mRNA_P-littoralis_Contig1119.18.11 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1119.18.11
Unique NamemRNA_P-littoralis_Contig1119.18.11
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: D8LN59_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LN59_ECTSI)

HSP 1 Score: 447 bits (1149), Expect = 1.950e-131
Identity = 433/750 (57.73%), Postives = 469/750 (62.53%), Query Frame = 1 
Query: 1426 QAKVKKPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGGRDFDQLVRPQQPPLATQPWLLPPSPPTVPFVGATAPTAAAEAAAASGINAGATADDAPAAGVLPVNHTREDPSMAPGSSQGITAAVDGGASPAAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVPSKAALATT----VTTANVTXXXXXXXXLVLGGPPETASQQHRPLTAQEQPNAQGSTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXAVSKPPFTSEHXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGCDLASPAPGG---VVPKEELVARGMGLSVLTSRAGMNANAGLTASNGKGKHSIDRTTSLEALSLLELPHIQGMANLAVLGLWPTAFPASASSTAPSSSANTQSPSRITPLKAVNGRGMKRTPSWARMSSCENLQSLTEGSPVSLSAGDVGTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEARHGSSXXXXXSSAAPSISPFMPRNTSVEDFLSLVESGDIPPPEGTAGFTVPMWIYTGDSGNTSNGASSXXXXXXXXXXXXXXXCANATXXXXXPDKXXXXXXXXXKHKGSSGSSVTRGVSSGVYPASSVDKPRSKRFKSGLAKTEAK 3654
            QAK KKP+GLRRGKWTSEEE+YANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQP DIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGG  FD L+RP QPP ATQPW+LPPSPP V   G  +P AA + A      AGA AD+A   GVL                   T AV                   XXXXXXXXXXXXXXXXXXXXXX            PS AAL ++     + A           LVLGGPPE  SQ HRPLT+Q+QPNAQG++                                              AV         XXXXXXXXXXXXXXXXXXXXXXXX                    +AS  PG    VVPK+EL A G GL V TSR+G  A+ G   S+G G   IDRTTSLEALSLLELPHIQGM NLAVLGLWP AFP S SST  ++          TPLKA+NG G+KRTPSWAR+SS E+LQSL EG+P+  +      XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX       XXXXX       SPFMPRNTSVEDFLSLVESGDIPPPEG AGFTVPMWIY+GDS NT+NG  +   XXXXXXXXX    +        P   XXXXXXXX               SG+   SS++K +SKR KS  AK EAK
Sbjct:  254 QAKAKKPNGLRRGKWTSEEEDYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPADIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGGSSFD-LLRPNQPPPATQPWMLPPSPPAVTLAGTLSPAAATQRANV----AGAPADEA-TGGVL-----------------AETTAV------------------AXXXXXXXXXXXXXXXXXXXXXXATAPGSAEVAPSPSSAALPSSSVLGASHAGPGGVAKAPNGLVLGGPPEKESQ-HRPLTSQQQPNAQGTSTTALAPAPATPAEINDVGVKAGSAAGIANGNHLAATTSAAS-----AVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXASFLDAGGALPSLPGTGDGRVASAIPGSTAAVVPKQELTASGTGLGVRTSRSG--ASNGFNTSSGLGGSGIDRTTSLEALSLLELPHIQGMTNLAVLGLWPGAFPPSGSSTGTTTG---------TPLKAMNG-GLKRTPSWARISSYEHLQSLDEGAPLYPTTNG-NXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSPFMPRNTSVEDFLSLVESGDIPPPEGAAGFTVPMWIYSGDSSNTTNGNPNGHAXXXXXXXXXTPAASERPAGHSKPSSKXXXXXXXX---------XXXXXXSGM---SSLEKSKSKRLKSTQAKAEAK 931
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BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A6H5KTB0_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KTB0_9PHAE)

HSP 1 Score: 444 bits (1143), Expect = 1.060e-129
Identity = 418/789 (52.98%), Postives = 462/789 (58.56%), Query Frame = 1 
Query: 1321 GGGFLGLSGAGGNVXXXXXXXXXXXXXXXXXXXXAQAKVKKPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGGRDFDQLVRPQQPPLATQPWLLPPSPPTVPFVGATAPTAAAEAAAASGINAGATADDAPAAGVLPVNHTREDPSMAPGSSQGITAAVDGGASPAAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVPSKAALATT----VTTANVTXXXXXXXXLVLGGPPETASQQHRPLTAQEQPNAQGSTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXAVSKPPFTSEHXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGCDLASPAPG---GVVPKEELVARGMGLSVLTSRA----GMNANAGLTASNGKGKHSIDRTTSLEALSLLELPHIQGMANLAVLGLWPTAFPASASSTAPSSSANTQSPSRITPLKAVNGRGMKRTPSWARMSSCENLQSLTEGSPVSLSAGDVGTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEARHGSSXXXXXSSAAPSISPFMPRNTSVEDFLSLVESGDIPPPEGTAGFTVPMWIYTGDSGNTSNGASSXXXXXXXXXXXXXXXCANATXXXXXPDKXXXXXXXXXKHKGSSGSSVTRGVSSGVYPASSVDKPRSKRFKSGLAKTEAK 3654
            G GFLGL G   +   XXXXXXXXXXXXXXX    QAK KKP+GLRRGKWTSEEE+YANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQP DIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGG   D L+RP QPP ATQPW+LPPSPP V   G  +P AA + A+ +G  A A                         +++G+ +     A+ AA   XXXXXXXXXXXXXXX                           PS AAL ++     T A           LVLGGPPE  SQ HRPLT Q+QPNAQG++      XXX             XXXXXX       XXXXXXXXXXX           XXXXXXXXXXXXXXXX                             AS  PG    VVPK+EL     GL V TSR+    G N ++GL  S+G     +DRTTSLEALSLLELPHIQGM NLAVLGLWP A P S SST  ++          TPLKA+NG G+KRTPSWAR+SS E+LQSL EG+P+S      G                      XXXXXXXXXX       XXXXX++     SPFMPRNTSVEDFLSLVESGDIPPPEG AGFTVPMWIY+GDS NT+NG  +                +        P      XXXXX              + G    SS++KP+SKR KS  AK EAK
Sbjct:  312 GSGFLGLQGGSASAMGXXXXXXXXXXXXXXX----QAKAKKPNGLRRGKWTSEEEDYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPADIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGGSGLD-LLRPNQPPPATQPWMLPPSPPAVALAGTPSPAAATQRASVTGAPADA-------------------------ATEGVLSETTAVAAEAAGHQXXXXXXXXXXXXXXXATAPGSAEVAPS---------------PSSAALPSSSLLGATHAGPGGVAKAPSGLVLGGPPEQESQ-HRPLTLQQQPNAQGTSTTSLAPXXXTPAERNDVGVNAGXXXXXXNGNHLAAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXATPTSFLDAGGALPSLPRTGDGRE-----ASAIPGITAAVVPKQELTTNETGLGVRTSRSRASNGFNTSSGLGGSSG-----MDRTTSLEALSLLELPHIQGMTNLAVLGLWPGALPPSGSSTGTATG---------TPLKAMNG-GLKRTPSWARISSYEHLQSLDEGAPLSPMTNCNGAGSVSSNIASSSSNIASGLGGGXXXXXXXXXXXXXXXXXXXXXXATP----SPFMPRNTSVEDFLSLVESGDIPPPEGAAGFTVPMWIYSGDSSNTTNGNPNGHAPNGSSSGDSTLAASERPAGHSKPSSKPKNXXXXXX------------XARGACGTSSLEKPKSKRLKSTQAKAEAK 1018
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BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A6U0XNE9_9STRA (Hypothetical protein n=3 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A6U0XNE9_9STRA)

HSP 1 Score: 206 bits (524), Expect = 1.860e-51
Identity = 113/160 (70.62%), Postives = 124/160 (77.50%), Query Frame = 1 
Query: 1429 AKVKKPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKT------GGEIGSKEGGR-----DFDQLVRPQQPPLATQPWLLPPSPP 1875
            +K KK +GLRRGKWTSEEE YANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRL PEDI+RSR +L+DLERRFLERVA T+RCK       G ++G   GG          +  P  P +A  PW+LPP  P
Sbjct:  170 SKQKKTNGLRRGKWTSEEENYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLTPEDIDRSRQELSDLERRFLERVAQTSRCKNNALGSKGKDMGPGIGGELGLRPPHGSMFPPANPSVA--PWMLPPQQP 327
[Close]
BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A7S1U7I4_9STRA (Hypothetical protein (Fragment) n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U7I4_9STRA)

HSP 1 Score: 186 bits (473), Expect = 2.810e-49
Identity = 95/114 (83.33%), Postives = 102/114 (89.47%), Query Frame = 1 
Query: 1432 KVKKPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGG 1773
            K  K +GLRRGKWT+EEE YANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVG NCIGKQVFRRRQADMD+L PE+IERSR +LA+LERRFLERVA + R K  G
Sbjct:   50 KKAKSNGLRRGKWTAEEEAYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGQNCIGKQVFRRRQADMDKLSPEEIERSRRELAELERRFLERVAQSTRIKGSG 163
[Close]
BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A7S2DAB7_9STRA (Hypothetical protein (Fragment) n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2DAB7_9STRA)

HSP 1 Score: 190 bits (482), Expect = 3.290e-47
Identity = 96/109 (88.07%), Postives = 101/109 (92.66%), Query Frame = 1 
Query: 1438 KKPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCK 1764
            K  SGLRRGKWT EEE YANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRL  ++IERSR+QL+DLE RFLERVA +NRCK
Sbjct:   51 KSTSGLRRGKWTPEEESYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLSSDEIERSRAQLSDLEHRFLERVAQSNRCK 159
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BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A7S4J6Z5_9STRA (Hypothetical protein (Fragment) n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4J6Z5_9STRA)

HSP 1 Score: 177 bits (449), Expect = 6.530e-47
Identity = 90/111 (81.08%), Postives = 99/111 (89.19%), Query Frame = 1 
Query: 1453 LRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGGEIGS 1785
            LRRGKWT EEE YANRLI EFK+GLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRR AD++RL PE I++SR +L++LERRFLERVA TNR K+ G  GS
Sbjct:   39 LRRGKWTPEEESYANRLILEFKAGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRTADINRLTPEQIQQSRQELSELERRFLERVAQTNRVKSSGVGGS 149
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BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A7S2V6K2_9STRA (Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V6K2_9STRA)

HSP 1 Score: 172 bits (437), Expect = 2.450e-46
Identity = 88/102 (86.27%), Postives = 93/102 (91.18%), Query Frame = 1 
Query: 1447 SGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMT 1752
            S LRRGKWT EEE YA RLIQEFKSGLLPL DGTTLRTFLSKLLNC+PMRISKKFVGSNCIGKQVFRRRQADMDRL P +I+RSR +LA+LERRFLERVA T
Sbjct:   18 SALRRGKWTPEEEAYATRLIQEFKSGLLPLADGTTLRTFLSKLLNCEPMRISKKFVGSNCIGKQVFRRRQADMDRLTPVEIDRSRQELAELERRFLERVAQT 119
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BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A7S1D7J8_CYCTE (Hypothetical protein (Fragment) n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1D7J8_CYCTE)

HSP 1 Score: 173 bits (439), Expect = 7.600e-46
Identity = 94/143 (65.73%), Postives = 107/143 (74.83%), Query Frame = 1 
Query: 1462 GKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEG--------GRDFDQLVRPQQPPLATQPWLLPP 1866
            GKWT EEE YANRLIQEFK+GLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRR AD++RL  E I++SR++L++LERRFLERVA TNR K+ G  GS           G   D++         + PWL PP
Sbjct:    1 GKWTPEEEAYANRLIQEFKAGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRTADINRLTSEQIQQSRAELSELERRFLERVAQTNRVKSSGVGGSASXXXXXXXXHGPGVDKVKEDLDNSPPSPPWLKPP 143
[Close]
BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A8J2SJK4_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2SJK4_9STRA)

