mRNA_P-littoralis_Contig18.199.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig18.199.1
Unique NamemRNA_P-littoralis_Contig18.199.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: A0A6H5KQ23_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KQ23_9PHAE)

HSP 1 Score: 202 bits (515), Expect = 5.330e-56
Identity = 140/264 (53.03%), Postives = 156/264 (59.09%), Query Frame = 2 
Query:  263 MFKRRSSKDLSVKIGYDNVNGKPSKHSA-------------AQTGAANVPPT------KQGPSFSSSSNPPRKSTGTLSPEGSN-------EASSSLAAIKSLPPANNSDTDEVQPLQQDQVVAHGVATAISKVPSSNGKASSSAAASATRVAAEPPSKSLVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINVEGMREP 976
            MF+RRSSK+LS KIGYD+VNGK SK+++             A    A++PP       KQG S S  S+  RK+TG  SPE  +       E  S LAA+K LPPA                                               AEPPS SLVIGEGVLFEGATEGC AAVVGGKLVGTVKS+RLE+TRAG+MEG AVVE AEIAG FEG L  TKALKI STGR KGEVSFGSIVVENGGKLEG +N  G REP
Sbjct:    1 MFRRRSSKELSAKIGYDHVNGKASKNTSVSSMSSSTPAASNAVAPVASIPPPGGHLHHKQG-SCSPGSSSSRKTTGMPSPEADSGVDPSATERPSPLAALKPLPPAEXXXXXXXXXXXXXXXXXXXXXXXXXXXXX-------------XXXVAEPPSNSLVIGEGVLFEGATEGCAAAVVGGKLVGTVKSKRLEVTRAGKMEGTAVVEMAEIAGAFEGNLTVTKALKICSTGRFKGEVSFGSIVVENGGKLEGKVNYGGCREP 250
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: UPI000A3A323B (polymer-forming cytoskeletal protein n=1 Tax=Oceanibaculum nanhaiense TaxID=1909734 RepID=UPI000A3A323B)

HSP 1 Score: 79.0 bits (193), Expect = 3.450e-13
Identity = 40/109 (36.70%), Postives = 64/109 (58.72%), Query Frame = 2 
Query:  632 TRVAAEPPSKSLVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            T   +E     L++G  +  +G    C   VV G++  ++ S  ++++ AG  +G A VETAEIAG FEG L A   L + STG++ G+V +G + +E+GG++ G I V
Sbjct:   31 TSAESEEEGSRLIVGRNIQLKGEITACDTLVVEGRVEASMNSRMIQVSEAGLFDGEATVETAEIAGRFEGTLTARGRLLVRSTGKITGKVRYGRVEIEDGGEIAGEIGV 139
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: K2IK86_9PROT (Uncharacterized protein n=4 Tax=Oceanibaculum indicum TaxID=526216 RepID=K2IK86_9PROT)

HSP 1 Score: 79.7 bits (195), Expect = 3.710e-13
Identity = 38/98 (38.78%), Postives = 62/98 (63.27%), Query Frame = 2 
Query:  665 LVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            L++G  +  +G    C   VV G++  ++ S  ++++ AG  +G A VETAEIAG FEG L A + L + STG++ G+V +G + +E+GG++ G I V
Sbjct:   81 LIVGRNIQLKGEITACDTLVVEGRVEASMNSRMIQVSEAGLFDGEATVETAEIAGRFEGSLTARERLLVRSTGKITGKVRYGRVEIEDGGEIAGEIGV 178
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: UPI00141F00CD (polymer-forming cytoskeletal protein n=1 Tax=Pelagibius litoralis TaxID=374515 RepID=UPI00141F00CD)

HSP 1 Score: 77.0 bits (188), Expect = 6.780e-13
Identity = 40/110 (36.36%), Postives = 67/110 (60.91%), Query Frame = 2 
Query:  629 ATRVAAEPPSKSLVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            A++ A   P  +L++G+G+  +G  E C   VV G++  ++ ++ L++ + G   G AVVETA IAG FEG L     L I + GRVKG + +  IV+++GG++ G + +
Sbjct:   35 ASQAAEARPEGTLIVGKGIFVKGEIESCLTLVVEGRVEASLAADDLKVRKDGVFGGNAVVETASIAGEFEGDLTVRGLLTIEAGGRVKGTIRYSEIVIQSGGQIRGDVGL 144
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: A0A154VA87_9PROT (Uncharacterized protein n=2 Tax=Oceanibaculum pacificum TaxID=580166 RepID=A0A154VA87_9PROT)

HSP 1 Score: 75.9 bits (185), Expect = 1.360e-11
Identity = 39/98 (39.80%), Postives = 61/98 (62.24%), Query Frame = 2 
Query:  665 LVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            L++G+ +  +G    C   VV G++  ++ S  +++  +G   G A V+TAEIAG FEGKL A + L + STG+V G V +G I +E+GG++ G I V
Sbjct:  101 LIVGKDIQLKGEITACDTLVVEGRVEASMDSRMIQVAESGLFSGEAGVDTAEIAGRFEGKLTARERLIVRSTGKVTGNVRYGRIEIEDGGEIAGDIMV 198
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: A0A2H6B306_9BACT (Uncharacterized protein n=1 Tax=bacterium HR40 TaxID=2035435 RepID=A0A2H6B306_9BACT)

HSP 1 Score: 73.6 bits (179), Expect = 1.420e-11
Identity = 42/102 (41.18%), Postives = 59/102 (57.84%), Query Frame = 2 
