Homology
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
D7FZH1_ECTSI (Tic22-like n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FZH1_ECTSI)
HSP 1 Score: 375 bits (962), Expect = 2.090e-122
Identity = 181/292 (61.99%), Postives = 230/292 (78.77%), Query Frame = 2
Query: 296 GRWARVRRSVALGAASFTAILLGTTTVAGLLAEVEEKLGG------TVALPMAMKSAHASVLKPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSYAKDARILVVSMEKAYGMVRAGPRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERSEDLQDFGFFASSDSAEYIQRGREESKAFPKPRLGRMWSF 1153
GRWA RRS+A GAAS +G T ++G+ A+V+ +L V++P AM+SA ASVL+PF KR+VEEKL NLPAFMVTN KGSPYL+PT+ Q+AVFFTN+DDAKEML EMVQ +Y +ARILVVSMEKAYGMV+AGP+ TGY N+ G +E MDFK+E DMHSF KA++LGLD+ PA + +D+PVFY EGLE+KRD LV+PLFMDPADL+ AW+K A+ NP++P +PTVKVFN P+VIVAME +++ FGFFAS++ AE+I++ R+ K FPKPRLGRMW+F
Sbjct: 98 GRWAGARRSLARGAASLATFTVGATALSGMSADVQHRLNSRDGAAVVVSIPAAMESAEASVLRPFEKRTVEEKLANLPAFMVTNKKGSPYLSPTEPGEPQMAVFFTNVDDAKEMLMEMVQESTYQNEARILVVSMEKAYGMVKAGPKLTGYQNDEGVDERMDFKLEPDMHSFQKARRLGLDVSPAAANIDVPVFYVEGLEVKRDGGLVKPLFMDPADLVEAWKKAAASNPDMPAEPTVKVFNMPDVIVAMELTDEFNQFGFFASTEGAEFIKQARDARKPFPKPRLGRMWAF 389
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
A0A6H5L2U4_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L2U4_9PHAE)
HSP 1 Score: 198 bits (504), Expect = 2.490e-57
Identity = 89/146 (60.96%), Postives = 117/146 (80.14%), Query Frame = 2
Query: 716 RSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERSEDLQDFGFFASSDSAEYIQRGREESKAFPKPRLGRMWSF 1153
R+ Y N+ G +E MDFK+E DMHSF KA++LGLD+ PA + DIPVFYAEGLE+KRD LV+PLFMDPADL+ AW+K + NP++P +PTVKVFN P+VIVAME +++ FGFFAS++ AE+I++ R+ + FPKPRLGRMW+F
Sbjct: 17 RTPRYQNDDGVDEMMDFKLEPDMHSFQKARRLGLDVSPAAANTDIPVFYAEGLEVKRDGGLVKPLFMDPADLVEAWKKATASNPDMPAEPTVKVFNMPDVIVAMELTDEFNQFGFFASTEGAEFIKQARDARRPFPKPRLGRMWAF 162
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
A0A6H5L2Q1_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L2Q1_9PHAE)
HSP 1 Score: 182 bits (463), Expect = 3.460e-50
Identity = 94/150 (62.67%), Postives = 115/150 (76.67%), Query Frame = 2
Query: 296 GRWARVRRSVALGAASFTAILLGTTTVAGLLAEVEEKLGG------TVALPMAMKSAHASVLKPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSYAKDARILVVSMEKAYGMVRAGPRSTG 727
GRWAR RRS+A GAAS +G T ++G+ A+V+ +L V++P AM+SA ASVL+PF KR+VEEKL NLPAFMVTN KGSPYL+PT+ Q+AVFFTN+DDAKEML EMVQ +Y +ARILVVSMEKAYGMV+AGP+ TG
Sbjct: 98 GRWARARRSLARGAASLATFTVGATALSGMSADVQHRLNSRDGAAVVVSIPAAMESAEASVLRPFEKRTVEEKLANLPAFMVTNKKGSPYLSPTKPGEPQMAVFFTNVDDAKEMLMEMVQESTYQNEARILVVSMEKAYGMVKAGPKLTG 247
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
A0A0G4ED78_VITBC (Uncharacterized protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4ED78_VITBC)
HSP 1 Score: 132 bits (332), Expect = 4.430e-31
Identity = 90/269 (33.46%), Postives = 138/269 (51.30%), Query Frame = 2
Query: 353 ILLGTTTVAGLLAEVEEKLGGTVALPMA-------------MKSAHASVL----KPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSYAKDARILVVSMEKAYGMVR-AGPRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERSED-LQDFGFFASSDSAEYIQRGR 1102
+++ T+ +A L+ + ++L P A + S VL K F R ++E+L ++P F++TN+ PYLT + G Q A+ FT+ ++A ML EMVQ+ DAR+ V+S+EKA+ R A PR TG E G E M FK A L T IPVF A GL++ ++ + PLFMD DL AAWE++ P+ P KP V V+N +V++ ER + L +G SS + +++++ R
Sbjct: 12 LIVSTSLIATLVCDARQQLHSAALSPSARHPLASWLPKGKSLSSMGRRVLPRLRKKFSSRPMDERLSSVPVFLITNSYALPYLTQVRP-GEQTALMFTDPEEANTMLNEMVQTAGPGADARLFVISLEKAWAYARRAEPRRTGIVGEDGKEAVMTFKFHPPQ--VENAGNYVTLLGRRTKM--IPVFEATGLDVTKNGDKLCPLFMDLEDLEAAWERMHRARPDTPPKPKVSVYNLLDVLLHRERQANGLGPWGIVPSSKALDFVKKNR 275
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
R7QF31_CHOCR (Uncharacterized protein n=1 Tax=Chondrus crispus TaxID=2769 RepID=R7QF31_CHOCR)
HSP 1 Score: 131 bits (329), Expect = 4.570e-31
