mRNA_P-littoralis_Contig84.43.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig84.43.1
Unique Name	mRNA_P-littoralis_Contig84.43.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A6H5JCH2_9PHAE (Cyclic nucleotide-binding domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JCH2_9PHAE)

HSP 1 Score: 891 bits (2303), Expect = 7.130e-308
Identity = 460/611 (75.29%), Postives = 501/611 (82.00%), Query Frame = 1

Query:  256 PPLDSAAGAGLAGEGITPQEWKALLEAGEVASLEQGQLLMSQGDIYEQPGDREVYLLLSGECRIEVQGKPAGRIATGDFVGEASFTSGRPTPRTATVRANSPDTRVAAWTWDALREFMDRPGNLRTKAALQAYWMTGLAIKLNDVMSALGGRPVVDAAEEAH-KVGDYGYRYLEDMREVDSIVPVSAVTLAWWTFAREYRALRRTFRFGEFKDTGIAVPFSRIDRFLETSVFPVLRPSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAATPRWDEDAAAELGFEEDDGDGVKSXXXXXXXXXXXXXXXXXXXGRNEINGLEGSSLRTDVARKTPLEVFSSAFDPLRKLAEAVEKEEV---PRNG 2076
            PPLDS AGAGLA EGI+ +EW ALL+ GEV SL+  +LL+SQGD Y++PGDR++YLLL GEC+IEV+GKP   IA GDFVGEASFTSGR  PRTATVRA S + RV AWTW  L+ FMD P NLRTKAALQA WM GLA KLNDVMSALGG+ VV+  EE   + GDYGYRYLED +EV+SIVP+SA TLAWWTF REYRALRRTFRFGEFKDTGIA PFS IDRFLETSVFPVLRPSRVDLP+DP+VVDLQ RL ELKLSNKAIEDRETARIAATKA LEDE+RKG+R AG ILRSQTPWYVM PYK LCWFLD+VFEDRPIQRFWFLETVARMPYFSYLSMLFL+ETLGWWSG AEVRK+HFAEEYNEM HLRIMESLGGDT+WSDRFLARHAAIIY+ VL LGYLVSPFLAYNFSELIESHAVDTYTEFAE NKELL SLP TPQALDYY GGDMYLFDEFQTSRPAFSRRP I+NLYDVFS IRDDELEHVKTMFACERG G L SPNAAAATPRW E+    +          K+                   G     G +   LRTD+ARKTPLE F++AFDPLR+LA+A E+ +V   PR G
Sbjct:   99 PPLDSPAGAGLAKEGISEREWAALLKVGEVVSLKGSELLISQGDTYDEPGDRQLYLLLDGECQIEVKGKPVASIAPGDFVGEASFTSGRVQPRTATVRAKSDEIRVMAWTWRDLQAFMDNPKNLRTKAALQAIWMEGLAGKLNDVMSALGGQSVVELREEDKTQAGDYGYRYLEDTQEVESIVPISASTLAWWTFTREYRALRRTFRFGEFKDTGIAGPFSLIDRFLETSVFPVLRPSRVDLPQDPDVVDLQNRLKELKLSNKAIEDRETARIAATKAFLEDESRKGLRAAGYILRSQTPWYVMAPYKALCWFLDVVFEDRPIQRFWFLETVARMPYFSYLSMLFLYETLGWWSGAAEVRKVHFAEEYNEMQHLRIMESLGGDTRWSDRFLARHAAIIYFFVLILGYLVSPFLAYNFSELIESHAVDTYTEFAEANKELLQSLPPTPQALDYYHGGDMYLFDEFQTSRPAFSRRPRIKNLYDVFSCIRDDELEHVKTMFACERGTGTLPSPNAAAATPRWAEEVTPTM---------PKTIAPNTRRNTVKRVGNDDAGGGGR--GGDSDKLRTDIARKTPLEAFTAAFDPLRELAKAAEESDVTEKPRGG 698

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A835YR99_9STRA (Alternative oxidase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YR99_9STRA)

HSP 1 Score: 459 bits (1182), Expect = 2.950e-142
Identity = 275/581 (47.33%), Postives = 343/581 (59.04%), Query Frame = 1

Query:  259 PLDSAAGAGLAGEGITPQEWKALLEAGEVASLEQGQLLMSQGDIYEQPGDRE---VYLLLSGECRIEVQGKPAGRIATGDFVGEASFTSGRPTPRTATVRANSPDTRVAAWTWDALREFMDRPGNLRTKAALQAYWMTGLAIKLNDVMSALGGRPVVDAA--EEAHKVGDYGYRYL-EDMREVD--SIVPVSAVTLAWWTFAREYRALRRTFRFGEFKDTGI------AVPFSR----IDRFLETSVFPVLR----------PSRVDLPKDPEVVDLQRR-LGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQA------------------LDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAATPRWDEDAAAELGFEEDDGD 1860
            P+ S   A L   G+TP+ W  LL  G     + GQLL+ +G   E+  D+E   VYL+L G   +EV+G+    +  G F GEASF S R  PRTAT+R  SP      W    L + +  P N   K AL AYW   LA KL   M  L   P    A  +       YG+R   + + E    ++VP  A+ LA   FA +Y A+RR FRFGE    G+      A P S+    +D  L+  V P L+                P   E ++ +R  L +L LSN+AI  RE  R+A  +A +  + R G+  A +I RS TPW+V+  YK+LCW LD VFE RPIQRFWFLE+VARMPYFSYLSML L+ETLGWWS G EVR++HF+EE+NEM HL+IME+LGGD +WSDRFLARHAAI+YY  L + +L SPFLAYNFS+LIESHAVDTY EF E NKELL SLP  P+A                  + YY GGDMY+FDEFQ+  PAF+RRP I +LYDVF +IRDDE EHVKTMFACER    + SPN  AA   W++        +EDD D
Sbjct:    6 PITSDKFASLVQAGVTPECWLTLLSKGTKKIFQAGQLLLEEGT--EKSLDQERRGVYLVLEGTVHLEVKGRKLTALGPGTFGGEASFVSKRKGPRTATLRVTSPQALAVRWDTADLEQLLAEPENAVLKMALYAYWTQELATKLTSAMRRLEAPPGAQGAPSQAMALARSYGFRRSPKALAEAPDHAVVPPPAIALALKNFAIQYAAVRRGFRFGEISSDGVRTRDPNANPLSKLFGVVDAQLDNLVLPKLKIFSTAREVAIAEAEAQPGGREALEARRAALRQLTLSNEAIARREDERMARFEAFVRSQARAGLGIAADIQRSDTPWFVLAGYKLLCWMLDFVFEGRPIQRFWFLESVARMPYFSYLSMLHLYETLGWWSVGTEVRRVHFSEEWNEMNHLKIMEALGGDMRWSDRFLARHAAIVYYWALNILFLFSPFLAYNFSKLIESHAVDTYGEFVETNKELLQSLPPPPEAXXXXXXXXXXXXXXXXXAVAYYVGGDMYMFDEFQSGTPAFTRRPVINSLYDVFCNIRDDEREHVKTMFACEREGELVRSPNELAARAIWED-------VDEDDAD 577

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A0G4F067_VITBC (Uncharacterized protein n=3 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4F067_VITBC)

HSP 1 Score: 372 bits (954), Expect = 7.980e-110
Identity = 228/475 (48.00%), Postives = 284/475 (59.79%), Query Frame = 1

Query:  499 EASFTSGRPTPRTATVRANSPDTRVAAWTWDALREFMDRPGNLRTKAALQAYWMTGLAIKLNDVM-SALGGRPVVDA------------AEEAHKVGDYGYRYLEDMREVDSIVPVSAVTLAWWTFAREYRALRRTFRFGEFKD-TGIAV------PFSRIDRFLET---------SVFPVLR--PSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQ---------TPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALT-SPNAAAA 1800
            ++S  SG   P  A V A  P T ++ W  D L EF+   G    KAAL   W   L  K   V  +A GG   ++A             EE  +   YGYR  +D+  +D  VP +  ++  W F RE+ A+RR  RFG+    +G A       PF+ I R L           + F V R  PS+V  P D   + L++ L  L+L N A+  RE  R+   K LLE    K        L            +P  + +PY  LCW LD+++ +RPIQRFWFLETVARMPYF+Y+SML L+ETLGWW  G EVRK+HFAEE+NEM HL IMESLGGD  W DRFLARHAAI+YY VL L +L+SP  AYNFSELIE HAVDTY +F   NK++L  LPA   A++YY+ GD+Y+FDEFQTSRPA SRRP I NLYDVF++IRDDELEHVKTM AC+R + A+  SPNAAAA
Sbjct:  175 DSSSNSGSSKPA-ARVFAQQPVTYIS-WEVDRLNEFL--AGRPALKAALTNLWTAELIQKARAVPPAARGGALEIEAHDAWDADKDLQRLEEWREAAAYGYRDDKDLGPLDMAVPANGWSMGVWNFKREWLAIRRAIRFGDMAPASGWANAEAGDGPFAGIVRILRRWDLNLDDVLATFNVQRLTPSKVQNPTDENTIRLRQELSRLRLDNDAVWRREEERVEKMKFLLEKHKDKQSAPPDTDLAVDYDTIKTYFNSPLLLKIPYLFLCWLLDVLYNERPIQRFWFLETVARMPYFAYISMLHLYETLGWWRVGTEVRKVHFAEEWNEMHHLFIMESLGGDQAWLDRFLARHAAIVYYWVLILLFLISPTWAYNFSELIEWHAVDTYGQFVSQNKQILKRLPAPAVAMEYYKSGDLYMFDEFQTSRPAQSRRPQINNLYDVFTTIRDDELEHVKTMSACQRLEAAMVMSPNAAAA 645

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A4D9CVG3_9STRA (Uncharacterized protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9CVG3_9STRA)

HSP 1 Score: 370 bits (950), Expect = 1.630e-109
Identity = 224/506 (44.27%), Postives = 296/506 (58.50%), Query Frame = 1

