mRNA_P-littoralis_Contig188.88.7 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig188.88.7
Unique NamemRNA_P-littoralis_Contig188.88.7
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A6H5JKZ1_9PHAE (Thioredoxin domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JKZ1_9PHAE)

HSP 1 Score: 273 bits (698), Expect = 1.680e-87
Identity = 135/153 (88.24%), Postives = 141/153 (92.16%), Query Frame = 3
Query:  423 KAGGPLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVSGAEQHPVQGLAKLKEI 881
            K GGPLEVGT+APPF VKDQDG EVTL SF+G+ NVVVFFYPKDNTPGCTKEACKFRDLKDEY  LDCAVLGVSADHEVSHG+FIAKYGLNF LLADT  RSLIK+YGASKAGDKIQRSTVL+DKEGKVAAVWNPV GAEQHPVQ LAKLKEI
Sbjct:   86 KKGGPLEVGTEAPPFAVKDQDGAEVTLESFRGENNVVVFFYPKDNTPGCTKEACKFRDLKDEYDRLDCAVLGVSADHEVSHGKFIAKYGLNFRLLADTD-RSLIKSYGASKAGDKIQRSTVLVDKEGKVAAVWNPVIGAEQHPVQVLAKLKEI 237          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A6H5J6N3_9PHAE (Thioredoxin domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5J6N3_9PHAE)

HSP 1 Score: 220 bits (560), Expect = 2.290e-67
Identity = 110/148 (74.32%), Postives = 124/148 (83.78%), Query Frame = 3
Query:  438 LEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGD--KIQRSTVLIDKEGKVAAVWNPVSGAEQHPVQGLAKLK 875
            L++G+DAP F VKDQDG EVTL SFKGQKNV+V+FYPKD TPGCTKEAC FRDL+ +Y ALDC VLGVSAD E SH +FIA  GLNFSLLADT  +SLI AYGA KA D  KIQRSTV+IDKEGKVAAVWNPV+ AE+HPV+ L K+K
Sbjct:   44 LKIGSDAPAFSVKDQDGAEVTLSSFKGQKNVIVYFYPKDATPGCTKEACTFRDLQSDYDALDCVVLGVSADSEASHQDFIADLGLNFSLLADTD-KSLINAYGAMKAEDENKIQRSTVVIDKEGKVAAVWNPVTAAEEHPVEVLEKIK 190          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A7S2V4W9_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V4W9_9STRA)

HSP 1 Score: 160 bits (406), Expect = 7.490e-45
Identity = 83/147 (56.46%), Postives = 103/147 (70.07%), Query Frame = 3
Query:  438 LEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASK--AGDKIQRSTVLIDKEGKVAAVWNPVSGAEQHPVQGLAKL 872
            L+VG  AP F + D++G  V+LG F G KNV +FFYPKD TPGCT+E C+FRDLK E+ A +C +LGVSAD E SH  FIA++  NF LLADTS R ++ AYGA     G K+ RS+VLI  +G V AVWNPV  A +HP + LA L
Sbjct:    8 LQVGQQAPDFSLPDENGNLVSLGDFAG-KNVAIFFYPKDLTPGCTREGCRFRDLKAEFDAKNCVILGVSADDEESHQRFIAEHSFNFHLLADTS-RQMVGAYGAESDPPGVKVMRSSVLIGGDGLVRAVWNPVKNAGEHPDEVLAAL 152          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A2I8ACZ7_9NOSO (Peroxiredoxin n=3 Tax=Cyanobacteria TaxID=1117 RepID=A0A2I8ACZ7_9NOSO)

HSP 1 Score: 144 bits (362), Expect = 2.020e-38
Identity = 78/135 (57.78%), Postives = 91/135 (67.41%), Query Frame = 3
Query:  435 PLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVSGA 839
            PL VGTDAP F VKD +G  V+L  F G K VV++FYPKD+TPGCTK+AC FRD KD+Y   D  VLGVSAD EVSH  F  KY LNF LLADT   S+IKAY     G   +R T +ID +GK+A V   V+ A
Sbjct:    2 PLAVGTDAPAFTVKDTNGNTVSLSDFAG-KTVVLYFYPKDDTPGCTKQACSFRDAKDDYQGKDIVVLGVSADDEVSHQAFTQKYNLNFPLLADTD-HSIIKAYDVD-GGGYAKRVTYVIDAQGKIAHVDAAVNTA 133          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A433MZ60_CHLFR (Peroxiredoxin n=3 Tax=Nostocales TaxID=1161 RepID=A0A433MZ60_CHLFR)

HSP 1 Score: 141 bits (355), Expect = 2.120e-37
Identity = 76/133 (57.14%), Postives = 90/133 (67.67%), Query Frame = 3
Query:  435 PLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVS 833
            PL VGTDAP F  KD +G  V+L  FKG K VV++FYPKD+TPGCTK+AC FRD  DEY + D  VLGVSAD EVSH  F  KY LNF LLADT  ++LIKAY     G   +R T +ID  GK+  V + V+
Sbjct:    2 PLAVGTDAPAFTAKDTNGNTVSLSDFKG-KTVVLYFYPKDDTPGCTKQACSFRDATDEYKSKDIVVLGVSADDEVSHQAFTQKYNLNFPLLADTD-KALIKAYDVD-GGGYAKRVTYVIDGNGKIIHVDSNVN 131          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A0D8ZVQ0_9CYAN (Alkyl hydroperoxide reductase n=4 Tax=Cyanobacteria TaxID=1117 RepID=A0A0D8ZVQ0_9CYAN)

HSP 1 Score: 140 bits (354), Expect = 3.070e-37
Identity = 79/146 (54.11%), Postives = 94/146 (64.38%), Query Frame = 3
Query:  435 PLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVSGAEQHPVQGLAKL 872
            PL VGTDAP F VKD +G  V+L  + G K VV++FYPKD+TPGCTK+AC FRD  +EY   D  VLGVSAD EVSH +F  KY LNF LLADT  +SLIKAY     G   +R T +ID  GK+  V + V+    H    LA L
Sbjct:    2 PLAVGTDAPAFTVKDTNGNTVSLSDYAG-KTVVLYFYPKDDTPGCTKQACSFRDASNEYQGKDVVVLGVSADDEVSHQQFTQKYNLNFPLLADTD-KSLIKAYDVD-GGGYAKRVTYVIDGNGKIVHVDSSVN-TSSHASDVLAAL 143          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: G6FWP2_9CYAN (Alkyl hydroperoxide reductase/ Thiol specific antioxidant/ Mal allergen n=4 Tax=Fischerella TaxID=1190 RepID=G6FWP2_9CYAN)

HSP 1 Score: 140 bits (353), Expect = 4.190e-37
Identity = 75/133 (56.39%), Postives = 89/133 (66.92%), Query Frame = 3
Query:  435 PLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVS 833
            PL VGTDAP F VKD +G  V+L  FKG K VV++FYPKD+TPGCTK+AC FRD K++Y + D  VLGVSAD E SH  F  KY LNF LLADT    LIKAY     G   +R T +ID  GK+  V + V+
Sbjct:    2 PLAVGTDAPAFTVKDTNGNTVSLSDFKG-KTVVLYFYPKDDTPGCTKQACSFRDAKEQYTSKDIVVLGVSADDEASHQAFTQKYNLNFPLLADTKGE-LIKAYDVD-GGGYAKRVTYVIDGNGKIIHVDSSVN 131          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: UPI001ABB675D (peroxiredoxin n=1 Tax=Aetokthonos hydrillicola TaxID=1550245 RepID=UPI001ABB675D)

HSP 1 Score: 140 bits (352), Expect = 5.880e-37
Identity = 76/135 (56.30%), Postives = 92/135 (68.15%), Query Frame = 3
Query:  435 PLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVSGA 839
            PL VGTDAP F VKD +G  V+L  F G K VV++FYPKD+TPGCTK+AC FRD ++EY   D  VLGVSAD E SH  F  KY LNF LLADT+ ++LIKAY     G   +R T +ID  GK+A V + V+ A
Sbjct:    2 PLAVGTDAPSFTVKDTNGNAVSLSDFNG-KTVVLYFYPKDDTPGCTKQACSFRDSREEYQNKDIVVLGVSADDEASHQAFTQKYNLNFPLLADTN-QTLIKAYDVD-GGGYAKRVTYVIDGAGKIAHVDSSVNTA 133          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A1Y0RQ36_9CYAN (Peroxiredoxin n=13 Tax=Nostocales TaxID=1161 RepID=A0A1Y0RQ36_9CYAN)

