mRNA_P-littoralis_Contig60.30.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig60.30.1
Unique NamemRNA_P-littoralis_Contig60.30.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Match: D7G8I4_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G8I4_ECTSI)

HSP 1 Score: 590 bits (1520), Expect = 9.680e-205
Identity = 306/407 (75.18%), Postives = 340/407 (83.54%), Query Frame = 2
Query:   29 MRRCRSRALALAATMRCCVYFCRGWAPAATLNHASSSLPARATPWSRTVPYGLPWRPNHHHKAATAMAAAAAPRDPWEAADEEGKGSGEK----RMPRLKMDDSPIPEHLIDMLKEAGELDEDGKPVDDFFDPDEDDTFGTQRQRDRIAEEENYYNDVPFGEMLFEGKAGGENTADTGSLMDTSVNNAVIEFGFPVEFFLDMLCRWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDLAFDLDIALPDLIQACASQKINLPKGGDTHITIDEYKLLLDGVVEGGEASRARKLFDRNRMSNRWSGQKESNDGEMNQEDIAREVQKHNAGFGWREGPPILGDGEDELPLEQAHIGGRIFGEETFASAFAAVQARAEGEE--DDDGDEAGFFSN 1231
            MRRCR  ALA AAT  CC+ F +GW P ATLN   +S  ARATPWSR        RP+ H +A  A+AAA APRDPWEAA +E K   EK     MPRLKMDDSPIPE+LIDMLKE+G++DEDGKPV+DFFDPDEDDTFGTQR+RDR+ EEE YYNDVPFG+MLFEGKAGGEN  DTGSLMDTS+NNAV E+GFPVEFFLDMLCRWGVTLPINQD RLGDMI AEQAA LCEA+TGLDA+DVRDNYLDDSLEDL+FDLDI LPDL QACA+QKINLPKGGDTHITIDEYKLLLD VV+GGE SRARKLFD +R++NRW+GQKE+N  E+NQEDIARE+QK+NAGFGWREGPPILGDGE ELPLEQAHIGGRIFGEE FAS +A  Q     EE  D+DGD+  FF +
Sbjct:    1 MRRCRPCALAAAATTCCCLRFSQGWNPVATLNPGLTSAAARATPWSRAARVASA-RPSQHTRARAAIAAAVAPRDPWEAAGQEAKEGDEKGKKKAMPRLKMDDSPIPEYLIDMLKESGDVDEDGKPVNDFFDPDEDDTFGTQRERDRLKEEELYYNDVPFGDMLFEGKAGGENAQDTGSLMDTSINNAVFEYGFPVEFFLDMLCRWGVTLPINQDRRLGDMIDAEQAAALCEALTGLDAADVRDNYLDDSLEDLSFDLDIPLPDLFQACAAQKINLPKGGDTHITIDEYKLLLDTVVDGGETSRARKLFDESRVTNRWTGQKEANSRELNQEDIAREIQKNNAGFGWREGPPILGDGEGELPLEQAHIGGRIFGEEIFASGYADSQHPGGWEEGEDEDGDDGFFFDD 406          
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Match: A0A835ZEP7_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZEP7_9STRA)

HSP 1 Score: 118 bits (295), Expect = 1.220e-26
Identity = 57/137 (41.61%), Postives = 86/137 (62.77%), Query Frame = 2
Query:  485 DVPFGEMLFEGKAGGENTADTGSLMDTSVNNAVIEFGFPVEFFLDMLCRWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDLAFDLDIALPDLIQACASQKINLPKGGDTHITIDEYKLLL 895
            D+P G +L  G        D G L D ++ +   ++ FPVEF  D+LCRWGV+ PI  D +LG +++ EQA  + EA+T +D + V D YLDD++E+LA+ LD+   D+   C  ++ NLP G +TH+T +EY+ LL
Sbjct:    2 DIPSGSLL--GNMAFNPERDEGGLGDVTLADIADDYNFPVEFIYDVLCRWGVSPPIKLDDKLGSLVNGEQAFAVVEALTSVDPATVHDFYLDDTIEELAWALDVPPADIFAVCGRRRFNLPLGAETHLTNEEYRFLL 136          
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Match: B7FWK0_PHATC (Predicted protein (Fragment) n=2 Tax=Phaeodactylum tricornutum TaxID=2850 RepID=B7FWK0_PHATC)

HSP 1 Score: 76.6 bits (187), Expect = 1.050e-11
Identity = 38/113 (33.63%), Postives = 64/113 (56.64%), Query Frame = 2
Query:  542 DTGSLMDTSVNNAVIEFGFPVEFFLDMLCRWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDLAFDLDIALPDLIQACASQKINLPKGGDTHITIDE 880
            + G L D+++N    ++G PV +  D+LC WGV +PI    RLGD+++ EQA  + EA+  LD S + D Y + +L  L  + DI L    +    +  +LP G +T + +++
Sbjct:  157 EQGFLGDSTLNEIATDYGVPVCYLADVLCMWGVPVPIQVHDRLGDLVTGEQAFSILEAINSLDISALHDRYSNHNLIQLCAEYDIELQTAFEMAMKEGWSLPFGVNTCLRVEQ 269          
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Match: F0YKG5_AURAN (Uncharacterized protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0YKG5_AURAN)

HSP 1 Score: 75.1 bits (183), Expect = 2.660e-10
Identity = 37/111 (33.33%), Postives = 64/111 (57.66%), Query Frame = 2
Query:  560 DTSVNNAVIEFGFPVEFFLDMLCRWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDLAFDLDIALPDLIQACASQKINLPKGGDTHITIDEYKLL 892
            D++V +   ++ FP+ +  D +  +G+  PI  D R+ D++ A+QA  L EAVT LDA++V D Y+   L  +A  L+  L ++  AC  +   LP G +T +  ++Y+ L
Sbjct:  167 DSTVADVADDYRFPISYVADAILGFGIPPPIRDDARIADILDADQAFALLEAVTSLDAAEVEDAYVAFDLARVAGLLEAPLAEVFAACVDEGFGLPHGVETQLRREQYEAL 277          
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Match: A0A7R9WWR6_9STRA (Hypothetical protein n=1 Tax=Craspedostauros australis TaxID=1486917 RepID=A0A7R9WWR6_9STRA)