Query:  409 REVYLLLSGECRIEVQGKPAGRIATGDFVGEASFTSGRPTPRTATVRANSPDTRVAAWTWDAL--REFMDRPGNLRT-KAALQAYWMTGLAIKLNDVMSAL--GGRPVVDAAEEAHKV--GDYGYRYLEDMR------EVDSIVPVSAVTLAWWTFAREYRALRRTFRFGEFK----------------DTGIAVP------FSRIDRFLE-TSVFPVLRPSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAATPRWDE 1818
            RE++ LL G+ RI+V+G+   R+  G   G A +         A         R      D    R  +++    RT + AL  YW+  L+ KL D M       RP  DA E+  +   GD+GYR             +   +P  A  LA W   REY+A+RR+ RF ++                 D G  +       F+ +D+ LE   +FP LRP +  + + PE                AI  RE  R      L+++   +G+  A  + +S+TPW+V++PY  LC FLD V+E RP+ RFWFLETVARMPYFSY+SML L+ETLGWW+ G +VR++HFAEE+NE+ HL+IMESLGGD +W DRFLARH+AI YY VL L +L+SP LAYNFSELIESHAVDTY++F + N++LL  LPA   ALDYY  GD+Y+FDEFQT+RP  +RRP IR+LYDVFS+IRDDE EHVKT+ AC+     + SPNAAAA   W E
Sbjct:  115 RELFFLLDGQVRIQVRGQKVARL--GGETG-AHYLVWNQAKLLAFFEG-----RTEGGDEDGFFRRNLLNQDEKRRTLRNALNEYWVQQLSKKLADTMDTYERSWRPT-DALEDDERQFEGDFGYRNQSAFGVSGPADALSKAIPAGAFELARWNVGREYQAIRRSVRFEDYAKLPQNQKTLLQDRSSLDPGAVLRKVTLGIFATLDKTLEWLEIFPRLRPPKASINRSPE----------------AITRREEIRREIQMDLIDEAQAQGVSVAAKMKQSETPWFVLLPYYALCAFLDAVYEGRPLARFWFLETVARMPYFSYISMLHLYETLGWWTIGTDVRRVHFAEEWNELHHLQIMESLGGDARWLDRFLARHSAIAYYWVLNLMFLISPRLAYNFSELIESHAVDTYSQFLDENEDLLRRLPAPRVALDYYVMGDLYMFDEFQTTRPVQTRRPLIRSLYDVFSAIRDDESEHVKTINACQVADEVILSPNAAAAHAAWAE 595

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A0G4EY52_VITBC (Uncharacterized protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4EY52_VITBC)

HSP 1 Score: 359 bits (922), Expect = 1.280e-107
Identity = 203/389 (52.19%), Postives = 249/389 (64.01%), Query Frame = 1

Query:  730 EEAHKVGDYGYRY--LEDMREVDSIVPVSAVTLAWWTFAREYRALRRTFRFGEFK-DTGIAV------PFS-----------RIDRFLETSV-FPVLRPSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLED----ETRKGIRDAGNILRSQT-------PWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAA 1800
            EE+ K G YGY Y  ++DM  ++  VP +   +  W F RE+ A+RR  R+G+   ++G A       PF+            I+  L TS   P L PS+V  P D E + L++ L  L L +  +  RE  R+   K LLE     +T K   D G  +  QT       P  + VPY  LCW LD ++  RPIQRFW LETVAR+PY SY+SML L+ETLGWW  G EVR++HFAEE+NEM HL IMESLGGD  W DRFLARHAAI+YY V+   +L+SP  AYNFSEL+E HA DTY EF E NK+ L  LPA   AL+YY GGD+YLFDEFQ+SRPA SRRP I NLYDVF +IRDDELEHVKTM AC+R + A+ SPNAAAA
Sbjct:   79 EESRKAGHYGYTYDDMKDMGPLEMAVPANGWRIGVWNFQREWLAIRRAIRYGDMAPESGWANAPGGDGPFAGLLNVLRQWDKNIEDVLATSFNVPRLTPSKVQHPTDEETIRLRQELSRLSLDDDGVIRREEERVEKMKFLLEKYKDMDTSKYPADTGLEIDLQTIQTYFNAPLLIKVPYLFLCWLLDRLYAGRPIQRFWTLETVARIPYMSYISMLHLYETLGWWRVGVEVRRVHFAEEWNEMHHLFIMESLGGDQAWFDRFLARHAAIVYYWVVIFLFLISPTWAYNFSELVEWHATDTYAEFVEQNKDRLKRLPAPAVALEYYNGGDLYLFDEFQSSRPAESRRPNIDNLYDVFVTIRDDELEHVKTMSACQRLESAMKSPNAAAA 467

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A7S1KCS9_9ALVE (Hypothetical protein n=1 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A7S1KCS9_9ALVE)

HSP 1 Score: 344 bits (882), Expect = 1.480e-103
Identity = 190/351 (54.13%), Postives = 229/351 (65.24%), Query Frame = 1

Query:  829 WTFAREYRALRRTFRFGEFKD-TGIAV------PFSRIDRFLET---------SVFPVLR--PSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQ---------TPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAA 1800
            W F RE+ A+RR  RFG+    +G A       PF+ I R L           + F V R  PS+V  P D   + L++ L  L+L N A+  RE  R+   K LLE    K        L            +P  + +PY  LCW LD+++ +RPIQRFWFLETVARMPYF+Y+SML L+ETLGWW  G EVR++HFAEE+NEM HL IMESLGGD  W DRFLARHAAI+YY V+   +L+SP  AYNFSEL+E HA DTY EF E NK+ L  LPA   AL+YY GGD+YLFDEFQ+SRPA SRRP I NLYDVF +IRDDELEHVKTM AC+R + A+ SPNAAAA
Sbjct:    4 WNFKREWLAIRRAIRFGDMAPASGWANAEAGDGPFAGIVRILRRWDLNLDDVLATFNVQRLTPSKVQNPTDENTIRLRQELSRLRLDNDAVWRREEERVEKMKFLLEKHKDKQSAPPDTDLAVDYDTIKTYFNSPLLLKIPYLFLCWLLDVLYNERPIQRFWFLETVARMPYFAYISMLHLYETLGWWRVGVEVRRVHFAEEWNEMHHLFIMESLGGDQAWFDRFLARHAAIVYYWVVIFLFLISPTWAYNFSELVEWHATDTYAEFVEQNKDRLKRLPAPAVALEYYNGGDLYLFDEFQSSRPAESRRPNIDNLYDVFVTIRDDELEHVKTMSACQRLESAMKSPNAAAA 354

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A1Y1HI87_KLENI (Ubiquinol oxidase n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1HI87_KLENI)

HSP 1 Score: 339 bits (870), Expect = 1.030e-99
Identity = 188/372 (50.54%), Postives = 239/372 (64.25%), Query Frame = 1

Query:  751 DYGYRYLEDMREVDSIVPVSAVTLAWWTFAREYRALRRTFRFGEFK-------DTG-IAVPFSRIDRFL------------ETSVFPVLRPSRVDLPK-DPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAAT 1803
            DYG++         + VP + + LA   FARE++ALRR  RF +         D G +A+  + + RFL            +T ++  L    ++ P  + E+ +L+++L +LKLSN  + +RE +R A                       + PWY++ PY  LC  LD++F  RPIQRFWFLETVARMPYFSY+SML L+ETLGWW  GAEVRK+HFAEE+NEM HL+IMESLGGD QW DRF  +HAA  YY +L   +LVSP +AYNFSELIE HAVDTY EFAE NKELLMSLP +P A++YY G D+Y+FDEFQTSR   +RRP + NLYDVF +IRDDE EHVKTM AC+ G   + SPN   AT
Sbjct:  184 DYGFQ--ATFLASGTSVPGNVIDLALTNFAREWKALRRNVRFTQLSNPEEDDIDRGPVALALAYVGRFLLDQARILDRVLTKTGLYAKLT---IEGPAGNAEMDELRKKLSQLKLSNDKVWERERSRPAV----------------------EAPWYILGPYYFLCLILDVIFNGRPIQRFWFLETVARMPYFSYISMLHLYETLGWWRVGAEVRKVHFAEEWNEMHHLKIMESLGGDNQWVDRFFGQHAAFFYYWILNFLFLVSPKVAYNFSELIEFHAVDTYEEFAEANKELLMSLPPSPVAVEYYRGEDLYMFDEFQTSRRPATRRPKVDNLYDVFCNIRDDEFEHVKTMVACQDGGQPIISPNRIRAT 528

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A7S3XP24_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XP24_HETAK)

HSP 1 Score: 329 bits (843), Expect = 1.830e-97
Identity = 185/340 (54.41%), Postives = 224/340 (65.88%), Query Frame = 1

Query:  841 REYRALRRTFRF-----------GEFKDTGIAVPFSRI--DRFLETSV--FPVLRPSRVDLP-KDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAATPRW 1812
            RE+ ALRR+FRF           G F +   A+    I  D +LE +   +  L  S+     +DPEV  L+  + +L L N AI  RE  R AA +A +      G   A  +  S TPW ++ PY  LCW LD +F+ RPIQRFWFLET+ARMPYFSYLSML L+ETLGWW+ G EVRK+HFAEE+NE+ HL+IM+SLGGD  W+DRF ARHAAI+YY +L L + VSP  AYNFSELIE HAVD+Y +F E N+ELL  LP    A+DYY  GDMYLFDEFQTSR   SRRP I NLYDVF +I +DELEHVKT+ AC+     L SPN AAA   W
Sbjct:    1 REFNALRRSFRFAKQVEDEKKAGGVFSEINKAILSQTIKNDIWLENNFDWYTKLAESKDQTAAQDPEVARLRAGINQLVLDNAAIWRREEDRRAALRARVLAAPLVG--QAQKLRLSTTPWLILAPYYFLCWVLDFIFDGRPIQRFWFLETIARMPYFSYLSMLHLYETLGWWTVGEEVRKVHFAEEWNELRHLKIMQSLGGDAAWADRFFARHAAILYYWLLNLMFSVSPRAAYNFSELIEFHAVDSYGQFLEENEELLRRLPPPKAAVDYYMSGDMYLFDEFQTSRAPRSRRPKINNLYDVFRNIMEDELEHVKTVTACQISDN-LGSPNLAAADGTW 337

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A7S3XP26_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XP26_HETAK)