Query:  659 KSLVIGEGVLFEGATEGCTAAVVGGKLVGTVKSER-LEITRAGRM-EGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            K L++G+G+   G    C   VV G +  T+   R +EIT  GR   G A VE AEI+G +EG L+    L I STGRV G V +G I +E GG++ G +++
Sbjct:   53 KRLIVGQGISLSGEITACDRLVVEGSVQVTLNQTRAIEITETGRFTNGKAEVEEAEISGVYEGDLIVRNRLLIRSTGRVTGNVRYGEIEIERGGRISGNVSM 154
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: K9H1U5_9PROT (Uncharacterized protein n=1 Tax=Caenispirillum salinarum AK4 TaxID=1238182 RepID=K9H1U5_9PROT)

HSP 1 Score: 74.7 bits (182), Expect = 2.860e-11
Identity = 36/98 (36.73%), Postives = 57/98 (58.16%), Query Frame = 2 
Query:  665 LVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            L++G  +  +G    C   VV G +   + S  + I + G   G   V+TAE+AG+F+G L     L + STGR+ G V +G++ VENGG+L GT+++
Sbjct:  107 LIVGPNIKLKGEIAACDTLVVEGTIEAEMDSHHIAIAKGGVFSGKVTVDTAEVAGSFDGNLTVRDRLLVRSTGRISGTVRYGALEVENGGRLAGTLDL 204
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: UPI000691770D (polymer-forming cytoskeletal protein n=2 Tax=Fodinicurvata TaxID=1121829 RepID=UPI000691770D)

HSP 1 Score: 74.3 bits (181), Expect = 2.890e-11
Identity = 45/134 (33.58%), Postives = 72/134 (53.73%), Query Frame = 2 
Query:  644 AEPPSKSLVIGEGVLFEGATEGCTAAVVGGKLVGTVKSER-LEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINVEGMREPEXXXXXXAGETGTESPPSSTPA 1042
            AE   K L++G G+   G    C   VV G++   +   + LEI+  G   G A+V+ AEI+GTFEG+L     L + S+G++ GE+ +  I VE GG++ G ++    +  +      A  +G+E+P  S PA
Sbjct:   79 AEGEGKKLIVGRGIKLSGEINACEKLVVEGEVEADLSGAQVLEISEHGLFRGRAMVDYAEISGTFEGELTVRDRLLLHSSGQIDGELHYAEIEVERGGRIRGKVSEGEEKSSKANATATAKTSGSEAPSGSKPA 212
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: A0A3A3FI98_9BURK (Polymer-forming cytoskeletal protein n=1 Tax=Noviherbaspirillum saxi TaxID=2320863 RepID=A0A3A3FI98_9BURK)

HSP 1 Score: 73.6 bits (179), Expect = 3.330e-11
Identity = 40/98 (40.82%), Postives = 57/98 (58.16%), Query Frame = 2 
Query:  665 LVIGEGVLFEGATEGCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTINV 958
            LVIG GV   G    C   VV G +     S  L+I   G  +G   V+ AEI G FEG+L+A + L + +TG V G++S+G +VVE GG++ G++ V
Sbjct:   94 LVIGRGVKLVGEISNCETLVVDGDVEAKNDSRMLKIASNGSFKGTVNVDVAEIYGRFEGELVARQKLIVYATGSVTGQISYGKLVVEEGGRVSGSVTV 191
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BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Match: A0A516SIU5_9BURK (Polymer-forming cytoskeletal protein n=1 Tax=Chitinimonas arctica TaxID=2594795 RepID=A0A516SIU5_9BURK)

HSP 1 Score: 71.2 bits (173), Expect = 1.770e-10
Identity = 46/111 (41.44%), Postives = 66/111 (59.46%), Query Frame = 2 
Query:  626 SATRVAAEPPSKS-LVIGEGVLFEGATE-GCTAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKALKILSTGRVKGEVSFGSIVVENGGKLEGTI 952
            SA + A+EP + S L++G  V  +GA    C   VV G++  T+ S  L I R G   G   ++ AEI G FEG+LL  + L + +TGR+KG++ +G I VE GG+L G I
Sbjct:   52 SAAQDASEPLNGSRLIVGANVKLKGAEILDCDTLVVEGRVEATMDSRVLRIARHGAFAGKVSIDVAEIHGEFEGELLVREQLIVYATGRLKGQIRYGRIQVEEGGELAGDI 162
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig18.199.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KQ23_9PHAE5.330e-5653.03Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
UPI000A3A323B3.450e-1336.70polymer-forming cytoskeletal protein n=1 Tax=Ocean... [more]
K2IK86_9PROT3.710e-1338.78Uncharacterized protein n=4 Tax=Oceanibaculum indi... [more]
UPI00141F00CD6.780e-1336.36polymer-forming cytoskeletal protein n=1 Tax=Pelag... [more]
A0A154VA87_9PROT1.360e-1139.80Uncharacterized protein n=2 Tax=Oceanibaculum paci... [more]
A0A2H6B306_9BACT1.420e-1141.18Uncharacterized protein n=1 Tax=bacterium HR40 Tax... [more]
K9H1U5_9PROT2.860e-1136.73Uncharacterized protein n=1 Tax=Caenispirillum sal... [more]
UPI000691770D2.890e-1133.58polymer-forming cytoskeletal protein n=2 Tax=Fodin... [more]
A0A3A3FI98_9BURK3.330e-1140.82Polymer-forming cytoskeletal protein n=1 Tax=Novih... [more]
A0A516SIU5_9BURK1.770e-1041.44Polymer-forming cytoskeletal protein n=1 Tax=Chiti... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig18contigP-littoralis_Contig18:849943..869330 -
