mRNA_A-nodosum_M_contig926.1.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview


Name	mRNA_A-nodosum_M_contig926.1.1
Unique Name	mRNA_A-nodosum_M_contig926.1.1
Type	mRNA
Organism	Ascophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))

Homology

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5JRF9_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JRF9_9PHAE)

HSP 1 Score: 100 bits (250), Expect = 8.880e-19
Identity = 56/139 (40.29%), Postives = 75/139 (53.96%), Query Frame = 1

Query:  241 RADTMELTQDGPSR--CVDAFSIAFNQA-DSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLLDDAPTSDVKVKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSL 648
            R  T+   Q GP+R  C++A  +A N+  D   WY+ST ELQLASL FC+ CRN  T+HL V   +   LL  A       K+ C TRVP LR   +TW +P +   R    A+ ++E L F D F D + +  WP  L
Sbjct:   35 RPSTILRVQKGPTRKFCLEALIVALNETCDGKSWYTSTKELQLASLDFCIACRNCQTVHLNVDEQIPRRLLASADAPPPHPKRLCWTRVPRLRSRRVTWNMPTAAKLRTPIFAMTDMEYLEFGDAFGDSLEAVPWPEHL 173

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: D7FT95_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FT95_ECTSI)

HSP 1 Score: 90.9 bits (224), Expect = 2.550e-16
Identity = 53/133 (39.85%), Postives = 75/133 (56.39%), Query Frame = 1

Query:  259 LTQDGPSRCVDAFSIAFNQADSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLL-DDAPTSDVK-VKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEV-NSFSWPPSL 648
            L + GPSRC+DA  IA NQA    WY+ST++LQLASL+ C  CR++  L L V++   T L    A T + + VK+   TRVP +R   +TWKLP    R  + +A + V   +    F+D++     WP  L
Sbjct:    4 LARAGPSRCLDALIIALNQASGGEWYTSTMQLQLASLELCASCRSMHLLKLNVQHGTPTRLWRGTATTRETRSVKRRNVTRVPVVRARTVTWKLPGLALRNMTGDAWSEVTTFSLGPGFDDDLPRGIQWPEKL 136

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5KMU8_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KMU8_9PHAE)

HSP 1 Score: 88.6 bits (218), Expect = 3.290e-15
Identity = 50/125 (40.00%), Postives = 71/125 (56.80%), Query Frame = 1

Query:  289 DAFSIAFNQADS-SGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLLDDAPTSDVKVKKPC--RTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSLHR 654
            DA  IA NQ    +GWY+S L+LQLASLQ C+ CR V T HL V+ D+  LL   +     + +     ++RVP LRP  +TW L  +   R+  +A  +V+ L F D F+  V+  +WPP L +
Sbjct:   17 DALDIALNQVSGVNGWYTSKLQLQLASLQLCLACRRVPTSHLTVERDVLALLWPHSAAEATRSRLVSLGQSRVPALRPRKVTWNLA-TLSMRHCGDAFESVDVLVFGDSFDYRVDRVTWPPGLKK 140

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5JUA5_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JUA5_9PHAE)

HSP 1 Score: 87.8 bits (216), Expect = 7.850e-15
Identity = 50/129 (38.76%), Postives = 71/129 (55.04%), Query Frame = 1

Query:  271 GPSR--CVDAFSIAFNQ-ADSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLLDDAPTSDVKVKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSL 648
            GP+R  C++A  +A N+ +D   WY+ST E QLASL+FC+ CRN  TL L V +     LL  A       K+ C TRVP LR   +TW +P +   R S  ++ + + L F   F D + + +WP  L
Sbjct:    6 GPARDSCLNAIIVALNETSDGKSWYTSTKERQLASLEFCIACRNHQTLDLKVDSRTPRRLLAAADAPPPHPKRLCGTRVPRLRARRVTWDIPTAAGLRNSIYSMMDADSLEFVRAFEDSLEAVAWPRRL 134

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5JFC0_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JFC0_9PHAE)

HSP 1 Score: 86.7 bits (213), Expect = 1.040e-14
Identity = 55/130 (42.31%), Postives = 69/130 (53.08%), Query Frame = 1

Query:  271 GPSRCVDAFSIAFNQA-DSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLL---DDAPTSDVK----VKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSW 636
            GPSRC+DAF +A NQA D  GWY ST +LQL+SL FCV CR+V T+HL V       L    DDA     K     K+    RVP LR   +TW+L      R +   L++VE     D  ND ++   W
Sbjct:   26 GPSRCLDAFKVALNQACDGGGWYVSTEQLQLSSLPFCVACRSVPTMHLKVDRSTPARLFSGDDDAAAVRDKGHGSSKRVMAARVPALRARKVTWQLSGET-PRCTGVGLSSVELFVLGDAVNDSMDEAVW 154

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5JA08_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JA08_9PHAE)

HSP 1 Score: 87.4 bits (215), Expect = 2.490e-14
Identity = 52/140 (37.14%), Postives = 75/140 (53.57%), Query Frame = 1

Query:  238 TRADTMELTQDGPSRCVDAFSIAFNQADSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLL-DDAPTSDVK-VKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEV-NSFSWPPSL 648
            TR+      + GPSRC+DA  IA NQA    WY+ST++LQL SL+ C  CR++  L L V++     L    A T + + VK+   TRVP +R   +TWKLP    R  + +A + V   +    F+D++     WP  L
Sbjct:   28 TRSGRHTNVETGPSRCLDALIIALNQASGGEWYTSTMQLQLTSLELCAACRSMHLLKLNVQHGTPPRLWRGTATTRETRSVKRRNVTRVPVVRARTVTWKLPGVALRNMTGDAWSEVTTFSLGPGFDDDLPRGIQWPEKL 167

