mRNA_D-dichotoma_M_contig1010.181.1 (mRNA) Dictyota dichotoma ODC1387m male

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

Overview
NamemRNA_D-dichotoma_M_contig1010.181.1
Unique NamemRNA_D-dichotoma_M_contig1010.181.1
TypemRNA
OrganismDictyota dichotoma ODC1387m male (Dictyota dichotoma ODC1387m male)
Homology
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: D7FQ39_ECTSI (CRAL-TRIO domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FQ39_ECTSI)

HSP 1 Score: 259 bits (661), Expect = 1.580e-77
Identity = 120/208 (57.69%), Postives = 155/208 (74.52%), Query Frame = 1 
Query:  853 LSRFFHMGHWTLEAGGKPLVEAIDNTLKWREKVKPHLITDKEIMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGKDPYRYHNDGYF 1476
            + R+  M +WT+E+ G+PL +A+ +T++WRE   PHL+TD ++ EEA  GK+Y RG DR+ R +I+Y PG   S D E GL LLF+T+ERA  SLP+ Q QFAVVADCSGFGPSK PPL M+K AF+ MQR+YPMRLGYV+IV+A  PI FVWKLISTVL  RT +KI FL+ KEA A L+  IDP+ +P++LPGG D + Y N+ Y 
Sbjct:    1 MMRYLEMAYWTMESMGQPLPDAVASTVRWREDATPHLLTDNQVAEEAKYGKMYVRGLDRQQRPIIHYRPGLEKSFDTEKGLNLLFHTLERAKGSLPKGQTQFAVVADCSGFGPSKTPPLPMLKTAFITMQRHYPMRLGYVVIVNAGGPITFVWKLISTVLEERTKEKIAFLSKKEAEATLTGLIDPSALPASLPGGLDDFTYSNEEYL 208
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A6H5JFY3_9PHAE (CRAL-TRIO domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JFY3_9PHAE)

HSP 1 Score: 176 bits (446), Expect = 8.750e-48
Identity = 85/133 (63.91%), Postives = 102/133 (76.69%), Query Frame = 1 
Query: 1078 DVEMGLKLLFYTMERAAASLPEHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGKDPYRYHNDGYF 1476
            D+  GL LLF+T+ERA  SLP+ Q QFAVVADCSGFGPSK PPL M+K AF+ MQR+YPMRLGYV+IV+A  PI FVWKLISTVL  RT +KI FL+ KEA A L+  IDP+ +P++LPGG D + Y N  Y 
Sbjct:   15 DILEGLNLLFHTLERAKGSLPKGQTQFAVVADCSGFGPSKTPPLPMLKTAFITMQRHYPMRLGYVVIVNAGGPITFVWKLISTVLEERTKEKIAFLSKKEAEATLTGLIDPSALPASLPGGLDDFTYSNKEYL 147
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A7S2XX21_9STRA (Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XX21_9STRA)

HSP 1 Score: 127 bits (319), Expect = 3.540e-30
Identity = 62/160 (38.75%), Postives = 96/160 (60.00%), Query Frame = 1 
Query:  970 DKEIMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEHQ--VQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGK 1443
            D  +  EAA GK+YT G  R G  ++Y+ P   T  D E  L LL YT+ERA  S+   +   +F V+ DC+GFG S+ PP++++   F  +   YPMRLG V +V+A +P+N +WK++S +L+ RT  K+ FL+ KE +  +  +++P  +     GGK
Sbjct:   11 DAGMRREAAGGKMYTLGRGRSGEPLVYFRPALETGSDYEASLHLLVYTLERAIKSMDSKRGVEKFIVLVDCTGFGLSRAPPISLVTGQFKTLMHNYPMRLGKVFVVNAGTPMNMLWKIVSPILNERTRHKVFFLSEKEISQHIPQYVNPDVLEVEF-GGK 169
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BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A8H7UFM8_9FUNG (CRAL-TRIO domain-containing protein n=1 Tax=Umbelopsis vinacea TaxID=44442 RepID=A0A8H7UFM8_9FUNG)

HSP 1 Score: 101 bits (251), Expect = 1.280e-19
Identity = 66/217 (30.41%), Postives = 99/217 (45.62%), Query Frame = 1 
Query:  838 LDDATLSRFFHMGHWTLEAGGKPLVEAIDNTLKWREKVKPHLITDKEIMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLT---PKEAAA-------KLSAHIDPATMPSTLPGGKDPYRY 1458
            L D T  R+     + LEA  K L    + TLKWR   +P  I  + I  E +CGK+Y  G D+ GR + Y  P    S D +  +K + +++E AAA +PE      ++ D    G    P + M K    ++  +YP RLG   +VH        +KL+S  + P T  K+ F+    PK+  A       +L+  +D   + S   GG D   Y
Sbjct:   81 LTDKTYQRYLRARKFDLEAAKKQL----EGTLKWRRSYRPDEIDPEAIKIEQSCGKMYFNGFDKNGRPLCYMKPRYENSKDADRQIKNIVFSLELAAALVPEDVHTMDIIVDFRDAGSGDTPGVGMAKQFIDILGNHYPERLGVAFLVHTPWFFWTTFKLVSPFIDPVTRAKVKFVDLKEPKDGKANKNPDWVQLTDFVDKEQLESDFGGGMDTSFY 293
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A9S7H3_PHYPA (Predicted protein n=2 Tax=Physcomitrium patens TaxID=3218 RepID=A9S7H3_PHYPA)

HSP 1 Score: 94.4 bits (233), Expect = 1.230e-17
Identity = 58/195 (29.74%), Postives = 97/195 (49.74%), Query Frame = 1 
Query:  805 LERRAKAVAHELDDATLSRFFHMGHWTLEAGGKPLVEAIDNTLKWREKVKPHLITDKEIMEEAACGKLYTRGH-DREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAA 1386
            LE  ++   H   DA L R+     W ++   K L +    TL WR   KP  I  +++ +EA  GK+Y     D++GR+V+   P    +   E  +K L Y+ME A A+LPE Q +   + D   +  +K   +   +DA  V+QR+YP RLGY ++++        W+++   L  +T  K+ F+   + A+
Sbjct:   32 LEPLSERDGHYATDACLRRYLRARSWNVKKAEKMLRD----TLAWRASYKPEDIRWEDVAKEAETGKVYRAATVDKQGRSVLVMRPAKQNTTSREGQVKQLVYSMENAIANLPEDQEEMIWLVDFKNWSMTKPISIKTTQDAAHVLQRHYPERLGYGILINPPHIFETFWQVVKPFLDAKTARKVKFVYTNDPAS 222
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: B8CG82_THAPS (CRAL-TRIO domain-containing protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CG82_THAPS)

HSP 1 Score: 90.9 bits (224), Expect = 7.520e-17
Identity = 64/211 (30.33%), Postives = 96/211 (45.50%), Query Frame = 1 
Query:  877 HWTLEAGGKPLVEAIDN---TLKWRE----KVKPHLITDKEIMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEH--QVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGKDPYRYHNDGYFAA 1482
            H+  E G   L+EAI     TL+WRE    + +   + D  I  E   GK+Y RG+D++GRA++Y TPG   S +    +K L Y +ERA A    H  + +  +V    GF  S  PP++  K    ++Q +YP R+    I          W +I   + P T +KI F + KE    L    D         G +D  R+ +  +  A
Sbjct:    5 HYRAEKGN--LIEAIRKIKCTLRWRELFGKQEELRQLADT-IAHENETGKIYCRGYDKQGRAILYLTPGRENSTNELNNMKHLVYHLERAIACTRRHSGREKVCIVIGYEGFKLSNAPPMSTTKHTLTILQGHYPERMFRAYICDPPLVFRTFWSVIRHFVDPCTLEKIAFCSGKEGQTLLERDFDVDMTERQAGGQRDLRRFSSREFLFA 212
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A7S1CRX9_9STRA (Hypothetical protein n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S1CRX9_9STRA)

HSP 1 Score: 87.8 bits (216), Expect = 4.290e-16
Identity = 52/158 (32.91%), Postives = 76/158 (48.10%), Query Frame = 1 
Query:  979 IMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEH--QVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGKD 1446
            I +E   GK+Y RG+D+EGRAV+Y TPG   S      ++ L Y +ERA A       + +  +V    GF  +  PP++++K    ++Q +YP R+    I          WK+I   + P T DKI F T +E  A L    D  T      G K+
Sbjct:   14 IAKENETGKIYCRGYDKEGRAVLYLTPGRENSQCEIDNMRHLVYHLERAIACTRHKSGRQKVCIVIGYQGFRIANAPPMSVVKHTLQILQGHYPERMFRAYIADPPMVFRGFWKVIKHFIDPATLDKIAFCTGEEGKALLERDFDTNTTEKQAGGQKE 171
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A7S2I321_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2I321_9STRA)

HSP 1 Score: 88.2 bits (217), Expect = 4.040e-15
Identity = 57/198 (28.79%), Postives = 90/198 (45.45%), Query Frame = 1 
Query:  928 TLKWR-----EKVKPHLITD------KEIMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMER--AAASLPEHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGKDPYRYHNDGYFAA 1482
            T+ WR     EK++     D      K I +E   GK+YTRG+DREGRAV+Y  PG   S D    ++ L Y +ER  AA +    + +F +V    GF     PP+++++    ++Q +YP R+    +          W L+   + P T +K+ F   K   A L    D  T      G +D   +++  Y  +
Sbjct:  127 TIAWRRDFEVEKIRRCFEDDGDMHMRKIIAQENETGKIYTRGYDREGRAVLYLHPGLENSNDEINNMRHLVYNLERVIAATAAMSGKEKFNIVISYKGFKLRNAPPISVVRHTVDILQNHYPERMYRAYVCDPPVVFRTFWSLVKPFIDPVTKEKLQFCHGKVGKATLEERFDLETTEKCAAGTRDLRPFNSTEYLYS 324
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A7S3M0V5_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3M0V5_9STRA)