HSP 1 Score: 72.4 bits (176), Expect = 5.970e-10
Identity = 35/113 (30.97%), Postives = 64/113 (56.64%), Query Frame = 2
Query:  542 DTGSLMDTSVNNAVIEFGFPVEFFLDMLCRWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDLAFDLDIALPDLIQACASQKINLPKGGDTHITIDE 880
            + G L D+++ +   ++  P+ +  D+LC WGV +PI+ + +LGD+++ EQA  + EAV  LD   ++D Y + +L  +    +I L D  Q    +  +LP G  TH+  ++
Sbjct:  222 EPGYLGDSTLTDIATDYSVPICYLADVLCMWGVPVPIDPNSQLGDLVTGEQAFAILEAVYSLDVGVLQDRYSNQNLVQVCDLYEIELKDAFQFAMKEGWSLPFGVQTHLRTEQ 334          
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Match: A0A7S4A635_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4A635_9STRA)

HSP 1 Score: 70.1 bits (170), Expect = 1.600e-9
Identity = 36/108 (33.33%), Postives = 59/108 (54.63%), Query Frame = 2
Query:  560 DTSVNNAVIEFGFPVEFFLDMLCRWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDLAFDLDIALPDLIQACASQKINLPKGGDTHITIDEY 883
            D +V    +++ FPV +  D++  +GV  PI+    + D++ A+QA  L EAVT LDAS+V D Y+   L+  A  L+  L ++   C      LP G +T +  D++
Sbjct:  107 DLTVEQVAVDYRFPVAYVADVITGFGVQPPISDAAVIRDLLDADQAFALLEAVTSLDASEVDDAYVSFGLDGCARRLEADLAEVFALCVDNNFALPHGVETRLRRDQF 214          
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig60.30.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 6
Match NameE-valueIdentityDescription
D7G8I4_ECTSI9.680e-20575.18Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A835ZEP7_9STRA1.220e-2641.61Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
B7FWK0_PHATC1.050e-1133.63Predicted protein (Fragment) n=2 Tax=Phaeodactylum... [more]
F0YKG5_AURAN2.660e-1033.33Uncharacterized protein n=1 Tax=Aureococcus anopha... [more]
A0A7R9WWR6_9STRA5.970e-1030.97Hypothetical protein n=1 Tax=Craspedostauros austr... [more]
A0A7S4A635_9STRA1.600e-933.33Hypothetical protein n=1 Tax=Pelagomonas calceolat... [more]
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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig60contigP-littoralis_Contig60:135989..155971 -
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 ortholog2850.Phatr34746
Model size2058
Max annot lvl2836|Bacillariophyta
Hectar predicted targeting categorymitochondrion
Exons6
Evalue7.03e-13
EggNOG OGs2C4TE@1|root,2RWDJ@2759|Eukaryota,2XDNA@2836|Bacillariophyta
Ec32 ortholog descriptionconserved unknown protein
Ec32 orthologEc-14_003130.1
Cds size1221
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig60.30.1prot_P-littoralis_Contig60.30.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig60 136798..155943 -


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

Feature NameUnique NameSpeciesTypePosition
1680791247.8833418-UTR-P-littoralis_Contig60:135988..1367971680791247.8833418-UTR-P-littoralis_Contig60:135988..136797Pylaiella littoralis U1_48UTRP-littoralis_Contig60 135989..136797 -
1680791247.9785886-UTR-P-littoralis_Contig60:155943..1559711680791247.9785886-UTR-P-littoralis_Contig60:155943..155971Pylaiella littoralis U1_48UTRP-littoralis_Contig60 155944..155971 -


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

Feature NameUnique NameSpeciesTypePosition
1680791247.9021745-CDS-P-littoralis_Contig60:136797..1372121680791247.9021745-CDS-P-littoralis_Contig60:136797..137212Pylaiella littoralis U1_48CDSP-littoralis_Contig60 136798..137212 -
1680791247.9222138-CDS-P-littoralis_Contig60:138124..1382191680791247.9222138-CDS-P-littoralis_Contig60:138124..138219Pylaiella littoralis U1_48CDSP-littoralis_Contig60 138125..138219 -
1680791247.93404-CDS-P-littoralis_Contig60:138605..1387141680791247.93404-CDS-P-littoralis_Contig60:138605..138714Pylaiella littoralis U1_48CDSP-littoralis_Contig60 138606..138714 -
1680791247.9486926-CDS-P-littoralis_Contig60:140049..1402101680791247.9486926-CDS-P-littoralis_Contig60:140049..140210Pylaiella littoralis U1_48CDSP-littoralis_Contig60 140050..140210 -
