTTGATGACGCATAC
CATGGTAATATGTTTCATTCCACCAATATCATTCCATCCTATTTTCCGCC
GCAAATACACCTAGCAAAGGTGGGTTTTGTGACGCATAAAAATGGAGGGT
GACGTGGATGACGGCTGTAGTGACATCATAACCATGGCAGGCACAAACAA
GAAGATAGGAAGAAAGTAGGACGAACCGAATCCTCTCGGAACATCAGGAT
TGAAGTCCGTTGACCCCCCGACGATCCGACGGATATCTGGTTCTTCCCGT
TGGTAAGCAACAGGCCGGACCCCCGGTCACCCCGGTTGCTAATCCTACCT
TTCTGACCCTCCTTGCTAAATCTACGGAAGAAAAACTTGACCCTGCCTCT
GGTCGTGGGCTTACACGGCCACTCCTTGGGACCAACTACGGCTGCGCTCT
CTCACGGTGATAGCCTAGGTTCACATACTGGTGTGATAAATGTTTTCGAG
AAAGATTTAAATGCCACGCACCCTCAGGCCTCTCACAACGAGAGAGCTGA
CCTCCGGTTTGTTTTGCCAGGCTTTCGATGCCTCGCGCTCCCAGACGATG
ACCGCACTAGAGATACTACATGCACAGCTAGCTCACGACCGACGGCTGTG
TGGTGTAGTGCTGTGGGTTCGTCCGTCCGAGAGCGATGGACAACGTGTTT
GGATGGCTAAACGAGAGCAGGCTTCCGTGCTCTGACCTCTTGAGCACAGC
AGCAGCAGCAGCAAGCAGCAGCAGCTGCCACATTATTTGCGCCTACAGTC
AGCTTAATTTTTCGTCCATCGCTCCTGAGCGAATGAAGCCACAGCGATAC
TGAAGGCATCGGCCGTGAGCTGTGTATGGTCCGTCTTCGCCGGTGGTCAT
CTGAGGCGGCGAGGCATCAAAAGGCTCGCAAAAACGAATTACCAGTACAC
TTTATATACTGCAGGCGTCGATAGGTTGTAAAAAAAACAGGCAAAAACGA
CACGCCCCCCGCAGGTGGTGCTCTCTCTTATTTTTTTGCACTCGTCATCG
ATGCCTGCAATCTGTTTTTTTGTGAGCCTATCGGTGCTTCGGGGCCTCAG
ATAATCACCACGAGGATAGCGACCAAACACACGGCTCACGGGGCGCGACT
TAGGCGTTGCCGTGGCTTTATTCTTTATTCGTTCGAGTGATGAACCAATA
AACAAACCGGTTACAGCAGTCGCCGTATCGTGGTGACTGATTGTCAAACA
TAAAATGGCCATAAAGGAGATAAATCGTTTTCGGGAGTTTCTTTTTTCCA
TCACCTGTTGTCCGGTTTTGCTCTAATCGGTTCGGATGCTTCAAAAACCC
TGTAGGAGATGTTGTTGATCGAAAGGCTTTTTTTTTTACGTTGGTGTTTT
CAAGACGGGAATGGTTTTATTAGTTTGTGTTTCACACGTGGGACAGATCA
GTTCCCCTAGATCGGTTTTAGATCTAGATGTTGCAGATTTCGCAACCGGT
GATCTGAGTGAGATTATATCTGAGTGATGCGGAGGATCTCTTCAAATGGC
CAACCGTTGATCTGGGATGTGGGTGATCCAGATGATTTGTGCGTGTTTTC
GCAACCGGTGATCTAAGTGATACGGAGAATTTTCTTCATGTTTCCAACCG
TTGATCTGGGTGATCCAGATGATCTGGGCACGTTTCTCACCGGCGGTCTG
AGTGATACGGAGTATTGGGGCATACTTTCAGCCGGCGATCTGAGTGATCT
GGAGGATATGTGCATGTTTTCAACCAGTGATCTGTGATCTGAGTGATCTG
GAGGATGTGCGCATGTTTTCAACCGGTGATCTGTGATCTGAGTGATCTGG
GGGATATGTGCATGTTTTCAACCGGTGATCTGAGTGATCTGAGTGATCTG
GAGGATATGTGGATGTTTTCAACAGGTGATCTGTGATCTGAGTGATCTGG
AGGATATGTGCATGTTTTCAACAGGTGATCTGTGATCTGAGTGATCCGGA
GGATATGTGCATGTTTTCAACAGGTGATCTGTGATCTGAGTGATCCTGAG
GATATGTGCATGTTATCAACCGGTGATCTGAGTGATCTGAGTGATCTGAG
TGATCTGTGGGTTTTTCCAACCGACGGTCTGAGTGATGTAAATGGTCTTG
ATCATCACCTGTCCCAGGTGTGTATGTTCAATGTCGGCCGGCAGGACGAC
AGCAGTATTGGCATTAGCATCATTTTTTTCGTCAACTTCGTGTACCTTAG
CCCTGCAGCTCAGTATCGGCTTGTTTGGCTCAAATAAACGAGCACTTTGA
TAGTAGTATCATCCTGTCAACACAAAAGTAATCCGCGCACTCGACCGGCC
TATTCATATTCACCGGCCTGAAGTGAGAAACTGAATATCTGTCTTGAGGC
TGAGTCTCTTGTTTTGTGATCATGAGAGCACGCCGTTCGTTAGCTACCAT
ACAGAGTTTAGTGTGGGGCCGGCCACTGAGCCAATTTTTCTTACGCCGAA
TTTCTTTAATTGTCAAAAATGTCAGCCTCATGTTCTCACGTGATGCTTTC
TTGCGGGCCGGTACTGTGTCGTACTTCGGAAGTATGTGCCTCGTACATAC
ATTGTAATGCGAAATTCCATTGCGCTACTGGGCTAGCTTTGCAGGTGAGG
GGGGGGCGAGCTGTGCATGTCATGACCTTGCTTGAATTTTGTTGAATCTG
CGCATGGTTCGTACGGTACGCAATAAGCAAAACGCAGGCGCTCTGTTCAA
ACATCGATGAGAAAATGAAACCCGTCTTCCTCCTGGTGTGAAATGTGGCA
CAGATCGTGATCCATGCACCGGTGGTCTGAGTGATCTGAGTGATATTGGG
GATCTGCGGATGTCTCCGACCAGTGATCTGAGTGATCGGGATGACCTGTG
GATATTTCAACCGGTTTTCTGAGTGATCTGGGGATCGGGGGCGTTTCCAA
CCGATGATCTGAGTGATCTAGAGGATGTGAGGACACTTGCAACCGGTGAT
CTGAGGGATTTGGATGATTTGTGGATGTTGCCAACCGGCATTCTGAGTAA
CCTGGAGGATCTGTGAATACTTTTAACTGGTGATCTGGGTGATGTGGAGG
ATCGCTGCGTATTCCCAACCGGTGATCCGGATGAACTGGAGCATCTTTGG
ACATTTTCCAACGAGTAAAGAGGGTGATCTTTGCATATCTCCAACCGGTG
ATCTGAATGGTCCCGATGGTCTGGATCTAGATCATGATCTACCATACTTC
GAGAGATTCATATCATAAACTTCGAAGTACAAATTATTATATCATATATG
CTTCGTATTATACATCTCACGTGTGATTTCTACAACGAAATATAACTCAA
CACATTTTCCTGTCTCTTGTTACCCAACTTATGACCGGAAGGTGTAGACT
GGCGTCCAGAGTAGATGGGGATGACAACGCAAAACACACACAAGCACAAG