HSP 1 Score: 85.9 bits (211), Expect = 2.060e-14
Identity = 64/224 (28.57%), Postives = 105/224 (46.88%), Query Frame = 1 
Query:  838 LDDATLSRFFHMGHWTLEAGGKPLVEAIDNTLKWREKVK-PHLITDKE--IMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLP---EHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEA---AAKLSAHIDPATMPSTLPGGKDPYRYHNDGYFAA 1482
            ++D T  R+    ++ +    K L E    TL WR++   P L  + +  I  E + GK+Y RG+D+EG A+IY  P    + D    +K L YTMERA A +    +   + ++V D  G+  S +PP     +   ++Q +YP RL     + A       ++++S  + P T  KI  +   E    A +L+  +D   +  T  GG D   + +  Y AA
Sbjct:   29 MNDLTYGRYLRARNFNVVKATKMLRE----TLVWRKEFDFPKLYAEDKPIIANENSTGKMYVRGYDKEGSALIYMKPVHENTKDHVGNIKHLVYTMERAIACMDAKGQGCSKLSLVIDYDGYNTSHMPPFKTSTETLNILQNHYPERLKCAYTLRAPFVFYAFFRMVSPFIDPVTKKKICMIKNAEVGKDACQLNQEVDREVL-ETCVGGLDERPFVSADYIAA 247
[Close]
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Match: A0A7S1VXY9_9STRA (Hypothetical protein n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S1VXY9_9STRA)

HSP 1 Score: 80.9 bits (198), Expect = 1.250e-12
Identity = 58/229 (25.33%), Postives = 102/229 (44.54%), Query Frame = 1 
Query:  838 LDDATLSRFFHMGHWTLEAGGKP-LVEAIDNTLKWR-----EKVKP------HLITDKEIMEEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAASLPEH--QVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVHASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLPGGKDPYRYHNDGYFAA 1482
            L DA ++    + ++  E G  P  +  I  +L WR     EK+K        +   K I +E   GK+Y RG+DR+GRA++Y  PG   S +    ++ L Y++ERA A+  +   + +F +V    GF     P +++++    ++Q +YP R+    +          W ++   + P T DK+ F   K     L    D  T      G ++   +++  Y  A
Sbjct:  111 LSDAHMT----LRYFRAEKGNIPHAISKIKASLAWRRDFEVEKIKNCFTPSGDITMRKIIAQENETGKIYARGYDRDGRAILYLHPGLENSNNEMNNMRHLVYSLERAIATTAKKSGKEKFNIVISYKGFKLKNAPAISVVRHTVDILQNHYPERMYRAYVCDPPLVFRTFWSIVKPFIDPVTRDKLQFCHGKAGRHVLMERFDLETTERCACGTRELRAFNSTEYLNA 335
The following BLAST results are available for this feature:
BLAST of mRNA_D-dichotoma_M_contig1010.181.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 20
Match NameE-valueIdentityDescription
D7FQ39_ECTSI1.580e-7757.69CRAL-TRIO domain-containing protein n=1 Tax=Ectoca... [more]
A0A6H5JFY3_9PHAE8.750e-4863.91CRAL-TRIO domain-containing protein n=1 Tax=Ectoca... [more]
A0A7S2XX21_9STRA3.540e-3038.75Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa... [more]
A0A8H7UFM8_9FUNG1.280e-1930.41CRAL-TRIO domain-containing protein n=1 Tax=Umbelo... [more]
A9S7H3_PHYPA1.230e-1729.74Predicted protein n=2 Tax=Physcomitrium patens Tax... [more]
B8CG82_THAPS7.520e-1730.33CRAL-TRIO domain-containing protein n=1 Tax=Thalas... [more]
A0A7S1CRX9_9STRA4.290e-1632.91Hypothetical protein n=1 Tax=Skeletonema marinoi T... [more]
A0A7S2I321_9STRA4.040e-1528.79Hypothetical protein n=1 Tax=Helicotheca tamesis T... [more]
A0A7S3M0V5_9STRA2.060e-1428.57Hypothetical protein n=1 Tax=Spumella elongata Tax... [more]
A0A7S1VXY9_9STRA1.250e-1225.33Hypothetical protein n=1 Tax=Ditylum brightwellii ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
D-dichotoma_M_contig1010contigD-dichotoma_M_contig1010:119747..144891 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
OGS1.0 of Dictyota dichotoma ODC1387m male2021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score258.8
Seed ortholog evalue4.7e-66
Seed eggNOG ortholog2880.D7FQ39
EggNOG free text desc.intermembrane phospholipid transfer
EggNOG OGsKOG1470@1,KOG1470@2759
COG Functional cat.E
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
Hectar predicted targeting categorysignal anchor
Ec32 ortholog descriptionCRAL-TRIO domain
Ec32 orthologEc-01_007590.1
Exons6
Model size2477
Cds size1401
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_D-dichotoma_M_contig1010.181.1prot_D-dichotoma_M_contig1010.181.1Dictyota dichotoma ODC1387m malepolypeptideD-dichotoma_M_contig1010 120739..144807 -


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

Feature NameUnique NameSpeciesTypePosition
1622927494.5685978-UTR-D-dichotoma_M_contig1010:119746..1207381622927494.5685978-UTR-D-dichotoma_M_contig1010:119746..120738Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1010 119747..120738 -
1690797999.8598456-UTR-D-dichotoma_M_contig1010:119746..1207381690797999.8598456-UTR-D-dichotoma_M_contig1010:119746..120738Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1010 119747..120738 -
1622927494.6368108-UTR-D-dichotoma_M_contig1010:144807..1448911622927494.6368108-UTR-D-dichotoma_M_contig1010:144807..144891Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1010 144808..144891 -
1690797999.9154541-UTR-D-dichotoma_M_contig1010:144807..1448911690797999.9154541-UTR-D-dichotoma_M_contig1010:144807..144891Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1010 144808..144891 -


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

Feature NameUnique NameSpeciesTypePosition
1622927494.5781457-CDS-D-dichotoma_M_contig1010:120738..1209091622927494.5781457-CDS-D-dichotoma_M_contig1010:120738..120909Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 120739..120909 -
1690797999.8716698-CDS-D-dichotoma_M_contig1010:120738..1209091690797999.8716698-CDS-D-dichotoma_M_contig1010:120738..120909Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 120739..120909 -
1622927494.5870566-CDS-D-dichotoma_M_contig1010:121422..1216471622927494.5870566-CDS-D-dichotoma_M_contig1010:121422..121647Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 121423..121647 -
1690797999.8789077-CDS-D-dichotoma_M_contig1010:121422..1216471690797999.8789077-CDS-D-dichotoma_M_contig1010:121422..121647Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 121423..121647 -
1622927494.5960684-CDS-D-dichotoma_M_contig1010:122867..1229781622927494.5960684-CDS-D-dichotoma_M_contig1010:122867..122978Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 122868..122978 -
1690797999.8862264-CDS-D-dichotoma_M_contig1010:122867..1229781690797999.8862264-CDS-D-dichotoma_M_contig1010:122867..122978Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 122868..122978 -
1622927494.6050053-CDS-D-dichotoma_M_contig1010:124823..1249411622927494.6050053-CDS-D-dichotoma_M_contig1010:124823..124941Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 124824..124941 -
1690797999.8934486-CDS-D-dichotoma_M_contig1010:124823..1249411690797999.8934486-CDS-D-dichotoma_M_contig1010:124823..124941Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 124824..124941 -
1622927494.6157866-CDS-D-dichotoma_M_contig1010:126001..1265161622927494.6157866-CDS-D-dichotoma_M_contig1010:126001..126516Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 126002..126516 -
1690797999.9007568-CDS-D-dichotoma_M_contig1010:126001..1265161690797999.9007568-CDS-D-dichotoma_M_contig1010:126001..126516Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 126002..126516 -
1622927494.62484-CDS-D-dichotoma_M_contig1010:144546..1448071622927494.62484-CDS-D-dichotoma_M_contig1010:144546..144807Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 144547..144807 -
1690797999.908175-CDS-D-dichotoma_M_contig1010:144546..1448071690797999.908175-CDS-D-dichotoma_M_contig1010:144546..144807Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1010 144547..144807 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_D-dichotoma_M_contig1010.181.1