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5KPY7_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KPY7_9PHAE)

HSP 1 Score: 87.0 bits (214), Expect = 6.320e-14
Identity = 50/129 (38.76%), Postives = 68/129 (52.71%), Query Frame = 1

Query:  271 GPSR--CVDAFSIAFNQA-DSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLLDDAPTSDVKVKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSL 648
            GP+R  C+   ++A N+  D   WY+ST ELQLASL+ C+ CR+  TLHL V       LL  A       K+ C TRVP LR    TW +P +   R S  A  +V+ L F   F+  +++  WP  L
Sbjct:  130 GPTRSSCLKTLTVALNETCDGKSWYTSTKELQLASLELCMACRHYQTLHLTVDAHTPRRLLAAADAPSPHPKRLCGTRVPRLRARRATWNVPTASGMRTSIFATMDVDYLEFGQAFHGSLDAIVWPRRL 258

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: D7FXS2_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FXS2_ECTSI)

HSP 1 Score: 81.3 bits (199), Expect = 1.180e-13
Identity = 52/133 (39.10%), Postives = 72/133 (54.14%), Query Frame = 1

Query:  268 DGPSRCVDAFSIAFNQA-DSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKN-DMRTLLLDDAPTSDVKV--KKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSLHR 654
            +GP RC++AF++A N + D + WY+ST ELQLASLQFCV CR V +LHL V N  +   L +D   ++ +   K+P  T VP  RP  +TW  P       S   L   +   F  R +  V+   WP  L +
Sbjct:    2 EGPGRCLEAFAVALNTSCDGNVWYTSTKELQLASLQFCVKCRKVPSLHLAVNNAHVPARLWNDHAATEARTGAKRPSTTPVPVFRPREVTWGRPAWLL---SDICLVFAKVERFLVRQDTVVDDVVWPCRLKK 131

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: A0A6H5JZZ4_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JZZ4_9PHAE)

HSP 1 Score: 84.3 bits (207), Expect = 5.450e-13
Identity = 47/123 (38.21%), Postives = 66/123 (53.66%), Query Frame = 1

Query:  283 CVDAFSIAFNQA-DSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLLDDAPTSDVKVKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSL 648
            C++A  +A  +  D   WY+ST ELQLASL+FC+ CR   TLHLIV   +  +LL  A       K+  R RVP LR   +TW +P +   R    AL +++ L F   F   + + +WP  L
Sbjct:   36 CLNAIYVALGETRDGKSWYTSTKELQLASLEFCMACRAYQTLHLIVDVRIPRMLLAAADGPPQHPKRLSRRRVPRLRARHVTWNMPTAAELRSPIFALMDLDHLDFGSAFEGSLEAVTWPRRL 158

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BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Match: D7FH81_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FH81_ECTSI)

HSP 1 Score: 77.8 bits (190), Expect = 1.960e-12
Identity = 43/123 (34.96%), Postives = 64/123 (52.03%), Query Frame = 1

Query:  283 CVDAFSIAFNQA-DSSGWYSSTLELQLASLQFCVVCRNVSTLHLIVKNDMRTLLLDDAPTSDVKVKKPCRTRVPTLRPLILTWKLPMSCFRRYSSEALANVEQLTFSDRFNDEVNSFSWPPSL 648
            C+ +  +A N+  D + WY+ST ELQ ASL+FC+ CRN   +HL V   +   LL  A       K+ C TRVP LR   +TW +  +        A+ +V+ L F   F+  + + +WP  L
Sbjct:   14 CLSSLIVALNETCDGTSWYTSTKELQRASLEFCIACRNYPIMHLKVDPQIPRNLLAAADAPPPHPKRLCWTRVPRLRARSVTWNMRAAAELGNPIFAITDVDCLEFGGTFDGSLEAVTWPRRL 136

The following BLAST results are available for this feature:

BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot

BLAST of mRNA_A-nodosum_M_contig926.1.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 18


Match Name	E-value	Identity	Description
A0A6H5JRF9_9PHAE	8.880e-19	40.29	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
D7FT95_ECTSI	2.550e-16	39.85	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A6H5KMU8_9PHAE	3.290e-15	40.00	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A6H5JUA5_9PHAE	7.850e-15	38.76	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A6H5JFC0_9PHAE	1.040e-14	42.31	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A6H5JA08_9PHAE	2.490e-14	37.14	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A6H5KPY7_9PHAE	6.320e-14	38.76	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
D7FXS2_ECTSI	1.180e-13	39.10	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A6H5JZZ4_9PHAE	5.450e-13	38.21	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
D7FH81_ECTSI	1.960e-12	34.96	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
A-nodosum_M_contig926	contig	A-nodosum_M_contig926:14286..31087 +

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
Ascophyllum nodosum dioecious OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Model size	2729
Hectar predicted targeting category	other localisation
Exons	2
Cds size	1362

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680870397.3922946-UTR-A-nodosum_M_contig926:14285..14537	1680870397.3922946-UTR-A-nodosum_M_contig926:14285..14537	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig926 14286..14537 +
1680870397.4280112-UTR-A-nodosum_M_contig926:29972..31087	1680870397.4280112-UTR-A-nodosum_M_contig926:29972..31087	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig926 29973..31087 +