TCCACCGGTCGCCCCGGTGGGCTAGTGGTCCCCTCGTTAACCACTAGATG
CAGAGGAACGGGGGTTCAACTCCCGGTGAATGTGTTCCTTTGCTACTTTG
AAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGACGAGGGT
AGGGACCGCGGATCCCTGCCCGCGAGAAAAAATCTCACGCATGTACCGCA
GAAGGAAGGTGGGGTTAACTCCTCCTGTGTTGACCTTCCTCCTGTGTGAC
CCCGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGACTAGTG
TGCCAGAGAACATGGGATGACAACACACACACACACACACACACACACAC
AGCGGTGGTGGTATTTGCCGCCGCAGCAACCACGCCGCAAATTTACAGCA
GAATGATTCGGCATTACAAGTTGCACACTTGCTTGAGTGGCTGCACACCC
GCGAACAGTTGCATTACAACACCAGCAAGGGTTGGGGGGGGGGGAGGGGG
GGCAGAGGGGGGACCCGTCGCTGAAGACGCCATCACAACCATCAGACATT
GAGAACAGAACACCGACATGTACAGTAACCTAGGTTTTCACCAAAGACAT
ACAGCAGTACCCATATTTCCAACAACTTACTTGCAATACCCACGCCGCCG
TTGGTTCTTCCTTGGAAACAACAAACACGGCACGCCTTTTATCCTCCACC
TGGATGCAGAGAAGCCCTCCGCAACTGATTTCGTTTCGTTCCCATTGAAA
CGCGCACTCACGCGCACAGCAGTAGAAACACTACTGAAAACAGCCATAGG
ATATGATACGTACGACCTTTCGTTCTGACACAAGGCACCAATTTCCAGAT
CCGCCCGTTGACACAAAGCTTCTGGCACAAGCACCAACGTCCAGATCCGC
CCGTTGACATGGAGCTTCTGGCACAAAGCACCAATTTCCAGATCCGCCCG
TTGACACAAAGCTTCTGGCACAAGCACCAATGTCCAGATCCGCCCGTTGA
CATCGAGCTTCTGGCACAAAGCACCAATTTCCAGATCCGCCTGTTGACAC
AAAGCCTCTGGCACAAGCACCAATGTCCAGATCCGCCCGTTGACATCGAG
CTTCTGGCACAAAAGCACCAATTTCCAGATCCGCCCGTTGACACAAAGCT
TCTGGCACAAAGCACCAATTTCCAAATCCGCCCGTTGACGCAAAGCTACC
ATACATGGACCAAGATTCTCTCGAGCAGCAAGTATATAATATACGCACGA
CACACGCTATCGACCCCGACCCCGTCCCGCACGCGCGTACGCAACAATCG
AGCAGCAAGGGACCCGGAGGCGGGAAGGGCGATCAGATCCTGGCGGCGCT
TCCGACCATCAAGTTGACGCCGGGCAAAGCCAAGCAGGAGAGCCTGGGCC
TCAGCCGCAGCCTGGTGTGGATTCAGGAGAAGAACTTCGAGGACAAGTTC
GAGGTCGTCAAGGTCATCGGGTACGCACGTATGATCTATATCCTTGCATC
ATGCATACAAGCGTTCGCACGAAAGAAGATGTTGTCTCTGTTTTCCTGAG
GATGTGTCTCGGCGCTCACCGGTACATACCGCGCCAGGACGTACGTGAAC
AGAGGTTGTAGATCCCTAAAGAACAGGGCTAAAAGACGCGGGAAGAGAAT
CACTACGGTTTTTCTTTTCTGTTTTTTTGTTATTTTGGATGTTCTTGTTT
CGAGGCCAACTGCAACACTGTAGAGGTGAGTCGGGTGAATGGCCAACGCG
TTTCAGCTTGAACGTTACGCTTGCTCGAGGTATACAACTACAACACAGAG
TACGCGGTGTTTGTGCGCTCTTTGTCAAATCTGTTCGGTCAAACATGCTC
CACGTTGTGTTGTAGGTTAGAGTGTTATCCTCCCGGGGGGCGGGAAGGAA
TGGGCGATATGATGCCAAGGTTTTTGGCGTTGCATCCAGCTCAGCCGCTG
CCGCTGCAGTTTGCAATCGTTTCTCGTCACGGAATGCAAAAGGCAGCGCC
CCCCGAGCCATGCACGAACGCCGCGTTAGCAGAACACGCACGAACACGAA
TCTGCGTGCTGCATTTGATAGGGGGGAAAGTCTGGTCTTTGATATGATAC
GTGGCTTCCATCGGTGGTGCGTTACTTACTGCACAAGCATGTGCACTTGC
ATATCTGCACCGTGCTCATTGCATCGTATCCGCAGAACGACATGCAGAGT
AGAAGTACATTTATGCGTGACTACAAAAGAATGTGAGTGCGTTAATGATT
AGAATGGTTATCGTACCAGTTGTTTCCTGTTTTTGGCGGATTGGTGGGAT
TTTGGGATGGGCACGTGTGATGGTGTAGAAATATGTGATTTCGATGGAAC
ACTCGATGCGCGTGGAAGCTGCATGCGTTTACTACAGTTGTGTGGGCCCG
GATGATAAAAAAATTTCACGTATCGCGTACCGTAGTGTCCTCAAAAGTGA
AATACGTATCATACCGTGTGAAGCGGACCTCGGCAGGCTTTTTCGGGGGT
AGTTGTGACAAAGGGGGGTGCTCCTCGAGTCTCTCTGCCGCTGTTGTCAT
TTTGCTGTCATCTGGTTTTTCCCGTACCCCGCCCCCCTCCTCCTGTTCCC
TTCCAAAGACATACTTCCTCTGTATCATAAGTCTGTGCCGTTATGTTTTT
ACGCCCCCTCAATGGTGTCCGATGTCTTCGGCGATAATTTTTTCGAAATC
TTCGGAGTTTTTTGGGTTGAAACACATACATATTTTTTTCTTGCGCACTA
CCCTGCGCATGGGCTAGCGGCTAATAAAAAAGTAGTCAGGCCAAAAATGG
CCGTATTCAACCCTTTCCAGAGGTGGAGTGGGGGGCGGGGGCAAAAAAAA
ACACAATGCAATCCCCCCCAAAATTATCCCTAACCCTGAACCTAGCCCCC
CTACCTCAAAGATTCATGTCGAGTCCCTCCTTACTAAAATCAGTATAATA
GTGACGCGACCCTAAAACCAAGACACTTGGGTTTGCCACACTAAAACGAA
GATACTTGGGACTCATGCTCTAAAACCAAGACATCTGGCGGAATCAAAAT
TCTTTAAATGGGCCAAAATGGGCATATTTTGACTTCATTTTAGTATAAAC
AACTGGCTTTTTTTTTGTTTTGTTTTTTGCATCAGCTTCTTTGAGACTTC
ATCTTTCGAACGAACCTAACTATAGGATGATCGAAACAGTATGGATGCGC
AAACAATTACACGCCCATAACAGCCCAGACTTATGATACAGAGGAAGTAT
ATATATATGTGTAACGTATTCGATAGCTGGTAGATGAGCGTCGGCGAGGC
AGTGTGGGAATTTTAATTTTCCACTAAAACCGCTCGAAAGTAGCCTGACC