>prot_D-dichotoma_M_contig1010.181.1 ID=prot_D-dichotoma_M_contig1010.181.1|Name=mRNA_D-dichotoma_M_contig1010.181.1|organism=Dictyota dichotoma ODC1387m male|type=polypeptide|length=467bp
MCRTNTETKSQNQDGRTTGNAISKEETSQRPPPPRRRFLIGTGILGRKAA
IIAIAGVFTAIAAVRLSSDCVLWRRIAEEAVLAVPPEESDRTRRRSLGAL
FAKLRPWRRKHGDRVDDGEDGSEDAGRKGTTEAARPWRRRRRRKDESSPR
ETSSSSVQLSGASFTTGKKSWEETESSVDGASRTRSGERPRLLKWLFPWG
RRRSGRGNRSVAELGGPVDGDERLRLLKQLRRQVAEHPRDLERRAKAVAH
ELDDATLSRFFHMGHWTLEAGGKPLVEAIDNTLKWREKVKPHLITDKEIM
EEAACGKLYTRGHDREGRAVIYYTPGSGTSLDVEMGLKLLFYTMERAAAS
LPEHQVQFAVVADCSGFGPSKVPPLTMIKDAFLVMQRYYPMRLGYVMIVH
ASSPINFVWKLISTVLHPRTHDKIVFLTPKEAAAKLSAHIDPATMPSTLP
GGKDPYRYHNDGYFAA*
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mRNA from alignment at D-dichotoma_M_contig1010:119747..144891-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_D-dichotoma_M_contig1010.181.1 ID=mRNA_D-dichotoma_M_contig1010.181.1|Name=mRNA_D-dichotoma_M_contig1010.181.1|organism=Dictyota dichotoma ODC1387m male|type=mRNA|length=25145bp|location=Sequence derived from alignment at D-dichotoma_M_contig1010:119747..144891- (Dictyota dichotoma ODC1387m male)
CGTACTCACATTACTAACGCCTAGAGATACTGTAGCAGGGAAGTAGAACG
CTGAGTTTCTCGCTGACCACCATCTACTCGTGTGATGTGTAGGACCAATA
CAGAGACCAAATCCCAGAATCAAGATGGTAGGACTACGGGAAATGCAATA
TCGAAGGAGGAGACGTCGCAGCGCCCACCACCTCCCCGAAGGAGATTTTT
AATAGGCACGGGAATACTGGGACGGAAGGCTGCTATCATAGCAATAGCTG
GCGTTTTCACTGCGATAGCAGCAGTCCGTTTGAGCTCAGATTGCGTCTTG
TGGCGGAGAATAGCAGAGGAGGCGGTGCTAGCAGTCCCTCCCGAGGTGGG
TAGTTTCCACGGTTTCGTATTTCGATCAGCTGTCAAATGTTCCTGTTTCT
CAGAGGAAGTCCACGTCGATGTCGTAAGGCATCTCTTTCATCGCCGCTTT
CAAGCTTGAACTTCTACTAGTTAGATGTGTATTGAGCCTATTTGACGTTC
CACGGAAGGTAAGAAACCGTTCATCAAAACATTTCGGTCACGGGTCGTCT
CTCATGTACCGGCAATGATCAGCAAGTGGGACCCATGGGCGGAGTTCGTC
GCTAGTAGCGTCAAGTTGCCCCGCGCGTCGACAACGCGACCGGTAGACAG
GCCGAAGGCAAGTGTCTCGGTAGGGAAGTGGAACCTAGTTGCCGACCCCA
ATCCAAATCATTTTCCATCAGTGACAAACATCATATTTTGTTGAATCCAG
GCTTGCTGCAGTCTGGTGAACGACGTAACATGAAAATGAAATTGTAGAGG
TCATCAGAGCTTTCGCTGCACAGCGAGGTCGTCGTGACCGAGATGACATG
ATTCCGGCGGAGTCTCAGTGGTCCTGAGCATGAATTTGCTCGACGGTGCT
GTTGTTGGGGCGGGACCAGCTAACTGAACAGAACTGAAAGGTACTCTAAC
ATAGCTTACATTTCCTCGATAGGAAATGTCGATGGTCGCGCTTGAATCGG
CGATCGTGGCGATCTCTGGCAATTCATGCGAACGAGTGTACTCGGTCAAT
TCATGCTACCTGGTCGACAGTGTAACTGCTGTGACGTACTGTACCACTGA
ATGTCCGCCTTGATGCATGCAGTGGCACGGTACTGTACCACCTCACGGGA
TGAGTACTCGAGGCGTGAATTGTATTCCTCCCAGATTGAGACGTCCTTGA
GATACGAAGAACCGACCCCAGTTCACTTTGGAATGCCGAGGTTCCCATGC
AGGAGGTGAGGTGGAGGGCTTCAACCTCGCCATAACTCTCTCATCATACT
TAACAGTACGTGGATGCACGTACTGTAAGATTCGCAAGGAATCTGTGAGG
TTCGCGCCACTCTTGTACCCTCGCTCGTAGGTTCATTGGGGCGTCTACGA
GATTAAGCGTATTCATTCCAGCGGGATTGAAGTACAGGAGAGCTAACGAT
GTCCGCTCAAGCCCCAGCGTCTGGGCGAGGACCCACAAGCAATTGTGAAG
ACATCCACCAGCGTTGTACAGGACAGATAGATGACTTGATGTCGATACGG
TGCAGAAGGATGAGCGTGATTTAAGCGCGAGTCACTGACGCGAACGACCG
TGCATGATTCGCTGAACCGAAGCCAATCTTGACCTACACCCTCCTTGGGG
TACGTCCTTTTATGTGGACCTAGTTGTTTGTTGGGCATCTATTATTCCGG
ATCGATCTTGTGTCTAGTGCTGACCGTGCTGACCGTCAGAGTGCTTTTCT
CACACTCACCACTCGGTTGCTCGTGCTGACCGTGAAATAAACTGTCCCCC
GAGCATCTCCGTTTAATCCATTGCTGCCGTACTGGTGTGTCCATTGGAAC
GTATCAAAACTGGGATTCTAGCGAAATGATATTTGATGCGAGTACCAAAT
TACTTTACTTTACTTTGTAGCCAAAGTGGAATTACTGTACTGTGTTTTGT
GTTAGCAACGATTTGAAATGGAAGGTGGGCCCGTTTCGGCATGACTCCTT
GGCGGTGCTCGACACGTCAGCAACAACCAGTTTCGAGATATCCAATCGAC
TGAGAACGTCAAGGTGCCATGGGCGCAGGCGAGCCACTTCCAAACGAAAC
GAACCGGCATATTGTGCCGCTCAAACAGGATCGCGCAGCCCCTCCCGCTC
ACCGCTCACCGCTCACCCCTCACTACTCTTAGCCCATTGTGGTGCGAGTA
AGAGCAAAAAGCAAAAAGCAAAAAGTGAAGAATGAAGAGTGAAGGGAGCA
GCACCATGAGATCGTGTCGGCTCAGATAACGATGCTTGTGGGCCTCTTGA
GGGTGCAAGCGAGGATTCCAGCAAAATCTATATCCACAGCCGCGTGATGG
ACATGATTCGTTCCGGAGGTGCCGAAGTTCTGGTTCAACCCGCCTCACCC
GGATGCTGACGGCACGCTTACCGACCTATAACCAACGTTGCGGTACAGTA
CCTAGTTCGGAGTAGGATATGCCATAGTCTCGGGCACAGGTGGGTTGCGT
TGCTGGACCACTAAAACACCAATTAGCCCCGGATGATCCAAGTAGCCGGC
AGCGTCTCCTCGGTGTCCGCCGTGTGTGTCTCTGCATCCGGTTCTGGCAG
CAGATGAGATCCTGCTTCGCGGTGGCCGTCGACGATAGATCATTTCATGG
ATCGGTCCCTTCAGTGGAGGACAGACACTTTCCTTCGTCGTCGTCCTCCG
ACTCTGACTCCGACTCCGAGCGTCGGGAGTGTGTGCGCTACTCTATCGAA
CCGTGTAGACGGTTCGATATGGGGAAAAACTTGTATTTCCCATCTGGAGT
GAAGTTTGGCGCAGAAATAAATGGACCTATGTATCAAGAGAAGTGGTGTC
GTGTCGTGTCGTGTCGTGTCGTGTCGTGTCGTGTAGAGTCGACTCGAGTA
CTTTACACCAAACAGCAAAAAAGGAGTCTACAGTAGTTTTATGGTCCATT
TTACTGGAATTTAATATGCATTCGATCGAATAGGAATCTTCATATTTATA
CAGTGGTGCTCACGGGTGTAACGGATTACGTGAGGAAAGAACAGTCCAAT
TCTGGCCCCAAAAAAATGTGACCAAACTTTTCAGGCCAAATTTGAAGTGC
TTTTATGTTTTCATGAAATTTAGATCCGACCATATTCGTGAGAAATGTTG
TGGGGTCAGGTTTGGACTGTTTTTTTCCTCACGTACTCCGTTACACCCTG
GTGCACTACTGTAGTTACAACCATAGTATACGGGTTAGGTTAGGTTAGGT
ACCATTGTATACGGGTAATGACATGTCTGTCTGCCTAGAAGGGCCTCTAG
TATTCTAGTAATCTAGTAACGTAGTAATCGGGGAAAAGGAGCGCAGGCCG
ATGAGCACCAAATCTGGGTGTTTCGATGATGAAATGCACTAGAGCTGAGG
CCCAAGACCCAAGCCCCAAGCGAATGAGGCTGAAACGGTCCGCACTGTGC
TGTACAGCACCCAAGGAACTTTGCCGGCAATCAGTTGGGGGCAACTAATC
CAGAATGGGTATTTTGCCGGCAATCCGGGGATGCCTTGATTACGGAAAAA
TCACCCAGATTAGGCGAGCAAAAGCCCGCACCACTATGCCTTATTCATAT
CCATGTACTGTACTGTACTGGTAGTAAAACTTGTATTGAAGGAAGCGATC
GATACCCATGAGGAAGAGGCATCCAAATGGGCTCAAATCAGTTGCACAGT
CGAAAATGGTTGAGAAATACGCTCGAGATAGGCCCCTTCGAAGGATCATC
GGTCTCATGTTATTCATGTTATTGTATGGCGTTTAGTATACAAATGGCAC
ACGCTGCTATTCGGGTCCATATCTCGAGAGCAGCGCGTGTCTGAGAATTG
TTGGGTGTACAGGGTGAGGCGAGAGTTGGGTATACAGGGGCCTCTTCTGC
GCAATTTTCGAGTGATCCCATCCATACAGTCTTTGTCGCATGGCCTCTAA
AGGCTGCCACGTGCGGTTGAATCAACGTCGGCATTTAAATATACTTCCTC
TGTGCCATAAGTAAAGTCCGTTATGATTATACGGACCCTTAGCCGTGTCC
GATGCCGCAGGCGATAATTTTTTTGAAATCTTCGGTGTTTTTCGAGTTGA
AACCCGGGTTTTTTTTTTCTGCACACACCGCCCTGCATGCATGAACGGCC