HSP 1 Score: 185 bits (469), Expect = 1.120e-45
Identity = 101/145 (69.66%), Postives = 113/145 (77.93%), Query Frame = 1 
Query: 1432 KVKKPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGGRDFDQLVRPQQPPLATQPWLLPP 1866
            K ++ +GLRRGKWT EEE YANRLI EFK GLLPLTDGTTLRTFLSKLLNCDPMRISKKFVG NCIGKQVFRRRQ +MDRL PEDI+R+R +LA+LERRFL RVA ++R       G+K+ G     L   QQ PL   PWLLPP
Sbjct:   69 KGRRENGLRRGKWTVEEEAYANRLIHEFKLGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGQNCIGKQVFRRRQLEMDRLSPEDIKRARFELAELERRFLTRVAQSHRSAKATGKGAKDKG-PTGALAAAQQRPLVA-PWLLPP 211
[Close]
BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Match: A0A7R9UAE4_9STRA (Hypothetical protein n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9UAE4_9STRA)

HSP 1 Score: 186 bits (471), Expect = 2.050e-45
Identity = 96/116 (82.76%), Postives = 104/116 (89.66%), Query Frame = 1 
Query: 1441 KPSGLRRGKWTSEEEEYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRRRQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCK-TGGEIGS 1785
            K +GLRRGKWT EEE YANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVG NCIGKQVFRRRQADMD+L PE+IERSR +LA+LERRFLERVA + R K +GG+  S
Sbjct:  115 KSNGLRRGKWTVEEEAYANRLIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGQNCIGKQVFRRRQADMDKLSPEEIERSRRELAELERRFLERVAQSTRIKGSGGKTSS 230
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1119.18.11 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LN59_ECTSI1.950e-13157.73Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A6H5KTB0_9PHAE1.060e-12952.98Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A6U0XNE9_9STRA1.860e-5170.63Hypothetical protein n=3 Tax=Rhizochromulina marin... [more]
A0A7S1U7I4_9STRA2.810e-4983.33Hypothetical protein (Fragment) n=1 Tax=Phaeomonas... [more]
A0A7S2DAB7_9STRA3.290e-4788.07Hypothetical protein (Fragment) n=1 Tax=Dictyocha ... [more]
A0A7S4J6Z5_9STRA6.530e-4781.08Hypothetical protein (Fragment) n=1 Tax=Odontella ... [more]
A0A7S2V6K2_9STRA2.450e-4686.27Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa... [more]
A0A7S1D7J8_CYCTE7.600e-4665.73Hypothetical protein (Fragment) n=1 Tax=Cyclophora... [more]
A0A8J2SJK4_9STRA1.120e-4569.66Hypothetical protein n=1 Tax=Pelagomonas calceolat... [more]
A0A7R9UAE4_9STRA2.050e-4582.76Hypothetical protein n=1 Tax=Pinguiococcus pyrenoi... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1119contigP-littoralis_Contig1119:36707..64520 +
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.D8LN59
PFAMszf-C3HC4_2,zf-RING_2,zf-rbx1
Model size5998
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorychloroplast
Exons20
Evalue2.4e-136
EggNOG OGs28HE3@1|root,2QPS9@2759|Eukaryota
Cds size3660
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1119.18.11prot_P-littoralis_Contig1119.18.11Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1119 36707..61746 +


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

Feature NameUnique NameSpeciesTypePosition
1680789447.0830574-CDS-P-littoralis_Contig1119:36706..372921680789447.0830574-CDS-P-littoralis_Contig1119:36706..37292Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 36707..37292 +
1680789447.0969014-CDS-P-littoralis_Contig1119:37373..374721680789447.0969014-CDS-P-littoralis_Contig1119:37373..37472Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 37374..37472 +
1680789447.1105947-CDS-P-littoralis_Contig1119:38993..391431680789447.1105947-CDS-P-littoralis_Contig1119:38993..39143Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 38994..39143 +
1680789447.12548-CDS-P-littoralis_Contig1119:42641..432851680789447.12548-CDS-P-littoralis_Contig1119:42641..43285Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 42642..43285 +
1680789447.1362407-CDS-P-littoralis_Contig1119:45164..453231680789447.1362407-CDS-P-littoralis_Contig1119:45164..45323Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 45165..45323 +
1680789447.1472979-CDS-P-littoralis_Contig1119:46115..462571680789447.1472979-CDS-P-littoralis_Contig1119:46115..46257Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 46116..46257 +
1680789447.1586425-CDS-P-littoralis_Contig1119:47842..478921680789447.1586425-CDS-P-littoralis_Contig1119:47842..47892Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 47843..47892 +
1680789447.176574-CDS-P-littoralis_Contig1119:48949..491571680789447.176574-CDS-P-littoralis_Contig1119:48949..49157Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 48950..49157 +
1680789447.1871848-CDS-P-littoralis_Contig1119:50329..506041680789447.1871848-CDS-P-littoralis_Contig1119:50329..50604Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 50330..50604 +
1680789447.1977997-CDS-P-littoralis_Contig1119:51233..515341680789447.1977997-CDS-P-littoralis_Contig1119:51233..51534Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 51234..51534 +
1680789447.2096536-CDS-P-littoralis_Contig1119:51962..520631680789447.2096536-CDS-P-littoralis_Contig1119:51962..52063Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 51963..52063 +
1680789447.220006-CDS-P-littoralis_Contig1119:53936..540361680789447.220006-CDS-P-littoralis_Contig1119:53936..54036Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 53937..54036 +
1680789447.2308788-CDS-P-littoralis_Contig1119:55188..553671680789447.2308788-CDS-P-littoralis_Contig1119:55188..55367Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 55189..55367 +
1680789447.24164-CDS-P-littoralis_Contig1119:56270..563391680789447.24164-CDS-P-littoralis_Contig1119:56270..56339Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 56271..56339 +
1680789447.25417-CDS-P-littoralis_Contig1119:57803..579421680789447.25417-CDS-P-littoralis_Contig1119:57803..57942Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 57804..57942 +
1680789447.2656329-CDS-P-littoralis_Contig1119:58514..586541680789447.2656329-CDS-P-littoralis_Contig1119:58514..58654Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 58515..58654 +
1680789447.274809-CDS-P-littoralis_Contig1119:60126..603211680789447.274809-CDS-P-littoralis_Contig1119:60126..60321Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 60127..60321 +
1680789447.2831979-CDS-P-littoralis_Contig1119:61623..617461680789447.2831979-CDS-P-littoralis_Contig1119:61623..61746Pylaiella littoralis U1_48CDSP-littoralis_Contig1119 61624..61746 +


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

Feature NameUnique NameSpeciesTypePosition
1680789447.2939599-UTR-P-littoralis_Contig1119:61746..622191680789447.2939599-UTR-P-littoralis_Contig1119:61746..62219Pylaiella littoralis U1_48UTRP-littoralis_Contig1119 61747..62219 +
1680789447.302388-UTR-P-littoralis_Contig1119:62451..632161680789447.302388-UTR-P-littoralis_Contig1119:62451..63216Pylaiella littoralis U1_48UTRP-littoralis_Contig1119 62452..63216 +
1680789447.3104775-UTR-P-littoralis_Contig1119:63420..645201680789447.3104775-UTR-P-littoralis_Contig1119:63420..64520Pylaiella littoralis U1_48UTRP-littoralis_Contig1119 63421..64520 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1119.18.11

>prot_P-littoralis_Contig1119.18.11 ID=prot_P-littoralis_Contig1119.18.11|Name=mRNA_P-littoralis_Contig1119.18.11|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1220bp
MASVGSAAAVAAAAAAAAATTGVPALATAAVATRATAAPAAAPAAASVAS
AAQATTAAAPTATAAIRTAPAPVPAPAPAVAAALAAPTAPTISATTAPSR
STSTATAAAAMSTTTPAAAVQSSAVASRPVVSPAPAASPTSVPPAPVATA
KPPAATAGSAPAPVAVPPAAATQAPAGVRATAPAPVAAVPSSSPNSAPAA
APAPATATAAGPTLAASVASAPLTSPGTTSAAASSAAVALAGGMGVSGFL
GRGTSGTTAIEAAGRAAAVADGVVVAYPASQAQATAAGAVAAAAATTAPP
APTAAQASAYAKAVATARHQQQAHAAATAAAAAAAAATSASQSAGAAIPS
ATAAAAAAAPAQATVYSRAAGGGVAVAPASHQHHHLNLAPTGGAAPGSHL
YNPTTVQRQQHHAGFGAMAAAAAAAGGHHHHHHLQYPAGAGGGFLGLSGA
GGNVGAAAAAAAAAAAAAAAAAAVAQAKVKKPSGLRRGKWTSEEEEYANR
LIQEFKSGLLPLTDGTTLRTFLSKLLNCDPMRISKKFVGSNCIGKQVFRR
RQADMDRLQPEDIERSRSQLADLERRFLERVAMTNRCKTGGEIGSKEGGR
DFDQLVRPQQPPLATQPWLLPPSPPTVPFVGATAPTAAAEAAAASGINAG
ATADDAPAAGVLPVNHTREDPSMAPGSSQGITAAVDGGASPAAAAATAPA
PAPATATATAPSGAELRQRDATATPSPTPTSASAAAAVPSKAALATTVTT
ANVTTTAASAAGLVLGGPPETASQQHRPLTAQEQPNAQGSTLTTTTTAGS
SSSSSSSMKFTACTGASNSPSRAAAAATAAAAAAAAAAVSKPPFTSEHGA
STSTTAAGTTAPAAVSAPASAVTTSLSFLDAGGALPNTRGCDLASPAPGG
VVPKEELVARGMGLSVLTSRAGMNANAGLTASNGKGKHSIDRTTSLEALS
LLELPHIQGMANLAVLGLWPTAFPASASSTAPSSSANTQSPSRITPLKAV
NGRGMKRTPSWARMSSCENLQSLTEGSPVSLSAGDVGTGSSSSSSSVSVS
VTSSSNGRGRGQPGSGPGGEARHGSSSGTSTSSAAPSISPFMPRNTSVED
FLSLVESGDIPPPEGTAGFTVPMWIYTGDSGNTSNGASSSTAAAAAAAAT
TTTTCANATATVTTPDKPPSKSSSKSKHKGSSGSSVTRGVSSGVYPASSV
DKPRSKRFKSGLAKTEAKR*
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mRNA from alignment at P-littoralis_Contig1119:36707..64520+

