mRNA_P-littoralis_Contig121.80.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig121.80.1
Unique NamemRNA_P-littoralis_Contig121.80.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: D8LEJ0_ECTSI (Helicase ATP-binding domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LEJ0_ECTSI)

HSP 1 Score: 620 bits (1598), Expect = 2.090e-205
Identity = 334/550 (60.73%), Postives = 386/550 (70.18%), Query Frame = 1 
Query: 1171 ALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIE-----------KRWACDDAGSIFWADLVKGGGVSIVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTPALNSLERVVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAAAEFKAAKWRYEKAVKG-PSGKG------DGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSSGTRPSDREHGGAGPRSWPAICAAGDHHYGS 2766
            ALAKQAQ+VL+PYNY+LDPS+ S+MSL L G+VVILDEAHNVEGVCRDAGSL++ LLDMV+MASDLCD  Q+   +  A++LL FVMKLL+FTS ES TLEAFENET+F +P          E           K WACD AGS+FWA  V     +  SH++L R                                               PALN+LER +FVTGL L  PHDY VN+ SWDNV++ KLP HTR STRHA+  CPL  SPFSRS YVPAKM RL++WLM+PS++FD++ AQTHSVILTSGTLSPLHSLRAELG SFG+RLLPFPQQALEANHVINP  QLRVIPV  SP   TL C K     D F+ EIGRT+VALA HIP GVLVFL SY  L+RAV +WRK  V + LER KGVIVEEP AAA+FKAAK RYE AV G P G+G       GSA+LLAV+RGKMSEGISFNDH+ARGVLCVGIP+PNL DPK+ AK+ YN WKS G +P  ++ G AG RSWP +CAAGDH+YGS
Sbjct:    2 ALAKQAQIVLMPYNYILDPSVRSAMSLALEGAVVILDEAHNVEGVCRDAGSLEVSLLDMVAMASDLCDCSQLTACSLGANLLLKFVMKLLYFTSKESRTLEAFENETDFEEPXXXXXXXXXXEVINTAVPALLKKHWACDSAGSMFWAAFVGPEEDASTSHASLLRI----------------------------------------------PALNNLERFLFVTGLGLHHPHDYGVNVMSWDNVEKHKLPVHTRTSTRHAS--CPLGNSPFSRSSYVPAKMCRLNIWLMSPSVVFDEVPAQTHSVILTSGTLSPLHSLRAELGRSFGERLLPFPQQALEANHVINPERQLRVIPVGHSPRNKTLMCKKVCTDNDEFVEEIGRTVVALAKHIPAGVLVFLSSYKLLQRAVAIWRKCEVWADLERIKGVIVEEPEAAADFKAAKRRYEDAVDGGPGGRGRGRGSAGGSAILLAVYRGKMSEGISFNDHYARGVLCVGIPYPNLGDPKIVAKKCYNDWKSLGRKPEAKDRGEAGRRSWPDVCAAGDHNYGS 503
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A6H5JZN2_9PHAE (Helicase ATP-binding domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JZN2_9PHAE)

HSP 1 Score: 606 bits (1563), Expect = 1.360e-193
Identity = 439/831 (52.83%), Postives = 514/831 (61.85%), Query Frame = 1 
Query:  121 SSSSMQESCQALRSRVDRQRKHSKHLRVPGGGKAKYDQEAPDLRLDLANIEGSLTEEEKKHAGCPYYRAMSATRVAELAHGYARPGVGLAEGADGNHDIEELRMFCGDPIGF--SEKK---KAERKQKRSGXXXXXXXXXXXXXXXXXXXXXXRCGGTGGGCGSGXXXXXXXXXXGNVKREPGLANPPADGAGGXXXXXXXXXXXXXXXXXXXXXXXXXXXXAVVAAGNSLSARAPPEYIDLTYGSSSDXXXXHVDAVSGTVSG---AAVSGAGDGSPAXXXXXXLWPSGSVSTEQGRPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNVEEPPVLACPYFLAQALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDP-DGDKNGNEEIEKRWACDDAGSIFWADLVKGGGVSIVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPR--LGMTPALNSLERVVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAAAEFKAAKWRYEKAVKG-PSGKGDGSA------VLLAVFRGKMSE 2559
            S+SSM+E CQALRS+ DRQRKH+K L +PGGG+  YDQ+APDL LDLANIEG LTE+EK+HA CP+YR+MSA +VA  AH +ARP VGLA G DG H IE+LR FCG+P+    SE K   KAE + ++ G                             GCGSG XXX                         XXXXXXXXXXXXXXXXXXXXXXXXXXXX                Y+DL+Y +S D      D V    +G   AAV  AG G+          P  S +                              XXXXXXXXXXXXX      +  +P +LACPY+L+ ALAKQAQ+VL+PYNY+LDPSI S+MSL L G+VVILDEAHNVEGVCRDAGSL++ LLDMV+MASDLCD  Q+   +  A++LL FVMKLL+FTS ES TLEAFENET F +P  G +   +E+           I   +   G G                     G+GD                         E+ R  + MTPALN+LERV+FVTGLAL  PHDY+VN+ SWDNV++ KLPAHTR STRHA+  CPL  SPFSRS YVPAKM RL++WLM+PS++FD++ AQTHSVILTSGTLSPLHSLRAELG SFG+RLLPFPQQALEANHVINP  QLRVIPV  SP   TLTC K N   D F+ EIGRT+VALA HIP GVLVFL SY  L+RAV +WRK  V + LER KGVIVEEP AAA+FKAAK RYE+AV G P G+           VLLAV+RGKMSE
Sbjct:   65 SNSSMREFCQALRSKADRQRKHNKFLNLPGGGRVPYDQDAPDLTLDLANIEGRLTEKEKEHAACPFYRSMSAPKVARAAHEFARPRVGLAGGHDGTHAIEDLRAFCGNPLQALSSETKVKVKAEGRARQHG-----------------------------GCGSGHXXXVAGGCRXXXXXXXXXXX--------XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXQAYVDLSYDTSDD------DGVGARAAGSVVAAVGSAGRGTGVDVAS----PVDSTAA----------------------------VXXXXXXXXXXXXXVSETKEDQADPHLLACPYYLSMALAKQAQIVLMPYNYILDPSIRSAMSLALEGAVVILDEAHNVEGVCRDAGSLEVSLLDMVAMASDLCDCSQLTACSLGANLLLEFVMKLLYFTSRESLTLEAFENETNFEEPPSGARKKQQEV-----------IEEPEPAGGAGGE-------------------GKGD-------------------------EMIRVTMKMTPALNNLERVLFVTGLALNHPHDYSVNVMSWDNVEKHKLPAHTRTSTRHAS--CPLGNSPFSRSSYVPAKMCRLNIWLMSPSVVFDEVPAQTHSVILTSGTLSPLHSLRAELGRSFGERLLPFPQQALEANHVINPGRQLRVIPVGHSPDNKTLTCKKVNTDDDEFVEEIGRTVVALAKHIPAGVLVFLSSYKLLQRAVAIWRKCEVWADLERSKGVIVEEPEAAADFKAAKRRYEEAVDGGPGGRXXXXXXXXXXXVLLAVYRGKMSE 763
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A267DGC8_9PLAT (DNA helicase (Fragment) n=3 Tax=Macrostomum lignano TaxID=282301 RepID=A0A267DGC8_9PLAT)

HSP 1 Score: 221 bits (562), Expect = 7.850e-56
Identity = 165/522 (31.61%), Postives = 247/522 (47.32%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDA-GSIFWA--DLVKGGGVSIVSH-STLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTP-ALNSLERVVFVTGLALRT----PHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAAAEFKAAKWRY---------EKAVKGPSGKGDGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYN 2661
            CPY++A+AL  +A ++  PYNY++DP+I  +MS+ +   +VILDEAHN+E  CRD+ S+ +    +V    +L D+ +  E    A  LL  V KLL+   T +  L A               G  ++E  W   +  G + +A   L +G  V++  H   + + +E+      G  D S               +   ++      + + P  + +LE  + V     R      +DY V +       ++K   H    T   +     Q +P         +   +S W + P++ F DL +    VILTSGTLSP+ S ++ELG +F       P Q LEANHVI P  QL V  V   P G +L     N  +  F  E+G  + ++   +P GVL F+PSY+ L +    W  +G+L +LER K ++VE   + AEF+ A   +         + A     G G   A+LLAV RGKMSEGI F+D   R  + VGIPFPN+ D  V  KR YN
Sbjct:  296 CPYYVARALMDEADLIFCPYNYLIDPTIRKNMSISVKNHIVILDEAHNIEDACRDSASITITEEQLVHAKKNLDDICRDAELYSHAAPLLDTVEKLLNVMQTSASKLRAI--------------GFNQMEHVWDAQEMLGLLRYAGIQLTEGSHVALTQHLGAVVQTIEERTAAQRGNPDGSDGDINWTAVRRKGGNKSGSARGSSAAHVTLDPITVQALEAFLLVCHFLTRDNCKFANDYRVAL------QKVKAVLHPLNQTGWLSKRQNQQDNP--------EQTLSMSFWCLNPAVAFADLGSAARCVILTSGTLSPMASFQSELGQAF-------PLQ-LEANHVIKP-DQLLVCSVANGPTGRSLCANYQNSERFEFQDELGLLLASVCETVPHGVLCFMPSYTFLEKMRTRWANTGLLERLERRKELVVEPRGSNAEFEEAMRTFIARIEASKAQAAANQQQGDGCTGALLLAVCRGKMSEGIDFSDEQCRACVTVGIPFPNVRDTLVSLKRRYN 780
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A1I8GST3_9PLAT (DNA helicase n=2 Tax=Macrostomum lignano TaxID=282301 RepID=A0A1I8GST3_9PLAT)

HSP 1 Score: 221 bits (562), Expect = 1.390e-55
Identity = 165/522 (31.61%), Postives = 247/522 (47.32%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDA-GSIFWA--DLVKGGGVSIVSH-STLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTP-ALNSLERVVFVTGLALRT----PHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAAAEFKAAKWRY---------EKAVKGPSGKGDGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYN 2661
            CPY++A+AL  +A ++  PYNY++DP+I  +MS+ +   +VILDEAHN+E  CRD+ S+ +    +V    +L D+ +  E    A  LL  V KLL+   T +  L A               G  ++E  W   +  G + +A   L +G  V++  H   + + +E+      G  D S               +   ++      + + P  + +LE  + V     R      +DY V +       ++K   H    T   +     Q +P         +   +S W + P++ F DL +    VILTSGTLSP+ S ++ELG +F       P Q LEANHVI P  QL V  V   P G +L     N  +  F  E+G  + ++   +P GVL F+PSY+ L +    W  +G+L +LER K ++VE   + AEF+ A   +         + A     G G   A+LLAV RGKMSEGI F+D   R  + VGIPFPN+ D  V  KR YN