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 ortholog1207063.P24_15529
PFAMsBactofilin
Model size1936
Max annot lvl204441|Rhodospirillales
Hectar predicted targeting categoryother localisation
Exons2
Evalue1.89e-14
EggNOG OGsCOG1664@1|root,COG1664@2|Bacteria,1N26P@1224|Proteobacteria,2UD9Q@28211|Alphaproteobacteria,2JTDQ@204441|Rhodospirillales
DescriptionPolymer-forming cytoskeletal
Cds size1080
COG categoryM
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789868.4203296-UTR-P-littoralis_Contig18:849942..8505361680789868.4203296-UTR-P-littoralis_Contig18:849942..850536Pylaiella littoralis U1_48UTRP-littoralis_Contig18 849943..850536 -
1680789868.451583-UTR-P-littoralis_Contig18:869068..8693301680789868.451583-UTR-P-littoralis_Contig18:869068..869330Pylaiella littoralis U1_48UTRP-littoralis_Contig18 869069..869330 -


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

Feature NameUnique NameSpeciesTypePosition
1680789868.4335747-CDS-P-littoralis_Contig18:850536..8510101680789868.4335747-CDS-P-littoralis_Contig18:850536..851010Pylaiella littoralis U1_48CDSP-littoralis_Contig18 850537..851010 -
1680789868.4427443-CDS-P-littoralis_Contig18:868462..8690681680789868.4427443-CDS-P-littoralis_Contig18:868462..869068Pylaiella littoralis U1_48CDSP-littoralis_Contig18 868463..869068 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig18.199.1prot_P-littoralis_Contig18.199.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig18 850537..869068 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig18.199.1

>prot_P-littoralis_Contig18.199.1 ID=prot_P-littoralis_Contig18.199.1|Name=mRNA_P-littoralis_Contig18.199.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=360bp
MFKRRSSKDLSVKIGYDNVNGKPSKHSAAQTGAANVPPTKQGPSFSSSSN
PPRKSTGTLSPEGSNEASSSLAAIKSLPPANNSDTDEVQPLQQDQVVAHG
VATAISKVPSSNGKASSSAAASATRVAAEPPSKSLVIGEGVLFEGATEGC
TAAVVGGKLVGTVKSERLEITRAGRMEGLAVVETAEIAGTFEGKLLATKA
LKILSTGRVKGEVSFGSIVVENGGKLEGTINVEGMREPEPEPEPEAGETG
TESPPSSTPAPPPASTTALPPTSTATPSEKPVAKKPVTKKYVAKRPAAKK
PVDVAAAAAPAAPLYVRVAPRSTVSTPTPSEDSPVARLPSVSSFVAKLQS
AADSRASPE*
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mRNA from alignment at P-littoralis_Contig18:849943..869330-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig18.199.1 ID=mRNA_P-littoralis_Contig18.199.1|Name=mRNA_P-littoralis_Contig18.199.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=19388bp|location=Sequence derived from alignment at P-littoralis_Contig18:849943..869330- (Pylaiella littoralis U1_48)
CCCTCTTCCCAAAAGAAAGAAGGGACGCGGAGCGTTTCCTGGACATAATC
CGCTGCGTGATACCCCCGTGGTGCCGTTCACAGAAAACGGGAGGAGAGGA
GACGCATCGCGGCACCCATACATACTGGGTCCCATACACACCTGACACCC
GTCTCTCAGAAGCGTTTTCATTACACTCTCACAGCGGGCCGCGGGCACCA
GCACACCAACACACACCCATCGCACACGATCCCCGCTCACTTACACACAG
CACATCCCAACCATGTTCAAGCGAAGGTCGTCGAAGGACCTGTCCGTGAA
GATCGGGTACGACAACGTCAATGGTAAGCCGTCCAAACACTCGGCGGCTC
AGACAGGGGCAGCCAACGTCCCGCCGACGAAGCAAGGACCGTCGTTCTCT
TCCTCATCAAACCCTCCCCGGAAATCGACGGGGACTCTGTCTCCCGAGGG
AAGCAACGAGGCCTCTTCCTCACTCGCGGCGATCAAGTCGCTTCCTCCCG
CGAATAACAGCGACACCGACGAGGTACAACCACTGCAGCAAGACCAGGTA
GTGGCACACGGCGTGGCAACTGCCATTTCCAAGGTCCCCAGCAGCAATGG
GAAGGCATCATCGTCGGCAGCAGCATCGGCGACGAGGGTGGCGGCAGAGC
CACCGTCGAAGAGTTTGGTGATCGGGGAAGGGGTGCTGTTTGAGGGTGCT
ACGGAGGGCTGCACGGCCGCGGTGGTGGGCGGGAAGCTCGTGGGTACGGT
CAAGTCTGAGCGGCTTGAGATCACGCGCGCTGGGAGGATGGAAGGTCTGG
CAGTTGTGGAGACGGCAGAGATCGCCGGGACGTTCGAAGGGAAGCTTCTT
GCCACGAAGGCTTTGAAGGTAAGAGATAAAAGGAAGACGAGAGAGAGTTC
GCGTTCGCGACAAGATAGATAGCTGGTTTATTGACTGTCATCGTGGTGAT
GATGGTTGTCCCTTGAGCAGGCGGAGGACATGAGGGCAGGCAAGTGCCAT
CGACATGAGACCTGCTTGAAATAGTATTCACGGTTGAGGCGCTAATTGTA
CGCTGCTGCTGCCGCTGCTGCTGCTGCTGTACCTCGTCTGTGTATTCACT
CTCACTCGTGTCATCCCATCGGGTCCTGTTCAGAAGAAATGTAAAAATAC
TCCTAAGATTTCAGTTGAGATCGGCGCCGCGAGACTAAATGGTTATCTTT
CCATCATGTTGGAGAGTACCTGTAGCCTTTTGTGTTGTTGTGTGCCCTCG
TGTATGCATTTTTAGTGTGCGAACGGCGGTGCCCGTTGCGATTTCAGCCA
AGAGTCAGCAGCAGATTTGAGCTACTGCTGTGATCAACAACAACAACAAA
CATTAAACCACAACAACGCTCACCCGCGTGCTGCGATAGACTATCTATCG
TTCGCATCACCTCATCACCATGCCGGTTCTTCTCATGTGCACCTTGCGAG
