mRNA_D-dichotoma_M_contig961.20333.1 (mRNA) Dictyota dichotoma ODC1387m male

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

Overview


Name	mRNA_D-dichotoma_M_contig961.20333.1
Unique Name	mRNA_D-dichotoma_M_contig961.20333.1
Type	mRNA
Organism	Dictyota dichotoma ODC1387m male (Dictyota dichotoma ODC1387m male)

Homology

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: D8LU73_ECTSI (Flagellar outer dynein arm light chain 2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LU73_ECTSI)

HSP 1 Score: 232 bits (591), Expect = 1.140e-76
Identity = 112/132 (84.85%), Postives = 120/132 (90.91%), Query Frame = 1

Query:    1 MVEEPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            M EEPRRGPPVVEIVLPTYIT+P E E+FYPSEVKA+AEKAV  EL  KEYD +EAKEWSLNIAD +REG K L++PRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASV FKNQSLWCSAM+FGVYTE
Sbjct:    1 MAEEPRRGPPVVEIVLPTYITKPSEDEKFYPSEVKAVAEKAVQVELQDKEYDGEEAKEWSLNIADTIREGVKTLNVPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVQFKNQSLWCSAMVFGVYTE 132

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A835ZA97_9STRA (Flagellar outer dynein arm light chain 2 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZA97_9STRA)

HSP 1 Score: 197 bits (500), Expect = 8.460e-63
Identity = 93/132 (70.45%), Postives = 110/132 (83.33%), Query Frame = 1

Query:    1 MVEEPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            M E   +G  V+++VLPTY+ +P E E FYP++ KA++EK V +EL GKEYDE EAKEWSLNIADA+RE  K L IPRYK+VVQVT+GQMKDQGVRVASRCLWDTATDNYASVN+K QSLWC+ M FG+YTE
Sbjct:    1 MEESQPKGRQVIDVVLPTYVMKPAEDEVFYPAKAKAMSEKIVKAELGGKEYDEQEAKEWSLNIADAIREQIKQLSIPRYKVVVQVTVGQMKDQGVRVASRCLWDTATDNYASVNYKTQSLWCNVMCFGIYTE 132

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A7S2V6C1_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V6C1_9STRA)

HSP 1 Score: 186 bits (471), Expect = 2.290e-58
Identity = 90/133 (67.67%), Postives = 108/133 (81.20%), Query Frame = 1

Query:    1 MVEEPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKA-LHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            M EEP  G P+VE+VLPTYI  P E E+FY S+VKAIAE+ +  EL GKEY+E+EAK WS+ I D VRE  K   +IPRYK+VVQV++GQMKDQGVRVASRCLWDT TDNYASV++KN +LWCS M+FG+YTE
Sbjct:    1 MNEEPMPGQPIVEVVLPTYIMNPAEDEKFYQSQVKAIAERILKEELEGKEYEENEAKLWSITICDRVREHVKEECNIPRYKVVVQVSLGQMKDQGVRVASRCLWDTNTDNYASVSYKNHTLWCSCMVFGIYTE 133

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A7S3JVI1_9STRA (Hypothetical protein n=1 Tax=Aureoumbra lagunensis TaxID=44058 RepID=A0A7S3JVI1_9STRA)

HSP 1 Score: 169 bits (428), Expect = 9.440e-52
Identity = 76/128 (59.38%), Postives = 100/128 (78.12%), Query Frame = 1

Query:   13 PRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            PR G  V+E++LPTY  +PGE E+FYPS+ KAI E  + + L G+EYDE+ AKEW  NI + +++  K L+IPRYK++ Q+TIGQ++DQGV +ASRCLWD A DNYASVNF N SLW +AM+FGVYT+
Sbjct:   11 PRPGQRVIEVILPTYAMKPGEDEKFYPSKAKAICEDILRTTLAGQEYDEELAKEWVTNIGNDIKDKVKTLNIPRYKVICQITIGQVRDQGVSIASRCLWDVAHDNYASVNFSNDSLWANAMVFGVYTD 138

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A6U3X956_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A6U3X956_9STRA)

HSP 1 Score: 169 bits (428), Expect = 1.420e-51
Identity = 82/129 (63.57%), Postives = 103/129 (79.84%), Query Frame = 1

Query:   13 PRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKA-LHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            PR G PVV++VLPTYI +P E+E FYPSE+K IAE  V SEL GK YDED++KE ++ I   ++E  K   ++PRYKIV+QVTIG+MK+QGVRVASRCLWD  TDNYASV + NQ LWC+AM+FG++TE
Sbjct:   23 PRAGQPVVDVVLPTYIMKPAENEIFYPSEIKKIAEAVVKSELDGKLYDEDDSKESNVLICGKIKERIKEKCNLPRYKIVIQVTIGEMKNQGVRVASRCLWDNITDNYASVQYTNQHLWCTAMVFGIFTE 151

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A7S2FB08_9STRA (Hypothetical protein n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2FB08_9STRA)

HSP 1 Score: 169 bits (427), Expect = 1.780e-51
Identity = 85/130 (65.38%), Postives = 100/130 (76.92%), Query Frame = 1

Query:   13 PRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYD-EDEAKEWSLNIADAVREGTKA-LHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            PR G  ++E+VLPTYI +P E E FYPS VK IA   +  EL GK YD E+EAK+W+  I + ++   KA   IPRYKI+VQVT+GQMKDQGVRVASRCLWDTATDNYASV + NQ LWCSAM+FGVYTE
Sbjct:   18 PRPGQSIIEVVLPTYIMKPEETEIFYPSHVKRIAGAILEEELAGKMYDDEEEAKKWNTTICEKIKAQVKAECDIPRYKIIVQVTLGQMKDQGVRVASRCLWDTATDNYASVEYANQHLWCSAMVFGVYTE 147

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: F0YN77_AURAN (Uncharacterized protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0YN77_AURAN)

HSP 1 Score: 164 bits (416), Expect = 5.580e-50
Identity = 78/130 (60.00%), Postives = 94/130 (72.31%), Query Frame = 1

Query:    7 EEPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            E PR G  V+E+VLPTY   P E E+FYPSE K I E+ +  EL  KEY ED AK+W ++I + ++   K L +PRYKI+VQVTIGQMKDQGV VASRCLWD   DNY SVNF N SLW + M+FGVYT+
Sbjct:    5 EGPRPGQQVIEVVLPTYSMIPAEQERFYPSEAKRICERVLVGELDNKEYFEDSAKDWIISIGNTIKSEIKCLTVPRYKIIVQVTIGQMKDQGVSVASRCLWDITFDNYTSVNFTNSSLWANVMVFGVYTD 134

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A6S8SDH5_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A6S8SDH5_9STRA)

HSP 1 Score: 159 bits (401), Expect = 1.000e-47
Identity = 74/132 (56.06%), Postives = 98/132 (74.24%), Query Frame = 1

Query:    1 MVEEPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            M +  R G  V+EI+LPTY  +P E E+FYPS+++ I  +A+  EL  KEY ED AK+W L I + ++   K+L++PRYK++VQVTIGQMKDQGV VASRCLWD   DNY SVN+ N SLW +AM+FG+YT+
Sbjct:    1 MQDGARPGQQVIEIILPTYSMKPAEDEKFYPSKIRQICTEALKDELDNKEYFEDGAKDWILTIGNKIKAQAKSLNLPRYKVIVQVTIGQMKDQGVSVASRCLWDLLFDNYTSVNYTNSSLWANAMVFGLYTD 132