HSP 1 Score: 329 bits (843), Expect = 3.870e-97
Identity = 185/340 (54.41%), Postives = 224/340 (65.88%), Query Frame = 1

Query:  841 REYRALRRTFRF-----------GEFKDTGIAVPFSRI--DRFLETSV--FPVLRPSRVDLP-KDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAATPRW 1812
            RE+ ALRR+FRF           G F +   A+    I  D +LE +   +  L  S+     +DPEV  L+  + +L L N AI  RE  R AA +A +      G   A  +  S TPW ++ PY  LCW LD +F+ RPIQRFWFLET+ARMPYFSYLSML L+ETLGWW+ G EVRK+HFAEE+NE+ HL+IM+SLGGD  W+DRF ARHAAI+YY +L L + VSP  AYNFSELIE HAVD+Y +F E N+ELL  LP    A+DYY  GDMYLFDEFQTSR   SRRP I NLYDVF +I +DELEHVKT+ AC+     L SPN AAA   W
Sbjct:    1 REFNALRRSFRFAKQVEDEKKAGGVFSEINKAILSQTIKNDIWLENNFDWYTKLAESKDQTAAQDPEVARLRAGINQLVLDNAAIWRREEDRRAALRARVLAAPLVG--QAQKLRLSTTPWLILAPYYFLCWVLDFIFDGRPIQRFWFLETIARMPYFSYLSMLHLYETLGWWTVGEEVRKVHFAEEWNELRHLKIMQSLGGDAAWADRFFARHAAILYYWLLNLMFSVSPRAAYNFSELIEFHAVDSYGQFLEENEELLRRLPPPKAAVDYYMSGDMYLFDEFQTSRAPRSRRPKINNLYDVFRNIMEDELEHVKTVTACQISDN-LGSPNLAAADGTW 337

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BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Match: A0A2K1IAY0_PHYPA (Ubiquinol oxidase n=3 Tax=Physcomitrium patens TaxID=3218 RepID=A0A2K1IAY0_PHYPA)

HSP 1 Score: 323 bits (829), Expect = 1.120e-94
Identity = 179/364 (49.18%), Postives = 227/364 (62.36%), Query Frame = 1

Query:  754 YGYRYLEDMREVDSIVPVSAVTLAWWTFAREYRALRRTFRFGEFK------------------DTGIAVPFSRIDRFLET-SVFPVLRPSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKALLEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFLETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMESLGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTYTEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRNLYDVFSSIRDDELEHVKTMFACERGKGALTSPN 1788
            + Y +          VP + V LA+  F RE+R+LRRT  F E K                    G+ +    +D+FL        L+P   +  ++ E  +L+  L +L LSN+A+ DRE AR                         + PW+++ PY +LC  LD++F DRPIQRFWFLETVARMPYFSY+SML L+ETLGWW  GAEVRK+HFAEE+NEM HLRIMESLGGD +W DRF A+HAA  YY VL L +L+SP +AYNFSELIE HAVDTY EFA+ N+ELL +LP  P AL+YYE  D+Y++DEFQTS+   +RRP I NLYDVF +I  DELEHVKTM AC+     + SP+
Sbjct:  130 FNYGFQAKFLRTGPSVPGNVVKLAFENFGREWRSLRRTILFTELKRIDPSKLNGPLEIVTAYTGRGLFLFLRGLDKFLTLYDGLMELKPLETN-GENLEQDELRAALKKLTLSNQAVWDRENARPPV----------------------EAPWWILGPYYLLCLMLDVIFNDRPIQRFWFLETVARMPYFSYISMLHLYETLGWWRIGAEVRKVHFAEEWNEMHHLRIMESLGGDLEWGDRFFAQHAAFFYYWVLNLMFLISPKVAYNFSELIEMHAVDTYGEFADANEELLKTLPPPPAALEYYESEDLYMYDEFQTSQAPETRRPKINNLYDVFKAISGDELEHVKTMSACQTLDMPIKSPH 470

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig84.43.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5JCH2_9PHAE	7.130e-308	75.29	Cyclic nucleotide-binding domain-containing protei...	[more]
A0A835YR99_9STRA	2.950e-142	47.33	Alternative oxidase n=1 Tax=Tribonema minus TaxID=...	[more]
A0A0G4F067_VITBC	7.980e-110	48.00	Uncharacterized protein n=3 Tax=Vitrella brassicaf...	[more]
A0A4D9CVG3_9STRA	1.630e-109	44.27	Uncharacterized protein n=1 Tax=Nannochloropsis sa...	[more]
A0A0G4EY52_VITBC	1.280e-107	52.19	Uncharacterized protein n=2 Tax=Vitrella brassicaf...	[more]
A0A7S1KCS9_9ALVE	1.480e-103	54.13	Hypothetical protein n=1 Tax=Vitrella brassicaform...	[more]
A0A1Y1HI87_KLENI	1.030e-99	50.54	Ubiquinol oxidase n=1 Tax=Klebsormidium nitens Tax...	[more]
A0A7S3XP24_HETAK	1.830e-97	54.41	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
A0A7S3XP26_HETAK	3.870e-97	54.41	Hypothetical protein n=1 Tax=Heterosigma akashiwo ...	[more]
A0A2K1IAY0_PHYPA	1.120e-94	49.18	Ubiquinol oxidase n=3 Tax=Physcomitrium patens Tax...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig84	contig	P-littoralis_Contig84:295916..315784 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FVT3
PFAMs	AOX
Model size	4176
Max annot lvl	2759\|Eukaryota
KEGG rclass	RC00061
KEGG ko	ko:K17893
KEGG Reaction	R09504
Hectar predicted targeting category	other localisation
Exons	11
Evalue	0.0
EggNOG OGs	2CMS2@1\|root,2QRMM@2759\|Eukaryota
EC	1.10.3.11
Description	ubiquinol:oxygen oxidoreductase activity
Cds size	2268
COG category	C
BRITE	ko00000,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig84.43.1	prot_P-littoralis_Contig84.43.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig84 295955..313915 +

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


Feature Name	Unique Name	Species	Type	Position
1680791703.9042084-UTR-P-littoralis_Contig84:295915..295954	1680791703.9042084-UTR-P-littoralis_Contig84:295915..295954	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig84 295916..295954 +
1680791704.0693817-UTR-P-littoralis_Contig84:313915..315784	1680791704.0693817-UTR-P-littoralis_Contig84:313915..315784	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig84 313916..315784 +

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


Feature Name	Unique Name	Species	Type	Position
1680791703.9234824-CDS-P-littoralis_Contig84:295954..296417	1680791703.9234824-CDS-P-littoralis_Contig84:295954..296417	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 295955..296417 +
1680791703.9395792-CDS-P-littoralis_Contig84:303102..303236	1680791703.9395792-CDS-P-littoralis_Contig84:303102..303236	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 303103..303236 +
1680791703.9521294-CDS-P-littoralis_Contig84:303433..303568	1680791703.9521294-CDS-P-littoralis_Contig84:303433..303568	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 303434..303568 +
1680791703.9651866-CDS-P-littoralis_Contig84:305283..305450	1680791703.9651866-CDS-P-littoralis_Contig84:305283..305450	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 305284..305450 +
1680791703.9767528-CDS-P-littoralis_Contig84:306470..306727	1680791703.9767528-CDS-P-littoralis_Contig84:306470..306727	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 306471..306727 +
1680791703.9892416-CDS-P-littoralis_Contig84:308177..308235	1680791703.9892416-CDS-P-littoralis_Contig84:308177..308235	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 308178..308235 +
1680791704.005682-CDS-P-littoralis_Contig84:309098..309195	1680791704.005682-CDS-P-littoralis_Contig84:309098..309195	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 309099..309195 +
1680791704.0233333-CDS-P-littoralis_Contig84:310345..310462	1680791704.0233333-CDS-P-littoralis_Contig84:310345..310462	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 310346..310462 +
1680791704.033592-CDS-P-littoralis_Contig84:310992..311121	1680791704.033592-CDS-P-littoralis_Contig84:310992..311121	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 310993..311121 +
1680791704.043151-CDS-P-littoralis_Contig84:312333..312443	1680791704.043151-CDS-P-littoralis_Contig84:312333..312443	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 312334..312443 +
1680791704.0544088-CDS-P-littoralis_Contig84:313314..313915	1680791704.0544088-CDS-P-littoralis_Contig84:313314..313915	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig84 313315..313915 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig84:295916..315784+
coding sequence from alignment at P-littoralis_Contig84:295916..315784+

protein sequence of mRNA_P-littoralis_Contig84.43.1

>prot_P-littoralis_Contig84.43.1 ID=prot_P-littoralis_Contig84.43.1|Name=mRNA_P-littoralis_Contig84.43.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=756bp
MFSSPPHGRRERKSCKGRLGSASSSSGGGGGRTRYMNTRMMMMMMSATNR
ASAAGPETAAEPNKGEDTTGLLPPLDSAAGAGLAGEGITPQEWKALLEAG
EVASLEQGQLLMSQGDIYEQPGDREVYLLLSGECRIEVQGKPAGRIATGD
FVGEASFTSGRPTPRTATVRANSPDTRVAAWTWDALREFMDRPGNLRTKA
ALQAYWMTGLAIKLNDVMSALGGRPVVDAAEEAHKVGDYGYRYLEDMREV
DSIVPVSAVTLAWWTFAREYRALRRTFRFGEFKDTGIAVPFSRIDRFLET
SVFPVLRPSRVDLPKDPEVVDLQRRLGELKLSNKAIEDRETARIAATKAL
LEDETRKGIRDAGNILRSQTPWYVMVPYKILCWFLDLVFEDRPIQRFWFL
ETVARMPYFSYLSMLFLFETLGWWSGGAEVRKIHFAEEYNEMMHLRIMES
LGGDTQWSDRFLARHAAIIYYLVLTLGYLVSPFLAYNFSELIESHAVDTY
TEFAEVNKELLMSLPATPQALDYYEGGDMYLFDEFQTSRPAFSRRPTIRN
LYDVFSSIRDDELEHVKTMFACERGKGALTSPNAAAATPRWDEDAAAELG
FEEDDGDGVKSSSRGGGGRPTTTTTAAAAGGRNEINGLEGSSLRTDVARK
TPLEVFSSAFDPLRKLAEAVEKEEVPRNGAGAAAAVGGGEEHRPAAVLNG
AREGGEEGQQREEEGVEDGGVVAATKNGGEGIGKRIPSSSDSGENLSENR
SEESV*