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


Feature Name	Unique Name	Species	Type	Position
1680870397.4044232-CDS-A-nodosum_M_contig926:14537..14556	1680870397.4044232-CDS-A-nodosum_M_contig926:14537..14556	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig926 14538..14556 +
1680870397.4162614-CDS-A-nodosum_M_contig926:28629..29972	1680870397.4162614-CDS-A-nodosum_M_contig926:28629..29972	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig926 28630..29972 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_A-nodosum_M_contig926.1.1	prot_A-nodosum_M_contig926.1.1	Ascophyllum nodosum dioecious	polypeptide	A-nodosum_M_contig926 14538..29972 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at A-nodosum_M_contig926:14286..31087+
coding sequence from alignment at A-nodosum_M_contig926:14286..31087+

protein sequence of mRNA_A-nodosum_M_contig926.1.1

>prot_A-nodosum_M_contig926.1.1 ID=prot_A-nodosum_M_contig926.1.1|Name=mRNA_A-nodosum_M_contig926.1.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=454bp
MELTQDGPSRCVDAFSIAFNQADSSGWYSSTLELQLASLQFCVVCRNVST
LHLIVKNDMRTLLLDDAPTSDVKVKKPCRTRVPTLRPLILTWKLPMSCFR
RYSSEALANVEQLTFSDRFNDEVNSFSWPPSLHRLTFRKRFNQAIDGIVC
PALIQQLTFGRDFNQAVDIVVWPVSLRQLTFGNCFNQAIVGVVWPASLQH
LTFGVYFNQTIDGVAWPASLQQLTLGDAFNLAIDMVVWRASLQQLTFGSH
LNQAVDGVVLPASLQQLTFGNSFNQAIDGVGWPTSLKQLTFGCCFDRAIA
GVVWPPSLQQLTFGHFFNQAIDGVVWPPSLQQLTFGYRFNQAIDGVVWPA
SLQQLTFGAGFNQAIDGIVLPASLQLLTFGAVFNQAIDRVGWPTSLKQLT
FGCSFNQAIDGVVWPPSLQQLTFGRRFNQAIDGVVWPASLQQLTFVRRVG
YVL*