Legend: polypeptideCDSUTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1119.18.11 ID=mRNA_P-littoralis_Contig1119.18.11|Name=mRNA_P-littoralis_Contig1119.18.11|organism=Pylaiella littoralis U1_48|type=mRNA|length=27814bp|location=Sequence derived from alignment at P-littoralis_Contig1119:36707..64520+ (Pylaiella littoralis U1_48)
ATGGCCTCCGTTGGCAGCGCCGCCGCAGTCGCCGCCGCAGCAGCAGCAGC
AGCAGCAACAACAGGAGTTCCTGCACTGGCAACAGCAGCAGTAGCAACAC
GTGCGACAGCAGCACCAGCGGCAGCACCAGCAGCAGCATCAGTAGCATCA
GCAGCACAGGCAACAACAGCAGCAGCACCGACAGCTACCGCTGCAATACG
AACTGCACCAGCACCAGTACCAGCACCAGCACCGGCAGTAGCAGCAGCAC
TAGCAGCACCGACAGCGCCAACAATATCAGCAACAACAGCTCCTAGCAGG
AGTACGTCGACGGCTACCGCTGCAGCGGCCATGTCGACGACCACTCCCGC
TGCTGCTGTTCAATCCTCCGCGGTTGCTTCTAGACCAGTGGTGTCGCCGG
CACCAGCAGCCTCACCCACATCCGTGCCACCGGCACCCGTAGCAACAGCG
AAACCCCCAGCAGCAACGGCAGGCTCAGCACCAGCACCAGTAGCGGTACC
ACCAGCAGCAGCAACGCAAGCCCCGGCTGGAGTACGGGCTACAGCACCAG
CACCAGTAGCAGCAGTTCCTTCTAGCAGCCCAAATTGTGACGCTTTTTCT
GCCCACCCCGGCACTGCTGCTACTACCCCCGCCACTACTGTCGCAAAGAC
AAGTCCTGCAGCAGCAGCCGCACCAGCAGCCGCACCAGCACCAGCGACAG
CGACAGCGGCGGGGCCAACTTTGGCAGCAAGTGTAGCATCAGCGCCCCTG
ACCTCTCCAGGAACAAGTGCTCCTGCTTCTGCTTGTGTTTCAACCGCAGC
AGGAGCAGCGCCAAACCTTGCAGTGCAGACGACGGCAGCGGCAGCATTGA
GAGCGGCAGCAGCACCAGGCGAGTAGTAAACTAGGTGCTTCGCGTCGGTG
ACTAGCGTTGTGGAAGTCCCACGCGCAAATAGTTTGTGCACATTTTATTT
ATCCATGTTATCGGGGCGCATTTTTTCATGCGCTTTTTGACCCATTTTTT
TTTTCGGACTGCAACAAACACAGTTTTTTTTTCATGTCTTTCCGACTGTT
TTACTCTCAAAATGAATGGTTAAACACTTTGGTTGGCGATTAAATATTTG
AGCGCACACTGTGTTGCCGAGGATCGAGAGCTCTCACGCGAGATAATCCG
CCGGGACCCAGCCGCGAGGGGAAACCGCAAGAAATTTCTCCCGAGAATAT
TTTTGACCGGCAGTCAGCTCCGTGGAGGCCGAAGGTACGACGGCCGAACG
CAGAGGCGATGGAGGGTTTGCTTTATGGGTGCGTTATCGATGTATCACAT
GACCTGGGCACCACCGCCGCGGCCACTACGCGATATTGCGGACAACACAG
CGCCGGCCTCTGCCGCGGGTCATCGAATACGGCCGCGTACGAGGCACCTG
CCGGAAAGACTTGTTAGACAAAGGCGACGGGCGACTCCTGGAGCGGCTAC
AAATGCCCGTGCAGAGTCCATCCGACGCAACACCTGGCTGAAATTGTTGA
AGACCGATGTCAAAGCTTTTGAAGCCACGGACGGTTCGACTTATGTATGA
CAGCCGACTCGTTTGGAATCGGCCACGCCCGGTGGACACGACGAAGGCCG
CGGAGGGAAATAATGGTGTGGCGTGGTTGCTCGGGGGTTGTGGAAGGGGG
CAGCGAAGTTTTTCACGACCGCCTCTGGCACGAGGAGGAGGAGGAGGAGG
AGGAGACGAGAGAGAGAATGAGCGGGAAAAGGTTACAACAAGGAACAATT
TCCAGCGCCGCCGAGGAGAAAACCCACTAGGAGAAAGGGAAGGGGGGAAT
GATCTCCGGGGGGGAAGCGTAGAAAGGTTCAGAATGATGTGGCAACTACG
GCGGCAGAGGAAGGAGAGCAAGAGGGAAGAGATGGAACGAGTATGTATCA
TTGCGCGGCATGGGCCAGATTGACATGACTTGACTTGACTGACTGACTTC
TGTGATGGCACTCCTTCTGCCAACCTCTAACCCCCCCCCCCCCCCTGCTC
AGTAGGCCTGTCCTGTTTCCGCGTTCTGGGTACTGCGTCCATACACGTCG
GACCAGGTTGTGTCTTCGTTGCCCTTCTGCTCGTCCTGCTTTGACGCTGT
TTGTTCGTTGGGGCGGCGGGAGCTGCATCCTCTCGATTGCCCGATCTCGG
CACGTGGAACCTGATTTCGATTCGATTGTGTGATGACGTTTCGGCCAACT
CCTTTTGGCCCCCAAAAACCTCGAAACACGATCGGATGGCAGGAACAGCG
GCTGCCGCTGCTGGGGCGGCGAGGGTCCCAGCGGCAGCTTCTGCTGCTGC
TTCTTCGGCGGCGGTGGCGTTGGCAGGGGGCATGGGGGTTTCAGGGTTCC
TGGGCAGGGGCACCAGCGGTACGACAGCGATTGAGGCGGCTGGGAGAGCG
GCAGCGGTGGCTGATGGCGTGGTCGTGGCATACCCAGGTGAGTTGCGGCG
GTGGCGTGCGAGTGCGCGTGCGCGTGTGTGTGCGTGTGTGTGCGTGTGTG
AGCTGTTATCCCATCTATTCTGGGCGCCAGTCGAGGCCTTTTTTGGTGTA
CGTCAGCGCATAAGCCGGGGATGTTCACGCAAGAGAAAGGATCGACACAT
CATGGGAGTTGTTGTTTTTTTTGTGGTGGAGATTGTGTTATTAGGACGCT
ACAAACACGTGTTGATTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTT
GCTTTTGCTTTTGCTGTTGCTGCCGTTGTTGGTGCTGCGGGTGTTATCGG
TGCCGTAATCCGGGTCGGTGTTGTTGTTGGTTCTTGTTGGCATTCACATA
CATTAGCTCTCGCTGCCGACGTCTAGCCCATGGTCACCAACCAGACGCAC
ATCGTGCCATGAGCAAAATTCAATAAAAATGAAAAAAATGAAGGCCGTAC
AATAAAGAAAAAAGGCATACCTCATATACCCCACCCCAAGAAACAAATAA
AAATATTTGAGAAAAAAATTGAAAACATGTAAACACCAACAACCGTAACC
AATTTGGCGCGAAAGGGCCAAAAACGAGATACGATAGCCGTTCGGCAAGA
AAGAATGACGAAAAAGAAGTCGAAACCGTCAAGGGAATAGCGAAAAAATT
GAGCGAAAAATGAGCGAAAAATGAGCGAAAAACGCGAAAAAAGGAGGGAG
ACGAAGATTGTACAACAAGTGAAAGGAGAAGAAATGGGGAGTACAGTAGA
TGGGTGGGGGCGTCTCGCACACGCAGCCATTCCGTCGCGAACAGGAATCG
CCACGGCTTTGCTTGCCATCATAACGCTTGCTCACCTCCCAACGCACTCA
CTCCCCTCATTGCTCGTGTGATCACCACGGCGACATCATCCACCCACCGC
GCACTGCTGTGTTGCTCTGCCCTACTTCGTACTTGGTGCTTGTCAGCAGC
GCCTCTCCGCGATTTCTGCTGCCCTCCAGCCTGTTGGTGTTGGCGTTGGT
GTTTGTTTCTGTTGTTGCTGCGTGTTTTTATATTTTTGCGGCGCCCTGAG
GAGGAAGGTGTTCTTGTTGGGGGATAATTCTGCTCATGATTCGATTGACC
CCTCGTGAAAAGGGAGAGGAGATCATGTTGAATTTGCGAAAAGTTGATAT
TTTTTTCGGTACACCGGTCGCCCCCGGTGGTCTAGCGGTTCCCTCGGCAA
CCCGCTAGTTGTACTGTAAGGTTCGATTCTCTCTGAGAGCGTTTCTTGCG
ACATTTACAGTGAAAGGGGACTACTCGTAATAGACAGAGGGAAGGGATCG
CTGTACCCGACTCGTACTGAAAACCAAAGGCAGCACGTACTAAGTACGAA
GTAAATACACCGCAGGAGGAAGCTTTGGGCAATAGAACAAAATAAGAAGT
GAAAAAACTCGTGCGTGACCTTCCTTCTGCGTGACCCCGGCTGATGCACC
CACCTCATGCCGAAAGGTGTAGACTGCTGCCCAAAATAAATGGGATGGCA
ACACACACGCACAACACACACTGTAAATGTCAGCAACAATAAAGCATCAA
TGCGTGCGCCTTGAGTCGGAAGTCAGCGAGGTGACACAGACGGACAAAGG
GGTCGATTTTTTATTTTTTCAAGTTTGATTTCGAGGGAGGGAAAGGGAGG
GGGAGGAGGTACTTGCTCCATGACATCGTGCCTTGCGAATATCTTACCTA
TGACACGTTGGTTCCACGGCAGCAGTTTCGTGCCTTTCACGCGATGGCGG
TTAAAATGTGTCTGTGGGGTGCGCTGTCTTCAATGGAGTTACGACCCCCC
CGAAGAGCTCGTATGTTGTTTGCATGCCACGGAGCCCCGTTTCAGGGAGA
ATGACTGATGTTTTCTTGGCAGCGCCTATTTGTCACCCATAGTTTACGAC
GAGAGAACCTCACCCAAACATTCATGCGGTGGAACCCCCCGGAAAACGCC
AAAATGTGCAGGTCATGGTTATAGTTCAATTGGCGCAAAGCAAAGCAGTA
GGTTTTCGAAACTTGACGTATAGAAGTAAGTGCGAAACGTGATTGATGAG
CACCGATCAGCATTACAGCAGTAGCGTACTTGTAGAAGATCGAAAGAGAG
ACTGCAACTGCAATCCGCCACGGTACAGCATCCTAGCCAATCTGCCACGG
TACAACATCCCAGCCAATCCGCCACGGTACAGCATCCTAGCTACGGGCTT
TGGGGTTAGAGTTAGGATTAGGGTTACAGTTAGAAAATAAGGTTAGGTTG
TGTTGTGTTGTGTTGTGTGTTTACCGTCCCATCCTCCTTTGAGTACTGTA
CGAGCAGTCATGAGTCATGTCTCATGCTTCGTATCATACAGCAGTAGAGT
ACAGCAGTGCAGCAGCAGTGCAGCAGAAAGGGGACGATTAAGTATGTTTT
CCCGGGGGCTCCACCGTGGATTTTTTGGGTGAGGTTCTCTCGTCGTAACC
CGTAGGTGACAAATAGGCGCGCCCTGTTTTCTTCTTCTCTAAAATGTTTT
GTTGATATTTTTCAAACGCTTTTTTTTTGGTACTCTTATTCTGGCGAGTG
TGTTACTTCTTGCTCACTCAAAGCCAGTTTTTGTAAATTTGTAAAATCAA
TAACTATTTGTAAGCAACGGTGATATCACGGATGTCTCGCGATTTTCTCG
AGACGGACTTAGATTTGGCACTCATCTACTAGTGTGGGATGTTGGCCACG
AAGCAGCTTTCGACGAAGCGAGGTTTTCTTTCCTCTTTCTCGACCAGGCA
TCCGGAAGTCAAGGGTTTTCGGATCCATCTGAGTCGCGCGACTAGGTCGC
TGTCATGCTGCAGATATCTCGTGAGAAGAAGAAAGAAAAAATATATGGCT