mRNA from alignment at P-littoralis_Contig84:295916..315784+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig84.43.1 ID=mRNA_P-littoralis_Contig84.43.1|Name=mRNA_P-littoralis_Contig84.43.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=19869bp|location=Sequence derived from alignment at P-littoralis_Contig84:295916..315784+ (Pylaiella littoralis U1_48)
TCTATCTGCACCCCAGGAACGACCACCAAGTCGACGGCAATGTTTTCTTC
TCCCCCCCACGGACGCCGGGAGCGAAAATCTTGCAAGGGCCGCTTGGGGA
GTGCAAGCAGCAGCAGCGGCGGTGGCGGCGGCAGGACGAGGTATATGAAC
ACAAGGATGATGATGATGATGATGTCGGCAACAAATAGAGCGAGTGCCGC
AGGCCCTGAAACAGCAGCTGAGCCGAACAAAGGGGAAGATACCACAGGCC
TTCTTCCCCCGCTAGACTCTGCTGCAGGTGCGGGTCTAGCGGGCGAGGGA
ATCACGCCGCAGGAGTGGAAAGCTCTGCTCGAGGCGGGCGAGGTGGCTTC
CCTGGAGCAGGGGCAGCTCTTGATGTCGCAGGGAGATATTTACGAACAGC
CGGGCGACCGCGAGGTGTATCTCCTTTTGAGCGGGGAGTGTCGGATAGAG
GTGCAGGGCAAGCCGGCCGGGCGGATCGCAACGGGAGACTTCGTCGGTGA
AGGTGAGAGATGTCTCATCGCTCAGATGGACGGACACACATGGTAACTGA
CACCAGTTGGAGCAATAAGAGGCCGAACTGGCAGTGAAAGAGCAGCAGCA
AGTAGCAGCAGCAGCGATGTCGGATATCACCGTCGTACCAGCACGATCGA
GCGTCCTTCGTCTGATAGTTTCGGCTGCTGGATCTCTGAATCTGTGAATG
TAAATGTATGTACATATAACCATCCATAATACGCTGTCGTACGTTTGTCT
GACGAACGGTAAATCGAAGTACGTAAGCACACACCCTCTTTCAGATCTCT
AATCTCCGATGTCTAGCCTCTACAGCGTAATCTAAGAAGTAGTCACCACT
CTTCGAACCGACACGCATTTGAGCGCGTACAGCAGTACGTGTTTACGCTC
GCGGCAGGCGCCAGGCTGCGGGAGGGACCACAGAGTATGTGATGAAGGCC
CCATATTTACGGTACAGCAGTACGTAGAAGGGCAGAAAACAAGTCGAGGC
TGGGAAAACGAAAAAAGCTTCCTTCTCGGATCAAAAAGGAAGGAAATCCC
GTTGTTCTATAAAATAAGAGGCTTCTCAAATATCACATGTTGAAAAGTTG
AAAAAAGAGAGCCTTTCAAGTACTGCTGCAAGACAACATTTCCAACACGC
TTTTTTGAAGCACTCGATGATGGTATCATATGTGATCGAGAAACCACACA
GCGCATGTGGTCGAAAAAGGCTCAAAACTCAAAATAAAAATCTCGGCTCT
TTTCTGGGGGCAGTTTGATCGTTCCACATCAACTTCGCCCTGTAAGGCTG
TTTCTTACGGTCAAAGTTATTTCGGCCTGGCGTTTTGACCCCCCTTCAAG
AATCCAACCAGAGAACCCCCCTACCCCCCCCACCGGCGCCCGGGAATCTG
CCAACGTTGGCAGATGGGAAATCTCCTGCTACAATTTAGTTTCTAATTTC
TGTTGGAGGAAGACACGCTCTGACACGCTCTAGACACGCATAGGCCTAGG
AAACCCCAGCTGTCACGGGCGCCGGGCCCAACCCAACCCAAACCCCTAAC
CCTAACCCTAACCCTAACCAGAGGCCTAAGCTTGGTTGGTGGGCATTGGC
AAGGTTCTAGGTCGCTGTAGCGGTGAAACGCGTTGCTTGGTTGGTGGGCA
TGGGTAAGGTTTTAGGTCGCTGTACTGTAGCGGTGAAACGCGTTGTTGGC
AGGAGATTTCCCATCTGCCAACGTTGGCAGATTCCCGGGCGCCCCCCCCC
CCCACCCGCAAACAGCCCTGTTGCACACATCATGCGACAGCACCAATCAA
AACTCGACCTAGGACACAGATGCCGATCAAACCTGATGGAGCGTGCACTC
CTATGTTCTCCTCAAGTTGGCCACAGGAAGTTTGGTGGCAGTGGGTTCGG
GCTATGTCGAGATTTTGGCGGCGGTGTGTGTTGGAGATGGAAAAACAGAT
GAAACGAAATAACAGACTTAGCTCCTGTTTTTCCGGCCAAAAAACACGCT
CGGGCAGATCTTTTTTCTTCACCGGATTTTCCTACATCAACCCACTCCGC
CGCCGAAACCTCGCCACAGCCAAAGCCCACACCCACCAAATTTTCTGTGG
CCAACCTGAGGACACTAGAGCGTACCGTCCAACACTTTACAGTCTAGCTT
GTAATTCTCAAATGAACGAGGCCACAGCAATCCCAAAGCCATCTTCCGTG
AGCTGTGCGTATGGTTCTTCTCATGTGATGGTCGTTCAAGCCCTGGAGGG
GTGGGTAGGCTCACAACAAGGTTGGTTGTTGATGGTGAAATGTGTCAAAC
ATACCCGAAAAAAAAATACAAGAAAAAGGTGCCGTTGCTCCGCGTAGCCG
AAGAGGTATTTTTCGCCTGTGGCACCGGTTTGCTTTCTCATCCACCACTC
CCGAACGGATGCAACCACAGCAATGCCAAAGGCATCTGCCGTGAGCTGTG
TGCTTGGTCCTTGTCGTGTGGTGATCAATTAGGTTAGGGTTAACATCGGT
AGGTCCGCAAAAAACGGTTCGCTTGTCTCAAACCACACGGGGAACAGTTC
AAGAAAGCCCTACCTACCGGTCAGCGTCTCTGTACAGCAGTACATACAAC
AGAACAGCTTCATTTTCTCTGGTAGTTTCTAACTCATGTGATTGTCACGA
GTAAAGTTGTTTGCGAGCCTACCGATGCTTTGCGGGCCCAAACAATCATC
ACACGAGAGGGATCACACACAAAGGTCACGGCAGATGCCCTTGTCAAAGC
TGTCGCTGCATTCGTTCGAGAGTAGTAGTAGTAGTAGTGGTGGGTGAGAA
CGCAAACCGTTACCAGGGGAAAAGGACCAGCTGGCTGGGCGGCGCCATGT
AACAATGTGAGGGCAAAGGAAAACAGGAACCTGTCACACCCGGCACGTGC
TTCATGGACAGCAGGAGCAGCAGCAGTGCCTCTCCTCCCCTGCTGTTGTT
GCTCTCCTTGCTTGGGTTGGTGGCTTTGAAGGAGTGTTGTGGTGTGGTGC
ATGCATTAGATAGCGCACGTGTGTACGTAAACATGTCTGTGCGTCTGCGT
GTGCGTGTACGTCTTCGTGTTGTGTGTGTGTGTGATGATAACGGCAAGTC
ACCAACATATCTTTGTGAAAGCACAGAAACGAGAGAAGACCCAAGCACAA
CATTTCCGATCGCAAAAATCGATCGGTTGACCGCGTCGAAAATCCCTCAG
ATTTCCGACAGCATTCTGATCGACATTGTCTCTTCGGAAATCTCAGATTG
AAAATGGGGACATTTTCGTCTCCGTTAGACATGAAATTTTGCTCTCCATC
GAAAATAGGGGAAAATTGATCGGCATTTTCAACCTTATAAGAAACCGCCT
AATACTTGTAGCTGTATCGGATTTCTCTTTTTTTTGCACGCGTCATCAAT
GTCATCAATGCCTGAAATTTGTTTTCGCTAACCTTTGGATGCCTCGCGGC
CTTAGACGGGGGACACTGCTGCGGTGGTCATATCTAAGGCCGCGAGGTAT
CGATGGTCTACCAACGGTGCAGGCTATCAGAAATGAAAAATCTGACGAGG
TTCGGGGGTATCAAACTTTCAGAAGAAATGAGATCGGAGACCGCTCTTTC
TGATCACGTAAAATTTCCGATCTCTGATCAATGTTGAAGACGCTCCTTTT
AGATATCGAGTCCGGTTTTTGACATTGACACGCCAACAAGGGTGTTTTTT
TTTGGGGGCAGTCACTACGGACCTGGCACTACGGTTAGGGAGAGAAAAGG
GGATGAGCGAGAGCACCACCATTTGCGATGTGGCTTTTGAACGGAGGTAA
CGTTCACGTTTTCGCTTATATCTCGCCCAAATCCTGACGAGATTCCCCCA
CCAGCTGCAACGACACAGCAGATGCATGCCTTTCTACGGAAAAGCCCTGA
CGCTCCAAGCAGTGCCGTGTAAAACGTGGCGGAAAACCAGTTTGGAACGG
CTGTAACCCTCTCCCGCACGGCGAAAGAGGTATTAATACCGACTGCTATT
TGAATTAATTTCTGGAATAATGGCTGATGACCTTGTTTCCCGCCGCGCTT
CACACCCGCCGGCCCCCGAACCACGGAAGTTCGCGAAAGACACCAGTAGA
CCCATCCCTCCAGGGACGCAATTGGTGCGCGATCTCATCCCTTTCGCGGG
GAGGTATTGGTGAGAACGCGAACTCGGCTGCTTGCAAAACTCAACTCCCG
CGAAAAAGCTCTTCAAAGCACGTGGCTCGTTTTGGGGAGTTTGAAAAACC
TTCTTCTTTTTTGTCCCATCCCGCTTGACACCCCACGGCACCTCAAGCCT
TCGGCATTCCGTACCGACGCTCAACCCATCGATCCAGGCAAGCAACTACA
TATCATATATAGCAGGGAATGTTGTCCCTCCCTCGCGCGGCGAGATATAT
TCAGTCAACATATAAACTCGTCTGTTGTGCAAAGATCAACTGGATATCAT
GCAGCAGTATGCCTCCCAGAGCTGAAGCGTCCCCGCAAACAAGCGCCCCA
CGCTAAACGAATTTTGTTTTGTTTTTTTCGTTCGTTCTCAAAAAACATAA
GACAGGCAACAAACACTGCTGCGTTTTTTCTCCGGGTGGAAAACGAAAAC
ACGCCCCCCGTCGGAGGGCGATAAAACGAAAATACGCCGCTTTTATTTTT
TCTTCTCCGACCAATCAGAGCCCAAGCTGCGTCCGTTCGTTCGTGTGTTC
