mRNA_P-littoralis_Contig1.347.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1.347.1
Unique NamemRNA_P-littoralis_Contig1.347.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: D8LI34_ECTSI (CBFD_NFYB_HMF domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LI34_ECTSI)

HSP 1 Score: 188 bits (478), Expect = 5.140e-51
Identity = 92/105 (87.62%), Postives = 100/105 (95.24%), Query Frame = 2 
Query: 2441 GDDDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSK 2755
            GDDDVEELREQDRFLPIANI+R+VK RLP NAKVAK++KET QECVSEFICWITADASDKCQDEKRKTI+GEDI+TSMNTLGF DYIEPLKVYLAKYRA+VKG +
Sbjct:    8 GDDDVEELREQDRFLPIANISRLVKKRLPYNAKVAKDAKETTQECVSEFICWITADASDKCQDEKRKTISGEDIITSMNTLGFDDYIEPLKVYLAKYRAAVKGDR 112
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A835YU51_9STRA (Nuclear transcription factor Y subunit B4 (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YU51_9STRA)

HSP 1 Score: 159 bits (403), Expect = 3.000e-41
Identity = 79/110 (71.82%), Postives = 95/110 (86.36%), Query Frame = 2 
Query: 2426 MAEDAGDDDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSK 2755
            MA++    D EELREQDRFLPIANI+RI+K  LP  AK+AK++KET+QECVSEFIC+IT++ASDKCQ EKRKTINGEDI+ +M+TLGF  Y+EPLK+YLAKYR SVKG K
Sbjct:    1 MADEWKGGDAEELREQDRFLPIANISRIMKKSLPDAAKIAKDAKETVQECVSEFICFITSEASDKCQQEKRKTINGEDILWAMSTLGFDKYVEPLKLYLAKYRESVKGEK 110
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A7S1U555_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U555_9STRA)

HSP 1 Score: 154 bits (389), Expect = 1.180e-39
Identity = 76/110 (69.09%), Postives = 96/110 (87.27%), Query Frame = 2 
Query: 2426 MAEDAGDDDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSK 2755
            MAED GDD + E+REQDRFLPIANI RI+K  LP NAK+AK++KE +QECVSEFI +I+++ASDKCQ EKRKTING+D++ +M+TLGF +Y+EPLK+YL+KYR SVKG K
Sbjct:    1 MAEDHGDD-MAEIREQDRFLPIANIARIMKRSLPDNAKIAKDAKECVQECVSEFISFISSEASDKCQQEKRKTINGDDLIWAMSTLGFDNYVEPLKLYLSKYRESVKGEK 109
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A6U1F424_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A6U1F424_9STRA)

HSP 1 Score: 153 bits (386), Expect = 1.790e-39
Identity = 74/105 (70.48%), Postives = 91/105 (86.67%), Query Frame = 2 
Query: 2441 GDDDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSK 2755
            G DD EE+REQDRFLPIANI RI+K  LP NAK+AK+SKET+QECVSEFI +IT++ASDKC  EKRKTING+D++ +M+TLGF  Y+EPLK+YLAKYR +V+G K
Sbjct:    8 GGDDYEEIREQDRFLPIANIARIMKLTLPENAKIAKDSKETLQECVSEFISFITSEASDKCMQEKRKTINGDDLLWAMSTLGFDKYVEPLKIYLAKYREAVRGEK 112
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A6H5L5I3_9PHAE (CBFD_NFYB_HMF domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5L5I3_9PHAE)

HSP 1 Score: 154 bits (388), Expect = 2.210e-39
Identity = 72/99 (72.73%), Postives = 90/99 (90.91%), Query Frame = 2 
Query: 2450 DVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVK 2746
            D EELREQDRFLPIANI+RI+K  LP NAK+AK++KET+QECVSEFIC+IT++ASDKC+ EKRKTINGED++ +M+TLGF  Y++PLK+YL+KYR SVK
Sbjct:    8 DTEELREQDRFLPIANISRIMKKSLPDNAKIAKDAKETVQECVSEFICFITSEASDKCKQEKRKTINGEDLLWAMSTLGFDKYVDPLKIYLSKYRESVK 106
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A7S2EHZ1_TRICV (Hypothetical protein (Fragment) n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S2EHZ1_TRICV)

HSP 1 Score: 150 bits (379), Expect = 2.790e-38
Identity = 72/109 (66.06%), Postives = 92/109 (84.40%), Query Frame = 2 
Query: 2447 DDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSKKTAAVG 2773
            D+ EE+REQDR+LPIANI RI+K+ LP NAK+AK+SKET+QECVSEFI +IT++ASDKC  EKRKTING+D++ +M+TLGF  Y+EPLK+YLAKYR +V+G K     G
Sbjct:   16 DEYEEIREQDRYLPIANIARIMKNTLPDNAKIAKDSKETVQECVSEFISFITSEASDKCMQEKRKTINGDDLLWAMSTLGFDKYVEPLKLYLAKYREAVRGDKPEKPAG 124
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A4D9DEI5_9STRA (CBFD_NFYB_HMF domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9DEI5_9STRA)

