mRNA_A-nodosum_M_contig946.2.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig946.2.1
Unique NamemRNA_A-nodosum_M_contig946.2.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A6H5KW76_9PHAE (LisH domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KW76_9PHAE)

HSP 1 Score: 172 bits (437), Expect = 8.190e-48
Identity = 107/227 (47.14%), Postives = 135/227 (59.47%), Query Frame = 1 
Query:  247 SFQETQATKGQAPLEGADGTIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGES--GLHKP-PLLYGILHAL-RRREEASSTGGPGEHDRGDRVVGTRIDWRGAPAYEDDIAAEDCESMRTPWTGVDLGVG---DTGTLGTLGRENPAPIHFTKNGSAN 906
            S  + Q ++G+ PLEG DGTIDDLK AL+ENLE+RGVL KL+A+VRAE+  TLEGPQ GV    L N+NLLINELVRDYL YNGY NAL VF+ ESGQP    L+R FI+++LGL+E+R  +  G  +P PLLYGI HAL RRR+EAS   G                              +CE           G G   D G   ++   +PAP+ FTK+  ++
Sbjct:    3 SHTDQQRSQGE-PLEGGDGTIDDLKQALVENLEHRGVLGKLRAKVRAEVFHTLEGPQEGVLPTPLSNENLLINELVRDYLSYNGYSNALGVFMAESGQPIERSLDRGFIRDELGLSERRDSTDHGSARPLPLLYGITHALKRRRKEASGNNG---------------------------GYAECEEXXXXXXXXXEGCGGHPDVGGSNSIEWADPAPVLFTKHKGSS 201
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: D7FVJ9_ECTSI (Similar to chemokine (C-C motif) receptor 6a n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FVJ9_ECTSI)

HSP 1 Score: 167 bits (424), Expect = 6.080e-46
Identity = 93/149 (62.42%), Postives = 109/149 (73.15%), Query Frame = 1 
Query:  256 ETQATKGQAPLEGADGTIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGE---SGLHKPPLLYGILHAL-RRREEASSTGG 690
            E Q ++G+ PLEG DGTIDDLK AL+ENLE+RGVL KL+A+VRAE+  TLEGPQ  V    L NDNLLINELVRDYL YNGY NAL VF+ ESGQP    L+R FI+++LGL+E+       G    PLLYGI HAL RRR+EAS   G
Sbjct:    6 EQQRSQGE-PLEGGDGTIDDLKQALVENLEHRGVLGKLRAKVRAEVFHTLEGPQERVLPTPLSNDNLLINELVRDYLSYNGYANALGVFMAESGQPIERSLDRGFIRDELGLSERLDSIDRGGARPLPLLYGITHALKRRRKEASVNNG 153
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A835YQT6_9STRA (LisH domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YQT6_9STRA)

HSP 1 Score: 128 bits (322), Expect = 4.110e-31
Identity = 69/132 (52.27%), Postives = 96/132 (72.73%), Query Frame = 1 
Query:  280 APL--EGADGTIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGV--SFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRR 663
            APL  EGA GT+DDLK AL++ LE+ G L KL+A+VRAE+ ++LE  +     + P L N NL+INEL+RDY EYNGY +ALSVF+ ES QP +  L+R FI+++LG++E+   +   + PLLYGILH L++
Sbjct:   13 APLQQEGAAGTLDDLKDALVDALESSGALGKLRARVRAEVFKSLEPEELATRETAPPLSNANLIINELIRDYFEYNGYSHALSVFLSESCQPDDASLSRGFIRDELGVSEELDSARQKQLPLLYGILHMLQK 144
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A7S1Q0J4_ALECA (Hypothetical protein (Fragment) n=1 Tax=Alexandrium catenella TaxID=2925 RepID=A0A7S1Q0J4_ALECA)

HSP 1 Score: 112 bits (279), Expect = 1.350e-25
Identity = 65/157 (41.40%), Postives = 94/157 (59.87%), Query Frame = 1 
Query:  241 RQSFQETQATKGQAPLEGADGTIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEA-----SSTGGPG 696
            R S   +   +G A       T+D+LK AL+E L+ RGVL ++KA+VRAEI   L+  Q+    P L  +N++INEL+R+YLEYNGY++ALSV + ESG P   + +R F+  +L + E      L   PL+YG++  LR R +A     S+ G PG
Sbjct:    4 RASAWHSAGRRGYAIRNAMSATLDELKQALVETLDQRGVLGQVKAKVRAEIFAALDDEQA--PRPELPRENVVINELIREYLEYNGYLHALSVLLPESGHPQERQFDRQFLAAELQVQEDERSRSL---PLIYGLVRGLRPRSDALDPAGSAGGAPG 155
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A024GKL4_9STRA (LisH domain-containing protein n=1 Tax=Albugo candida TaxID=65357 RepID=A0A024GKL4_9STRA)

HSP 1 Score: 110 bits (274), Expect = 5.020e-25
Identity = 58/128 (45.31%), Postives = 84/128 (65.62%), Query Frame = 1 
Query:  304 TIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEASSTG 687
            ++ +LK  L E LE RG L ++KA++RAEI   L+     +  P L N+NL++NEL+R+YLEYNGY +ALSVF+ ESGQPT     R F+  +LG+ E   ++   + PLLY IL  L++R E ++ G
Sbjct:    7 SLSELKEVLKETLETRGCLGQIKARIRAEIFSALD--DQSIPKPELSNENLILNELIREYLEYNGYRHALSVFLPESGQPTEKAFPRSFLSSELGVRE---DARFTQIPLLYNILFILQQRRENNAKG 129
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A267H407_9PLAT (LisH domain-containing protein (Fragment) n=3 Tax=Macrostomum lignano TaxID=282301 RepID=A0A267H407_9PLAT)

HSP 1 Score: 109 bits (272), Expect = 1.140e-24
Identity = 69/142 (48.59%), Postives = 89/142 (62.68%), Query Frame = 1 
Query:  304 TIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQ-SGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEASSTGGPG------EHDR 708
            ++D+LK AL ENLE+RGVL+ ++A +RAEI R+LE P+ SG   P L N+NLLINEL+R+YLE+N Y NA SV   ESGQP    L+R  +  +L L E     G+   PLLY +L     R  AS  GG G      +HDR
Sbjct:   11 SVDELKSALKENLESRGVLQDIRASLRAEIYRSLEEPRPSGQQRPGLSNENLLINELIREYLEFNEYSNAASVLAAESGQPQA-RLSRSLLSRELNLREDPSCQGM---PLLYSMLAYYMNRGVAS--GGRGVRFGQQQHDR 146
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: F0WR59_9STRA (PREDICTED: similar to predicted protein putative n=1 Tax=Albugo laibachii Nc14 TaxID=890382 RepID=F0WR59_9STRA)

HSP 1 Score: 108 bits (269), Expect = 2.400e-24
Identity = 58/128 (45.31%), Postives = 83/128 (64.84%), Query Frame = 1 
Query:  304 TIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEASSTG 687
            ++ +LK  L + LE+RG L ++KA++RAEI   L+     +  P L N+NL++NEL+R+YLEYNGY +ALSVF+ ESGQP      R FI  +LG+   R ++   + PLLY IL  L++R E S  G
Sbjct:    8 SLSELKEVLKDTLESRGALGQIKARIRAEIFSALD--DQSIPKPELSNENLILNELIREYLEYNGYRHALSVFLPESGQPLEKPFPRSFISSELGV---RDDAQFTQVPLLYNILLILQQRREKSLKG 130
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: W2LRN2_PHYPR (LisH domain-containing protein n=9 Tax=Phytophthora parasitica TaxID=4792 RepID=W2LRN2_PHYPR)

