Homology
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
D7FSP6_ECTSI (Nudix hydrolase domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FSP6_ECTSI)
HSP 1 Score: 463 bits (1191), Expect = 6.960e-157
Identity = 226/289 (78.20%), Postives = 256/289 (88.58%), Query Frame = 1
Query: 4 AVIQFHSQKHVYDVRFQGYGVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLDPEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKHLIIE 870
AVIQFHS + RF+G GV+K+DKAEDI TLV+SFTAPALAAALRDRETALH CAHLLE+GDL GVR+ LLPFT +QVA SRR + RL L+PEGFTKTHMY RKVLQRLPRHVTT TE RASV+VPLCNVDGVASVLFTKRS +RA+ N+VCFPGGKVD DQHII+TA+REMGEEIGI E+SVDVLG+LRCDW+EVASL+GVAVTPVVGFLGNLS+EQI PNPDEVS CFTIP+R+L+EEDRW+ +KY APAFVGGPY IWGLTGYILHRLV+DVLR+HL ++
Sbjct: 263 AVIQFHSLQEAALRRFEGLGVIKEDKAEDIHTLVESFTAPALAAALRDRETALHMCAHLLEQGDLSGVRRVLLPFTAKQVAESRRALGRLDLEPEGFTKTHMYALRKVLQRLPRHVTTLTEQRASVMVPLCNVDGVASVLFTKRSGNMRAYKNDVCFPGGKVDIGQDQHIIETAVREMGEEIGILESSVDVLGVLRCDWSEVASLIGVAVTPVVGFLGNLSQEQIHPNPDEVSHCFTIPVRFLLEEDRWQVDKYAAPAFVGGPYQIWGLTGYILHRLVNDVLRQHLAVK 551
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A6H5JIG8_9PHAE (Nudix hydrolase domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JIG8_9PHAE)
HSP 1 Score: 462 bits (1190), Expect = 7.110e-157
Identity = 228/288 (79.17%), Postives = 253/288 (87.85%), Query Frame = 1
Query: 4 AVIQFHSQKHVYDVRFQGYGVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLDPEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKHLII 867
AVIQFHS K RF+G+GV+K+DKAEDI TLV+SFTAPALAAALRDRETALH CAHLLE+GDL GVRK LLPFT +QVA SRR + RL L+PEGFTKTHMY RKVLQRLPRHVTT TE RASV+VPLCNVDGVASVLFTKRS LRA+ N+VCFPGGKVD DQHIIQTA+REMGEEIGI E+SVDVLG+LRCDW+EVASL+GVAVTPVVGFLGNLS EQI PNPDEVS CFTIP+R+L++EDRW+ KY APAFVGGPY IWGLTGYIL RLV+DVLR+HL +
Sbjct: 253 AVIQFHSLKEAALRRFEGFGVIKEDKAEDIHTLVESFTAPALAAALRDRETALHMCAHLLEQGDLSGVRKVLLPFTAKQVAESRRALGRLDLEPEGFTKTHMYALRKVLQRLPRHVTTLTEQRASVMVPLCNVDGVASVLFTKRSGNLRAYKNDVCFPGGKVDIGQDQHIIQTAVREMGEEIGILESSVDVLGVLRCDWSEVASLIGVAVTPVVGFLGNLSLEQIHPNPDEVSHCFTIPVRFLLQEDRWQVNKYAAPAFVGGPYQIWGLTGYILRRLVNDVLRQHLAV 540
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A7S2USV2_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2USV2_9STRA)
HSP 1 Score: 285 bits (729), Expect = 1.880e-89
Identity = 137/270 (50.74%), Postives = 189/270 (70.00%), Query Frame = 1
Query: 55 GYGVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLDPEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKHLI 864
G GV+ DK +D+ LV ++TAPALA+ALRDRE LH A LLE +LD +RK L PF + R + R + L EGF H+++ RK L R+PR ++ RA+V++ LCNVDGV S+LF+KRS + +H NEVCFPGG VD D ++++T LRE+ EEIGI + +V++LG+LRCDW EV S+VGVAVTPVVGF+ +LS +++ PNPDEVS+CF++PI+ L++ W + +Y F GGPY IWGLT YIL + +VL ++ I
Sbjct: 102 GLGVISPDKTQDLDLLVKNYTAPALASALRDREEVLHVAAQLLESEELDELRKLLRPFHHSNLERHRTKKRDMNLS-EGFQAKHLHMIRKYLHRMPRQISRSASRRAAVLLTLCNVDGVPSILFSKRSDKVTSHKNEVCFPGGHVDEQ-DDNVVETCLREVREEIGIPDTTVEILGVLRCDWGEVESIVGVAVTPVVGFIDDLSLKKLKPNPDEVSNCFSVPIKSLLKRKNWVSGEYSKHVFTGGPYLIWGLTAYILDTFLKEVLMRYKI 369
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A7S3Y7X1_9EUKA (Hypothetical protein n=2 Tax=Lotharella globosa TaxID=91324 RepID=A0A7S3Y7X1_9EUKA)
HSP 1 Score: 282 bits (722), Expect = 5.360e-88
Identity = 138/275 (50.18%), Postives = 195/275 (70.91%), Query Frame = 1
Query: 52 QGYGVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLDPEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITP-NPDEVSSCFTIPIRYLMEEDRWRTEKYVAPA---FVGGPYAIWGLTGYILHRLVHDVLRKHLI 864
+GYGV+ +DKA D++ LVD+FTAPALAAALRDRE LH CA LLE+ +D + K L PF +++ R + R+++L EGF H+Y+ RK L R+PR + + E RASV++PLCN GVA +LF +RS T+R+H ++VCFPGG VD+ +D +I++T LREM EE+GI +A DV G+LRCDW +A +VGV+VTPVVG++G++ + NPDEV + FTIPI L+ +D W ++ F GGPY IWGLT ++LHR + DVL+++ +