HSP 1 Score: 151 bits (382), Expect = 3.620e-38
Identity = 72/102 (70.59%), Postives = 91/102 (89.22%), Query Frame = 2 
Query: 2453 VEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSKK 2758
            VEE+REQDR+LPIANI+RI+K  LP NAK+AK++KET+QECVSEFI +IT++ASDKCQ EKRKTING+D++ +M+TLGF  Y+EPLK YL KYR SVKG++K
Sbjct:   18 VEEVREQDRYLPIANISRIMKKSLPANAKIAKDAKETVQECVSEFISFITSEASDKCQQEKRKTINGDDLLWAMSTLGFDKYVEPLKHYLVKYRESVKGAEK 119
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A7S0R8U3_9CHLO (Hypothetical protein n=1 Tax=Pyramimonas obovata TaxID=1411642 RepID=A0A7S0R8U3_9CHLO)

HSP 1 Score: 149 bits (377), Expect = 3.770e-38
Identity = 77/114 (67.54%), Postives = 96/114 (84.21%), Query Frame = 2 
Query: 2432 EDAGDDDVE--ELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSKKTAA 2767
            ED GDD+ E   +REQDRFLPIANI+RI+K  LP NAK+AK++KET+QECVSEFI +IT++ASDKCQ EKRKTING+D++ +M+TLGF DY+EPLKVYL KYR + +G K T A
Sbjct:    6 EDYGDDEKEGGNVREQDRFLPIANISRIMKKALPTNAKIAKDAKETVQECVSEFISFITSEASDKCQREKRKTINGDDLLWAMSTLGFEDYVEPLKVYLHKYRET-EGEKATMA 118
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: A0A7S2IGW8_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2IGW8_9STRA)

HSP 1 Score: 152 bits (383), Expect = 5.520e-38
Identity = 73/109 (66.97%), Postives = 93/109 (85.32%), Query Frame = 2 
Query: 2447 DDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSKKTAAVG 2773
            DD EE+REQDR+LPIANI RI+K+ LP NAK+AK+SKET+QECVSEFI +IT++ASDKC  EKRKTING+D++ +M+TLGF  Y+EPLK+YLAKYR +V+G K   + G
Sbjct:   54 DDYEEIREQDRYLPIANIARIMKNTLPDNAKIAKDSKETVQECVSEFISFITSEASDKCMQEKRKTINGDDLLWAMSTLGFDKYVEPLKLYLAKYREAVRGDKPEKSSG 162
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BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Match: D8RRZ5_SELML (CCAAT-box binding factor HAP3 n=5 Tax=Selaginella moellendorffii TaxID=88036 RepID=D8RRZ5_SELML)

HSP 1 Score: 150 bits (378), Expect = 8.870e-38
Identity = 82/156 (52.56%), Postives = 112/156 (71.79%), Query Frame = 2 
Query: 2405 SPQS-D*PMAEDAG----DDDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQECVSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLAKYRASVKGSKKTAAVGEGETGEETEEEGKREEKSLPSEPMAISL 2857
            SP+S D P ++DAG    + D   +REQDRFLPIANI+RI+K  LP NAK+AK++KET+QECVSEFI +IT++ASDKCQ EKRKTING+D++ +M+TLGF +Y+EPLK+YL KYR +           EG+ G   + EGK+++      P+  S+
Sbjct:    6 SPRSQDSPHSDDAGGHGGERDNSNVREQDRFLPIANISRIMKKALPANAKIAKDAKETVQECVSEFISFITSEASDKCQREKRKTINGDDLLWAMSTLGFEEYLEPLKIYLQKYRET-----------EGDKGSGVKGEGKKDQSMAVPSPVQSSM 150
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1.347.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LI34_ECTSI5.140e-5187.62CBFD_NFYB_HMF domain-containing protein n=1 Tax=Ec... [more]
A0A835YU51_9STRA3.000e-4171.82Nuclear transcription factor Y subunit B4 (Fragmen... [more]
A0A7S1U555_9STRA1.180e-3969.09Hypothetical protein n=1 Tax=Phaeomonas parva TaxI... [more]
A0A6U1F424_9STRA1.790e-3970.48Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
A0A6H5L5I3_9PHAE2.210e-3972.73CBFD_NFYB_HMF domain-containing protein n=2 Tax=Ec... [more]
A0A7S2EHZ1_TRICV2.790e-3866.06Hypothetical protein (Fragment) n=1 Tax=Trieres ch... [more]
A0A4D9DEI5_9STRA3.620e-3870.59CBFD_NFYB_HMF domain-containing protein n=2 Tax=Mo... [more]
A0A7S0R8U3_9CHLO3.770e-3867.54Hypothetical protein n=1 Tax=Pyramimonas obovata T... [more]
A0A7S2IGW8_9STRA5.520e-3866.97Hypothetical protein n=1 Tax=Helicotheca tamesis T... [more]
D8RRZ5_SELML8.870e-3852.56CCAAT-box binding factor HAP3 n=5 Tax=Selaginella ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1contigP-littoralis_Contig1:1531233..1548525 -
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.D8LI34
Preferred nameNFYB
PFAMsCBFD_NFYB_HMF
Model size4752
Max annot lvl2759|Eukaryota
KEGG koko:K08065,ko:K14799
