mRNA_P-littoralis_Contig1003.13.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1003.13.2
Unique NamemRNA_P-littoralis_Contig1003.13.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: D7FRA5_ECTSI (Kynurenine 3-Monooxygenase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FRA5_ECTSI)

HSP 1 Score: 635 bits (1638), Expect = 1.100e-220
Identity = 319/460 (69.35%), Postives = 374/460 (81.30%), Query Frame = 3 
Query:  273 STSDELSLAKQRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKKKTNTFFRGSSSVCRGDFAKALLNKASKTPNINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPILNMEGADESWTSRFHVTNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGSEGPSDEIANDFLERTRPQHLRTTYCSSLAHKHTVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGGRSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQAAVNNGLIFGGLAFAVTGVVVKV 1652
            S+S++ + +KQRA+IVGGGPAGALMALYLSQ  RGF+VDLFE   E+ I GPTVRSWN+V+F RGS AL+AGG D+QKE G+  +T+ GS+RHH K+KT+ FF  S S+CRGDFAKALLNKASK PN+NVH+  TFS +D E+R+ATFERG+G +VES YDML+GADG NSRVRK LEE VPDFTVRQR+D MAFKTILIPI+NMEGADE W  RFHVTNS IGC++ PPRSDGMLT  V+LP+EGKTSF ALMKTTQDVRDFF  +YP AFG EGPS+E+A +FLER R Q LR+TYCS LAH    LIGDAAHSMWASLGQGVN+ALEDCQ+ A+VLDS  EG+ V +AVD+PKVLEAY++RR EDA A C LSE GMGG RSMRPAF AQ+L+TV+LNKTLG LAPKVF PP+LM++S   + YG ILR VKR+A V   L   G+  AV  V  KV
Sbjct:    3 SSSNQPAGSKQRAVIVGGGPAGALMALYLSQD-RGFKVDLFEAFDENIIGGPTVRSWNVVLFDRGSDALKAGGVDLQKEAGERLLTLAGSLRHHKKEKTSKFFLDSLSICRGDFAKALLNKASKVPNVNVHFGCTFSKVDMEQRVATFERGNGDVVESEYDMLIGADGVNSRVRKELEENVPDFTVRQREDPMAFKTILIPIMNMEGADEGWKKRFHVTNSDIGCIIAPPRSDGMLTATVVLPSEGKTSFDALMKTTQDVRDFFGHYYPSAFGHEGPSEEVAKEFLER-RTQQLRSTYCSRLAHGSIFLIGDAAHSMWASLGQGVNAALEDCQVFAQVLDSATEGKAVGQAVDVPKVLEAYNERRFEDAVAVCELSEEGMGGARSMRPAFAAQLLMTVLLNKTLGLLAPKVFTPPSLMAISGNKMSYGEILRGVKREATVTKALFVAGVVCAVAVVARKV 460
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: D8LSX9_ECTSI (Kynurenine 3-Monooxygenase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LSX9_ECTSI)

HSP 1 Score: 219 bits (558), Expect = 1.030e-63
Identity = 107/152 (70.39%), Postives = 121/152 (79.61%), Query Frame = 3 
Query:  681 SSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPILNMEGADESWTSRFHVTNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGSEGPSDEIANDFLER 1136
            SS  +  R+A FERG+G +VE  YDMLVGADG NSRVRK+LEE+VPDFTVRQR+D MAFKTI IPI+ ME ADESW  RFHV NS++GC+   PR  G LT VVILP+ GKTSFGALMKTTQDVR FF +HYP AFG EGPS E+A DF ER
Sbjct:    6 SSPSSRGRVAIFERGNGDVVEVGYDMLVGADGVNSRVRKSLEESVPDFTVRQREDHMAFKTIEIPIMGMEEADESWKERFHVINSEVGCIGAAPRPGGKLTAVVILPSSGKTSFGALMKTTQDVRGFFGRHYPSAFGGEGPSVEVAKDFHER 157
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: UPI001BAE8264 (FAD-dependent monooxygenase n=2 Tax=Acaryochloris TaxID=155977 RepID=UPI001BAE8264)

HSP 1 Score: 224 bits (570), Expect = 1.220e-61
Identity = 156/438 (35.62%), Postives = 230/438 (52.51%), Query Frame = 3 
Query:  300 KQRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKKKT-NTFFRGSSSVCRGDFAKALLNKASKT--PNINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPIL-NMEGADESWTSRFHV-TNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGS---EGPSDEIANDFLERTRPQHLRTTYCSSLAHKHTV-LIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQ 1583
            K++A++VGGGP G L+ALYL+Q    + V ++E+   D  +    RS+NIV+  RG  ALE  G  +  E    HV + G+IRH  K  T     R S SV R   A++L+ +       NI  ++D T   ++ + + A F+   G+  E  +D+LVGADG +S VR ++   +  F VRQ  D M +K   + +  N+ GA   W   FHV   ++   +  PP +DG +  V+ILP EG+ +F  + +T  D+   F    P  F +    G   + A D L +       TT C+      +V L+GDAAHS+W SLGQG N+ALE C+I AE L ++A+G       D+   L AY+  R  D  A   LSEIG GG  R+    FMA++   ++++K L    PK F+  AL  +   DVPY  I R+ + Q
Sbjct:   15 KRKAVVVGGGPTGTLIALYLAQAD--WNVSVYERRSVDTKASSNRRSFNIVLNRRGLKALEDAGVQLPPE---QHVYIQGNIRHTEKDSTLRKGSRNSVSVDRHTLAQSLITEGKNRFPDNIQYYFDQTLLQLNIQDKSALFQEASGQH-EEKFDLLVGADGISSTVRHSMSSQLQGFEVRQHADNMMYKICNLGLAENLPGATAGWADAFHVWPGAEPVTMAAPPSADGFIRAVLILPQEGEITFDTI-QTEADISALFKAKLPVVFHNLDQTGLPPDFAQDLLSQKAAHGGFTTLCNRFEDGDSVVLLGDAAHSIWPSLGQGCNAALESCRIFAERL-AQAQG-------DLSLALPAYTRVRKPDTDAVARLSEIGFGGNKRASNSLFMAKVSTLMLMHKLL----PKWFKGYALFQMGDADVPYADIWRQAQTQ 433
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: B0C034_ACAM1 (FAD_binding_3 domain-containing protein n=1 Tax=Acaryochloris marina (strain MBIC 11017) TaxID=329726 RepID=B0C034_ACAM1)

HSP 1 Score: 222 bits (565), Expect = 6.260e-61
Identity = 158/443 (35.67%), Postives = 230/443 (51.92%), Query Frame = 3 
Query:  288 LSLAKQR-AIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKKKT-NTFFRGSSSVCRGDFAKALLNKASKT--PNINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPIL-NMEGADESWTSRFHV-TNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGS---EGPSDEIANDFLERTRPQHLRTTYCSSLAHKH-TVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQ 1583
            LS  K R A++VGGGP G L+ALYL+Q G  + V ++E+   D  +    RS+NIV+  RG  ALE  G  +     D  V +TG+IRH  K       FR S SV R   A++L+ +       NI  +++ T   ++   + A F+   G+  E  +D+L+GADG +S VR ++   +  FTVRQ  D M +K   + +  ++ GA   W   FHV   ++   +  PP +DG++  V+ILP EG+ +F  + +T  DV   F    P  F +    G       D L +       TT C+        VL+GDAAHS+W SLGQG N ALE C+I AEVL + A+G       D+   L AY+  R  D  A   LSEIG GG  R+  P F A++   ++++K L    PK F+  AL+ +   DVPY  I ++ + Q
Sbjct:   10 LSSEKNRTAVVVGGGPTGTLIALYLAQAG--WHVSVYEQRSADAKASSNRRSFNIVLNRRGLKALEDAGVQLPP---DKQVCITGNIRHTEKDSILRKGFRTSVSVDRHTLAQSLIAEGKNRFPDNIQYYFEQTLLQLNLHDKTALFQEASGQH-EQTFDLLIGADGISSTVRYSMSSQLEGFTVRQHADDMMYKICNLGLAEHLPGATAEWADAFHVWPGAEPVTMAAPPSADGVIRAVLILPQEGEITFDTI-RTEADVSALFKAKLPVVFPNLDQTGFPSHFVQDLLSQKAAHGGFTTMCNRFEDGDCVVLLGDAAHSIWPSLGQGCNVALESCRIFAEVL-AHAQG-------DLSLALPAYTAARKPDTDAVARLSEIGFGGNKRASNPLFKAKVSTLILMHKLL----PKWFKGYALLQIGNADVPYANIWQQAQSQ 433
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: D8LSY0_ECTSI (FAD_binding_3 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LSY0_ECTSI)

HSP 1 Score: 211 bits (537), Expect = 1.840e-60
Identity = 107/182 (58.79%), Postives = 140/182 (76.92%), Query Frame = 3 
Query: 1128 LERTRPQHLRTTYCSSLAHKHTVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVA-RAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGGRSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQAAVNNGLIFGGLAFAVTGVVVKVARTRRV 1670
            ++  R Q LR+TYCS LAH   VLIGDAAHSMWASLGQGVNSALEDC++LA+VLDS AEGE  A + +D+P  LEA++++RLEDA AAC LSE GMGG R+ RP F A++ LTV+L+KTLGR+AP++F PP++M++++ D  YG ILR V+R+ AV +GL+FG +A  V  V  +  R R V
Sbjct:    2 VKMRRTQQLRSTYCSRLAHGRIVLIGDAAHSMWASLGQGVNSALEDCRVLAQVLDSAAEGEAAAAQGIDVPGALEAFNEQRLEDATAACVLSERGMGGARTFRPMFAARLYLTVLLHKTLGRVAPEMFTPPSIMTVNSADKRYGDILRGVEREDAVASGLLFGTVAMVVAAVATRFMRRRNV 183
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: A0A6P0S6X8_9CYAN (FAD-dependent monooxygenase n=4 Tax=unclassified Symploca TaxID=2620434 RepID=A0A6P0S6X8_9CYAN)

HSP 1 Score: 219 bits (559), Expect = 4.120e-60
Identity = 157/443 (35.44%), Postives = 242/443 (54.63%), Query Frame = 3 
Query:  285 ELSLAKQRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKKKT-NTFFRGSSSVCRGDFAKALLNKAS-KTPN-INVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPIL-NMEGADESWTSRFHVTNS-KIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAF---GSEGPSDEIANDFLERTRPQHLRTTYCSSL-AHKHTVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQ 1583
            +LS  K+R ++VGGGP G L+ALYL+Q    ++V ++E+ + +  S  + RS+NIV+  RG  AL+  G D+        V + G++RH  K  T +  F  S S+ R   A++L+ +   + P+ I  H+  T   ++ +++IA F +G+    +  + +L+GADG  S VR  +E  +  F V+Q +D M FK   + +  ++ GA E+WTS FH   S +   LL PP++DG L GV+ILP EG+ ++  + +T + V + F+K +P  F     +G     A D L +       TT C+        VL+GDAAHS+W SLGQG N ALE C+I AE + ++A+G       D+   L +Y+  R  D  A   LSEIG GG  R+    F A+++  V LNK    L P  FQ  AL  +   +V Y  I ++V+ Q
Sbjct:   10 QLSNQKKRVVVVGGGPTGTLIALYLAQMD--WQVSVYERRRAEPESSSSRRSYNIVLNERGLKALQQAGVDLPSAK---QVILQGNVRHTAKGTTLSKGFANSVSIDRYTLAQSLIEEGKHRFPHKIQYHFQQTLHQVNLKEKIALF-KGELGEHQQEFHLLIGADGVFSTVRSAMEAQIQGFQVQQNRDNMMFKICQLGLAKDLPGATETWTSCFHTWPSVQPITLLAPPKTDGSLNGVLILPQEGEITYEQI-QTEEAVAELFAKKFPDIFPELDQKGLPSGFAQDLLGQKAAYGGVTTICTGFEGGDGVVLLGDAAHSVWPSLGQGCNVALESCRIFAETV-AQAQG-------DLTVALPSYTMIRKPDTDAIARLSEIGFGGNKRATNILFFAKIIAFVFLNK----LFPMWFQKFALFQIGNAEVSYFQIWQQVQIQ 433
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: B0C0P2_ACAM1 (Kynurenine 3-monooxygenase, putative n=3 Tax=Acaryochloris TaxID=155977 RepID=B0C0P2_ACAM1)

