mRNA_P-littoralis_Contig1008.13.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1008.13.3
Unique NamemRNA_P-littoralis_Contig1008.13.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: D8LEI0_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LEI0_ECTSI)

HSP 1 Score: 1243 bits (3217), Expect = 0.000e+0
Identity = 718/869 (82.62%), Postives = 744/869 (85.62%), Query Frame = 1 
Query:  232 APIELTAKQAKSKRKAERAAMEAARKDEVQNMMK-------------------------------------VFDSDDGGGSGGDDGECGDGEDVLYDKFGNVVDKAAAERAALQEMREXXXXXXXXXXXXXXXXXXXXXXXXGVDADQGDETTDYGSKLHREMDAAAAKQKAGARLTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADD--AEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKEYTVKFGLSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAATARAARRAKERADRVGKHTRRGAQAQLSNLSVEGRGGAKEEKKVAEDAARKEVRKEAVASVFGKKKR 2721
            AP ELTAKQAKSKRKAERAAMEAARK EV++MMK                                     VFDSD+ G  G D G   D +DV+YDKFGNV+DKAAAE AALQE+RE XXXXXXXXXXXXXXXXXXXXXXX    DQ D  TDYGSKL ++MDAAAAKQKAG RLTNKEKKLLKK+EERE  RTAAE RSNQGLTAFSLSMRPGGGGGGEMTAAEDG+TD+SVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVV+QVLLADE RR LLEEEASLLK M+AAE  E       DD D  D  D  +E     E  G G  WDD+ WAAKSKRLAQV +ELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLA ALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEA LKKMGRTSLMDRPKEYTVKF LSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPS GEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPI ELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALI+GIQEYKGGVVLVSHDARLIA+T CELWVCEGGGRVNVHRQGFEHYRRSLLRDIA+AEARVEA             ADR+GKHTRRGAQAQ S L + G+G   EE +V  +A   EVRK+AVASVFGKKKR
Sbjct:   74 APAELTAKQAKSKRKAERAAMEAARKGEVESMMKGSSAPTTASEGFYTVRGGVGDVDRHPWLGVAETQTTQVFDSDEDGREGEDGGVGDDDDDVVYDKFGNVMDKAAAEEAALQELREAXXXXXXXXXXXXXXXXXXXXXXXXXQEDQDDGATDYGSKLDKQMDAAAAKQKAGGRLTNKEKKLLKKLEEREVARTAAETRSNQGLTAFSLSMRPGGGGGGEMTAAEDGSTDVSVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVQQVLLADERRRELLEEEASLLKQMDAAEARE-------DDGDIGDFGDGGSESGGDAEGEGQGGHWDDDMWAAKSKRLAQVASELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLARALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAALKKMGRTSLMDRPKEYTVKFMLSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSSGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIAELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIRGIQEYKGGVVLVSHDARLIAATECELWVCEGGGRVNVHRQGFEHYRRSLLRDIANAEARVEAXXXXXXXXXXXXXADRLGKHTRRGAQAQFSKLGL-GKGXT-EEXEV--EARSTEVRKKAVASVFGKKKR 931
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A6H5JF33_9PHAE (ABC protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JF33_9PHAE)

HSP 1 Score: 1033 bits (2671), Expect = 0.000e+0
Identity = 561/651 (86.18%), Postives = 579/651 (88.94%), Query Frame = 1 
Query:  784 MTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAE-RAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEV--WDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQ--VNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKEYTVKFGLSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAATARAARRAKERADRVGKHTRRGAQAQLSNLSVEGRGGAKEEKKVAEDAARKEVRKEAVASVFGKKKR 2721
            MTAAEDG+TD++VLGFSI APKRELLRDADLRLAAG+RYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADE RR LLEEEASLLK M+AAE R ++G         S    DAE        G G+   WDD+ WAAKSKRLAQV +ELDAIGADAAEGTVRKILTGLGFTDEMQDGPTT LSGGWRMRVSLA ALFV+PKLLLLDEPTNHLDLHAVLWLDDYLA+KWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQ  VNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKEYTVKF LSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPS GEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPI ELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALI+GIQEYKGGVVLVSHDARLIA+T CELWVCEGGGRVNVHR GFEHYRRSLLRDIA+AEARVEAA         KERADR+GKHTRRGAQAQ S L +               A   EVRK+AVASVFGKKKR
Sbjct:    1 MTAAEDGSTDVTVLGFSITAPKRELLRDADLRLAAGRRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADERRRELLEEEASLLKQMDAAEAREDDGXXXXXXXGGSESGGDAE--------GEGQEGHWDDDMWAAKSKRLAQVASELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTTLSGGWRMRVSLARALFVKPKLLLLDEPTNHLDLHAVLWLDDYLAKKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQASVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKEYTVKFMLSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSSGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIAELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIRGIQEYKGGVVLVSHDARLIAATECELWVCEGGGRVNVHRHGFEHYRRSLLRDIANAEARVEAAXXXXXXXXXKERADRLGKHTRRGAQAQFSKLGLXXXXXXXX---XXXXACSTEVRKKAVASVFGKKKR 640
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A812VCJ4_9DINO (ABCF1 protein n=1 Tax=Symbiodinium sp. KB8 TaxID=230985 RepID=A0A812VCJ4_9DINO)

HSP 1 Score: 500 bits (1287), Expect = 3.730e-156
Identity = 305/681 (44.79%), Postives = 409/681 (60.06%), Query Frame = 1 
Query:  583 YGSKLHREMDAAAAKQKAGARLTNKEKKLLKKMEEREAERTAAELRS------------NQGLTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVL----------------------KKMGRTSLMDRPKEYTVKFGLSSPEDRVPSI-SVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAA 2520
            +G  + +++     K+  G  L++KEK+ L   +E +A+  +    S            + GL  FSLS       G    A    + D+ V  F+I A K++L  +A L +  G+RYG++GPNG+GKSTLL++L AR+L +P+ +DVL VEQE  A +   V  VL AD  R ALL EE  L+  + AA++A+E                 EE  RE   G G +  +E   A+  RL +V  E    G   AE   RKIL+GLGFT EM + PT   SGGWRMR+SLA ALFVEP LLLLDEPTNHLDL+AVLWLD+YL + WK TL+VVSHDQDFL SV TDI+ + +  L+YY    D ++    Q   K  K YK Q+K I +LK KG S   AEE                         + +  + L+++PKEYTV F    P +  P +  V +VSF YRDD   LF+D+   +D  +RVAIVGPNGVGKSTLLNL+ G LEP++GE+ R+R LRIG+Y+QHF ++LP  ++P  +L+  +D   Q++R +LG+FGL+   H I + +LSGGQKARVVFASLS    HIL +DEPTNHLD+ES+DAL   I  ++GGV+LVSHDARLI +T C LWV  G   V ++    + YR SLL+DI   E ++E+ A
Sbjct:  131 HGEPVDKKLQRLLVKRDKGKHLSSKEKRALAAFDEEKAKEGSGVDSSIIGAGMEEYKHDSLGLENFSLSQAGKAASG----AGTSSSRDVIVDDFTITAYKKQLFVNARLHVVHGRRYGVVGPNGQGKSTLLKYLGARQLAIPSGIDVLYVEQEVVADDTTAVTAVLRADVKREALLREEQVLMAQLEAADQADE----------------EEEEGREP--GPGYLTLEER-EAREARLREVYEEQSLHGVHKAEPKARKILSGLGFTLEMMERPTKHFSGGWRMRISLARALFVEPTLLLLDEPTNHLDLNAVLWLDEYL-QNWKNTLMVVSHDQDFLHSVVTDIISIEDRKLEYYRGNYDTYKAQKAQNFEKRVKAYKQQQKTIQSLKHKGKSRKAAEEXXXXXXXXXXXXXXXXXXXXXXXSEEAVAASQLLEKPKEYTVNFQFPDPPELAPPVLDVREVSFRYRDDTPWLFKDVSLGIDQSSRVAIVGPNGVGKSTLLNLIMGDLEPTEGEIHRNRFLRIGKYNQHFVDVLPMDETPVQYLQRMHDTKYQESRMMLGRFGLESHAHEIKVSDLSGGQKARVVFASLSKQDSHILFMDEPTNHLDIESIDALADAIGAFQGGVILVSHDARLIEATDCRLWVISGDLGVTLYEGDVDDYRESLLKDIHEEEEKLESLA 787
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A812MXN1_SYMPI (ABCF4 protein n=1 Tax=Symbiodinium pilosum TaxID=2952 RepID=A0A812MXN1_SYMPI)

HSP 1 Score: 496 bits (1278), Expect = 1.510e-152
Identity = 303/666 (45.50%), Postives = 406/666 (60.96%), Query Frame = 1 
Query:  604 EMDAAAAKQKAGARLTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFT----DE---MQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSL---MDRPKEYTVKFGLSSPE-DRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDV-PEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAATARAARRAKERADRV 2565
            E++A   K +AG +L+NKEK+   + +E+       +     GL AFS+ +    GG  E   + D     +   F+++APK+ L  +A + +  G RYG+LGPNG+GK+TLLR +AARE+PVP   DV+LVEQEA+A++R  VE+VL AD     L++ E  LL+ +   E+A EG                EE   EE+                  L    AEL+AIGAD+AE  VRKIL GLGFT    DE     D P    SGGWRMR+SLA ALF++PKLL+LDEPTNHLDL AVLWLD YL+  +  +++VVSHD DFLDS+CTDI+HL +  L +Y      F++M  Q     +K+YK Q+ E+ ALK+KG +  +AE  V  K G  +L   M++ K+Y VKF  +    DR   ++V DV+F Y      L +++   VD  +R+AIVGPNG GKSTLLNL+   LEP  G+VT  + +RI +Y QHF ELLP  K+  ++L  E+++ P ++AR VLGQFGL G+ H   IG LSGGQKARV FA+L + +PHI++LDEPTNHLD+ESV+AL   I  + GG+VLVSHDARLI    CELWVCE GG     +  F+ YR  +L  +   +A VE     R   RAK+RA  V
Sbjct:  353 ELEAILKKVEAGEKLSNKEKRAYDRHQEKNVVYKNEDDEPVGGLNAFSIILE---GGKNEPPPSGDAFVCNN---FTLSAPKQTLFDNASITIVQGHRYGILGPNGQGKTTLLRHIAAREMPVPVNWDVILVEQEAKATDRSAVEEVLAADVRAAELIKAEEELLQKLEDMEKAMEG---------------GEEVSAEEVERM------------RSDLENTSAELEAIGADSAEARVRKILCGLGFTNGHPDEDRFSMDRPVVQFSGGWRMRISLAKALFLQPKLLMLDEPTNHLDLDAVLWLDTYLSEHYPHSVVVVSHDADFLDSICTDILHLEDRKLVHYRGDYTAFKKMHLQKRATLDKEYKKQQDELKALKKKGKTKDEAEALVKAKFGIDALDGLMEKQKDYVVKFKFTGHGMDRSLGLNVSDVAFSYNGKEPWLLEEVEMGVDCGSRIAIVGPNGAGKSTLLNLMMQHLEPCSGDVTVSKGIRIRQYHQHFEELLPLDKTGVEYLSDEFNLGPPEKARAVLGQFGLPGSSHFTKIGNLSGGQKARVAFAALMLMEPHIIILDEPTNHLDIESVEALTTAISNFNGGLVLVSHDARLITEVDCELWVCEDGGCYRFEKD-FDGYRDKVLHQLEERQAEVERMEQKRREERAKKRAKHV 984
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: UPI000C04C6DF (ATP-binding cassette sub-family F member 1-like n=2 Tax=Pocilloporidae TaxID=46729 RepID=UPI000C04C6DF)

HSP 1 Score: 478 bits (1230), Expect = 1.080e-149
Identity = 296/633 (46.76%), Postives = 385/633 (60.82%), Query Frame = 1 
Query:  646 LTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTS------------------LMDRPKEYTVKFGLSSPEDRVPSISVL-DVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDI 2487
            L+ KEK+ LKK  + E+E    E+  +Q    FS+S +         T+  + A DI V  FSI+A  ++L  +A+L + AG+RYGL+GPNG GK+TLL  +AAR+L +P+ +DVLL EQ+ EASE P  E VL AD+ R  LLEEEA L+                                   L+ +G+        A +++L +V  EL+AIGA +AE  VR+IL GLGFT EMQ  P    SGGWRMRVSLA ALF+EP LL+LDEPTNHLDL+AV+WLD+YL + WK TLLVVSHDQ FLDSVCTDI+HL +  L YY    D+F++M  Q   + EK Y  Q+K+I  LK  G S  +AEE      GR +                  L+ +PKEY VKF   SP    P I  L  V+FGY   +  LF DL F +D  +RVAIVG NGVGKST L LL G+LEP+KG++ R+  LRIG Y+QH  + L    SP ++L+ +YD+  Q ARK LG+FGL    H I   +LSGGQK+RV FA L++S P +++LDEPTN+LD+ES+DAL   I E+ GGV+LVSHDARLI  T C+LWV E      V    F+ YR+ +L  +
Sbjct:   99 LSKKEKRKLKKKAKFESE--TQEVAGSQ----FSVSQQESSAA---KTSLLENALDIKVEKFSISARGKDLFVNANLNITAGRRYGLVGPNGMGKTTLLTHIAARKLAIPSNIDVLLCEQDVEASESPAFEVVLKADKKRLQLLEEEARLVA----------------------------------LSENGDE-------AATEKLKEVYVELEAIGAASAESRVRRILAGLGFTTEMQQRPVNHFSGGWRMRVSLARALFMEPTLLMLDEPTNHLDLNAVIWLDNYL-QNWKKTLLVVSHDQYFLDSVCTDIIHLDQQKLYYYRGNYDQFKKMYVQKVKEQEKAYNKQQKQIKDLKASGQSRKQAEEKTKAVQGRKNKKGGRKGEIEEDDLEQMELIKKPKEYVVKFSFPSPPPLNPPILGLKSVTFGYPS-QPKLFNDLEFGIDMKSRVAIVGNNGVGKSTFLKLLIGELEPAKGDIVRNHRLRIGSYNQHSADQLSMEDSPVEYLQRKYDLDYQTARKHLGRFGLISHAHTIRTKDLSGGQKSRVAFADLALSNPDVIVLDEPTNNLDIESIDALADAINEFTGGVILVSHDARLILETACQLWVVENQEITEVDGD-FDDYRQEILEKL 678
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A7S4S1L8_9DINO (Hypothetical protein n=1 Tax=Alexandrium monilatum TaxID=311494 RepID=A0A7S4S1L8_9DINO)