HSP 1 Score: 107 bits (268), Expect = 9.340e-24
Identity = 72/201 (35.82%), Postives = 104/201 (51.74%), Query Frame = 1 
Query:  289 EGADGTIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEASSTGGPGEHDRGDRVVGTRIDWRGAPAYEDDIAAEDCESMRTPWTGVDLGVGDTGTLGTLGRENPAPIHFTK 891
            +G   T+ DLK  L + L  RG L ++KA++RAEI   L+     V  P L N+NL+INEL+R+Y EYNGY +ALSVF+ ESGQP     +R F+  +L +TE   +      PLLY I+ +L+++          + +R D  V  +ID   A    DD      +  +T  T VD            G + P+P+ F K
Sbjct:    6 DGGQATLSDLKEVLKDTLAARGSLDQIKARIRAEIFAALD--DQDVPKPKLSNENLIINELIREYFEYNGYRHALSVFLPESGQPAEKPFDRQFLSNELNVTE---DPRFTHVPLLYSIVASLQQKRNQEQ-----QRER-DLDVEHQIDQFAAMPTHDDHERRSFDEDQTHQTRVD------------GTKEPSPVIFRK 183
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A1V9YC06_9STRA (LisH domain-containing protein n=1 Tax=Achlya hypogyna TaxID=1202772 RepID=A0A1V9YC06_9STRA)

HSP 1 Score: 106 bits (265), Expect = 3.790e-23
Identity = 58/118 (49.15%), Postives = 79/118 (66.95%), Query Frame = 1 
Query:  304 TIDDLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHAL 657
            ++ DLK AL E LE RG L  +KA++RAEI + L+    G + P L N+NL+INEL+R+YLEYNGY + LSVF+ ESGQP      R F+  +L +TE   +   ++ PLLYGI+ AL
Sbjct:    6 SLADLKDALKETLEARGTLGPIKARLRAEIFQALD---EGATKPKLSNENLIINELIREYLEYNGYRHTLSVFLPESGQPQERPFQRRFLAHELNITE---DPRYNQVPLLYGIVTAL 117
[Close]
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Match: A0A7S1K270_9ALVE (Hypothetical protein (Fragment) n=1 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A7S1K270_9ALVE)

HSP 1 Score: 105 bits (263), Expect = 2.990e-22
Identity = 60/132 (45.45%), Postives = 84/132 (63.64%), Query Frame = 1 
Query:  313 DLKLALLENLENRGVLRKLKAQVRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVVESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEASSTGGPGEHDR 708
            +L+ AL+E+LE+RGVLR +KA++RAEI R L+ P  G   P+L  +NL+INEL+R+YLEYN Y   LSVF+ ESGQP     +R F+  +L L E      L   P+LYG++H L+ +  A       + DR
Sbjct:   10 ELREALVESLESRGVLRDIKARLRAEICRVLDDPGQGR--PSLPPENLIINELIREYLEYNRYHQTLSVFLAESGQPETPPFDRRFLATELRLEEDFRTQSL---PILYGLVHGLQSQLPAERLSSLPKRDR 136
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig946.2.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KW76_9PHAE8.190e-4847.14LisH domain-containing protein n=1 Tax=Ectocarpus ... [more]
D7FVJ9_ECTSI6.080e-4662.42Similar to chemokine (C-C motif) receptor 6a n=1 T... [more]
A0A835YQT6_9STRA4.110e-3152.27LisH domain-containing protein n=1 Tax=Tribonema m... [more]
A0A7S1Q0J4_ALECA1.350e-2541.40Hypothetical protein (Fragment) n=1 Tax=Alexandriu... [more]
A0A024GKL4_9STRA5.020e-2545.31LisH domain-containing protein n=1 Tax=Albugo cand... [more]
A0A267H407_9PLAT1.140e-2448.59LisH domain-containing protein (Fragment) n=3 Tax=... [more]
F0WR59_9STRA2.400e-2445.31PREDICTED: similar to predicted protein putative n... [more]
W2LRN2_PHYPR9.340e-2435.82LisH domain-containing protein n=9 Tax=Phytophthor... [more]
A0A1V9YC06_9STRA3.790e-2349.15LisH domain-containing protein n=1 Tax=Achlya hypo... [more]
A0A7S1K270_9ALVE2.990e-2245.45Hypothetical protein (Fragment) n=1 Tax=Vitrella b... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig946contigA-nodosum_M_contig946:248084..269746 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FVJ9
Preferred nameFOPNL
PFAMsFOP_dimer,LisH
Model size1394
Max annot lvl2759|Eukaryota
KEGG koko:K16535
Hectar predicted targeting categoryother localisation
GOsGO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0005813,GO:0005815,GO:0005856,GO:0005929,GO:0006996,GO:0008150,GO:0009987,GO:0015630,GO:0016043,GO:0022607,GO:0030030,GO:0030031,GO:0031514,GO:0034451,GO:0036064,GO:0042995,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0044085,GO:0044422,GO:0044424,GO:0044430,GO:0044441,GO:0044444,GO:0044446,GO:0044450,GO:0044463,GO:0044464,GO:0044782,GO:0060271,GO:0070925,GO:0071840,GO:0120025,GO:0120031,GO:0120036,GO:0120038
Exons5
Evalue1.56e-49
EggNOG OGs2B269@1|root,2S0C1@2759|Eukaryota
Descriptionmicrotubule anchoring
Cds size684
COG categoryS
BRITEko00000,ko03036
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig946.2.1prot_A-nodosum_M_contig946.2.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig946 248566..269518 -


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

Feature NameUnique NameSpeciesTypePosition
1680870444.28915-UTR-A-nodosum_M_contig946:248083..2485651680870444.28915-UTR-A-nodosum_M_contig946:248083..248565Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig946 248084..248565 -
1680870444.4343464-UTR-A-nodosum_M_contig946:269518..2697461680870444.4343464-UTR-A-nodosum_M_contig946:269518..269746Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig946 269519..269746 -


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

Feature NameUnique NameSpeciesTypePosition
1680870444.3044622-CDS-A-nodosum_M_contig946:248565..2487291680870444.3044622-CDS-A-nodosum_M_contig946:248565..248729Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig946 248566..248729 -
1680870444.3145175-CDS-A-nodosum_M_contig946:249123..2492891680870444.3145175-CDS-A-nodosum_M_contig946:249123..249289Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig946 249124..249289 -
1680870444.3270094-CDS-A-nodosum_M_contig946:249849..2500531680870444.3270094-CDS-A-nodosum_M_contig946:249849..250053Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig946 249850..250053 -
1680870444.338166-CDS-A-nodosum_M_contig946:250504..2506241680870444.338166-CDS-A-nodosum_M_contig946:250504..250624Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig946 250505..250624 -
1680870444.4162548-CDS-A-nodosum_M_contig946:269488..2695181680870444.4162548-CDS-A-nodosum_M_contig946:269488..269518Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig946 269489..269518 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig946.2.1