GCTCTGCTGAGTTGAAAGAGCCGTGTGGTTGCGCGGCATCGGTGGCATAT
TTTTTTATTTGTACCTTTGATTTCATGGACAGCAGACTTCCAAATTCAAA
TACTGTATCTCATACAGCATTACCTGGTTGACCTTCCTTTTGTGTGACCC
CGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGACTAGTGTG
CCCGAGAATATGGGATGACAACACACACCTGGTATCGTATGTACTATGAT
ACAAGTACCTGTTATGATTACCGTTTGCATGCTCAACCAAAAACACGGCA
AGCACCGCGGAGGGAAGTGGAGAAAAAGAAAAAAAATCCTGTGTTGACTT
CCCCCTGTTTGACCCCAGTTGGAGCGTCGACCTACCCGAAAGGTGTAGAG
TGGCGTGCAATTAAAGGGATGACAACACACACACAACACACACATACAGC
ACGGAGTTCTTCATAGGAGTTGGACGCGCCAAAAGATCACACGTATCATA
CATCTTGCGATATCATACGCAAGTACTTCGTTCCTATACTGCTGTATGTA
TCATTCTTTGAAGTACCTGGTATGTCTTGGGGAAAGTATTTGCCGTTGGG
CTCAAGGACTAACCCCCGCGAAATGTTACTCTCAGGTGGGTACTCAGGTT
GTTTCACGGCGCGCCGGCCGGGTCAAAGTTCTTACTACAAGAAAAAAAAA
CGCAAACCGTTTGTAAAAAAACAAGGAAGCTACAGGTACAGCAGCAGTAT
ACTTTATACCGCAGGAGTATGTATGCTTGATGTTCCAGCCACCGAATCGA
GCCTATGATGCACGCGGTGCAGCAGCGCTGCCGAGCAACCGCTAAAGTCT
GTAGCCACAAGCGGAGTGTAGGAAACACGATGTTCTTGTGTGTGTTCTCC
GTTTGTCTCACACAGCAGAACATGTGAGAAGGCGCACCTCAAACCTTCTT
CATTTTGCTCTCTTTTGTTTCCCCTTTTTATTTTTCGTTTTCACGCCGTC
TTCGGATCTTTCGGCGGATATATCTTTCAGGGGGCCCGTCAATTCTCACT
TTTCAATCCATTACAGAGGTTAATTATCACATTATTATTTTTTAGCTCAG
GCCCACTCTCATGGTAGAGCCGAAAACCGGAATCCAAGGGTTTCGCATGT
TGTTGTTTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGC
CCGTGGTCACAAACCAGGCACATGTCATGCTAGGAAAATAAATAAAATAA
AATATATGGACTATGATCACCCACAGTCAAATCAGATATGGTACCGTTGG
GGTACCATCTGTGGTGGTCAGAGTACCAAACAAAATACAGAAAAAAATAA
CAGGTTCAAAAGAAAAATCAAAATTGGAAACAGTCCGACAAACAAAAAAT
AACCAAGACAAACCTCAACCATAACCATATACTTCGAAGTACTTCGTACA
TCGAACCAGGGCCCAGGGCCATGACAGACCAAGGCAAAGGCAAACCAGGG
CGATGGTCCAGTAACTATATGATCAACAGGCGAAAGACAAAAAAATAAAA
AAGAAGAAGATACAGGGAGGGCACAAAGACTGAGGGAGTGCACTCGTACA
CAAACACAACAAACAGGCCGCCAAACAAAGAGGAAGCAGGGGAACGAAAA
GGGAAAAGAAAAACAAAGAGACAAAGAGGAATAAAATGCATACATGGAGA
GTGCAGAGGAAAGACCGGAAGTAGTACCGGAAGTCGGGGGGGGGGGGTGA
TGAAAATAAAATAAAAGGCATGCAATCAATCGCAAACATGTCTTGCCACG
AGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCGCACTCATGCCTCCTGC
TACTGGCACCACCGTACCCAGTTGTTTCTGCCCCACATCTTTGGCAGCAG
CTACACCACCATTCCGCCCTACAGGTTTTCCACTCCGGCCACCCCGTAGC
TTGGCTTTGGACTGCTTCTTCTTGTTGTGCTGTGCAACTCCAACCCCACT
ACCCCGCTGCCCTTGTGCCCCCCCGTACCCCTCCTCTCGTTTATCCCCGC
CATCCGTTCTCCCTCTTTTGGCCAAAGCCTGCCTCTCAGCCGCGTCCCTC
TCCCTTTTCCGTCGACGTGTCTCTGATAAGTCTCCCTCTTTTTTGAGCCA
CTCGTCCGTGAACCGCCGCGCACCCTCGTCGATCCTGTCGTACCACTCGT
CAGCTCTCTTGGCACTTGCCTCCCACCCCTCTTTCTTGTCGACCACGATG
TCGAACGCTTCGAGGTCCTCCTACATTCGCCTCAGCTAGTCAAACTCTTG
CCCCCCCAGATACCTCGCTCCCCCCTGCATTTCTCCCAAAAGAGCAATTT
TCGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCGCAACGAATCCTG
CGAAGCACAGTCGCCGCTTGCGCACGGTGGCCTCAACGCTCTCGTCGCAA
CCCGCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGTCGGTCTGTTCTCTC
CCTCTTTTTCCATCCGGTGCAGCGAAGGAGGAAGAAGTGGCGGGCTGATC
GAAGCTTGCGGTACTCCGCTGGCTTCAGATTCCATGTGACACACCCGTAG
AGTAGGGTCTCCACGACTTCAGCTTGGAGGAGTCGTACTTTTAGTCGAAG
AGGGGCCCCCGGGCGGTCGTACATTGCCTGGCTGTTGCGCCGGAAGCAGG
CGTGCGCTCGCTGCACTCGGTGGTTAATCTCGCCCTCAATGCTACCGTCC
TCACAAATCTTACCCCCGAGATAAACAAAGTCTTTCTTCTGCTTGAAGAC
CATCCCGGCAGCGTCGATCGTGAACGAGCACGCCTCCATCCCTTTCGCGA
GCATACGCATGGTCTCCGTCTTGGGTTCTGACACCAACAGCCCGAACCGC
CCGGCCACACGTACGATGATCGACATCATCTTCTCAAGGCTCCCACGTGA
TTGAGATACAATACAGGCGTCGTCGGCGTAGAGCATACTCCAGATGGACT
TCACTGCCTCCACCAGTCGGGCGTTCCTCACCTTCCCCTTCGTCACCTTC
CTCTTGACCTTGGCCATGTCCGCCATCACCTCCGCGTCCTTGCTGATCTC
GGCAAAGGCCACCATGAGCATCGCAGCAAAGAAAAGGTTGAACAGCAGGG
GTGCCAGATTGCATCCCTGTCGGAGTCCCTGCCCCACGTCAAACCAGTCG
GAGCACCTCCCGTCGTCCATCCGTACGCATGCTCTCATTCCGTCGTGGAA
TTGGCGAATGACCGCAAGCATCTTGGGAGGCACTCCGAGCCGCTTGAGCA
CCGACCACAGTAGTTCCCGGTCTACGGAGTCGTAGACTTTCGTGAGATCG
ATAAAGCAGGCGTACAGTGGGGTTGACTTCTTCCGCGCAAGCTCGTGTAG
GCGTCGAACCACGAACATCATGTCAACCGTTGAGCGGTTTGGTCGGAAAC
CGCTCTGTTCCTCCGGCAGGATGCCCTCTCTTTCGCAGTAATCGCTTAGC
CGGGTGGCGACCAGCTTCAAGAGTACCTTGCCAGCGTGGGCCACAAGGGA
GATGCCTCGGTAATTGCCGCATTCCGTCTTGTCCTTCTTCTTTTGCAGCA
CCTTGATCGAAGCATCTTTCCACTGCTGTGGCACCCTTCCCGATTGCCAG
ATGTTGATGATGATACTGTAGAACTGCCGCAGGAGGACTTGGTCTCCGTC
AAGGAAGAGCTTGATAAGCTCCGCCGGTAGCTCGTCCGGGCCCACAGCTT
TCCTGTTGGCCATTCCCCGGATTGCTTCCTCAACCTCAAATAGCGAAGGG