mRNA from alignment at A-nodosum_M_contig926:14286..31087+

Legend: UTRpolypeptideCDS

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

>mRNA_A-nodosum_M_contig926.1.1 ID=mRNA_A-nodosum_M_contig926.1.1|Name=mRNA_A-nodosum_M_contig926.1.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=16802bp|location=Sequence derived from alignment at A-nodosum_M_contig926:14286..31087+ (Ascophyllum nodosum dioecious)
GTGTTTCAAAATTACACCCACAAGGTATTCGTCCTCTCCATCTCGTGATT
GAGGTTTCCTCGACACTAAAGCGTAGGAGTTCTTACTGCTGCGGTAGTCT
CAAGGCCCAGAAACTTGTTTGAACGGCGCTTTTGGTGTGGACGCTTCTCG
CGCGCTTGAAGGTCATCAGTTTTAGACACTTGGGGACGTGAGGTTTAAAA
GACTCGTGATACGTGGGTAAAGACTGAAAGAGACACAACCCGGGCAGACA
CGATGGAGCTGACCCAAGACGGTGAGAGAAACCATTCAAGCGATGTGACT
GCCATGCATCACGGAGATCATATTCATCGGCTCACCTACCGCCAAATTCA
TATGGAGGAACGGGAAACCTATCGCGCGAATAAAACTACGAGCAAAGCTC
GCGTACTTTTAACGGTGTACAGTTGGAAGACATCACCTATTCATTTAGGA
ATTTGCGAACGTAAAGTAATTACTGTTCGTCCTCTGGCCTACCCCTGCCT
GGGGTGGGCTGAGGTCCGCCTAAGGTCTTAGACTACCCGTAGACCACATT
ACAGCGGATGCACGAGCTCAAGCCTCGTCGAATCGGGAATCCTGAGTTTA
GCCGGTAGGTGGGCTACCGCGGTCGCGAGACCGGGGTATTACACAAATCG
GTCGAATTTTGGCGGCTGCATGGGTCTAAACCCTAAGGCTCCGGCATGGA
CACCGGGGCCGAGCAGCAGCGGAGACCGCCGAGGGGACAGCCTAGGAAGG
ATTAGAAGGGTTGTACACGGCGTGGGTACGCACAAGAGCGTGGATGGAGC
AGAAACGCTGGGAGTAGGAGGGTTGAACCTACCCAAGaAAAAAGACAAGC
ACCGGGCTAACCTTCACAGCCAGAGAGTCCAACAAGCTATACAGAAAAAA
CAAAGAAAAAGGAGCAGGAGGAAACGGAAGAGGGGCCGGGTTGGACGTAG
GCTTGCAAGGGCAGCAGCACGTCTAACTCGGGAGAGGCAGAAAGCAGCAT
TGTTCAAGGTAGCAACTTACAATGTCAGAAGCTTTTGTCTGTAAAGGGAG
CCAACGGCTATGGGCGGGATGAGGTCGTGCTGCACGAAGCAGCATAAAAA
AATATAGCCGTGGTTGGGATTCAGGAAACGAGGAGACCAGGGCGGACAGT
CTCTACTGCAGCAGGGTTCCGTGTGTTCTACAGCGGTTCTACACAAGGTG
GGCAACATGGCGTAGCGTTGGCGGTTAAGGAATCGATATGCAAGACGTCT
AAGTTCACCAGGGAAGATGTTAACGAGCGTCTGATGTCAATGCGCGTTGA
GATGTCGGGACAGCACCAAGCAGTCAACTTTGTGGTAGGGTATGCACCCA
CGGAACCCAGTGACAGTGAAAATAAACAAGCGTTCTGGCATAGGCTCGAC
AGCTTGGTGCAACGGATCCCCAAAAAGGAGGCTCTTTTTGTGCTGATGGA
CGCGAATGCACGTACCGGCCTGAAGATAGAAGGAGAGAGAACGGAGGATG
ATGGGGTACTCGGTGCATATGGACGTGATGAGTTGAACGACAACGGTAAA
CGCTTGCTGAACTTCGCCACAGACAACAAACTTGCTGTCACGAACACATT
CTTCAGCACGCGCAAAGGCGGCATCTCGCACACTTACAACGGTGTCATCG
GGGATCGCGCTGGCGACTTCAAGCGCATCGACTACATCCTAACACGCCAG
GCACACCGACCGAGAGTACACAACGTAGAAGTACACCCGCAACCAAATCG
GCCGATCAAAGCGGACTCGGACCACAACATGGTGTTTGCCACCGTGGACC
TTGGGGACGACTTGCCCACAGCCGCCGTGTTCAGCAGACACCGCAACCCC
GGTCATTCGACAGAAGCAAGCTGAAGACGAGATTCCTCCGGGAGCGCGTG
ATCCGGAAATTCCTCGACAACATCGACGAGATAGCAGGCCAGCGAGCCAG
CGTGGCGGAGGAAGCTAGGGAGTTCACGGAAGCCATTCTCGGGGCGGCGC
ACGCGGTTCTCCCGGAGGCGAGACGGACCCACACAGGCTTGGGTGGTGCG
AACGGCCAGCAGTTAGAGCTGCGCTCTTGGCGGCGCTGGAAAAAAAGCGG
GAGGCTCGCCGGCAATGCAAGTCCAAACACACCACGGCAACGTGGAAAGC
ACTTCGAGCTGCGTGCAAGGAAGTGCGAGCGGCGATCGACAAGGGTATAG
AGGCCCACTTGGAGGAGTATGTGGCGGAACTAGAGACACTCCTCCGACAC
CGCGACATGAGGGGTTTGTACAAACACCTGAAAATGACGGCGGGCCTGGG
