mRNA_A-nodosum_M_contig119.2.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview


Name	mRNA_A-nodosum_M_contig119.2.1
Unique Name	mRNA_A-nodosum_M_contig119.2.1
Type	mRNA
Organism	Ascophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))

Homology

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BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A6H5JL66_9PHAE (MFS domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JL66_9PHAE)

HSP 1 Score: 89.0 bits (219), Expect = 1.530e-17
Identity = 38/66 (57.58%), Postives = 55/66 (83.33%), Query Frame = 2

Query:  290 PSAFSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            PS FS+AID +G+GPFQ R++ +CG+G+A+D++E++V++F LE IA SF L +VGKG +GSASF G
Sbjct:   53 PSTFSEAIDRVGLGPFQKRLVIICGLGWAVDSMEVLVLAFALEAIATSFELSSVGKGLVGSASFFG 118

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BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A3M1GN84_9CHLR (MFS transporter n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3M1GN84_9CHLR)

HSP 1 Score: 62.4 bits (150), Expect = 2.500e-8
Identity = 29/67 (43.28%), Postives = 44/67 (65.67%), Query Frame = 2

Query:  287 TPSAFSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            TP  + D ID IG GPFQ +++ +CG G+A DA+E+++I+F +  I   +NL     G +G+A FLG
Sbjct:    6 TPRTYDDVIDEIGYGPFQRKLMLICGAGWAADAMEVLLIAFAIPAIIKEWNLTKGEAGLLGTAIFLG 72

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BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A3N5RFR2_9CHLR (MFS transporter n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3N5RFR2_9CHLR)

HSP 1 Score: 60.1 bits (144), Expect = 1.560e-7
Identity = 27/63 (42.86%), Postives = 45/63 (71.43%), Query Frame = 2

Query:  299 FSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            +  AI+ +G G FQ +++ +CG+G+A DA+E+++I+FVL  I   +NL    KGA+G+A F+G
Sbjct:   10 YDQAIEQVGFGRFQKKLMVICGLGWAADAMEVLLIAFVLPVIGEEWNLTNTQKGALGTAVFIG 72

[Close]

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A7C3NTT0_9DELT (MFS transporter n=1 Tax=Deltaproteobacteria bacterium TaxID=2026735 RepID=A0A7C3NTT0_9DELT)

HSP 1 Score: 59.7 bits (143), Expect = 2.110e-7
Identity = 28/63 (44.44%), Postives = 44/63 (69.84%), Query Frame = 2

Query:  299 FSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            F DAI  +G G FQ +++ +CG+G+A DA+E+++ISFV+  +   +NL A   G +G+A FLG
Sbjct:    3 FEDAIGEVGFGRFQIKLMVLCGLGWAADAMEVLLISFVIPAVRKEWNLDAGQLGLLGTAIFLG 65

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BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A7V3HJ01_9CHLR (MFS transporter n=1 Tax=Anaerolineae bacterium TaxID=2052143 RepID=A0A7V3HJ01_9CHLR)

HSP 1 Score: 59.7 bits (143), Expect = 2.110e-7
Identity = 28/61 (45.90%), Postives = 43/61 (70.49%), Query Frame = 2

Query:  305 DAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            +AI+ IG G FQ R++F+CG G+A DA+E+++ISFV+  +   + L A   G +G+A FLG
Sbjct:    8 EAIERIGFGRFQLRLLFVCGAGWAADAMEVLIISFVIPALMKEWKLSAAQAGFLGTAIFLG 68

[Close]

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A6H5JUA1_9PHAE (MFS domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JUA1_9PHAE)

HSP 1 Score: 59.7 bits (143), Expect = 2.190e-7
Identity = 29/44 (65.91%), Postives = 37/44 (84.09%), Query Frame = 2

Query:  356 MCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            +C  G+ IDA+EI+V++FVLEDIA +F LG+VGKG IGSASF G
Sbjct:   13 ICCNGWVIDAMEILVVAFVLEDIATTFELGSVGKGLIGSASFFG 56

[Close]

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A3N5WNN0_9CHLR (MFS transporter n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3N5WNN0_9CHLR)

HSP 1 Score: 59.3 bits (142), Expect = 2.880e-7
Identity = 29/67 (43.28%), Postives = 44/67 (65.67%), Query Frame = 2

Query:  287 TPSAFSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            T  +F DAI   G G FQ ++  +CG+G+A DA+E+++ISF L  I+  +NL    +G +G+A FLG
Sbjct:    4 TTLSFDDAIQHAGFGRFQKKLRVICGLGWAADAMEVLLISFALPSISQEWNLTNAQRGLLGTAIFLG 70

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BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A2N1S9R7_9SPIR (MFS transporter n=1 Tax=Spirochaetae bacterium HGW-Spirochaetae-3 TaxID=2013835 RepID=A0A2N1S9R7_9SPIR)

HSP 1 Score: 58.5 bits (140), Expect = 5.290e-7
Identity = 24/64 (37.50%), Postives = 46/64 (71.88%), Query Frame = 2

Query:  296 AFSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            +F +A++ +G G FQ R++ +CG+G+A DA+E++++SF L  ++  ++L A  KG + ++ FLG
Sbjct:    5 SFDEALEKVGYGRFQRRLLVICGLGWAADAMEVLLVSFALPAMSAEWSLSAAQKGLLATSIFLG 68

[Close]

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A7C5JVG9_9CHLR (MFS transporter n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A7C5JVG9_9CHLR)

HSP 1 Score: 58.5 bits (140), Expect = 5.310e-7
Identity = 25/63 (39.68%), Postives = 43/63 (68.25%), Query Frame = 2

Query:  299 FSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            F +AI+ +G G FQ +++++CG G+A DA+E+++ISFV+  +   + L A   G IG+  F+G
Sbjct:    7 FDEAIERVGFGRFQRKLLWICGAGWAADAMEVIIISFVIPAVIREWGLSAAQAGLIGTGIFVG 69

[Close]

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Match: A0A3D1JEE6_9CHLR (Arabinose efflux permease n=2 Tax=Anaerolinea thermolimosa TaxID=229919 RepID=A0A3D1JEE6_9CHLR)

HSP 1 Score: 58.2 bits (139), Expect = 7.210e-7
Identity = 27/63 (42.86%), Postives = 43/63 (68.25%), Query Frame = 2

Query:  299 FSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLEDIAISFNLGAVGKGAIGSASFLG 487
            F +AI+  G+G FQ +++ +CG+G+A DA+E+++ISF L  I   + L    KG +G+A FLG
Sbjct:    7 FDEAIEHAGLGRFQRKLMIICGLGWAADAMEVLLISFALPAIGEEWGLSNAQKGLLGTAIFLG 69

The following BLAST results are available for this feature:

