mRNA_P-littoralis_Contig202.50.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig202.50.1
Unique NamemRNA_P-littoralis_Contig202.50.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A835YSY9_9STRA (ABC transporter type 1, transmembrane domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YSY9_9STRA)

HSP 1 Score: 645 bits (1665), Expect = 1.190e-209
Identity = 363/643 (56.45%), Postives = 456/643 (70.92%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERGDKPDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAAPVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGE--EPSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAI----------ARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRGGMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQL 2859
            YSAT  D+  L   DW ++  AF ALL+AA +QVLIPH+TG M+  VV+RG + DF  + V LV AA  C++F+G+RG +FT+VG+RVNVR+RQ LF+SLVRQEIGFFDTTKTG++TSRL++DCTKVGDQV +N+N+FLRN V    TLLFMFYLSWRLS VAF+SVPAIV VS+ YG++IR L+K  Q++LAEA +VAEE+LGSM+TVRSFAAEGRES AY ++L++                      YY L+ R   AYG YAS+  LLP LVT +VLFYGG++V+ GQ+ GG VV+FM+YL+SLSDGFN+M +IFSS+TQAVGAADKVFELI REP+  KP   +  R  E                          C G + L  V F YP+R  P R +L GV+     GQVLALVGPSGGGKSSC++L+EN Y P +G+++LDG  V   DH+W HR +S+VGQEP LY R+I +NI+YGLEG+  EP++A+V  AA+LANAH FI  LP  YDTQ G+RGVQMSGG+                A A V + +VLLLDEATSALDAESE LVQ+AI+ M+  G MTV++IAHRLST+K AD I V+R+GRV E+G+H  L++A  GVYAGLV RQL
Sbjct:   65 YSATLADLAILTRPDWPIMAVAFTALLIAAGAQVLIPHYTGTMVAAVVDRGREADFRPAAVRLVGAAIVCAIFTGVRGGLFTLVGSRVNVRIRQMLFDSLVRQEIGFFDTTKTGEITSRLSADCTKVGDQVCLNINLFLRNFVQAAGTLLFMFYLSWRLSTVAFVSVPAIVGVSRYYGHFIRDLAKQVQERLAEANAVAEEALGSMTTVRSFAAEGRESAAYGARLHD----------------------YYALAIREAAAYGAYASTAALLPQLVTVLVLFYGGRMVLAGQLDGGSVVAFMLYLSSLSDGFNNMGAIFSSITQAVGAADKVFELIRREPQVRKPRGGAALRPLE--------------------------CAGELTLEEVHFTYPAR--PTRPVLHGVNLVVRPGQVLALVGPSGGGKSSCVSLIENFYHPDQGRLLLDGTPVQDLDHRWYHRVVSLVGQEPVLYGRTIEQNILYGLEGDADEPTHADVVAAARLANAHAFIDALPHGYDTQVGQRGVQMSGGEAAXXXXXXXXNASAHSAAAAVCELQVLLLDEATSALDAESEFLVQEAINKMMHTG-MTVVIIAHRLSTIKSADVIAVVRAGRVVEQGSHAALLAA-GGVYAGLVSRQL 655
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: W7TKE5_9STRA (Atp-binding cassette sub-family b member 9 n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TKE5_9STRA)

HSP 1 Score: 642 bits (1655), Expect = 2.990e-204
Identity = 368/651 (56.53%), Postives = 458/651 (70.35%), Query Frame = 1 
Query:  922 EAGWDGT-GAGKKNGGYSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERGDKPDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVM-EGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAAPVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGE--EPSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRGGMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQLD 2862
            EA  D T G G K+ G+ AT++D+L+L  +DW LI  AF  LL AA+ QVLIPH+TG  ID +V       F  + V LVL A  C   +G+RG IFTIVGARVN R+R  LF+SL+RQE+GFFDT KTGDL+SRL+SDCTKVGDQV++N+N FLR+LV  V TL+FMF  SW+LSLVAF+SVP IV +SK+YG YIRKLSK +Q++LA A S+AEE L +M TVRSFA    + R Y  KL+E                      YY L+K+   AYG YA +  LLPNLVTA+VLFYGGQLV+ +  +T G++VSF++ L SLS+GF++M SIFSS+TQA+GAADKVFELI R P+                 L +P           P+  AP  C G VELR V F YP+R  P R +L+ ++  A  G+V+ALVGPSGGGKSSC+ALLEN Y+P  G V+LDG +V +YD  W HRN+SIV QEP LYARSIR+NI++GLEGE  EPS  E+ +AA LA AH FI  L   YDT+ GERGV +SGGQKQRIAIARAL R+P+VLLLDEATSALD++SE+LVQQ+ID MIS G MTVI+IAHRLST+  AD I+V+R GRV E+GTH EL+    G+Y+ LV +Q+D
Sbjct:  326 EAAEDATRGRGGKDKGH-ATYKDLLSLTRDDWHLISSAFAFLLGAAIGQVLIPHYTGKAIDAIVSEEGAAAFQHAMVMLVLCAAVCGACTGLRGAIFTIVGARVNRRIRDMLFQSLIRQEVGFFDTAKTGDLSSRLSSDCTKVGDQVSLNINFFLRSLVQAVGTLIFMFIQSWKLSLVAFVSVPVIVIMSKIYGQYIRKLSKATQERLAHANSIAEECLSTMPTVRSFAGGPAQGRLYRGKLDE----------------------YYDLNKQEARAYGAYAVATTLLPNLVTALVLFYGGQLVLNQDGLTSGQLVSFLLLLGSLSEGFSNMGSIFSSITQALGAADKVFELIRRPPQSTP--------------LPEP-----------PL--APAFCSGKVELRDVTFRYPAR--PARPVLNKMNMLAEPGKVVALVGPSGGGKSSCVALLENFYEPESGMVLLDGRKVQEYDPHWYHRNVSIVSQEPVLYARSIRQNILFGLEGEPDEPSEGEIIEAAVLAGAHDFILGLQSGYDTEVGERGVCLSGGQKQRIAIARALCRRPRVLLLDEATSALDSDSENLVQQSIDRMISHGNMTVIIIAHRLSTIVNADSILVVRDGRVVEQGTHTELLGKVGGMYSQLVCKQVD 924
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A7S2KWJ3_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2KWJ3_9STRA)

HSP 1 Score: 575 bits (1481), Expect = 1.110e-181
Identity = 327/664 (49.25%), Postives = 441/664 (66.42%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERGDKPDFHRSTVF-------------------LVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVM----EGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAA-PVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGEE--PSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRG-------GMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQL 2859
            Y A   D+LALC  DW L++ AFV LL+AAL Q +IP   G+++D + +     + H +TV                    LV+AA  C++FSG+RG IFT++G RVN R+R +L +SL+ QEIGFFDTTKTGD+TSRL SD T VGDQVT+NVNVFLR+ V  +  L+FMF +SWRL+++  +SVPAI  +SK+YG ++RKL+KL Q KLA+  +++E ++ SM TVR+F AE  E R Y   +N                      +Y  L+ R   AY  Y +S   LP LV A+VLFYGG LV+    +  ++ G++VSF +YL+SLSD FN M +IFSS+T A+GAADKVFE++ R+P   KP++ S     + G LS P +            G  P  C G V L G+D  YP+R  P R++LDG++  A  G V ALVGPSGGGKSS ++L+++LY+ +RG V +DG +V   +H WL R++S+V QEPTLYARSI+ NI+YGLEG E  PS  E+ +A +LANA +FI +LPD ++T+ GERGVQ+SGGQKQRIAIARALVRKP++LLLDEATSALDAESE  VQ AID+M+  G        MTV+++AHRLST++ AD I V+  GRV+E G H++L+   +G YA L+ RQ+
Sbjct:   94 YKANLYDLLALCKPDWMLMILAFVCLLIAALMQTVIPRLIGNVLDALADYEHSENGHTTTVLMEDKSDIWNVPGFRSNIQKLVIAALLCALFSGLRGGIFTLIGGRVNSRLRLKLMDSLLAQEIGFFDTTKTGDITSRLCSDTTMVGDQVTLNVNVFLRSFVQAIGVLVFMFLVSWRLTMLVLLSVPAITIMSKLYGAFMRKLTKLMQKKLADGNTISEAAISSMPTVRAFGAEMAELREYERYMN----------------------MYLKLNARAAVAYVGYMTSITTLPLLVNAMVLFYGGLLVLSQNSDDHISSGQLVSFFLYLSSLSDAFNSMGNIFSSLTTAIGAADKVFEMMYRKPLYKKPASGSS-SGDDGGELSLPNSGNPTTTCKMLHQGINPSDCAGEVRLNGIDMFYPAR--PTRKVLDGMTLTAPRGTVCALVGPSGGGKSSIVSLIQHLYEQNRGTVTIDGHDVRDLNHLWLSRHVSVVSQEPTLYARSIKRNIMYGLEGTEAEPSMEEITEACQLANAASFIENLPDGFETEVGERGVQLSGGQKQRIAIARALVRKPRILLLDEATSALDAESESSVQAAIDSMLKMGHDGNGGSAMTVVVVAHRLSTIRSADIIYVVSGGRVSESGRHEDLIQNPNGAYANLINRQM 732
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A7S3LJM9_9STRA (Hypothetical protein n=2 Tax=Amphora coffeiformis TaxID=265554 RepID=A0A7S3LJM9_9STRA)

HSP 1 Score: 578 bits (1489), Expect = 1.070e-180
Identity = 344/652 (52.76%), Postives = 447/652 (68.56%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNV-----------VERGDKPDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAAPVGEAPDACL-GAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGEE--PSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRGG------MTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQLD 2862
            Y A + D++A+   D  LI+ AFV LLLAA+SQV IP F G+++D++           +   D P F  +   LV+A+    VFSG+RG IFT+VG RVNVR+R +L ++L+ Q+IGFFD TKTGD+TSRL+SD T VGDQVT+NVNVFLR+LV  +  L FMF++SW+LS++AFISVP I  +SK YG ++R L+KL Q KLA+  S +E +LGSMSTVRSF        A  S+L E  +   S               Y  L+ R   AY  YA+    LP LV AVV+FYGG LV  G++T G +VSF+ YL SLSD F+ +  +FS++TQAVGAADKVFEL+NR PR   PS+ +P  A+ +  +   +A        +  G  PD    G + L  VD  YP+R  P R++L+ +S     G V+ALVG SGGGKSS ++L+++LY+ S G+V +DG EVH+   QWL RN+SIV QEPTL+ARSI+ NI+YGLEG E  PS  E+E+AA+LANA  FI   P K++T+ GERGVQ+SGGQKQRIAIARALVRKPK+LLLDEATSALDAESEHLVQQAID+MISRG       MTV+++AHRLSTV+ ADKI V++ G V EEG HD+L+  KDG YA L++RQ++
Sbjct:  267 YKAKWTDLIAITTPDVGLIIFAFVFLLLAAVSQVFIPRFLGNILDSLAHEFRDGGNRDINMWDVPGFMVNVRLLVIASVLAGVFSGLRGSIFTVVGGRVNVRLRVQLMDALLAQDIGFFDVTKTGDITSRLSSDTTLVGDQVTLNVNVFLRSLVQAIGVLGFMFFVSWQLSILAFISVPLITILSKWYGMFVRSLTKLMQKKLADGNSTSEAALGSMSTVRSFD-------AAESELEEFEKCMKS---------------YLHLNLRSSVAYCGYAAFTTSLPQLVFAVVVFYGGYLVRNGEMTFGELVSFLFYLQSLSDAFSSLGWVFSALTQAVGAADKVFELLNRRPRYRAPSSLAPEGATRVTGIPGVQAKKTRGYRMS--GLRPDGVAEGKITLEEVDLFYPAR--PNRQVLNKLSLTIDPGTVVALVGQSGGGKSSVMSLIQHLYEQSAGKVKIDGHEVHELCPQWLSRNVSIVSQEPTLFARSIKRNIMYGLEGTEMEPSDEEIEEAARLANAG-FIYDFPQKFETEVGERGVQLSGGQKQRIAIARALVRKPKILLLDEATSALDAESEHLVQQAIDDMISRGKNTEAGKMTVLIVAHRLSTVRNADKIFVVQQGNVVEEGKHDDLLE-KDGAYAQLIRRQME 890
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A7S2PB08_9STRA (Hypothetical protein n=2 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2PB08_9STRA)