Identity = 78/220 (35.45%), Postives = 115/220 (52.27%), Query Frame = 2
Query: 443 SAHASVLKPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSYAKDARILVVSMEKAYGMVRAGPRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERS--EDLQDFGFFASSDSAEYIQR 1096
+A A F K++V EKL +P F VTN G PYL G Q+ + F + DA ML++M ++ A DAR+ ++ ++KAY MV+A P+ +G G E TM F+ D A+ L L IPVF A+GL +++ V PLF+ DL +AW K+ N ++P +V V N +I ME +L++ GFFA S EY+ +
Sbjct: 13 AAPAFAAAKFSKKTVSEKLSQVPVFAVTNASGQPYLANMDGSGSQIGLIFFSHHDALNMLKDMKKNPG-ASDARVYIMGLDKAYEMVKAKPQPSGIRGAAGEELTMVFRFFPDSKQVKAAEGLQRKLRRRRGVEGIPVFVAKGLTLRKGSENVVPLFLTKEDLDSAWSKLRDSNKDLPNNASVVVGNLLYIIQQMESDGEPELRNLGFFAPKASVEYVTK 231
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
M1URJ3_CYAM1 (Similar to chloroplast inner membrane protein Tic22 n=1 Tax=Cyanidioschyzon merolae (strain NIES-3377 / 10D) TaxID=280699 RepID=M1URJ3_CYAM1)
HSP 1 Score: 121 bits (304), Expect = 1.300e-26
Identity = 88/287 (30.66%), Postives = 152/287 (52.96%), Query Frame = 2
Query: 308 RVRRSVALGAAS---FTAILLGTTTVAGLLAEVEEKLGGTVALPMAMKSAHASVLKPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSY-AKDARILVVSMEKAYGMVRAGPRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERS------------EDLQDFGFFASSDSAEYIQRGREESKAF 1120
R R++ LG A+ +T +L G + AGL + L G A+ A K+ HA + ++++ EKL +P F VTN G P+L E G Q+ + F + DDA +ML ++ +S A+DARI ++ +++A+ MV++ P+ +G G+E M F+ + A+ + T +P F A+GL +++ + V P+F+D DL AW ++ E+P++P ++V + EVI+ +E + +DL+ FF SS S E+++R E +K F
Sbjct: 80 RAARALLLGLATVNIWTPLLRGFSLGAGL-----QVLLGAPAVSAA-KTPHAR----YSRKTLSEKLAQVPVFAVTNESGQPFLA-AMERGLQVGLIFFDPDDAIKMLEDLKRSSGKEAEDARIFIMGLDRAFEMVKSKPQPSGLRGPRGDELKMVFRFYPNQQQLEYARTVAKKTKQPTVR-GVPCFVAKGLTLRKGKEFVIPIFLDKRDLDEAWNRLRQELAELPKQPEIEVGDLIEVILRLEEAAKNPKSLNETELQDLRRVAFFPSSKSVEFMKR--ESAKQF 352
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
A0A7J7IP27_9RHOD (Uncharacterized protein n=1 Tax=Cyanidiococcus yangmingshanensis TaxID=2690220 RepID=A0A7J7IP27_9RHOD)
HSP 1 Score: 112 bits (280), Expect = 2.340e-23
Identity = 71/240 (29.58%), Postives = 126/240 (52.50%), Query Frame = 2
Query: 440 KSAHASVLKPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSY-AKDARILVVSMEKAYGMVRAGPRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERS------------EDLQDFGFFASSDSAEYIQRGREESKAF 1120
K+ HA + +++++EKL +P F VTN G P+L E G Q+ + F + DA +ML ++ +S A+DARI V+ +++A+ MV++ P+ +G G+E M F+ + A+ L +P F A+GL +++ + V P+F+D DL AW ++ ++P+ P V+V + EVI+ +E + +D++ FF SS S E++++ E K F
Sbjct: 129 KTPHAR----YSRKTLDEKLAQVPVFAVTNESGQPFLA-AMERGTQVGLIFFDPSDAMKMLEDLKRSSGKEAEDARIFVMGLDRAFEMVKSKPQPSGLRGPRGDELKMVFRFYPNQQQVEHARSLARKTKQPLVR-GVPCFVAKGLTLRKGKEFVIPVFLDKRDLEDAWSRLRQDMSDLPKHPEVEVGDLIEVILRLEEAAKNPKSLDEKELQDIRRVAFFPSSKSVEFMKQ--ESMKQF 360
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
A0A7S2SNF4_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SNF4_9STRA)
HSP 1 Score: 99.8 bits (247), Expect = 2.960e-19
Identity = 68/227 (29.96%), Postives = 107/227 (47.14%), Query Frame = 2
Query: 446 AHASVLKPFRKRSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSYAKDARILVVSMEKAYGMVRAGPRSTGYSNEGG-------NEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAME----RSEDLQDFGFFASSDSAEYIQ 1093
A AS K + KR+++E+ +P F+VTN +G+PYL+ Q G Q F + +DA++ REM+Q+ DAR+LVVSM++A MV R +EGG + + E + S Q++ + + +P F GL I R +RP+F+ DL+ WE G P++ A++ DL D SSDS +Y++
Sbjct: 94 ASASAFKKYSKRTLKERFAGVPVFVVTNAQGAPYLSMRQ--GVQQCFLFMDHEDAEQYQREMMQTGPSVADARVLVVSMDRALRMVWNPSRGDEGEDEGGLRYRISPTSKARKWVSESEQSQKSVNQRI-TSIAESNEPKGLPGFQVTGLRIVRRGESIRPVFLSFDDLMEVWEDEREGRPDMXXXXXXXXXXXXXXXXALKVMDPSDHDLHDIAVVPSSDSVDYVK 317
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
UPI00168118F8 (hypothetical protein n=1 Tax=Pseudanabaena sp. FACHB-723 TaxID=2692860 RepID=UPI00168118F8)