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot

BLAST of mRNA_A-nodosum_M_contig119.2.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5JL66_9PHAE	1.530e-17	57.58	MFS domain-containing protein n=1 Tax=Ectocarpus s...	[more]
A0A3M1GN84_9CHLR	2.500e-8	43.28	MFS transporter n=1 Tax=Chloroflexi bacterium TaxI...	[more]
A0A3N5RFR2_9CHLR	1.560e-7	42.86	MFS transporter n=1 Tax=Chloroflexi bacterium TaxI...	[more]
A0A7C3NTT0_9DELT	2.110e-7	44.44	MFS transporter n=1 Tax=Deltaproteobacteria bacter...	[more]
A0A7V3HJ01_9CHLR	2.110e-7	45.90	MFS transporter n=1 Tax=Anaerolineae bacterium Tax...	[more]
A0A6H5JUA1_9PHAE	2.190e-7	65.91	MFS domain-containing protein n=2 Tax=Ectocarpus T...	[more]
A0A3N5WNN0_9CHLR	2.880e-7	43.28	MFS transporter n=1 Tax=Chloroflexi bacterium TaxI...	[more]
A0A2N1S9R7_9SPIR	5.290e-7	37.50	MFS transporter n=1 Tax=Spirochaetae bacterium HGW...	[more]
A0A7C5JVG9_9CHLR	5.310e-7	39.68	MFS transporter n=1 Tax=Chloroflexi bacterium TaxI...	[more]
A0A3D1JEE6_9CHLR	7.210e-7	42.86	Arabinose efflux permease n=2 Tax=Anaerolinea ther...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
A-nodosum_M_contig119	contig	A-nodosum_M_contig119:33187..53927 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Ascophyllum nodosum dioecious OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FV28
PFAMs	MFS_1,Sugar_tr
Model size	499
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	2
Evalue	5.4e-08
EggNOG OGs	KOG0253@1\|root,KOG0253@2759\|Eukaryota
Description	N-methylnicotinate transmembrane transporter activity
Cds size	378
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680866602.8729749-UTR-A-nodosum_M_contig119:33186..33307	1680866602.8729749-UTR-A-nodosum_M_contig119:33186..33307	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig119 33187..33307 +

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


Feature Name	Unique Name	Species	Type	Position
1680866602.8858318-CDS-A-nodosum_M_contig119:33307..33553	1680866602.8858318-CDS-A-nodosum_M_contig119:33307..33553	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig119 33308..33553 +
1680866602.8948407-CDS-A-nodosum_M_contig119:53795..53927	1680866602.8948407-CDS-A-nodosum_M_contig119:53795..53927	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig119 53796..53927 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_A-nodosum_M_contig119.2.1	prot_A-nodosum_M_contig119.2.1	Ascophyllum nodosum dioecious	polypeptide	A-nodosum_M_contig119 33308..53927 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at A-nodosum_M_contig119:33187..53927+
coding sequence from alignment at A-nodosum_M_contig119:33187..53927+

protein sequence of mRNA_A-nodosum_M_contig119.2.1

>prot_A-nodosum_M_contig119.2.1 ID=prot_A-nodosum_M_contig119.2.1|Name=mRNA_A-nodosum_M_contig119.2.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=126bp
MGRETQNGAATTTAPETTSPEQDMSSNTSYTNSTAIAMNEGHGVAAVNSE
VSHHLTPSAFSDAIDAIGMGPFQSRMIFMCGMGFAIDAIEIVVISFVLED
IAISFNLGAVGKGAIGSASFLGEAM*