Sbjct: 107 KGYGVIHEDKARDLKHLVDNFTAPALAAALRDREETLHICATLLEEDRMDELHKVLRPFHTTKISERRLKRRKMFLH-EGFKSEHIYMIRKYLHRMPRQLPRYAEKRASVILPLCNSQGVACLLFQRRSDTVRSHKSQVCFPGGVVDNRLDANIVETCLREMHEEMGI-DAVQDVCGVLRCDWGTIAKIVGVSVTPVVGWMGDIEDYDFSNMNPDEVEAAFTIPIEDLLNQDSWHIQEVDGVPHLEFDGGPYRIWGLTAFLLHRFLQDVLKRYRV 379
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A7S3MB31_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3MB31_9STRA)
HSP 1 Score: 272 bits (696), Expect = 3.420e-86
Identity = 133/258 (51.55%), Postives = 180/258 (69.77%), Query Frame = 1
Query: 85 EDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLD-PEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRK 855
+DI LV +FTAPALA ALRDRE L A L G+ + +++ L+PF +E V RR +R +LD +GFT+ + I ++ L R+PRHV + E RASV++PLCNV+GVASVLF +RS +R H +VCFPGG +D VD IIQT+LREM EE+GI ++VLGILRC+W EVAS+ G+AVTPV+GF+G L+ +TPN DEV FTIP+ L++E +W T + P F GGP+ IWGLT Y+L + + +V+ K
Sbjct: 4 DDINVLVQNFTAPALAEALRDREITLQRAATLFFSGETEELKELLVPFLDESV--ERRRLRHHHLDLSKGFTRKEIVILQRYLHRMPRHVFHNAERRASVIIPLCNVNGVASVLFERRSMKVRTHKQQVCFPGGMLDEGVDSTIIQTSLREMEEELGIPREKIEVLGILRCNWNEVASMTGIAVTPVIGFIGELNDLVLTPNSDEVEQYFTIPLDDLLDEQKWLTRNFSTPVFTGGPHTIWGLTAYLLEKFLKEVVMK 259
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A4D9DAL0_9STRA (Nudix hydrolase domain-containing protein n=3 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9DAL0_9STRA)
HSP 1 Score: 274 bits (701), Expect = 3.850e-86
Identity = 134/274 (48.91%), Postives = 189/274 (68.98%), Query Frame = 1
Query: 46 RFQGYGVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLDPEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRW-RTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKHLI 864
+F+ GV++ K D++ ++ ++T PALAA LRDRE L CA LLE G+L+ + + L P+ E + RR+ R L L G T H+ + RK LQR PR +T RASVV+PLCNV+GVASVLF +RS +R+ N+VCFPGG V+ +D +II+T+LREM EEIG SVDVLG+LRCDW+EV + G+ VTPVVGFLG+L+ ++++PNP EV+ CFTIP+ L++ + W R E+ FVGGP+ IWGLT ++L + D+L ++ +
Sbjct: 47 QFKSLGVIEPSKDLDLQLMITNYTLPALAAGLRDREETLQFCARLLEDGNLEQLERVLHPYQAELITRRRRKTRSLDL-AGGLTSKHLNMLRKYLQRSPRQLTRAVSLRASVVIPLCNVNGVASVLFERRSPFVRSFKNQVCFPGGMVEESLDVNIIETSLREMEEEIGFPARSVDVLGVLRCDWSEVHKITGIGVTPVVGFLGDLTEKELSPNPKEVAECFTIPLATLLDVEHWNREEEKGTVVFVGGPHVIWGLTAHLLDIFLKDILMRYKV 319
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A482SUV1_9ARCH (CoA pyrophosphatase (Fragment) n=1 Tax=archaeon TaxID=1906665 RepID=A0A482SUV1_9ARCH)
HSP 1 Score: 266 bits (679), Expect = 1.810e-82
Identity = 127/266 (47.74%), Postives = 180/266 (67.67%), Query Frame = 1
Query: 61 GVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLD-PEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRK 855
G+ +++DI+ LV++FTAPALA ALRDRE L A L ++GD + ++ L PF ++ + SR +R D GF++ + + + L R+PR+V +E RASVV+PLCNV G+ S+LF +RS+T+R H +VCFPGG V+ VD +I+T LREM EE+G+ +VLGILRC+W EVAS+ G+AVTPVVG++G L + PN DEV FT+PI +M+E +W + + PAF GGP+ IWGLTGY+L R D+L+K
Sbjct: 86 GIFHSAESDDIQELVNNFTAPALATALRDREDILQNAALLADQGDFERLKNLLFPFLKKNIEQSR--MRNFSFDLSNGFSRKALLLIQGYLHRMPRYVYHGSERRASVVIPLCNVQGIPSILFERRSATVRTHKQQVCFPGGMVEYGVDASVIETCLREMEEELGVPSDKTEVLGILRCNWNEVASMTGIAVTPVVGYIGELKDITLKPNADEVEKYFTVPIHEIMDEKKWLSSSFTTPAFTGGPHTIWGLTGYLLERFRRDILQK 349
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
B8CB77_THAPS (Nudix hydrolase domain-containing protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CB77_THAPS)
HSP 1 Score: 262 bits (670), Expect = 1.240e-78
Identity = 131/271 (48.34%), Postives = 179/271 (66.05%), Query Frame = 1
Query: 61 GVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLDPE--GFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKHLII 867