GTGCGTGCGTGCGCAATTTTTTCGGTCTTCTCGGACGAAACGTACCCAGC
GTTTGGGCACGCCTTGGTTTTCTCTCATCAACTAACTCCCTGTTCCGATT
CGTCGAATCCCAAAAAGCATCCTCTCTGCACAAAAAAGCTAGCGTATTTT
TGTGATTTGCACAATCGGAGGTTAAATAAACACCGATTCCTTATCAGCTT
TCGAACCCGGGTGTCACAATTTTCGCTTCAAGACGCCTTAGCAATGCATT
GGAGTCGACAGCATATGTCAACCACAACAACAGAGGTACACACGTTCATG
CGCGGGGGGGGGGGGGGCTCATCACGCAAATGAGCACAGCAGACTGCTCT
TGATTCAGATACTGGCATGTGTTCCAGTGCACTGATGACGATGGAAGAAA
TCGGTACACAGGTGTGTGCCGGAGTTTTTTTTTTCACCAAGTTCTCAACA
CTGTTTGGCCCGACGTAAATCATGCGCCTCGAGGGGTGCTTGAGCTAAGA
ACGGTGGAGAAAATCGGCAGACAGAGTGCCGGGAATTTTGCACCGAGTTC
TCAGTACTGTGAGTGTACCGTCTAGCCCGACGTGGTTACGGTACGCACAT
GAGGTTCTTGACTGCACTTGTCCACTTCTGTGTACTCTACTGTTTGCATT
CTCTAACACGGTGTAGCTCTTTCTGCTCCCGGGCGGCACACCAAACTATC
CCTGACAAGAACTAAACACATGCCTTACCAGGTACACATTATACATCCTG
CGGAGTGCCGTGCCAGGTGCGTGTTTTTTTTCTTTTTTTCCTGGTTCTTC
TTAAAATCTCGACACATTCTGACACGTATGATACCTGGTATAGTAAAGTA
TTCAATATCATGATTTCGATTCCCAGCGGAACGTTACTTTTTTTTTCCAC
CAAGCAGGGTTGGAGATCGAGATCGAATTCGAGAAAAGATCGCGGTATCG
ATCCCCATCCGGCCCGATCAGTATCGGGGATTCTGAACGCGATGCTCCGA
TACTGTTTTTCACACACGGAACCCCCTTTATCCACCCACCCGCCGCGTTG
TTTTACCTCGTCCCCCTTTCAAAATCGAGGTCGATCTCTCGATACGGCCG
TATATATCGACATTGAGGTTGACCGTGTCGACATTGAGATCGACCGGATC
GCGACTGAAATTGGGATCGATCCGCGGATCGGCATCGGTATCGGACATCT
TCTCGAGTATCGAAAAAAGATCGAGTATCGCATTTTTTGTTCCTCAATCC
GAAAAGGTCGTATGAGAGTGTTTTTGGGCTCGATCTCCAACACCGCCACC
AACGGTGAACCGGTGAACCGCGGCATTGTACGGTATCTGTTTTTCTCATG
ATAGCAGTGGGGGTTGTCTTATGAGTAAATAACCGAAGTTCGGTTCGAAA
AAAATGGGCGAGGGAGACGGACGGCCGAAAACCTTCTCCCTCTAAAAACC
ATCGCAAGGCAAGCAGGACACCGCAGGAGCAAGGTGGACAACAGACAAAA
CCAAAAGTAAAACTCCTGTGTGTGGGTGTGTTGACTTTTTTCCTGTCTGC
CTGTGTGACCCCGCGCGGTTTGATGCACCCAAAATGTACCGAAAGAAACT
TGTAAACTGGCGTCCAGAATAGATGGCATGCGAAGGAGGATGGCAATCGC
AAAAACATACGCACACGACATTTAAGCCCCAGGTACGTACATAAATTTCA
GATCTCCATATGATACGATGGGCCCCAGCCGATAAAAAAGAACCTGGCCA
AATGAGTTGTCAGGCACGACGGCGCTCTCAAGGCCAACCGCAAGACCTGT
CAAGAGGGAAAGCCTCTCCGTTATTAGTATCATAAGAAAGGATGATGATA
CTACTGTACAGCAGGTGGGGAGGAAGCACGGCGGCATGTATTTTTTCTCT
TTTTGTAACTCGACCTAAGCCCCGCCCTGCGCCGGATATCCACGAAAAAA
AAAAGGTCGAGAGCTGGAGGGATGGTAGTAGTACATATGATACGATACAC
AGAATCGGCCCCGGGAAGTTTACCTGTTGTTTCTCGGTCCGGCACTCGGA
GGACGACGCTCTGTCTGTTTTGTAGCAGAATATGCTTATTGATACGAAGC
CTACTTTTGTAGCTGGTCTGAGCGTACATACCGCATATTTTTCATGCAGT
TTTATGGTATACAAACCAGGTGATCGTCACGGTGACTGGTGTGAACTTAA
ACACCGCATGGTTTGAGGTAAATTATGACTGGTGTGAACCTGAACACCGC
ATGTTTTGAGGTAAATTGGGTACTTATGATGAATAAATCAGTTGATGATC
GCGTGCTCTACCAGGAGTTTGTACTCGTATCCCAGGCACATACTTTCGTG
TCGGCGGGGAGCAGTCGTACACCAGTCGGGTTCCCCACAAGCGCACGACA
CCGCGCCGCACACAACAACCCTTCATACAACCCCCCGTGTCCCCTGTTCC
TCGCCCCCCCCCCCCTGTTTTACTGGAAAAAAAACAGCGTCGTTTACCTC
CGGAAGACCAACGCCGCGCACCGCTACCGTGCGCGCGAACAGCCCGGACA
CTCGAGTCGCGGCGTGGACGTGGGATGCTCTGCGTGAATTCATGGACAGG
CCGGGAAATTTGCGCACCAAGGTTCGGCTCACAGCGATCTGTTGTTGTTC
TTGTTGCTGCTGCACCACTATCGTAGCCCCGTCACCGTCACCGTCGTCGT
CGTCGTCGTCGTTGTCGTCCCGTTGGGGGTCGTACGTTCGCATGCATGCC
TCGTTGTAAATACTGCTGCCGCAAAAAACAAAACAAAAAAACTCAGTTTT
TCTCGCAATCCGCATCAGGCGGCGCTCCAGGCGTACTGGATGACGGGGCT
CGCGATCAAGCTCAATGACGTCATGTCGGCCCTCGGGGGGCGGCCGGTGG
TCGACGCTGCCGAGGAAGCCCACAAGGTTGGCGACTACGGATACCGTTAC
CTGGTGAGCGGGGGGGGTGCACGCGCGTGGTGCGGCAAGAGGGCGGCAGG
GAACGAGCGTGATATGACTTGATATGACAGACGTGCTACATAACTGTATC
ATACAGACTAGACACGTTTCTCTAGGAAGTATGATACAACTTTTTATTAT
TGTTAATTTTCTTTTCTTCTATTTTTTCCTCTTGAAATATGTACCGAAGT
ACTTGTATAGATAGTACTCCGGAGTATGATTTTTCTTTTCGCTTATTCGT
ATATTGGTGCTTAGGAAAGCGAAACGGCCGGACTGGAGACGAGCAAGATA
GATGTGCTACAGCAGTAACACAACGACTTTTGTTTGTTTTTTTTTGCTTC
TCTTATCTTTTCCTCTGAGATTCTTCGTGCCTCGTACGTCGTAGGTCGTA
TATGTTTGGTGTTGTAGAAAAGAAAACATTCGGACAGGAAACGAGCACGG
TAGATGTGCTGCAGCAGTAACACAACGATTTTTATTTAGTTGTTTCTGCT
CCGAAATATATACCGAAGTTTGTGTTTGGTGTTGAAGAACAGAAAACAGC
CAGACAGACGCAGGCATAGGCGTGATCGATTGTGTAAGTAACCGTGGTGA
GGGGTTGGGGGGGGGGCACTCAACGATTTATTTGTTTTTTTGCTCCGAAA
TACATTTGCGTTCCGTGTTGACAAACAAATAAAACAGACAGACGGACAGC
CGCAGGCAGACGTGATTTGTTGTGTAGCTTGAGCGTATCATGGTAGAGAT
GACGGGGGGATGTCAGTCAGGACGTTTCTGAGCACACACGATCCCACGCC
AAACTACCTGTACGAAGGTCCAGAAATTGAGAAAGCCCCGGGACGCGCGC
TACGATACTGCCGCAGCCTACTGAACCGTCTTGCAGCGCTCCGCCGATGT
CGCCTGCGCGGCACCCGATGCAATCGCGTCTTCTACGTACATGCTCCAGT
CGTCATCTCGTGCCAACCTTCCACACAAGCTCGCATTGTGGCAGCAACAG
CAGCAGCAGCAGCAGTATTTTTTTATTTTTTTCCTCCACCTTCCATGCGC
GGCTCTTGCCTTGAATTTTGTGAGCGGCATGAAACAACAAAGCAGCCATT
TACACCATTGATGACGACATTATAGCATACCGTTTTGTTCGTGCTGCCCT
TGCCGGGAGGGGGGAGGGGGGGATTCTCCTTCTTTTTTTTTTCTCTCTCT
TTTCTCTCTCTTTTTTCTCTCTTTTTTTCTCTCTTTTTTTCTCTCTCTTT
TTCTCTCTCTTTTTTTTCTCTCTTTTTTTTCTCTCTTTTTTTTCTCTCTT
TTTTTCTCTCTTTTTTTTCTCTCTTTTTTTTCTCTCTTTTTCTCTCTCTC
TTTTTTCTCTCTCTTTTTCTCTCTTTTTTTTTCTCTCTTTTTTTTTCTCT
CTTTTTTTTTTCTCTCTTTTTTTCGTCTCTCTTTTCCTCTCGCGGTCCAA
CCAAGACATGCCAGACAGACATCATACATGCAGCAGCAGCAGCAGCAGCA
GCAGCAGCAGTGGAGATGGCACCACACAGGCAGCCGTCGCTATTTACGTC
GATTCGATTCACGCGGGCCATCGTTTCTGTTCGTTCTACACACTCACATC
TACTCAAGTCATATCACATGATTGTTATATATCGCAATAAATGTCACACT
GTCTGTACCGCGTTCCTTTCTTGTACCTTTACTACGCGATCGATCCACCC
ATCGATCCATCGATCCAGGAGGACATGCGAGAGGTGGACAGCATCGTGCC
GGTGAGCGCGGTCACGTTGGCCTGGTGGACGTTTGCGAGGGAGTACCGCG
CGCTCCGACGGACATTCCGGTTCGGCGAGTTCAAGGACACCGGCATCGCC
GTGCCGTTCTCGCGTATCGACAGGTTTCTAGAGACGTGAGTGGGAGAAAC
AAGACAGAAAGGAAGCACACAAACACGTGTGGTATTGCTGTTGTATGTTG
TGTGTTTGTGTTTGTGTTTGTGTTTGTGATTGTGTTCATATTCGTATTAC
GTTGTTGTGGTGGTGGTTGTTGTTTTGTTGGTGTTGTTGTGTGTTGTTGT
TGCCCCCCCCCCCCCCCCCGGCGTGGCACAATCATCGGAAATCGTATGAT