1680791247.9580834-CDS-P-littoralis_Contig60:140740..1409001680791247.9580834-CDS-P-littoralis_Contig60:140740..140900Pylaiella littoralis U1_48CDSP-littoralis_Contig60 140741..140900 -
1680791247.968794-CDS-P-littoralis_Contig60:155662..1559431680791247.968794-CDS-P-littoralis_Contig60:155662..155943Pylaiella littoralis U1_48CDSP-littoralis_Contig60 155663..155943 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig60.30.1

>prot_P-littoralis_Contig60.30.1 ID=prot_P-littoralis_Contig60.30.1|Name=mRNA_P-littoralis_Contig60.30.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=407bp
MRRCRSRALALAATMRCCVYFCRGWAPAATLNHASSSLPARATPWSRTVP
YGLPWRPNHHHKAATAMAAAAAPRDPWEAADEEGKGSGEKRMPRLKMDDS
PIPEHLIDMLKEAGELDEDGKPVDDFFDPDEDDTFGTQRQRDRIAEEENY
YNDVPFGEMLFEGKAGGENTADTGSLMDTSVNNAVIEFGFPVEFFLDMLC
RWGVTLPINQDCRLGDMISAEQAAGLCEAVTGLDASDVRDNYLDDSLEDL
AFDLDIALPDLIQACASQKINLPKGGDTHITIDEYKLLLDGVVEGGEASR
ARKLFDRNRMSNRWSGQKESNDGEMNQEDIAREVQKHNAGFGWREGPPIL
GDGEDELPLEQAHIGGRIFGEETFASAFAAVQARAEGEEDDDGDEAGFFS
NAVADA*
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mRNA from alignment at P-littoralis_Contig60:135989..155971-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig60.30.1 ID=mRNA_P-littoralis_Contig60.30.1|Name=mRNA_P-littoralis_Contig60.30.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=19983bp|location=Sequence derived from alignment at P-littoralis_Contig60:135989..155971- (Pylaiella littoralis U1_48)
CTCTCACACACCTCACGAGAGGAAAACCATGCGCCGGTGTAGATCTCGCG CCCTGGCACTAGCGGCAACAATGCGCTGCTGCGTGTACTTTTGCAGAGGG TGGGCCCCTGCTGCAACTCTCAACCATGCTTCAAGCTCTTTGCCAGCGAG AGCTACACCATGGTCTCGCACCGTTCCGTATGGTTTACCTTGGCGCCCCA ATCACCACCACAAAGCAGCAACAGCAATGGCAGCGGCTGCAGCTCCGCGC GATCCGTGGGAAGCTGCTGACGAGGAAGGGAAAGGAAGTGGCGAGAAGAG GATGCCACGGTAAGGGTTCGCGAGGACATCAAAGAACGGCACATAATTCG CCTATGTTGTGACTATACCCTGCCGCACACAGTACTTGCACTGTAACGTT AGCAGTATTCTTTGTCGCCGTGTATTCACTAACACTCGGCAGTTGATACT GCGGTGCTGTACACACACCCCGGTGGACTAGTGGTCCCCTCGTTGGCCAC CCGATGCGGAGGAACGGGGGTTCGATTCCCGGTGAATGTGTTCCTTTGCT ACTTTGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGAC GAGGGTAGGGACCGCGGATCCCTGCTCGCGAGAAAAAATCTCACGCATGT ACCGCAGAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTCCTCCTG TGTGACCCCGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGA CTAGTGTGCCAGAGAATATGGGAAGACAACACACACAGAGTACCTGTTCT TGCGCAGTACCTGGTATGATCCATTGCTGCTGTATGTTGTACTTCAGTAG GATTTCAAGTCCGTCAAAACCTATGCACCCTTACAACAGCGGCTGCGGCA GCAGCGCAGCAGTACATGGTACAGGGGAGTCCATCAGTTTCGTGATCTTC ACCTCTGCCCTCGACTCTGTTGTTTTTGGTGCCAACCTATTGATGATGCG GTATTTTTGTATTTTTAAGATATCATTTCAGAAGGTCGCTCACACAGAGC ACCCGAATCAACTCGAGCATCATCAGAAGTATGATCGGAACAGCAGTAGA ATATCCTGCGACAGAGAACGGAACGGCTTCTGTGAAGACATGCCCACACT CGCTCACTCGCACACAAATACGCCGACACACACAAAAACGCATGGCGGAG TGCAACATCGATTGAAATTGGTTGTGGAACATCAGGGTCGACTCGTAATA CTCGTACAATGTGAGGAATATTCCAGCAACAAGTGTGTTGGTCGCTCGCT GGGGCTCGTAGAAGGTCATCGGCATTTCGAGGAGAAGTTGATTGACACTT GAAAAGTACTTCGTATATCACTGCAGGGCGTCGGTGGCTTATTTGGGCTC GTTTGAGCTTATCATAGGGAATTCATTAGGATTGATTTATAACGGCAGAC AGCAGTGTCTCGGCGGCTCGTTAAGGCCCGAAGGAGCTTATCGGGGGTCC AGGCGATAGTGTTATTTATCACCGTGTGGGTTGGTGGCTCGCGTGGGCTT GTGAAAGCTTAAGCTTGTCGGGGATCAAGGCGAGACGGTTTGCGTGGAAG GGTGCAAAGAGGACGCACGGAGGTGTTTATTGCTTCGTACTCCGTATGTC TCTGAGGGTTTCCGAGGACTTCTCGGAAAAGGTTGTCGTTGTCGAGAGAC ACGTCGAAAGGGTATACCACCGCTGTCCAGATGGGCTGGAAGCAGAAGTG ATCGGATGCAGAAGCAGCAGCAGCACCACCAGGAACAGCAAAGGGTGATT ATCTGCAGCCGGGAGCACTGCTGTGTGCAGTACTGTAGTTTGTCGTTGAA ATTAGACTAGCCGCAGGAAGATACCTATTCTCACAGCAGTTGGCGGGCAT ATGACAAACGAACACCACAGGCAGCAGCAGAGCGGCTAAGAAAGACAGAG CGGCTTAGCAAGACACCCTAGCGCAGCAAAATAATGGGCACAGTTTTGGC TGCGCCTGACCCCCCTTTTAGAGGGTAAAATATGGCATGATTATTCGGGG GGGGTTTTGGCTGGGGACCAGGAAATACTGGTATTCCGCCGGTCCGGCTG ACGACGCCAAAAATCGGTTTGATTTCAACAATGCTTTGTACACAAAACGG CATCGAGTAATACTCGATTCAGGCGAGCAACTGGCTCTCCCCACTTCATA CATACCTGTGTACATGGGAGATCTGATGTCTGTCCGCAAAGTTTTTCAAT TGCTTGTATCTGGGGCCCATACCACTCTAAAACAGTGTTATTTTGACCTT TTTAGCGGTGAAGCCTCTCTGCCAGCTCTGGCTCAGTGAGACATGCAAAT CGATCGCGAACAGATCTTAGCTCTAGTTTTCTCCGAGCCAACGCAACAAA CCGTCAACGAAACCTCCACGGCAACGTCGAGCAGCACCTCTTGCAGAATC