TCGACGAACGTTGCGTAGTGGCCCGTGGTACAACATACGTCCAAAACTTC
CAGAAGATTTCAGGGTCTTACTCGAAAAAAGCGAGAGGAATCGCACTTCA
GTTTGGTCAAGTACTAGTACGACTCCAAATGGCTGGATTTCTTGTCAGAC
GATGCCTCTTTTCGGGCAATTTTGAGCTTGTGGCGAACCAGAATCACATC
ATCCCGCCGATTTGAGCAAAAAAACATGCCTGTCGGCCTTCCCTAGGCCT
CGTGAAGAATATCTGTAGTGGAAATGAAAAAACCCTCAACCCATTTCCTG
AGCGAAGTCGTCGAACGGAACACATTTCTCCCCTCTCGTAGGTCCTACTG
CTAGAGCCTTGAAACCAAAACACAGCAATGTCATTGTCTTCTGCTACATA
TCATATTGACGGCGGTCACTTTGGTTCCATAATTTGTCGGAATGGTGTAC
TGTATTTATTGCGCTCAGGACAGCAGTTGACTTTTTGGGGTTGTTTTCGC
CGTTTACCATTTCGAACCAACACCAACAGCATTTGTTTCGCCCCCCGTCT
GCTTGCATGACTCTTATCATAGCCGTCTCACAACAACAGCACCAGCAGCA
CCAGCACCAGCTCCACCGCGCAGCGGTGGCAGCAGCCAGTCAAGCACAAG
CGACAGCAGCAGGAGCAGTGGCGGCGGCAGCAGCGACAACAGCACCACCA
GCCCCCACCGCCGCCCAAGCTTCTGCCTACGCCAAGGCAGTGGCGACGGC
GCGACATCAACAACAAGCCCACGCCGCGGCAACAGCAGCAGCAGCAGCGG
CAGCAGCAGCCACAAGCGCCTCTCAGTCAGCGGGAGCTGCCATTCCTTCC
GCAACTGCTGCTGCTGCTGCTGCTGCTCCTGCCCAAGCCACCGTTTACAG
CAGGGCGGCGGGGGGCGGGGTCGCCGTCGCTCCGGCATCACACCAGCATC
ACCACCTCAACCTCGCGCCGACAGGCGGCGCGGCGCCCGGCAGCCACCTC
TACAACCCGACCACGGTGCAGCGACAGCAGCACCACGCCGGCTTTGGAGC
GATGGCAGCAGCGGCGGCGGCGGCTGGAGGTCATCATCATCACCACCACT
TGCAGTACCCGGCTGGAGCCGGGGGCGGGTTCTTGGGGTTGTCGGGAGCA
GGCGGGAACGTGGGGGCTGCTGCTGCTGCGGCAGCTGCTGCGGCCGCCGC
TGCCGCGGCCGCCGCTGCCGTCGCCCAGGCGAAAGTGAAGAAGCCCAGCG
GGCTGAGACGGGGGAAGTGGACGTCCGAGGTATGTGCGGTACAGCAGTGC
TGTACATGGTATGTATGGCACGATACCATTGCTTGCGTATTTGTGTGTGT
CTGGAGGCTTCGTTTGTTGTACCGTACTATGTGCATAGACGCGTCTTTTG
TTGGAATAGTCGAGTGTTGAGGTTGGAGGTATGCTCGTGGCTTTATATGT
GGCCACGTATGATATGACCGGCGTACCGGATACTTCCACGTAGAAAAGCT
AAGGTGTGCCGTTGTTCGGGAGGTCTGGAAATCGACCGTCCTTTCCTTCG
GTTGTTTCTCGGTTTCTCTCTCCCGTTTTTTTTTTTTTCCCTCTCTCTAG
ATGAAGACAATAAAAAAATACGGGACTCCGTGATAGTTTATGTGTATTAT
TCCTTACAGGGAGGGTACCGTTTTCTGTCGCCAGCTTATTTGGTCGCCGT
GTTGCTTGCTCTCGTACCTGCCCAAACCACCCACCCAATCGGCCCACAAT
CCACCAACCACACACCCACTAAAACACCCAACCGCTGCTGTAGAAAAGCA
AGGTTCGTACTCTTTGTTCGAAACATCTCTCACTGCTGTGAGCGTTCGAT
CCGTCGATTCGTCAACTGGTCGTTCGCTGTTTGTTGGTGCTGGCGGAGAA
CAGCACGACGGTCTCAGCCGAGAGCAGTGGCATCGGTGGCCCTTTGAAAG
TTTACACGCACAAGTCGTGAGAGGAGAGAGGGAAATAAATTGTTCCTTAT
GCATCATCCTGCTGGATCGTATGGTACAATGTGGACATCGACGACCGACA
AACTGGTGCCCGAAGTCGGTTTCAATCCCTCCGTGAATCAGTCCCATTTC
CAGCGGTAACCCGAACCATTCGTCATCATAATTCAGACTTGAAGAGGGAT
CTGTCGCCAACACGATAGCAGCCGAAACGACGCTCAGCATGTTCCTTAGA
ACGTTCCCCAGAAAGGTCCCCGTCGAGGAACGTGGAACGTGGAGTGATCC
CTCTATTTGCGTCAGACGAGGTCTTGCGTGCGTAATGTGATGCACTGCAT
AGAATCACTGTGTCCGAGTACAGGCCATGTTTCGTGTCCATGGCTTCTGA
AATACGACATTTGGTTGTGTTTTCAAAACATGGGCGGTTCTGAAATGGTC
GAAGGAGTTTCCTGTTCTTCGAGTGAATTGCTGCATCGAAAAAGGGGTTG
TTTATTCATGAGAGGGATCAAAAATAGCACCAAACAGCAAGCGACGGCTC
GTGAAAATTTGAAAAACGGCCGCCAGCGGGCCACCTCGAGAGTTCATGTG
TTCTATCGAAGAAAAACCGCTCATTGTGGCGGCACTCACGAGGAATGTTT
GCAAGTTCTTCACGCATAGGAGACGGGACCGCCGTTCTCAGGATAGAGGC
CATCAAATTTGTTTTGCAGAGCCGTCGCCACCCATGAGGTTTCCTGTGCC
TATATTTTTTCGCGAAAAATATTATGGCCGTTTCTGAACTGTCATCAATC
TTGGCTGTAGCGCGCTTGATCCAGGAGCTCTGCACTTCGTCGTGTAGATA
TGTTTTCTTCTTGTTTAGACCACTGCTGTCGTACCGTTTTTGAAGAACGT
GTATTTTGCGCGTACGAAAGTGCCTGGTGTATCTGCAGCTGTTTTATCTT
CTCTTTTTGGTTTGAACGTGGAACGGTGACGGCTTCCGCTTGAACGATAC
TTGCTGCTGCTGTGCGGCTGTGCCGCATTGCTTGTTTAACCCACGGCCGT
TGCTGTTGTTGAAATATCTTGTTGGTGGTGTGCGGCTGTGCAATTCTGCT
GTTTGTTGCAGGTGATGGTCGGCATGCTGACCCTCTTGTCTGTTTTTCAT
GTGGTCTTTGCTGGCATGTTGTTGGTGTGCGTCTGATCCATGCTGTGCCA
TGCTGCAGGAAGAAGAGTACGCCAACCGACTGATTCAGGAGTTCAAGAGT
GGCTTGTTACCGCTGACGGATGGAACGACTCTGAGAACGTTCCTCAGCAA
GCTGCTCAACTGCGACCCCATGCGCATCTCCAAGAAGTTTGTGGGCAGCA
ACTGCATCGGGAAGCAGGTTTGTGCTCTCAAAGTGGTTGTTGTGGTTGGT
GTTGTTGTTGTTGTTGCTGCTGTTACTCCGGAGTGTTTTTCAACGTGTTT
TGCTTTGCGTCTAATGCTGTTACGTTGGTCATTCCTAGTGCTACTGTTGA
TCACATGTTTCGCAACAGTATTATTATTTTTCATCTTCCGCCGTTATCGT
TGATCAACTTGCAATTGCTTTGCTCATTCACGCTGCCTGCATGCCGCTCT
CGTTCCTGCCACGTTAACGTCAACCATTGCTGCTGTAGCTTGAGTAATAA
GAAGCATTTCAAGCGCATCGTGCTCCAGATGTCTGCTACTGCTGTCTGCT
GCTTTGCTGCCGCTGCAGTGTCACCATTTCAAGCGCATCATGCTCCAGAT
GTTCAGTGTACTCCTGCTGTTTCTTTCTGACCTTCCTGTGACGACGTCTG
CTGCTCTTGCTACTGCTGTCACATCACTCTCGCTATTTCGAGTGCATCAT
GCTTGCAATGTCTACTGCACTGCTGCTGTTTATTCCCGTCACGCCTGCCG
CTGTTGATGTTGTTGATGCTGTTGATCTGGTGTTTCAAGGTCATTGTGGT
TGAGATGTGCGCTGCGCCGCTGCTTTTTATTCCCGTCACGCCTGCCGCTG
TTGGTGATGTTGACGCTGCTGATCTAGTGTTTGAAGTGCGCCATGCTTGA
GATGTTTACTGATGTTAACGTTGATTTTAGAGTCGATGTTGATTCCTGCC
GCTGGTGTTGTTGAGTTGACGTTGATGTTGATGTTGATGTTGATATTGAT
GTTGATCAGGTGTTTCGCAGGAGACAGGCGGATATGGACCGGTTACAGCC
GGAAGATATCGAGAGGAGCAGGTCTCAGTTGGCAGATCTAGAGAGGAGGT
TCTTGGAGCGAGTGGCGATGACCAACCGCTGCAAGACTGGAGGAGAGATA
GGTGACGTTTCGCCCTGTGTTTGGGAGCCAAGAAGGCGATGTTCCACATG
GGTATCGGGTTATATCGCAAGAGACATATCGAAGAGAGTGTCGGTGCTGT
GTCGAGGGTGTTGGTTTTTATTTCGAAAAAGGTGTCGGTGCTGCGTCGAA
AAGTGATTGGTCGGGGCTGTATCGAAAAGCGATTAATCGGTGATGTATCG
AAGAAAGTGTCGCTACTGTATCGAAGGTGATGGTCGGTGCTGTATCGAAG
AGGGTGTTGCCGCTGCATCGAAGAGTGATTGATTGGCGCTGTATCGGAGA
GGGTGTCCGTGTTGCATTGAAGAGGGTGTCGGTGCTGCATCGAAGAAAGT
GTCGGTGAGGTGTCGAAGAGGGTATCAGTGTTGCATCGAAGAGGTATCGA
AGAGGGTGCCTGTGTTGTATCGTGCAGAGTGTCGGTGCTGTATCGAAAAG
TGATTGATCGGTGCCGTATAGAAGAAGGTGTCGGAGCTATATCGAAGAAG
ATGATCGGTGCTGTATCAAAGAGGGTGTCGCTGCTGCATCGAAGAGTGAT
TGATTGGTGCTGTATCGGGGAAAGTGTCAGTGCTGTATCAAGGAGAGCAT
CGAATAGGGTGTCGGTGCTGCATCGAAGAAAATGTCGTATCGAAGGGGAT
GGTCGGTGCTGTATCGAAAAGGGTAGCCTGTTGTTTATCGAAGATGGTGT
TGTGTCGTTTGCGTATCGAAGAGGGCGGCCTGTTCTTTATCGAAGATGGT
GTTGTTGACGTATCGAAGAGGTTGACCTTTTCTTTATCGAATAGGGTGTT
ATTGACGTATCGAAGAGTGTTGTTGACGTATCGAAGAGGGTGAGCTGTTT
TTTATCGAAGAGGGTGTCGTTGACGTACCGAAGAGGGTGCTTATCGAAGA
GCTTTCCGAAAGCGCGGACGTCGTTTGATGCTGGCGTGGCTCATAACCTC
TCGGTCGTGACGTAGTCACACATAGGACAGGTCATGATCTAGATCGCTCA
GATCACTCAGATCACTCAGACCACCGGCAGGAAATATGCACAGATCACTC
AGATCACTCACATCACCAGCTTGAAGTATGCACAGATCATCCAGACCACT
CGCATCACCGGTTCAAAAATTTGCACAGACCCTCTAGATCACTCCGATCA
TCGTGATTTGCGATCGGGTTCGAGTTTACTCCGATGTGGGGGATCTGATC
TGTGCTACTGTATGTGTGCAAGTAGTCGATCGAGCTTTCAATATCAAACG
GTGTTGGGGGTTCAGGGGTGAATTTGGCGGCCTGCGGTGTTTACGGCGGC
TCGCTCCCCGTTTGGGGATACGCGTTGCCGAAAGTCTTGGTGTCGGGCCA
GCTGCTGCGTTCAAGTGGTGAAGAACCATCGCACACGCGCTGCACTCGCA
GACGGTGTTGTTTTGTGCTAATTCTTGCACTTACAGACGGTAGTATTTTT