HSP 1 Score: 480 bits (1235), Expect = 8.200e-149
Identity = 310/641 (48.36%), Postives = 393/641 (61.31%), Query Frame = 1 
Query:  640 ARLTNKEKKLL------KKMEEREAE-RTAAELRSNQG------LTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKEYTVKFGLSSPE---DRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGK-SPCDFLRSEY--------DVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDI 2487
            ++L+NKE++L       K+ EEREA  RT  E  S+        L  FS+S+     GG E TA   GA D+ +  FSI+A  + LL DA+L LA G+RYGLLGPNG GK+TLL+ LA R LPVP A  + LV+QEAEA+E PVV++VL AD  RR LL EEA LL  ++  +    G G+G+                    G+  +      A +  RLA VG  L+A GA+AAE  VR+IL GLGFT  M +GP + LSGGWRMRVSLA ALF+EP LLLLDEPTNHLDL AVLWLDDYL   +K TLLVVSHD DFLDSVCTDIVHL E GL  Y  G   F++   Q   + +K++K Q+++  A K               K+    ++ + K+Y VKF    P    D    ISV D +F Y   +  L + L F+VD  TRVA+VG NG GKSTLL+L+   LEP +GEV   R + IGRY QHF E+ P  + S  DFL S          + PE  A K LGQFGL    H  P+ ELSGGQKARV FAS++  +P IL+LDEPTNHLD+ESV+ALI  ++++KGG++LVSHDARLI + GC+LW+C G G        FE YRR +L+++
Sbjct:  188 SKLSNKERRLYAKHLEAKEEEEREAATRTQMEQLSSDARRLEEELRDFSVSVA----GGQEPTA---GAVDLRLECFSISAGGQRLLEDANLTLAQGRRYGLLGPNGAGKTTLLKLLAGRRLPVPEAWALGLVQQEAEATETPVVDEVLAADSDRRRLLAEEAELLAKLDELDT---GGGTGD--------------------GAEALXXXXXXACR--RLAAVGDALEASGAEAAEARVRRILCGLGFTTAMAEGPVSRLSGGWRMRVSLAKALFLEPHLLLLDEPTNHLDLDAVLWLDDYLC-SYKKTLLVVSHDADFLDSVCTDIVHLEEKGLHQYRGGYTEFKKAHAQRVRERDKEFKKQQEDKKAGK---------------KLHPDDVVQKLKDYVVKFHFFPPSAQGDDSGGISVHDAAFSYSGKKPWLLKGLNFRVDASTRVAVVGSNGAGKSTLLSLVGKVLEPCEGEVVHARRVTIGRYSQHFDEIAPALQLSAVDFLTSHELRRFGAGTESPEL-AHKCLGQFGLPSHAHSRPMKELSGGQKARVCFASITCRKPEILILDEPTNHLDIESVEALIDALKKFKGGLMLVSHDARLIQAAGCDLWICRGAGEPIGRASSFEEYRREVLKEL 779
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BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A7S3XX63_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XX63_HETAK)

HSP 1 Score: 473 bits (1216), Expect = 4.990e-148
Identity = 291/664 (43.83%), Postives = 392/664 (59.04%), Query Frame = 1 
Query:  589 SKLHREMDAAAAKQKAGARLTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSLSMRPGGGGGGEMTAAE------DGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAV-----------------------LKKMGRTSLMDRPKEYTVKFGLSSPEDRVPSI-SVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQA-RKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDI 2487
            ++L  + + A  K K G +L+N++K+ L+K    EAE+ A +        A S   R G       +A +        A D+ V  FSI+A  + L  +A L +  G++YG +GPNG GKSTLL+ +A++EL +P  VD L VEQE  A + P  E VL AD+ R AL+EEE +L + ++A E A EG               AE+                       RL ++ A ++ IGAD AE   R+IL GLGF  +MQ   T   SGGWRMR+SLA ALFVEP LL+LDEPTNHLDL+AV+WLDDYL +KWK TLL+VSHDQDFL+SVC DIVHLHE+ L+YY    D F+EM  Q   + +KD++ QEK I  LK+ G S SKA E V                               L+ RP++Y V       ++  P I  VLD  F Y +    L +D+ F +D D+R+ +VGPNG GKSTLL LL+G+L P+ GE+ R++ LR+G Y+QHF + LP   SP D++R E++    Q+ R +LG+FGL+G  H IP+ +LSGGQKARVVF  LS+   HIL LDEPTN+LD+ES+DAL   IQ + GGVV+V+HDARL+ +  C LWV + GG    + + FE Y+  LL D+
Sbjct:   13 AELGGKKETAEEKLKDGKKLSNRDKRKLQK----EAEKKARDAEYXXXAMAAS---REGAQFACSQSAVDPNDANWQNALDVIVPSFSISAHNKLLFDNAQLNIVQGRKYGFVGPNGAGKSTLLKMIASKELRIPPKVDCLYVEQEVVADDTPAYEAVLKADKERWALIEEERALTRALDAGEAAGEG---------------AED-----------------------RLGEIYARMEEIGADGAESKARRILFGLGFDPKMQSMKTKHFSGGWRMRISLARALFVEPTLLMLDEPTNHLDLNAVIWLDDYL-QKWKKTLLIVSHDQDFLNSVCEDIVHLHELRLEYYRGNYDDFKEMECQKRKQQQKDWEKQEKRIRQLKQSGQSKSKATEEVKXXXXXXGARAXXXXXXXXXXXXXXXXXXXELIKRPRDYVVTIAFPDVDELSPPIIEVLDCEFHYPNGPTIL-KDMNFGIDLDSRICVVGPNGAGKSTLLKLLTGELTPTTGELKRNQRLRMGIYNQHFVDRLPMSLSPVDYIRQEHNEQTYQSTRNLLGRFGLEGHAHTIPMRDLSGGQKARVVFTELSLQHAHILFLDEPTNNLDIESIDALCTAIQNFNGGVVVVTHDARLVEACDCRLWVVDDGGCWAFNGE-FEDYKAQLLNDL 628
[Close]
BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A0D2WQE0_CAPO3 (ATP-binding cassette sub-family F member 1 n=1 Tax=Capsaspora owczarzaki (strain ATCC 30864) TaxID=595528 RepID=A0A0D2WQE0_CAPO3)

HSP 1 Score: 491 bits (1265), Expect = 7.070e-148
Identity = 297/638 (46.55%), Postives = 386/638 (60.50%), Query Frame = 1 
Query:  646 LTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGS----KAEEAVLKKMGRT---------------SLMDRPKEYTVKFGLSSPEDRVPSI-SVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAE 2499
            LT +E++  +K+ EREA+  AA  R   G++ FS+             +  D ATD+ + GFSI+A  ++L  +A+L +  G+RYGLLGPNGRGK+TLLR +A REL +P  +DVL VEQE EA    VVE VL AD  R  LLEEE  LL  +      E                                         +KRL QV  EL AIGA +AE   R+IL GLGF  +MQ  PT   SGGWRMRVSLA ALF+EP LLLLDEPTNHLDL+AV+WLD+YL+  WK  LLVVSHDQDFL+SVCTDI+HL +  L YY      F++M  Q  V+ +K ++ Q+K++ ALK  G+S      KA    + K G+                 L+++P++Y V F    P    P I  V+DV F Y +    LF D+   V  DTR+ IVGPNGVGKSTLLNL+ G+L P++GEV R+R LRIGRY+QHF ++LP   SP ++L + ++   +Q R  LG+FGL    H IPI +LSGGQKARVVFA+L   +PHIL  DEPTNHLD+ES+DAL++ I+++KGGVV+VSHDARLI  T C+LWVC+    +      F+ YR  +L  +  AE
Sbjct:  716 LTGREERKARKLREREAKIAAA--RGPAGISQFSVQQA-----NLNSQSVSDNATDVKIDGFSISAGGKDLFVNANLTIVPGRRYGLLGPNGRGKTTLLRHIANRELAIPKNIDVLYVEQEIEADGTSVVEAVLRADTVRINLLEEEKRLLAELQVKSSTE----------------------------------------ATKRLQQVTDELKAIGAASAESRARRILAGLGFDRKMQRRPTNSFSGGWRMRVSLARALFIEPTLLLLDEPTNHLDLNAVIWLDNYLST-WKKMLLVVSHDQDFLNSVCTDIIHLEDRKLHYYRGNYFDFKKMHAQKVVEQQKQWEKQQKQLKALKAAGHSSKDALEKARRLQVAKGGKKPAGKNVDDDDVGNKLELIEKPRDYIVNFHFVDPPQLPPPIIEVVDVGFNYPN-CPKLFDDVNMGVTMDTRMCIVGPNGVGKSTLLNLIIGELNPTEGEVRRNRKLRIGRYNQHFVDVLPMDISPTEYLMNTFNKVNEQCRAQLGRFGLVSHAHTIPIRDLSGGQKARVVFAALVFQEPHILFFDEPTNHLDIESIDALVEAIEQFKGGVVVVSHDARLITETECQLWVCDERDCIKFDGD-FDDYRDLILAQLEEAE 1303
[Close]
BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A5A8E5N2_CAFRO (Uncharacterized protein n=1 Tax=Cafeteria roenbergensis TaxID=33653 RepID=A0A5A8E5N2_CAFRO)

HSP 1 Score: 484 bits (1247), Expect = 1.370e-147
Identity = 310/658 (47.11%), Postives = 399/658 (60.64%), Query Frame = 1 
Query:  616 AAAKQKAGARLTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFG-----SGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKEYTVKFGLSSPEDRVPSI-SVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEY--DVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAATA-RAARRAKERADR 2562
            A AKQKAG RL+NKE+K ++ ++    E+ A    +   L AFS+S  P      E+      A DI V  F+I+A  + L  DA+L +  G+RYGL+GPNG+GKSTLL+F+AAR + +P  VDVL VEQE  A + P    VL AD+ R  LLEEEA +    +AA++A+E        +   D  +R   ++   P      +G + DD+ +A   +RL +V   L  + A  AE   RKIL GLGFT  M + PT   SGGWRMR+SLA ALF++P LLLLDEPTNHLDL+AV+WL++YL + WK TLLVVSHDQDFLD V TDI+HL +  L YY    ++F+ M  Q   K  KD++ Q+K I   K KG S   AE AV        ++ RP+ Y+V F     E   P I  V+D  F Y  +   LF  L F VD DTR +IVGPNGVGKSTL+ +L G+L+P++G V  +R LR+G+Y QHF + LP  KSP D+L          Q AR  LG+FGL+   HLIP+ ELSGGQKARVVFASL+    HIL  DEPTNHLD+ES+DAL  GI  + GGVV+VSHDARL+    C+LWV  G           + YR SL+  I + EA  EA A A    R AK +ADR
Sbjct:  408 ALAKQKAGERLSNKERKAMESLKRLIGEKKAMTEAAADELRAFSISQTPPDERLLEL------ALDIKVPLFTISAGSKALFTDAELSIVHGRRYGLVGPNGQGKSTLLKFMAARRIAIPPRVDVLYVEQEVVADDTPAYIAVLKADKVRWELLEEEADITAKFDAADKADEVVAQLQAKAAAGDESARAIVESGRKP------AGFMTDDQRFAI-DERLQEVYEALSEMNAAKAEPQARKILAGLGFTAMMMEMPTKNFSGGWRMRISLARALFMKPTLLLLDEPTNHLDLNAVIWLENYL-QSWKNTLLVVSHDQDFLDGVVTDIMHLEDRRLAYYRGTYEQFKGMHMQKMDKMFKDWEKQQKAIKRQKDKGKSRKDAEAAV------GDILARPQVYSVSFAFPPVEPLAPPILEVVDAGFRYGPEHPVLFTGLNFGVDMDTRASIVGPNGVGKSTLVKMLIGELKPTEGTVRSNRFLRVGKYSQHFADKLPMDKSPVDYLAGSGADKAAVQHARATLGRFGLEPHAHLIPVSELSGGQKARVVFASLATGDYHILFFDEPTNHLDIESIDALAAGINAFNGGVVIVSHDARLLREANCDLWVV-GDLNCKPFDGDLDDYRESLIDAIEAQEAEAEARAVADEEVRAAKRKADR 1044
[Close]
BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Match: A0A8J1ZMN4_9DINO (Hypothetical protein n=1 Tax=Amoebophrya sp. A25 TaxID=1410381 RepID=A0A8J1ZMN4_9DINO)

