mRNA_D-dichotoma_M_contig100.76.1 (mRNA) Dictyota dichotoma ODC1387m male

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

Overview


Name	mRNA_D-dichotoma_M_contig100.76.1
Unique Name	mRNA_D-dichotoma_M_contig100.76.1
Type	mRNA
Organism	Dictyota dichotoma ODC1387m male (Dictyota dichotoma ODC1387m male)

Homology

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: D7FS05_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FS05_ECTSI)

HSP 1 Score: 205 bits (522), Expect = 1.240e-58
Identity = 130/225 (57.78%), Postives = 158/225 (70.22%), Query Frame = 3

Query:   81 AFNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSGATEES--LEEFRPELLERWRARVGEEEKEKEAAKEARQKELDSKMEEERRQVQEADALRRAKAERVTHRTEEEQRERARLLGEYGYDSDPVDEDGNPLPAEEG-EGVEGASAADSLGEELGRNTNKERVQQELNVKRDALKKGHQSRVLRDKMALEADKMKKEVAKNARKTQKGERR 746
            +F++WL++KLDALGLDAEV+ GYVTGIM  EDNP++ERI+SV EILSGA EE   L EFR  L ERW  +V  EEKEKEAAK A+QKE+DSK                         + EEQ ERARLLGEYGYDSDPVDE+GNPLP EEG +G  G+SA            NKERV++E+  KR+A+KK H +  L++K+ALEADKM+KE+AKNARKT KGER+
Sbjct:    9 SFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIESVIEILSGAAEEDNDLGEFRSALNERWDMKVEHEEKEKEAAKAAKQKEMDSKKXXXXXXXXXXXXXXXXXXXXXXXXSAEEQAERARLLGEYGYDSDPVDEEGNPLPPEEGGDGEGGSSAXXXXXXXXXXXLNKERVREEVAAKREAIKKTHHATALQNKIALEADKMRKEMAKNARKTTKGERK 233

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: A0A7S2WBQ4_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WBQ4_9STRA)

HSP 1 Score: 86.3 bits (212), Expect = 2.370e-15
Identity = 72/199 (36.18%), Postives = 106/199 (53.27%), Query Frame = 3

Query:   78 EAFNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSGATEESLE---EFRPELLERWRARVGEEEKEKEAAKEARQKELDSKMEEERRQVQEADAL--RRAKAERVTHRTEEEQRERARLLGEYGYDSDPVDEDGNPLPAEEGEGVEGASAADSLGEE----LGRNTNKERVQQELNVKRDALKKGH 647
            E F +WL  KL+A GLD E+++ YVTGI+  E    + R +SV +ILSGA EE  E    F  +L  +W ARV ++     AA +A +K         R     A     +R +  +    T EE++ER R+L +YG+ SD VDEDGN + +        ASA+ S  ++    +G+NTN+ RV++    KR A +  H
Sbjct:   13 EGFETWLALKLEACGLDTEIYSEYVTGILADESEDMEARAESVIDILSGALEEGTELEDTFASDLAAQWEARVSQQTST--AASDAAEKXXXXXXXXXRDLALAAXXXEQKRLQLAKQNEMTREERKERNRILDQYGFASDVVDEDGNVIAS--------ASASSSAAQDDMSGIGQNTNRTRVKEAEQAKRVAARASH 201

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: UPI001455A695 (coiled-coil domain-containing protein 43-like n=1 Tax=Asterias rubens TaxID=7604 RepID=UPI001455A695)

HSP 1 Score: 58.9 bits (141), Expect = 3.740e-6
Identity = 28/64 (43.75%), Postives = 46/64 (71.88%), Query Frame = 3

Query:   84 FNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSGATEESLEEFRPELLERW 275
            F  WL ++L A+ +D EVF  Y+ GI+E +D+ +D++ +++  ILSG TEES+EE   E+L++W
Sbjct:   11 FEDWLSKRLKAINIDDEVFGSYIYGIVE-DDSTDDDKTEALMGILSGITEESVEETCQEILKQW 73

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: UPI001AAD387E (coiled-coil domain-containing protein 43 n=1 Tax=Rana temporaria TaxID=8407 RepID=UPI001AAD387E)

HSP 1 Score: 57.8 bits (138), Expect = 8.940e-6
Identity = 60/193 (31.09%), Postives = 99/193 (51.30%), Query Frame = 3

Query:   84 FNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSGATEE-SLEEFRPELLERWRARVGEEEKEKEAAKEARQKELDSKMEEERRQVQEADALRRAKAERVTHR---TEEEQRERARLLGEYGYDSDPVDEDGNPLPAEEGEGVEGASAADSLGEELGRNTNKERVQQELNVKRDALKKGHQ 650
            F SWL  +L+ALG+D EV+  Y+ G++  EDNPE ER +++  IL+   EE S+E+   E++ +W               EA++ EL    +E+  +V+   ++   +A+ V      +E EQR +A LL +Y   +D  DED       E E V  +  A +  + L +NTN E +      +RD +++  Q
Sbjct:   13 FGSWLDCRLEALGMDPEVYPAYIQGVLREEDNPE-ERDEALRGILAAFLEEDSIEDVCLEIITKW--------------SEAQKLELAQAKQED--EVEALTSMMGKQAQIVVKPKEVSEGEQRRKAALLAQYANVTDDEDED-------EAEVVTSSMGAHNAEKSLFKNTNLEDIVNAKKQERDTMREASQ 181

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: B4LV14_DROVI (Coiled-coil domain-containing protein 43 n=7 Tax=Drosophila TaxID=7215 RepID=B4LV14_DROVI)

HSP 1 Score: 57.0 bits (136), Expect = 1.430e-5
Identity = 65/224 (29.02%), Postives = 101/224 (45.09%), Query Frame = 3

Query:   75 MEAFNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSGATEESLEEFRPELLERWRARVGEEEKEKEAAKEARQKELDSKMEEERRQVQEADALRRAKAERVTHRTEEEQRERARLLGEYGYDSDPVDEDGNPLPAEEGEGVEGASAADSLGEELGRNTNKERVQQELNVKRDALKKGHQSRVLRDKMALEADKMKKEVAKNARKTQKGERR 746
            M  F +WL ++L  L  D  VF  Y+ GI+E E+  +DE+I+++  ILSG    ++EE    +L++W            +A E  +K LD  +  +  ++ E   L+ A  ER    TEEE R + ++L +Y   +         +  EE E  +G SA  S    +  NTNK  V      KR+  +    ++  +DK                 KT KGERR
Sbjct:    1 MSEFQTWLNDQLRLLNTDESVFGAYIIGILEGEEETQDEKIEALEGILSGTGASNIEELVASILQKWLQSHP-------SADEPPKKGLDIDVNAQLAKLLEQQKLQPAAKEREY--TEEELRIKQQILAQYSQTA---------VSEEENEDTDGESAEPSGSGVMAPNTNKSDVANLAKEKREQARLESAAKKQKDKEDRXXXXXXXXXXXXXXKTVKGERR 206

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: CCD43_MOUSE (Coiled-coil domain-containing protein 43 n=10 Tax=Tetrapoda TaxID=32523 RepID=CCD43_MOUSE)

HSP 1 Score: 55.5 bits (132), Expect = 5.830e-5
Identity = 65/191 (34.03%), Postives = 96/191 (50.26%), Query Frame = 3

Query:   81 AFNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSG-ATEESLEEFRPELLERWRARVGEEEKEKEAAKEARQKELDSKMEEERRQVQEADALRRAKAERVTHR---TEEEQRERARLLGEYGYDSDPVDEDGNPLPAEEGEGVEGASAAD-SLGEELGRNTNKERVQQELNVKRDALK 638
            AF SWL  +L+ALG+D  V+A Y+ G+++ E+  E+E++D++  ILS    EESL +   E++ERW               E R      K E+E   VQ    L   +A+ V      +EEE++ +A LL +Y   +D  DE      A       GAS A+ S    L RNTN E V     ++RD+L+
Sbjct:   19 AFGSWLDGRLEALGVDRAVYAAYILGVLQEEE--EEEKLDALQGILSAFLEEESLLDICKEIVERW--------------SETRDVTTKVKKEDE---VQAIATLIEKQAQIVVKPRVVSEEEKQRKAALLAQYADVTDEEDEADKKDDA-------GASTANVSSDRTLFRNTNVEDVLNARKLERDSLR 183