ACGTCATCAAGCGGTACGCACTGAGGCCAGGGCTCGATCTTGTCCACCAC
TCTCGGCTCCAGGGTCGGTGACTTGGTGTTGAGCAGAGCATGGAACCACC
TGGCCCACCGCTCGAGGATATGTGCGGGGTCCCGAAGAATATTTCCATCC
TCGTCCTTGATGTTCTGTGAGGTGAAGGCCCTCTTCCCCTCCACATCCAA
TCCCTTCATGTGCTTGTAGAAATCGGCCTGATCCCCTTCGCGGCTTTTCT
TCTCGAGCTGACTCACAAATCCATCGAAGAACTCATTCACAGCACTGGCT
CTAAGTCGATCAAGGTGCTTCCCGGCCGCCTTGAGGTTGCTCCTGAGGGT
GGGATCTTTCGGCGCACCGCGAAGCTGCTTCCGGGCGTCCTCCCTCTTGA
GCCATGCCACGTGGATCTCCTGCTGCACTTCCTCACTGGCGCACCAGCCA
CTTGGCAATCTCTTGCCCTTGGCCCGGGGGGCAACGTCAGCGGCGGTGGA
CATCGCAGCAGTCGTCAAGGCCGACGCGAGCTCATCCACATTCGCACCTT
CGATGATGGGGGAAATTCTGTCTCTAAAGTCTTTCCGAAGTTGGGGGTCC
GCCATCAACCGTTGTAGATCGATGCTAGCGGAGGTACTGCTGCTGCTACC
CCTCACACGTCGATTGGGTGCCACTCGGCCAAGCAAGCGGATGTTGGCAA
GGATGAGGTTGTGGTCGGAGTCCTTACGATCGATACGCCGTACGGAGACG
CTGCGCACCAACCGAAGGTCTGCCTGGCGGGTCAGGATGTAATCGAGTCG
GTATTCTCCCTTCCCGCGGTTGGAGCTTTTGAACGAGTGTGATATCCCGC
GTTTGGGTGTGCAGAAAAAGGTGTCCAGGATGGAAAGCCCACAGCTTGCT
GCAAATTCCACCAGTCTCCGCCCGTTATCGTTCCGCTTGTCACGCCCGTA
CATGCCCATCACCTTATCAGGGGTACTCTCATCCTCTCTTCTACCAGTTC
GAGCGTTCGCATCCATCATAACCACGACGTGTTCCCTGCTAGGTATTGCA
TTGACCGTCTCTCTCACTGATAGCCAGAATCGATCTTTCTCACTAGTCCC
ATCCGTCTCGGTGGGTGCATAGGCAACCACAAAGGATACACCGTTCGAGC
CAGTGAGTTGCAGGCGTACCTTCATCAGTCTTGCGCTAATGCACTCCACC
GTCATACCTCCTTTGTCCATCCCATCCACGATGGACTGCTTGATAGCCAA
CCCGACCCCGTGCACTCCTTTCTTCTCGGTGGTCCCGGCACGTGCTCCAC
TCCAGATCACAACATATCCCGCGTGTGTGAAGGCACCATCATTAGCACGC
CGGGTTTCCTGGAGGCCAACCACATCGCAATCGGAGCTACCACATAGCTG
TAGTACCGTGTTGGAGTTGTGGCCGATACCGTTGGCGCCCTTGTAAGCAA
GGGTGCGGACGTTGAAGGAGCCCACTACCAGTTCGCCTGCACGTGCCTTT
GTTCTCATCTCTGCCCGCCTCTTTCGGTCGGCCTTGCGTAAAGGTCGGTT
TCGCTTCCGTTTCTTTCGAGCTGCAACTTTCCTCCGTTCCATCCATCTTT
GCCAAGCTCGGTACTCGTCTACGTTCAGGCGGGCTGGGGACGACACTCCC
GGCCAGCGTCGACGTGAAGGTCGACGAGGGTGCTTACTAACGTGGTGCCT
CCTAGTCTCTCTGCTCCTCAGGCTACGAGTTCCACGACTTCCGCGGTGAT
GTGTCGACACAGCTGCCGCAGACAGTTTGACTGTCGCGGAGACCAGACCA
TAGTTGGTCCGGACTGCTGTAGTGCCATTCGTCACCTCCATCACCTACCC
AGCCTCGGCGTGCGCCGAGTAGGGTCTGACCACACCACTCCCACACTACC
CTGTCTACTTTGGTAGAGCCCGGTGTGTCCACGAGGGACCATGAGGAACT
GGAATCCATATTCCAGGCCTGGAAAATATTTCTAACTTATGGGCGTTGTT
TTCGGTCGGAACTGGAAAATATTTTCCATTTCTCCGGATTCCAGGCGACT
CGCCTGGAATCTGCCCTCGGATTTCAGGCCAAATGACCTCGGATTCCATG
CTGGAATCCGTTGCGCGCGCATCCACGACGTTCCGCCGCAGTGGTTCACA
GCACACAACAAGCACAAATACAAACAACCGAGCACGCAAACACACTGGCC
AGGTGCAGGTACCAAAGCGACGTGCGATCCTCCTGGCCGTGCTGGCGATA
ACGCTTGCCGCTCTGCGCCATCAGCAGCAGTTCTCCTTGCTACATACCAT
GGTATCAACGAAGGAAACCGTTGCCCTGCCCTCGGTCGTGGGTTCATACG
ACCACTCCCTTGGGAATTTCGGAGGCTCCGTCTACTGGAGGTAGCCTAGG
TTAACAAAGTAGCTTTTTTCCAACACCCCCCGCCAAAAAAGTACCTGCAG
CATGCAGTAGGCTGTGTCTATCACACGGAAGATAAGGAGGAGATCGCCAT
GATCAAGAAAAAAACGAAAAAAAAATCTCGTGCGGATGACTAAAAATCGG
GTGTTTGCGCAGACCGGACTATACTAAGGTTTCGGTTTGGTCTTTGTGCA
CATTTTCGTAGTAGGCAAAAATAGATCTTTAGGAAAAGACCCAATTTGGT
CTTTCAAAGACCCACTTTGGGTTTTCCTCCGGCCTTTTGTGTCAACAGAC
CTGAGCAAAAAGCGCCTCAGTTAGTTTTTACTCAGGTCTTTTTATGGAAC
AGTTGTTTGATTGGCAGGATGCCTCAGATGCCCCCCGACGTCAGGGCTCA
TGGTTGTGTTTATGCGGGACCACAGCAGTACTGCTGCTGCAGAAATACAA
CACCACGGCCACGTAACAGACTGCTCTCGCAACGAAGACCTCACGTGGTA
CGTAATAACACGCAAAACCTCTCGTGTCAGTCTACCGCCAAAATGTATAA
AAGTGATCAGCTCAGAGAAATGCAGAAGAGCTAGCTGCACAGGCACGCAT
TCATGGGTTAGAGAGGGAGTACAAAAGTACGTGTGCGGAGAGTGTCAGCA
GCATCTCGAAGGAAAAAAATAAAAATAAAGGGCGAACGGACCACTTCGAA
ACCTGAGTGAAACCTGAGTCGAGTCAGGTCTCCGCAAACACCCGAATTAT
CGCCCGTCAGGGCGTGTCTTGGAAAAATAAACGAGGCGTGGAACGTGGAA
CCTACAAAAATTCTCTGATTGGCCAACTTCAGCAAAAAACGTTCTTGGAA
AAAATTTCGGCCATCGGGGTTCGTCATTTCTCGTTCCCTCCTCCAAAATA
ATTGGAAGGCCTCCGTTCCTTAAAATTGTCCGAAAGCCTGTGTGGAACGG
GCTTCTGGGGGGCAAGAAGTTTCCGGCAGCTTTCTCCCTCTATCTGACCA
CAAAACCCGTACCACACATACGGTGCAAACACACACATACGCACATGCAC
AGCTAGCTTCCCCCACAATCATGCCACCCCGCCTAGCGCCACGCGTAGAA
TTAATCGTAATGAATAAGCCCTCTCACTCGGATGAACAAAGTCACCGCGC
TGCAGCAGCAAGAAGAGCAGCAGAGAAGAAATGATAACACCATCGCACAC
CTCTTCCGTCTGTTTGTTCCTCCGCTTTTTGGCCAAACGGGCGCGCGGAC
GACTGCGGCCGGCCGACATGTAACCATCTCTCACACAATTGTGTGCTATG
CTGTGTGTGCTGTGTGTATGTGTATGTCTGTGTATGTCTGTGTATGCTCT
GTGGGCGAGAGATGGGAGATGGACGGATTCGTGCGTGCGTGTGTGTGCGG
TGTTGAAAAACTCTCAACGGCCACGGTACTCCTGCTGCTGTTATTATACT
GCTACTTAACTTCTGTACCTGGACCACAGCAGCGACCCTCAGGCTTTTCG