KEGG Pathwayko04612,ko05152,ko05166,map04612,map05152,map05166
Hectar predicted targeting categoryother localisation
GOsGO:0000976,GO:0000981,GO:0001067,GO:0001654,GO:0001932,GO:0001934,GO:0003674,GO:0003676,GO:0003677,GO:0003690,GO:0003700,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005667,GO:0006139,GO:0006351,GO:0006355,GO:0006357,GO:0006366,GO:0006725,GO:0006807,GO:0007275,GO:0007399,GO:0007423,GO:0008134,GO:0008150,GO:0008152,GO:0009058,GO:0009059,GO:0009889,GO:0009891,GO:0009893,GO:0009966,GO:0009967,GO:0009987,GO:0010033,GO:0010467,GO:0010468,GO:0010556,GO:0010557,GO:0010562,GO:0010604,GO:0010628,GO:0010646,GO:0010647,GO:0010720,GO:0010941,GO:0016070,GO:0016602,GO:0018130,GO:0019216,GO:0019218,GO:0019219,GO:0019220,GO:0019222,GO:0019438,GO:0022008,GO:0022603,GO:0023051,GO:0023056,GO:0030154,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031399,GO:0031401,GO:0031974,GO:0031981,GO:0032268,GO:0032270,GO:0032501,GO:0032502,GO:0032774,GO:0032991,GO:0032993,GO:0034097,GO:0034641,GO:0034645,GO:0034654,GO:0042221,GO:0042325,GO:0042327,GO:0042981,GO:0043066,GO:0043067,GO:0043069,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043233,GO:0043408,GO:0043410,GO:0043565,GO:0044212,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044271,GO:0044422,GO:0044424,GO:0044428,GO:0044446,GO:0044464,GO:0044798,GO:0044877,GO:0045540,GO:0045595,GO:0045597,GO:0045664,GO:0045666,GO:0045676,GO:0045678,GO:0045893,GO:0045935,GO:0045937,GO:0046483,GO:0046532,GO:0046534,GO:0046890,GO:0048513,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048584,GO:0048699,GO:0048731,GO:0048749,GO:0048856,GO:0048869,GO:0050767,GO:0050769,GO:0050789,GO:0050793,GO:0050794,GO:0050810,GO:0050896,GO:0051094,GO:0051171,GO:0051173,GO:0051174,GO:0051239,GO:0051240,GO:0051246,GO:0051247,GO:0051252,GO:0051254,GO:0051716,GO:0051960,GO:0051962,GO:0060255,GO:0060284,GO:0060548,GO:0062012,GO:0065007,GO:0070013,GO:0070491,GO:0070887,GO:0071310,GO:0071345,GO:0071704,GO:0080090,GO:0090181,GO:0090304,GO:0090575,GO:0097159,GO:0097659,GO:0106118,GO:0140110,GO:1901360,GO:1901362,GO:1901363,GO:1901576,GO:1902531,GO:1902533,GO:1902680,GO:1902930,GO:1903506,GO:1903508,GO:1990823,GO:1990830,GO:1990837,GO:2000026,GO:2000027,GO:2000112,GO:2001141
Exons2
Evalue1.43e-58
EggNOG OGsCOG2036@1|root,KOG0869@2759|Eukaryota
Ec32 ortholog descriptionHistone-like transcription factor, NF-YB subunit
Ec32 orthologEc-04_003060.1
Descriptionprotein heterodimerization activity
Cds size504
COG categoryK
BRITEko00000,ko00001,ko03000,ko03009
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789321.3422644-UTR-P-littoralis_Contig1:1531232..15330551680789321.3422644-UTR-P-littoralis_Contig1:1531232..1533055Pylaiella littoralis U1_48UTRP-littoralis_Contig1 1531233..1533055 -
1680789321.3774254-UTR-P-littoralis_Contig1:1546100..15485251680789321.3774254-UTR-P-littoralis_Contig1:1546100..1548525Pylaiella littoralis U1_48UTRP-littoralis_Contig1 1546101..1548525 -


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

Feature NameUnique NameSpeciesTypePosition
1680789321.3569317-CDS-P-littoralis_Contig1:1533055..15334151680789321.3569317-CDS-P-littoralis_Contig1:1533055..1533415Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1533056..1533415 -
1680789321.3662271-CDS-P-littoralis_Contig1:1545956..15461001680789321.3662271-CDS-P-littoralis_Contig1:1545956..1546100Pylaiella littoralis U1_48CDSP-littoralis_Contig1 1545957..1546100 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1.347.1prot_P-littoralis_Contig1.347.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1 1533056..1546100 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1.347.1

>prot_P-littoralis_Contig1.347.1 ID=prot_P-littoralis_Contig1.347.1|Name=mRNA_P-littoralis_Contig1.347.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=168bp
MAEDAGDDDVEELREQDRFLPIANINRIVKSRLPCNAKVAKESKETIQEC