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: UPI0014255F97 (coiled-coil domain-containing protein 43-like n=1 Tax=Anneissia japonica TaxID=1529436 RepID=UPI0014255F97)

HSP 1 Score: 55.1 bits (131), Expect = 6.800e-5
Identity = 25/65 (38.46%), Postives = 43/65 (66.15%), Query Frame = 3

Query:   84 FNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSGATEESLEEFR-PELLERW 275
            F SWL++ L+ L +D EVF  Y+TGI+E ED  ++E+ +++  ++ G TEE + E    E++ +W
Sbjct:   10 FGSWLVDTLEKLSIDHEVFGTYITGILEAEDISDEEKSEALIGVIGGVTEEEIVETTCKEIISKW 74

[Close]

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Match: Q9CR29-2 (Isoform 2 of Coiled-coil domain-containing protein 43 n=2 Tax=Murinae TaxID=39107 RepID=Q9CR29-2)

HSP 1 Score: 53.9 bits (128), Expect = 9.820e-5
Identity = 29/66 (43.94%), Postives = 46/66 (69.70%), Query Frame = 3

Query:   81 AFNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSG-ATEESLEEFRPELLERW 275
            AF SWL  +L+ALG+D  V+A Y+ G+++ E+  E+E++D++  ILS    EESL +   E++ERW
Sbjct:   19 AFGSWLDGRLEALGVDRAVYAAYILGVLQEEE--EEEKLDALQGILSAFLEEESLLDICKEIVERW 82

The following BLAST results are available for this feature:

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot

BLAST of mRNA_D-dichotoma_M_contig100.76.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 8


Match Name	E-value	Identity	Description
D7FS05_ECTSI	1.240e-58	57.78	Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2...	[more]
A0A7S2WBQ4_9STRA	2.370e-15	36.18	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
UPI001455A695	3.740e-6	43.75	coiled-coil domain-containing protein 43-like n=1 ...	[more]
UPI001AAD387E	8.940e-6	31.09	coiled-coil domain-containing protein 43 n=1 Tax=R...	[more]
B4LV14_DROVI	1.430e-5	29.02	Coiled-coil domain-containing protein 43 n=7 Tax=D...	[more]
CCD43_MOUSE	5.830e-5	34.03	Coiled-coil domain-containing protein 43 n=10 Tax=...	[more]
UPI0014255F97	6.800e-5	38.46	coiled-coil domain-containing protein 43-like n=1 ...	[more]
Q9CR29-2	9.820e-5	43.94	Isoform 2 of Coiled-coil domain-containing protein...	[more]

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
D-dichotoma_M_contig100	contig	D-dichotoma_M_contig100:39077..59973 +

Analyses

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


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
OGS1.0 of Dictyota dichotoma ODC1387m male	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Eukaryota
Seed ortholog score	206.5
Seed ortholog evalue	1.4e-50
Seed eggNOG ortholog	2880.D7FS05
EggNOG OGs	29Y8F@1,2RXTG@2759
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
Hectar predicted targeting category	other localisation
Ec32 ortholog description	hypothetical protein
Ec32 ortholog	Ec-12_006970.1
Exons	6
Model size	1828
Cds size	687
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_D-dichotoma_M_contig100.76.1	prot_D-dichotoma_M_contig100.76.1	Dictyota dichotoma ODC1387m male	polypeptide	D-dichotoma_M_contig100 39151..58906 +

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


Feature Name	Unique Name	Species	Type	Position
1622927475.4200423-UTR-D-dichotoma_M_contig100:39076..39150	1622927475.4200423-UTR-D-dichotoma_M_contig100:39076..39150	Dictyota dichotoma ODC1387m male	UTR	D-dichotoma_M_contig100 39077..39150 +
1690797988.6074152-UTR-D-dichotoma_M_contig100:39076..39150	1690797988.6074152-UTR-D-dichotoma_M_contig100:39076..39150	Dictyota dichotoma ODC1387m male	UTR	D-dichotoma_M_contig100 39077..39150 +
1622927475.524646-UTR-D-dichotoma_M_contig100:58906..59973	1622927475.524646-UTR-D-dichotoma_M_contig100:58906..59973	Dictyota dichotoma ODC1387m male	UTR	D-dichotoma_M_contig100 58907..59973 +
1690797988.7162323-UTR-D-dichotoma_M_contig100:58906..59973	1690797988.7162323-UTR-D-dichotoma_M_contig100:58906..59973	Dictyota dichotoma ODC1387m male	UTR	D-dichotoma_M_contig100 58907..59973 +

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


Feature Name	Unique Name	Species	Type	Position
1622927475.4358428-CDS-D-dichotoma_M_contig100:39150..39210	1622927475.4358428-CDS-D-dichotoma_M_contig100:39150..39210	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 39151..39210 +
1690797988.6285372-CDS-D-dichotoma_M_contig100:39150..39210	1690797988.6285372-CDS-D-dichotoma_M_contig100:39150..39210	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 39151..39210 +
1622927475.4503274-CDS-D-dichotoma_M_contig100:55651..55753	1622927475.4503274-CDS-D-dichotoma_M_contig100:55651..55753	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 55652..55753 +
1690797988.6385725-CDS-D-dichotoma_M_contig100:55651..55753	1690797988.6385725-CDS-D-dichotoma_M_contig100:55651..55753	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 55652..55753 +
1622927475.4628587-CDS-D-dichotoma_M_contig100:56006..56126	1622927475.4628587-CDS-D-dichotoma_M_contig100:56006..56126	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 56007..56126 +
1690797988.652562-CDS-D-dichotoma_M_contig100:56006..56126	1690797988.652562-CDS-D-dichotoma_M_contig100:56006..56126	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 56007..56126 +
1622927475.483161-CDS-D-dichotoma_M_contig100:56882..57074	1622927475.483161-CDS-D-dichotoma_M_contig100:56882..57074	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 56883..57074 +
1690797988.6764889-CDS-D-dichotoma_M_contig100:56882..57074	1690797988.6764889-CDS-D-dichotoma_M_contig100:56882..57074	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 56883..57074 +
1622927475.4973686-CDS-D-dichotoma_M_contig100:57878..57953	1622927475.4973686-CDS-D-dichotoma_M_contig100:57878..57953	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 57879..57953 +
1690797988.688587-CDS-D-dichotoma_M_contig100:57878..57953	1690797988.688587-CDS-D-dichotoma_M_contig100:57878..57953	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 57879..57953 +
1622927475.5118575-CDS-D-dichotoma_M_contig100:58768..58906	1622927475.5118575-CDS-D-dichotoma_M_contig100:58768..58906	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 58769..58906 +
1690797988.7025607-CDS-D-dichotoma_M_contig100:58768..58906	1690797988.7025607-CDS-D-dichotoma_M_contig100:58768..58906	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig100 58769..58906 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at D-dichotoma_M_contig100:39077..59973+
coding sequence from alignment at D-dichotoma_M_contig100:39077..59973+

protein sequence of mRNA_D-dichotoma_M_contig100.76.1

>prot_D-dichotoma_M_contig100.76.1 ID=prot_D-dichotoma_M_contig100.76.1|Name=mRNA_D-dichotoma_M_contig100.76.1|organism=Dictyota dichotoma ODC1387m male|type=polypeptide|length=229bp
MEAFNSWLLEKLDALGLDAEVFAGYVTGIMEHEDNPEDERIDSVCEILSG
ATEESLEEFRPELLERWRARVGEEEKEKEAAKEARQKELDSKMEEERRQV
QEADALRRAKAERVTHRTEEEQRERARLLGEYGYDSDPVDEDGNPLPAEE
GEGVEGASAADSLGEELGRNTNKERVQQELNVKRDALKKGHQSRVLRDKM
ALEADKMKKEVAKNARKTQKGERRSGRG*