CTTGCAAACGGTTCCACGTTCTTCATTTCGAAATAGTCTTTTTTCCAAGA
CACAAAGCGTGGAACAGGGAACGAGGAATCTAGGTTCCACGTTCCCTGTT
CCACACCTCGTTTTTTTTTCCAAGACACGCCCTCAGCCGGGCGAGAGAGA
GAAGACTCGTGACTCAGTCTTCAACATGGCAGCGTGGTGTGTCTCACTGC
TGCAGCGCAACTACAACAGGTACAGCTGTGTGCTGGACTGCAGCTACGGC
AGCAGGGGTGTACCGTTGTACGAACTGCTGCTACGCTGGTGAGTGCTGTG
CGTTGTTGTTCTGCCTGCCTTGTGCACAGCAGCAGCAGCAGTAGAGACAT
GTTCACACTTAGGAGACAGCAGCAGCAGCACCCTATCTCCCTCCCTGCCT
CTCTCTCCCTCTCACTCCCTCTCTCTCCTAGCCATACACCAGTATACCAG
CAGTACAGCAGTAGCGAAGTGGTTGTTGTGTGAGATGTGTGTGATGATGT
GCTCTCTGCAGGGTACCTGACATGCATGCCTCCCTTCATTTATCCGGGAA
AAGGGCGAATTTTGGCGAAGAAATAAACACACATCACCGCTGCTATCTCG
ATGGTCTCGGCACGAGATGAGCAGAGAGCAGTTGGGAGAGCTCGGGCTAT
ATTAGCTCTGTCGGCCACACCCAAGGATTCGTGAAGCTGTTCGGTATGTG
TGTCGTTTTCAACAAAAAGGTGGCCGAAAAAACTCCCTCAGACGGACGGA
CGGACAGCCTCGGCATTAAATTCACGCCACCTGACTCTTCTTTATTTACC
TCGTATAATTTTTGCGTGTGTGATCATGATGTGGGTGCGAGGCTTGGGAG
GGGGGGGTATCTAAACAGCTTTTTTTTTTAAACAAAAAGCTCGCTAAAAG
ACCGTTTCTTACGGCTCCGTTATTTGGTCCTGCGTTTTTTTTCCTGAGGT
ACCCTCCCCTCCCCGATAACAGAGAGCCCAAACGGTTGAAAAATCTACTT
TTTGAGCACAACAGGAGACAGCACCAAGCAGAACTCGACCCCTGGGACAC
CAATCGAGACTTTAACTGTTGGACGATACGCTCTAGTGTTCTCAGGTTGG
CCACATCAGGAAATTTGGTGGGTGTGGGCTTTGGCCATGGCGAGGTTTCG
GCGGCGGAGTGGGTTGAGGTAGGAAAATCCGGTGGAAAAAAAAACGCTGT
CCGAGCCTCTTTTTTGGCTGGAAAAACAGAAGTGAAGACCGTTATTTCGT
TTCATCTGTTTTTCCATCTCCAACTCACACCGCCGCCAAAATCTCGCCAC
AGTCCGAACCCACTGCCACCAAGCTTGCTGTGGCCAACTTGAGAACATAG
GAGCACACGATCCATCAGGTTTGATCGACATCTATCTATGTCCTAGGGGT
CGAGTTCTGGTTGGTGCTATCGCATGATGTGTGCAACAGGGCTGTTTGCG
GGTGGGGGGGGTAGGGGGGTTCTCTGGTTGGGTTCTTGTAGGGGGGTCAA
AACGCCAGGCCAAAGTAACGTTGACCGTAAGGCCCTGTGTTAACGAAAGT
CGGAAAATCATGATTAAAATCATTATCATAGTATGATTTTCCGAAAAACC
CTTCGAGCCATATTAACGGAAGAGCTGAAAAGGCTCTTTGAAGGCCTGTC
AACGCCAACAGAATGCAAACCTCTGATGATGACGACACGACGGGTAAAAC
AGAACAAAAATATATACTGCTGTACAAAGTACTCCGTACAGCAGTAGAGC
AGTATTTCGATATACATATCATGTGCGTCCTCTCGCATGGAAGGACAGGT
CGTGGCCTCTGTGCACCAAGCCTTGATTCCGAGAGACACCCCGTTTGTGT
ACGTGTGCGGTGTGCGTGTATGTGTGTTGGCTCATGCACTCAAGAGTGCT
GCTGCTGTGTCGTATGTCTGCCTGGCATGGGCTGTGAGAGGCGGCTTCGT
GCTCGTGACCTGTTGCCTGCCTCTCTGTCTGCGTCGTGTTTGCTGATGGT
GTGTTGTTGTGTAAAATGAAATGGGTCATCATCATGCAAACTCTGTTGTG
TTTGTTTGTTGCGCTGTCATGTGTGGTGCTATCGTTGGCTTGCCTGGTGC
AACGGCAAACCTCTGTGTCATGTTCTGTGGCACTGCTGTTGGTTGCCTCG
GTGGTATTTGGTCTGGCCTGCCTGTCCGCCTGTCTATGGTGCACGAGGCA
CATCGTTCAGAAAGCCTTCCATCGGGTTAAGACCCCCAATAGTGAGTTAT
GATTTTCTGCCAATTAAGTATTTTTGGACTTCTTTGGTCTGCCGGCGATT
TCCAGAAAATCATTATTTCCGTCAATAGGTAATGAGAGCTTGGCCAATCA
GAGACTTTCTATGATAATGATTTATTCCAATGATGATTTTCCGACTATCG
TTAATACAGGGCCTAAGAAACTGTATGACATGATATGGTATTTATATGAA
ATGATATACCAGTGTAATATGATACTTCGTATGATATAATACGTTATATA
CCGCTGGTGACGACTACGTACCGGTAAGACATGAATTGGAGAATCAACAC
AAATACTCGGAGTATGTACATATGATGCAGAGGTGCAGAAACTACCCTTG
TAAACTACTCTTGTGTCATTCTTCGTACTACAGTAAGTACATATTCGAAT
ACAACGCCGTTTTGTGTTCTCACAGCCGCCCCCGCCCCCCCTATTGCCAC
CTGTGAAGTGTCGCCTGCTGCCCGCCATAAAGTACAACATGCGCGGTAGA
AATCAAGAAGACACGCCTCCTTTGTTTTGTCTGGAGCGCAGTCAGAAAGA
CTTAGTCCTCAATCCGCAGGAATTTGGTGAATAGAACATGACTACAGCAG
TACCGGTTTCTCTAACTCACGTATGTATGATACACCGCACGTACCGGTAT
CGTCGTATTATACCTCTCGGTGTAATATGTTGGGGGCACAAGCCAGGGCC
ATACAGCATTTACAGCAGCACCTGCACATGGTGTGATATACTTGCATGGT
GTCATATCATGTCGTATCATTCGACGCTTTCAACGGCGAGCTCGCACTGG
GCAGGAAGGCCTTCCTTCTTGAAATCGGAAAAATAAAATCGTGGTTTCTC
TTAAAAAAATACGGATTTCTTCTGAGCCCAACGCTTTCAATCATGTCTAT
GTCTGTGTATCATGCCACAGAACGGTTTACCAGCTAGTTGTTGCTGATTC
TCACATTAGCTCACCACCACCATAGTAGTCTAGCCCGTGGTCAAAAACCA
GGCAAATATCGTGCTTGGAGGAAAATTAAATTAAAAGGGACGAAACGATG
GTCACCCAATCAAAATCAGATACAATACGTGCCGTTAAGGTACTATCGGT
GGTATCCAAAAGTAGAATACAAAAATATACCACTTGGTGAAAAAAAACAG
GCTCGAAGAAATAGAAATCCAAAACAAGAATCGGAAACAGACAAAACCAA
GACAAACCAGGATCATACCAAACCAGAGCACAGAACCAAGGCAAACGAGA
CAAACCAGGGCAAACCGGAGCGCAAGGCCCAGCGAAGAGGATCAATTGAA
GAGAAGGCGAACGGCAGGCAGGCATAAGAGACGAAGTACGAAAGGCGGAA
GACGGAAAGGGGGCACAAAAAGCAGGGAGAAAAGAAAGTGAGAGAAAAGA
GAAACCAGAGCAATGGGTCCAGCAAATACGAGATCAGTTCGAGAGAAGCC
GAAGGACAGAATGGCAAGAGACGAGAGACGAAATGGGGGGGGCGAAGAAT
GAGGCGGGTAAAACAAACAAATAGAGAGGGAGCAGGGCAGGGCAGGTAAT
AGAAAAGGCGAAGACGACACAGAGCACTCGCGGAGCAAAGAGGAAAATAA
AAATAAAAATCCGTGAGAGGAAAAAAAAATGCATGCGATCAGTCGCAGCA