HSP 1 Score: 74.3 bits (181), Expect = 4.510e-11
Identity = 65/234 (27.78%), Postives = 114/234 (48.72%), Query Frame = 2
Query: 491 EKLGNLPAFMVTNNKGSPYL--TPTQE----EGHQLAVFFTNLDDAKEMLREMVQSD-SYAKDARILVVSMEKAYGMVRAGPRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEV-DIPVFYA-------EGL-----EIKRDRSLVRPLFMDPADLLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAM-----ERSEDLQDFGFFASSDSAEYIQRGREESKA 1117
E+LG++P F +T++KGSP L P Q+ + QL FF + DDA+ ML + QS+ + K A+I+V SM +AY ++R G ++T+ F+ S A+ + A +V ++PVF+A +GL + + V P F+D DL ++ P V + ++V + +V+ M +++ ++ F F S +S EYI + ++ A
Sbjct: 40 ERLGSIPVFTITDDKGSPLLGALPAQQKKPGDPDQLLFFFLSPDDAQGMLTRVQQSNPAVGKKAQIVVRSMNEAYQVIR-----------GNKDKTVAFQFIPSKASIDSARTILTAQGVAADQVPNVPVFFAINNQANNQGLLTMNIDQNGKKEQVVPFFLDKNDLQNLLDRANKEQPNVAKDTKIQVVSIFQVLDLMVSEDSKKNPEVDRFQFVPSRNSFEYIIKNSQQPAA 262
BLAST of mRNA_F-serratus_M_contig1093.861.1 vs. uniprot
Match:
A0A7S3B837_9EUKA (Hypothetical protein n=1 Tax=Haptolina ericina TaxID=156174 RepID=A0A7S3B837_9EUKA)
HSP 1 Score: 71.2 bits (173), Expect = 2.570e-10
Identity = 56/188 (29.79%), Postives = 85/188 (45.21%), Query Frame = 2
Query: 479 RSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLREMVQSDSYAKDARILVVSMEKAYGMVRAG-----------PRSTGYSNEGGNEETMDFKMERDMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPADLLAAWEKVASGNPE----VPEKPTVKV 997
R E LG +PAF++ N G PYLT +G + + L DA ML E+ S+ K+A + +V + Y V P+ G ++ +D ++ R + S + L P +S V P+FY L + + RP FM ADLL WE+V +G+P P +P V+V
Sbjct: 12 RLESEILGRVPAFVIANGLGEPYLTEVDAQGKRSGTVYLGLRDAAAMLDEV---RSFDKNATLAIVPLSSVYSAVSKSASEATAARAVLPQPIGSTS-------LDMRLFR-LQPLSDERSEAAALVPGSSNV--PLFYEPSLFLTVEGVQQRPYFMRSADLLTTWERV-NGSPSDEAVAPSRPRVRV 185
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_contig1093.861.1
>prot_F-serratus_M_contig1093.861.1 ID=prot_F-serratus_M_contig1093.861.1|Name=mRNA_F-serratus_M_contig1093.861.1|organism=Fucus serratus male|type=polypeptide|length=376bp
MRPTWVVLTAVALSITETHNAWAFTPPRCASSARRADAAVTISCKGKTNT
CLPTSGRRSRQIAAAARENDASAAVSTRTAYNKEKGRCIGRWARVRRSVA
LGAASFTAILLGTTTVAGLLAEVEEKLGGTVALPMAMKSAHASVLKPFRK
RSVEEKLGNLPAFMVTNNKGSPYLTPTQEEGHQLAVFFTNLDDAKEMLRE
MVQSDSYAKDARILVVSMEKAYGMVRAGPRSTGYSNEGGNEETMDFKMER
DMHSFSKAQKLGLDLDPATSEVDIPVFYAEGLEIKRDRSLVRPLFMDPAD
LLAAWEKVASGNPEVPEKPTVKVFNFPEVIVAMERSEDLQDFGFFASSDS
AEYIQRGREESKAFPKPRLGRMWSF*
back to topmRNA from alignment at F-serratus_M_contig1093:88741..105052+
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_F-serratus_M_contig1093.861.1 ID=mRNA_F-serratus_M_contig1093.861.1|Name=mRNA_F-serratus_M_contig1093.861.1|organism=Fucus serratus male|type=mRNA|length=16312bp|location=Sequence derived from alignment at F-serratus_M_contig1093:88741..105052+ (Fucus serratus male)
GCGTGGCAGGAAAGAAGGAACAGCGAATATGAGGCCTACCTGGGTAGTTC
TCACCGCAGTGGCCTTGTCTATCACCGAAACGCACAATGCGTGGGCATTT
ACCCCACCAAGGTGTGCGTCTTCCGCACGGCGAGCTGACGCCGCCGTAAC
CATCTCGTGCAAAGGGAAGACGAACACGTGCCTGCCTACTAGCGGCAGAC
GCTCCCGACAGATCGCAGCCGCCGCGAGAGAGAACGACGCCTCAGCTGCC
GTGTCCACCAGAACAGCCTATAACAAGGAGAAAGGGCGATGTATAGGACG
TTGGGCAAGAGTCCGACGGTCCGTCGCCCTAGGTGCAGCTTCGTTTACGG
CAATTCTCCTCGGCACAACGACAGTAGCGGGACTGTTGGCCGAGGTCGAG
GAGAAACTGGGAGGCACGGTTGCATTACCCATGGCGATGAAGTCCGCCCA
CGCGTCGGTGCTGAAGCCATTCAGAAAGAGGTCGGTGGAGGAGAAGCTAG
GAAATCTCCCGGCGTTCATGGTGACCAACAACAAGGGTTCGCCGTATCTC
ACGCCCACGCAAGAGGAGGGACACCAGGTGATGGGAGTAGCCGACTCCGG
ACACACAAGATTTTAGTGGATTACTAGCCCTAATCTAATCCTTATGCATG
CAGCTCCTGTTATCAGCGCACAGGAGGAGTACACACTTCAGAGCTACGAT
ACCCGTCAAGCTCGAGACATGGCGATAGTGGCCATTCCGTTTCCCATATC
ATGCGCTATTATGAAATGTTTCGGTGTTTAGAATTCGGAGTCCCAGCCAG
GCCTTTGTGCGTTATGTAGATACCTTTTTTTTTAACAGACGGGGAACAGT
GCCTTTGACCGAGTAGCCTAGCGCCGTACTCGCCTGTCTCTAATCTTCGC
CTGTGCCGCTCCTTCACCTTCCCTGAGCTACCCTACGATGGCTACAAGTG