GV+++D ED+R L++++T ALA+ALRDRE L CA+LL ++ V K L P+ E + + RR + LD GF + + RK L R+ R V+T RA VV+PLCNVDGV +LF KRS LRAH +EVC PGG V D+ I+QT LREM EEIGI+ + VLG+LRC+W EV LVGVAVTPVV ++G + Q+ PN DEV+ FT+P+ ++ DRW +K+ AP F G P+ IWGLTGYI+HR V D++ ++ ++
Sbjct: 278 GVLREDPHEDMRLLLENYTVAALASALRDREDTLQLCANLLSSNRIEEVSKILRPY-EPKYIHQRRHSKGKMLDFRRGGFDNQSIELIRKGLNRMHRRVSTAHSKRAGVVLPLCNVDGVPCILFEKRSRDLRAHPDEVCLPGGMVSEGGDKSIVQTCLREMEEEIGIEHNAASVLGVLRCNWGEVHHLVGVAVTPVVCYIGQVGMSQLNPNSDEVAEVFTVPLELFLDRDRWVHKKHYAPFFTGSPHIIWGLTGYIIHRFVMDIIERYTVV 547
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A7S3V6J2_9STRA (Hypothetical protein n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3V6J2_9STRA)
HSP 1 Score: 252 bits (644), Expect = 3.830e-76
Identity = 131/271 (48.34%), Postives = 182/271 (67.16%), Query Frame = 1
Query: 43 VRFQGYGVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYLD-PEGFTKTHMYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEI-GIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVL 849
+R + GV+++D ED+R L++++T PALA+ALRDRE L CA L + ++ + L PF + V +R + ++ LD +GF ++ RK L R+PR V+ RA VV+PLCNV+GV VLF KRS+ LRAH++EVC PGG V + D+ I+ T LREM EEI GI EA+V LG+LRC+W EV LVGVAVTPVV ++G + QI+PN DEV+ FT+P+ +++D W + AP F GGP+ IWGLTGY+++R V DVL
Sbjct: 152 MRERKLGVLREDPKEDMRLLIENYTVPALASALRDREDVLQLCATLFAEQKMEELSMILRPFERKYV--EKRRLSKINLDLTKGFDSANIQQVRKGLNRMPRRVSQAHSRRAGVVLPLCNVNGVPCVLFEKRSAQLRAHADEVCLPGGMVSAASDKSIVATCLREMDEEIEGIGEATV--LGVLRCNWGEVHHLVGVAVTPVVCYIGEIGDSQISPNSDEVAEAFTVPLSLFLDQDHWVHRQDFAPTFTGGPHVIWGLTGYVMNRFVKDVL 418
BLAST of mRNA_F-serratus_M_contig1039.401.1 vs. uniprot
Match:
A0A7S4IQK5_9STRA (Hypothetical protein (Fragment) n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4IQK5_9STRA)
HSP 1 Score: 253 bits (645), Expect = 4.830e-76
Identity = 133/287 (46.34%), Postives = 180/287 (62.72%), Query Frame = 1
Query: 61 GVVKQDKAEDIRTLVDSFTAPALAAALRDRETALHTCAHLLEKGDLDGVRKALLPFTEEQVANSRREVRRLYL-----------------DPEGFTKTH---MYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAHSNEVCFPGGKVDSMVDQHIIQTALREMGEEI-GIQEASVDVLGILRCDWAEVASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRTEKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKH 858
GVV+ D ED+R +++++T PALA+ALRDRE L CA LL +GDLD + L PF + V R+ L L G+ +T + + RK L R+PR V+ + RA+VV+PLC+VDGV VLF KRS LRAH +EVC PGG V D+ I+ T LREMGEEI G+ +V VLG+LRC+W EV L GVAVTPVV ++G +S + PNPDEV+ CFT+P+ L++ +RW + AP F GGP+ +WGLTGYI+ R + DV+ ++
Sbjct: 158 GVVRTDPGEDMRMMIENYTVPALASALRDREDVLQQCASLLARGDLDQLSAVLRPFERQYVEMRRKRENVLDLTAGFGGGNVDYDSAGGGSAAGYAETSFASLEMLRKGLSRMPRRVSMAHQKRAAVVLPLCDVDGVPCVLFEKRSRHLRAHPDEVCLPGGMVTPGDDKSIVSTCLREMGEEIEGLDMGNVVVLGVLRCNWGEVHHLTGVAVTPVVCYIGEISHLNLEPNPDEVAECFTVPLCPLLDRERWVHREGYAPIFTGGPHLVWGLTGYIVERFLKDVMARY 444
The following BLAST results are available for this feature:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_F-serratus_M_contig1039.401.1
>prot_F-serratus_M_contig1039.401.1 ID=prot_F-serratus_M_contig1039.401.1|Name=mRNA_F-serratus_M_contig1039.401.1|organism=Fucus serratus male|type=polypeptide|length=189bp
MYIFRKVLQRLPRHVTTHTETRASVVVPLCNVDGVASVLFTKRSSTLRAH
SNEVCFPGGKVDSMVDQHIIQTALREMGEEIGIQEASVDVLGILRCDWAE
VASLVGVAVTPVVGFLGNLSREQITPNPDEVSSCFTIPIRYLMEEDRWRT
EKYVAPAFVGGPYAIWGLTGYILHRLVHDVLRKHLIIE*
back to topmRNA from alignment at F-serratus_M_contig1039:188990..205255+
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_F-serratus_M_contig1039.401.1 ID=mRNA_F-serratus_M_contig1039.401.1|Name=mRNA_F-serratus_M_contig1039.401.1|organism=Fucus serratus male|type=mRNA|length=16266bp|location=Sequence derived from alignment at F-serratus_M_contig1039:188990..205255+ (Fucus serratus male)
AATGCTGTCATCCAGTTCCACTCTCAAAAGCACGTGTACGACGTTCGGTT