HSP 1 Score: 139 bits (351), Expect = 8.260e-37
Identity = 74/133 (55.64%), Postives = 89/133 (66.92%), Query Frame = 3
Query:  435 PLEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVS 833
            PL VGTDAP F  KD +G  V+L  FKG K VV++FYPKD+TPGCTK+AC FRD  DEY + D  +LGVSAD E SH  F  KY LNF LL DT  +SLIKAY     G   +R T +ID +GK+  V + V+
Sbjct:    2 PLAVGTDAPAFTTKDTNGNPVSLSDFKG-KTVVLYFYPKDDTPGCTKQACSFRDAIDEYKSKDIVILGVSADDEASHQAFTQKYNLNFPLLTDTD-KSLIKAYDVD-GGGYAKRVTYVIDGDGKIIKVDSSVN 131          
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Match: A0A0V7ZEQ4_9CYAN (Alkyl hydroperoxide reductase n=12 Tax=Nostocales TaxID=1161 RepID=A0A0V7ZEQ4_9CYAN)

HSP 1 Score: 139 bits (349), Expect = 1.580e-36
Identity = 75/132 (56.82%), Postives = 87/132 (65.91%), Query Frame = 3
Query:  438 LEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACKFRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIKAYGASKAGDKIQRSTVLIDKEGKVAAVWNPVS 833
            L VGTDAP F  KD +G  V+L  FKG K VV++FYPKD+TPGCTK+AC FRD + EY   D  VLGVSAD E SH  F  KYGLNF LLADT  +SLIKAY     G   +R T +ID  GK+  V   V+
Sbjct:    3 LAVGTDAPAFTTKDTNGNTVSLSDFKG-KTVVLYFYPKDDTPGCTKQACSFRDARPEYQGKDIVVLGVSADDEASHQAFTEKYGLNFPLLADTD-QSLIKAYDVD-GGGYAKRVTYVIDPNGKIIHVDGTVN 131          
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig188.88.7 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JKZ1_9PHAE1.680e-8788.24Thioredoxin domain-containing protein n=2 Tax=Ecto... [more]
A0A6H5J6N3_9PHAE2.290e-6774.32Thioredoxin domain-containing protein n=2 Tax=Ecto... [more]
A0A7S2V4W9_9STRA7.490e-4556.46Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
A0A2I8ACZ7_9NOSO2.020e-3857.78Peroxiredoxin n=3 Tax=Cyanobacteria TaxID=1117 Rep... [more]
A0A433MZ60_CHLFR2.120e-3757.14Peroxiredoxin n=3 Tax=Nostocales TaxID=1161 RepID=... [more]
A0A0D8ZVQ0_9CYAN3.070e-3754.11Alkyl hydroperoxide reductase n=4 Tax=Cyanobacteri... [more]
G6FWP2_9CYAN4.190e-3756.39Alkyl hydroperoxide reductase/ Thiol specific anti... [more]
UPI001ABB675D5.880e-3756.30peroxiredoxin n=1 Tax=Aetokthonos hydrillicola Tax... [more]
A0A1Y0RQ36_9CYAN8.260e-3755.64Peroxiredoxin n=13 Tax=Nostocales TaxID=1161 RepID... [more]
A0A0V7ZEQ4_9CYAN1.580e-3656.82Alkyl hydroperoxide reductase n=12 Tax=Nostocales ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig188contigP-littoralis_Contig188:420183..441671 -
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.D8LK67
Preferred nameDOT5
PFAMsAhpC-TSA
Model size1127
Max annot lvl2759|Eukaryota
KEGG koko:K03564,ko:K17275
Hectar predicted targeting categoryother localisation
GOsGO:0000302,GO:0000303,GO:0000305,GO:0003674,GO:0003824,GO:0004601,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0006801,GO:0006950,GO:0006979,GO:0008150,GO:0008152,GO:0008379,GO:0009056,GO:0009636,GO:0009987,GO:0010035,GO:0016209,GO:0016491,GO:0016684,GO:0016999,GO:0017001,GO:0017144,GO:0019430,GO:0019725,GO:0033554,GO:0034599,GO:0034614,GO:0035690,GO:0042221,GO:0042493,GO:0042542,GO:0042592,GO:0042737,GO:0042743,GO:0042744,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044237,GO:0044248,GO:0044424,GO:0044464,GO:0045454,GO:0046677,GO:0050789,GO:0050794,GO:0050896,GO:0051186,GO:0051187,GO:0051716,GO:0051920,GO:0055114,GO:0061687,GO:0061691,GO:0061692,GO:0065007,GO:0065008,GO:0070301,GO:0070887,GO:0071236,GO:0071450,GO:0071451,GO:0072593,GO:0097237,GO:0098754,GO:0098869,GO:1901700,GO:1901701,GO:1990748
Exons7
Evalue5.54e-90
EggNOG OGsCOG1225@1|root,KOG0855@2759|Eukaryota
EC1.11.1.15
Descriptionperoxiredoxin activity
Cds size750
COG categoryO
BRITEko00000,ko01000,ko04147,ko04812
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig188.88.7prot_P-littoralis_Contig188.88.7Pylaiella littoralis U1_48polypeptideP-littoralis_Contig188 420423..441534 -


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

Feature NameUnique NameSpeciesTypePosition
1680789900.028846-UTR-P-littoralis_Contig188:420182..4204221680789900.028846-UTR-P-littoralis_Contig188:420182..420422Pylaiella littoralis U1_48UTRP-littoralis_Contig188 420183..420422 -
1680789900.127619-UTR-P-littoralis_Contig188:441534..4416711680789900.127619-UTR-P-littoralis_Contig188:441534..441671Pylaiella littoralis U1_48UTRP-littoralis_Contig188 441535..441671 -


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

Feature NameUnique NameSpeciesTypePosition
1680789900.041478-CDS-P-littoralis_Contig188:420422..4204821680789900.041478-CDS-P-littoralis_Contig188:420422..420482Pylaiella littoralis U1_48CDSP-littoralis_Contig188 420423..420482 -
1680789900.0517125-CDS-P-littoralis_Contig188:426690..4267961680789900.0517125-CDS-P-littoralis_Contig188:426690..426796Pylaiella littoralis U1_48CDSP-littoralis_Contig188 426691..426796 -
1680789900.0621438-CDS-P-littoralis_Contig188:427478..4276131680789900.0621438-CDS-P-littoralis_Contig188:427478..427613Pylaiella littoralis U1_48CDSP-littoralis_Contig188 427479..427613 -
1680789900.0770307-CDS-P-littoralis_Contig188:428795..4288211680789900.0770307-CDS-P-littoralis_Contig188:428795..428821Pylaiella littoralis U1_48CDSP-littoralis_Contig188 428796..428821 -
1680789900.086327-CDS-P-littoralis_Contig188:429495..4296121680789900.086327-CDS-P-littoralis_Contig188:429495..429612Pylaiella littoralis U1_48CDSP-littoralis_Contig188 429496..429612 -
1680789900.0968986-CDS-P-littoralis_Contig188:430304..4305471680789900.0968986-CDS-P-littoralis_Contig188:430304..430547Pylaiella littoralis U1_48CDSP-littoralis_Contig188 430305..430547 -
1680789900.1088912-CDS-P-littoralis_Contig188:441471..4415341680789900.1088912-CDS-P-littoralis_Contig188:441471..441534Pylaiella littoralis U1_48CDSP-littoralis_Contig188 441472..441534 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig188.88.7