CACAGCTCACAACAACGATATCCGGTTTGTGTAAAAGTGGTTTATGCTCA
CGCCTTCGGAGGTGGTTGGTTCACTACCGCCTCCGATACTTTCTTTATTA
CACATGTTCTAAGAAGTGTATACTAAAATAGAGTGTCTGGGGAACGAGAG
GCGCATATGAAGATTGTATGGTCATTAGATATAGCAAGCAGGGTAAGGAT
TGGCAAACAGGTGAGGTTGCCTCGGTTGCCAATCCTGGTCGTGGTCAGCT
GAACAGGGAAAATGAATATTGACCTGTCCCCCTTCGCGCCTGATCTAAGG
GGAAACCTGAAAAGGCAGCACCCGTTACTGGAACTGCCTTGGGGACTACT
ACTGGCCCTGTGCCAGCGGTGCTCTCGGCAGTGTACGCCATCAGTAAGCA
GTTGCGTGACCCGATAAACTCTACTATTAATATTAGGGTATGGCTATTTG
GCCCACCGGTGGGCAATTCTCTCGTTTACCCCCCCACCTGGATCTCGCGC
CAGAAGACTTGGTTGGTCACAGTACATGCATGGGTGTGTTAGGGTTAGGG
TTAGCTATTATCTGGTCTATCGTGCAGCCCAAACGGTCCTGTCTACGTGC
TACCACGGCCGGTGGGGTGGTTGGGGTTTCTTGGTATTACTATAATAGGA
ACTGACCCGATGGCGGTTGACGATATATTTGGACGCCGTCGCGGAAAGCG
GGAGGAATCCCGTGAGTAAGCACCAGATTCACCCTGAGTATGGAGATGAG
CAGGCTGACGCAGGACGGGACGGCCGAACCCCGTCTCGCGAGACTAAATT
CTCAGGCGCGAACGGGGACGGAGAAAAATCCAGATTTTTCCATGTTTAGC
TGACCACGAGCAGGATTGGTATATGTATGTGTGTATGGTCACACATATAG
CAAGAGTATGGATCAACCTGGTAAGGTTGCCAATCCTGCTTGTGGTCAGC
TGAACAAGGAAAAAGAATATTCCCCTGTCCGCGTTCGCGCCTGAGAATTT
GGTCTCGCGAGACGGTTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCATC
TCCATACTCAGGCTGAATCTGGTGCTTACTTACGGGATTCCTCCCGAGTT
CCGCGGCGGCGTCCATATATTTATATTAAACCGCCATACGCCATCGGGTA
AGTCCCAAGTTTATCGGGTCACGCAATATATACCCGGTTGACCCATACTC
TCCTTGAAAAGTACCTTGACTATACGTACTCACTTCAAAATACAGGAGCC
TATTCCAGAAAACGTTTCGAATTCGCATGTAATTACAGTACTGTATAGTG
CCGGTCGCCCCGGTAGCTCAGTAGGTACCTCGCAACCTTCTGACACGTCG
GGACGTGAGTTCGATTCCGGCAAACGGGATTTTTCTCACTAAAAACTAAA
AACCAAAATAAGAATGCCCAACGGGTGGAGAACGATTAATTCGTTAGTAC
ACAAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCATTC
TCGCGATATAAATTAAGGCACGCACCGCAGAAGGAAGGTGGATGAGAAAT
CCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACT
TGATGTTCAGAATAAATGGGAAGAAAACACACACACACACATGCAAATTT
ATTTTGAAAAGTGTGAAGTGTAATACAGCAGTACGTGGTACAGTATAAAC
GGTGGATTTGTCCTCGATACTATTAATAGTATGTGACCCTATGCGACGTG
CACCGGGGGAACCCAACCCGACTACGATAAATCCCATGTACCATTGGGAT
GTACCAGGTAGAGTTTTTGTGCTGAACAGCCAGGATATTTCCAACCTTCT
GTAAACATTTCGACACAATTCCCCACCAACGATGTGTGGTCAAGATTATT
TGTCAATGGTTGGACGGGACGGTTCGGATACTCTTATCAGACTTTTCGAG
ATATTTTTTCGTCCGGACGAGGTGTAGTCAAGATTTGAGATTTGTCAATC
GCCAGGTTTTGTTTGTAAAGCATTGTGCTGTGATCAGGAGTAGAGACAGT
ATCACTTTTTTTGAAGCTTTACTGAAACGACGGGAGTACTGTTTTTCGTA
CTCATAACAATACCGTATGTATGTATTGTATGGTCACACATATAGCAAGA
GTATGGATCAACAGGGTAAGGTTGCCAGTCCTGCTCGTGGTCAGCTGAAC
AATGCAAATAATATTCCCCTGTCCGCGTTCGTGCCTGAGAATTTGGTCTT
GCGAGACGATTTCGGCAGTCCCGTCCCGCGTCAGCCTGTTCATCTCCATA
CTCAGGCTGAATCTGGTGCTTACTTACGGGATTCCTCCCGAGTTCCGCGG
CGGCGTCCATATATTTATATTAAACTGCCATATGTCATCGGGTAAGTCCC
GCGTTTATCGGGTCACGCGATTGCGTACCGATGGCGTTCACCTTCGAGAG
TCCGTTGGCACACCGTTACTTTCAACATGCCCACTTCATACCAATAGTGG
GGGTGGGAAAGAGAGGCGAATATTAACTGGTCCATAGTGACCTGCTAAGG
CAGCACTCGTTCGGAACTACCTTGAGGTTTACTGGCCCTGTGCCGGCGGA
CTCTCGGCAGTGAACGCCATCGGTACGCAATTGCGTGACCCGATAAACTC
GGGACTGACCCGATGGCGTATGGCGGTTTCATAAATGGACGCCGCCGCGG
AACTCGGGAGGAATCCCGTAAGTAAGCACCAGATTCAGCCTGAGTATGGA
GATGAGCAGGCTGACGCGGGACGGGACGGCTGAACCCGTCTCGCGAGACC
AAATTCTCAGGCACGCACGGGGACAGGGGAATATTCATTTTCCCTGTTCA
GCTGACCACGAGCAGGATTGGCAACCATACCTGGTTGATCCATACTCTGC
TATATGTGATGACCATACATACATACATACAGGGGCCAGTAAACCTCTAG
GTAGTTCCGAACGAATGCTGCCTTAGCACGTCACCATGGACCAATTAATA
TACGCCTCTCTTTCCCACACCCACTATTGGTATGAAGTAGGCATGTTGAA
AGTAACGGCGAATGTATGTATGGCCATCACATATAGACTAGCAGAGTATG
GATCAACCGGGTAAGGTTGTCAATTCTGCATGTGGTCAGCTGAACAGGGA
AAATAATATTCCCCTGTCCGCGTTCGTACCTGAGAATTTGGTCTCGCGAG
ACGGTTTGGGCAGTCCCGTCCCACGTCAACCTGCTCATCTCCATACTCAG
GCTGAATCAGGTGCTTACTTACGGGATTCCTCAACCGGGTAAGGTTGTCA
ATCCTGCTCGTGGGTAGCTGAACAAGAAAATGGAAATTTCCCCATCCCCG
TACGCGCCTGAGAATTTGGTCTCGCGAGACGGGTTCAGCCGTCCCGTCCC
GCGTCAGCCTGCTCATTCTCCATAGTCCGGCTGACACTGGTGCTTACTCA
CTGGACGGTTGGTACAGTCAAGATTTCCATGTCCCTGTTCGCGCCTGAGC
ATTTTGTCTCGCGAGACGGGTTCGGCCGTTTCGTTCCGCACCAGCCTGCT
CTTTCTCCACATGTCAAACTAAACCTGGTGCTTACTCACGGACTCCTTTC