GAAAAAAATCCAGTCGGCCGAAAAAAGGCCGTATTTCGCCCCTTTTCCAG
GGGCAAAAAAGTGCTGGAAAAACAAAATCGTTAATCGTCCTCGCCGTCGC
TGGGGCTGATGCTAGGTAGTCCCAGGCCGTCGTGAAGGTCTCCTTATCAT
ATTTTACGACCCGTTCTAATGTTCCTGCCCTCTGGCGCGCCGTCACCCCG
GTATGCTCCACACTAAAGTCGTTATTGCCCAACTGACGTAGTGTCTGGAA
GTACTTGGAAGTACAATTAGACCCTCATTACCTTTTCAATTTCCCATATA
TTTAAAACGCAACAAGCAGCTGAGAATCTGGACATGCTGCAACTACACGA
CAGCCTAGACACGACGCCCAGTACAGTGATTCCCTGAGGTAATCATCCCA
TTGATACACTACACTATACTAAGAAATGAATTGCGAAGACATGTCTACAG
TGGTTGACGGCATCTACAGTGGGTACACTATCATTGAGCACAAAGGGAAA
ATATGTCGCGGAAGCCTGTTGGAACTGAGGCGACGGAATCGCTCGTCTGC
GCTGCCGACCCTTCACCACTGTATTCGAGAGCTGTAGTGGTATCTGATCG
TGCAAACATCCTATGACAATATTGCGCGAAGTCGATCATCACTAAGATCA
TCACTAAGGCTAAGACGCATCGTGAGGCAGCAGAATATCCACAGAGTTTG
AGCCCTGGACCGAGAGCTCTGTTCCTGCGGGACTTTGCACGCGGCATGCT
TACTGTCAACAATTTCCTGCTGTTGCTATCGCCGCATCTCATTTTCCACT
TGAATTTACGGCATGACGTGTACTGTGCCTCTAACTCATGGATTGACCTG
ACCTCCACATGTCCGGCAGCCAATGCACCATGAAGCGGGCCACAACCCTT
ATAATTGTTCATATACTCTCCGATGACAGAGCTTCGGTACACTCTGACTC
TTCGCTCTGGGAATAACTGGACGTGTTCCACGGCTATAACCGCAAGATCT
TGTCAGAATATCTTTTAAGACAGCGGTGCAACGTGGCGCTTTCCGCCGGA
GGAGTTATTCGCGGCCAAGTGCAACCCCAACCCCGTCAAGTGAAACCCCA
ACCCCAATACATGACTTCCAAGTCGTTGAGGACTTGGAAATCATGCATAC
TGCACGGATGAATACATGAGACAGTGCTTTGTAACCTCTATTGTTACTCA
CTATTGTTTAATCCACCTTACCCGTACTGCATGGTGTGCTTCAAGACTCG
CAACATAGGCACGCTGTTTGTAAAGCACACCATCGTTGTGCGAGACGGTC
GCATCACCGCTGGCATGTTGCCTCACAGTATCTTTCATGGGTAGGGTGAA
TTCCACTTCATCCTTCATCCTTCATCCCCTCCCAGCCATTCTTCCCACCC
CGACGTGTCCAACACATCGGAATTGTTGAGGATCCACGCGTGTTCAACAC
ATATGAAAGTACCTTTCCGCTGCGGTGGTGTTCGCATTCAGGCTTGCAGG
AAAGTTCGCATGATCGATTTGTGCAAGGTACTTTGCAACGACTGGGATGC
GCACCTGGAACGCTTCAAGTATCATTTTATCAGCCATACTCCACATGTTC
TCCATCAACTCCAAAAATTTCCACGCACAGACCACAAGACCAAGCAGACA
TAGATTGTTCCAATTACTTCGGTTGTAGAGCTAGAGCACGTCCATCGTCA
CGACGGGAGCTAGGGCGCGTGGTGATGAGAGGAATGTCGAGATGCGGGCA
AATTCACCATCGACAATAAAACTCATTTCGTGCTCCCCTACCCATACAAA
GCCTCTTTTCTATGGCCGTAGAAACTCGGTATGCCACTGATTTGAGCCCA
TGTGGGATCAGAACTGAAGTCCTCTAGTCGCCACAGGTCCTGAAGATATT
GTCGGAGGAGACGGGAATGTTGTTTTTTACATGGGCGAAAGCATGTACTA
CAGCTCCCTCTCGTCTGCCGACGGCCCCCTTCGTCAGCTGGATTAACCCC
GAAGACGCTTAGCGGAAGCGGAGTTGGGTTTGTTATAGTTCCGTCCCCGT
TAGTTAGTTAGTTAGTTAGTTAGTTAGTTAGTTAGTTAGTTAGTTGGTTG
GTTACCCCGATCGACCGATTTGACTAAACACACCCGAGTAAGACGCTCCC
AGATGAATTACTGTACATGGACGTTTCTTGTATGTTCTACACGGAACAAT
GGCTGTAAGACTTCTTTATCTTGCCTGGCGTTTTCCCTTGGGGGTTCGGC
CAATAAGAACTAACCCAACCCGAGCGTCTAACCGGTTAAAAGCTTCTGTG
TGAATGCCTAGTATGGGGAATGCTTTCCATCAACACACTGACTACTGTAC
TCGGTCTCGAAGACAATGCACATAATGTGGGCCTAGACTGGCCTGGCGCC
ATAGTAGTAGAGAGTACTACGTCATGTGTACTCAGATTAAGGCGTCAGGG
GCGTACACGACCTTGTCGGAAGTTCACCATCCACGAGGAAGCATCTCAGA
ATCAGATATGACTATCACATGGGACTAACGTGGATACGCGTTAGGGATAC
ATACGTGTAGCTACGCTACCCTATCCCCCGGATATGTCGTTCCATCTAGA
AATGCCTTCCAACCCAACCATGGGGGATGATGAAGCACCTCGCTCAGGTG
CCGATGCACATGAGCTCATTCCAATCCCCTCGAGGTCATTCTCTCGTTTC
TGGCTGCTTAGGGTCTGCTCTCTCACAAGCTCTCTCGCGCTTACAAGCTG
ACTCTTCTCAAGCATCAAAACCCCTCCTCATTCACATCTACGAAAGGACT
TCGCCTGACGGCGTACTGGATCAAGGGAGAAGGGAGGTATCAACATCTGA
CAGATTAACACCAAGCCAACTTTCATCCTATCGGCTATCGGCTCCCTTTC
GGCTATCGGCTCCCAAATACGACGTAGTTCAAGGGCTGGCTCCCTTTCGG
CTCAGTTCAACACCACGGTGATCTCATTCCGGTCGAGGAGACAATCAATA
CTGTAGTTAGTCCCTTGACGCGCGAGATCAGAATACAGTAGGGGAGTATC
AAACGGCGTCGAGCAGCAATATCATTATTGCGGAGGGTAAAGTGCACCTG
GTGTCTGTGAGCTACAGTACCTCCTTGTAGATCCTTGAGCGTTATCCTTT
CGTTGTCCTTTCCTCCACGTTCATCATCTCTACTTGAATCATCTCTTGGC
ACCCAGGAGACAGTCGAGATGATGTGTGTTCGCTTTCCAACCGACATGGC
AACATGTCATGGTGTCTACGTGTCTCGGTGGAAGGCAGAGGTGCTGGGGC
ATAGAGTAGTGATGGTTCGCGATGGAGCCATTGCTCTGTGCCCACGTGAA
GAAATACACACGACGGTAGCGGCTTTCCGACCGCAGTAAATCGAACACCA
CGAAGGAGGAAGGAGTGCTATCTTGTTTCTGCAAGATTTACGGAAAAGGG
CAGGACTAGCAGGCGCACGACAGAATTCTCGAGAGCATGCACAGGATCAG
ATTCTTATGAAGATGGTGCCATGCATGTAAGCCAGCCAGGGGCCGTTTAA
TTGACGGGTTGGGTTAGGCGTAGGGTGCCACCGCCAATTGGAAACCGCTA
TACTTTATCCAAGATATAAAATGCTTGGGCTCCGCCGAACTGACGGTTTT
GTTCATACAAAACTAGCCCATTGGTCATGCTTGGCCATGCTTGGTCCGCC
GAACTGACGTTCTTCACCTTCCTGACAAATATGTCGAATATGATAAACAC
GTTAGCATTAGGCCAGCAGGGAAGGGCCCAAAAAATGTGGACAAAAAAAA
TAGAACCGGCCTGCACTCCTGCGGGGATTCTTTGCGCTGCGCCCCTGAAG
CGATACATGCTGTCGGTCGGTATATGATATATGGTATATGATGCGGCCTA
GAGTGGTGCGGCCCGAAAAATCTCCCCAAGTCCCCGCAGAAGCGCTTGTT
ATAAAGTTTTGGTCCACAAATTATTTTGGGCCCTTGTAAGAACCGGCCCT
ACCACACGGTAATGATGATGATGATGATGATGATCCGGTTTTGACATGAC
TGTCAAAAGCCTTGTTCGTTTGTTCGTTTGCCTGCCAGCCGGTGATCCAT
AGATTCTTCATCCACCACTATCTTCCCACGACGACGGTACTATTAATATT
AATATGAATATTCCTACTCCAAACCTTAATAAAATAGGACTTTGATTGGC
TTCATATTAAATCCAAGTAGCTAGTGGGTTAAAGAAGCGGTTTTTTTCGA
TGTGAAGTATTGGAGGGTAGCGCAGGAGACGGCGACAGGGGGGGGGGTTA
TGTCCCATGTTTTGACCGTCATCTCATAGTCAATTCGATCGACATGGACA
TGGACATGGACATGGACTGGACTTCAAATCATAACATTATGGATATCGCA
CAAACTCACTTGAATTTAATATACTAGCAACCAAAGATCCATCGTGTTGG
GATTGAAAGTACCACGGTGTGATGGTTCTTCGGGTGTTCAACTCGTACTG
TAGCAGGATGTCTTTTTGGTTGGATGCATACTAAATTCAAGTAAATAGTG
TAGCTTTCATTTCCACTTTGTTACGATTTGGATTCGAAATTACTGTACTA
CTGCTGTGCAGTAGGCAGGCGCGTAACTGACAATCACGAAGAGTAGGTCA
TACAGGTGTGAACACAGGAAGTGGAGTGAAGTGGAGTGAAGTGTTCATAT
ATGCCGGTATTTGTGCTCTATAGTAGAAGCTTCGTTGATCGGCTGTCTGA
GGAACTCTCGTTGATCCGCGACAGATCTGTTACACGGATTGCGAACAGAT
GCGTTATGTATATATATATATATATAAATTTTAGCCTCGTGGAAAAGGAG
GCGTTTTGCTTTTAGGGGGAAACCCGGAGAGGTCACGGTGGAGTGCTGCT
TCACTGCCAAGTGCGGCACCGATGAGGTGAAGTCGCGGTACCGAGGAGGG
ACTGCAGCACACATCCTGGAGCATGCTGCTGACACGCTTGAATCTAGTGT
TGCGACGTCAACCCTGCAAAGCTCTCGTCTATTGTCGTCTTCGTGTTCCA
CCGTAGAGTTGAGTTGAGTTGGTCTGCTGCCTCGAACCTACCTCCCACGA
GACGAGATGCACTAGATACAGTACAGCGGGGGGAGGGGAGCAATAAAAAA
ATGGCTCTACGCCCTTTATACTTGGATTTAGTGTGTGAACAAGCAAAGAG
TCATTTTTTTATTGCTCCCCTCCCCCCACCATCATGCCTATTTGAGCGTG
TCTCATCCATCATGTCTACAGCATTGACTCATCCATCACTGACTCATCCC