HSP 1 Score: 495 bits (1274), Expect = 1.650e-146
Identity = 304/655 (46.41%), Postives = 405/655 (61.83%), Query Frame = 1 
Query:  625 KQKAGARLTNKEKKLLKKMEEREAERTAAELRSNQG-LTAFSLSMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRYGLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLLADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPREELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFTDEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLDDYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREMLGQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMD---RPKEYTVKF---GLSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIVGPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSPCDFLRSEYD----VPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLSMSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGCELWVCE--------GGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAATARA 2532
            +Q  G +LT KEKK+L++  + E + +  +   N G L AFS+ +      GG++     G   + V GFS++A    L ++A+ ++  G RYG LGPNG GK+TLLR +A RELP+P   D+LLVEQEA AS + VVE+V+ AD     LL+EE  L++ +               ++DS   ++ E+A                      RL +V AELDA  A+A E TVRKILTGLGFT +MQ       SGGWRMR+SLA ALF++PKLLLLDEPTNHLDL AVLWLD+YLA ++  T++ VSHD DFLD++CTDI+HL +  L YY  G   FR+MLGQ  ++ E++ K  + E  ALKR G +  KAEE + +K    S+ D   + K+Y VKF   GL   +  +  ++V DV+F Y   +  L  +L F  DT +R+AIVGPNGVGKST LNL+  KLEP +GEV     LRIG Y QHF ELLP  K+  ++L S++       +++AR  LGQFGL    HL  IG LSGGQKARV FA+LS+SQPHI++LDEPTNHLD+ESV+ALI  + +Y GGV+LV+HDARLI +  C LWV             ++  H +GFE YR+ +L  +A  E  +EA A  RA
Sbjct:  360 RQARGEKLTAKEKKMLERHTQ-EVKYSNPDDEENTGDLKAFSIVLP-----GGKLEHPPSGDAAV-VEGFSLSAAGNWLFKNANFKVVQGHRYGFLGPNGMGKTTLLRHIAKRELPIPLDWDILLVEQEARASNKNVVEEVMAADVACVQLLDEEKELMEKL---------------ENDSASPEEMEKA--------------------RARLEEVSAELDARNANALESTVRKILTGLGFTKKMQTQTVETFSGGWRMRISLAKALFMQPKLLLLDEPTNHLDLDAVLWLDNYLAEEYPHTVICVSHDADFLDAICTDIIHLDQQKLFYYRGGYRGFRKMLGQKKLEKERELKKMQDEFKALKRSGIAKDKAEETIKRKFHLESINDIHEKIKDYIVKFNFIGLGQ-DSAIGGLNVSDVAFSYNGKKPYLLDELDFGCDTTSRIAIVGPNGVGKSTFLNLMLKKLEPLEGEVRHANQLRIGHYHQHFDELLPLDKNGVEYLMSDFSKAGITSQERARASLGQFGLPSFAHLTKIGNLSGGQKARVAFAALSLSQPHIVVLDEPTNHLDIESVEALIDALDKYDGGVILVTHDARLIQAVDCTLWVVALHDPTVKPETAQIKRHERGFEGYRQDVLGALADREEEIEAMARQRA 971
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1008.13.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LEI0_ECTSI0.000e+082.62Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A6H5JF33_9PHAE0.000e+086.18ABC protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 Ta... [more]
A0A812VCJ4_9DINO3.730e-15644.79ABCF1 protein n=1 Tax=Symbiodinium sp. KB8 TaxID=2... [more]
A0A812MXN1_SYMPI1.510e-15245.50ABCF4 protein n=1 Tax=Symbiodinium pilosum TaxID=2... [more]
UPI000C04C6DF1.080e-14946.76ATP-binding cassette sub-family F member 1-like n=... [more]
A0A7S4S1L8_9DINO8.200e-14948.36Hypothetical protein n=1 Tax=Alexandrium monilatum... [more]
A0A7S3XX63_HETAK4.990e-14843.83Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A0D2WQE0_CAPO37.070e-14846.55ATP-binding cassette sub-family F member 1 n=1 Tax... [more]
A0A5A8E5N2_CAFRO1.370e-14747.11Uncharacterized protein n=1 Tax=Cafeteria roenberg... [more]
A0A8J1ZMN4_9DINO1.650e-14646.41Hypothetical protein n=1 Tax=Amoebophrya sp. A25 T... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1008contigP-littoralis_Contig1008:51444..82566 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LEI0
PFAMsABC_tran
Model size3965
Max annot lvl2759|Eukaryota
KEGG koko:K06184
Hectar predicted targeting categoryother localisation
Exons20
Evalue0.0
EggNOG OGsCOG0488@1|root,KOG0066@2759|Eukaryota
Ec32 ortholog descriptionABC transporter-like
Ec32 orthologEc-21_004610.1
Descriptiontranslation activator activity
Cds size2730
COG categoryJ
BRITEko00000,ko03012
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1008.13.3prot_P-littoralis_Contig1008.13.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1008 52745..82566 -


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

Feature NameUnique NameSpeciesTypePosition
1680789347.7844286-UTR-P-littoralis_Contig1008:51443..517331680789347.7844286-UTR-P-littoralis_Contig1008:51443..51733Pylaiella littoralis U1_48UTRP-littoralis_Contig1008 51444..51733 -
1680789347.7946212-UTR-P-littoralis_Contig1008:51799..527441680789347.7946212-UTR-P-littoralis_Contig1008:51799..52744Pylaiella littoralis U1_48UTRP-littoralis_Contig1008 51800..52744 -


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

Feature NameUnique NameSpeciesTypePosition
1680789347.8052893-CDS-P-littoralis_Contig1008:52744..530441680789347.8052893-CDS-P-littoralis_Contig1008:52744..53044Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 52745..53044 -
1680789347.8149667-CDS-P-littoralis_Contig1008:53632..537651680789347.8149667-CDS-P-littoralis_Contig1008:53632..53765Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 53633..53765 -
1680789347.8241081-CDS-P-littoralis_Contig1008:54596..547421680789347.8241081-CDS-P-littoralis_Contig1008:54596..54742Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 54597..54742 -
1680789347.8355632-CDS-P-littoralis_Contig1008:55651..558361680789347.8355632-CDS-P-littoralis_Contig1008:55651..55836Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 55652..55836 -
1680789347.8467073-CDS-P-littoralis_Contig1008:56874..569351680789347.8467073-CDS-P-littoralis_Contig1008:56874..56935Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 56875..56935 -
1680789347.856819-CDS-P-littoralis_Contig1008:58307..584001680789347.856819-CDS-P-littoralis_Contig1008:58307..58400Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 58308..58400 -
1680789347.8648705-CDS-P-littoralis_Contig1008:58809..588991680789347.8648705-CDS-P-littoralis_Contig1008:58809..58899Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 58810..58899 -
1680789347.8771665-CDS-P-littoralis_Contig1008:59724..597901680789347.8771665-CDS-P-littoralis_Contig1008:59724..59790Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 59725..59790 -
1680789347.887279-CDS-P-littoralis_Contig1008:71596..716841680789347.887279-CDS-P-littoralis_Contig1008:71596..71684Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 71597..71684 -
1680789347.8998656-CDS-P-littoralis_Contig1008:72214..724201680789347.8998656-CDS-P-littoralis_Contig1008:72214..72420Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 72215..72420 -
1680789347.9128585-CDS-P-littoralis_Contig1008:73345..734481680789347.9128585-CDS-P-littoralis_Contig1008:73345..73448Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 73346..73448 -
1680789347.9252505-CDS-P-littoralis_Contig1008:75444..756951680789347.9252505-CDS-P-littoralis_Contig1008:75444..75695Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 75445..75695 -
1680789347.9334464-CDS-P-littoralis_Contig1008:76018..761771680789347.9334464-CDS-P-littoralis_Contig1008:76018..76177Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 76019..76177 -
1680789347.943028-CDS-P-littoralis_Contig1008:76934..771091680789347.943028-CDS-P-littoralis_Contig1008:76934..77109Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 76935..77109 -
1680789347.9559512-CDS-P-littoralis_Contig1008:78060..781691680789347.9559512-CDS-P-littoralis_Contig1008:78060..78169Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 78061..78169 -
1680789347.9661143-CDS-P-littoralis_Contig1008:78587..786511680789347.9661143-CDS-P-littoralis_Contig1008:78587..78651Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 78588..78651 -
1680789347.975015-CDS-P-littoralis_Contig1008:79082..792501680789347.975015-CDS-P-littoralis_Contig1008:79082..79250Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 79083..79250 -
1680789347.983216-CDS-P-littoralis_Contig1008:81635..818561680789347.983216-CDS-P-littoralis_Contig1008:81635..81856Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 81636..81856 -
1680789347.993743-CDS-P-littoralis_Contig1008:82454..825661680789347.993743-CDS-P-littoralis_Contig1008:82454..82566Pylaiella littoralis U1_48CDSP-littoralis_Contig1008 82455..82566 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1008.13.3

>prot_P-littoralis_Contig1008.13.3 ID=prot_P-littoralis_Contig1008.13.3|Name=mRNA_P-littoralis_Contig1008.13.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=910bp
MSGFTGKASKAKGSAGGKGSKAKGVSNDGQAGKVRGGWSGKGSKAAAAAE
DATSNTSSDKGKGGGGKGKGGGKGGGGAPIELTAKQAKSKRKAERAAMEA
ARKDEVQNMMKVFDSDDGGGSGGDDGECGDGEDVLYDKFGNVVDKAAAER
AALQEMREAARAARAAKEKAAKEAKAAASGSAGVDADQGDETTDYGSKLH
REMDAAAAKQKAGARLTNKEKKLLKKMEEREAERTAAELRSNQGLTAFSL
SMRPGGGGGGEMTAAEDGATDISVLGFSIAAPKRELLRDADLRLAAGKRY
GLLGPNGRGKSTLLRFLAARELPVPAAVDVLLVEQEAEASERPVVEQVLL
ADETRRALLEEEASLLKGMNAAERAEEGFGSGNDDHDSRDADDAEEAPRE
ELNGSGEVWDDETWAAKSKRLAQVGAELDAIGADAAEGTVRKILTGLGFT
DEMQDGPTTILSGGWRMRVSLASALFVEPKLLLLDEPTNHLDLHAVLWLD
DYLARKWKTTLLVVSHDQDFLDSVCTDIVHLHEMGLKYYGHGVDRFREML
GQVNVKAEKDYKLQEKEIAALKRKGNSGSKAEEAVLKKMGRTSLMDRPKE
YTVKFGLSSPEDRVPSISVLDVSFGYRDDRAALFQDLRFKVDTDTRVAIV
GPNGVGKSTLLNLLSGKLEPSKGEVTRHRHLRIGRYDQHFHELLPQGKSP
CDFLRSEYDVPEQQARKVLGQFGLDGARHLIPIGELSGGQKARVVFASLS
MSQPHILLLDEPTNHLDMESVDALIKGIQEYKGGVVLVSHDARLIASTGC
ELWVCEGGGRVNVHRQGFEHYRRSLLRDIASAEARVEAAATARAARRAKE
RADRVGKHTRRGAQAQLSNLSVEGRGGAKEEKKVAEDAARKEVRKEAVAS
VFGKKKRKG*
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mRNA from alignment at P-littoralis_Contig1008:51444..82566-