CTCCCCCTGCTTTCCGTGGAGGCAGGCGTCCATTCATTTGCACCGCCATC
CGCCCATCGGGTCAGTCCCCGAGTTTATCCGGTCACGCGATTGCGTACCG
ATGACGTTTCAAGCCTCCGATACTTTCTGCATGACGCATGTCCACTACTC
CGGAGTACATTTCAATAGCAGGCGTGGGAAAATAGAGGCGCGCAATAATT
GGTGGTTCACGGTGACACCTGAAAAAATGGCAGCATCCGTTGCTGGAACT
CCCTTGAGGGGGTTACTGGCGGTTAGCTGTGCCGTCGGACTCTCGGCGGC
CGCGTAATTCGATAAGCTCGGGACTGATCCGATGGCGGTTAGCGGTATAA
ATACGTGGACGCCGCTGCGGAATTGAATGCAGGAGGATCCCGTGAGTAAG
CACCAGATTCAGCCTAGGTGTGGATAATGGGCGGGCTGGCGCGGGGCGGG
ACGGCCGAACCTGTCTCGCGAGACCAAATTCTCAGGCGCGAAGGTGGACA
GAGAAAACAATCCAGATTTTTTTTTCTCTGCTTAGCTCACCACGAGCAGG
CTTGGCAACCATGTATGGTCACACATATAACAAGAGTATATACCCTGTTG
ATTCATACTCTTGTTACAGGGATGTCATGTCATGACCATGCATAGACGCG
GAGAGGGAAATATTCATTTTTCCTGTTCAGCTGACCACGAGCAGGGTTTG
GCGACCTTACCCGGTTGATCCATACTTTTGCTATACGTCTGACCATACAT
GCATACCAGTACATACTGCCGAGAGTCCGTCGGCACAGGGCCAGTAGTCC
TCAAGGTATTTCCACTGACGGATGCTGCCTTTTTCAGGTATCACCAAAGG
ACCAGTTAATATGCTCCTCTCTTTCCCACGCCCACTAATATGCTACGAGC
GATTCAGAAAGTATCGGAGGCACAGCCAAATAGTTTACTAAATATATTTT
TTTCGATCTATTTTTTTCGTCGTAGCCTTGTGTACAGCATACAGTTAGTA
AAGTAGTACTTGTAGCACTACTAATAGTATTATATTAAATAGTACTCTAT
TAAATAGTACTCTATTAAATAGTACTCTACTAAATAGTACTCTATTAAAT
AGTACTCTACTAAATAGTACTCTATTAAATAGTACTCTATTAAATAGTAC
TCTATTAAATAGTACTCTATTAAATAGTACTCTATTAAATAGTACTCTAT
TAAATAGTACCAGTACTCTATTAAATAGTACTCTACTAAATAGTACTCTA
TTAAATAGTACTCTACTAAATAGTACTCTATTAAATAGTACTCTATTAAA
TAGTACTCTATTAAATAGTACTGAATAGCAGGAAAAGGTGTCGGGTGTCC
TGAGCGATCGGCGTCCGAACCGTCGAGAAAACGCGGTACTAAGGACATAA
ACGTGGGTCTTAGTCGAAGAAATATACTACCCTGGTACTGTTTATACATA
AATCTGAACGCATGTGCTACACCTTTCGAACATCCACGCTAGTGTCCGGG
GGAACTGGGCCGAAACGGTTATTTACTGTAACACTAGTCTATATAGTTGG
GAACACAAACATTATGGGCTCATTCATTCCAACAAAAACTCCACGCCGGA
TTTTTTGTTGGGTTCCCCATCGTTGGTCGCTTAGGGTCAACGGCATAATA
TCGGGGAGAGACCCCCCCCCACCCACCGTCATACTCTCTACACCTTATAT
ATCACCATGTGGGTCAGCGGCATAATATCGGGGTGATCCTCCCCCCCACC
ATCATACTTTGTACACTTACACATATATCACCATGTGGTACACAAAAAAA
TGCAGTAGTGCGTTGGCGAGGGACACACACACAACTACTAATACGGTACC
TGTAGCAAACATTAGAAATGTTATTGCCCAATATTATATTCTACATACAA
GTACCATGTATAATGCGCGGTACACTTACACATATTAGCCGTGTGGGTAC
ACAAAAAAAGACACACACACACACACACACACACAACTATTAATACGGTA
GCAAGCGAACGTTAAAACTGATGATTGCCCCATATTGTGCGCACACTAGA
CACTCACACCAAGCCTTCGCACTGTACCTATTGTCCGGGGTTTTTTTTTC
CGACCCCTTGTGTCGTATTTCACCAGTGTTTATATGTGTCAGGTACAGCA
GTACACACGGAACACTACACCTCAATATTAACCGTTATTAACCGTTATTA
ACCGTTAGTGTTATTAGTTGTCCTGCCGAAAAAGAAGAGAGTCCCCATTG
CCTCACTCCCCACCCATCAATACATATATATATATATATATATATATATA
TATACAATAGACTGAAGTACAGCATAGCAAGTATTACCTCTGTAGGCTAA
TAATATGATACAGTAGTACTGTTGACATATTATTTAGTAGTATAATATTA
AGCTAATTGTGCAATATCTTGGAATAAGTATACTGTTATTGGTATAGTGT
AGCTGTCGTACTGTACGCCGATAAAAAGTATTGCAGGTCCGATGCTGCTG
TTCCTCCTTGAGGGGCCTGCTGTTGCACGAGCACGGTACTGTACTTTTTT
TGTTTTCTCAGGGGCTGGCTTACTTGCGTCCCCCCTGATGTTGTAGTCAA
ACAAAAGTTATCATGTGTTTATATTTGGCCACAATTCTCTCGATGGCGCT
ATTAATATTATATTACACGGAGTATTATATTATATTATATTATATATATT
ATTAGCACGAGGTATGAGGTACAGCAACTACTGTGTAAATAGCATAAATA
AATTCAGCCTCCACACCAACCACAGCAGTCTCTATCTAGAGATTTCGCGC
TTGGGACGCAAACAAGCAACGTTGCTGGTGGTTGTGGTCGCGGTCGTGGT
TGTGATGTCAAGGAAATTGTAACTGGCGGAAGAGGGGTACGCCGAAAGGA
TCTGACCCAAAGGATCCAACTACTCCTGATCGGCTCCACCACGTGAATAT
CTGCTCTCTCTCTCTCTCTCTGTCTTGCCTGCTCTGTCTTGTCTAGTCTG
TCGACCTGTCGCTAACCCCCGCGCCCTTCCACGATCTCCCTCCCCTCCCC
TCCCCTCCCCTCCCCTCCCTTTCCCTTCCCTTCCCTTCCCTTCCCTTCCC
GCGCGCGTGGGGGAAAAGCTTGCGGTGTTTTTCACGAACCTGGACGATGC
CAAGGAGATGCTGAGAGAGATGGTACAAAGCGACTCCTACGCGAAGGATG
CACGCATCCTGGTGGTGAGCATGGAGAAGGCGTACGGCATGGTCAGGGCG
GGACCGCGGTCGACGGGGTACGTGAAAGCAAAAGATTATGGAGTCTCGTC
TTCTTTTCGCTGGCGCCTTCAATTTTAAGTGAAATAAAAAAAATAAAGTA
AAAATGTCAACCTCGGTGGGTTGAACGTATGCCTGCAGTTAATAGCATAT
TTTGCTGTCTGCATCTTTTGCGCGGTTCTTGGCGCCGTCCCTTCACGCCC
TCGCTATGTGGTGTTCGGTGCCGGATGTTGGATGTTACCAGACAGTATTG
TATGTCCTGTGCGAGAGGCATGCTGCCGCCGCTGCTCTCCATAAGTGCGG
CTTGAGAGCGTTGCGGTGATGGGTCGAGGGGAGAGCTTTTGAGAGCGTCG