GTCTATTATGGCGAACGCTCGCACAAAGAAATCGGGAGCTTCGGTAAAAA AAAAGAGACAAGCGCGATTCGCGAAGCAAGGGGCAAAAGTTTTTGCTGAA GCCGGCTCCTCCATGACCGAAAGGAGTCAGCAAGCGATACGTGACGCCAA CATCAGGCGCGCTGACTCTGAAGCGTTGGAGCTTAGCAACCGTAACGCGC ACTCTCTGTTGGCAGTCGCCCGTGGCGAAGGCGAAAGGAGACGGCAGCGC GTCAAGCAGTTGAAAAATATTTAGAGGAGAAAATCAAGTTGGAGGATGCA AAAAAAATGCTGGAGGATGAAAAAAGAGAAACTAAAAAGCAACAGCAGCT GAGAGAGGAGGCCATAACGGCAGCAGCAGCGGATCGCATGTGGTGGCAAC GCGTGGCCAACGCTGCTAAGGAAAAGATGGCTGCTGAGCGTGAGGAGGTG CATCGTTTGACGGAGGTGAGGCGCTTGTCTCTGGCGAACGGTAGCATGGA CGAAGAAATCAAGGCAATGGCGGAGAAGATTGAGTGTAATTTGCCTGGAA CCAATTCTGCCTCTGCCGCTGCTGCTGCTGCTGCTGTTGCTACTGCTGCT GCCGAGTCTCAACAAGCCCTCACTCTCAAGCAGCAACTTCTCGAAGCGAG GATGAAGGCCAGCCAAAGGAAAAGGGAGCTGGAGTCCATGGAGCTGCTGG TCAAAGCTAACGCAACCTTGAGGAAACAGGTGAACTGAGAACTGTATCGC CTCGCTTACCTCTCGTGTGAAGGAAGGGAACACTACGCTTGAGAGAGAAC GGCGCACTGATGTGGTGGACGATACGACGCATACTTTCAACCTGATCCGG AACAATCTTCGCCCGATCGAGGAGGAGACCAAGATCGAGGAGGAGAGCAA GGAAGGGGAGGAGAGCAAAGAGGGAGATACCGCTGATGCTGTTGGTGAAA GCAAGAACAACAGCCATGCGTCAGGCCAAAGCACCACCAGTAAAGCCCGC GCAACTCCTGCCCTACAGCATGCTCAAAAGCCTTCTCCGACCCAGCCCAC TTTCCTTCGTAAAAAGAACTACACCCCAGGCGCGCCATGCTGAGGGGAAG GTGCTGGTGCCTGTCCGCCCATTTGATCCACCGATGCTCCATCTCCCAAA AAAAGCCGCCACCTTCTTCGAAATTTTGCAAAAATGCCTCGAACTGGTCG AGCAGCACGCGTGAGGAGAATAGAGAACGCAGGGGTAGGCGAAACACAGG ACACTCGTGAGGGTTGCGAACGGCGGTAGTGAAAGTCCAGTAACAACGCA TGCGAGCCGGCGCTCGCGAGCAGGAGACGACAGAGATAGCAGAGAAAGAG AGCAGGCAAACAGCAGCAGAAGATGTTCCACAAAAAGTTTTGTTCAGCCT TCTCTTTCTCGATTTGAAAAAAAAACATTTTTCAGTCATTTTTTCAGTCA AATTCAGATTGCTGTAAAAAACATTTTTTCATTTTTTTGTTCAGATAAAA AACCGCTGCTGCTGGGAAATCATTTTTTCACCTCTTCGTCGTACAGCTTC TGCATCGCGAAATAGAGCAGCTCAGGAAAATCCTTCCATGGGTGCTCGCG AAGTTCGGTCAGGCGGGAGAGTATCAAGAGGGAGAAGTCAGGTACTTCGG CCAATCGCATCCCAGGTGGCAGCCGCTTCGGTACTCCATCAGGGCCCTTC AAGAAGTATCCACCCTCGCCACGCAGCCAGTTGTATGCCCAACTCAGGAT CGCCTTGTGCAGCGCACCACAAAACTTGGCGTGTAATCGGATGAGAGGAT TTTGGAGCATGCATGTCGCCTTGAACCAGTATGACATAAACGGGGTGCGA AGTAAAACCTTGGCAGCCCACTCCACAAACAGCCACTGGACCTGCTCCCA GCGTTCCTCGAGAATGGCTGCGCCCTCCCAAATCACCATCCACCGCGTTT CTGCGGGCCTGGTGAATTTTGTTTTCCACAAGACCCCTTTTCTTCCAAAC ACCAGGTTTTGAAATCTTTTCCATGAAATACAAGATGAATCCGACCTGGA GGTGTTGTACCAAAGTGATCCAAGTAAAGCGACGAGGTGAGGCTCTGGCC ACTCGTGCCATGACGCCTGAGTGAGGGGGCCCATGAAGAACAGAGACTGC ATCCCCGCATTCACCGCGAGGTGCAGGATGTGCAAGAGACATTCGATACG GATAGCAAAGACGAAGCCATCGAAAGCAGAAGCAGCAGCAGCATCATCAG CAGGCTCGCTCTCTGCTTGTTGAGATTAATTATTGCTCTGGGGCTGCTGT CCGCGTCCCTGCGCACCATCGGCCATGGCGACCCACTGGTGGTGTGGTTC TGGCTACTGCTGCTTGTTGAATCACAGGCGGCTGCTTTGCACAGCAGTGC ACACTGCTAGTGCTGCTGTTACTGCTGCTTCATCAGCATCGCGCCTCTAG AGCGCTTGAGAGAAAATCATGAAGCGGCAGCAGCACCGGCACACGTACTC GACGTTCTTTGGCTTGTTCTTTGGGCTCTTCGACTCCAACGGATGAAAAC GTCACTCAAAATGTTATTATATGATTGGCTAAAATAAATCTATTCAGCTT TTTCGGAACGAACTCGGGACATATTTTACCCTCTAAAAGGGGGGTCAGGC GCAGCCCTAACAGTAGAGAAGGCTAATTGGAAGCAGAGGTACAGCCGCTG GTGATCAGGAAATGATCCCGCACTAGCAGGAGAGGTCGTCGGATGCAGAT GAGGCAGCACCACCACCAGCAGGAACAGCAAAGGGTGGTAATCTACAGCC TAGTGATGCTGGAGCTCGCTGATAAAGTAGCAGCAGGAAGATGACGGGAG TGCTGTGTGTACTCTGCCTCAAAAGTGCTGCGTGCTGTAGTTTGCCGTTT GCCGTTGAAATCAGAGCAGTAGCAGTAGCAGCAAGCTACTCACAGCCGTA GAAGCAGGAAGAGGACAAGGTGAACACAAGAGACAAAAGCAGAGTGGTCA AGAAAGACAGAGCGACACAGAAGGACATCCCGACGCAGCACAGTGGTTGG CACAGCCGTAGGCGCAGTGGAACTAATGGTATAGCCGCTGATGATTTGGG CATCCAGCACAGCCCGCGACGAATTTGAAGATCAGAGGGGTTTCCATATG ACTGCCTGTAAATTGCCGGGATTTTGCTGTTCGTGTCCCACGTAACTTTT TTGGTGTCACGCATTACTAGAGATTTATGTTCCCGATACGGGCCAGACCT CCCCCTACCCGCTGAAGTCGGTGTCTGGGAATCGGGGATGACCATGATTC ACGAAGCCCCTATTTTCTTGTAAATTGGAAAGTGATACAAGACGCGCCCA ACATCTACCCACACGCACGCACCAACCCATTCACGAGCTACCCACTCCCA TCCAGCCAATCCACAACCCAACGAAGTGATTATTACCCAACTCAACCCCA CCGAATCCAACCACACCTTACGGCACCCACCCTCATCCATATATAGAGCG GGGCGCAACCCAACCCAGCAAGCAACCCAATTCAACTCAGCCCATTCCAA CCTAACCTCCTGACCGGAACCCAACGTGTTCAACCAACGCAACCGAACGC AACGCAGCACATCCGAAAACCCAATCCAAGTTTACGGAACCCCCCTCCCC CACCCCTTCCAGAGGGGGAGGCGCAACCCAACTCAACCAACCCGACGGGG GCCCGTCGTAGCCTCCTTTTATCACAAATGTATTTGCGGTATTTCTAAAG ATGAACGCACATGCATGCTGCACTTACAAAAATTAAACACACATGGTGCA GGACGGGGGGGGGGGGGGAGGGCAGGCAGGGTGAATGGTGGCGCGAAGAG