mRNA from alignment at A-nodosum_M_contig119:33187..53927+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_A-nodosum_M_contig119.2.1 ID=mRNA_A-nodosum_M_contig119.2.1|Name=mRNA_A-nodosum_M_contig119.2.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=20741bp|location=Sequence derived from alignment at A-nodosum_M_contig119:33187..53927+ (Ascophyllum nodosum dioecious)
GCTGTGTGTTCGACAGTTCTGCTGCACATAATACCTGTTTTGTACGGTAC
AGCACCACACGCACCGCTTCCAATCTAGTTTGCGCAGACAACCAATCTGC
GGTAACGGCGCGCGGATCCCCATGGGTCGGGAGACGCAGAACGGTGCTGC
CACAACGACAGCACCAGAAACAACTTCCCCGGAGCAAGATATGTCTTCGA
ACACAAGCTACACGAACTCTACAGCAATAGCGATGAATGAGGGCCACGGC
GTTGCTGCGGTAAACTCGGAGGTGTCGCACCACCTGACACCCTCAGCTTT
CTCTGACGCGATCGATGCGATTGGAATGGGGCCATTCCAAAGCCGGATGA
TTTTTATGTGCGGCATGGTGAGTACAAGTAGAGCACCGTTACCAGACGGT
CTTTTTTTTTATTACAAGTACTACACTGTTTAGGAAAAATCTGAACGCAT
CTAAACCTTCTGAGCATCCACCTCAAGTGGAAGAGTGTCTAAAGGTTTAG
GAGGGAACATTGGCTGTAGAGACAAAACCTCTTCATGGTATCAAAAGGGT
TCCCCAATGTAATTACATCGGGTCGACAGTATAATATCGGGGAGAAGCCC
TCCGTTATACTGTACACTTACATTAATCTCCATGCAGGGACACCAAAACC
AAAATCTTTTTAATTGTTGTAGACGGCGGAGGCTGTGGAATACTTTTCCC
CAACGAAAAGTATGTTTGTACTGAAAATACTGTAATCATCTTACTATCTG
CCGTCGGCCCGGACTGCTGTCCAGTACCAGTACATTATTTTTGTTAATAG
TTGTAACTTCCAAAACTTGAAGTCCCGGTAGCTCAGAGGTACCTCGCAAC
CCTCTGACATGTTGGGACGTGAGTTCGACCCCGGCAAACGGGATTTTTCT
CACTAAAAAACTAAAAAAACTAAAAAAAAAAAAATGCCCAACGGGTGGAC
TTCACGGTCGACGAGGGAAAGGAATGGCTAAATCCTTCTCGCGAGAAAAA
TAAAGGCACGCACGGCAGAAAGAAGGTGGATGGAAATTCCTGTGTGACCT
TCCTCCTGTGTGACCCCGGCTGGTACGTCCATTGATGTCCAGAATGAATG
GGAAGAAAACACACACACACACACACATACTGGGGAGCACAAGGAACTCT
GAGCTTAAGTAAGAATTGTACAAGTAGAGAGAGCGTGTCCCCTTTGTCGC
GTCTGATCAGAGGTTTTCGTAATAAGTATCATTGATcCCCCCTCGGGAGG
ATCAATGCGAGTGGCATAGAATGACTAGGATGACAGGGCCGGATTGCGTG
GTTATGTGCAATTTAATAAATACACACATACTTGTTTCAGATGCACGTGA
GCACTCGTACGTACGTGCGTATAGTTTGGTTTCACAGCCATATACACGCA
GTTGTAGATGTATGATTTCTTCTTTGGGGTCTCTATGTGTGTATGTTTGT
ATAGTCATTACATATATAGCAACAGAAGGATCAACCGGCTGAATCTGGTA
CTTATTGTACGAGTACGATTACGTACTCGTTGCGTCAAGAAGAGTACCGT
ACAGTAGTAACGGTGCTGTAACAAGAAACGGCTACTACTGTAGACTATTA
TTAGTAGTTTTCGACGAGAATACCGCAGCGGGAAAAAAATCTACCCTCAT
TCTTTCTCTTGATTACAGCCTTCCAGCTTAGTCCTCTCGGAATAGTAAGA
CTGGAAATTCGCATTGTTGACATGACAAAAACAGCGTCGGGTATTTGTAT
GTATTGTATGGATGGTCATCACGTACAGCAAGAGTAAGGATCAACTGTGT
AAGGCTGCCAATCGTGCTCGTGGTCAGCTGAACAGGGAAAAATAATATTT
CTCTGTCCCCGTTCGCACCTGAGAATTTGGTCTCGCGAGACGGGTTCGGC
AGTCCCGTCTCGCGTCAGCCTGCTCATTTCCATACTCAGGCTGAATCTGG
GATTCTTCTCGATTTCCGCGGCGGCGTCCATTTATTTGTTTAAACCGACA
TACGCCATTTAATATTAGGTCAGTCCCGAGTTTATCGGGTCACGCAATTG
CGTACCGATGGCGTCCACTTCCGAGAGTCCGCCGGCTCAGGGCCAGTATA
ACTCAATTTAGTTTCAGTAACGGGGGCTGCCTTGGCAAGTCACCATGAAG
CCGGTCGACCCCGGTAGCTCAGTCGGCACCTCGTAACCTTCTGACACGTT
GGGACGTGAGTTCGATCCCGGCAAACGGGATTTTTCTCACTAAAAACAAA
AAAAACAAAATAAAAATGCCCAACGGGTGGAGAACGATTAATTCGTTAGT
ACACAAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCT
TCTCGCGACAAAAATTAAGGCACGCACCGCAGAAGGAAGGTGGATTAAAA
ATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAA
CTTGATGTCCAGAATGGATGGGAAGAAAACACACAACACACACACATGGA
CTGATTAATATGCGCCTCTCTTTCCCACACCCACTATTTGTGTGAAGTGG
GCATGCTGAAAGTTTCGGCGTACCCTGTATTTATAAAAGTATACGGCCTA
GCTCTAATACGGTTGTTTAAAAAAAAAAATCAGAACGCACCTAGACCTTC
TGAGCATCCCCGGTTATGGGGGGAAAAATGTCAATAACGTTTAGGTGGGA
TCAAAGGCTGCAAATACAAAACATCTTCATGGCATTTAAGCAGGTTCCCC
GATGTAAATAACACTGACTGGGTCAACAGTATAATGTCGGGGAGAAGCAC
ATCGTTATACTGTACATTTACACTAATTAATCGCCATGCAGGGACACCAG
AAAAACATTAAAAACAAACCAGAGACAATGTAGTACACCATAACACACGG
TATTATTAGTAGTAATAAACATTACAAAGGCTATAAATACAAAGCCACTA
AATGGTATTTAAACTGGTTCCCCACTGGTAGTAACCTTGGGGTCAACAGT
ATAATGTCGGGTAGAAGCCCACCGCTATACTGTACACTTATTATATTAGT
CACCATGCACAGCCACCAATCATAACCCAACATAACCACAGTAAGTAATA
CATAGTTACGAGTAGTATAGTATTATTACTATCGATAATAAGAATAGTAC
CATCGAGACACAGGGATAGGGGCTTGGTTAAACAGTAAACAAGGGTATTT
TTAAAGAAAAATCAGAACACACCTACCTGTAGACCTTCTGAGCATCCCCC
GGTTATGGGGGGAAAAATGTCAAAACGTTAACAAACACAGAATACACGGG