Legend: polypeptideCDSUTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1008.13.3 ID=mRNA_P-littoralis_Contig1008.13.3|Name=mRNA_P-littoralis_Contig1008.13.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=31123bp|location=Sequence derived from alignment at P-littoralis_Contig1008:51444..82566- (Pylaiella littoralis U1_48)
ATGAGTGGCTTCACGGGAAAGGCGAGTAAAGCCAAGGGATCGGCAGGTGG
TAAAGGTTCGAAGGCAAAGGGCGTCAGCAACGATGGGCAAGCTGGCAAGG
TGCGCGGTGGATGTTGAAGAGCTTGAGTTGGAAACAGCTTCTTGTACAAC
CTTCGGAGAAGTACGATGATCCCGCTTGCTTCCAAAAGTTCTGACTGTGC
TCGCATGTGGTTCTTTGCTACGTAGTGGACTTCCAATTCGGCACACTGAA
CAGATTCCAGCGACTATCCGCACAGAGACTACTCTTGTCGTTGACGTGGG
TGTGGAATATGGAATGAAAACAAGTTGTCCCGCATTCCGCCGCACCCCAT
CATACAATCCCGCAATTCCCTTAACTCTATGCACAGCAGCAGTGTATAAC
TCTGTCTCTCTGTTCTCCGTTGTCTCTGCTGTTCTCTGCCGGTGTACATA
TGACACTGTGAAATATGATACTGGTACGCCTGTGTTGGGATCTATTCCGA
ACATTCACAACTTTTTTGGTCATGATATGTGAAACTAAAAGTTCATTCCT
GATGGGACACGCATTCGGTCTACGTAGCTCCGCCGACTCAAAACCACATC
CCGTAACTAACTGCGGTCCATATGGTAGATTGGCACAACCATCCCTCTCT
TCCTCTCGCTTTGCCTTTCTCGTACTCTCACTCCTTTTATCCCATAAACT
CAGGCGGCAGGGTCGGGCAAGGGCAGCAAAGCCGCCGCAGCTGCCGAGGA
CGCGACGTCGAATACCTCCTCCGACAAGGGCAAGGGGGGGGGCGGCAAGG
GGAAAGGGGGAGGGAAGGGGGGCGGGGGGGCACCGATAGAGCTGACCGCG
AAGCAGGCCAAGTCGAAGCGGAAGGCGGAGCGCGCGGCGATGGAGGCCGC
TCGAAAGGACGAGGTTCAAAACATGATGAAGGTATGAGATCATATGATAT
ATATACTCCGTATGATACTGTACGTAATGAATGTCGTGTGAATGCTGCTG
TACCCACGTATGATATCTATAGTGCTCATATGTAGGGCATGGTCTCTTCA
CGACCGCTCTGATGCTTCCTTTGTGGCGATATTGAGATGTAAAAATACGA
TGCAAGTGAATTATTCTCGCTTTCATTTGTGGTTGACGTGACGGTCTGAT
GTGGCATCCTTTTTTTTGCAGTCCGTGGTACATACACTAGGTGGCCCTTT
ATAGCGACCACTTCAATAACGATCTGCCCAATATAGCGACGATAAAATCT
CGTGTCACAATTGGACGCCGGTATAGCGACGCTTCGTCGTTATACCGGAC
GCATACCCGGTATAACGACGTATCGTCGCTATACCGGTTCTACACACAGT
CGCGGAGCTCCCACTGGCCTGCCTGTGCTTACACCCGTACACCAGTTGTA
CAGCAGTACTGCCGTACTCCATCACAGAGCTCGCTCACTGCACACCACAC
ACGCTTCACTCGCATACTGCTTCAAAGACTTCATCACTAGAGAACATACT
TACTGCTGTATCATGCCATGCAAGGATGGCGAGCTTTGCAAACTCCCAGA
TGTGGAACTGGTAGCTCCCAATGGACAAGAGTGCGGGCATGAGTGTCGTG
GCGGAGCTAGAAGATAACGAAGAGATCGCCAAAGCTCTCGCCGAGGACGC
CAAGGAGGTGTTCGCGGAGAAAATGAACGCCGAGTACAAGGAGGACTCAG
ATTCGTCCGACAACGAGGAAGAAGAATTGAACGATACGGGAGAGGTTGAG
GGTGCAGGGGGTGGAAAGTTGATTGCCCCACCGCCCTACACGGAGCTTTC
GGGTTATTTTGGTCCACTTGAACAGTTTGCAGAGTCGGCTGGTAATACCC
AGGCAGCGTTTGCGCTTCGCAAGGCAAAGATGGCATTCCTTGAAGCCTAC
GCGGCAAAACCAGCGCGGCAGACAGACATTAGGATGTACACTGAATCATA
GATGCTTGAATATATATGGCACTGCTAATTTAATGTTTGTGTGCGCTTCC
TCTGTAAGCTTGTAACTCTGTGGTGACTGCTGTTCTGCTGCACTGTACTG
TAGGCAGCATACTGCTGTAGGTAATGAATACATACGCTGTACAGTACTAC
GCTAGATAATATAAAAGAAGTTGAACAGCAGCCTAAATAGCGACGATATC
GCTATCGTCCACAATAGCGACATCGTCGCTATTGTGGACGATAGCGATAT
CGTCGCTATAGCGGATAGCGACGCTGTTGTGAATAGCGACGCTTTTGCCG
CTTGACACTAGGGGTCGCTATAAAGGGCCACCTACTGTACTTCTAAATCA
TGTCATATACACCTCGAAGTACACCGTCAGAAAAAAAAAAGTGTCTTGAC
GATGAAGGCAGGACGAGGTCCGAAAATTGCGCGAATGTTGCAGATGATAT
CACGTTGCGTAGTATCCATTGGTTTGCGTGGTAACACGTGCAAAGTGCGT
TGCCTCTTTCGCTCAGACGCTCTAATGCACTGCTGTTTCCTTTCGTGTCG
ACATACCGACATATACATGTATATTAGGCAAGCAAGTCCAGAACACGAAG
TCTCTTTCCTTGTGCTTGACTTGACGCTCTCGTGTATTGACCCTTTTGTA
GCAGTTTGGACAGGACAGGAAGTCAAGGACACGACGGAGGTGTAGTCTCT
TTTCTCACAGAGTGACGCTCGACCGCTCCGATGCATGCATCCGTTTGTGG
CGTCACTGCTCGTACGTGTGCAGAGGACAAAGCTGTCACATATCGCGGTG
GAGGTACCATCAAGTCTCTCTCGGTTTCTCTCGCTTTCTCTCCGCGTTAC
CGCTCTGATGTACACGCCCCTTTTGTGACCACCTATTGTCGTAGGAAGTC
CTTCGGTAGGACAAGCGAGGAACATGATAGAGGGATAGGCGCAATGCATG
GATGGATTATCTCGTGAGATATCGCACATGAGTCATCAGATGACAGATGG
TGGTGTCCATGATGTGTTTCGCCAGCGGGAAGGTGTGACACCGGTTTGTA
TGACATCAAAGGTCCCGAGCATAGCCAAGGAGGAGCCAAAGATAGCTCCG
CCCACGTGTCAAACGTACAGCATTACACAGTTCCACGTGCTTCTTACTTA
TTGTTTGTGAGTGGTATGATACAATCATCACCGTATCATACAGACTTTAC
TGCTGTTGGCGGTGTTTTTTTTTTTTTCACCTACACGACCGACAACCAAC
AACCACAAACCGCCGACCACCACGAAAAAATGCTCTTCTGACCGCCGGAC
GACAACGAAAAAATCGCTTCTTTTTTCGGCTTTGCTTCAAAACGAAAACG
AAATTAAACGGGGAAGGTTTTCGACTCGGATGATGGCGGCGGGAGCGGGG
GAGACGACGGTGAATGTGGCGACGGGGAAGACGTGCTGTACGACAAGTTC
GGCAACGTCGTCGACAAGGCCGCCGCGGAGCGGGCCGCGCTGCAAGAGAT
GCGGGAGGCCGCTCGAGCGGCGAGAGCCGCCAAGGTGTGTGTGTGTGAGC
GAGAGAGAGGAAGAGGGAGAGAGGGGGGAGGGGAGAGACAGAGAGAGAGA
GAGAGAGAGAGAGAGAGAGAGAGAGAGGGAGAGAAAGAGAGAAAGAGAGA
GGATGCCCAACCACGGAGCGACGAAAGCCGTCAAGGTGTGTGTGTGTGTG
TGTGTGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGATGGAGGATACCCA
CGCACTTTTTTAGGTGCCCACACACGAACGACGGAAAGCTCCCACCGTGA
GACACCTCCGCCGTGTCTCCTACCTACCCTTCCCGGCGTCACTCTTTCGG
CCGCTCCTAGAAAAAAACAGCTACGAGCAAGTTTGTCGCGCTGCGTGTTT
TGCCGCAATGCTTATTTTCCTTTTCTCCCTCCTTTTTGTTCTTTGTTAAC
GCAACGCGGCTTTAGGAGAAAGCCGCGAAGGAGGCCAAGGCCGCTGCTTC
CGGGTCTGCCGGCGTCGATGCCGACCAGGGTGCGGTGCGGTGGCGGTGGC
GGTGTGATGGAAGATAAATAACTGACCTTTGTTGTTGTGCATTGACGCGT
TCGCGAAAAGAATGCGCATCTTAAACCAAATCAAATTCGCCATGCCCCCA
CGCCGTGTTTGTGTGCATGCATGCATGCATACGCTGTCCATTGTCCATAC
ATACCAATCGCATTTAGCCGCGCGCACGCACGTGCTGTGGAGTTCCACAC
CCCATAAACCGTTACATCATGCCGCTCCCTGTGCCGAAATACCAGGCAGC
CGCTCTAGCACAGCAATTGGAAGCTGATATGTACGATGAAAGCGTGTGTT
CCTTGCAGTGAGTGGGCTATGTATGGACCCACGAGACTACTAACGTACAT
TTTTTGGATTCATTTCGCGGCACAAAACACAAATAACCAAACTGCAGGTG
ATGAGACTACCGACTACGGCTCCAAGCTCCACAGAGAGATGGACGCCGCC
GCAGCGAAGCAGAAGGCGGGGGCCCGCCTGACCAACAAAGAGAAAAAGTT
GCTCAAGTGAGTTATCATAGACTTTCCGACAGACAGCAAAGGCGTCGCCC
GTTTTCAAGGTCCGGTCTGGGAACGATTCCGGCTGCTCTTTCGAGAACCA
AGCAAGTCTCGCTCGCAACACGCAACGCTCTGTTCTTCTCGTTTTTTCCT
GCGAGCGCCACACAACCGGGCTCACTCTACTCTAGGTTTGTCCGTCCGCA
GTCTGTTCGCAGGGTGGCGGGGGGGGTTGTGTGCCCCTTGTGGGATTGCT
CGAGATTTCGTGTGCGATTTGGGTAGAAAATACCAGTAGGCGTTTTTTTT
TTTTCTAAAGGCACGCGCCTTTCCTTGGCACGAAAAAAGTGCCAAAAACA
GACGGGGAAAAAAGGCCGCTCGAGGCGAGGCGCGCGTGTCGCGGAGCTTC
CATTTAGCATCCTGGTACATGATTGCTAAAGCAGTACCAATGCTGTGTTT
CGAGGCGATTTTTGACTCTCGCAACTCATTCATGCTCAAGAGAAGAAAAA
GCCTGCCTTGTGGTACGCAAAGCCAGCGCTTAAGAACCGTTACCGCTACG
ACCTCGTTTTTTTTTTTTTTGTTACCTCCGTCTATCTGTATAAACGAAAT
TGGTAAAAAAATGGTTTAGTTCACTCGCGTGTGTATGCGTGTGCGTGCGT
CGTGTGCGTGTCTGTATGTCGCGTCCCATCTATATTCTGGACACCGGTCT
ACGCCTTTCGGCATGAAGTGGGTGCATCAGCCGTGGGGTTGAGGTCACAC
GAAAGGAAAGGAAGGACAGCGTCTGATAGCACACAAGTTTTTAATGGCTT
TTTTATACACACGTGTGATAATTTATTTATTTATTTATTTGTTTATTTTA
TTTCATTTTCATTTTCATTTTCATTTTCATTTTCATTTTCATTTTCATTT
TCATTTTCACAAACCTATCACATGACACGCTTTTTCTTTGCCTTTTTCAA
TAATCAGGAAAATGGAGGAGAGAGAGGCCGAGCGAACGGCCGCAGAACTG
AGGTCGAACCAGGGCCTGACGGCGTTCAGCCTGTCCATGAGACCGGGCGG
GGGTGGCGGCGGCGAGATGACGGCTGCCGAGGACGGCGCCACGGACATCT
CGGTGCTTGGGTTTTCTATCGCGGCTCCCAAGGTAATTTTTTTGTATGAT
TGTTGAATGTGAGCCGTATGCATGTGTGAATGTATGTATCTATGTTCATG
GATGTCATGTATGTTTTGTGTTACATATGTTTGTGTGTACAAGAGTGTAT
TTGTGTGAATGAATGTATGTAGGAGTAGTGTGCGTGTTTTTTCTACACCA
TTTTTCCTATGCTAGACGTGCGTACTACATACATACAGCAGTACGCGTAT
GATATCATTCAGTAGTCGCGATGATGTTGTTTCGCGATACAGGAGTCCGT
CCTGTGGAAACCCCCTAGTAAGACTATCTGGTACATGCGTTCATGGAAGA
GCCGCAGGAAGCGGTTTGAAGTTCATCCACTGATGAAGTACTCTTTTTTT
TTGTCGTAATCGAACACCGCCCAAAGTCCAAAGCGGTTTGAAGTTTCTCC
ATTGATGGATGTTTTTTTTTCATGTTGAATCGTCAAAAAACACGGACCAA
CGAACGACCCAATGATGTGACACATGACGCACATGCCATACGAAATGATG
TATGATATCAATCGAAATGACGTTTATCAATAGAAATTATGTATATCAAT
CGAACGATGTATCTCAATCGAAATGATGTGATACATACGAAGGACGCACA
TACTATACGAAATGATGTATGATGTCAAACGAAATGATGTATCATATCAT
ACGAAATGATCATATCAATGGAAATGATGTATCATCAAAAATGATGTACG
AAGTATCATACAAAATGATGTGATACACAAATACGACAGCGTGAACTGCT
GAGGGACGCCGACCTCCGCCTCGCGGCCGGCAAGCGCTACGGGCTGCTCG
GCCCCAACGGGAGGGGGAAATCGACCCTGCTGCGGTTTCTCGCGGCGAGG
GAGCTGCCCGTGCCCGCTGCTGTGGACGTGTTGCTGGTGGAGCAGGAGGT
TTGTTGTGTTTTTGTTATTTTTTTGTTTTGTTGTGTCGTGCTTTTGTTTT
GTTTCTGTTTTGTTTCTTATTTGCTGTGTGTGTGTGTTTTTTTTTTTATA
TGTTATGTTTTCGTTTTATTTATTTATTTATTTATTTATCTTATTAGTTG
TGTTTGGGATTGTTTTGTTTTGGATTGTGTGTTGTGCTGTGTTGTGTTGT
GTTGTGTTGTGTTTTGCTCTGTACGTACACCCATAATACACACGTCCACA
CACATACTCTGTACGTGCATACAAACATGCGTTCATTCACGCCACATCAC
ACGTACCGTACGTCCGAACAGGCCGAGGCATCAGAGCGGCCGGTGGTCGA
GCAAGTCCTGCTGGCCGACGAGACACGGAGGGCGCTCCTGGAAGAGGAGG
CGTCGCTGCTGAAGGGCATGAACGCCGCCGAGAGAGCGGAGGAAGGCTTC
GGCAGCGGCAACGATGACCACGACTCCCGTGACGCCGATGATGCCGAAGA
GGCTCCGCGGGAGGAACTCAACGGAAGCGGGGAAGTATGGGACGACGAAA
CGTGGGCTGCCAAGAGCAAGAGGTAGGTATGATAGATTGGTTGTGTGTTT
TTATGCGTGCACTGCTACTGCTGTTGGTGTGGTGTTTGTCTATGATTGTC
GGTAAAGCTGGGATGTTTTTACACTTACACGTAAGCCCGGGATTTATTCA
CTCTTATGATACCCGTAAGCCCACCCCTCGCCCCCCCCCCCCCCCCGGTT
TTTTTCGAAGCACACTCAACTTGTTGTTATTGTTGTCCGTAACGTGCATC
CGAACATCACTTCTGCTGTGCTGCTCTGCACTCGTCACCACGGAAATGCA