CACAGCAGCGCGCACGGCTGCAGCAGCAGCAACAACAGCTTTTTTATAGC
TCCCAAGTTGACATGTTTCACGTGAATGCGTACGAGAAACCACCTTGATG
TTACCCCCATCTAAGCTCGCCCCCCCTTGCCCTTGCCCCCCCTCCACCCC
TTCGCATGCACGTCTTGAACCCCCCAAAAATACTTTGAAGGCAAGGGAGC
ATCGGTGAGGTGTCTATCGTTCGACGAAAACCGCTCGACAACAGCGCTCA
CGGCAACACCCACGGCAGCCACAGGGGGAGTATTTCGAAAGACCTTCCTT
ACCTGCCTTCCTCTTCCCCTGTCGGCCAAAACAGAGGTGGTTTTGCCAAA
GACGGGAAGGAGAGCCAGGGGGGAGATTCGGCGTCACCCTCATCCCCGCC
GCCTGGATCAGGGAGCACGGTGAGCACAAAAAAAAGTACGAAGAGCAGCG
ATTTCCATCTCTCGTCGAAGAGGTGCTGTATATGGTTTTGGTTAACGTCC
AAACACCGCTTCTCATATAGGAGTGTCACCCAACCAGACTTCTTCACGGA
CGCTTGCGATACGCCTTTTATATCATTTGCTCATTTAATTTGGATGCCGT
CTCCTGTCGAGAGAATATCAAAACTGTTCCACCGGAGGCGGAGAAGGAAC
GGGGCGATTTTTTTTGGGCGGGGGGGGGGGGAAGGAAAGGAGGGACTCTG
ATTCTTTCCAATGTGTTGATTCCCGGGACAGCAGCATACATTAGTGCATG
CTCTGTATCGTATCGCATGCCTTGACACGAAGAGGGGCTGTAAAAGAGCT
ACATACGAAGCACCAGGTATCACTTTTTGCGCGGTTCGTTGTTCTGCCCG
CATCTATTTCGCTCGGTCGCTTCTCGACGACTCCCCCCCCCCCCCCCCCC
CCGACTACTTGCCGTTTCGTACTGCGATCGTCTCTGCTCTCGTTGTTGTT
GCCCCTCCTCCTCCTCCTCCTGTGCGTGTCCCTTTGGACGTGTTCGCCTA
CGCGTGCGCGGGGGTGCGTGGGTTGGTTGCGTTGCCTTGTGTTTCTTTTC
GCCTGCGGTGTTTGGGCAGGGGGAGCGGCTGTACGCGATGAAGTCGATCC
ACATGACTCGCCTCCCAAAGATGAGGGTGGAAGAGTTCGAAAACGAGGTG
TGTGGATGTCGGTGTGTCGGTGTGTCGTTGTGTCGTTGCGTCGGTGCGGG
TGTGGGTGGCGGTGGCGGTGTGTGCGCTTGTGGGTATTTCTGCTCCTGGC
TTTTCGACAGAGACCGCGCTATTCGGGGGGCGGACGAGTGGAGGGCGTTT
TAGCCCATAGTAGTTGGTCGAAAACCAACACGCTCTTCCGTCAGCCGAGG
TTCCCGACCTGGGGGGTGGGATGTGGGTGTGTGTGTGTGTGTGTCTTGTT
TTATCTGGGTTTTTGTCGCTTTGTTGGGCCGTGCCTCCACAGATTCGAGA
GCTGATGGGGAGGCGGCTGTCGTTAGCGGGAAGGAGAAATAAAAACGCGT
ACAAAAAATACAGCAAGTGTGTGTGTCGTGTTGAACCCTAATTACATGCT
CAAGTGCTATTTACAGCAATCGCAACGTCAAAACTGTTGTGGAACCCTCT
CTGTTGCTGCTGAGGGTGATGATGATGGCATTTAGTCTGTGGCGATTCGG
GCCAGTGCGGAATGTACCGAGTTGCAGAGGTGAGCAACCTGCCTTCCTTC
GTGTGCAGATGACAACACAACAGCTTGGAAAAAGGAACACAAGCACTCGG
CCCGCCTTTTCTCGTGACATTCATGTATTGGTCAACGTCAATCAACGCTG
CCGATGAATGGTACCAGTTCTGTATTTTTCCGCAAGATTCCCCTTTCGTC
CCTCCCTCTCGCAATTCATGTTTTCAGCCCCGTGCTCTCCTTTTTTTTTT
TTTTTCAGGCCGTTCTATTTGTTTCTATCGTGTAGTTATTCATATCATAC
AGTGCTTGTTATCATATCACATCATACAAACCCGTCACTTTTTTGGTGTG
TGTGTTACGTGTTTGTGCGTCGTTGTGTTGGAAAAAAACATAACGAGCAG
GTGAGCATGCTGCAGCGCCTGCACCACCCCAACATTATCCAGCTTCGGGA
GGTGTTTTACCACCACAAGAAAATCTACATGTGCATGACCCTGTGCACAG
GTAACGTCCGCTCCCCCCCCCCCTAAGTACTTTGAAGTGTATCAACGTGT
CGGCCACCCTCCCAGTTGCAAAATATGAGCCAACGAAAATTTTCATCGGC
ATGAGCCGGTAGAATTGTTTTTGACAGGAACTTGCGTTGCGATTTAATTT
TGCGAGGGCACCCGTCCGGCCGCCAGTATTTTTTTTGCTGAACGATTTTT
CCCACTTTTGTTTGCTGCAGTGGAGCAGACAGATGCTGGAGCACAGGAGT
TAACCGTAGGTTATGAGAATGCAGTGATCCGCATGTTCTACGCACAATGA
TGCACGACTTTCCCCCCATATCCCACTTGATTAGTTTCCTCGAAATCTCG
GTTGATTACTTCACCGAGAAGTTGCTTCATGTTCTGAGCACAAATGATAC
ACGACTCCCCGACTCCCCCCCCCACCCCCCTCACCCCCCCCCACCCCCCT
CGTTCAATTTTCTCGAGGACTCGGTTGGTTGATTACTCCACAAAGAAGAT
GCTGCGCATGCCATAAATCATAAATCACACGGATCGAAATGCCAAAGACA
AGCACGAGCGAGTGAACGCCTTTCGAGCGTCACCGGCTGCTTTTGCGGCG
CCCACAGCCGTACTGCTGTTGGTTCTCCAAACCCAGAAGATTGACTGGAT
TTGACCGCTCTCCCACTGCTTTACAGCAGTAGTCGCCTTATTGTTGTTAC
TCTTGACATGCCGGCACAGCAGCAAACTTGCACATAGTGCGTCTCGTCTG
TTTTTGCTGTGGCTACTGCTGTATTACCAGGGGGAGTGGAGCATCTTATC
ATGCTGCTTGTCTTTTTCGGACACTGTCTCATAACTTTGTCGTGCATTGT
CTGTCTGTCTGTCTGGCTGTCTGTCTGGCTGTCTGTCTGGCTGTCTGGCC
GTCTGTCTGTCTGTTTGTGCGTGGGCGCGGTAGGTGGACAGCTGAACGAC
CGCTCTTTCACGGAGAACCAGGTGTGCTCGGTGATGAGCCAGGTGATCAG
AGCGCTGGTGTACATGCACGAGACGGCCAAGATTTGCCATCGGGACCTCA
AGGTTCGCAAAGCACCGTTCAGTATGATATGATATCCCTTCGTCGGGTGT
GTGTGTGTCTGGTGTGTGTGTGTGTGTAAGTTTTCGTGTGTCTTGTGTGT
GTGGCCGCATGGAACTCGTTTCTACTCACTGGGCCGATGCGGACTAAGCT
GGCGGAGGTGTGTCCTTGGTGGGAGTCCAGAGGGTAGTGAATATTACTTC