AACATGTCTCGCCACGAGGTCTGCCTTTTCATACTCGCCCTCCTCGGTCG
CACTCATGTCTCCTGTCACTCACTGGCACCATCGTACCCAGTTGTTTTTG
CCCCACATCTTTGGCAGCAGCCACACCGCTCCGGGATTTCTGCCCTGCAG
GTTTTCCAATCCGGCCACCCCGCGGCTTGGCTTTGGGTTGCTTCTTCTAC
CGCGCGACTTGAACCCCACCACCCTGCTGCCCTTTTGGCCCCCCGGTACT
CCTCCTCTCGTTCATCCCCGCCATCCGTTCTCCCTCTCTTGGTCAAGGCC
TGCCCCTCGGCCGCATCCCTCTCCCTCTTCAGTCGACGTATCCTTTGAAG
TCTCGCTTTTTATTGAACCACTCGTCGTGCATGAACCGCCGCACACCCTT
GTCGATTCTGGCGTTCCATTCATCCACTCTCTTGGCACTTGCCCCCCACC
CCTCTTTCTTGTCGATGTCGATGTCTGTGTCGGACGCTTCGAGGTCCTCA
TGCAGTCGCTTCAGCCAGTCAAACTCTTGTCCCCCCGAATACCTCGCATC
CCCCCCCAATTCTCCCACCAGAGCGGTTTTCGGGACTCCCTCGTCTTTCA
TGCTCGCGACGAATCCTGCGAAGCACAGCAGTCGCCGCTTGCGCACGGTG
GCTCCAATGCTCTCGTCGCAGCCCGCGGTGATCAGGGCTTCGGCGTAGGA
CATGGGTCGGTCTGTCCTCTCCCTCTTTTTCCATCCTCCCCGACTGCCAG
ATGTTGGTGATAATATCGTAGAACTGCCGTAAAAGCACGTTGTCCAAGAA
AAGCTTGATAAGCTCCGCCGGTGCAGCAGCTCGCCCGGGCCTCCAGCTTT
TTGTTGGCCATTCCCCGGATTGCTTCCTCGACCTCAAACATCGAAGGGAT
GTCGTCAAGCGGTACGCACTGAGGCCCAATCTTGATCCTGTCGAGACCAC
TTTCGGATCAAGGGTCGGCGACTTGGTGTTGAGCAGAGCATGGAGCCACC
CTGGCCCAACCCTCGAGGATGAAGGCGTGGGGGTCCCGCAAAATGATTCC
GTCCTCGTCCTCGATGTCCTGTGAAGTGAAGACCCCCCTTCCCCTCCACA
TCCAATCCCTTCGTGTGCTTGCAAAAGCCGGCCTGGCCTGGGTATATATA
CCACCGAGTATTCCTTCGGCGGCAGGTAAAAAGGTGAAATGTGAAACCAG
GCATGCTTGTATGCGTACATATCAGGCCGAGTCTTGGAGGTGTGCACGAT
GCACGTGCTCGTTTCGTCGTGGAGACTGCACGATCGTGATACTTTCGAAG
CACGCAGCATTGTGAAATGTGAAACTTTGAGCCGTTTCAGGTACGTTTGG
ATGCCGAGTAGAATGTAAATTCGATATCCCCGCAGTATCGCATGTTGTCG
TCATTTGGGCGCGGTAGCGTTTGTCACTGCCTTTAAAGTAGTACTGCTGA
TGATGGTGCAGGGTGCGGCAGCAGTGGGGACATGAACAGATTATGTGAAG
GATGGGTGGAGGATTTCAGATTTTGCGGGAAGAACCAACCTCACTGAGCT
GAGGGCATTGATGATAGAAGCTCGGTTGGCACCCGCAGCTCAACCAAAAA
ATGATTCTCGTTGTCAAGCGTGCGAGGCTTCGTTTTCCTCCTTTTTTATA
TCTGTTCCCAATGTTGAGCCGTAAGACCACTGGCAAATGAGGGTTGCAAA
GGTGCTTGCGGGCTTTCGACAAACGCCTGATTATTCTTGATTTCCAAACT
CTCCCATCATATTTAGCACGAATCTGCATACCATCATAGCGGAATGCTTC
CAGAGGAGGCAGTCGCTGTGACCAAAAACAAGCGTCTAGTATCCAAGTCT
TCGCGAGACATATAATCATGAAGTTCCGCTTTTGTTTTTGTATCTTTGAA
CGCTAATAGCTCACAGCACCCTAGAAGAAGAGCTTACGCGAGTACCTGCG
ACCGCTTTTTCAGCACAATGCTCCCTTAATATACCCTGCCCATCGCCGTG
ATTGTCCTGAACGCCGAAGGCTCTCACGTACGCCCTGATTTTTCGGGTGC
TTTGTGCTGGAAGCGCTCGAAAATACGGCTGCTGCTTCAGCAGCATCCGA
ACAACGCCTCGTGGCTCACAGAAGTCGATGGAGGAGGGGCTCGTTTCAGT
AATCACACACGGCGAACCTGCATGATGCTGCTTGTTTGTCGCAAGGGCTT
GGACCCTTCGATCCTAGACAAAAGTTTACGGTCAGCGACTGACCGCCTCT
GGAAGCACTTTGCGATGATAGTAGATCCGTACTTAAGATAATAGTTTGGA
AACCCAGAATAAGCAGGCGTTTGTCGAAAGCCTTCAAAACGACCCGCAAC
CCGTCCCCGGGTATCCTGAATCGTGAAGGGTGGGTTGACGATCGATCTTT
GAATCGACTGATTTTGATGAGCAGCGAATGAGCACCCGAAAATCACACTC
TGGGTACCTCGCACCAAAAGGAAGGCCTCGCGCAACGAAAGATCCTCTTG
CTGGCGCACACCGCAGGGGCCAGTCTCAACGGCGGTACCCCTCTCCCTCT
ACCCCCGGTAGCATCTCAGGGAGACAACTTCAAAGTCGCTCGCGTCACAC
ACCCGAGAGGGCTGAAGAAGCCCTCGGTGTCCACGCCCACCGCCTCCCTC
GTTACAGGGACAGCTCGTAGTAGTGCTTCCAACGCTTCGGCGTCACACAC
GGTAGGGCCGACGGGGCCCCCTGTGCCAGCTGCAGCAGCTGCTGCTCCGC
AGGCCACCACAACCGGGCCTTCTTTCCCTCTGCATCTACATCACGCAGTG
TACCTCCGATTTACCACATGAAAGAATGAATGTACTTGGGAGTGAAGTTT
CCCGTCGCCTTAAAAATCAAGTCAAAAACGGCTTATTTAGATGAGGCCCG
AACGAGATGGGCCGTGGAGAGAGCCTTAACCTAAGAGGCGGTTTCAGCAG
AGCACACGCTGCAGCAGCGACGCATGTACTGGTACTTGGCAGGTTCAGAT
CTGCTGCTGGGGCTGAGGTATCGAATGCCGCAGCAGTAGCTCGAAAATTC
CGCAAGCTGGACCGACTCACAAATATTTTCCACTGGGTAGCTCGCCGCCA
CAGACCCCAAACTGCTGCACGAACTGCCGGGTCTACAGCAGATGTAGTAC
CTGGTAGCTCGTGGCTAATACGGCTAGCTGCCTCGGATGACCCGCACTTG
AAGAGACTGGCGCTCCTGGCAGTGAGTATAGCAGCATCAAACACTTGGTT
TCGGTCCAGATTGCGGATGACTTTACCTACTGCTGCGGCCCTCGATATTA
TATCTCCTCCTTGGCAGCATATCTGAGCATACCGACACACACATACGTCG
CCTGTACAGGGTGTCCCCTACTGAACTCGCCTCTCAGGTCGGAACCCCTA
CCGCGGGAGGGCGGTTTTCGTGCCTGATGACCTTACAATTTGGGGGTTGG
GTTCGGTGAGAACAATTACAATTTACCGCCTTCATCGGGCCGCCCCTTAT
CTTCTTTGTATCTCAACGTATGGTTCAGAATTGAACCCACCATTTTTTTT
TTTTGTCTCGACTTTCGAGCCCCATCGTTCTCAACCGTTTTCAACGTTTC
AACAAACAAGTCAGTTACATTTTCTGTTTCTCACGATACCATCTTCGTAC
GACTATTTTTCTGATTTTGCTTCTTCGGTTTCGGTTTTCGGTGTTTTGCC
TTAACCCTTCTGTAACTTCAGGGCGATCTATTGATCAATAAATATTAAAA
TCCTTTTTTTTATTTTTTTGTTTGGCCGGTCTCTTCGGGACGAGAAACAA
AAAAATCCCGAACCCCATCACGTTGGGAGTTGAGAGCATTACGGCTGGAC
TCAGATACGGGCAAGAGGGCAAACAAACACCGCTCACTGCTGCTGCTGCT