Sbjct:  247 CPYYVARALMDEADLIFCPYNYLIDPTIRKNMSISVKNHIVILDEAHNIEDACRDSASITITEEQLVHAKKNLDDICRDAELYSHAAPLLDTVEKLLNVMQTSASKLRAI--------------GFNQMEHVWDAQEMLGLLRYAGIQLTEGSHVALTQHLGAVVQTIEERTAAQRGNPDGSDGDINWTAVRRKGGNKSGSARGSSAAHVTLDPITVQALEAFLLVCHFLTRDNCKFANDYRVAL------QKVKAVLHPLNQTGWLSKRQNQQDNP--------EQTLSMSFWCLNPAVAFADLGSAARCVILTSGTLSPMASFQSELGQAF-------PLQ-LEANHVIKP-DQLLVCSVANGPTGRSLCANYQNSERFEFQDELGLLLASVCETVPHGVLCFMPSYTFLEKMRTRWANTGLLERLERRKELVVEPRGSNAEFEEAMRTFIARIEASKAQAAANQQQGDGCTGALLLAVCRGKMSEGIDFSDEQCRACVTVGIPFPNVRDTLVSLKRRYN 731
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A0L0DAS5_THETB (2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial n=1 Tax=Thecamonas trahens ATCC 50062 TaxID=461836 RepID=A0A0L0DAS5_THETB)

HSP 1 Score: 219 bits (557), Expect = 5.430e-55
Identity = 189/571 (33.10%), Postives = 274/571 (47.99%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSA-DVLLTFVMKLLHFT-STESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDAGSIFWADLVKGGGVSIVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTPALNSLERVVFVTGLALRTPHDYNVNIASW-------------------------------DNVDQ--LKLPAHTRA-----STRHAAFHCPLQA----------SPFS---RSGYVPAKM-----FRLSL--WLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAAAEFKAAKWRYEKAVKGPSGKGD--GSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSS 2676
            CPYF ++ LA+ A +V  PYNY++DP +  SMS+ L+ ++VILDEAHN+E  CRDAGS  L L  +     DL   R+  + A +A + LL  +  +L +  +T + +L   E E E          + E+        AG    A L + G    ++ S+L      LK     R + S+    EG             +D +   +        LE ++FV  + +R   D  V+ A +                                ++D      P   R      S + A    PL A          SP S   + G  P++      F  SL  W M P I+F+ LA ++ SVILTSGTLSPL S  +EL       + PFP   LEA HVI+   Q+ V P+ ++P G TL     +     F  ++G T+ ALA  +P G+LVF+ SY+ L + V  W+++G+ +QL + K V V+EP A A+F+    ++  A+KG        G AVLLAV+RGK+SEGI F+D  AR VLCVGIP+PN+ D K+  KR YN   S+
Sbjct:  713 CPYFASKNLAETADIVFCPYNYLVDPLVRGSMSIALSNAIVILDEAHNIEDSCRDAGSAQLTLDSLDHAQKDLDAGRKTSDTARAAYEPLLVVIDAVLGWLRNTAASSLRGVEYEVE---------ESPEL--------AGRSLLAALEQMG----LTPSSLVVVRAALKSANDIRQEKSKRDSAEGGP-----------RDDDNTHVLTAETFVVLETLLFVVDICVR---DDGVHAADYVMLVRKVRKXXXXXXXXXXXXXXXXXXXXXXGHMDSGLFSTPNRHRQRRGARSAQRAFASSPLSAVTVGSGHGGASPGSSGNQGGSGPSRSAGETGFETSLNFWCMNPGIVFNSLAGESRSVILTSGTLSPLDSFESEL-------MAPFPI-VLEAGHVIDMEKQVFVTPLVQAPSGYTLNSTWKHSNTLEFQDQLGETVKALAHIVPHGMLVFVTSYTLLDKLVKRWKETGLYAQLSQLKRV-VQEPRAKADFEGTMAKFYAAIKGSKASPPTIGGAVLLAVYRGKVSEGIDFSDDNARSVLCVGIPYPNIKDRKITIKRRYNDTHST 1239
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A813I3N5_POLGL (Hypothetical protein (Fragment) n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813I3N5_POLGL)

HSP 1 Score: 206 bits (524), Expect = 8.880e-52
Identity = 171/568 (30.11%), Postives = 249/568 (43.84%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMS-----LGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDAGSIF--------------WADLV-KGGGVS--------------------------IVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTPALNSLERVVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRK-----SGVLSQLERCKGVIVEEPVAAAE---FKAAKWRYEKAVKGPSGKGDGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSSGTRPS 2691
            CPY+ +  +A  A++V  P+NY+LDPS+S   S       L G +VI+DEAHN+E  CRD+GSL++ L D+  +   L  L       P     L F     H   + S +     N    +   GD +GN + ++  +C  A                  + DL+ + GGV                           +  H  L+R MEDL + +  R    Q   E        XX    ++D  L        L+ L  ++F   LA R    Y +   +  +  Q    +H R                             LS+WLM+P ++F+  AAQ H+V+L SGTL+PL +L AEL  S        P+ ALEA HV+ P   L  +       G        +     FL ++G T+V L G +P GVL FLPSY+ +  AV  W++     + + S+L+  KG +V EP         +A K  +  A + PSG     A  LAV+RGKMSEG+ F D   RGV+CVG+P+P   DP V AK+ +N  + +G   S
Sbjct:    8 CPYYTSHIVAGSAEIVFCPHNYLLDPSVSQCRSHHRERWSLQGRIVIIDEAHNLEQCCRDSGSLEVTLQDLRLLTRALRAL-------PLRHPRLRF-----HVGGSSSSS-----NRAGGSARTGDGSGNGDAQRHLSCAKAAEELERLPLALAALLEAKFGDLIPRSGGVDREGPTAKGTWGLPGHPATSDFLRLAGLAEHGLLSRRMEDLSLEVTDRLLQVQLSSEASAVGSAAXXXXXXAEDAAL-----LAVLDRLRELLFKLRLAARHSESYVIRCQAEGSAAQGAEASHGRGG-------------------------ISLSVWLMSPGVLFEVFAAQAHAVLLASGTLAPLGALGAELSASHALATRALPEGALEAPHVVQPGQVLATVLSNFLGSGLPAVGTFGSWSSQAFLEDLGDTLVTLLGCMPGGVLCFLPSYAAIDAAVAAWKRQEASSASIWSRLQGIKGALVVEPRVQGRGGLVEACK-TFSNAARSPSG-----AFCLAVYRGKMSEGLDFADDLCRGVVCVGVPYPQAKDPVVIAKKQWNDARHAGAATS 522
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A813DPK9_POLGL (Hypothetical protein n=2 Tax=Polarella glacialis TaxID=89957 RepID=A0A813DPK9_POLGL)

HSP 1 Score: 206 bits (524), Expect = 5.190e-51
Identity = 171/568 (30.11%), Postives = 249/568 (43.84%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMS-----LGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDAGSIF--------------WADLV-KGGGVS--------------------------IVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTPALNSLERVVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRK-----SGVLSQLERCKGVIVEEPVAAAE---FKAAKWRYEKAVKGPSGKGDGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSSGTRPS 2691
            CPY+ +  +A  A++V  P+NY+LDPS+S   S       L G +VI+DEAHN+E  CRD+GSL++ L D+  +   L  L       P     L F     H   + S +     N    +   GD +GN + ++  +C  A                  + DL+ + GGV                           +  H  L+R MEDL + +  R    Q   E        XX    ++D  L        L+ L  ++F   LA R    Y +   +  +  Q    +H R                             LS+WLM+P ++F+  AAQ H+V+L SGTL+PL +L AEL  S        P+ ALEA HV+ P   L  +       G        +     FL ++G T+V L G +P GVL FLPSY+ +  AV  W++     + + S+L+  KG +V EP         +A K  +  A + PSG     A  LAV+RGKMSEG+ F D   RGV+CVG+P+P   DP V AK+ +N  + +G   S
Sbjct:  359 CPYYTSHIVAGSAEIVFCPHNYLLDPSVSQCRSHHRERWSLQGRIVIIDEAHNLEQCCRDSGSLEVTLQDLRLLTRALRAL-------PLRHPRLRF-----HVGGSSSSS-----NRAGGSARTGDGSGNGDAQRHLSCAKAAEELERLPLALAALLEAKFGDLIPRSGGVDREGPTAKGTWGLPGHPATSDFLRLAGLAEHGLLSRRMEDLSLEVTDRLLQVQLSSEASAVGSAAXXXXXXAEDAAL-----LAVLDRLRELLFKLRLAARHSESYVIRCQAEGSAAQGAEASHGRGG-------------------------ISLSVWLMSPGVLFEVFAAQAHAVLLASGTLAPLGALGAELSASHALATRALPEGALEAPHVVQPGQVLATVLSNFLGSGLPAVGTFGSWSSQAFLEDLGDTLVTLLGCMPGGVLCFLPSYAAIDAAVAAWKRQEASSASIWSRLQGIKGALVVEPRVQGRGGLVEACK-TFSNAARSPSG-----AFCLAVYRGKMSEGLDFADDLCRGVVCVGVPYPQAKDPVVIAKKQWNDARHAGAATS 873
[Close]
BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A813DB55_POLGL (Hypothetical protein n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813DB55_POLGL)

HSP 1 Score: 206 bits (525), Expect = 5.440e-51
Identity = 171/568 (30.11%), Postives = 249/568 (43.84%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMS-----LGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDAGSIF--------------WADLV-KGGGVS--------------------------IVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTPALNSLERVVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRK-----SGVLSQLERCKGVIVEEPVAAAE---FKAAKWRYEKAVKGPSGKGDGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSSGTRPS 2691