TGTGAATCTTGCACTCGCAATGCTGGTCGCGCCAATCCAGCTCTCGCAAG
TTTTGTGTATGTTGATCCTGCACTCACTCACAGTTTTTTTTTTTGCGAAT
CTTCGTTCACGATTGTGTTTTTTTTTTTTCTGGCAGGCTCGAAGGAAGGA
GGGAGAGATTTCGACCAACTCGTACGTCCGCAGCAGGTAAGATAACTTGT
TGTTTTTCCTGTTTTTTGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTA
CTGCTGTACATAAAAGGGTACCTTCCCTTGTGCATTGCTATCCCCCTCTG
GTCAAATGATTTGATGCAGCAGCTGCTCCCCCAGCCGGCAGCATTGTGTC
CAGCCGACATCCCTCATTGATTTCTGTTACTGTTACACCGGTACCTTTCG
TGGTCCCAATCACCAAATCATCATCTACGTACAAGATATAAAGATTCCTC
TCCGGCAAGGACGCGAATCACGCCCAAGCATTCGTGGTGACTCAATATTA
GGAGCAGAACGGGTGCAACGTCTCGACAGGGATGGATGCATGGATGGATG
GATGGATGCATCGGCGGTTCGGTGAAAGTTCAAAAGACGACGGAAGCAAA
AACGGAGTGCGCCCCCCTGCTTCTTTTGGTGCTGCCAGGGCAGGATAATA
TAATGATCCATGATCCGCCACCGAACCACAACTCACAATGCTCTATCATT
GTTTTTTCTGTTGCCCAACACCGGTCGCCCCGGTGGTTCAGTTGATTATC
CTTCTGACATTTGCGCTCGAGTTCGAATCCCGGTGCAGTAACACGATCCG
GAATTCTTCTCACGTCATGCGTGAGGGTGGAAACCGATTAATTCGTGAGT
AAACAAAATTCGAAGTGTCGACGAGGGAAAGGGATGGCTTTACCCTTTCT
CGCGATAAAAAATGAAGGCAAGTACCGCAGTGGGAAGTGGAGAAAGAAAA
AATAAATAAATAAAATAAAAACTCCTGTGTTGACTTCCTACTGTGTGACC
CAGGTTGGAGCGTCGACCTACCCGAAAGGTGTAGAGTGGCGTCCAATTAA
AGGGATGACAACACACACACACCGTCTTGAGGGATATTACCGAAAGGTGT
AAAGACTCGCGCCCGAATAAATGGGACGAATACACCCAAACACACACACC
GTACCCCAACCCCTCACACTGTCCTCCACCCCTCATCCAATCAACCATCC
CCCAACGCCACCCCCCAAATTGTTTCGTTGTGGTCGGAAGCAGCCCCCTC
TGGCGACACAGCCATGGCTGCTGCCTCCGTCACCCCCGACTGTCCCGTTT
GTGGGAGCCACGGCACCGACAGCAGCAGCAGAAGCAGCAGCGGCATCGGG
GATCAACGCCGGGGCAACTGCCGATGATGCTCCTGCTGCGGGAGTTTTGC
CGGTGAACCATACCCGAGAAGACCCTTCTATGGCTCCGGGAAGTTCGCAA
GGTGGGGTATGACAGATGTACGTGATGTCTCGCCTCGCTGTTCGGCTACA
GTATCACGTGACGTGATGAAAAATGTATAGTACTGCGAAGTACATCCTGT
GTTGACCTTGTTCCTGTCTGTGGAACCCCGGCTGATGCGCCCAACACTAA
CATTTATCGAAAGAAAGGTGAAGGTTGGTTTCTAAAATGGATGGGGTGAC
AACACAAATAATCTCATACACTAGCCTTTCATCATTTAGTTACACTCGTC
GCCGAAGCCGTGCCTCTCGTTGGTAGTATCCAGTGCATTTGCGCGGCAAC
TAGAAAGCGGGATAGGTATACCCACTATTCTTCTTAGTGGTGGGACGAGG
ATCATACAGCAGTTCTGTATGGTATTTTTTTGTCGATTTTAGTGATAATT
CGATCATAGCTTTTTTTTTTTTTCTGAAGACACTTTGCTTGCTTATCTTT
CGTGTGCAAAACTTTCGAGGTAAATTCTTGTCAGTGTGAAATAAGAAGCG
TCAAACGAACGCAATAAGTGTGGATCCTAGTTGTTTTGCGCTGCTGCTGT
TGTTGTTGGTCGGTGCTGCTTGATGCTGTTTTCCTTGCATCCGTCCATCC
AACTTTTTAGGTCGAACGTTGATGATACCTCTTTTGATTGAATGCGGGTG
TTAACCTTGTTTGGTTGAGCGTGGATGTGCGTGTGCGTGCGTGTGATGGC
TTGTGCATTTCATGAACAACGACCGCCGTGCCCACCAAAGTTTATTTTTT
ATTTTATTGAACGGCACCAACGTATAATATTTTTCTTTTTTCTTTTGGTG
TACTTGTATGCGGAGATATCTTCCGCACACAACGACACGTCGTTACCATC
TCTCAGTCTTCTGATTCGACGTGCAGTGCGTGTGTAACTTTGGCTCTGTT
CGCTTGTTGAGTATATGTTGCTTGAAGAACAACCGCCGTGAGCCGCGGCT
ATCGCTTCCATTCCGTCTACGTCATTCGACTGGACGTGTAAGCGTGTGCG
CTTTGTTGTTTGCTCTTTTTGGAAAGACGTGTGTGGGGGATTTTTTTGTT
GTTGTTCTTGTTGCGTGCGTGTTGCATGACCAACGATCGTCGTCCATTTA
CCTCGTTTGACTGAACGCGCCTGCGTATGATTGCGTGCTGTCTGTTTCAC
TGCTGCTTGGGAATTGCGTGAAGGAATCACCGCAGCCGTGGATGGTGGGG
CGTCGCCGGCAGCGGCAGCTGCGACGGCACCAGCACCAGCACCAGCAACA
GCAACAGCAACAGCACCATCAGGCGCGGAACTCCGGCAAAGGGACGCCAC
GGCTACGCCATCACCAACACCGACATCAGCATCAGCAGCAGCAGCTGTGC
CTTCTAAGGCCGCTTTGGCAACGACTGTAACGACGGCCAATGTTACGACA
ACGGCGGCTTCGGCGGCGGGGCTGGTGCTTGGTGGCCCACCAGAAACGGT
GGGTTATTGTTGGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTG
TTGTTGTCCTTGTTGTTGTTTGTTGTTGTCCTTGTTGTTGTTTGTTCTTC
TCCTTGTTCTTTCTGTTGTTGTTGTTGGTGGTGGTGGTGGTGGTGGTGGT
GGTGATGGTGGTGGCGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCT
TCTCCTTGTTCTTCTCCTTGTTGTTCTTGTTCTTGTTGGTGGTGGTGGTG
GTGGTGGTGGTGTTGTTGTTGGTGGTGTTGTTGTTGTTGGTGGTGGTGTT
GGTGTTGGTGTTGTTGTTGTTGTTGTTGTTCTTCTTCTTCTCCTTGTTGT
TGTTGTTTGTTCTTGTTCTTGTTCTTGTTCTTGTTGTTTGTTCTTCGCCT
TGTTGTTGTTCTTGTTCTTGTTCTTGTTCTTGCTGCTGTTGCTGTTGCTG
TAAGCGCGTGCTGTCGTCATTTAAGCTGCGGCTGTCATCTTCACAGAACA
GACCATATCAAGGCTAACAAACCTCACCAACCCAATCGAAACCAACCCGA
ACAAACTCACGCCGTGCCGCGCGATAGGCGAGCCAACAACACCGCCCGCT
TACGGCGCAGGAGCAGCCGAACGCTCAGGGTAGCACTTTGACCACCACCA
CCACTGCCGGCAGCAGCAGCAGCAGCAGCAGCAGCATGAAGTTTACGGCT
TGCACTGGTGCGAGCAACTCACCAAGTCGCGCAGCGGCGGCAGCGACAGC
AGCGGCGGCAGCAGCAGCAGCAGCAGCGGTTTCAAAGCCGCCTTTCACCT
CGGAGCATGGCGCATCGACTTCCACAACTGCCGCCGGGACTACTGCACCC
GCTGCTGTCTCTGCTCCTGCCTCTGCCGGTCAGTCTGTCTGGTTATCGCG
TGGTGCGGTACCGTAAATGCTTTGGGAAAGTCTCAAGTGTGTAGAATTTT
CGCCGACGGTCTTGTACACAACCTGCCCTCGGGTATGGTGGCCGCCTGAC
AACCGTGCACAACAATGGTGTACGCACGACGATGTTTTGGGGTGTCACAA
TGACCGTACAGGGTGCATGCAGGGCAAGGGTTCGATTCATCGTCAAAGCG
CAAGGTCTGCCGTGCCCAGGCAGAGCTCGGGGGGTGTCCCGTTTGTCTCG
CGGGACGAGGGAATCGGGGACACGATGGAGGGCGTGGTCGCGAGTACACC
GGTGGATCAAAATCAATCGTGCTTTTGTGTTTTGCTTGCATAGATTCACC
ATCAGCAACGTTAACGGGGTCCACTCCCTCGACCGCTGCCGCGTCTACCC
TCGCAGTTACTACGTCATTGTCGTTTCTAGATGCGGGAGGCGCGCTGCCG
AACACACGGGGCTGTGACTTGGCGTCCCCGGCTCCGGGTGGCGTCGTCCC
GAAAGAGGTGTGAATGTGTGAAATGAAAAGAGGCGTGTATGTGTAAAATG
AAAAGAGGGCGTGTATGTGTGAAATGAAAAGAGGCGTGAATGTTTGAAAT
GAAATGAGGCGTGTGTGTCTGTCTGTGTCTATGTGTCTGTGTCTATGTAT
GTGTTGTTTATAGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAG
CCCGTGGTCACAAACCAGGCACGTATCGTGCTAAATTAGGAGGAAAAAAA
AAAAAAAATGGACGATATCACCCACAGCAGTCAAATCAGATAGGGTGCCG
TTGGGGTACCATCTGTGGTGGCCAAAGTACAAAACAAAAATTGTTTTTTT
TTCGAGAAAAAAACAAGAAGTGGAAACACTACAAAAACCAACACAAACCC
CGTAAACTTCGAAGTACTTCGTATACCGAACCAGAGCCCAGAGCCATGAC
AGACCAAGGCAAAGGCAAACCAGGGCGCATGGTCCAGTAAATATGACCAA
AATACGAAACATAAGTAAAATAAGACACAGGGGGGCACAGAGACTGAGGG
AGTGTACTCGTACAAAAACACAAAAACAGGAAGCAGGGGAAAGAAAAGAG
ACAAAAGAGGAAAAATACACGGAGTGCAGCGCAAAAAAGAGGCCGAAATT
CGGGGGGGGGGGTGATAAGAAATACGGAGTACAATAAAAGGCATGTCTGT
GTCTGTGTCTGTGTCTGCCTGGTCTGTCTGTGTGTGTTTGTGCTTTCCAG
GGTACATTGGGTGATATGATGCTTTTGTTCGCGTTTCACTTGGTACCGTC
GGTGCGTTTGTTCACGATGCTACATGCGCGGGGGCTTCATTTATTTCATG
AAACCAACAATGATGTTGAGGACGCATCCTGAGCGATGTTCCGTGAAATT
ATCTTTGCGTCGTGAAGGCAGCGTCAACGCTTCTCCCACGGAACACAGGT
GTTGCTTGCTTCGAGGTGGTGGTGGTGCTGTTGTCGTTGCGGCTGTACGT
TTGCCGCCGATTTTGGTCACACAACAGAGGGCAGAACGAGCCGTGCAATG
TGATCGCTCGAAAATGAGGATACCGCAAGATGATCCACGGAGTCTATATG
GGTGTGCAACATTTGCGTGGTGATCTGTACTGTATACGGAGCCTCTTTCG
CCCCCATCTCATGGCACTCGCCCTCGCCGACTCGTTGTCATGCGATAACC
CACGATGGTTTGAGTCGGCGTACAAATCATAGCCATCCTTTGAGACGGCA
GTTTGCGATCTACAGGGCCCCCGTGGCATGCGAGGCGGTGGTCTTGTCCT