VSEFICWITADASDKCQDEKRKTINGEDIVTSMNTLGFADYIEPLKVYLA
KYRASVKGSKKTAAVGEGETGEETEEEGKREEKSLPSEPMAISLQGGDGG
GGSGAGGGGGYGMEKGF*
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mRNA from alignment at P-littoralis_Contig1:1531233..1548525-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1.347.1 ID=mRNA_P-littoralis_Contig1.347.1|Name=mRNA_P-littoralis_Contig1.347.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=17293bp|location=Sequence derived from alignment at P-littoralis_Contig1:1531233..1548525- (Pylaiella littoralis U1_48)
GCTGAAAAAGTTGTAGATAATGGCTGCAGCTGTGCGCTAATTCGCGAAAT
GTTTGTTTTCCACGTCGGGTGTAACGTTAGCGTTCATGCCGTTCTGCTGT
GGCACCCCGTGTTGAGGTCGAATTTTACATGTTTAATGCGGAAACGATAC
TTCCAAGTATTGTACGACTTTTGAGCAATCGTGAACTGAAAATGTTGTTC
CCCTATTTTGAGAAAGTCGGGTTGTTGATTTTAGCGGCATGCCAACTGCC
ACATAAATTGCCTGCTCGGCGAGACACAGAAATCTGGCCTCGCAAAGAGC
GCCATTTGAAGAGTCGTAGAGGAAGGACAGCCGAGGGCAGGGAATTCGAT
CCCGAGTGTCTTTTTGTCCGAAGCAGCATTCACGATAAGGCAAAGAAGAC
ATAAAATCAAGGCCAGATAGGTCCACCGCTTGTTTATCACGAGACACAGC
CAAATCTCTTTTGAATGCAGATTGGTCTGCCGTTCGTTGGTTGCCGTCGA
GGCCTGTGGACGCGCCGTTTGTCTCCCTTGTCTGCTCACAGTAGCCAAGT
TGCCCCCATTCCCTGTTCAGCAATGTTAACTTTTGTTGAGTGGAAACGGT
TAAAGTGCTCATCGTTGCGCATACCACATACACACAAACGGGCACGTGTG
CGTACTACGGTAGGCAATCATTTTCAGCTGTGTGGCGGGATGTGTCTCAA
GTAAAGCTGAGTTGTGGGCTATGTCCAATTGGTGCCTCGAAGAAATTGTT
CTGGCCACGGTGCAAGTGCGGTCTACGCAGCATGCTTGAGTTCGTTGAAC
GAGACTACGGCGCACGTGTATGAGACCTTCTCTCGCGTGCGCTCGCTTGG
CACGTTAGTTACGTCTTGCCCTTGCAGTCATTCATTGCTATTTGTGTGTA
GCGTAGGGCCACTGTCACTGTTGTTTTTGCGCCATAATCCCATCTCGCTC
TCGAGAACAAAAAAAACAAAATGAGTTTACGCATTTCATTCGTTCATCGA
CGCCAATGTGAACGTAGGCTACCCTCCGTTGAGATGTCGTAGTAGAGGGT
CCCAAAGGAGAGTGGTCGTATCGGCCCACGACCGAGGGCACAGACAATGT
TTTCGTCGCTAGGTTGATCAAAGAGTCCAGAAGTAAGGCGGCAAAGAGAG
TGGCCAAAGTATCGACAGCTTGCCCTTCGAAAGGGAGGCCGAGATTTCCA
TAGGAAAAGTATTAGGAGATCGACACGCACGCCTCGACCCAATATTCCGA
GAGGAGTATCTGGCTTCCTATCTTATTGTATCACACGAAGTACAATGGTT
AAGATATGACTAGCCATCAACAAACGACACCCGAGTGTGTTCCGTGACAG
ATACTCCGATTGAAAGACGATGAAGTGCTAGTTATTATTCCGATCATCCC
GCACGTTCTTTCAAATGATATGGTGGAGCGGGGCCTTTCTTTTCCTCACA
AGTACAGCACAAGAGTCTCTTTTTTTTCACTCTCGACGGGCGGGTTCTCT
TCAACCACGGATAGATGGTGATGCAGACAGTTGAAGAAAGCCGATTATTG
CATGTTAATCACATACCAGCGCTTTCCTTACATGACAGTGTTACGTAACA
GACGAATGTCGGAAGTACCGACACTTGAATTCACGGTAAAATACTTCGAG
TTAGTATGCAAAGCTGGCGATCCGCGTTCTACGGCGCCACGTGTGTCCTG
CTACATCCTGCTGCTTCTGTATTGTATGATAGCTCTGTTGGGAAAGTGGA
ATTACAAGCAGAGTGGTGGAGTCATTGCAGCTAAAAATAAGCCGTTTTGA
ACGAATAGGGATTGATTGTGGGCTCGGCAAAGACACAAGGGTGGGGCATT
AGTCCGAACTGTAGTCAGTAGCACCACAGACGGCGGTACTTGCACGGTTA
CGGGTAAACAAAATGTTTACTTCGTGCAATATTGTACGAAGTATATTGTA
TGATACATAATGTTGTTGTGTGTGTGTGTGTGTTGTCATCCCTTTAATTG
GGCGCCACTCTGCAATCTTCGGGTAGGTGTGTGTGTGTGTGTGTGTGTTG
TCATCCCTTTAATTGGGCGCCACTCTGCAATCTCCGGGTACGTCGACGCT
CCAACTCGGGTCACACAGAGGGAAGTCAACACAGGAGTTTTTTTTTTTGG
CTGTACCAGGTAATGTTTTGATGTGAAACGTTGGCGAAACGCCCCCCCGG
AAAGAAACGGTTTCATATGATGTGAGAGCTGTTCGTCGGCAACTATTCCG
TTAGGTCCGGAGTTTGTGCATGTTCGTGACGGCTGTTGTCCGGAACGTCA
ACTTCGCCGCTCGGCGCTTGCCGGATTTCCTCGAGGAGGCAAAGGCCGAG
GAGGGAGCAGCATCAAGCGATAGAAGTTGGTTCTGCCTCGATCAAGGCAG
GCGATCACCACAAAGCGACTGACCCATGGCGGAGGACGCAGGGGATGACG
ACGTTGAGGAACTGCGGGAGCAAGACCGATTTCTGCCGATCGCCAATATC
AATCGGATCGTTAAATCACGTCTCCCTTGCAATGCCAAGGTTGCCAAGGA
ATCAAAGGAAACAATACAGGTATGTGGAACTGCGTCGCCGTTGCAAAAGT
GCTACTGCCGTGTACTCTTGGTGTGGGCTGTGTGTGGCGTGGAAAACGCG
AAAACGTCGGGTGCTTGGGAACATAAGTCAGATTTTTAGTACTTCGAAGT
ACCAGTTTCCCGACAGGGGTTGGTGGGATACACCTGATCACCTGATGCTC
TGGCGGTTGTGACATCCATACACCAGGGGTCACTAGTGCACAGCGGTGAC
ATCGACCATCGTGCACACACACCCGCCCCGCCCCGCAGGACGTAGCGACA
GCAGCACCAGCACCACCAGCAGCGTAGTACTTCTTCTCCTTTGTGACTTG
TGTTCTGTACACACCCGTACAGCATTCAAGAATATTCTCGCGGTTGGTTG
ATTAATTTCTAGCGGTTTGGGGGCGCACCCTCTCTAAATAGATGCGTCCT
CGGGGTGTTTTCGTAGAGTGATTATGACATCGAGAGTCCACGATAACCAT
GGCGATACTGGCCCTGTCGCCGTCTTCTGGCTGCTATACTTGGCGTGGAT
ATCTCTCTCGAATGAATTCTCTAGACAACTCCGAGAACGAACCCTCTTGT
CGCTCTGTCTCCTTCTCCCCCCACGATCTATCTTTCGGCGGAATCCGTCG