>prot_A-nodosum_M_contig946.2.1 ID=prot_A-nodosum_M_contig946.2.1|Name=mRNA_A-nodosum_M_contig946.2.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=228bp
MATTRQSFQETQATKGQAPLEGADGTIDDLKLALLENLENRGVLRKLKAQ
VRAEIIRTLEGPQSGVSFPTLCNDNLLINELVRDYLEYNGYINALSVFVV
ESGQPTNNELNRDFIKEQLGLTEQRGESGLHKPPLLYGILHALRRREEAS
STGGPGEHDRGDRVVGTRIDWRGAPAYEDDIAAEDCESMRTPWTGVDLGV
GDTGTLGTLGRENPAPIHFTKNGSANK*
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mRNA from alignment at A-nodosum_M_contig946:248084..269746-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig946.2.1 ID=mRNA_A-nodosum_M_contig946.2.1|Name=mRNA_A-nodosum_M_contig946.2.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=21663bp|location=Sequence derived from alignment at A-nodosum_M_contig946:248084..269746- (Ascophyllum nodosum dioecious)
CTTATCCCTATTAGCAGCGGGCGACTACGCTGGACTTCGAACTGTCGTAC
AACTTCGTGTAACTGTCCGACGCGAGCTTCGCTCGCGCATTGATTTTCTC
GCTCGCGTTTTAAATTTTGCGACGGGTGCTGAGAGGAATAACGCTGCTTG
CTGATCATCAGCAACTACCACGGACTTAATCTAGTGTCCTTCTCTGTCTC
CTAAAACAAACACCACCCTCGAAACAAGATGGCAACCACTCGACAATCTT
TCCAGGAGGTGAGAACCCATTTTCCACCGGTTTCTCATAGTAGCGTGGGC
AGCTCGGTTGTTATGGTCGCCACAGTCGCGAGCGCACTTCATCGATTTGC
CCCTAGTTGTTGTTGTTGTTGTTGTTGTTGATTCACACATTCAGCGTATT
GTCCTTGCAACTGAAGAAACTACGGTGACACAACAAGTCAGCCATAGACC
TATCAAACGCCAATCCCGCTTGTGGTCACAAAGAGGTACGAAGGTCAACA
GGTCACATCATGGTGACAACCCGCTACTCAGACCAACAGGGATCCAAATC
GCGACAAAAAGTTATGCGGCTCTACAAGCGATGGCACCGACCAATATCAA
AACGGTTCATCAAACCTCCTTACTCCATTCGAGAGCAACCTCGATCGACT
CGGAATGTTGTCGCCTACCCACGACCAGCGTTCTCAGCAAAAAACCGGAA
AAATTACGCTCCAACCAGTTTTGATCAACAAGTCCAAGTTTCTCAAGGCC
ACACATTTTGTACAGAAATAAGGAAAATCGAAATACCGAGGTCCATGGTG
GTGGAGGCCTTGAACTGGTGAAGCCGGCGCGCGAGCCAGCATCCAGCCGT
CAAAGCCCTGGTGCATTCTTGAAAAAGCCCCACTGAATCTTGCCCGTTCG
CCGCTCCTGGTGGCCTCGTAGGAAGAAAAAATGACCGTGGTCAGAGATCA
GCTTTTCCTCAAGAAACCTCCCGGTTCAAGCCTGTGATTCTCGCGCACAG
GGGTTCAGCCCTCCCCTGGCTCGTCAACGATCGAGCTGCCCTCCGCCTTC
GCCGAATCTGGTAGGGACACATATCTCTCGCATCCCATGTGGTAAACAAT
CCCTTACGGAAGCTTGACAGGAAAAAATAAACTGATGGTCGTAAAATTTC
CACACATGCTCGAGGATGCAGAGTTTCAAAAAGAGCTCTCAAGGAACGAA
TCGATTCAAACACCCAATTTACTAGAAAATCTTCCAGCTGTTGGGGAACT
GACCTGCCCTGGGTCATATTCACGACACCTTCGAGGAATGAGGAAGTCGA
CTTACGGCACCGATGTAGGAAGAGTAAATATGCGTCGAGTCTACACAAGA
GGGCATACTAGATAGACGAGGTTGGGGCAACAGGGAGCTAGTGTTAGTTC
GAATTTATTTCCAGAAGACAAGTCAAGTGCCTGGATATCTAGCTGCAACA
CTCAAGCCTACCGTAAACGTAACACATCTACAGCCAGTATTGTATGTGCG
AAAATGTATGGGGACCTCTGTCCTTCTCATTACACCTCCTAGATCGCATT
AGTACCTATATACCTGGTAGCAGTTACCGCAAAATAGGGATGCAAATAAT
ACAGTAGGGATTACTACCTGTGCGAAATAATCTTTAGTTCTTAATTTCCT
GACTCCTGTTTGTAGTTCTTAACTTGCTGACTCCTGATTGGGTAGAGACG
CACACAGAACCAGCCCACTGCCATGTACTTTCAGCATGCCCACCTCATAC
CAATAGTGGGTTTGGGAAAGAGAGGCGAATATTAGTTGGTCCATGGTGAT
CTGCCAAGGCAGCACCCGTTCGGAACTACCTTGAGGTTTACTGGCCCTGT
GCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAATTGCGTGACCC
GATAAACTCGGGACTGACCCGATGGCGTATGGCGGTTTCATAAATGGACG
CCGCCGCGGAACTCGGGAGGAATCCCGTAAGTAAGCACCAGATTCAGCCT
GAGTATGGAGATGAGCAGGCTGACGCGGGACGGGACAGCTGAACCCGTCT
CGCGAGACCAAATTCTCAGGCACGCACGGGGACAGGGGAATATTATTTTC
CCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCGGTTGATCCA
TACTCTGCTATATCTGATGACCATACATACATACATACCGTGTACAGTAT
CTTTACTTCTTAGATTGGGTACGAACACAAAACCAGAGACAAAACCGAAC
CAGAGACGCACACAAAGCCAGCCTACAGGGTACTACGACCAAGCGCCAGC
CATGAATTGGGACCACGCGGTTAGCTGGGGTAGGGGGGTCTGGGTTAGCG
TTAGCGATATTGGTCGGGTTGGGTCGGGTTGGCCAACCGGAATTGAAACA
ATCCCCTCAGGCCACCCGAGGTAAAAATAATTGGTGTTGCGCCGCATGAC
CCCCTAAAGATCCCGCACAAATGGTAATACGAGCTCAAATAACCATACCT
GGAAAACAAAATATTACCAATTGCTATAGGGATGATATTTGGATTTAAAT
ATTCAGGTACTTGGGCCATGTTCAATTTCGGCGACTCATCACATCCTCCG
CACCAAAGGCCCTTCCATGGGACGGTGACATTTGTATATTGTTTTGCAGC
AGAGAATCCGAATATCACCAGTCTGGTAGTCCAGCGTCGTTTCCTAGCCA
ACGATGGAAGCAGAGGGGTAAGTGGGCCAGGCTGTTGAACCCTTCATGCA
TGATATCGAAAAAAAGGAACACCTTCGATTAACTAACGCTGATCGATTGC
TGCTAAATTGAAAAAAGATACAGCCGACCTCCCGACCGAGTAAGCAAGAG
GTGAAAGTTGATACAATCGACCATCATCCCGAATGAACAGAATGAGTACT
TTTAAGGGTAACGCGCCATGGTGGAAAGGAGCAGGTTCATGTGTCGCTAT
TAATAGAAACTATACCAAGGCTTGGAAACGCGACTGATCAACTCTTATCA
AAGACTGGTTGTAGAGGCTAGCGTTGTGCCCGTATTCCCTATTCGTGAAG
CCTCTGGCGGCGAGTGTCTCCAGCAGGAGGGTCCTTGAGCACGCGTGATG
AGTGCTCGAGGGAGGAGATAAAAAAAGGGGGAGAGGGGTGGGTACAAACA
TAAGCCAGCAAAAACCAAAAACCAGTTGCCTCGTAATAGGCCAAATAAAT
AATCTCCCTATCTAGGTAAATCTTCCTAAATGTCCACTGACGTGACAAGT
ACGAATATACAACACCCTCCCTGCTTCGCGACGTCAACCGATCGATGGGA
CAATGATAAAAGTTCGTGCAGGTACCTTCAAGACCATGCCAAAATATTCC
CAGAGTGAACAACTTCTCTCAGCATCAAACACACGAGGGTATGGGAATAG
GTGCAACCCAGATAGAAACACTACAGTCGCACTCACACACCCAATGCACT
AAATACATCATTGCGATATATTCATAAGAAAACCACGGCACTTCCAGAAC
GCCTCGTGCCCTTACGGGTTCGTAAGAATATCCGCGTGCTGTTCCACAGA
CACTAACCTATGAATCGCTACATACTGCAACCTCACAAGTCCCCGCTGAA
AGTGAAAGCTCACAGCAATGTGTTTGCTGCGGTAAGAACCCTGGGTAATT
TCAGTAGACGCCTTTGCCCACCCGTTATGATAGTACATTGCAATGACTCT