CTTCTCGCCACAAACATATGCCCTCGCAAATGTCTATTTCACGGTGTACT
TTTGAGTCTAAATTATCCTGCAAGATTTTGCCCGTGCGAGTAAGTGTTGT
GTTCACGTGTCAATGCCGCGGCTGGTCTAAAAACTTGGACGTTGGAGTGC
TTTTCGAAGAAAGCGGCCGTTTCGCCCGATTGCTGGAAGGTCGTCAGACC
TCGGGCTTCTTTCGAGCCCAAGCGGTTTTGTTGGAGGTTTTTGTTCGCCG
GTGGTCCTCTGGTTCTCTTGCTAATGCCATTGTTTTTCCTGATGTTCTTG
TCGTTGCTCTTGCTATTGCTATTGCCACTGTTGTTGCTGCTGCTGCTGCT
GCTGCTGGTGGTGGTGGTTTCTGCTGTGGCTGACGATGATGTCGTTTTTT
TACTTCTAGGGATGATAATGGTGTTGTTTTATTCACGTCGCTAGCTGAGA
TACTCATCTTTTTCTTTTTTATGCTGGTGGTTGCTGTTGCTGTGGCTGGT
GACGGTGTCGTTCTTTCGTCGTTTTAGAGATAAATGTTGTCTTAGAGAAA
AACATTCGTCTTTTCTTGCCTTTTTTTTAGGAGCTCGTGGCGAGGGGGAT
GGGCTTAAGCGTGCTCACGTCGAGAGCGGGCATGAACGCCAACGCTGGCC
TTACCGCAAGCAATGGTAAGGGTAAGCATAGTGAGCCTGTGGTGGTGTTG
TGGTGGTGTTCCCTGACTCTCCCGATACCATACCGTAGTTCGCCGCCGAA
CATTCACCTGCTGTGACAAACCCAGGCGCAACATGCTGGAGACGGAAAGT
ATCAAACGCGAACAACGCTACGTACACATGTTGGGTATATATGCACGTAC
AACAATGATGTTCGCGATATGTTGAGGTACGGCCAGCACAGGGAGTTAGC
GCCCCCTGAATATCTGAAGACGCTTTTCTCTGAAAAACCTGTGCCGGTCA
TGGGCGCGCAGACCTGTGTGCAGAAGAGGGGGGGTATCACAAGAAGGTAT
TTCGGATACGGCATACCCGTACCCTTGTATTTTTGGAAAAGTGGTACCCA
TCATACCCGTCGCTAAGGGTATTACTCGCTATGTCGGATAGGATATACCC
GTACCATACCCGTGTATTTTTGGAACAGCGGTACCCATCATACCCGTCGC
CAAGGGTATGAATCGTATGAATCGTCATGCGCAAGCTCCCCAACGGCCAG
GTAGGTCACATGCCCGAGTAAGTCTACACGGGTACGCGTTTGGGTATGCC
CTATCATACCAAACACGACCTTGCGAAAGGGTGTCGACGTTCGTTTACCT
TCGCGGTATTCTTGTCGACCAAGTTGGGCGTTGTTAGCCTTGCTCAACCC
TTCGCGCGTTGAAATACACCTTGGTTTTGACTCGTGAACTGCTGTACCCG
TAGGCGCAAGGTACTACTATACGTAGGCTTGGACAGACTGTTGGACTTGA
TTCGAACCTTCACTCCGACCCTGACATCGACCTGGACTATGACTTCGACT
TGTACATGAGGCGATAGGTCTTGACTCGAGCGAAGCCCTTGACGTAGTCC
CAACTTTGACGCTCAAATTGGTTATCCTTGCCGAAGGACTTGGCTCAGCC
GTATCTTAAACCTTGGTGCATGTTAGTCTTAGCCAAATGTGCCTCACGGG
TCGCGCTTGCTCGCCTAGGCCACAATTCAATATGATATGCTGAAATTGTT
CGGTTTTTTCCGACTTGTCGGAATTCACCGTCGTATCTGTGCGCAATGCT
GCTGTTGTGTGATATTTGATATATTTTTTTTCTTCTGTGTGTGTGTGTGT
TTTTTTTTCCTGGATATTTCTGATGGTGACAGGTATCGATCGCACGACGT
CTCTCGAGGCTCTCTCGCTGCTGGAGCTGCCGCACATTCAGGGAATGGCG
AACCTGGCCGTGCTTGGGCTTTGGCCAACCGCGTTCCCGGCTTCTGCGTC
GTCGACAGCGCCCTCTTCTAGCGCCAACACGCAATCTCCTTCTCGCATTA
CTCCCCTTAAGGTGCACGCCTCAATATATAGTACTCGTCCTGTATGGGTT
TTTGATGACCACAGATGTCGGTCTGGGTTTTTGAAGCGCGAAGTACCTAT
GTTGATACACTTACACTAAATGCTTTTTGTTAGATGTGTGTGTAACAGCG
GTATGATGCAGAGACTGTCCGACACTACCATACAGGTGCATTTTTGGCAA
TTTTGTGTGTTAACAGTGATGTCATGCAGAGGCTGTCCGCCGTGAGTGTG
TTTGGAGACGCGCCATCTCACCTCGGAGTGATGTCTCAGATCCAATTCGT
GCGCACTTTTATATCAAAAGTGACTCGACAATTTGCCGTAACCCCTCCAG
AAGAACGCCATCTGTATCCGAAAAGAACGTTTCAGCTCCCCTCTTCTCGG
CTACCGTAATGATCGCTACTTCGATGTGGGACGGTCCTTTCCCTCTGATG
GTGGATACTGTTGCCGAACGGATGCCGGCGACGATCCAAATTCGCCGCGT
ACACACGCGAATATAGCGAGATAGCGGGCTGTGGAAACAGATGCACGGAG
CTGTCCGAAGGTGCAACGTATTTGGAGATAGCGAGCTATGAAAGAGATGC
ACGGAGCATTCTATTCCAAAAATTGCCTTGATATGTGGAGACAACGAACG
GGCTGTGAAAGGCAGTCCGAAGTTTCTACAATACGGTACGTGGAAACCAC
GAGCTGTTAAAATCTGCACTACAAAGGGTCTTGAACTCGAACCCTCAACA
GTTTTTGTTTTTCGTTTCACTGCACAAGGAGTTCAAGGCACCGAAATGGG
AGTGCTTTGTGTGTAACTATTCCTATCCCTACTGTTGGGACCAGGATTTT
TTTTGTGCGGTTCCAACATTTGTTCTTTTTTCTCGCTGACTGGGTTTTGT
GTTCGGTTGGGCAGGCGGTGAACGGCAGGGGGATGAAGAGAACGCCTTCT
TGGGCGAGGATGAGCTCTTGCGAAAATTTACAGGTGATATTAATCACCAG
GGCTCTTGCTTTCGCAGACAGTCCCGCTGACAGTCCCGCTGACAGTCCCG
CTGACAACCCCGCTATTGTTAGACAGTAGTGTTGACGCTTTGGTGGAGGA
TCTACCGATGTTATGCGGCTTCACGGCCTCAAATTGGCCGACCTCGTGCG
TGCCTGAACCACACCGCGTTCTGTCCTGCAGAACACCGGTGTTCTGTCCC
ACAGATGTCGGTGTTATCGTCGTCTTTGCTCGAGGCTCTTGAGCAAGAAC
AAAAACACCAGGTCGTACGTACGATATAGTTTTGTTGTTTGTTTCGGCTG
TTGTTGTCTGTTGTCTGCACGCCACCCAAGCGCCATCATATCATAGCAGC
TCTTCGAAACTTACAGGTGATATTAAATTGATGACTTTTTTTCATTGCCC
CCCCCCCCCCCTCGATGTTAAACTTTTAAAGCCCCCTCCCTCCCCCTGTT
GGAGTGAGTGCTTTGGACTCCTTAAAAGTATCACACGTATGCACGGTGCC
CCCCTCTTACCCGGCAGACTTACAGTACGGTGCCGGCTCGGCAGAGAAGC
GAGGGGGCGATAATTACCACTCTCACGTTCACGATATGATTTTGATTATG
TCCTTTGGTATTCTATCCTGTGCCGTCCTGTCTCACCCTATTATTCCCAA
TCGCATCTTATCCTAATCTGTATTTGAGCCTATCCTTTCCCATCCTATCC
TATCCTATCCTATCCTGTTTAATCTTATTTTGTCTGATATTTTCGTGCCT
TATTCTGTCTTAATTTCATCCTATCCTGTCCTCGATCCCATCTTTTCCTA
TGCTAGCCCATCCTATCCTACCCCATTCTATCCTCTCCTATTCTTACCTC
CCCTATTCTACCCTATCCCGTATTTTCCTACTTCATCCTACCCTACCCTA
CCCTACCTTACCCTACCCTACCCTACCCCATCCCATCCCCTACATCCCTC
ACAAGTGGTTTTTTGCGGCATGTAGCCCAAGCGTTACTCTCTGTCACCTA
TCGAACAGAGTACGGTACGGTACAATACCTCACGGCGCCTCACGCTCGGC
GCTATCAGTGCATGCCTCGTCGTTAATTTACGGATTCATGCTCGTTCGCG
TGCCGACATTTCTGTCATCGAGATGCGTGGTCACCGGTCAAATCACCGAG
GAAAGCATCAAATGGGTAGCCGACCCCCCCCCCCCTACTGCAATCAGCAT
TTTTCGCGTTCCAGTTCGTGCTTTGAATACTTACTTGCCGGCATTGTATC
GTCATCATCGGGTTGCGTGGCCACTGGTCAAATGACTGAAGAGAGCGTCA
AGTTAGCAACCCCCCCCCACGCCCCCCCCAGTCGGCATGATTATTAGTCA
AACGACTAACGCAAGCATCAAATGTAATGAGTACCGACCCCCCCCCCCAA
CCCCCCCCCTTTTCGGTATTTTCCCGTTTCGGTTGCGCGTAACGCAGAGC
CTGACAGAAGGGAGCCCCGTGTCTCTCTCCGCTGGGGACGTTGGGACTGG
CAGCAGCAGCAGCAGCAGCAGTGTCAGCGTCAGCGTCACGAGCAGCAGCA
ACGGCAGAGGCAGAGGTCAACCTGGGTCCGGGCCAGGTGAATGGCGTTTT
GGTTTCTGACCGTTTTTTTCCGCGCGGTCGTTGCGCTTGAAGCTGACATA
GCCCTCATTGTGATGGTGATGATGGTGGTGGTGGTGATGTTGGTTGTTGT
GGTATTGAAGACGATGTTGATTATGGTGACGATGATGATGATAATGGTGA
TGATGACGGTGGTGGTGACAATGTTGGTGGTGGTGATTGATGATGATAAA
GGTGATGATGACGTGGTGATGGTGATGGTGATGGTGATGGCAAGGGTGGT
GGCGATGGTGACGATGACGATGATGGTGACGATGGTGGCAACGGCTGTAT
TTAGTGGTAATGATAGTGATGCTGATGATGGTCACGATGGTGATAGTGAA
GACAAGGCCGATGTGATGGTGGCGATGAAATCTATGATGACGTTGGCGCA
TAGGGATGCCGACGAACGGTTCAACTTCCGATGTATACCCGAAGCTTAAC
CTACAAAACCAGCCTCTCGAGACAAAGCACGCCTGTTATTTTTACATGAA
GTTCCGCACTACCATAATTGAAAAACCATCTACGGCACTATTTGATTTCG
CTTCGCAGGTGGAGAGGCTCGACACGGTAGCAGCTCTGGCACCAGCACGT
CGTCAGCGGCTCCGTCGATTTCGCCCTTTATGCCGAGAAATACGTCTGTC
GAAGACTTCCTCAGCTTGGTAGAATCGGGGGATATTCCCCCACCAGAGGT
GAGAGTGAGGAAGAACAGAGGGCTAAATCAAACCGACGCAATACGCTTGA
AATCCCACGCCGCCGTAAGCGTGAGGTAGTGTATGTACACTGTCTGCACA
CCTTTTTGGAAGAATGTGTCGTGTTCTCTGCTTTTCACCTGTGGACGTCG
TTGAGTTTTTTTAGTTTGTTTTTTCTGTTGTGGCGTACGGTGCAAAAAAC
GGGGTTCCGTTGTTTTTCTTTCGTTCCAGGATTTACTTCTTCGATTAGCT
CTCATGTCTTGATGGAAGCACTTACCTCCGTCCCAGGATGAATTACATAC
GCGCTCGTACCGGCGATATATCGTGTTTGCATATTTTGGACGGTGCCGTC