mRNA from alignment at D-dichotoma_M_contig100:39077..59973+

Legend: UTRpolypeptideCDS

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

>mRNA_D-dichotoma_M_contig100.76.1 ID=mRNA_D-dichotoma_M_contig100.76.1|Name=mRNA_D-dichotoma_M_contig100.76.1|organism=Dictyota dichotoma ODC1387m male|type=mRNA|length=20897bp|location=Sequence derived from alignment at D-dichotoma_M_contig100:39077..59973+ (Dictyota dichotoma ODC1387m male)
CCTCCCGCTGGCGGGGCCTAGAGAGCCCGAATTGCAAAGCTGTGCCACGA
CCATCGCCAAGAATACCCCAGAGCATGGAGGCATTCAACTCTTGGCTTCT
AGAGAAACTGGATGCGCTTGGGCTTGATGCCGAGGTGGGTACGTGTCCAT
GCTCTTGACAGTACGATTGTCCTTTTACAGATTTCTGCAATATGAGACGA
TGATACCTACTCAGAATCTCCATAAACGCCACTGCGATGTCCAGATGAAG
ACATCACTCTCACACTCTAGACCCTAGGGGCGTATTTTACACTTGAGAAG
GACATCATCTACTCGAGATGAGATAGTTGATGCGATCCAGCATCGGCTGT
GAAGGCGTAACCTGATTGCCTCGCCATGAGTCGGCCGTTGCTCGCAATCT
CCGTCTTCTCCCGCATGTAGAACATCGTAGCCACGACGCTTGGTTCATTT
TCTTCCGAAAATCGGGGTTCCTAGATGATATGCCCGGGTAGAACGCACGA
ATGGTGCCCTGGCCTGAATGTAGCTACATGATCGGCCGACGATCACAGGC
GGGTATTTGTTTCTCCTTCTTGACTATTTAGATCCGTTTTTGCCGTCTTT
CGTCGACCTCGTAAGGGCCTAAACTTGAGCTCAAGGGCACATGGGCAGAG
TATCGATACGCGTGCAACTCTCCTTTCACTATCCAACACACAATATGCAT
CTTTCTCACGTAAATATCATTCCCCCATAAGCCCAGTTTTCGCCCTTCTA
CAGGATAAATATGCGTACGGTACAGTATTTGGAACTTCCAACGCCCGGCG
CCAACATCAATCGTGGAGATGGGATGTCTGCTGCTCTCGCATATGAAGAC
CAGTACAGTACTGAATGCGTACTCTACTGCAGCGTATTGTGCTGTACTCT
ACTTTTCGGAATTCTCACACCTTACCCTTTGGAATGTGAACCAATCTCTC
GTCAACAGCCGTCGACACCTCTGTATGACGCCTGAGCATCGCACGAAGCA
GCGTCCCCCGTTCGCATGATCTTCCTGCTCAGGCGAAATGATATTTCCTC
TGAGTTTCCTCTGCGGATGGCTTGGACGTTTGAACGAATGGAGGGCTAGA
GTTGCGACGCAAATAACGGCGATCACCGATTCCTTTTCTTTCGGATACGC
CATCGTCCAAACGATGGAAACGACGGCCGCTGTGGATCCAAATTTCTTGC
GTCGAGTATCCGATCAACCATATAAATAAAAGTCCGCGATGTTTCTGTTT
CAAATCATTGCTGCTGTACTTCAAACCGTATCCAAACTGACTCCTTATTA
CAGCACAGTAGTTTTAATCGTAATGAACTGCACTTCGAATGGTTACATAC
TAAACCCAAATCAAAAGCCTAACGAGTCATACTTTCACGATGGCAAGTAC
TCTAAAGTGTTTTTTCGAAGTTGTAAATTATAGTTTCATCTATCGTTATC
AGAAACTGAAGGCAACGGAAATTAGATTCGGCGACGTCCTAGTTAACAAG
GTTTAAAACGTGTGTTTGCGAGGCCGGCGATCACAATAACCGTTGCACGC
CAGAATATCACGTGCAAACCCTCGGGTCGATTCCGATCGTAACGGTGCGC
GCGAGCATTGATTCCGAAGAGGAACAGAGGCCGAGACGCACGCAGAAACA
CACGCGCCAACGTTGAGGGAAACACAACGGGGTGAATAGTCGAGGAAAGC
CTGGTTTGCGGCATCGACAGTTCGTCCAGGTGTCGGTGTCGCTGATGTCC
TCAAGACATATGAGACCCGCTCAAACGGACGGAGGCAGGTTCATCCGGTC
TATCCTCATCCGGAAAACCAAGATGCACAACATCGCCGCCGCTTGTCAAC
CAAGGCCATTCTTCTCTGCTTCGTCGCTCCCACTCAGCTCCGCGCATAAG
CCCTGCGGCGATACGTAGGTAGACCTTCCTTCGCACTCGTTCACGGGCAC
TCAATGCGGCGTGCGGAAGGTTCGTCTGCATTTCAAGGCGGATGTGTCGT
CTGTACCGAGCCATCGCAGCTTCTTGTATGCCTGAAATTCCCTGCCGTAA
GAGAGATGATAGCTGGCCTCGTTCCACGTGTAGTCTCTCTGCAGCAAGCG
CTCGCAGGCTGACGGCGCTACAATTTCGTGGCTTCACGGGCTTTCTCTTG
GGCATTTGGGATTATCGCCGGTAGAACTAGCCCAACCTACACCCAACGAC
TTAATCTCACCGCACTCTAGCGAGTTTCAAAAAAATTTCAGATTTTGTTA
GTAAACTTTTGAAGTTTTACAAAAAACACTTTCCGAGCTTCGTTAACTTT
CGTGGTGCCGTCGGTAACGGGGCAACTAGGGTGAATGGTAACCAAAAACG
GAACTAGTTCGCGAACACGCTATTATGCCAAATCCTTAAATCCTGTACCA
CCAGAATACGCACAGGATCAACTATAATTAAAAAAACCCCTTTAACGGTT
ATCATTGCTACCCACAGTAGTGTCAATGATAACAATCGGGCTCTTTTCAC
GGCTACATACTAAATCCAAGTAAAAAAACTAAAGAGCCCGATTGTTATCG
TTGACAGTACTGTAGCTCCAGCATGTTGATAGTGCTAACAGTATCGCGAA
ATGAGGGAGAGAAGAGCAGTAGCCTTCGCAGCCTGCTGGGATTGATACTT
TACATGATATCTTCCAGTGTACAAGAAACATACGGAAACGCCGTATTTTT
TTTAGAAGCTTTGAGAGAGCATCCCGGAAGAGAAAGGAGTGGTAAATGAC
ACTACCAAATCTGAAATATTTGGAAGACTAACACTCGTGCAATATTGGTT
CAATCTTCGTCATTTCATGCTTCGATTATTGACAAACATTTAGAGAAGAG
AACACGATGCACGAAAAAGTAGCGAAATCGCATCCATTTTTGCTGAGTCA
TGGGTAAATTTCTGAGATTTTGCCCCGTAAATTTGGTGTCATTTATTAGG
TTCCACCGTAATAGTAGCGGAGGTAAGGGTTTGGGTTTGGGTTAAGATTA
GGTCTGGGTCATGCGACGCTGATATTCTCATCTCTAGAAAAGCGATCATC
CGTCGGTAGCTTGTGAACGCCGTGGGGTGTGTACCTTCCATGTTGTGTTC
AAGATGTTTTGGGTGGGTGCGGGTGGCGGAGGCGGCTCGAGAAGAGAGCT
GAGCATCCTGAGAACACGTGACGTCACGAACCGAACCAGTTCTTCCTGCC
GCCGACTGGATTGAAAATGCACCCAAAGCATGCCACCATCTCCCTCCTTT
TCCTTTTCCTTTCGTGGTGCACCGCTGGAATGGAACGCGATTGCAGCTGC
TGCTGCTGCTGCTGCTGCTACTGCTGCAGTGCTTTTCCGATGGACCCAGC
AAGGCAAGATTCGGCTAACTCATGGTATACAAAACTCCTAGTACAAACCG
ATTTTGTCCCCCGAATCACCAAGTGATAACTTTTGTTGCCCTCTCCCCTT
CCAAAAAACTTGGGTCTTCAGGCCGGTTCGTATTATAGGCCACAAAAAAA
AGAAAACTATATATAATTACAGTACATGTCTGTGAAAAAGGCAAGGTAGT
GCGGGCTTTTGCACGCCTTATCTGGGTGATTTTGCCATAATCAAGGCATC
CCCGGAAAGCCGGCAGAATACCCAATCTGAAGTCGTTGCCACCAACGGAT
TGCCAAGGTTCGTGGGGTACTTACTGTACAGTACAGTGCGGACCGTTTCT
GCCTGATAGGCAGACATCTACTGTAGTTAGTTGTTCACCCGAGACTATGC