GCCAGTGAGGTGTTGCTGAACAAAATCCAACGCCGCCTTAAGTGCTCACG
CAGTTTTGTCTCCATGAGCCATTACCAAGTACTCCGCCTCGCTCGTTGAC
AGTGTCACGCAGTGTTGCGTTATGCTACTGGCACTCATAGCTGTGTCTCC
CGGGCATGACCCGCAACAACCGAAACCGTCTTTCTGTTATTACATCTGTT
TGCATAGTCCGCGTCAGCGAACAACGACAGCTTCCAATCCCATCCCTGCC
AAAACCCAACCCCCAACCCTTAACGGGGCCCCTTTTTCCTATAGGAATAG
AACACCTCATTGATATGAAATTTTTCTGTTACGGTTCGTCAAATGGTTAT
TAAGGGCATATAAATATCGGCAGCTCCGCCCCCGATTGGCCAGGAACGGT
CCAGAAACATTCCGACACCTCTACAACATTTAAAAAATAGGTTGATCGGT
TGATCGGTACAAGAAAGGCGTGAATACGGGCGTTTTTGCCTCAAAATACA
ATTTTGGTATCAGCAATTCGAGGTACGAGACCGCTCGGGGCCCTATTGCC
ACATGTTCCAAACGTAAGAGTGCATAGTCATGTATCTTTGTTCAGTAGGA
AGTTTTGGGCTTCGAAGGTCATGTACCGAGGTTCGGCCGCCGTCTTTTGG
TGGTTTTGTGTAAACCCGGGGATCCCACCACAAGTGCCACAGAAAGGTGA
CTACAGACATTTCGACAACTTTCTTCGGCTTAGTAGCACGTAAAAGATTG
TCCTCTTCGGAGGTTGCTCCAGCAGGGGTTGGGGAGGTCTGCTGAGCAAA
ACCGCGGTCTCGGAGGCGATATCAGGCTCAAGAGCGATCCATACCTGTTG
CCGTTTCTACTGCTGCAAGGCGGGAGACCTGGCTCGGGCCGACCAAGCAC
AACTCCCGAAAATATATTGCCACAAGAGAGATATCAACTAGTTTCGGACC
TTTATCTGCAGTGTTTACCATGTGCTACGCAAATGCACACGCGGCGATAG
GGCAGCGTACCTGCACCGAGCTCGCCCGGGGGGCATAGGTCACAGGAGGT
ATTTGAAGGGTTATGACTGTGGTCCAAATAGTATAGCGAGAAACAACGAG
GAACGGTCCTGGGCTCCGAGACAATTTTCTGTGGCTGTTTCATCAGTATT
TTGTGCCCAAAATATATTATTTTCGGCCCAAACGCGTGGGGCCCCGTTAA
GTTGCCTTAAGGTAATCAATTATCTTACGAGCCGTCTCCCAATGCCTCAC
GGCCGGATTGTTGGCGTGGCGGACCCCTGCCCTGACAGCACTGGCTGTAT
CCGGTGGTGTGATCCTTGAAATCCACACAGAGCCACAGACAGTATGTTTG
TACCGCTAATCATCCTCGGGTTTGTCAAGTATGTTCGGGCCAAGGTCATA
CTCTACAGACGGGGGAGTTTCAGTTTTAAAATTGATATCGAAACGGTAAA
CCAACGACTTTACAAAATAGGTTTGCGTCATTTTCACAACGTCTTTCGGC
TCGTCACGCCCAAACGCGCATCCAAGATGCCACGATAGATCGACCATGTC
GTTGGACAGAAACGCTTCCGTAGGTTGCTCATGAAATCCACCAAAGGTCT
CCATGTCGTTCGCGGCTACAAGACTGTAAACATGAACACATACAAAGAGG
TTAACCTGCCCATCAAACATCTTACGGAACACACACGGGCCAACCTTAAC
TTACTCCATGTCTGTTTTCTTTATGAGTACCCTACTAAGTCGCAAATTCC
ACTGTCTTTCAACCTGCTGGAGCGCTTACACCGCACGTTGCAGCAGAAAA
ACTTCAGCGCTCATACCACTGTAGCAGTCTGGAAGCATCGTGTATACAGC
TTCATGCAAGAGTGCCTGAACGAACGCTCGCATTATGTCTAGGTGCCACA
ACACTCAGTCTTGCTCGTTCGCTACAGCTACAGTGATCTTCACACTTGAA
GCTAACGTGGTGGGAGAAAAGTGTCCGGGAAATCTATTCTATGATTTTGA
CGAAAACCCTCGCTGTCATACTAGATTTTGGCTTTTGGCTTGATTGTATT
TTCTCGGTCACCAGTCTTGCAGTTCCTGGACCATTTTCCGGTCACGACGT
TGGCCTTATTTAGCAACTCCCCCTCCTTCAGACGTCTAGAAGCATTTGAA
TGCCACAGACCCCTGACCTCGGCATAGTCAGAGCTCTTCCAAATACGTGT
GTACTGTGAACGTTCGCTATCCGCAAAGTTTATTGTATAATGTTCTAACT
TACTGATATGTGGAATCCCATTAGAATCAAAACCAGCGCTCGTAAATACT
AGTTTAGCCCCTTGCGCATTCAAAGGGTGGAAAGAAGTGATTATTTTTCC
CACTCGACCACTGGTAACTTTCTACTGAGGAATACTCTTTTCTAAGTGTC
GTTGTTTAACGCATTAGAAATTAGGCTCCATACAGCCAAATGTTTCACAA
CGTTTACCTCCCCATAGTTGGCGCGGTCGTGGGGATTTGTCCTATCGGCA
ACAACTATTTCTTCTCTGTTACCGCTCAGGAAGGATCGCCTAGTCCACTC
GAAGATGCCGCATCGTCATCGGAAATTCTGTCTCAAAGCGTCTCCAAGAC
ATTGTTTTTTCCATCAAATGACGGAATACCCCGGGATGTCACCGGGGCAA
TGCTGATCCACCTCAGAACCAACACCGGCAGGAGCACTACTGTTCCCACT
GACCAAGGTTTCATCTCACCGTAAGGCCCACCGTTCAAAGCCAGCCTGTC
CAGCAGTCCTCTACGAGTTGACTCCCGCAGATCTTTGGGCTCTCCATCCG
ACGCGATCCACAGCACATTTCCCATTGCTCCGTCCTGATACCTTTGCTCC
TCGATGCCACCAGCAGCAGCACCTGATATTCCCCGCAAGGTTCTTCGAGT
AGGGGAAGCGCGGCCATTTGCGCGTTCCACTCCTGTACCTCACGCCTTTT
TGCAGACTTTATTCGGCTTCAGTGGGGGCCCGCATTGTAGCCGCAGTGGC
GGCAGACTCACCTGCACGTTGCTGCTCATTGTCTAACAGGTGCGGTGCAG
GATGTCCCATTTGTCTCGAGAGTGAAGACAACTGCTGTTGAATCTCGGAA
ACATTTATGAGGGGCCTATTGCTATGGACGCCGAGGTCCTCGCCGCCACC
ACCGTTGCCAGTCAATCCCGTTCTCAGTGTAGCCATCGATAACGATCTGT
CGCTAGCGTATTCGTGAAGCCTATGACGGCGATTGTATCGAGTAGAGCAG
TCCTTGAACAGATTTGACGACTTCTCGATAGAGGAAAGAAAATAAGAGGG
AGAAAGCTAAAGGTAGAAACAAACTTAAGCCAGCAAAAAACGCGAACCAG
TCGCCTTGTAACAGACCGATAAATATTCCCAGAATAATCTCCCCAAATAT
CCACTGACTTAAGAAGAACCAATATGGAACAATCCCCGCTGGTATTGTCA
TTGTCTTAAAGAAGCGCCAAAACGAAAGCTAAAAGTTTCAAAGAGCTGTA
CCTTATATTGTTTGCAGAAGTGACACCATGGCCGCAGCGACATCGATCAG
CAGGTGTCGCTGATGTGTAGCGTTCATCCTGTCAAAGGAAATACATCGAT
AATACTCGTGGCTTTGATGATTTCGCTTGGCGGTCTCGAAATGTGACCAT
CAGCACCAAACTGGCCGAAAACCTCTCTAAGCAGCACGGATCCCGTGACC
CCCATCTCTTCGAGATTTGGGTCCAAATTGCAAGAGCCCAACGACCTCCC
GCCGTTTCTGGAGTCTGAGCTGGCGGGATTTGGGTGAAATCTAACTCCAT
TAGATCGACTGGTATGACGAATGAAACCAGGCCAATTTTATTTCAAATCG
CTATTTCAATCCCCTAATTCCAATGAAGAGTTTTTTATGGCCATTGAAAT
GGGCCAATTCCAATCCTACGATTTCGATTTCGGTTCCAAACCCGACATTG
AATGGCAATGGGCCCCGATTCCCGTCGAGAAACGAGTTAGAATCGCGAAG
ACGGAAACTTAAAGTATACGGCTAAATAAGGCTTTCACAACTGCGGTGCC
ACCTGTCGAGCTTGAATATCCAAGCTCTTGTCCGCCAAGGAGAGGTGCTG
CGACACCGGGCCATCATGGCAAGTCGACAAGCAACATTGAAATCTAGTTT
AAAGCAATTGTCACTGCAGTCGCAGACTTCAACCGGAAGCAAGACAGAAG
ACCGTGATAGAGTGCGGGGCGGTGGTAACTTCGTTTGTTTCTGTGTGAGG
GCAGCAACGAAGTAGACGGCCGCATCATTCCGAGATTCATCTACGATCGC
CCAGGTGACTAGTAGCCGCGATACGCTTGACAATAGTCGAAGAGGGCTCA
TGACGCTTAACGACGTATAACTCCTTTAATTTTCTGCCAATCATGGGCTT
GCACTGTTTTCAACGGGCGAGGCAAAAAAGGTATTTATTCCTCATGAGGC
AGAAAAATAGAAAAGTCGTGCGGGACGTTACTGTGCATCCCCAACCGCAA