GTAAAGTGTTTTCCTTAAACCGGAACATCAAGAAATAATTCCGTCAACCT
ACCAGTAACTTTACGGTGGAAAGCGATTCACTTGTGAGTGAACAGAGGGA
AGGGATTGCTGAACCCGACTCGCACTAAAAACCAAAGGCAAGTACCGCAG
GAGGAAAGGCGTGGGCAACGTAAAACAAAATATAAAATGAAACAGCTCGT
GTGTGGCCTTCCTCCTGTGTAACCGCGGCTGAAGTACCCACATCATACCG
AAAGGTGGAGACTGCTGCCCAGAATAAATGGGTATGACACACGCACACAA
CAGCAGTGCCAAGCATAAAGGGGGGGTTTATTTCTGTTTCCCTTCTCTCT
GGATAATCCTTTCGGGAATCGTTCCCCCGGCGGCCAATGTACCGTATATG
ACACAAGATAACACACCCCGTGTTAAGCTTTTTGCATTCCGTATAGCTCC
ACGACCAGGAGGGTGCCACTGCCGAAAAGGGTGGTTTTGGAAAGATCTCG
TCGAGAGCTTTCGTATGACGGGCTGTTTGATGTTCGCACCCTCCTGGTTG
TGGAGTAATACGGAATGCAAAAACCTAACACGGGGTGTGTTATCTTGTGT
CATATACGGTAGTGGCCGCCCCAATCCTCAGCGAATACAACCCTACTCGC
TTGGAATCGCCACTCGCCTTCTGGACCATCGGGCGCAAGGCTTTCAGAGC
CTTTTCGTATCCCAAAACTTCGCTTCCTTACTTCTACTGCACCGAAATGA
ACACAGGGGAGCGCTCTCAAGCAACGAGAGGCGACACGTCATTTACTCCA
CCAGAACCGCAACGGCCCTGCCTCCTGCGCCTGCTGCGGATGTGCTACGT
CGCGGACCCGAAAGACGTATGAACCCTGCTCGGCTTGGTCCCCTTTATGC
CCTCGGAACCTCACCCTCATCACCGCTGCCTTGTGCCAGTGCGACGGTGG
CAGTACATTGTCTCCGGCAAGGAACGTGACATCGTCTCTACGCAAGCAAC
GAACCGGATGGATTCCTCCCGCCGCCGACGCGAAGTTCATTCACCTCTGA
GCGTGCCACAAAAAAGTAGGAGAGGGCGAGGCAGAGCCATGAAATTCTAC
CCCCCCGGTCCCCAGAATGACACTAGTGATTGACCGCTCAGTACGACATC
CCAGGACACCGGCACGCGCACCCGCCGGGGTCTACCCACTTGTACGTGAA
GTCTCAATCCCTTCGAGTTCGCGGGTGATAAGCTGCTACGGTTGATAAAT
TACGACCCTGTTAGTAGTTCTATGTGTACATCGACCCGATGGAAATAGTT
TTCCGCGGCAAGCCTTCCAGAAATCGATTTTGCTCGGTTGCCTTTCTGGG
CACAACGCCTTGCCGCAAACTCCATTAAAGCCTGCAGCAAGTCCGGCTGC
GTCTCGCTAGTCGACAAGTACTGCGAAAAGCATTAAGACTTCCAGCGCGA
AGCGCAAGTTCTCTGAGACGACTCCGTAACTGATCCGCGGACGTACTGGC
ATCCAAGACTCCGTGACAACGATCGATGGCTGCTGGGCCCAAGACCTGCT
TACGCCAAGCAACGTTTGGCCAGGACGCGCGAAGGCGAGCATCAATAGTG
TCAGGTGTTCATCGCGAAATGGCATGTGCAATAGTATCATCAGCACCCTT
CACTTGCAGTGCATCAAACCACCATCCACTTCCCATCTCTAAGCACCCAA
GTATACGTATGAGTGCGCCCGCCAGAGGCTGCTTCCCTCCTCTGCACCTG
TTCACCCAAGTGACGCTCGACGAGCCCCCCCCTCACCAGTATGCTATCTT
TCGCGCAAGTGGGAGTCAGGTTTGATTATTGGGACGGCACAAGGGCGCCC
ATCGCCATCCCAAGCAATTCAAGCACGTTAGTGCTCAAATCATCGCGTCC
GCTCACCCTTTCCCGAAACCTTGCGCGAATTCCCGTTGAAATCGTATCGC
CACCACGTACCCCGGTGTGAAGTCCCGGTCCCAAAAAATACCCTCCCATT
GCGTCGCCTGATGCGTCAAACCGCAATATACAAGAGTGCGATTGGACGAA
TATTTTCGAAGGTGAACCCAGTCCCCCTGAAACCATCAAATTCGAGAACC
CTACGTCCGCGTGAAATTCCGGTCTTCGTCGAATGTGCTTCAACCGGAAC
TGGTGATCATCGGTGCGTCGAGAGCGCACCGGTGCCAGTCCTGACTGGTT
AAGCATATCTACGGCGTACAAAGTACTTCCCCGGCCTCGCGACTTCACGC
TAGTGTCCCAACCAGCTTTCTCAGGTCAGGCTCAGTGGCGAAAAGCCGCG
TGAAGATTGCCATTCCCGCAGCGTGGTGCGGAGTCGCTCCAACGTTTCCA
TCGGTACTGAAATGGTCATGTCTACCGTATCGATATCCCAACTCAGAGCA
CACAGCTGTGTCAACCACGGAGACAACTTGTGCGGGGACAAGGGAAAAAC
AGTGGGTAGGTGCTTCTCTCCTCGCACACCAAACTAACGAAAATGGTCAG
ATGCGCACGATCCCGACGCCCTCTTTAACACCGCTGACCGTCCGGTGTGC
ACATCACCTCCACCAGAATCCCGTTGTCAACGTTTAACACGACGAAATAT
GGGCTCGAAAAGTGTGCCCCCGCTTCCATGCGGGATGCTGCAGTCGGGGG
GGAAGGGGGGCGGTGCATCCTGTCTACTCGGATGCGGAACGTCGATATGT
TTGTGGCGTTTCGTCCTTGCTCGCTTACTACGGAGTCAAGAAAGGATTGT
GCGCTGATGTGAGTGCTTAGAGCTGCCATAAGGGCGCAGACATTCCCGGG
TGAGTTAGCCCCCCCAAACTCCAATCTACGGTCCACGACAACCAGGTCCC
CGAACACATAACCAAACGAAGGCGCACCCGACCACTCTCGACCGATACCT
GACGAAAGGCATCAGTCACGCCAATTTTGCTCAACACGATGCGCGCTGAA
GCACCAAACTTGCATCGCAACTTGAGAAATCCGCCAGACAACAGCACGCA
ATACTCTCCCGAGCTGGACTCGCGGGGCCGATGCGAAGTCTGTGTCGGCG
TTAACGGTTCTTGCGGGGAGGGCTGGTATGTGAGATCGTGTATTATACGA
GTGTTCTTTGGTGATGCAACTACCCCCATCGGCGAAATCCGCAAACATTT
CGTGCTCCTTGGAAACACAAACGCCCGACCGAATCGCACGTTAACGAATA
TTTTCTGCAAAATCTCTTGAGAGTACGGTGTTTGTACTCCGGTGGTTACC
TTACTGCAACGCTGCACTAAATGTCCACTGCGCCTTCAACCGGGAGTGCG
GCACCTTGTTCGATAATTTTTGCAACCAACTCTTCGCTCGGCAATCCTTT
CGTCCGCCCAAACAAAAAAAACGAATAAACTCTGCCCGAACCCGCGGCAC