CGGGAGGAAAACCGAGGGACAGCAGGCCATCAAGGACGAGAACGGCAATC
TGCTGCGAGATAAGAGGGACATCCTCCGGCGGTGGGAGAGGTTCTTCGGC
AACCTGCTCAACACCAAGTCTCCCACACTCCAACCATCCATCGTCGAGAA
GGTACAGCAGCGGAGGAAGGCACCGCAGCCGCCGCCGCCCGGGGCAAGGT
CGCAAATCGAGGAGCCAATATCACTCGAGGCAGAGCCAACGTACGCGGAG
ACGCAGAAGGCAGTCCGGGCGATGGCCAACTGGAAAGCGCCGGGCGCTGA
CTCACTCCCAGTAGAGCTACTCAAACTGGACGACCCAACCCGCGAACCCG
TCGTTCTCAAGCATTTCCACGCCATTCTCGTCCGTGTGTGGAGAGGGGAG
GAAATCCCACAGGAGTGGAAAGACGCAACGATCAAGGTGCTCCACAAGAA
GTCGGACCGATCTGACTGCAACAACTTCCGAGGGATTTCACTCGTCTCCC
ACGCCGGCAAAGTACTGCTGAAGATCGTCGCCAATCGCCTTAGCGACTTC
TGCGAAGCACAGCAGATACTGCCGGAGGAGCAGTGCGGCTTCCGGCCGGC
GCGATCCACCATCGACATGCTGTTCGTAGTCCGCCGACTCCAGGAACTGG
GTCGACAGAGGAAAATCCCGCTGTACATGTGCTTCGTCGACCTCCAGAAG
GCCTACGACTCGGTCGACCGAGAACTGTTGTGGAAGGTGCTGGCCCGGGC
AGGCGTACCGTCCGTGATGATCGACGTCATCCGCCAGTTCCATGACGGTA
TGCGCGCTAGGGTGCGCATGGACGATGGAGAGCTCTCGGAATGGTTCGAG
GTCACACAGGGGCTCCGGCAAGGATGTGTGCTGTCACCATTACTGTTCAA
CATCTTCTTTGCAGCGGTGATAGAAGTGGTACTACAACGTTTCAGCGAAG
ACGACACCATTCTCGAGAGCCTGGTATTTCTCGACGAAGGAAGTGGGGGC
GGACCGGACGAGACACTGCTAGATCGGGTGCGAAGGGCAGTATGGGGAAT
GCTGTATGCCGACGATGCTGGGATCGTGTCCAGATCGCCAGCAGGGCTAG
CGAGAATGATGACGGTTATCGTGGAGGTATTCGGTGCGTTTGGCTTGACC
GTATCGGAGAAGAAGACGGAGACTCTCCTGATGCGGACACCGGAGAAGGC
GCAACAACCGGGGGAGACACCAACACCACCTCTACCGGCGCTGAAGATTG
CAGCAGCCGGACAGAAGTACCACCAGGTCCACCAGTTCGTATACCTGGGC
GGCCTCATTACCGAAGACGCCGACATCACGCGAGATATTAACCGCCGCAC
CAAAATCGCTTGGGGATGCTTTAGGAAGTTCTCCACAGAGCTCTTCGACA
GGCCAAACGCGCCATTAAGGCTCAAGGCTCGGTTTCTGAAGGCGGAGGCC
ATGGAGGCTCTTCTGTACGGGTGCATGACGTGGGCCCCGCGTAACGCTCA
CTATCGGCAGCTCCGGACGACGCACCACAAGCTCCTTCTGCGGGTCATCG
GGTACCACCGCGTTCACGGCACATACCGAAAGATGTCGTACGCTAAAGCC
CTCAAGAAAACCGGGAGCCAAAGTGTGAAAGCGACAATTCGCCAGCGGCG
GCTTCTGTTCGCAGGGGCTTTGGCCAGACAGGATGACAAGCGACTCCCGA
AGCGGCTGTTGTTCGCCGAGAGACTCGAGGGGGCAAGACCTGGGACCCGG
CCAGCCGGCACAGCACTGGCAGAAAAGCTTGAGGGACGACTTCAAGGCAT
TCGGAGCTCTACACGGCTCCACGCCAAGTGACCGGCGGACTTTCGGAGTC
GACAGGCTCGTCTGGACAGAGGCGGCGCGCAAGGGAGGGAGCGCCGTGGT
ACACAGGGGTCCTGCTGGGGCGGAGAGATTTATGGCGTCGTGGCACAAAA
GCGAAGAAGAGGCTAGCAAGTTACGCGAGGTAAATCGAGCGGCTTAAGAG
TGCTGGTGAGCCATAATCTACTGCCTTGAGTTACCTCCACTTGGGGCTTT
TGCCCATAAACGGGTTTGACCTGACCGCTTGCCTTGAGTTAAACCTAATG
TGTTTTCTTGTTTTTTTTGTTTGTTTGTTTTTATCCCGTATTTGCCTGGC
TAGTGAGAAACCCGACAAAGAGCTCCCCGGCATAGTAGGGGCGCGTGGAG
ATACTGTCTAGGACATAGGTACTATCTTGCATGACGTGCGTGGTTATTAT
TATTATTTTATTTTCTGCCCTCTCACAGCTCCAAGGTGTTGAGGGGGGAT
GGCCTGGTCGGCGGGAACCCGACGATGAACACTCCCCGGCTTCGTAGGGG
GGATAGCCTCCTCTTCATTTATTTTATTTTTTTACCTGTATTGGTATTCC
TATATACGTAGAATATTTTGTTTGTGACTCAGCTTCCGAGTTTGGAGCGA
TGGGCTCTACTTCCTTTTTTTGGGGTTTTCCTAcCCTAACCTGCTTCTTG
TTTTTCTGAACCTGTTACTTTTAGGAACCTGTATCATATGTTTTTTCGCA
AGTGTTGGACTTTCTCTGGGTCTTTTTTATTTTATTTTATTTTTCTGTAC
CTTATTTTGGGTTAGCGTGTGACCACGGAAATTCGTTTCTTTGCCTTGAA
GAGTAAGAAAGAGAAGGGTACTGGATAGAGGTCAGAACGGTTTTTAATGT
GAAGACAACAACAACAACAACTACCTGATACAAGTGTCAGCAGTACCGCT