GTCTTCCCTACTTTGGATTACAACATCGTCACAACACGTGTTAAACTTCT
TGATTTCTTTGCTCGCAACCGACCTGTGAGGCTGGTAAAGAGACCGCCGC
TTATTGACCGCTGACGGCTGATGAATGACCCGGATTTGCGCCAGGACGAA
GCGACAGTGATCGGAGATCACCTCAGGGCAGTACCACCAACCGGAAGCAG
TGTTGATGATGTCAAGATTGCCTTTGCAACAGCCATGCTCCAGACGGCAA
AGCTGGCCGGCGAGACAGTGCAGGCTGCCGGGGCGGGGATGGAAGAGAGA
TGCCCAGGCAGAAGCAGAGATAGACATGACGATCACCGCGAAACGAGCAC
CCTGGAAACAGCAAAAGGCTGGCAAGCGGGACAGCCAACTGAAGAGGACT
GCCCGGCGAGCAAATCCGCACGTTCAGAAGGGTCTGCGAGGTTCTCCGGT
ACCCTTCTCAACGTGAAATCTGACAATCTCGGACTCGACAACACCGAAGC
GCTCCCTCAGTCGTCTGCCACAAACGCGTTCGGGGTTGAACCGACAGAAA
ACGAGGTAATCGCGCCTTTCGGTCGATGGCAAACGCGAAGGTAGTGGGAC
TAGATGAACACCCTGTTGAACTCCTCAAACTCAGGCTGAACCACGACCCG
ACCGTGCTCCGGGTATTCCAACGGACGATCAAGCTGATGTTGAACCAACG
GAAAGTGCTGCGGTGGTGGTGAGATGCCGTGATAAACGTTCTGCACAAAA
AGGACAGGACCGAGGGCGGGAACTATCGCGGCATCTAAGTCGTAGCACAC
GCGGACAAGGTCCTTCTCACGATCAACGCTGCGAGACTCAGTGCCTACTG
TAAGGAGAAGGCATTGCTGCCAGAGGAGCAGTGCGGGTTTTGCCTGCACC
GTTCGACGGCAGATACGATGTTCCCGATGCGCAGGCTACAGGAGTTGAGA
AGGAAAGAGTGCGCACCACTGTTCCTGTGTTTCGACCTGCAGAAGGCCTG
CGATTCTGTCGATCGCATGTCTTTGGCAGGTGCTCGCTCGCTTCGAAGTA
CCGTAACAAATGAAAGAAGTAATCCACCAACTCTACGAGGGGATGAGAGC
TTGCGAACGGAGTGATGGCGGCCAATGCTCGGTGTGGTTTGAGGTGGCAC
AGGGGCTTCATCAAGGAAGCGTGCTTTTCCTGCTGCTGTCCAACGTATTC
TTCGCTGCGATACTCCTCATGACATTAGAGAGATTCAGCGAGGACGCGGA
CATATTCAAGGATAGCCGTCCAGGGTTGGCCCTTAAACGGCACCGGAACG
TGCGCGGCGTGCTTGGAGGATGATGTATGCTGATGACCTGTGCATCGTGT
CACGGCCCCCACGCGGGTTGAGACGGATAATGGCGATCTTCGTCGAAATC
TTTGGTGTATTTGGTCTGACCCTCTCAGAAAGGAAGACAGAGACCATGCG
CATGCCGATTCCGCTTGCACACGCAAGGAAACTAGTCTTCAATGCCGCGG
GGCAGCAGTGCCGTCAGACAACCCCTTCACTTATTTGGGAGGCGCCGTTA
CTGACACTCCAAACCTGTCGACCGAGATTGACCGGTGGATCCGTGTGGGG
TGGATGGCATCAGGCGTTACACGCGGGAGCTGTACGACCACCCGAAGGCA
AGTGTGCTGCGCCTGAAGGTCCGAATTGTGAAATCCGAAGTAGCAGAGGC
TTTTCTATACGGATGCGCGACGTGGACTCTTTTTAAGGGCCACTACGACA
AGCTCCGTACTTCACATCACAGGATATTGCTTCGAATCCTAGGAGCCTGG
TGCAAGTCTTCGAATTATCACACCCTCTCTTAAAACGACGCCCTCCAGCG
AATTGGGTATGAGAGTATCGAAGCAATCGTCCGCACGAGGAGGTTGCTGT
GGCCGGGGGCGCTGCTCTGCATGGGCAGCCAAAGACTACTCCCAAGTTGG
GAGAGCTGGGGAACGCGGGACAATGTGGACCGGGGGGGGGGGGGGCGATG
AGAGAAAAATTGGACGGTCTGCGTAACAGAGGATAGTCGGGTGTTTGTGT
CACGGGTAGCTGGAGCACCGTCCCATCAGACCCTGGGGTTGAGTACAGCA
CACTCTGCGAAGGAGGCTGCAAGTTTATGGCCGCGTTGATGAAGGAAAAG
GGAAATGCGTCCAAAACTCGACAGAGGAAGTGAGAGACGGAAGAGGCGGA
CACGGATGAGGTTACACCTGGGGTGACCGTAGGCAACCTGATACGTTTTA
GAGCCGCGTTGATTGACCGACCCAAGGACTCCTAAAGCGGCGTCGGCTGC
GCTGATAGGAAAGCCTGAAAACGCTGTGAGTACGGTGTTGCAGATCTTAC
GCCTCTAGCTACAACTGTGAGATACTTGCGATCCGGGGGTTACCAGATGG
CTCGCGACTGGCGGTATTCTAAACCCTCTCTAGCGAGTGCTCATTTTCGT
GGCATGCGCGTGCATGTATGCACCATGTATCCGTTTTATTGTATGGGTTC
CTGCGCTTCTTTGCATCCTACCTATTCGTTCTGATATTTGCTTTTTCTTC
TGTTTCCTCTCTCTTTGTCGTTTCCACCTTTATTTTCTTTCCTCTCCTCT
TATTGGAGCTTTGTAGATGTTCCTCTGATCTTTTCTTGTCTAGCAGACCA
CGCACCAGATTCGCAACCACGTATATAACCGGGTATGGTTGAGGCCCGAT
CTGTCAATGTGAGGACCACACACACAAACACATACTAAGGGGCAACCGCT
TTGGCTGCCGCCTCTAGTGCAGTGCTGTCCTCCTTCTGGAGACTGATTTG
ATGTTATCGTTTGGGACGAGTTGGTGGCTACATGCTAGAGATAACAGGAA
AAGGCCATAAGGCCGAAGGAACAAGCGTCAAGCGTAGGCGGCAGGTCGTC
TCGCGCTCGAACTACAACGCATCCTTGTCGGGAGTCATTCTCGGGTGATA
AAACGCTCGAATATCCAATATCTCGAGGGGCGAAGTCCCTAGCTATACGA
GTACGACTCCAAAGAAACAAACCCGTACAACCAGCAATACACATAATATT
AGTCGTACGTTTCAGCACTCTTACGAGTACTGGCCACAGCACCTAGGTCT
ACTGTATCCCGAAAAACACAACTACCTGGTCCTGTACAAGTGATATGTCG
CGTATATGCAATTATTGTAGTTTTCAATGGTATAGCGCTTGACTCGTGAC
CCGACTTCGCCGGTAGACAACAGAGTACTAGGTATTAAAATATACCTGGT
AGTATAGTATCTTGAGCAAGGAGAAGAACTGATGTTGCAGTTCCCTGTCT
TCCTGCTATAAAAAAGTGTCTGTCCAACACTGCGGTCAGGTTCGCGACCA
CGTGCGAAAGATATCTTTCCGTCGAAAGATGCACCGTCGTCTTTTTTCTA
CAGTACAAGTACTTTAAACATATGCCGCCTGGGGATACCACCTATGGTTT
GATAGCATTCAACTCCGATTTCAGAACCCCCATAAGGTGGACGAACCATT
CCAGCTTGAAAGTTGCGAGATAGGAAATTGTGCAGCGGAAATGTTTGCGA
TTTCAATCGGCCCGATTTCAACCGCTAGATAAAACGGCCTAAGACGGGTT
CCGCCGCTCGTATTCCAAATAATATGTAATACAAATACAACGGTTTTCAA
CCACAGGAAGACCCGTTTTTGTCACTCATTCCATAAAACTTTACTTGTCA
GATTACTGTATAGTGTTAAGAAAAAGGGTCCTGTAGCTTTTTCTTTGTCA
ACGCTTCGTAACATGATATGTGTTGTCTTAGGTTGTTGTGGGTACTGAAC
AAGACTTTTATCGTAGATTGGGCCTCGGGACTGTCAGAAACCTTCTTGTA
AGTGTTGGGTTTTAACAATTGTACTAATGGCGTTTTAGGGTCCCCGACAG
GTTTAGTGTTGGGTAGATATAGAGATGGTTGCCCTGTCTCTCCTCGTTCT
TTGTTCTCAAGCTTATCTGGCCCTCAAGCGGCACCTTTCAATATCATCAG
CTTACATCCGCAGCTACCACCGTGTCTGCTCGGTCGGCTTGACAGCCAGC
AGCGCCAGCCTTTGCATCTAACTGTGAGCGTGTCTTAGGACATCCTTGAT
AGGTTTTGAGTCTCGATTTCAGCGTGGCGCACGCTTCGGGGGTCTTCGTG
GAAGCGTCCCCGTAGTTTGGAGCAGCAGCACCATCTGTGGCGTATTTTTG
CTTGGGAACAAAAGTGAGTTGAGTCACAACAACGACGGCACAGCAACGGT
GCGCATCTTGCACTGCACACAGTGCATTGCGGCCTGAAGGAGAGCAGGGT
ACGTAGCTTTCAAAAACGACGGCACTGTAACGGTGCGCGTCTTGCACTTC
ACACAGTGCATTGCGGCCTGAAGGAGAGTAGGGTACGTAACTTTAAAAAA
CGACGGCACTGCAACGGTGCGCGTCTCGCACTACACACAGTGCATTGCGG
CCTGAAGGAGAGTAGGGTTCGTAACTTTTAACAACGACGGCACTGTAACG