CGAGGAACGACCTCGAGTTTTGTCCCGTTTTGTCCCGTTTTAGGTATTCA
AACGAGGGCGGGAATGAGGAAACGATGGACTTCAAGATGGAGCGGGACAT
GCACTCTTTTTCGAAAGCGCAAAAGCTCGGCTTGGATCTAGATCCTGCCA
CTTCGGAGGTGGACATCCCCGTATTCTACGCGGAGGGGCTTGAGGTGGGG
ACCGTAGCTTTCTCTCTCTCTCTCTCTCTCTATCTCTCTGCTTTCGTTGT
TTGGTCATAGTCTTTTATTTTAGTCTAGGAACAGTACTGTACCTGTGTCT
GTCTGGCTAGGGCGTGCAGTTGTTGCTCTGCACTCTCACACCTGTTAGGA
CCGGGGCATGGCTTGCGTGGCTTGCGCGATTTGCGCTTTTGACGTCCAGG
GGACTTCAATTTTTACGAAAGTAGTGTGAGCGGCAACGCCCGCCCGCCCC
CCTCCACCGCGGCGCGCTAGATGAGTATCGAGCTCGATTATCTTGTGTTG
AGTATCGGCACCGACGGCGCGCTCGTTTGGACATCAACCGAGTGCCGTCT
GTAACTGATGCGAAAATCGCGCATGTAAACGTCCTAGTGTAGTGTAGTGC
ATAGCAAGCTGTCGTTTGTTGCGGCTCCTTGTTTTTTGAGAGAAGTTGGC
CTGGCCGCTGTTAGCTGTTATGAATAATACCAAATCCTGAACCTACTCTC
CCGAAATAGTTTATTTTCACAGCAAACCCACGGTAAGATAAAATAAAATA
ACTTCTTGAGGGCGATGACGTGCTCGGCCCTTTTTCTTCACTGGCGCTGA
CGCGAGGCGGCGCGCCAGGCTCTTTCCTGCCCTTTTACTCTCTCAAGAAC
GTCGCACCGATGCTCCCTCCCCCCCCCCCCGCCCCCTCCACCCACCCCTT
CCGGGACTTTCACGATCCGCCAACATCATATTTCTCGAGAGGAAGCATCA
AGCGCTACTTCCGTTTCCAGCCTCTGGCAGACTGACGTCGCGAGCTTTGA
ATTACGCATAAAGCTTACATTAATACAGTATTAATATTAATAGTTACACC
TCATCCTCCTCCCACACGTGCAATCCTCGGCCTACACATATTTATATATA
TATATACATTTTATTTATTCATTTTTTAACAGATCAAGCGGGACCGTAGC
TTGGTGCGACCGCTGTTCATGGACCCGGCGGACCTGCTGGCGGCGTGGGA
AAAAGTTGCCTCGGGGAACCCGGAAGTGCCTGAGAAGCCAACGGTGAAGG
TGTGTGTGTGTGTGTGTGTGTTTTTCCTCTGTGGAGTTGGTTCGAGTTGG
TTAGTGGGTTCTCTGTTGGGCCCAGTCTTCTGCCGCCAAAGATGTGAAGG
TTTTTTCAAAGGAAAATCATAACGCGCCTAGACCTTCTGAGCATTCCCAA
CTCAGGAGAAAAAAAATGGCAAAGCGTTCAAGTGGGATTAAAGGCTGCAG
ATACAAAACATCTTCGTGGCATTTGAACGGGTTCCCCTATGGTAGTGACA
GTGGGTCAACAGCATAATGTCGGGGAGAAGCCCACCGTTATACTTTACAC
TTACAAAAAAGACGGCAAAAAACAAAAACAATGTAGTATAATAGTACATC
ATCAAACATGGTAGTGATAATATACTGTTACCTAGCTAGGCTGTAAGAAC
GAAAACACTACCTGGTACATGGTATTTGAACGGGTTCCCCGATGGTAGTA
ACCATGGGTCAACAGTATAATATCGGGGAGAAGCCCGCCGTTATACTGTa
cACACTTATATTAATCGCCACGCAAAGCTTTTATAACAACAGCGCGCATC
TTTGTGTTGTTTTTGAGATTTTGATGCCACGCCAGTCGTAAGAGGGGTTT
TGATACGAGACACCTTCTCGCGCTCGGGGGTGGCGGGGGTTCTGTTTTTA
ACGTCCTCGAGTTCTTCTATGAGATTCGTATACACAAGTACGGATTTTTA
TCTGTATTTGCATGTCTCTTGAGGGTGTTCCGGTTCGCAAAAAACATTAA
ATTCTTGACTTAAGCGCGGGATTCATTGTATTTCCAGATCTTCCCTTGGC
ACTTTTATTTTATGCGCGGGCACTAATTGGTCGAACTGACGGAGTATGAT
GGCAGTGCTGCTGATATCGTCGTACATAGTATGTATACATATATGTACTG
CTGCATTCATAGTACATAATGTGTACTGGTAATGAATAGACGCCGCCGTG
GAACTCGGGAGGAATCCCGTAAGCAAGCACTAGATTCAGCCTGGAGTATG
GAAATGAGCAGGCTGACGCGAGATGGGACTGCCGAACTCGTCTCGCGAGA
CCAAATTATCAGGCGCGAACGGGGACAGGGAATAATTCATTTTACCTGTT
CAGCTAGCTGGCCACGAGCAGGACTGGCAACCTTGCCCGGTCGTGATGGC
CATACATATAAACATAGCTCTACATACATGCCGCTGTAATTGCACATGTA
GGCTCTATGCATATAGTCTACAGAAGTGAACCGTGCACGAATGTACATGT
CCCCAAACAAAAATATACCTGGTATATAAACAAATACAAACAGCAGTACT
GTACCAGTACATATATATGTGTACTTATTACCACGGATGCATCTGCAAGG
ACTCTGTTGAGCTGACCACGAGCAGGTTTGGCAACCTTGCGCGGTTGATC
CATATAACTCTGCTATAGAGGAAGTGGTGGATGTACATACTAATATAGCT
CTATACATAAATACATACCATCAGCAGTAACAGTACTTGTCTGTAGTGTA
CCAATAAACAAAGCTGAAAACTTATCAGGTGTATGTGAAGCCTACCAAAT
TCCATTGTTTTTTCTTGTATGGATGTATTTAGCCCCACAGGGTGACCAGT
TGGGTTGCACAGGCTTTCAACTTCAACAAAAGAGACGATTTTTCCATCGT
AGCTCGGTTTCGTGTGCTAATTCCAGCGGCCATGTCTACCTAACTCCCAC
ATACGATACTGCTTGCAGTTTCGTGAGCTTGGGGGCTTTGTGTACCGTGA
GTGGAATGTATTTGGTCGCCTGAGACAGGCTTTGGTTCACATCCTGACCA
CATACGCTCTCGGCCGCCGTCCTCGACCGTACTCTTTTTTTCACTTATAG
CCGACGGGCCTCTAATTACCATTCTGCCTGTAGTCACAAAGGATCTTCCC
ATCTCTCCCCGGTTCACGCCTTGCAATTTTTATCGCGATGCAAGTTCAGC
ACTCTTACAACTCGTCAACCAATGGTTGAATTTTACTTACTCACGTTCCC
ACGCTTTCCGTTACGAAAGAAAGAACACAAATTCTGCTTAAGCTAAGAAT
CGAACTCACGACTTCCGCACTAGCAGGTACGCAGGTTACCTACTAGACCA
CTCGGGCGACGAATGGCTCTACGTATTCTCAACCGTTTCGACCCGTGTGA
GAAATATAAGCGTCCGTGTGAGCTGGTATGTACCGGTACGATTTACAGGA
GAGCGGTCACCTAACTCGAGCACTCAGCTCAGGAGAACGCGAACCTCAAG
CACGGTGTCTCCCCCGATGCCTACCACTGCAGCAGACCCCAAACGATCGG
CAGATTCGGAGAAAATACGAGTGGCGACGATTGCACTCCACACAGAGCAG