>prot_P-littoralis_Contig188.88.7 ID=prot_P-littoralis_Contig188.88.7|Name=mRNA_P-littoralis_Contig188.88.7|organism=Pylaiella littoralis U1_48|type=polypeptide|length=250bp
MESNQRPKRARTAAATVASKAAAAAAAVKKATASQKPKASKATTTTTATT
AAAAAADAAAAAVAPKTTKTKTTAPSAAAAAGAASSEPAAASAKRKAGGP
LEVGTDAPPFCVKDQDGTEVTLGSFKGQKNVVVFFYPKDNTPGCTKEACK
FRDLKDEYVALDCAVLGVSADHEVSHGEFIAKYGLNFSLLADTSSRSLIK
AYGASKAGDKIQRSTVLIDKEGKVAAVWNPVSGAEQHPVQGLAKLKEIA*
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mRNA from alignment at P-littoralis_Contig188:420183..441671-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig188.88.7 ID=mRNA_P-littoralis_Contig188.88.7|Name=mRNA_P-littoralis_Contig188.88.7|organism=Pylaiella littoralis U1_48|type=mRNA|length=21489bp|location=Sequence derived from alignment at P-littoralis_Contig188:420183..441671- (Pylaiella littoralis U1_48)
TTCCACGCAAGCAAAGGGAGAGGGCAACAATTTCACGATAGCGGGAACAC TAAACAGACCAGATATCGCCATCACCGCCAACACCGCCAACACTTCGACC TCCATTCTCATCACCAGCACCACGAAGTGCGACCAAGATGGAATCAAACC AACGTCCTAAGCGCGCGCGTACGGCCGCTGCTACGGTTGCATCCAAAGCG GTGAGGGTTTTGATGCCCGTTCGTTGTTTGCCGAACAAACTACAGCTCCG TCCTATCATACAACCTACAGCTACGTGTATGATGCCGGTATAATGGGTAG TCGCCAGCTTTATGATGACAACTACCAATACGTTCATTCTGCTGCTGTTC CACCAACATAGCGGGCAGTGCCAGATAAACACACTCACAAGAGATTAAGT ACTCTTCGCTCGTCTATTGTAAACAAAAATAGGTTCGTATGATAATGCTG TGGCGTATTGAGAGACCTGGAGAACTTTCCCTCTCTTACGACTTACGGCA AGTGTCCTCTGTACACGCTACGTAAATGATCGCGTACACGAACGATACCT GGTACTTGTACAGCACGGCACACACGGCGGTGGCATATGCAACTGCTTGG CGTTTTGGGTCTTCCTAGCGGCCCCCCCGGGTGGTCTCGTCGCCTCCAAT TCTATGTGGTGCGTTGCAGCTGTGCTGTACCGCTGCTGTGTACTCGTATC ACACATTTATTTACATTCGTAAAAAGTCTCTTTCTAAGACCGGATTTAAT GGGGACGGCAAAATTCGTAAAAATGCAATCTTGTCACAAAATGCTCGTCA GCATTTTGGAGCCGAATTTTCGTTTCCCAAACATTTCGTACCGCCGCTTG TGGTCACGGCACTTTTTTTTTCCCCTTTGTATTTTTCATTTTTTCTGTTC TCTTTTTTATTATTTCCGGTGGTATTGGTCTGCGGCTGGCTGTGTCAGGG TGGGTCTTGTCAAAGCGTTTTGGGCCCATTCAAAAATCAAAAATCAAAAA TCAAACTCGGAATATGTCACTGATAGGTCAACGGTTCATCCGCCCGCACC ACGTTTTGGATTTCAGTTTTATTCTTCCGAATCGGGAAGGAAAGTAAAAA ACACTTTCCTTCCCGCCACTAGATCAAAAACGCGGCTCAAAAACGAATAG ACCAAGAATACAAGACAGAGGGGTGTTTGCTGTGTGTCTCTGTGTGTGTA CACAACAACACAACACATGACCCACACACAGCAGTAGGCGACAGACCAGG AGCATCGGCGCCATGGCGCATGAAGGAGGCGAAGGCAGCGCTGTTAGTGG CGCAGCAGGCACAGTAGGCACAGCTAGCACAGCAGGCGCAGGGGTCCACC TGTCCCCATCGCCCAGCCCTCCGCTGGCGGTAGGGCATGCGACTCCGCCA CAGCCGCTGTACCAGCAGCTGTACCAGCAGCACCAGTACCAGCAGCACCA GCACCAGCCACCCAACTATCTCCAGGGCTTTTCAGCTGCGCAGCACGTGG CTGCCCGAGCCGCTGCCGCCGCTGTAGCGACTGGGCAGAGTCCAGGGCTG GCAGGTGTGCACGGGCTTTCTCTGCCCATGAGGATTGGCGCTATGCTTCC GGCAGTAGCACACCCGCTTGGCGGCGGTGGTGCCGCCGGTGCCGATGTGA TACTGCCCGCGGCACCGGGTGCGCTGGCATCGGGTGGGCTGCTTCCTCCC CCGCCACCGCCGGCATCACCACTGCCACCGCCACCGTCACCACCCAAGCC GACTCGCGAAAAGCAGCCGAACTACGACAAACACTGGTTGCTGGCTGCAT GCACAAGAGAGATCCGGAGGCGCGCCAATATGGCAGGCGATTCCAAATTC TTCCGCTACGGAGATGACGAGAACGACGTCCAGACCTGATATCGAGCATG AAGAAGGGAGCTGCTGCACAGGCGCTCCTTGCACACGACGCGTGGCTTGA GTCGAAAGGCCTCGATCCTGCTTGGAAGCAAGCTCCTCAGGGCACTCCTG ATGCGAGGAGGATGGCTATGCATTCTAAAGCGGTGGCTGATGCAGAGGAA GAAGAAGAAAAGAGGAAGCAGCGCACCTCTGCCGATGCGGCACGGTTGGC GTTCATCATGTTCTCAGACGAGATTTACATGGAACTGGTGACCAGCGAAC AGGCCCCCACTGATCGCAACAAGCGCGACCTCAACCACCATGGAGCCAAG GATCCGAACGGACTTTGGGACAAAGTCGTAGACTACTTCTTGGATGAGAA CTTGGTGCTCGGCGGGATACAGCCTGGGAACCCTGTATTACATGCAGCCA GCACTGCTGAAGGAGTTGCAAAAATGTGGGAGACACTTCAGTCGCTCGAC TACAAAGCGCCAGCTAAAAAGTGAGTGGAACACGCGTATTATGTTGTACG AGTATGGTGCATGGGGGTTGATGGTATGATGCGTACTGGATATCTAGAAG CTACAGCAGTAGCTTTGTGGTATGATGCACTACTGTATGTAGTGTTTCGC TGCTGTGCAAGCTCTCACAGTTGTGGCTTTTGTAGCTGTTTCTGGTGCTG TGTTGTCATCTTTGCCGTTGTTGTTACGCTGGTGGTGGTGGTGGTGGTGC TGCTGCTGTATGTTGTGTCTGTGGTGATGCGCGTGCTCTGCCGTTCCTTT TTTGTTTTTCCTGGATGTTTCGATGCTGGTGGAAAATCATGTTGATTCGA CACGTACGTATCGCACGGCAGCACCGCTCGTAGTGACGACAATAATTTGA TGTTGCCTGGCCGCGTGGACTTTATCTTTCCCGGTCGTTTCAGGTGGAAG GAGGAGTGGGAGTTCAAAGATGGCGATAAGAAGGGTCAGGTGGACAAGGG CAAAGCCCGCGAGAAGATCCTTGGATGGTGGAAGGACATGCGGTCGGAGT ACAGGGTGAGAGGCGAGGGTGTGAAGACGGTGTGTGCAAACGTGTGTTAT TTTTTGCCCCCCTTCCCCCCCGACCTACCCCCCTCTCTTTCTGGTCGCGG TGTGTGCGTCGGGTATACTTCGGGCGACCTTACGAGCTTTGTTTCGTCAT ACACCGCTGTATACCCTTTCTTCATGGTTGCCGTTGATGTGTAAGTATTA CCCTCCATTGTTTTCTCACAAGTCCACACAACAGCAGCCCCCCTCTCTGT TTGTTTTTTGTGCACATTTCCAGCCCTTGTCGGCCTTGAAGCCGGCGTGT ATACTTTGTTTTCGGCACATGCGCAACCTTAGGACCTACCTGCAGAGAAC AGAAATGAAACGGAGCCACCACTCACTACAAATCCAGTACAGGCAGCAGA ACAGCGGTACATTGACCTCTACCACATATATTTTCTCACAACTCCGTATC ACCAGCAGTACACCCCCGCCCCCTCCCTCTGTTTTTTGTGCGATATTTCC AGCCCTTGTCGGCCTGGAAGCGGAGTAGATGTTTGTTTTTCTGAACGTGT ACAGCTTAAAGACCTGTCTTCAAAACAGAAATAAACGCCGTTACCTCTCA GTAGAGATCCAGTGACAGGCGGCTGCAGGACAGCGGTACATCATCGTCCA CATTTTTTTTTCTCACAACTCCCCAACAACAGCAAACCACCCCCCTCCCT CTGTTTTTTGTGCGATATTTCCAGCCCTTGTCGGCCTGGAAGCGGATTAG