            CPY+ +  +A  A++V  P+NY+LDPS+S   S       L G +VI+DEAHN+E  CRD+GSL++ L D+  +   L  L       P     L F     H   + S +     N    +   GD +GN + ++  +C  A                  + DL+ + GGV                           +  H  L+R MEDL + +  R    Q   E        XX    ++D  L        L+ L  ++F   LA R    Y +   +  +  Q    +H R                             LS+WLM+P ++F+  AAQ H+V+L SGTL+PL +L AEL  S        P+ ALEA HV+ P   L  +       G        +     FL ++G T+V L G +P GVL FLPSY+ +  AV  W++     + + S+L+  KG +V EP         +A K  +  A + PSG     A  LAV+RGKMSEG+ F D   RGV+CVG+P+P   DP V AK+ +N  + +G   S
Sbjct:  672 CPYYTSHIVAGSAEIVFCPHNYLLDPSVSQCRSHHRERWSLQGRIVIIDEAHNLEQCCRDSGSLEVTLQDLRHLTRALRAL-------PLRHPRLRF-----HVGGSSSSS-----NRAGGSARTGDGSGNGDAQRHLSCAKAAEELERLPLALAALLEAKFGDLIPRSGGVDREGPTAKGTWGLPGHPATSDFLRLAGLAEHGLLSRRMEDLSLEVTDRLLQVQLSSEASAVGSAAXXXXXXAEDAAL-----LAVLDRLRELLFKLRLAARHSESYVIRCQAEGSAAQGAEASHGRGG-------------------------ISLSVWLMSPGVLFEVFAAQAHAVLLASGTLAPLGALGAELSASHALATRALPEGALEAPHVVQPGQVLATVLSNFLGSGLPAVGTFGSWSSQAFLEDLGDTLVTLLGCMPGGVLCFLPSYAAIDAAVAAWKRQEASSASIWSRLQGIKGALVVEPRVQGRGGLVEACK-TFSNAARSPSG-----AFCLAVYRGKMSEGLDFADDLCRGVVCVGVPYPQAKDPVVIAKKQWNDARHAGAATS 1186
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: G4YGX5_PHYSP (Helicase ATP-binding domain-containing protein n=4 Tax=Phytophthora TaxID=4783 RepID=G4YGX5_PHYSP)

HSP 1 Score: 204 bits (520), Expect = 1.040e-50
Identity = 160/522 (30.65%), Postives = 253/522 (48.47%), Query Frame = 1 
Query: 1150 CPYFLAQALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFTDPDGDKNGNEEIEKRWACDDAGSIFWADLVKGGGVSIVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRLGMTPALNSLERVVFVTGLALRTPHDYNVNIASW---DN---VDQLKLPAHTRAST--RHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAAAEFKAAKWRYEKAVKGPSGKGD------GSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKS 2673
            C YF A+     A +V  PYNY+LDPSI  ++ + L  S+++LDEAHNVE  CR + S+++    + +       + + G    S + LL    KLL+  +    ++++  N      P    +G EE  K W   DA     A L +  G++  + + +   +++++      G+++++                 SQ     +     A N     V +  LAL T     +N+A +   DN   +D  KL      ST    A+F      SP  R+G    ++ ++ +W +  ++ F D+A+Q  SVILTSGTLSP+ S   ELG  F  RL        EANHV+N R Q+ +  V   PG   L    +N     +   +G+ ++  +  IP G+L+F PSYS L +    W+K+ +  ++E+ K V  E   A  +F A    Y+  +   + +GD        A+ LAV+RGK+SEGI F++  AR VLCVGIPFP++ + +V  KR Y   KS
Sbjct:  375 CAYFHAREALDHANIVFAPYNYLLDPSIREAVGITLKDSIIVLDEAHNVEDTCRSSASVEVTTEVLAASIKAFSIVIKHGNRPKSYNALL----KLLNGINRWLQSVDS--NANAILQP----SGYEEKSKVWDGADA----LAMLAEYSGLTKDNLAEMKANVQEVREYENELGNSAES-----------------SQQATQSKASQDAAANPTGASVLLGALALATVQSI-MNVADYMFRDNLKFIDDFKLVVIKSTSTWKESASFR-----SPTKRNGGDEWEL-KMCIWCLNAAVAFSDIASQARSVILTSGTLSPMESFAGELGVDFPIRL--------EANHVVNMRKQVFIGAVMHGPGNVDLQSTYNNQQDPRYQDSMGQLLLQYSQAIPGGILMFFPSYSLLNKLTTRWKKTKLWGEIEQFKTVYSEPRNAGKDFDALLEDYKDTITKCTAEGDEAQDKKSGAIFLAVYRGKVSEGIDFSNDNARAVLCVGIPFPSVKELQVSLKRKYQDEKS 850
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BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Match: A0A0B7N4P3_9FUNG (DNA helicase n=1 Tax=Parasitella parasitica TaxID=35722 RepID=A0A0B7N4P3_9FUNG)

HSP 1 Score: 203 bits (517), Expect = 3.880e-50
Identity = 160/530 (30.19%), Postives = 252/530 (47.55%), Query Frame = 1 
Query: 1141 VLACPYFLAQALAKQAQVVLLPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMVSMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTES--HTLEAFENET-EFTDPDGDKNGNEEIEKRWACDDAGSIFWADLVKGGGVSIVSHSTLTRAMEDLKVCLLGRGDASQAQGEEGXXXXXXXXRGDPSQDGELPRL-GMTPALNSLERVVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQASPFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLRAELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKDNMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLSQLERCKGVIVEEPVAA--AEFKAAKWRY----EKAVKGPSGKGDGSAVLLAVFRGKMSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSSGTRPSDRE 2700
            V  CPY+ A+ L + A+V+  PYNY++DP I + + + L+ S+VILDEAHN+E   R AGS+D+    +  +  +L    + G    S   + T +  L     +E   +T++ +E ++  FT  D     N+       C+      + D +      I +H+   R  ++ K   +   D  + +  +G              +G L  L G+   L       F+         DY +       +  L+ P     S R        Q S +         + ++  W ++P+I+F D+  +THSVILTSGTLSPL++  +ELG  F  RL        EANHVI P  Q+ +  + + P    L CV  NM    F  E+G T+  +   +P G+LVF+PSY  L   +D W+ +GV+ QL+  K +++ EP  +   EF+A    +    +    G   +G   A+  AVFRGK+SEGI F+D++ R V+ +GIPFP   D +V  KR YN    S  +P  +E
Sbjct:  283 VRGCPYYAARKLYEGAEVIFCPYNYIIDPVIRNILDINLSNSIVILDEAHNIEDASRAAGSIDIDEASLEVLIKELKLTTRFGGEKESHQYMNTVISHLYDAVKSEDIVYTVKEYERQSCHFTGTDLLNKLNQVYIN---CN-----TFQDEIFPAYKKISAHADAVRKAKENKAISVA--DDYEIEEIDGLSSQVHVEGTRAVSNGSLTVLQGLMTVLK------FIFASEQTNAKDYQLVF-----MRSLQRPGGKAHSRRRRNKDQDRQQSLW---------VHKIGFWCLSPAIVFQDMCEKTHSVILTSGTLSPLNTFASELGVEFSGRL--------EANHVIKP-SQVWISSIPQGPNRIPLKCVYSNMESLGFQDEVGETLRNITERVPYGILVFMPSYKALDIFLDRWKITGVMDQLKE-KKLVLSEPKGSDKKEFEAVLNTFYDQIDTVAAGVDEEGRDGALFFAVFRGKVSEGIDFSDNYCRAVVTMGIPFPGFKDLEVNLKRDYNNRMKS--QPGSKE 770
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig121.80.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LEJ0_ECTSI2.090e-20560.73Helicase ATP-binding domain-containing protein n=1... [more]
A0A6H5JZN2_9PHAE1.360e-19352.83Helicase ATP-binding domain-containing protein n=1... [more]
A0A267DGC8_9PLAT7.850e-5631.61DNA helicase (Fragment) n=3 Tax=Macrostomum lignan... [more]
A0A1I8GST3_9PLAT1.390e-5531.61DNA helicase n=2 Tax=Macrostomum lignano TaxID=282... [more]
A0A0L0DAS5_THETB5.430e-5533.102-methoxy-6-polyprenyl-1,4-benzoquinol methylase, ... [more]
A0A813I3N5_POLGL8.880e-5230.11Hypothetical protein (Fragment) n=1 Tax=Polarella ... [more]
A0A813DPK9_POLGL5.190e-5130.11Hypothetical protein n=2 Tax=Polarella glacialis T... [more]
A0A813DB55_POLGL5.440e-5130.11Hypothetical protein n=1 Tax=Polarella glacialis T... [more]
G4YGX5_PHYSP1.040e-5030.65Helicase ATP-binding domain-containing protein n=4... [more]
A0A0B7N4P3_9FUNG3.880e-5030.19DNA helicase n=1 Tax=Parasitella parasitica TaxID=... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig121contigP-littoralis_Contig121:316754..344536 +
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
Stop0
Start0
Seed ortholog2880.D8LEJ0
PFAMsDEAD_2,Helicase_C_2
Model size2785
Max annot lvl2759|Eukaryota
KEGG koko:K11136,ko:K15362
KEGG Pathwayko03440,ko03460,map03440,map03460
Hectar predicted targeting categoryother localisation
Exons15
Evalue3.42e-206
EggNOG OGsCOG1199@1|root,KOG1132@2759|Eukaryota
EC3.6.4.12
DescriptionATP-dependent DNA helicase activity
Cds size2784
COG categoryKL
BRITEko00000,ko00001,ko01000,ko03032,ko03400
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789521.5705848-CDS-P-littoralis_Contig121:316753..3169181680789521.5705848-CDS-P-littoralis_Contig121:316753..316918Pylaiella littoralis U1_48CDSP-littoralis_Contig121 316754..316918 +
1680789521.5819652-CDS-P-littoralis_Contig121:317676..3177891680789521.5819652-CDS-P-littoralis_Contig121:317676..317789Pylaiella littoralis U1_48CDSP-littoralis_Contig121 317677..317789 +
1680789521.5968754-CDS-P-littoralis_Contig121:323860..3239851680789521.5968754-CDS-P-littoralis_Contig121:323860..323985Pylaiella littoralis U1_48CDSP-littoralis_Contig121 323861..323985 +
1680789521.6103706-CDS-P-littoralis_Contig121:325029..3257961680789521.6103706-CDS-P-littoralis_Contig121:325029..325796Pylaiella littoralis U1_48CDSP-littoralis_Contig121 325030..325796 +