GTGCCCTGTAGTGCTCCTCGCCTAGCTCCATGTCTATTCCTGAGCGATCG
GGCCCGAAGAACATGATGCAGTAGAGTACAATACTGCAGTTCCAATCGCA
ACCAGTTGGACCTCGTGCAATTGAATTGCACCGCAAATGCAGCGAGTGGA
ATCCAACTGTCCGTGCTCGTGCCCGTGCGAGTGTGAGGGAGGGACGGGGG
GAGGGAGGGAGGGTCAAGGACCGGACTTCCAGTCGGAACAAAATGGATCT
CAGGTACTGTACTCCGCACACCCGAAGCAAGTACAGTAGAGGGGTCCAGA
TAGGACCGCCCGGTTACGGCCTTAACTCGGAAAATAGGCGAACGCGACAG
GTACGATCAATTCATGAGCGCGGCAAGTAACCACAACTCCCTCTTCCGAC
TATTCCTGTACAGTAGTACAGTACAGTACAGTACTGTAGTGTAGTGTAGT
TTCATTTGCACCTGCTCATGAAACCGCTTGCTCAACGGTGCGGATGAGCA
TTGCATCCGAAACCAGGGGATGGCTCCATTTCCTCTTTTTGTGCTACCGT
GATCTGGCCCAAACTCAATACCACGCGCTACTTCGGGCGGTCCTATCTGG
ACCCCTCAACTGTACTGTAATTAGTGTGACGATCCATTTTTTAATTCCTT
TCAACGACTGTATGCAGCTAAGTCAAGACAGCTAAGCTGAGCTAAGCTGA
GCTAAGGCGAGCTAAGGCGATGACATGAGATGAGATGTCCGTGTCTTCAC
GGGAGGAAAAAAATTACCATCTCCTGTACAATGGAGGGAGCGATTAAAAA
CTGGCTCTTTGCTTGATCACACACTAAATCCAAGTAAAAAGGTCATAGAG
TCATTTTTTATTGCTACCCCTGCTGTAGAAGAACATTTAACATTTAATAG
ACAACAGACAACAACATTGGAGTATACTGCGAGCTCTTCGTGAGAGGTAA
TCATATCCTCGAGTTTGTTTGGCTGATGTTCCACCGTTACCCGATCAATG
GCGCTCATTTTATGGTTCTCGTTTAAGACACGGCCTGAAGAAAGATGCAG
TGCAGTGCACGCTTGTTGTAATGATTTGAAGCAATAATGTAGTGTTGAGT
GTTGAGTGTCGAGTGTCGATCGAGTCGGAGGAACAGTAAGAAAAAAAAAA
GAAGGGCCCTTGACCCCATCTATGTTGTCTACTTGTATGTAGTGTACGAC
CAACGTAGATTTCAACTACTGTACTACCGTACTGCAGTGTCGTGTAGTTT
AGTGTGTAGTGTAGTAGAGTGTAGTGTAGTGTAGTGTAGTGTACAGAGTG
TAGAGTCGTTCAAAGAATGGCAAACGGGATCTTGACACGAATCACTTGTT
TTTGAGTATGCGGAGTACCCCCCAAGTTCCATTTTGTTTCCATTTCGACG
TACAGTGGTTGTTACTATTAAAAAATTGAAGATTCGCTGTAAAATGGAGC
CGAGCTTTCGTTTTTTTTTGTTTCAAGTACTGAACTAGTAATAGGCATGC
TCTAGGCTCTATGCCCTATGCTCTAGGCTCTAGGCTCTAGGCTCTATGGT
GTACTACAGTACAGTACAGTAATAGTAGGGTTAGTATAAGTAGTACAAGT
AGTACCGTGGTTGAAACGGTAAAAAAGTGAATCTTGGGCTTGGGGAGCAA
GCCAAGCCACGCCAAGCCCATTGCTTTCAATTAGCATGAAGGAAGAGGTT
GACCAAACTTCATTTGGTTTACAATACAAGTACTATCTATAGATTTACAA
ACTACTCGCACTACTTCAGATGGGAACAAAAAAGCCCTTCGACTGGCTAT
CATTATCATACACCAGTTTCAACAAGAATAAAAAGGATATTTGGATGACT
ATCATTATCATTATCATTATCATTGTCATTATCCATACTCAATCCAAGTA
TAGGCATTATCCATACTCAATCCAAATCAAAAGGTGGAAGATACATTTTG
TTCTTATTGAAAGTGCTGTACTTCATCCAAGTATAGTACAGTGCATGCAG
TGCAGTACAGTATGGTCGATCGCCAGAGATGGGAAATATGCGATCGACAT
CATTTTGTTACGATTTGAATGCTTGTACAGTCGAACCTCCAGATTAAGAC
ACCCATGGGACGTGCCTCTATCTAGAAGGTGCCTTAATCTAGCCAAGGGA
TGGCCAAGTAGTTTCGGAATGAAACACAGCAAACTACCACACATCCTACC
TCTGTATAGTGCGATCTTCTTGCCGCACAGGTATACCTACCATTGATATT
CATGTTATGTCATGAATTTCTGTATCATCGAAACCCAGGGGGAGCTGAAA
TTCCTCGGGCTAGTACGAACCTTGGGGGTGCCTTAATCCGGAGGGGACCC
TAATGAGGGGGTGTCTTAATCTGGAGGTTCGACTGTACCATGGTCCCTTC
ATAAGTATGGTACATTTCATGTTGGTAGATTTGGTCGTATCTCTGGGCTT
CACAGACTGTTAGGACATGTTAGTACATGTTAGGACTGTATGTATCTTTC
GTTCTTGCAATTACTTAGTCCTACTTGAGAAAGAGGTCCATTTTGTACTG
TACACTAAGCACCGTAAGTACAGTACATGGATGAAGGTCGAAGGTTCATC
TCGTTACTGTACGATGTGTGAAGTTACAGGGGCGATGAGCGATGTATGGT
TCAGGCAGGACGGGTTTGCGCGATTCGTGGTGCGCCATCTCTTGGCTGAC
CCTGACCCTGACCCTGACCCTGACTCGTATCCGCGCGCACGTGGTAGCCT
CGACTTTGAGAGCTTGCGCGCGTTAAACAATCCCTTGTATAGCATACAGT
AGTGCTCACGGGTGTCACGGAAACTGTACAGTACAGTACAGTACTGTACT
GTACAGTGCACGAGGGGAAAAAAGCAGTCTAAATCTGGCCCCAAAAAATG
GTGAGCAAAATTTTGAGGCCAGATTTGGACTGTTTAATCTTTATTTTTAT
GTTTATTAACCGTTAAGACGCCCGGGTTGGGTTCGTTCTCATTAAAATCA
AGATAAAATCGAACTACGGCGTCTGAAGGGTTAATGTACATCCGATTTGG
ACCATCCTCGTGAGCAATTTTGTGGGGCCAGGTTTGGATTGTTTTTTTTT
CCTCACGTACTCCGTTACACTACACCCTTGTGCACTACACTACACTACAC
TACACCACATACACCCTTGAGCACTACTGTTACGCAGTAGTCTTTCGGCA
CAGTGCACGTGTGCCTCCGTTTTTTGTTTTTGTTTTTTCCGAAACTCTTG
GGATTCGATTCGATTTGAAGCAAGTTCCTGTGCCATGCCATGCCCTCGTG
CTCTGCCTCGTGGAGAACTCCGAGGCACGATCCTCTGACGGAGATATGGC
ACAGGCATGGCTTTGACAGGAACACCAAAACCTGCAGAGAAAACCGTACT
GTTTTGAAGTGGTGAAAAGTCGAAAACTGTACTGTTTTGAAGTGTCACAG
TGTCACAGTGGAGTGGACGATGGTGAACGTAAAAGGTAGGTTTGGAACAC
AACTCAAGTGTATGATGGTGAAGGCGAAAAGCATGGAGAATTGCTGTACA
GTAGTGTTCGATTTGAGTGTTCTTCTACACTTGCTGAAATGACAACACAA
TGGATCTTGGGTTGTCCGCATACTCAAAACAAGTAATGTTATCAAGACCC
AATTTTTAATGCTTTCAAAGACTATACAGGTCTTGATCGAGTGGCTTCAT
GGCTTCGAGTCCAGCGCAACTCAGTTCTGGCCTAAACTTCGCTCGTGGCG
CGCTGAATCGACTTTACCGAATACGCGTGCCCAGGGGTCGTGCTGAAGAC
CACCTTACAGTTACGGATGTATGGCACTTCGGTCAAGTGTCACCCTGCAG
CTTCCTTTCGAACCGAAACTTGTCTGTGCGGTGCAGTGACGTACGTAAGA
CACAACGCACGCCAACATCTTTCGAACCCACTTGATAGGCTTCCTCTTGT
CTTATGCTTGTTTTAGAGAATACACTACACTACAATACACTACACTACAA
TACACTACACTACACCAAACTACAGCACAAGACTTCCAATCGTTAAGAAA
GGGCTCTTGAACGCAATCGCTGTCCTTTTTTCAAGTTAGGCTTAGAAAAA
TCAAAGAAGCATTCAATGGCGGTTTCAGCAGTTGTAGTGGGGGCTGAAGT
GCTACTAGCACGGAGTGACCGTCCTCAGAAGGCTTCGTCCTGGTCGGTAG
GCTCCGGCGATCATGCAAGTCAGGTCCTGCCTGCCCTTCGCTAGCATCTC
GCGTCCTGCAGGTCAGGTCCCTGCTCCGCATCGCATCGCATATCGATCAA
GCTTGTGCTTGATACACTACAGCTGTTGTTGCTCCTGCTGTGGTATTGAA
GTTTTGCTCAGGAAGTACACATCGGCACGCCGTCCCTGGGAGGTCGTTGT
AGCCCTGGTATCTCTCGTGCAAGGGTAGGCGTTCAGAGTACGGGACAAGG
GTATCGAGCAGCGCTGACGTTGGAATGGCTCAAGCGGCCCAGTGGCCTCC
ATGGACGAAGGGCAGTTCAGTTTTGCTGTGCTCGTTATTCACCGTGAGTC
ATAGACTACCACTACATGAACACCAGTCACAGCTACAGTACCAGCTGGGT
TGACCAAGTGATGGACAAACCTACGACCTTTCCAAGCACAAGCACATCTC
AAGCAGTAAGGAGCTAGAACGATCGAGGAAAAGACGTCTGTCTCTGTTAT
CACCTCATATTCCTCTCTGCACCCATCCTTGCGAGATTCCGATGGACAGC
CTCCACATGCACATGTTGCCAGAAAGGTATGTAGGTATCCTCAATTATTG
GCAATAGGCTTGGGCGACGACTCAGTTAGGCCGCGTTTGAGGCTGATTTT
TTTCCTGCTTCCTGGTGGTGAGATTGAAGTATATCTTGCTATTCTCCATG
GATTCTGAAGTTGTGTACTGTACCACTTGAATTTAAAATACTTTTCACCT
TGAGAGGTTATCACGCCGTACCTGACCAAATAATTTGAGTTCCAAGCTGA
GCGTTTGGGATATCGTTGCCACTGTAACCAGGTGATGGTCGATACTATAC
TCGATACTTGGTTCAGTGCGTGATTCGCTGTCCTTCAAAAGTTACACGAT
GTTTTGATTGATACTTGAATTTAGTATAGTTCCGGGTTTGGGCTTGGCTT
TGGAAGGAAGTCACGCCATGCAGCACCCAAATCTTTGATGTTTGAGCTGA
AATTTGCTCCATTTGGCGCATACAACAAAAGTAAACATAAAAAAAAACTC
AAGACGTTGCCTGTTCGATATTTTCCGTTTTTCTCAAATGATTAACCCAT