AAGCTTGGGTTACAACTCAGTTTGTTACATTAAATCTAGGATCAGATGGG
TGTTTAAAGAAAAATCAGAACACCTCTAGACCTTCTGAGCATCGATAACA
TTGTATCAACAGTATAATATCAGGGTGAAGCCCCCCGGGGGGGGTTATAC
TGTTGTATACTTTCGTTAATCGTCATGTAGGGACACCAGAAAGCCAGTAA
AAACAGAACAGGAACAATGTAGTAACGTTTTGACATTTTTTCCCCCATAA
CCGGGGGATGCTCAGAAGGTCTAGGTGTGGTCTGATTTTTTCTTTAAACA
CCATCAGACAAGGTAGTAGTAAGATTCTACTTCGTATTATTAATTATTTA
AACAAAAATCAAAACGCGCCTAGACCTTCTGAGCATTGTTTCAAGAAATC
AGAACGCACCTAGAGCTTATTGTTTCTTCAAATTAAACGATCGGGCCTCA
ACCGTACCCAGTAATATACGTGGTTACCAATCCGATACGTGATCTGCTGG
ACAGAAGAAGATCAGAGGAACATCTACAAAGCTCCAACAAGAGCACCAAA
AAAGACAAAAAAGTAACGAAACAATTTTTCTTTAAAAAACAGAAACGACA
AAAAGAAAGGAACGATGCTCAGAAGGTCTAGGTGCGTTATGATTTTTCTT
TAAATAACAAAATACACATGCCAGAAAAAGATAGAAGAAGGGCATTTGAT
AGAGAGAGTTTGGCATAATGCCAGCCGCGAGCCATCCGATACCCTCCCCG
GATCGCAACCATGCACCCAAACGCGTAGCGTCTACCACGCTCCTTACTCT
CATGGTTTCAGTTTACTCTAACGGCCCAGTGGGTACATATAAGTAATACC
CTAGAAGCGCTTCGAGTACCATTCGTACTACATATATATACAACCGAACA
GTAGTTCTGTCTGTAATGCTGTAATAATACCAGATACGATACACAAACAG
TACCTGGGCCCACGAGATGGATAGTATTGCTGAGTCGACCTTGTAAAGTA
AATATATACTCCTATCGGCTTTACCACAGTTTTTGATTGATTGATTGAAT
TGCACATAATCCAGCCCGTGGTCACGAGGTAGAAAAGCAGCGGCGTTCAG
AATGGTGCAAAAAAATACCCGGAAAAAGAGACATCTCCAAATACAGTAGT
AGTATAGAATAGTTGTTTTAGGACTACGGTAGAGTATAGTACTACAAACG
CACCCTGCTGGTTTGGATGCGCCTCCCCCACCGACGCACTTGAACTTCAA
GTTTAAAGAAAAATCTGAACGCATCTAAATTTTCTTAGCATTCACCCAGC
CAGGGGGAAAATATTGTCAAAACGTTTAGGTAAATGTAAATATGATACTT
CGTACATGCTAGTCGCCCTGGTTGTTCAGTTGGTAACTTCGAAACCCTCT
GACGTTGGGACGTGAGTTCGAACTCGGTGCAGTCACACGAACTGGGATTT
TTCCTCACAAAACGATATAAAAATAAATAAAAAATAGAAAATTAAATCGT
GAGTACACAATATTCCACTGTCACGGTCGACGACGGAAAGGAATGACTGA
ATCCTTCTCGCGAGAAAAATTAAGGCAATAAGCACCGCAGAAGGAAGATG
ACAACACACACAAGCACCGCACACACAACAAGGACAAAGCCTATTCATGA
TCGTAGTAGCACAGTACAGTACAGTAATATCGGGGAGAAACCCCTCGTCA
TGCTGTATGTACACTACTTACTTACGTCATCATTGATCGCAATTCAGAAG
AAGGGAAGTGAGAGCATCGAGGCGATTATGCGCAGGAGGAGGCGGATCCT
GTTCGCGGGATTTGTCGCGCGCATGGAGGGCACAAGATTGCCGAAGTGCG
TGATGTTCGGAGAACTGGTGAGGGGCGCAGGCTGCGTTGGGCGCCAGGAA
AAAGAGTGGAAGGGAGGGGGTCTTTCCTGGACGATCTCAGAGCTTTCAGT
ATCAACGTCGACCAGTAGTGGTGGTTGACTGTGCAGCCCAGGACAAGAGG
GAATGGCACAAGAAAGGCGGAACAAGGGGCGGAACGTTTCATGGCAAAAT
GGATCGCTACAAAGAAAGTTAGGGCTGATGGACTACGGCATGCAGCAGTA
GTAGTAGTACGCCCGAACGTGGCGGGAATGAGCAAGGAGAGGATAGCCCA
AAGCAAGCGTCTTCGGACTGTCTCACTCGCCAAAGTTGATTAGCCACAAG
TGGCGTGGACCATGGTTTGCAGATGATGTCATCATTTTCTCTTTCTCTGG
CGTTACGTTTGTTTTGTTTTTGAAGAAAAATCTGAACGCATCTAGACCTT
TTCTGAGCACCCCCCAGTCAAGGGGGGAAAATGTCAAAACGTTAAGGTGT
TTCAAGAAACATCTGAAAGCGCCTAGACCTTCTGATTGTTTTGTTTCGTT
TTCTGTTTTGTGTCGTTTTCGTCTTTATGCTTTCATTGAATCCGCTGCCC
TTCGTTCAATCGTTCTTCGATATGCATGCGCCTCAACATCCAGACGCATT
TATCTAACAACTACAACTATACTACTGTCTGCGTCTTTTTTGTTTCTTTG
GAGATGTCGCTTTTTCGAGCATTTTTAACCATTGCCGTTTACACATTTAT
AGTGCGCCGTATGTTTTTTCGTTCCGGATGATTTTTTTCTACCCAAGGAC
CAAGGGCGTGATATTCTTCAGCTTTTATGAGAATTCACTCCGGCCGCCAG
GTCGTTCAGTTGGTAACTTCGAAAAATCTTCTGACGTTGGCGCGAACAAA
TATATATATATATTCTCGGAGTATATATGTATATCCGCCGGTACTTTAAA
CATGCCCACTTCATACCAATAATAGTGGGTATGGGAAAGAGAGGCGCTAC
CTTGAGGTTTACTGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCCTT
CGGTACGCAATTGCGTGACCCGATAAACTCGGGACTGACCCGATGGCGTA
TGACGGTTTGAATAAATAAATGGACGTCGCCGCGGAACTCGGGAGGAATC
CCGTAGCCTGAGTATGGAGATGAGCAGGCTGACGTGGGACGGGACTACTG
CCGAACCCGTCTCGCGAGACCAAATTCTTAGGCGCGAACGTGGACAGGGA
AATATTAATTTTCCCTGTTCAGGTGACCTCGAGCAGGATTGGCAACCTTA
TCCGGTTGATTCATACTCTTGCTATATGTGTGACTACACATAAAAACATG
ACAAAAGTAGTAGTATAGTGGAGAACGATTAATTATTCGTGAGTACACAA
CATTTGACTTCACGCTCGACCAGGTAAAGGAACGGCTGAATCCTTCTCGC
GATAAAAATTAAGGCAAGCACCGCAGAAGGAAAATAATGTAGAAAAATCC
TATGTGACCTTCCTTCTGTGTGACCCCGGCTGGTGCGTCCACAAGTCTGA
CGTCCAGAATAAATGGGACGACAACACACACACAAACACTGTACACGAAA
ACAGAGGCAAGGGCATACATACTATGAACCTAAACGTAACTCAATAATGT
TACATTGGTCCGGGGTCGGATCCAAATATTGGTAAGAGTAGTCTATGGAT
CAACCGGGTCAGGATGCCGATCCTGCTCGTCGTCAGCTAAACAAGGAAAA
TACCCCGTTCGCGCCTGAAAATGTTGTTGTTGTTTCTCACATTCAGCGTA