CCAAGGCTACGGGGTCGTCAAACAGGTAAGGTGTGAGAGAGAGAAAGAAA
GATCGTTGGTAGTACATTTTTTTTGTCAAGGTTTTTGGATTAAAAAAATA
AAAAATAAAAAGCAGACACACCATCACTACTACTGTTTTCTGTATAGACT
GCCGTATACCCCTTTTTTCGTGCTCGGTGAGCTTTTTTTTTTAGGGGGGG
GGGTAGCTTTTCCTTCCCCATCATGGCGCGTTACGGCGTTTTGGCGCCTA
CGCAAGGGTTCTCTACGATTGTTTCTATTATTAGTATGATAGTACTGTTG
TAGATAGCTGAAAACCCTTTCATGGTATTAATATTAATAGTATAGTACTC
CATCATAGTGAGTACACTTACCTGCTATAATTTTATTTTTATTCTTGGGA
GGGGGTTTCGTATAAAAACTAACCAGTACAAACCTACTTGCAGAGTAGTC
ACCGCGTAGTTTTGTAATACTTCTGCAGTATACAGTGCTAGACTTTAGAT
CATTTTATTTTATTTTATCTTTACGCAGTGCCTCTTGCAGCAATTTCCCC
GAGTTGAATACGGGGTCGCGGGGGGGAAAGAAAATGTGGAAAGCGTTTGC
ATATTTTGTGAGCCAATGAAAAAGTTTAGGTGTACAGTAGGTTCGTGATA
CTGCTGTAAAGGGATATATAGACCATCTTTCGCCGTTGGGGTTCGTGTCC
TCTCAAATAGCGAGGTTCAGATGGCTTGAGTTATGCACTCTGTTCAAGGG
GGTGGAGAGGGGATAAAAAAAGCGGAAATCATTTGCATGTTTGGGCGAGT
TATTTGTTTCATCTGTCCATCTGTTTTATCAGTCGGTTTTCTCTGCTTTC
TGTTTTCTCTGTTTTCTGTTTTCTGTGATATCTGTTTTGTCTGTCTCATA
TGTCCTGTCTGCTTTATCTGTGCGCAGGACAAGGCTGAGGACATCAGGAC
TCTTGTAGATAGCTTCACGGCTCCAGCTTTGGCGGCAGCCTTGAGGGACA
GAGAAACCGCACTCCACACCTGCGCGCACCTGCTCGAAAAGGTGACAAAA
AACTTTTTAGCCTTTTTGACGAACCCTTGGGGATTTTTTCTTTTTTTCCC
TATATATACAAAGCCTCTTAATATGACAAAAAAAAGTTGTAATGAAAAAA
AAGGGCCAGAGGAAATATCTTGAAAATCCAATCAACGTTTCTCCGGAGGT
AGAACGCAAATGTTCTAATTAAAAAAACACACACACACACACACGTACAT
GCAAGCCACAGAACACATCAACCAGACCGTGTATCTTGTTTCCTTGCTTC
TGATGTCTTGCTTTGTATGTTTGTTGATGACTTTTTTTCTTTTTTTCTTT
AATCTCACTCATAGCCGATGGACCTCATCATTACCATCCTGCCTGTGGTC
ACTAAGGATCTTACCATCTCTCCCCGGTTCACGCCTTACAAATTGTTTTA
TCGCGATGCAAGTTCAGCAATCTTACAACTCGTCAATCAATGCTTGAATT
TTACTTACTCACGTTCCCACGCTTTCCGCTACGGAAGCAAGAATTAAAAT
CCTGATTTAGCCAAGAATCGAACTCACGACCTCCGCACTAGCAGGTGTGC
AGGTTACCTACTAGACCACTCGGGCGACGAGCGATCAGCTAGTAACTATT
AATATCACCCTTCTGACTCTAACATCAAGTAATATTAATTATTACTATTT
ATTAATAGGTGTGGTGTGTATCCTCTTCGTCGCACCCGTGTGTGTGTTTT
CTTATTCATCGGCAACCTCTGTGCTGTTTGAACGTACAGCAGCATCCCAA
AAAAATGAAGAACAGAAAGAAAAAAAAGGCGCCGGGTCTCATGCGAAGCA
TCCGTCATCCACCTCTTCTCCCTCCATGCCTACGAGAGTATCGCGATATT
TTACAAAAACATTTAGACGAGGTTATGATTGTTTGTGACTGGAAACGTCG
ATTTCTCTGGAAATCTGAGGGCGCCTTCCATCCCCACGCAAATTCCGCCG
CTTTCCCCCCTATCGCAGCACTTTTTTTACTTTAAAAATAAAATAAAAAA
ATCAACCATTGGTTAACGAGTTGTAAGAGTGCTGAATTTGCATCGCGATA
AAAGTTGTCAGGCGTGAACCGGGGAGAGATGAGAAGATCCTTTGTGACCA
CAGGCAGGATGAAAAGAGGCCCATCGGCTATAAGTGAGATGGAAAAAAGA
AGAAGAAAAAAACGGCCGTGGTGTCTCCGCCGCTCAGACGCCCAAGATAT
GTTTTTGGCGGGAGGCTGTACACATTTGAAGCCCTGAAAATCAGAGTAAC
TCTCGAAGTCAAAAGCTTATTTTGAGGAGCTCGCCTGAAGAGATACTACT
GTATATGACACCCCTGATTCTCTCGCAAGTCTGATCTTTTTGTTTCAAGC
ATAATATCTCCCCTTGATCCCCACATCAGGCGCGCGCGCCTTTATTCTAT
GCCTGGTATATTTTATGCCATAAAAAATAGAGGTATGCAGCACGCAAAAA
TGGGGGGGGGGGTGCTTTCTCTGCTTAAGGCAAGAAAAAAAATGCACATC
TCACCTCCCTACTATAAAAAAAAAGTTTTGTTATTTATTTTCCCCATTTT
TTTGTTTCGTTTGCCCCCATTTAAACATATAGACCGAAACTGCGATAAAG
AAAAGTAAAAGCAATAAAAAAAACATTTAAAAAAAAAACAAACGCCAAAC
TTTCGTGTGGGATTCAAAACTCAGAATCTGCATCGTCCTTGTACAGAGTA
CATCTTTGTACATCCTTTTACATGTGCCCCCTTAAACTTTCTGCACGAGG
AAAGCAGTTCCGTCTCACTCTCTTGTGTTGCGATTCCACCCCGCCCTTTG
TTTCTTTCTTTCTTTCTTTCCTTCCCTTGCCTCGTCCGGCAAAAAGGGTG
ATCTGGACGGGGTTCGTAAGGCTCTGCTGCCTTTCACCGAGGAACAGGTC
GCGAACAGTCGGCGCGAGGTGCGACGCCTCTATCTGGACCCCGAGGGCTT
CACGAAGACCCACATGTACATCTTCCGCAAGGTGCTTCAGAGGCTACCGC
GGCACGTGACCACGCACACGGAGACCAGGTGACTCTTGTACTTGACCTAT
TAATAGTATTGTAGTAGTAAATGGCAGTTTCACGCTGCGTCCTTTCTTTA
GTATATATTATAGTACTGGTATGTATTGTAGTGTAGTAGCTCTTTAGTTA
TGGCCCCCTATTTCTCTTCGCAAAAAAAAAAAAAAAAAAGGAACAAAATG
GAGCAAAAAACGTTACAGTCGAGCAAACTTCGTACGAATACCTTTTTGCT
GTTGGCCTTATTTTTTGTTTTTGTTTTTTCCAGTCTACAATTAACCCTAA
CCCTAAAAAGACAATTTAAAAGAAGAGTGTTTTTGGTCCTTTTCTGTTTT
GCCAAGGAAAAAACGCCGTGTAACTTACCTTCGATACACTATATTCTATT
TTTGGAGATGTCGCTTTTTTCGAGTATTTCTTATACCATTTCCGCTTTCT
CTTTGTATGGAGAGTACGTCGTACGTTCTTTCCTTCCGAATGATGTTTCC