1680789521.623547-CDS-P-littoralis_Contig121:326857..3269081680789521.623547-CDS-P-littoralis_Contig121:326857..326908Pylaiella littoralis U1_48CDSP-littoralis_Contig121 326858..326908 +
1680789521.6390283-CDS-P-littoralis_Contig121:328464..3286401680789521.6390283-CDS-P-littoralis_Contig121:328464..328640Pylaiella littoralis U1_48CDSP-littoralis_Contig121 328465..328640 +
1680789521.649725-CDS-P-littoralis_Contig121:329115..3292541680789521.649725-CDS-P-littoralis_Contig121:329115..329254Pylaiella littoralis U1_48CDSP-littoralis_Contig121 329116..329254 +
1680789521.6606722-CDS-P-littoralis_Contig121:330754..3308531680789521.6606722-CDS-P-littoralis_Contig121:330754..330853Pylaiella littoralis U1_48CDSP-littoralis_Contig121 330755..330853 +
1680789521.6729183-CDS-P-littoralis_Contig121:331874..3321431680789521.6729183-CDS-P-littoralis_Contig121:331874..332143Pylaiella littoralis U1_48CDSP-littoralis_Contig121 331875..332143 +
1680789521.683767-CDS-P-littoralis_Contig121:333257..3333991680789521.683767-CDS-P-littoralis_Contig121:333257..333399Pylaiella littoralis U1_48CDSP-littoralis_Contig121 333258..333399 +
1680789521.6996007-CDS-P-littoralis_Contig121:335716..3358211680789521.6996007-CDS-P-littoralis_Contig121:335716..335821Pylaiella littoralis U1_48CDSP-littoralis_Contig121 335717..335821 +
1680789521.729511-CDS-P-littoralis_Contig121:336588..3366741680789521.729511-CDS-P-littoralis_Contig121:336588..336674Pylaiella littoralis U1_48CDSP-littoralis_Contig121 336589..336674 +
1680789521.7481441-CDS-P-littoralis_Contig121:337450..3376041680789521.7481441-CDS-P-littoralis_Contig121:337450..337604Pylaiella littoralis U1_48CDSP-littoralis_Contig121 337451..337604 +
1680789521.7625875-CDS-P-littoralis_Contig121:342078..3422461680789521.7625875-CDS-P-littoralis_Contig121:342078..342246Pylaiella littoralis U1_48CDSP-littoralis_Contig121 342079..342246 +
1680789521.7746542-CDS-P-littoralis_Contig121:344310..3445351680789521.7746542-CDS-P-littoralis_Contig121:344310..344535Pylaiella littoralis U1_48CDSP-littoralis_Contig121 344311..344535 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig121.80.1prot_P-littoralis_Contig121.80.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig121 316754..344535 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig121.80.1

>prot_P-littoralis_Contig121.80.1 ID=prot_P-littoralis_Contig121.80.1|Name=mRNA_P-littoralis_Contig121.80.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=928bp
SQGGEGGGGGGGGGDSGVGGWGRGGRRQGRQRGRPPRSRPSSSSMQESCQ
ALRSRVDRQRKHSKHLRVPGGGKAKYDQEAPDLRLDLANIEGSLTEEEKK
HAGCPYYRAMSATRVAELAHGYARPGVGLAEGADGNHDIEELRMFCGDPI
GFSEKKKAERKQKRSGGSGGTGGTGGTGGTGGSSGIGGRCGGTGGGCGSG
GCGSGGCGGGGNVKREPGLANPPADGAGGAGAGAGAGAGAAAAAAGAGAS
AGAGAGAAVVAAGNSLSARAPPEYIDLTYGSSSDDDDDHVDAVSGTVSGA
AVSGAGDGSPAAAAAAALWPSGSVSTEQGRPPTAAAAAAAAAAAAAAAAA
AAASATAAAAAAVALPGGKEEEKENVEEPPVLACPYFLAQALAKQAQVVL
LPYNYVLDPSISSSMSLGLAGSVVILDEAHNVEGVCRDAGSLDLPLLDMV
SMASDLCDLRQIGEYAPSADVLLTFVMKLLHFTSTESHTLEAFENETEFT
DPDGDKNGNEEIEKRWACDDAGSIFWADLVKGGGVSIVSHSTLTRAMEDL
KVCLLGRGDASQAQGEEGEEKKDQEDRGDPSQDGELPRLGMTPALNSLER
VVFVTGLALRTPHDYNVNIASWDNVDQLKLPAHTRASTRHAAFHCPLQAS
PFSRSGYVPAKMFRLSLWLMAPSIIFDDLAAQTHSVILTSGTLSPLHSLR
AELGPSFGQRLLPFPQQALEANHVINPRGQLRVIPVWKSPGGTTLTCVKD
NMVKDPFLFEIGRTIVALAGHIPQGVLVFLPSYSQLRRAVDLWRKSGVLS
QLERCKGVIVEEPVAAAEFKAAKWRYEKAVKGPSGKGDGSAVLLAVFRGK
MSEGISFNDHFARGVLCVGIPFPNLVDPKVEAKRLYNTWKSSGTRPSDRE
HGGAGPRSWPAICAAGDHHYGSNGGGSG
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mRNA from alignment at P-littoralis_Contig121:316754..344536+

Legend: CDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig121.80.1 ID=mRNA_P-littoralis_Contig121.80.1|Name=mRNA_P-littoralis_Contig121.80.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=27783bp|location=Sequence derived from alignment at P-littoralis_Contig121:316754..344536+ (Pylaiella littoralis U1_48)
AGCCAAGGTGGTGAGGGCGGAGGCGGCGGCGGCGGCGGCGGCGATAGTGG
TGTGGGTGGATGGGGTCGGGGGGGGAGGCGGCAGGGGCGGCAGCGGGGGC
GGCCGCCGCGATCGAGGCCAAGCTCGAGCAGCATGCAGGAGTCCTGCCAG
GCCCTGAGGTCTAGGGTGAGGGAAGGGTCTGCCAGTTTTGTGTAGATGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGCTGCTGCTGT
GACGAATAAAGTCTGATACATGAAAATGGATTTCATTCGTAATGGTGCAG
CAGTACGGGGAGGATGTTTTGTCGGCAACCGGAGCGCGGGGAAGAAGCGG
TGGGGGGGAGCATCGTCGGCAACGGATCGACCTTCTTGCTTCATGCATCG
ATCGATCAATAATAGATAAATTTGGTACTATATGTGCCCACTTGGGTGCG
GTGAAGCTAATCTGTTCAATTGTTGCTCCTCGCGTCCAGTGGTACAGTTT
TTTTGCGGCTTCATCCCGGGTGCAACATAAAATCGTTACTGTAGTTTCCT
TCCATTTCGTTGTACTTCGAAGTACGTTTTTGTTTTTCGGCACGTGCTCA
TCCATATCCATCCACCCAACCCACTCATCCATCCAGCCATCCTCCATACA
ACTTGCCAGTACATACATACCTGGTACATACCCAACAAACATATACGAAG
TATACACACAGTACATACATGCAGTAGATACATATGATACCTAAAATACA
TTCATGCGTGCATCCAACGTATATTCGGCAGTACATTCATGCACACATGG
GTACATACAAACACTACATACATGCATACATAATCCACACACATGCATAC
ATGCATACAAGCAAACGCACACGAAATACCAACCAACCAAGACAAGCGCG
ATTTTATCGTGCGTCATGTTCAGGTCGATCGGCAGAGGAAGCACAGCAAA
CACCTCCGCGTTCCGGGCGGCGGAAAAGCGAAGTACGACCAAGAGGCCCC
CGACCTAAGGCTAGACCTCGCCAACATCGAGGGCAGGTAAATACGGGTAC
GGCCGCAAGGACACTGAGCAAAAAGCACTCGTGTAGTACGCATATTACGT
CACACGTACCATTTTATCTTTGCAAGCAATTGGGTAAGAAAATGAAATCT
GCGCCCCCCAATGATACGAATTACTGAATTACTTCGTACGATATGTGGTC
AGTGAAATGCAAGTTCTACAAAAGTATGGTAGATGGTAGAAGGTTGGCTA
CGGCGGTATGATAGGTCGCAGACAAGATGCCTATGATACCGCAGAACGCC
CTCTGAATCGGTGTTACAACGGCGAGACGGAGAGGTTTGCGAACGCCGTG
AAAGCATGCACTAGGGACACGATTTTCGGGAAGTTCTCGGTCAGATAGAT
GGGTGTGCAGTTCGTATTTTTTTACTTTTTTGCCGTTCGGCACTGACGCT
CTACTTGTTTTTTATTTTATTTTTTCGCTGTACGTACATACAGCAAATAC
CGCAGTGGAGTGCCCGCTCGAGGGGGCCCCGCGTGGTATATCGTGCGGAC
ATATCATGTCATATCATACGGCGGTGCTCCCCCCCCCCCCCTCTCTCTTT
CTTTCACTCGCCGCCTTTCCGGTCTGTGTGTGAGGTGATGGTGAAACCTG
AAGAAGTAGTGATGTCATGGCGTCGTGCTTCGAAGTTTTTTTCAGTCTGT
TTTTTCTTTTTTCAATGGGATGATGACACGTCTTTTTCTGCCGAAGTAAG
GCCGACCTCAGCAGTAAACAGATGTAGCAAATGATAGTCCTCGACCAACC
TTTTTCTGTTGGAGAAAGGCCGACCGCAGCAGCAGTAGTTTGTAGTTTAT
GATACCTGGTAGTTCTTAACAAGCCTATTCTGTTGAAGAAGGGCTGGCCA
CCGCGGTATGATGGCTCTCAACAAGCCTGTTGTGTTCGAGAAAGGCCAAC
TACAGCAGCAGTTGCCATTGGAGAAAGGCCGACTATTCATACAGTAGTGA
TCGTTCTTGAGACGCCTTCTCTTGAAAGAAACGTCGACAACAGCAGCATT
CCTCTGTCTCATCCGTGCATGCATTCAGCCATTCCTTCTCTTCACCTCGT
ACGTTCCTTCAACTCACCTCGTCCAACTGCTGTACTGCTGTGATGTGATG
TTTCATGCCGTGTGATACCTTACACGTTCATTCAGCCATTCGTCACCTGG
CGTCTTCTGTGATTCCTCAAGTCCTCTCCATCAACTCATACATACGTACA
TGAATACATGCGTGTATACAGTATACATGTATGCAGTTTACATGTATGCA
TCCATCCATACAATGATACATACGCACGTACATGATTCCCGGTGAATGTG
TTCCTTTGCTACTTTGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGG
CTTCGCCGACGAGGGCAGGGACCGCGGATCCCTGCTCGCGAGAGAAAATC
TCACGCATGTACCGCAGAAGGAAGGTGGGAGTAACTCCTCCTGTGTTGAC
CTCCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGGTTGAACCGC
AGGGTGCAGACTAGTGTGCCAGAGAAAATGGGATGACAACACACGTACGT
ACATACAAACATGCATGCATACGTACGTACATACAAACATGCATACATAC
ATTCCACTTTTGATCACCCGGTACCGTAGTATCAGTATCGTGCACACCGA
AGTATAAAATAATCCTATCCGTCCTATTCTCGTCCTCTCTGCATGCCCAT
CCGTTATTCATTTCACTCCATCTCCTCATGTTCTCGTACAGGACGTCAGC
CCGTGCAATTATCATACTGTATCTGGTATTGCTTTTGCCTGCTTTCTTTG
ACATACTTCCCACCCAACCGGGCATTCCCATGTGTTTTTCACTCCTGTCG
CTGGCACCTTTTCCAGGCACGGGTACGTGCGCTCCGCTCCGTTCCCCCGT
TCATTTCCCGTGGATCGTCGGTAGACACCACATTATTTCATCCACACATG
CATTCATTCCATTTCCTCATTTATTTCCCATGGATCGTCGGTAGATACCA
CATTTTTTTCATCCACACAAGCATACATTCCATTCCCTCGTTCGTTTCCC