GGATTCTTGCAGATGCTTTTTGGCGCTTTTGGGAACATCATGTTCCTTTC
GTTTCACCGTGTGATCTGTGTCGAGAAAACCACCCGGGGCGCGCGGGGGG
CTCTCCTCGTATATTCACCACACCACACCAGCCACAGCAGTTCATCCTCA
CTAATCTAGGAAGACAGGTTTCTGGCGCATGAAAGGGGGCGGAGCGGGGT
GGACGTGGTGTGTGTTTTCACTCTTCTTTTGTACTAAAGACGCCGGCCTG
TGCACCACGTAGCAGACACAACAAAATGCGTCACGAATGATGTCATGCAG
ATACCAGTCATTTACTTTATAGGCGGGAAATCCGAAAACCATCGGACTCC
CAACAAATCCCGACAACAACAAACAGCTCTACCACGGCTGCCCGTAGTAG
TGATTCCAGAAAATGAATGCTTGTCTAATCAGGTGCTAGGTAGCGCCTAT
GCTTGTTCCACTAACGCCGTGATAGAACAGGGGGTGACTGAACATGGAGG
GGGACCGATTCTTTGCGTTAATTATTTCAGCAGCAGCAGCAGTGTGAGGC
ACGCACGTATCATGTACAGTATGAATGTTGGTGTGATGTTCGTGTGTTCT
CTTCACAAAAAAAACGCTCCGATCTCAATACTGCTGTACTCACCTTCTAA
TGTGTAGCTGCTCATCCGATAGGGGATGCTTTCCGTGCTTACCACAAAGG
CGACCTGATCGGAGAACTACAACAATGTCGAAAACAGGTACCGTACGTAG
TAGTTACCATTACATATACGCGGGGTGATAATAGCAAGACGAACAAGGAA
GTATACAAGAGCACATTGTTGTGTATGTATGTAGTAGTCTCAACCCAAAA
TAGAAACAATAAAGGAGAAATGTAATTATCATGTGTTGTCATCCCATGTT
CTCTGGCACACTAGTCTGCAAACTACAGGCTAGGCCCATCGACGGGGTCA
CACAGGAGGAAGGTCAACACAGGAGGAGTTACCCCCACCTTCCTTCTGCG
GTACATGCGTGAGATTTTTTCTCGCGAGCAGGGGTCCGCGGTCCCTACCC
TCGTCGGCGAAGCCGAATCTGATTTTACTAACAGCATAGCCGCTTTCAAA
GTAGCAAAGGAACACATTCACCGGGAATCGAACCCCCGTTCCTCTGCATC
TAGTGGTTAACGAGGGACCACTAGTCCACCGGGGCGACCGGTGTGTGTAT
TCATAGGTGGTGTCAGTTGCCGAGCTCAAGCATCGAGAGGATGCAACTCC
CCATCGACCTAATCGAACAAGATAAAGAACCACCAACAAAGTTGATAAAA
GAAGAGAAACACAGAAAAGAGAAAGAAAATACGGAATACAGCAGTATTAT
GAATCGCAGTCATCAGGACGCGGCAACAACAGGGGGGGGGCGCAAATGAG
GCGGGCGGAAGGGATTACAGTACCGGCCCTCTCACAAAAAATGCCTATAT
AAGAAATCCAGCCTCAGATTTAAAAAAAAACAAGAAATTAGGCCTAAGAA
ATTAGGCTCAGCGGCGCGCGCCACACTAAATCCTATATACTTGGCCTGTG
CTTACAGTGATGGGGACAAGATAAGGTTTTGAGCCTCTCGCTCAAAACTA
GTGTTTCTTATGAGTGCGCTCTTTCACAGCAAAGCAGTCATTAAGTGAAT
CTGGTGCGTGCCGTGCTAGATGTTCCGTCTCTTCTCTCTTGCTCTTCTCG
GCCGCGGTTGTTAACAGGGCAAACGCCTAAAAGCGGTATACCGCCATGGT
TCCGCGCCACAAAGCGGTACACCAAATTACACCTTGGCATTTGAGCCCCG
TTCGCGTCGCTGATTGGCCAACTAAGCCTCGTATCGCTTTCTGGCACCAG
CAACCGGCGGTATATCACTTTTGGGCCTCTCAGGTCGGCCTTCACCGCTT
TTTGGCGTAACCCACACCGCTTTCTGGCGTGATATTCCGCAGACCATTTA
TTCATTCATTCGCCGAACAGCCCTCCCCACTTTCATATCACACGTCACAC
CATCGATCAACCAAAGGAATGGATCAACCAAGAACGCCATACGGCTCCAC
GTCGTACCCCCACACCCCACACCGATCCCTGCAGGATGGTTGGTGCCGAT
GTGCGTGACAGAATACCAAATCGATCACCAATATCGAGGCACTGTGCTGT
CAAGCCGTGACCCCAGGCACCCTCATTATCACAGATGGCACGCGTACACG
CGCACACATCAATACGTGCCAGTTGTGACCCACGCGATCGCCACACCGCC
CTGGCGGCGTCTTAAGCACATGAGGGCAAACACCTGCTGCACACATTAAT
GACGCACCGCTGATTCGACAGACTCTTCGGGGTTTACATTCTTCCACCCT
GTAGAAGGATAGCCCGGCCGCTATTACGAGCCGGCAGAGGTAGCATGCTG
GATTCATTCCTGGTTCCGGTGTGTTTGCCCATCATGTTGTCTATTTAAGT
ATCATTCAATTGCCCGGAAATAATGCCCGATTTTTCCGGGTATGTGCCTG
GTTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATC
AACAACAACAACAACCCTGTAATCATGCGAGTCATCGCACCCCCGTGTTA
GCTTTTTTGCATTCCGTATTGCTCCACAACCAGGAGAGTACCACTGCCGA
AAAGGGTGGTTTTGGAAAGATCTCGTCGAGAGCTTTCGTATTACGGGTCG
TCTGGTGTTCGCACTCTCCTGGTTATGGAGCAATACGGAATGCAAAAAAG
CTAACACGGGGGTGCGATGACTCGCATGATTACGGTACATGCAATTGCAT
ACAACTTGTACATCTTTTGCGCATTGATTGGTAGGCCTGGATGGGATCGA
TTTCAGTGTAGGAGAAAATTTTGACACTTCGTTTTCGAGCGTTGCATTCC
CCTTCCTTGTAGTCGTATAATTTATGGTCGATTTGGTCTTCTGTCACGCA
CATCGGTACCAACCATCCTGCAGGGATCGGTGTGAGGTGTGGGGGTACGA
CGTGGAGCTCACGAGGTGCCGTGGCTTTCTTGGTTGATCCATTCCCTTGG
TTGATCGATGGTGTGACGTGTGATATGAAAGTGGGGAGGGCTGTTCGGCG
AATGAATGAATAAATGGTCTGCGGAATATCACGCCAGAAAGCGGTGTGGG
TTACGCCAAAAAGCGGTGAAGGCCGACCTGAGAGCCCCAAAAGTGATATA
CCGCCGGTTGCTGGTGCCAGAAAGCGATACGGGGCTTAGTTGGCCAATCA
GCGACGCGAACGGGGCTCAAATGCCAAGGTGTAATTTGGTGTACCGCTTT
GTGGCGCGGAACCATGGCGGTATACCGCTTTTAGGCGTTTGCCCTTGTTA
ATACGTTATTCCGGATCTTTCTACGCTTGCTTCCCCGAGATCCCCCCTTT
CCCACTTCTTCTCCTCCTGTGTTATCTCCTCGGTCGCACTGGTTTCTTCC
TTGTCTCGATTTCCCGCTCGTTTCCTGCCTTCCTCCTTCTCACCCTCTCT
GAACCACAGCACCCCCTTCTTCTCCTGCAGCGCGGCATTTGTCCACAGGG
CTGTGCCAATATCAAGCGTAAGGCGCCGAGTACAAAATTTTCTTGATGAT
GCTGTTCGTTTCGCTCACACATACAAGATAAAGCAGCTGATAGGCCCTGT
CTAATCATTCCGGATTTTTGCCGAGAAACAGAGAACCATTCCCGGGAAAC
ATGAACTGAATTCCGCTCTGTTCTAAACGATTGGGCGAGTATTTGTTATC