HSP 1 Score: 575 bits (1481), Expect = 2.830e-178
Identity = 327/664 (49.25%), Postives = 441/664 (66.42%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERGDKPDFHRSTVF-------------------LVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVM----EGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAA-PVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGEE--PSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRG-------GMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQL 2859
            Y A   D+LALC  DW L++ AFV LL+AAL Q +IP   G+++D + +     + H +TV                    LV+AA  C++FSG+RG IFT++G RVN R+R +L +SL+ QEIGFFDTTKTGD+TSRL SD T VGDQVT+NVNVFLR+ V  +  L+FMF +SWRL+++  +SVPAI  +SK+YG ++RKL+KL Q KLA+  +++E ++ SM TVR+F AE  E R Y   +N                      +Y  L+ R   AY  Y +S   LP LV A+VLFYGG LV+    +  ++ G++VSF +YL+SLSD FN M +IFSS+T A+GAADKVFE++ R+P   KP++ S     + G LS P +            G  P  C G V L G+D  YP+R  P R++LDG++  A  G V ALVGPSGGGKSS ++L+++LY+ +RG V +DG +V   +H WL R++S+V QEPTLYARSI+ NI+YGLEG E  PS  E+ +A +LANA +FI +LPD ++T+ GERGVQ+SGGQKQRIAIARALVRKP++LLLDEATSALDAESE  VQ AID+M+  G        MTV+++AHRLST++ AD I V+  GRV+E G H++L+   +G YA L+ RQ+
Sbjct:  354 YKANLYDLLALCKPDWMLMILAFVCLLIAALMQTVIPRLIGNVLDALADYEHSENGHTTTVLMEDKSDIWNVPGFRSNIQKLVIAALLCALFSGLRGGIFTLIGGRVNSRLRLKLMDSLLAQEIGFFDTTKTGDITSRLCSDTTMVGDQVTLNVNVFLRSFVQAIGVLVFMFLVSWRLTMLVLLSVPAITIMSKLYGAFMRKLTKLMQKKLADGNTISEAAISSMPTVRAFGAEMAELREYERYMN----------------------MYLKLNARAAVAYVGYMTSITTLPLLVNAMVLFYGGLLVLSQNSDDHISSGQLVSFFLYLSSLSDAFNSMGNIFSSLTTAIGAADKVFEMMYRKPLYKKPASGSS-SGDDGGELSLPNSGNPTTTCKMLHQGINPSDCAGEVRLNGIDMFYPAR--PTRKVLDGMTLTAPRGTVCALVGPSGGGKSSIVSLIQHLYEQNRGTVTIDGHDVRDLNHLWLSRHVSVVSQEPTLYARSIKRNIMYGLEGTEAEPSMEEITEACQLANAASFIENLPDGFETEVGERGVQLSGGQKQRIAIARALVRKPRILLLDEATSALDAESESSVQAAIDSMLKMGHDGNGGSAMTVVVVAHRLSTIRSADIIYVVSGGRVSESGRHEDLIQNPNGAYANLINRQM 992
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A1Z5KDK8_FISSO (ATP-binding cassette, subfamily B (MDR/TAP), member 9 n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5KDK8_FISSO)

HSP 1 Score: 568 bits (1465), Expect = 4.460e-177
Identity = 326/656 (49.70%), Postives = 432/656 (65.85%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERGDK-------------PDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASP-PRASEIGMLSDPEAAAAAAVAAAPVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGE--EPSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRGG--------MTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQLD 2862
            Y A+++D+L  C  D  L++ AFV L+ AA+SQ LIP + G ++D + E                 P F ++   LVL +    VFSG+RG IFT+VG RVN R+R +L +SL+ Q+IGFFD TKTGD+TSRL+SD T VGDQVT+NVN+FLR+LV  +  L FMF +SW+LS++AFISVP I  +S+ YG Y+R L+KL Q +LAE   V+E  L +MSTVRSF A   E + +   +++                      Y  L+ R  +AY  +A     LP LV AVV+FYGG +V    +T G++VSF++YL SLSD    M  +F S+TQAVGAADKVFEL+NR+P+   PS   P   A       + +            G  P++  G +E + V   YPSR  P +R+L+G+SF    G ++ALVG SGGGKSS I+LL + Y+   GQ++ DG+ +H+    WL RN+SIV QEPTL+ RSI+ NI+YGLEG   EPS  E+E+AA+LANA +FI ++P KYDT+ GERGVQ+SGGQKQRIAIARALVRKP+VLLLDEATSALDAESEHLVQQAID+MISRG         MTV+++AHRLSTV+ AD+I V++ G V EEG H+EL+    GVYA L++RQ++
Sbjct:  265 YKASWKDLLQTCAPDIHLLVLAFVFLIFAAVSQTLIPLYLGHILDALTEAFSNHNEDNDDESVLQVPGFIKNIELLVLVSICAGVFSGLRGSIFTVVGGRVNCRLRIKLMDSLLVQDIGFFDVTKTGDITSRLSSDTTLVGDQVTMNVNIFLRSLVQALGVLGFMFTVSWQLSVLAFISVPVITMISRWYGGYVRSLTKLMQKRLAEGNVVSESVLSAMSTVRSFDAATNELKEFEKCMDK----------------------YLTLNMRSSFAYCGFACLTTSLPELVFAVVVFYGGLMVRNEDITSGQLVSFLLYLQSLSDAIASMGWVFGSLTQAVGAADKVFELLNRQPKVTPPSTTRPIMEAERHSRAHNLQLGTFKTTNQRLQGIVPESARGQIEFKDVTLYYPSR--PQKRVLNGISFKVEPGSIVALVGESGGGKSSIISLLLHHYEQQSGQILFDGIAIHELQAAWLCRNVSIVSQEPTLFGRSIKRNIMYGLEGTSAEPSQEEIEEAARLANADSFIQNMPMKYDTEVGERGVQLSGGQKQRIAIARALVRKPRVLLLDEATSALDAESEHLVQQAIDDMISRGKNSDSGEEPMTVVIVAHRLSTVRSADRIFVLKDGAVVEEGNHEELLQNDTGVYASLIQRQME 896
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BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A6U3T7I6_9STRA (Hypothetical protein n=3 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6U3T7I6_9STRA)

HSP 1 Score: 566 bits (1459), Expect = 4.170e-175
Identity = 331/679 (48.75%), Postives = 445/679 (65.54%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERG----------DKPDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAAPV------------GEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEGEE--PSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRG-----------GMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQLDLGDHNGGRARKK 2898
            YS +F D+L L   D  L+L AFV LLLAA+ Q+ +P +TG  +D + E            D PDF  +   L++ +    VFSG+RG IFT+VGA V VR+R  L +SL+ Q+IGFFD TK+GD+TSRL++D T+VGDQV++NVNVFLR++V  +  L+FMF +SW+LSL+AFISVP I   SK YGNY++KL+K+   KLA+  +V+E ++GSM TVR+F AE        S+L+E  +                   Y  ++ R  YAY  Y S    LP LVTAVVLFYGG LV + Q+T G +VSF++YL SLSD FN + +IFSS+TQA+GAADKVFELI+R+P+   PS++S     E    ++                          G  P  C G V L GV+  YP+R  P R++L G++  A +G V+ALVGPSGGGKSS ++L+++LY+PS G+V +DG +VH    +WL R++++V QEPTL+ARS+R NI+YGLEG E  PS  ++E+AA+LANA +FI  LP  YDT  GERGVQ+SGGQKQRIAIARALVRKP++LLLDEATSALDAESE  VQ+AID M+ RG            MTV+++AHRLSTV+ AD I V+  GRV E G H +L+  + G Y+ L++RQ++  +   G+A  K
Sbjct:  345 YSISFTDLLTLVYPDAHLLLGAFVFLLLAAVMQIYVPKYTGHALDALAEAFSSSDSGDGLLDVPDFASNIKKLIVVSILGGVFSGVRGSIFTVVGANVLVRLRVLLMDSLLTQDIGFFDKTKSGDITSRLSNDTTRVGDQVSLNVNVFLRSVVQAIGVLIFMFIISWQLSLLAFISVPLITLFSKWYGNYMQKLTKVMNKKLADGNAVSEAAVGSMPTVRAFGAE-------TSELDEFNKHMGQ---------------YLSINLRSAYAYLGYCSCITSLPQLVTAVVLFYGGLLVEDRQMTSGELVSFILYLNSLSDAFNTIGNIFSSLTQAMGAADKVFELIHRKPQLTSPSSSSNLSIHEENGGNNTRCCGRETKCGPTYIMPKRSEEHRKRGLQPSTCNGVVTLHGVNLCYPAR--PLRQVLHGMNLTAPAGAVVALVGPSGGGKSSVVSLIQHLYEPSNGEVCIDGNKVHDLSPEWLSRHVTVVSQEPTLFARSVRRNIMYGLEGTEYEPSMKDIEEAARLANASSFIEGLPFGYDTDVGERGVQLSGGQKQRIAIARALVRKPRILLLDEATSALDAESEAYVQEAIDGMLKRGKDAASRLEPSSSMTVVVVAHRLSTVRNADVICVVEKGRVIESGNHVDLLKNESGAYSNLIRRQMNAQNKLDGKAENK 999
[Close]
BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A6S8Y5W8_9STRA (Hypothetical protein n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A6S8Y5W8_9STRA)

HSP 1 Score: 559 bits (1440), Expect = 4.090e-174
Identity = 340/690 (49.28%), Postives = 444/690 (64.35%), Query Frame = 1 
Query:  967 YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVER----------GDKPDFHRSTVFL------VLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVM--EGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSA-ASPPRASEIGMLSDPEAAAAAAV----------------AAAPV------GEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEG--EEPSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISR------------GGMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQLDLGD 2871
            Y A ++D+L++C  D      AFV L+LAA  QVLIP +TG+M+D + +           GD  D  +   FL      +LA+    VFSG RG IF++VG RVNVR+R  L +SL+ Q+IGFFD TKTGD++SRL+SD T VGDQVT+NVNVFLR+LV  +  L+FM  LSW+L+L+AFISVPAI  +S+ YG++IR L+KL Q KLA+  S++E +L SMSTVR+  AE  E   + S ++                       Y  L+ R   AY  YA++   LP LVTAVVLFYGG LVM     +T G +VSF++YL+SLSD FN +  IF+S+TQAVGAADKVFELI+R P+   PS+ A     S   + +D +  + +++                AA+ V      G  P AC G V    V   YP+R  P R+IL+ +S    +G V ALVGPSGGGKSS ++L++NLYQ + G V +DG+++H     WL +++++V QEPTL+ARSIR NIIYGLEG   EPS  ++E+AA+LANA +FI  LP  YDT  GERGVQ+SGGQKQRIAIARALVRKPK+LLLDEATSALDAESE +VQ AIDNMIS+            G MTVI++AHRLSTV+ AD I V+  G+V E G+HD+L+   DG Y  L+ RQ+   D
Sbjct:  151 YKAGWKDLLSVCYPDMHYFAAAFVFLILAASCQVLIPRYTGNMLDAIAQYAIRQIDGNGGGDGKDIWKVPGFLSNMKRLILASILGGVFSGCRGSIFSVVGGRVNVRLRSLLMDSLLAQDIGFFDITKTGDISSRLSSDTTLVGDQVTLNVNVFLRSLVQAMGVLIFMAMLSWQLTLLAFISVPAITVLSRWYGDFIRSLTKLMQKKLADGNSISEAALSSMSTVRALGAEHTEMSEFTSCMDA----------------------YLSLNVRNAVAYLGYATAVTSLPQLVTAVVLFYGGLLVMADNSAMTSGELVSFLLYLSSLSDAFNSIGYIFASLTQAVGAADKVFELIHRNPKRRTPSSGAVEDENSNRNVNNDGQQTSRSSLSTTDNGNVTLERVRSNAASQVEKFRGNGVKPAACGGEVTFNQVTMYYPAR--PKRQILNEMSLYVPAGNVAALVGPSGGGKSSIVSLIQNLYQTTSGDVFIDGIKIHDLSPDWLSQHVAVVSQEPTLFARSIRRNIIYGLEGTENEPSMEDIEEAARLANASSFIEGLPQGYDTDVGERGVQLSGGQKQRIAIARALVRKPKILLLDEATSALDAESEAMVQGAIDNMISKDRSVTDTGASAGGAMTVIIVAHRLSTVRNADIIFVVEKGKVVESGSHDDLLQNDDGAYTNLISRQMKAHD 816
[Close]
BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: D7G0W4_ECTSI (ABC transmembrane type-1 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G0W4_ECTSI)

HSP 1 Score: 541 bits (1394), Expect = 1.190e-172
Identity = 307/399 (76.94%), Postives = 339/399 (84.96%), Query Frame = 1 
Query: 1063 QVLIPHFTGDMIDNVVERGDKPDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAA----AAAVAAAPVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQV--LALVGPS 2241
            +VL+PHFTG+MIDNVVE G   +F RSTV+LVLAA SC++FSGIRGCIF++VGARVNVRVR+RLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVT+NVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIV VSK YG YIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRES+ YA KL +  +  +S TL   S +  LSF  YVLSKRG YAYG YASS+VLLPNLVTAVVLFYGGQLVM+GQ+TGG+VVSFMIYLTSLSDGFNDMA+IFSSMTQAVGAADKVFELI R+P+G +PSA+ PP ++      +  AA     A A A    G AP+ CLGAVEL+GVDFEYPSR  PGRRILDGVSFNA +GQ   LA+  PS
Sbjct:  103 KVLVPHFTGNMIDNVVEGGGDSEFRRSTVYLVLAAVSCAIFSGIRGCIFSVVGARVNVRVRRRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTLNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVIVSKWYGEYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESKEYAKKLQD--RTPTSPTLPHTSYTSRLSF--YVLSKRGSYAYGFYASSYVLLPNLVTAVVLFYGGQLVMDGQITGGKVVSFMIYLTSLSDGFNDMAAIFSSMTQAVGAADKVFELIRRKPKGPRPSASPPPSSASQHSACETGAARSVRHATAAAFEEGGAAPETCLGAVELKGVDFEYPSR--PGRRILDGVSFNAAAGQASTLAMAMPS 495
[Close]
BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Match: A0A448ZA23_9STRA (Uncharacterized protein n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448ZA23_9STRA)