HSP 1 Score: 219 bits (559), Expect = 4.890e-60
Identity = 152/437 (34.78%), Postives = 232/437 (53.09%), Query Frame = 3 
Query:  303 QRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVK-KKTNTFFRGSSSVCRGDFAKALLNKASKT--PNINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPIL-NMEGADESWTSRFHV-TNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGS---EGPSDEIANDFLERTRPQHLRTTYCSSLAHKH-TVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQ 1583
            ++ +IVGGGP G L ALYL+Q G  ++V ++E+   D       RS+NI++  RG  AL+  G ++  E     V + G++RH  K       F+ + SV R   A+ L+ +       NI  H++ T   ++ + + A F+ G     +  +D+L+GADG  S VR ++E  +  F V+Q +D M +K   +    N+ GA+E W   FH   N++   LL PP +DG L GV+ILP  G  ++  L ++  D+   F + +P  F +    G   + A D L +       TT C+        VL+GDAAHS+W SLGQG N ALE C+I AE+L   A+ +G     D+   L AY++ R  D  A   LSEIG GG  R+    F++++++ + L+K L    P+ FQ  AL  L   DVPY  I ++V+RQ
Sbjct:   24 RKVVIVGGGPTGTLAALYLAQMG--WQVFVYERRSADFRVSSNRRSFNIILSRRGQKALKDIGVELPPEK---QVFLQGNVRHTAKGANLGKGFQDAVSVDRTTLAQCLIEEGQHRFPENIQYHFEQTLLQVNFQDKTALFQ-GKQDQNQQTFDLLIGADGVYSTVRTSMESQIQGFEVQQNQDNMMYKICDLGFAKNLPGAEEKWAESFHTWPNAQPLTLLAPPSTDGSLKGVLILPQVGDITYETL-QSEADILALFQEKFPDVFPNLEQTGLPSQFAQDLLSQKAAHGGITTQCNQFEGGDCVVLLGDAAHSVWPSLGQGCNVALESCRIFAEIL---AQTKG-----DLSLALPAYTEARKPDTDAVAQLSEIGFGGNKRASSLLFISKVVILMFLHKLL----PRWFQKYALFQLGDADVPYSNIWQQVQRQ 441
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: UPI001F2C4A8C (FAD-dependent monooxygenase n=2 Tax=Acaryochloris TaxID=155977 RepID=UPI001F2C4A8C)

HSP 1 Score: 218 bits (554), Expect = 2.050e-59
Identity = 153/437 (35.01%), Postives = 229/437 (52.40%), Query Frame = 3 
Query:  303 QRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKKKT-NTFFRGSSSVCRGDFAKALLNKASKT--PNINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPIL-NMEGADESWTSRFHV-TNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGS---EGPSDEIANDFLERTRPQHLRTTYCSSLAHKH-TVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQ 1583
            ++ +IVGGGP GAL ALYL++ G  + V ++E+   +  +    RS+NI++  RG  AL   G ++     D  V + G++RH  K       FR + SV R   A+ L+ +       NI  H+D T   ++ + + A F+ G     +  +D+L+GADG  S VR ++E  +  F VRQ +D M +K   +    ++ G ++ W   FH   N++   LL PP +DG L GV+ILP  G  ++  + +T  D+   F + +P  F S    G   + A D L +       TT C+        VL+GDAAHS+W SLGQG N ALE C+I AEVL   A+ +G     D+   L AY+  R  D  A   LSEIG GG  R+    F+A++++ + L+K L    P+ F   AL  L   DVPY  I ++V+RQ
Sbjct:   16 RKVVIVGGGPTGALAALYLAKMG--WHVSVYERHSAEFKASSNRRSFNIILSRRGRKALTDIGVELPP---DKQVLLQGNVRHTAKGGALGKGFRDAVSVDRATLAQVLIAEGQHRFPENIQYHFDQTLLQVNFQDKTALFQ-GKQDQQQQNFDLLIGADGVFSTVRTSMESQLQGFEVRQNQDSMMYKICDLGFAKDLPGVEQKWAESFHTWPNAQPLTLLAPPSTDGSLKGVLILPQAGDITYETI-QTEADILALFKEKFPDVFPSLDQAGLPPQFAQDLLSQKAAHGGITTQCNQFEGGDCVVLLGDAAHSVWPSLGQGCNVALESCRIFAEVL---AQTKG-----DLSLALPAYTAARKPDTDAIARLSEIGFGGNKRASNILFIAKVVILMFLHKLL----PRWFHKYALFQLGDADVPYSKIWQQVQRQ 433
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: A0A3C1RTQ1_9CYAN (FAD-dependent monooxygenase n=3 Tax=unclassified Planktothrix TaxID=2648599 RepID=A0A3C1RTQ1_9CYAN)

HSP 1 Score: 214 bits (546), Expect = 2.460e-58
Identity = 158/456 (34.65%), Postives = 234/456 (51.32%), Query Frame = 3 
Query:  273 STSDELSLAKQRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKE--DRISGPTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVK-KKTNTFFRGSSSVCRGDFAKALLNKA-SKTP-NINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILI-PILNMEGADESWTSRFHV-TNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGSEGPSDEIANDFLERTRPQHLRTTYCSSL-AHKHTVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQAAVNNGLIFG 1613
            S S E++   Q AI+VG GP G LMAL L+Q    ++V ++E+             RS+NIV+F RG  AL+  G  +  E     V + G++RH  K  K +  F  + SV R   A+ LL +  ++ P +I  +++     ++ E+++ATF+  + K V  ++D+LVGADG  S VR+ + +   +F+  Q  D M FK   +    N   +   W   FH   N++   +L PP  DG LTGV+ILP + + +F  + KT  D+   FS  +P  F  +    +   D L +       TT C+   A    VL+GDAAHS+WASLGQG N ALE C+ILAE+L+        A   ++P  L AY+  R  D  A   LSE G GG  R+    F A+++   + +K L    PK+F  PAL+ L+  DV Y  I  + K Q     G+  G
Sbjct:    4 SDSTEVAAQNQTAIVVGAGPTGTLMALILAQMN--WKVSVYERRDSYSQLNDNQNRRSYNIVLFSRGLRALKQAGVTLPTEQS---VVLKGNVRHSTKGAKKSPGFSEAVSVNRNILAQHLLKEGITRFPEHIKYYFNHRLEGINFEQKLATFQIEE-KQVSQSFDLLVGADGVFSTVREIIVQQFDEFSADQNHDQMTFKICQLGKATNFTNSTPDWEECFHTWPNTQPVTMLAPPNPDGTLTGVLILPQQSEITFDKI-KTENDINALFSAKFPDIFMGKPIPQDWVEDLLAQKVSLGGITTICNHFHAGNSVVLVGDAAHSVWASLGQGCNVALESCRILAEILE--------AHNNNLPTALPAYTLARKPDTDAIGRLSEQGFGGNKRAGNIVFFAKVITLSLFHKLL----PKIFPKPALLQLNQADVGYAEIETQWKAQERQLWGMAIG 440
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BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Match: A0A0V7ZJA7_9CYAN (Uncharacterized protein n=1 Tax=Mastigocoleus testarum BC008 TaxID=371196 RepID=A0A0V7ZJA7_9CYAN)

HSP 1 Score: 206 bits (525), Expect = 2.890e-55
Identity = 158/467 (33.83%), Postives = 240/467 (51.39%), Query Frame = 3 
Query:  273 STSDELSLAKQRAIIVGGGPAGALMALYLSQQGRGFEVDLFEK----EKEDRISG---PTVRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKK-KTNTFFRGSSSVCRGDFAKALLNKAS-KTP-NINVHYDSTFSSMDTEKRIATFERGDGKIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTI-LIPILNMEGADESWTSRFHVTNS-KIGCLLGPPRSDGMLTGVVILPTEGKTSFGALMKTTQDVRDFFSKHYPKAFGSEGPSDEIANDFLERTRPQHLRTTYCSSL-AHKHTVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVDIPKVLEAYSDRRLEDAQAACTLSEIGMGGG-RSMRPAFMAQMLLTVILNKTLGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQAAVNNGLIFGGLAFAV 1631
            S S + S   ++AIIVG GPAG LMALYL+Q    + V +FE+    EK     G    + RS+NIV+  RG  AL+  G ++  ++    VT+ G++RH  K  + N  F  + SV R   AK L  +   + P +I  ++     S+D E+++ATF + +   +E  +D+LVGADG  S VR  +E+    F+ +Q  D M FK   L  +  +  A   W   FH   S +   +L PP SDG L G++I+P EG+ +F  L KT  ++   F + +P     +   ++ A   LE+       TT CSSL      VL+GDA HS+WASLGQG N ALE C ILA  L+            D+ K L AY+ +R  D  A   +SE G+G   R ++  F  +++   + ++ L    P +F+ PA+  +   DV Y     E+++Q  + N  + G + F +
Sbjct:    8 SNSPQNSGKDRKAIIVGAGPAGTLMALYLAQMN--WRVTVFERRDFYEKSTGNLGGVNKSGRSYNIVLTERGIFALQEVGVELPPDLS---VTLAGNVRHTNKGIRFNQPFNKAISVNRNVLAKQLFQEGRCRFPEHIEYYFGYRLESIDFEQKLATFHK-ENDCIERNFDLLVGADGVFSTVRVLMEKYFDGFSCQQNFDKMMFKVCPLGKVTELPDAQPQWDKCFHTWPSHEPVTILAPPSSDGSLNGILIMPPEGEFTFDKL-KTEAELEALFQEKFPDILAGKSLPEDWAKYLLEQKPSYGGITTICSSLHGGDCVVLVGDAGHSVWASLGQGCNVALESCVILARTLEK--------YNGDLTKALPAYTIKRKPDTDANARMSEQGLGNNKRVIKTLFFTKLMAISLFHQIL----PSLFKKPAIFQIGQPDVRYS----EIEQQMQIQNKQLLGVMLFLI 451
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1003.13.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FRA5_ECTSI1.100e-22069.35Kynurenine 3-Monooxygenase n=1 Tax=Ectocarpus sili... [more]
D8LSX9_ECTSI1.030e-6370.39Kynurenine 3-Monooxygenase n=1 Tax=Ectocarpus sili... [more]
UPI001BAE82641.220e-6135.62FAD-dependent monooxygenase n=2 Tax=Acaryochloris ... [more]
B0C034_ACAM16.260e-6135.67FAD_binding_3 domain-containing protein n=1 Tax=Ac... [more]
D8LSY0_ECTSI1.840e-6058.79FAD_binding_3 domain-containing protein n=1 Tax=Ec... [more]
A0A6P0S6X8_9CYAN4.120e-6035.44FAD-dependent monooxygenase n=4 Tax=unclassified S... [more]
B0C0P2_ACAM14.890e-6034.78Kynurenine 3-monooxygenase, putative n=3 Tax=Acary... [more]
UPI001F2C4A8C2.050e-5935.01FAD-dependent monooxygenase n=2 Tax=Acaryochloris ... [more]
A0A3C1RTQ1_9CYAN2.460e-5834.65FAD-dependent monooxygenase n=3 Tax=unclassified P... [more]
A0A0V7ZJA7_9CYAN2.890e-5533.83Uncharacterized protein n=1 Tax=Mastigocoleus test... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1003contigP-littoralis_Contig1003:41026..72120 +
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.D7FRA5
PFAMsFAD_binding_3,NAD_binding_8
Model size2271
Max annot lvl2759|Eukaryota
KEGG rclassRC00046
KEGG koko:K00486
KEGG ReactionR01960
KEGG Pathwayko00380,ko01100,map00380,map01100
KEGG ModuleM00038
Hectar predicted targeting categorychloroplast
Exons8
Evalue2.95e-225
EggNOG OGsCOG0654@1|root,KOG2614@2759|Eukaryota
Ec32 ortholog descriptionKynurenine 3-Monooxygenase
Ec32 orthologEc-26_001830.1
EC1.14.13.9
DescriptionFAD binding
Cds size1569
COG categoryCH
BRITEko00000,ko00001,ko00002,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1003.13.2prot_P-littoralis_Contig1003.13.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1003 41157..71549 +


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

Feature NameUnique NameSpeciesTypePosition
1680789345.092307-UTR-P-littoralis_Contig1003:41025..411561680789345.092307-UTR-P-littoralis_Contig1003:41025..41156Pylaiella littoralis U1_48UTRP-littoralis_Contig1003 41026..41156 +
1680789345.1997335-UTR-P-littoralis_Contig1003:71549..721201680789345.1997335-UTR-P-littoralis_Contig1003:71549..72120Pylaiella littoralis U1_48UTRP-littoralis_Contig1003 71550..72120 +