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: F0YJJ5_AURAN (Uncharacterized protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0YJJ5_AURAN)

HSP 1 Score: 157 bits (397), Expect = 4.200e-47
Identity = 73/128 (57.03%), Postives = 95/128 (74.22%), Query Frame = 1

Query:   13 PRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            PR G  V+E+VLPTY   P E E+FYPSE K I E+ +  +L    YD++ AKEW L I + ++   K+L+IPRYK+VVQVTIGQMKDQGV VASRCLWD + DNYASVN+ N++LW + M+F +YT+
Sbjct:    6 PRPGQQVIEVVLPTYSMNPTEVEKFYPSEAKQICERVLTGQLENATYDDESAKEWILLIGNTIKSEIKSLNIPRYKVVVQVTIGQMKDQGVSVASRCLWDISNDNYASVNYTNETLWANVMVFVIYTD 133

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BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Match: A0A7S3HL07_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3HL07_9STRA)

HSP 1 Score: 154 bits (388), Expect = 9.530e-46
Identity = 72/131 (54.96%), Postives = 97/131 (74.05%), Query Frame = 1

Query:   10 EPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKEYDEDEAKEWSLNIADAVREGTKALHIP--RYKIVVQVTIGQMKDQGVRVASRCLWDTATDNYASVNFKNQSLWCSAMIFGVYTE 396
            E   G P+++I LPT+   P EHE+F+PS+ KAIA+K +  EL G  YDE++AK WS+NI+D VRE       P  RYK+VVQ TIGQM+DQG+R+ASRCLWD  TDNYAS +F N++L+CS ++F +YT+
Sbjct:    2 EMSNGHPIIDIFLPTFRMEPEEHERFFPSKGKAIADKIISDELNGAVYDEEDAKNWSINISDRVREAVTESMGPNSRYKVVVQTTIGQMRDQGIRIASRCLWDPTTDNYASCSFSNETLFCSCLVFALYTD 132

The following BLAST results are available for this feature:

BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot

BLAST of mRNA_D-dichotoma_M_contig961.20333.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LU73_ECTSI	1.140e-76	84.85	Flagellar outer dynein arm light chain 2 n=2 Tax=E...	[more]
A0A835ZA97_9STRA	8.460e-63	70.45	Flagellar outer dynein arm light chain 2 n=1 Tax=T...	[more]
A0A7S2V6C1_9STRA	2.290e-58	67.67	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S3JVI1_9STRA	9.440e-52	59.38	Hypothetical protein n=1 Tax=Aureoumbra lagunensis...	[more]
A0A6U3X956_9STRA	1.420e-51	63.57	Hypothetical protein n=1 Tax=Dictyocha speculum Ta...	[more]
A0A7S2FB08_9STRA	1.780e-51	65.38	Hypothetical protein n=1 Tax=Florenciella parvula ...	[more]
F0YN77_AURAN	5.580e-50	60.00	Uncharacterized protein n=1 Tax=Aureococcus anopha...	[more]
A0A6S8SDH5_9STRA	1.000e-47	56.06	Hypothetical protein n=1 Tax=Pelagomonas calceolat...	[more]
F0YJJ5_AURAN	4.200e-47	57.03	Uncharacterized protein n=1 Tax=Aureococcus anopha...	[more]
A0A7S3HL07_9STRA	9.530e-46	54.96	Hypothetical protein n=1 Tax=Spumella elongata Tax...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
D-dichotoma_M_contig961	contig	D-dichotoma_M_contig961:210199..229005 +

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	233.8
Seed ortholog evalue	4.6e-59
Seed eggNOG ortholog	2880.D8LU73
Preferred name	TCTEX1D1
KEGG rclass	RC00017,RC00040,RC00078,RC00253,RC00367
KEGG ko	ko:K03103,ko:K06085,ko:K11262
KEGG Reaction	R00742,R03434,R04385,R04386,R09532
KEGG Pathway	ko00010,ko00061,ko00254,ko00562,ko00620,ko00640,ko01100,ko01110,ko01212,ko04152,ko04520,ko04910,ko04922,map00010,map00061,map00254,map00562,map00620,map00640,map01100,map01110,map01212,map04152,map04520,map04910,map04922
KEGG Module	M00082
GOs	GO:0001669,GO:0003674,GO:0003824,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0005815,GO:0005856,GO:0005868,GO:0005875,GO:0005929,GO:0005930,GO:0006928,GO:0006996,GO:0007017,GO:0007018,GO:0008150,GO:0008157,GO:0009987,GO:0012505,GO:0015630,GO:0016020,GO:0016043,GO:0016462,GO:0016787,GO:0016817,GO:0016818,GO:0016887,GO:0017111,GO:0019898,GO:0019899,GO:0019902,GO:0019903,GO:0022607,GO:0030030,GO:0030031,GO:0030141,GO:0030286,GO:0031410,GO:0031514,GO:0031982,GO:0032838,GO:0032991,GO:0036126,GO:0042623,GO:0042995,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0044085,GO:0044422,GO:0044424,GO:0044425,GO:0044430,GO:0044441,GO:0044444,GO:0044446,GO:0044463,GO:0044464,GO:0044782,GO:0060271,GO:0070925,GO:0071840,GO:0097014,GO:0097223,GO:0097708,GO:0097729,GO:0099503,GO:0099568,GO:0120025,GO:0120031,GO:0120036,GO:0120038,GO:1902494
EggNOG free text desc.	regulation of intraciliary retrograde transport
EggNOG OGs	KOG4108@1,KOG4108@2759
EC	2.1.3.15,3.1.3.62,3.1.3.80,6.3.4.14,6.4.1.2
COG Functional cat.	O
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
BRITE	ko00000,ko00001,ko00002,ko01000
Hectar predicted targeting category	other localisation
Ec32 ortholog description	flagellar outer dynein arm light chain 2
Ec32 ortholog	Ec-16_000480.1
Exons	3
Model size	399
Cds size	399
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_contig961.20333.1	prot_D-dichotoma_M_contig961.20333.1	Dictyota dichotoma ODC1387m male	polypeptide	D-dichotoma_M_contig961 210199..229005 +

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


Feature Name	Unique Name	Species	Type	Position
1622931223.1505954-CDS-D-dichotoma_M_contig961:210198..210318	1622931223.1505954-CDS-D-dichotoma_M_contig961:210198..210318	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig961 210199..210318 +
1690799673.2978475-CDS-D-dichotoma_M_contig961:210198..210318	1690799673.2978475-CDS-D-dichotoma_M_contig961:210198..210318	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig961 210199..210318 +
1622931223.170799-CDS-D-dichotoma_M_contig961:227445..227558	1622931223.170799-CDS-D-dichotoma_M_contig961:227445..227558	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig961 227446..227558 +
1690799673.3131561-CDS-D-dichotoma_M_contig961:227445..227558	1690799673.3131561-CDS-D-dichotoma_M_contig961:227445..227558	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig961 227446..227558 +
1622931223.1911035-CDS-D-dichotoma_M_contig961:228839..229005	1622931223.1911035-CDS-D-dichotoma_M_contig961:228839..229005	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig961 228840..229005 +
1690799673.3228211-CDS-D-dichotoma_M_contig961:228839..229005	1690799673.3228211-CDS-D-dichotoma_M_contig961:228839..229005	Dictyota dichotoma ODC1387m male	CDS	D-dichotoma_M_contig961 228840..229005 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at D-dichotoma_M_contig961:210199..229005+
coding sequence from alignment at D-dichotoma_M_contig961:210199..229005+