AAGGGTTTTCCTGCTCGTCTTCCGGGTTGGCACGATCATCGGAAATCGTA
TCATAGAGTGGTTTCCCTTCTGATCATCTTCCGAGTTGGCGCCAGAGAAG
ATTCCATGTATCGCCGCTCGGGCCTCGCGGCAGGCCCGACTTCTCTGCTG
TCAGTCGGTGCGTCTTCATGAGGCGGGCTAGCTGACGTTCACCATATCGT
CCTCGGCGTCTCCGGAGCACAACTCCGGCGTGTTGGGTGTGTATTATTCG
TTGCCGTGGTTTGAATTCAAATGGTTGACTTTGCCTACGATATAATATCT
TGTCCTTTTTTTCTGAGATCATATCCTTCAGGGTTGGGGGAGCGATTCCC
ATGCTGTTCGTGACAGTCAAAAGCCAGAGGAAGCCGATTAATCCGTAGAA
GAGGGCGGCAATCCCTAACAGTTTTTCAGGAGGGAGACGTCATCGAGGAC
GATTGCCACCGTCGGAACGAAGACCGACTCGTTGATGGCCATCGTTCTCA
ATGGCGTTCCCCCACGAGACCCCTGCTGTCATGGATGGCGCCCTCTTCTA
CTGATGAAAAGGCTTCCTCTGGCGTTTGATTGTCACGAACAGCGTGGGAA
TCGCTCCCCCAACCCTGAAGGATATGATCTCAGAAAAAAAACAAGGACGA
GTAAAATACTTTAAGCAAAAAGTCAACCATTTGAACCCCCACCTGACACC
TGATTTTCTATTCTTCGCAATGCACGATTTGTTCGACCTTCCCCGAACGG
AAACACTTCTTCTCTTTTTCTTGACCACCTCCGCCGCCGCCGCCCCCACC
CACAGGTCCGTGTTCCCCGTACTCCGGCCGTCGCGAGTTGACCTCCCGAA
AGACCCAGAGGTGGTCGACCTGCAGAGGCGCCTGGGCGAGCTCAAGCTGA
GCAACAAGGCCATCGAGGACCGGGAGACCGCGAGGATAGCCGCCACCAAG
GCCCTTCTGGAGGACGAGACCCGCAAGGGCATCAGGGACGCCGGTAACAT
CCTGAGGTCGCAGACGCCTTGGTACGTGATGGTTCCCTACAAGATCCTCT
GCTGGTTCCTGGGTGAGTGAGTGAGGGAAAAGAGGGAGGGAAAAGAGTAA
GGGAATGGGTGAGTGAGTGAGTGAGTGAGTGAAAGATGAAAGAGTGAGTG
AGTAAAAGAGTGAGGGAAAAGAGGAAGGGAATGGGTGAGTGAGTGAGTGA
GTGAGTGAAAGATGAAAGAGTGAGTGAGTAAAAGAGTGAGGGAAAAGAGG
AAGGGAATGGGTGAGTGAGTTAGTGAGTGAGTGAAAGATGAAAGAGTGAG
TGAATGAGTGAGTGAGTGAGTGAGTGAGTGAAAGATGAAAGAGTGAGTGA
ATGAGTGAGTGAGTGAGTGAGTGAGTGAAAGATGAAAGAGTGAGTGAATG
AGTGAGTGAGTGAAAGATGAAAGAATGAGTGAGTGAGTGAGTGAAAAGTG
AGCGAGAGAGAGAGCGAGTGAGTAAAAGATTGAGGGAAAGAGTGGGTGAG
TGGGTGAGGAAGTGAAAGAGTGAGGGAGTGAGGGAGGGAGTGATTGGTCG
AGGTGTTGCTGGTAGAGGGGTCGGGGTTCTGTTGTATTTTTTTGTTTGTG
GGTGAGTGGGTGAGCGAATGAGTGAGTGAATGGTTGGTTGAGGTGTTGCT
GTTTTTTTTTTTTTTTTACCGGGTTCTTCATGGGCACCTTTCCATTTCCG
CGATCTTTCTGTTGTATTCAATTTTATAGAATTATTGTTTGTTTTTTTTG
GGGGGGCATTTTTTAGTCTCCGCGGTAACGTTTCTTTTTCTTTTCTGGTT
TGTTTTGATCCGTTATTGTTGGGCATTTGTTTCGTTTCTGCGGTGTTGCT
TTTGTGTTTTCGTTTCGTTTTGTTTTGTTTCGCTTTGTTACTTTTTGGCA
ATCTCTGGTTTTTTCCGCGTGCGAGCGGGGGCAGGACGGGGGGCAGGCAG
GCTGTGCTGTGTGGGTCTGGGGGGGGGGGGGGGGGGCAGTTTTGGCTTGT
CCTGACGGGAAGCGGCGGTTGAGGCTTCCTGTTGTCGTGTCTAGGGTTGA
TGGAGTTTTAGGGGGGAAGGGGTCTACTCTGCTCGGGGTACGATAGATAG
ATAGTGCATGCAGTAGAACGTCGTATAGCGTCGGTGACTACTCTGCTGCT
ACTGCAAGAGGCTGAGGGAATGTTTAGTGTCAACGTTAGTGTGCGATTGA
GTGCTTGATCGTGAAGGCCCTGGCTCGCTCGTCCGTTCGTTGTGGTCTGT
TGCTGTTGGTAGTATCGGCTGCAGGGTGGAAGGGGAGTGGGTGGGGCGGC
GGCGTAATAATAGGCGACCGTACCGTACTACTGTGCCGAACAATCCCGTC
CCGTCCCGTTTCGCAGCCATCTTTACGTGTTGTGATATCATAATGTTTGT
TTGTTTTTCTCGCCGTTTTCTCCTTGCCTGTGTGTGGCTCTCGCGCGTGG
TTTTGCTCTGCTGGCTGCTGGCTGCTTGGCTGCCGCCGTCGCTTGCTTTC
TTGACCCCTCAGACTTGGTTTTCGAGGATCGTCCCATCCAGCGGTTCTGG
TTCTTGGAGACGGTGGCGAGGTGCGTTATAAAAACTAAACACAACATATT
TTAAAAAATATATACTTCGAAGTATACAATACAATCAAAATGTTGAGCAA
CGCGTTTGCTGACTGCTGCTGTAGAGATGTCTACACACCTATCTCCTGGT
ACGGTTGTATCCTTTGGGGAGCGGGTGAAGAGTCAGCTGGAAACATCGAA
AAAATTATCATGATGTCTCGCCTTTGAACTGCTGGGCACAGCAGTGGGCA
AGCGCAACAGGGGGCCCCGTGACGACGAAAATCCGTCGTCCCCTGTTGAT
AGGTCAGCAGCACGGACAGTCAGTAGAAGGTACCGAGCGGATATCGGACC
GCCTGTCAGTGTGAAGACAACAGACACACACACAAACGCCTCTTTTTGTT
TCACGCACACGCCTCTTTTCGTTTCACACAAACGCCTCTTTTTGTTTCAC
ACACACGCCTCTTTTCGTTTCACACAGACGCCTCTTTTTGTTTCACGCAC
GCGCCTCTCGACATTGAAAGTAAAATGAATATGAACATCGTTCAACGTTA
ACACCAACACCAACAGGGACATGAAGATGAAAATTATATGAAAATGAAAA
TTATATGAAAAAAACACCGCTCCGAATCCCGTCCGTGTGCGCGTGAAGTA
TCACACGAACTCAGATCGTGCTGATACTTTAGTATCTTTTTCGAGCAGCC
ATCGATACGTTGTTTTTGTGTGTCGTACACACGCACCGTACGTAGCGGCT
GATATCTTACGTGGACCACATGGGCGGGGTCGCTAAAGATCGGCCGAGCA
AGACACAATTTTTGCCACCCCACCATCTTGTCTGTCCTGTTTCCTTTTTG
AACCGAGAGTTTACATGCCTGAATGTCTCCCAGGATGCCCTACTTCTCGT
ACCTGTCGATGCTGTTTCTATTCGAGACGCTGGGCTGGTGGAGCGGAGGC
GCAGAAGTCAGAAAGATTCACTTCGCTGAGGTAATAGAAGAGTGCAATAC
TTTTACTTTTTCTTTCACTTATTGGGTGATTTTGTTTTGCCCTTTTTTTT
TACCTGCCCCTTTTGTTACCTCCCCCCTTAATTTACAAAATGTACGAAGT
ATTTATATTGCTGTGTATTATTACGAAGTATAATAAACGAAGTATCACCG
GAGTATGATATTATCATACAGTATATTTTTGGGCGTCATTAGGTGTATAC
TTGAGTACTTCGAAGTATACCATATGTTACAGATGCACTCGAAGAAGTGT
GACATGTTTGGAGTTCATTTTATTTATTTTTTAGAGAACGACAAAGAAAT
GCGTGCGGAATGAGAAGATTTACGAAGTTTCTTTGCAATACTCAGATCAT
GCGTATGATACGAAGTATGACAGCATGTATACCAGCCTTGTATCACACAT
ATTATGAATCGAGAAGACATCCTTGTTAGAAAATGAATCGAAGAAATATG
CTTCGACGTATTGATCAGGCGGGGAATGCTAACATTCCAAAGCGGAAGAT
CGTTTATTACTGCTGTTGTTTCACATCATATCGTGCACGAATATCTTTTT
GATTCTTCGTGCTTCGTATGTTGGATGATATCATATCGTATACTGGTATA
CTTCGAAGTATGATATATATGTGTAAAATTCTTGGTGTTTTTTCATACCA
GGAAGTATTTTTCTTCTTTTTTGTTGTACCGACCCCACGGACACATGTTG
GTTTGCTTCGCGTAAAAGTGTGTGTGTGTTGTTGTGCGTGCTCCTCCTTT
AGAAACAAAAACAATACACGCACGCACCCACGCAAGCACGCGCACACACG
CACACACGAAGAAGCTCTCCCGCATGAGAAAATAAAGATGCCCAAGAACC
TTCTTCTCCCCTTCCCCTTCCCCTTCCCCTTCCGGCTTCTCGTACCGTGG
TTCCTCGCAACAAACCGTCCTCCGGACTCGTTTGTTTTGTTGTCTCGTTT
CGTGGAAAGTGATTGGAGGCGAGGTGTGCTTTTTCCTCAGCGTCGATTTG
TTTCGCTGCCTCACGCTGACTAACATTGGGGGGTGTATGTACGCTGATGA
TTGTCCTGGGTGTTGGGGGCCGGTTTGGTGTTGCCTCCTGCTGCTGTGGC
TGTGGCTGCTGCTCCTGCTGTGGCGCGCAGGAGTACAACGAAATGATGCA
CCTGCGCATAATGGAATCGTTGGGAGGGGACACCCAGTGGTCGGACCGCT
TCTTGGCCAGGCACGCCGCCATCATCTACTACCTTGTGCTGACTCTGGTG
AGCTTTGTTGGCTTGAGTTTTTGTGTTTGAATTTTCTCGTTGATTTATGT
CACTTTTTTTTTAATCAGATTGAAAAATTGAAAGATTGACAATTGAAAAT
TCAAATGGAACTAAATCAAATCAAATCAAGAGAATCGACAGGCGTTTTGC
ACAGATAGGTAACTAACAGACACAGAAGAGATACTGTACGATGAAAGGAG
ATGGGAAAAAATAAAAATAAAAACAAATTCAGGCATTTTGTCGTAGGCTC