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

Feature NameUnique NameSpeciesTypePosition
1680789345.1065886-CDS-P-littoralis_Contig1003:41156..415341680789345.1065886-CDS-P-littoralis_Contig1003:41156..41534Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 41157..41534 +
1680789345.1193504-CDS-P-littoralis_Contig1003:46566..467601680789345.1193504-CDS-P-littoralis_Contig1003:46566..46760Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 46567..46760 +
1680789345.1355627-CDS-P-littoralis_Contig1003:47563..477021680789345.1355627-CDS-P-littoralis_Contig1003:47563..47702Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 47564..47702 +
1680789345.1479576-CDS-P-littoralis_Contig1003:47959..480861680789345.1479576-CDS-P-littoralis_Contig1003:47959..48086Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 47960..48086 +
1680789345.1581764-CDS-P-littoralis_Contig1003:49399..495681680789345.1581764-CDS-P-littoralis_Contig1003:49399..49568Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 49400..49568 +
1680789345.166414-CDS-P-littoralis_Contig1003:50348..504701680789345.166414-CDS-P-littoralis_Contig1003:50348..50470Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 50349..50470 +
1680789345.1813748-CDS-P-littoralis_Contig1003:52167..524091680789345.1813748-CDS-P-littoralis_Contig1003:52167..52409Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 52168..52409 +
1680789345.1894464-CDS-P-littoralis_Contig1003:71351..715491680789345.1894464-CDS-P-littoralis_Contig1003:71351..71549Pylaiella littoralis U1_48CDSP-littoralis_Contig1003 71352..71549 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1003.13.2