TTGGTTGCCAAACCGAGAGAACTACTTTATTATTACACGGTGGCTAATCC
CGCTCGTGGTCTGCTGGTGGAGGAACAGTGAGTATAACGGTCTCGCGAGA
CAGGTTCGTTTAATTTATACCGACAACTGCCATCGGGCCAGTCCTGACTT
TGCCAGGTCACGCAATTGCGTATCGATGGCGTTCACTGCCGAGAGTCCGC
CGGGGCAGGACGAGTAGTCCTCAAGGTGGTTCGAGTGACGGGTGCTGCCT
TTTCAGGTATCACCATGGACTAATATTTGTGAGCATTTTTGTGCGCCTCT
CTTTTCCCACACCTACTAGTTATTTAAGAAAAATCTGAACGCATCTAAAC
CTTCTGAGCATCCACCTCAAGTGGAAGAGTGTCTAAAGGTTTAGGTGGGA
ACATTGGCTGTAGAGACAAAACCTCTTCATGGTATCAAAAGGGTTCCCCA
ATGTAACTACATCGGGTCGACAGTATAATATCGGGGAGAAGCCCTCCGTT
ATACTGTACACTTACATTAATCTCCATCCAGGGACACCAAAACCACAATC
CTTTTTATCTAAGAGTTCTGGACTACAGTGTAGTAATATAGTCTTATATG
GTCTTAGAGAAATTAAAGTAAAATCAAATTAATATTAGTATATAGGTGAG
GTTCTTTGTTATTGATATAAACTGATGGGAGGCGACATAGGGGAAATTCA
ATCAGGGTCAGAGAGGGAACTATACAAGTACATTAATTATTATGCAGTAT
AGTAAAAAAGAAAACAAGTACAGTAAGATTATATTAGTACAGGTGAACAT
TATATTTGCACTTCCAGATTACAGTAGTAGTGAGGTCGTAGAGCGACACC
AAAATTTATTTTATGGGAGAGTTTGATATACATTAACAACGGATGAAAAC
AGATCCAAAGGGAAAATCGGGAGAAACCTTACATTATACTAAACCACAAT
AAATAACCATCATGCAGGGCTACAGAAGATCAAGGAAGGAGTTATCTTAG
GTCTATAGATGTACAATAAATAATGTGGAATTCAGTTTTATAAAAGTAGC
TGTAAGATATATACAATACATAGCGTATACAGTTTTATTAGAGATGATGT
AGATTGTGTAAAGAGGTACAATTTCACAGAGGGCTGTCTGTAAATCGTAG
ATGTGGAAGACTTACACACCTGGCCCTAGAGGTTGATATACACAATGCAT
AACAAGGGGTGAAAATTATCGGTACACAACAAACAGGATTGTTGGCAACT
ATATATTTTACCAATCATACAGTGGACATATGCACTTGTTTGTATGTAGA
GGAGTAAATTTTCTAACGACGATTACCTGTACAGTAAATAAAGGTGGTAA
TATTAATAGTGTGGAACAATTAAAATTTAACTGTTCTACGAATATGTAGA
CAGAAGATCTTACAATAAAGGGCGGCATATCCGACCCCGGTAGCTCAGTT
GGCACCTCGTAACCTTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAA
ACGGGATTTTTCTCACTAAAAACTAAAAAACCAAAATAAAAATGCCCAAC
GGGTGGAGAACGATTAATTCGTTAGTACACAAAATTCGACTTCACGGTCG
ACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGACAAAAATCAAGGCACG
CACCGCAGAAGGAAGGTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTG
TGAcCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGGATGGGAA
GAAAACACACACACACACACACACACATACTGGTACATTGTGTCATCTGA
CCCTCTCGGCCTCGCTACGGACTAGACAGTGATTACGTGTGTGTGTGTTT
GTGTGTTTTCTTCCCATCCATTCTGGACTTCAATGGACGTACCAGCCGGG
GTCACACAGGAAGAAGGTAACACAGGATTTTCCATCCACCTTCTTTCTGC
GGTGCTTGCCTTAATTTTTCTCGCGAGAAGGATTCAGTCATTCCTTTCCC
TCGTCGACCGTGAAGTCGAATTTTGTGTACTAACGATTTAATCGTTCTCC
ACCCGTTGGGCATTTTTTAGTTTCATTTTTTAGTTTTTCAGTGAGAAAAA
TCGCGTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAGAGGTTACATG
GTACCTATGAGCTACCGGGGCGACCGTGTGTTTACGTTTATTACCAGTGC
TTACCTACCTTTCCTCCTCTCTACTTCCAGGTAAAAGCTAAAGTTAGTGG
CTGGGATAATGACTTCTTCCCTGTGGTTAGCTAAGTAGATCCTTCTTACA
AATTCAAAGTACACGAACGGTAGCTGCGACAAGTCTACCTAAAAATATAC
AGTATGTGCGATAGCTGTGACAAGTCTCCTCTACTTCCGAGGACTCGCGA
GGTTAAAATGTACAAGCGCGATACCATACCTACCTTGGCTTCGTATAGAA
AGTTAGTTTCCCCATATTGAGACAACTGTTGTCTTTGTAAACTGTAAGTA
TGCTATCTTACTCAGCCAGCCATCTATGTCAATTTTCCTATCGCTGAATC
TAGAGAGAATACATTCATCGAAGCTGCTTCTAGACTAATGAGGGATATGT
ATGCCCAAGGATATGACCTCAAACTACTACAACGTAAGCTATATACCTGG
TAAATAACTTTCAGAGTTCATTCTGGAGAACATCTAGTAGAGTACTATGT
ATGGTCACAGATATGCTTTCCACCGACCAAAGGAGCCCGTAGAGCATTTT
GGCATGAACTACCTTCTGAAATCTGACTTATTGCTCCCCCTCTTCCCTAG
AGACGCGTTTAGATGTTTCATCGACTTTCCTTAGACGTATAGACTAATTG
TGACCTGAAGGTACGGTGTAGCGCCACCTGCCCTGGCTTATAGTACATAA
TATATAACAAATGCACGTAGATTGGATGCTGTCTGTCCCGATTCTCCTTA
CACGCGGGTAAGGAGCTCCTCAAAGTGGTTGCCAGGAGACTTAGCGCTTA
CTGTGAGGCGAAGGGGCTGTTACTGGAGGAGCAGTGCGGGTTGCGACCGG
ATCGCTCGACCACGGACATGATGTTTGTCGTGTCCAGGCTGCAGAAAATT
GGGCGGAAGGCAGGAGGAGTATCTATCTTCATGTGCTTCATAGATGCCCA
GAAGGCGCACGACACCGTTGACCGCACCCTCCCGTGGCAGGTACTCACTC
GCATCGGAGTACCACCGCAGATGATAGCGGTCATTCAACAATTGCACAAT
ATTATGAGAGCTTGTGTGCGACCTGATGACGGCGTCTGTTCGGATTGGTT
CGAGGTGGAGCAAGGGCTACGGCAACGATGCGTGCTATCCCCGCTGTTGT
TGAACATCTTCTTTGCAGCCCTGCTGACCGTTGTCCTCCAAAGATTCAGC
GAGGATACGGTCATCCTCGCCGAACTGGTACACCTGAAGGAACCGCCGAC
GTTGATGGGACCGGAGCCGGCTATGGACTACGTTCGTCGTGCGGTGTGGG
GCATGCTGTACGCGGTGCTTTAGCCTCGACGAGGGACACGAAATAATTAT