protein sequence of mRNA_D-dichotoma_M_contig961.20333.1

>prot_D-dichotoma_M_contig961.20333.1 ID=prot_D-dichotoma_M_contig961.20333.1|Name=mRNA_D-dichotoma_M_contig961.20333.1|organism=Dictyota dichotoma ODC1387m male|type=polypeptide|length=133bp
MVEEPRRGPPVVEIVLPTYITRPGEHEQFYPSEVKAIAEKAVYSELMGKE
YDEDEAKEWSLNIADAVREGTKALHIPRYKIVVQVTIGQMKDQGVRVASR
CLWDTATDNYASVNFKNQSLWCSAMIFGVYTE*

mRNA from alignment at D-dichotoma_M_contig961:210199..229005+

Legend: polypeptideCDS

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

>mRNA_D-dichotoma_M_contig961.20333.1 ID=mRNA_D-dichotoma_M_contig961.20333.1|Name=mRNA_D-dichotoma_M_contig961.20333.1|organism=Dictyota dichotoma ODC1387m male|type=mRNA|length=18807bp|location=Sequence derived from alignment at D-dichotoma_M_contig961:210199..229005+ (Dictyota dichotoma ODC1387m male)
ATGGTGGAAGAACCTCGAAGAGGGCCTCCCGTCGTGGAGATCGTCTTGCC
GACCTACATAACACGGCCAGGAGAACACGAGCAGTTCTACCCGTCTGAAG
TCAAGGCTATTGCCGAGAAGGTCTGGACTCAGTTTCTTGCCTAATACCTT
CGCCTTTACGCGGAAAATCCAATCACATCGCGCGGAATGATAACAGTCAA
GCATTGTTTCCTATAATGACCACGAAAATAAGCCCTGAGTCACTTCATCG
GGAGATATCGATCAAAGATTTTACAGCATCTTCAGGGGCAAACCATACCT
AAGTCTCAATGATGAAGGATCAGGCATAGAGGGGTTCGCTGTCCCCCCTC
AGGGATGAACTCCTGTCAGACTCCGAGGCAACTCTTCAATCTGATACGAG
TCTTCCTCTTTCACAATGTACAGTACCTCTCGAATGCTCTGATATTTGAG
AGGCATTCTCTACTCATGGCGTGCATCTGTCACGAATCGTTGGATTTGAG
ATGATTCGAGTGCGCTCGCTCATGATACACGACGATAATCGGTACGAGCC
ACGCAATCGACTTCATCACCTTAACCTCTCTGACCGGGAGGAGGCAAGAT
TGTGGATACCAATTCTCTAGGTCGTGGGGCATAGAATGGGTAGTTTAGTG
GGTTGCTTGCCTTGCAGTTCATATCTTTTGAGCCCTCTCAAACGGACGAA
GAATGACGGCCATACTGTGAATACCAACTTCGTAGCTCGCGGCGAATAAC
ACGAGCCATTTCAATGGGTAGTTTGTCTCGCAGTTCATGCTTCATCCCTA
CGCCCGCCTCCTCTCTCTCAGCGGGACTTCGATAGCAGTTACCGTGATGG
TCATAATTGTGTCCATAGGGTCTATCGTCCGAAGTAATTACATGGACAGG
GATTATACCTACGTCACATGTTTGGAAGAAGGCTCCGTTCGGGGTTTACG
CTGTACCTGTTGACTCCCACGGACCTCGGGTACTGTAGACATTATACTTC
CTCTGTGCCATAAGTAAAGTCCGTTATGATTACACGGACCCTTAGCAGTG
TCCGGTGCTGAAGCGATAATTTTTTTGAAATCTTCGGTGTTTTTCGAGTC
GAAACCCGTGTTTTTTTTTCTGCACACACCACCCTGCATGCATGAACGGC
CGAAAAAAATCCAGTCGGTCGAAAAAAGGCCGTATTTTGCGCCTTTTCCA
GGGGCAAAAAAGTTTTAGAAAAACAAAATCGTTAACCGTCCTCGCCGTCG
CTGGGGCTTGATGCTAGGTAGTCCCAGGCCGTCGTGAAGGCCCCCTTATC
ATATTTTACGCGTTCAAAACGCGTAGTAGTGCAGCAGGACGGCGCGAGTC
CCCACACGGGAAAAAACAATCCAGAGATTCTTCACTCAGCGGGGATGGGG
CGGGGTTGGATGGTAGAGCTTGTCACGCAGCCTGCCCAGTCGCCTGATTT
GAACGTCAACGACTTGGGCTTCTTCGCATCTCTAAAGTCAAGGGTGTGGG
GGATGAACGCCAGTTCGATAGACGAGTTGGTGGAGACTATCTTCGACCAG
TACGAGAAGTACGATGGGGACACGTTGGAACGGGTTTGGCACAGCCTCTT
TAAGGTTTACAACCAGACACTACGTCAGCTGGGCAATAACGACTCTAGTG
TGAAGCATACCGGGGTGACGGCGCGCCAGAGGGAAGGGATGTTAGAACGA
GTCGTAAAATATGATAAGGAGGCCTTCACGACGGCCTGGGACTACCTAGC
ATCAAGCCCCAGCGACGGCGAGGACGGTTAACGATCTTGTTTTTCCAACA
CTTTTTTGGCCCTGGAAAAGGGGCAAAATACGGCCTTTTTTCGGCCGACT
GGATTTTTTTCGGCCGTTCATGCATGCAGGGCGGTGTGTGCAgAAAAAAA
AAACACGGGTTTCAACTCGAAAAAACACCAAAGATTTAAAATATATATAT
ATCGCCTGCGGCATCGGACACGTCTAAGGGTCCGTGTAATCATAACGGAC
TTTACTTATGGCACAGAGGAAGTATGGAGACAAATCCATCCATAACGATG
CCTCACCGCTGTTGCAATGGATCTGCCTGGAACTCAACACTGCAATAGAG
AAGACGCACAGAAGAAGAATGAACTGCAAAATCCCCAACATCGCCGCACT
TTTGGAGTTGATGGTGATGATGTCTTCGTCGTCATCGTCGCTTTCGCCGT
CGTCGCGGAAACCTGACGACGACCAATTTGGGTTCCATCCCTGGTACTGT
AGCACTGCAATCATCAATTTCCATAGTTATCGTCCTGTCCACAAGGGCAG
GCATGATACACGAAGAGGTCGAAGGCACCTGACTTGACTTGTTAGACAAC
TCCATCATGATCCCAGAGTGTTTCCTGAGGGATGCACGAGCCGCCTGGAT
CTGCCTGGATCTGGAGGTGTTGGGACGAACTTGGCGTGGTATGACCTGCC
GGCAGTATTGAGCAGGAACATGACTGCTGCCGCTGATGGTGATGGCTGAT
GGCTGATGGCTGATGGCTCGATACAACAAAATTGAATTCATTCTGTTTCG
ATGCCATCATCATCGTTGTCGTCGTCGTCGTCGTCGTCATCATCATCATC
ATCATCATCATCATCATCATCATCATCATCATCACCAGTAGACGACTCTG
AAAAGAGGGCTATTGTGACACAATTCGAACACGCGTGTGTCCGTATGAAT
TCTGCGTTTTTGAATACCATACATCGACACACACAGTGGTTGACAAAAAA
AAATCCGACTGATGATGGTCTTCGGGTCCGTTTCAATTGAATTCGACATG
AAGTTTTCGAGTCGATCTTCATGTTCGTTTTTTTAAAAGAGGCACATCTT
CTATCCACCGTAGCATGGAAAACGACATCCTCATCCTTATCCTCATCCTC
ATCCTCATCATCGCCATCACCGCCATCGTTATTATTGTGGTGATGGTCGT
GGTGATGATGGTGCCCCCTTTCGTAAACGTTTCGATATCACCAGGCAGGG
CTGGTCTGACAGAGAATGGTTTTGTTAAGCCGTTGGGAAGAGCATGATCA
AACGAACTAAACGCGACAACTCAGCGAAAAAGGGCTCCCCGATGATGGGG