GTATAGCAACTCCAATATATTCCCTAACAAATTATAGGTCGATCTACATG
GTAATCACCGATGGGCGTTGTTGTCTTCTTTCCTAAGGCCAACCGCTATG
GGACTCCACTAAAACAAAATGAACAAAATTCCGTAGGTCATTTAAAAAAC
ACGGAATGTTCCAATTTTTTTTTGTAGGTCTGTGTTTTGTTGTGTGGCCA
CCTACGGAACTGTTCACGCCTTTCGAAGCACTGTACAAAACCTGCCTCTA
AGGGCGAGATGTCCCCAAGGTGGGCCAAATACCAGGAACTCTGAGGATGA
GATGTGCCCACGGTGGGCCCAATTTTCAAATTTCAAACTAGTGGGCTAGA
GACTTAGGGCCAGTATTCCAAGGACATCCGTCTCATTTTTGTCTTTGTTT
TTTCGTTCACTTGCCCACCCCATAGCGGGGCACATACAACAAAGAAAATA
CAAAAGAATCGTGCGGAAATGAACAAATTTTTGTGTTTCATTTTTGTATT
TTTGAGGTCCCATAGCGGTCGGCCTAAACGGTATCGCCTCGGGAATTCTA
CACTTCCCGCTGCGGTAACTGCTTTCCACAGAAGCTCTGTCTGCCTCTAT
CTTCTCCTCGCGAACCTCTTTGCTCCGCGCGGGCGTAAACCTTCGGCCGC
GCTCCGTGAGCGTTATGTTCCTCACTCATGCCTCCAACGTTACCCTTTTA
CAGTGAACTGCTTCCGTGTACTTCAACGATTTCAAATAGAAGTTACTGAT
TGTATGGGGCATTATAACCCGTTTAAATGCCATGAAGAGGTTTGGTCTTT
GCAGTCTATGATCCCACCTAAACGTTTTGACATTTCTCCCCCTGACTGGC
GGATGCTCAGAAGGTCTAGATGCGTTCATATTTTTCGTAAAAATACGCCC
CGGCCCTTCGATATTGAAGTGCTACTTAGAGTCGTTAGGCCCACTCTTAT
GAGAACGAAAAACGAAACCGAAAATGGCCCGAATCTATATTTTTTGGGGG
ACCAAAAACATGGTCAAAGTCAATCTTATGGCAACGGTTTTTAAAGAAAA
ATCTGAACGCATCTAAACCTTCTCAACATCCATCGGAAATGTCGAAACGT
TTAGGTGGGAACATTGGCTGTGGGGACAAAAACTCTATATGGGATTACAA
GGGTTCCCCGATGTTGGTAGCATAGGGTCGATAATATAATATCGAGGAGA
AACCCACAGTTATACTGTACAGTTGCAGTAATCGCCATTTAGGGACACCA
CATAAAAGACATAAGCCTAGATAGAACTACAGAGTTACTCGGTTATGTTG
TAATGAGGTTTGAGATCGCAGGTTAAAGTATTGGTGGATTGAAATCGATA
AGAGTATACTATAATATAGTATAATGGTCGCCCTATTAATAGTACCAACA
ATTGTATTGTATATTACAACTGGTGATGGGTACAATTTTTGTTCTATTTG
TTAGTGGTAACTCGAGCTAGACCAGACTGTGAAATAAGGAAGAAAAAAAT
GTTTTGGCGTGGTTTCGACAAACTAGTCTAAGCTTGCCCTTGCGGGGGAA
ATACAAAATTCAAATTGCCAAAGGCTGGGGATAGCCATGTATTTTTCAAT
ACAAGAGGGTGAGATTTGCAAGAGCAGACCAGCTGGAGCTCTACGGTAGT
ACTACTTAACCAGTGAAGCGCAGACACCTACCTATTTTCAAATAATGAGG
GTGAGATTTGCAAGAGCAGACAAGCTGGAGCTCTACGGTAGTACTACTTT
ACCAGTGAAGCGCAGACACTAACCTATTTTTCAAAACAAGAGGGTGAGAT
TTGCAAGAGCAGACAAGCTGGAGCTCTACAGTAGTACTACTTTACCAGTG
AAGCGCAGACACTAAACCTGTTTTCAAAACAAGAGGGTGATATTTGCAAG
AGCAGACCAGCTGGAGCTCTACAGTAGTACTACTTTACCAGTGAAGCGCA
GACACTAACCTATTTTCAAATGATGAGGGTGAGATTTGCAAGAGCAGACC
AGCTGGAGCTCTACAGTAGTACTATTTTATCAGTGAAGCGCAGACACCAA
CCTATTTTCAAGACAAGAGGGGGATATTTGCAAGAGCAGACCAGCTGGAG
CTCTACAGTAGTACTATTTTATCAGTGAAGCGCAGACACCAACCTTTATC
GAGGTGCCAAAATTCCACGGCTTTGAACTCGCTCCTTTGTTCTAGTCTAT
TAGATCAAAGGTCGTGATTTTGTTTATTGATGTGTGCGGTTTGGATACTA
TTAATACTCGGGCTCCCCGAAAATGCAGCAGGTTTTCACGACACAGACGT
ATTAGATTATGTCTCCGTACCCATACTTCTGTACTGCTGTAGTCGGATAC
AGTACGTTCCCCTGGCGATAATTCTATCAGACGCGGGCGAACGGATGCAT
CGGGACTAAATTCCAACACAACAGATGCACGCAGCATGTCGTATCGTGAC
ACGGGGGTCATGCTGTACCAAGCCCTTCGCATAGTTCAACAGCAACTGTG
AAATCTACTGTAGTCTGGAACAGCTGGTCGCGTCGCCATGCTACCGGTAC
ATATCATCTAAAGGCAAAAGGCTTCGCCAGAAGATACTTGTACACACCTC
CAGGTTTGCTGTATTGTGGGGGGTGCACTTGGACTAGAAAACGTAGGTGG
CCTATTATAGCAACTACCTGGTACTTTTTCTGAACAAACCCTTCTCAGAC
CGTTGACTGTGACAGGGGCGAGCGCTTCCTGTTTCGGTGAACGACATCGA