ATCGAGGAAAATGATATATCTTTTCCGTTGGCGATTTTTTTAAGAGTAGT
ATGTTGTGTTCTCGTTCGTCCTAACACGTTCAGCGTATTGTCCTTGCAAC
TGAAAGAATTACGTTGACACAACGAGTCAGCCATAGACCTATCAAATGCC
AGTCTCGCTTGTTGTCGCGAAGAGGTACGAAGGTCAACGGGTCACATCAT
GGTGACAACACGCTATTCACATTAACAGAGATCCTAATCGCGATAAAATC
ATCATCATTGCCAGGTCCAATCACCCGACAACATCGAAAACACATCGGCG
TCAAGACCATGTCTTTGGGTACGAACTATAGTTTCTACTGTCTGGAGTGC
TGAAGGCATTTCAGAATCTGAAATACAAGCTATAGACAAGACTGTATGAT
GTGCTGCCTATCCACAAAGGCAATGTATCAAAATAAAAGTATCTCAAAAT
GTTTTTCAGCTTCTGTATTAGAGCCTAATGTATTACTGTATTAATTAAGG
AGGGTTACACGAAGACAAATTATGCACCACTTCACAAAGAATGTCATCTA
CCAATGTAAAAACGGCTATCAAACCTCCTTAGTTCATACCGAGAGCAACC
TCGATCGACTCGGATTGTTGTCGCCTACCCTACGGCTAGCGTTCTCAGCA
ACAAAGCGGACAAATCACGCTCCAATCAGTTTTGATCAACAAGCCACGTT
TCTGAGGGCCACACACGCCATGCAGGAATAAGGAAATTTGTTCTACAGAG
GTCGGTGGCTGCGGAGGCCTTGAGCTGGTGAAGCTGGCGCGCGAGCCAGC
ATCCAGCCGTCCAAAGCCCAGTGCATCCCTGAAAGACACGGGAGGGCGTT
CATATTTTTCTTGAAATAGAAAGGAAAAGTCACGACTAACCGGTTGCAGC
AAAATACTTTTTTTATGGAAATACGATAGGAGGGCTTGAATTCGTAAGCT
TGTCCGAATTACGAGAAACTAACTTGGAAGTGAAGTGAAGTGCCACTGTA
CGAGTTACTTTGAACGGATTTCAGTCGCTGATCTGATCTGATCTGATCTG
AGATTATTATCTGAGGCCGTATATTATGGGGTCAGAACTTCGTTGTCAGA
ACTTTGATTTGGTGAAGTTCCGACAAAAAAATCCGAGAAACCCTTGTTAT
GAGGCCTTTTTTTGTCGGAACTTTGAGTCAGAATCCCCAAAAAGTTCTGA
CCCGCCGGCTGAGCCCAAACTTGGGTCAGAATTTTGGCCAAATTCTGACC
CGAGCTCGGGGCTTAAATCCTTGGTCAGAACTTCACCTCGAGGTAGTTGG
GCCGCGTTTTGAAGAGATAAACGGGAGGAAGAGAGGGAGACAGCAAACCT
TAGCCTTTCGTTATCGCCGCCGTAGCCCGACCGAGCTTGGTTACCGAGGA
GAGTGCCCGACATAATATCTGACTCTACCAGTGTTATCGTTGAGCTTGAG
CATTTGGAGCGGCAGCGCCTTCCGTGACGTTGCTACATCTAAGACCGCCT
GCCGATGTCTCCTACACAACATACAATAAAAAATGCAATAAAAATGCACC
GTACAAAGGCCGGTCGACCCCGGTAGCTCAGTTGGCACCTCGTAACCTTC
TGACACGTTGGGACGTGAGTTCGATCCCGGCAAACGGGATTTTTCTCACT
AAAAAACTAAAAAAAACAAAATAAAAATGCCCAACGGGTGGAAAACGATT
AATTCGTTAGTACACAAAATTCGACTTCACGGTCGACGAGGGAAAGGAAT
GGCTGAATCCTTCTCGCGACAAAAATCAAGGCACGCACCGCAGAAGGAAG
GTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTA
CGTCCATTGATGTCCAGAATGGATGGGAAGAAAACACACACACAACACAG
CAGTCAGCCTATTTTTGAAATCTCAACGACCTTGAGCTGGTGAATCAGGG
CTGTGACGAATGTTCTTTCACATGGGGCATATCGGAGGAGGTACACCAGA
CAACAGTTGGGAAAAGAGAGTTGGACATTAATCGATCTATGGTGACCTTC
AAAGGTAGCACCCGTTACTTGAGACCTGTACTGACTCTGTGCCGGCGGAC
TCTCGACAGTTAACGCTAACGGTACGCATTTGCGTGACCCGATAAACTCG
GGACTGACCCGATTACGTGTATAGCAAGCATCATATTATTCAGCTTGTGT
GTGAAGAACAATCAGGCTGACCCGGGACAGGACGACCGAAGCCGTCTTGC
GAGACCAAATTCTCAGGCGCGAGCGGGGACAAAGAAATGTTATTTTTCCC
TGTTCAGCTGACGACGAGCAGGTTGGCAACCGGTTGATCTGTACGCTGCT
GTACAAAGTATGGGATGGCTACATATACATGTAGTACATATATAGCTTTA
CATGCTATACATACATGTATACAATGGATGGACTGTACGACCGGTCGACC
CCGGTAGCTCAGTTGGCACCTCGTAACCTTCTGACACGTTGGGACGTGAG
TTCGATTCCGGCAAACGGGATTTTTCTCACAAAAAACTAAAAAACCAAAA
TAAAAATGCCCAACGGGTGGAGAACGATTAATTCGTTAGTACACAAAATT
CGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGACA
AAAATCAAGCACGCACCGCAGAAGGAAGGTGGATTaaAAATCCTGTGTGA
CCTTCCTCCTGTGTGAcCCCGGCTGGTACGTCCAACGAACTTGATGTCCA
GAATGGATGGGAAGAAAACACACACAAACACTGTAGTACAGCAGTCTATT
TTTGACATCATTTGAATTTAAAATTAGGCGGGAACCCTACGTACCAAGTA
CTGTGGTGGGCAAACGGTGGGCACCAGGTTTAGTTTAACGCTCCCAAAAT
CATGCGCGACACCCTATGTACCAACTGCTGTGGTGGGCAAACAGTGGGCA
CCAGCTTTAGTTTAACGCTCCCAAACTCATGCGCGATCCGCATCTCCAAA
AACCCAAAGTTCCAACAATGATCACCACTACAACGGCAAGTCAGAACTTT
TTTCTCGTTATTGGAACTCGGCTAGATTTGTTAAATTCTGACAAAGTCGA
AGTTCCAATTCTGACCCCATAATATACGGCCTGAGATGATATCTCATATC
TGCATGATTGATTGATTGATTTGATTGATTGAATTCTCACATAATAAGCT
GATGTCAAAAATCCAACTCGTGGTCACAAAGTGGAAAAACACCATTCGGA
AGGAAATAACGTACGACGTACTCTTCATACAAAGAGAGAGCGGAAATGGT
ACAAAAATTCACAGGTTTTCGGTGTGCGATTCGAATATTTGGATATGAGT
AAATCCGAGGGTAGTAGTGGCTCCCTTCGCTCGTAGGCACTTATAACAGC
CAATTATGCGAATTGAGGATCGATTATTTGATAGAGGATGGGTGAGGTCC
GCAATGGCGACCAGAAAGTGCGGAAACATTTATGTCGGGTTCCGGTAAAT
GGTTTAGGGGATTCTAGAACCGCAAAAATGATTTAGGGTAGCTAGCTAGC
CAACCATAAACAAAATGCCCTTTCATACGAGCACTTTTAATTAAAAAAAA
CAGAACGGTCTAACAGACTAGTACTTTATATTGTTTTTTAAACTTAAGGA