TTCTACAAAAATACACAACACAACACAACACATTAATTAGTATCGAATTG
GCCCCAAGTCACTTAAACTCACAGAAATTCAAAGACCAAGGCAGTGCAGG
TCTTGAATGTGTTGAAGGTGTTGAAGGTGTTGAAGGTGTTGAAGGTGTTG
AAGGTGTTGGCCTCTGAAACGTCTAAGAAACTAAACATGGTGTTCCTCGA
AGTCCCGACGTCTTAAATTTTCATGACATAACTCGAAGTATTAAGTATTA
AGTATTGAATGCTGCGTGGGTGAAATATTGAAGTATCCCTTGCTTGGCTG
GCCCAGCTGCTGCTGGTGGTGGGCATAGTTCTTCATTGGTTCTTCAACGT
TTTATCTTGAATTAGTCTTGACCTCCTCAAATATCCATTAGTATTAATGT
TGGAGAGCCAATGAAGAGCCGTGTCCACTACAGTTCTGTATCTACAATAT
CTACAATATTATCATACTGTAGATTGCATTGAACTGTCATTATGTCGTGG
GCAGCTTTGCACCTAACCACGCTTTGCACTTCTGTTATTTCGCTGTCCGT
CGCAAGGGTCCTTCGTTGATTTCCGGTTGGAGAGACTGTGCGTATGTCGT
TAAGGTTACCCTACCTAACAAAACCTTAGCTCTTCTAGGGCTGGACCCAA
CAGGCAGGCAGGGTGTTGGGTTTATTATTATCCCGACGTAACATCCAATA
TTCTTATTATCCAATCATCTACGGAGCAAGAAAGACCACGAGGTGGTGTG
GGTAAATGGTCCGTGATACATATTTTCTAGTCGTTCAATACACTCGTTGA
ATGCGTTGATACACACCACCACCACCTTGTGGTCTGTCTTGCTGCCTTTC
TTGTTTCGTAGATGTATTGGATGTTAGGGTTACAGTTCCTCGGGTTAGGG
TTAGGGTTAGGGTTAGATAATAATAGACTCAACTCTGTCGGCCCCCATTT
GTTGGGTTCTGCCAGCGTGAGTTCGAATCTCATCGTCGACGCCATTTGTT
GATACCTCCTTCTTTCCGTTGATCCAGTATGCCGTTGATCCAGGCTCGAT
GTCAAGCTCCCCGAGATGAAGTCTGGTGTTTTACCAGATCCAGTATTCCG
GAAGGCGAAGTCCTTTCGTAGATGTGAATGAGGATGGATTTGTCCCTTGA
GAAGAGTCAGCTCGTAAGCGCGAGAGAGCTTGTGAGAAAGTGTAGACCCT
GAGCAGCCGGAAATGAGAGAATGACCTCGAGAGGATTGGCTGAGCTCATA
TGCATCGGCACCGGAGCGAGGTGCTTCATCATCCCCATGGTTGGGTTAGA
AGGCGTTTCTAGATTGAACGAGATATCCGGGGGATAGGGTAGCGTAGCTA
CACGTGTCTCTAACGCGTATCCACGTTAGTCCGATGTGATAGTCGTATCT
GATTCTGAGATGCTTCCTCGTGGATGGTAAACTTCCGAAAAGGTCGTGTA
CGCCCCTGACGCCTTAATCTGAGTACACATGACGTAGTAACCTCTACTAC
TATGGCGCCAGGCTAGTCTAGGCCTACACTATGTGCATTGTCTTCGAGAC
TGAGTAGTCAGTGTGTTGATGGAAAGCATTCCCCATACTAGGCATCCACA
AATGCAGTCATATGGAGATGATCGCTCATCGCTCATCGTTGTGGTGCATG
CCTTCTCCTGTCTCCTGTCTCCTGTCTCCTGTCTCCTGTCTCTTGTCTCC
TGTCTCCTGTCTACACCTTCCGTATTGTTTCAACCGTCTCCTGTCTCCTG
ATGTTCGATCTCCCTCCACCTTCGATCTCCCCCTGACGGTTGACACGACC
CCACGGTACAACCAGCAGAAGTCGCGCTCACGCGATCTGTCGAGAAGATT
GTCTGCGGACAGACGGACCCGACGAGAGCTTGTGGTGGAGGCTCTTCGCC
ACCTTGTCATGTTTTCGTCTTGTTGGATATTTCCCGGCGAGATTCGAGAT
TCTTGTTGGATATTTCCCCAATGAAAGACTCCTCTAGTCTGTCCCCACGA
TGCATCATCAAGTGCGGCAACGCCGGCTTCTCGCTCCTGAAGTCGGGCAG
GTTGTCAAATGCTGTCTGTGTCTAGCTCGTCTCGTCTGAGCCGCCGTCTC
TTCGAGGCCGATGCCTCATCGACGAGCAAACCACGTCCCCCGAACAAGGC
TCCGCGCAATATTTCTGTTGACATTGTGGTCGTAGCAGTAACATCACTCA
CTCACGGTACTGGTACTGGTACTGTTACTACAGCAGGTTTTGGAATGACA
CCACACTCCCACAGCGTCCGTTCTATCTCGCTGCGGATGGACCAGCATGA
TGCACAGCTCGCCCATACCAGTGTGAAGATATGTTACCTTATTAGCACTT
AACAGCGGCGGTTGGAGTTCAACCTTCCACCAGATGCTAAAGCTCCCCCA
GCGATCTTGTTGATTAGTTTAGACGCTGCTCACCAACAGTAGGATAGGCT
TGGGTACGCGTATCGAACGCTGGTGTGTGCTGCACGAGACCTCGAGGTAT
CGTCCGTGAGATTCACGCACGAAACGAAAGGGGTTGACGCAGGAGAGGCG
CAATCCACAGCGGGAAGGACGATTTGGCCTAGTCCCAAGAGCATAACTGC
AATCCAAAGTGTGTGTGTGTGTGGGGGGGGGATTGATAGTGGAGGGCGTC
AACGAAACACGTATTTTTGCATGTGCGGAACGTTAACCTTACAGTACTTT
GAATGGCGAGCTAGATACTAAACCCAAGTCGAAAGGTTAACCCTTTTAAC
GCTGAGTTGTGTTTTCAAGATTGTTTTGAATAATAGACTAACCCTCTGAA
CCTTTTCAACCCTTTGGATTCGATCTTTCGATTCGATTGGATCTTGAAAG
GGTTGAAGAGCCGTATTGTTCCGATCGAAAATCGAGGATCCTATTCAGGA
AAATTCTCCGATCGAAAACGGACTCTAGTTAGGAAGGGACCGTGGTATTA
TAGCACAAGAGGAAAACAATAGCCATCCCCTGGGTTTGGATGTGCAACGT
GGGCATACTTTGTAGAGGGTGGAAGTGGTGGGTATTTTATGTTGAGGGCA
GCAATGCAGTATTTTAAGTAATAACAATATAGATGTCGCCCAAAATTACT
TGAATATTATGTACTGCTGACCTAAGATCCCTTGTCTTGGGATTTGAAGC
ACCGTGGTGGGATCTTTCGAAAGGGATTCATATCGTAAAAAAAACCTTTT
TTTTATTGGGTGCATACTAAATTCAAGTTAATGGTTTTCATCTCCATTTT
GTTTCGGTTTGGATCAATTACTGGACACACACACAGACACAGACACAGAC
ACAGGCACAGACACATCGCTCGAAGCTGCTCTTATTTGCCGCGTTCATGG
ATGAAATTATCCTTCCTGGTCCTTCCGCGTTAGAAGATATTCCTAACCCT
AACCCTAACCCTAACCCTAACCCTAAGATACCCTCGTTAGGAAAAAGGAC
AGGGTTTTGCTAAGCAGGATCCTCGGCTGTACTTGTACTGTACATGGCTT
GTGGGACATACACACCAGACACACCGGACACACCAGATAGTCGAAGTTCC
GTCAGGCAGGGTCATGTTATGATCTTCTCCGGACCCGCTCCGCCCCGTGT
ATGCATGCATGTGTGTGTCCAGCAGGAATCAGATCGCACTCGTCGACGAT
CGCTTGGCGCGCTCTTCGCGAAGCTCCGGCCATGGCGCAGGAAGCACGGT
GATCGCGTTGACGACGGCGAGGACGGCAGCGAAGACGCCGGCCGCAAGGG
GACCACGGAAGCCGCGAGGCCTTGGCGGCGACGACGAAGACGAAAGGACG
AGAGTTCTCCGAGAGAGACGTCGTCTTCCTCCGTTCAATTATCCGGAGCA
TCCTTTACGACTGGGAAAAAGTCGTGGGAAGAGACCGAGTCATCGGTCGA
TGGTGCTTCTCGGACGCGATCGGGAGAGCGGCCGAGGCTGCTGAAATGGC
TGTTCCCTTGGGGAAGACGCCGCTCGGGCCGTGGGAACCGTAGTGTCGCA
GAGCTTGGGGGGCCTGTTGATGGGGACGAGCGCTTGCGTCTGTTGAAGCA
GCTGCGGCGGCAGGTGGCTGAGCACCCTAGGGATCTTGAGAGGCGTGCGA
AAGCCGTGGCGCATGAGCTAGACGACGCCACGCTTTCCAGGTGAGCTATA
TTATGGTGGGGGATTGGGCACGGGGGCGCGGAGAGGGAGGAGGAGGGCGG
GCGGGCGGTGTGTTGTCGAGAGTCTGGACCTTTAGTCTGCATGCCAGCGC
TTGGGCCTGAGCATTGTTTCACCCGAGTAAGCCTGGCACAAAGCAACAGG
TAATCGCAGGCGATGAAGGAGGTCAGAGACTTGAAGTCGTGGTCAATTAG
ATCTCTGAATATTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTA
GGGTTAGGTTGACGTATTCAATCGAATTGGCAGCTTGGAACATTGAAATC
TATGTTGGAACAAGCGTATTGTTCCGCATTGAAAGGACTGGTGAGACGTT
AATCGATCGATCGATGGTACCAGTGGCAGAGTACATTACTTTGCAGTGCA
GTACAGTACAGTACAGTACAGTAATTTCTAATCGAAACCGTAACAAAATG
GACATGAAAACTATTCGCTTGAATTCAGTATTCATTCAATCAAAAACACA
TCCTGCTACGAGTTCAATACCCGAAGAAACATCCCACCGCAGTGCTTCAA
ATTCCAACACAATGGATCCCTGGTTGCTAGTACATAAAATCCAAGTAACT
TTGTTCGAGATTCATAATACATAAAATGTTAGGATTTGAAAGTACTGTAA
ATCCTAACATAATGGCACCATTGAAAGCACTGTACTGTACACTATATGGT
CAGACCTCTTTATTAGGTCTGGCGTTTGGTGTGGTTGGGTTTGTACCCCC
TCCAGGTGCAAGAGCTTGCTTTCTCTGCTTGAGTCTCCGTTTTCGCTAAG
TGCTCGTCAGAGCCGTTTTGCACGTTTATGCTCATATGTATATATATGTG
TGTGTGTATCTTGTCGCTGTTTTGTAGCCTAGATCCGAGGGTGAACTGGA
AGCATGATGAGGAAGATAGAGACGAAGATACCGCCTATCTTCCATCTTCC
ATCTTCCATCTTGCTGTGTACTCGATGCGTTTCCCATCTACCCATCTATC
CATCTATCCTACTTCTCCATCGTTCCCCGACTGAACTCTAATAACTACAG
GTTCTTCCACATGGGGCATTGGACGCTAGAGGCGGGGGGCAAGCCGCTTG