ACGGATTATCGGTATCGTGTATGGTACCACATTATTTCAGTCACACGTAT
CACACCTGTACAATAATTCGATTCCCTCGTTCATTGCCCACGGATCGCTG
ATACCGTGTACCACATTCATTCATTCACACATACATACATTCATTCCATT
CCCCCGTTCGTTTCCCGTGGATTGCTGGTACCGCGTGTGATATGATACCA
CACTTATGCACACATGCATCCATTCAATTGCCTCGTTCAATTCCCATGGA
TTGTTGGTATCGTGTTTGATCGATACCACATTCATTCAGATATGCATTTA
TTCCGTTCCCTCGTCCTTTTCTCATGGAATATCGGTATCGTGCATGGTAC
CACATTCTCTCGTTCACACATGCATCCATTCCATGCCCTCGTTCATTTCC
CATGGATTGTTGGTACCGTGTATGATATGATACCACATTTATTCAGATAT
GCATTCGTTCCATCCCCTCGTTCATTTCCCATGGGTTGTTGGTATCGTGT
ATGATATGATACTTGTATCACATTTATCCACACATGCATTCATTCCATTC
CCTCGTCCATTTCCCATGGAATATCGGTAGTTCATGATACCACACTATTT
CATTCACACATGCAGTCATTCCATTCCCTCGTTCATTGCCCACGGATTGC
TGGTACCGTGTATGATATGATATCACATTTATCCACACATGCATTCATTC
CATTCACACATGCATTCATTCCATTTCCTCGTTCGTTTCCCATGGCGCAT
TCTCTCTATTCCCTTGTTCATTTCCCATGGCTTGTTGGTACCAGTGTGTG
ACACTTAGTACCACATTTATTCACACAAGCATTCATTCCATTCCCTCGTT
CATTTCCCATGGATCATTGGTACCGTGTATGATATGATCCCACACCTATC
CACACAGCAGCACTCATTCATTCCCACCTTCGTGTTTCGTACTTAAAGCC
ACTTGTTTTTTTGTTCGCTCATCCATCCGTTTTCCATCTCTAGCGGAACC
GTCCATGATGCACCAGTTCGTGCGTTCATTCCCGTTTTTTATCGCCCGCC
GGTCCAAGCGAGTGTCGCGCAAGCATTCATCTTTCATTCGATCAGTTTTC
CTTCGTGTTTCTGCATCCATCCGTTTGTTGTTGAAGTATAACGCAAGATT
TCATTCTAATATATTTCTGAAATCAATCCTCTTCCATCCATGCATAATCC
CATTTGTTTTTTATTCCCGTAACGTATGGTGTAAAGAGTGCCGCTTCCAT
TGATTGCTTGTTTCACTCCCCCATTTCAATCAGCGTTTCTGCATCCGTAT
GATACATCCGTTCACTATCGCCGGGCATTCTTCAACGTTTCCAAGTATAT
CCTATACCGCTTGAAGCAATAATTCTTGAACTTTCTCTGGATTTGTTATT
TTGCACCTACTCATACATTCACTCCCATTTTTTATCGCCCGGTACCTCGT
GCCACGCCCATCCATCCGTTCATCCGTCCATTCTATATTCTATCGCGTGA
TATCATTCGACGTCCACCTTTCATTCCAACGTGTGATATCATTCTACATC
ATCCCTTCATTCGATCGTGAAGTATCATTCTACCTCCACCTTTCACTCTA
CCGTGTGATTTAGTTCTACATCCAACTTTCATTGTTTCGTGTGACATCAT
TCTACGTCCACATTTCATTCTATCGTGTGACATGATTCTACATCCACATT
TCATTCTATCGTGTGATATCATTCTACATCCACCTTTCGTTCTATCGTGT
GACATCATTCTACATCCACCTTTCATTCTATCGTGTGCATCATTCTACGT
CCACCTTACATTCTATCGTGTGATATCATTCTACGTCCACCTTACATTCT
ATCGTTTGACATCATTCTACGTCCACCTTTCATTCTATCGTGTGACATCA
TTCTACGTCCACCTCTACGTCCACCTTTCATTCTATCGTGTGACATCATT
CTACATCCACCTTACATTCTTTCGTGTGACATCATTCTACGTCCACCTTA
CATTCTATCGTGTGACATCATTCTACGTCCACCTTACATTCTATCGTGTG
ATATAATTCTACGTCCACCTTACATTCTATCGTGTGATATCATTTTACAT
CCACCTTTCATTCTATCGTGTGACATCATTCTACGTCCACCTTTCATTCT
TTCGTGTGAGTGTGGTATCATTTTACACCCACCTCTCATTCTATCGTGTG
GTATTATTCTACCTGCACCTTTCTTTTCTATCGTGTGATATCCTTCCACA
TCCACCTTTCACGCTACCGTGTGATTTAATTCTACTTCCAAGTTTCATTC
TGTCGTGTGATATCATTTTTTTACATCCACCTTTCCTTCTACCGTGTGGT
ATCACTCTACCTGCACCTTTCATTCTGTCGTGTGATATCGTTCTACACCC
ACCGACCCGTTCACTCAGTCCATCACCAGGCAAAAAGCACCCGTTCGTTC
CCATTATTCGTTCCCGCGTGACCCCCGGCTGAAGGTCAAGTACATATTTT
ACCGAAAGGTACATATATACTTCGAAGTAGCAAAGACTGGCACCAGAATA
CACGAAACAAACATACACACACATTACATACGATCATGATATCTTGTCAC
CGATAGGCCGTTTCATTATCGTTTCGTACAACACAGTTTATCGCCTACCA
GGCATGATACCTCCTTCTTTGCCACACCCCTTGCGTACGTTCCCGCTTTT
TTTTTTTATCCCCCGGGGTATCTTGGATCATGCCGCATCCACCCGCAGCG
TTTTCACTCCCACCCTTCTCTTGTTGGTGGTGTGCGCGCACACACACACA
CACACACACACACACACACACACACACACACACACACACACACACGTCGA
TTCGTTATCATACGCCCGTTTTGTTTTTCACCCGCGTTCCCGTTGGAACA
ATATTCTCATTCGTGCATTCATGCATTCGTTCGTTCCCGCCCGGCATCTT
TTTACCAACACAAACGCATGATTATACACACCCATTTCTGGCTTCGCTCT
CCTTCCCATTTCCATTTCTGTCTCCATTCCCTTTGCCACACCCACATCCC
CCGTTTTTAAGTATTTCATTCTGTCAATAGCAACCGGTGTCTTACGGCGG
CACACACATATTGTATACACCCCCGTTCCTAGCATCGTGTTCTCGTTCCT
TTTCCCATTCCCCCATTGACAATGTTTCATTCCAGTCTACAAAGCAAGGC
ACCCGGTTTCTTACCGCGCACACACATAAACACACACGTTCCCTTACAGT
ATTGATTGTCATCCCCCGATTGCTTTTTCATTTCATTTTTTCTGTGGAAA
GCGCCCGGTATCTTTCGGTTCTCATTTATACGCACCCACTTCAGCCCAAA
ACATGCCCGGTATCTTTTGGTTCACAAGTGAACGCGCACCCATTTTTGCC
ATCACTCCCCTCCCTTCCGCATTCCCATTTCCCATTCCCGTCTGTACCAC
CCCCCGTTTGTCTCTGTTCACACGTACACATACCGTAATCATGCGAAGGT
TGGCACCCATCGGAAGGTTGGCACCCATCGGAGAGATAGCACCGGGGCGC
GATAAAAAACACAACGTAGAAACATTTAAAAATCGATCGCACCCCGGTGC
CAACCTTCGCATGATTACGGTACACTCCCATGCTCCTCATATTTTTATCC
CACCTTTCCACTCCGTCTTTAGGGTCTGGAGAGACTTGTTCAGAGTGAGT
GACCCATCGGGGGGCGGGGGGGGGCGGGGGGTCGTTCTCTCTCTCCTTCT
TTCCCTCTCTTGCTCTCCCTCTCTCTCTCTCTCTTTCCCTCTCGCACTCC
CTCTCTCCCCCCTCTCTCTCTCCCGAGCCTACTGCTGTATACTTCAGCCG
ATTCAGTCTCAACCAACTGATTGCCCCGCTTGGCGCCCGCTCCGCTTCGC
GGTCCGCTTCTGGCAACGGCACTCGCCCACACTCTCATTCATCCCCACGT
TGTCTTTTTCACTCCGCTCCGCTCCACCCCATTCCGCTCCGTTCTATGAC
ATGATAGTCTGACAGAGGAGGAGAAAAAACACGCGGGCTGCCCATACTAC
CGCGCCATGTCCGCGACGAGGGTCGCCGAGCTCGCACACGGGTACGCCCG
GCCGGGGGTCGGCCTCGCCGAAGGTGCCGACGGTGAGCAGCCCCTTGCTC
AAGTATCGTAAACCTGTGTTCTACCCCCCCCAACACCCAACACCCAGCCA
GGGAATTGTTGCGCAACTCCTCTCCTCTAATCAAAATCTTCCGATGGCGA
CGGCGAACATGCGCGGCGAAAGTATCTCCTCCTCCTCCTCCTTCTCCTCC
TCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCATCTTGTGTGC
TTTTTTTGAGTTTTTTTTTTAATGTTTTTGATCTGAATGTGAATGCAGGC
GAAGGTAGTAGAGTCCCCTGCTGTTTGTTTGTTTGTTTGTTTGTTCGTGA
CGGGTAAGGTCTTTGGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGGTGTTGTTGGTGTTGGTGTTGGTGTTG
TTGTTGGTGGTGGTGTTGGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGGTAT
TGTTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTATTTTTT
TTTTGTACAGGTACAACATGTGATACTAATCTTGTTCGCCGAAGTTTGGA
CGAAGATCTAACCAGATGTGGAGGCGAAACACCAAATGTTTCAGCCTATC
GTAGTGCTGTGTTGTTTGTCCAGCTCATCACACTTCGTACGAAACGTATA
GTTGCATTTCCACTCTTACTGTTTTCGTTCTTCTTCTTCTTCTTCTTCTG
CTTCTTCTTCTTCTTTTGCATATCTTTGCTGTTTGTCTCTTCTGTCCTTC
TCTGAGTGTTCTGAGCAGCGTGCAAGACGAAATAACCTGTGAGGCAGATT
TGCCGGTTAAACGGCGAAACAACTTGTCACGAATAACCCGAGTACTGTGG
GTACTCTTGGGAAAAAAACTCTGCACAAAAATGTCGTCGAAAACCTTCTC
CTTGTGACGTGTGTTTGAAGTGTTATTTCGTGTTGTGACCCCGGCTTCCG
TGGGGGGGCCGGCGACAAACATTCAGGCAACCACGACATTGAAGAACTCC
GAATGTTCTGCGGAGATCCTATCGGATTCTCGGAGAAGAAGAAAGCTGAG
CGAAAACAGAAGCGTAGCGGTGGCAGCGGCGGTACCGGTGGCACCGGCGG
CACCGGCGGCACCGGCGGTAGCAGTGGCATCGGCGGAAGGTGTGGCGGCA
CCGGCGGGGGGTGCGGCAGCGGGGGGTGCGGCAGCGGGGGGTGCGGCGGC
GGCGGCAACGTGAAACGAGAGCCTGGCCTCGCAAATCCGCCGGCTGACGG
TGCCGGTGGTGCTGGTGCTGGTGCTGGTGCTGGAGCTGGAGCTGCTGCTG
CTGCTGCTGGCGCTGGCGCTAGCGCTGGTGCTGGCGCTGGTGCCGCCGTT
GTTGCCGCTGGCAACTCCTTGTCGGCTAGGGCGCCGCCGGAGTACATAGA
CCTGACGTACGGCAGTAGCTCCGACGATGACGATGATCACGTTGACGCGG
TGTCGGGAACGGTGTCGGGGGCGGCGGTGTCGGGGGCGGGGGACGGGTCC
CCGGCGGCAGCGGCAGCGGCAGCGCTGTGGCCAAGCGGCAGCGTTTCCAC
AGAACAGGGGCGGCCGCCGACAGCAGCAGCGGCAGCAGCAGCGGCAGCAG
CAGCGGCAGCAGCAGCGGCAGCAGCGGCAGCATCAGCAACAGCAGCAGCG
GCAGCAGCGGTAGCGTTACCGGGCGGGAAAGAGGAGGAGAAGGAGAACGT
GGAAGAACCTCCGGTGCTCGCGTGCCCGTACTTCCTGGCACAGGTGCGAC
GATATTGTGTATATTCGTATCGCTGGGTGAACGTACCGGTATACTCCGTA
TATTTTTAGAGAGAAAACATATAACAAGTACGTATTTTGTGGGGGTAGGC
TTGTTTCGTCTACATGGGTCCGCTCAGCTCGGTAGGCTTGGAAGACTTGG
CAAGCAAAGGGAAGTCGTTTATTTTTGTTTTGGACGAGGGACAGGCAGAT
GGTTTCATGGGTGCCGCGAAGTCTTATCCGCGATGCTGCTGACAGTCAAA
ATTGGATCATTCGAGGGGCTTTGAGCACACAAGTTCTGCGGTACAAAGCT
TTCTCCGCTGGCACGCTCCTGCTGTCACGCTTACGTGCTTTTGTCTCTTT
ATAGTTGTTGTTGTGGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTG
TTGACTTTAAGTCACTGCTGTAGATTTTGGCTACTCTGAATATTTCTGTA
ATTTTTCAGCACCACATCCTTTCTTGTTGTCGTTGTTGTTTGTTGACTTT
TAAGTAACTGCTGTAGATTTTGGCTATTGTGAACATTTCTGTAAAAATCT
CAGCACCACATAGTTGATCGCCCTAGACATGATTTTATTGCATTGGTTCG
GATTTAGACTGAGAGATACGCGCGTGACGTGAAAGCTGTGCACCATTTCT
TTGTTCGACTCCGACGTGTGTGTGTGTGTGTGTTTTTTTTTTTGCGTGTG
GGTGTTTTTCAGAGAAAGCTTGGCGTGATTTGGCTGATTGATGAATCAGG
CAAGCGGATTCACGAATCACATGATACACGATACTTCGAAGCATACCATA
GAAAAGCGGTGCATAGCTTCATTGTGAAAACACTTGAGTAGTATGGGTGT
GTTTCGTGTCTGTATGTTTTGTTTGTTTACAGAAAAAGTTGGACTCGATT
TGAGTTCGTCCCGCAACGAACTTGCTGCTGCTGATATCTTTGTTTTTTTT
TTTCCGCTGCCCAAGCGTCGTTGCTACGGGTTAAGGTTTCGTCTCATTTT
TGTTTCATGTTATTGGCGCGTCCTTGCCGACCACACCGTTGAAACGTTCC