GATGTACTGTCCCAGAATTCAGATGAAAGCACAGTACCATACTCAACAAG
TACAGACTGTTGTACGGTAGAATGCAAACAGTTCAGTTACTGTACGGGGG
TATATGTGTGCTACATACAGTGTGCTGGGTACACCAGCGTATATACTTGC
ATATAGTTATGTGGAATCAAACTCTGTACTTGTTTCAGATGATCATACCA
TGACACCACTTCTGCTATGCCGTCAACAAGGAGAGGAGCTCCAAAAAATG
ACGTATGGAATGCGGAATCGCCGACGAAACGTCTATGCCTCCCTTGAAAT
GTGGATTCTTTGGCTCGGCTGCCTAAGTATAACAACCATTCACGGTGCCT
TCGTGTAGTCATCTCGGGGATACACGCGCCGCATCCACTTGACCTTAGAG
GAGTCATCCCCAACCTCTCCAAACCACCCGTCTTCCTTATCTTCGAGCAT
CTCAAGCACCTCGGACCTTGCCGCCAGCGTCCTCTCTCTTCTCTTGAGTA
AAAAACTATCGACCTCAATTCGACCATACCCTTGGTAGAGGCCGCATTCC
TGGCGGAGGTAATTATGTATTTGAATTCTAGCAATGGCCAAATGTAGTAA
TAGTTGCGCCTCGTGCGAAATCCGTGTGTAATCTTGTTACGAAAAACTCA
AACGGGTTTATCTTTACGAATCTGTACCTATCTCGTTCCCATAACATTGA
AAAACAAAGACAAAACATATTTGAGCCATTTTCGTTGAAGTCGTTCGTTC
CCATAAGAGTCGGGCTTACAAGCGGAAACCAATGTTTCGAAATTTCTTCG
AAATATCCTTCCCGCTTCCCTGCTGGGTGTATGTATGTGTGTATGGTCAC
ACATATAGCAAGAGTATGATTAACCGGGTAAGGTTGCCAAATCTGCTCGT
GGTCAGCTGAACAGGGGAAAGGAATATTTCCCTAGCCCCGTTCGCGCCTG
AGAATTTGATCTCGCGAGGCAGGTTCGGCAGTCCCGTCCCGCGTCAGCCT
GCTCATCTCCATATCCATGCTGAATCTGGGGCTTAGGGGATTCCTCGCCT
TTTCCCCGTCGGCGTCCATTTATTTTTTTAAACCACCATACGCCATCGGA
TGAGTCCCGAGTTTAGCAGGCCGCGTAATTGTGTACCGATGTTATTCAAT
GCGTAGAGTCCGCCGGCACAGGGCCAGTAAACCTCAAGGTAGTTCCAAAC
GGATGCTGCCTTGGCAGGTCACCATGGACCAATTAATATGCGCCTCTCTT
CCCCATACCTGCTATTGGTATGAAGTGGTTATAGCATGTAAAAAGTATCG
AAAGAGTAGGGATGATACGGTGTGGTCCCAGCGTCGGGCCATAACAGCAC
TAATGGAAACACCTCGATCCTTTGCGAGTTATCAGTGTAGTGCAAGCGAT
GTTTGGCCGATGTCACAGCCCCAAGCACCAGCCCACAGTTCAGCCGTGCG
ATCGCGGAGTATTGTAATTGGTACGGTCCGGCTGGTGTTAAAGCCGATGT
TGATAATTCTATATTTCGTCAAGATTTGTTTAGGTTGATATGACATCGGA
TTCGTTATTTTCTACATTTGACAACAGTTGACGTTGTTTGTGGCTGTCTA
GTAGATAATCTGTACACCTGTTATAATAGTGCGGGAGTCGTGAGTTCGAT
TCTTGTTATTATACCATAATTTGTGTTGTTTCTTCCGTAGTAGCGGAAAG
CGTGAGAACGCGAGTAAGTAAATTTAACCATTAGTTGACAAGTTGTAAGA
GTATTGAACTTGCATCGCGATAAAAATTCGTAAGGCGTGAACCGGAAAGA
AATGGGAAGATCCCTTAGTGACCACAGGCAGAAGGGCATCGTTGAGGCCC
ATCTGCTATATACGAGATAAAATAGCAAATACATCAATAGACCGGCCCTT
AATTAACAGGGTTACTGAACATTTGACAGGTTTCTTCATAAATATTAAGG
CCAAGTACTAAGGACCATTCTAGACCATAAAAAAAATGCAAAGTTTGGAA
AACATGCGTGTGCGATTGCAACAGAATAAAGGATAGCTCAGCTCAAGTTA
GCTCCGGAGCTGCCGGTATCTTCGTGCATCGATTGCTTCTTTGTGCGCCT
TATCTTGCGAACGATGTGTGCTCCAGGATCTACCGATTCCTACTTCGGTG
GTATCGGAATCTTTTTTCTCTGGGGTATATGCAGGCCCTAAAGCCCAAAA
TATGTTCAAAGTGTTCCGAGGCACATCATATTATTTTAAGGGGGTTCTGC
TTCTCCAAACCTATATTACCTCAACTGCTGACATAATCCGTCCGGAATGA
CTTTCCATTTTTTCCAAAATTTGGAGTGGAGACTTTCCAAACTTGGAAAC
GTTGGTTTAGGTCTAGAACGGAACTTAGTAGGGCACTCATTTCACAATTT
GTTTATTCGAACTGTCGAATTTTTGGATCAAAATTTGCGACGCCCCCCCG
GACAAGCCGTGGACGATGCTCGCTGTCCTCCGACGTTAACAACCCCACTC
TCTTGTAGGTACAGGCCGTTTCCCTTTTTCTAATTAGGTGTAAATGCGGT
AGGGCGCTAAAACTTTGTATTTCCTGAGAGAACATAGGTTGACGGGAACC
CCCTTGCTTGCATGATTCTTGTGTCTCTTGTGGGGATTCCTTGTGCAAGA
TTTTACTGCAAGGCGTACGACCCGCAAGCGTAGCCATATTGCAAGGAACC