GAAAAGACACGGGATCTTCAGGAAGACTACGTATTTCAACGGCGAACACT
TTCATTCCTTGCGGGTTAGCCATCTCCTCTTGTGGGCTGACTTCCATTTC
TGCCATAACTGCTAAAACCCTTGAGAAGAGCTGCAAATGACGTCAATGGT
GCCATTTTATTGAATCAAGCATTCAACCGCATTAAAAAAAAAATGGAACC
AACAATATGTTGGAGTATAAAAAGCAAAACACGGGGATCGGGGATCAATC
GTGTATAGTGCAGCCTTAATTCAGCTCGCCCTGTGCGTTTGCCTTTTGTC
TTTGGTTGAGAAATACACATACACAGAATAAGTATCCCCCCTCGGGAGGA
TCAATGCGAGTGGCATAGAATGACTAGGATGACAGGGCCGGATTGCGCGG
TTATGTGCAATTTAATAAATacacACACACACACGCACATTAGAGGTTTT
CGTAATAAGTATCATTGATCCCCCCTCTGGAGGATCAATGCGAGTGGCAT
AGAATGACTAGGATGACAGGGCCGGATTGCGTGGTTGTGTGCAATTTAAT
AAATACACACACACACACACACAGAGCGTTGGTAAGGTTCAGGGGAGCGC
GGGAGAAGGGCGCCATGGCATTTGTGGAGTGCCTGGGGGGTTCGCAAGAA
GACACGATGGAGGGCCCCCTGTGGAGGGAAACATTAGGCAGGAGCCTGGG
GTCGCATGACGCGGCGGAACTTGTCGGTGGGATGTGTCATGGCAATGGTT
GCCGGCAAGAAACCACACGCCTCCACGCCATATCTTGCACGAAGACGGGA
TGGAGCTCTCTCACTCACAATCGGGTGCTCCACCAGGCACTCGCTCGATC
CCTTCGCGAGAGCAAAGTTCAGTTTGTTGTCGAAGACACATGGCCCTTCC
GCGAGAGAGCTAGCGGGGAAAACAGTAGACTGAACCCTCTACGTATGGAC
ATCACAACGGAGGCAGGGGCACTCTTCAACAACCACCCTCGACTCAAGAA
TAAGGGACTTCTCCTCGACATCACCATCGTCAACCCTTGCGTCGGCTCCA
ATCTCGGGAACGCAGCACGCCACGTAGGAAAACACCTCGCCGACGCTGTC
GAGCGGAAGAAAAACAAGTATCGGGGCTCGTTCCCCGCTACCTACTCCCT
CCTTCCTCTCGCTATGTCGACATGTGGTGAGGTTGGCTCAGACTTGCATG
CCCTCATCAAGGAGCTCGCCATCAGACGGGTACAGCATAGGTCGGAGACA
CACTCCAACGAGTCCCAACATCTGGCGGAAGGGACGGAAGTAGCACGCCT
TCGGCGGCGATTCTCTTTTGTTTTACAGCAGGCACTTTCATTCCGCACGC
GTCACCATTTCTGCAGACAGGGCGTGGCACTTGCGAGTACTCGACAGTTC
CGTTCGCAAGGTCCGGTGTCTGCACAAGCGCACCGTACCGGGGGGGGTAA
CCGAGGGACAGGAAGGAGCAATCGGCGTTGGGGGCGAGATTCGAGTCGGG
GGCGGGAATGGAGACGGCAGCGGGGTTGGGGATGGGAATGGGGATGCAAG
CGGTCATGGGGACGGGGACGGAGCGAGAATGGAAACTGGGGTGGGGGTGA
ACGAAGGAGCGCAGGATGGGAACGGGGACGGCAGTGGGGACAGGGCGGGG
ATGGGGACGGAGGTAGAGACCCATCGACGAACACCGGATGGGAACGGGGA
TGGACCTAAGGTCAGTAGCGAAGATGGGAACGGGGACGAAGGGAACGGGA
ACGAGGGTAGGGTCGGGGATGGCGAAAGAGAGACTAAGAAGCGCAAGAAA
CCGCTAAATAGTTGTAGACGCCAAGGGGGAAACGGGGGAGACTTTGGTGG
AACGAGGAAGAGATGTAGAAAAGGAAGTGTCGGTCCAGTAGCTGCCAACT
CAAATATTGTAGAGATTAATAAGGAAGCAGGGGGGGAGCACAAGGAACTC
TGAGTTTAAGTGGAAATTGTACAAGTAGAGAGAGCGTGTCCCCTTTGTCG
CGTCTGATTAGAGGTTTTCGTAATAAGTATCATTGATCCCCCTCGGGAGG
ATCAATGCGAGTGGCATAGAATGACTAGGATGACAGGGCCGGATTGCGTG
GTTATGTGCAATTTAATAAATACACACACACACACACACACACACACACA
CACACACAGGTTTTCGTAATAAGTATCATTGATCCCCCTCGGGAGGATCA
ATGCGAGTGGCATAGAATGACTAGGATGACAGGGCCGGATTGCGTGGTTA
TGTGCAATTTAATAAATACACACACACACACACACCTTCGGCGGAAAGAG
GAAGAGATGTAGAAAAGAAAGGATCGATCCAGTAGCTGCCAACTCAGATA
ATGTAGAGAGAAACAAGGAAGCAGGGGGGGGAGCACAAGGAACTCTGAGC
TTATTGTACAAGTAGAGAGAGCGTGTCCCCTTTGTCGCGTCTGATCAGAG
GTTTTCGTAATAAGTATCATTGATCCCCCTCGGGAGGATCAATGCGAGTG
GCATAGAATGACTAGGATGACAGGGCCGGATTGCGTGGTTAGGTGCAATT
TAATAAATACACACACACACACACACAGTAGAGAGAGCGTGTCCCCTTTG
TCATGTCTTATCAGAGGTTTTCGTAATAAGTATTATTGATCCCCCCTCGG
GAGGATCAATGCAAGAGGCATATACTGGTAATGATTAGGATGATCAATGC
AAGTGGCATATACTGGTAATGATTAGGATGACAGGGCCGGATTGCGCGGT
TATGTGCAATTTAATAAATACACACACACACACACACACACACACAAAAA
GTATCATTGATACCCTCTCGGGAGGATCAATACGAGTGGCATAGAATGAC
TAGGATGACAGGGCCGGATTGCGCGGTTATGTGCAATTTAATAAATACAC
ATACACACACACACACACACAAGTATCATTGATCCCCCTCGGGAGGATCA
ATGCGAGTGACATAGAATGACTAGGATGACAGGGCCGGATTGCGCGGTTA
TGTGCAATTTAATATATACACATACACATACACACACACACAAGTATCAT
TGATcCCCCCTCGGGAGGATCAATGCGAGTGGCATAGAATGACTAGGATG
ACAGGGCCGGATTGCGCGGTTATGTGCAATTTAATACACACACACACACA
ACACATCGATCCCCCCTCGGGAGGATCAATGCGAGTGGCATAGAATGACT
AGGATGACAGGGCCGGATTGCGTGGTTATGTGCAATTTAATAATCACACA
CACACACACACACACACACAATCATACCCCCTTGGGAGGACCAATGCGAG
TAGCATACAGTAGAATGACTAGGACGGCAGGGCTAAATAGCGCGGTGTTG
TGCAATTTCATAAGTACGCAAACACACTCACACGTCGGGGAAGTCCATCA
GAAGCGATGTTTTTGTTCTGTTCCCTCCACAACTACTCTTGTGTGTaTGT
ATGGATGTATGGATAAGGTGTGTAGTGTACATGAGGTGTGTAGTGTATAT
AAGATGTATAGTGTAAATAAGCTGTATATTGTATATAAGATGTATAGTGT
AAATAAGCTGtATAGTGTATATAAGGTGCATAGTGTATGTAAGATGTATA