ATGTTTGTTTTTCCTGCACGTGCACAGAGTTTGGACCTGTCTGCAAATCA GAACAAAAAGTAGCCACCATCAGTAGAGATCCAGTGACAGGCAGCTGCAG GACGGCGGTACATCGACGTCCATATTTGTTTTCTCACAACTCCCCAACAA CAGAAGCCCCCCCCCCCACCCTCTGTCTGTTTTTTGTGCGATATTTTCAG CCCTTGTCGGCCTGCAAGCGGTGGATAATATTTTCATGCACGTGCACAAC GTTTGGACCTGTCTGCAAAACATAAATGAAACGTAGCCACCGCTCAGTAG AGATCCAGTGACAGGCAGCTGCAGGACGGCGGTACATCGACGTCCATATT TGTTTTCTCACAACACCCCAACAACAGCAGACCCCCCCCACCCTCTGTCT GTTTTTTGTGCGATATTTCCAGCCCTTGTCGGCCTGCAAGCGGAGATAAT ATTTTCATTCACGCGCACAGCGATTGGAACCTGTCTGCAAAACAGAAAAA AACGTAGCCACCACTCAGTAGAGATCCAGTGACAGGCAGCTGCAGGACAG CGGTACATCGACTTCCTTATTTTTTTCTTTCTTTTCCCTGAACAAGCGAG GGACTCTGTTGTATACCCCCGCATATCTGTCGTTTCAGGTAGCCGTCAAG AACGTTGGGAAGAGCGGAGAACATGCAGAACAAAAGTGGTCCTTCTGCGG CAACAAGTTCTACGTCATGCTGATGATTGATTGGTACCAAGTGAGGGGCG GACACAAGGCGAACGACCACTGCCAGCAGTACTTCAAAGTGAAGCTCGAC GAAGACACAGGGTCAGCGTTCAGCTCGCTGTCAACGGAGTTCGAGCAGGC GTCGAGCGATTCTGATGACGACACGATGTCCTGCGGGAAACGCAAGCTGC GAGCGAGGGCGGGGGGAAAGCGAACTCTAAAGCGGAGGAGGCCTTGAACG GACTCGTGGAGGCCCTGAAGTCGTCTGGGGCCGAGGTAGCTGCGGCGATC GCGAAATTGGCCGACAACGACAAGTTGGCCCCGGCGAAGGAGATGGTATC TGCCAGCAACCTCGTGGATGATTTGGAAGACGCTTTGGATGAAGAAATGG AAGGCAAGAACCGTCCCAGGAAGATAGCAAGGATTCGGGCAAACCTAGAA CAGGCAACGGCGGATTACGCCGTTTTGAAGAAAGCCGCGGGGGGTGGAGC GGGCACTACGGACAAAGCGAATCCGGCTGGCGCCGGAGAATCGGGCGAAG AAGATTCGGACGAAGATGCTGCGGAGTTGCTATCTTTGATAGACGCGGCG GGAGAGGAGGAGTGATGGCGTCTGCAATACTTGCGGACTCCGTTTGTTTT TCGCGTGGTGGGGGGCGGCCGACTTCTGTGGGGAGGGGGAGAGGGGGAGG GGGTCCATGGCGCCTTTGGTGCCGAAAGCTTCTCTATGCCGCATTTTTTT TGTCCTTTGTGAGGCGGGAAGTAGGCAGAGTTTATTTTCATTTATTTTTA TTTATTTTTTTGCAAGAGGATTATATTTCCTGGTATGTTTCCAGGAATAA TAAGGGATGCAGAGGAAGATTCCTCTTTCTGTAGTGCTCCTTGGAAGGAG GGGCGTACCTTGTGTGTTCGGGATGTAACCCGAGTGCATTTCATCATTTT TTTGTTGCATGTCCGCTCTGTCTTTTTTGTTTTAGTCATCACATGGGAAT GATGGGAGAGGTGTGGGGTTTAATTTGTTTTTCGCCATACTCCCTTCGGG GGGGGGAGCGAAGCCTTGGTGTGTGCTTGTGTGGGGGATAGTCCTAGCTT TTTCCTGTTTATTTGTTTGCGGGGATATTCTTCTCTGGAGTGTTGCCAGG GCACGATGGGGTGTGGTGTTGGGTGTTTTCATTTTTTGTGTGGTTGTGCG AAAAAGGGATGACATTTTTTTTTTCCATCTCCGCTCTGGTTTGTGGATTT GTGGCATCATTTTTTCCAAGGAGTGCTCCTATCGAGGTGGGGGTGGGGGG GGGGAGCCGTTGCTTGTGCTTTGAGTTCCCTGTGTTTTTTTTGGAGATGT GGAATAGGGAGAAGGGGTTCTCTTTTTGATTTTCCTCCCTTCGGATGGTT TGCATTTTGTGCTTGTTTGCTCGCAGGGGGTTCTTTTTGCTGGGGTGTAC TCGTGCTACCTTTTCGTGTGTTCGACTTTCGTCATTTTTTTTGCGGGGCA TTCCGTATTTTCGTGTGTTATTCCCGTGTGTTGCCAAAAGGATACAGTGT CTATCATGCTACCTTCGGAGGGTGGGGAGAGGGCAGGTTGCCTGTGCTTT GTGTGTCTGGTCATGAGTACAAAGGTCTTCGGCAACTTCAGCTATTCGAT CAACAAGAGAGGCTCAACCGCCACATGATAGCGGTTTTGTACGTGCTATC ATGGTTTCCATCACATATTTTCATGCCGCGCCGCGGAAAAACATTTTGTG CGAGGCTTCCTCCTGTATGACCCCCCCGCTGATGCTGACACTTCTACCCA CAGGTGTAGACTTCGGGTTATAATGCATCGGATGCCAGCAACACACGAAG CCATGGCTTTATTGTTGTCTTGGGCACTCGCATGCCCACGTGCCTTCCTT CCACGATATGTGGACGGACACACAGACTCTCGGGAGGTAACCCATAAAAA CTCGTGATGGTTTGTATTTGTACTTCGCCCATGCCGCATCGTATCTGGCC GATAAAGTTAGGTAAATACTCGTTCATTGCTCCCAAAACAATTGTAACAA CGACGAGACAGCAGTACCCGTATTAAATAATTTCAATGTTAACGTCGCCC ACGCTGCCGTCATATACCAAAGCGTTTCCCAGAACTTAGCGTGACGCATA CACCTTAACCACCGGTGTTTCGTTTCCAACCTCAACAGCATCCCATTTAT TGTTCCCTGGGATGCAATTTCTGGTCATTCCGGACACGTCTGCCCCCCCT GCCCCCCGGGCGACATCAACGCCCCCCACCCCCTCCTCCGCACATCAGCC CCAACGCGTGGAAATATCGGCCAAACGCCACACCCCATTTCCGACCGACG TTACTTCTCTGAGTCAACGACGATGGCCGTCCTCCATCCACGGTTGCGAG CGATGTTCTGTGCCGGCCGTCGGAGTGTCCTCTCCCTGATGTCCTCGCGG ATGTCCTCGCGAGTCTGAGATGTGGCCGCGGGAGGTCTTCCGGTCGGTGG TGTCGCCCACCGGTTGCTCCGGATCGTACCGTCGTCATTGAGGAACCTCG CCGTCGTGGGCGGTGGCTCGCTACGGCATCTGCGGAGGAAGTTGTGAAGC CGAGTGACGGCGTGCACGACGCCTGCGGTGTTGCGAAGGGGGACCATGAG CGGCTTGTGCAGGATGGAAATCAGCTCCATCTGTGCAAGGGGCGCGGCAA GGAGGTGGAGAATAATGGGGGCAGGTGGGGGGCGGGAGGGTCAACGTCCA CCTCTTCTCAGGTCGCTCCCGCGCACAGCTGCATTCAAACATCTGATTCA AACCGAAAATGACTTCAGAGAGAAAGGTAAAAAATCGTTTCGTACTATCG TTTCGTACTCCCGCCGGTCGCAGTTCCTCCAACTCATGTCCGAAAGCACC AAAAAAATAATGATGTGCCCACACTCACCATGATTCCGAAGGTTTGCTCG ATGCACGTGCGGCCTTGCGACTGGAAGAAGTTAAACGCGTCCGTTGCTGC GTCGAGGTTGCACCCAGGGTAGGGTACGATCATCTTGTTGGTCGCCCCGT ATGCGGCGTCTCCTAGGACGTAGTACTTGCCCGGGAGGGACTCGACGAGG GTGTCGAAGTTTGCTTCCCTGTATGCCAGCCGGTCGTTCGTGCTTCCTGG GGTGTTGCAGCAGGCGGCAATGACGGTATACCTGGCATCGCAGATCACCT GGGGAGGACAAAACAAAAAAAACGCGGTAATTTTCAGCAATGGCTGTCTG GTCGTGTGTCCGTGTTTTCTTGTGTGATGGGGCGCCTTTATTTGTCAACT ACCAAGAATAATTTTACGAACACCGAACCAATTGGCGGACCTACGCCGCT CATGCACGATGAACCCTGCTACAGATTTTAACGCATATCTCTTCTCGATG ATCCCTTTCTTTTTTGCATGTCAGGGGGCATGTGTATGATACATAACTGG TTCGCAAATACTGGTATGTATGTAGGATATAATCCCGAGTATCATACGTC GTATCTTTATATGTGACGGAGAACAAATTACAGCGGTGCGATACTGTAGA GGTCTAACATGATGTGGCACGGTGTATGAATATGAAGATACATTGAACAT CACACACACACTGCTGCTGCCGCCGCTGCCACTGCTGCCACTGCATGCCA TTCATACACCCGCGACAGCTTTACCAATACGTATTTCTGTATGCTGCTGC TGCTGCTGCTGCTGCTGCTGTCTGGTGTCTGGTTTTCATGATGCGAGAGA GAGAACAACTTACAGCAGTGTGATATGATATAATGCACGTTGTGAGAAAG