CTATCAGACACGTGTTTTAATTTCGGGTCACGATGAATTCATCTCAACTT
CTGCAACTTCGGTTTATATTAAAATAAATGATTATGTGAGACGAAAAGGC
AATTAGTATTTAAATTAATGTTATGGAGAGTTCATTACGCATTTATGAAT
CGGGTAGTTACTTGACGCGTTGGTATCCAAACGGGTCACCACGCATTCCA
TTTATaAAAAAGAGAAAAATTACCGGTGTAATGATCgGGGGGTTCATCTT
CTGACGGTTGACATTTGGGAGCAGCCACTGTCGGTCGGTCCGTACATTTT
TTTATGTGAAGCAAACGAGGAATAATGTATCACGTGAACCTACCATTAAT
ATTAACAGAAGTACAAAAATATTTGTGAACTTCCTGACGGCCATAAAATA
TTTCCGGAAATAAATATTTCCGCACTTTCTGGTCGCCATTGCGGACCTCA
CCCATCCTCTATCAAATAATCGATCCTCAATTCGCATTATGGTGCATTTG
TGCGGCGGTCAGTGTTGGGTCACAGTGCGTGGTTGCTCGCTTCGCTCGTA
CGCAGCACTAATAGGGTATTTGTGCCGCGGTCAGTGTTGGGTGACAGTGC
GTGGTTGCTCGCTTCGCTCGTAGGCACTTATGGGGTATTTGTGCCGCGGT
CAGTGTTGGGTCACAGTGCGTAGTGGCTCGCTTCGCTCATAGGCACTTAA
CGGGTATTTGTGCGGCCGTCAGTGTTGAGTCACAGTACGTGTTGACTCGC
TTCGCTCGTAGGCACTTATGGGGTATTTGTGCCACGGTCAATGTTGGGTC
ACAGTGCGTAGTGACTCGCTTCGCTCGTAGGTACTTATGGGGTATTTGTG
CGGCGGTCAGTGATGGATCACAGGGCGTGGTTGCTCGCGTCGCTCGTTTG
CAATTATTGTGTATTTGTGCCGCGGTAATTGTTGGGTCACAGCGCGTAGT
GGTTCGCTTCGCTCAAAGGAACTTATCGGGTATTTGTGCGGCCGTCAGTG
TTGGGTCGCAGTGCGTGTAGGCTCGCTTCGCTCGTAGGTACTTTTGGGGC
ATTTGTGCCACGGTCAGTGTTGGATCACGGTGCGTAGTGGCTCGCTTCGT
TCGTAGGCAATTATGGGGTATTTGTGCCGCGGTCAGTGTTGGGTCACAGT
GCGTAGTTTTGGCGTTAATATTACTATCGGGCAAGACGACTTGGTTACTG
CGTACTCCCCCTCGAACCCCCCGGAACCACCGGTATTGTTGTACAATACT
CCAGGCCACACACCAGTCCATTCGCTCGGGGCATAGTAAATCTGCCGTTT
CTCCCAAAGTGTAGCGTAGGCCACTCTCCTATGTCCTGACAGTCCCGCCG
CTATGTTCGCTCCGTAGATAGGTATATTCCATATTTGAGGAGGTGTTGCA
GAGGCGTGCTGATTCGGGGACGGACCTCCCGCCTCCCAGGGCACAAAGAA
GCGAGATGTATTCGCGGAAGTGTGATTTTCAGTACGAATACAAACTTTAG
TTCTTTCGAATTTTAAAGTTCCCACAGGGATAACTGGCTTGTGGCAGCCA
AGCGTTCATAGCGTTCGACCTCAACGTCGACGAGGGATAGGGAGGGCCGG
ACCCTTCTCGCGATAAAAAATCTAAGGCATGTACCGCAGTGGGAAGGATG
TGTGGCCTTTCTACTGTTGTGACCCCGGCTGGAGCGTCTTTAACGATGTA
TCGAGAGATACGTTCCTACGCAAACAGCATATGGGATGACAACAACAACA
ACACAACAGCGACGTTGCTTTAAATTCTTCGATGTCGGCTCTTCCTATAA
TTGTGTCGCAGAAGTCACCAAATTTTCAGTAAGAATGCAAACTTTAGTTC
TTTCGAATTTCAAAGTTCCCACAGGGATAACTGGCTTGTGGCAGCCAAGC
GTTCAGAAGCATATGCTAGCTGCACTTCTCTCTCTGTCCTGACAGTCCCG
CCGCTCTGTTCGCTCCGTAGATAGGTATATTCCATATTCGTGGAGGTGTT
GCAGAGGCGTGCGGATTCGGGGACGGACCTCCCGCCTCCCAGGGCACAAA
GAAGCGAGATGTATTCGCGGAAGTGTGATTTTCAGTATGTATATAAACTT
TAGTTTTTTAGAATTTTAAAGTTCCCACAGGGATAACTGGCTTGTGGCAG
CCAAACGTTCATAGCGACGTTGCTTTAAATTCTTCGATGTTGGCTCTTCC
TATAATTATGTCGCAGAAGTCACCAAATTTTCAGTACGAATACTAACTTT
ATTTCTTTCGAATTTCAAAGTTCCCACAGGGATAACTGGCTTGTGGCAGC
CAAGCGTTCAAAAGCATATGCTAGCTGCACTTCTCTCTCTGTCCTGACAG
TCCCGCCGCTATGTTCGCTCCGTAGATAGGTATATTCCATATTCGCGGAG
GTGTTGCAGAGGCGTGCTGATTCGGGGACGGACCTCCCGCCTCCCAGGGC
ACAAAGAAGCGAGATGTATTTGCGGAAGTGTGATTTTCAGTACGAATACA
AACTTTAGTTCTTTCGAATTTTAAATTTCCCGCAGGGATAACTGGCTTGT
GGCAGCCAAGCGTTCATAACGTCGTTGCTTTAAATTCTTCGATGTCGGCT
CTTCCTATAATTATGTCGCAGAAGTCACCAAATTTTCAGTACGAATACAA
ACTTTATTTCTTTTGAATTTCAAAGTTCCCACAGGAATAACTGGCTTGTG
GCAGCCAAGCGTTCAGAAGCATATGCTAGCTGCACTTCTCTCTCTGTCCT
GACAGTCCCGCCGCTCTGTTCGCTCCGTAGATAGGTATATTCCATATTCG
CGGAGGTGTTGCAGAGGCGTGCTGATTCGGGGACGGAACTTCCGCCTCCC
AGGGCACAAAGAAGCGAGATGTATTCGCGGAAGTGTGATTTTCAGTACGA
ATACAAACTTCACTTCTTTCGATGTCGGCTCTTCCTATAACTGTGTCGCA
GAAGTCACCAAATTTTCAGTACGAATACAAACTTTAGTTCTTTCGAATTT
TAAAGTTTCCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCATAGCG
ACGTTGCTTTAAATTCTTCGATGTTGGCTCTTCCTATAATTGTGTCGCAG
AAGTCACCAAATTTTCAGTACGAATGCAAACTTGAGTTCTTTCGAATTTC
AAAGTTCCCACAGGCATAACTGGCTTGTGGCCGCCAAGCGTTCAGAAGCA
TATGCTAGCTGCACTTCTCTCTCTGTCCTGACAGTCCCGCCGCTATGTTC
GCTCCGTAGATAGGTATATTCCATATTCGTGGAGGTGTTGCAGAGGCGTG
CTGATTCGGGGACGGACCTCCCGCCTCCCAGGGCACAAAAAAGCGAGATG
TATTCGCGGAAGTGTGATTTTCAGTATGAATACAAACTTTAGTTCTTTCG
AATTTTAAAGTTTCCACAGGGATAACTGGCTTGTGGCAGCCAAGCGTTCA
TAGCGACGTTGCTTTAAATTCTTCGATGTTGGCTCTTCCTATAATTGTGT
CGCAGAAATCACCAAATTTTCAGTACGAATACAAACTTTAGTTCTTTCGA
ATTTCAAAGTTCCCACAGGGATAACTGGTTTGTGGCAGTCAAGCGTTCAG
AAGCATATGCTAGCTGCACTTCTCTCTCTGTCCTGACAGTCCCGCCGCTA