HSP 1 Score: 556 bits (1432), Expect = 2.170e-172
Identity = 349/780 (44.74%), Postives = 468/780 (60.00%), Query Frame = 1 
Query:  700 CFLTLFFIVAKCLTRLVVGPGWT--ALPT-PWFWAAIGWSAAASAMEFLL------------ATGFTSTCRRYCFLHLC----------------RARGDYQSAMEAGWDGTGAGKKNGG----YSATFEDVLALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVER---------------GDKPDFHRSTVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFFDTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWRLSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMSTVRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRGGYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSLSDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGMLSDPEAAAAAAVAAAPVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDGVSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYDHQWLHRNISIVGQEPTLYARSIRENIIYGLEG--EEPSYAEVEKAAKLANAHTFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSALDAESEHLVQQAIDNMISRG------GMTVILIAHRLSTVKRADKIVVIRSGRVAEEGTHDELVSAKDGVYAGLVKRQLDL 2865
            C  T    V KCL RL +  G    A P  P FW A  +SAA S  E +             +T       R+   HL                   R +      A  D    G    G    Y A++ D+L LC  D  LI  AFV LL AA+ Q+ IP +TG  +D + +                 D P F  +   L++ +     FSG+RG IFT+VG RVNVR+R RL ++L+  E GFFD TKTGD+TSRL+SD T VGDQVT+NVNVFLR+LV V+  L FMF +SW+LS++AFISVP I  +S+ YG ++R ++K+ Q KLA+  SV+E +L SM TVR+F A   E + + + +++                      Y  ++ +   AY  YA+    LP LVTA+V+FYGG LV  G ++ G +VSF++YL SLSD F+ +  IFSS+TQAVGAADKVFEL++R+ R    +  S    +  G+ +         V     G  P+ C G V L+ V+  YP+R  P RR+L G+S     G ++ALVGPSGGGKSS I+L++NLY  S G+VMLD ++VH+Y  +WL  +ISIV QEPTL+ARSIR NI+YGLEG   EP+  E+E+ A L+N   FI  +P +Y+T+ GERGVQ+SGGQKQRIAIARALVRKPK+LLLDEATSALDAESEH+VQ AID+MI         GM+V+++AHRLST++ AD I V++ G+V E+G H EL+  +DG YA LV+RQ+++
Sbjct:  153 CLATTLVAVGKCLVRLNIEIGVLRDAEPIHPIFWLAFLFSAAVSVTEMVYVDAVCVCLGKWGSTAEKPLLLRHISSHLSLPLLANDSLEGQEESENGRNEEDQPESAAIDENAVGDSGIGGDADYKASWSDLLKLCAPDAFLISIAFVFLLFAAMMQIYIPKYTGACLDALEQAYSSNDDGSNDDNESIKDIPGFMSNVKKLLIVSVLGGFFSGVRGSIFTMVGGRVNVRLRLRLMDALLTTEQGFFDVTKTGDITSRLSSDTTLVGDQVTLNVNVFLRSLVQVIGVLTFMFMISWQLSMLAFISVPVITILSRWYGTFVRSIAKVMQTKLADGNSVSEAALSSMPTVRAFDAGPTEYKEFTTHMDK----------------------YLEMTFKSAVAYCGYATVSTSLPQLVTALVVFYGGLLVRNGSLSSGELVSFLLYLQSLSDAFSSIGYIFSSLTQAVGAADKVFELMHRDRRVIPQTMDSN---NNNGVTNQSSLVQKVRV----TGVEPNECKGEVTLQDVEMHYPAR--PNRRVLRGMSLTVPPGSIVALVGPSGGGKSSIISLVQNLYSQSSGKVMLDNIDVHEYSPRWLSHHISIVQQEPTLFARSIRRNIMYGLEGTDREPTQEEIERVAMLSNCDDFIRKMPMQYETEVGERGVQLSGGQKQRIAIARALVRKPKILLLDEATSALDAESEHMVQSAIDHMIDTARSTDGAGMSVMIVAHRLSTIRNADIIFVVQDGQVVEQGNHTELIQREDGAYASLVRRQMNV 901
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig202.50.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A835YSY9_9STRA1.190e-20956.45ABC transporter type 1, transmembrane domain-conta... [more]
W7TKE5_9STRA2.990e-20456.53Atp-binding cassette sub-family b member 9 n=1 Tax... [more]
A0A7S2KWJ3_9STRA1.110e-18149.25Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
A0A7S3LJM9_9STRA1.070e-18052.76Hypothetical protein n=2 Tax=Amphora coffeiformis ... [more]
A0A7S2PB08_9STRA2.830e-17849.25Hypothetical protein n=2 Tax=Leptocylindrus danicu... [more]
A0A1Z5KDK8_FISSO4.460e-17749.70ATP-binding cassette, subfamily B (MDR/TAP), membe... [more]
A0A6U3T7I6_9STRA4.170e-17548.75Hypothetical protein n=3 Tax=Ditylum brightwellii ... [more]
A0A6S8Y5W8_9STRA4.090e-17449.28Hypothetical protein n=1 Tax=Chaetoceros debilis T... [more]
D7G0W4_ECTSI1.190e-17276.94ABC transmembrane type-1 domain-containing protein... [more]
A0A448ZA23_9STRA2.170e-17244.74Uncharacterized protein n=1 Tax=Pseudo-nitzschia m... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig202contigP-littoralis_Contig202:190087..215293 -
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.D7G0W4
Preferred nameABCB9
PFAMsABC_membrane,ABC_tran
Model size5343
Max annot lvl2759|Eukaryota
KEGG koko:K02021,ko:K05653,ko:K05654,ko:K05656,ko:K05658
KEGG TC3.A.1.106,3.A.1.110,3.A.1.112,3.A.1.113,3.A.1.117,3.A.1.201,3.A.1.209,3.A.1.21
KEGG Pathwayko02010,ko04142,ko04145,ko04612,ko04976,ko05168,ko05206,ko05226,ko05340,map02010,map04142,map04145,map04612,map04976,map05168,map05206,map05226,map05340
Hectar predicted targeting categoryother localisation
GOsGO:0000166,GO:0000323,GO:0001910,GO:0001911,GO:0001912,GO:0001914,GO:0001916,GO:0002237,GO:0002376,GO:0002428,GO:0002474,GO:0002475,GO:0002476,GO:0002477,GO:0002478,GO:0002479,GO:0002481,GO:0002483,GO:0002484,GO:0002485,GO:0002488,GO:0002489,GO:0002577,GO:0002579,GO:0002583,GO:0002585,GO:0002589,GO:0002591,GO:0002682,GO:0002683,GO:0002684,GO:0002697,GO:0002698,GO:0002699,GO:0002703,GO:0002704,GO:0002705,GO:0002706,GO:0002707,GO:0002708,GO:0002709,GO:0002711,GO:0002715,GO:0002716,GO:0002819,GO:0002821,GO:0002822,GO:0002824,GO:0003674,GO:0003823,GO:0003824,GO:0005102,GO:0005215,GO:0005488,GO:0005515,GO:0005524,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005737,GO:0005764,GO:0005765,GO:0005773,GO:0005774,GO:0005783,GO:0005789,GO:0005793,GO:0005815,GO:0005856,GO:0005886,GO:0006629,GO:0006810,GO:0006857,GO:0006906,GO:0006950,GO:0006952,GO:0006996,GO:0007034,GO:0007041,GO:0008144,GO:0008150,GO:0008152,GO:0009605,GO:0009607,GO:0009617,GO:0009892,GO:0009987,GO:0010033,GO:0010468,GO:0010605,GO:0010608,GO:0010629,GO:0012505,GO:0012506,GO:0015399,GO:0015405,GO:0015421,GO:0015433,GO:0015440,GO:0015630,GO:0015833,GO:0016020,GO:0016021,GO:0016043,GO:0016050,GO:0016192,GO:0016246,GO:0016441,GO:0016458,GO:0016462,GO:0016604,GO:0016607,GO:0016787,GO:0016817,GO:0016818,GO:0016887,GO:0017076,GO:0017111,GO:0019222,GO:0019882,GO:0019883,GO:0019884,GO:0019885,GO:0022607,GO:0022804,GO:0022857,GO:0023029,GO:0030139,GO:0030176,GO:0030554,GO:0030659,GO:0030666,GO:0030670,GO:0031047,GO:0031090,GO:0031224,GO:0031227,GO:0031341,GO:0031342,GO:0031343,GO:0031347,GO:0031348,GO:0031410,GO:0031974,GO:0031981,GO:0031982,GO:0031984,GO:0032501,GO:0032502,GO:0032553,GO:0032555,GO:0032559,GO:0032991,GO:0033116,GO:0033218,GO:0033220,GO:0035194,GO:0035264,GO:0035639,GO:0035672,GO:0035673,GO:0036094,GO:0040007,GO:0040029,GO:0042175,GO:0042221,GO:0042269,GO:0042270,GO:0042277,GO:0042287,GO:0042288,GO:0042590,GO:0042605,GO:0042623,GO:0042626,GO:0042802,GO:0042803,GO:0042824,GO:0042825,GO:0042886,GO:0042887,GO:0043167,GO:0043168,GO:0043190,GO:0043207,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043492,GO:0043531,GO:0043933,GO:0044085,GO:0044238,GO:0044422,GO:0044424,GO:0044425,GO:0044428,GO:0044430,GO:0044432,GO:0044433,GO:0044437,GO:0044444,GO:0044446,GO:0044451,GO:0044459,GO:0044464,GO:0045088,GO:0045335,GO:0045824,GO:0045953,GO:0046907,GO:0046967,GO:0046968,GO:0046977,GO:0046978,GO:0046979,GO:0046980,GO:0046982,GO:0046983,GO:0048002,GO:0048284,GO:0048518,GO:0048519,GO:0048583,GO:0048584,GO:0048585,GO:0048589,GO:0050776,GO:0050777,GO:0050778,GO:0050789,GO:0050896,GO:0051179,GO:0051234,GO:0051641,GO:0051649,GO:0051704,GO:0051707,GO:0055085,GO:0060255,GO:0061024,GO:0061025,GO:0065003,GO:0065007,GO:0070013,GO:0071702,GO:0071704,GO:0071705,GO:0071840,GO:0071944,GO:0080134,GO:0090174,GO:0097159,GO:0097367,GO:0097708,GO:0098533,GO:0098588,GO:0098796,GO:0098797,GO:0098805,GO:0098827,GO:0098852,GO:1901265,GO:1901363,GO:1902494,GO:1902495,GO:1904680,GO:1904949,GO:1990351,GO:1990668
Exons18
Evalue1.8e-181
EggNOG OGsCOG1132@1|root,KOG0058@2759|Eukaryota
Ec32 ortholog descriptionAAA ATPase domain protein
Ec32 orthologEc-23_002050.1
EC3.6.3.44
DescriptionATPase activity, coupled to transmembrane movement of substances
Cds size2850
COG categoryV
BRITEko00000,ko00001,ko01000,ko02000,ko04090,ko04147
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig202.50.1prot_P-littoralis_Contig202.50.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig202 192490..215203 -


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

Feature NameUnique NameSpeciesTypePosition
1680789991.7740993-UTR-P-littoralis_Contig202:190086..1924891680789991.7740993-UTR-P-littoralis_Contig202:190086..192489Pylaiella littoralis U1_48UTRP-littoralis_Contig202 190087..192489 -
1680789991.9846382-UTR-P-littoralis_Contig202:215203..2152931680789991.9846382-UTR-P-littoralis_Contig202:215203..215293Pylaiella littoralis U1_48UTRP-littoralis_Contig202 215204..215293 -


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

Feature NameUnique NameSpeciesTypePosition
1680789991.7871525-CDS-P-littoralis_Contig202:192489..1926481680789991.7871525-CDS-P-littoralis_Contig202:192489..192648Pylaiella littoralis U1_48CDSP-littoralis_Contig202 192490..192648 -
1680789991.7977579-CDS-P-littoralis_Contig202:193754..1938991680789991.7977579-CDS-P-littoralis_Contig202:193754..193899Pylaiella littoralis U1_48CDSP-littoralis_Contig202 193755..193899 -
1680789991.8078666-CDS-P-littoralis_Contig202:194523..1945641680789991.8078666-CDS-P-littoralis_Contig202:194523..194564Pylaiella littoralis U1_48CDSP-littoralis_Contig202 194524..194564 -
1680789991.818064-CDS-P-littoralis_Contig202:195483..1956441680789991.818064-CDS-P-littoralis_Contig202:195483..195644Pylaiella littoralis U1_48CDSP-littoralis_Contig202 195484..195644 -
1680789991.8330247-CDS-P-littoralis_Contig202:196039..1962561680789991.8330247-CDS-P-littoralis_Contig202:196039..196256Pylaiella littoralis U1_48CDSP-littoralis_Contig202 196040..196256 -
1680789991.8438303-CDS-P-littoralis_Contig202:196708..1967601680789991.8438303-CDS-P-littoralis_Contig202:196708..196760Pylaiella littoralis U1_48CDSP-littoralis_Contig202 196709..196760 -
1680789991.854011-CDS-P-littoralis_Contig202:198125..1983591680789991.854011-CDS-P-littoralis_Contig202:198125..198359Pylaiella littoralis U1_48CDSP-littoralis_Contig202 198126..198359 -
1680789991.8635046-CDS-P-littoralis_Contig202:199141..1993571680789991.8635046-CDS-P-littoralis_Contig202:199141..199357Pylaiella littoralis U1_48CDSP-littoralis_Contig202 199142..199357 -
1680789991.8745778-CDS-P-littoralis_Contig202:201369..2014351680789991.8745778-CDS-P-littoralis_Contig202:201369..201435Pylaiella littoralis U1_48CDSP-littoralis_Contig202 201370..201435 -
1680789991.88492-CDS-P-littoralis_Contig202:201582..2016981680789991.88492-CDS-P-littoralis_Contig202:201582..201698Pylaiella littoralis U1_48CDSP-littoralis_Contig202 201583..201698 -
1680789991.8955548-CDS-P-littoralis_Contig202:202665..2028131680789991.8955548-CDS-P-littoralis_Contig202:202665..202813Pylaiella littoralis U1_48CDSP-littoralis_Contig202 202666..202813 -
1680789991.9079833-CDS-P-littoralis_Contig202:203526..2037151680789991.9079833-CDS-P-littoralis_Contig202:203526..203715Pylaiella littoralis U1_48CDSP-littoralis_Contig202 203527..203715 -
1680789991.9206083-CDS-P-littoralis_Contig202:204543..2046741680789991.9206083-CDS-P-littoralis_Contig202:204543..204674Pylaiella littoralis U1_48CDSP-littoralis_Contig202 204544..204674 -
1680789991.9303575-CDS-P-littoralis_Contig202:206845..2070631680789991.9303575-CDS-P-littoralis_Contig202:206845..207063Pylaiella littoralis U1_48CDSP-littoralis_Contig202 206846..207063 -
1680789991.9397929-CDS-P-littoralis_Contig202:208483..2085271680789991.9397929-CDS-P-littoralis_Contig202:208483..208527Pylaiella littoralis U1_48CDSP-littoralis_Contig202 208484..208527 -
1680789991.9525998-CDS-P-littoralis_Contig202:210137..2103221680789991.9525998-CDS-P-littoralis_Contig202:210137..210322Pylaiella littoralis U1_48CDSP-littoralis_Contig202 210138..210322 -
1680789991.9643683-CDS-P-littoralis_Contig202:211531..2118571680789991.9643683-CDS-P-littoralis_Contig202:211531..211857Pylaiella littoralis U1_48CDSP-littoralis_Contig202 211532..211857 -
1680789991.9751403-CDS-P-littoralis_Contig202:215001..2152031680789991.9751403-CDS-P-littoralis_Contig202:215001..215203Pylaiella littoralis U1_48CDSP-littoralis_Contig202 215002..215203 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig202.50.1