AAAATGCCTTTCCTCTGTTTTTTATCCTGAAGCCCGAGCTTCTTCCCGCC
CACAGCAGTCACGCCGCATCCGAACTCTAGACGCCAAGCGAAGCATCCGA
AGGCGCTTCCTCCCATCAGCCATGGCCTTAGGGCGACCCTGTGAACTCAC
TGTGTGGTTGTGTGGCCTGGGGATGGCGTGCATACGACAGCTCGTTCGTG
TGAACTGAGCACCTATGCAGGCGTGCCCGAACTTGGAGGCACGTCTGCCC
GAAATGCGGGTTCAAATTTCCGGGAACCCTGAAATGGGTATTTCGGGATT
TTTTGGGCAGTGCTCATTTCAGGGAAACCGAGAAGAACGCCTGCATGTTG
TCGGAGATTTTAGGTTTCCAATAATGGTTCTCTGTCTCCCGGCAAAAATC
CGCAATGATTAGACAGACCCTTACACAAACACATAATTGTTACTTCGAAG
TACAAAATATCGTATTCCCTTTTTCGAAGTACAAATTACGCAAGCGCGAC
ACCTACCGCAACCCTCTCTCTCTCACAATCAAGGAATTTTCCCTTTCACC
ATGTCTCACCTGGGGCCCAACAAATGTTTTGGTCGCCTCGACCCACCGCG
ACACCCCCAGTGGCAATCTACCACTATCAATATCCAACAACCAAGCCCCC
TTTCACCAGTCCGTTGTAAAACAGTTAACTCTCTGAGTATCAATAAAAAC
ATCCCATCAGGCACTCGTCCTCCAGATGCCGCTGTCCGCTGCTCTTCACG
TTCGAAGAACAGTAGGGCGAGTGGGGAGGGTGGGAAAACGACAACAATAC
CCGTACTAGTTCCCGAACAAGGCTCGCCAATAGGCAGAGGTATAGCGGTG
TTGTGCGCTCACACGTGTGTGAGAGACGTTTTCGTTTTCCGACTGAGCCA
TGTTGGGGGTGACCCGACTGGCTGCCTTCTTCGCAGAAAACTAATACAAT
GACATCGTCTATCAATAAACTGTACTTGGAAGTACTTCCGAGCTATTATC
TTCCCTGCTGTTGAGAGCCGCTCGAAAGACAGACCCGCTGTATTGTTTTT
TCTTCCGTATCGACCTGTCATTTCTATGTCATATTACGATTTGCTATATA
CCGTAAAACCCTCTGCCCCCCCCCCTTGGCTTTCCCCGCCCCCCCCTATT
TTTCGGCCGAAAAGCATCAAAACTTGGTTTTACCCCCGGGGGGAACAAGA
TTAAAAAAAGGGCAGACGCCAAAAAGCGGTATACCGCCTGGTTTCCGCGC
CACAGAGCGGTACACCAAAATATACCTGGGCATTTGAGCCCCGTGCGCGT
CTCTGATTGGCCGATTAAGCCTCGTGACGCTTCTTGGCACCTCCAGTCGG
CGGTACATCACATCTGGGCTTCTCAGGTCGGCTGTCACCGCTTTTTGGCG
CGACCCGTACCGCTTGCTGGCGGGGTATTCCCCAGGCCATTCGCCCAACA
GCCTTTGAAAATTCCAAATCAGGCATTAACCAAGAAAGCCAAGTCACCTA
GTTACAGAGAGAGCCCCCCGGCCCTTTGTCGGTGAATGACCTCTCGGCAC
GTTCTCCGCGCATTTTCTCTGCACCCGACCCCTTCGGGACTTTACAGCTT
GCCAGCTTGTTGCTGAAAGCTGACGCGTGCTTCTGCGTTGCTCTGCAAGA
AGCTGGCAAGAAGGCCAGAACAATTACCACTGCTGCTGCTGCTGCTGTAA
AACACGCACACACCCACACGGTGCTGCCCCTGACCAGAACAAAAGACCGA
CCACGGGGAAGACTCGCGCCCCCGCAAACAAACACACACATGCATACATA
CACGAACGATGGCATGCACCTGATTTGACAGGCTCGGATGCATGTCATGT
ATGTGTATGGTATTCCCTGCTTTGCGTACGTACTTCGAAGTATTAGTCTA
GTAGGACCGGATATAATGCAAGTTGTTTTTGTTGCCAAAAATAAATGGCA
ACGTTTATTTTTCGGGGCCTCACACGGCAGACGGCAGTGTGTATGTTTGT
GCCGGGGGTGTGAGTCGCGTTCTCACATGGTCTGCTACTGTTGTTCTGGT
TTTACAGCAGCAGCAGCAGTGGTTGTTCTGGTCTTCTTGCCAGCTTTCTT
GCAGAGCAACGCAGAAGCACGCATCAGCTTGCAGCAACAAGCTGGCAAGC
TGTAAAGTCCCGAAGGGGTCGGGTGCAGAGAAAATGCGCGGAGAACGTGC
CGAGAGGTCATTCACCGACAAAGGGCCGGGGGGCTCTCTCTGTAACTAGG
TGACTTGGCTTTCTTGGTTAATGCCTTATTTGGAATTTTCAAAGGCTGTT
GGGCGAATGGCCTGGGGAATTACCCCGCCAGCAAGCGGTACGGGTCGCGC
CAAAAAGCGGTGACAGCCGACCTGAGAAGCCCAGATGTGATGTACCGCCG
ACTGGTGGTGTCAAAAAGCGTTACGAGGCTCAATCGGCCAATCAGCGACG
CGAACGGGGCTCAAATGCCCAGGTGTATTTTGGTGTACCGCTTTGTGGCG
CGGAAACCAGGCGGTATACCGCTTGTTGACGTCTGCCCAGAAAAAAACGT
TCCCCCCCTGGCACGATTTCCCGGACTGCCTTCGCAGCTTGATTAAGTAA
ACATAAAGGATAAAGTGTAGGATTGGCCGACTTTTTCCCCATAGTTTGCC
CTATATGTAAGCTTCTGTCAGAAAAATGAAAAGAGTAAAAAAAAAGTTGA
TGTGATGCGAAGGGGCTGTCTACTAATAACGCTATCCCTAACCCTAACCC
TAACCCTAACCCCAAACCCCGACACTTGGGCCTTTTTCCATAACCAAGGC
CAATATGGATCCTACAACTCCTCCGCGCGCAGGCGGCGAGATTATGTTCG
GTCATTTCCATAATATATCCTACTGGTACATGTTTTTTGAAATGGATCTG
CGTAGGCTACTGGATTTCCCCGGGGTAATATTTTTCCGATGGATGCCCCA
CCTGGGTATTTGTTGTACGGGATTTTTCTTTCGCTTTTGGCGTCACCGCG
GGAGTGAAAAGCGGCGGCTCTTGGGGCCGAACAAGCCGCTTTCATTCATT
CGGCACTTGTTCGAGGGCACTTGCTTTGATGGGGTTATTGCATGCATTGG
TCATCATCTACCGTCGATGTTGGGGATGTTTGTTCGCGTTGTTTGGTGGT
GTGTTGTTATTGTTTACCACTGAAATGCAGAGCAGGTACTGCCTGTGTAT
GTGCATACAGTCATTTTGTTTTTGGGCTTTACTCCCCGGGGTTAGGTACC
CGCAAGAACAAAAAAATGGCTTTCCTCCCGTGGAGATTTCCCCCCGGGGT
AATATGTAGAAAAAAAAAGTCCCCCCCACGATTTCCCCCCCGGGGGTAGT
GTTTTCAGAAAAAAAAATCCTCCCGCCGGGGGGAAAACAGAGGGTTTTGC
GGTAGTCTCGAAGGTCCCTCGCTGGCAAAACAGTGACACCTGTCGCAACC
CTTTTCTCATCCAGGACCAAGGTTTCCTTCCATTTCAACTGGCAGCAACT
TAATGCTGTCTCGATATACCGAGACCCCCAGTGGTAAACTATCGCTGAAT
ACCGCGATCAACATCAAGGTTGTATATACGAGTAGGGATTGTCGTTTGTT
GTTCCCCTTGGCTGCTTGCCCACTTGCTATCCTGCACTAGCACACGTCCC
TTAGGCTAGCTCACGAGGCAGGATTGTGGCACACGGAAGGGGGCGGAATG
CGGTGGATGAGTATTACGGACGTGTATGTGTTTGCATTTTACTAAACATC
AATCATATTAAACGACCTGCCTGCGCGCGCGGCACATACACTTGCAAGAA