CTCAATGCCCGTTTTCGATGGCACATGATACGTACATTCGAATCGTCCCT
TAATGCATACTGGTATGTAAATAAAGTGCGCTTTCCTCAGCCACCTGACC
AAGAACCCCGACCCGTGACGAACCCTTATGAACGGATCGCGACATATCGT
GTAACAATGAGAGACAAGCATGTATGTTACCAACACCACGTCGGGTCAAC
GCTGTCACCGCCTTGGGCCGCAAAAGCGCCGCATGCCCCTATGGGATCGC
AGCTCTCGCAGCATCAGGTGACGCCTCCACCCCCCCTTCATACGGGGGAA
GGGCCCGTGGCCCTGTTTGTCCACTTTCGCAGCAGCCGCCTGACCGCCGC
CTCCGCCTCCGCTGGCCCCGCCGCTAGTGCCGCTGCCTCCGCTCGCCGCG
GAGTCCTCCTTCTTCTTGGGGGCGGGTATCGGAGCAGTCCCGTTGCTCTC
CAGGTGCCCGCCGTCGGACGTCCCGGTGCCGCCATCGCTCGCCGCCTACC
TGTTTGCCGGCGCTTCGTGAAAGAGTGCGCATCGGCTGCCAAACCGGCAG
TCACCAGTGCAGGCGAATTGGCGGCATGTTCCCTTGCGCCCCCCCCCCGT
GCCGTCCCCCCGACAGTCCCCTGGCTCCCGTGGGCGGGTGGAAGCCGCGG
GTGTTGGGGGCCTGGACGGTCGAATCGATCAAGCCGCCTGCTTGAATGTG
GGCCCGGATATGCGGGAACGTGGAGAGCGGGGCCGGCGGGAGCGACGCTG
TCGTCGGGGGGAAGGGGCTGGCGCGGTAGATGTATGTGGGTCCGCGCGAA
GACGGAGACGGCGCGCACATACGCCTGCATTCCCTTCACACGAGAAAGGA
CTCGATGGTATCCCGGTTGCTTGACAGCTCCATGGCCGGCGAAGTTTTCC
CGGGTGTGCCGTTCCACCAGATCGATGGCGTCGGCGAACGCGCGGGCGAC
ACGCGTCGACGCGTCCTCGGCAAGTCTCGGCTGCCGTGGAGTCATCCACC
GCTCCCCTCCTTGCGATCGGGGTGAAAGCCTCCGCCATAAGGCGCAGGTG
GCTCGCGATCGGAAGCGCGGGTTGAAGGCGGTGGGGCGGAAGTCACGGCA
GTTCACCAGCGAGCTTACGGCGGAGGCTATCATCACGATCGCAAGGATGG
GGGCGGTGGATGACCCCACGGCAGCCGAGACTTGCCGAGCAAGAACTACA
GCAACACGTATTTACCGCAGAGTAAGGCCGACGACAGGCTGAACTAGCAG
CGTTGTTCGCTCACACGTGCGTGAGCGGCGCTTTTCGTTTCCAGACTGAG
GATTGTGGGTTGATCCCGATCATGCCTCCCTTTGCAAATATGAAGAATAT
GATGGCATCTCCGTCTCCCGATGAACCGTACTGTTGGAACTCCTCTCTCC
GTGGTTGCGAATCGTACGAAAGACCCGCTTTTATTCAAGCATCATTATTA
GCATTGTAGTATTGTCGTTGTTGTCACTTTTTTTTTTTTTGTCAACGTGT
GGACCAAATGTTTTTCGAGCAGTGGCGATGAGCGCGGCAGGCTGCCTCGC
ACTCCCGACTTCCTATCTTGTCAGAGCCGACGCCGAGGTAAAACACTCAA
CCCGCGTGTCAAAACGTCCCTCACGCACACGCACACGCACACCGTAATCG
CGAGCTCGAGGCCACTCGAACACACCTGTCTAGCCACGTCGGATGGGTTT
GTTCTACTGGTATACTCTCACACACGCACACACACACACCTCCATTTGAT
TGATTTTAAAATTGCTCCAGATGGAGAACATCATGCTAGAGTCTCCGGAC
GAGCCGCTGGTGGTGAAGCTGATCGACTTTGGCCTCTCCAAGGTGTTCAC
GGAGGGCGACAAGATGCGAACGGCGTGCGGAACGGTGTACACTATGGCTC
CCGAGGTACTTTTTTATTTTTTTTATTTGATACTTCGAAGTGTTATTATT
TTGTTTTATTTTATTTTCGAACGCTGTGACACGCGTCGCTGGCACGTCTG
GTAGGTGTACATGGTTGACATGTGAACTCATTGTTAGAATTTTTTCTTTA
TTACCCCCATTTTATCTTTCTTGTTATACCAGAGTGGCGGGAAAGAGAGA
ACAACTAATGTGGGAACAAAAAAATAGGCCGAAGGAGACAATCCATGGGA
TCATACACGCCTAACGAGCGCACTGCACGTTGCATGCACTTGGTACTGAA
CCTATCAAGAAGTTTTTTATCATAAAACCGTCACATGAATAAGGAGCAAT
GAATTGATATCGGCCAACTCTTGGCGAAACAAATAAAATAAATATAAAAA
ACTTGATAAGGTACTGAGCGGTGCCGGCTACACGCAGAAGGCCGACCTCT
GGAGCGCGGGCGTGATAGCCTTCGTCCTGCTGTGCGGGAGTTTCCCCTTC
CTCAAGGACGAGGCCGACCTCAACGACAAGGTGCGTCCTTCACTCACTCG
TACGGCACCCTCTGGAAAAAGAAAACGCTCCATTCCCCGCCCACTGAGAG
AACACAGCCTAGCAGGGTTGTCGGTTGTGTTTGTCGGACGGGTCTCGGAA
CTGCTTGGCTGTACCACTGACTGTTGTCTCGGCAGTACGTCTTTTTTCGG
ACAATAATAGTAATACTAAATAATATCACTTAATAATATCTACTAAATGA
TATACGGAGTAGTTCGTAGATAATAATAATAATAATAGTTGTGATATAAT
GGCTTTAAAAAAGACTGCTGTGTCCGTGCGCGCGATCAACTCTGCTCAGC
TCCTGTCGGACGGACAGATTCGAGTGCGTTCTCTTTCGTTTTGGCTTGAA
AAACCCGGGCCAACAGCCAAGTGTCCTTCGAAGAAAATATACACCTGGTG
CGGTATACGCAGGCCAGTTTCTCTTTCCATTGAACGACCCCCCCCCCCCC
CCGCGCGCGTGCTTGTACGCGAGATTCCATTTCTGTTCTGCGATGGACGA
AACGGTTCGCGGCGTAAATACCGCCACACTGCTGCTGTAAATGGAACGAA
GAAAAGCGGTTTCCAGCGTCCCCGTGTTGAAGTAATCCCACCCACCCTCC
TCCCGTTCTCTGCGTGTGATGTGTGACGTGTTCGTTTGATTGCCGAAACA
ACGAAATGAACCTCGTCCAACATGCTGAACACACGCTGTTTGAAAAGCTG
TCCTACATGTAAAACACACTACTGCTGTACTTCGATTGCTTCTGTCCCAT
CTGTCTGTTTGTTTGTCTGTTTGTCTGCCTGTCATTTATCTGCCTGCCTG
CCTGCCTGCCTGCCTGTCTGCTGTTTGGATGTCTTTGTGTGTCGTCATGC
ATCTTGTTGCAACTGCTTCTGCACGAATGGTATACTTCGTGTGAATATGT
ATAAACTGCTGTTATACTTCGAAGTATGTAATTTGTGTGCTTATTTCTCA