CACCATATCAAGGAACGATTTGATTTTTTTTTTTTTATGTTCTAGTACTT
GTCTGTACTCTGCTTCTCTTTGGTGCTGTGAACGAGGAGGTGAGCGGTCG
CCGCGAATCCCTCTCTCTCGCCCGCCTCGCGTGCTTGGCACAATTCGTAA
CGTGTGATGGCGCTCTCGCCGTGTGTCTTCCGACCGGGAAATCATATCCA
TAGCTCGCCCCCGGATCGAACCCCCACCCCTCTCTCATCAAACCGCTCAT
GCCATGTTTCCCGAGAGTTTGAAACTAGTATTATACGAAACAAATACTAC
AGTACCAGTCTGGCCGGGAATATAGCTGGGATTTGGACAAAAAACGTGAA
TATCTTGGGGTAGAGTACTATTTCTTCAATACGGATTTCTGCACTGTGTT
CACGATGACCTGGCCATAAAAAGTGTGAAACGAGTTCCCGAATGGCCAAA
TAAAAGGTTTCGTATCCTATCACGAAGGAAGGTCACTTGGAGATCTTCAT
GGGAATTTCCCCGGTCGAGGTGGTTAAAACATATTGTTGTTTCTCATTTA
TTTACATCGGCTTTGGCACTCTCTCCCGGTTCCAAAAAGCCAATAAAAAA
AGTGGTCACGAAAGAACTCCAACCACCACCAGCCTTCTTCAATTCTCGAT
ATTTTTCGATATTTTGGGGCTAGCGCAAGTTGTAGATCGCCAAGTGACTT
TTTAGAGGGCGGGGAACGCCCGTCCTGTTCTCGCGATTGCACTCGTAAAA
ACAATGATCGAAAAAAATGTTTTTGTTTTCGAAACCCGAACTCAGTTTTT
TTTTCGAAAAAAAAAAAAAATCGATCATTTATTTTTTTTACGAGTGCGAT
CGTGAGAACAGGACGGGCGTTCCCCGCGCTCTAAAAAGTCACTTGGCGAT
CTACAACTTGCGCTAGCCCCAAAATATCGAAAAATATCGATAATTGAAGA
AGGCTGGTGGTGGTTGGAGTTCTTTCGTGACCACTTTTTTTATTGGCTTT
TTGGAACCGGGAGAGAGTGCCAAATCCGATGTAAAAAAATGATAAAACAA
TAAAATGTTTTAACCAGCTCGACCGGGGAAATTCCCAGGAAGATCTCCAA
GTGACCTTCCTTCGTGATAGGATACGAAACCTTTTATTTGGTCGTTCGGG
AACTCGTTTCACAGTTTTTATGGCCAGGTCATCGTGAACACAGTGCAGAA
ATCCGTACTAAAAAAATCGTACTCTACCCCAAGATATTCACGTTTTTGTC
CAAATCCCAGCTATATTCCCGGCCAGACTGGTACTGTTGTACTTCGTATG
TGATATATTCGTATACTCCGGAGTATATTATATAAATGTTTGTTCAGTGG
AAGTGAGATTGATAAAGGGTACACTACCACGAACGTCTGCCGAGGACGAA
TTCCCTCTCCTCGCATACTGTACAGTATACTTTAGTATATTCGATTACAT
CCGTTTATTTGTTTATTTATGTGCTCAGAAGTCAGCTTTTCATGTGTATG
ATGCTCGTTGACCGTAAGGCAGCAAGCGTCCAGCCACGATCTCGACCTTT
TTTTTTTCGTTAAATATTTTCATGACGAAACTCCAGCCTCTGTACGAGTA
GCTCGCAGCATACTCTGTTATATATAAGACGGCCGCTTTCTTGCTGCTGC
TGCTACTGCTGCTGCTGCTGTGCTCTGCTGCTGCTGTGCTCTACTGCTTC
TGTGTTCTGCTGCCGTAGGCTGGCTCAGGTGGGGGCAGAGCTGGACGCCA
TAGGGGCGGACGCCGCGGAGGGGACGGTTCGCAAGATCCTCACGGGATTG
GGATTCACGGACGAGATGCAGGTACAGCATATCAGATGCATACGGCACGA
TAGGTTGTTCTTGTATTTTTGTCCTTAAGATTGTGTAGGTGAGTTTCTTG
TGCGTGTGCATGTGTGTGTGCGTGTGTTTGTTTCATGCGTTGGTGTTGGG
TGTATGTACGCGTGCTTATTCGGTTGTGTCTTTCCGCCTGCTACACTGCG
GTGTACCGCCGCCGCAATGAGCAGCAGAAACAAACACAAACTGTTGCAAT
AAGCGGCGACTCGAATCATTGCAACAAATGGAAATACTATTCGTTGCAGT
AGACGGCAACACGGACCGTTCCAGTACACGGAAACACGGATCGTACCAGC
ACACGGCAACACGGATCGTTCCAGTACACGGAAACACGGATCGTTCCAGT
AACCGGAAACACAAAATCGTCGCACAATGAGCGGTGAAACAAACAACAGT
TGCAATAAACTTGAACTACACACACCGTTGCCATGAGCCGCAACAGCGCC
AAGTCGCTGCAATAAACCGTCGACTAACGCGAAATCGTTGCAACAAATAC
ACACCGTCGTGAGAGATGCAAACCTTTACGATTCATGTACAGCAGTAGCC
GCCGTTTTAACCCAACCGTTCAAGATGCAAACCGTCACAATCTACGTACA
GTAGCCTTTTTAATACTCCGTACGTACAACCGTTACAGATGCAAACCGTT
GCAATATGTACGATACGTAGCCTTTTTTTTTTCGACACAACCGTTGCGAT
AACAGCACGAAACCCGTTGCACGTAGTGAAAACACAACCGTTGCAATCAC
GAGACAAAAAAACTCGTTGCAAAAAATAAACCGAGCCACAAACATATACA
CACACACAAACACACCCATGCGTGCGTGTAAAACAATCAAAATGAAACCA
ATACAAAACGACACACAAAAAAAAACCTTTGCCGCACGAAAACCAGGACG
GTCCCACGACCATCCTGAGCGGCGGGTGGCGCATGCGCGTCTCCCTGGCG
AGCGCGCTGTTCGTCGAGCCCAAGCTGCTCCTCCTCGACGAGCCGACGAA
CCACCTGGACCTTCACGCGGTGCTGTGGCTGGACGACTACCTCGCCAGGA
AGTGGAAGACCACCCTGTTGGTGGTGTCCCACGATCAGGACTTCCTTGAC
AGGTGGGTCGGGGTGGGATGGGGTGGTGTGGGGGTGATGGGACCGTCAAT
AGCGAGACGTTTTTTTTTTTTCTCCCAACCACTGCTTTGTATATACGTAT
GATATCATAGTGTGTTGTTTTCGTTGCTTTTTCGGTTTGCGTTTATTTAC
ATATGATATTTTGCTTTCTCTTGCCTTAGTGCAAGTTTGTGTAGCTGTGG
TTAGTTTTTACCATGCTGTTGCTCTGTACGACAGTTGTTGGATTTACATC
ATGTGTAAATTATGATTATTTTTTTATCCGCCCGTTTTTTTTTTTTGCGT
ATCATAGCCTAATTCTGTGGCGTTCATGTTGAATGCACGAGTGCTCGCCT
CATGCGCTCCAGCCTTGCTTGATCGCGTCCGTACCCCATCCCTACGAAGA
CCAGTTGCACTCGCACTCCACAGCAGTATTATCTGCATCGGCCATTGCAT
ATGCACAAACGCATGCTTACGTATGTTTTATGTCGTGCTCAATGCTGCTG
TGTGTCACTCTTGTCGTTGGCGACGACGGCAGCGTTTGTACCGACATCGT
CCACCTGCACGAGATGGGGCTAAAGTACTATGGCCACGGCGTAGACCGCT
TCCGGGAGATGCTGGGGCAGGCAAGTTCCTGTTGTTGTTGTTGAGTACTT
CCACGGCGTCTGTCTCCTCCCCCCCCCCCATGGCTAATTGGTTCTTGTGT
GTGTCGGAAATCCGTTTCTTTTTTCGTTTCCTTGAGTGTTGAACTCAAAA
CTTTTTTTTTCTTGTGCAGAGCGGGACACGCAGGCAGACCCGGTTCACAA
GGGGGCCAAACTGTCTGTGTTTCTGCTTGTGTGTTTGCATGTTTCACTTT
TGCTGCCGTTGCTGTTTGTTTTTGTCACTGGTAGTATGATATGATATGAT
ATGATATGATATGTGTTTGTGTTAATCGGTGAACGATCGTTAATAAGCAA
GCGACGAATTGATTGAAGGGGGCTTTGTTTTGTTTTCACTTTCGTTTGTT
CGAGATTTTTCTTTTCTCTTTTCTCTTTTCTCTTTTGTTTTTCCTCCTGT
TTTTGGACGTGATGTGTGTGTGTGTGTTTGATGTGTTTGTGCGTGTGTGT
ATGTTTCATGTGTGCGGGTACATGTGCTTTCTTTTCTTTGTTTTGAGGGC
TCATTCTGTTGTGTCTACCGGTGTGGTGGTCACAACAAACCCGGCACCCC
AAAACGCCTCCATTGGAAAAACATGCCCGAAAAAGAAAATCACAACGAAC
GAAAACATACGAGACGCCCCCATTGGCAAATCCTGCTCGAAAACTGAAAA
ATTAATTAACCAATGTACGAAACCTCACCTAGAGTGGGAAATCATGCCTG
AAGATGATATAAAGAATACTTCGAAGTAGACGACGAATGAACACGGTACA
CGAGAAGCCTCCTGTGGAATACCACGCCCGATTAGTACCAATAAATAAGT
AAAAGAAACTTCCATGAGAAACGAATGAAGCGGACGTGCATGTTTTTGTG
TCTGTCTCCAGGTCGAAGATACCAGAGAAAGCAGGTATATCTATCATACT
TTTTACTTTCAGGCATACATACTCGCTGCTGAAGTAACAGCAATGTTCTA
CAAGATGTTAGAAAACTGCCAGTAGAAGTCCTAGAGAAGCGGAAGGTTAG
GAGGAAGCGGGGAGAGCCGCACCTTGCGCCCCCCCTATCATCTCATTATC
TCTGACTGGGGGGACCACCAGAGAGGGAGAAGAGGATTCATCGAGAGAGA
AAGGATAACACACCAGCTAAGCCATCTCTCACAGCCATGCTGGGAGGAGC
ACAACAGAGGGGGCAGAGGCTTCATCAAGAGAGAAAGGATGACACGTCAG
CTAAGCCTGCGCACACAACAGGGGTCGGACGCCCTTCACACTGTGGCGTC
CTGGCACGTCGACATATAGGTGAGCTGTCTACTGTTCGTCTCATTTTATC
TCGTTTTTCCTTTTTGCCCCTTTGCAACTCCTCCCCCCTTGTGTTTTTTA
TTTATTTACTGCTTTCAGTATTAGCGAACTGCTGTCTCATTCTTCTTTGT
TTTCGAAACACTGAAACAAAGAGGCGTGTCAGCCGACCGGACTCAGCATC
GTTGAGCCCTGCACACCATAGCCCCAGCAACACAAGGAGTAGCTCTGCGA
GTGTCACCGCGTCGCCTGTTGCTCCTTCGAATCGAGGCATACAAGAAGTG
AACTTGGCCTGCTCAGGGTCGATGCTGAAATCGTAGAAAGCGCCCCAACA
CGATGCTGCTATGGTATCATACTGCGGTGCGCACGGCACGCGCCCAGTCA
CCGCAGCAGAAGCAAGCTGAGCACACGATCGACCGCTTCGCAAGCGGGCA
ACGACCGCGGCAGTGTGCCATCGATTGCTGCAAGGGGCCATCTACTGCTG
TACCTGCACCACTTGTCGTCTGTAAAATCACTATGAACTGCTGTTGTCTG
TAGATTCAGCTGCCACTCTGTGTCGTCGGGAATGCGGGACGTGCACGAAA
TTACTACTACTGCTGTATCGTATTGTCGGGAATGCAGGGAACGACCGGAA
CTGCTGCGGCCTCTCTCGCACGAATCACGCACAACCAACCCCCCGCCATG
CTCGAGTCTGCCATCGACGCCACATCGAGGAAAACAAAAACACCCCTTTC
GGGCCATCGAGTGCAGCTTGCATGCTGCTAAAGACAGAGTCCACCTCTCG
GGAGGCTTCGGCGCTCTGTCGGCGATGAGCACTATGCCGGAACCGTTGAG
CGCAGCCACAATCAATGCCATCTTTAACACAACTGCCACCTCGGGCGAGA
GGCATCGACGTTTGTCGGAGATCATGAGCGTGCGCTTGGGGCCTTGTGGT
GCAGCCTCAATGCCTTCAGAGACAGACGCCATCTCTGGTGGGGCTGCGGC
TCTGCGAAAGATGAGAACATCCTCCGGCCTTGTGTTGCAGCCTCCAACCC
ATCAATAACAGGTGTCATCTCTGGTGAAACTTCGACTCTTGTTTTGCAAT
ATGCACACATCGGGTCAGCAATCCGGAGCACATGGAGGGGGGGGGGGCGT
GGATCATGTGGCCGTCGATCGATACGCCAGTTGGTGCAAGCTCGCATGCT
AGCGCCGCATCAGCTGCTCTACGCTTGCAAGACTGCTTTCACCTCCACTG
CCTACGAAGGCTTCCAGTGACAGCAACAACAAAAAACCTCCCCGGCCTTG
TTCTACTAGACGCATTGTATCGGCCACCCGCACACAGAACGCTTGGCGTG
ACGCACGCTCGGCTCACCGAACAAACAGTTTTAACATTCGCACACTGCCG
AGAGATTCACGTGCTAACAACCTTTACTTTATTTTTTCCTCCTAGCACGA
TTTGTGCGTGGTTTGTGACCATGGGCTAGAATTTGGTGGTGAGCTAATGT
AAGAATCAACAACAACAACAATGCCGCTTCGCCCCCCCTCCCCCTCCCCG
ACACTGCTGTTGCCTGCCCCCCCTGCCTCCCCCCCCCTCGCCCACAGCCT
CCAGCACACCCACCGAGACCGACAGCACCACTCTTCACCAGCCCGGCATC
TGACGTCACCCACCATGCTGACGACGCTGTACATCACCTCCGCGGGGACG
GCGCCAACCGGGAACACCACACCACACCACACCACACCACCCATCGCAGC
TGCCGGCACCCCATCTAAAAAGCGAACAAAAAAAAACACAAACACGGTGG
ACGCGTACCCGTCCGCCCTGCCGTCTGAAGACACGGACGGACGACGCCTA
CCGAACTGCTGTACTGGGGCTTCATCCCCATCGAGCACGGGTCTCTCGCA
TCGTCGACCCGCCCGGGGGAAATCTGTCGTCGCGGTTCACCCCGAACGGC
AACCGAGGCGAACCGACGCGCTTGGGAGGCGGCACGGGGGCCGCCCTCTC
GTCGCAGACATTTCCAGCCTCTGCAGCAGGCGGAAGTGGCCTCGTGTCCC
GCTCGCTTGCTCGCTCCCTCGCTCTCAATCAAAATCGCCGAGGAGGGCCT
GCTTCGCCGCCGGCTGTGATACCGTAAACAACAGCTGACAAGCGAGGCCA
GCGGCACCCGGGCAATTTCGTTTTTTTGGCCGGCCGAGAGGCGCAAAAAA
AGCTTATCATCGCCAGCAACGCGGCCGCCGGAGAGCGCGCGCCGCTAGTA
AAGGGACGGGCGACGCAGCAGTGCCACCTCTATTATATCGGCACCCTCGG
CGGCAGCAGGGCGCAGCGTGCGTGCGCAGCCGGTCGCGCGGCGACCCACC
GACCCACCGTCGCGGCAACAGCAGCTCTGCTCCCCGCAGAAACACCGCAG
GCGCGACCCCGACAACAACGACGATGACACACGAGGGACCGCCCCCACGA
GTTTCTCGTACATGCACCATCACCACCACCACCACCACCACCGCCAAAGG
AGGTTCACCGGTGGCCCCGCACGACGAGCCCGCTCTGGGGCTCAACGACA
CTTGTACCAACTACTGAAAAATGGCCGTCTACAAGAAGGGGCTTTCGACG
ACATACATGTCCCCCGACGCGGGTCGCAGTCGCACGACGCATCCCGCTCA
ATGCTGGACACCCCGCGGACGTCCTCGGGGCGGGCACACACACGACACGA
CGCCGATTTTGCAAGCAAGGGGCGCATCCAAAACCAAAACTTGCACGTTT
GCGCCCGCTCTGGACCAAGAGATGCCTGAAGCCAAACTTGGCACAACCGT
CCCACCGGTAACTCTTCAAGAAGAGCGGAACGCGGTCATCAACACCTGCG