CGGAGAAATTAAACGTCACACACGCGGGCAAAAAGCTGTTTGTGCTGCTG TACATCTTTCGGTTTGCTCCTTGTGCCGCTGTTGGCATCTTGAGGTTTGC CGCTGCTGGTGCTGTATGCCGAGTTAAACATAGTCCTCCTACAGTAACGT ATACTGTATGTAAACGACAAAAACTAACCAAAACATACCTGGTAGTTCAT GCCCACGGCCATTTTATGCCCCGAGAAGAATCGATCCGGGCAAGGATGCT CCTTGATGCTGGGCTTCGTGCGTCTGATTAGAACCCCGTCCAGAGCTCCA ACGCAGTGTTTGAGAACAGGATCGAGCTGAGAAGATCGGGCGCGAAATAC ACTTGAATTCTCCCTCAGCTCCTCATCGGTTCGCGGCCACTTGATCCGAA GCCTCCCGCAGCTATTGATGGCATCGATTCCGTCTTTAATCTTCGCATAC GCCGTGCTGTTCGCCATGTTCGGGCCATCAGCCGCAGCGCTGACACCGTG TCCAGCGAGCCACTGCAGCGTACCCGCCAGGGCCCACTCCCCCGCTACCG TGCCATTGTGGCCTTTTCCTCTTACCGAGTTGTACTGGAGACGCCCGCGC AGCATTTTATACAGCTTTCTGAACTCCCTGGGCTGCATTCGAAAGCGCGT CTTGAAGCTGCCATCCTCTACTAGTGGGCGAATCACATCCTTCCACTCCT GCCTGCTCCTCTCTACGCATGCTCCACGTCCAGGGTTGGCAACGAGGAAG GCAGCCGCTACTGTTGTCATCGCATGCAGACACCACATAGCAGCGAGCGC CACGACTTGCATCTTTCGGTTGAGGCGGGCGGCGGCTGGTGAGCGGCTCC CGCACCTCCCGATACGAGGTCGTACAATAGTCATACTGCCCCAGGGGATG CTGCTGTTGTTGCTCCCGTTACATACAACGATACGGAGGAAGATCGCACG TGTGCGCATGTTGCGCTAGCAGAGGACGGCAAGAAGCAAGCGGGACTGTC ACATCACCCGTGACACGGGGTCTGTTCGATATACTCGCCGCACATTTTTT GTTTTTGGATGGACGCCAAATTGTGTTTGATCGGACCCAACACGGAATCA AAATCAAAATCCAATTTTGTTTTTGATTTTGATTTTGAATACGGTCAAAA TTTTGACAAGACCCACCCTCAACGAATGTTACGGACAAAAATAACCACTG CGCCATGGAATCTGAACGTCGAGAGGCCGTAGAGAGCTCGTACAACTCTC TTGTCACCGTGTCAACACCTTGACCACTGGTTGGTGGTGGAAGCGTGCCA GACATGCAAAAGAAATGAGCAACGGTTCGTTGATTGTATGAGATGGAGTC ACGTGCGTGTGTTCTGTCTTCCCAACCGAGAGCAGAGCCGTTCACGGAGA GATGAAACATACCACGTGCCACGTGACCTATATGAAGAGCCGCTCCCATT TATTTTCTTTATTGCAGCCTGGCGGGTCTACGTGTGTCCGTCACCAACCC ACAGCCAAACAAAGTGTTTGTCACGGTGATTTCAAGGGTTTCTTTGAGCC CTCTCTGTCGTGCTTGCACGTGTATGTCACCGTGGGTATGTGGCTGGTGT ATGCCAAGCTCTAAGCCGTGTGTGTGCCATCTGAAGGTCGTGTTTGCGCT TGGTGTTGGTGTATCGGGTGTCGGGACAATGAGCGGGCCGATTTTTAATT CCCGCCGCGTCAGGATTTTCAAGACTGCCGAGTTTGGGAAATGTTCACCA AACATTTCCCAAAAAGGGCCGGAATCGGCCGGTTGGGAAATCTTCGGCCG CATTTTGAGAAGGATTTTTATCCATAAAAAGTGAAAAAAAAATGCTCGTC GCCGAATCCTGGCCGAAGATTGCATTTTGATGAATTTTTCTGTCTCCATT AAATCCGGTCTAAGCTGTCATATACTTCGATCGGAGTAAATATGATAGTT ATCGAGTATCGAGGGATGACAAAAAAGAAGCCTACTTGTACGTGAGTATC CAAAATCCACCAGCATTTTTCGCCCGCACGGGCCTGCTTGTACGTATTCA GAGCAAAGGGCTGTTTGGAAAAAGGGTGCCGAGGTGCTGCACTTGGAATT AAGCAAATTCGACGGATTCCATCTCCCTAGGCTTTTCAAGGGGGGGGGTT CGGGATCGTGTGGGGACTGCAAACACTCTGTTGACGAGCCACCGTGGTAC GAGCTCTACCGACCCCAGGAAAGCAAGTGCGGAATAGTGTGCTCCTGAAG CAGCCGCTGATCCTCGCCGGGTTTGAAGCCCTGACGATACGGTAGCGAGA GTTACTGATATTTGGCCAAATTTTGAGGGAACATCCATCCGTCTCGGGCA GGTTTTTATCGGCGCGCACGCCCTGACTTGCGCACGCCCTGACTTGGAAA CGAAGTGGCGCTCTGGTGGCGCTCCGCCGGAGCGTGTTGACAGTTGGTCT TTTCAACTATCACAATTTACAGCTGGCAAAAAAAAGCAACACAGGAGGAA TACCCGATAGATTAGCTCTGCATTTTGGCTAAAAATGCCGTCTAAACTTG AAAAAAATCGCAAGCTGCTGCACTGCTGTGAGTACAGAAGTTGGCCGGCA ACAGAGATGACTTTTCTTTGGGAAGGGCGGCTGTGTATTTCTGCGATAGA CCCCCCCACAATCTTTTTCACGAAAATCGCGAGTGCAGTCGCGGGACTTC ATGGTGATGAGTTTCGAAAATCTGTCGCGAAACAACTGTTTCAACGTTTT GGTTCCTGCACCTCCATCAGCTTGGCTACGTACTGATTGCCAACAGCAAT AACGATCTCGCCAGATTATTTGAAGCATGAGAGCTGCAGCCGTGAGCCTC TGCATGATGCTCCTCCTGCAACTGCTGTGTTGGAGGCCCCCATGTTGGCA TTTTTTGTCCTACTTCTTCGTATCATTTTACATTCCTTTGAATCAATCAC CACCGACCCCCAACCAAATACAAGGCGGCGGCCGCGGCGGCGGTGAAGAA GGCAACCGCATCTCAAAAGCCCAAAGCATCCAAGGCCACCACCACCACCA CCGCCACCACCGCCGCCGCTGCTGCTGCTGACGCTGCTGCTGCTGCTGTT GCTCCCAAGACGACGAAAACCAAAACCACAGCCCCCTCCGCTGCTGCTGC TGCTGGCGCTGCAAGCTCCGAGCCTGCGGCGGCTAGCGCAAAAAGGAAGG CAGGAGGCCCACTGGAGGTGAGACGATGGTTGGGTTTTCCAAGGCGTAGC AGGGAATGGAGTTTTCATTATGGTCGCTCTTTTAAACCAACTAGATTGTC ATTTTTGTTGTTGTCGGTTGTTGTCGGTTGTTGTCGGTGTTGGTGTTGGT GTTGGTGTTGGTGTTGGTGTTGGTGTTGGTATTGGTGTTGGTGTTGGTGT TGGTATTGGTGTTGGTGTTGGTGCGTTTGTTGTCTTGAACTGCTGTGTCT GTGCACATACATCTCACGGCTGTTCAGTACGTCCTTGTATGCCGTACGTA CTCATCCAAGCTGCGGGAACGATTTGCTTACTTTCGTAGTCACGGACAGA CAAAAAACGAATGAATGGATAATGAAAACAAAGCTTACAAACTCGTAAGT CGAGGTACTACACAAGCGCTGGTTACTTTGAGGCCTGCAAACACCTTGCG GTCTTTCTCCCGTCATTTGCCGAGATCGCTGCTTTATTTCTATCATGACC AAGTCTCGCCCTCTAAACACAGACTAACAACACTGCTGTGTGTTGAGGTA AATCAGTCCCCATGCACCTCGCCGACACGTGTTTCAATCTTTTTTCCCCG CCGTTCCAAATTTTATTCACCTTTCTTGTATGTTTGCAAATGAATGGTCG GGGTAAAAGTGCGCTTTGATGACGACAACGACAAATTCAACGACAACGAC AACGCCCAGGTCGGCACGGACGCGCCCCCCTTTTGCGTGAAGGATCAAGA CGGGACCGAGGTCACCCTGGGGTCTTTCAAGGGACAGAAAAATGTGGTCG TCTTCTTCTACCCCAAGGACAACACGGTGTGTGTTTGTTTGTGTGTTTGT TTGTGTGATTGTGTGTGCGTGCTGTACCTTATAATGCCCGTGCTGCTGAC ATCCGATAGGGGACGCTTTTCGCCGCGCGGTCACAGTACGTTCTTTATGT CCGTACTGCTGACATTCGATAGGGGACGCTTGTCGCCTCGCGACCGCAGG TTAAAACTCAACAAGGGAATGAAGCACACGGCGAAATCTTAGCTTCCCAA TAAAAAGGTACGCGAACGGAAAATGCAACAAAGCAATGTGAACAGACCCC GAAAAATCACGCAACGCGGTAAAAAAGTTGCGCGGTGAGCTGGAGGAACT ACTGTGCATTTGGGCTGTACATGTAGGGTGAAGGGCGGTGGGGAAAAGCA TGGCGATAAAAATGTGAATGTACTTTGCTGTCTTTTTGTGAACATGCTTC GAGATGACAGCGAGTCTTTTTACCGCTGCATCTTCTGCCAATGTGGCATT