GGATAAGCTGGAGCAGCTGAAACAGGCGCGCTTCCTCTTCAACGACCCCG
CGTGGAAGGACGTTTCTGCCGGGGGCAAAGATTTCGTGCGCGGCCTCCTG
AAGAAGCAGCCGGGTTTTCGATGGACGGCAAGAGAGGCGCTAGACCACTG
CGCTGACACCTGGGGGCCTACCTTTGTGGTAGGAAGCCGTACAGGGGGTG
GGGGTGGGGGGTGGGTAGGGGGAGAAGAGCCGTACAGGTGGTGGGGACGG
GGGGAGGGGGGGGGCACCCGTTTCTAGACAGATGTATGATCGGGGGTAGG
CGGGGCGACAAAAGCCGTAAACGGGGGGGGTGCGCATCCCTTTCATGCCG
GCGCACCACTGTTTCTATTCCTAGAGCCGAAACTCATTGGTTGTAGATAG
AGTACACGAGAGTAGGAAAAATACTCGATGAGTCTTCTCGCTTGTTTGCG
TAGGTCGAGGACTACCGACTGCTGAAAGTGCGACTCAAAACTCGGACGCA
TATCCAGCAAGAGCACTTTCACGCGCCCGGTTCACGTCTCGGAGAGATAT
CATGGGCATGTTGGTTGTCGTGGGCTTCGAGACACGTCGCTGCTCATGCG
CGCGCTATATTCCAGCGGGTGTAACGTGGCTATGATAGTAACGTGGAAGG
TTATTTGCGAAGTAGCGTGCCGCGTGCGGCCAGGCCGTCACAACCGTAGA
GATTCAGGATCTTAGCTGGATACCAGAGTATTATACACACCCACGGGGCA
TTCATTCTCTGCCCTCCCTTACCCCCCACCCCCCTGCCGCCCTGTACGCT
TCGCCCGGCCCTTTTCTTTGTCGTGTTCTTGTACGGGCGGCCGCCTCTCT
CCTCTCTCTCTCGCTGCTTGGCCTGGCAACCCCGTTTTCACACACGACAG
CGTGCCAGTTATGCCGATCTAAGCGAGCAGGCCGAGACAGCCGCTGCGGA
GAACGCTGCTGACAGCAGTATGACCAGAGATGGGACCAGGTGCGCGGCGG
GTGCTTGGTGCTTGCTTGGTGCTTGCTTGGTGCTTGCTTGGTGCTTGCTT
GGTGCTTGGTGGTGGAAGAGAGCGGTTACGTTTTTTTTATTTTTTATGGA
TTGGAAGCACAGACAAGCAGTCCGTACCTGTTCAGCAGCTGTGCAGCAAA
GTTATTTTTTGTCTTGCCGGAGAGTAGGGATATACCAGGTACTACACTTG
GGGGACAGCTTTAACTGTTCCTGTGAAATAGCACGTGCGCGCCGTTGATT
GGGCTTTCATATGATAGCCACTCCGCCGGTATTGTTTGTTTTTTCTGTTC
CATTTTGTCCCTGTGTGTGTCATGCTTCCGTGTCTGTGCGTTTGCGCGCG
GCAAAGGTGCTCGTCAAAGTTTGTCTCCGTTTCGCTCAAAGAGCCCACAC
AAACGCTTGCGTTGCTGCTGTGCATTTTGTTAACGGCGTGCCGGCCGTCC
ACAACAGCAGTCGCCGCTCGCATTTGCATGCTCTGCCGTTTCGCTCCTGT
TACTCCCGCCTGTCCCCTCTGTCTAAGTTTGCCTGTTCAGAGTTGTTGAG
TTATAACCCGCAGTGCTACTCTCAGGTTCGGCCTTTTATGACTCCACCTC
CGGACTTCGTTCCACGGCCGTGCTCGCGCAATCGTGAACAGCCCCAAGCA
TTTGAAATACCTATCTTATCCCTTCTGCTCTACTGCACTATCCAGCTTTT
CGTCACAAACACCCCGAATCCCCCCCCCCCTCAGGAAAATCCATATCGTG
CATGTTGCTCTTTGTTTAAGCCAACACTGTTGTGGACGTCGTTTCTACTA
CTGCTTGTAGGACGAATATTCTTCACGTCGTTCCACAGACAGTTACCCAG
TTTATCTTGTGATCACGCCCCTGGTCAACCCCACCCCCTCCACCTCTCCC
CTCTCCCTCACCCACAGCGCCCCCCTCTCTCCCAGAGGAACTCCCAGGGG
AAGTGTGACGACGAATCCTTCGGAGCTTTCTCCGGAATCTCCGACCCACG
CGTCGCAGAACCGTTTGAGGGCGGTCAACGGCTCCATTGCCAAATCCCTC
AGACGATTCGCTGACTACGGAGAGCTCAAGAAGGCGGCTCTCATGGTGAC
CGCGTTTCAGCTCGACAGGGGCGAGATCAAGCAGCTCAAGGTGCGCTTCC
CATACAGCATTACAACAGGGTCTCTTATGTGTGTGTGTGTGTTTTTTTTT
GTGGTGTGTGGTGGTGGTGTTGGTGGCATTAAGTTTGTGCTCCAGTGTTT
TCGTAAAAAAAAATTATAGTGGCGTGTTGTTTCACTCCGGCGGTGTTGAA
GTTCAGGACAGTCAAGGCGCTGGGGTATCGGGGTGTTGGCGGCGGTGCTT
GTGTGGTGGTGGTGGTGGTGGTGGTGTATCTGTAGTTGTGTTCGATGCTC
GATGTTGCCCATTGCAGGAGTTGATTGATCTCAGTGGTTCGGGCGGGATG
TTTGCCGTCCGCCCGGGGGGTCGCGTGTCAGACTTCGTTATGGTAGCCGC
GCACCTTCATCCTCACCTTCACCACGCCCCCCCCCCCCCCCCGGAAACCC
TATCGCTTGCATGTTGCTCGTTTTTGTGAGCCAGCACTGGCGTGGACGTC
GTTTCTACTTTTGCTTGTGGCACGAATACTCTTCTCACGGCCCAACCCCC
TCGCCCCTACGCGCGAACGCTCTGTATCGGTCCTACAGGATGCGTTTTTA
GAGGTGGATACAAAAGGGAACGGCGCCATCAGCTTGGAGGAGCTGCGAAC
CGTAAGCAGACTATTTGGGGGAGCTTACTGTTCAAGAGTTTCGCACCGTG
CGTGCGATTTTTTTATGGTGTCGTGGCTTGTGTCGGTTTGGGTGCATGTC
GTGTGTAGGCATTATCTTGGATTTTTATTTCTTGGTGTCTCCGCGTATGT
GTTTGTGTGTTTGTGTATCCTGTTTGTTGTTGGGAAGTCTCTCTGCGCCT
TTGATGTGTGTGTGTGCGTGGTCTGCTCGACGTGGTGTGTCCGAAGCGTC
CCGGTCGAGACGACTCTTTGTACGACACGCGCGACACGGTCTGTTCGATG
CGCGACTCATCCGATCCGATTTTGGAGGTCCGCAGCCCGACGTGACACAC
AGTAACCTGACCCGCCCGATACATGTATCATACGCTGCGTGCTACGGCGG
TGTACGTACGTGCTACGACATGCTCGATATATATCGTATGCCTGCTTCCC
CGGTATTTAGCCACTCGTGCACACGCACCCCGATGCCATCTCCTTGCTGA
TACCATGATAAGTGTCATCGCGATGGAGGTCTGTCTGTCAGCAGCAATGG
GATGGTGCATGATCCCACCGGTGGTCGAATCAGCCTACCATAGCCATAGC
CGGACGTTTTCTGATGTCAATTTCGATTTGATATGCCGGGGTTGCGCAGA