TGATGACTTACCTCGAGGTTTTTCCCCATCGGGGTCCGCCAACAAACACA
CACACACACACACGCGCGCGCGCGCGCGGGGGCGACGGGGGGGGGACATG
CCCTTGAGAAAGCAACTAAAGCCAAGAAGGCCAAGTATGGCGGCACATAC
CGCCCTACATATAAACTACTACCTTTGGCTTTTTCCACATGCGGTGACCA
CTCCTCGAGTGTGAGCGACCTTGTCAAGAATCTGGGCAGACTCAAGGCCG
AGCTTAATGAAGACTACCTCATGGCGGAAGAGGGGGGAAAACTCGCCATC
CGGGCAAGGGAGACGGGACGGCTGCGGCGCCTACTATCGCTGACAACTCA
ACGGGCACTCGCCTATCGCAACCTGCGCTACGCCCGTCGTCAACACTGCC
AAGATAAATGGGAGACCACCGCGGAGAGTGCCCTACAGACAACGCGTTGT
CCATCACCATTCGCCAAGCGCGCTCGACGGCACTTATAGCCTAGACTCCC
GTTTGCAGCGTCGCACTTGCTGAACATACAGATTCAACTTTAGTGGGGGT
CAACTGAGGAAGGGTGGGGAAGGTGTCTGGGACAGGATGGCGTAGCAGGC
GAACAGTTTGGACTGAGTAGCAACGAAGGAGACAGTTATTTGTCGCACTC
TTCTGTTGGTGGGAACCTGCATGCATAGGATCAGGGAGACGCAGCTTCGG
AACTCTGTGTGTCGCAAGAGGTGTAGTCCACCTGTCCCCTGCTATGAAGT
TCTGTCTGTGACGGTTGTGAGGCGAGTCGTAGGAACCTACGCCGGGTCAC
AGCGTGGTTATATGTGACTAATGTAAAACACACACACACCGCCGTAAGGC
GAGCGAGAAGCAGCAGCAGCAGCAGCAGCAGCCTCGGTAGCGGCGGCAGC
CGCGGCAGCAATACGCAGTACACCGGAGGGACGAAAGGGATAGACAGGGG
AGGGAAGGTCACACGGAGAGCATGGAGGCAACCCGCTCCTTCTGCCCATG
CAAAGGGATGTTTTCTGACTGGCCTTCTTCTCGTGTCGATGGTTCACCTA
CTGTACCTATACTTTGTCGCTCCGCCCGGGTGCTGTTTTAGAGGTGGTCC
TCAAGGGGACTTCTTCAAACAGCACCCGGGCAGGAGTAGGAGAGGGAGAG
GGAGAGGGAGTGAGAGTGATCTTGGTTGCCTAGAGACAACCTGTCTAGGT
TTACGTTGTTAGGGATGACTTCTTATCAGAGATGCTTGGTGTATGTGGAG
AGTAAAAAGACTGCAAAGAGTGCTCGATACCGCCGGGGTAGACCTCACCG
CAGCACACCATGATACCTATCGATAGATTACCCTTCGCTCCCTCTTTTTG
TATCTTCCGATGACGAACCACTCACTAGAAGACTACTGTAGCGCCTCCAA
GTGGTTATTGCTGAATGATCTCCCAACCCCTGGCCAAGGGCATTCAGGCT
TCAGTTTTGCTCCTCATTCTATTATCCTAGAGGATACAGGAAGACTACTT
CCATATGCACTCGCGTCCACTATCGTCCTACCACTATGAATAATCACTTC
AGCATACATATTCTACACTTCACAAGATGTCACCACCTCTTCGTATGTCA
CCAACCATAGATCATTAGCCCAGGCTTTACCGGTAGTACAAGACCACGCT
ACACTGCAAACAACAGTATACTATAACCAGGTACGGAGGGATTATGCTCC
AGCGCCACATTGCCCTCTAAAACTCTGCCTGTGACTCAAAATGACCCAAC
AGACGAGTTTGATAATTTACGCTGTAGTATGAATCCCGGTCCAGTCACAC
TCAAACCATAGCACCTCGCGACCTCGCATCATACCTCGCAAATCATTCGC
GCCTCACGCGCGGTCGGTCAATCAATCACACGCCATCGCGTGCCGTGCGG
AACCATCTCCGAGCCTGTCACCGTTGCCCGGAAATCACGCAATCATACCA
CTCGATCGCGCACTGCGCGCAAACATTGCTAGCCGAACCATGGATCAGCT
CATTACACATGAACCCATCGCGCGTGGTGCCCATATACCATTTGATTCTG
TAAACACTCGCCAGGTGTACTCCAGCCAGGCTGCTCCATCATCCAATCTA
CCACAATTGATCGCGCGTCGCGCGCACAACCGCCCCCGGACACGTCACGT
TTGCCCCGTAAACTAATATCAGTTCATCATCTACCTTGCATCCAGCGGAT
CGTCCCCGGTCATCCTAATACTTCATCGCATCCACTCGCGATAACCAATA
CTACCCCAGATCGCACGTTTCGCGGTAACACGGGATAATTCACTCAATCA
CAGAATGCCTTACGCATCCCCTTGGAAACTCACCGGTCCCCAACCGATCG
CCGAAACCTGCCATAATCATCACCTCGCGCCCAAGCGCGGAGATCGCTAA
TATCTTCGCGCACTGCGCGGAACCGTCACCGAACACGACATTGCTATCGC
CAGAATCAGCTCAGAATATTGCACGCATCATCCCGTTGAAAATGCAGTAC
TGTTTCGAGCCCCGAAAATCACCATCCGGAAATGCCCCGAACCACCATAT
CTCATGCGTGGAAAACAAACTATAGAACGCCTTGCACATCCTTTTGAAAA
TCACACGCTCCTAGATTCCCCGATACTTGCCTCTTGCATCCCATCAGGAA
ATAATACACTAACCGTCGGATCCCGGCATCCACCCGTCTGCTCCTAAATC
GCCTCAATACCTCATTCAGGAGTAACGGGCACCTCATACAATTTTCAACG
GGTCCTCGATCACCGATCTCAAATACCGCACGCATCAGCGGATTCCGCGA
TCACCCGCTGATGTCCAAACACCGCATGCAGCACCGCTCCCGAATTATCT
CACTACTCATCAGAAAATCCAATTCCATTCGTCGCACATGAAATAACGGT
GTAAACACCACCGGTCACACACCGGTCACATCACTACCGTGCGCCCCAAT
CAAAGCCGGCATCACATCACTCAACTTATCGACCGCCCGTTCCTTGCAGC
CAAATCAAGCACGCTCATTCAAATCAAAATGAATCTCGATCCAAAATTCC
AGTGCTCTTGTCTCTGCAGCTGACGATCTTCTCATCTCGCCGCTGGTTTG
CTCCACACTGCAATCATCCAACACTCCGACATAGAGCTCGCTCTTATCAT
ATCCGGGTATCTGCAATCTCTCCATAGGACCGACATCAATATAATTTCAC
GGCTCCAAACTCACGAGTCACTCCACTCGCAAAATGATCCACCCGTCTGC
TTCTGCAAGGTCAGATAGAAACCACATAAACCTCGAGGGCTCAATTACAG
CAGCTTCTGCCCAACCACTGTTCACGGAACTCCGGATGCAATTGGCATCC
TAGCCCCGGCTACAAAAGTCCCCTTCGGTCGTCCAACCTCCAAAAAATAA
TTACCTTCCTCGAAGAAATCTACGCCGTGGCAAGATTGAATCATCCATAA
ACCTTGTTTCACGACGCTCCCGTCCATCCTTCCAACGGTGCAACACCAAT
CAGGTCCACAGTCCCTTTCCTCGTCCATCTGACATAAGGCCGCTCCTCAT
GCTTTGGTTCCAATTCAGGCTGCTCTGGCAACCCTCCCAACGCGCACTTC
ATCGACTCACCACGTCGACTACTCATGCAATCCTCATCACCAACAGGGTT
CATCACATCCACTTCGTCAGCAATCAATTCCCCTTCTCCGTTCTCTGCGC
GCTGGGGAATTACGTTGTTTGCTCCCATTGCACACGCCAATGCTCTTTTG
CTCTCCTCTTCATCCAACCGTCCTGGGGGATCCCCAAAACACCTCACCGG
TCTATCCGCGATCCAACCAGCCCCGTCGCTGTCACAAAGCTTACAGCTTC
CCCCTGTTATTGCAGAAAGCTCCTTCGAGTCTTCACCTCCCACGTGGTTC
GTTCTCATCACGGTCGTCTCCATGAACCACCACCAGATCATCACCGCATG