TGTTCGCTCCGTAGATAGGTATATTCCATATTCGTGGAGGTGTTGCAGAG
GCGTGCTGATTCGGGGACAGACCTCCCGCCTCCCAGGGCACAAAGAAGCG
AGATGTATTCGCGGAAGTGTGATTTCCAGTACGAATACAAACTTTACTTC
TTTCGATGTCGGCTCTTCCTATAATTGTGTCGCAGAAGTCACCAAATTTT
TAGTACGAATACAAACTTTAGTTCTTTCGAATTTCAAAGTTCCCACAGGG
ATAACTGGCTTGTGGCAGCCAAGCGTTCAGAAGCATATGCTAGCTGCACT
TCTCTCTCTGTCCTGACAGTCCAGCCGCTATGTTCGCTCCGTAGATAGGT
ATATTCCATATTCGCGGAGATGTTGCAGAGGCGTGCGGATTCGGGGACGG
ACCTCCCGCCTCCCAGGGCACAAAGAAGCGAGATGTATTCGCGGAAGTGT
GATTTTCAGTACGAATACAAACTTTACTTCTTTCGAATTTTAAAGTTTCC
ACAGGGATAACTGGCTTGTGGCAGCCAAGTGTTCATAGCGACGCAAACCC
TCCTCGAGCACCGGTTGTTTGCTTAGTCACAGTACCTGTCCCGTACTTGG
ACACAGCACCGGTTGTTTGCTTAGTCACAGTACCTGTCTCGTGCTTGGAC
ATAGCACCGGTTGTTTGCTTAGTCACAGTACCTGTCTCGTGCGTGGACAC
AGCACCGGTTGTTTGCTTAGTCACAGTACCTGTCTCGTGCGTGGACACAG
CACCGGTTGTTTGCTTAGTCACAGTACCTGTCTCGTGCTTGGACACACCA
GCCGTGCACCGGGGGGGGTAACCCCCCCCCGGACCCCCCCCCTCAAGCAC
GCCCCCTGGTGCTGGGTCCCAGATATATTAATTATTTTTAAAAAATACTC
GGAAAAATCGACATCTCCAAATAAGACCGTTTCTTACGAGGAAATTTTTC
CAGGAAATTTTGGGGTTGGAGGGGTCAAAAATTTCTTGGGAAACAAAATA
CGTCTCTTACGAGGAAATTTTTCGGCAAAATTTCCTCGTCCAGGAAATTT
TGGCTCGGATTCTCCTAGCCGAGGAAATTTTGAAGCCCAAAATTTCCTGG
AGACAACAGGAAATTTTACGAGGAAATTTTGGGATCACTTGATAATAGAA
GTGAAATCAGTACCCTTTCCCAGTACTGGATGATGCCTACTATGTACACA
CAACTGTGTTCTCTGCTGTACTCACACATGCATCGAGTCACACAAACGTT
GCCCCAAGAACCTTGACGAACGCGCGTGGCAGGACTGCTGTACTACTGGC
TGGAATGATGATTGACTTTTTGTTTTCAGTCCGGACTCGTCACGTAGGGG
ATGATTGATAATTCCGGAACCCGACATGCAATGAGCTGTAATATTAGCTG
CGAGAGAACGTCCACGCGCTGGTCGGCTCACGTCGCTCGCTCGCTCCTAC
ACACAACCCACTATGCATCATCAATGAATGCTGTGTGGCGGACACATACT
ACACAGCATAGACCCCAAACTGCGCTGCTGCTACAGTTGTACATATTTTC
TCGCACACGCAGCAACAGCTCTCCTCTATTTTTCCACATCTCTCAAAAGT
ATCTTGCTTGAAACTGAAGGGGTTACTGAGAGTCCAGCCTAGCGGTCGGC
GAAACGACGAGCCCCAGAGAGGTTTTATTTCGGTAAGGTATTATGAAGTG
TAGACCGTCTTGGTCTCTCTCTACTTTGGGTTCCAAACATGCGTGCGACA
AGAATCGTCGGTCATCCGTCACTTCCTCTTCCATCAACGTCTTCACACCC
CACCCCATCCCCTCCTCACGCACTACGAAATACGCTACATATAAAACCAG
GAATATTTTCTTGAAAAAAACTCTTGGATCGTAATTCAGATTGTGCACCT
GACGAAATTTTCCAAGGAAATTTTGTGACCCCTCCAACCCCAAAATTTCT
TGGAAAAATTTCCTTGTAAGAAACGGCCTAAACAAAAGAAAAAAAAACGT
GTGGTTATCAGGGCGCCTGCATATCGAAGGACGATTGAGCGAAGGGCCGC
GGCTTCAATGAAAGCATAAAGACGAAAAGGAAGCAAAACAAAACAAACGT
AACACCAGAGAAAGACGCCATGGCATCTGCAAACCAAACGCCCGGAGGAT
ACAAGTTCGCGCCACTTGTGGCTGGTCAACAAGGGCAAGCGAACCAGCAC
GAGCCCGCTTGCTTTGGGCTATCCTCTCCTTGGTCAACAGGGGAAACCTT
CGAGACCACCGGTGCCTTCCATAGTTTCTGGCCAAGCTTGGGAAGTTAAC
TATCTTCGGGGGGGTGGGGGGCAACAGCTTGAGGGTACTTTGCTACTACC
TGAAAAGCCGTAGGCACTCTTTACCACACAAAAAAAAGGGCGGCGAAATT
CCCCAGACGTAGATTTTGCTGTATGAGTAGCAGTTGGCCGATGAGAAGCC
TCAGAGCCGAATCGCTGGGGCCGAGTTGGACCATGCTATGTCATGAAAAT
ATATTGCCTTCACTACACGTGCACGCGCGTGGCTCGTCCGGATATCCGCC
TTACATTGTCGTCATCGTCTATTGATGAAATGCCGAATGTCCAAAACGGA
AACATTGCGCTATGTCGGCCTGCTCGCTGCTCTATCACTCTACGGTCTAT
ACTGATAGCTGCTGCGCGCGTAAGGCATACGGTAACAGCCCTTGCGCGGG
TAGCGAGCTCCAATGAAGTGCATCGTTGCTGTATCAGTCTATTTTGAAGA
TAATATCGCCGTCTCTTGTCCGCCCTGCATCCATCGGAACGACTCAAAAC
GGATCATAGGGTTTCGCCATTGACGCGATCGAAATCGTGGTCATCTCCTT
CGTTCTGGAGGATATCGCCATCAGCTTTAATCTGGGTGCCGTGGGCAAGG
GAGCTATCGGGAGTGCGAGTTTTCTAGGTGAGGCGATGTAA

Coding sequence (CDS) from alignment at A-nodosum_M_contig119:33187..53927+

>mRNA_A-nodosum_M_contig119.2.1 ID=mRNA_A-nodosum_M_contig119.2.1|Name=mRNA_A-nodosum_M_contig119.2.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=378bp|location=Sequence derived from alignment at A-nodosum_M_contig119:33187..53927+ (Ascophyllum nodosum dioecious)
ATGGGTCGGGAGACGCAGAACGGTGCTGCCACAACGACAGCACCAGAAAC
AACTTCCCCGGAGCAAGATATGTCTTCGAACACAAGCTACACGAACTCTA
CAGCAATAGCGATGAATGAGGGCCACGGCGTTGCTGCGGTAAACTCGGAG
GTGTCGCACCACCTGACACCCTCAGCTTTCTCTGACGCGATCGATGCGAT
TGGAATGGGGCCATTCCAAAGCCGGATGATTTTTATGTGCGGCATGGGTT
TCGCCATTGACGCGATCGAAATCGTGGTCATCTCCTTCGTTCTGGAGGAT
ATCGCCATCAGCTTTAATCTGGGTGCCGTGGGCAAGGGAGCTATCGGGAG
TGCGAGTTTTCTAGGTGAGGCGATGTAA