GAGCTGCTTCGCGACCTGCTCACGCATGCTGCGTCCTGGCGCAGCGGGAA ACATCAATATCGGCGGCAGTGACTCTCCCAGGCGAGCGGCGCGCACACCT CCTCGGCGGTGGTGTCGGTGTTGGGCCGTGCTTCAGCCAGGCGGACCGCC TGCACACTGACCTGTGAAGCCGTTTGCTGTTGCTTGCAGTTACATACCCA CGTGGCGTGTGCTTCTTGGGTGTCTTGGCTTCGGAGGGCGCCCCGGAAAA GGGGGAGGTACCTCGGCCATCGTCAGTGTTGCTGGCCCGCTCGGCCCGCC GCGTCTTCCTCGCTGCATTCTTTGTTGAAGACGTCGAAAGGAGCGCGTGT GCTTCTTGGGTATCTTGGCTTCGGAGGGCGCCCCGGAAAAGGGGGAGGTA CCTCGGCCATCGTCAGTGTTGCTGGCCCGCTCGGCCCGCCGCGTCTTCCT CGCTGCATTCTTTGTTGAAGACGTCGAAAGGAGCGCGTATGCGCTCGTGT TTATGTGCTCGTCAGACGCCGACATAGAGCGTGCCCGCCGTAACGAGAGC TGTGTTTTGCGGCAAATGCGGAAACCCCCCGTCTCGACCACGCGGTAGAG GCGGGGCCCACCTCGCGCTCGTGCGTGGTCGTGAGCGGCTGTGAACGGTC CGCCGGTAGTGCCACGGTGCTGTGATGGTGCCGGTTCTTTGTTGGATCTG ATCTGACCGTTTTGGCCCGGATGGTTCACCGCCTGACGCGACGGGCGGCG GGGCATCGCAGCAGGCGTCTGGTTGGTGGCCAAGACACCGCTGGTGCCCT CGTTTGTGTCCCGGCACGAAGGCCGCGACGCGGGAGTCCAGGATGATGCT GCGGTCGACCGGAGGGGACGCGATCTGTAAGCGCACTCACAAAGAGGAGC TGCTTCGCGACCTGCTTGCGCATGCTGCTTCCTGGCGCAGCGGGAGACAG CAGTATCGGCGGCAGTGACTCTCCCAGGCGAGCGGTGCGCACCTCCTCGG CGATGGCGTCGGTGTTGGACCAAGCTGCAGTCAGGAGCACCGCTTGCGCA CTGGCCTGTGAAGCCGTTTTGCTGCGGTTGGCGCTGCACGTCCGAGGTTC TGTGCGGCCAGCGAGCGCTCCGCCACTTCCTCGGTGGTTTGTGCTTGCCG TGCTGCCTGGTGCCGGGAAAGGAGAGCCGCTTGCGCCGCCTCCTGTGCGC GAGCTTCTTTTCCTCCGCTAACCGCTTGATGCACCGCAGCGATCGCTGCC GGGTTCAGGATGGTGGTCTGGTGCTCATCCGAGATGACGGCTCGCAGATC CGGCTCGTCTGCTGACGCCTTTTGTGATGCGGAGAGCGCGCCGTGCGGGT CCAGGTCCACACGCCGCCTTGCCTGTCGAAGAATTCGTGCTGTCGGCCAT GGTTGTCGGTAAAGGGCGTCCTGCGGATGGTGTGCAGCGGGGGGGTGGGG GGGGGGGGCAGGAGGTGCAGAATTAGGCATCGGGGGGGCGGTGAATGGAC ATTGCCAGGTTGTTGTGTATTCGGCAATGTTCGAGTTCTCGTGCGATGAG CTCCGCGTTTTCTCACGCTGAGCATCTTGTGCGTGAGTAGCAAACGGAAT GCGTGTTGTTGAGGGACGAAATGACGTGTGTTGTTGTCACTCGAAGCCAC CGCGGGCAGCGAGGGTGCTGCATACCCCCTGCAAGCTTGCAGCCGTCGAT GCGCGGTACCAGTCCGCGAGCTTGCAACCCACAGGTACTGCGCTCGACGG CCTCGTGATCCACGGGTCCCCCTCATGCACGCGGTGAATTTGACCCGAAG TTTCGGGTCGAGATCGAGGGGCGAGACAGAAAGCGAGGAGGAGGAGGTGT AAGGGTTTACGAGAAATCCCTGACTGTCGACCAAGTGTTGCCCCACGATT TTGCCCCCGGACGGCTTGATGTGGCTGCATCCTCTTCGTCAAGGGAACAG CCACTCTCGAAGGCCCTGACACACCACCCGTAGATCCCGACATGCACGTC ACCAAGAACGCCGAAGCCTCCCGTGAGGTGGCAGTTGGCTGTGACGGCCA AGAGGCTGCGCTCCCACCGAGGTCCCGAAGTGCTCATCGCAACAAGCGTC GAAGCCACTTTTTCAGATGGCAACGTGGCTGCAGCAGAAGGTTCTGAAGT TGAGCGAACATCGTCGAAGCCTCGTCCGAGGTGAAAGCTGTTTTTGATGG CATCAGTACCCGTCACGTGCAAAATTGGCACCCGAAACATTCCAGGTAGA GACCCGGATTGATTTTGCACTATTTTCTACTTCGAAGTACTTAGTATTTT TGAAGCACTTTTTGTTTTTTTTCACGTGGTCCACAACGCGCGGCTAGGGT GTCATCCGCGTGTGGGTTGGGGTAAGGTTTAGGGTGGGGTTGCGTTCGGC CGACGCCCCACCCATTCCTACAAGAAACACGTCAACACCAACAGCGTCAA AATCTGAAGACAATCCTTATTTATTTCAGTATTTATTAGTATCCTAGATG CCAAAGCGGCAGATAGCCCTCGATGGCATCGAGGCTGCACCCAAAGTGTC GATCCACCTTGATGACCCCGATGGTAGAGTCGAGCATCGTGGAAGGGTTG CGTGGCATGTATGCGAGAAAAGGTGCCTTGGTTTCGTGTATAACTTCGTG TCTGCCTCGGCGATTCGATATTCTGTAGCAAGGTCAGAGAGGTGCCTCAC ATTTCCGCCGTCAAGCAGTAGCCGAATCTGCACGCGGTAGTTCAGCAGTG AGAGGCTAACGGGTCTGGTCGTCTGCTACGACAGAAGCCATGGTGTCAGT GGCGCTTACGGCAGTGCTCCTATGTACAGCAGTGGCTACCACTTCTTTGG GAACAGCCGCGTTGAGCGCCCCGATTTCAGGAGGCGTGGCGTAGTAGACT CGATTATCGGTTGATATGGCCTCTGCCACTATGATATCACTGATTTTATC TTAAGTGTACCACAGCAGGAACGGGAGCCGAGTGTGATCATTTTAGCATT GCTACTACTATGTTGCTCTTGCTGGTGCTGTGGTGCAACGGGCTCGACGA TGCCGAGTCGGCTGACATGCCTTAATGTCTTTTGTGAATCGGAGACAACA AGCGAAGCAGCAGCTCGCCCTTGCTGAAATCAGCGCTTCAAGAGTTACAA TTGCAGGGGCTATGCTTGACACCAGTGCAAATCAGAGTAGAAACGTGTCC AGAGGAGCCTCCAACGTGGTAGAACCAAAACGAGACACACTCAGACGAGT AGCAGACGGCTCACCCGTCCATGTGTTAGGCGTGCCGTGATGCCAGTGTG ATAGGATTGTGCAGCGTGGAGCGGGTCCGACCGCTGCGTGTGCGCAAGCT GAGCTGCTGTGTTGTCTGTCCTCTCTCAGGGAGTCCTCTACCCCCGTCCC CGTGCTCTTCCGGGATGAAGGAAGAGTGCTCCACAAGGATATTCTCATAA CACACAAATACACACAAATGTACAAGATCCCCTTTCAGAGTGAGCTAATG AATGAGGGTATAAAGAGTGCGATAGGGGGTGATTCAAGACTAAGGGCGTG TATTAAATAAAAAAATGCGACTGGAACTTGGAACTTGGAACTGCGAATGA ATTCCTTTCTCATTGGCCAACAATAATTACAAAATTTCCTGGAAAATCCT GCCGCCGTCGGAGTTCCCGTTTTCCAGTTCCAAGCCCTGAAATAATTTTT ATCATCTAGTTCCTTAAAATTGCCCAGTAGCCCACATGGAACGGGCTGGT TGAGGGCAATAATTCTCGCAGAAATTTATACAGCAGCGACCATGAAGCAC GCATAGATGGCTTGGGTTGACAACACTCGAAGCTACACAAAGCCACACAG