CTGGGTTTGTTTCCCCCCCTTCTTGCTGTCCCAATAACGACCCACCCACC
TTTTTCCCTCAGGTGCTCCGCGAGCATGGGGTCGACGGAGCCGAGGTGGA
CAGAGTTTTCGGGGCCGTTGACATGGACAGCAGCGGTCGCCTTCACTACA
TGGAGTTCTTGGCGGCCACCATAGAAGCCCGGGGCTACATCGAGGTGTGC
TGCTGGGGGCCATAGTAGTAGCTTCATGGGTGTTGTTCCCCACGTTGCGG
TGTGTAGGTTTGGGTGATGAGCTCTCATGTGCAAACTGTGAAAATCAAGG
ACGAAATTATAACAGAGAACCGTTTAACGTCTATGGTATGCCCACGCTCC
TCCTTTCTTGCTTTCGGGTCATGTCGCGTGGTGTGGTAAAGAACGGGCTC
CGCGTTCAAGAGCAAGCCTCCTCGTCTTGTGATTCTCAACATTAGACTTG
GCGTTGTTGCCGCGATTCATTTTTTTTCGCCTCCTTTCTCTCTCTCTTCT
CCTCTCTTGCATGAAGATAGGTACACACCAGTCGTTCAAGCTTTGGCTTT
TAACTAGGGGAGGATAGCTGTGACAGATACGGCAGTAGGAGGCACAACTT
TAGGAGACACAAAACACTACAGTATCGCGGTCGATTTCGCGCGTATTTCC
CTCGTCTTCCCGCTCTCCCCCGCCGCCACTCGATGCGGGGCCGCTGGTCT
AATCTTGCGCGTGCCATGCGCACCTGTTGATGGGTTGTATCATTCGTCAG
GAGGAGAGCCTCAAAGAGGCCTTCGAGCGGCTAGACGTGGACTCGACGGG
CGTCATCTCCCGCGACAACCTCAAGGCCGTCCTGGGGAAAACGTACGACA
ATTCGCTCATCGATAAGATGCTCGAGGTGAAAGGTCTCTTTTGCCCTTTT
TCGCCCCGTTGTTTCATGCTTCGACTCACCGATGTACTGGTATATATGAT
GTACGCATACCGAGGGGGAGAAAGGAGGAAGGAGGAAGGGGGGGGGGGCG
AAACAAACGAAAACACAAGACAGGTGAAAGCAGACAATTGTCGAGCGAGT
GCAGTATGCAATCATGCCGTGAGGGTTGTATAGGGCCGACCCCACCCCCC
CCTCCTCTGACCCTTTCAACTCCAGCTCCGTCAATTTGTTTGCTGGCTGT
CTGTTTTTATTGCTCTATGTCCCACCTGTTTCTGTCTCTCCCGCGGCTTT
TCTTTGGCTTCCTTTCGGCAGGAGGGGGACTCGTCCCTGTCTGGATCGAT
CGAGTGGGAAGACTTCCTGACCATGATGAGACCCGTCGTGGCGCAGGAGT
ACCGCAAGGATGCCGAGGACATGCTGAAAGACTCTTCCGCCGCCTGTATC
GAGGCCGCAGAGGTGCAAATGCAACAGCTGGTGCAGTACAGCAGTAGCCT
TTTTTTTTGGGGGGGGGGGGGGGTCCGACACGCAGTACTCGCGAGAGACT
ATAATGGGGTGTGGGGGGGAATCGAAAACCCGTGTGGGAGATAAAGCTGG
GGGGGGGGGGGGGGGGCTGCGTGGAAAAAAGGACGAGAGAGAGAGGGCCA
CAGTAAGTTATGTGGGGTGGCAAGATACGGCCATGACATGTGTGCGGGGG
GGCTTCTCTCATGATTTGGTGTTCACGTCGGGTTTCCTTTTCCTCTCTGC
GACTCTTCATGCCTGGCGTCTCACGTGCCCGTCGATGCCCCCCCCCGACT
GCCTGGTTCATACATAGAACAAATCGGAAACTTTTTTGCCACACCGACGA
CATGGTATTGTACTGGATGACCAGCGGCCGCGTGTGCTGGTTGTACAGTA
TCATATGGCAGCCACGTTTTTGTGAGGCGTTTTTTGCACGCACAGCGAGG
CGAGCTCATAATTTCGTTTTTTGTCTTTGTTGTTCGTGGTGTTCGTTCGA
TGCGCTCAGGTTGGACGGAGAGCGGTGGACCAAACCCCCTCGTACGCTCA
AAGCGCAGCAGCGGACAGATCGACACCGCCACCTACAAGTGAATCGCCAG
AAGGTGGAAACACGCCTCATCAACAGGTTCCAGAAGTTGCCGCCTCCGCC
GCCGCCGCCTCGAATGACCGATAGCAGGAGAGGACGTGGACTTAGTAGTG
GTGGGAGTTGGGGGCGAAAGGGGGGGCGGGCGAATACTTCCGAAAATGGT
GGGCTGAAGTCTTGTGGAGGACGTCCAGCATCCCCCTGCAGAGGTGACGG
AATATCGAGTGACTCTGGTGGCTCTGCGCGTGTGCGCTGTACATTACCTG
GTATTGAATACCTCCGGTAACCCGCACGGCAACCCCCACCCCCCCGTCAC
GACTCGTGCTTGGTGCAAGCAATGCCTCTCTCGGTGGTTCGAACCCGTTG
AATTCCATCCCGGCATTGATAGGATGGAGAGGGTCTACAAAACATTTTGA
GACTACGGCAATGCATGATTATTCGCTCAACCCCCCCCCCCCCCCTCCTC
CCCTGCCTGCTTCTGCGCCCAGGGGGGCTACCTACTTCGAAGTACAATTT
TAGAACGAACCGACCGTATTGGTCATGCGGGGGCACAGCCTTGATTACGC
ATGCTGCAGCTGCGTCGGGGAGAAGCGCCGTGTGTAGCATATATGTGTGC
GTGTCTGGGTTGTTAAGGTCGGGGGGTCGGGTGGGGTGTTGGTCGGCGAG
CGGTGGGCGGCGGGCGCTCTTGAGCGAGTTTGGTGATATCTATACCAGTA
CATTGTAAGTAGATTCCATAGATAGACTGCGTGAATGTGCTGATACGGCC
ATGCATCGCTACACTAGAGGAATTTTGTCGGGTCTTTTGAAGTTGGTCTG
TTCGTTGTTGTCTGTGGGTGTTCACTCATGCGTTCTGTCGTTGAACATCA
GCAGTTTCAGCGGTGTGTGTCTACGGCTTTAGGTTGGTTTTGCACCCGTC
GGTTCCGCGATCAACGGTTGTCTAATGGTGGGCGACTTCTTTTTGTAATC
TGTGCGTATATTTGGTGGAACTGCTCTTGTTGTACAGCTTGGTCGCTGGA
GTATGTTGAGTGCAGCATCTATCCGCGTTATGCTCGTCGTCTTTCGCACA
CTCCCTTGTATTTTTCTTTATTCTTTTTGGCTGTGTGTTAGATCGTGACG
TGCCAGCAGCTTGGCTTCGCAGACCGAGCACGGAACACTAAACTACAGCA
GTATACCAGCAACACAGTACTTCGAAGTGTTTTGTTTCCGCGTATTATGA
AGACGTAGACGTCGTGGTCGAAAAAGTAACGAAGCCGTGGCGTCAGGTGC
GCAGATGGGTAAAGTCGATGGATGCATGCGTATGAGATATATGTGTAGAT
GCTCTGCCTGGAGGCGGAGTTCATCTGCGGAGGAGGCAGACTGCATGCGC
ATACATACATGTAGATGGCGTTTCCCTTGTCAAGGCGTATCCAGCAGGAA