TACCTTGTGACCACGGGCTGGGTTTTTTTACATCAGCTTATGTGAGAATT
CAATCAATCAATCAATCAAAGTCTAATAGCGCTGCTGCTGTTGCAGTCAT
GAATCCTAAGTCTTAAACGGAGTGTGTCGCCTTAGACCCGAGGACGATCC
AATCGATACTTAAGTAGTTATAATAGGCACGTAACGCACAGCGCTTGTTA
ATATTACTAATAGTCGTTTTTATGGTTTTGCTGTTCTTGATATGTTTTCC
AAAGTATTAGCTTCTGTCGTTTCGCGTCTCTAAAAACAAATGTTTATATA
CCTAATTTTTTAATATGTTTTACAAAGTATTTGCTTCTGTTTTTTCGCGT
ATTTTAAAAACAAATGTTTAGATACCTAGTCTAATTTTTTAATATGTTTT
ACAAAGTATCTGTTTCTGTCTTTTCGCGTCTTTTAAAAACAAATATTTAT
ATACCTAATTTTTTAATAGGTTTTACAAAGTATTTGCTTCTGTCTGATCG
CGTCTTATAAAAACAAATATTTATATACCTAGTTTTTGTATGATTTTTTT
CATACACGATGTCTTGTCGGGTGGGGTAGCTCACAATATGATTGGTTGAA
TAAAAATCTGAACGCATCATGACCCCTCTGAGCATCCCCCAGTCGGGAGG
GAAAATGTCAAAACGTTTAGGTGGGATCATAGGCTGCAAATACAAAACCT
CTTCATGGCATTTAAACGGGTTACCTGATGGTAGTAACATTGGGTCAAAA
ATACACTACCGGGGAGAAACCCACCGTTATTCTACCTCCGTTCCCGCGTC
GCCCGACCCATGGCCATGACCGGCCATGTCGGCGCGACGTGGGGAGGGTC
TTTCTGGCGGGTGTAAGGCCGGACCCACCCTCAAGGAGAAGGATTCCTTC
TTGCTACTGCCCCGGCCATGGTCAAGGCGCAGCGGAAGAGATGGGTCAGC
GCAGTGTCCATTAGGCACACACGACCCCTGTTAACTCAGTACATGCCAGT
GCTCCATGCGCGGACATGTTCGGCGATTCAGTGTGTGCGCGAGCGGCAGA
TGACACTGCTGCCGAAAGCTGGTATGTACACCTACACGAGGGAGTGCACC
CGGTCTGTAGGCTGGAGTCGGCGACAGGATGGAGAAGCAGTTGTCGACGG
GCGGGAGGTCTGGTTGAGCCTTTCGTTCGAGAAAAAAAATCAAGACTAGA
ACCGGAGTGCATAACGAAGGAGGAGGGTGTGGTCGTCACACGAAGAGAGC
AGAGGGGTGACGGAGCAGGAACAACGACAAGAACACAGGCGGGGCCATGG
ACGCTGGTGAGGACGGATGGGGGCGCCTGGGGGCCGGCCTCGCTGAAGGA
GGAGGAGCGAAGGAGGCAGATAATATAATAGAGAGCAGACGATCATTTCC
CACCGATGAATTTTTTCAGTCTGTGTTCTTTCGATGTGCAGATGGTAGCA
TCCCATGATTTGCTTCATGGTTGAGGTATATTCATGGGACACTCTGGGCA
AACTTTGCCTTCTGCCGAAAGCGCTTTGTCGTGTGTAGGCAAGACTCGCC
CACTCTGTTGTGTTGCTAGACATGTGCTTGACTAGATTCATTCGAGGTCC
TTTCCGATCTTCTCGTTGCCCCCGACTCGTATTTTTGTGTTTTTGGCTCT
TCTTCCTATCTAGCTAGTCTCTGTCTGGGCCATTTCAAACAGCACTTCAG
ACAGTAGACATTTACTGCGATGATTCCACATGTGATGTTCCGTTACCGCA
TTGGCGTCTGCTTGGCATTTTGCGAGTTGTCACCGCAGGTAGCTCGTGTA
TGGAACATCTCAGCAGCAGTGCTGTGTCAAGGCAGTCGGACGTTGCACGC
CGAAATTTGCTTTTCAGCGGGTTTAGTACTACATACTGTAGCTTGATTAT
GCCTTTTTTGCGGACTCTTGGTGTGCGTGTGTTTTTTCTTTTGGTGTCTG
CTAGCCATTACATTAGTTTTAGTTTGGGTACGGATGGTATGCTCCTTGCA
CTCTGTGACCACCGGGTTCGAGAGATCGGGCTTATGTGCGGAAATAATAA
TAATAATAATGCTGTACATTTACTACATTAATCGTCATGCAGGGACACCA
GACAAAAATAAAACAAAACCATTTTTTGTACATAATAAAATACCTAGGTT
TATAGTATACTGGTAGTATATAATAATATACAGAAATAATAGTGCATCGA
GCTTTATTATAAAATAAGGGCTTATAGTCTAGAATATGCTTCCAAGAGGC
GATTATGCTCGTGAAATATGCTACTTTGTGGTTGTTGACGCTTCCCCTAT
CCCCTTGCAACCTGTATGTATTATTAACTCCTCATTTCCGGCTCATTTAC
TCTGGCCTTAGCTTGCGACATCGCATTTTTCACTTACCGCGTTCACAATA
CTAAGCTGTATCGTGTTCAACTCATGTCACTCATGTGTATAGATCTATGT
ATGTAATGTATATATTTGTGTGCATACCGCACCGAGACATACACCACGTG
ATAATTGGACTTTGTCGGGGATGGTTAGATCAATTAATATCATATTTCCA
GAGAACACAGGGCAGTACCGTAGGTTATGTTGAACTGCAGGTGTCAAAAG
GTTAAATTCTCGAGGCCCCTACTGAGCTACCGGGGCGACCGCGGACCCTC
TCGACCTTCACGTCGCCACAACAATATACTATACAGTACTGGGACACTAA
ATGAAGAACAGGGAACTGAAGCCACACCGCAATATCACAAGGCAAAGGGT
ATACAGCACAGCAGTACAAGGAAGAGCGTCCCTGATACAAAAAAAAACAT
AATATATATTATTCCCCTGTTGTACTTGAGGAAGGCCGACGCCTTAATTC
GGTCGCCAGAGCAAGTCTCTTATCTTGCCTCTCGTCCAAGCACGCGCGAA
GGATAAAAAACACCCGCTCCATGAAAACAGAAGATGGCTGAATCAACGCT
ATGTCCTTCGCTACATTATGCCAAAAAGCAAGCTTCAGCCTGTTGTCATG
ACGAAAAGCCCACAGGTCGTGACCAGCATCCGCATTAGACGCCGCGATGT
TGTGGTGGACTTTTCCTAGCTCGAGGTTGTGGACGACGTCGTCGGTGTTT
ACGACTGGAAATACTTCTTCTTGAGGATCTTGATATCCGACATGTTTCCT
TTGGCCAGCGAGACGGCAAGAGGGTTTCGACACGGCGGACCAGTCACTGG
CGGACCAGTCGCCGGCGCGCCCGCCTTGGAGAGGGGGCATGTTCTCGAAC
TTTGACACACGTCCAATGTAACTGACCTCTTCTTCTGGTTGTTGTAGTTC
TTCACAGTAGTCTTCATCATTTCCTTCGGCGCCCACGTCCACCTCCACGC
CGGAGCTCGCGCACGTATTGCGACTCGACGTTCAATGACCGTTTGCTATA
CGAACTGCCGTGGTGCTGTGGTATGTACTGCTGTACCGCTGGTCACTGCT
ATGTGTGTATGCTGTTTTTTTGCGCCCCGCTATGGACTGGGTGAGTGAAC
GAAAAAAAAAAAAATGAGACGGAGGTCTCTAGCTCCCTCCCTAGTTTAGA