>prot_P-littoralis_Contig202.50.1 ID=prot_P-littoralis_Contig202.50.1|Name=mRNA_P-littoralis_Contig202.50.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=950bp
MISMEMDDDGRTPLLPRDGRQQQQEIKLPTGKLAAHGILLACCTLMDIAI
CTFLATGGFCEDWRRRLGLGHGNYPFGSAGFDLLLLGILRHTVAVGGCLA
FFFALKRSTTLRLVAESVAQQDYYSRTTAAATQAREQFFKWACASRAWRG
VKHSLIGDPEDGEEAEPAVEVGSSIQVGGPVGGSTSYEVSGIARWLEPLC
PAACFLTLFFIVAKCLTRLVVGPGWTALPTPWFWAAIGWSAAASAMEFLL
ATGFTSTCRRYCFLHLCRARGDYQSAMEAGWDGTGAGKKNGGYSATFEDV
LALCGEDWRLILCAFVALLLAALSQVLIPHFTGDMIDNVVERGDKPDFHR
STVFLVLAAFSCSVFSGIRGCIFTIVGARVNVRVRQRLFESLVRQEIGFF
DTTKTGDLTSRLASDCTKVGDQVTVNVNVFLRNLVMVVVTLLFMFYLSWR
LSLVAFISVPAIVTVSKMYGNYIRKLSKLSQDKLAEAGSVAEESLGSMST
VRSFAAEGRESRAYASKLNENRQQASSRTLLPVSMSYLLSFLYYVLSKRG
GYAYGLYASSFVLLPNLVTAVVLFYGGQLVMEGQVTGGRVVSFMIYLTSL
SDGFNDMASIFSSMTQAVGAADKVFELINREPRGAKPSAASPPRASEIGM
LSDPEAAAAAAVAAAPVGEAPDACLGAVELRGVDFEYPSRQAPGRRILDG
VSFNATSGQVLALVGPSGGGKSSCIALLENLYQPSRGQVMLDGLEVHKYD
HQWLHRNISIVGQEPTLYARSIRENIIYGLEGEEPSYAEVEKAAKLANAH
TFISHLPDKYDTQAGERGVQMSGGQKQRIAIARALVRKPKVLLLDEATSA
LDAESEHLVQQAIDNMISRGGMTVILIAHRLSTVKRADKIVVIRSGRVAE
EGTHDELVSAKDGVYAGLVKRQLDLGDHNGGRARKKGQGTGDTTPEVVR*
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mRNA from alignment at P-littoralis_Contig202:190087..215293-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig202.50.1 ID=mRNA_P-littoralis_Contig202.50.1|Name=mRNA_P-littoralis_Contig202.50.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=25207bp|location=Sequence derived from alignment at P-littoralis_Contig202:190087..215293- (Pylaiella littoralis U1_48)
CTTTGAGAAAGCAGCACAAACGTACAAACACACGGCGGACGCTGGAACAA
AAGATAGCGATCGTACGTAGTTGGTACCGCCGGCTTTTACATGATCTCGA
TGGAAATGGACGATGATGGCCGGACCCCTCTTCTGCCGCGGGATGGGCGG
CAGCAACAGCAGGAAATCAAGCTGCCGACCGGAAAGCTGGCTGCTCACGG
CATACTTTTGGCCTGCTGCACGCTCATGGACATTGCTATCTGCACCTTTT
TGGCCACGGGCGGCTTCTGCGAGGACTGGCGACGGCGTCTCGGTACGCAT
GAACGCAACACAACACCAGCACTCATATATCATAACTCCCCATGATGATT
TGTAGACTGCTTTCCACAGTCTTCACGTATTCAAAATATGTATGCTCTGA
ACGAAGGAGCGTGTATCAAAGGGCGAGGAAGAGCAAATCAATAGCACATG
CGAAGTTAGTTAATTTGCAATCATGTGTTGTTCTCTGCGTTGTGTTGCAT
ACCTTTAATTGGACCCCCACTGCACCTTTCGGGTAGGTCGACGCTCCAAC
TGGGGTCACACAGGGGGAAGTCAACACAGGAGTTTTTTTTTCTCCACTTC
CCTCTGCGGTTCTTGCCGTGTTTATTCGGTTGAGCTTTTCTCGCGAGAAA
GGGGACAGCAGTCCCTTTCCCTCGTCGATGGTACGATCGAATTTTGTTTA
CTCACGAATTAATCGCTTTCCACTTTCACGCGCAGTGTGAGAAGAAAACC
CAGATCGTATTACTGTAATGCACTGGGATTCGAACTGACGCGTGAATGTC
AGGAGGTTACGTGGATTACCAACTGAACCACCGGGGCGACCGTGTGGGGT
GCCGTAGACAGCATTTACGTACGAAAGAAGTACTTGCTGCCTCAGTGCCA
TGTTATCTACGCAGAGTGGGTGAAAGCCGCTAGCAGCTGATATCACATGA
TGTGTTACACTACTCCTATCATACGAGTATGCATTGTATGATATCCGAAC
CACAAGCTTGTTGTCCAAGAACATGATCATGTTTCGCGACGTCTGTCTCG
CCTACCCGTACCCACTGCTGCTCGAAGGGTCTATTAGCGTTGTCATCCTT
CGAAGTTAATAACAAACAGGTAGGCGTTTTCCGGTAGAAAAGCGTTGACT
TAAAAAATCTTATGCTGCACAGCTCAGCTATCAGCTGCGCGGCCAGCTCC
AAAGCACAACATCCGTGTTGTTCGACCCCCGTACTCAGCACTGATTGGCT
TGTACTGGACACGGTTGCTCTCTCGGGTCCAAGGTTCAGGGACCAGTACC
GAACTGGAAGTCAAGTCCAGTACTCGTACTTGTATGATCGACTCAAATTA
ACACTTCGAGTATTTGTGTGTCGTCTTCACATCCAAAACCATTCCGACAT
CTCCTCAGTACCTTCTCATGTCCGTGCTCCTCCGATCATGGACGATTTCC
GTGGTCACAGGCTGCTTACCCAAAAGGGGTATGTATCGCAGTGCGCGGGA
GATCCCATCCATCTCGTACAGGTACGACAAGGAAACGCCGGCAAAACGAA
ACGGACCCCGAAATATCACACAACGCTACTGCTGTACAAGAAAATTATTA
CAGTAAAACAAAGGAAAAGAGCATGGTCCAGAGCAAATTCAAAAATTATA
CTTAAAAGTATCATATGAAAAGTGAGAAAATAAATCGAATGCAGTTGCCG
AAGGTGCCGAGGAAAACAGACATCGGGCTTGCAACTCTCTTCACCGGCAC
AACGGTAGAAACACAAGAAAAAATACGGAAGGGGGGGCGCACTGATGCGG
GGGGGACAAGATACTGCAGAAAGGCTTGGTGCTACCACAGCATTGTCGGT
CAATCTGGTGCATATGCCCGTGCTACTATTTCCATCAATTCCCTCTTGCT
CTCCTCTGCCGCCGTCGTCTCATCCTTCCGGGTCTTTCTGCGCTTGCTTC
CTCGAGCTTTCCCCTCCCCCTTCTCCTCCTTGGTCTCTCCTCGGTTTCGC
TTAGTAAGGTTAGGGTTAGGGTTCACTCAAGGTAAAATTTGTGTGAAGCG
CACATATGATACGAACAACGAACCGCAGGAAAAACGCGTGGAAAAAGACA
AAAAACTTTCACTTTACAGCAGCAGTACAGCAGTATCATGTGTTGACCTC
CCTCGCGTCTGTCGTGACCCCAGCTGGTGTGCCCAACTTATGCCGAAAGG
TGCTCCTCGGCGTCCAGAACAAGTGGGATGACAACACACACAGAAGGCAG
TTGCGCGTGTGTATGCTGCGCAGTTGCTTCCGTCCAATCGGTTTTCTGCT
GCACTGCAGTACTGGTGCTGTACTTAGATGAACTTTGCAACGATGTACAG
GTCCGTCTTTGTAACTAGCTGGGAGAGAACTACAGGCTAAGGCCGTTTCC
TACAATCAGTCCTGATGATCCCAAAGCGTTTTCTATTTTATTGGCACCCC
CCCCTCAAATAACAGAGAGCCTAAACGACTGAACAAAGTTACGTCTTGTT
GGAACAACCGGTTGGCATGCGCGTTGTGCCTCTGTGACGAATATGTTGTA
TGTAGTTGTCGTGCCATATATACGATGGTATGAGATGGTAAGTTCATTAC
TTTCAAATCGTACCACAAATACCAGGTAAAGCAGCAAAAGTGTATACAGG
TAAAAGAATGAACGCCCCACAAACGAAACCTCTGTACACACCCCCGCATC
GACTCCGGTCTCTCTCAATTCTCCTCCTCGTCACACAGAAGTAAGACTCT
CCTCCCTGAGGATGCCCGCTAACCCTAATCCCTCCTCCTGCGGTGCATGT
TTTTATCACTAGCCGCGTTCTGCAGAAGCCTCTTTCGCTCATCGACCTTT
GAGTCGACCGGTCTCCAGCAGTAATCTCACCGTCAAACGAGCAGTCGCGT
TCACCCCACCTGCTGTTTGTTTTCGTGTGTCTACCTTCAGGGGATTTGAT
TCTTGATTCCTGGTGTGTATCCGCGGACCACCCGAACACTAACTCAGATG
ATATTGAAGTGCTGGGTAATCCACGTTTAATATGGTGAATCAATATCAAA
GTTAGGGTTAGCTAGTTCTTGTTAATCCTTGCCCTTACCCTAACCCTATG
TTTGATACAAAATAACCTGGTACCGGTACACCCGTAGACCATCCACTCCA
CCTGGGTTCGTGTTCAACAGACTGTGCCTCAAAATACATAACTGCACCCA
CTCGCTCGTACTACTGCGTGAGAAAAAATAACGTATACCCGTACTGCTGT
GCCCACATCGAAGCTGCATCGCCACTCTTGGAAGCACGCCTGGGTACGTT
TTGCACACTCTTTCACGTGCGCTGCACTGCCTGCTACAGAGTAACGTCGC
ATTTCTTCTATTTTCCCGCGCTCCGACCCACCCCCCCTCCAAAAAAAAAA
ACTGGAAATCTCCGCTGCTTGGGGCGATGCGCGCAGGGCTAGGCCACGGA
AACTACCCCTTCGGCTCGGCTGGCTTCGACCTCTTGCTACTGGGAATTCT
GCGACACACGGTTGCTGTTGGGGGGTGCCTGGCGTTCTTCTTCGCTCTCA
AGCGGAGCACCACGCTTCGCCTGGTGGCAGAGTCCGTCGCTCAGCAGGAC
TACTACTCGAGAACCACGGCGGCAGCGACGCAAGCGCGCGAGCAGTTCTT
CAAGTGGGCGTGCGCCTCGCGGGCCTGGCGGGGTGTGAAGCACAGCTTGA
TCGGGGACCCGGAGGACGGGGAGGAGGCGGAGCCTGCGGTGGAAGTGGGG
TCGAGCATCCAGGTATGTTTTGGCATCCGTGCGTGGCGTTTCTTATCATG
TGTACCCTTCTCGGCCTGCTCCGTGTGCGTCCGGTGTGGTGGTTGTCGGT
GTTGGCGCTGTCGTTGCTGCTTTTTGTTGATGTTGTTGCTGTCGTTGGTG
TTGTCGGTGTTGCTGAATGTTTCTGATGCTAGCTCATCGCCCCGTATATT
ATCAGTCTTAAACGTGGTCACTAAAGTGCCTAGCAGTGGTTGCGGAAAAC
ATCCGTGTCAACGCAACAAGTAACAACGTACTGAGTAACGTGTTCTGACT
GACAAAATGCCGCCCGAGGCATCCCTTCGACCACCACACCGCGTTCTCCC
GTCCCCTTTTCGAGTGTGCAACTGTACTGTAGTGTACGTGCATTCTACAT
GACGTGACATCTGGATCATGCGTTACCTCCGCACACATATCCCATGTGCA
CACACACAGCTATGCGCTGCGATACCCTGAACCCGACCCTCATTCTACTT
TGAGTTCATTGTGCACTGCTGTGGGACCTCAGGGGTTCTTACGCAAATGA
AACGATCCCCCGGTGTTGATATGGTGGTTTTTCACGTGGAAGTACCGTAA
CGGCTGAGAGCCCGCCGAAAAGGTTGTTATCTTTTGATTCGCGGAGTGTT
TGGAGCCTTCGGAGATCGTCTGTGCCCGGGCGTGTGAACGAACGCCTGGG
TGGAATGTGACTGCTTCAAGCACTATCACACCAGCGTGAGACACATGTCG
TGAGCATAAAACGGGAATCGTTGTGCACGGGGGTGCGCAACAGCATTGCA
CCATTACACCCCGCCAACACTTAAAAGACGGACGGGTGGCAACAATACTC
AGGAATCCGTGTTGATGCGTACTCGTACACAAAAAGATCTTCAGGTGATG
ACGTAAACTTGAAATACAGGTTATGCAGCACCTGTTGTTAACGTCATTCA
TCTAATGTTTTTTTTTTTTCGATTTCGGTTCTCAGAATATTTCATATTTC
ATGTAAAAACAATGCCCTTGTCACATGACATCATATCATCGTTGGACATC
TCTATTCATTTCGATCAATCTTCTTCAAAAGGAAAAGAAAAAACGTAAAC
GTAAACGCTATTTCCTTGCGGGGTACTGAACATTTCCACCCGCACACTTT
ATTTTTACCATACAGTAGCCCACCGCTGGAGACGATACCCTAAATCTCCC
ACACCGCTTATTTCACTGCAGGTGGGGGGCCCGGTCGGAGGCAGCACGTC
ATACGAGGTGTCGGGGATTGCTCGATGGTTGGAACCACTCTGCCCAGCCG
CTTGTTTCTTGACGCTGTTTTTCATCGTGGCCAAGTGCCTCACCAGGCTG
GTGGTGGGTCCGGGATGGACGGCGTTGCCCACGCCGTGGTTTTGGGCGGC
CATCGGGTAAGCCTTGCACGAGAACGTGCAGCGTGGGGGTATCCTTAGTA