>prot_P-littoralis_Contig1003.13.2 ID=prot_P-littoralis_Contig1003.13.2|Name=mRNA_P-littoralis_Contig1003.13.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=523bp
MLWSKFLSWLLALASASAFCATPPAPRTHNNGNGVRMTAAVTSPAVTSTS
DELSLAKQRAIIVGGGPAGALMALYLSQQGRGFEVDLFEKEKEDRISGPT
VRSWNIVVFGRGSHALEAGGFDIQKEVGDHHVTMTGSIRHHVKKKTNTFF
RGSSSVCRGDFAKALLNKASKTPNINVHYDSTFSSMDTEKRIATFERGDG
KIVESAYDMLVGADGSNSRVRKTLEETVPDFTVRQRKDFMAFKTILIPIL
NMEGADESWTSRFHVTNSKIGCLLGPPRSDGMLTGVVILPTEGKTSFGAL
MKTTQDVRDFFSKHYPKAFGSEGPSDEIANDFLERTRPQHLRTTYCSSLA
HKHTVLIGDAAHSMWASLGQGVNSALEDCQILAEVLDSEAEGEGVARAVD
IPKVLEAYSDRRLEDAQAACTLSEIGMGGGRSMRPAFMAQMLLTVILNKT
LGRLAPKVFQPPALMSLSAKDVPYGAILREVKRQAAVNNGLIFGGLAFAV
TGVVVKVARTRRVFEVSVLLVR*
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mRNA from alignment at P-littoralis_Contig1003:41026..72120+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1003.13.2 ID=mRNA_P-littoralis_Contig1003.13.2|Name=mRNA_P-littoralis_Contig1003.13.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=31095bp|location=Sequence derived from alignment at P-littoralis_Contig1003:41026..72120+ (Pylaiella littoralis U1_48)
GCTTCACAGCAGTGGAGGATAGAAGCAATACGAGCTCAGTAACACCCCCG
CTATCCGTTCTCTCTGGGTGCCCATACTTACAAGGGCGAACCGTCGGATC
AGAGCGCGGAGAGGAAGATCAAAAGTAAGCAATGCTTTGGAGCAAGTTCC
TCTCATGGTTGTTGGCGCTTGCCAGCGCGAGTGCCTTCTGCGCAACGCCA
CCAGCGCCTAGGACACACAACAACGGCAACGGGGTTCGGATGACTGCTGC
CGTTACTTCACCTGCCGTCACTTCAACGTCTGACGAGCTGTCACTGGCAA
AACAGCGAGCTATCATCGTCGGGGGAGGGCCTGCGGGCGCTTTAATGGCG
CTGTATCTCTCCCAGCAAGGCCGCGGTTTTGAGGTGGACCTGTTCGAGAA
AGAAAAGGAAGACCGCATCTCGGGTCCCACTGTACGTTCGTGGAATATTG
TTGTTTTTGGACGAGGGAGCCACGCCCTGGAAGCTGGAGGCTTTGACATT
CAGAAGGAGGTGGGGTTCATCTACACGTGTACATACTGGGGTGCATGCCT
TACACTACTGTTCAGAAGGCAAACCGACAGATGTCAGGAAGATACGGAAA
AATTGAGGACTACTGGTAGAACTCTTCACATACCCTGTTGTATGTATGTG
TTGTGTTGTCATCCCATTTTCTCTGGCACACTAGTCTGCACCCTGCGGTT
CAAACTACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAAC
ACAGGAGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTT
TTCTCGCGAGCAGGGATCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAAT
CTGCTTTTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAGGAACACATT
CACCGGGAATCGAACCCCCGTCCCTCTGCATCCATGTATAATGCAGTAGG
AGTACTTGTAGGGCTTCCCTGTTTGCGATGCAGTCGCCTAACATTCAAGT
CAATACAACGCAGCAACACGGAGGTCCACCCCAATCTCAATACAAATATA
TCGTCCACTCTAGAGGTAGATGCTACCTTGGAATCTCTCAAGGGGGTCAA
GTTGGAATACGAGACATGATCTTGTTCTGATTCCCAACCTCCCAAAGTCC
GGGCCGGGGCGCTGGGGCTAAGTGATGGGAAAGTCAGCAAAATGTGGAAC
GAGGGTTGTAGATCAGCCGCAGGCGGTTTGTCCCACTGCTGTTATGTTCA
AGCAACTGCTTTTGATGGTACAGAACGGCAAGGGTGATCATCAGCACGGC
CAGGATCGCATGCAGCTGGAGTCCCTGCACCATGGCTCTAGTGTTTTTGT
TTGCCCGTGTTCGTGTATTTGTGCTTGGTGCGAGCTGTGAATCACTGCGG
CGCAACCTTGTGGCCGCACGCGTGAGCGCGCACGGCCTGTCAGACCTCGA
ATTTCTTGTGTTTTGGATTGGAATCTATCGAAACTGCCAACCTTATATTG
GGTGTGAACTTGGGATTTCCATTTTGGAAAAACATTTTCCAGCCCTGATT
TTCCGATGGCTGTAGGTCTCTCTCTTACACGGCCAGTTTATCTCGCCGGA
GATGACCTACATTCGGTCAGGGGCGAGACCCCCAAATGGCCAGATAGTTT
GCTCTTGGAACACAACACGTGACAATATCCGTCGGTGCTCGGCCTCCAGG
ACACCAATCGCGACCAAACCTTTTGGTGCGTACGCTCCGGTGTTTTAAGC
TTGGGAGCTTTGGCACATCAAGTGCGTTGGTCGTGGGCTCTACTGTCGTG
CGACATGAATGGCTTAGTGGTCCAAGGTTAATTTTTTTGTCGCATTTTTC
GATTGGTGCTCCAGCCGGAAGTCATGAGGGAAACGTGCAGGTTGCCCAAC
CGAAAAATGCGACCGAAATTCGGACCTCCGACCACTCTACCACCGGAATC
TCGCGGCCGACAGAGCCCACAAGCTACACACTGGTATCCCTCAGAATATA
GGAGCGTATGGCACCTCAAAAAAGGTTTGGTCGTGATTGGTGTTTGACGT
TGTCACGTGCCGTGTTCCAAAAGCAAAATGTTGGGCAGTTTGGGGGTCTC
ACCGCTGACTGAAACTAAGTCATTTTCCGGCGAGAATACCGGCCTTTCAA
GAAATGGTCTAACTTATGGGTTAACCGGAAATATTCAAAAATATCAGGGA
GTTCCTCGGAAACATTACCGCGGTAATTTATCACGGTAATTCCGCGGTAT
TTGGTATTTGGTAACGATAGCGCGATAAATAGGAAATTCCGTTACCATCC
AAACTGTTGCCACCCAAATTGTGCGATACCGTTACCATCCAAACCGTTAC
CGAGAACAAAATATTTTACCAATACCAATCAAACCGTTACCGTGCAAATA
TTGGAATTCCCGCGATTTCTCGATACCGCGGTACGTTTTCCCGCGAAAAA
TAAAAACTACGATTACTGTAGTGTTATGAACGTCGTTACCGGTGATGTGC
AGTATATACTTCCAGTAGAACGTCGTTGCCGGTGATATGCAGTATGTACT
TCCAGTAGAACGTCGTGACCGGTGATATGCAGTCAGCGGTTGGGATTTCA
CTCAACATTAGCTCGCAGGTTCAAGACTCCATCCGGTTCACGCCTTTCGT
TTTCTTCCTGGTATTTTTTTGTTTTGTTGAATTAAAAAACGTTTTCTTCC
TGGTATTTTTTTGTTTTGTTGAATTAAAAAAATACTACTTCGAAGTACTT
CGTACCTGGTACTTGGTAAAACGTGGTGAGTATTATTCAGCTGTTATTAT
CAGGCAGAAGCCTTTGCGGTGTACTTCTTGTGTCAATGTGATGGCATGAT
ATCATACCGTAGAATAACAGAATAACGTACTTTGGAAGAGGGGGGCGGGC
TATTTCACGGGTGGATTTGGTCTGGTTATTAACTACTTCTTGTTGGCATC
GCTGGGCGTAGCTCTTGCTTTCGGTCGCCGTCTTTTGGCTGCGAATGGCT
GCGTGTGTGTGTTGCGTTTGATTGTTCTGTGAACGAACGTACTCCCGTTG
CTACACTACGCGCAGGAGCAACACGCAGAACTAAAAACAAATCTAAAAAA
AAAAAGGATGGGTAATATGGTGGTGGCCGAGAATACCGTACAACTACCGT
GGTGGATGAATCCCGCGGTAGATGTACCGTGATGACCGATTACCGTTGAA
AAAATACTGTGCAATACCGTGGAGGCTGAGTCCCGTGGTAAATATACCGA
GATGGCCGATTACCGTCCAAAAAATACTGTGCATTACTGTGGTGGCTGAT
TACTGCGGTAGTTGTTACCAATCAATCAATGTCAAAAACCGGTACCGAGG
AACCCCCTGAAAAATATCGGAAATCAGTCGGAACTCAGAGGGTTTGTCAG
ATGGGCAACCGGCGGCTTGTCCTAATTTCAAGCAACGGCTGCTGATGGTG
CAGAGCGGCGAGCGTGATCGTCAGCACGGCCAGGACCGCACGTCGCTGGA
GCAACTGCACCTGGCTCGTCCATTTGCGTGCTCGTGTTTGTGGATTTGTG
CTTGGGGAGGGCGGTTCATAACTGCGGAGCAACCTCGTGGCCGCGCGCGC
GGTGTTTCCCAACTTGAATGCCTGGTGTTTTGGCTTGGAAATCGCAGATA
CCGATTGGAATCCTTCGGATAGGAAAATTTTGGCCATTTGCAACCGAAAA
CAGCCCCCACAAGACAGGAGTGGCTTTCAAGTTGGAATTTCTTTTTCAAA
AACCTCATGTGGAACCCATGGATTCCAAGAAACGGAGCTACCATCAGAGC
TTTTTATTCAAGTTGGGATTCCTTTTCCAATACCCGTGTGAAACCCTTAG
ATTTCATGAAAGAGAGCCACGAGAATGTTAGGCCTAACTCGTTGAAATTT
GCTAAAATATACCTCTAAGTACGAAGTGTATATTTATGTATGGAAGAAAC
AAAAAGCACCAGGTGTTTTAGATATTGTAATTATTCCATGGCATACCTAG
CAGTGGAAATCGGTTGTTTCTTGAGCAAACAAAACTCGACTCGAAAGTCG
ACAAGGATAAGGGACGGCCGAACCCTTCTCGCCGTAAGAATGAAGGCAAG
TACAGCAGAAGGTGGGTGGAGTAAAAGTCACTCCCGGATGATCATCCATT
TGTGTAATCCCGGCTGACGCGCCCACCTATCCCGCAAGGTGTGTTGTAGA
CTGGCGTCCAGTGTACATGATATGGCACCACACACACACACACACACACA
CACACACACACACACAACACGCACATGGCCGCCCATGGGTGGGTCCCATG
CCGTGGTAGGAGACCTCATTTCATCCCAAGCCATACATCGATGAAAGCTA
CTCCAGTATATAACAGTAAAACATGGTCGAAGCGATGGAACCAAGGATTG
AGACCAGGTTGTCTGCAATGGAAGCTTGAGAGAGAGCCCCCCTGGTGCAC
CTCGGCAAGCCTCCACAACCACAACGGAGTGGAATGTTGGGATAGGAAAA
TGTGGCCTAGCGTGCTTGTGTCATAGAACATGTCCTCTGTTTCGTGGTTC
GAATGCCGCTGTCGCGGATGAGTTGTTGTTGCTCCCAGACCCGTAGGAAA
AAGTTATCTCAACATCTTGTTGCCCACCACTCAGAGGACAGGGGACTGCA
GGGTCACCGTCATATCATCCCACCCACTACGTTCATGCCCGCAGAAAACT
TGTTTCACACGCTGTAAACGCAACACACACTTTGTGAATCAGTATCGACC
GCCATTACCACCTCAGGAACATCCTCGGAAATCTGTGACTCGCGGTGATA
AGGTCGCGGGTTCGAAACCCAATGTCGGCACAAATCAAGGTATGACAGAT
TTTTTTTATTCTGAGATTCCCAGGAGCTGGGAGCGCTTGTTCGTGAGCAA
CCAATATTCTGCCGGTACTCAAGGCTACGTGCGGCAGTTACGAGCATCTC
CAGTTATCTTTGGAGGACCGTGATGGTATTTTTGGCTCCACCGGTTTTCA
TTCATATACATTCCGGTCTCCAACCTTCTCGATCAAAATCTTGGATGCTG
CCCCCGCTGCTCCTTCTGCCGCGTTCCACGCTGCGCACGTTGAAGCCTGA
GAAGTGAGCCTTGCTGGCATAGGTAAAGCACAATCGTAACAGCTTGGACT
CCTCTGTGGATTCGCTTGTCGCGATGATCATTAGAGGTCCTGACGTGCAG
GAGACATCTTTATTTATTTTTTGATATGGTACGTGAGGGTGTCTAATGCA
GCAGCCGGCAGTTTGTCATGGCTAGCCTGAAATTTTCTTTCTGCAGCACG
TGCCTTTAACTCTATCGCGAAAATTTTTCGGGAGCCCTGATTCGTCCGTA
ATCACTAACTAATTTTGCTAACTCACGAACGAGCGCTTTTTGTTCATATT
TGGGAGGTCGTCGGGAAGACCGAGCTTTGTTTGTTTGTTTGTTACACTTG
TACGCTTATAACGTTCGTTTCGTACTCACTTGACCGTCTCCATTGGCCTG
CTTCAACTCCGCGCATGATACAATTTTCTTTAAACTTCAAGGTCGGCGAT
CACCACGTGACAATGACTGGTAGCATTCGTCATCACGTAAAAAAGAAGAC
CAACACCTTTTTCAGGGGAAGTAGTAGCGTTTGCCGAGGAGATTTCGCGA
AGGCTTTACTGAACAAGGCTAGCAAGACGCCGAACATCAACGTCCACTAC
GACTCTACTTTCTCGAGCATGGACACAGAAAAGAGGTGAAGGTACCACCT
ATCTTAGGGTATATGCTCGAACCCTTTGATCAACTTGGAATGAGTGCATG
TCTCACGAAGGGAAGCCTTTTATGTGGTGTCCAGCAATGTTGAGAGACGC
CAGGGCCTTTTTCAAGATCAAACACGAGCATCAGATTCTGCGACCATTAT
TTGGTACAAGTGCGGCACGATTGAAACGTCGACCATCAAAGAGCGTAGCA
AAGGTAACGAGAACGCACGGTACCATGGACAAATTCTCAGCCGTCTTGAT
CCACAAATAGGATCACGTTGGGCGGCAGCGCCATGCACCTCGTAACTGAC
CATCTGATCTCACGGTCAAAAGTCAAAACTGATCATATCCAGAACTCCTT
AGGGCTCAAATTATCAGCAGCCAAGTTCCCGAATGGTGGCGCTACCTGAA
TACAACATTCGATACTTCGGCGAGGCAAAAACGACCGACTGCCGTATCAG
TCGTTTTGCTGGCGATACACATTAAGGTCGATACAAGTGGGTGTGTAAAG
CGGAGGTGAGGTTGGGGGCGTGAGGAGGAGAAATCTCCCCATGTCTGTAA
CACCGTCTATACGCCGCCCTATACTAGGGAGGAGGTTGCAAGATAGGCAA
CAGCCTTTTATGCAACTTGTAGAGAGATGTGCCGGTATTTGTTTCCACTC
CGCGAAATCATGAGAGGACTGCGGGTGAAGTTCTACGTGTCTTGTTTCTC
GTTTTTCCAAAGAAGGGTTGGCCCAGAACCTGCACAGCATTCCGACACAC
GCATCTTGTATCCCCCATTATTAAACACCATTCAACAGGATCGCCACCTT
CGAGCGCGGCGATGGTAAGATCGTGGAAAGCGCCTATGACATGCTTGTTG
GTGCAGACGGGTCAAACAGTCGTGTGCGCAAAACTCTTGAAGAGACCGTA
CCCGACTTTACCGTCCGACAACGTAAGGTATGGTGACGTCGAACATCTTT
GGCACAAACAACGTAGCCAGCGTTTTTGACCTCCATTTGCCTTTGGTTGA
TATTTTGGTCCGAGTGCGTATGGCAAACAGCTCGCGGCACGACATGATTT
TTTGTGAGGTTAGTTCTTAATATTCCGATACTCGGAGGCAGTCAAGCCTC
GTCCCTTTTTCTTGCTGTAGTGTGCGGTGTGCGGGACACTTTTGAATGCT
ATGTCCCGGTGTTTGAATTGCATGTATGAAACAGGATTTCATGGCATTCA