TGGAGGCGATCGACAATACCCTGAAATGGAGGGAGAAGGTGAAGCCACAC
CTAATCACGGACAAAGAGGTGAGCCGGCGGACGCTTGGCAGGGAAGGGAA
GGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAA
GGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGGGAAGTCCT
GAGGGCGCCTTGTTAACAGTTGACTCTCATGGGGACTCTCATGGGGACTC
TCATGGGGACTCTCATGGGGACTCTCATGGGGACGATGGACACGAGGCAA
GTCAAGTAGTTCTTCAGCGGGCCGAGCTGGGCGCAGGTGAGTGACGATGA
TCATGATGATCATTGTGGTGTCATTAACGGGCGCGCGTGGGATTGTTCAG
CGTCAGCCAGCACAGATACTGGAGTAGAGAATAGGTTGGATGAAGACAGA
TACGATGGAGCCCCCGGGACGTGATTCTAGAATGGTCTGGAGATAAGTGG
GGTCACAGCGAGTTGGAATGCGACTCAGCCAGCGGAGGCAGGCGCTCGTC
CACTCAGGGGCGAGAGGCTGAAGATTTCCGCGTAGGTTTTACCTGGCATG
ATCTCCTCTCGCGGTACAGCAGTTCAGATCGCTGCAAGAATCATTTTCTT
GACTTTATTGCGGAATTATGATGGTTCACCCTTTAATTTGTTCCGCACCC
CTTTAATGTGCCGTGGAACAAGCTGGTGGGGATAATGGATTTCTCGACCA
CCGTCCCGAAGCGATGGCCCTACCTACTCGATGGCCTCCTGCTGGGTTGG
GGAGGGAGGAGGTTTCCATGGCGTATAATCCACGCGGGATTGAAGGACAA
ATTATCCAAGGGTCTTTGTACGTGTTCTAGCTGCAGTGGTTGGTAAGGGG
TCGCACTCGTTCGGCCCGAGCTCGACATCCGTAATCTGCTGGGTCCTCCT
GATTGATTCACGTCCAAGCTACCTCTGCTTTGAACCCAGTGTAGCTTGCG
TCGGTGGAGCGTGCGAAGGGGTTTTCCTATGGGGAAGGGAGGGGGAGAGG
GGGGCGGGACAAGGGCGGTCAACTGTGTACCCTGCGGATTGTGAGAAATG
AGAGCCGCACAGTCAAAGCGGTAATGTTGCAGGTTTTGTTGTAATGTAGA
TGTTGACGCTAGGCCCAAGGTGCTACAAGGGTGCTCGATGTATCCCATAC
TGTATCATGTGCCGTGCTCGAGCAGGACAGTATGAGATAGACCATGATTG
GCTGGATGGCCTATCCGCTTGGGTAGGTTAGGCTGGTGTACCATGCTCCA
AGGATGGTGGGTGTTCCAAAGTTGCATGATTTGGATGCTTGTATCGGCGA
GAATGTTTATCTTGTCTTGTCTTGTCTACTGCCCCATCTCAAGCACAAGA
CAAGGCATGGATTTGTCTGCATATGCTTTGCGGATCTCGTTCCTATGTGA
CCTATGTGACCTATGTGACCTAGGTGACCTAGGTGTCAAGGCTTGTGGAT
TAAAGAAGCAACGATATGACTCGTGACTCGTGACTCGTGACTCCTCGCTG
TACGAGATGGTATAGTTTGGACCACCCGATTGAGAGTGAAACCTTTGTCT
AGTGCTGGATCGCACGCTTGTCTCCTCATTTCTCTGCTCTCTATGGCGTC
TGTAGATTCTATGTTGCTCTAGCCTTGTCTGATGCAGTCTCCCACGCGAA
GGACTCGGAGCACTTGTGACACGTGAGGGCCTTCATCTCGTCGTGGCGAC
TGCAATCTCGCTGTTGCCGAATGCCCTCAGTGCCGCCGAATGCAGCATTG
CTGTTGTGGTCATAACGACACTGAGAATGATAGTGGTGATGATGATGATG
ATGATGATGATGATGATGATGATGACGATCACGATGAGCGTTGCCTTGAC
GTGTTTCCCCCAGATCATGGAAGAGGCGGCTTGCGGAAAGCTCTACACAC
GAGGTCATGATCGTGAAGGACGAGCTGTCATTTATTACACGCCCGGGAGT
GGGACAAGCCTCGACGTGGAGATGGTGAGATGGAATGCTGCGACGCAACA
CAGAAAACGGACTACGCTGTGCGTTGCGCCCCTCTGTTGATCCTTCTAAT
GCAGAGCTGGGTCTTCTATCCTATTTTTTATTATGGCTAACCCAACCCGG
GGGTCTAAGAGCGTTCCCACCCTGTTGATAACGCCTCCGGGAACCCACCG
TGCCAAATTACAGTCCGAACCGAAAGCCAAATCCACGGTTTAATCCAGCA
ACATACCTCTCGGGCGGCGCAACGGGAGGCAATCCCAGCCGATGTTGCGT
GCTCGTCAGTGGGGGCTTACTTGCCCGGAATGTTGATTTGCTGATGCCAT
CCACGATCCTTTTATAAATCTGTGTAGAGGTAAGCCCGTCGCCAACCGCG
AGACAAGATGTTGGTGTGCCCAGTCACAATCCATACGGGCGGCTCCAAAT
GTTTCCCAGCTTCTAAATGTTCTTTCGGCTCCGTGGGTTGCATGGGGCAT
CGAGCCGACATTATTGGCAAGCGATGCTGATCGGATCACACACGAAGGGC
TTCTTTTCGGATTCGAGAGACAGGCAGATTGTGAGGATGGATTGACGAAT
GGGCGGATAGTATCGAGGAATAGCCATCACCGTCACCGTCACGAGGTGCA
AAAATGCTCGATGAAATGGTGCTGAAACAGCACAAGCACACGTTTTGATC
CACCTGATAGGCCTGGTATTATACCGCTGATCCCTTCATCAAGCAAGCGT
CACCTCTTGTCTTGTATCTTGTGTCTTCATCAATACCGCGTCATCTCTTG
TCTTGTGTCTTGTGTCTTCATCAATCGCCAAGCGCGTGAAGGTGCAGATG
GACGGGGTCCAAAGACTCCTTTGTCCACCGAATCTGTTTCGAAATGCGAA
TACGTCCCGGGCATGCTCCCTTGAGCAGCCAAGTACCAATTGCATCAGAT
TCTTCTTGACATCGGTATCCAATATTGGCTGCCTGTTACGGATTAGTATA
CTTGGAGTATGTGGAGCAGACAGTCGGACTCGTGGAAGCCCAGCGGGATA
AATTTCCAGGTCCGGCCGAAAGTGCTGTCGCTTCCCTGACTGCGCCGTCG
TGGAAGATGCTGCATTGCTCCAAAGGAATCCGAAACAACCTCGGGGTGCA
CAATGCACTCATTCGCCTCTCGAATAGATAGACAGCTCTTCTGCACGCGG
TTGGGCTTCCTAACCGTATATCTGGATGTGTCCCCCGGTGCCAGGGTCTT
AAGCTTCTGTTTTACACGATGGAAAGGGCGGCGGCCTCTTTGCCCGAGCA
CCAGGTGCAGTTCGCCGTTGTCGCTGACTGCTCCGGATTTGGTCCCTCCA
AGGTCCCCCCTCTCACCATGATCAAGGACGCCTTCCTGGTGATGCAACGC
TACTATCCCATGAGGCTGGGCTACGTGATGATCGTCCATGCGAGCAGCCC
GATAAATTTTGTCTGGAAGGTACGCAGTTTGGAGATGTTGTGAAAGCTCC
GCCGTCTCAGTATGTACAGGATAGACTGAGATTGATGCCGCCGTTGCTCC
ACGGCGTCTGTCACGCCAGCTCGCCGGTGTCGAAGGATGAGATAATGATG
GCGTGGGGTAGCGTAGGTAAAGATGTCGAGCACGGCAGCTCGTCGCCTTT
GGAAGCTGGAGAACGCGAAGTATCGAGCGTCCATTCTCGCATGTCTTATC
CATTGAGCTTTTGTGCTGTATTGAGTGATATCGTCGGAGACGGAAGGGGT
CGATTTGCGGACTTCGGGAAGCTTCGGCATCTGTCGATGGATCACACTTG
TGTTATGGGCGTTAAGGGTGTGCTTGGGATACCTGAAATAGATTTAGGGT
GTGCCGTATACTTACTCTACAGGGGTAGGTCTAACCTCAAGGTCTCTGGC
TACTGATGAAACTCCGGCCCGCGTGTGCCGGCGTCGCGTCCTCCCATGTC
TCCCTTCTCGCTCTTTTGCACTCTTTGCCCAGCTAATCTCGACAGTGCTG
CATCCTCGTACGCATGACAAGATCGTGTTCCTCACGCCGAAGGAAGCCGC
GGCGAAGTTGAGTGCGCACATCGACCCCGCGACGATGCCCTCGACCCTGC
CGGGGGGGAAGGATCCCTACCGGTATCATAACGATGGCTACTTCGCAGCG
TAGGACAGCCGGCACACGTAGACGCGGTGCCAGTGATGGCGGAGCTTGCT
CTAGCGCATGACTTCGGCATCGGGAAATCTCCGCCGGTATTGAGAAGCGA
GGTGGATGTGCCTTGCATTATTGCGATGAAGTTAGTTTGAAATTATGCGC
TGGCGATTTTTTTGCACTCTCCTCGTCAATGCGGCGATCATGCCTGGTCC
GAGCAGTCGATGTTGGAGCCCTGTGCGTCGATGCGGCGTGCTCTAGAGGG
GGGTGGCTGGGAGAGTCCCAGGACACCGAACTGTACATTAACGAGCCTGA
AGGTGGGGTTTGTGTAAGATGGAAGGCGACAGCGAACACGCCCGTGGCAT
GACCAATGGGCGTGGACCTTGCGTGTACTAAATAGTTTGAACTTGTTCGG
TGAAGTTCTCTAAGGAGCTCGAAGACATCTGGCTGGCTGGTCCACGGATA
GGTGGACCTGTCGGTACACCTGTCGGTAGATCTGTTTTTCTGGTTTGTGT
CCCTTATCGGTAGACTAGGCGTCTTGCTTGCTGACGCAACGATGACTCCT
CCATTCCCGAGTGTCTGTGATTGTGTTGAACACTGCTTGAGGGATGATGG
TCTTCCTACGTCTCTCAAGAGCACCACAGCATTTTGCTTGTTGGTAACTG
GTAACACATCAGTGCGCTCCTTGTTGTTGGACAGGTTTTTCAGTCTGATT
CCAGGGCAGATTTTGAAGTTGAAAAATGTATGGGCATGCCGAAGGCTTTC
CTGCCAGCTGGGCGAACTGGGCAGGAGGGAACGGTTTTTGTGCAATGAAG
ACGGGGGCTCTGTCCCGATCACGAGCTGTGATTCGCCGACGCCGGTGCGC
AAGGTTGCTGCTGCGACGATCGCGATGCCAGCATAAGAGGACCATTTAGT
CACGTATCACTGAGAATTGGAGCTTCCGATGTCCGCATTGGACGATTTTG
TTGGTGTCAAAAACAGAGTGGAAAATACCAGTAGCCTAGGAAGGC
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Coding sequence (CDS) from alignment at D-dichotoma_M_contig1010:119747..144891-