AGCGTTCAGTTTATTCCACGCCTCTTTTCTTCTTCATCTTGTGTCCAGTT
TTACGGGATTGAATCAGTTCATGTACAGCACAAGTGTCGCTGCTGTTGGA
TTTCAATTTTCCAGGCGATGAGCTAGTGCGACAAACAACATTAACGACAG
TACCATTCGCGTCTCCTTCAGCAGCAGTAGAAACAGTAGCAGCAGCAATA
TTACCAACGGTGCAGCAGCAGCGCACTAGGTACCGTTATGTTTTTTCTAG
GCATAGATTTACAGTACCTATTTTGGTTTGGAAAGAGATAATATCATTTG
TACAGCGGCATCAGTAGCCGCAGCAGCAGCAGCAAACAGGCACTGCTTGT
CTCCTTTTTTTTTCCACGGCATACAAAAAAAAAAAAATACTCCTGTGTTG
ACTTCCCCCTGTGTGACCCCAGTTGGAGCGTCGACCTACCCGAAAGGTGC
AGAATGGCGTCCAGTTAAAGGGATGACAACATACAGACAACATACATCCT
TGTTGTTGGTCTGTTTCGACAAGAGGTTCGTGTCCGTGGTGTGACGCTTG
TTGATTGTCCCACCAGTTTACCGCTATCGTCTCACCCGTGTCGTTGTTGT
TGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTCTTGTTG
TTCTTGTTCCTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTT
CTTGTTCTTGTTGCTCTTGTTCTTGTTCTTGTTGACAAAAGAAGAAACAC
AAACACAGATATCGCGTACCCGTGGCCAAAGTACAAAAAGTGCTGAAAAA
CAGACACGAAAGCAAAAAAATGTGTTGTTCGTGGCTGATTTTGATGAAAG
GGTTTTGGTGATAAACGCGCTGCTGGCTCGAAACCCAGCGACAGCCTTTC
AAGGGGGGCTTATCCTCATCCCCACATGAACATCTACGCCACCATCGTTT
GTTCCATTTCGCTTCCCATCGAAATCGCTAGTTCAAGCATCACCTACCGT
TCCCACCGTGTGTTTACCGTTCAACCAGCGCTCTTTCCTGTGTCACTTAC
GATGACCGTCGTTTTTTTTTTTTTGTCACTAACCAATAACCGTCGCCTGC
TTTTTTGTGTCGTTTTTCAGGGGACCGCGGGGTTCACGGTGCCGATGTGG
ATCTACACCGGCGACTCCGGCAACACCAGCAACGGGGCGTCTTCTTCTAC
GGCTGCTGCTGCCGCCGCTGCTGCTACTACCACCACGACTTGTGCTAACG
CTACCGCAACCGTCACCACGCCCGACAAACCGCCATCGAAATCGTCCTCA
AAATCCAAACATAAGGTAATGCTTCGTGTATGCCCTTGATGTGTTCTTCC
TCAAAAGCCGAAACCATGAATCAGTTCAATACGCGAAAGGACTGTCAAAT
ATCCATGGATACAAGACTGACCGGATATGTATATCAATCTATTCGCTGTT
GTGAAAACATTAGAACCTGCCCAACAAGCGTTGCTGGACTGAAGAAACAA
ATCGCTCTGGAAAATATTCGCCACCCTTGATTTCCTCTCTAGGTTGTTGT
TCGCAGAATGCAGCTCGTCCTCCACCAGACTCGACGATTATTTGCGCTCG
GCGCGTGTAAGCCCGGGCTGCATGTAGGGATGCGAGGTCCTACCATGCGA
TCGAAAAACTCGATCACGAGTCCCCCCACCCCGTCCCCACACGCACGCAG
AATCGCACGTGCTTGCACCCCCCATCGTCCCCGTCCCTGTCTCTGCCCTT
CGTGGATACGCAATTCCCCCCCCCCCCCCCCTTCGACGTGAGAACGCGCA
ACGAGCCTTTGGTTTTAGGCCAAAACGAGGCAGTTGCCAGATTTTCCCCC
GGAGCGTTTTCTACCGTCCGTACACATCCTCACACTTCCTGTTGTTTTTA
ATAGGAACAGCAGTGTTCCGAGTACTCAGGCGAGCGCTACGTCGATATGA
TACGTCCCCCGCAcCCCCCCCCCCCCTCCCCCGTGACTATGTTGCTGCTT
ACTTCTCTCCACGAACGACTATGTTATTGTCCCTTCCCCTTTACCGCACA
GATGCCTCCCAACGTGCTTGGCCGCGAATGCCTTCTTTTGTTCTTGACCG
GGCTGACCACAACCGCCTCCTTGTTTATTGGCCTCGAACGCCTCCTCCCG
TTCTTGAGCGTTTTCAACCGCAACAGCCCCATGGCGTTCTTGACCGCAAA
CGCGTCCTTATAACCTTCGCCGGAAACATCTCCTTTCATTGTTGACCGTA
ATTGCCTATTTATCATCTTGGCCGCAAACGCCTATTTATTATCTTGGCCG
CAATTGCCTATTTATTATCTTGACCGCAATTGCCTATTTATTATCTTGGC
CGCAAACGCCTGGTTTCATTTTTGACCGTTAAATACTTTGTTTGGTTCTT
GATCGCACACGCCGCTCTGCTTTCTTGATCGCACACGCCTCTTTGCATTC
TTGACCGTACACGCCTCTTTGCATTCTTGACCGCAAACGCCTCATTTCGT
CTTTGACCGACCGCAAACGTTTCCTGTCTTTCTTGGCCGCATCTGCTTTC
TTTCATTCTTGACCATAACCGCCTCATGACGTTCGTGACCGCAAACGCCT
CCTTTGTTTTTCCGCAGGGATCGAGCGGCAGCTCCGTTACTCGGGGTGTT
TCATCAGGAGTTTACCCGGCATCGTCCGTCGACAAACCCAGGTCAAAACG
TTTCAAGTCAGGGCTGGCGAAGACTGAGGCCAAGCGGTAACTGGTTGTAT
GACGTCGGTTCATTCTAGATAGGTTAATGTGTTTTTGTTTTTTGTTTTCT
GTTTTTTATTCCCCCTTCTCTGTATGTGCTACCCCCCCGGCTGGCGCGTC
CACATCTGTGTGCTTGAAGAATGAAATGAAGAGTGACTCGTAGCATGACT
TGAAGAATGAATTGAGGAATGAATTGAAGGATGACTTGAAGGATGACTTG
AAGCATGAATTGAAGAATGACTTGAAGGATGACTTGAAGGATGACTTGCA
GGATGACTTGAAGGATGACTTGAAGCATGAATTGAAGAATGACTCGAAGG
ATGACTTGAAGCGTGACTTGAAGAATGATTTGAAGAATGGTTTGAAGAGT
GACTTGAAGAGTGACCTGAAGAATATCAACACAAAGGCATTGGTGGCGCT
CCTGCGAGTGATGTACCATTACGCCCGCACAAAAATCATCGGAGACAAAA
CGAACGCCCTGGCCGGGGGGGGGTACGGCGTGCGAAGTTATTTCCACGCC
CAGCACACCGACAGCGGGGATGACGGTGTGTCGGAGTGTAATGGAAGATC
CGTTTTTGCTGTATGATACCCTTTTCGACCCTCCTACCCGCCTCGCCGCC
GTCTAAATCGAAAGGGGCCTTGATTGGCGCTGTGATTTGATAAATGCCCC
AGTTGCTCTCTCTCTCTCCCTCTCTCTCTCTCCCTCTCTCTCTCTCTCCC
CCTCTCTCTCTCTCTTTCCGATTATTGCGGTCAAAGGGATCGGTTTTGAA
TAAGGAGCGCGGAGTGAGTGCGATATGTACGATGATACTTTTGTTATAGT
AGTTTTTCGAGGAACGACATGGGTTCGTCCCTCGTAATGGAGGTTCGTGC
TGCTGACAGATTCTTCTATACACCAGTAGTAGGAAAAACGTTTTGGTGTG
TTCGGAGTTTATTTGCGGCTTCACCTGGGTTTGACTTCAATGCTTTGGGT
CTGTTGGTAGTCTGCCCAACGGGAGTGGAATGACCATGTTGTCATTATTG
ACAACTGGATTCCATCCTTATTATCCTCGTTTGACTGTTTGGATCACTGC
CACCGCTGTCACCCTTATTCCCCCAGGCGGGAATGTATTCTTGCCACTGC
TGTCTGTCGGGCCCCACCTGTCTTCTCTCATGAATCGTCGTGTGACTACA
CACAGTAGTTTTTTTTCGAGTCAAGTCACTTCAAATCTACACGCCGTTAT
AAGGCCAATAAAATACAAGTGCGGTTGGAGTGATGAAAATATAAATACGT
ACCCTGGTAGGGGTAGCACTCGAGTTGGAATCAACACGAGGAGAGTCATG
ATATCATAGAGTCGACGTGGGGGGGGGTCGAGCTGCTCCTCGTTTTCCTC
TACATTTAATTTTCACAAATTGACCACCGAAATGACGAACCCAAATGTTT
CGAGTGACATCGCAGGGGTGGAGAGTCGAACCAAAGTATGATACGAAGTG
CGAAGTACATGTTATGCTGAAAGAGAGGAACATATTTAGGGTTGGTTTTT
GGTCCGAAGAGACTTGCTGTTTCGATCTGTTCTGTTTAGTCTCGCTTTTT
TCTTTGGTGTCTGTGGATTTCGGGGTTGGTTGAGTTTCGTGCGTGCTTCC
GTCATTGCCTGTAAGACTATGCACCGTACTATGATATATACAGGCATCAT
ATAGATAAAGCGAGCAATAAATTCGTACACCGATCATAGATACATTACAC
TTGCCGTGGGCACGGTCAGTTTCGTGCGGGTGTTGTTTCCGTTTTTTTTT
TTAATTTCGGGCTGCGTGGAAGAATTTGTAGCACTCTTGGGATGGTCCTT
GGGATGGTTCTTGGGACGGTTGTTGAGATTGTTCTTGGGATGATTCTTGA
CTCTTGATGCTGTTGTGGTGAGACCGTACGTACGTCTCGTGGAGAGCATC
GCTCAGCAGGCTTGTTCGTTCTGAACAAACCCGACGAAATCTTTTGGAGA
TTGTTCTGCAGTAGTAGAGAATCGTGAGATCTTTGTGGAGAATGGACGCT
TTTGAGAGACTTTTCAGAGAGACGCCCCCCTCGGATACTTTCGATGATGA
TCGCGGACGTCCGCGAATGAATGCCTTTAAGAGACACTGCTTTTTTTTTT
TTTTTCGAGGTGATCATCGAGTGTGTGGGCTCGTGGATGCCCCTGAGTTC
AAGCCTCGGAGGGATTTTTTTAATTGTCACGTACGTGCGCTTTCCGTAGC
TCCACACCTTCATTGCTACATTGCCGTCCAGGGCGTGTGTTGGGCCCACC
CCTCTTGAGAATTTTTATAGCACCTAGAGGGTCGATGTAGCGTGATAGTT
CGGAGCAGGAATAGACGGGGGGGGGCCTGCACAGGTTTGGAAAATGTGAT
ACCGGTAAACGTTTGCACCCCTGAGACTGGCGAAAACTTGTAGACCTCAC
GAGGAACGAGTGATTAGTGTACATGTTTTGATGATGGGCTGCGGGCTGGG
TGAGGGTGGTTGCGAAGAACGTTAGATTTTGTGCAGTGTTAAGATGTGGT
TTTATATACAGCAGCGGTGGTTGAAGGTTCGATGTTTGTTTGTCTATGGT
GCTGTCTGTTGCTGTTGCTTGTTTGTTGAATGGGAGTTGAGGAATCATGT
CTGCATGTGGTGGTGGTGGTCGTGGGTATTTCATCTACCTTTAACGTGGC
CGTGGTACAGTAAACTTAATATGCGAAATATGTACTCGTTCGTTCCTGTG
TCTGGACAGAAATGCCCTATTTTGATTTTTTTGCATCGACAATAATATCC
AATCTGCTGGACAA
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Coding sequence (CDS) from alignment at P-littoralis_Contig1119:36707..64520+