AGACGATCTTGATTCCCATCTTGAATATGGAGGGAGCAGACGAGAGTTGG
ACCTCGCGTTTCCACGTTACCAACTCGAAGATCGGCTGCCTGCTGGGTCC
TCCGCGATCAGGTAGAGCACTAATATGGCGCACGAGTTCCTGCAAGTTCA
AACGTAAACCTCTTACGTGCCCGACAGCTGAACCCCTGCTCTTGGTTTTT
TACTCCTCTGTTTGTCTCTATTCAAAGTAATAGCGAAAGGAAAACGGTTA
TCACGGCGAAAGCGCCTCGCTTTGTTCAAGGTAACCCCAGCGCGTGCGGA
GGGAGAAAGGGAGCGAACGCCTCGGGGGGCCCTTTTGTTTTTTGTGGTAA
CGTACACCCATTTTATACCCTAAGTGGCACAGAAAATGTTGGAATGGGGC
AGCGTGAGATACCGTGCACCCCGTAGAGTTGACCCTGCGTCGTGGGTTGC
CAAATGACCCGGATTTAATTGAAACGTTGAGTTTGTCCTGGGGATCGTGA
CACACAATCCACAATCAACCCTCCCTCCCCCAAATATATTTCCGTTATTT
TTTTGGCGTATTTTTCATCAAAACGCATAGCAGTATATGGTACATTTCTC
GTTCATACGTGTTCGGGTGATGATATTTTCGTGTTCTTATTTTTGTGTCT
AGCAGGCTGACTGCCAGAGTTGTTCCCACGACACACGTGTTGTTGTGGTT
TCTTGTCCACGCTGAAGAAAGTGTATGCGAGGAGCCGTACCTGCAAGAAT
CAATATGAAACCAAAAACCTGAAAGTTTTTCAGGTGTTGACCCACCCTCT
GTGTAGAGCAACATCTCAATCCCTCTCCCATCTCGACATCACGGATTAAG
TCAGAGAGAACTCCGGTGGAAAGCGGAAGTGTGCCAGGACGATTTGTGTT
TGCACTTTCTCGCGGGGACTGTTCCGCCCGGGGATCCGCATCTCCTGGCA
CGATCCACCCTCCTTCTGGAGCTTTTGTCGGGGGGAATTGCGGTTTTTCC
ACTTTGGACGAATGCCATGGCCAGCGTTACGGGGCTTGCGGTATCACTGT
GTTCCGTGAGCATGTGTTGAAACACAAACTACGTATGTACCATACAAGAA
AAGCTGCACAAGCAAAAAAAAGTGATCGAAGTATTGGTGGCCTTCGGGAA
CTCATTCCGGACCATCTTAGAAAACTGTTGGTTCCTGCTGTAGCGCGGAG
GGGTTGCTTCTTTCCAATCCGCATATATTTCGCAATAGCCTCTTTGGGTG
CTTCACACTAGCAATGACAGGTGTTTTTCAGAAACGCCCCGTGCAAATGC
CCCGTACGTATAAATTGGCATTTTATGTTGCACCGTTCTGCACGGAATAC
TTCACGATTTGTCGTTGACTTGGTCTGTCGCTCCTTTTTTTTGGTTGTCT
CCATTTTTCTCGTTGGTTTTGCAGACGGTATGCTCACTGGTGTCGTTATT
CTGCCCACAGAAGGCAAGACTTCGTTCGGGGCACTCATGAAGACGACGCA
GGATGTGCGTGACTTCTTCTCCAAGCACTATCCCAAAGCCTTTGGCTCCG
AAGGACCGAGTGACGAGATTGCCAATGACTTCCTTGAACGAACGTAAGGA
TCGTGGTGCACGAAGAACGCGTCAACACAAGGGAGCGTGTCTAAAGCGAA
ACTTGCAACTTGTAGAGTCCCTCATGACAAGGTATTACCATCGACGACGA
GTTGTTAATGGATAGCTTGGCAGGCCCTCAGTGTACGATTCTACGGCATG
TGACATTTAAATATTGAGTCTTGTGTAGAGTGAGTCGGTTTGCTCGCAAC
CTTTGACCATTTTGAGGTATTGGTTCTGATGGTAGTCGCGGGGAAATGCT
CTGTACGGGGTTGGCTTTTGTCGAATACGTACAATTTGTCATGGCAATTA
ACGCTCATTGAAATTTACGTACTCGACAGCAGTTTCGCGAGCAGCCAGGT
GATCGGTACGTGTCGCAATAGTGACGCTCTGATATATCGTAGACAAGCAT
CGCGCGTCATTTGCAGTCCTATAACTAAGTGTTGACTGCAAGGTCATCGC
CGTGCAAATGCAGCATAGCTGATGATAAAGTGGGGCTTTGCGGGAGTGGA
CTCTTGGTGCGAAGAAGCACGAAGAGCCTCGAGATAACAGTACGACGTGT
TGTTGGAAATGCCTAGTGTCGATTTGGAGCCTGTAGGGGAACTGAGTAAT
ATTAAGCACTGTAGGGACACAGCTCTTGTTCACGTCGAGCACATGATGTC
AGACATCGTAGCGTCACATGTTTTACGATGACATTCGTTGTTTTATGATA
AGTGCTGCGGTTAGAACCCAACTGACAAGGCACATTTCTTTCTGGCCTTG
CCCCTCCGTCCCCTTACTGTGAGCAGGCCTCAGCACCTTCGGACCACCTA
CTGCTCGAGTTTGGCACATAAACACACGGTTCTGATCGGCGATGCGGCTC
ACTCAATGTGGGCGTCTCTGGGTCAAGGAGTCAACTCAGCCTTGGGTGAG
CAGCATTGCTCGTCCATGTGTGCCAGAAAATAGTGTGCGTAACATTGCAT
CTCGCAGCGTGCGAGTTTCGTCTCATTGGTTTCTAGGATTTGCACGCAGA
CATTTGTCGATCACACGCAGACGTCCAAGCAGAAACGGGAGATGCCGCGC
TCCAGTCCGTTTTATCTTACTCCAGAATATATTTCGTCACCAACGTGCAA
GCCTCGATTTCTTCCAGCTTCTCTTGTTGGAGTGCTCGAGGCAGGAAATG
ATTTATTCGTGGAAATGGATAATGGTTCGCGGAATTCCTCCGCGAATCAG
GGGTTTGGTATTGTGTGTGTTGCATTATTCATGCGCATGCGGCACCGTGT
TGGTGCCGCGTTAGTGATGCGTTCGCATGGTTGAACAACAGTTCAATTCA
ACGAGTATAGATGACCATCTGGGGAACGTCAAGTGATAAAATTCATCTTC
TGTGGGTTCACATTTTCATCCCCTGACCGCCGAGAGCACAAAACACCCTT
GGTATGCTGGAGTCGTACAGCAGCAACGGGCACACAGAAGGGCTCCTCTT
CCCGAGGCCCCCGATCACCTTCCACCTGCGGTGAAATGCCACCTCGAAAC
ATTGATCGCGTTCTGTTCTTTCGCCATATCATACGCCGATTTTTAGGAAC
TTGTGCTTGCCATGAGTTCGTGGCCATACACGAAAAGGCTGAAACCGCAT
TTTTTTCCGAGAGTCTCGAAATATGTGCTCGCATCCCAGATATGGACACG
CGGCAACGAACGGCAAACCGATAATCATTTCTGGGTTGAAGGTTTCCAAT
GATCTGCCCGACATGTCCGCCGCAAGGGTGTGTTTGCCGAGGTAACAAAT
AGGTACGGTAGATAGAACCAAAGTGATAACTAACTCCGAAGTGAATAGTT
TATGGTTTCGGAGCTACACATTCATATCATACGCACCCGTTAATGTGGCA
TGCTTTCCAAAGGCATTCCTCCGCCCCTAAACAGTTGATATACCGACAAG
AATCATAACTCTGGCGCGGTCACATGCGTTTACCGACCAAAGAACGCAAG
TGAATCCTCTCGTTTTCTTCACAGTGTTTGACAGCGTGCTGTGGACATAC
GCATCCCATGTTATTACACCAGTAGACGTGTGCATCATCGGGCTTCTTCG
CGCGACCAATCCCGGTATTTTTATTTCCGTATTGGTCGTCGAGGATTGAA
CATGCATTTTCCTTTCACCACTGCGTTTGGCGTTCCGTAAAACTTTGGGC
CAGGGGTAGCCTCCCTACCTAACAGCATTGCGCTATCCCCTGCTGGGGCG
GCAGAGTTGTTCGTAAAAGGAAAACTACCTTAATATCCGCCCTTGAGCTT
CGACAAGAGCATACAACACAACAGTAAAAACAACGTCAATATCGGCGGGA
AACATACCCAGATCTCTGGAGTACCATCCCTGTCGGAGGATCGAAACAAA
ACCCCGGATGCGTTCGTGACCCTCCAGTGTGGCTTCGTCGGAGCTCAGCA
CGTGTGTTGATGGCTCGAGTTTGAGTGCATGTAATTCTCTCACGGTTTCG
AGCCCAGAGCATTGCTGTGTTGTCTTTTGTTTTTGCGTGGCGTCTATGGC
GTTGTTTATATGGTGGGCAGTATCGATGCGTTGCTTCTTTGTGGAGCGAT
ATCATTGTGTATGATTTGCTGTTCGTCATTCCGCCTCACCAGAGGACTGC
CAGATTCTAGCTGAAGTACTGGACTCCGAGGCAGAAGGGGAGGGAGTGGC
ACGAGCTGTTGATATTCCGAAGGTGCTGGAAGCTTACAGCGACCGACGTT
TGGAGGACGCGCAAGCCGCCTGCACGCTGAGCGAAATAGGAATGGGAGGA
GGGCGGTCAATGAGACCAGCTTTCATGGCGCAGATGCTCCTGACGGTGAT
TCTCAACAAGACGCTTGGTCGTTTGGCTCCGAAGGTGAACATGTTGACCC
CATCGTTGCTTTCTTCGTCAACACAGGTCGTCTTCTTGTTTACAGTTCGA
TTGTTCGCCACGGCAAGTAATACCGAGTTGTTATTGTGAAAGTCACGTCC
CTGATACTCTTCCGCTTGCACGTGTTGAAAACAGGTATTCCAACCGCCCG
CTCTCATGTCCATGGGTGAAAAGGACGTAACGTACGGAATGATTTTGCAA
GGAGTGAAGAGGCAGGCCGCAGTGACAAACGTGCTCATTTTTGCAGGCGT
TACGGTTGCTATGGCGCGTTTGGCTATGAAAGTTGCCAAAACGACTAAGG
TAATTTGAGAAGGTGAGCGTGTTGCTCGGGAGGTCAGCGTAGACCTTCGT
GTGAGTGTCATCACGAGACACAAAACGGATTTGAAGGCAGGAATTGACGC
TTTGATGACGGGGGGACCTACAGCGATACAGGTTGTCCGGTTTCCGAACT
GTTTTGTCCACCGCCATCTCCTGGTTTTGACTCACACCGCTCGGTTCCAT
TTATGCTTACAACGTGATAATATCGAAAAAGCTCATTGTGAAACTCAGCC
TCATCTTCTTACCGTAGATTTCATGAGATGTCTGACGTACACTCCAGCTT
CCTGCGAAAAGAAAACACGGGCTTGCCCAGTCCAGTGGACGTGGTCGCAA
TCTTGACTGGGACTCAAGAAATGGAAGATGCATCATGAAGGCTGTGACAC
CCTACTCGTCCTATACATTTCTGCTCAGCTGCCGCTCTCTTCTCACCAAG
GCGCGCACGAAGCACGGATTCGATCCCGTCAGTAATTCTCGCCAAGACGT
CGGAGTCGATTTTCATACTCGTACGGATACCGAGCCTACCTCAAGGAAAA
ACATGATTTTTCCGACCGCTTCTTCAGTCGGGAGCCCACCGCACATGTGC
GAACCAGCAGGCAGGAAAGCCCCTCAGCAGGCCCCATCAGATTTGAGAAT
AAAATGTGACACAGAACATATGATAGAGCATGGTGGCGTGGGAGACAATA
ATATCAATCAATTTTGTTCTCGACGTCGACCACTCGTCTGATTCGAGGAG
TCCCCCATGGCCACCTCGTCCGTGCTCGCCTTCAAACCACAACCACATCG
CCAATAAGAACAAGATAAAGTGAACGTCAATCTGTGAACAGACTCACGGA
GCTGGAACTGCTCAATGAAATATTGACGTTGCCTCTGGTGAGCCGTGTCA
GGAACGATATTCATAAATCATAACCTTTGGCTCGTACACGACCTCTACAT
GATGTTCAACCAGCCTCGAAACTAAATTGGCTTATTTCTCGAGACGAATA
TACGTAGAAGGAGAGTAAAAATGTCAGGCAAAAGTAGAGGCCGAGGTAGT
GTGATGAGGACATCGAGGCACTGAAACACCTGGCGTGCCGTATACTCTCT
GTACACGCACATCATAAACTCGATTGATTTAGTCTATTCGTACTTTTTTG
TGTAAGGGAGAGGGTGCATACATATCATCAACGATTAATAGTTCTCGGTT
TGAGGGAGGGCATGAGAAACGGTTGATACTCAGAACACAACGGCAGGTAT
AGTATCTATGATCATGTGCATATGCAACAGCAGTATCCCCTACGATCACA
CGGGCGGCCAAAAGGATATGTTGCGGCACGTTGGGCGGCTCTTACAACCT
GAAAAAAAAACAGTCGCATGAGCAAACCCCTGCAACAACGCAACGTGTTC
GCAGTCTTCTCAGGCGACATGACTGGCACAACGTGTTCTTTTGGTGCCTG
CTCAACGTGATGGCCGATGTTGACCGTGGGCAATATGACAACTTTCCGTT
GTCGAGCGGATACAGAATTAATACTATGAGCACTTCGCGCAAACCTGAAA
CAAGACGTGACGCAAAGTTGCACTTTACGTTTGACCGCGCACAGTCATCG
CAAGGGGGAATGCACAACATGGCTTTGCTGTGTAGCTTGCTTTCAGTATA
CAACGCATGAAAGGTACGGAGTATATGCTAAGTCTGATATTTCAGGCATT
CTATACAACAAGCATCTTTCTTGAGTTCGACCGACCTGCCGTTCCAGGAC
GCCTCCTGATATTTACTCACCGCCCTCTCTACCGCGAGAAAGTGTTTTGC
CCGCGCTCCCTCCACGTCCAGGGTGTTCAATACGAACTAAATATCATACC
GTACATGATATGATAGAATCCCATTGAGTTGTAGGAGACGCACAGGCTAA
AAACGTGCGCATGCTTATCCCTGTATACCGGTACATCGAACATATTATTA
GTATCTGCTCTAAGACTATTCGCGCAATTCCGCGAAAAAAACAGACAACG
ACACAAACGAGCGGCTGCTCCATTCTTTTATCTATTATCTAGAATTTTGA
TAAACCTGCCAAGAACGTCGGCAGATTGTTTTTGCTGCCAACGTTGGCAG
ATTTTATCATTGTGCCAACGGCATATCATCAAGTTGGACGCCACCGCCGT
CCTGATCTCGTGACACGAGCATCCAGTGGTGGTCAAAGACAACGTTGAGA
CGATTTGCTGCGGCCTTGGGCTGACCTACTGGGAGCTTTATCGTCGACCA
AAAACCAAAAAAAGGGCCGCGTCACACATTTTTTTCCCCTTTTTCTTTGG
TCGACGATAAAGTTCCTAGCAGGGCAGCCCAAGGCCCTAGCAAACCACCC
CCACCCTCTACTTTGGTCACCGGGTGTGCTCGTGTCACGAGATAAGGGCG
ATGGCGTCGACATCGATGGCAAAACAGTTGGCAGGATCATAAAATCTGCC
CAATTTGGCAGCGAAAACAAAACTGCCCACCACGTCGTTGGCAGATTTAT
TATGATTTTCTATATAAGAAAGAGATCGTCAGGGAAGAAGAGAGAGAGAG
AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAAGCG
GGAGAGAAGGGGAGCGGGGGAGTGAAAGAGGAGATATAAGGAAAACGGCC
AAGCCTAGAACCCATCGCACGCCTCACAGAAGAAAACGAATACGAAACTT
CGACGGGACTTCATTATTTCAAGGAACACAAACCATGTTTAACATGGACG
ATGATTAGCACCAGGTCACACACATTCAACTTTTTTGTGTTCGTCACAGT
CGATAAGAAAATATAAAAATAGAGATTGAAGGGGGATCACACCGGCGGAG
GGCTGACGCCTCTCCCGGCACACCCACGAGGAGGGCACTTAGTGCGCGAA
AAGTGCATGTGACAGAAAATCCAAGTCGATCAGTTGAGGAAACAAGATGG
AGGAGGACGGGATTAGGCGAAGACAGGCGATGAGGTTTCCTAAGCAAAGC
GTTTGTAAAAGGGAGATAGGGAGACCAAGAGGATGAAAGATAGAAAACAA
GAAGACGCAGGAGGAGGAAAGCAGGCCGAGGGAGGCGTAACGCACAAAAG
AATACCATGTGCTTGCTAACGAACTCTGCCGTACGGCATTGCGTATTGAA
AGTGGTAGACGATTATCGAAATGAAATGTACGCTCCCGGCCCGCTTTCGA
CGGCCGTGGCTCGGCGACCCCGTTGAGTCTCGAGCCCGGACGGGCCACGT
TTAGTTCCCCGTGCTCGGCCCAGAGTTTCCTCCCGCTGTGAAAAGAAAAA