GTGCGCGTCTCGCACTACACACAAGTGCACTGCGGCCTGAAGGAAAGTAG
GGCACGTAACGTTTAACATTGACGGCACTGCAACGGTGTGCGTCTAGCAC
TAGACACAGTGCATCGCTATCTGAATTAGAGCAAGAAAGAACATCGGAAG
AGGTTATCATGACGGAGTACGGCACCGACAGCATCCAGGCGACAGTAAAC
TTGTACCCACGTTTTTATGGCAAAGACAAGACCCAATATTTGGAATACAA
GGACAAGCTTCGTGTCAGCCTGTCGTTCCATCGGCAAAGCGTCGCCGCCA
TTCTTCAGGGCGAGCCGAAGCCGACAACCGCGCAAAATTCGCCGGCCGTG
GCGACGTGGACGCGCGCGAACGATAATCTTTTCGGCATCTTGTTCTTCAC
GACGGAGCGTTCTGCCCACAATGTCGTGGAAAGGCACATGGGCAAGACCC
GGGAGGATGGGGTCGGTAACGGGCAAGCGGCGTGGAATGCCCTGGAAAAG
AAGTACAATAGTATCACAAGGAGGCTAGGAGGCGTACAACGAATATTTGC
ACAATGCCAAGATGAAGTCCGGCGATGATCCCGATGATTTTATTTACACC
ATGGACGGCTATCGCGAGCGTCTGAAGGATATGGAGCGAAAGCCAGTACC
CAACGAGCGATACGAAGACATCATTCTTCAGGCCCTTCCTGCCGAGTACG
AGAGGGTCCAGCGCAGCCAGCTACGAGAGGCGGGATATTCGCCTATAGAT
ATTCGGTGCATGATGAGTGCCTGGCATCGACTGCCTTTCCCGTCCGAACA
ACTCCCTCTTGGTCGCGGGTCGTGGGGTTGCCATGCAGGCGACTGGGGGA
GACAACAGCATCATCAAGTGTCACTATACACCGCTAGAAAAACTGTGTCG
CTTGGATAGCGGCCCAGTGCAAAGACGGAAATCAGCAAACGACCCGTTCA
ACACCGTTTGGGCGCTGGAAAAGGAAAGCAGGAGAATATGGAAAGTCGAT
GTGGTGCTCATTCCACAAGTCCACCTCACACAGCGACGAGACATGCCGCA
GGCAACAACATAAAATAGGCAACAACGGTAGCGCGAATTGGGCCAACCAG
GGGTCGGACTACCCCGCCGTCCTTACTGCAAGCGACCCTCCTCCCGAGAG
TAATATTAAGGAGCAAGGCATATCGTTCGCTGCAGTAGAAGTGCCGACCA
GGGAGGAGCCATCAAAAGAGCAGAGCGTGTGGTCGTCCGGTCCCACCGGT
GAAGCGGTAACCTCGTTCGACACCAGCGGGTTGTTCAGCGGCTTCGAAGG
CGCCACCAGCGAGAACACTGGAAGCTCTACTTTCGAGATCAAGGAAGGCC
CGATCCAGGGACTGGGGCTTTGGAACCATATCACCGGGGGACTTGCAGCT
ATCATGGGCTTGTTTGGAGCCCCTTTCAACGTCTCCGTTGAAGAGGCCAT
CAACTCGGGAGCGCAAACACCGGAGACTCGGACCCACACCACTAGTACCC
TGACAACGTTGGCTCGTGCTTTGCGTATGGCGGTTATGCTCCACTACTTT
TGGCTCACCCTCGGCAGCTTCCCCCATGAGTTGCATCGACGAATACCAAC
GGACAACCTGAACCCTTTGGCGGCAGCACCGACGCCGAAGACGGGTTAGC
GCTTGCGGCAGTACCAACTGCAGAAACGTGGAACCATGGCAGCAACAGCT
TAGTCAGCGTGATGGTGGATAGTGGGGTGTCGGGCCATTACTTTGACGAT
GCCCTGATTTCCGGATTAAGGTACAGACTCGACAATTACCAGGCGTTGGC
TATACGGCGGTGGATCACAACTGCAGGGGGGCACCAACTAAAGGAGGCCG
GTCAGAGACTGCCTCATGGCCACTCCATCGACGCCCAAGGGTTCAAGCGC
CCGACCCAACTCTCGGTATTGGCTGGGACTGACGCAGGGTGGGACCTCTT
CTCGGTTAAGCAAGACGGTGCCCTGTCGGGGGGGAAACCGCTATCGAGAA
CCGCGGAGTGCGGTAAACCACGAGAGCAACCTGTATCACTTGGGGAAGCG
TCTCCAGCTGGGGGAGTTCCACCAGATGGCGCCCTCGAACATCCTGGGCA
GCCAATGTCGTCTGACTCTGAACACGTGGAGGCACCATTCGCAAGGCCAT
TGCCACTCCAACACCATGGACCTTCGCGCCACCAAGTAACGCCAGCGGCG
ACGCGGGCAGGCAACGCAACGCAGTCCATCAAAGAGCGTAACGACAATGA
CTGTACTCGTTTCGTGGAGATCGCCACCGACAGCACGCTGTCCCAGCTCC
GGAGGCTGGTACTATACACCGAGGCGTTCCTTATGGATATCGCGCATCAG
ACTGATGAAGCGGAGTCGGTTGTGGAATATGTCTGTGCCGTGACCAATGA
TCAAATGTATTCGGTGGGGGAGGAAACGGAAGTAGTTCCAAACACCTTTG
AAGAAGCCACGATCACCGGCTCTCGCTGGGTGTACAAGATCAACGCCGAA
AAATCCATAGGACAACCAAGGCTGGTGCCTACGGCGCTGGAACGCCCGTC
GCCATCGCGGCGAGGCACCGTGATCTCCGCCCCCTAGAAGTCGACTTCGA
GGAACGAGCCGGCGTCGATGGGGATGTCGAACACTGACAATAGGGACCTG
GGCCGCAGAGTCGACGACGACAAACGGAGCACAGGCACGGACGAATTCGA
GAATGGAGCAATGGACCACGAGAAAGGGGGGGAGGATGAAGGAGACCCGC
AGAAAGGCGAGCTTTGCAGTGGGCAGCGCCGAGATGAAGTGAGGCGAAAA
TCCGATTCCGGCCATTCTCTTCGTTCCTTTCTCTATGTATCTATTTCGAC
GTGTTCTATGGAATCCGCCTTGTGATTAGAAAATGGTTGAGGGATCGACC
CCCCCCCAATGAAGACTGTGTGAATCGTTCTTTTTCTCTCATATAGACTA
TATACTTACAACAGTATTTTGGTGGGATAAAGAACGAAGTTTTTTTTAAA
GAACGAGCTTTTCTTTAAAGATCCAGAAGGCGTAAATTCACGTAGCGCAC
GCCCTTCTTCGAGCTGTTCCTATTGGCTATGCTCAAAGAAACGGGCTTGA
CCATAGGAACAATTCAATACCTTGGTCGGGGTCCTCGACCAACTCCCGAC
CCCGTTACAGCAAAAATGGCGTTTTTCTCGTGAGCCAAATCGATTCCTGG
CAACTTTACTGACCATTTGCACTTTTTTTAAAAACCAATGTAACTCTTTA
CTGGAACATCGTATATTTTCCATTTTTTATTTTATATGATCCTATAGATA
AGAGCTTTCGTTTGAGCCGTGGCCGAGCCGAATCGGCGAGGTGGTTCAAA
AAGTAGGATTTCGGGCCTCGTTCTTAAAAAAAAAGTTCGTTCTTTATTCC
ACCATAATACTGTTTTATGTCGCTCTAAACTAGACTTTCTTCTCCGAGTC
GGTTGACGGTTGCTGTACTATCCACCATGTAGACCGAGTGAAACCAAAGG
AATCACCACGTGATTGATTCCTCCTCTGGCCTGAGGTAGGCCTTGATGTG
TTTCATCCTCCGTGTTGACTCGTGTGGGAATTCCCATAAGGCTTTTAGAT
TTTAATGAGCTGACATCGAAAAAAAAAAAAACTTGAAAACTACGCGTCAT
GTTGTTCGTTGTCTGTCTCTCCAATATGCTAAGGCCATCGTTGTTTTTTC
TCCCAATGGTGACAAGGCGAGAAATTTCGTCCGCATTCTGTGAAATATCA
ATGTAAGCTTCCCCTCCTGGGTAAACCTTACTGGAGGGTTTTTCGTTGTT
CTGTTGGTTCCCCTATATTTCGAGAGTGAGGAGCGGTACGAAAATTATCG
GTAGGTGTTGTCCGCCGGAAAACGTTCCTCGACATGGTTTCCATCGGTGA
AACGTGTCGCAGGTTTACGATCAGATTTATTGTTTGTTTTGTTGGTGACT
CGCGTTGAGGGTGAGTGTTAAGAAAAAGGGTCCTGTAGCTTTTTCTTTGT
CAACGCTTCGTAACATGATATGTGTTGTCTTAGGTTGTTGTGGGTACTGA
ACAAGACTTGTATCGTAGATTGGGCCTCGGGACTGTCAGGAAACCTTCTT
TGTAAGTGTTGGGTTTTAACAATTGTACTAATGGCGTTTTAGGGTCCCCA
ACAGGTTTAGTGTTGGGTAGATATAGAGATGGTTGCCCTGTCTCTCCTCG
TTCTTTGTTCTCAAGTTTATCTGGCCCTCAAGCGGCACCTTTCAATACCA
TCAGCTTACATCCGCAGCTACCACCGTGTCTGCTCGGTCGGCTTAACAGC
CAGCAGCGCCAGCCTTTGCATCTAACTGTGAGCGTGTCTTAGGACATCCT
TGATATATAGCTCTGCCATTACTATAGGGTGCAGCACAAGTCTGTGTTCC
TCACTTCTAACTAATATAAAGGGAACAGCTTGAATTATCTCTGACCCACA
AAAAAGCAGTACGGAACGCAATTTCAACATGAACTAAGGTACACTGGAGC