ACAGGCGCTGGCTAAGCAGGCTCAAGTCGTCTTGTTGCCGTACAACTACG
TTCTGGTGAGACACGCAAAGATCTTGTTTGTGTGTGTGTGTGTTCTACGT
GTAGACATGTCTTCATTCCTTACCTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTCTCGTTGTTTTCGTTGTTGTTGTTGTTGTTGTTCT
TGTTCTTGTTCTTGTTCTTGTTCTCGTTGTTGTTGCTACCGGGCTTGTCG
CTTCTGTTTTTCGCAGTTGCTGATCGCAATACGCCCTATCCCCCTCCGCC
CGACAGACACGTTTTTTTTTTTTTTCGTGTGTATACTGATCAATGTCACC
TTTCCTCAGGACGCTGTTGCTTGTGGTATTTTTGTTCCTGCTGTTTTCAT
CTTTGTTGCTGTTGCTGCTATAGCTGCTGCTGCTACTTCTGCTGCTGCTG
CCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCTGCTGCTTTCATT
GTTAACACCCGTCTTCCTGCCAGCAGTGTCTTGCTTAAACCTTTTACCCC
CCTGTGAAAAATCATGGAAGAACTTTTTTTTACCGAAAGCTCTACGAAAG
CAAGTGAACGCCAAAAAAACGGCAACGCGTTCACTTGCTCACAGAATGCG
TTTCTAAATCGAGCGACACAGGTACATGTTTAGCTATTGGGAGTCACGTG
ATAATCCAAGTGACGAGTTACAAAATGGCGATGCAAAATGGCGACATTTA
GCTACCTAGAAGCATGAGGGTTAACTGCTCCCTGCTCAAGGTGCGAGAGC
GCCCCTTCGGCTTTTGCGAGGAGCTGCACACATACATACATGCATACATG
CAAAGTCTCATGCATTCGTTGCGGGCGATACACACCTTTCAAGAACCTCT
CATGATGCTGTTTTGACAGCGCGCGTGGTGACGCCCTACGATACCTGCAT
ACCATTTGTAGAATTTCACATCACAGAGGAAAACGTACGATATGGTACGA
TATGATGTGATACTCTGGAAACCCCAGAGATGTTTTTTTTTTCTTTTTTC
TTTTTTTTTTTTAGATACACACACCGATCTCGATTACCATGATTGATTCG
CTCCACCAAGGTGTCCATGACAACAGACAGCAGTGTACCACTTTGCTGCG
CGCCCATCTCCCTTCTTGCTTACTTTCGCGATTCCCTTTTTTTTTGTGTG
CTGCTTCCCTTTTTTTTTGGTATACTGCTGTTATTTTCGCAGGGGCCCGT
TCGTTTAGGACCCAAATTTTGACAGTTTAATTCTTGCCGCCCGCCGTTCC
GGATTAACCACTGCTATACTGCAGCAAGTATTGGGTTTTGGATGAGGCCT
CCTGTCCCGGCTGCAGAGAACTACGGAGTACTATACTGTTGCAGCAAGTT
TGGGTTTTGGATGAGGCCTCCTGTCCCGGCTGTTGTAGAGAACCTATATC
ATATGATATACCCAAACTTCCCGTGTGCGCATCCTTTCTTTGTCCTCCTT
CTTGGCCGGCAACTGCTGTGGAATCATCCAACCCAAACTTTGCGTCATTT
ATCGCACGGCCCGCGCACTGCCCAGGCTCGACCCGTACCCCCGCCCCCCC
CCCTCCCCCAGGACCCTTCCATCAGCTCGTCCATGTCGCTGGGTTTGGCC
GGGTCCGTCGTGATCCTCGACGAGGCGCACAACGTGGAAGGCGTGTGCAG
GGACGCGGGGTCGCTGGACCTGCCCCTGCTGGACATGGTCAGCATGGCGT
CGGACCTGTGCGACCTGCGCCAGATCGGGGAATACGCGTGAGTTTTCGTG
CTTGGCTTGCTTGTGCACGGTTGGATTGTTATTGTTGTTGCTGGCGTTAT
CGTAGACTGTGGTGGCGGTGGTGGTGTAGGTGGTGGTGGTGGCGGTGGTG
GCGGGGGTGGTGGTGATTGTGTTCTTGTCGTGTTGGCGTTGGTGGTGGTG
GTGGTGGTGGTGGCGGCGGCGGCGGCGGTGGTGGTGGTGGTGGTAGTAGT
GGTGGTGGTGGCGGTGGCGGTGTTGGTATTCGTGTTGGCGTTGGTGGTGG
TGGTGGGGTAGTGGTGGTGGTGGTGATGGTTGTTGTTGTAGTCGTTTTTT
TGAAATTTCAGTTTACATGAGATGACCACGGCGGACTTCTCTTGCTGGCT
GGATCGTCGCAGAGGAGGGAGGTTCTGGGCCGTGAAAGTCCACAACGAGA
ACAACAGCAATAACAGCAACAACAACCGCCTAAACCGTAATATCATTTGC
CGCACATCGCAGGCCCAGCGCAGACGTGTTGCTAACGTTCGTGATGAAAC
TCCTGCACTTCACATCGACGGAGTCGCACACCTTGGAGGCGTTCGAGAAC
GAGACGGAATTTACTGATCCCGATGGGGACAAGAACGGCAACGAGGAAAT
CGTGAGACTTGTTCGCCATAGGGTATGTAGATGCTGTTACAGGAGAAGGT
TGTGAGGGAATTGTGAGACTTGTTCGTCGTAGGGTATTCATGTGGGGACA
AACAAGAAAGAGAACGAAGAAATTGTGAGACGTGCTTGCCATATAGGGTA
TGCAGCGACAAAAACGGCAAGGACGAAATTGTGAGACTTGTTTTGTCACG
GCGCATGTAGATGCTGTTACAAGAGAAGGTTGTGAGGAAAATGTTAGACT
TGTTCGCCACAGGGTATGTAGATGCTGTTTCGGGGGAAGGTTGTGAGGAA
AATGTTTGACTTGTTCCCCGCAGGGTATGTAGATGCTGTTGCAGGGGAAG
GTTATGAGGAAATCGTGAGACTTGCTTCGTCACGGGGTATGTAGTTGCTG
TGACAGGAGAAGATTGTGAGGGTGCTAGTGTGAGTGGTTGGTGGATGCTA
TGACGGAGGAAATTGTGAGATTTGTTTGGTTGTTTGGTTGTGGTAGATGT
TGTTTTGGACAAGATCGTGGAGTGTTTTTCATGATGGATGCTTATCATGG
AGGCGACTTCGAGACTGTGTGCCGTGAAAGATGCCGAGCAGAGGAGAATG
TGAGATTTGGCTGTCATGGTAGATTGTTATGGGAAAGGTCGTGATCGTCT
TTGTCTGGGAGACAGTGTTTTGTCGTGGTAGATGCGAATCATGAAGGAGA
ATGTGAGATTTGTTCGTCATGGTCGACGCCACTTTGGAGAAAGAGTGTGG
AGTTTTATCATACTAGAATGTGAGATTTGTTTGCCATGAAAATGTTTCAT
CATGAAGGAAAGCGTGAGATGTGTTCGTTGTTTGTGGTAGATGCACTCAT
AGAGAATGTGAGAGGGCTCATCCGGGAGTGGTGGATGCTATTTTGGAGGA
GATTGGTGTGATATTTGTTTTACAGTGGTAGATGCACGTCACACAGAAGA
TGATAACATTGAGGAGACCTTTGAGTGAGATTTTTTTCCGTGCTGCTTTT
CACAGAGGAGATCGTGATATTGCTTTGCCATGTGGTAGATGTTATGATAC
TACAACGACGCGACTGGATACGCATGAAAAGTGACGATTCGCCCACCAAC
CAGTCATGCAAAGGGGGGTATAAATAGCCATGCAAGAGCCCCTCGAGAGT
TTCCGGGCGGGGTTGGGAGAAAAATCACAGCTGTCTTGCGTTCATCGTAC
GCACACGAGCTCTGGTGAAACATACATTTTCAGCATTGTCCGACCAGGGG
CGTTTAACACGTACATCATACGAAAACGCGCCGTTCTAGGGTATCACTGC
GGCTGATGCTATCGCTGGTTGTTGTTGCGAAAACTTGGGCAGCAATTTAA
TTTGGCCTGTTCAACCCATCGACAACCCCCCCCTCCCCCCCATCTCTATT
ATCTTCGAGTTTGTTATGCATGACCAACCCCCCCGGCCCCGCCGCCGCCG
CCGCTGCGCCCCTGATCCCCCACTCGCTGTACCTGGGTTCCAATAATCCA
GGAAAAGCGCTGGGCGTGCGACGACGCTGGCAGCATCTTCTGGGCCGATC
TCGTCAAGGGCGGGGGTGTTTCAATAGTCTCGCATTCTACTCTGACACGA
GTGAGTTTCGTTGATTTTGTTTTAATACTTCGAAGTACATGTTATACTTC
GAAGTATACCTGGTACAGTATACTGAAGCGTATTTTTTTTGTATGTAGGG
TGCTGCATTTTACCGCACGCTGTCCTCTCCTTCTTGTTGCTGTTGCTGTT
GCTGTTGCTGTTGCTGTTGCCGTTGCCATTGCTGTTGTCGCTGCCGTTGA
ACCGTTTGTAGAGCTGTTGCCGTTACTGCTGCTGCTGCTGCTGCTGCTGC
TGCTGCTGGTGTGTGGTGAGGATGTCCTATGTACTGTCAGCCTGTCTGTT
CGTGGTCCGTGAAAACATAAAGCAAAATTTGTCCCGCCTACTATATTTAT
TGCTTGACGGGTGAGTCAAAACGTAACGTAAGGTGCGAGTAACGAAAAAG
TTGTTTTTTTTTATCGAAACGACAAAATATTTGCTGTTCCCCCCCCTCCG
CGCCGCAGGAATAATATCATACCCTCTTCCTCCCTTTTCGGCACATGTGC
ATACTATGGAGCTTCTGCGTTTTTATGTATGACACAATGTGTTACTCCAG
TATTTTTATTCTCGGCCGGAATTATTCAGGCGCACTAACCAAAACATAAT
AGCACCTAATTCCCCTTCCTGTGCTGCTGCTGTCGTGTCAAACAACTCAA
AAGAACAGATGTTCAACTCCGACCTCCACCCCCCCCCCCCCCCCCTACCC
CCTTCCCCAGCCAAGGGGGGTTCGACAAGTTCCTTTGCCCACATCCCCCC
ATATATATATACTTCGAAGTATATATATATATATTTTTTTTTTAAGTGGG
TCAGGGCATCACATCCCTTCCATCCTGCTGTCCGAAGAATAATTCACTCC
GAATCATGCGTTCTAAAAAAGGTCCGTCAGCAAGTAACCGCCTCCCCTCT
GGTACAAAACCAGAAAATCACGTCCGTCATCCCCCCCCCCCCAACCACCA
CCCCAACTCCCACCCCAACTCCCACCCCAACTCCCCTGAAAAAACTTACT
TTCAATACTTCCCACACGAAGGCGATGGAAGACCTCAAGGTATGCCTGCT
TGGACGGGGAGACGCGTCCCAGGCACAGGGAGAGGAGGGGGAGGAGAAGA
AGGACCAAGAGGATCGGGGTGACCCGAGCCAAGACGGAGAGCTGCCCAGG
CTGGGCATGACGCCGGCGCTCAACAGCCTGGAGAGGGTGGTCTTCGTGAC
CGGCCTCGCGCTGCGGACCCCCCACGACTACAACGTCAACATCGCGTCCT
GGGACAACGTGGACCAGCTCAAGCTCCCGGCGCACACCAGGTGAGGTATC
TCTCTCCGAGATACATGTGCGTATTTACGTGCACGTGATACTTCGAAGTA
CACGATACTTTCGTACGGTATTTTACTACAAATATTGCACACAGCGAATA
CTTTTAACGAATTTCACCACAAATGTTACACACAGCGAGTGATGATGTAA
TTCACATTACAATATACTGCACACACAGCGAGTAAAGGTTCATGCATTTC
AATAATATATACTTCAAAGTACGAAGTATTGCACACGGCGAATAATGTTC
ATGTTTTTGACTTTGACTTTGTTTTGAGTCGAATATTTTCGACGCGGGGC
GGGTTGTCGGAATTTGGTTGTTTTGAATTTCGCTGCAGTGTGCGGAGGCA
TGCAGGAGTGTACACCAAGACAGAGGGAGGGAGAGTACGAGCTGGGGCAT
TTCCTGTTTTCTCCTCGATTAAGGAAGCTACATATCATGGCTGCACGCGG
CCTTTGGCTGCCGCCAACAAAAAAAAATTACGGAGACAGACGAATGTCAT
GACACTGCCGTTGAGTTGTTTGGATGTGCGGAGACAGACGAATGCCATGT
TACTGCCGTTGAGTTGGTTGAATACGGAGACGAAAAATATCGCTTCGTAA
CAAGCCTTGTCATGAGAGCACACACGGCACGATCCCCGTGTGTTTACGAT
GCGAGCAGCAGCGGCGGCGGCTCCCCCCCCCCGAACCGCCATGTTGCTCA
CTTGTATCATATGTATATGTACCTCGTTGTCATTTTCTTGGTTTCGCCTT
ACTCCTCACCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTC
CCTCCCTCCCTCCCTCCCTCCCTCCCTGCCTCCCTCCCTCCCTCCCTCCC
TCCCATCCATTCGCACACGTTCGCTTTTGTCGTTTCATGCTTTTTTCTAT
CGGCCGCGCGCGTCCTTGGGCTATTTTTGTCAACCAACATACGTAACCAC
CACCACGACGATGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGTCGACAA
CAACGATGGCAACGACGACGGTGATGACGACAACACCACTACTACCACCA
TACTAATAAAACGATAAACGCGAATTACTTCAATAAAAATATAAAATAAA
AAAGGGCGTCCACGAGGCACGCCGCGTTTCATTGCCCGCTGCAGGCGTCG
CCCTTCTCGCGGTCCGGCTACGTTCCCGCCAAAATGTTCCGGCTCAGCCT
CTGGCTCATGGCTCCGAGCATCATCTTCGACGACCTGGCCGCCCAGGTGA
GAGAGAGACGGTTTTGCGGATGCCACGCACAGACGAACGTGGCTACTGTA
CACTCGACGGAGATGGCGGCAGAGGCTGTCATACACACGTAGATTGATGT
GGCCCATATGGTATACATATAAACCGTGGTCGCAAAATATACCGCGGGAC
CCCCCGCCTTCCCGCAAAAGACCCTCAAGTGTAGTCAACAGACTGTCCCG
GCGGGCCACGTGCGTGTTCTATGGTCTACTGCGCAACTTTCGGAGACCGG
ATGTGACTTGGATTTTTATGTTGTGGGCTCAATAGATAGATTGATGTGGC
CTTCATTTACTACTTACCGTGGTCGCAAAAGATATCGCGGGACTTGACCC
CGCCTTCGTCGATTTTGAGAGGTCGATTTACGGCGGTGCAGTGCTTACTC