TCACTGGCTCACTGGTCTCGTTCCGACCTTTAGGGTCGCTACCGATTGCA
ACACAAGCTGCTCCTTCGCCATCTGCTTCGTCTTCGATCCTGCACAAGCT
CTGGCCCGCGTTGACTTCGCTCTTTTGGGTCTTCACCTCCAGCAATCCAG
AATGCTCTTCGATTCCGTCCATGTTCTCTCCGGCATCCTTGCTGTCACAA
CCGTCCCAATTTGCTTCAGCAGCTTCTCCCTCAACAATGCAAGCAGCGCT
CAGCTCCGACGGTCCAGAAAGATCGGTATCCTGGTTCTCAATATTGTCTC
CTGTCATGTAAGCCCTTCGTTTTCGAGATCTCGCGGTCATGAAACAGTAA
CCTCACCACGTCAATACCTCTCTCTCCCTCTCTCTGCCTCGCCATCTCCA
TCAGAAATTTGAACTGAGCTGAGCCATCAAATTTCTAGGTACTGCAACAG
AAACCCTCCCCTGCTGGGTACCAGAGCTCAACGATTTTTTCAAGCATTCA
ATTGCATCGTTTAAACCCGAAACACGCATGGTACCTCCACTCATCTCGGT
TCCACTGCACCTTAATCAACTCTTTAGCAGACTCCACAATGACTGCATCC
TCTTAATCTTCTCCAATTCACCTCCTCGCTTGGCGTACTTCCGACCCCTG
TCAGTTTCTGCCCTTCCTAGCGATCCAGGCTTTCACCAATGCCTCGCCTC
GGGTACTCTCGAGCCCGAGTCAATTTCGCCCAATGAATTCCTCAATCCGT
CACAAGTCACGGCACCCACTGGACCCACGTTCTTACTGGTAGTACATATG
TACTGCAGCGCCTCCACGTGATTATTGCTGAATGATCTCCCAACCCCTAG
CCAAGGGCATTCAGGCTTCAGTTTTGTCTCTCATTTCATTATCCCAGAGG
ACACAGGAAGACTACTTCCATATGCACTCGCGTTCACTCTCGTCCTACTA
CTATGAGTGATTATTCCAGCATACATTTTCTACGCTTCACAAGATGTCAC
TACCTCTTCGTATGTCACCAACCATAGATCACTCTCCCAGGCTATACCGG
AAATACTAGACCACACTACACTGTAAACAACAGTATACTGTAACCAGGTA
TGGAGGGACCATGCTCCAACGCCACACCAGCATGGTTACAGTACCATCAG
TGAAAAAAATCAGTCTCTTTAATTTTTTTGCGTGGATTTAGTTTATAGCC
GTGAAAATAGCACGATTTTTAACTTTGATAATACTGTAGCTAGCTAGTTA
GATTACGGCCTACTAGATTACAAGACTACTACAGAATCACCGACTACTAC
AGAATTACAGCTGATCTTGTAGTATCGTATTGTCAACCCTACAAGGATTC
TTGGGCGGACGTACCAAGATTGCATTTGGCACTTGTTCAACTGGGTAGAA
AAAATAGGGATATTATTGCGATATACATTCAGTGGGGGGAGCCGTTTTAC
TCGGATTTAGTGTGACCAGCTGTGACCAGCTTTGACGAAGCAAAGATTAT
CCACCTTGCTTTCGTTTCCAGGACTGTAGTAATTAGTTGTACAGACCGTA
CACTGTCTTGAAGAGAAGCGTTCGGGAATTCAACTATTGAGTGCTACCAT
TGACCCTCAGAAGCTCATGGTTTAGTGCTAAAATTTTCGATTATTTTCCG
ACGTTTATTTTTACACGTTTTGTAGCAAGCTACTTCAGTGCTGCGCATCT
TTCAACTTTTTAATATTTCATTAGAGGGCTTCCCCGTAGGCTTCATGTTA
CTCTTTCCATGTCATAAAATTCCTGACGCAATTCCCGTAGCGGAGGTGAT
CGGGCTGTATCATGCAGTCACGATGTTCAAGTGTAGTGCTACACGGTTGA
TGTTCCATCAGCCATCATCACGATGGCTAGTACTATTTTTACGCCCTCGG
GTCTTCTGTACATCGCGTACTGCAGTACATGGCAGCGGAAGCATATCAGA
TAACAGGTCAAAGGACACCGTTGTAGATCATGACACGCCTGAACCGTGCG
ATGTGGAGGGAGCTACGTGCAGCGGAAGCAACGACTGCGCTTCAATTGCC
TCTTGGTGCACGATAAATTGGCGAGTCGAACATCGCGGGAGATACCTGGG
AAGTAGTTTCTTTTCTTCCCACCCGAATCCGAGAGAACTCCGAGAGAAAT
CCGAGAGAACTCCGAGAGAACTCCGAGAGAATTCCGAGAGAACTCCGAGA
GAACTCCGAGAGAACTCCGAGAGAATTCCGAGAGAACTCTGAGGGAACTC
CGAGAGAACTCAAAGAGAACTCCGAGAGAACTCCAAGAGAACTCCAAGAG
ATCTTGCAGACGACGACCCCAAAGGACATATATTCGTATAACAACTCCGT
GGACGCGATTGGAAGGATAGACTTTCTGGAAGTCTTTAGATTCGGAAAGG
AACACTTCATGGTGCTCTTGTATGTGCTCGAATGTCTTTTCGCCGAAGCT
GCCCTGGCAGGCCACCTCCTTCATGTTTCTTAGCCTTGTCGCCAACGCTT
CCCACGCCTGCGTCCTCGCCGTTTTCTTCTGCACGAATGGATTCCCCGTT
GGATTTTGTAGCTACTTAAACAGAGCTAGTTCAAACGCTATGCCCGTTTC
AATCCTCGTTTATTTCGAGGCGTCTTCGTAGCACCCTTTCCTCCATCAAC
AATTACGTCATCTTCTTCGCTTTGTTCAATGTTGGTGCTAGGAACTGCTG
CAGCACCCATAGATGCTGAGTTCTCCCTAGAAGAGGCACTCACTACATCA
TCCGTTTCGCCTCAATATCCACCACTCGTCAATTTCACGCACGGTACGAG
AATGCTAGTAGAATTTGATCCTGTCTTCTGGTAGATGAGTTGACCAGTTG
ACAGCGTACACGAAAAAGTGCGGCACCCTTTGCGCCACGTCGAGCCTATA
TCATCACCCGTTTCTCCTCATCTGTACCGTACGTATATACTATAGTAACT
ACTTCCCGTACTTCCACCAGGGAACAAATTTCGCTTCCGTCATAAATAGG
GATGAATGGTTCGTTGAAATGAATGGTTGAATTTTACCAGCTTCTTCGCC
GCCAAGGTTAGTCTAGACAAGTCTAGTCAAGTCTTCATATCTTGACTATA
GTACAGGTAGTCTGCATAAAGCATTGTTCAATTCTCTCATATGTCTCGGT
CGATGCACTCTCTTCAACTGCATTTCATCCAACACCTTCGTCGTGCCCTC
CGCTGCTATGATATGAAGTAAGATATAAGACTTCGGAAGGCGGCATGCTT
CACATCATAAAGTGCCTGTTTTATACATCTAACCTATCCTCCTGTCATAG
ATCGATACGATATATATTTGTCAACGTGATTACGAAGAATGCCATCCATA
TCCCATTCCGTGCAACACTCACCCTATTTTCAAATGAACAACCCCATCTC
CGTGATGTCACGCAAATGACATAACCCTCAATTGCATTACCCAGATTAGG
TCTACGGGGAAACCCTCTATTATCCCCCGTGTATGTCAGGAAGACGGTGC
GACGGGGAATCCCAGAGATGAACCACGTACTACACGATGCTACTTGCTAC
TTGCTACTTGCTACTTGCTACTGTGACATCTACGCTGCAAATGCAGTCAA
TCCCGACACTTACGAAACAATGGGTAACTGCAGAAACGTGACAGAGGGGG
AAGAGGTGACTCGACTTGACTCGACTCGAAGATTCCAACCATTTCGACCA
ATGAAAAAGGAGAAGACAAAAACGATTGAAGCTTGAATTTGCAACAAAAC
GGTCAGAAACCTGTGACGGGCAGCCGGAAAGTACTACGCATCACGAGTCG
CAAATCCTACCATCCAACTACAGGTCCTGAGAAAGGTATTCCAAATGTCT
CTGGTGTTGAATCTGGAGGATCTCACCGTTTTCCTCCACTTTCTCGGAAG