GTGTGTGTGTGGTCAAGGGGTGTGAGGGTGCCCAAGGCTCACAGCCAAAA
CATAATAAATCCCCGGCAGTCGAAATCTGAAATCATCTCGTCTGACAGAG
TAGCATCATCGTAGCAAGTAGTAAGCGCGTATGTATCATATTTTTCTGCA
GTGCAACACCACATTAGCATTGTAGCAGTTCTATACTCCTACTACTACTG
CTACTGCCGCTGCTGTTCAGCAGTACATCACATGCATATGATACCTCCTC
CCTTGTCGGTATCACACACAACAAGCAAGAAGAGCAGTAGTAGAAGAATC
ACACCTTTATGTATGATACATCCTGTAGAGATGATGGTCCCGTATCTTGC
TTTCTTGTTTGGTCAACCTAGCGACAACAACAGCAGCAGCAGCTAGAATA
CGACTACTACTACTACTGCTGCTGCTACCAGTACCAATGATGTACCTGTA
CCTATGTGCGGGAAGGAAAGACCGGCCTTCAGGCCGGCCGCAGGCCACGG
GGCCCCTACCCAAAAGTGTATTTAGCAGGCCGGGAGCTACAGCGGGAAAC
GAGTAACTACTTGTCAGTTTTGAGGGGACTGGATACTTAAAGCGCTGTTG
ATGGTTAGGACACGTTGCACGACGCCTGAGAGCTAGCCGCGGCATCTCGA
CCACCGGGTGTCCCTTCTGTACTCTCCCGGGAAGTAGCCAGCCCGCTGTG
AGCCCCCGTCAGGGTCCCTGGCTGTATATTTTTGTGGTGCTGATGTGCAC
ATTTTCTCTTGGTTTCATGACTGCTGTACATTTGAAAGGGACAACATTTG
AGCCCTATTTTTTTTTCTCGGGGGAACATTGTATGGTTCTGATTTGGAAC
CCGAGCTGTTCGTGTGAAAAGGAACAAATACCCTGGTCCCAGAAAATTAG
CAGCAATTAATTGTTTTCTTGTCGAGACTGATGAGGGTGTCTCGAGGCTG
ACAAGGGTGCATCTCCCGAACCGCACAAGTAGTGGCAGAACAAGTGAAAC
ACAAAAAGCAGCCGCTTCTGGGTGTATGCATGATTTGATACCAGACACAA
TCTGCACCACTGGCGCTATTAGAGCTGTTTTTTACGGCCCGCAGCACGAG
AGGGCGGTATGGAACCGTGCCCTCGGACGCGGGGACACGAATGCGACATG
TTTTTTCGAGAAAAAAGTCATGAATCTTCAGGAGGGGAACACCCACATGA
TCGCAGCACTCACTGGGATGCAACATACATTTGGTGACCCCTGACAAACA
GCGGTGTTCCATACTGGTCGTGCCTACTGTGCACGGGGCCTAAAAACAAC
GTCCCTTACTGTACTCTCCCCCCTACACGTACCCCCCCCCCTTGTCCCGT
TCTTGTCAATTTATTGTCAGATTCTCTCTACGGGACGGGTCAAGGGAGAG
GTTTCGTTCGGTTCCATCGTTGTCGAGAACGGCGGGAAGCTCGAGGGCAC
TATTAACGTCGAGGGCATGCGGGAGCCAGAGCCAGAGCCAGAGCCGGAGG
CGGGGGAAACGGGCACGGAATCGCCGCCCTCATCCACCCCGGCGCCCCCC
CCCGCCTCCACCACGGCGCTCCCCCCCACCTCCACCGCCACTCCCTCCGA
GAAACCCGTTGCCAAGAAGCCCGTTACCAAGAAGTACGTTGCCAAGAGGC
CCGCTGCCAAGAAGCCCGTCGATGTTGCCGCCGCCGCCGCCCCCGCGGCG
CCGCTGTACGTGAGGGTGGCGCCCCGGTCGACCGTGTCCACTCCTACCCC
GTCCGAGGATTCTCCTGTCGCCAGGTTGCCGTCGGTGTCGTCTTTTGTTG
CAAAGCTGCAGTCGGCGGCGGATAGCAGGGCGAGTCCGGAGTGAGAAGAA
GGGCCTCCCGGGTTCCTGATAGGAGTAGCACCAGCAGCAGGAGGTGTTGC
CGCTGCTGCCGGTGTGGCCGCTGTCGCCCTCTTTGGGACCTTCTGCGGTG
ATTCGACGGTGAAGATGGTGGTGGCTACGGCCGAATCGCTCCGAGCCCTG
TCTGCGCGCGGGCGTGTTGATCGCCTGAGGGAGCGGTGAAACATCGATCC
GATTCTGTGGATTTTATTTTGGGGAGGAGGGGTTGATTTAGGGGGGGGGT
AATCAATCGTGATCAGTGCTGAAGTACGCGCTTGTTGGCTAGTCTGTTTA
CAAAGATTTGGTTACGGAGAGAGAGGATAGAAAAGGCGGGGAGAAAGCAT
GAAAAAAGGAGGTGCTGAAATATTGCGTTCGTGTAGGGGTCCCGGCAGCT
CTTGACATTATGTTGTAAAAGTCACGGCGGGAAAGAGTAGCAACAAAAAT
CCTGATTTAATGTACAAACTGGTTTGTGTTTTTCTTGTTTTTTTGTATTT
TTGTTTTTCGTATCATATGTTTATTTTTATTTTTTTTTGTTCAAGTTTTT
AATTTGTTGTTGCGGCGGTAAGACCGCATCACGTCAAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig18:849943..869330-

>mRNA_P-littoralis_Contig18.199.1 ID=mRNA_P-littoralis_Contig18.199.1|Name=mRNA_P-littoralis_Contig18.199.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1080bp|location=Sequence derived from alignment at P-littoralis_Contig18:849943..869330- (Pylaiella littoralis U1_48)
ATGTTCAAGCGAAGGTCGTCGAAGGACCTGTCCGTGAAGATCGGGTACGA
CAACGTCAATGGTAAGCCGTCCAAACACTCGGCGGCTCAGACAGGGGCAG
CCAACGTCCCGCCGACGAAGCAAGGACCGTCGTTCTCTTCCTCATCAAAC
CCTCCCCGGAAATCGACGGGGACTCTGTCTCCCGAGGGAAGCAACGAGGC
CTCTTCCTCACTCGCGGCGATCAAGTCGCTTCCTCCCGCGAATAACAGCG
ACACCGACGAGGTACAACCACTGCAGCAAGACCAGGTAGTGGCACACGGC
GTGGCAACTGCCATTTCCAAGGTCCCCAGCAGCAATGGGAAGGCATCATC
GTCGGCAGCAGCATCGGCGACGAGGGTGGCGGCAGAGCCACCGTCGAAGA
GTTTGGTGATCGGGGAAGGGGTGCTGTTTGAGGGTGCTACGGAGGGCTGC
ACGGCCGCGGTGGTGGGCGGGAAGCTCGTGGGTACGGTCAAGTCTGAGCG
GCTTGAGATCACGCGCGCTGGGAGGATGGAAGGTCTGGCAGTTGTGGAGA
CGGCAGAGATCGCCGGGACGTTCGAAGGGAAGCTTCTTGCCACGAAGGCT
TTGAAGATTCTCTCTACGGGACGGGTCAAGGGAGAGGTTTCGTTCGGTTC
CATCGTTGTCGAGAACGGCGGGAAGCTCGAGGGCACTATTAACGTCGAGG
GCATGCGGGAGCCAGAGCCAGAGCCAGAGCCGGAGGCGGGGGAAACGGGC
ACGGAATCGCCGCCCTCATCCACCCCGGCGCCCCCCCCCGCCTCCACCAC
GGCGCTCCCCCCCACCTCCACCGCCACTCCCTCCGAGAAACCCGTTGCCA
AGAAGCCCGTTACCAAGAAGTACGTTGCCAAGAGGCCCGCTGCCAAGAAG
CCCGTCGATGTTGCCGCCGCCGCCGCCCCCGCGGCGCCGCTGTACGTGAG
GGTGGCGCCCCGGTCGACCGTGTCCACTCCTACCCCGTCCGAGGATTCTC
CTGTCGCCAGGTTGCCGTCGGTGTCGTCTTTTGTTGCAAAGCTGCAGTCG
GCGGCGGATAGCAGGGCGAGTCCGGAGTGA
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