TGAAAAATGATAACAAAATCGAAATTTTTCCCGAATAACCCAGGTACCCG
GCACCTCCCAAATATGCCAGCGCTGAAAATGCCGGTCCGATGTACATATT
TTGCGTGCGTTCGTATCAGATGCCTGCGGCGTGTTGATGCGGGTGAGAGA
CACCAGCTGCCCAGTAATCGATCGTCTCTCGGTGTTGTTTGTATGTGTGT
GTATCTGTGTGTGTTTGTGTGTCTGTCTGTGTGTCTGTGTGTCTTGTGTC
TGTCTGCCTGTGTGCGTGTGTGTTCAGGGGTACCTGGTGTCTCCCTTCCT
GGCCTACAATTTCAGTGAGCTCATCGAGAGCCACGCCGTCGACACGTACA
CGGAGTTCGCAGAGGTCAACAAGGAGCTGCTGATGAGCCTGCCGGCGACC
CCGCAGGTGCGGAACCGCCGGCGAAGGGGAGGGAGGAGCGCGGGGGACTG
TCATTAATCCGTACGAATGAGAACCATTAAATTATACGTCGTGTGCAGAT
GTGTACGACGTGACGTGGCTTCCTTGGTTGGCCGACGGAGTGTGTGACGT
GTGAAGTAGAGGTGTCAAGGGCTTTTTTTTGCGACGGGCCCGGGGAATCA
TCCCGCCGAAAAGCGGTACGGATCGAGCCAAGCAACGGTCAAGCCCGACC
TGAAAAATCCCGGATGTGATACAGTAGTACCGCCCGCTGCTGGCCAGGGC
TCGCACCCGACTTGCTCCTACCCGGGTACCCGACCTCGGGTACCCGGAAC
CGAGTAGCCCCCCACCCGGGTACCCGGCCCGGTTCCAATTTTTTTAGTCT
GGGTACAACCCCGACCGGGGGACCTCATTCTCATCATCGCACAACACAGA
TGTATATACATCAACGCGCACGCCAAGTGCTCTCACTGGAGAACGCCGCC
GAGATGCCCCGACATCGGCAGCCCTGCACTTTGTGGCGCGTGGTACGGGC
GGCCGTGGGGGGGAGGCCTGACTGGCTCCACTGAAAAATGTCAGGATATA
GCCCCCCCCCGGCAGCGTCATTTCGGCTGGCACGCTTCAGGATGCCCACC
ACTCTCAAGAACGCGGAGACGACACCCCCCCCCCCACTCGCGCTGCTTGC
CCCGTGTTGATGGGGTGAATAACTCCATTTCACGGGGTTCGCGAAAGTCA
AAAATAGTCCCAAAAATTTCAACAGTTCTCCCTCTCTGTTCTCATTTTCT
CTCTTTGTTTTTTTTTTCGAGTATCATGTATCATGCTGCTGCACATTAAT
GCATACATACATACATACATACATACATACAAACATATATACATACATAC
GTACATACATACATACATACATACATACATACATACAAACATACATACAT
ACATACATACATACATACATACATACGAACACAGCGGTGAGCAGGTTACT
CTTGCGAAGGCTCTCGTTAGGTGCGAGCAGGGACGCCCCGACAAATCGTT
GTTGCTGCTGCTGCTGCTGTTGTTGTCCGTGTCCTTGCTCTTGCTCTTGC
TCTTGCTCTTGTCCTTGTCCTTGTCCTTGTCCTTGTCCCTGTCGTCACTC
ATGTTGCTTCCGTTGTCGCTGCTGTTGCGGCTGCTGTTACTGACGTGGTT
TTGTACGCGACATGGCAGGCGCTGGACTACTACGAAGGAGGAGACATGTA
CCTGTTCGACGAGTTTCAGACCAGCCGGCCGGCGTTCAGCCGACGACCGA
CCATCAGGAACCTGTACGACGTCTTCAGGTGCGTCTAACGACACAGCAGT
AGTGCTTGCAGCGCGGGACACGTATTGTGTACTGAGAGGAGTGAGAAGGC
AAGACAGATATTGACGCGGCAGTGTATGTACCCTTGGTGATGGTCATCAG
GGCTGGGCGATCCTCGCTGTCTGCTACACTCGGAGTAATATTATATCATA
CCTCCACACAAAGCTGTTTTTTTTTTTTTTTTGCTGCAGCTGCTTGGAAA
CGTGCGTCTCCTATGATACACTACTGTACTAACTGCTGTAATGATAGCGT
GAGCATAGTCATCAATCCTGCAGGAAACCTCCCATCGAGAATCTATACCC
GACGTTTGTCTTGGCGGTACGTGCGTATGTAAAAGACAGAAGCAGAATAA
GAACAATGAATATGTTCTTTGATGCGCGTGTTGTACGTATACACGTGACA
TGTACATGCGTGCCACATCATATCATACGTGTGCCAAAAAAGTGAAACAC
AGAAAAATAATAAAATAAAATGGATTTGTTTCTTTGACGTGCGACATATA
TACATACTTCGTATATACTGAAGTTGAAGTATATCATGTACGCGTGCCGA
CAAACCATTCCATCAAGGAACCTGTAAGTACGACGTTAGTATTAGCGGTA
CGCACGTGTCATATATACGAACCCGTACAGGATACGTGCGCAAAACGCAG
AAAATAATACCAGCACGAATAAAAACAATTGATTTGTTCTTTTTTGGCGC
GAGTGGTATTGACACTTGTCATGTGATATGTATACATGGTAAACATTTAT
TCACATCATATCATGCCATGTCATACGCGTGCGATATCTTACATACGATA
TATACGTGCATACGATATATACGTGTGCCAACGCTACCCGACCACGCAGC
TCCATCCGCGACGACGAGCTCGAGCACGTCAAGACCATGTTCGCGTGCGA
GAGGGGCAAGGGCGCCCTTACCTCGCCCAACGCCGCCGCGGCGACCCCGC
GCTGGGACGAGGACGCCGCCGCCGAGTTGGGCTTCGAAGAGGACGACGGC
GACGGCGTCAAGAGCAGCAGCCGCGGGGGCGGCGGGCGGCCGACGACGAC
GACGACGGCGGCGGCGGCGGGCGGCAGGAACGAAATCAACGGGCTCGAGG
GAAGCAGCTTGAGGACGGACGTCGCCCGAAAAACCCCCCTAGAGGTGTTT
TCGTCGGCGTTCGACCCCCTGAGGAAGCTGGCGGAGGCCGTCGAGAAGGA
GGAGGTGCCCCGTAACGGTGCTGGTGCTGCTGCTGCTGTCGGCGGAGGTG
AGGAGCACCGGCCGGCGGCTGTGTTGAACGGGGCGCGTGAAGGCGGTGAA
GAAGGGCAACAGCGCGAGGAGGAGGGGGTGGAGGACGGGGGTGTGGTAGC
GGCGACGAAAAATGGTGGAGAGGGGATCGGGAAGAGGATACCCTCTTCGT
CGGACTCGGGCGAGAACCTATCTGAGAACCGATCCGAGGAATCAGTGTGA
GAATCGGTTCGAGAACCGGTCCGAGAATCGATCCGAGCATGCGTTGGAGA
ACGATGAGTGCCACGGGGAAGCGACGATTTCGGTCGGGGGCCGGTTCGAG
AACCAATCCGAGAACCAATCCGAGAACTTATCCGAACATCTCTATTTGAG
AATATTCGAGAACGAGACGTGACATGGGAAAGCGGCGGTCTTGGACGGTA
ACTGGTTCGAGAATCGGTCCGAGAACCGATCCGAGAACCAATCTGAGAAG
CGGTTTCTGCTGGGCAAGCCGGACGTAGGCGATACCAGCACAATATTGTG
TGGCGTGTGTGTTGTAGATGTTGCTGGGTATGATAAGTGTGATGAAAAAC
TCACGTGATTATATTTTAATTTTTTACGCCTGTATATCGTATTGGGTTCA
TACATTTTTTTTTTTCCCGACTCTGCGGCCATCGCGTCGGCGTCGTCGGT
GGAGGGACCTGAGATACACACAAAATTTGACGAGCGAGAGAAGGAGTGCG
ACATGGAAGGGTAGATAGAGGAAGAGAGAGAGAGAGAGAGAGAGAGAGAG
AGAGAGACGACCTGACGCGTCGGTGGAGGGATCGAAGGTGCACAAACTTT
GACAAGCGAGAGAGGGAGAGGGTGAAATGGGAAGGCAGACAGAAGGAGAG
AGAGAGAGAGAGAGGGCGACAACCTGACGGTAGCGAGAAAGACCTGGCGT
TAGAGTAAAGAAAAGATGGGAAGGTACTGCAGGCAAGGCGTGCGTGCACA
GACGTTGTGATTTTGTTGCTGCGGTGGCATCCTGTGATACGATAAAGCAG
CAATGTTTCCATGTGCTAGCGTAATTGTGTTAACCGCGCAGCGCGAAAAA
GAGGCGGTCACCCTCTCAAGTGTTTGCGTTTCGCGCGCGCATGTGTGTGT
GTGTGCGCGCGCATGTGTGCAGGCGCTTGATTGATTGAAGAGGGCTGGGT
TAGTGTTGGGGTTTCCGAACTGTCTCCATTGAAATGTGCGGGCGGTGGAC
AGTAAGTATGTGCTTCGTTTATTGTCCGGTGTGTGTGTGCGAAAAGTTGG
ATTATCCATTTGTACGTCACGGCGTTTTGGTGTTCGCGGTACTTTGCGGG
TGTATGATATACCGCATCATACCAGAGAGAGAGAGCCACAAATCTATACG
AAGTGTTGTTGATTAAGTCGGAGGCTCGGGCTCCTACTCCCTCCGCGGAC
TGAACGCCAACAGCCTAATATATGGGTTTCAGTGGGGGAGGCTTCGCCGG
GCGTCACAGTAGTGACCACCGCCAGCCAATATATGGGTTTCAGAGGAGGG
TGCTTCGCCAGGCGTCACATTGCCTTTGTTGTGCTCAGAAGGTTGTTCGT
GTATATATTTGTACTTGCATTTTTAACACTTTTGGGCTTGAGCAGCAATA
AACTTCGCGAAGTTCTGGGAGGAATATTGGCGCCACCTGTCTCTGTGCGA
AGTGTGTGGTGTGAGGTGAAAGCGTGCGATGATGAAAGCGCCGGATTGAC
TGAATTTCCTTTGGAGTGCGAGTGCGGCGCTTTTGTTGCACTACTTGGTT
GAGCTGCTGTCTTGGGGCATGTTTGTTTTGTGTTCGCTTTCTTTGGGTTG
TTTGCTCACCAGCTGTAGTATTGGGATGCTTCTTCGCTGCGTCGTGTGCC
AACCAGCACGCAGCTGCGGCGAGGAGAAGGGCGACAGCAAAGAGTGCACG
AGTTGGCCGAAGAGGACACGCCAATCGAAAGACATGCGTCTATCATGTAT
GGTACTCGCACGGCTTGCTGCTCTATCTAGTGTTTTTCATTGTATCTCAC
TTTTTGGGGAGAAAGGGAAAAATGGCACACGCAGTTTCGTAAAAAATGGG
ATGTTTCAGAATCTTTCAC