GACGTGCGCACAAAGTAATAATGCCAAACAGCGTGTAGAGTGGGAACGAA ACGTACATTATGATACGTGAGTTGTGCGTCGTCATCGTTTTTTTTTTTTC GATTGATTTTTTTTTTATCGTATCGTGTGCGACGCGTGCTCATCCTCTGA CCTGGCCTGACGACGCGGCCGCCGGCCGACCGGACTGGGTGTGCATGCAG CCTGGCTGCACCAAGGAGGCGTGCAAGTGAGAGAGCCGTGCCGCACTTAC GTACTTCGTAGCTCGCAACGGTTTTGGACGCAACGCATGTGTTGGTTTGA TCGGGTGTTTTTGTGGTGTTGTTGGTGTTGTTGTTGGTGTTGGTGTTGGG TGTTGGTGTTGGTGTTGGGTGTTGGTGTTGGTGTTGGTGTTGGCGTTGGT GTTGTTTTTGTTGTTGCTGGCGGTGCTGACGTTGGCTGTTGCTATTGCTG CGGCTGCCGCCGGTGCCGCCGTCATTGTGGGTGTCAGCGTCGGCGTCATC GTCGTTGCTGCTGATGTTGCTGCTGATGTTGCTGCTGATGTTGCTGCTGC GCGATGTCTTTCGGTATTTTACGAACACGGCAAAAAAAAAAAAAAAAGGC TCACGAAACTCAACTCGTAAAATCCACGCCACAAAACCACTGCAGCCAGA AAAACCTCTTCGCACACCGTGTGAAGATACCGTACGAAGCTCTCGCGTTT GAGTCAGCTGCCTTGTTAGCACGCTGGCCGCCCTTCTCTCTCGTAGTCGT GGGCAAATATTTGAGAACAAACGCGCGCCGTTCGGGTAAAGACCCCGGTG AATCGGCTCTACCCCTATGTTCTCTCGGGCGTGTGTTTGCCGTCGCTGGA TGAGTAGCGTGTCCTCTCTCAACCACTATGGCAGTCAATGTACTGCAGGA AATCGTAAGTAAGTGATGAAGCCCTCCCTCGCTGCTTGGCATAAGAGAGT GGGTAACGAAACACGGAGTCTCCAGTCTTTTCGGTCTTTCGGGACATGGA AAATATCTTCTGGCGGCGTGGTCGGTTGTTGTGTACTGCACTTAGGTTCC TGCAGCGTGTATATCGTAGGGAGAGGCGCACTTTCCCCAACCAGACCAGA ACCACAGACAGCCTCGGAGACCGGAAAACAAAGCGCTTGTTACAGGATTG TCCCGCGCTGCTGTATTTTTACGTGTGGCTCGTTGTCGGATGTACCTCCT GGGAGGCATTTTGGTACTGGGGATAAATAATTGCGTGTCGTTCAAGCGGG ACTTTTTCCTCCAACAAAGAGGGGTGTCCTCGAGGCGGAGGCGACTATTT ATTGGTGTACAGCAAGTGCTATGGCTGGTATGATATACTTGGAAGTACAT ATCATAACTCACTGCTTGCTATGATTTGTGCCTGTGCTGCCGCCGTGTGA TCCACCAGATTCCGCGACCTCAAGGACGAGTACGTCGCGCTGGACTGCGC GGTGCTGGGCGTCAGCGCCGACCACGAGGTCAGCCACGGAGAGTTCATCG CCAAGTACGGCCTGAACTTCAGCCTTCTTGCCGACACCAGCAGGTGATGG TGTTTTCTTGTGTATGCTTTGCGTGGTGGTGTGTTTGGTGTATTTGGTGT GTTTGGTGTGTGTGCGTGCGTGTAATCATTACTTGAACTTAGGCAGTTTG GATGTATTTTTCCCCTCCTCCTTTAGGTGTTCTTCTCGGGGAGCTCGAGC TGTGTGTGCGTTGTGTGTCGATCGCGGTAGATTTAATTTCGTTTCGTTTT ACACCCGGTGTATCTTGGGGTCTCGGTTGTTGGAACCATCGCCATTTGAC AACCCGTTCGGCTGTTTCAAACCGCGTATCTCAAAGTTTTGATTACAGAA TGAATAGTTTGTGTGGTGGTTGTGTCGTTGCTGCTGCTGCTGCTGCTGCT GTTGGCACCTCAAAACATCGACAGAACTAACCCCGAAAGGCGGGCTGCTC ATCGTCAGGTTTTAGGGACGTGCACACGCGCACGTCGAAAACCATTCTGG ATGGCCGGCATTCTGCCTCTCGCGGTTTCAAAGGGGCTCGATGGGCAAAG TCGAGGGGTACTACAGCAGCAGTAGTCACCACGTTCTCGTAACCATTGAC ACAGAAAGCCAGCTGACTGAATTTGTCTTCGTGTGCTTGCATTGCAAGAT TCATTCATTTATCTCCCGTTGACGCCGCCGCACGGCTGCACTGAGCTAGC TCACCCCCCCCCCCCTCCGACCGAGCAGGTCGCTGATCAAGGCCTACGGG GCTTCGAAGGCGGGGGACAAGATTCAGCGCAGCACGGTGCTCATCGACAA GGAGGGAAAGGTGGCGGCCGTCTGGAACCCGGTGAGAGTAAGAGAGTAAG AGAGAGAAAGGGCTTATCCGTGTTAATCTGTTGCCGTGCTGGTGATTTTT TTTTCTGTTTGCCCGTTTTTGTTCAGCCTAGCTTTGGAGGTCATTTCGTC CCGCCTGTGCCCCCCCTCTCTCTCTCCCTCCCCCCCTCCTCTCTCGCCCT TTTTCTCTCTTCCTCCCGTTCTCTAGCACCCATGCACTGGATGTGGAGTA AACCGGTTTCATACCGTTCTTTTATTTTTGGTAGAACGGGTTTTCCTCAT TTTTTTGGCACGCGTAGAAACCGCGATTCGTATGTTTTAGAGGCGTTGTT CTGCAAAGCCGTGCAACTGCTGAAGCTTTATTTTTTCTGAAAGCGTTCAC ACCTCGGATAACGTAGTACGATATGTTAAATACGTTACGTTTTTGTCGCA GGTTGGCGGGTGTGGGGTCACAAGTAACCCGTCCTACGGCTAGGTCTGCT AGCGTTTGACTATTGGGTAACCTGTGTTGCAGCTGAGGCTCGCCGATCGA CTAACAGTGCAGTTTAGTATGAGGTCTCGAATGTAGCTGTTCGTAGTACG TTGGTATTGTGTTATTCCTCAGGTCAGGGGCAGGCACCACGTAGTACTGT AGTACGGTCCCACCTTGGAGGTTCCCAATTTTTCTAATACAAATGGTATA GTCCTACAATCGGTTCCCCAATTTTCCCAACATATTAATATAGCTCTACA GGTTGGGTCCGCCGTTGATGTCAGTCGATAACCCGGTCCCAGTCGTGAGG TTGCCAAAAGAATAATATAAAAGTTAACCCGTTGGCCTCGAACTATAACA TGAAAGTGAACCCGTTGTCATGCATAATTAGCGACTCTCAACGGCTGAGA CCATCCAAAATAACATTTTTTCTGCTATAGGGTCGGAAAACGTAGTATTT AACAGAAATTACTCTGTTACTGGCGTTGTTGAACCTCACCGGTAACTTAA GTTACTGAAATTAACAAGTAGCTACCAATGACTGGAAACGTAAGTTAGAA CGCTTAGTTGTTCCTATTATGAACGGGTCAGTATTTGTCCGGTGGATCCA CAATTTTCCGGTTACCCCATAAATACTGTATTTTAGTGTTACCAGTCTGG TCCTTTCGTCACATGGGGGTATACCGTCGTGTCCGTTGTTGATAATTAAT CCATATGGTATTCCGTTAATATGTTACGAGATAAACCGTTCGGGGTACCA ACATTATATTCATATATTTTAGGGTCCCTCTAATATTCCATGTGGTATTT TATTTACTGAGTTACTTTAGTTTCGCCGCGATCTCTTCGGTATGCGTTAT GCCCGTTGCCTCGTGTGAAGCTCTGTTCTTATCTTTTTTGTGTGTTCTTT TCAAATTATCCCATATAGCAGGTTAGTTAATATTGAAAATAGTTTTATAC GAAGAACTTCGTATACAACAAATACATACCAGGTATGGTGTTTTTGCGTG TCTCCCTCTCTGTTGTGACGTGTTCACCAATAATACGCAATGATAATAAT GCTGCTGCCACCACCGGCAGTTCACCGCTGAGTCGTGCTATAACCACGGT GGTGGTGGTGTGAAAGTTACGCTCCTCCGACAGCAATTCAACAACGCAAC CCGCGTGCGTTGTACTTTCTCGGAAACACGTCGAGCTGGTTGGTGTGTTT TCATATTTCGAGGCATACACACAGCAGGTGCTACCGGGTACTGCCCTCGG AGTATATTTTTTGATTTCAAGAATAATAAGTCGGTGTTCTTCCTTGATGT TATTTTTCCCAGATTTTTTCTCTCTCAAGAATAATGCGAAAAATGCAGGG AATGTGTTCATCCCATTCATTTTGGGCACCATCCAGACCTTTCGGTATGA AGTAGATTCACCAGTTGGGGTCACACAGGTGTTGTACGAATGGGATCATT TGAAAACGACACTCAACGCATGGTGTAAGATGTGTCACACAAGACGACCA CCAAATTGTCTTGTTGAGCCTGATACCCTGAGGGGAGCTGCAACGGTACA CTGGTTGCTGAGTATAGAAACACTGGTGGACGTATTTCACTCTTTGTGTT CGTTGCAATACCTGCTCCAGATCCTCGTCCGGAGAGAGGCGAACACACTG ATGTTTTTGTAAGTTTAAAAAAAAAAACGACACACAAAGAAGATAGGAAC