CCGTCCGTAGGCGAGGTGGCATATCACCCCCCCCCCCCTCTATGGGGAAT
ATTTGAAGCTTGATTTTTTCCCATTCTCATGAGACAGACACAGCTAACAA
TGGTTGGTGTCTGGGAAGTATCTTGCCAAGAGCTGTCCAACCAATGCAGG
ATTGTTTGGTGTCGGTGGTTGTTGTGTCTGCGGACAAAGCATGCTTGCAA
GAGGATTGTTCCATGGCCGTGTATGTGATGAATAATTTTTAACCCATGGC
AGTAGATAGCACTGCAATGCAAGACGCTGGTTCTGGCATTTCCAAACGTT
ACGAAAATAGAAAAAGACAGCAGCACTGCTGCACAGACAACGTGCCGGTA
GGTGTGTCGTGTGATACGGGCGACGCTCATGATGAAAGCAATGTAGTCTG
GACATGATACTCGAGAGATTGGGGTGTAACTACAGTACGAAGTTTTACGC
AGACGACCGGGTGGACTGAGCGAGCAAGGAGAGCAGGGTCGTGATCAAGG
TTTGTCACAGGAAGACATGGTGCCCAACCGTTGTACGAAATAAGTCGTAG
GAAATACACGGAGAGGAATATCTGCTATCTTGTCTGTCTGCTGTGAACGA
TGAATGATACAGACAAAATGTGAACGTAGTAGTTCCATTTTTTTGTTTTT
CGATTTTTGTGGGGAAGAGCTCTGTGCATGTGCAACCAGTTCGTGAAGCG
AGGGTTAGAACATGAATGAGGGTGTTTATACATTTGAACGATGGTCCCTT
GTGAAGCTCGTAATCTGCGCGGTTCTAGCGGGTGTTTTCTCGCCCACTCC
TCGCCCTGCCTGCCTGCTGCTGCTGCTGCTCCCGCGGGTAAATTCCAGAC
AGAAGCTGGTCTTCAGCTACTTGTTTGGCTGCCCCACAGCGCACGTAGAG
TTTGGGCTCATGCAAATGTACATGTATCACACGTTTGTAAAATATAGCAC
GTCATTCGTTGCCTCCGTGCGAGAGCCGTTGAGTAGAAAAAACCGTACAT
TACACGAAATGCGGGTAAATTGGACTTCGTATGATGGAACAATTTATATT
CTTTTTTGCCTTAGTGCGAGCACGATGTACCTCCAAACCCCGTAGTTTTG
TACTGCCGTTGTCTCTACAGTATTTCAGTTCCTCCGGCCGTCGATCTTCC
GCTACATGTGTCCGTTTGCCCGTCGGTCTTTCGTTACCTGTGTCCATTCC
GTCGGTATATCGTTACCTCCGCCTGTCCGTCTTTCGTTACCTACGCCTGT
CCGTCACTCGTGACCTCCGTCGGCCCGTCTCCGCTACCTCCGTCCGTCCA
TTTTCGTTACCTCCGTCTGTCCGTCTTTTGTGACCTCCGCCCATCCGTCT
CCGCTACCTCCGTCTGTCCGTCTTTCGTTATCTCCGTCTGTCCGTCTTTC
GTGACCTCCGTCTGTCCGTCTTTTCGTGACCTCCGTCTGTCCGTCTTTTC
GTGACCTCCGCCTGTCTTGTCCGTCCGTCCGTCCATCCAACTTCTGTGCC
CTCCATCCTGTCGGCGGTTCGGTCTTGGCCCCTCTGGCCGTTTGCTGTCG
GTCGGCGCAATGCCAGGTGGAGCGCCGCTGCTTCGGCGATGGAGTTTCTT
CTTGCCACTGGTAAGCTACCGTGCATATGCTTACAGATCATGTATTAGTA
CATGACCACATCGCACGTATCCTTACACACACGAAGTACTTCATGTATTG
GGGAAAATGTGCCGAATATCCCCGCACAGCACGCATCCCGACACATACAT
GCTCGAAGCACGAAGTATATCGAAAGAATGTGCCAAACACTCCCCCCCGT
GTACTTGCTATTTTCCATTTTTTCACACCAGGTAGCACGTACGATACGTA
GTCCGTATGATAGATTCGAATAGCACCCCCCCCCTTCACGCACACACGAT
TGCGCACTGCTACATATAACGCGCCCTTTTTGCATGTCCGTGCCTGGCTG
CTGCGCAACAAGTGTTTTCTAGTTTCAACAGCGAACTGTACTCAATGTCT
GGCAATAGTTTTCCTGTCGTGTGTCGAGTGAAGGTGCGCACCGCGTCGAT
CGGCGTTCAATGTTCTGCCGCGAGGCTCATTATTTATTGGCAAAGTTATT
GACCCCGAGATCCAAACTCGTTCATTTACTTTCTTGTTTCCAGAGCAAGT
GCAACCCTTTCAATTGACACGGCGTTCGGGTGATGGCGTAGGGCGGTCTG
ACATGTTTTAGCCGGGACAAGGCGCCTTCCCTTCGAATCTGATCGTCTCT
CGTGATTGATGTGTACTGCTGCTTCTGTCGAACATAGAGCCGTGGGGGTG
TTCCTGTCATTCTATCGGACAATTTTCAAACTCAGACGTAAAAGAAGCCT
CGGCGAAATAGCGAAGAGCAAGAGGCATGGTAGCTCAAATGCAAATGTTT
AAAGTCAGACATAGTAGAAGAGAAGTGACTGGGTGGGGCAGCTCGGAGTT
TTTGGGGGGGGGGTGTGGTGATCTTATCGAATTGTATGATATGCTGTAGG
ATTTTTTTGACATGTATGCTGCAATGTGGGTACGAGCCTCGTATCTGGAG
CACCACCAGAGAGCATGTAACATACTGAAGACAAGAAACAAGAAGGTCCG
CTTGGTTCGATTCCCCTCCTGCGCAGCGCCTTTTCTAGATCTACAATCGC
GCCACAATAACAAAATAGGGAACGTTTTTTTGTTTCCTTTTCCTTTTCCT
TTTCCTTTTCCTTTTCTTCGTCCTCGTCCTCGTCCTCGTCCTTCTCCCCC
ACCGCCACCACCGCTATCACCACCACCACCACCACCACCACCACCACCAC
CACCACCATCACCACCGCCTTAACAAGTTCACAAAACGAGAGACGAAACG
AGACGGTACAGAAATATCTTCTTCTTATTTTTTTCTATTTTTTTTCCGCC
ACCACCATCATCATCACCACCACCACCACCACCACCACCACCCACCGCTC
TAACCAAACAACCAACCAACGCACTCACTCACTAGCTCGCTCGCTGACTC
GCGCTCTCGAAACCAAACCAACACAAGCAGGTTTCACGTCGACTTGTCGG
CGTTACTGTTTCCTCCACCTCTGCCGGGCGAGAGGAGATTACCAGTCGGC
CATGGAGGCGGGGTGGGACGGGACGGGGGCCGGCAAGAAAAACGGCGGCT
ACTCGGCGACGTTCGAGGACGTGCTGGCGCTCTGCGGAGAGGACTGGCGG
CTGATCCTGTGCGCGTTCGTGGCGCTGCTGCTTGCAGCGTTGTCGCAGGT
TTGGCTTGGGATATCGTTTGCCAGGAAAAAATTTTCGGGAGGGCACGGGG
GCGGGAAGAGGGCGGGGGGGGGGGGGCTGTGACCTGTGACAACCATAGTA
CTGTAGGTCGAGAGCCATCGCCGTAACTCTCTGTCGGTGTTTTGTTCGTT
TTCGGTATGATACTGCTGCGGCTGTTGGTCTTAAGTCGCTCGTACATACA
GATGGCTTGCTTCCCGAACCAACAAGGGTCAACAACACGCCTCATTGGGG
ACTTTCGAATGTTATCACACCCTGATGCTATCTGTCAATTTCTCTTTGTT
ACAGGCAGACGGTCCGTTGTCGCACGGCAGGTGCTGATCCCGCGCGTAGC
CGAAGACATCGGCATGCCTCTTTTCATTTTTTTTATCTTCTCTTGATTGC
AGACACCTTAAAACATATTTTTTCCATGCGATACGAAGTACATTTCGTGA
ATCTACGCGCTTCTTCAATACCTGTCTCCCCCAAAACGGAAACCTCACAG
GCCTGAAATTATTTTTTGTTATTATGACATAAGTATTACGAAGTACTTCG
TATTAACAAGGGGATTTTTTTGTCGACACACGGCTTGTGCTGCTGCAACA
CGCGGTACCAATTTTGGTATTTTATGAATCCATCCGCCACTGCTTGTGGG
GGATGCTGTCGGCGTATCGGTAAAAGTCTTGAAACATGATGGTGGTGGAA
CGCCGCCGGGGCGCAGGGCCGCTACAGCAGCAGTAGCAGCGAAGTGTCCA
TCGCCGTGTGACACCTGTTTTCATTATGTTATTATATAGGTGGCGTGGCG
TGGCGTGGCATGGCATGGCATGACATGACATGCCCCATGGCGCGACATGC
GACATGCGACATGCCACTGCTGAAATGCCCATGCATGCATACGATCACAT
CATGCCTCGGCACCGCACCCCCCAAGGCGCTTACCGTATCCCGCAGTCCA
ACGAAGGCATGAATTGATCGGTCGTTGTTGAACCCCCATCACATGCGTCA
CACATGCACGCACGAAATGAGATGCACGAAGTATGATGTAAAACCGCGGG
GCCAAGGTGCCCGGGGACGTTTGTTGCGCGTCAGCGGACACGATCGATTG
ATTGCCGCCATATCATATCATACCGTGGAGGTGACCTCCTAAGGCTTTGA
CGGACAACCGATTGTCAAAAGGCACGGATTTTGAAAAACAGAGAGGTCCC
TGACAATCACACTGGGTACCTCACACCGTCGGGAAATAGAACATCGGCGG
GTTGGCGCACACGGCGGTGGAAGGGTCTTCTCCACATACTATAAATGCAC
ATCACAGTACTACCTCCAATCTCCTTCAAGATTATTTCTTCAACAACTCT
AAAATCAACTTAAAAGAGCTCACTTGGCTTAAAATCTCACAGGTCTGTGT
TGCGGGGAGTACCAATCAATGCGGCGATACCAGCAGAAAACGCCATGGAG
CAGCTACGTGTGCGTCTGCACGTTCAGGCATGATGAAGGGGCTGAGATAT
CGAAGGCTGCAGCAGTGACTGAAAAGTTCCGCAACCTGGACCCGAACTGG
CCGAAACCAAAGGTTTGTTGTCACTGCTGCGAGCGCCGCCACAGACCCCA
ACCTCCTGAACTGCGGGTCTCCAGCAGTAGCTGGTGCCACCAACTACCTC
GGATGGCCTGCAGTTCAGGTGGTTGGAGTCTGTGGCGGCACTCGCAGCAG
TGACAACAAACCTTTGGTTTCGGCCCAGTTCAAGTTCAGTTTGCTTACTC
TTTTAGCCACTGCTGCAGCCTTCGATATCTCAGCCCCAGCATCATGCCTG
AGCGTGCCGACACAACACATGTCTAGCTTCTCCATGGTGTCCTCTACTGA
TTATCACCGCATTGGCGGGTTCTCCCCGCACCTCAGACCTTGTGGAGAGG
CCAAGCCGAATAAGCCGTTTTAACTTGATTCAAGTACAGACATCTGTCCT
TCGGGTCCGAAAACAAGATTTCTCCTCTCCTCAAGGTGTATTTTACTGCT
GTACCGCCCCTGTCCGCCCGCCCGCCCGCCCGCCCCCCCGTCAAAAGCTC
CACACATCTCCCCAACGTATGTTTAGGACGAGAGAGACGGTTCGCTCTTT
TCCACAGGCCAGTGGTTTTCATCTTTTGCATTCGTGTGATGAATACCCCC
CTCTATCCCTCCCCCCCAGGTGCTTATCCCGCACTTCACCGGAGACATGA
TCGACAATGTCGTCGAGCGGGGAGACAAGCCCGACTTCCATAGGTCCACG
GTGTTCCTCGTTCTGGCCGCATTCTCCTGCTCCGTTTTCTCTGGGATCCG
GTAAGTTTATTTATACTCCGAAGTAAGTAAGATGGCCTGTTCGTGCCCTG
ATAAAAAATATATATAACTGTCGGAGATGAGATGAGGTGCCTCGCGGTAC
CAGACCAGAGGCGCACTGCACTCCGCCCGCAAAAGCCTTCCACAAATATG
AAAACTCGACTTCCGATTCGGAGATGGTTGTCTTTGTTTTCTTTGGACCG
TTTACGGTTACGGAATGGAATTGACTCTCTCTCTCTCTCTCTCTCTCTCT
TTGTCTCTACTTAGACTCTACCTCCATTCTGAAAGATTGTTTCGAAACCA
TTTCCGGACTTCAGTGATTCTATCTCTCCCTCCCTCCCTCTATCTCTATC
TCTCTATCTATCTCTTTCTCTCTCTATTTCTTTTGCCGCCGCAACAGCTG
CTGTACCCACTCATGGCGTTGGTCTGGTCTATACGGTACTGTTACTTTGA
CGGGAATCGTTCCTCGTGCACACACCTCGACCAAGAGAAACGATTTTTTC
CAGGCTGCATGGTACATCTTCGTCGGGCCTTGGGGTTTCCCACACCATTG
GGATGCATTTTCACCGTCCTTTCTCCATTGTTGTTGTTGGTGTTAATGGT
CTAGATTACTATTTTTTCTTGTGGAAGTTTTGTGCTGACGGTACACACCA
GACCAAGGCGAGACGATGCTCCTTTCTCTGCCGCCGCATATACCCTCTCC
ATCACTTGCGGCAAGCTAGCCAGGCGCCTGCCAAGATCGCAAAACGAACG
TTTTCCCGCTGGCTGCTGCTTGTTTTTGTCTTTTTTTCTTTCTTGGGCTT
TTGGGGGGGTTTTCCACACTCACACCAGGGGCTGCATTTTTACCATCGTG
GGAGCGAGGGTCAACGTGCGGGTGCGGCAGCGTCTGTTCGAGTCCTTGGT
CAGGCAAGAGATCGGGTTCTTCGACACAACCAAGACTGGCGACCTCACCA
GCCGCCTCGCCTCCGACTGCACCAAGGTCGGGGATCAGGTCACGGTCAAC
GTCAACGTCTTCTTGAGGTGGGCGGGGTGGGATTTGGCTCGGCTCGGCTC
GGCCCGGCTCGTTGACCCCCGTGGCGGTGACGGACTCTCGTCTGGTGTGG
CGCACCTTTTTTTGTTCGTAGTGCTCACTGCCACGCCATGCTTGTACAGC