Coding sequence (CDS) from alignment at P-littoralis_Contig84:295916..315784+

>mRNA_P-littoralis_Contig84.43.1 ID=mRNA_P-littoralis_Contig84.43.1|Name=mRNA_P-littoralis_Contig84.43.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2268bp|location=Sequence derived from alignment at P-littoralis_Contig84:295916..315784+ (Pylaiella littoralis U1_48)
ATGTTTTCTTCTCCCCCCCACGGACGCCGGGAGCGAAAATCTTGCAAGGG
CCGCTTGGGGAGTGCAAGCAGCAGCAGCGGCGGTGGCGGCGGCAGGACGA
GGTATATGAACACAAGGATGATGATGATGATGATGTCGGCAACAAATAGA
GCGAGTGCCGCAGGCCCTGAAACAGCAGCTGAGCCGAACAAAGGGGAAGA
TACCACAGGCCTTCTTCCCCCGCTAGACTCTGCTGCAGGTGCGGGTCTAG
CGGGCGAGGGAATCACGCCGCAGGAGTGGAAAGCTCTGCTCGAGGCGGGC
GAGGTGGCTTCCCTGGAGCAGGGGCAGCTCTTGATGTCGCAGGGAGATAT
TTACGAACAGCCGGGCGACCGCGAGGTGTATCTCCTTTTGAGCGGGGAGT
GTCGGATAGAGGTGCAGGGCAAGCCGGCCGGGCGGATCGCAACGGGAGAC
TTCGTCGGTGAAGCGTCGTTTACCTCCGGAAGACCAACGCCGCGCACCGC
TACCGTGCGCGCGAACAGCCCGGACACTCGAGTCGCGGCGTGGACGTGGG
ATGCTCTGCGTGAATTCATGGACAGGCCGGGAAATTTGCGCACCAAGGCG
GCGCTCCAGGCGTACTGGATGACGGGGCTCGCGATCAAGCTCAATGACGT
CATGTCGGCCCTCGGGGGGCGGCCGGTGGTCGACGCTGCCGAGGAAGCCC
ACAAGGTTGGCGACTACGGATACCGTTACCTGGAGGACATGCGAGAGGTG
GACAGCATCGTGCCGGTGAGCGCGGTCACGTTGGCCTGGTGGACGTTTGC
GAGGGAGTACCGCGCGCTCCGACGGACATTCCGGTTCGGCGAGTTCAAGG
ACACCGGCATCGCCGTGCCGTTCTCGCGTATCGACAGGTTTCTAGAGACG
TCCGTGTTCCCCGTACTCCGGCCGTCGCGAGTTGACCTCCCGAAAGACCC
AGAGGTGGTCGACCTGCAGAGGCGCCTGGGCGAGCTCAAGCTGAGCAACA
AGGCCATCGAGGACCGGGAGACCGCGAGGATAGCCGCCACCAAGGCCCTT
CTGGAGGACGAGACCCGCAAGGGCATCAGGGACGCCGGTAACATCCTGAG
GTCGCAGACGCCTTGGTACGTGATGGTTCCCTACAAGATCCTCTGCTGGT
TCCTGGACTTGGTTTTCGAGGATCGTCCCATCCAGCGGTTCTGGTTCTTG
GAGACGGTGGCGAGGATGCCCTACTTCTCGTACCTGTCGATGCTGTTTCT
ATTCGAGACGCTGGGCTGGTGGAGCGGAGGCGCAGAAGTCAGAAAGATTC
ACTTCGCTGAGGAGTACAACGAAATGATGCACCTGCGCATAATGGAATCG
TTGGGAGGGGACACCCAGTGGTCGGACCGCTTCTTGGCCAGGCACGCCGC
CATCATCTACTACCTTGTGCTGACTCTGGGGTACCTGGTGTCTCCCTTCC
TGGCCTACAATTTCAGTGAGCTCATCGAGAGCCACGCCGTCGACACGTAC
ACGGAGTTCGCAGAGGTCAACAAGGAGCTGCTGATGAGCCTGCCGGCGAC
CCCGCAGGCGCTGGACTACTACGAAGGAGGAGACATGTACCTGTTCGACG
AGTTTCAGACCAGCCGGCCGGCGTTCAGCCGACGACCGACCATCAGGAAC
CTGTACGACGTCTTCAGCTCCATCCGCGACGACGAGCTCGAGCACGTCAA
GACCATGTTCGCGTGCGAGAGGGGCAAGGGCGCCCTTACCTCGCCCAACG
CCGCCGCGGCGACCCCGCGCTGGGACGAGGACGCCGCCGCCGAGTTGGGC
TTCGAAGAGGACGACGGCGACGGCGTCAAGAGCAGCAGCCGCGGGGGCGG
CGGGCGGCCGACGACGACGACGACGGCGGCGGCGGCGGGCGGCAGGAACG
AAATCAACGGGCTCGAGGGAAGCAGCTTGAGGACGGACGTCGCCCGAAAA
ACCCCCCTAGAGGTGTTTTCGTCGGCGTTCGACCCCCTGAGGAAGCTGGC
GGAGGCCGTCGAGAAGGAGGAGGTGCCCCGTAACGGTGCTGGTGCTGCTG
CTGCTGTCGGCGGAGGTGAGGAGCACCGGCCGGCGGCTGTGTTGAACGGG
GCGCGTGAAGGCGGTGAAGAAGGGCAACAGCGCGAGGAGGAGGGGGTGGA
GGACGGGGGTGTGGTAGCGGCGACGAAAAATGGTGGAGAGGGGATCGGGA
AGAGGATACCCTCTTCGTCGGACTCGGGCGAGAACCTATCTGAGAACCGA
TCCGAGGAATCAGTGTGA