CTCCAGAATTTGTGTCCCCCCCCCGCTCCTGTGCGGTTGGTCTCTCACGA
AAAAAACCGAATTTTTGTGGGAGAGACCGTAGAGAATCGGGGCTGACCCA
AAACTTGAACGCACTATCTCGGGTAGGACAAGAATCTAACTATCTTTGAT
TCATTAAACTGTACAACAGTCTCGCTTTATTTTCGGCTACCACCGGGTAG
AAAGAAGGGTCTGAGATATTTTGTTCGATTTTTCGAGAATCGGTGCGACT
GCGACTGCGGCCCGGGCTGGTTCAGTTCGCACAGGTTCTCAGTTTTTTGT
AGATTTTTTTTTTGTTGTGGGAATAAGAACCGGGGTTACGTATGTACAGC
GGTTGTAACGGTTGAAAAGATTGAGTTTCGAATGGTTGCATAGTATATCC
AAGTGAATTCGGCCTGAACATCCGTTGTTTGCAGTTTCAAATACTGTATT
TACTACGTACAGTGTGGGTGCCTAGTATGGGGAATGAATGCTTTCCATCA
ACACACTGACTACTCAGTCTCGAAGACAATGCACATAATATAGCCTTAGA
CTAGCCTGGCGCCACAGTAGTAGAGAGTACTACGTCAGGTGTACCTCAGA
ATAAGGCGTCAGGGGCGTACACGACCTTGTCGAAGGATCACCATCCACGA
GGAAGCATCTCATAATGAGATACGACTATCACATCGGACTAACGTGGATA
CGCGTTAGGGATACGTGTAGCTACCGCTACCCGATCCCCTGGATATGTCG
TTCAATCTAGAAACGCCTTCCAACCCAACAGTGGGGATGGTGAAGCACCT
CGCTCAGGTGCCGATGCACATGAGCTCAGTCCAATCGCTCTCAAGGTCAT
TCTCTCGTTTCCGGCTGTTTAAGAGTCTGCTCTCTCACAAGCTCTCTCGC
GCTTACGAGCTGGCATTACTAAAGCACCAAACCCCCTCCTCATTCACATC
GAGAAAAGACTCGCCTTACGGAATACTGGATCCGGTAAAACACCAGACTT
CATCTCGGGTAGCTTCACATCTGGGTCAACGGAGAGGAGAGGTATTTCAC
AACAGTGCTTGAAGCAATCAAAAATGAATATTCGAGTTCATTTTAGGGCC
GGAATTAACGGGAAGCAGATTTTTTAATTTTCATTTCATCAAAATCAAAA
TTGGGCCCTGATTGGTCAGCGCCAAAGAACGCCTCCAAAATCGAAGAGGC
GTTCACGACACACATGTTGCGCTTCCCAATCAGGGCCCAATTTTGATTTT
GATGAAATGAAAATGAAAAAAACTGATTCCCGTTAATCCCGGCCCTTACC
GGCATTTACTATGCAGTGGTCGAATCTTCATATTTCATGGTTACAACGAC
TGCACATTTGCACCGGAACGTAATGGGAAAGAACATTCTGGGATTGGAAG
GAGTGGCTTGCAACGATAAGTAAGCACTTCATCAAGCTGCGACTGGCTGC
TCATTTCACCGCACTTCTTGGTTCATCGGGAACTTTTTGTCAGAAGCCAT
CTCGATGAGCTAAGAAATGCAGTGGAATGAGCGGGTGTGTCGTCATCTTA
CCGGAAATTTACGTTGACCAACCAGATTTGGCGCTCCTCGGGTTGCCCTA
ATCGATTATTGTTTGGTTAAGACCGAGCCTTAGTACGATTGCCACCGTTT
TTGTGATTTTGGAGGGAGAGCTCTGAAAATAACTTGGATAATGTATAGTG
TCACTGCCACAGACACCAATTCTCCTCCCAAGTGAGAGTTTTTCATTCGC
GAAGCTCGCTACTATAATGCTCTCTGTCGACGAGCAATACACGGTCATCA
TCATGGTCAACGCATCCCTCCCTCCCTTTTTCAATCATGCCCCATGCTCC
GATACAGTACATGAGCCGACGCGGAAATGTACCGTGCAATGCATCTCTCG
TGGCTTTGCTGAAACATGTGCTACATTTACCCTCAAGAACTTGCTCTTTG
TTCTAAGTTGCGATGACCACAGCGCTGCACGGTGCAATACGGACAACTCT
GACAATGAGGACAGAGGAGGGTCAACTCGTACTTTGGAGGACAAGATTCA
GGTTTTCGTAGTGGGGGGGCATCTCGATGGATATGGATCGTAACTCGAGC
AGATACATGCGGGCAATCCTGGAAGCGTTCGTTTCACCCTTTCGGGCGAT
ACAACTATCGAACTGCCGGCGGTGTCTCGTTAGAGTTGTGAAAGACAAAA
ACGTTTCAATTGTTTTGCGAGATTGATGCACAACTATACACTACAGTAAT
GCATAACTAAGGGGTACATCGGGATTCACACGCGTCATCTAGTAGAGGCT
GTTTAACGCCTTCAAAACTCTTGCGATGAATTGTTAACGTTTGGCACTCT
TCTAGGGTCACATTCGTTTTCATGGGTTTTGAACGAGTCAATGTAACCCA
GATAGTAACCTCTTTTCAAACAGATACATAACCCAAATCGATCCTTGTCC
CTTATACGAACCACATCGTTTCGATATTCATCCTTTAACCATTTTTTTTC
TATCCTATATACATAATAAACCAAGTCGTTTCTCAACAAAACATTGATGA
AGTATTCTACTACCCATACATTCACAGTAGTGAAAGCGTCTAAAATCGGT
ACACCGGGATTACTTTATCCGTAAAACGGTGTACTTTGGCGTCTTGTTGA
TAATCCTTAACCCTTGTAACGCTTAGTTGGGTTTTAGATATTGATTTTTG
TATAGACTAACCCGACCAGGGCGTTTTGAGGGTTAAGTACAACGCGGGAA
CCTCCGATTTCACACAATTTTCACTCTCACGTACATCTTGTGGACTCAAG
CCACCCCCGCCATCAAATATTTTCGCCGAAAACATTCATGCATGCCTCGC
ACAGCCGCCCCTAACTTTGTGCTCTCAAACGGGCACGCCAGTCGTACCGA
ATTAAGCAGAAATGTGGCAAGGTACACCAAGTTTATCCCTTCTTTTAAAA
GTGTACCGGTTCTAGGCGTCGCGTGGTGTCTATACCATCTCTGGGCTAGT
TCGAATCCCCGGCAACAAGCCATCGGACGCTCGTCAGCCATCCTATTGCA
GGCGGAGATCGCTTCCCCTGGACACACGAAAAATGACTCCCTAGGGACGG
TCGGTACAAAACGACCAGACGGAGATCACCGATAACCTACAGTACAACAG
CAGGAATCTACGCACAAACCACGACTCGTCGATATCGTCTGGATGTGGGC
CTGAAGAACCCCTCCGCCCGAACCAGCTCCTCTGCTTCCGAACCGAGACG
ATCTTGGCCATCGGTATTGTACTGTACTTTACTCTGACTGGACTCTTACT
GTTATGTAATGTAATCTACTAAATGTACCCTTTCCCATCTTTCAAGGAGG
ATGTAGCGGACAAGTGCAAGTAGAGCGCAATGGGAACCACTCACCGTGAT
GAAGTTTGTACCATGGAACGGGAGCATTTGCCGGCACCGTTAGTGATTTG
AATTGACACTATACTTGATGAGTTCGCCTTGTTGAGTGAGGGCTAAAGTG
GACTAGAAGTACTCCAGATCACGTTTCGCTGGAAGGGATCAACAGCAACC
AAATACGAACACTCGCCTATCCTTGACGAAGAGCTCTCAGAGTTTACGAA
CTCTGCTCCTTTGTTTTCCACTGCCTACGTTCATCCTTAACACCTATTGG
TATGGACTCAAACCACTCATACCCCCCTAGGGAGGGTTTTCGTTGCCGCT
AATTGGCTTGAGGTGTTTTATTTGCAAACGCATACGACAAATAAACCATT
TGGACCTCACGCCATTTGGACCGCTGTCTAAACCATCCCTGTCAGCAAAA
CGTGATCTGCGCACTTGTCCGTTACATCCTCCTTGAAAGATGGGTTGATT
ACAGTACAGTACAGTACAGTACAGTAACAGTGACAGTTCAGTCAGAGTTC
TTCAGGCCCACATCTAGACGATATCGACGAGTCGTGGTTTGTGCGTAGAT
TCCTGCTGCTGTACTGTAAGGCCATCGATGATCTCCGTCTGGTCGTTCTG
TACCAACCGTCTCTAGGGAGTCATTTTTCGTGTGTCCAGGGGAAGCGATC
TCCGCCTGCAATAGCATGGTTGACGAGCGTCCGATGGCCTGTTGCCGGGG
ATTCGAACTAGCCCAGAGATGGTATAGACACCACGCGACGCCTAGAACCG