TGTATTTTTCTTACTCTTGAGTTTTGTTTGCACATAATCACGCAATCCGG
ACCTATTTAATTATTCTGAGCTGTTCGTATTTGGTCCCTCAAATGAAGGT
CCAATGATGGCTGCAGTTGTCACGAAAACCTGTCATGAAACGCAACAAAG
CCTGTAATCCACTAGCAACCCGCGCTTGTATCTCAGCTTTCCGATTGCAG
TCATGCTGGCCTGGGTCGGCATCTACTGCATCGACAAATATCTTTGGCGT
TTACTGCCACCCAACTTCCTACCGTTTCCCACCTTGCCTCTTGATTATTG
TGGTGGGTTCTCGTGCTTCATGCCCCTTGTTCTTGCTCCTTCTTTCCCAC
CCGTAGAACGTCGCACCCCCCTAACGATGCGGCGTGTTCGCTCGGGCATC
AGGTCCCGCAGCTTCGGCTGCTAGTTGCCTGTGGGCGTCACTCCCTCTCT
TACGTCCTTTACCTCGCTTCTATCCGGATTGGGTGGTTCTCGGGCTATTT
CCTCTTTCCAATACCGTCGTGTGTGTATGTGTGCTTGGGTTAGTAATCCT
GCACGGGTGGCCAGAGGACTATCAACGTCCTAGGTTGTCACACATTGTAA
ACGATGTGTTTAGTTACTAGTATTATAGTACTGTACAACATTGGAGGGGG
GAGGGGGGGGCTCTTATCCCCAACATTTTGGGGATTGGGTAAACTACACT
AACTATCTAGAACCTCAAACACGACAGCAAGTTTGGGCAATGTACTCCAG
GGGACCAGCCAAAAGAGTCTCCCCCGCTTTTTCATTCCGATTTTCGTTGG
CTGACGGTTGGGGTAGCCGGGAGCTAGTCGTGGTAGCTCCAACTTCTACC
GTAGTTTGTATGTGTAGCCCAAGTCGAAGTGAGCTGAAGTGAATGATTTT
CATCTACGCTACCCCGTTATATCAAAGAACCACTTTGTTTGCCATTCCTG
CTACGAGTCAGGGCGCCCCTTCAAGAAAAACCTGACTTAGGGGTTTAATG
CCCTGTGGTGAGTCGATCCCATTTGGAGCAGGATTGTTCTCTCCCCTTAT
TATTATTGTCGACTTTAACATCATTCTCAATAGTCGCCATGAGAGGAGGG
GGAGGGGTTGGGGCGGACACGCCCGAGACAAAAGAGCAGTTTACGTCTTA
TGGGAGGATAGCAATCGGAGGTCGGCGTTTGGATTACTGCGCTGTTGCGG
GGACGTCGTCGTTTGGGCGAGATAGTGGGTTTCATTGAAAATCGCCGAAC
TACCTCTTTTTTTGAGCGTCACATACGTAAACCTATTTGTTGTTGTTTGG
TCAGACCTTTTGACGGAATTCGTTGTTTTTGGTCAGATCTTTTGACGGAA
TTCGTATCGTACTAATGGGGCAGTACGCCTGACAGGTTCTATCGTAGATC
CTCTTAATTGTTAACTTAAGCACTGGGAGTGGTAGTGACCCCTAAGAGTG
GCGACACGGGGGAACACATCCCTCTCACTATTGAAAGGACGCTTGCATAC
ACCCTATATATCATACTGCACAGTATCAAGCACCATTCAAACATGTGTAC
TTTATGCACTTTGCAGCAGATCAGACATACCTGTTAATAGTATTTTTGAG
GAACAAGAGGTTCTTACTCTCACCAAGAGCAACAGCGCTCCTGGCGAATG
CTTCCCTAAATGTGTAATATTTTCACGTGTACTTCAACTATTCATATCGT
GATAAGCTGCGGTGATGATAGTCTTTGTTTATAGACTGTGGTGATGGTCT
TTGTTTATATACTGTGATGGTAGCAGTAAGTCTAGTGCAATGTTAAGGCG
GTCATAGCTGAAGAGTGGCCCAATGTTCCGGGAAACTGTACACGAGGAAC
GATAGAGAATCTTACATTTTGAGCAATCACGAAGACAGGGTTCTGGCGTC
AACACTGCCTTCGCCAACGCAGACGCAAGCAACAAAAGGACAGGCACCAT
TGGAAGGAGCAGATGGCACGATCGACGACCTCAAGTTGGCGCTGTTAGAG
AACCTGGAGAATCGAGGGGTCCTGAGAAAACTCAAGGCCCAGGTGAGCAT
GCAGAGTACGGCATGGATCCGGGTCCGTCCTGGGATGCCAATATTATACT
TTGCAGTAGCTGCAGCCGAGCTTTCCCCCCCGTGCATGGGTAGTTGATGG
TACAATCTTACTCTCCGATACTAGTAACTAGTACTATCGTGTTCGTTTCG
TCAGGTGATTTGGGCGAAGGAAATGCCTGTTGTACACAGAAGCCCTTATC
ACGTTTAGGTGGTGGCCAAGCTAATACTTGATTGCCTTCAGCACGCGGCA
TCGTCGTTGCCCAGAGTCATGCAGCATTACATTTACGCCATTCAACATGC
GCTTATTATCTCGTTAATCGGATTGGGCTAGTGAACACGGCAGTACGAGG
GAGCTCCACGCTGGCGGGTTCAACACGACAACTCTGCACCATTACCACCG
CTCATCATCCGTAACCCAGTAACCTCGTCGTTTGCTGGAACAGGTGAGGG
CCGAGATTATTCGCACCTTAGAGGGACCGCAGAGCGGCGTTTCCTTTCCA
ACCCTCTGCAACGACAACCTCCTAATCAACGAGTTGGTACGAGACTACCT
GGAGTACAATGGCTACATCAATGCTTTAAGTGTGTTTGTGGTGGAGTCTG
GCCAGCCCACCAACAATGAGTTGAACAGAGACTTCATCAAAGAACAGGTA
TGAGGCGTAGAAGACGAATCCGCTCAACGTATTATTGTCGATGGACCTCA
TCATTACCATCCTGCCTGTGGTCACTAAGGATCTTCCTATTTCTCCCCGG
TTCACGCCTTACGATTTTTTATCGCGATGTAAGTTCAGTAATCTTACAAC
TCGTCAACTAATGGTGGAATTTTACTTACTCACGTTTCCCAGGCTTTCCG
TTACGGGAAAAAGAACACAAATCCTACTTTGGTTGGAATCGAACTCACGA
CTTCCGCACTTGCAGGTGTGCAGGTTACCTACTATTATAGACCACTCGGG
CGACGATTAATATATTTCACAGCAACATGCCTACTTGAGGGTTGGAGACA
ATCTGTAGCTATTCGGCGTTCGAATGGGCATATAACCTACAGCTTAGGAA
TGTCCTAACGATATTCTACGCTCACGAGTTTTCTTCCACGTTATGATTGA
TACGTTGAACGCACTCGGGGAGCCACGGAAAAAGCAGTTTTTACGCCACG
TGAATTAATATCCACGTCATGATGCCGCTTGCGTGCCGTACTATTCAAAC
CCTCTAGCTCGGCCTGACCGAACAACGAGGCGAAAGCGGGCTCCACAAGC
CGCCGTTGCTGTACGGCATCTTACATGCCCTCAGACGCCGAGAGGAGGCT
AGCTCAACAGGAGGTCCCGGAGAACATGATCGAGGCGATCGCGTCGTGGG
TACAAGGATCGACTGGAGAGGAGGTGAGGGAAGGCCATTCGAACACTGGC
CGCTACCTTGTAAGTGGTGCATTATTTGTGGATGTGACTGCCGAAACATA
TAAACTATGTAAATGCACGGTGGGGGCAGAATAATGTCATAGAAACTGAG
ATTTATCTTGAGAAAGCTGAAACAATGACGTTTTTGTTGGGGCACGTAGG
TCATGGGCAGCTGAACACCCTGCTATTTTTGTTTAACTAGCCATCAGTTT
TTATCCAGGCAGGGAACCTGGTATCTTGTGGTGTGGTGGGGTGTGTCAAA
ATAACTTCTCGACAACATCTCGCTGTCTGAATAGAGCTACGCGTAGTACA
CAAAATATTGTACGGACGCTGGCGACCCCTTCGTAAATCCCGTGACGTCC
TTATGTTGGCTTGGAAGCTCCAGCTTACGAGGATGACATCGCGGCTGAAG
ATTGCGAATCAATGCGCACACCATGGACTGGTGTCGACCTCGGTGTCGGT
GACACAGGTACCCTGGGCACCCTTGGCAGGGAGAATCCGGCACCGATACA
CTTCACGAAGAATGGTTCTGCCAACAAATGATGGCATGAGCATAAATGAG
ATATGTATGTAGAGAAAGAGTAAGCAAAAGAACTATGCACGCATCGCAGG
AGGTAGGCGCACTGTAATCTTCCATCTGATAACTTGGGAGACGTGAGAGC
CAGCTCGCGATTACTCCTTGTAGGTTCATCGCTCGCCCTGTCTTCAGACA
TGTGCTGTAAAACAACAACAAAACTGCTTGGTGCAGGAATGGGTCCGCTC
ATTTACGCGAGAGTTTTTCTCAAAGATTGTTCTACCATGGCTGGCTCGGC
TGTATTCACAGTCTTTTCATTGCTCTACGGACGAAAGATCACGCGTCCAA
TCAGCGAAGTCAAAGTCGTAATATTAGAAGGAGGCTCGTTTACGATCGGG
AAGGGGGACAGGTCTTAACCGCCCAGGCGAATGTAGAAGACGCGGAACAT
GTCGCAGTCAACCAAATCCGGAAAGTAAAGGTGGGTGCCGATAAGCAGCA
GTGCATCGCGGCG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig946:248084..269746-