ATATGATCCGTCACCCGCACAGTAGCAGTCTGCACCACCAGCGTACGACG
GAAATATTCTACATAGTGCAAAGTCACATGATTGAATGTGAAGCCGTGTT
ACATGCACAATGGTTTACCTGCCTCAAGTGTACAAAAGCTAAGGCATCCG
TCCACCGACCGACGACCAGCAATATGCGTTTTCTCAACTGCTACGTCCAA
GCAACATGCGATTACCTAACGGGAAAACGTATGAAAACGGTACACCGGGC
GTGTTTTGTCCGTAAAGTGGTGCGCTTTTGGCGCCGTAATGAAAATTCTT
GAATACAACGTGGGGACCTCCAACTTCAGACGGGCTTTGCGCTCACGTTC
ACCAAATGAACTGAAGCCATCCCGCCATCAAAGGTTTTCGCCGAAAAAAC
TCTTACATGCCTCGCGCACAGCCACCCCTAACTTCTTGCTCTCCTATGGA
CACGCCAGCCGTACTGGATTAAGAAGAATTTGGGAAGGCACACCGTATTT
ATCCTTTCTTTCAAATCTGTACCGGTTTAAGTATATGCTACGTACCGATT
CTAGGCGTTGCATGGCATCTGTACCATCTCTGGGCAATACTTCGAACCGC
TAGCAACAAGCCATCGGTCACTCGTCAACCATCCTATTGCAGACAGAGAT
TGCTTCCCGTGGAGACACGAAACTTCATTCTTCAGAGATGATTGTTACCG
AACGATGAGAGTGAGATCACGGATGACCTACAGCAGCAGGAATCTACTTA
CAAACCATGACTCGCAGACATTCAAATTGCCTGTGTGTCGGCTTCAAGAA
CATCCCCCCCGAGCCAGTTCTGCTTCTGAACCGAGATTATTTAGCCCAAG
GGCACTACACTGGGGCGTGCAAGCCTCCAACGCTGTACTGTACTCTCTTC
CATCTTTTGAGGAGGATACAACGGGTAAGTACGCTCGATGACAACCCGTG
ATGAAGTACTGCCAAAATAAATAGAACGCGATGATTTGCCACCAGTTCAT
CAGTTGCATCCATCGATTTCGTGAGAACTTTGGAATCGAAATTCTTGGTA
TTGGCTCTTGCGCGAAAGACTCACGCCCAGGGAGCCGGCTACCAGACGAA
GTTTCCGGCACGATTCCAAGCTCAATCTGCGCTAAATCATGCACATCCAC
AAGGACCCACACGTGTACATGGGATGCACAAGAATGATACAGCAGTTTCG
GTAACATCATTGTTATACCCCCCGTTATATTGCGTTTGGTAAGCTTCTCG
CTCAGCGGGAAAAAATGCGGTCGAACATACGTGACATAAATTCGCTTCAG
TTTTCGTGACATGAGGATGTTAAGGAGAAAAGGGCTGGGTATTCAAGCCA
GTTTCCTTCCAGCAGAAAGTGTAGGTTCTGGTTGCAGTGCCTTGTTGGGC
TGCGGTGACTTACACGAACGGCTTGTTCATCACGAGGTCTTGAGCACTTG
TCCACCGTCGACTTGACATGTAGCTGACATCCCACGGTGAACCGTTGAAT
ATCTTCATTACTGATGAACCCACATCAAATCAAGAGGGTCATATGACACC
CACAACATATACCTTACATACTATATCAGTGCCGACCCTTGACACAGTCA
GTGTGTCAGTCGACAGGGGCAACGATAGAGGAGTGGCGGAGAAAGCATTC
GGCAAGCAGCAGTACAACCTGTACTAAGGAACGACCGCTTCAACAGGGGC
GCCATTCCACATGGAACATCCCAGCCCAATCATAGACCAAAAGCGACTGT
TTCATACTGTATCGTGGAGTCGAACCTAATGTATCCCAGGAACCCTGAGG
TTCACAGCTGACCTAAGTACGACAGATGGAGACCTCATAACAAGATGTTG
AGGAGGAAGTCCAGTTCTAAAGGTGATGAGAATCGTAGTAGATGCGGTGG
ATAAAATGATCCTCTACCAGCAAAACGTGATCCTGAGTATTCCTAGTTCA
CTCGAGCTCTTTACTCAACATGGCAAATGCCCGTCATCATCTGAGGTCTT
CCAGCTTCAATAACCTACGATCAATAGAAAATACCGATGACAGTGACAGC
AAATCCTCGCGTTTCATGGCTCTTGACAGTACTTCATCACGGGTTGTCAT
CGAGCGTACTTACCCGTTATATCCTCCTTGAAAGATGGAAGAGAGTACAG
TGCAGTATTGCAGGCTTGCACGCCCCACTGTAGTGCCCTTGGCCTAAATC
GTCTCTGTTCGGGAGCAGACCTGGCTCGGTGGGGAGGTTCTTAAAGCCGG
CATCCAGACGATATGAATGTCGGCGAGTCATATGGTTTGTATATAGATTC
CTGCTGCTGTAGGTCGTCCATGATCTCCGTCTCGTCGTTCTGTATTAAGC
ATCTCTGAAGAGTCAATTTTCGTGTCTCCACGGGAAGCGATCTCCGTCTG
CAATAGGATGGTTGACGAGCGACCGATGGGTTGTTGCTTGCGATTCGAAG
TATTGCCCAGAGATGCGGTACAAATGCCATGCAACGCCAAGAACCCGTGC
GTAATATATACTTAAACCGGTACAGTTTTAAAAGAAAGGATAAATACGAT
GTGCCTTCGCAAATTTATCTTTAGTCCGGTACGACTCGTTCGCCCATATG
ATAGCACGAAGTTGGGGGCGGCTGTACGCGAGGCATGCGCGAATTTTTTC
GGCGAAAATCTTTGATGGCAGGATGGCTTGAGTTCATTTGGTAAATGCGA
TGTGCGAAATTGGAGTTCCCCGTGTTGTATTCAAGAATTTTCATAACGTC
GCCAAAAGTGCACCACTTGAGGGATAAAAGACGCCCGTTGTACCAGCTCT
AGGCGTTTTCCATCACCTAACCGCACCAATGGGGTTCTCCAGAGCATCCA
TCTCGCTACAGGCCGAGAGTGTTCCAGCAGTAAGCCACGGCAACATCGGG
AACCATATACGGCCCGGCGGTGCCGTAGTAGACCAACTGAACCCACATAC
ATCCTGTGCAGTACCTCATCGTCATCGTCGACCACGATGTGCTTCCGATC
AATCATCGAACGTCGATTGATTATACCTGAACGTCTAGTCCCCAACTCAG
CGTCACTTGAACCCCCCGACTCGTGACGATGAGTTGGGGACTAGACGGGG
TTCGCCGCGAGAGGGACACAACGGGGAACCTTTCGACGCACATTAATGGC
GGCTTCACCACGAATACCCCATCGGAACATGCACCCTCAAGATGAATCAA
GGGGAACCACGTCTCATCTCATCCCATCTTATGTTATCACATCTCATCTT
CAACGAGCCCGACTCGAGATACGATAGAATAGACACATGACGACCGTTTC
GAAGGTGGTGGTTCTAGATCATCTTGCAAACTTAACCTCCACGCTATATC
TCGCACTGGACGGCTTCGATAGAAAATCTGCTATAATTAGTACAGTCAAC
CCCCATAGATATGAAAGTCAAGTCCTAGTCCTTACATATCTCTGGGGAAA
CCGCGAAAAGCATTTTCATCCATGAATCTGGAAAATAATTACAGCTTCAA
AATCCAGGAATGCGGCAAAAAACCTCAAAAGCTGACAACCACTACTTCCT
CCCTCCCTCCAGGGATGTAGCAAATCAAACATTCGTTTTGTTGGGAAATC
GGATTACTATAGTGTCGGCATGATAGGCATGATCGGCAACAGGCCCTAGG
GAGCGATGATCTTCCTTTGATCATTCGGAGTTGTCTGCTGCCTTTCATAT
ATCGTCGCCGAAAAAAGCCTGGACTCCGACAGTAGACTAAGTACTGCAGG
ATGATTGGAGGATTAGATGATTGACACATGAGTTCTGAAACCGTCACGGT
GATAGAGATAGATCCTCCTACTTCTCATGTGTGCCAATCATCCGTCCGTG
ATGATGATGCTACGATGGGAGGCGGGGGATCGTTGATTGACGTTGGGATG
TTTGATGCTGTAGCCGCCGCCTGCATATTTACACAAGAAGGATGATCCCG