ACAGGTGGCAACAGGCCAGCCTGGCCTAATGCCGCCTGTTTTTGTTTTTT
ATCATGCTGGTGATTGCGCCGGCTTGCGGATAGAACTCTGAGAATAGTCG
TGGTGCTGCTGTGCCGGTTGGGTGACTCACACCCCCTGCCTTTTCCAATG
TTTTACTCCACGACGCATTGGGTTTTCTAAGAGCAACGTCATGGTGATGA
CGCTGGTTTGCGGACAGCACTCTGAGGACGATCGTGGTGCTGTGATGGTA
CCGCTGTGCCGGTTACATTGTACAGCACCTGTCGGTTCTTGACATTCTGC
TACAAAACACATCGGACAGGGCTCAACATACGAAACTCAATTTCAGAAAC
AATGCGGGATTGTTTTGCTCTGTCGCACTTTTTTTTTTTTTCCTCTCTCA
ACGTCCACCCATTTTTTATCACGTTCATATATACTTCGAAGGACACATCA
TATCCGAAGTATATATATTTGTTTTATGCCCTGGCCTTTTTTTTTTTACC
ACACTTGGATGTCACTAATACCTGGCAGTCAACAACACCACGCTTGGATC
GTATCAATATCTGATAATTAATAATGACAGAAATCTGGTCATGGTGGTGG
TGACCCTGCTGTTCATGTTCTACCTCTCGTGGCGGCTGTCGCTGGTGGCG
TTCATCTCTGTGCCCGCCATCGTGACGGTGTCCAAGATGTACGGCAATTA
CATCAGGAAGCTCTCCAAGCTCTCTCAGGTGAGGTGCTGATTCGACGCCC
GCGGGGAGCAGAGGGAGTGGTTCATGCTGCAGCATGTTCCTGTGGCAACT
TTCGGTACTGCTGTGGGAGAGGAGGGGAGGCAGGGAGTAGTCCATGCATG
CATGCTCCTGTGGCAACTGTCAGTACTGCTGTGGGGGGCAACAGCAGCAA
GCGTAACAGCAATACTGACTGCTGCTGCTGCTGCTGTCGTGGCAAGAATT
TGATATTTTACCGTCAGGGGCACATGCTCCGGAGTGCGTGTTTTCGGCCA
GCGTTTTTGGTGTGGCGCAACAGCAGCAGCAGCAGCAGCAGCAGCAGCAG
TACCGGTACCGGTACCAAAAACAACAGAGAGATGCAGCAGCAGCAACAAC
AAAACAAGTGCCAAGTTTGCGGCAGGCTTTTACTTGTGTGAGATGCAACA
GCGGGAGCAGCAGGGGCAACAACAGAGAGACAAAACAACGATAACAACAA
CAATGAGTCGCGGCTGCGGTATGCAGTGTACCGGGCCAAACTCCGTACGT
GCTCCGGACTTCGGTATAACTTTCTTTGTTTTACTTTATGCAGGGTTGAA
AAACCATTTCCCATGTATGTTGACCTTGTTCCCGTCTGTAGTGACCCCGG
CTGGTTCGCCCAACTTACTCCTGAAGAGTGTGCGGTGGCGGCCAGAACAG
ATGGGAAGACAACACACACGAACCCCTGGTACAAACAGGATGCCAACAGC
TAACAGCAGCAACAAAACAGCAACAACCTGAGCCCGTTGTCTTGGACCAG
CGGCAACCTCGGCACGCAACAGCGCGAAGAATCATTCGGTCTTGAAACTA
GGGGCGGCTGCTTATCTGGACGCCATGCGGCATTTACATTGCGACTTGTC
TTGTACACCGGTGACGGCTATCATACAAGTGTGAAACAACTTAAGTACCA
GAAGTACTGAATCGGTAACGTCTACGGTACGGCATTCGCACCCAGGACAA
ACTGGCGGAAGCGGGGTCGGTGGCGGAGGAGAGCCTCGGAAGCATGAGCA
CGGTCAGGTCCTTCGCAGCGGAAGGGAGGGAGAGCAGGGCGTACGCCAGC
AAGCTGAACGAGTGAGTGGGATTGGCCAACAAGAGGCACGCATGCCGTTA
CCCTCTGCGCCGATGTTTGCTTTCTGAATGTTATTTCCGTCATTTCCTTG
TGTTTATCTCGCCCTACAGCAGTCGTAGTCCTCCCGCAATTCTTCGCTCG
AGTGGAAGAAATCGACAACAAGCATCATCCCGCACCCTGCTGCCTGTGTC
GATGTCCTACTTGCTTTCATTTCTGTCCCTTTTTTTTTTTTCTTACCTTT
ATCGTATGATACGACACAGCAGACAGTTAGCTGCAAAGTATGATTGATAC
CCGTATTATTCCTTCCGTACTTCCATGATTTTGACCCAAAACAGCAGCGG
TCCCTGTCATCGTGGGGGCGTGTGACGTCACACGTGCGTGTGGGTGTGGG
TGTGGGTGCTGTTTGCTGTCATCCCATTTCTTCTGGACACCAGTCTAGTC
TTCACCATTCGGCATGAGTGGGAGTCTACACCATTCGGCCATGAGTGGGC
GCGCCAGCCGGTGTTGGTCACACCGGAGGGTGGATGAAGGTCAACACAGA
TCTATATATATATATAGATATATTGGATTACTTCAGTGTAATATTTAATC
TTTCTTCCTGCCTCTGCGATGCCTGTCTTAGTTGTTATCATTGATTTTGT
TATGGCGAGAAAAGAACTAGGGTTGGATGTTCGGCCATCCCTTTTCCCTC
GTCTGGACTTGTTTGATTCAAGTCGACTTTGTGTACCTGTATACTCACGA
AATAAATCGCCCTCCACCCCAGAGGGTGTCCACAAGCAAAGGTGACTAAC
AGAGAACCTCATTGGTATTATACGTGGGTGAAGTGACTACAACCCCGATG
ATCGGGTTTCGATCTCACGACCTACATGAGTGTCAGTGGGCGTGTCGAGG
TTACAGTACCCGTCGAACCACCGTGGGTTTTTTTGGGGCGCCGGGGATAG
CCGGACTGGGCCGAGCAACCCGCCTCTAGCTCCGGCACCCAGGATTAGGG
CCTGACCTTTTATCCTAGCGATTCTTGTAACATAAATGTCCCTCTGCATA
TGCCGCATATGCTAGCATGATCACCAACCGTCTGTGAGCAGAAATCGAGC
ATGGTTCGCCCCGTTTTTCGAGCATAGATGAGCAGAAATGATCTATGTAG
CATATGATAAAATAATAGGCGCAAGTAGCATAAATTTCAGAAAAAAAAAA
AAGGATTAAAGGGTCAGGTCCTACCCAGGAGGGAACCAGGAGGGCCGTGC
GATCCCGTAGACGTTGGAACTTGAAGCGTTGACGGTGTGGAAGCTTCCCC
GCAAGCTCGCGCCGAACTAGCTCCAGGATGCTGTGGAAGGAGCTGTCGGA
AAGGCAGAGCTTGGCGGAGCGACTCGGACAGCCCAGCCGGGCGGGCGGGC
GGGAGGGGGTCCAGACGAGCACTCCCACGGCGACGGCAAAGCGCCTCCAA
GTGGCTCACGAGGGACTTTATTATTCGTCGCGAAAATTCGCGCACGGACA
CGCAGGTCATTTGGCGTGTCGCCGTGGCGGTGGGTGTGCTAGCTCGTCTT
GGCCCTCCCGCTGGACTGTCCAAGCTTCTCCGCCAAGCTCTGCCTTTCGT
TCGGCGTGGGCTTGCGGGAGCTTGCGGGAGCTTGCGGGAGCCTCCGCCGT
CGACGCTTCCAACGTCTACGGAATCTTACGACCCTCCTGGCTCCCTCTTG
GGCAAGGCCGGTGGTATCGCTGAAGTCAGAATCACGAGCCCCCGTTTGAC
TATACACAATTGTGTTACATCACGCAAAACAGGCGATTTCATCAGGTCCC
ACCTGCGTGCTGTCTCTTGAACTTGCTGTCTCTTGAATTGAGTTGAGTTG
TGGCCTCTCTTAGCTGCCTCTTACCTCCCCCTGCTCCTCGATTTTTTCTT
CGACCCCCCTCCGTCCCCCCGTGTTCCTCTGATATCACGTCTGTCATGGA
CACAACTCTCTCTCTCTCTCCCTCTCTCTCTGTCTCTCTCTCTCTCTCTC
TCTCTCTCGCTCTCTCTCGCTCTCTCTCTCTCTCGCTCTTTATCTCGCTC
TTTATCTCGCTTTCTCTCTTTCTCTCTCATCTCACACACCCACACACCCC
ATCCCCCATCCCCAATGCCCGCCCACATCCACAACCCTCACTTGCAACCC
ACCCCACTCCACCCCGCCCCGCCTTACCCACCCCCCCACCCCCCCAACCT
CTACACCCCCACCCCCCACCGCCATTTCCGCCGCAGTTACTATGTGCTCT
CGAAGCGGGGAGGGTACGCGTACGGGCTGTACGCGTCGAGCTTCGTGCTG
CTGCCGAACCTCGTGACGGCCGTGGTCCTGTTCTACGGCGGTCAGCTCGT
GATGGAGGGCCAGGTGACGGGGGGAAGGGTCGTCAGCTTCATGATCTACC
TCACCTCTCTGTCGGACGGTTTCAACGACATGGCCTCCATATTTTCCTCC
ATGTAAGTTGGTTGGTTGCATGATCAAGGCTCTCATTGGATTGCATGCAA
GTATATGTTTTGCTTGTGTGAGGGGGCGTGAAAGGTGCAGTGGCTGTGAC
TGTGGCTGTGGCTGTGGCGATGGCTTCGTGGATGGTTTATTTTATTTTTT
TTGTTTTTGTGTGTTGAGATACTGAGCTGGGCTCTTGCTTCGATGGCATG
CTCTCCGTATTTTCCTCCGTGTTGTGTCAGGTGTTTGCTGTTTCGTTTCT
CTTGCGTGCGTGTGGCTGTGTCTGTCTTGTGTGTATGTGTGTGTTTTTCA
TGGGTTTCGAGACTGTTGGTTTCCATGAACGACAGCGCCGTGGCTTCCGT
ATTTGAATTTTCCTCCGTTTTTTTTTTTTTTATGAACCCTGAGTATGTAT
GTGTCCTTTGGGCCATGTGCTTCATTGCATCTCGTCCTTTTCTTTTCCTT
GTTCCTTTTTTTTGTGTGAGTCTCGAGGCCTTGGTTCGCTTTTTTGATCT
CCCATTTGTTTCGCACGTCGGTAAGATAACTCGGCGTTAATCCCGACCAT
CAAGGAATAAAATCTCACCATCCTAGTCATGGCACCACATCCGATGCACA
CACGCACACACAGACCCCCACAACCACACAGACACACCCCTACACACCTG
TATACGCACACACACACACACACACACGCACACACGGACACCCACCCTCA
CACACACACGGACACCCACCCTCACACACACACACACACGGACACACACA
CGCTCACACACATACACATATACTGCACACACAGGACGCAAGCGGTAGGA
GCAGCCGACAAGGTGTTCGAGCTGATAAACCGAGAGCCTCGAGGCGCGAA
ACCATCGGCGGCATCCCCTCCTCGTGCTTCCGAGATCGGGATGCTGTCGG
ACCCAGAGGCAGCGGCGGCGGCAGCAGTAGCAGCAGCGCCAGTGGGAGAA
GCACCGGACGCGTGTCTCGGAGCGGTGGAGCTGAGGGGCGTGGACTTCGA
ATACCCTTCCAGGCAAGCGTAAACATATCCATTTACACAGCAGTACAGCA
GTGGATAGGAGTTGTATCGAAGTACGTACATGCATGGACAAGTTATTGCT
GTGATTGGGCTGAAAAATTCCAAATTCGATTCGAGACAAGAGCTCTCGCA
ACTTTCAGAAGCCTCGGCACAGCAGCAGAAGTATTTGGACCCGGGTTTGT
GCAGAAGATTTTGCTTTTGCTGGGCCTGAATATTTCGAAGATAAAACATG
TCGCTCGACAAGAGAGTATTAACGATGATAAAGGTTGAAATGGAAAACTT
TTTTTCGTGACGAAAACAAAAACGCACGGTGAATCGTTATTAGGTTTCAC
CGGAATTTCGATTTAGTTTGCGAAAACGGTTATATCCTTGTAGGGGCCGG
CGATACGTAAAGAGCTAGGTACCTTCCGGTTCGCCTTAACATCACACACA
CATTGAAAAAAAAAAAAAGGATTACCTGGTAATTGGTTACAAAGTACCGT
AGAGAGACCGAGCTCGTTTATTTTCATGTGTACATGTGTGTAGAAAGATG
ATGCGACAGACACACACCACTGCTGTAGATGAGCCAGATCGCCAGCACAA
AGAGTCTTCTGGCTGCCGTAGAAGTGGAGGGTATCGGACCAGTCGAACGA
CAGCCGCAAGACTCATCATAGTGTTGGCTCATCTAAAGCAGCAGCGGCAG
CAGCAGCAGCAGCGGTGTGCACGGTTGGTGTGGTGCCTGCTGTGTTATTG
CTAGCACTGGGACAGAGCTCTGTCTGGACAGAGCAACACACGCACAACGA
TGATGAGTCTGCCGACTGTCGGAGTAGCGGAGGGTGCCGGGTCAGGCGAA
GGACACATCGGAAGATTCATCATTGTGTCATCTTAGCTCTCCTACATACC
CAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGTAATGTGTTGCGTG
TGGTTTGCTCCGTCACAGCAGTAGCGTGTGCGTGTTGAGTGCGTGACCAG
GCGACGACAAGGCGAAAAACATGGCCATCGTCTGCCACAGCAGCAGCAGC
AGCTTGATCCGCATACTCCCCAGTATTGTGTGCGCCGTAGCGCCGAGTAG
TCGGAGCATTTGCCTTCTCTCTGGTGGCGTCGCGTTAAAGTAGTCTCCCT
ATAGACTCCTCCATAGCTCATACGCCTGTGTCTTGGCTCGGTGCTTTGCC
ATCATCGACCGACAGCAGTTGGTTGTGACCACAATCGCGAGCCGCGGGCA
CACCCGGTTCGGATGACTGCCGGGCTGATTCGACCAATGACATCGTGCTT
GCTTGCTTGCTTGCTTGCTTGCATTCCTCCGTGCCATGATTGCTGTCTTG
TCCCCACGGCGACGGCGGCGATTTCTCCAACAGACCAGGAAGGAGGATTC
TGGACGGGGTCAGCTTCAACGCCACGTCCGGACAGGTAAACCTTCACCTA