CACAGGCAGGTGGGCAAAAAAAAAAAAGAGTGTATTGGTGTTGGTGCGGC
GTCGAAACAGGTGAAGTGATCGAGGGGTTGGAAACCATGAATCTCGGACG
AGAGCGTTCGTTTCGTCTCGGGTAGACGGACAAAGAGCACATCGTTCGAG
ATTTCGGTACTTGATAAAACGAGTATCATATTATGTCATGATTCATGCCC
TTCGTTTTTTTTTCGAGGATTCGTGTGATATGACGATGCTCTGGACTTCG
GTCGGGGGGTTGTGGTCGTAGATCATACAGTACCGTCCAGGCGACCACCG
TGTATCATGCTTGCATGTTTTTTGCACGTATCATTTCTGCATGTTTTTTG
CACATGAAACCGTCGTATCGGATGCAATGAATGCTGCTTTTGGTGCTGTC
TGCTTTGGTTTGGTCTTGGCATGAGTCTTCGTTTTTTTCGAAAGCAGTAC
CGGTACCACGCACCCTATTGGTCCTCCCACGGCTGTACGTACGACGACGA
AGTACCATCCTCGCTCCCCCCATCCCCACCCCAACCTCCCCCCCACACAC
AACTACCTTTTCCCCCTTTGCCGTAACGCCGCATCATCTCATGGAAGCCC
CCGCTCCTTGATTCTAAAGCAGAGACGCCAAGGGCCTTTCTGCGTGCTGT
ACAAGCAGCAGTGTTGTGCATGTCGAACCCTGCGGCTATCAAACGTACGG
TTTCGAGTTACATACGAAGTGAAACCATCGCCCCTCCCGCTCTCTCCTCC
TCCTCCTCCCCCTCCCCCTCTTCCTCCTCTCCCCTTTCCTGCTTCATCGT
TTCACTTGCCGCAGTGGTGATGCTGCAACATCACCGTGTTTTGACGCGCT
CCGTTATCCTGACGAGCGCGACCCTTTGGCCTATGCTGTACAAGCTGGTC
CGGCCAAGAAGCCCACATTGTGTCAGATGCTCATAACTTTGCCGCATTTA
CGATTCATCTCAAAGCAAAGACATTGCCGTGATCGGCAGACTCAGGCGCT
GATGATGGAACTCTGTATCAGTTCATAGCGGACGATTCTCCAATCGAAGC
ATATTTTGAGGCTTGAAACCGTCAAAAACCATCAACAATAAAAACAAAAT
GCGGCGAAATTACGCAATTCGGAGCGCATCAAGGCACATCACAGCAGCAC
ACCTCTCTCGACAGCGCGCTGTGTATGGCTACGGACGCGCAGAACACCCA
GCGGTGGGAGAGTACCTCTGCCCCCGTGATAAATCATGACAAAAGTGCAG
ATCGTTGGCGACTCGAGCTGAACCATACCCCCAAGAAGAAGAAAACTGCG
AGGAAGAGGTCCGCATGGTACACCACGCGCGAGGAGGCTGAAGTATTTCG
CCCATTTTCCACTCACGAAGGCAATTTTGAAAATCGACCACGCGCCGCTG
GTTTTTTCGAGTTAAAACTTAAAATTTTGAGACGTTATTTGAAACAATCT
CATCAAGACACTATCGGAAAACCCTAAGCGTTTTTTTTTTTTCGCCGACT
TACGCCCGTGTTTGTATTCCTGAAAAAGTGGAAGTTGGCCGTAACTCAGG
AAAAAAAAAAAACAGTGCTTGGGGTTTTCCGGTGTCGTCTCGGGGAGAAC
ATTCCGAATCACGTCTCCAAATTTTAGGCTCTACCTCGAAAAACTCGGCG
GCGCGTGGCCGTATTGGCGAGTCCCAGCTGTCTTGGCCGGACCAGCTTGT
ATGGTACACATGATGTTGATGTTAAAGCTTCCATCGCTATCATATCATAC
CCCGCCCCCCGTTCTGCGCCCCTCTACTCTTGCCCTGATCTCCTGTACCC
GTTCCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTATTTCT
TTCCTCTCTCGTTCCCCCTCACCATGTCGTCGTGCCGTGTCGTGTCGTGG
TGGTGCTATATAGACGCACTCGGTGATCCTGACGAGCGGGACGCTGAGTC
CTCTCCACTCTCTGAGGGCCGAGCTGGGCCCGTCTTTCGGTCAGCGCCTG
CTGCCCTTCCCGCAACAGGCACGTTGAACGACTCGAAATTAAAGAAATAA
AAGAAAAGGGAAGGCGGGGCATGAACTGGAACAATAAAAACCCGTCAAGA
ATACGAGACTGTATATATGTTTTTACGTCTGTAAAATATGTTTCTATGTT
TGTTTGTATGTATGTATGTATGTACGTACGTATGTATGTGTGTATGTGTG
TATGTTTGTATGTATGTGTGTATGTATGTATATGTATGCATGTATGTATG
TATGTTTGTATGTATGTTATGTTCGTACTGCTGTTTGGTGTACGTAATCC
GTGCTAGAAACTAGAAACGCCGATGACACGTGTAGCATAGAGATTCTTCA
CACTTTCGCGCACTAACTACTGCTGTTGTTGTGTGTGTGAAGTTTGCGTT
TGTACACTTTGTCGATTTCTTTTTTTGTTCTTGCGCTTTTTGGTGCACGC
ACCGCCTCCTTGGAAAACCAAAAGGCTGCCCTCTCTCTCTGGCGTTTGTG
TCCGTGTCTGTGTCCGTCGGCGCGCGTGTCTATACATCTGTGTGTGTCTT
GTTGTAAGCGTATGTCTCCGTGTGTATGTGGTCGTCCATGCTCCGTGTGT
GTGTGTCTTTTTCTCTGTATGTGTGTTGTGTCTTTTCCTGCGTGTCTCCT
TGTGTACGTTGGTCGTCCATGCTCGCGAATGCGCGCCCGTGCTCGTAATC
GCTGTAAATTCGTAAATTCCACGCATCCACCCACCCTCACACCCTCTGAC
ACACCCACCCACCCACCCACCCACCCACCCAACAGGCACTGGAGGCGAAT
CACGTCATCAATCCGAGGGGACAGCTTAGGGTCATCCCCGTGTGGAAATC
CCCCGGCGGAACAACTCTCACGTGAGCGAAACAGAGAGAGCGGGGAGGAA
AAACAAATATTTAGATGGATGGAAGTGCACGCCAATGACGCACGTATGGT
GTATCAAATCATGTTGACCGGCCAAAACCGAGGCCCATTCAGTAACACTC
AGGAAGGGCCCCCCGTTCTTGGAACGGCTCTCGACGCACACTACGCAAGA
CTTTTTTTTTTAGATCGAATGTATTTGCTCGTTCATCAAGCTTGCCACGA
GCGACATGCGCACATCGACAGCAGTGGCCCCCATCCATTCTACGGAAACG
TTGCGTCAAGAAACAACTCTCAGAAATAAACGCCCGGTTGTGGAACAGAA
CAACACGAACGCACGACTCTTTCGTTCATTGTCACTGATGATACACGTCG
TGTTGGTCCTCCGTGTATCACAGTGAAGCTGCTTCAAAGACGGCAACACG
CACAAGCACCTGTTTCTGGTTGGCGTCGGACGAATGATGATAGCGATATG
ATACATACCATATGTATGTCTTTTCGATTTCACAATGCGACGAATGCTGC
GTGCCGTATCAGCCCACCCAAAAAAAAAAAAAAAGCTGCACGTCTTTAAG
GTACGTACAGCACAAAGGAAGCACCACCCCGTTTATGAAACGAAAGGTCG
GACAACGTTACAGATCATACCATACGTGTGTCACTATACGCTGTTTGTTC
ACTCTGCCACGACTTGATGCATGCATGCATGCATGCATGCATGCATGCAT
GCACGTCGTGCTTGGGTCCTCCTCCCACCGCACCAAACAAAATAAAGGTG
CGTCAAGGACAACATGGTGAAGGACCCGTTCTTGTTCGAGATCGGACGCA
CGATCGTTGCCCTCGCGGGGCACATCCCGCAGGGGGTCCTCGTCTTCCTG
CCGTCGTACAGCCAGCTCCGCCGGGCTGTGGATCTCTGGCGCAAGAGCGG
GGTGAGCGGCCGGATTATTCGTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGATTCTCGCTGTCGTTGATTCTCGCACTAGTCGTCGTCGTTA
TTGTTGTTGATTCTGGCATTAGCTCACCGCCAAAAGTCTAGCCGGTGGTC
ACATTCCCGACACATACCGTGCTACATAAGGCGACACGAAAATAAAAATA
AAATACAGTAAACGATTGTCACCCAAACAAACAAAATCAGAAATCAGAAC
ATTCACCCAGACGAAAGTCGCCGAGTTGTTGTTGTTGTTGTTGTTGGTGG
TGGTGGTGTTGGTGTTGGTGTTGGTGTTGGTGGTGGTGCTGGTGATCATC
ACATTCACTCACCACCGAAGTCGAGCCCGTGGTCACAAACGCGGCACCTA
CCGTGCTATCATCTACAGGGAAATAAAATAAAAAACTACTTTATGTACGT
ATTAATAGGAAATCAACGAGGGTCACCCAAACAAAGTCAGAAATTAGATA
TAGCACCGTTAGGGTACCGCCTGTGGTGGCCAAATCATACAAAAAAACAG
AAGAAGCAGGCTCGAAAAACAAAGATGATAGGAAAACAAACGAAACCAAG
ACGAACCATAATTATCTAACTCCGAAGCAGAGCGCAGAATCAACACAACC
AAAGCCAGAACCAGACAAACCAAGCAAGGAAAACTAGAGCGCAGGGTCCT
TGCAAGAGAAATTTAAGGGCAGGAAGACGAAACGAAAGACGAAAAACGAA
CAACGAACGACAATGGGGGTTTGCGTTTGTGTTTTGTGTTTTGTGTTTTG
TGTTTCGTGTTTTGTGTGCGTGTGCGTGGTGCGTGGTGCGTGGTGCGTGC
GTGTTTCATCCCCTTTTGTTCTGGGCAACAGTCTACGCCTTTCGCTTTGA
AGTGGGTGCACCAGCCGGGGTGGTCACACAGACGGAAGGAAGGTCACGCA
GGAGATTTCTTCTTGTTTTTTTTCCTCCACCCACCTTCTACGGCGCTTTG
TCTTTTTTTTTTTTTGGCGAGAAGAAGGGTTCAACTACCGGTATATCCTT
TACCCTCGTCGGCTGTTAAAAGTCGAATGTGTTCGTAATCTCACGACATG
TGACAGCCGTCGTTTTCCACTCCCAAGAGCTATCTCGAGAGAAGTCCGAG
ACCGTGGGATTTCACCGGGATTCGAAGCCGTGTGTGTAAAAAAATACTCC
GGAGTATGCAATTTGTATCATGCGCATGATACTGTACGTAGTTGTTGTAA
ATCGGGTGCTCTCTGTGTGTGGTGTGTGTCTGTGCGTGTGTGTGTGAAAT
GAAAAGAGGCGTGCGTGCGTGCGTGCGTGCGTGCCCTCTTTGGTGAACTT
GCGTTCGGTCTTTTGCTGCCTGTTTGTTTTGAGGTGCTTTTTTTTTTCTT
CCTGGCATTAGTTTTATTTGTTATTATTATTTCGACCCGTTTCTTTTGTT
TTGCTTTTTGACTGCTGGAGCTATTTTTATTTATTTACTGCATTGATGGC
ACGCCTGTCTAGTTACCGTAAACGTCGGAGTTTTCCCCCCGGAGGGGGGA
TCTTTTTTTCGGCTGAAATCAAACCCCCCGGGGGGAAATTGACGTACCGG
GGGGGGTTGGTAGTTCTCTTTTTCCCCATGCTACCCCGGGGGGTGTCTAC
CCCGGGGGGTTGTGCAGAATAAATGGTGGGTCCTACACACACAGAGTTGC
AGACCGAATGAAACGAAGTATTTTTCAACCGTGTTTGGCAAGGTGTGCCG
GCATTCTGCGGTAATGTGTTTTGCCGTGACTCCAGGGATAACAAATGCAA
GAACACAAAAACCCAGCGCGTAGTAGGTACCCTGAACACAAAGTGGCATG
CCAATCGGCCGCGGTGTAACACACATCTCGCTCGAAGCGCAGAGGTCAAA
ATGATTTTTCTGGACCATGTCATGCTTTTGTGCTTTGTGATGCAAAAAAA
CGACTCAAGCACACGTGAAATACATCCCCCCCGGGGGGAACTCGTGAAAA
AAATGTACCCCgGGGGGAAATTGACGTACCCCGGGGAGCTTTTTTTTTGG
CGAAAACGATCTACCCCGGGGGTAAATCAAAGAATGCACGGTGGCAGGCT
GAAAAGGTAATGGGGGGGGGGGAAACTCTAAGGGGGGGGTTAATTCCGAC
GTTTACGGTAGTTTACATAGCCAACGTGCTGGTCTCTTGTATGAGCTTTT
GTAATTTTGTGTGGGAAAAAGAGGCTAACAATAGTGAAAAATGTGGCACA
CATCACATTTCAAACTCCACGATATCCTCGAATGAATGTGCATGGATGGA
TAGATGGCGAGATGCAAAGGCACGCAGTAACGCTTCGGTGCTGCGGGCGC
TCAACAAGGCGCTTCACACGTGCACACACACACACACACACAACTCTCCT
CGGCGGCCGCCGGGTGCCAAATCAGTGGGCGTTTTATTTGTGCGTTTGTG
CGTGCCGTCGAACAATATATGCATCACTCCGAAGTATACATACAGCAGCA
GCAGCAGCAGCAGCAGCAGCAGCAGTAGTGGTAACGCCTAGCAGGCACGA
CTTCGAAGAGGGAGGGAGAGTTTGAGAGTGGAAAGGAAACTGTTGTGGGG
TCGAGAGGAATGGAGGGAAGGGCGGGCGCCGCGCCGGTAGAACGGAGGGG
GGCATCACAGCGAGGGAAGATGAAGGTTTGGTGTGCGAGGTGGACCGATA
TGTAGGGACAAATACATTTTATCGCACGAAGGGGCGGGGGCATGTATTTT
TTCTTTTTTATTCACAAAGGAAACCTTAAAAAAAAGAAAGAGCGCATTTT
ACTGTTTCTTACGGCTTTCTTTTTTCAAGTGGTTTTTTTCGCCTGGTCCC
TCCCCAAATCCAGAGTGCCCAAACGGCTGAAAAGGCTACTTTTTGGGCAC
AACGGCAGACAGCACCAACCAGAACCCGGCCCCTCGGACAGCAATTGCGA
TCAAACCTGCTGGAGCGTGCGCTCCAAGTTTTCTACGATGGGCCACAGCA
AGTTTGGTTCGTGTGGCCGTTGGCTGTGGCGAGGTTCTGGCGGCGGTGTT
GTTTGGGGTAGGGAAATTCGGTGGACATATTTAGGTCGAAATCAAGCTCG
AACGACCTACAGTATTATTTCTGTTTCACCGAATACTTCTCACCTCAACA