CAGCGACAATTTTTGTTTTTTACGCATGAGATAGAGGCAAATATTTCAGG
CGGAAAATTCGAAAAACGTTCGGATTAAAAAAACTCCGAAAACGAACAAA
CAGCTCTGCACCGTGTACTGGGTAGCAGTCATTCCAGAATGCTTCTCGTT
CTGACGGACATGTAGCGCCACTTGCTTGTTGCACTCACATCATGATAAAA
CCCATAGTGGGGGGGTCATTGTGTTGCTCATTGCACAGGAAACTCATTTA
TCTCATCAAAACGTACAACATAATTTTACTGTTGATTTTGTTTTTTTAGC
TCGTGAGAAACATTCATTCTCAAACAAACGCGTCATTCCAAAGGAGATCC
CGGTGACAGTAAACCCTGACGAGTTCTCAGTGCGCATGCTTGCTTTCAAA
TGTTTTAATGGGGGGACGATTGAGTTTGTTAGATTAAGTCTTATCAAAAC
GCCGCAAGCAATCTTACTACACATTTTTACTTGATACCCTGGTACTGGTA
TGGAAAAAATAGCTCTTGTGTTGTGTATTTTATTATGGAGTTCAGGACCC
TCCGGTCGCTCCGGTGGTTCAGAAGGTAATCTCGAAACCTTTGAACACCT
GGGTGCAGGGTCGTGAGTACGAATACCGATAAACCGATATTTTTTCTCTC
ACAACACCTACAGAGAGGCTATTATTTCGGGCGTAAAAAATAGTTGACCG
GCAAAAAAGTCGACGAGAGAAAGCCACGGTCAAATCCTTCTCGCAACAAA
AATTTCGACGAGCATCGCAGCGAAGGGAGGTGCGGACAAGAAAAACAAAA
GAAACCCCTGCGTTGACCTTTCTCCTGTTGTGTGACCCCGGCTGTACGCG
CTCGACTCATACCGAAGGCGTGTCTGGCGTGGAAAATGGATGGGATGACA
ACGTGCACACAACACACGCACACACACTGGGATAACGCATTGTTCTCTTC
GTTCCACAGAAAACAAATCCGTAGTCGTTCATGGCACGCACCTGTTTGTC
AATTTGTAGAAGGCTTCACTTGTTTTGCGCAACCGTGGTTCATGTTAAAG
CTGAACACACACACCCGCACACCCACCCACACACACACACACTGCTTGGA
GTCGGCGATGACATGTTTGGCCGCGCCCACACCTATTTTGGCTTCTTCCC
ATAGTATCGCATGTAGCGTGTGGCAACGGGATGTTCTCATCTCGTATCAT
TGTTCATGCTCTTCAGGGGGGGAACGCCACATCGCAATAAACAATGAATG
GTCCAAGCAACGGCAGCTGTCATGATAGAGGTCAAGTGATAACCGGCAGC
CGTGTGGACGTATCCGACTACTGCTGTAGCAGATAGAAATGTTAAACGTA
GCAGATAATGCGTACCAAGTTAATGTGTGATGCAGACGCATACAAGGGCC
TATAATTAGGGCCAAATATATAGGAGCTCATCCAAAGTGCTGCAGCCACT
GTGGCACTGTGCCGGGTAGGTTTCCCAGCCACGGACTGTTGTGCCATATA
TATGGATGCAACGTGTTGCGTGATGCCTTCGCTGCACAACGTACCCTGCT
CTCGTGACCTGACAGGTGTACACAAGCTGACCAAGACTGTAGCCAATCCG
GTTGTGGCGCGAGGAAATAACGCGTGTCCTACATGCCCGACATATACAAC
TATTCGTTTGTATGTTTATGTACTGGAAGGCAGCGTCAACGCCGCAACGA
ACGTGCCAAACCTCTTCTTACTCGCAGAGACTTAAAACTCCATTAAACTC
AACGCTCAGCAGCGCATAGTTCAACACACAGTAGACCTCCGGACCTTTAC
ACGTACATCCCTCCATCTGGGGAAACCAAATATAAAAACACGGACTTTGA
ACTTCCTGCGCAAACAATAATCCAAATTATAACGCGTGTCGAGCCAGAGC
GACAGCCAAGCAGCACCTCCCCGTCTCGGCGGTCTCGTTTACACGTCATA
GATGCATCGACCGCCTTGCCCAACGTGGACAAAACGTATTTTCAACCGCC
TGGAGGGCACCACGCCACACTCACAGCGCAGCCTCCGACCCACGCTGTAC
ACAGTATTTGGATGGGATGGTATTACCATCAATGATGGGATGGTGATGGG
ATGGTAGTTGAAGGTACGAAGAAATTTGGTCCCATCACCAGCTACCATCC
CATCGCCATCACGACCTCAGCAGTTACCATCTGATGGGAAGTCTGCATTT
GCCATCCCATCGGCTGTACCATCCCAGCACCAGGAGTTACCTACCATCCC
ATCCACATCCCACATCTTGGACTTACCTCCATCCCGCCGAACTCCACGCC
GAGCCACCCCGATACGACACCCACCTTTACAGTATATCAGTGCCGTAGTG
AGTACCCATTTTTCAACACAATGCTGAGGGTTGTACCCACCCCCCACCTC
CACTGTCACTTTCGGCATAGTGAGGGTATACACGGAGCAGGATAGTATAC
ACCACAGGGAGTGGGGTGGCTACGGTACAGCATCTAGCACTTTTTTAACC
GCCGTGCGATGAACACACAGCACACCAGAAGAATGTCGACCCCTACTGCT
GGCCGCACGCCGGCCACAGCAGCTGCCAAGTCTGCATCAGATGGCGCCGC
CGGTGCTAGCTCTGCAGGAGCATCGCAACCTGCAGCACCCACAATTCCTA
CTGCTCAAATTAATATTATGCTGGAATTTTGAAAAATTTCAGAATATTTT
TTTGGTTGTCAAGAAAAACCAGCTGAGAAAAAAAAAAACGGGTGCCCCCA
TACAAAGGTCCACACATAGCTTTCCCATCACTCCTAAAAAGAATACCACC
ACCGTGATGGTGGTCAGTAGGCTCACCATCCCATCATACACCATCTACAT
GTACCATCCATCCCACCACATGGGTAACGAGCGACCCCATCCCATCCCAT
CAGCACCCGGCGCTCAATACCATCCCATCCCATCAACAGAATGTGCTCTA
CCTCACCATCCCGTCTCAATACCATCAGCAAGCGACAAAAATACCATCCC
ATCCCATCTGATGGTGAGCCTGAAACATTTTCCGCCTGCGGCGGGCTTTT
TATTACCATCCCATCCCACACGGTGCCTTCGGCACCGTGTACAACCCTGG
CAGAAAGACGTGGGTCGGAGCCTGCGCTGTGAGTGTGGCATTCTGCGGAA
CAAGCACCTCAAAGGGGACCCAGCACGTTCCTAAATACGGAAAACCCTTA
GAAACCGCCGGCAGCTGTCAGTGAACAACAACACGTTCCTCGAACGCACC
GACGTGGTTGGGTGGGTCGGAGGGTGGAGCTGTGGGAAGTTCCACCAGAT
ACAAGTACGAGAACCCCTGACTAAAGTACGCTCACTCGCCTTTGCTCGCG
TGAGTCAAATCAACAACTTAGTCGTGGGGGCGGATGTTGCCTCTCCGAAC
ACCTCAATACCTCTACTGCATTCTGATTGGCCAACGGATATTTGTTCGCT
CTCACAAAACTTAGCTCTCACCTCCTGAGTCCACATGCTTTTGTGACGGA
GTAGCTTGCTCAGCCATCGGGTAAAAGGTTAACCACCCGAGTGAGGACTA
CTCCTCTTAACACTCTCCGGCACTAATACCTGGATGGTAAGTGACAAGGA
CTAAGTTCGCCGGAAGGACCAGGTACTTTTTCCAAACAAGGTTTTGTTAG
CAAAGCTGGCTGTATTGAGCGTTACTTCATTTTCACGCATAGAGTTATCT
AAAAATAAGTGGGAGCCCCGTACTCGAACCTACATTTTTTTATCCGTCTC