GTACGTATTATAGACTTAGACCGGTACACTTTTAAAAGAAGGGATAAACT
TGGTGTACCTTGCCACATTTCTGCTTAATTCGGTACGACTGGCGTGCCCG
TATGAGAGCACAAAGTTAGGGGCGGCTGTGCGAGGCATGCATGAATGTTT
TCGGCGAAAATATTTGATGGCGGGGTGGCTTGAGTCCACAAGATGTACCT
GAGTGTGAAAACTGTGTGAAATCGGAGGTTCCCGCGTTGTATTGAAGGAT
TTTCAACACGGCACCAAAAGTACACCGTTTTACGGGCAAATTAAGCCCGG
TGTACCGGTTTTAGACGTTACCCCTACTATGAACGTCCTTTACCATACAT
GCACCAAGTCATTTTTCATCTTAAACGGTCACCAAGTCGTTTATCCTTCC
ACACATTAGCTGACTCATTTCGGAAGGCGTTCATTAACAACCAACTGATT
TTTATTCCCATATATTCAACAGCTCGTTTCCTTCTCATACATTCAAGTCA
TTTACTGCCCTATATATTCCCCAATAAATTTCCTAAACCATGCATCATCC
GACTCACTGCCTTTCCCATTTTCTTCCAATGGTAAACATACTCGTGATGA
CGATGATGACGATGATGACGATAATGATGCGTTCATGACTCGTTGTCCCG
TAATGCCGAAAACGCTTCGTATCTCATCCCACTACAGCATGTCGTTGTCA
TCTACAGTTCATGACTTTAATTCGTTCATATGCAGTCCAGGGCCGAGCGG
AAATATCAATATAATTTGCTTCGTTTTTTGAGACCTCATGGGACCTCACA
CCTTTCCATTCACCACTGCTGTTGGCTGTCGCTTCCATTGACTTCACATA
CTCTACCCAAGATACTCGCGCTTGAGTCGGACCGTAGAGCCAGTAGTGAT
GGAATGGTTCATCCGACGATGCAGCCCGCGAGAGCGAAGCACTGTTGTCC
ATACTCTATCCGATATCTTTTTGGGCAGAGGTAACTGAACGTATGATTCG
TTGTTCGGAATCCTAGAGACCTAACGGTAGACCACGAGAAGCATGTTAGC
CTTTCAAATAAAGTCAAGCGGTGGATGTGCCGTTGCTCGATTCGAGAAAT
CACTTTACTGAAAGGACTCTCATCCAACCTCAGTTGGCTCTCAGATTCTT
TGTTGTGCTTTAGCTTCCAATTATCTTACACACACACACACACACACACA
CTGGAGGACGCCCAAGCGAGCCTGCAAATCCTGCGCTTCTCGGCCACTCA
GAGGCTCAACGCCCTTCTCCGAGCCATACCCCCCGCCCTCACCAAGTCCG
CAGCGTCGGAATTCGACTCATGGCTCGAATGGACGCTGGCTGCCATCACC
ATGGGACCGGCCAAGATGGGGGAACTCTCCGAGCCGGGAAGCAACGCAGG
GCCAAACGCTACGGAACCCAGCCAGACAGTGCTAACCCCGGAGGCCATCC
GCCAAGCCCGCCTGCCTATCCGCGAAGGCAGCCTAGGCCTCCCAAGCGCA
ATCGACCTAAGCGGACCGGCTTTCATCGGAGGTCAAGCCCTAGTCCTGGC
CCGATCCATGGTCGCTTCCAACAGCCCATGCCTCGCCAGTGCGCTCTCGG
GCCTAGCCACCACCCCTCACGCCCGGGCGCTCCGTGACGAACTCCGCAAC
CTAACCTCCTTCACCTCCGGACCCCAGATCGCGGAGATGGTTGGCACTTC
CTGGGCGGCTCTGGCCCTTGATCAGGACCCTGCCAAAAGGGGTCGAGGAA
CCCTCCTGGTCGAAGCGGGAGCGACCGCGACGAGCACCGCTAGCCCCAGG
CCCCGAACTGACCGGGCAACCGGACCCCCCCCCCCCTGGAGCCCAACCAG
AAGGCCCCGAGGTGCCTGGCCTGGGAGCCCCTCCTGCCACACGGGTCTCA
AAACTGCACCAAGCCTAGTCTCGCATCACCAAGGCTCTACATGCAGCACA
AGGGACGAAACTCCTGGCCGACCTCAGAGCCCGGGCGGACACCGTCGACG
GCCAACGCGCCCTCATGAGGTTCGCCGGGGCACGGGGGAAGGGAGCGATG
GCTTGGGCCACGTGCCAAGGAATCGAGCCCCGAGAGCGAATGACCCCCGA
CCTTTTCCGAGAGGTGATCGCCCGAAACCTAGGATCCCACGACAGCGATG
TCGCTTTTGGCACCAAGTGCCATGAGGGTTGTGACACCACCCCATCCCCG
GTGCACACCCTCACCTGCACTCGTGGAGGAATGCAAACCCACACCCATCA
AGCAATCCTCCACGAGTTCTTGACGCGCACGCTGCGGGAATGCAAAATTC
CCCATGAAGCAGAGTCCATGACCCCCTTCAAAGTGGGGGCAGGCCCGGGA
GAGGGATGCCTACGGATGGATGTGGTCACAGACCACGGTGTGCTGTTCAC
GGACAAATCGGAGTACAAGTCACCTGCACTCCTACTCGACGTCACCGTGA
CTAACCCCCTGGGTCCCACGGCCCTAGCTCGAGCGGGGACGCGTACAGGG
TTCGCGCTGGACGAGGCAATGAAGGCGAAGAAGACGAAGTATGGCGGAAC
CTTCCGCCCTACATACAAATTCCTTCCCCTGGCCTTCTCTTTATGCGGCG
ACCAGTCTACGACTGTCCATACCCTGGTGAAAGAGCTAGGGAAAGTCAAG
GCGGAGATGCAGGAGGACTACCTGGGGGCTACTGACCAAGCCAAGCTGGG
CATCCTCGCGAGGGAGAAGGGTCGACTACGCCGTAGGTTGTCGTTGGTCC
TGCAGAAAGCCCTAGCGTACCGTACGCTCAGGTACACCGAACGCCAGACT
GTGGTAGAACGCTGGCATCGCACACCGGGTCCTCCCGCACAGGCGGATGA
TCCCTACCCCATGATGACCAAGCGAGCCCGAGCGTGAAGCTATCGATCGT
AAGAACTCATAGGCCCTAGATTCCCTATAGCCAGCGTCTACCTGTTGCCC
CCATGCCCTTTTGGAATTGCTGATGTCTCCGGGCGCTCGTTCACTGTCCC
TGGGGACATAGATGTGGTACTAGCCATGAGATGCGTATGTTGTCCACCAG
GGGGAGGGCGGGTTCCCTATATTCGGATAAGATCTCCAGAGTGCTGAAGT
CTGTAGACGGGTATAGAGACAGCTGTCTGCCACGTATACAGAAGCGGTAG
TGTGTCGACATCGTTTGGGAAGGTCTACTACAGAGCCGGTTCACAGCCTG
GTTTTATGTGATTAATACCACGGCGTACCTCACACTGTGGGTGTTCCATC
AGTCCCATGGGAAAGCACGACGTGACCCAGCTCATATCCTAGCCGTCGTT
GGATCACTCTTCACTGGTCTTCCTTCATTTTCCAAGTGCGCGGCTGCCGT
AGAGTTCGACCGTCCTAACAGAGCTGCTCAGAGCTCCCTATCAACGCCTC
ATGTTGGAACAATGCCATATCGTATCAAGAAGCGGCTTCAGGACGGAAGG
CGATCGCGAGCAGGAAGAGGCGGGCATGGCTGCACAGTAGCGATGCAACG
ATTGCCACTCCACTTCGATATCATGCTTGTAGCTGTTCAACATCGTACAG
AGTAACAGAATCAATCTTCTTTTGACGGGGTACATTTTCAGTCCAAGTCA
GTGAAACTAACGAAATAGCTGTTTTGGTATGATTTGAAGTACTTTGTCTC
CGATCCACTCTTTGCGTCCCTGTCTGTATACTCTACCTACCTCTGTTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGCGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTATTGTATTAATCACATAAAACCAGGCTGTGACCCGGCG
CTGTATCGGACGGTCCCAGCACGTAGGCACCCCTAGTGGGGAACTTCCTG
AGAGCGTTGCTCCTCCACTAACTCATCGCCGACTGAAAGGCGCGAACCGC
CATAAAATGACCAAGACAACTCCAACGGGGGGCTAGGCAAGGTGAATCAC
GCGGAGCCTGGTACCAGTCTAAGAACTCCCCGCATAGTTTCTCGGCTACG
GAGGGTGAACCGGGCTCAACAGGCGGGGTCTGCCAACGCGCTGACTGCAG
GAGGGCCGGGGCGGTGGACTCCTGACCAAAGACACTCAAGGACTCTCACT
CTCGGCGGGCTCGCTTGGTCATTACCTGACCAAGGCCTTCTGGTGGCTCT