>mRNA_P-littoralis_Contig1119.18.11 ID=mRNA_P-littoralis_Contig1119.18.11|Name=mRNA_P-littoralis_Contig1119.18.11|organism=Pylaiella littoralis U1_48|type=CDS|length=3660bp|location=Sequence derived from alignment at P-littoralis_Contig1119:36707..64520+ (Pylaiella littoralis U1_48)
ATGGCCTCCGTTGGCAGCGCCGCCGCAGTCGCCGCCGCAGCAGCAGCAGC
AGCAGCAACAACAGGAGTTCCTGCACTGGCAACAGCAGCAGTAGCAACAC
GTGCGACAGCAGCACCAGCGGCAGCACCAGCAGCAGCATCAGTAGCATCA
GCAGCACAGGCAACAACAGCAGCAGCACCGACAGCTACCGCTGCAATACG
AACTGCACCAGCACCAGTACCAGCACCAGCACCGGCAGTAGCAGCAGCAC
TAGCAGCACCGACAGCGCCAACAATATCAGCAACAACAGCTCCTAGCAGG
AGTACGTCGACGGCTACCGCTGCAGCGGCCATGTCGACGACCACTCCCGC
TGCTGCTGTTCAATCCTCCGCGGTTGCTTCTAGACCAGTGGTGTCGCCGG
CACCAGCAGCCTCACCCACATCCGTGCCACCGGCACCCGTAGCAACAGCG
AAACCCCCAGCAGCAACGGCAGGCTCAGCACCAGCACCAGTAGCGGTACC
ACCAGCAGCAGCAACGCAAGCCCCGGCTGGAGTACGGGCTACAGCACCAG
CACCAGTAGCAGCAGTTCCTTCTAGCAGCCCAAATTCCGCACCAGCAGCC
GCACCAGCACCAGCGACAGCGACAGCGGCGGGGCCAACTTTGGCAGCAAG
TGTAGCATCAGCGCCCCTGACCTCTCCAGGAACAACTTCTGCTGCTGCTT
CTTCGGCGGCGGTGGCGTTGGCAGGGGGCATGGGGGTTTCAGGGTTCCTG
GGCAGGGGCACCAGCGGTACGACAGCGATTGAGGCGGCTGGGAGAGCGGC
AGCGGTGGCTGATGGCGTGGTCGTGGCATACCCAGCCAGTCAAGCACAAG
CGACAGCAGCAGGAGCAGTGGCGGCGGCAGCAGCGACAACAGCACCACCA
GCCCCCACCGCCGCCCAAGCTTCTGCCTACGCCAAGGCAGTGGCGACGGC
GCGACATCAACAACAAGCCCACGCCGCGGCAACAGCAGCAGCAGCAGCGG
CAGCAGCAGCCACAAGCGCCTCTCAGTCAGCGGGAGCTGCCATTCCTTCC
GCAACTGCTGCTGCTGCTGCTGCTGCTCCTGCCCAAGCCACCGTTTACAG
CAGGGCGGCGGGGGGCGGGGTCGCCGTCGCTCCGGCATCACACCAGCATC
ACCACCTCAACCTCGCGCCGACAGGCGGCGCGGCGCCCGGCAGCCACCTC
TACAACCCGACCACGGTGCAGCGACAGCAGCACCACGCCGGCTTTGGAGC
GATGGCAGCAGCGGCGGCGGCGGCTGGAGGTCATCATCATCACCACCACT
TGCAGTACCCGGCTGGAGCCGGGGGCGGGTTCTTGGGGTTGTCGGGAGCA
GGCGGGAACGTGGGGGCTGCTGCTGCTGCGGCAGCTGCTGCGGCCGCCGC
TGCCGCGGCCGCCGCTGCCGTCGCCCAGGCGAAAGTGAAGAAGCCCAGCG
GGCTGAGACGGGGGAAGTGGACGTCCGAGGAAGAAGAGTACGCCAACCGA
CTGATTCAGGAGTTCAAGAGTGGCTTGTTACCGCTGACGGATGGAACGAC
TCTGAGAACGTTCCTCAGCAAGCTGCTCAACTGCGACCCCATGCGCATCT
CCAAGAAGTTTGTGGGCAGCAACTGCATCGGGAAGCAGGTGTTTCGCAGG
AGACAGGCGGATATGGACCGGTTACAGCCGGAAGATATCGAGAGGAGCAG
GTCTCAGTTGGCAGATCTAGAGAGGAGGTTCTTGGAGCGAGTGGCGATGA
CCAACCGCTGCAAGACTGGAGGAGAGATAGGCTCGAAGGAAGGAGGGAGA
GATTTCGACCAACTCGTACGTCCGCAGCAGCCCCCTCTGGCGACACAGCC
ATGGCTGCTGCCTCCGTCACCCCCGACTGTCCCGTTTGTGGGAGCCACGG
CACCGACAGCAGCAGCAGAAGCAGCAGCGGCATCGGGGATCAACGCCGGG
GCAACTGCCGATGATGCTCCTGCTGCGGGAGTTTTGCCGGTGAACCATAC
CCGAGAAGACCCTTCTATGGCTCCGGGAAGTTCGCAAGGAATCACCGCAG
CCGTGGATGGTGGGGCGTCGCCGGCAGCGGCAGCTGCGACGGCACCAGCA
CCAGCACCAGCAACAGCAACAGCAACAGCACCATCAGGCGCGGAACTCCG
GCAAAGGGACGCCACGGCTACGCCATCACCAACACCGACATCAGCATCAG
CAGCAGCAGCTGTGCCTTCTAAGGCCGCTTTGGCAACGACTGTAACGACG
GCCAATGTTACGACAACGGCGGCTTCGGCGGCGGGGCTGGTGCTTGGTGG
CCCACCAGAAACGGCGAGCCAACAACACCGCCCGCTTACGGCGCAGGAGC
AGCCGAACGCTCAGGGTAGCACTTTGACCACCACCACCACTGCCGGCAGC
AGCAGCAGCAGCAGCAGCAGCATGAAGTTTACGGCTTGCACTGGTGCGAG
CAACTCACCAAGTCGCGCAGCGGCGGCAGCGACAGCAGCGGCGGCAGCAG
CAGCAGCAGCAGCGGTTTCAAAGCCGCCTTTCACCTCGGAGCATGGCGCA
TCGACTTCCACAACTGCCGCCGGGACTACTGCACCCGCTGCTGTCTCTGC
TCCTGCCTCTGCCGTTACTACGTCATTGTCGTTTCTAGATGCGGGAGGCG
CGCTGCCGAACACACGGGGCTGTGACTTGGCGTCCCCGGCTCCGGGTGGC
GTCGTCCCGAAAGAGGAGCTCGTGGCGAGGGGGATGGGCTTAAGCGTGCT
CACGTCGAGAGCGGGCATGAACGCCAACGCTGGCCTTACCGCAAGCAATG
GTAAGGGTAAGCATAGTATCGATCGCACGACGTCTCTCGAGGCTCTCTCG
CTGCTGGAGCTGCCGCACATTCAGGGAATGGCGAACCTGGCCGTGCTTGG
GCTTTGGCCAACCGCGTTCCCGGCTTCTGCGTCGTCGACAGCGCCCTCTT
CTAGCGCCAACACGCAATCTCCTTCTCGCATTACTCCCCTTAAGGCGGTG
AACGGCAGGGGGATGAAGAGAACGCCTTCTTGGGCGAGGATGAGCTCTTG
CGAAAATTTACAGAGCCTGACAGAAGGGAGCCCCGTGTCTCTCTCCGCTG
GGGACGTTGGGACTGGCAGCAGCAGCAGCAGCAGCAGTGTCAGCGTCAGC
GTCACGAGCAGCAGCAACGGCAGAGGCAGAGGTCAACCTGGGTCCGGGCC
AGGTGGAGAGGCTCGACACGGTAGCAGCTCTGGCACCAGCACGTCGTCAG
CGGCTCCGTCGATTTCGCCCTTTATGCCGAGAAATACGTCTGTCGAAGAC
TTCCTCAGCTTGGTAGAATCGGGGGATATTCCCCCACCAGAGGGGACCGC
GGGGTTCACGGTGCCGATGTGGATCTACACCGGCGACTCCGGCAACACCA
GCAACGGGGCGTCTTCTTCTACGGCTGCTGCTGCCGCCGCTGCTGCTACT
ACCACCACGACTTGTGCTAACGCTACCGCAACCGTCACCACGCCCGACAA
ACCGCCATCGAAATCGTCCTCAAAATCCAAACATAAGGGATCGAGCGGCA
GCTCCGTTACTCGGGGTGTTTCATCAGGAGTTTACCCGGCATCGTCCGTC
GACAAACCCAGGTCAAAACGTTTCAAGTCAGGGCTGGCGAAGACTGAGGC
CAAGCGGTAA
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