>mRNA_D-dichotoma_M_contig1010.181.1 ID=mRNA_D-dichotoma_M_contig1010.181.1|Name=mRNA_D-dichotoma_M_contig1010.181.1|organism=Dictyota dichotoma ODC1387m male|type=CDS|length=2802bp|location=Sequence derived from alignment at D-dichotoma_M_contig1010:119747..144891- (Dictyota dichotoma ODC1387m male)
ATGTGTAGGACCAATACAGAGACCAAATCCCAGAATCAAGATGGTAGGAC
TACGGGAAATGCAATATCGAAGGAGGAGACGTCGCAGCGCCCACCACCTC
CCCGAAGGAGATTTTTAATAGGCACGGGAATACTGGGACGGAAGGCTGCT
ATCATAGCAATAGCTGGCGTTTTCACTGCGATAGCAGCAGTCCGTTTGAG
CTCAGATTGCGTCTTGTGGCGGAGAATAGCAGAGGAGGCGGTGCTAGCAG
TCCCTCCCGAGATGTGTAGGACCAATACAGAGACCAAATCCCAGAATCAA
GATGGTAGGACTACGGGAAATGCAATATCGAAGGAGGAGACGTCGCAGCG
CCCACCACCTCCCCGAAGGAGATTTTTAATAGGCACGGGAATACTGGGAC
GGAAGGCTGCTATCATAGCAATAGCTGGCGTTTTCACTGCGATAGCAGCA
GTCCGTTTGAGCTCAGATTGCGTCTTGTGGCGGAGAATAGCAGAGGAGGC
GGTGCTAGCAGTCCCTCCCGAGGAATCAGATCGCACTCGTCGACGATCGC
TTGGCGCGCTCTTCGCGAAGCTCCGGCCATGGCGCAGGAAGCACGGTGAT
CGCGTTGACGACGGCGAGGACGGCAGCGAAGACGCCGGCCGCAAGGGGAC
CACGGAAGCCGCGAGGCCTTGGCGGCGACGACGAAGACGAAAGGACGAGA
GTTCTCCGAGAGAGACGTCGTCTTCCTCCGTTCAATTATCCGGAGCATCC
TTTACGACTGGGAAAAAGTCGTGGGAAGAGACCGAGTCATCGGTCGATGG
TGCTTCTCGGACGCGATCGGGAGAGCGGCCGAGGCTGCTGAAATGGCTGT
TCCCTTGGGGAAGACGCCGCTCGGGCCGTGGGAACCGTAGTGTCGCAGAG
CTTGGGGGGCCTGTTGATGGGGACGAGCGCTTGCGTCTGTTGAAGCAGCT
GCGGCGGCAGGTGGCTGAGCACCCTAGGGATCTTGAGAGGCGTGCGAAAG
CCGTGGCGCATGAGCTAGACGACGCCACGCTTTCCAGGAATCAGATCGCA
CTCGTCGACGATCGCTTGGCGCGCTCTTCGCGAAGCTCCGGCCATGGCGC
AGGAAGCACGGTGATCGCGTTGACGACGGCGAGGACGGCAGCGAAGACGC
CGGCCGCAAGGGGACCACGGAAGCCGCGAGGCCTTGGCGGCGACGACGAA
GACGAAAGGACGAGAGTTCTCCGAGAGAGACGTCGTCTTCCTCCGTTCAA
TTATCCGGAGCATCCTTTACGACTGGGAAAAAGTCGTGGGAAGAGACCGA
GTCATCGGTCGATGGTGCTTCTCGGACGCGATCGGGAGAGCGGCCGAGGC
TGCTGAAATGGCTGTTCCCTTGGGGAAGACGCCGCTCGGGCCGTGGGAAC
CGTAGTGTCGCAGAGCTTGGGGGGCCTGTTGATGGGGACGAGCGCTTGCG
TCTGTTGAAGCAGCTGCGGCGGCAGGTGGCTGAGCACCCTAGGGATCTTG
AGAGGCGTGCGAAAGCCGTGGCGCATGAGCTAGACGACGCCACGCTTTCC
AGGTTCTTCCACATGGGGCATTGGACGCTAGAGGCGGGGGGCAAGCCGCT
TGTGGAGGCGATCGACAATACCCTGAAATGGAGGGAGAAGGTGAAGCCAC
ACCTAATCACGGACAAAGAGGTTCTTCCACATGGGGCATTGGACGCTAGA
GGCGGGGGGCAAGCCGCTTGTGGAGGCGATCGACAATACCCTGAAATGGA
GGGAGAAGGTGAAGCCACACCTAATCACGGACAAAGAGATCATGGAAGAG
GCGGCTTGCGGAAAGCTCTACACACGAGGTCATGATCGTGAAGGACGAGC
TGTCATTTATTACACGCCCGGGAGTGGGACAAGCCTCGACGTGGAGATGA
TCATGGAAGAGGCGGCTTGCGGAAAGCTCTACACACGAGGTCATGATCGT
GAAGGACGAGCTGTCATTTATTACACGCCCGGGAGTGGGACAAGCCTCGA
CGTGGAGATGGGTCTTAAGCTTCTGTTTTACACGATGGAAAGGGCGGCGG
CCTCTTTGCCCGAGCACCAGGTGCAGTTCGCCGTTGTCGCTGACTGCTCC
GGATTTGGTCCCTCCAAGGTCCCCCCTCTCACCATGATCAAGGACGCCTT
CCTGGTGATGCAACGCTACTATCCCATGAGGCTGGGCTACGTGATGATCG
TCCATGCGAGCAGCCCGATAAATTTTGTCTGGAAGGGTCTTAAGCTTCTG
TTTTACACGATGGAAAGGGCGGCGGCCTCTTTGCCCGAGCACCAGGTGCA
GTTCGCCGTTGTCGCTGACTGCTCCGGATTTGGTCCCTCCAAGGTCCCCC
CTCTCACCATGATCAAGGACGCCTTCCTGGTGATGCAACGCTACTATCCC
ATGAGGCTGGGCTACGTGATGATCGTCCATGCGAGCAGCCCGATAAATTT
TGTCTGGAAGCTAATCTCGACAGTGCTGCATCCTCGTACGCATGACAAGA
TCGTGTTCCTCACGCCGAAGGAAGCCGCGGCGAAGTTGAGTGCGCACATC
GACCCCGCGACGATGCCCTCGACCCTGCCGGGGGGGAAGGATCCCTACCG
GTATCATAACGATGGCTACTTCGCAGCGTAGCTAATCTCGACAGTGCTGC
ATCCTCGTACGCATGACAAGATCGTGTTCCTCACGCCGAAGGAAGCCGCG
GCGAAGTTGAGTGCGCACATCGACCCCGCGACGATGCCCTCGACCCTGCC
GGGGGGGAAGGATCCCTACCGGTATCATAACGATGGCTACTTCGCAGCGT
AG
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