AGAGCATCACACGACGCAACGGGCAGAACGCTTATCATTCCGAAGACATC GCGGCGAAACAAAAGTAACTCAGTCATAAAACACCACATGGGATAATCGA CGGACCCTAACTACGGAGTATATATATTGGTACCTCGGATAACTGTTCGG ATGTTAAGAAAACAAAACACGTATCATACTCCACCAACCACCGCACCGAC CACCCGACATCCCATCCCTCTCGACGGCCGCGGCGGAGAATGCTATTCCA AACCGGCTGAAGGATCCTCGGAAGAGGGCAGAGATTGCCGATATTGATGT GGTAGTCGTTGAAGATGTGACCATGGTAGACGCAGAGGGCGGGATTGCGG ATGATCTCTAACTTGATTTGCTTGCAGATCGGTGCAAAGAGGGTAGCGAC AACTTTGGAACATGTTCTCCGCTGCCTTGAGCTTATTCGTTGTACCATTG ATGTTGGCGTGTACTGTCTTGTACAGTTAGTTTGAGCGTGCATTTTTATT TCTTCTGACAGGATATTTAAATGATACCAGTCAATGTCATCTTTGTCCGG GGTTCTTTCATGAGCACGGGCCTCATATAGCGGTGTCTCCCGACGACAGC AGTGATCAAGTGCGGGTTGGTGAGACACCTCACCGCGCAACCTCAATTTT GGTCCCACTTTCTACAAACAACGAAGGTTAACACCTACCTTCAGACAACA TAGGGACCTTTCTGTATATTAAACTAATATTATTACTATCTTTTCACAAC AACACATTGTGCGTAGTACGATAACAATATGTTATTGGTGGCCAGCTCAC AACGGTAACATGGTAAAATCGGGTTAGTACCAAAATGACGGGTGAGCGTA ACGTGGTAATAGAGTAATTACCCGTAAAACACCGTTCAACGTACTGTAAT AACAAGATGTTATTGGTGGCCGGCCCACAACGGGTAACTTGGTAAAATTG GGTTAGTACCCAAATGACCGGTGAGCGTAACGTATTAGTGTCGTATTTTC CGATGTAACCCTAAAAAATAATACTACTCTACTACACTGTACCATTGCAT CCCATATTTCATAACATGAATAACCTATGTTATGTTGTCCTCGTTGATCT TGGATAACACAGATAACTCATACTCCGGAGTATTATTTCCTGGGGCTTTA TTCCAAGTAAGTTAACATGATTGGTTAGTTGTTACGTTATCCGAGGTGTG AAACGTTTCTCTTCGCCCTCGAAAAAAAAAGTGCCGCTGTGTAGTTCCAT TTGCTGTTCCCTTTTTTGTGTGTGAAAATGAACTCTCTTGCTATATTCTG ATTTGAAACGGTAGCACTTTTTTGCAACGGCTCCCCAACTTTGGGATAGG GTCGCGTTGTTCATCTGTGGAACGCTTTCGTTTTTGGTATATCGGACCGA TGTTCGTAAAGCGTTTTCGTTTTTTGTTGAAACGGCTCGGTCTTGTGAAG CGTTTTCACGTTTTTTTTGTTGAAACCACCTTTCGCTTTGCTTGGTCCGG ATGAGAACTTTGTTGCCGTTTTTTTCGTGAAACCGTTTGTCGTGGAGCAT TTTTCCTAAACAGCAGTAGTAGCTTTAAAATGTTTTTTTCAACTGTTGTG AACCTGCTCTCTTGAACCGCCTTTTTTTTTGTGAAATGGGGTAGGGTAGG GTTTGAATTTGTTTTGTTGCAGGTTAAAGGTCTGGTCCAGAAGATATATC GTACGGAGTATTTGTTATTATCAGGAAAGTGCCCTAGTCTCAATCCAAGA CGATAACGCAGATTGCTCAGCTTAAGCATTCCTATCGGGAATTGCGACGT CGAACACATGAAATCAGCAGAATACACCATGGAGCGGTGACCTGCGTGCT GGCACGCTTAGATCTGCTGCTGGGACTGTGATATCGGAGTTCGAAGTTAT TGTTCAGGCACTCCAAAAACTGTCCGTATTTCAGCCAGAAACCGAACAAC AGCCACTGCTGTACTCGTCGCTATGGTCCCCGCTGTGGGTCTGCTGCAGA CCGGTATTTCAGTAGCCCCTTTCCCCATAGCTACTGCTGTAGACCGGTAT TCCAAGAGATGAGGCCCGTGGTGACGAGAACAGCATGAGCTTGGACAAGA AAATGTTCGGGATCTGGTTGAGATTCGACGATTTCTGGACTGCCTGAAAC AAAACTTCGACCTCCAATATCTCTGCCCCAGCAGCAGATCTGAGCGTGCC AGCACGCAGGTCACCGCTGCATGGTGTATTCTGCTGGTTGCATGTGTTCG ACGTCGCAATTCCCGATAGGAACGCTTATTCTGAGCAACCTGCGTTGTCA TCCTGGATTGAGAATTGGGCAGTTTCTTGTATGATATAAAAAAATATACC TTCTGGACCAGACCCTTAATCAAAATTTTTTGTTTTCTTTTACTGGAAGC GCTTTTTAGTTGGTGTACACGGCATATCGCGTTTCTTTATCGCCAGACAG TTTTGCTCCATTTCTTTGTGAACCGATTCCGTCTTCGTGAAACGGTTTCA CTTTTGTCTTAACGAAACTGCGGAAAAACGTTAATGTTTTTTAACTGTTC GTCTGCGAAACGGATCTTTGCTTTGCTTGTGTTTTTTTCGTCTCTTGTGC AAGGGCTTCGCTTTTTGCTAAAAGCTGTCACTGCCGGTTAATTGTTGGCA TTTGACCGCTTTTTGCGTGTGTAGCTCTTGCGGATAAAGTTGGGACACGA TTTCTCCATTGGTCAAAGTCCCATCATGAATGCCTGCATGGTGTCGCTTC AAATCGTGCGAAAAACTTTCGCTCTCTGATGAAACGGCATATTTACTTGG AAGTATCCTTCGAATACTGCCGGTCGCCCCGGGTGGTTCAGTTGCTAATT TTCGAACATTCTCGCGTGAGTTCGAATCCCAGTGCAGCAACACGACCCGG GCTTTTTTCTCACTTTGCGCGTGAAACTGGAAAGCGATTAATTCGTGAGT TGACAAAATTCGATCTTACCATCGACGAGGGAAAGGGATTGCTGTCCCCT TTCTCGCGATAAAAGCTCAACCAAAACAAGGGAAGCACCGTAGAGGGAAG TGGAGAGAAAAAAAAAAAAACTCCTGTGTTGATTACCCCCTGTGTGACCC CAGTTGGGGCGTCGACCTACCCGAAAGGTGCAGAGTGGCGTCCAATTAAA GGGATGACAATACACACACACACACACACACTGCTGTAACAGTTTTGAGA AACGCTGTTTCTGCCGTGAAGCGGTTTCGATCGCTGCGCGAGTCGTCTCG TTTGTGCGGAGACAGTCCGTCGGAACGGGTTCGCTATGATACACTCCCTG TGAAACAGGTTATTCTCCTCGTCGTTTGCACTGCGGGCGGTGTCCTGATT CTCTCGCTTCGTGTGAAAACTAGGGCTAGGTATCGGTATCGATACGTAAG ATACATCGCGGCGATATATAGCGTAGGTATAGCGTATCGTGGTATCGTGG GCACCGATATGCCCACGTTATTTTTGAGGGGGTTCCGTGAGTCGAAAAGG GGATCCGTGGATCATTACATACCTCCGCGCCGAAGCACGCTGTGCTCGCG GTATGGCTGCGCTTGCCGATATTTTTTCGATAAATTATATCGGCGATATC GAAAAAATTTCGTGATATCGGCTGCGCCGATACCCAGCCCTAGTGAAAAC ACTTCTTCTCGTTTGGTTCCTTTGTGGTCGACCCTCTTGTTTGTTACCGT GTTTTGAGAGAAATAAACAAACATCAAAGAAAGAACACCCATTTGAGACG GGACTCCACCGATGGGGATGTGTTGAGTTCTTTACAGAGAGGGTTTCACA TGACACGTCGGCCGGGAATAAAAACACCTATACAGGTAGATATAATATAT GTGCATCATAAAGTAACTCCCCTGCACAGCTCTGCCAGGTCTTAACAGCA CAAATACTCGAGGAGCGATCCTCTGGTGTGCTGTGGTACTGTTACAATAT CCATTTGTCAATAGGAAATCTCATCGCAGTTTCTTGTTAAAGCATTTCCG TTTCGTTTCGTTTCGTTTCGTTTATTTTGTTTTATTTAGGTAAGCGGGGC GGAGCAGCATCCGGTTCAAGGCCTGGCAAAGCTGAAGGAGATCGCTTAGA AGACGACGACGAAGAATATTTTTCTCTCAGTTGGGATCATGAGCGAAAAG TGACTTGACGAACCAACAAAACTCGATCTCGACAGCAAAAACTTGTAGGT AAAAAAAGCGTCTAGGTTTGTGTGTGGTATGGCCCCGCAAAAAGAGGGAG GCGTGAACGGTGGCCTCTCTAGCGGTGAACTTTGCTGACGCCGCCGCTTG GTTTCGGGAGTTTAATTGGCGGTTGGGTAATCGACGTTC
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Coding sequence (CDS) from alignment at P-littoralis_Contig188:420183..441671-