AGTGTATTTTCATGCTATCGAGTGGGAAAACAGTACTACATCAACCAAAA
ATGATTCTTCACGGTGCCTCGGTTTCCCATCACGTCTTTCGTGCGGCATA
ACTGGCTAGGCCTGGTGGACGACCCGATGATACAATGCGGTCCCGTTCGC
ACTCGCTCGTCGAGTAGGTCTCTTACGAACTCAGAGTAGTGCGATGCAGC
CTTTCTCCCTACTCACCGGAAGAAGGCCCCCGTCTAGTGCGAAATAGATC
CGAATAATGATGACGACGACGACGATGATGTTTCAGGGCGAGAACATCAT
TCCGAAACCCGACGGTCCGGGATCACCATCTTCGTACTTATCCTGAACGG
ATATAAACGAAAGCGCAACCCTAGCGTTGCGCTGATGATGTGTCCTGCAT
CATCCGAATGAATTGACCTCGTTTCATTCCCTGAAGCTGAATCTTTGGCT
TACGCAACAACAGAACCACTCTCATCCTTGTTCAATCCAAGTGCGATAAT
AACAAATAACAATAATGGAATCTATGTGGGGATGATTTCGAAATAATACG
GGTTTTCTCAGGCCGCGAGCGGCTTGATAGCTCCAGACAACTTTCTTTCT
TCAGGCGACGGGAACGCCAGCACTCCTGGGTGGAACAATTCGTTGTTTGC
CACAATTCAGTCGTCGTCCGTCATCATAAAGGAGTACAGAGCTTTTTATT
CAGTAAGGTGAAGTTAAGACAGCTTGTGTCGTGAAATGTATAAGCTTCTC
ACAAACAACTTCCTTTCGGTAAAGGCTTTTTTTTATGTATAGTTGTTCAG
TTCTTCTTCAAGCAAGCGCCTGGGCTGCCGTGCGTACGGAAACGTATAAG
AGCTGCTGTAGCGGCTGCCCTCCTGGTAAGGGCAAACACGATAGACCAAT
GACAATGAAGGGTTAGGAAGGGGAGGTGATTGTTAGTACAGTACAGTAGT
TTGTTATTGTCCACCGAAAGTGGCGGGACTGAGCCAGGTCATTCATACGT
AGCGGCGCGCGGGACCCCTATTCTGTCGATCGAATGCCGTATAGCATGAG
AGGGAAATGGAGTTGCATAGTGACATACACATCTTTCCATGCTCAAACTC
GAGTAACTGTTGCTACTACGTGTCGTTATCCTTCATTCACCCTGCGGCCG
CAGCCTCTGAGTCCTTCCTGCCCTGCACCCCTGCAGCACCCTGTTAGCCC
AGCCAAACCATAATTGCTGATGAGGAGAAACACATGGTTTCTTAGAGGGG
TCGAAGGCATCATTTAGGTCGTGTTACATTGCTCTAAGATCATTTCGTCC
ATCGACACGGCGAATAACCACACCGTCCACCTCAGGGTAGTGCGATCTGC
ACCTTCTCGTATGAAGTCAGGGGTCCGTGACATGGATCTGTTATGAGGTC
TCCATCTGTCGTATCTAGGTCAGCTGTGAACCTCAGGGTTCCTGGGATAC
ACTAGGTTCGACTCCATGATACAATATGAAACAGTCGCTTTTGGTCCATG
ATTGGGCTGGGATGTTCCATGCGGGATGGTGCCCCTGCTGAAGCGGTCAT
TCCTTAGTACAGTTGTACTGCTGCTTGCCGAGCACATTCGCGTTACTCAT
GTATCGTTGCCCCTTGCCAACCCTGACACATTGGCTGTGTCAAGGGTCGA
CACTGTTACAGTATGTAAGGTATATGTCATGGATGTCATATTACCCTCTT
GACTAGTTGTGGGTTCATCAGTAATGGAGACGCAGCACCCTGTTTGCCCA
GCCAAACCACCATTGTTGATGAGGAGAAACACATGGTTTCCTAGAGGGTT
CGAGGGTATCACTTAGGTCGTGTTATATTGTTCTAAGATCATTTCATCCA
TCGACACGGCGAATAACCACACCGTCCACCTCAGGGTAGTACGATCTGCA
CCTGCTCGTGTAACGTCAGGGGTCCGTGACATGGATCCACACTCTCGATC
ACCACCAACGTCATTGAAACCCAGGGTATGAATGCATTTCTTCCCCCATG
TAATGCAACCGAGCTTGCCGAGCTATCCTACGGGAGAATCTTGTTAAAAA
AGACATGAGGTAATGTCATGCACAAAAATTATAGGATCCGTTGTGCACTT
CTTGACTATACACCACTCCAAGTCCAAGTTGTTCAGCACCAAACCACTAT
GATACATGCGTCGTAAACCACCGTCGGCAGCGTAGTCCGTTGAAAACTCC
CTGATGTAGACAGGGTAGGGGAAGGTATCGTAGGCGACATGGAACCCTTC
CGCGAAATCGAACAGTTCCGATAACAATTGGATGCAACAGTATCGGGCTA
TTCTGCGACGTTGGATAATCCTTCGACATGGAACGGTTCTACGACAGGCG
GTGTACTCGGAACTAATGGGCAAGGAATACGACGAAGACGAAGCAAAAGA
ATGGAGCTTGAATATCGCCGACGCCGTTCGAGAAGGCACGAAAGCCCTCC
ATATTCCACGGTGCGATCAAAGGGGAGAGAAACGTTGTACAGCCTGTAAG
GAGAGTTGCACCATCTCCTCGATGGTATAGGGTAGTCAGTGTCAATGGAG
TCAAAACCAGTACAACCGTAGTCGGTGTCAAATTAACCGCCTCCCCGCAC
AACTTGGGTGAATCTCCCATCGAACGAGGCCCACCTCCATGTCCGGCTTT
GATCTTCTCGCACCCCGGACCCATTGTAATCTCTCCCACGGCGACCACTT
TTCCCGAGATCCATTGTAATCGTTGCCATTTCGAGGGACAGAAAAATGAC
GTAGAGTCACTAACAACAGGGCGAGACCGCCCTCCTCGTGCAGAATACTA
AGGGTTGTTGTGCTCGGAGCCACTATTGTCCCTCAAACGCGATTTCCATA
ACATGCCAAAATAGAGACGACTCCTACATGGAGTTGTAGTCCATCACACA
CATCCATCCGGCTTTCGACGTGCCCAGGGGAGAAGTTTCCAAAGGTCGAA
GGGAACCATCAACCCCTGGAACCTTTGCCCATACGCAAGCAGTGGTGTTA
CCATGAGGTGTTTCCTTGACCCTGTCTAGCGGAAGATAGGTGTCTATCTA
GAAGCTGATAACTCACTCGTGGGAATACGTCCAACAACCACACTTGCAGC
TATACTGTACAGTGATCCGGATCATAATGAAGTGAACCTTTGCTTGGGTA
CATACGAAATTCAAGTTAAATTCTGAAAGATCCCTTTGTTACGATTTAGA
GCAGTGTGCATTGGATCAAAATACGATACTGTCCATGATAACACTCGGGC
TTTTTATTTTTTTTACTTGGATTTAGTATGTAGCCGTGAAAAGAGCCCGG
TTCTGATCATTCATAGTATTGTAGCACGTGCCCGATAAGATCGATTTCAA
GCTGGCGGAACCTCGACAGTGTCTGCATGGGCACGTGCTTCGAGGAGGTG
GTGACTAGATCCGACTCATCGGAGTTCGTTGCCAAGTTCATTGCCAAGTT
CGTTGCGTTCGACATGCCGAAGAAGAATGGACGAGTTCCGACCAATTAGA
GCATGATGTGTAATATTCCGGCATCACTGAACTTGAGTTCTGGAACAACG
AGCAGCTGTTTTTTCCAGAAGGGTTCTGAATGGTTCAGCTGGAAATTAGA
GTTCTGAACCATTCTGGAACAATGAGCAGCTGTTTTTTCCGCGATCCTTT
GAATAATTTCGAAAAGCGAAGCAATGGTAGATGACGGACGACGACTCGTC
CCTACCCGGCCCTCCCTAACCGGCCCTCCCCTTCCCTCCAGGTATAAGAT
AGTGGTACAGGTCACGATCGGCCAGATGAAAGACCAAGGAGTGAGGGTGG
CGTCAAGGTGCCTATGGGATACAGCCACCGACAACTACGCTTCCGTGAAC
TTCAAGAATCAGAGCTTGTGGTGCTCGGCCATGATCTTCGGCGTCTACAC
CGAATAA