ACTTTAGACGTGACTGAGGCCGGGCCGCGAGCGTACGATGAACGCGGAAC
AACATTATTGTATGGATATCTGTGGTGGTGGTGGCGCCCTCACAGAATAA
CCTCCCCCCCCACAAAATCCCATTCATTCGTAAAAAAACAGTCGTCCTGA
AAAGAGTGAGGGCACCCAATAATATACAACAAGCAATAACGACCGAAAAG
ATAGCGGGGGCTGGGGGACTCGAAAAAGTGCACTTCGTACGAGTATGTTA
CACGACGTGCTTTGAAGTATTATATATGGTACTGCTATTTACCCCACCGG
TGGGGTATTTTCTTATTTACCCCGCCACCTGGAAAGTGCACCAGAGGACT
CGGTGGGTCACAGGACATACATTAATGTTTTGGCGCCATTCAGGGCTATC
GTAGGACCTATCGTAAAGCCCGGGCGGTCGAGTCTAGATGGTACCACAGT
TGGTAGATATCCAGATAATATCCAGGCGGTGGGAAAAGCGAGGCTATTTC
CCCCACAGCGGTGGGAGAATCACGCTGTACCCCACCGACCGGTCTTGGCT
ATGATGCTTTTTCGTTAGAAATCCGAACAAACTACACTTCACAACACAGG
GCACCAACGGAGCTTGGAGACCTCCCAAGTCCTGATTCTTTCGAGACAGA
AGTCTCCGTGATGGTGGCCCTCGATATCGCCACCGCTAAGCAGTTGTCAC
AGGTTGTGTGAGGAGAAAAGAGGGTCGCAAGGAGAGGGTGTGTGTTGTTG
ATGCGACCCCAAATTGAGAAGGTGATGTTTTTTGGTGGCAATCACAAACA
ATACAGAGGGCGCCCGCAAGTAAGAAACGTAAAATATGGGTTGAGCCTCG
ATTTCCTATTTGCTGGCCTGTGCACCAGCCTTGGTGCTGATTTTTCCTAT
TCGCAGTTTCTTATTGTTGGGGCCTTGCAGGAATTGCACTCTTTCTTGAG
GAGGTGCCGTTTGATATCAGTGACTTGGCCGCTAGTCAGCTGATCTGTTA
TGGCCAACAAGTCGTCCAAGCTGCCGATCGAGGCAGTGGGAAGGGCCATC
ATGCCCGACCATGTGTCGACACACCAGTACCATCATGCCAACATGGCGCC
CGGTCTGAACAGGGGGGTTCGCATATGTTTGTACCATACCCATAGGTCAC
CAAAAATACACCCACCATGTGGTAGGGGTGGGCACTGGGCTCCAACGGCC
GTCGTTTCATATTTTTCTAACCCTCTCCTATGCGCTTCGTTTCTTGTGGT
TTGGAGCGGCCTTGCCCTCAGTTTCTTGTTGGGGTGTTTCTTACTTGATG
GCCCAGGTTGAGGTGTGTTTCTTAGCGGATTTTTCTTATTTTTCGCAGAA
ATCTGAGCCTAAATTTCTTACTTAAATTTTTCTTACTTGCGGGCGCCCTC
TGTAATTCACGGCATCAGACAGCATGCGAGCTACAAAGCCCCCGAAGTCC
CGATTCTTTCGAAGCAGAGGTCTACGTGATAGTGGCCCTCGACAGCGCTC
CCGCTACAAGGTTGTCACGGCTCGGTCGCTGGCTTAAAAAGAGTTGCCAG
AAGAGGGTGTAGGTTGGTGCAGCAAGAAAAAAGAGGCAGACAAGCGGCGA
AATAAAGGATTCCGATTCATGTGGTCGCTGCTGCTGTATATTTTCGCCAC
ACGTATCGCCACACCTGCTGGAATGCGCAGACCAGGGGTGGATTTGCTTT
CCATAGTGTTTATCTTTGGTGCCCTGATCTTTCTTTGCCTGTCTGCTCCG
CTGTTGCTGCTGATGGGCGAGGTAGGTGTGTAATAGGTATGTTTGAAAAA
AAAACCACGATTGATTGTTGTAATTGAATATCCCACGATTTTTTGGCGGC
GTTCAATTCCCACGATCGTTGTAAGAAAGCCTCCATAGTGTCCGACATTA
CAACGTTTGTTGTAAAATTACAACAAACGTTGTAATTTCGCGAGGTGATT
GGAAAGACCCTAATAATATCATATCTCTTGTTTGTAGATTTTATAAGGAA
GACGATCCAAAGAAGAGAAGGAGGTGAGTGGTGTTGGCTAGCGGTAGGAG
TGAGATAAAATGGAATGCAGGTGTTCGTAGGTCCTGTTTGGGCGAAGACA
GCTTCGTGTCAGAAGCGCAAGCAGAGAAAGGTTGACCCCAAGACCTTGTA
TTATATACTTGAAGGAGTGAAAGACCAAGTCTCTCGTCACGTGAACACCG
GGGTCCCCGTAGATCGGCATCTAGTGCCGGGTACCCCAAACAGGTTCAAC
CCTGTCCTTCGATGATTGAAAATGCCGATGATACGAGGAAGGGGTGGATC
CGAGAAGCGTATGTACAAGGGAGGAAAGGAAAACGCCCACAAATTCAAAA
CATGTGAAAAAAGGAGGCAACTTTTCTCGCACGTTTTGAATTTGTGGGGG
TGCTTTTTACCGCCGAAAAGGAAGTCCTATCGCACAACCTACCTACCTTG
TGACGGGGACATTGCACAACCTGGGTACCTTGTGACGGGGGCATTGCACA
ACCAGGGCAACTTGTGCCGTTTACATGTTTCGGTTGCGCCGACGTTGGCC
GAATCACCCAGACAAGGTACCCATTTGGCCACCTGTGCATGTGCGTACAG
GGGGCAAAAGGTCACCGGCAAAAAATCATAACGTGCTCAAATTAAAATTT
TAGCTCGTTCGAGTACGGTATGATCTTCCTCCTCCTGTGCGACCCATCTT
CCGTATCACCCCGGCTGGTGCGCCCAACGTTTACTGACAAGTGCAGACTG
GCGTTCAGAACAGTTGGAATGACACCGCACAGAGAGACAAAGAATTACCT
GGTACCTGGTATACTCGTACTGCTGTGTCATAAATTCTGAGTGCTCTGTG
CTGTTGGCTGTTGGCTGTGTGTGTTGTCTGTGTGATTTCACCGCATTTCA
TCTCGCCGACGATAGCGCGGTCTGTCTGGATGGAAAACAGGGCAGGAGGC
TGTTGCGATGAAGGAAAATAGGGGGGAAGTTGCGTTGAATATTCCAAGGC
AATATTTGTCCGACAGCTTCGCATCAACGAGTTTGCGCATGAGGCATATG
GTATGATCAGGTTCCAGCTTCAGCCCCCTGGGTGAACGCTGACAGTCCCG
CCAGCTTCAACCAATCAAAAAAGCTGTTGAGCCCATCTATCTACCCCACT
ACCCTCTTTTCATCTCTGAATCACATATGCCGTGCCAGCTGTGCAGTGCA
CATATATCATACGGAGTACATATCAAAGTGCAGCACAGCAGTTCTCGCGT
TCTCGTTACTGCTGTGGAGGATTAGGACTTCTACTCCAGAGCTTAGTTGT
GATACCAGCGATCATACAGCAGTGGAGGATAAGAATATTATACCCTGATC
GTCCGTTGTCTCCACAACAGAGTTGGCATCCATCCACAGCAGCAGTACAT
CAGTACAAGTAGAGCTGGGTCGGTTGAAGCGTGGAGAGCAGGGTCGATAA
TTTTCTGAAGAGGGGCACGGGGTTGCGCTTCCCAGCGCGAGAGTGTACTC
AAGCTCTCGGGCAGCGCCGGCGTCTGCAACAAAGCAACATCGACGAGGTT
CAAATGGCTGCTGCCGTAGCTTCATCGTCCGATCAGCCGCTGCGGGTAAA
ACAGCGAGCTATCATCGTCGGGGGAGGGCCTGCGGGCGCTCTGATGGCGC
TGTATCTCTCGCAGGAAGGCCGTGGTTTTGAGGTCGATCTGTTCGAGAGA
GAGAAGGAGGACCGCATTTCGGGTCCCACTGTACGTTCGTGGAACATTGC
CGTTTTTGAGCGAGGGACCGACGCCCTGGAAGCCGGAGGCTTTGACATGC
AGAAGGAGGTGGGGGTCATCTACCTGTGTATAACGGCAAGCATGACTTAC
GTTTTTTTCAGAAGACACGACGAGAGACGCAAAAAGACCGAGTTTCGACA
CCAGGAGGATGACGGACACATGTTTGGTTCGCCGTCGGGGTATCATAATC
ATGTTCATTCAGCAGGAGACCCGGTTCACTGACAAGGGCTGGACAAAAAA
CAAAAAAAAACTAGTCTTCGATCTGAAAAATAATTTTCAGTCATCAAGTC
AAAAGAGCTTATTTTGATGAGGCTCAGATAAGGGCTGTTGTCCGTGCGTG
CGCGATCGCCTATAGTTCCGGGCGGAACGTCATGTAGTAGCTACGTGTGC
GTTGGCGCGTTCAGATCTGCTGTTGGGGCTTAGATATCGAAGGTCGCAGA
AGTGGCTCAAAAACTCCGCAGGAAAAACTCCGCAATCCGGAGTGAAACCA
AACGTTTGAGCAGCTGTTCTTGCCACCATTGACACCAATCTTCTGAACTG
CGGTTCGTCCGAGGCAGCGGCAGTAGCTACTGCTGCTGTTGACCCGTAGT
TCAGGAGGTTGGGGTATGTAGCGGCGAGTACAGCACTGGAAGATATCGCA
GCAGTATGTATGTGTTGTGTGTTGTCATCCCTTTAATTGGTAGACGCTCC
AACTGGGGTCACACATGGGGAAGTCAGGCGGTTTCTTGTAGGGCCGGATT
TTTTATTCATTTTTTGATAGATTCCGATTTTTTTTTGAAATCAGGCTTCT
TATTGGCTCGGAAAACACCTTTTTCCAAACAACATTTTTCGAACAAAATT
TTCCGAATATCTTTTAATCGAATTTCAGGCGGTTTCTTGTAGGGCCGGAT
TTTTTTTTCATTTTTTGATAGAATCCGAACGAACTTTTTCCGGCCAACGG
TTGCCGATCCGCTGTTCTGATAGGTAAATGGGTGTTCGGATATTCGGTGA
TCCTTTTTTTAAGTAGGTGGTTGAAGAGTCGGCTCCAGAGTATATATCTG
CATCGAAGGACCGCATGGTGGTGTTTTTTGCGCTGAAACCCGTTTGCATC
GCCGCTCGTAACTTTCGAACGAATGAAGACACATCGATGACGAAGGCATC
TTCCGTGAGCTGTGTATATGATCCCCCTCGTGTCGTGATCGCTTGGGTTA
GGGTTACATCCGTACATTCGCAACGTGGGTTTGCTCATGGCCAACTCATG
CGAAACAAATTGAGAAAGATGTATCAGCCGGTCTGCTGTACAGCAGCGTT
ATTATATACTGCTGTATGTATGGTAGTTGTACAGCAGTAGAGAAAGGCGA
TGACAGCTCGGGTTCTTTTTTACAACACAACAACATGCCGCAGCCACGAG
CGATGACCATTTTGCGAACATGCCAGTGTGATCCTCACCCAAACGATTAC
CACACGAGGGGAGCCATACGCACAGCTCACGGGAGATGGTTTGTCATCGC
TGTGGCTTCATTCATTGAGGAGTTACGAGCGAAGATGCAAACTGGTCTCA
CTCAGAGGAAGCTTTGATACTCCTCCTCCTGCTGCTGCTGTGCTGATGAT
GCTGCTGCTACATACGGTTGGTTTTGGTTGCTGATGAACACGATGGAATG
AATGATGACACGGCAAGCGTACACAGAAAGATGGTGGACACACGTATGGA
CAGCAGCAAGCAGTAGTAGCAGCAGCTGCAACAACACAGAAAGTAGTAGC
AGCAGCTCTCCTCCTCTGATGGTCTGTTGTGATTAATAGCGTTTGTTTTG
TCCACACACAAAGAGAGAGATGACTTCACACATTTTTTTTTATATTTTTT
TTCCGATCGTATTTTCCGAACTGATCCAGCGTTCAGAAAATGTCCGATTT
TCCGGCTGAAATCCGATTAAAAGCTGTTCGGAAAATTTTGTTCGGAAAAT
GTTGTTCGGAAAAAGGTGTTTTCCGAGCCTATAAGAAGCCTGATTTCAAT
TTTTTTTCGGAATCTATCAAAAAATGAAAAAAAAATCCGGCCCTACAAAA
AACCGCCTCAACACAGTTTTTTTTTTTTTTCCACTTCCCTCTGCGGTGCT
TGCCTTGTTTTTGATTGAGCTTTTATCGCGAGAAAGGGGATAGCAATCCC
TTTCCCTCGTCGATGGTACGATCGAATTTTGTTTACTCACGAATTAATCG
CTTTCCACTTCCACGCGCATTGTGAGAAGAAAACCCAGATCGTGTAACTG
CACTGGGATTCGAACTCACATGTAAGTGTCAGAAGGTTACGTGGATTGCC
AACTGAACCACCGGGGCGACCGGTCAAAGGGGGGTAGTGAGAGATGTTTT
TTGGAAGAATCTGTCCAGTTGGCGGAGTTTTTGAGCCACGGCTGCGACCT
TCGATATTTAAGCCCCAGCAGCAGATATGAATGCGCTGATGCACACGTAG
CTACTACATGACGTTTCGCCTGGTCGGAACTAGGCGATCGTGCACGCGCG
GACAACAGCCGTTGTTTGAGCCCTATCAAAATAAGAAAATAAACTATTTT
GACTTGATTTAATAGTTGTGGAAAATTATCTTGTTTTTACGATCGGGGAT
TGGAGGTAGACGGGTGATAGACATGTTAAGAGAAGCCCCGACCGCAGGAG
AGGCGAATTTTTACGTATGGAGTCCGCAGAACTCGTCTTTCGTGACATTA
CTTGAAAAACTACACATAAGGCTTGCGCAGACGTCGGTAACGTTACACTT
GTCATTTTTACTTGAAAACTCCATGTGAAGAAAATATAGAGGCGCTTCGA
AGGGTTGAAAAGGGGACAAAATCATACCACGCGACCGACAGCATAACAGC
AGTGTGGTGGCAAATTCAAGCAGGAGTTCACACTGCACGAGGTAGTTACT
CGTGTACGCCCGGTACACGCAGCCTTCTCAGGAAACTACAGACTCATACC
CCAACCCCCACCCATATCGAGAGGCGATCGACGCAGTGGAAGGAGCCTTG
CGCTCTCTAGCAGCAGCAGCAGCAGCACAGCAACAGCAGCACACCCCGTA
GGTAAGCTGAAGCAGCAGCAGCAGCAGTAGTAGCACAGCAACAGCAGCAG
CAGCACTAGCAGCAGGTCATAGAGGACGGACGAGCGAGAGCAGCAACACC
ACCACCACCACCCCCGGCAGCAGTAGCACCAGCAACAACAGCTCCCGCTT
TTTTCTTCCTCTGCTTTACTCCACACACTACATCCTTCTTCTACCTATAA
ACTCTCGTGTTTCTTGCCGTTGAGCGTTGCGTCCTCGCGATCTTACGAAA
GCAGAGAAAGCAGGGCTGTGTGATGATGATCATGATGCTTTCAACCCCGC
GATTCAATTAATACTTTATTCGACGAATAGGCATATGGTAAATGACAAAA
CTATCTTGGCGCATTTACTGAGAAAAACGGTATGTGACTCGCTGTCGGGA
TTGTGAAGTTATAGTGTTTGAACAAGTGAAGCGAACAGGAAGAGGAGAGA
GAAAGCCACAAAGGGCCCCCAGGTGTGCCGGAACTTTTCTTTCTTTTTTT
TTCTTTTTTTTTTTCCAAGCACCGCAGGTAAAAAATCGCCCGCCGCTGTG
TGCGACAACGAACGAGTATTTCTCTTGCCGAATGACTCTTTACAGGTGTG
AGCTACCCAGTGTGTGATTGTCCGGTACTGCTTCGCTGTTTATCAAAATT
GGTCAAACCGAAAGTTGGTCGTCAGGCAATCCTCAAGGCCACACTGTTGG
GGACGCTGGCTATTATTTCGGGCTCCGTGGCACCGGTGGTATTTTTGGCT
CCACGGTATAATTTTACCCCCCTACATATTAACCTTATAGATCAAAAACC
CTAGGTGGTGCCCCCCCCCTGACTGCTGTACGCATCATATCCACCCTGCC
CCATTGAGCCTTAGGAGGCCCCAACCTCTACTTTTAGAGATCTCACAGCA
GCTTGAACTCGTGTGCGGATTAAGAGTGTGACCGACCTCTGTAAATGCCT
AGTAGCGCGAGATCGAGGTGCTCAAATATCACGTTTTGAGCGAAATTTAC
GTTTTGGGCACCATCTTGCCTCATGGTTTTTGTAGCAAAATATCGCAGAA
ACTGTGCTTCAGCTACGGACAAAGCTCGTTACAAGCAACCACGTTCTGCT
TCAAATTGCCACAGCCTACTGATGTGGTGTGAGTGGCGTCTCATGCCTTG
ACAGCAGCAGCAGGCAGCCAGAAACCCTTCTAGAGGTGTTCGTGTGAACT
GTATCTAGATGCCTCCAGTAGTCCAAAATTGCACCAAAATGGGAGATCTG
CGTTTGCGCGATGCCACCGTTCTACGTGTGTGTACCCCCGATCAACAAAA