GGGGACGCTGTCGTGGGGGCTATGAAGCTGCGTTCCCGTTCCGCCCTATC
CTGGTGCATAACAAAACCTAATCGTACGGTACGCCAGTGCTTTCTGGGTG
ACTATCGACAATCTACGGCGCAGTCTGCCGGTCTCCCTCGCTCTGATGCC
GAGCTTGGCTTGGTCCGAGGCCCCCACGTAGTCGTCCGACATCTCCGCCT
TCAGTTTGCCCATGTCTTTGAGTAGGTCTTGGACAGTGGTGGAGTAGTCG
CCGCAGGTCGAGAAAGCCAAGGGAAGGAGTTTGTAGGTAGGGCGGTATGT
GCCGCCATACTTTGCTTTCTTGACTTTCGCCGCTTCTTCCAGGGCGAATC
CAGCCCGCGACCCCGCCCGGGCCAGGGCAGTGGGGCCGAGGGGATTTGTG
ACCGTGACATCAAACATGAGGGCGGACCGTTTGTACTCCGCCTTCTTCCG
GAACAATACACCGTGGTCAGTGACCACATCCATCCCGCAGGCTTCCCTGC
CCCGGGCCCGTACTCTCCTTGAAGGGCGTCGAGGATTCCTCCTCGTGAGG
GATTCGGCATTCTCGCAGGGGAGGGCGTCAAGAACCCGTGGAGAACTGCC
TGATGGGTGTGCGTTTGCATACCTCCTCGGGTGCAGGTCAGGGTGTGTAC
AGGGGAGGGCGCCGTGTCGCATCCCGCATGGCACTGAGTGCCAAAGGCAG
TGTCCCTGTCATGGGATCCCAGGTTGCGTGCCAACATCTCCCGGAAGAGG
TCAGGGCGACACGTTCCCAAGGCTCGATGCCTTGGCAGATGACCCACGCC
ATGGCTCCCTTGCCCCTTGCCCCGGCAAACCGCATGTAGGCGCGATGTTG
GTCGGGGAGTGGGTCTTCGCCTTGAGATCCGCTAGAAGTTGGAGGCCCTG
TGCCGCATGGAGGACGCGGGTGATCCGTGACTGTGCCTGGTGGAGCCTCG
CCGGCTTTGTGATCGGTCGAGCCCCCAGACCCGGCACATTGCTGTCCGCC
GGTTGGGCTCCCGTCGGGACCGGAGGTGGATCTAGGTGCCCCGTCCTGGG
CTGCTGGGGGGGGGGGGCTGGGCTTGCCCCTGACGCTCCTGCTTCCACGA
GGAGGGTTCCCTGGCCTCTCCCAGCAGGGTCCTTATCGAGGGCCAGTGCC
GCCCATGAGGTGCCCACCATTTCCCGCGATTTGGGGCCCGGAGGCGAAGG
GAGGTCAGCTTGCGGAGCTCTGCGCAGATCGCTTTGGCGTGGGGCGTGTG
GGCTAGGTCCGAGAGCTCACGGGAGAGTCCGGGGTTGTTAGCGGCCACTA
TGGCTCTGGCCAGGACTAGGGCTTGGCCTCCGATGAACGCCGGGCCACTG
ATGCCCGTCGCGCTTGGCAGTCGAGTCCGCCTTCCCGGACCGGGAGGCGG
GCTTGGCGTATGGCCTCTGGCGTCGGGGCCAGACGGGGCGCGGCGGGGGA
CTTCCGGCCTCCTGCCCCGGCGTTGGGTGCTCCTCTGGCGGGCCAGGGCC
GTTGATGATCGCGAGCAGGGTTTGCTCGAGGAGCTTGTCGAAGGCGGAGG
CGGCGGGCGCCGTGAGATCCGGGGGTAGGGCTCGGAGGAGGAAATTGAGC
CGGGTGGCCGCCGAGAAGCGCAGAATTTGGAGACTGGCTTGAGCGTCTTC
CAGGCAAGCGAGCTCTTTGAGGAGGGCGGTGGGCTCGCCACAGGCGATGT
CGTGGGCGGCTTGTCGGATGTAGTCGGGCCCTCCGACGGGGACGCCCACA
ATGCGCATGCCAGCTTCAGCAATCCTGAGCTGCGTTCGCTCCAGGGTCTT
CCGGTCAATCTCCGGCCAGCCAGTCACATCGGTGCCCGAGGGGAAGAGGA
TAGTCGATTTCTTTGCATTGAGTTCAACCCCAGGGTTTGCATGTGGGCTT
GGAGCCAGGTGGTGACGGCCTCCGCCGCCGCCGGGTCCGTAGCGTGACTT
GCCGGCAGCGTTACGACCAGATCGTCGATAAAGGCCATGATTTGGGCGCC
CACTACAGGCGGATTTGCCTTAAAGGCGCGAAGCAGTGGCATCAATCCGG
CGCTATAGCATAGGGGCCCGAGGTTGCATCCTTGTTGGACCCCGTGGAGG
ACAGGACTGTCTCCGTTCCGCCAGTGGCAGTCTTGAATAGGAGCTTGGGG
GCTCCCGGCCATAAACGTTCAAGGCGTAGGGGACGGCCGGCGGGATAAAG
TCTGCCAGCGCTGGTAGGATGGCACGTCGCGCCATTGCGTTGAAGGCATT
ACGTGCGTCGAGGGCGATCACGCTTTTTCCTTGCTGGTGCGCCAGCGTAG
CCCTCACTGCAAGTAGCTCGGACCCTCCCGGCACGCTGACGCCGTACTGT
CCTAATGGTTCGAAATGACTTGCAATCTGCGGGGTGTACTGTCGGCAGAA
GGTACCCCCGATTATTCTCCTAATGACATCGCCGCATGCCACTGGTCGGG
CTTTCTCCCCTATTGCGGACAGATTGGCACTTGTGTGCAGCTGCCAGAAA
CTGTCAGGTAGGTGGCTTCCATCGAAGATTACCCGCGAGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTGTATTAATCACAT
AAAACCAGGCTGTGACCCGGCGCTGTATCGGACGGTCCCAGCACGTAGGC
ACCCCTAGTGGGGAAATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTTACATTAGTCACATATAAC
CACGCTGTGACCCGGCGTAGGTTCCTACGACTCGCCTCACAACAGTCACA
GACAGAACTTCATAGTAGGGGACACGTGGACTACATCTCTGGCGACACGC
AGAGTTTTTTCTTTAGTGTGTGTGTGTGTGTGTGTGTGTTCTTCTGTGTG
TAGTGTCTGTTCTTCTGTGTGTTATGTGTGTATTTATGTGTGCGTGGGTA
TTGGTTGACCCTTTCGACGCCCGAGTTGGCTTTGTTATGTTCTCATTTAG
ATCAAGACAGAGAGCGAACCCGACTCAGCGTGCGTGAGAAGGGTCAGGTC
CCGGCGTGTTGCCGTTGCAAGATCCAGCACCACAGTTGAAGCAATTGTCC
TGCAGGTAGTGTACAGGTCTTCCGGCGGTGAAGATCGTACGAAAGTTGAG
GTTGTGCGAGCATTGGAGAAGTAAACCTCCCTTGTTTGACGTTCGCGTGT
TATCTGGCGACGTCAGGGTGAGGTGCCCCAATGAGGCAGGAACACAGACA
GACAGACAGACAGACAGACAGACGGACGGACGGACGGACGGACGGACGGA
CAGATAGGCAGACCGACAGGCAGACAAGCAAGCAGATTGTGCCTGATCGT
TCTAGGGCAGATTCTGGTCACGTCCATGCGAGTCAAGTCAGCAGTTGTAT
TCCCGAAAAGTTCATACCCTGGATGAATCTATTCACTCTAGGATTTGAGT
AATGCTGAGTTAACCCTTTGAGGGCCGGCCATGTACAGGGTTAGGACGAT
CGCACAAAAGGTTAGTAAAACAACGCCCAACAAAACAAGAACGATCGCTC
GTAGCGTCTTAGACATGGCGGAAGTGCAGCCCAAGAGGCTGCTGCATGAA
TTGAACTCTATTTCGATCACGTGGTTTGTCTAGCTTCGTAGATGATTGGA
TCATAGAGTACTGTATTTCATGTTACCCCGGAATCATAATGAACCCAACA
CCTAACCCTGTTGACCCCAGCCCCATAAGGGTTAAGTCGATCCAGTACTA
ACCCTAACCCTGTGTTATGTTATGGTGATCTGTCCGACCATGAGAAAACA
AGGGCGTTCCTTTGGATAAACAGAGTACCCCTCTGATTCCTCGAGATCGT
CGCAAAACTCGAACGAATTCATTCATTCACATGAATTTATTAATCGAAAT
TGTACTGAAGTTTAGAGTAAGATATTTATTCATCCGGGGTATGAAAAGTT
TGTAAACTCTGGAGAGCGAGCGGGTCACGATCGATCGTTCTTGTTCTTGT
GTTGTGTGCCGTTGACCGGCTACAGGTATTCGCGGGTTACGTGACGGGCA
TCATGGAGCATGAGGACAATCCCGAGGATGAGCGAATAGATTCCGTGTGC
GAGATCCTCTCTGGGGCAACGGAAGAGGTGAGCGCTCGCCGGCGGGGATG
ACCAACGGAGCGTCCGGGCCAGCCCTTCTCGAAGCTACCTTGACGTGCGT