Coding sequence (CDS) from alignment at D-dichotoma_M_contig961:210199..229005+

>mRNA_D-dichotoma_M_contig961.20333.1 ID=mRNA_D-dichotoma_M_contig961.20333.1|Name=mRNA_D-dichotoma_M_contig961.20333.1|organism=Dictyota dichotoma ODC1387m male|type=CDS|length=798bp|location=Sequence derived from alignment at D-dichotoma_M_contig961:210199..229005+ (Dictyota dichotoma ODC1387m male)
ATGGTGGAAGAACCTCGAAGAGGGCCTCCCGTCGTGGAGATCGTCTTGCC
GACCTACATAACACGGCCAGGAGAACACGAGCAGTTCTACCCGTCTGAAG
TCAAGGCTATTGCCGAGAAGATGGTGGAAGAACCTCGAAGAGGGCCTCCC
GTCGTGGAGATCGTCTTGCCGACCTACATAACACGGCCAGGAGAACACGA
GCAGTTCTACCCGTCTGAAGTCAAGGCTATTGCCGAGAAGGCGGTGTACT
CGGAACTAATGGGCAAGGAATACGACGAAGACGAAGCAAAAGAATGGAGC
TTGAATATCGCCGACGCCGTTCGAGAAGGCACGAAAGCCCTCCATATTCC
ACGGCGGTGTACTCGGAACTAATGGGCAAGGAATACGACGAAGACGAAGC
AAAAGAATGGAGCTTGAATATCGCCGACGCCGTTCGAGAAGGCACGAAAG
CCCTCCATATTCCACGGTATAAGATAGTGGTACAGGTCACGATCGGCCAG
ATGAAAGACCAAGGAGTGAGGGTGGCGTCAAGGTGCCTATGGGATACAGC
CACCGACAACTACGCTTCCGTGAACTTCAAGAATCAGAGCTTGTGGTGCT
CGGCCATGATCTTCGGCGTCTACACCGAATAAGTATAAGATAGTGGTACA
GGTCACGATCGGCCAGATGAAAGACCAAGGAGTGAGGGTGGCGTCAAGGT
GCCTATGGGATACAGCCACCGACAACTACGCTTCCGTGAACTTCAAGAAT
CAGAGCTTGTGGTGCTCGGCCATGATCTTCGGCGTCTACACCGAATAA