TCCGACTGGTCTCTAGTTCGGGTTGGTCTTTTTCGGGTCAAGCAAACAAG
CCTTGATATGAAAGTGAAGCCGACCGGGAGGAGTTTGTAGCACTTGGACG
TTTTCTGTTGATTGGTTGGGGAGGGGTTCGTGTGACAATGCCCTGCCCTG
CCCCCCAACCGGCGCACAAACCCCCTCTCATCTCGCTTTAGTTTGTTTCC
TCCTAGCACGATATTGTCCTGGTTTGTGGCCACGGGCTGTCTCTAGGGGA
AAAGATCGTGTGAGATTCAACAGCAACAGATAATTGACTCTGTCTCTTTA
GGGCTGACTATCGTGTGATAATCAACAGCAACAAATCATTGACCCTGTCT
CCACAGAAGGGGTCAAGTCAAGCTCGTGTATGAGAATCAACAGCAACAAC
AAACCGTTGACTTTTGTGATCTTGTTTGCTTGCACAGGTGTTGGCGTTGG
TTGGTCCCTCCGGAGGGGGCAAGAGTTCGTGCATCGCGCTCTTGGAAAAC
CTTTACCAACCGTCGAGAGGCCAGGTGATGCTAGACGGCCTCGAGGTGCA
CAAATACGACCACCAGTGGCTGCACCGGAACATCTCCATCGTGGGCCAGG
AGCCGACCCTGTACGCCCGCAGCATACGGGAGAACATCATCTATGGCCTC
GAAGGTGTGTGTGTGTGCGTGTTGTTGTTGTTGTTGTTGTTGTGGTTTTG
GCTGTTGTTGCTGTTGTGGTTTTGGCTGTTGTTGCTGCTGTTTTGGCTGT
TGTTGCTGTTGTGGTTTTGGCTGTTGTTGCTGCTGTTTTGGCTGTTGTTG
CTGTTGTTGTTGTGGTTTTGGCTGTTGTTGCTGTTGTTGTGGTTTTGTCA
ACTACTGGCACTGCACGTCTTCAACTTCAACTTAATTCAATTCGTGTGCC
TGTCCATGATACGCCGCTTCCGCCTGCGACCATTGCTCTGAGACATCTAG
ATTTTCCCCGTTTTGATTTTTGCAATTATCGGTACTGCACACCTTTGAAC
TGTACCAAAATGCCGATTCAACTTTGTGTGTTTGTGTGTGCGTCCGCAGG
TGAAGAGCCCAGTTACGCGGAGGTAGAAAAGGCGGCGAAGCTGGCTAACG
CCCACACCTTCATCTCGCATCTACCGGACAAGTACGACACCCAGGCGGGG
GAGCGGGGGGTGCAGATGTCCGGGGGGCAAAAGCAGAGAATTGCCATCGC
TAGGGCCTTGGTGAGGAGGGACTGATGACGACGAGGATGTTGATTGTAAT
GTGTACATACCTCAGGTGGGTATGTTCGGGGGGCTGAAGCAAAGAACAGC
CATCGCTAGGGCCTTTTGGCAGGTGGATACTTGTGGTCGAGGTGATGGTG
ATGGTGATGATGATGATGATGATGATGATGGTGATGGTGATGGTGATGGT
GATGGTGATGGTGATGGTGATGGTGATGGTGATGATGATGATGATGATGA
TGATGATGATGATGATGAACATGTACCAAATTGACGTACGTTTTTAAGAC
TGTTGAAGTGACACCATGAAGTTGCCTCTCGCTCTCGAAACGAACGGGGT
ATTTACGGGGTGTTTCAACCCCCCATTAAACAGCAGCAGCAGCAGTGAGA
GTTTGTGCATCCGTTGTTCGTTGTTCCAGTCTATTTTTGTTCATCGGTAT
TTCATTCGGGGTGTTTCAAGCTCCGCACGACAGCAGCAGCTGTGAGAGTT
TCGTGCATTCGTTTGTTCCTGTCTACTTTTGTGTGCGATGATAGGCATGT
TCGTTTCCAAAGGTTTCTTCTAGGTCTTTTTTTTGCTACCGAAACATCAG
CAGAAGGACGGTGGAGACAGACAGAAAAACCTCCTGTGCTGAGAAGTACC
GAAATGACAAGATCATGACGAGAAATCGCGTTCGGTGAAAGCCTCCGATA
CACGCGGAGGAACCTTCGGATGTCAGTTCTTCTGAGCACTCCCTCGAAGC
GTGCAGCTTAGGTCGTGCTTGGAATTTTAGTTCCTCTGCTTCTGTACCGA
ACAGCGAAAGGTTGTTGTTGTGGTGATATGATGGTGAACCCATCCCCGCC
GTCCTCGCCGTCGCCCCCTCCCCCCGCCCTCCCCTCCCCCCATTTTCATT
AATTGTTTGACTTGCTGCTCTGTATGCAGGTGCGCAAGCCAAAGGTGCTC
CTGCTCGACGAGGCCACCAGGTACTGCTTGGTTTGTTTCTCATGTCGCGT
GCTTTTTAAATCGGGGTGTGCCGGCCGAGTCGATAGACAGATACGGTTCA
TGTTTGTTACACTGCTTGTGTCTGGCTCTCGTTCTAAATTAGCGGGCACA
CATGAAACTTGGTACATGTGGTGATTGCAACACAGCGTTTTTTGTATCTC
GTTGCGGTGGGTACAAGTTTGGGAAAATCCGTCGAATCGAGGTCTTGGTC
CTGCTTTGGGGTATCATATACTTCAAGTATCAAATACTCCGGAGTAGTGT
CTTTTTTTGGGGGAGTTTAGTCGAACCTGTGCAACATTGTACGTGCTCGT
TTTTATTCCCTTTTTATTTTTCCGTGTGCCGCGGCGCGTTGATCTTTTTC
TTTCATCTCTACACCCGCCTCCTTCTTTTTTTGGGTCGTTGGTCGTTATC
ATAGCCCGCCGACTTTTTTGTTTTTCTTGTGCAATTATTCTTCAAGCTTT
CCTTGAATATTCATTTGACCCTTAACCCCCCCCCCCCCCTCCCCCTCCTC
CCCCTCCTCCTTTTCCAATCCGTTTGTCGACTGCATTTCACAATGGTCAC
AATCCCTTTATCTACCTCTTCAACCTCGACCAATCCGAAACCAGTGCGTT
AGACGCGGAGAGCGAGCACTTGGTGCAGCAGGCGATCGACAACATGATAT
CTCGAGGGGGAATGACGGTGATATTGATCGCGCACCGGCTGAGCACGGTG
AAGCGGGCGGACAAAATCGTCGTCATCCGGAGCGGAAGGGTAAATACTTT
CTTCGTACTCCTTATTGTTTGTGTGTGTGCGTGTTGTTGTTTTTGTTGTT
TTAGTTGTTGTTGTTGTTGTTGTTGTCAATTATCACATTTCACTCACCAC
CAAGTCTGGCCCGTGGTCACAAAGGAGGAACAGCACGCAGGGGAGTGTGT
GAACGGAGTACGATATGTGTGTTTGCGTGCGTGTTTCTGCGCGCGTGTCT
GCGAGTCTGTGTTTTCGTATTGACTTCCCATCTGTTCTGAACGCCGGCTG
AGGCTGCACATCTTTCGGCCGGGGTCACACAGCAAGCAGTCCCGTACTGC
TGTATGGTAGTGTTTTTTTGGTTTTTTAGTTTTGTCCTCCTTTTTTTTCG
GAGGTTATCTGGTGCTGCCTTCGTTCCTATGGCGACGACGGTTCGGCCGT
CCCTCTACGTCGTCGACGTTTGGGCCTGGTCTTATTATTTTTGCTCACGA
GATAATTAGTTTTCGTTTTCAACTGCCACGGTCGGAAGGTATCACATGCT
TTGTGACTACGAAGAAAAAGTTCCTGTTCGTGTGGCTCCACAGAGAGGAG
ACTCGATCTCACGAACTGCTTACTGCTGTTAGGTGCATGGTTATTATTGT
ATTATTTCGACGTGATACTTTCGTGTATGATACCTTACTTATAACGTGCA
CGACGTACGAAGTACTGAGTATTATTTTTTCCCAGCTTTCGTCCTCGGAC
TCCCTCGTTGTTCATCACGGTGTTGATGTTCCTTTTTTGCGCGTTGTGAA
GACGGGTCCATGAAAATGCGCCGGAAATATGGATGGATGAGCGTGTGCGT
TGTCATCCCACCTGTTCTTGACGCCAGCCTATCACAGTCAACGCCTTTTC
GGTGTGAGTTGGGCCCACCGGCCGGGGTCACAACAGACAGGAGTTTTTTT
TTTTGTGTATATTCGCAGTACCTGGCCTTATTTGGCATGTATCTTTTAGC
CGTTGGATCGGGTGTTATTTCAGGTTTTTCCTGTACGTATGACAGGAGGT
ATGTATAAACAGCAGTCGGTTTACCCACGGAAGCCGTTTCTGACCAACAA
CAACTTTTTTGGCAAACATGAAACAAACAACAAATGTCGGTTCAGGTGGC
CGAAGAAGGAACTCACGACGAGCTCGTCTCCGCGAAGGACGGCGTGTACG
CTGGGCTCGTGAAGCGGCAACTGGACCTCGGCGACCACAACGGTGGTAGA
GCGCGGAAAAAAGGCCAGGGGACTGGCGACACAACCCCCGAGGTGGTGCG
CTGAAAGAGGGTTTTAAGTCTGCCGTTCCGTCGGGCCGTGTCACATATCC
TTCTCCCTGAAAGCACTCTGTGGACAGTAGTCTGGCAGTACAGCAGTAGG
AACGGTGTGTGGAGTGGGGAGCGGCGCGGGTCGGGGGGACCAGGGATACG
CAGCAGCGCAGGAAAGTGGCGCGTGCGCTCGAAGTGGGCCTAAGTGTGCC
GTCCGAGAGCGAGACCAAGACCGTGACCGTCCGACGAGTCATACGTTCCA
CCTACACGCTGACCGTTGTGCACAGGACCGACGACGGTGACGACATGCCT
GCATGCCTGCGTACATGGCGGAAGTCCCGGTTGGGGGGACTGCTGTGTTT
TTTTTTTCACAGCTCGATGTGCGTGTTTTTTTCTGTTGTAACTTCGAAGT
ATATCGACAAGGCATCACCTGATGCGAGCAACAGAGCAAAAAATCTGTCG
TTTTTGTCGAAAGAGGGTGATTTTATTGGTGAACGTGGCGGTTGGTGTCC
GCGAAGGCCCCGCCGAGAACTTTCTCACTCAAAAGCACATCGTTTGGACC
GGCACCCCGCCGTCTTTTGTTGCATATCGGCACCCACCCTTTTTATGTTG
CGGGGGAGCACCGTCATCGAGCGTCGAAAGCAAAAAAAACGACTCCAAGG
GCGGGCGGGGGGGGTTGAATACACAGCGTTCGTAGTGGGGCTACGAAAAT
CGGCCGCAAGCGGGGCTCAGGCGGGGGCGGGGTGCTTCAAGCCCGGGAAT
ACCGGACGCTTCCCCCCCCCCCCAGCGGAAAGGAGGTTGTCTGTTGTGCT
GGTGAGCCATCGCTCGGCACCGATACTGCTTGTTTGCGTATTTTCAGCAG
TTGTAGGGCTCGGAGAAGTGGTCGTCGGTCGTCACGCATCATCTGATCGA
TCATACGCAATGGTTTTCGTGTGTGCGATTTGAAGCCGGGGATTTTCGCC
CCCCCCCGAGGATAAGATTTTAACTCCGCTGTCCGGGAGTAGAAGAGAGT
GTTGCCACACCTTGGTCGATTCAAATCTGCTGCTGCTGCTGCTGCTGCGC
TGTGGGTCGCGGGGTAGGATAGCGTTGATTATACTTGCGGGGGCGCCGCG
TGTGTAGTGCTTACAGCAGTCCCCCCCCCCCCCCCCGATTTTGATTTTAG
GGAGGGTGTCTAAAGGTAAACGGAGGTTTTATGAAGGCCCGTTTTTCCTG
GCATGAAGTGAATTACAAAGTATACAGTTTCGTATTCGACCGAAAGATTT
TATGCCCAGAAGCTCATAACGCAATATCATGCCAGGCATATGTTGTGTGT
GTGTATTGAGTGATCTATCATGAACGATCTCATTTCAGAGTGTGCGAGTT
GGCTGGAGGATAGACATATATATAAACAGTTTCGCCATTTGTGGCCCCGC
GGTGCTGCGCTCGAACACACCTGAAAAATGAATGTCGGAAGGAGGGTGTA
CGTAAAGACTGGCGTCGAAAATAGATGGGGTAAGTAACCGAAACACCGAA
ACACACGAGGGTGGCTGGAAAGGATCTAGGTGAGAGGGAGTGTGTGACCC
CGGGGGTGTAGTGGGGGGGGGGGCGGGGGCTACTAGGTTGTGTGTCGCAG
TTTACATGTCATGCACGGAAAGGCGAGATTCGTGACGAAAGTGATTTTTG
TAATTTGGGGTACATTGGAGTGGGATGCGTTTTATTTTTGACTCGAGAGT
GCTGAAATCATGGGGCGGGAGGAGTCATTTACTTGTCAGAGGTGTGTCGT
ATATAGGCAAGCGTTCTATTGTACCTTGTATCCAGGGGTATCTGGGGAAA
CAGACGCGATAAGTCCGGTCGTGACGTCGTCGGCGATGCGTTTCGGGAAG
TCAAGGGAACCAGGGCCCGCTTGCGCTACTGCTGCTAATGCTACTGTGGA
AGGAGGCATGCGTACCGATATTTGTACCGTGAACAAAGCTTCGTGGCCTG
TCGGGGACATGCTAGTACCATCCCCGGTTTTCCGCCGCCTGGTGCATCAT
TACGGCCCGCAACGTTCCTGTTGGAGCGTGAACGAAAGCGGTGGCACGCT
TGGAAGCCCTTGCTTTCAAGGGGGGGGTAAAGGACATAAACAAAAACGTT
TTAACACCGAGGAGTAGTAGCAGTGCAGGTGATGGAAAACCGTACTCCAG
GAGGCTTTCGTGATTATGATGAGGAGTCAAGTTGACGGGGTGGGTGCAGT
CGTGATGATTTAATGGTGGTGTCGTGATTATAATTAATGCGTGAACGCTC
TTCTTTTGCTGTTTGCTCGCTTGGAACTCCCCCACGATCCTGGAGTAAAA
GTGTATTATCTAATCTTTTTGGCGCTTCAACTGAATGAAGTGGGAGCTGT
GTGCACAAGATTTGATGAATAGCATTTTCGCCCAGCAACATTCCTCGTGA
AGACGCC
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Coding sequence (CDS) from alignment at P-littoralis_Contig202:190087..215293-