ATTTAAAAATGGGGCCCACCTTGGGCGCATCTCGTCCTCAGAGTTGCTTT
TATTTGGCCTACCTTGGGCACATCTCGTCCTCAGAGTTGCTTTTTATTTG
GCCTACCTTGGGCACATCTCGTCACGTACACAGCTTCGAAGCACATGAAT
TCATTACCGAAGCACTGTACGTGACGAGATGTGCCCAAGATGGGTCGGAT
AACAGCAACTCTGACGATGAGATGTGCCCAAGGTGGACCAAATAACAGCA
ACTCTGAGGACGAGATGTGCCCAAGGTGGGCCTCATTTTCCATTTTCCAT
TTCTAAACTAGGGAGGGGGCTAGAGACCTCCGTCTCATCTTTGTATTTTT
TTCGTTCACTCACCCAGCCCACAGCCCATAGCGAGGCGCAAAAAAAACAG
CACGCGCACACATAGCAGTGATCAGCAGTACATACCACAGCACCACAGCA
GTACGTTTAGCAACCGGTCATAGAATGTCGAGTCGCAATACGTGCGCGAG
CTCCGACGTCGGGGTGGACGTGGGCGCCGAAGGAAGTGATGAAGACTACT
TTGAAGAACTACCAACAGCCAGAAGAAGAGGTTAGTTACGTTGGACGTGT
GTCAAAGTTCGAGAACATGCCCTCTCTCCAAGGCGGGCGCGCCGGCGACT
GGTTCGCCAGCGACTGATCCGCCGTGTCGGTCGAGCGAACCCTCTTGCCG
TCTTGCTGGCCAAAGGAGACATGTAGGATATCGAGATTCTCGAGAAGAAG
TATTTCCATTCGTAAACACTGACGACGTCGTCCACAACCTCGAGCTAGAA
AAAGTCGACCACAATACCGCGGCGTCTAATGCGGATGCTGGGCACGACCT
ATGGGTTTTTTGTCATGACTGTGAACTGGGGCATCCCACGAACATGGCGT
TTCATTTTGTCATATTAATCGTCGATATACTGTAGCTCTTTATACCATAT
TTACTTCTTGGGGGGGTAGGTGGGGTAGGTACAGTAGTAATTGATACAGC
ATCAACAGCTCAATTTTTCCCATTGCACAACCTCGGTTGGTTCTCTGGAA
AGGTGGCCTGCTGCCCAAAGCAAGCTCTGCCTCGCTTCATCTGGTTGGTA
GGATTGGTGTAAGGGTGGAGGGTCGGTCGTGGGAGATCTGAACCCGATTT
AGAAGCATCACCCAGGCAGATAACTGAAAACTGGGGCTGATTACACAAAC
CTGGCCAGCCACGACCTTTATATTTACCAGCAAGCCCACTTCCAATGATT
CGTGCGAGACCAAGTTATTCTCAGGCGCCAACAAACGCGGACAGGGAAAT
ATTCGTGTCTCCCTGTTCAGCTGACTATGTGCAGGATTTGGCAGCCTTAC
CCGTTTGCATCCATACTCTTGCTATATGTGTGACCATACATGAGTGGGGC
AGCCTTTTACAGACCCGTGGTCACCATTCCCCCTCTCGCCCCCCCCCCCT
CCCCCCCTACACGCCTCCGTACCTATTATTTTCAAAGAGCATCTGTGGTG
GTACCGCTGTGCAACGTGGACGGCGTCGCGTCGGTGCTCTTCACCAAGCG
GTCCAGCACCTTGCGAGCTCACAGCAACGAGGTCTGCTTTCCGGGGGGCA
AGGTGAGACCGGCTTCCATCGTCGTCATCATCATCATAGGCACGGGTCAT
GCGCCTGTATGTATGTAGTCGTTTTTATTGTTGCCTCCCCGATGCATCGG
GAGAGGAGCCTAAACCAATCTCAAGCAACGATCGAACATGAAAATTAAAA
ACAAGTAAAATGTAATGACAGTCTCCGTTCTCGAAGAGTCGGACTCTTTC
CAAGGACAATTGTGCGAGGTGGCCCTCGGAAGGCTGTTGTGCTTGTTGCT
GCATTTCGCATTGATGGGCTGTTCCCGGTCTATCATACGAGGATCTTAAG
TCCTCATGATATTTTTTTGTGCAAGCCCTTTTTTCTTTTCTTTTTTCGAT
CCGCGCTTCCCTTTTCGATTGTATGTATGTATGTATGTATGTACTGGTAT
GTGTGTATGTATGTATGTATGTATGTATATTTATTAAATTGCACATAACC
GCGCAATCCGGCCCTGTCATCCTAGTCATTATATGCCACTCGCATTGATC
CTCCCGAGGAGGGATCAATGAACCTTGTTACGAAAAAATTTATGTATGTA
TGTATGTATGCATGTGTGTGTATTTATTAAGTTGCACATAACCGTGCAAT
CTGGACCTGCCATCCTAGTCATTATATGCCACTTGCATGGGTCCTCCCAA
GGGTGTGTCTATGTGTGTGTGTGTGTATTTATTAAACTGCACATAATCGC
GCAATCCGACCCTGTCATCCTAGCAATTCTATGCCACTCGCATTGATCCT
CCCAAAGGGGGGATCAATGTGTTTTTGTGTGCGTTTTTTTCTGTCGCCAC
GTGTACCACCTTCATAGCGGCGAATATGACCGACCAGCTCCCTCAAGATT
ATTCCCGACAAATCCTGCCGATACGATGCCTTGCTCCTCTCCTTTTCCAT
CCTGCCGATACGATGCCTTGCTCCTCCCCTTTTCCGGCCGTTTCACGTCG
ACTTCGCGTGTGTTTCTCATACAACAAGGTGGACAGCATGGTGGACCAGC
ACATCATACAGACGGCTCTGAGGGAGATGGGGGAGGAAATCGGCATCCAG
GAGGCCTCGGTGAGAAGTTGGAAGAGTTTTTATGGCGCGGGGACGTTTCA
TCCGGCCGCTGATAGACGAGAGAACTTCCGTTGCCACAATACCACAGCTG
CTGCGAGTAAATCGTTTGATGTTAGGGCCCAGGAGGATAAAAACCCGCCC
CTCAAAAGCGTCTACTATTGTCTGTCTGGCCTTCGCTGCAGCGTCCGCAT
GTACATACATCTACATATATTGATGTATATTTATAGTCGATATTTTGACG
ATGCAAGAACTACAGGGTGTGTATGCATTGGCAGAAGAAGAAAAAAAGGA
TAAGTAGATACTTTGTATAGCTCCGCGTACATATGTTTTTTCATTTGCCG
GTGAAACCGTTTTAGACAGTTTTTATTTATTTATTTATTTATTTGTTTAT
TTATTTATTTATTTATTTTTATTCCCTCCCCTCCCAGAGGAACGCAAGCA
ATGCCCCGGGATATGCGTGTATCTTTCAAAGTGTACTCGACTCAAAATCC
CCCCCCTCCCCCTAGTTTGCATCGCCGCCTCTTCTCTCTAACAAACCATA
TCGCAACGGGGGTTTCTTCTTATCATACAGCGGTCAAGTAATGTAGGTCA
AAAGAAATCTTGGAATACCGTTTTTGCAAGGTCCAACCCATCTTAGTTCG
CGCAGAGCAGATGTGCAAGGATCCCCCCCCCAGAAAAACAAGCAAACAAA
CAAGTGTGCGTAAAACAGTAGATATATATACTTCAAGAGGGTCCTTTGGT
GACAAAAAGTGGGAATGGTAACGTTGGAGCTTAACAGTTGGTGGGAATGG
TTCCATCGCCACAATGGCAAAATGGGTAAAGAGAGAGAGAGAGGACAAAT
AATGTAACGCATACTTGGATTTTTTACGCATCCGCCTTGTTCTGACTTGT