TGGCTACCTCGGTGCGGGCGCATATCGGGTCGAGAACGCGCTATCATACG
CTCCGACCGCCCTCAGCCTACCGCCTGCTACGACACAGGAGCATCCGCCG
ACAGACAACACGTCCTGCTACGACAGCGGAGCAACCGCCGCCCCGGCGGA
CGACGACGAGTCTTGGGTCCGTCGTAGGAGGCAGGTCCGGCCAACCATCG
GGGCAGCAACCCCCGTCAGTCAGCAATAATGCCGGAACGCGGAGCGGCGC
TTCGAAAGCTCGCGGAGCGACAGCAAGCGGGCGGGCGGACGGGCGGGCGG
GCCCGAGGTGGGTGGGCCCCTCGTCTTTCACCGCGCGGTCGAGGTCGAGG
TCGAGGCGGAGGTGGAGGCGGAGGCTATTTCTGTTAATTTTCCCGCAAAT
GCAGCTTTCGTCCAACGGGGACGCACGCCTTATCATACGTCGCAGCGTCG
TCTTGCGAGCACGCGCTCGAGTGCACACACACACATACACAATCCCATGC
CGCACCGTCGGCGAGGAAACCGACGGCCAACGGGTAGCCAAAGAAAGTCC
AAACGGAACAGCATCATCGCGGTCGACGACACGCGGGTGCCTCCTTCTCC
TCCTCCTTATCCGCGAAAGCACCACCTTGAAGAAGCGGAGCAACGGGGAG
CAAAGCGGAGCAGAGCGGAGCAAAGCGGAGCAAAGCGAAGCAAAGCGTTC
GTCTAGTCGACACGTGAGCGCATTTTCGCCTTCACGCAGCTACTTCGGCG
ACTCAAGGCTCCGACAAAACCTCACCTCAGCACCCACCCGCGCGGACCCG
CGTCCGTCTTCACCGCATGGTCGAGGCGGAGGGCTTCACAGATCTTCCGT
CACACACAGCTCTCGTCCAGAGGAACACACACACGCCTTGGCAGCGCCCC
GGAGCACGCGCTCGAGTGCGCACACACCCATGCCGCACCGCTGTCATAGC
AAGGAAACCGACGGCATACCGGTCGCCGAAGAAGTGCCAAACGGAACAAC
ACCGTACGTGTCATACATATAGCGGTCGACAACCTGAGTGCCTCCTGGCT
AAACATGCCTGAAAGTACAACGTGTGCTATGATATGATAGATAGATGTAC
CCGCTGTTTCTAGTATCCTTGATCTGGACAGGCGGATGCCGGGATACTTC
TGTATGATCCCGCACGGTTGTGTGTTGTCATCCCGTCTACTTTCTGGTCG
CCTCAGCACAGCAGTTCGTAGTTTACAGTTTACACCTTTCTAGGCGGCAC
CAGCCAGGGTTGGACACAGGAGGAAGTTCAACACCTTTAGTTTTTTCTTC
ATGAACTTTCTCCTGCTGTGCTTTGCCAAACTTGTGTGTGTGTGTGTGTG
TGTGTTTTTCATTTTCAATTATCAGTACGTGTCAAATTTTTATCTTTTCT
TAATATTTGGCGTCACACCTGGTAAGATATGTTGTTTTTCAGTTTTTTAC
TTTTAGTTCTTAATTTTTATTTGTTTTTCGAAACTTTTTTTTCAGAAAAG
CCTTCTGCTCCAAGGTTCTGTCGGGCGTCTTCTTCTTCACGTGTTGTGTG
GTGCGGAGGTGCACCGAGTTGCTCTCTCTCTCGACGACCAGAGGGAGAAG
CGGGGAAACGAGAGCGTGAGTCATCAACGCAGTTGCCCTTTGAGAGACAG
CTGTCCTTTGGAGAAGGAACGTTCTGTGAACGTTCCGAGAACCCAAGGAA
CGGGATTGACTCTGATCTGAAGAACACCCCGTTGGGATCTTCGGCGGGCC
ATCTGATGCCTTCACAATCTACGGCAATTCTACATGACATTTACAACACC
CCCCTTTCTTCAAGACGGGTGTCTGACGTCCGGTTTGAAGATCAAAGACA
TGACAAAAAAATGCTCATTGAATGTCCGACTACTTGTGAAAATCTCAGAT
GGAAACATCAACATTTCGACGACGAAATGTGGGCATTTGTGTACGGCAAA
CACCGTACAACCGACCCACCGATTAATGCTTGTGTTTTTGTAGTTGGCGG
ATTTCATCAGGACACATGTCTTCGTCACTGCTACCATGACTGGTGTGACA
AAAAACCACATGGTCTCGCACGCAAGCGACTCATTCATCTGTCTCGAATC
CATTCAGAAACGAAAGCCACTACACAGATTCACGAAAAAACGAAAGTATG
ACGGCAAACTTGAGTTCGAACGTGGGGCACGAATCCCACGTGATACAGGT
GAGCCACAGCTAATGTGTCGACCGTGCTTTTGTTGGCGAACCCAAAAGAT
GTACGGTAAAAAAAAAACTTCTCGCGGTGGAGATGTAACAAGAAAACAAC
CGCACTTCGCTATGTGTGTGAAATGTGTGCACGTGAACAGAACATCCGGC
TGGAATGTTGTGTGCACATTTGCATGCAATTGTAACAAAAGTACCCGGCA
CGTTGCTCGCGGTACAGCCCACTCACCTCGATCAAAACTTTTTGAGAGGC
TCTGCACGAAACATGTGGTGACTGGAATTTATCCAGCAGTTGAAACAACA
TTGGCCTGCCTACTGGAATGAATGCAGACGAAATAATCCAGTAGTTGAAA
CACAATGGTCTACCTACTGGAAATTAAACGAAACGAGTAGTTGAACCATA
CTGTCTGCCTACAACTTAGCATGGTTAAAATGCAGGGTTGGAACGATGTT
TGATCAACGGTAGTGCTTTGCTCTCGGACGATCACGCAACAACTGCCGTG
GTTCCATGGTTCACGAACGCACGGACCAAGGACAAGAGACAACGTGTTGC
CTCTCTCGCTGTCAATATGCAGCTAGACAATAACCTGAGGTGGAAGGTGC
CAGGAACAACCGAGAAATGTCTTGAAATGTTTTGGTCGAATGGGAATTCA
CGCGTCGGATTGCCTCTCAAGACTCAAAATCACGCCCAGGTTTTTACGCC
AGGGTGTGCGAAACACAACTCAAGTCATTTTACGCGTTGATCGTCCATAT
TGACCCCATGCAACGTACTCGTATCTCAAGGACAACAGCATAATAGCAGC
TCTAATTCATCGGTGTACATTCATCAAGCAGGTTGCATACGTGAGGAACT
GGCCACTTCACTCTCTATGACAGCAGTACTAAACGGGTACTCTGACAAAG
CTGTGGTCTCGCTAAAAACGACATATCGAACAACGTAATCACCAAACATA
AATAAAGAATAACGCATGACTGCACACGTAGATGACGTCTACTGTGCTGT
GTTCCTACTGCCGCCACCATGCACGTGTTGCGACGTGATGCGTGCGGCTC
CTCCGATATCGACAGTATCAGGTGTCTGGCCAGACTAAAAACGAAATTGG
TCGGGGGCGGGGGAACACCACGAACGGTCGTGCTGAAACGGGAACAGTAA
AATATGACATGACTAGTATAAAACATCGGTGGATCACCCATGTATATATA
AAAAGAAGTTAACAATTGAAATCACAATGAAAAAAACAAAAAATATGTCA
GCACGACACAACGACGTAACGACGGCATCACGTTTTCTTGGGATGGTCGA
ACGCGTGCTTGTCTTCTCGATATGAACGGATCATCACCTCATTACATTGG
GGTACTTCTTGAGAATGCTTCCAAGAACCGAGACTGGGCGGTCTGTCTTT
TACGAGGAGAAAGTATTGGAAGTTGTGGTGGGACGGTTTGCCGGCACCAC
GTTTGAAATCATCTATCCCTTCAATAGTGAACGGGCCAACCTTGACGGTT
AAAACTGTGCCGTTGAGGTCTGAAATTGGCAGTGTTGTTCCTATGAAAAT
TTGATCCAATTCAGTGAAATCAGGGACAGCATTTGATTGTATCGCGAAGT
AATGTTGAATACGGCCCAAATGAACGGTAGTTTCCGCTAGTTCGCCGTCT
CCACTCACGCGGTAGATAACGGGTGACACACGAGACTGAATAGTGAATGG
TCCGTGCCAGGGACTAATCAGCTTCGGACAGGGGCCATCCGTCACGGAAT
GGGGTCGGTGCACGAGCACTCGTTCCCCTGGTTTGAACTGCGGTGAAGGT
TAGTTTCTCATGAAAGTCTGCCCGTTTGTCGGTTCGCTCTTTCAAGTTAC
GACGAGCAAGCTCATACGCCATTTGTAAATTTTCAACGGTACGGCGAGAA
TATTCCAACTTTGAAACAGAGCTGTCATTCGATGGCACACCGATGATCAC
ATCCACGAGGAGCGACGCACGGCGGCCGAATATGAGAGAATGAGGGGGTT
TCCTCCAGAGTTTGAGCGTCCGCGGTGTTGTGGGCCAGTTGCACAATCGG
TAGTATTTCTGCCCAATTATCGAATTTGGAATTTGCATGCATCGCTAGCA
TGTTATGCGTTGTGCTGTGCACACGCTCTAAAACGAAGTTGCCTTGGGGG
CGGTATACAACCGTGCGGGTCTTTCTGAAACCAAATACTTTCTGCCATTC
CTTGACCAAGTCATTTTCAAACTCAGTACCCTGATCGCTGTGTAGTGTTT
AAGGGGGAGAAAAAACGGAATAAACGCGCTCTACGAGAACACGAGCATTG
GCAAGATGATTGATGACGGACGTGACATACTTACGTCCGCTCGAGAAAGA
TTTGCACTCAACAATAGAACACACATTGAAACGGACGACTTACGGGTCGA
TGTCCTACTGGCAACGCAGGTGAACGCCGGGAGGTTTTACGATGTCGAAA
ATGATAGGCAGCACTTGATGTGCGTGGCTAACACCTTTCGACACACCATA
GTGGGTCACCGAAAGCGATCGCGCAATCTATCATACGTGCCTTTAAATGC
AAGATGACCTGCTTTTTCGTAGGTAACCTGGTGAGTACGAACGGAATGAA
AGTCTTCGTCCAAAGAGTATTGACTCATGGTGCCCCTGTTCTCACCATTT
GGAACGGGTGCTCTTGTGGGATTCCTTACGTGGTCGATATACGAACCGTA
TTCTCGATGCTGTTCTGCCCGCAATTTACCGGGTCCAGCACAGGAAACAA
CGATACAGCACTACCGAACAACTCACAGTCGTTTTGGACCAGATCAATGT
CGTTCAACGAATCGGCAGAAATTTCGTATTCACGATGGCCAGGGGATGGT
ACGGACGATCGCTTGGCACATTCCTACAAATCGACGCAAGAGCCGGAGTA
TGTGGATTAGCTTCGGACTCAATTTCACAGAATAAACGAGACAACGCATC
AATTGCAACGTTTTATTTCCTTGGTGCGTGCTTTACTACTGTGAAGTCAA
AATTCTGGAGCGCTACCTCCCAACGAGGAAGCATATTGCTGGTGTCTTGC
ATGTAGTAAAGATGGGTTAACGCTTGGTGACCGGTCATCACTGCTGTAAA
GTGCTTCCCAAATAAATGCGGGTGCCAGTGCGCAAGGGCATGCACAACAC
CACAATACTCTCTCATGGACGCTGAATGATGACGCTACCCATGCTATATC
GATGACGATGATGCGCAATGATGTCAAACGAATCAGCATCGCCTTCGATG
CTTGGGCAAGAAACGCACGGAGGCGTCCACGTGGACAACGAACTCTCGTG
AAATATCGGGGAATGCAAAACGGGTGCTGAATTTTTTAGCCGTTTGATAC
GCGCAAATGCAAAATCATGGTTGGCATTTCACGCTTTCGTGAAACGAGAC
TTGGGCGGTCTCTCTACAACTTATTCCACCAATGGTGCGGTGACTTCTAG
TCAGGAGTAAACCGACGCACAATATTTACCACCCCAAGTACCGAGCGAAG
ATCTTTGATACAGGTGGGAGACGGCAGCTTTTTGAATAGCTGCAAAAGGG
TCATCCCCAACAGAAACCCCTTCAGCCGAAATTATGTGTCCCAAATACTC
AAAAGATTTTGGGCGAAACCCCTGCTGTCTGTAGAGCTACGAACATGCTC
TCCCAGAGACTTCAAATGACTATCGAAAGTTGCCGACAGAAAACAGAGGT
CATCCCTCGAAACCAACAACTCGGAAATATGGCCTACATTTTTTTTTTTT
TGTGGGCGATCTCGGTAGAAATCCACGGCGTATTGCAAACTCCAAAAGGC
ATCTTTTCTAAACAGTACTTGTCAGAATTGGTGACAAACGCTATCCTGTC
GATGTGATGCGGATGAAATGGAATTCTTGCCAGTAGACCGATTGAACGTC
TGCGACACTGATGAAGCAAGCACTGCCGACGGTGTCGAGGTTGGACTCCA
TATCAGCCATCGGCCACGTCTTGAGATGGTCGTTAAAGCGTTTACGAAGC
GAAAACAGTCCTCAGACACTGCTGTCGTGATCGAGCCTCGTATGTTGACA
GATGACGAAATTTCGTCAGGAATTTACCCAGTTGAACTTGAGCGCGCTTG
ATCTTGGCGCGCACGCTGACCACATTGAATGTCAGTGATGGGTCGGTATC
CTTCTAAGTTGCGAAGCCGTCGTCTGAGTATCTTGCAATGCATGCCGGCC
TTTTTCTTTTTGGAAAACTATTGTCGGTTGAGATGATAGATAGAACCTGA
ACAGCTTCACGTGCATGCTGTTGCAGCAACGCCAAAGACTTGGCGCTGAA
AGTGGCAGCTGCTCGTAAGGAATAACTTGAACCACTTTTTTTTTGCGAAA
GCGTTCGCTGAGTCCACCTTTTCACCAGCACAACAGGTCCGAGTGATGGA
ATTGTGGGCTAAATATCGTTCCGTTTTTTCGCTGAACCCGAGTGAGCTTG
GTAGATGCAATACAGCAAGTAGAAGCCAAATTTTTAGTGCCACCTGACAC
TACACCGGTCAACCGCCGTCCGTACCGTGCTAATCCCCGCACTGGAGCCG
TTCGTTGTTGAAAAATGTGTGAAGGACATGCTTGCTGATGATACACTTCT
ATGTCATCGAAGAGCACACGAGTACGTGGGCTTCTCCCCCTGTGACAATC
GTTGCGCGTGCGGACGGCCAACCTCTGTGACTACCGTACGTAGCAAGCAC
CCAACAAATTGCTCATCTGCAAGACGCAACATGGAGTCCAACCTCGGGGA
AGCAAGGCCAGCGGAGGAGGAGGAGGAGGAGGAGGAGGAGGTCGCAGCAG
CAGCGGAACGCGAGAAAGGTGCCCTTTGCACGTGCCCGAAGTGCATGTCC
CACACCACTCATGACACTGCCCACTGCTTCCGCAAAAGAGAGGATGAGAG
GACCGCCCGCCGCATAGCAAGAGTTCAACGGCAAAAGCGGACAGTCCAAG
CCCTCCAACAAGCATTCGAAACGTTCCGAGTGCTTGTTGGAGGGCTTGGA
CTGTCTGCTTTTGCCGTTGAACTCTGCCATGCGGCGGGCGGTCCTCTCCT
CCTCTCTTTCGCGGAAGCAGTGGGCAGTGTCATGAGTGGTGTGGGACATG
CACTTCGGGCACGTGCAAAGGGCACCTTTCTCGCGTTCCGCTGCTGCTGC
GTCCTCCTCCTCCTCCTCCTCCTCCGCTGGCCTGACTGCAAAACGCGCGA
AGGATATGCTTGCTGATGGTACCATCGAAGAGCGCACGAGTACGTGGGCT
CCTTCCCCCGTGACAACTATTGCGCGTGCAGACGGCCAACCTTGTTCCTG
TGTTGACTACCGTACCACCCCGTCAACAAGTTGCTCATCCGCAAGACGTG
GCCGACTTCACACAACAGTCAATTTTGTACCTGGTACTCATTTATGGCAC
TCAATCTTCAAAATTGTACTTGTTCGGCATCCAAGCTCCAAGTCAAAGAC
ACGAAATCGTTTATTCTGTCGTGCAGGTGAACGTGAAGGCGGAAAAGGAC
TACAAGCTCCAGGAGAAGGAGATCGCTGCGCTCAAGAGAAAGGTGAAAGA