CAGAGCACAACATAGAGAGCAGTCCTAACCGCGACCACACCGCTGAGAGA TTCGAGTGTTTGGAGATGAGTGAAGTTAACGGGAGCAGTGATGCGTCAGA TGTGACGCAGCAGCAGCAAGTTCAGCACGTACGTCACACATCATGACTTC ACAGTCCCGGGCTCTTCGCCTTAGTTCATGTTCCCAAGTTCCAAGTTCCA GCATAATAGGTTTTTTCATCCAAGACAGAACGACTGGAACCTGGAACGTG GAATCCTGATGAATTCCCAGTTCGCAGTTCCAAGTTCCAATCGCAGTTTT TTATCTAATACACGCCCTAAGCCGAAGACACATTTATTTTGCGGAAGCGC CTGCTGTGGTGTGTCGGAGACAAATAAAAAACGGGAGACTACTTACTGCC TGTAACGGTTCACGGTTCAACCCCCCCCACCTCGTTAAGCTGGGTTTTTT TTAGACCCGCGCCCCACCCCTCCTAGAAAATCCACACCACCGACGACCCC CAATTTTATTTTATTTTTTGACCCAGCTTTGCAGCACAACATCAACCCCA ACGATAGGGATAAATCCGCGCGGAGGGAAGTGGTGCCTCTCAAAATTACG CTCGTGATCGACAGTGGCATGTACATCATCAGGGGATGCCTCCTGCAGAG AAGTGGCAATGTCTGTGTACGGCGGAGCGCGGAGAGCCGGATCGATTATG GGATACACACGCTCGTCTGTCTCGCCGCTAAACACACGAACTTTTCATTT CTCCAGGGCACCGCTTCTTAACGGAAGGCCGAAAAAACCGAAATAGCGAA AACGAAAACGAAAACGGAATTGGGCTCTGATTGGTCGGGAATAAAACAAA AGAGGCGTGTTTTCGTTTCAACATCCTCCGGGGAGGCGTTCCTTCGTTTT CGATTTCGCAAAAATAAAGTATTTCGGACCTTTTTTTTTGCGAAAACGAA AACGAAATGCATGGAGTTTGGTAACCTCGGAGGCTCGCCCATGAGCCTCC CAGGCAGCGAACTCCTTCACAGAGACTGCGACTGCGATACACGGCGGTGC AACAGGCACCAAGCCGAACAGAGCGAGGCCCAAACCACACACTACAGTAC AGCAGCGCAGCAGACAGCGCCAAGCCTTCATACCCGCCAGTCAGTGCAAC AGACAGCACACGGCCGTCTACGATACCCACACGCTGACACGATGCATTCC ACCGCGTTATTTGAAATTGGGCACCGCGCGCTCTGGGTTTACATCATTTT TGGCGTTATCTCCTCTATTCCGCTGCTCCAGCTCCTCGCACAGAAACGCG ATACCGAAATGGAGTTTTTTATTTTTTTTTCCTGAAGAACGAAGTTATTT CATTTTTGTTTCCGCTATTTCGTTTTTTTTGGCCTTCGTTAACCTCAGAG CGGATTTTGGGGACGTTTTGTCCCCAAAAATCACAAAAAAAAAAAAAGTA AGTTTTGCATTCCCTGCCGGGACTGTACATGAGCCGGACAATGACAGAGA GCCACGATTGCCCCGCTGTCTGCTGGACCTGCCTGCCCTTGCAGCGTGCG GTAGACAGCAGACAACAGGACAAACACCAAAAATACACTACACTTCCTGT CTCCGAAGCAACTTTTCTTTGGCCCACGACCTTCAGACGGTAGATCATCA TAATACTTGTTGCACGCTTGATTTGGTGATTAACAGTCTGGCTGGCAGAG GCTGCGGTGAGTCTTGGTGGCTTCAATCAATGCTGCTGGGCAACTGCAAC AGCAGCGCAGCATTCAACGCGCACGCGGCTTGGGCTACTCTCGAAAGCAA CCTGCCCCTTTTAGATGGCTGCGTGATCCACGGCGTTAGATGCTGCCGTG TCGGCCCTGCCGTGTCGGGCTCTCCGGGGAAAGCTGGCTGTGCCATAGGA CGGTGATGGATCGGTGTATGTGTGTGTTGTGTGCACCCAAAAGACCAACC GTCACTTCACACTCGAACGCTTCTTTCTGTGCCCCGTTTACGGCTAGAGT TTTTTTTGATTGATTAATCCGTACCAAATGTCTCCAAAATTTTGGAGACA TTTGATACGAATTAAGGTACTGTATTATGCTTGGTCAGAGGGACTCTGTC CAGCTTCGGCCAACCGGGGGCCCGCTTTTGAAATGTTTTTTTTTTTCGGG AAACGTTTTTTTTTTTCTATGCGTGATTTTTTTTTGCGTTCTCATGCCAC GAGCTCACAACCGCAAGCCTCAACCAGCCAATCCGACACTCTCAGACATG TGCAGATAGATATGGAGCTCCGGCGCGGAAGCACTGAAAGCAACATTTGT CTATCTATCTGGTTGTCTCACTATCGCAAAGTAAAAACAGGTCTCACACA GCAGTCACCCGTCCGTATGTAGCGCGCGTTTGACTTTTCTTTTTCGCTCT GACTGGTTGTCACAGCAGTGTAGCATCAGGTACGCGATGCTGGACATCGA GCGCGGCAAAAGTGAGATGCGAGGCGATCTGGGCTTGCTTGCTATGTACA CACGTGTGCATGGCTATACTACTGCTGTGCTTTATGTACACGTACGTTGC GTGCGTCCATATATGTAGTCTAGCCGCCTGCGTTGCTTGGCATTGGGAGA CTACTGTCTGTGTCTGCAAAAAGTGGGGTACTGGGCGAAACCAAGCTTGC TACACATGGTACACGCGCGAGACCTGTGCTGCCTCCACACATACATTACA TGCGAGACCTGTTCGTGATTGCTTAGTACAGAAGTAGTAGTCTGGCTGAG AGCTGAAAGCTGTTTGCTCCTTGCTGACGTGCGCTTGGGCTGTTTTCTTT CAAAAGTTCAGCAGCTGGCTGAAAGCTGAAAGCTGTTTGCTCGTCTTCTT CTTGCTGACGTGCGCTTGGGCTGTTTACTTTCCGAGCAGCTGCTTGATGC ACAGAACAGCCCGGCAGCTTCCGCCAGCTGACGTTTTGCAGTTGGGCTGT TCGCTGAACAGTTCGCAAAATACAGTCAGCTGTCAATCTCGGCCGTTCTC AGCCCAAGGAAAGCAAAGAAAATGCTAAGAAGGATTTACAAAAGCTTATA CTTCGAGGTATGTTCTTACAACAGCAACATCAATGTCTCAATGTTCTATC GTTGGCGATGCCTCTGCCTCAAGGCATGCATCATAGTATCGCAATCACAG CGCAGCTGGAACTTCTTAATGACTAAAACAGCACTTTCTTATTAGAGGTC TCCAAGCATGAGTTTGAGCTGCTGAACGGTCGCTGCTGAGCACGTAAAAT GTGAGTGTCTTGTGAGTGAAATCGCGGCTCAACCCAGACTGCCACACCAC ACGTCAACTACGGTCTACTTGAGCTTGCGACGAGCAACCGCGGCCCGCGA AGTTGAGCGCAGCTCCTCATGTGATGCAGTTTTGTGAGGCGCCGGGTGCA GTGGACAGCGGCAGCCACGGGCATCCAGAGACGGTTCTGGAGGTGTTCTC GTGAAGTCGAAGCTGCCTGCCAGGAGACCAAAACAAGCGGCAAAATCCGG AAGACGTGGTCAGGTTTGCTGAGCACCGTCATTTTGTAGGTGCTTTATTC ACTTGGAATACGCGGCGATGGCTGTGGCTAGCAAAGGGTGGGTCAACATT TCGGCCGAAGCGGCTTGGTGTCTCCTGTGCCCCGAGAGGCTGTCGATTCT TCGGCCCAGTCGTGGCAAAATATGGCCACCAATCGTCGGGTTCTCTCGTT TCTCGAGGTGTTTTTTTCTGCCAATTTGTTTTCGAAGAAGCGTCGTTTCT CCTGGCCAAGAAAACCACCGACTCTGCGATGGTCGATACTTGTACCAGGT ATATTTCAAGCTTGGGCGAAACAACGCTTCGTCAATTCAACGACCGTGGT