TTGTTTTGAACAGACCCCGGAGGGGCCGAAAGGAGTCAAAATTGCCGTGT
TTTTATTTTACATTTATTTTATTTTTATGCCCGGGACATAAAATATACTT
CTATTTACAATAATATATATATATATATATATTATAAAATTACCTCCCAG
AAACAGGTGCCACCGGGAAAAAGTAGTTCAAGAAGTCATTTTTGTTGTCA
TAGCTCTAGTCTAGAGCCATGTATCTGTATTAATACCTTATCGACGTCTC
TTTCCCCCCCGTTTCTCGCAGGTGTACCCTTCTTTTTTGTACCCGATCCG
GTCCTAAGATGGACGTAAAAATGCGAAAATCAATGCCACCACGATCGTAT
TTTGTATTTTTGCACGTATTTTCGTAGCGTCAGTTCTCCTCTTCGTAGTG
CTCTTATATAATATACTGAGTATTTATATTGTACCTTATCGGGTGCCTGT
TTTCCCCCTTATATTATACTGAGTATTTGTATTGTACCTTATCGGGTGCC
TGTTTTCCCCTTTTATAATATACTGAGTATACATATTAGACTATACCTTA
TCGGGTGACTGTTTTCCCCTTTCCACGCGTCCTTCTTCTGTGTACTTTCC
GTGTACCCGATTGCGTCCTAAAAAGGTTGACGTCCTTGGGATACTGCGCT
GCGACTGGGCCGAGGTGGCCTCACTCGTTGGCGTCGCCGTAACACCTGTC
GTGGGGTTCCTGGGGAATCTGTCGCGCGAGCAAATCACTCCCAACCCCGA
CGAGGTATTTTCTATTTAGGGGGTTCGATGATAACAACCACAACATCAGC
GTAACGACAGTCGTTGGAGTTTTGTTGTGCAGTCAAGAGAACGCTGTTTA
TAACTTATTCGCGATGCACTGTTATGTGTCGCAATTTTTTTTGCATTTAT
CTCTAATTAGACTTATTTAGTGTTTGGTATGTAAAGTACAGTACAGAGAT
GATGCATCGTTCTTGGAGTCATTTATTCAGTATCGACATATATATACATA
TACCTATATGCATGTATCGTCATCATATATATTAATCAGGGTTCTACACG
GTAACGCTTTTAAAAAATGGTAGAAAATGGTACGGTTTGGAGTTCCACGG
TTTTTCAAACGGTACGGTATATGGTATCTAAGTTTACGGTATCTGATGGT
ACGTTTGCCCACACCACGGTTTTTCAAATGGTATCTGGTTACGGTATTCC
AACATTGCGGTAAGCAAATGGCACGGTATATGGTAAAAAAATCTTCACGG
TAGGCAAATGGCACGGTATATGGTAATAATGTTTCTTCGCGGTAGGCAAA
TGGTACGGTATATGGTAATAATGTTTGTTCGCGGTAGGCAAATGGCACGG
TATATGGTAACATTGTTTCTTCGCGGTAGGCAAATGGCGCGGTTACGGTA
ACACGGGCTGACATAACGCAGTCCTGGACTTCTATGCAACTGACCTCGTT
ATTTGTTCTCAGAACCCCGGGCTTGAAAAAGAAAAAAGCACGCGCTCTAA
GACCAACGTATGAGTTTGTACTCTACACCCCCCCGTGCGCGCGCGCCTCG
CCCTCTCTCCCTCTCTCTCCATCCTGTATGGTATGCGCTACTATTGCCAA
CCCGCTCTACCAACTGTCCAAAGAGCTTCGAATGAAAGTATTCCCCGCTG
TCACCAGTCACCATCATCTACAGGTCGATCTCAATCAAATCGCCGGCCGC
CTCGTTCTGTGCCTTGCCAGTGTCCTCTCTGCACTGGTTTCGGCGCGCCT
GCTGCCTGTCAATAACCCTGTTATACGCCGCAATCTCCGGTATATACCTC
TGGTTCAGTCTCAGGAACATCATCTGTTCCACCTTGAACGCGCCCATTCT
CGACCGCATGTTGCCGATGAGCAGAGCGAGAGCAGAAAAGTTCCGCTCAG
CCTGGTAGCTCGTGGCCTCGACCCCGTGGTAAAGGCGTGCGAGGAGTGCG
AGATGCGACATAGCCGCTTCCTCGATAACCTCGCCTGTCGCTTGGGAAAG
CTTAGGGGAGCCCCTTCGCCGCCAAAACCCCGGCAAGGAAAATCCGTCCT
CTTCCAGCTCCACCCCTTCTGCTGTATACCTCGTCAGCTCTTGGAGAACA
CGGACCTTGTGCGTGATGCTTGGCCCCGAGCCGCTCTCCGCCTCATCTCC
AGCGGCACCCGCACGCCCAGCGGCAGCCAGTCTGTTGGCGCGTCGCTGCT
CCATAACGGAGAGCACCCGCGGCTTCTTTGCCAGTGGCCCCGTTGCCACC
AGGCTGTCCCGAGCCTCTCGACGGTTTTGGTCTGTCTTGAACCTTTGGCT
CAGAAGTGCTTCATGCACCAACCCTACACACATACCAATCATCCACTGAC
AAGTACAATACTCCTATGCATACCACAGTCGGGATTTGTCGCCAAAATAT
AAAGTATATCTATGCTCCTGTACCTATGTAGTGACAACTGCTGTGTGTTC
TACTACATGCAGTATTTCTGGTATATTTTATATGTGTATAATCGATGGAC
AACCTGATGTCATTGTGACAACCACATTGTACAGTATACCCTCAGCAGTC
GCCTCCACAATTACTCAGACTGAGGATAAATTACCGCTGTAGACTTCTGT
TTATGTCCATGGTAAGTGTATGGTACGGTATATGTGTAGCTGAAAAATTC
CACGGTTCAAAACGGTATATGGTACATATTTGTACGTTTTTTTGAAAATA
CCACGGTTCTTAATGGTATATGGTACGGTTTTTTGGAAATACTACGGTTC
TAAATGGTATATGGTAGAAATGGTACGGTTTTCTGAAAGTATTACGGTTT
TTAAATTGGTACGGTATATGATATCTCACGACCACGGTATACCATGGTAA
GCCTTACCGCGGTAAAAACCGCTGTAAATTTACCGTGTAGATCCCTGATA
TTAATAGTAGACTAGTCCATGCACCAACCGGATATGTTGACAATCCTTCT
CGTGGTTAGCTGAGCCGGGTTTTTTTTTTTTTTTTTTTTTCCCCAATGTC
TATCGCGTTCGGCCGTGGCCCGTCCCGCGTCAGCCCCGGTCATTCTCcaC
ACACACCCTGGCGAAATCAGTACCCGATTCGGTACACCCTCGAGAGAGAG
AGATTAAACGTGGCTTGTTTCGTCTTATTTTGCCCTGCCAACCAAGAAGC
GAACGGCAACCGCAGTGTGTCAGCCCTTGCTCCTCTTTCGATGTGGTTTG
GTTTTGCTGTTGCCGTTGAATTTTACTGTCCAAGAGAGCTATACAGTAGA
CTATAGTATTAACGGTACCATGCATGCACGTGGGCACAAATATTTTCGGC
TGCTGTCAACCCGTATTTTTTTTTTTATCCGTAACCAAGTGGTTTGTGGT
CAGGGGACGCCAACCCAGTAGACTAGTGGTTGTCGAGAAAATGTTCCTGC
GGCAGTAAGGTATCAATCGCTAGCCTTGGCCACACCTTTTCCGGTTTCTC
CCTCACACTCTACCAATGGTAGTAGGGTGTTGATAGGGTAAGTGCGACGA
GGCGAAGCCGTTGTAACGTTATAGAGCTATCGCTTTCCCAGAGAGGGCAT