AACGCCAAGTGTGACGGAGTAGCTTGCTCAGCCATCGGGTCAAAGGTTAA
CCATTTCCCCGAGTGAGGACTACACCTCTCAACCAGGGTTTTAAATGTGC
CGGAGGCACGTTCTACACCATAGCGCAGAATGTGGCGAAAGCTTTCTGCG
GCGCCGCAGGCGCCGTAAGCCCTCCGCAAGAGCCGCCGGAGGCCCCCCTC
CGGAGACAATGTTTTGGGTGTTGTACGCATGATTTGCGTTACTCTGCCGC
CATTTCTAGTGCGCCCGACAGGTTTTATGCAGCGACCCGTCAACCGTGTT
ACTACGATGATACCACATTGTGACCATGCAAACACTAACGGGAAATACTT
AGCTCGAAAGTACGGTGTGCACCTTTTCGAATTGCACAGGTACAGAATAA
TTGCCATTCTAAAGCAGTAATACGTGCGTGCCTGTATGATATCCCAAAAA
GAAATACTTCGAGTACGAAGTAAACGATATCTCATAACTAGAAAGTGGAC
CATTCGAGCCGGCCCCGCGAGGTTGCGCGCAGAAATAGAGGCGGAATGAA
TGATTTTTGTAAAGTAGACGATTGAATTGTCTACCCCTGTACGCTACACA
CGCATGACAGGAATGCGTGTCGGAGTTCATCTGTTGGATCACCGCCGATG
CCAGCGACAAGTGCCAAGACGAAAAGCGCAAGACTATCAACGGCGAAGAC
ATCGTGACCTCTATGAACACCCTGGGCTTCGCTGACTACATCGAGCCGCT
CAAGGTCTACCTCGCCAAGTACCGGGCGTCGGTCAAGGGGAGTAAGAAAA
CGGCAGCAGTAGGGGAAGGCGAAACGGGGGAAGAAACAGAGGAAGAGGGT
AAGCGGGAAGAAAAATCACTACCGAGCGAGCCCATGGCGATATCTCTTCA
AGGTGGCGATGGAGGTGGAGGATCGGGAGCGGGGGGCGGAGGGGGGTATG
GCATGGAGAAAGGATTCTGACAATCATAGATGTCGTGTCGGATGTGATGT
ACATACATGACAGTAGTCGTGAGGCGGGGGGTGGTCTAATTGATTTTAGA
TTTGAGCATGTTCTTGTGGGGGCAACATTGTGATGTTTAGTTTAGAACCC
GGCAGCAGATAAAATAAATGCAAATCCTGCCTGAAGGGGGGAGGAGGGAG
AGTGATATGAAATGCTTCCCACTGGGCACAGATAACGCATAGCCTGAGGA
GAGCAAGTCTCAAGCTCAATCTAAGTTGCAAGTACCATTCCACGCACGTT
GTTGACCACGACAGAAACAAAGCTACGAACATCGACCGTCTCTGTGAAAT
AACCAATGAATCGGGTATATAGGTATGATACGCATACAGCTGATGCGTTG
CCTCGTGTGTGTGGTCATCTAATCTATCCAATCTGGAGGCCAATCTACAC
ATTTCGGTATAAGTTGGGCGCACCAGCTGAGGTCACACAGAAGGAAAGTC
AACACAGGGCTTTTTTCTTCGTGGGAGGTATAATCACGGGGAGTTATGTT
GCACACTGCCCCAATGCTGGATGTTTTGGTTTAAGACAAAAATAACGTAA
ACGTGTGTCCCTAAGACATAGTCTGGTAAACGTCACAAGCCAATACTCCA
GTAGCGCATGTGTTGTTGGCCACGCCGCTGGCGTGTGGGCGGCCTTCGGT
ACCGTCTTTCACCAAAAGACTTGGAGGGCACACAACCGGTCTCGCTGCTT
ATCTACGCGTGTGTTTAGTTTTAATTTTACGAGCACAGCCGCTAAGGCTA
CACTTTAGCGACGACTACAATAGAGTTTCGGTGATTCGATAGCATCTTGC
GCAAAGTGGCGAAGCACAGTTATTAGTTATCCATGTTCTGTACTAGCCAT
CGGCGCATGTTCTGTACTAGCCGTCGGGGGGATATTTGCATCCAGAGTGG
GGGGGGTGTTTGACGAAGAAGAGGGTTTGCAGCCTGGAGAGTGCAAGCAG
TGCCTGCAGAGGGCGACATCGCAGTAACGATGTGGCGGTCAATATCCATG
CAGCAGCAGAGAGTACAGTCGGGATATGAAAGATTGTCTGCCTCTTACTA
TTTGTGTTCGCACATTTGTTGGTGGGGCTAGCGTTCACCTGTAGACGCTA
TTTCTATCTCAACAGGATTACAGGGGATACGGGTGCATGCTTGATACGCG
GCCACAATGGTGGTAAGCCACATTTGTGCGTAGACAGTTCTAATAGCAGC
AGTGGTCTGAGTGCAGATCCCAAAAGAGGAACAAAAGCTTCGTTGCTTGC
ACCGCATCCGCTAAGCCACACTAAAAAAACGGCTGCGACTTCGATGAAGC
AGCCGCTGCCCTCGAGCGCTCTTCAGCACCTCAACACCGCCTCAATTAGG
GGGTATGAGGTATTGCTTATCGCCCACGGTCTCTTGTCAGGTACGAGAGG
GCGTCCACCCTATTGGCATGAGCGACTTGGTCGCGGTGGTTGTCTGCACG
CGGACGCGATCTCAATGTCGGGCGCGAGGGACGGGGTTGAGCAGCATGGT
GGACAATTGCTAGTGTAGCATAGAGAGAGAGAAGGTGCCCGCAGTCAGTG
CACAACGACCACTTTAAGTATTCCGCGCGATCGTAGTTGTTCCTCCAGTA
CTGGCAAGTCCGTCGTGTTTATTTATTCTGTAAACTGCGTTTTGACTTAT
GCCAGGTAGCCGTCGTTATGTTGTCTCTACGCCGTGACGGATTGTCGAGA
AATACGAAGAACAAAGAAAAAGTGGCCGAGAGCTTAACACTTTCGAAGGA
ACATGTGATATATGAGTTGAAACCTCTTCGGAAGAGGATCACG
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Coding sequence (CDS) from alignment at P-littoralis_Contig1:1531233..1548525-

>mRNA_P-littoralis_Contig1.347.1 ID=mRNA_P-littoralis_Contig1.347.1|Name=mRNA_P-littoralis_Contig1.347.1|organism=Pylaiella littoralis U1_48|type=CDS|length=504bp|location=Sequence derived from alignment at P-littoralis_Contig1:1531233..1548525- (Pylaiella littoralis U1_48)
ATGGCGGAGGACGCAGGGGATGACGACGTTGAGGAACTGCGGGAGCAAGA
CCGATTTCTGCCGATCGCCAATATCAATCGGATCGTTAAATCACGTCTCC
CTTGCAATGCCAAGGTTGCCAAGGAATCAAAGGAAACAATACAGGAATGC
GTGTCGGAGTTCATCTGTTGGATCACCGCCGATGCCAGCGACAAGTGCCA
AGACGAAAAGCGCAAGACTATCAACGGCGAAGACATCGTGACCTCTATGA
ACACCCTGGGCTTCGCTGACTACATCGAGCCGCTCAAGGTCTACCTCGCC
AAGTACCGGGCGTCGGTCAAGGGGAGTAAGAAAACGGCAGCAGTAGGGGA
AGGCGAAACGGGGGAAGAAACAGAGGAAGAGGGTAAGCGGGAAGAAAAAT
CACTACCGAGCGAGCCCATGGCGATATCTCTTCAAGGTGGCGATGGAGGT
GGAGGATCGGGAGCGGGGGGCGGAGGGGGGTATGGCATGGAGAAAGGATT
CTGA
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