AAGACCGCGGGGATCTATCTGTCCTGTAGGGCTGGCGGTCGGGGGAGATG
GTTGCGTGTGGTGGCGAAGCCGATGTTCTCCCGCAGAGCCTGGAGGATGG
AAGAATGAGCGTCCTTGTGAAGAATGATATACGTTTCGCTCGACAACGAC
CGCCTGTTGTCGGCCGATGATCTCCCGCAGAGCCTGGAGGAGTTCCGACC
GGAGCTCCTAGAGAGGTGGCGTGCAAGGGTTGGGGAAGAGGAGAAAGAGA
AGGAGGCGGCCAAGGAGGCGCGACAAAAGGAGTTAGACAGCAAGATGGAG
GTACGTCGTGAGGTACTGCAGAGGGTGGAGGATCTCCGTGCGGTCTCTTA
CGTCCTGGTTTGCTGCGTCGTTTGACGCGCGGTGCCGGAGCCCCGCGCCC
GCCGTAAACCAGCGGCGGGATAATTCCACAGTTTCGTTCGATGACACGGC
AAGTATTCGCTGCTTCTGCCTCGTACGAGCGCAACTTTTACCTGCTCGTG
AGAGAAGTTGATCGAGGTTTTGTGGTGTTGGTCGCACTATAACGGAACTG
AGAATGCCGCGCTGAATCGGATCAACGTACTGTAACAGACCACCGTGCTA
CTCCGGAGCTACCACCGTAGAATATACTTTGGTCCGATTATGACCAAGTT
TAGGCGCCTTACGGGGACGACCTGAAGACGGGAGGTGATATTTGCACCGT
AAGGCAGGCAGGCACAGGGTACCTTCCTTAGTTCTGTAGATAATTTTGTA
AGAAGCTCGTTCGTTCTTTGCATGTAATGTTCGGAGAAGGAAGATGGAGG
GTGTGGACACGTTGGAGTGGAGTAGGACAGGAATGATGTTCTTTGGTCAT
GATGTAGTCAGTTCAAGTGGGATGAGGTGCGTTGCGATCTTGTCGATAGG
GTGGCTCCGACCGATGCTGTTGAGGTGCCGTTCCGTTCCGTTCCGTAGCG
TGCCCTGCCGTGCCGAGCCTCCTCGTATTGAACGCCGTCCACTGACCGAA
GCTGTCGTCTCGGGTGCACCTACCGCATGATCCACTGGCATGATCGGTGG
CAACAGGAAGAGCGGAGGCAGGTGCAAGAAGCCGACGCCCTGCGACGGGC
CAAGGCGGAGAGGGTTACTCATCGAACCGAGGAGGAGCAGCGCGAGCGGG
CGAGGCTCTTGGGCGAGTACGGCTACGACTCCGATCCAGTCGACGAGGAC
GGCAACCCTTTACCCGCGGAGGAGGGCGAGGGGGTAGAGGGCGCCTCGGT
GAGGAGGAGGAGGAGGAGGAGCATTGTGTAGGATAGCGTAGCCGGCGGCA
GCGGCGGCGGCGGCGACGATTTGCGCTGTGTCGGGAAGTTCCGAGGTGGC
CCGAGGTTCTAGTTGCTGATTGGTTTTAGCTGGCTTTCTCGAGGGCATTA
TGGGTGGAAAACTACAGTGCTTTCGATTGTAACTACATGGTTGCTTCACC
TTTGGACTTGGGTTTTAAATGTAGCCATTCAAATGTAGCCATTCAAATAT
CCCGTTTATTACGATTGGAAATGCAGCAGTCGAAGCATGCGTTGAACACG
AAACGATAACGTTGGTTTCGTTTTGCCTTTGGTGCGAGCAAGTGTGCGCA
TGGTGTTAGTCATACATAACCTTGCTGCATTCCACCTCTGTCGCAGAAAA
CAAGCAAAGCACGCTGCTCCACTGATTTATCACTTCGGATGTGGTGTGTC
TGCGTGTGTTTATGTGTGTATTACATTTGTCACGTATAATAACGTTGTGA
TCCGACTCGGTAACCGGCAATACTCAAAACATTCACGGATCCTCTATCAT
TCGTATAAGCCCTATGTTGTCTTCCGGCATGCCTAAGCGAAAACAACGCA
CTCAATATATTGATGTGTGTGTCTATGTGCCTGTGTCTATGTGCCTGTGT
GTTTGTATCCTGATTTATATATTGGAATCATTCCTGATTAACGAGACGAG
GATCGGTGGTCCCTTGAGACCTTTGGGATCGAGCCTACTCGGAGTACAAT
AGCGAAAGGATCTCGGTGAGACGCTCCCTTTCGGCGTTGGTATGGATGGC
AGGCGGCGGACAGCCTCGGTGAAGAGTTGGGGAGGAATACGAACAAGGAG
CGTGTTCAGCAAGAGCTTAATGTGAAGGTAAGAATGATGGAAAGCATTTG
TCGTGAGGAGATACAAGCATTTGTCGTGAGAGTCGGACCGGAAGACGTAT
ATACGTGGTGCATAGATTGGGGCTTCTCTATAGCGCGGAGTAGTGCGGAT
TCTTGGCTGGGTGAGAGTAACCTGCTGAACTGAATTTCAGCAAGAGAGCG
GTTGATTGCTGTGAAATCGCCAAGGTCTCGAGATCAATTTTCACGAAAAG
TTCCATCAAGCACGGACTTCCGTGGACATTAACAGTTGCACATATAATAC
GGCAGGGTAGTGTATCGCCGACCTGCGTTATCTACCACACGTGAGGGGTA
TAGAAATAGAAGCCCCTGCTGTACCTACAGTATTTTTGCTTGGAGGTCGT
TCTCGATTGTTTTGTTCCGTCATATCCTTGTCACTGCAGCTCGTGCGCGA
CGCGCGAGTTCGAAACGCTACACGGTTTGTTCATGGGACGAGAGTTTGGA
ATTTCGTTCCATTCTGTCCCGTTTTCCCACAATTTTCGGGTGTTCATGTG
TGTTTTGCACGTTTGTGCGTCGAAAAAAATGACTCTGTTTAGGGTGTAAA
GAGAAACCGGTTCGTCATGACTTGTGCAAAGGGCTATGGTCCCCGTCGCC
TACTGTTCTGTCTACGGAACGTGCTCGAGCATCACGTAGAAGTGGATGCG
TTTGAGATTTCTACGTCCGTCCGGGTGCTCGCAGTGATTGATCCTATCCC
GCCGCATCCCGACGTTCTGTCGTGTTGCCCCCGCCTGTCCGTGCCTCCAT
GCGGGCCGTGGGATGATCGGTTGTGTCACTGGCTGCCCCCAGCGTGATGC
TCTGAAGAAGGGCCACCAGTCGAGAGTCTTGCGGGACAAGATGGCACTCG
AAGCGGACAAGATGAAGAAGGAGGTGGCAAAGAACGCGCGCAAGACGCAA
AAGGGGGAGCGTAGATCTGGGAGAGGATGACCGACAATGGTACCCGCCCC
CCCTCCCCCCCTTTCCCTCCCTGCGCCTCATGCGAATGAGAGCGTGGCCG
GAAATTCGTCCTGGCTTGCGGGAGGCGCGATACGCGTAACCATGACGAGC
TTGCTCCCCGAAGAGGCGTCGGCTGCTGTAGAACCAATTGTACATCGCCT
CCCACCCACGGTCGGCTTGTCAGATGAAGCTGAAGAGCTCTGTTCCTTCC
ATGAGGTAGCGGAAGGGGCGCGGGCGGTAGACGTAACAGCAATGACCACG
GAATTTGCTACCTATGGAGGAACAAGCTGGATCGATCATAGGTATGACAC
TTTTGATGGGGTTTCTGTGAGAACGAGGCTTCCTTCGATGGTCATTGGTG
CAACCGGTGTTCCGTTTCCCGGGGCTTCTTTGTCTCTGCCCCGGAGCCCT
GATTGGTGCTTCGATCCTCGCTGCGGTGGGCTGCCGTAAGGTGTGCTTCC
AGCATTCGATAGCTTTATTTGGGTAAACTAGGTAGTCATAAGTCTGCTGC
ATATCTTTCTATTGCACACGTCCATGTATGCATCATGTACAGTATATAAT
ATGTCGATGTATGAGCATGTATAGATTTGTGTTGACCTGATGAGAAGCGC
TTGGGACCTTCATCCACTGTCGACCCTAAGGGACCTTGCCAGCGGTGATC
AATGCATACGAGTTAGTTTTGCGGAGCAGACGTCATCCAGCACGTCGTGT
AGTAAGTTGCTGAAGTGCCTCGAAGTCGTTCTCCCATCCAGGACAGTGTT
CGTGAGAGGGAGAAAGGCATTCGCGATACTCCGCCCACGATCATCGTAGC
TCGCGGAATATCGCGTAAAATTACTTTGCTTGGCATCTTGTAAACCAATG
ATTAGGTCGAAAGCCTTTGATCGCACGTAACCGCGTTGATATGGTGGGCC
GTTGATTCATTCCGTCTCATCCATCGTCCGTGGATCAGAAGTTGTCATGG
TGATCCAAAAGTACAGTGTGTAAAGGGAGCATCCGTCAGCACAAGCCATG
TGGCTGGAAGAAAGATGAGATGCTCTCGCCGCAGCGGCTTTCTCCGG