>mRNA_P-littoralis_Contig202.50.1 ID=mRNA_P-littoralis_Contig202.50.1|Name=mRNA_P-littoralis_Contig202.50.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2850bp|location=Sequence derived from alignment at P-littoralis_Contig202:190087..215293- (Pylaiella littoralis U1_48)
ATGATCTCGATGGAAATGGACGATGATGGCCGGACCCCTCTTCTGCCGCG
GGATGGGCGGCAGCAACAGCAGGAAATCAAGCTGCCGACCGGAAAGCTGG
CTGCTCACGGCATACTTTTGGCCTGCTGCACGCTCATGGACATTGCTATC
TGCACCTTTTTGGCCACGGGCGGCTTCTGCGAGGACTGGCGACGGCGTCT
CGGGCTAGGCCACGGAAACTACCCCTTCGGCTCGGCTGGCTTCGACCTCT
TGCTACTGGGAATTCTGCGACACACGGTTGCTGTTGGGGGGTGCCTGGCG
TTCTTCTTCGCTCTCAAGCGGAGCACCACGCTTCGCCTGGTGGCAGAGTC
CGTCGCTCAGCAGGACTACTACTCGAGAACCACGGCGGCAGCGACGCAAG
CGCGCGAGCAGTTCTTCAAGTGGGCGTGCGCCTCGCGGGCCTGGCGGGGT
GTGAAGCACAGCTTGATCGGGGACCCGGAGGACGGGGAGGAGGCGGAGCC
TGCGGTGGAAGTGGGGTCGAGCATCCAGGTGGGGGGCCCGGTCGGAGGCA
GCACGTCATACGAGGTGTCGGGGATTGCTCGATGGTTGGAACCACTCTGC
CCAGCCGCTTGTTTCTTGACGCTGTTTTTCATCGTGGCCAAGTGCCTCAC
CAGGCTGGTGGTGGGTCCGGGATGGACGGCGTTGCCCACGCCGTGGTTTT
GGGCGGCCATCGGGTGGAGCGCCGCTGCTTCGGCGATGGAGTTTCTTCTT
GCCACTGGTTTCACGTCGACTTGTCGGCGTTACTGTTTCCTCCACCTCTG
CCGGGCGAGAGGAGATTACCAGTCGGCCATGGAGGCGGGGTGGGACGGGA
CGGGGGCCGGCAAGAAAAACGGCGGCTACTCGGCGACGTTCGAGGACGTG
CTGGCGCTCTGCGGAGAGGACTGGCGGCTGATCCTGTGCGCGTTCGTGGC
GCTGCTGCTTGCAGCGTTGTCGCAGGTGCTTATCCCGCACTTCACCGGAG
ACATGATCGACAATGTCGTCGAGCGGGGAGACAAGCCCGACTTCCATAGG
TCCACGGTGTTCCTCGTTCTGGCCGCATTCTCCTGCTCCGTTTTCTCTGG
GATCCGGGGCTGCATTTTTACCATCGTGGGAGCGAGGGTCAACGTGCGGG
TGCGGCAGCGTCTGTTCGAGTCCTTGGTCAGGCAAGAGATCGGGTTCTTC
GACACAACCAAGACTGGCGACCTCACCAGCCGCCTCGCCTCCGACTGCAC
CAAGGTCGGGGATCAGGTCACGGTCAACGTCAACGTCTTCTTGAGAAATC
TGGTCATGGTGGTGGTGACCCTGCTGTTCATGTTCTACCTCTCGTGGCGG
CTGTCGCTGGTGGCGTTCATCTCTGTGCCCGCCATCGTGACGGTGTCCAA
GATGTACGGCAATTACATCAGGAAGCTCTCCAAGCTCTCTCAGGACAAAC
TGGCGGAAGCGGGGTCGGTGGCGGAGGAGAGCCTCGGAAGCATGAGCACG
GTCAGGTCCTTCGCAGCGGAAGGGAGGGAGAGCAGGGCGTACGCCAGCAA
GCTGAACGAAAATCGACAACAAGCATCATCCCGCACCCTGCTGCCTGTGT
CGATGTCCTACTTGCTTTCATTTCTTTACTATGTGCTCTCGAAGCGGGGA
GGGTACGCGTACGGGCTGTACGCGTCGAGCTTCGTGCTGCTGCCGAACCT
CGTGACGGCCGTGGTCCTGTTCTACGGCGGTCAGCTCGTGATGGAGGGCC
AGGTGACGGGGGGAAGGGTCGTCAGCTTCATGATCTACCTCACCTCTCTG
TCGGACGGTTTCAACGACATGGCCTCCATATTTTCCTCCATGACGCAAGC
GGTAGGAGCAGCCGACAAGGTGTTCGAGCTGATAAACCGAGAGCCTCGAG
GCGCGAAACCATCGGCGGCATCCCCTCCTCGTGCTTCCGAGATCGGGATG
CTGTCGGACCCAGAGGCAGCGGCGGCGGCAGCAGTAGCAGCAGCGCCAGT
GGGAGAAGCACCGGACGCGTGTCTCGGAGCGGTGGAGCTGAGGGGCGTGG
ACTTCGAATACCCTTCCAGGCAAGCACCAGGAAGGAGGATTCTGGACGGG
GTCAGCTTCAACGCCACGTCCGGACAGGTGTTGGCGTTGGTTGGTCCCTC
CGGAGGGGGCAAGAGTTCGTGCATCGCGCTCTTGGAAAACCTTTACCAAC
CGTCGAGAGGCCAGGTGATGCTAGACGGCCTCGAGGTGCACAAATACGAC
CACCAGTGGCTGCACCGGAACATCTCCATCGTGGGCCAGGAGCCGACCCT
GTACGCCCGCAGCATACGGGAGAACATCATCTATGGCCTCGAAGGTGAAG
AGCCCAGTTACGCGGAGGTAGAAAAGGCGGCGAAGCTGGCTAACGCCCAC
ACCTTCATCTCGCATCTACCGGACAAGTACGACACCCAGGCGGGGGAGCG
GGGGGTGCAGATGTCCGGGGGGCAAAAGCAGAGAATTGCCATCGCTAGGG
CCTTGGTGCGCAAGCCAAAGGTGCTCCTGCTCGACGAGGCCACCAGTGCG
TTAGACGCGGAGAGCGAGCACTTGGTGCAGCAGGCGATCGACAACATGAT
ATCTCGAGGGGGAATGACGGTGATATTGATCGCGCACCGGCTGAGCACGG
TGAAGCGGGCGGACAAAATCGTCGTCATCCGGAGCGGAAGGGTGGCCGAA
GAAGGAACTCACGACGAGCTCGTCTCCGCGAAGGACGGCGTGTACGCTGG
GCTCGTGAAGCGGCAACTGGACCTCGGCGACCACAACGGTGGTAGAGCGC
GGAAAAAAGGCCAGGGGACTGGCGACACAACCCCCGAGGTGGTGCGCTGA
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