>mRNA_A-nodosum_M_contig946.2.1 ID=mRNA_A-nodosum_M_contig946.2.1|Name=mRNA_A-nodosum_M_contig946.2.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=684bp|location=Sequence derived from alignment at A-nodosum_M_contig946:248084..269746- (Ascophyllum nodosum dioecious)
ATGGCAACCACTCGACAATCTTTCCAGGAGACGCAAGCAACAAAAGGACA
GGCACCATTGGAAGGAGCAGATGGCACGATCGACGACCTCAAGTTGGCGC
TGTTAGAGAACCTGGAGAATCGAGGGGTCCTGAGAAAACTCAAGGCCCAG
GTGAGGGCCGAGATTATTCGCACCTTAGAGGGACCGCAGAGCGGCGTTTC
CTTTCCAACCCTCTGCAACGACAACCTCCTAATCAACGAGTTGGTACGAG
ACTACCTGGAGTACAATGGCTACATCAATGCTTTAAGTGTGTTTGTGGTG
GAGTCTGGCCAGCCCACCAACAATGAGTTGAACAGAGACTTCATCAAAGA
ACAGCTCGGCCTGACCGAACAACGAGGCGAAAGCGGGCTCCACAAGCCGC
CGTTGCTGTACGGCATCTTACATGCCCTCAGACGCCGAGAGGAGGCTAGC
TCAACAGGAGGTCCCGGAGAACATGATCGAGGCGATCGCGTCGTGGGTAC
AAGGATCGACTGGAGAGGAGCTCCAGCTTACGAGGATGACATCGCGGCTG
AAGATTGCGAATCAATGCGCACACCATGGACTGGTGTCGACCTCGGTGTC
GGTGACACAGGTACCCTGGGCACCCTTGGCAGGGAGAATCCGGCACCGAT
ACACTTCACGAAGAATGGTTCTGCCAACAAATGA
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