Coding sequence (CDS) from alignment at D-dichotoma_M_contig100:39077..59973+

>mRNA_D-dichotoma_M_contig100.76.1 ID=mRNA_D-dichotoma_M_contig100.76.1|Name=mRNA_D-dichotoma_M_contig100.76.1|organism=Dictyota dichotoma ODC1387m male|type=CDS|length=1374bp|location=Sequence derived from alignment at D-dichotoma_M_contig100:39077..59973+ (Dictyota dichotoma ODC1387m male)
ATGGAGGCATTCAACTCTTGGCTTCTAGAGAAACTGGATGCGCTTGGGCT
TGATGCCGAGATGGAGGCATTCAACTCTTGGCTTCTAGAGAAACTGGATG
CGCTTGGGCTTGATGCCGAGGTATTCGCGGGTTACGTGACGGGCATCATG
GAGCATGAGGACAATCCCGAGGATGAGCGAATAGATTCCGTGTGCGAGAT
CCTCTCTGGGGCAACGGAAGAGGTATTCGCGGGTTACGTGACGGGCATCA
TGGAGCATGAGGACAATCCCGAGGATGAGCGAATAGATTCCGTGTGCGAG
ATCCTCTCTGGGGCAACGGAAGAGAGCCTGGAGGAGTTCCGACCGGAGCT
CCTAGAGAGGTGGCGTGCAAGGGTTGGGGAAGAGGAGAAAGAGAAGGAGG
CGGCCAAGGAGGCGCGACAAAAGGAGTTAGACAGCAAGATGGAGAGCCTG
GAGGAGTTCCGACCGGAGCTCCTAGAGAGGTGGCGTGCAAGGGTTGGGGA
AGAGGAGAAAGAGAAGGAGGCGGCCAAGGAGGCGCGACAAAAGGAGTTAG
ACAGCAAGATGGAGGAAGAGCGGAGGCAGGTGCAAGAAGCCGACGCCCTG
CGACGGGCCAAGGCGGAGAGGGTTACTCATCGAACCGAGGAGGAGCAGCG
CGAGCGGGCGAGGCTCTTGGGCGAGTACGGCTACGACTCCGATCCAGTCG
ACGAGGACGGCAACCCTTTACCCGCGGAGGAGGGCGAGGGGGTAGAGGGC
GCCTCGGAAGAGCGGAGGCAGGTGCAAGAAGCCGACGCCCTGCGACGGGC
CAAGGCGGAGAGGGTTACTCATCGAACCGAGGAGGAGCAGCGCGAGCGGG
CGAGGCTCTTGGGCGAGTACGGCTACGACTCCGATCCAGTCGACGAGGAC
GGCAACCCTTTACCCGCGGAGGAGGGCGAGGGGGTAGAGGGCGCCTCGGC
GGCGGACAGCCTCGGTGAAGAGTTGGGGAGGAATACGAACAAGGAGCGTG
TTCAGCAAGAGCTTAATGTGAAGGCGGCGGACAGCCTCGGTGAAGAGTTG
GGGAGGAATACGAACAAGGAGCGTGTTCAGCAAGAGCTTAATGTGAAGCG
TGATGCTCTGAAGAAGGGCCACCAGTCGAGAGTCTTGCGGGACAAGATGG
CACTCGAAGCGGACAAGATGAAGAAGGAGGTGGCAAAGAACGCGCGCAAG
ACGCAAAAGGGGGAGCGTAGATCTGGGAGAGGATGACGTGATGCTCTGAA
GAAGGGCCACCAGTCGAGAGTCTTGCGGGACAAGATGGCACTCGAAGCGG
ACAAGATGAAGAAGGAGGTGGCAAAGAACGCGCGCAAGACGCAAAAGGGG
GAGCGTAGATCTGGGAGAGGATGA