CGAATCGGACGCGAATTTCGCTGGCTTACTGGGCGATCTCCCAGACCAAT
AACCGACAGAGGTTTTTTCAATCTATGGCCCAAAAAGCTGCTAAAATGAC
GTTTGTGCAAATCCCTGACACCATGTTCAAGTCATTGGGTTTCCTGTGGC
AAAACGCCCCTCCTATACAACCCTTTTTTTACGTTATTCTGAAAACAGTG
AAGCCTTAAGAAATCCAGCCTGAGCTGTATGATACTGCTGTAGTCCTGAA
CTAAAGTTTAAATTCCGACGTGGGCGGCCAGGCTGTCACAACTTTCACCT
CAACACAAACATCACCTTACCCCCATTGCAACCCAACCCAGCCCAACCCA
ACCCAACTTGTGTCCAATCCCACTCAAACATGCCGGCTCCGTTTCAAAGA
AATATGAGGTTGGGACGGCGGCGTGAGCAACACTGCGCTAAGATCATTTC
TTTAATTATAAGGTTGATTTTTCCGATCAGCTTTCCCCCACTTCCGATCG
AGCAACGAGCCCCCAAAAACGGCTACATGTTTTGCTTTTGGAGCATAACG
TGGTAACATCAATCGGTTATCGGCCCCAAGGACACCGATCGCGACCAAAT
CTTTTGGGGCGCTCCAGTGTTCTGAGCCTAGGCGTACGGGGTGTTAGTTG
TGGGCTCTGTGTATCGCGAGGTTTCGTTGGCGGAGTGGCCCGAGCTACAA
TTTTCCGTCACAATTTTCGGTCGGTGCTCCAGCCGGAAATCATGGGACAA
ATAACCTCATGAGAAGCCGTCTAAGTGCATGAACAGCACCCACACCCGGT
TTGGGGTGCGAAGAATACGGCAAGTCAGTCTACTTGATTACTATACATCA
ACAACCCCCATCTAGGACCAGCGAAGCTTCGCAGACACACCCACACCACC
CCGGCAGCAGTAGGTGACACAATCTTGAAATACAGGTGTGCCGAACTGCT
GTGTTTCCAGCACCTGACCATGTTTCCCCCGAATCTCGCTGGGCTGACTG
TTGGCCACATGTTGGGAATTGTCCGCCACGGCTCAGATGCGCCGAAAACC
AAAAACCAAACACATCCTTCGCTATGTCATTGTTTTCCTCCGCCTCGACC
CACTTCTTGTTCACACACGGCAACCGTGAACAACCGGCGGATGTGATTTC
GTTCCAGACACACAAACCCTCCACCACTCTCCTGGGCATCAAGGTGTTTT
GGTTTTTGGACCAAACCTCGTAAAAACCGCCTGACCTTAGCACGCTCGTC
TTGCGACCACCACAGTTGCATACGACACCAAGGTCCATGCTGTGTTCCCT
CCACGTTCACCCTGTCTTCTACCCCCATCCGTCATAGAAGAGGCGACCAA
AACTGTCTACGACACGGTTGTGTGATAGCGTACGGTCGTGTATTTTCATG
TACGGGGGGCATGTCCTTGCTTGTAGACACAAGACGGGTGTGCTTTTCGC
GTCGGTCTGAAAGGCTGTACTGCTGGATGTGGGCTCTCTCAACCCGGAAG
AAGCTGACAGCCGTCATGGGTAGCAAGGACATTCCTCCTGCGGCACATGC
TTTCAACCCATTCGTGAGGAGGGTTTAGCAGTCCTCCTTCCTCCGTCGTC
ACTGATTTCGTGTGCTCACGAAGAAGCATCGAACTTCAAAACTTGTATGT
AGACCAACGCCCATCACGTAGTCACCTGACCGTCTCCTTCGATCTGCTTC
GACCCCGCGCCTGACGCATCTCATCCTTTACTCCAAGGTTGGTGATCACC
ACGTAACAATGACTGGTAGCGTGCGCCACCACGCCAAAAAGAAGCTGAGC
ACCTCCTTCACGGGAGTTAGTAGCGTCTGCCGTGGAGATTTGGCGAAGGC
TTTGCTGGACAAGGCCAGCAAGATGCCGAACGTCAACATTTATTACGAGT
CCGGTGAACATGGACAAGAGGTAAGGAAGGTGGCGGTCTTGAGATACCCT
CGTTATCCCTGATCAATGAGGGGTGTAGACGTGCCTCAGCAAGAAAGCGT
TTTCTGTGGTGTCCAAGAAATAGAAAGGAATCACTGGTTCGTGAGTACGC
TGAGAGCGCATCCCCTGAAAGCTCACTATCTTGCGTGAGGCTCGCGGCTT
TTTCACCGCCCAAACCGAGGATCTGTTTTAATGCATTGCGAAATTCTAAT
TTTGACCAGATATCTGCTGCTTTTATTGAGAATTTTTTGTTGTTCTTTTG
GAAGCAAGTGTCCACAGCAGCGTCCCTATTTTCTGGGTGGTTTCCTGTGG
TCGACAACATCCGTTTAATATCATTTGTGTGCATCATCGCATTCCTCTGC
AACAACGGTCGTGCCCTGAGACTCTAGAAGACGCCAGGCCTTCCTCTTGC
CCAACGCAAAACATCAGATTCTGCGACCATTATTTGGTACAAGTGCGGCA
CGATTGAAACGTCGACCATCAAAGAGCGTAGCAAAGGTAACGAGAACGCA
CGGTACCATGGACAAATTCTCAGCCGTCTTGATAGACAACTCGGGTCACG
TTGAGCGGTAGCGCCATCCACCTCGTAACTGAGCACCTGTTCTCATGGTC
AAAACTGATCATATCCAGAAATATTCAGGGCTTAAACTCTCAACTGCCAA
GTTCCCGAATGGTGGCGCTACCTGAGTACAATATTCGATACTTCGGCGAG
GCAAAAACGACCGACTGCCGTATCAGCCGTTTTGCTGGCGATACACATTA
AGGTCGATACAAGTGGGTGTGTAAAGCGGAGGTGAGGTTGGGGGCGTGAG
GGGGAGAAATCCCCCCGTGTCTGTAACACCGTCTGTACGCCACCCTATAC
CAGAGAGGAGGTTGCAAGAGAGGCAACAGCCTGTTATGCAACTTGTAGAG
AGATGTGCCGGTATTTGTTTCCACTCCGCGAAATCATGAGAGGACTGCGG
GTGAAGTTCTACGTGTCTTGTTTCTCGTTTTTCCGAAGAAGGGTTGGCCC
AGAACCTGCACAGCATTCCGACACACTCATCTTGTATTCCCCATTATTAA
ACACCATTCAACAGGATCGCCACCTTCGAGCGCGGCGATGGTGAGATCGT
GGAAAGTGCCTATGACATGCTTGTTGGTGCAGATGGGTTGAACAGTCGTG
TGCGCAAAACTCTTGAAGAGACCGTACCCGACTTTACCGTCCGACAACGT
AAGATATGGTGACGTCGAACATCTTTGGCACAAACAACGTAGCCAGCGTT
TTTGACCTCCATTTGCCTTTGATTTTGGTCCGTGTGCGTATGGCAAACAG
CTCACGGCACGACATGGTTTTTTGTGAGGTTAGTTGTTAATATTCCGATA
CTCGGAGGCAGTCGAGCCTCGTCCCTTTTTCTTGCTGTAGTGTGCGGTGT
GCGGGACACTTTTGAATGCTATGTCCCGGTGTTTGAATTGCATGTATGAA
ACAGGATTTCATGGCATTCAAGACGATCTTGATTCCCATCTTGAATATGG
AGGGAGCAGACGAGAGTTGGACCTCGCGTTTCCACGTTACCAACTCGAAG
ATCGGCTGCCTACTGGGTCCTCCGCGATCAGGTAGAGCACTATTATTGGG
CACGAGTTCCTGCAAGTTCAAGCGTGAACAACTCATATGGCCACCGGCTC
AACCGCCGCTCTATTTTTTCTCAACCTTTGTCTTATTGCGTGCATTGTTG
ACGTGAGGAATATGGTCTCACAACGAAATCGCCCCGCGGAGCTCAAGTAC
CCATGAGAACGGAGAGAATGCCTCGGCAGCACTGTAGGGGCAGCTATTTC
GATCCTCACATTTTGCAATGGTCTCTTGGGTGCTTCATACTAGCACTGAC
GGTTTTAGAAACGCCCCAGTGCGAATGCCCCTCGTGGCACTATAAATTGC
CATTTTATGTTGCACCGTTCTTCACGGAATACTTCACGATTTGTCGTTCA
TTTGGTCGGTCGCTCCTTTTTTTTGTTGTCTCAATTTATCTCCTTGTTAT
TGCAGACGGTGAGAGCACGGCTGTGGTCATTTTGCCTGGCGAAGGCAAGT
CCTCGTTCGGGGCACTCATGAAGACGACGCAAGATGTGCGTGATTTCTTC
TCCAAGCACTACCCCAACGCCTTTGGCTCCGAAGGACCGAGTGAAGATAT
TGCCGAAGACTTCCTCGAACGAACGTAAGGATCATGATGCACGAAGCATG
TCGACACAAGGGAGTGCGTCTTTAGCAAATCTTGAAACTGCCTCGGCCCC
TCGTTATAAGGTATTGCCATTGACGCCTGTTAATGGTCAGCTTGGGAAAG
CCAATCGCTTCGAGTGGGTCGATGCTCTCGCAACTTTGACCATTATGGGG
TATTGGATCTGACGATTGTCGAAGGGGAAAGCCCTGTTTTGCGTTGACAC
TGTCGAATGATGTATTCGTTCCAAGAAATAATCTACTCGGCAAGGGCGCC
GCCTGGTCCACCTGCTAGGGACGGCACCATCTGTACGGATCGCGAGCAAT
GGCGGAAGAGGCGTGTCTCTTTTTGACGTGTGCGAGCATTTGCTGTGTGC
TGTTCGTTTTGACCAATTCAATCAGCTGAGAGCTGCGTGCTCTCCCGTCC
CGTTCTCTCTACTCTTCTTATCACTCTCTCTCTCTCGACTTGCTTCATCT
GGATCGGTGTGCGTTTATTTTGTCGAACTGATACTCTCTGGCCTGTTGCT
CACTGCCACCGGAAAGAAAGCCTCATGTCCCTGTCCGTATAATATATCGG
CGGGCGGGTGACGCAAATTCACGAAACCTTTATTTATTTGAATCACGGTC
GGCGACCAACAACGCACACCACCAGATAGATTCTGTACGTGCATTACAGT
GTAGGTACTGCTGGTATTCGAAAATCTGTGAGGTATCTTCGCTGTCGCGT
TCTTGATGCACTGATGGAACCCGCGACGATCCTACAATCCATCGCAACAA
TCATTGCGTGAGATACACTTGATCTCTCCGTACCACATGACTCTTAGTTA
GCAGCAAACGTCAACCAAGGAAATTCCGTCCGCACGGTTTTCGATCGCGC
CGCATGGGGCATTGACCAATCACGAAACTGCGTGCCACTTTTCTCGATCG
AAACGTGTTACAGTAGGGACGTTCTGATACATCGTAGACAAGCATCGCGC
GTCCTTTGTAGTCCTTATAAGTGCCAACTGCAAGCCCATCGCCGTACAAA
TATAAAACAGCCGACAACAAGGCCAGGTTGTGCGGGGTAGACAGTTTTTG
CTTAGGAGCACAGAGATCTCCGAGCTAACAGTACAATGTGTTGTTGAAAA
TGTGTAGTGGTCCATTTGGAGCCTGTTGGGAAAACCGGGTGACAGTGTCC
ACTGCAGGTGGGGACACAGCTACGTCAAACACAAGGACTCCAAGAGCGTA
GTGTCACACGATTGCATTCGACCGATCACCGGTACTGTAGTACTTCCAAC
TTTGTTTTTTATGTTTGTACGGTACAACGCTTCTCTGACGCACGTCTGTG
CGCGTGTCAAGCTTCAATAGCTGTTTCGTGTTGAAATGCAGATCCATCGA
TTCCCACGGATATGTAACTGTATGTCTGTCCTGTTTGATGGCATTGAATC
TAACAAGATATCCATATCCATCCCATTCAAAACATCCGGTAAAAACGACG
AAAATGCAATTGGGCCAAAGGCGGATGCTGCGGTTACTGAATCGAACTTG
GGGATTGTGCTACTTCTGTGTAATTCGAAGTATTAGATACTCATGCATGC
GTAAATTTTACGGCGACACACAGTGCCGTCATTGCTGTAGATGCGACGGT
TGGTATCCAGATGACGAGGCACGCTTGTTGAGGTAGAATTTTTTACTGCA
CCTCCATTTCCTCTACTGCAAGCAGGCCTCGGCATCTTTGGAGCACCTAC
TGCTCGAGTTGGCACATGAACACACCGTTCTGATCGGCGATGCGGCTCAC
TCAATGTGGGCGTCCCTGGGTCAAGGGCTTAACGCAGCTTTGGGTGAGCA
TCAGCAAAAAGCGCGTGTGCATTAATCGCTGTATGTAGCGTTCGCATGTG
TGGTCGTACATAGTCTGACGTAGACAGCTTGGATCACACGCACGTCTACG
GAGAAACGGGAGAAGCGCGCTTTCCTTCTTTGTCTATTTGTTCGCCGCCA
AAGTACAAACTTGCTTTCTTCAGCCCCGGTTTTCTGGATTCCTACCGCCA
CAGTCTTCTGGAGAAGATCTTCTTCCTGAGGTTCCCCACCAGCTTTTTCC
TGTGGCGACACTCCCCCTCTAAGAAACTTCGCTTGATGTTGTTTGGTTTG
TTTGCCGAAAAAAGGAATTGTTTGCCGTGAATCCGTCTCTATCTCGCGAA
ATTTGAAAACTTCTTTTTTCCTGAGAATTGTCGAAGAAGACCTTCATGCC
ACCTGAGGACACCCACCAACGGCAACCTGATTTTTGATTTCCAGGGTTTC
GGGTCAAAGTCCAATGGTTTGCCTGGCATGTCTATGGCGAGGGGTGTCGT
TGCCGAGGTACAAACAACAGGACCTGACAAGCATCAAGTCGTTCAGATTG
TGGTCCCGAATCTACCTCGTTTACGCGGCATGCTTTCCAACAACGTCGTT
CCCTCGGCCCCAAACAATTTGATCTCCCAACGCGAAAAACAGAAATTAGG
CGCGATCACGTGCGTGCGTGCACAGACAAGATGGCAGAATTGATCCTCTC
TGTTTCCACCATTTTTGACAGTGTGCCATAGGAATAAGAGCCTCCACGCG
ACCAGTCCATGTTGTCTCTACCCGTGGTGTGTAGAGGTATTGTGCGTATG
GTGGGCGGTATCGATGCATTGGTTCTTTGTGGAGCGATATCATCGTTGGT
GACTGGCTGCCTTTCATTCCGCCTCACCAGAGGACTGCCAGATACTAGCT
CGAGTACTGGACTCCGAGACAGACGGGGACTCAATGGCACAAGCTGTTGA
TATTCCAAAGGTGCTGGAAGCTTACAACGACCAACGTCTGGAGGACGCGC
AGGCCGCCTGCACTGAGCGAAATAGGAATGGGAGGAGCGAGGTCAATAAG
ACCAGCATTCGCAGCGCAGATGCTCCTGGCGGTGATTCTCAACAAGACGC
TTGGTCGTTTGGCTCCGAAGGTGAATATGTTAACCCCATCCATCGTTGCA
GTGTTCGTGAACAAATGTTGTCTACTCAATTGTCAGTTCGATTGTTCGCG
ACGTCAAGCAATACCGAGTTGTTTTTGTAAAATAACACGTCCCTGGTACT
CTTCTGCCTTTACGTGTTGAAAACAGGTATTCCAACCGCCCGCTCTCATG
TCCCTCAGTGCAAAGGATGTGCCGTACGGGGCGATTTTGCGAGAAGTGAA
GAGGCAGGCCGCAGTAAACAACGGACTTATCTTTGGAGGCCTCGCGTTTG
CCGTGACTGGTGTGGTTGTTAAAGTTGCCAGAACGAGGAGGGTATTTGAG
GTGAGCGTGTTGCTAGTGAGATGAACGCAGACTTTCGCGGGGATGGCATC
GCGGGATGTAGCACAAGAACATTACCGGGGAATTGAGCGGTGCACAGTTT
AGTCCGCCACCTTGACGTGAAAAAGGCTGTCCGGTTTACGAACTGTTTCG
TCCGCCAACTGAAGGGTCATTGCGAGGAGCGAAGGGGCAGGCTGCAGTGG
TCAACGGGGTCATTTTTGCGGGCGTTGCGTTTGCTGGGGCTGATGTTGCT
AATACAGTCCCTCGAAAGATACTAGAATTACTCGATAAATTTGGCCTGTT
GCTTGTGAGGTGAAATTAGCTCCATACGTACGTGTCGTCACGAGAAACGA
AACGGACTTCGTTCAGGGCACAGCTTGACGTGAAGGACAGTTAAAACTTG
GGTTTGGAGCACATAACGAAGGTGCGTGCTTCGAGATTAACGCACATGTG
ACCCCACATGAGTACAAGAACGTATTTTTTATTTATTTATGCTTGACATA
AAAGATAGATGTGGTACCAGGGTGAGAGTGCAAGTGGGCAGGAGCGATTG
GCAAACACTATTTCGAGTTGACTTTTGAGCAATGTACACCTCTTT
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Coding sequence (CDS) from alignment at P-littoralis_Contig1003:41026..72120+