TAAAGTGTGTAGTGTGTGTATAAGGTGCTTGTGCAGTGCGTCGAACTCAC
TTTCATTGAAGACATTTTTTCGTTCCTCCTCCGACGGCCTCTGGCGCTCG
TTTCAACCTGTTGTGTGCAAAAACTCGGCGCTCATGCCCTTGTCTATTTT
TTTATAATACTGTTTGAGACTGTGCCTGTTCTATTCTACAGTGTGATCTA
TTCATGTCTCCTAAATAATAGTGTTATCTTTGTGTACGTTGGGCAGGTGT
TCAACTTTCCGGAGGTGATCGTCGCGATGGAAAGGTCCGAGGATTTGCAG
GATTTTGGTTTCTTCGCATCCTCGGATAGCGCGGAATACATACAGCGCGG
ACGAGAAGAGAGCAAGGCGTTCCCGAAGCCTCGGCTGGGGAGAATGTGGT
CCTTCTAGTCTCTACGATCTACCAGTATGCGATAGTATTACACGGGAAGA
CATCGCGCAACGGCTCTCGTCGGGTGATTTGTGGACCTTTGGATAGCTTG
GATAACACCCCCCCCAGTATTATCATAGTCTTAATGTATGGTTTCTTGTC
TGTCTTGATATCTGTGTTGCGATCTTGCATTTATGAATCGGGTCCCCGGC
CAAAAGTCGCTCCAGTGTCTCTGCTCTCCACGCCGCACATGGCACGGCTG
AAGGAATGGTGGGCATGGGCAGCAATAAGAGGCTCGCAGGAGTCATGGGT
TCGATTTTTTCTCTGAGGGCTTGGGTGATTAATGGACTGGGATCACACCG
CGAGACACAAGTAATAAGATAGTTGGCGTGATTATTGAGGGGGGAAATGT
CCAATGGCGGTGTTACAGTCATGACGCCGCAGAGGGGATCGCGGGAAACA
GCATCTACCTCGTACGTACCCCGGGACGTGTAACCTCCACCAGTGCCCCA
CAACACACTTACCACATAGCTCATTTGTTGGAAGCACCAAAACTAAACAG
TTTTTTTTCTTG
back to topCoding sequence (CDS) from alignment at F-serratus_M_contig1093:88741..105052+
>mRNA_F-serratus_M_contig1093.861.1 ID=mRNA_F-serratus_M_contig1093.861.1|Name=mRNA_F-serratus_M_contig1093.861.1|organism=Fucus serratus male|type=CDS|length=2256bp|location=Sequence derived from alignment at F-serratus_M_contig1093:88741..105052+ (Fucus serratus male)
ATGAGGCCTACCTGGGTAGTTCTCACCGCAGTGGCCTTGTCTATCACCGA
AACGCACAATGCGTGGGCATTTACCCCACCAAGGTGTGCGTCTTCCGCAC
GGCGAGCTGACGCCGCCGTAACCATCTCGTGCAAAGGGAAGACGAACACG
TGCCTGCCTACTAGCGGCAGACGCTCCCGACAGATCGCAGCCGCCGCGAG
AGAGAACGACGCCTCAGCTGCCGTGTCCACCAGAACAGCCTATAACAAGG
AGAAAGGGCGATGTATAGGACGTTGGGCAAGAGTCCGACGGTCCGTCGCC
CTAGGTGCAGCTTCGTTTACGGCAATTCTCCTCGGCACAACGACAGTAGC
GGGACTGTTGGCCGAGGTCGAGGAGAAACTGGGAGGCACGGTTGCATTAC
CCATGGCGATGAAGTCCGCCCACGCGTCGGTGCTGAAGCCATTCAGAAAG
AGGTCGGTGGAGGAGAAGCTAGGAAATCTCCCGGCGTTCATGGTGACCAA
CAACAAGGGTTCGCCGTATCTCACGCCCACGCAAGAGGAGGGACACCAGA
TGAGGCCTACCTGGGTAGTTCTCACCGCAGTGGCCTTGTCTATCACCGAA
ACGCACAATGCGTGGGCATTTACCCCACCAAGGTGTGCGTCTTCCGCACG
GCGAGCTGACGCCGCCGTAACCATCTCGTGCAAAGGGAAGACGAACACGT
GCCTGCCTACTAGCGGCAGACGCTCCCGACAGATCGCAGCCGCCGCGAGA
GAGAACGACGCCTCAGCTGCCGTGTCCACCAGAACAGCCTATAACAAGGA
GAAAGGGCGATGTATAGGACGTTGGGCAAGAGTCCGACGGTCCGTCGCCC
TAGGTGCAGCTTCGTTTACGGCAATTCTCCTCGGCACAACGACAGTAGCG
GGACTGTTGGCCGAGGTCGAGGAGAAACTGGGAGGCACGGTTGCATTACC
CATGGCGATGAAGTCCGCCCACGCGTCGGTGCTGAAGCCATTCAGAAAGA
GGTCGGTGGAGGAGAAGCTAGGAAATCTCCCGGCGTTCATGGTGACCAAC
AACAAGGGTTCGCCGTATCTCACGCCCACGCAAGAGGAGGGACACCAGCT
TGCGGTGTTTTTCACGAACCTGGACGATGCCAAGGAGATGCTGAGAGAGA
TGGTACAAAGCGACTCCTACGCGAAGGATGCACGCATCCTGGTGGTGAGC
ATGGAGAAGGCGTACGGCATGGTCAGGGCGGGACCGCGGTCGACGGGCTT
GCGGTGTTTTTCACGAACCTGGACGATGCCAAGGAGATGCTGAGAGAGAT
GGTACAAAGCGACTCCTACGCGAAGGATGCACGCATCCTGGTGGTGAGCA
TGGAGAAGGCGTACGGCATGGTCAGGGCGGGACCGCGGTCGACGGGGTAT
TCAAACGAGGGCGGGAATGAGGAAACGATGGACTTCAAGATGGAGCGGGA
CATGCACTCTTTTTCGAAAGCGCAAAAGCTCGGCTTGGATCTAGATCCTG
CCACTTCGGAGGTGGACATCCCCGTATTCTACGCGGAGGGGCTTGAGGTA
TTCAAACGAGGGCGGGAATGAGGAAACGATGGACTTCAAGATGGAGCGGG
ACATGCACTCTTTTTCGAAAGCGCAAAAGCTCGGCTTGGATCTAGATCCT
GCCACTTCGGAGGTGGACATCCCCGTATTCTACGCGGAGGGGCTTGAGAT
CAAGCGGGACCGTAGCTTGGTGCGACCGCTGTTCATGGACCCGGCGGACC
TGCTGGCGGCGTGGGAAAAAGTTGCCTCGGGGAACCCGGAAGTGCCTGAG
AAGCCAACGGTGAAGATCAAGCGGGACCGTAGCTTGGTGCGACCGCTGTT
CATGGACCCGGCGGACCTGCTGGCGGCGTGGGAAAAAGTTGCCTCGGGGA
ACCCGGAAGTGCCTGAGAAGCCAACGGTGAAGGTGTTCAACTTTCCGGAG
GTGATCGTCGCGATGGAAAGGTCCGAGGATTTGCAGGATTTTGGTTTCTT
CGCATCCTCGGATAGCGCGGAATACATACAGCGCGGACGAGAAGAGAGCA
AGGCGTTCCCGAAGCCTCGGCTGGGGAGAATGTGGTCCTTCTAGGTGTTC
AACTTTCCGGAGGTGATCGTCGCGATGGAAAGGTCCGAGGATTTGCAGGA
TTTTGGTTTCTTCGCATCCTCGGATAGCGCGGAATACATACAGCGCGGAC
GAGAAGAGAGCAAGGCGTTCCCGAAGCCTCGGCTGGGGAGAATGTGGTCC
TTCTAG
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