>mRNA_P-littoralis_Contig188.88.7 ID=mRNA_P-littoralis_Contig188.88.7|Name=mRNA_P-littoralis_Contig188.88.7|organism=Pylaiella littoralis U1_48|type=CDS|length=750bp|location=Sequence derived from alignment at P-littoralis_Contig188:420183..441671- (Pylaiella littoralis U1_48)
ATGGAATCAAACCAACGTCCTAAGCGCGCGCGTACGGCCGCTGCTACGGT
TGCATCCAAAGCGGCGGCGGCCGCGGCGGCGGTGAAGAAGGCAACCGCAT
CTCAAAAGCCCAAAGCATCCAAGGCCACCACCACCACCACCGCCACCACC
GCCGCCGCTGCTGCTGCTGACGCTGCTGCTGCTGCTGTTGCTCCCAAGAC
GACGAAAACCAAAACCACAGCCCCCTCCGCTGCTGCTGCTGCTGGCGCTG
CAAGCTCCGAGCCTGCGGCGGCTAGCGCAAAAAGGAAGGCAGGAGGCCCA
CTGGAGGTCGGCACGGACGCGCCCCCCTTTTGCGTGAAGGATCAAGACGG
GACCGAGGTCACCCTGGGGTCTTTCAAGGGACAGAAAAATGTGGTCGTCT
TCTTCTACCCCAAGGACAACACGCCTGGCTGCACCAAGGAGGCGTGCAAA
TTCCGCGACCTCAAGGACGAGTACGTCGCGCTGGACTGCGCGGTGCTGGG
CGTCAGCGCCGACCACGAGGTCAGCCACGGAGAGTTCATCGCCAAGTACG
GCCTGAACTTCAGCCTTCTTGCCGACACCAGCAGCAGGTCGCTGATCAAG
GCCTACGGGGCTTCGAAGGCGGGGGACAAGATTCAGCGCAGCACGGTGCT
CATCGACAAGGAGGGAAAGGTGGCGGCCGTCTGGAACCCGGTAAGCGGGG
CGGAGCAGCATCCGGTTCAAGGCCTGGCAAAGCTGAAGGAGATCGCTTAG
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