>mRNA_P-littoralis_Contig1003.13.2 ID=mRNA_P-littoralis_Contig1003.13.2|Name=mRNA_P-littoralis_Contig1003.13.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1569bp|location=Sequence derived from alignment at P-littoralis_Contig1003:41026..72120+ (Pylaiella littoralis U1_48)
ATGCTTTGGAGCAAGTTCCTCTCATGGTTGTTGGCGCTTGCCAGCGCGAG
TGCCTTCTGCGCAACGCCACCAGCGCCTAGGACACACAACAACGGCAACG
GGGTTCGGATGACTGCTGCCGTTACTTCACCTGCCGTCACTTCAACGTCT
GACGAGCTGTCACTGGCAAAACAGCGAGCTATCATCGTCGGGGGAGGGCC
TGCGGGCGCTTTAATGGCGCTGTATCTCTCCCAGCAAGGCCGCGGTTTTG
AGGTGGACCTGTTCGAGAAAGAAAAGGAAGACCGCATCTCGGGTCCCACT
GTACGTTCGTGGAATATTGTTGTTTTTGGACGAGGGAGCCACGCCCTGGA
AGCTGGAGGCTTTGACATTCAGAAGGAGGTCGGCGATCACCACGTGACAA
TGACTGGTAGCATTCGTCATCACGTAAAAAAGAAGACCAACACCTTTTTC
AGGGGAAGTAGTAGCGTTTGCCGAGGAGATTTCGCGAAGGCTTTACTGAA
CAAGGCTAGCAAGACGCCGAACATCAACGTCCACTACGACTCTACTTTCT
CGAGCATGGACACAGAAAAGAGGATCGCCACCTTCGAGCGCGGCGATGGT
AAGATCGTGGAAAGCGCCTATGACATGCTTGTTGGTGCAGACGGGTCAAA
CAGTCGTGTGCGCAAAACTCTTGAAGAGACCGTACCCGACTTTACCGTCC
GACAACGTAAGGATTTCATGGCATTCAAGACGATCTTGATTCCCATCTTG
AATATGGAGGGAGCAGACGAGAGTTGGACCTCGCGTTTCCACGTTACCAA
CTCGAAGATCGGCTGCCTGCTGGGTCCTCCGCGATCAGACGGTATGCTCA
CTGGTGTCGTTATTCTGCCCACAGAAGGCAAGACTTCGTTCGGGGCACTC
ATGAAGACGACGCAGGATGTGCGTGACTTCTTCTCCAAGCACTATCCCAA
AGCCTTTGGCTCCGAAGGACCGAGTGACGAGATTGCCAATGACTTCCTTG
AACGAACCAGGCCTCAGCACCTTCGGACCACCTACTGCTCGAGTTTGGCA
CATAAACACACGGTTCTGATCGGCGATGCGGCTCACTCAATGTGGGCGTC
TCTGGGTCAAGGAGTCAACTCAGCCTTGGAGGACTGCCAGATTCTAGCTG
AAGTACTGGACTCCGAGGCAGAAGGGGAGGGAGTGGCACGAGCTGTTGAT
ATTCCGAAGGTGCTGGAAGCTTACAGCGACCGACGTTTGGAGGACGCGCA
AGCCGCCTGCACGCTGAGCGAAATAGGAATGGGAGGAGGGCGGTCAATGA
GACCAGCTTTCATGGCGCAGATGCTCCTGACGGTGATTCTCAACAAGACG
CTTGGTCGTTTGGCTCCGAAGGTATTCCAACCGCCCGCTCTCATGTCCCT
CAGTGCAAAGGATGTGCCGTACGGGGCGATTTTGCGAGAAGTGAAGAGGC
AGGCCGCAGTAAACAACGGACTTATCTTTGGAGGCCTCGCGTTTGCCGTG
ACTGGTGTGGTTGTTAAAGTTGCCAGAACGAGGAGGGTATTTGAGGTGAG
CGTGTTGCTAGTGAGATGA
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