AAAACCGTGTCCTTCTCAAAGACTCCGGTCGAATGCATACAGTAGCAGCT GAACGCAACAATCGACCCAAGATGTCCAATAAACCCATAAAGCCTCGGTC CTTGCTCAAAAGGGTAACGTTGCTCTCTCACGTGTATCCGTTTCTCATAC CCTGTCATGGATCAAGACAACCCTGCCACGAACCCAGCCAACCCGAAACC ACCAATACGTTTATGGAACCTTGGTCCTGCCTCGAAAGGGTATCGTTTCT CTCTCTATTGTGTATTCGTTTCTCACGCACGACGTACCGTTGATCAAGAG TGACGACCCTGCTCAAAAACCACGCAAGCCAAAACGACCGAAACACCTAA AGCACGAAACCTTGGTCCCGCCTCAAAGCAGCAATGCTTCTCTCTTGTGT GTATTCATTTCTCATACATACTGTACTATCAAGAGCGACGACCTTGCCTG CTGCAGCCCCACCCAACCCAAAACGAGCTGAATACACCTATGCAACCTCG GTACTTCCTTCCTCAAAAGGGCTATGTTTCCCTCTCATGCGTACAGGTGC TCGTTTCTCATACCGTAACATCGATCAAGACTGGCGACCCTTCTTGCAAA CCGCATCATTCCGAAAACGACGAATACACCTGTTGTCATATGAAACCCTT TTTTCCTTCCTCGAAAGTGCCATGTCTCTCTCTCATGTGTACACGTATCC GTTTGTCATACCGTAACACAGATCAAGACTGACGAGAGTCTTTCCACGAT AGCCCCCCCACAAACCGGCGATTTTCTTTAACGGACGTTTCATGGCTTTT TGAGACGAGGAATGGGGCTATGAAAAAAACAAAAATTCATCAGATATTTG TATGCAGAGGGCTGTCAAAAAATGAAGTCGCCAGCGTAAGAGGCGCTGTA CTTCAGGTTGTGGGGCCAGGAGCTGGTTTCGAAACCGGCGATTTTTATTA ATGAAACTGTTGGGGGGCTGTCGTAGAAAGACACACGACCCGTTACAAAT CAACCGCTGCCGCCCCCTTCGTCGCCGAACACGATATCATAACACGAAAA AAACAAACAACACACCCACAGCTTGAAGATGGACGATTCCCCGATCCCGG AGCACCTCATCGACATGCTGAAAGAGGCGGGGGAGCTCGACGAAGACGGC AAGCCCGTCGACGACTTCTTTGACCCGGATGAGGACGACACGTTCGGCAC ACAGAGACAACGAGATCGCATCGCCGAAGAGGTACGCGAAGTAATTTGGA TACAAGTATCATGCATGAAACGCCTCATTTTATTTTCGGTCTTCCGGCGC TCCTCCATTCGTCGGGGTGTTTTAATTCCTCGGCAGGAAAAAGTAGGTGT TATTCCCTCTGTCACGGAAACTTAAGGGTCCCCGATTGTAGTTCATTTAT TCTGAGTTTCCATGGAGCAGTGTGGGGAAAATAACATGCACTCGAACAGC AGCGAACGTCGTAGTCAGGATAGTCTGTCGCCCTCTTACCTGCCTCCAAG CACGAAAAAATATGCGGTATCCTACTATGTAAAGTTCCTAGTGAATTGGA AAGCATTCGCGAGCATGGATAGCATGCTGTTTGTTACGCGAAGCGCGCCG GGAGCAAGCCCACGGTGTGCATCGTTGCTGAAGAAAGCTGGATTGAAAAA CATTGATAGCGCAACAGCGATATCATCCTCTTCTGTGACTGACTTCACTG CTGCTGTACTGCTGCAGTCAAATCGATTTCGTTTTTTTTTTTTTTTGTTA CTACGCGACAGGAAAACTACTACAACGACGTGCCGTTCGGAGAAATGCTT TTCGAGGGTAAGGCCGGCGGCGAGAACACGGCCGACACGGGAAGCCTGAT GGACACCTCGGTCAACAACGCCGTCATTGAGTTCGGTTTCCCCGTGGAGT TCTTTCTCGACATGCTCTGCAGGTGTGTATGTGTGTCTGTCTGTTTGTCT GTCTGTCTGTCTGCCTGTGCTGTGTGTGTGTCTGTGTGTCTGTGTGTTTC TGTGTGTGTTTCTGTGTGTGTCCATGTCTGTGTGTGTCTGTGTTGCTGTG TGTCCGTGTCTGTGCGTGCTTGTGTCTGTGTATCAAAAATGTTGGATCTC GCGATACTCCACGGAGAGTGTATGTCGTTTTTTTTGTCTTAATTATTGAC ACGATGGAAAGAATCCGCCGGCCGTGCGTGGTGAGACGGTAGTTAAGAGA TGTGCGCCAACATGTGTTGTCTGTCTGTGTGTGCGTGCGTGTGCGTGTGC GTGTGCGTGTGCGTGTGCGTGTTGTTGTTGATTCTCACATTAGCTCACTA CCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGGA GGAAAAAATAAAATAAAAAATAAAATATATGGACTATGATCACCCACAGT CAGATCAGACGTGGTACCGTTGGGGTACCATCTGTGGTGGCCAGGATACC AAACAAATACAGAAAAAATAATAACGGGCTCGAAAGAAAAACAAAAATTG GAAACAGTCCGACAAACATAAAATAACCAAGACAAACCTCAACCATAACC ATATACTTCGAAGTACTTCGTGCATCGAACCAGGGCCCAGGGCCATGACA GACCAAGGCAGACGCAAACCAGGGCGATGGCCCAGTAACTATATGGTCAA CAACAGACGAAAGACATGTGTGCGTGTGCGTGTGCGTGTGCGTGTGTGTT GTCTCCCTCCCGTCCATTCTGGACGCCAGTCTATCATACAACTTTCGATA TTTGCGGGAGCATCAGCCGGGGGTGGCCACACATTTTTTTTTTAATGTTT CTTGTTGTCTCAACCTCCTTCGAGCATTTGCGGTGCTTGTCTTCATTTTT GTCCCGAAGAATGGTTCGACCGTTCCATTCCCTAGGCCGGGAAAACACAA CAACAATAATAACAGTCCTCTCTCACGGGAGATATTTCGGCCAGAAGACA CCATCTTCTGGTGTCGGGTCTGGCAAATACCCCGCAGTCGAGAAATCGGG GTTCGAATTCCCGACGATCGCAAAGCACTCCGTCTCCTCTGCGCACGGCA AGTTTATCGCTTTGGCTCAAGTGCACGCGTATGAAACAACAATCGTCCAG GCACCGCCAGCCATTTTACAGCAGTGCAGGGAAGTTCGTACAGTATGGTA CGGCGGTAAGAAGGCGCGTTGTCTTACCCCTCCCCGTATACAATATAATA CCCCCCCCCCGATCCTCCCTGCTCGTTCCTGCCTGCATGTACGTGGCTGC GTCGAAGGTGGGGGGTCACGCTGCCGATCAACCAAGACTGTCGGCTGGGG GATATGATAAGCGCGGAGCAGGCGGCGGGGCTGTGCGAAGCCGTCACTGG CCTGGATGCTTCGGATGTGAGAGACCAGAGCGAAGCGAGGGATAAACAGC GGGGGGAGCCGCACGTAGAACAGGGGCAGGGAGACATAGAGGGAGGGAGG GAGAGAGAAAGAGAGATGGGGAAGCGGGAATGTTGTCTGGCATGAGAAAC AATAGATAGAGAGAGGGAAGAGGGAATGTTGTCTCGCATGAGAAACACTA CCTCGTATATGGTACACACTCATAAGCTGATCAGACGCTTATTTTTTGGA TCGCATGCATCAAAATAGTGGCGGTTCACTCCACACCGATCGGACATTTT TCTTTTTTCTTTTCTCTTTTCCTTTCACCTGTCGCTTGGTTGTTCCTGCT CGACGGGCTGATCATCGATCGCTCTGTATCATATGATGCCTTCGTCCCAT AGGTTCGAGATAACTACCTCGACGACTCCCTCGAAGACCTGGCCTTCGAC