CACACCGCCGGCATAAAATCTCGGCACAGCCAAAGGCCACACCTACCAAA
ATTGCTGTGGCCAACCTCATAACACGGGAGCGCACGCTCCAACAGGTTTG
ATTGCTGTTGTTGGTGTCCCAGGGGTCGAGTCCTGGTTGGTGCTGCCTCC
TGCTGTGGTCAACAGGGTCGTTCAGAGGGGGGGTTATCTGGTTGAATTTG
AGCGGGGGGGGGGGGGGGTCTGTCTTAAACCAAGACAAAATATCCGTGAA
TCGCAAGCACCAGCCTTAGCACTTAATGAAGTGTACGAAGTGTATCGCTA
TGCGGGGGCGTGAAAAATGCTTCAAAGCATATTAAGTACTGAAAAGCATG
CCGAAGTCTACGTCCCTTTTTCTTATGGTTTCCTGGCAGCAATCGAGAGC
TCAGTTTCATATAGCTGCTGCTGCTGTTGAGAGGCTGTGGCCCTGGAAAG
ACGGCAAACATTCCTACATTGTCCACCGTACTCATTTATACAGCACCCTT
CGAAGTGGTACGTACATACGATATGGGAGAAAAATTACAAACTTTTTTTT
TCCCGACGAAAATTGAAACATGACGTGGTTTCGCCCTGAGACGACTTGTA
AGACTGCATGGCTTTGGTGTTTGTTGCTGTGGATCGTTTTGTGGTTTCCT
GGCAGAGGTCGATCCACCTGCTCGTTCCCGACGCTGCCGCTCCGGTCTGA
AGCGCAGGCACTTTTTGTCCTACACAGCAGTGTTTCATCTCGACAGGAAC
GAACGACGCGGCCGAGAAAAACTGTGCACCTCGAGAGAGGGCGGCTTTGT
GTGTTCATAGAGGGACGCTGCTGTTGTTGTTGTTGTTGTTGCTGCTGCTG
CTGCTACTGCTGCTGTACTGACAACACAAGGTATACTGGCATCACAAGGA
AGAGGATGATTATTGAAATCCGGGTGTAAAAAATATCGAAATATCGAAAT
ATCGAAATATCGATGCAAGCCGGCGAGTTCTTGTGGTGTTCCTGGCGTCC
TCCAAATCCCACGTCTTTTGCGGTTTCCTGACAGGCATGGAGCGACAGCA
CAAACACACACACACACACGCACATGCACACGCACAACATCGTGGCGAAG
TAACCAAAGGTCATATCTCACGTAGCAACAACAACAACAACAACAACAAC
AACAACAACAGCAGCAGCAGCAGCAGCAGCAGGAGCAGCAGCAACAACAC
CAAACAAGAGCGGGCACCACCAGCGGATCACTCGCGTATCTGTGGACCAT
CCCCGCATTACAATAATGCGCACGCCAAGACAATTTTGTTTTGTTTTTTT
ACTTTGCATGATACCCCGTATGTAGGTGCTGTCGCAGCTGGAAAGGTGCA
AGGGCGTCATCGTGGAGGAGCCGGTGGCGGCGGCGGAGTTCAAGGCGGCG
AAGTGGCGTTACGAGAAGGCGGTCAAGGGGCCATCCGGGAAGGGCGACGG
CAGCGCCGTACTTCTGGCGGTGTTCCGTGGCAAAATGAGCGAGGCGAGAC
AATTGTTTTTCTTTTTTCTCGAAAAATATTGTGTGGTTTGATTTTTTTTT
GCTAGGGGTGGGGGGGTGAGGAGGGTGGGAAGGTTAATGCTGGTGTGCAG
CAGCGTCTTGGTCTTTCTTCCCCCAATTGTCGACTGCTGTTTTTGACGTG
AGCGAAGCCAGGGACGTGTCGTGCGGCTCTCCTTCCTCTTGTGTCTGTGT
TCTTGTCACCGGGGGGGCAGTTGTCTCTGGCTTTGGTCTTGCTTGCCGGC
GATAAATTCGTGCGCGCGTGAAGTAAGAGAGGCGAGAGAGGCGTATGTAG
TGTGTGACGATGTGACGATGTCTGCTTGAATTTTTTATTTATTCATGAGG
CTCGACGGAGAAAAAAACAAATTGCTGCTGCTGACGTTTTGGACTACACA
CAGGGTGAACCGTCTTCTGAATATCTCGAACACTTGTCTTTCACTCAAGC
ATGTACGTGCAGACTACAGAGTGGATGAACAACCTGCCTGAAACGGTTCG
GACAGTTGGCACATCTCCGAAGCTCCGCGGTGCAGAGCGGGGGTGTCCCA
ACCCCCGCGAGATGGCATGAAGTTGTTCGCGGTCGAGCAAAAGAAGCTGA
CCCGTCCTGCTTTACAGCAGTGTTCGCTTTGCGTATCAATCAAGTACCAC
TTCGTATTATATTTTCCTCCTAGCACGATGTGTGTCTGGGTTGTGGCCAC
GGGCTAGGCTGTGGCGGTGAGCTTGCGTCAGAATCAACAACAACAACAAC
AACAACAACAACAAAAACTACAGCAGTGGGCATATCAAAAACAAGCATTA
TAGCATTCATATTACACATAATTGCAGTAGTGGTATAATATCACACACGT
ATGTTTTATCCCCGTTCGATGTGGGTAACACCCATGCAATAACGCAGATC
GCTCCCTAATAACTGGAGAACACCATCACGTATCGGTGTCCACGTCGCAA
AAGCGCCTTGACGTCGTGCATTCCCCCTGTTTGGTTCGTGTGTAAACTTT
TTTTTCATTTTTTTTCGTTGGTTTTACAGTGTTGCTTTCCTGCTGGCACT
ACTTTGTAGCGTGAGCTGTGCGACTTCTTGTACGGGCTAGGTTTTCGCGA
TGAGGTCGTGTATGAAAATCATCGTGATCATCATCCACAAATACAACAAG
AACAAGAACAACAAGAACATGAACAAGAACAACAACATTACACACAACAC
GCCAGACTCGATGCCGTGTTGGTTTGTCAAAATGTTTTTGGTCGCCCTTG
AGCTACCGAACGGAGGGAAGTGGCGCCTCACACCTCGGAAGCCCTTTTGA
GCCCATCTTCTTCACACGGCACCACGCGATTTCGTCTTTGTTGAAGCTTT
CGCCAAGACAAAAAACACTTACACTAGCAACGGCGGGCGAAAGAGGAGAA
GGCGGGGGGGGGGGTGGGTTACGAAATAATTCGGGTGCGGCAACTCCAAA
ATGAAATGTTACGGTAAAATAGTCTTCTTGTCGCAGGTTTATATTAAAAA
GCAAAGATCGGGCGGTACGGCAGTGAAGGAGTTTAGTGGAGAGGCTGCCC
TGGTGTCAGGAGCGGCGCTGCAACTTGAATCTCGCCCGTTAGCTAGCTAG
ATTCGGGGCGGCTATACTGTACTAGAAAGCCTTTTCGGACGAAAAAAATG
CCAGGTTCCAAGTTTGACCCGGTGTTGTTCAGCACTTTCTGTGCAAAGTG
CCGGTTGACGCACTGTCTGTATTGTTGTACACCTTCACCCTTCACCGCAC
CGTCCAATTTTTTGTGGCTGTCTTTGGCAGAGCTATGTATGATATTCGAT
GACAAAACATTCGACAGGAGCACCGGTGGTCGACGGGCATGGGCCACCCC
GTATGCTTCCTTCGTGTGCAATATCGTGACGCTCGATGAAAACATTCCGG
CGCAACTGGAACACTCACATCGCGCGCGGGGAACTTGCTTTCTTACCCCC
CCCCCCGCCCATATGCATGCCTCCTTACCCTTCCACCTCCATACGGTCCA
ACGGCTATGCACGTCACGCAACTGTTGTTATCATTGTTGTTTCACTTCAT
CGATCAGGGCATCAGCTTCAACGATCACTTCGCGAGAGGAGTCCTGTGCG
TGGGCATTCCCTTTCCCAACCTCGTGGACCCCAAAGTTGAAGCGAAACGC
CTCTACAACACGTGGAAAAGCTCCGGCACACGCCCGAGCGACCGAGAACA
CGGAGGTGCTGGTCCCCGGTCGTGGCCGGCCATCTGCGCCGCCGGCGACC
ACCACTACGGCAGTAACGGCGGTGGCAGCGGTG
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Coding sequence (CDS) from alignment at P-littoralis_Contig121:316754..344536+

>mRNA_P-littoralis_Contig121.80.1 ID=mRNA_P-littoralis_Contig121.80.1|Name=mRNA_P-littoralis_Contig121.80.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2784bp|location=Sequence derived from alignment at P-littoralis_Contig121:316754..344536+ (Pylaiella littoralis U1_48)
AGCCAAGGTGGTGAGGGCGGAGGCGGCGGCGGCGGCGGCGGCGATAGTGG
TGTGGGTGGATGGGGTCGGGGGGGGAGGCGGCAGGGGCGGCAGCGGGGGC
GGCCGCCGCGATCGAGGCCAAGCTCGAGCAGCATGCAGGAGTCCTGCCAG
GCCCTGAGGTCTAGGGTCGATCGGCAGAGGAAGCACAGCAAACACCTCCG
CGTTCCGGGCGGCGGAAAAGCGAAGTACGACCAAGAGGCCCCCGACCTAA
GGCTAGACCTCGCCAACATCGAGGGCAGTCTGACAGAGGAGGAGAAAAAA
CACGCGGGCTGCCCATACTACCGCGCCATGTCCGCGACGAGGGTCGCCGA
GCTCGCACACGGGTACGCCCGGCCGGGGGTCGGCCTCGCCGAAGGTGCCG
ACGGCAACCACGACATTGAAGAACTCCGAATGTTCTGCGGAGATCCTATC
GGATTCTCGGAGAAGAAGAAAGCTGAGCGAAAACAGAAGCGTAGCGGTGG
CAGCGGCGGTACCGGTGGCACCGGCGGCACCGGCGGCACCGGCGGTAGCA
GTGGCATCGGCGGAAGGTGTGGCGGCACCGGCGGGGGGTGCGGCAGCGGG
GGGTGCGGCAGCGGGGGGTGCGGCGGCGGCGGCAACGTGAAACGAGAGCC
TGGCCTCGCAAATCCGCCGGCTGACGGTGCCGGTGGTGCTGGTGCTGGTG
CTGGTGCTGGAGCTGGAGCTGCTGCTGCTGCTGCTGGCGCTGGCGCTAGC
GCTGGTGCTGGCGCTGGTGCCGCCGTTGTTGCCGCTGGCAACTCCTTGTC
GGCTAGGGCGCCGCCGGAGTACATAGACCTGACGTACGGCAGTAGCTCCG
ACGATGACGATGATCACGTTGACGCGGTGTCGGGAACGGTGTCGGGGGCG
GCGGTGTCGGGGGCGGGGGACGGGTCCCCGGCGGCAGCGGCAGCGGCAGC
GCTGTGGCCAAGCGGCAGCGTTTCCACAGAACAGGGGCGGCCGCCGACAG
CAGCAGCGGCAGCAGCAGCGGCAGCAGCAGCGGCAGCAGCAGCGGCAGCA
GCGGCAGCATCAGCAACAGCAGCAGCGGCAGCAGCGGTAGCGTTACCGGG
CGGGAAAGAGGAGGAGAAGGAGAACGTGGAAGAACCTCCGGTGCTCGCGT
GCCCGTACTTCCTGGCACAGGCGCTGGCTAAGCAGGCTCAAGTCGTCTTG
TTGCCGTACAACTACGTTCTGGACCCTTCCATCAGCTCGTCCATGTCGCT
GGGTTTGGCCGGGTCCGTCGTGATCCTCGACGAGGCGCACAACGTGGAAG
GCGTGTGCAGGGACGCGGGGTCGCTGGACCTGCCCCTGCTGGACATGGTC
AGCATGGCGTCGGACCTGTGCGACCTGCGCCAGATCGGGGAATACGCGCC
CAGCGCAGACGTGTTGCTAACGTTCGTGATGAAACTCCTGCACTTCACAT
CGACGGAGTCGCACACCTTGGAGGCGTTCGAGAACGAGACGGAATTTACT
GATCCCGATGGGGACAAGAACGGCAACGAGGAAATCGAAAAGCGCTGGGC
GTGCGACGACGCTGGCAGCATCTTCTGGGCCGATCTCGTCAAGGGCGGGG
GTGTTTCAATAGTCTCGCATTCTACTCTGACACGAGCGATGGAAGACCTC
AAGGTATGCCTGCTTGGACGGGGAGACGCGTCCCAGGCACAGGGAGAGGA
GGGGGAGGAGAAGAAGGACCAAGAGGATCGGGGTGACCCGAGCCAAGACG
GAGAGCTGCCCAGGCTGGGCATGACGCCGGCGCTCAACAGCCTGGAGAGG
GTGGTCTTCGTGACCGGCCTCGCGCTGCGGACCCCCCACGACTACAACGT
CAACATCGCGTCCTGGGACAACGTGGACCAGCTCAAGCTCCCGGCGCACA
CCAGGGCGTCCACGAGGCACGCCGCGTTTCATTGCCCGCTGCAGGCGTCG
CCCTTCTCGCGGTCCGGCTACGTTCCCGCCAAAATGTTCCGGCTCAGCCT
CTGGCTCATGGCTCCGAGCATCATCTTCGACGACCTGGCCGCCCAGACGC
ACTCGGTGATCCTGACGAGCGGGACGCTGAGTCCTCTCCACTCTCTGAGG
GCCGAGCTGGGCCCGTCTTTCGGTCAGCGCCTGCTGCCCTTCCCGCAACA
GGCACTGGAGGCGAATCACGTCATCAATCCGAGGGGACAGCTTAGGGTCA
TCCCCGTGTGGAAATCCCCCGGCGGAACAACTCTCACGTGCGTCAAGGAC
AACATGGTGAAGGACCCGTTCTTGTTCGAGATCGGACGCACGATCGTTGC
CCTCGCGGGGCACATCCCGCAGGGGGTCCTCGTCTTCCTGCCGTCGTACA
GCCAGCTCCGCCGGGCTGTGGATCTCTGGCGCAAGAGCGGGGTGCTGTCG
CAGCTGGAAAGGTGCAAGGGCGTCATCGTGGAGGAGCCGGTGGCGGCGGC
GGAGTTCAAGGCGGCGAAGTGGCGTTACGAGAAGGCGGTCAAGGGGCCAT
CCGGGAAGGGCGACGGCAGCGCCGTACTTCTGGCGGTGTTCCGTGGCAAA
ATGAGCGAGGGCATCAGCTTCAACGATCACTTCGCGAGAGGAGTCCTGTG
CGTGGGCATTCCCTTTCCCAACCTCGTGGACCCCAAAGTTGAAGCGAAAC
GCCTCTACAACACGTGGAAAAGCTCCGGCACACGCCCGAGCGACCGAGAA
CACGGAGGTGCTGGTCCCCGGTCGTGGCCGGCCATCTGCGCCGCCGGCGA
CCACCACTACGGCAGTAACGGCGGTGGCAGCGGT
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