GCACCCCCAAGAACAAATAGCGTTGTAGTGCGCAGGGCAAATAAGTGGTT
TTGATGCTTGTTGTCGTTGCTGCTGCAGCTGCATACAGTGGCAGTATCTA
ATTTGTACTATGCGTCTGGAGCTGACGAACAAGACGCATTTATTATTATA
TGGTATGGTATGGTATGGTATGGTATGGTATGGTATGGTATGGTATGGTA
TGGTATGGTATGGTATGGTATGGTATGGTATGGTATGGTATGGTATGGTA
TGGTATTGTATCGTATTGTATTGTATGGTATGTTATGTTATGGTATGGTA
TGGTATGGTATGGGATGGTATGGTATGTTATGGGGGGATAATTTATGATA
CGGGATAATTTAATACGGTATCGTATGATATTGTATGGTATGATATGATA
CGGTAGGTATGATGTGGTACGAAGCGAAGTATATCGCATCACTACAGTAG
GGTACGCGAATGATGATTTCCGTTCAAAATCTCATTCTTGGGGTACCCCC
CTAGAGGCTCCGTGACTGCAACGCAATGATCATGACATGACACGAATATC
GATTGATGTGATGTTATGGTACTTCGAATACATACATACATTTTGCTCGC
CGCAACGAAATTTTCAGGAGTAGCGGCTTCTTCCATTGCAATTGTCTACC
ATCCAAAGCAGCTCTGACTTCCTTCCGTGAGCAAATACGTCCTCGCCACG
ACTACTGTACCAGCGGGACGCGGCTGTGCTGCTGGACTCGGCGGTGTTTT
TTTTCGTTGCTTCTTCTCAAAAGGAGCGTGCTGCCTGTTGTTTCTCATGG
CGTTTTGTCTTTTTCAGGGGAACTCCGGCTCAAAGGCGGAAGAGGCTGTG
CTGAAGAAGATGGGTCGCACGAGCCTCATGGACAGGCCCAAGGAGTACAC
GGTCAAGGTGAAGAATAATACTGCTGCCACCCCTGCCGCCACTGCTATTG
CTGCTGGCAAAAACTGCTGATATGGTCCCCCCTTTTAATTTTCTACGGTA
GAATCTTTTTTTTATACGGAATACATGATATCATGTGTGTGTCCGTGTTC
GTTTTGGTCCGCACCGTATTTCGTACTTCGAAGTATTTTTTTTTTTTCAT
TTCTCTCCCATCTTGTTCTTGGTGTGCACGAAAACAAAAATCGTCACCAC
CATCGTCATCACGATCATCATCATCATCATCATCATCATCATCCTCATCA
TCATCACGATCGCCACCACCACCACTATCATCATCATCATCATCATCACC
ATCACATCACCATCATCACCATCATCGCCATAACGGAAATGCTCAAAAAC
GAGAAAACAAAAATAGTTCGGCCTGTCGTCGCCGGAGGACCGCGTGCCGT
CGATCTCGGTGCTGGACGTGTCCTTCGGGTACAGGGACGACCGAGCTGCT
CTTTTCCAGGTACAAGCACAGCAGCACGGTACAGTCCAGTACAGCGGTTC
AGCAGTACAACACAGTACAAGTACAAGCATACCCCGCAAGAATCGCTCAA
TTTTGCCGAAGCTGGCTGGTTGCGTTTCTGAGCGTGGAACAAGCGCAGTG
TGCAGCAGTACACCCGGTTAGAACCGCTTGCGGTAGTTTGGCTGAAATCG
GCTAGTCAAGCTTCTCAGCGTGTGAAAAATGTGTGTGTGCGTGTGTCTAT
CACACTTGTGTCAATCCACAAGCAGTAAACACAATCAATCCCGAATTCCT
TACTTTTTTTCTGCTAGATACAGTATAACCTTTTTTTTTTTTCGGGGGTC
CTTCCTGTATGTGTGCATGTGTCACCGCCACATGCTACGAAGCAGACATC
GATTGCTGTTGAGCACGGCGTTGCGAAGGGTTGACACCAATTTACTTCCG
CAAGTGACGCTTTTGTGGATAGTGGTCAACGAATAGATCGATCGAGATCG
TCGTCCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTCGTTGGTGGTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTCGCTGCTGCTGTTATCGTCACAAACCGGTTTTCTCCGCTC
CTCCTCGACTTTTGCTCACTGCCTCTCGTAGGACCTTCGGTTCAAGGTGG
ACACCGACACCAGAGTGGCGATCGTGGGCCCGAACGGAGTCGGTGAGTTA
TTGCAGTGCTCTCACTATATTAAGGCCAATACAAATGCATGTGCTTCCTT
CCCTCGTGCCGTCAGAGGATCATCTTCTTCTCTGGCGTTACCGTATCCAC
TACGGACGGCTTTGACACCGCTGCCACTGCTGTGTGCTTGCTTCCTCTCA
CGGTGTGTTGATTGTCTGCTTTGTCTGTCAGACGCGGGCATTGTTTGCGC
AACAAACAAACAAACAAACAAACAAACAAACGTACACCCTTGTACAGCAG
CACACGCCCCCTGTAGACCGCACAAAGTTTCTCCCCGAGAACGTTTCATC
CCATCACTCAGTGCCACACGCTGTAAAAAAAAAGGGGGCCTCGTACTCTT
GTTGGTTCGCCGAGAGGTTTCCTTGAAGGGTCTGCGGTAAACCGTGAAAA
GCTCACACGGGGGAGAGGAACCTCGCGTCGAGAGAGAGAATAGTGGCCGT
TCTTCTCTCTTCACGCGCCTTGTGTTCCGGAAATACAGCAGTCAACAGGT
CCACGCGCCATCTGCAACCCGGGTTTTCGCTTGCACCCCGTGACATGGCG
GAGCAGTGCTGCTTTACGTGCAGACGTGAGACGCAGCCAACCTTCAAGCG
GAGCGAGCCCTCCGCGTCCACGTTCAACACCAACCAGGGGGTTTCTTGAA
GGAAGAAACACGCCTGAAAGCCCCCCCCCCCCTTCTCACCCCGCGCGCCG
ACTCTTGTTTCGTAACCCGCGTCTGACTGACAGCCGCACGCCCTTCCTGA
TTTGCTCAACCTAACTCTCGCGGCAAAAAACCCGTCGTGCTCCCCCCCTA
CCGCTTTTCATTTTTGGAAGAAATGCAACGCGAAGAAGGTGTGGTATGAT
GTCGCGAAGGCTTGATCCTCTCATTTACTTGCACTATTCGTTCACCCCCT
CGTTCATTCACACATTCATTCATTCATTCATGTATTCATCAACTAATTCC
TGTATTTTTCTTCATCCTCTGTCTATAGCTTTCTCTCTCTCTCTTTCCCC
CGCCCCTCTCTCCCCCCCTCTCGCCTTCAGGAAAATCGACGCTGCTAAAC
CTGTTGTCGGGAAAGCTGGAGCCTTCGAAGGGGGAGGTGACTCGGCACCG
CCACCTGCGGATAGGGCGGTACGACCAGCACTTCCACGAGCTGCTGCCCC
AGGGCAAGAGCCCGTGCGACTTCTTGAGATCGGAGTACGACGTCCCGGAG
CAGCAGGCCAGAAAGGTGAACGACAGAAACAAGAGGCACACGGCAGCAGC
AACAGCAGTACGGCTGCAGCACGGCCATGAGGATGCGTGTGAGCGTCCGT
CTTGCCTACTCGCGCGTGTGTACATCCCAACCCCATGCTTCGCGGAAGGT
TAGCCTCTTGCCTGCTCGCGCGTGTGTAGTGGAGGAGACCCCAACCCATA
TGATAACTTCGTGGAAAGTTTGCCGTTTTGTGGCATTCGTTGTCCAATAG
ATTGCCATGTCTTTCAGCCTCTTTTCTTTCGGTCACAAAAAAGCGAAAAT
GGTGTGAGTGCACCAAGTGGTGTGAGTCCACCAAGTACCATACACACGAA
GTTCTACCCCCGGCAAATCTTTGTTTTTGCTTGTTTCCATTTGTACTTGG
CGACGGACGCGTTTGCACGCGAGATACGCAGCAAATGGAGGGTGAACTTT
TTGCAAGCAGTTGTGATATGCACGATCTATCGTAAGACAGGGAAAGAGAA
GTGTCTCATCGCAGGATACCACGGTCAAGGTTCAGCAACACACGGTATTG
ATTTCGTGGCGATTCTCTGTCCGTCGCTTTCCGATTTTCCGTGCCCGCTT
CGCGTCCGACGAAACCAAGTATCGGCGCACACACGAGACCCGTGTCACAA
AAACAGAGCTCGTGAAACGAGCGGCACGGGTCTACGTGCATGTTTGTTTG
TTCGTCCGGACAAGACGACGAGGCTTTTTCCTCCTTCCACAAGAAAGGGA
AAAAAAAAAACACGCGCTTGTGGGAAAAATATTTCATTTTTTATTTTTAA
TGGTGACATTTTCCTATCAAAAGTCGGTTTTTCTCCAAGACCGTCTGGTC
TTTTTGGTTTTCTCGGCTGATTTCTCGTAATCGATTTCCTTCATCATTTA
TCATTTTACGAACCGGACCGGTAGGTGCTGGGACAATTCGGGCTTGATGG
CGCGAGGCACTTGATTCCCATCGGAGAGTTGTCCGGAGGGCAAAAGGCAA
GGGTGGTGTTCGCGTCGCTGTCAATGTCCCAGCCCCACATCCTGCTACTC
GACGAGCCGACCAATCACCTGTGAGTGCTCTCGTGCGTTGGCCGGCACGT
GTCCATACCTACTACCTCAGCTTATCGCTGGAGTCACGGAAACGGCTGAC
TGGTTGGCCAACCAAAATACTTGTTGAGTTGGTAAACGGGAAACAACGTG
GGGCTACCGGAGAGGTCATACCGATCTTGTTGTCTCTCCATTGTGGGGTC
GTCCGTTTTTGATCCCACCGCGCGGTCCCAGCGCAAACGATCTGCGCGTG
GTTGCTCATGATCGTAATATTGAATTGATGGGGGGTGGGAGGCAGTGTCG
CCTGCTGTGTCAACGTGTTTGTCGTGTTATCTGCCGTACAGTACCATATA
TGTATACAATTGGCAGAACTAAGGCCTGGAGAGCTAGCCGCCCACCGGCC
GTCCCATACTTATTTCATCGATACAGTAGAGAGAAAGGGAGCACGGTGCA
ACGCACGAAAACGATCCGGCAGAGCGGAAACATTCCGTGTCCGAGGCCAT
GTCACGTCATGCCCATGTCTTAGACTTCCGTCATATCTGCATGGTGCGGA
TTTGCACTTTTGCCAGAACACAGTCGCCGGGAAGGGCGTGGTTCATACTA
CCACCACCGGATTTGCGCAGGAGCACGGCATGACCGGAAAGTGACCACAA
TAACCGAAATCTTCTCGTTGCCCGCAGTCGCACACTTCGACCCTCTTTCG
TTCACAACACGAAAAATGTTCTCGTCACATTCATCCCCCTGTTACTCCCG
CGGGTATTTACTGTGTCTTGTCTGTCTGTATGTCTGTCTGTCTGTCTGTC
TGTCTGTCTGTCTGTCTGTCTGTCTGTCTGTCTTATCTCTCTACATACCA
GCGACATGGAGAGCGTTGACGCGCTCATCAAGGGCATCCAGGAATACAAG
GGCGGCGTCGTGCTGGTTTCGCACGACGCGAGGCTCATAGCTTCCACGGG
CTGCGAGCTGTGGGTTTGCGAAGGCGGCGGGAGGGTGAGAAAAAGCCGAA
CAGCGTGGTACACAGCAGTCGCTCAAAGCTGTGACCCCCCCCCCCCACAA
TTTTTCCTCGTTTGAGACGGTGGGGTGGATGGAACGGGCAGATTATTGCA
TGGAAAAAAAAATCATCGCAGGGGGCGAGAGCAAGTACTACGTCGAAATA
CCTCACAAGGCAGTGTGTCCTCACAAGGCAACCCGATCCCATTTTCGACT
GTTGCCATTGATCTGGGGTTTTGCCGCTGCCTCGATCCCCCTCCCCCCCC
CCGCATGGTACATGGAGTATCGAGAGCATTTTACAGCAATTTGCAACACA
AATCAACGGTGCGAACCACATCATTCCCATGTATTTATTGCCCACAGTAG
TGAAACGCATCCCTCCCCCCGACTACTGCTGTAGTGCACGCTTCACGGCG
ACTCATTGCCTCATCTATCATACTTCACCGATTATATGATATCATGTACC
CTGGTATCATTAGCGTGTTCACACGAAGCCGTCGACGCCAATATTATGGG
TCTATCATACTTTTTATTTTCCCCCTGCTGCTGCTGCTGCTGTTGCTTTT
AACGTTGCGCGCGTCAACACAGGTGAACGTCCACCGGCAGGGCTTTGAGC
ACTACCGCCGGTCGCTCCTGAGAGACATCGCTAGCGCGGAAGCCCGGGTC
GAGGCCGCCGCCACCGCCAGGGCGGCGCGCCGCGCGAAGGAGCGCGCGGA
CAGGGTCGGCAAGCACACGCGGCGGGGGGCGCAGGCGCAGCTTTCAAACC
TCAGCGTGGAGGGCCGTGGTGGTGCCAAGGAGGAGAAGAAAGTCGCGGAG
GATGCTGCCCGCAAGGAGGTCAGGAAGGAGGCCGTGGCTTCCGTGTTCGG
AAAGAAGAAGAGGAAGGGCTGATCTTCTACGAGTGATACACCGGACGGAG
GTTCCGGTAATGCTGTCTTGGACGGGGGCGCGTGCGTGTCGCGCCCCCCC
CCCCCGGCAAATCTCTGGGCGTGGCGAGTGCAAAACCCTGATAACCCTGT
GTATTGTGTCGTGTGTTGCTCAGTTGGTTGTGTGAAGGAGAGGTGGTGCT
GTTCATGCTGTTTTGCGACGGAGTGGTGTCTCTTAGCGGCGACGAAGTTG
ACAACTCTCCGTCTCTCTTGGGAGCACCGTCGTGAGAATCTTAATCTTGC
TAAATTGATTAGCGTAGGTGATGACGTGGAGATTTGCGAACGGTCTGATT
GGTGACACAGCAACTTCTTGTAGAGGCAGTCGGCGACAGCAGTCCCAGCA
GTCCCAGCAGTTCCAGCAGCAGCAGCAGCAGCAGGAATATGATACGAAAA
AAAATGTGCACCAACGTCCGGTTGGGCTGTTTCGGGGTGGTGGTGTTTTT
TTGTTTTTTGAGGATGCGCATGGCTGGTTGTGTGTGCGTGTGCTTCTTTT
CTGGCGCGCTTGCAGCAATACGGGCACACGTGCGTGCGCGCATTCGCACA
CGTTTATATTGCTGCTGCGACCCTGGGGTTCAACAACTCTACCGCCTTGT
ACCTCGTGTGAAGGCAGTAGAGACTCAAGGTTCTTGTGCTCGTCTTTTTT
TTGTTGATAAGCGGGTTGAAGGCGATGGGGGCGCGTGCACCAGCCACGTA
TTTTTTGCCTACAGTACTGTACGCGATGAGTGTCCACCAGACTACCGAAG
TACTTCGAAGTACATGATATGAAGTCCTTTTTCTACATGGGATTTGGCGT
TCCGTCTCGATTTACTTTCTCAATCAACCCTCCAATTTATCGAAGTGCGA
CCCCGCTGCTCGTTTACCCTTGAGTTCTGGACGAAACGTTTGAGCAGCAT
CGACCGGTGGATGTGTCGTAGCACTCCTCGGTAGTTTTGTTTTCGCCCGC
CTCTAACCCCCCCCTCCTGCCAAGCGGCGAATGCTTGTAAGCTACCACTC
GCTGTGACTGATAGTCTCAAATCGTTCTTTGTCACGTCGTGCACCTTTCG
CGTTCCGCCCCCGGCGTGGTGTCTTTTGTTGTAGGGCGAACGGAACGCGT
GGCGATGACATCGTATTATTCAGCACGACTTGAACATCGACACTCGTCAT
CACCGATCTTCGTTATCCCTCCTGCCGGCACCTGTCATGAATGTACCCGT
TTTGTTGTTGCATGAAGTTTTTGTTGGGACTAATTTTCGCAGATCCCGCT
ACACACATTACGCACTCCTAAAG
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Coding sequence (CDS) from alignment at P-littoralis_Contig1008:51444..82566-