CTAGACATCGCTCTGCCGGATCTTATACAGGCGTGCGCCTCGCAAAAGTG AGTGTGGTGTGGACGGGGGCTTGGGTTTTTCCTAGCGGGCGGGCGGGCAA ACACAAACAAGTGCATCGGTGGGGGTGGCTCGGCATCGTTCCACGCCCAC ACGCAGTTCACAACCTTCTTTCTCAGCTGCGAGCGTTTGTTTGCCGCCGT AGATCGATCACCCTTTGTGAGAACATTTCAACTCGAGTGCGAAGGGATCT TTGTCGGTGATGCTTGGAAGTGGTGGGAGGGTTTTCGCCCGACACGTCCG CCTTGCGCTTGCTTGTGCAAGGGGGCGCTGCACATCCCTCTGTCTCCTGC ATCGTAAGCCTGCGCCGCGTCACGTGGGACATCCGTGGGTAACCCTCACG ACGTTGTTAGCAACCGCGAGATCGCTCAGGGTGCTCTATGTCGAGTACGC CCTCTCCTTTACTTCACCCCCGTTTTGCTCCGCGCAAGGGCAAGGGGGGG TTATAGGAGATGATCTCGCCGTGTGCTTGAAAGTGACCAGGTAACCCAAA AGGCAGTCGCACACGTAGTGTCCACACGTGGCTATCTGTGGAACCGGCCA CACCAGAAAACATAACCAAGGCGTTGAAAGCTGTCAAATTCAAGCTCGAG AAAAGCGCGCAAAGCCTGCCAAAGCAAGTCCTCCTTGACTGACAAGGTGG CACTTGAAAGGGATGCAACCCAACCTTCATTCCACCCGCCGTACACGTCA CGGCGCCTCGTGCTCGTTGCAAAGCACTGCTGTTTTTTCCCCGAGGCCGC TGACTGAAACCCTCGACTGAATATGCTCCGCCCGCATTATACCCCGGCAG TATTTTTCCCTTACGGTCTAGTGGCTTTTCGACAAGCAACAATTGAGTGC TTTTTATGCCCACCCCCCCTCCCTCCCACCCCCCCCTGCCCGCCCGCCGC CCCCGTCAGAATCAACCTCCCGAAGGGCGGCGACACGCACATCACGATCG ACGAGTACAAGCTCCTCCTTGACGGCGTCGTGGAGGGCGGCGAGGCGAGC CGCGCCCGCAAGCTCTTCGACAGGAACCGCATGAGCAACCGCTGGAGCGG GCAAAAGGAGTCGAACGACGGAGAGATGAACCAGGAGGACATCGCCAGAG AGGTCCAGAAGCACAACGCCGGGTTCGGGTGGAGAGAGGGGCCTCCCATC CTGGGGGACGGGGAGGACGAGCTGCCTCTCGAGCAGGCCCACATCGGGGG GCGAATTTTCGGGGAAGAAACCTTCGCTTCGGCGTTTGCTGCCGTTCAAG CGCGGGCCGAGGGAGAGGAGGACGACGACGGAGACGAGGCAGGATTTTTT TCCAACGCTGTCGCGGATGCATAGCAGAAGAGAGCATGAGGGTGTGCCGT CAGTTGGTCAGACGCATGGTCCGCGGGCGCGGAGTGCGGGGGGTTCTGGT TTTTGTCTCTCACCAATACCGCGTGTAGATTCCGGGGACTTTTTTGTTGG CACGAGGGTGTACGGCGTTCGTTGCTCTCGGGTGCGCTCAGCCCAAGGGC TTGAATTGTTTTGGCCGGTGTTGGCCAGTTGTGTCCCACTTCTTGGACGT TGTGAACGAGTCGAACAGGCCTGCAGCGATGCGGCTTTCTGTCCTCCCGC CTTCCAGCTAGCATTCGACCGTCCTTTCTGTGCTGGTTTCTACGTGTATC ATACTCACTCGTTTTGTTTCGGCTGACGACGGATATGAGTTAAACAGCCC GGCATCACAGCAGGCATCCTTGAGCACCTGTTCGCAAGTTCCCTGTTCGT CTGTGTCCTTCGAACGCAGACAAATACCGCATGCGGGATGAGGGCGGCAC CTTTTGTCCGTGGATTTGAGTTTTTCCCCAACGGTCTGACGTGAACACGT TACTGCAATGCAAAGACGCTTTTATTCGAATGAAACGAAGGTATATGTAT CTCGATCGCTTGTTTTGGCGAAGCCACATTGCTCGTACCTGGTTCTTGCA ATGCATTGGGGATATCTTCACCACGTATGATACAACGCTGATGGCCGTTG GCGAGGGTTGACTATCGTGTGGAAAAATTGTTTTTTCGAGACAGCACTTC CTGTCGCTTGAAAATGCTGAAGAAGCTACCGCAAATCCATTAATCGTTTG AATTCCACTAACTGTGTGAAGCATTGTGACCGC
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Coding sequence (CDS) from alignment at P-littoralis_Contig60:135989..155971-

>mRNA_P-littoralis_Contig60.30.1 ID=mRNA_P-littoralis_Contig60.30.1|Name=mRNA_P-littoralis_Contig60.30.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1221bp|location=Sequence derived from alignment at P-littoralis_Contig60:135989..155971- (Pylaiella littoralis U1_48)
ATGCGCCGGTGTAGATCTCGCGCCCTGGCACTAGCGGCAACAATGCGCTG
CTGCGTGTACTTTTGCAGAGGGTGGGCCCCTGCTGCAACTCTCAACCATG
CTTCAAGCTCTTTGCCAGCGAGAGCTACACCATGGTCTCGCACCGTTCCG
TATGGTTTACCTTGGCGCCCCAATCACCACCACAAAGCAGCAACAGCAAT
GGCAGCGGCTGCAGCTCCGCGCGATCCGTGGGAAGCTGCTGACGAGGAAG
GGAAAGGAAGTGGCGAGAAGAGGATGCCACGCTTGAAGATGGACGATTCC
CCGATCCCGGAGCACCTCATCGACATGCTGAAAGAGGCGGGGGAGCTCGA
CGAAGACGGCAAGCCCGTCGACGACTTCTTTGACCCGGATGAGGACGACA
CGTTCGGCACACAGAGACAACGAGATCGCATCGCCGAAGAGGAAAACTAC
TACAACGACGTGCCGTTCGGAGAAATGCTTTTCGAGGGTAAGGCCGGCGG
CGAGAACACGGCCGACACGGGAAGCCTGATGGACACCTCGGTCAACAACG
CCGTCATTGAGTTCGGTTTCCCCGTGGAGTTCTTTCTCGACATGCTCTGC
AGGTGGGGGGTCACGCTGCCGATCAACCAAGACTGTCGGCTGGGGGATAT
GATAAGCGCGGAGCAGGCGGCGGGGCTGTGCGAAGCCGTCACTGGCCTGG
ATGCTTCGGATGTTCGAGATAACTACCTCGACGACTCCCTCGAAGACCTG
GCCTTCGACCTAGACATCGCTCTGCCGGATCTTATACAGGCGTGCGCCTC
GCAAAAAATCAACCTCCCGAAGGGCGGCGACACGCACATCACGATCGACG
AGTACAAGCTCCTCCTTGACGGCGTCGTGGAGGGCGGCGAGGCGAGCCGC
GCCCGCAAGCTCTTCGACAGGAACCGCATGAGCAACCGCTGGAGCGGGCA
AAAGGAGTCGAACGACGGAGAGATGAACCAGGAGGACATCGCCAGAGAGG
TCCAGAAGCACAACGCCGGGTTCGGGTGGAGAGAGGGGCCTCCCATCCTG
GGGGACGGGGAGGACGAGCTGCCTCTCGAGCAGGCCCACATCGGGGGGCG
AATTTTCGGGGAAGAAACCTTCGCTTCGGCGTTTGCTGCCGTTCAAGCGC
GGGCCGAGGGAGAGGAGGACGACGACGGAGACGAGGCAGGATTTTTTTCC
AACGCTGTCGCGGATGCATAG
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