ACAAGCATTCTGGCTCACGATACAGCAGTACGTAATAGGCAATCTTCGTT
GGTGTGCGTGTGTGTGTTGTCGTCCCACTATTCTGGACGCCACTGCTGTT
GTAGGTTCACGCTCCCGCCGTGGGTCACATAGGAGGAAGTCAAACAGACA
GAAGTTTTTTTGTGTTTGGGGCAAGTTTTTGAAGTTTTTGAGGAACTGAA
GGTCGGTACAGAGAGGTTGGCCCCGCTTGCACTCTCCAGCTCTCTGCGTG
CTCGGCGTTCACGCCACGCATTGCAGTAATTTGAGTCTCTCTTGTTTTGG
CGTGTGCGAATGAGTTTTCAAAGCACGCAAGACGACTACCAAATTGTCTT
GTTGAGCCTGATATCCTCGGGGGAGCTGCGACGGTACATTTTCTGATGAG
GTAAAGAAACACAAGGTAGATGTATCCTATTGTTCGTGTTCGTTGTTAAT
CTACTCCAGATCCTTGTCTGGAGACAGACGGACACTGACGTGTTAGGAAA
ATAAATTATAAAGCACGCGCGATTGACCGAACCGCCATGGGCATACATGT
GTTCTGTACGACGAAGCTGAGTTCGATGCGCGCATGGCGCGCGAAGATTG
TTGGTAAGGTGAGGGG
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Coding sequence (CDS) from alignment at P-littoralis_Contig151:91129..125794-

>mRNA_P-littoralis_Contig151.17.28 ID=mRNA_P-littoralis_Contig151.17.28|Name=mRNA_P-littoralis_Contig151.17.28|organism=Pylaiella littoralis U1_48|type=CDS|length=2313bp|location=Sequence derived from alignment at P-littoralis_Contig151:91129..125794- (Pylaiella littoralis U1_48)
ATGGGGTGCAGCGGCAGCAAGGGACCCGGAGGCGGGAAGGGCGATCAGAT
CCTGGCGGCGCTTCCGACCATCAAGTTGACGCCGGGCAAAGCCAAGCAGG
AGAGCCTGGGCCTCAGCCGCAGCCTGGTGTGGATTCAGGAGAAGAACTTC
GAGGACAAGTTCGAGGTCGTCAAGGTCATCGGGCAAGGGAGCATCGGTGA
GGTGTCTATCGTTCGACGAAAACCGCTCGACAACAGCGCTCACGGCAACA
CCCACGGCAGCCACAGGGGGAGTATTTCGAAAGACCTTCCTTACCTGCCT
TCCTCTTCCCCTGTCGGCCAAAACAGAGGTGGTTTTGCCAAAGACGGGAA
GGAGAGCCAGGGGGGAGATTCGGCGTCACCCTCATCCCCGCCGCCTGGAT
CAGGGAGCACGGGGGAGCGGCTGTACGCGATGAAGTCGATCCACATGACT
CGCCTCCCAAAGATGAGGGTGGAAGAGTTCGAAAACGAGGTGAGCATGCT
GCAGCGCCTGCACCACCCCAACATTATCCAGCTTCGGGAGGTGTTTTACC
ACCACAAGAAAATCTACATGTGCATGACCCTGTGCACAGGTAACCATCTT
ATCATGCTGCTTGTCTTTTTCGGACACTGTCTCATAACTTTGTCGTGCAT
TGTCTGTCTGTCTGTCTGGCTGTCTGTCTGGCTGTCTGTCTGGCTGTCTG
GCCGTCTGTCTGTCTGTTTGTGCGTGGGCGCGGTAGGTGGACAGCTGAAC
GACCGCTCTTTCACGGAGAACCAGGTGTGCTCGGTGATGAGCCAGGTGAT
CAGAGCGCTGGTGTACATGCACGAGACGGCCAAGATTTGCCATCGGGACC
TCAAGATGGAGAACATCATGCTAGAGTCTCCGGACGAGCCGCTGGTGGTG
AAGCTGATCGACTTTGGCCTCTCCAAGGTGTTCACGGAGGGCGACAAGAT
GCGAACGGCGTGCGGAACGGTGTACACTATGGCTCCCGAGGTACTGAGCG
GTGCCGGCTACACGCAGAAGGCCGACCTCTGGAGCGCGGGCGTGATAGCC
TTCGTCCTGCTGTGCGGGAGTTTCCCCTTCCTCAAGGACGAGGCCGACCT
CAACGACAAGGATAAGCTGGAGCAGCTGAAACAGGCGCGCTTCCTCTTCA
ACGACCCCGCGTGGAAGGACGTTTCTGCCGGGGGCAAAGATTTCGTGCGC
GGCCTCCTGAAGAAGCAGCCGGGTTTTCGATGGACGGCAAGAGAGGCGCT
AGACCACTGCGCTGACACCTGGGGGCCTACCTTTGTGCGTGCCAGTTATG
CCGATCTAAGCGAGCAGGCCGAGACAGCCGCTGCGGAGAACGCTGCTGAC
AGCAGTATGACCAGAGATGGGACCAGGTGCGCGGCGGGTGCTTGCGCCCC
CCTCTCTCCCAGAGGAACTCCCAGGGGAAGTGTGACGACGAATCCTTCGG
AGCTTTCTCCGGAATCTCCGACCCACGCGTCGCAGAACCGTTTGAGGGCG
GTCAACGGCTCCATTGCCAAATCCCTCAGACGATTCGCTGACTACGGAGA
GCTCAAGAAGGCGGCTCTCATGGTGACCGCGTTTCAGCTCGACAGGGGCG
AGATCAAGCAGCTCAAGGATGCGTTTTTAGAGGTGGATACAAAAGGGAAC
GGCGCCATCAGCTTGGAGGAGCTGCGAACCGTGCTCCGCGAGCATGGGGT
CGACGGAGCCGAGGTGGACAGAGTTTTCGGGGCCGTTGACATGGACAGCA
GCGGTCGCCTTCACTACATGGAGTTCTTGGCGGCCACCATAGAAGCCCGG
GGCTACATCGAGGAGGAGAGCCTCAAAGAGGCCTTCGAGCGGCTAGACGT
GGACTCGACGGGCGTCATCTCCCGCGACAACCTCAAGGCCGTCCTGGGGA
AAACGTACGACAATTCGCTCATCGATAAGATGCTCGAGGAGGGGGACTCG
TCCCTGTCTGGATCGATCGAGTGGGAAGACTTCCTGACCATGATGAGACC
CGTCGTGGCGCAGGAGTACCGCAAGGATGCCGAGGACATGCTGAAAGACT
CTTCCGCCGCCTGTATCGAGGCCGCAGAGGTTGGACGGAGAGCGGTGGAC
CAAACCCCCTCGTACGCTCAAAGCGCAGCAGCGGACAGATCGACACCGCC
ACCTACAAGTGAATCGCCAGAAGGTGGAAACACGCCTCATCAACAGTTGG
GGGCGAAAGGGGGGGCGGGCGAATACTTCCGAAAATGGTGGGCTGAAGTC
TTGTGGAGGACGTCCAGCATCCCCCTGCAGAGGGGGGCTACCTACTTCGA
AGTACAATTTTAG
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