>mRNA_P-littoralis_Contig1008.13.3 ID=mRNA_P-littoralis_Contig1008.13.3|Name=mRNA_P-littoralis_Contig1008.13.3|organism=Pylaiella littoralis U1_48|type=CDS|length=2730bp|location=Sequence derived from alignment at P-littoralis_Contig1008:51444..82566- (Pylaiella littoralis U1_48)
ATGAGTGGCTTCACGGGAAAGGCGAGTAAAGCCAAGGGATCGGCAGGTGG
TAAAGGTTCGAAGGCAAAGGGCGTCAGCAACGATGGGCAAGCTGGCAAGG
TGCGCGGTGGATGGTCGGGCAAGGGCAGCAAAGCCGCCGCAGCTGCCGAG
GACGCGACGTCGAATACCTCCTCCGACAAGGGCAAGGGGGGGGGCGGCAA
GGGGAAAGGGGGAGGGAAGGGGGGCGGGGGGGCACCGATAGAGCTGACCG
CGAAGCAGGCCAAGTCGAAGCGGAAGGCGGAGCGCGCGGCGATGGAGGCC
GCTCGAAAGGACGAGGTTCAAAACATGATGAAGGTTTTCGACTCGGATGA
TGGCGGCGGGAGCGGGGGAGACGACGGTGAATGTGGCGACGGGGAAGACG
TGCTGTACGACAAGTTCGGCAACGTCGTCGACAAGGCCGCCGCGGAGCGG
GCCGCGCTGCAAGAGATGCGGGAGGCCGCTCGAGCGGCGAGAGCCGCCAA
GGAGAAAGCCGCGAAGGAGGCCAAGGCCGCTGCTTCCGGGTCTGCCGGCG
TCGATGCCGACCAGGGTGATGAGACTACCGACTACGGCTCCAAGCTCCAC
AGAGAGATGGACGCCGCCGCAGCGAAGCAGAAGGCGGGGGCCCGCCTGAC
CAACAAAGAGAAAAAGTTGCTCAAGAAAATGGAGGAGAGAGAGGCCGAGC
GAACGGCCGCAGAACTGAGGTCGAACCAGGGCCTGACGGCGTTCAGCCTG
TCCATGAGACCGGGCGGGGGTGGCGGCGGCGAGATGACGGCTGCCGAGGA
CGGCGCCACGGACATCTCGGTGCTTGGGTTTTCTATCGCGGCTCCCAAGC
GTGAACTGCTGAGGGACGCCGACCTCCGCCTCGCGGCCGGCAAGCGCTAC
GGGCTGCTCGGCCCCAACGGGAGGGGGAAATCGACCCTGCTGCGGTTTCT
CGCGGCGAGGGAGCTGCCCGTGCCCGCTGCTGTGGACGTGTTGCTGGTGG
AGCAGGAGGCCGAGGCATCAGAGCGGCCGGTGGTCGAGCAAGTCCTGCTG
GCCGACGAGACACGGAGGGCGCTCCTGGAAGAGGAGGCGTCGCTGCTGAA
GGGCATGAACGCCGCCGAGAGAGCGGAGGAAGGCTTCGGCAGCGGCAACG
ATGACCACGACTCCCGTGACGCCGATGATGCCGAAGAGGCTCCGCGGGAG
GAACTCAACGGAAGCGGGGAAGTATGGGACGACGAAACGTGGGCTGCCAA
GAGCAAGAGGCTGGCTCAGGTGGGGGCAGAGCTGGACGCCATAGGGGCGG
ACGCCGCGGAGGGGACGGTTCGCAAGATCCTCACGGGATTGGGATTCACG
GACGAGATGCAGGACGGTCCCACGACCATCCTGAGCGGCGGGTGGCGCAT
GCGCGTCTCCCTGGCGAGCGCGCTGTTCGTCGAGCCCAAGCTGCTCCTCC
TCGACGAGCCGACGAACCACCTGGACCTTCACGCGGTGCTGTGGCTGGAC
GACTACCTCGCCAGGAAGTGGAAGACCACCCTGTTGGTGGTGTCCCACGA
TCAGGACTTCCTTGACAGCGTTTGTACCGACATCGTCCACCTGCACGAGA
TGGGGCTAAAGTACTATGGCCACGGCGTAGACCGCTTCCGGGAGATGCTG
GGGCAGGTGAACGTGAAGGCGGAAAAGGACTACAAGCTCCAGGAGAAGGA
GATCGCTGCGCTCAAGAGAAAGGGGAACTCCGGCTCAAAGGCGGAAGAGG
CTGTGCTGAAGAAGATGGGTCGCACGAGCCTCATGGACAGGCCCAAGGAG
TACACGGTCAAGTTCGGCCTGTCGTCGCCGGAGGACCGCGTGCCGTCGAT
CTCGGTGCTGGACGTGTCCTTCGGGTACAGGGACGACCGAGCTGCTCTTT
TCCAGGACCTTCGGTTCAAGGTGGACACCGACACCAGAGTGGCGATCGTG
GGCCCGAACGGAGTCGGAAAATCGACGCTGCTAAACCTGTTGTCGGGAAA
GCTGGAGCCTTCGAAGGGGGAGGTGACTCGGCACCGCCACCTGCGGATAG
GGCGGTACGACCAGCACTTCCACGAGCTGCTGCCCCAGGGCAAGAGCCCG
TGCGACTTCTTGAGATCGGAGTACGACGTCCCGGAGCAGCAGGCCAGAAA
GGTGCTGGGACAATTCGGGCTTGATGGCGCGAGGCACTTGATTCCCATCG
GAGAGTTGTCCGGAGGGCAAAAGGCAAGGGTGGTGTTCGCGTCGCTGTCA
ATGTCCCAGCCCCACATCCTGCTACTCGACGAGCCGACCAATCACCTCGA
CATGGAGAGCGTTGACGCGCTCATCAAGGGCATCCAGGAATACAAGGGCG
GCGTCGTGCTGGTTTCGCACGACGCGAGGCTCATAGCTTCCACGGGCTGC
GAGCTGTGGGTTTGCGAAGGCGGCGGGAGGGTGAACGTCCACCGGCAGGG
CTTTGAGCACTACCGCCGGTCGCTCCTGAGAGACATCGCTAGCGCGGAAG
CCCGGGTCGAGGCCGCCGCCACCGCCAGGGCGGCGCGCCGCGCGAAGGAG
CGCGCGGACAGGGTCGGCAAGCACACGCGGCGGGGGGCGCAGGCGCAGCT
TTCAAACCTCAGCGTGGAGGGCCGTGGTGGTGCCAAGGAGGAGAAGAAAG
TCGCGGAGGATGCTGCCCGCAAGGAGGTCAGGAAGGAGGCCGTGGCTTCC
GTGTTCGGAAAGAAGAAGAGGAAGGGCTGA
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