TGGGTCCAGATCATCCGGGTCTTGCCACCGGGTGTTGAACCGCGTGGTGA
GATCTTGATGCTCGGACCCAAAGCCTTCTCTCCGATAGCGAGGGCTCTGA
CGGTACAGCGGCTCCAGCCTCGTCGTACTCGCCCTATCAACAGTAATAGT
AGTATTGATAGCATGCGAGGGAAAAACGGTATATAGGTATGATACAAAGG
CTGGTGATTTTTTTTTTACGGCGGAGGAACGTTTTCTCAACAACCAGCGG
GGTTTTGAGTTCTTTATAGTTGCATGTATTGACGGGGAAAAGCATAGAGA
GACGTGCGCATTTTTGTCGCCCTTTCCAAAAACATGGATGGGATTGAGAA
GAGAACCTTACTCTGTGAAAACCTTGAACATCGCGAAATGTCTCCGGGGG
CGCGTGTTATGTTGCGTTTTTGTTGTTGTTGTTGTTGTTGTCCTATTTCC
ACAGGTGTCTTCGTGTTTCACCATTCCAATCCGCTACTTGATGGAAGAGG
ACAGGTGGGCGAAGAGTTGTAGGATAAGCCTCGATGCCATTTTTTTTTTT
TCGAAGTGAAGGCACCCCCCGCCCCCCCCCCCTCCAAAGGATGAAATCAG
TACGAGTAATGTCCCATACAGTCGCTTTCTCGGAGGACGCCAATTAAAAG
GGGCCCACGAAACACACGTTCTCGTTGAAAGGGTAATATACCGGGAGGGG
ATGCCGAGGTTGCGTCGAGACCTTCTCTCGCCCTAGGGGGGAAATTGGCG
CGCGTACTTTACTAGAAGGGGGAGGGAAGGGGGTGGGGTATAACGTCGCC
GCAATTTTCTTGGCACACTTACGGAACTCAGGAGGAATCCCGCAAGTCAG
CACCAGATTCAGCCTGAGTATGGAGATGAGCAGGCTGACGCGGGACGGGA
CGGCCGAACCCGTCCCGCGAGACCAAATTCTCAGGCGCGAACGGGGACAG
GGAAGAACTCATTTTCCCTGTTGAGCTGACCACGAGCAGGATTGGCAACC
TTACCGGGTTGGTCCTTTTACCCTTGCTATATATGTGACGACCATACATT
CATACATGCATACGCAAAAGAAAAAAAAGACAAGTGTCACGACAAATTCA
ACGCTGCAGAGTTGGGGAGATGTCACCGCACGACGTATTTCGAAAGACGC
AGCTATTGAGAAAATAGGGAGGGGAGTTTGGGGGGGGGGGGCTTGGAATC
TTCATATACGTCTCACCCACGACATTCTCCTGTGTTGCATCTTTGTGCAT
GCATGGTCTTTCTATAAACAGTATATAAACGTGGCAACATTGTCTTTTCA
TTTGTTGACTATTAATAGCTTTTATACGTGATTATTCACCCAAGGATATT
TTTTTTCTCCTATAATGGGCAAAACTTTTTACCCTTTTTTCTTCTTTTTG
TTGTTGGTGTTGTGCATGAGGTATTTATTTATTTTTCTACCCCCTTTTTT
TTTTTCCCCACCAAAAAGGTGGAGAACGGAGAAGTATGTAGCTCCCGCGT
TCGTGGGCGGACCGTACGCCATCTGGGGACTGACCGGGTACATCTTGCAC
CGACTGGTGCACGACGTTCTTCGAAAGCATCTCATCATCGAGTAGACAGA
AACCGCCGAGGGGCGCATGGAAAGCGTCGCTCTCGCCTTTGGAGAGGGAA
AACATCAAAACACACATTTCGGCAGGGAAGACAACGAAAAAAACCCTGCA
GTATACGTTCTTCGGCCGAAGCTGCTGCTGTTTGTTGTGCACGCGCAGGA
CTGCAGTACGCTCGTCAAGCGGATGCGGAGccccCCCCCCTCGGTACTCT
CATGGTGTCAGCTTTGGTGATGAAGCATGGTCTGCTTCGTTTGTTTGTTT
TTTTGCCGTTGCCTCCCCTCTCCCCCGAAGGTGCTATTGTTTGCTCGAAG
ACGTAGCAGAGGCTGCATTGGTACGAAAAGTCGACAAGGCTAGACATAAG
ATATACAATATAAATATATATATTATATTAGGGGCCGAGAACTTGCCTTG
CGTTTCCTCCCCTCCC
back to topCoding sequence (CDS) from alignment at F-serratus_M_contig1039:188990..205255+
>mRNA_F-serratus_M_contig1039.401.1 ID=mRNA_F-serratus_M_contig1039.401.1|Name=mRNA_F-serratus_M_contig1039.401.1|organism=Fucus serratus male|type=CDS|length=1134bp|location=Sequence derived from alignment at F-serratus_M_contig1039:188990..205255+ (Fucus serratus male)
ATGTACATCTTCCGCAAGGTGCTTCAGAGGCTACCGCGGCACGTGACCAC
GCACACGGAGACCAGATGTACATCTTCCGCAAGGTGCTTCAGAGGCTACC
GCGGCACGTGACCACGCACACGGAGACCAGAGCATCTGTGGTGGTACCGC
TGTGCAACGTGGACGGCGTCGCGTCGGTGCTCTTCACCAAGCGGTCCAGC
ACCTTGCGAGCTCACAGCAACGAGGTCTGCTTTCCGGGGGGCAAGAGCAT
CTGTGGTGGTACCGCTGTGCAACGTGGACGGCGTCGCGTCGGTGCTCTTC
ACCAAGCGGTCCAGCACCTTGCGAGCTCACAGCAACGAGGTCTGCTTTCC
GGGGGGCAAGGTGGACAGCATGGTGGACCAGCACATCATACAGACGGCTC
TGAGGGAGATGGGGGAGGAAATCGGCATCCAGGAGGCCTCGGTGGACAGC
ATGGTGGACCAGCACATCATACAGACGGCTCTGAGGGAGATGGGGGAGGA
AATCGGCATCCAGGAGGCCTCGGTTGACGTCCTTGGGATACTGCGCTGCG
ACTGGGCCGAGGTGGCCTCACTCGTTGGCGTCGCCGTAACACCTGTCGTG
GGGTTCCTGGGGAATCTGTCGCGCGAGCAAATCACTCCCAACCCCGACGA
GGTTGACGTCCTTGGGATACTGCGCTGCGACTGGGCCGAGGTGGCCTCAC
TCGTTGGCGTCGCCGTAACACCTGTCGTGGGGTTCCTGGGGAATCTGTCG
CGCGAGCAAATCACTCCCAACCCCGACGAGGTGTCTTCGTGTTTCACCAT
TCCAATCCGCTACTTGATGGAAGAGGACAGGTGTCTTCGTGTTTCACCAT
TCCAATCCGCTACTTGATGGAAGAGGACAGGTGGAGAACGGAGAAGTATG
TAGCTCCCGCGTTCGTGGGCGGACCGTACGCCATCTGGGGACTGACCGGG
TACATCTTGCACCGACTGGTGCACGACGTTCTTCGAAAGCATCTCATCAT
CGAGTAGGTGGAGAACGGAGAAGTATGTAGCTCCCGCGTTCGTGGGCGGA
CCGTACGCCATCTGGGGACTGACCGGGTACATCTTGCACCGACTGGTGCA
CGACGTTCTTCGAAAGCATCTCATCATCGAGTAG
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