CAGCTGTATTTCTCTTTATTGTATTGAGTAACGTAGTATTAATTATTAAA
TGCTGTAATATGTTTCACCGTCGTTGACAAGCAGCGCAAACGAAAATACG
TCCAGGTACAGTATGTTTTTTTCAAGTATGCAACTTAAATTTCACCATGT
ACTGTTTGTACTTCTAATACACACTGCACGCGCCTTTCGAATATGCAGTA
TAAATTAATCCACTGTACTCGGCGATATTTCCATCTCTACTGAAGACAAA
AATATATTTATAGAGCAAATACCGTACAGTACTTGAAAAAACGTTTTTTC
TTCGCACTATAAAATATTAATGTAACCGTGTGACATACAGACGCCTACAA
CGACAGAATATGACTCGGCACCACAACCCTGATCTCAAAATGTAGCAAAA
GTCAAAATGTGTACCCTGCCGATGCCTTGCTTCGCCAGGACGTTGATCTC
GTTCACGATATCCTTTTCCACCCGCCGTTGTGGACTTTTTTGCCGGAGCT
CAATGGGTAGCCAGCAGCTGTGTGGTATGAACCATCTCCTTTCAGGAAGC
TCTAGAGCTCGTCCTCCTGGTGCTCCCACTCCCTCAGAAGCTTCTTGTCG
AGGTCGAACACTGTGGCCGCGCCACGTTTTCCGACCGGTTGGCCGTCCGC
GCACATGAGACGGCTATACTCCAACACCGCAAGCTTTTGGCGGATCTCGT
ACGAGCATCGGCCAGTAGGCCCCGTGATGCGGCGGAGCGTGAATGAGGGT
TGAGGGTACTCTCGTCCCCGTTTGCCCTTCCCGTTGTTGTCGGAGGATGT
GCCATCGCAACTAACCGAGGCAAGGCGTAAGCTCCCCCAACCGCTGTCCT
TCTTGTGCCTGTTAAAATGTTTCTCGGAGATGGGGAGCTTCGGTGTGTGT
TGGGTGTGTGTGTTGTGCTTTGCGATCCCCTCGGGAACTTTCCCCCCCAG
GGTGTTTTTTGTTTTGTTTTTAAAGATCCCCCCCCTACCTTTGAGTTACC
TTTGTGGGTGATGGTGATGGTGATCGTTTTCCGCAAAAAATATACATCCC
CCGCGAGGGAAACTCAGAGGACATTAAAAGCAGATGGCAGAAATCTCAGG
GTCATCGGTTGTCAAAAGAGATGCCTGTAAAAAAACAAAACTGCCAACGT
ACTGGGGTATCAGGTTGCCAGTACGTGATGCCTGCCATCGTGCATGAAAT
ATGTTTTCCCTACCCGGTCTTCTTTTTCCTACCCTTGGAAATGTATATAG
TAATGATCTTTTGGAACGCAAATTGTGTGACTGCGATTTACAGTAGTAGC
TCGTTTTCTTGGAGGAGACCCATCCCATAGGCAATACTTCTACGGAGGCC
ACAAATCACTCTCATCGGCGGGCATCGGATGCTTGCGCGTTGTAGGCACC
TTCTGCCTGCGTGTTTTTGGATATCGTGCAGCGGAACTTAGAGCGCGCGT
AACCTGTCACTCGTGCATATCTCACAAATATTCGGACATTTATCGTCGCT
TCTTTCGCGTACTGAACGTTAACGGCCCACCGGATTTCCACCTTGGCTAG
TTCCAATATTATCTTTGAAACTCCGTTTTAAAATTTGCCTTGAAGACGTA
TCACACAAGTCTGAAATTAGACAACTGAACCGAAAGTTCGGCACTTGACT
GCTCAAGATGCCCACAATCAGCCCACAAGTATCACAATGCCTGCGTGTGA
ACTTTCTTACAGGAGGAGATACCTACTCGCAAGATATTCAAGATTAGGCC
CTTTGTCGTTGCGGCGGACGCTTTCCCGCGCCTGAACGTCTGTAGTATTG
CATCCTTTATATCTGGTACCTGTAGTGATCTGTGTTTACTGCTGCAGTTG
TACCCCTGAGTTGTCCTCGACTGGTGTGACGTCAAGTACAGCAGAACACA
TGTCGTACAAGTACTGCAGAACACATTCATGTCGTACAAGTACTGCAGAA
CACATTCACTTTCCTCTTCTTTTCTCATCTCCTTTTAGGATAGAGCTGAA
AATGTATTTTTGGTGAACGAGCTTTCCTACAAGGGAAGATATATACCTAC
TCACAAGATTCTAGATGAGGTGATTTCTCGTTGCGACAGACACTTACCTC
GCCTAAGAGTCTCTAGTGTTGCAGACAACATACCTATTGTTATGAACTGC
GTGAAATCGCTCGAGCCAGACGTTAGTATGTGGGAAAGAGAGGCGAATAT
TATTTGGTCAATGGTGACCTGCCAAGGCAGCACTCGTTCGGAACTACCTT
GAGGTTTACTGGCCCCGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGG
TACGCAATTGCGTGACCCGATAAACTCGGGACTGACCCGATGGCGTATGG
CGGTTATAAATTAATAAATGGACGCCGCCGCGGAACTCGGGAGGAATCCC
GTAAGTAAGCACCGGATTCAGTCTAAGTATGGAGATGAGCAGGCTGACGC
GGGACGGGACTGCCGAACCCGTCTCGCGAGACCAAATTCTCAGTCACGAA
CGCGGACAGGAAAATACCCATTTTTCTCGTTCAGCTCACCGCGTGCAGGA
CTGACAACCTTACCCGGTTGATCCATACTCTTGCTACATGTGTGACCAAT
TGATTAATTTTGGTTCTAAGGTATAGAAAAGTTTCCAAAATATTTGTATA
ATTATAGGAGCCATACAAGTGTACAATATTATATTAAAAAGTATTGTTAG
TGATAGAATTTTAATATAAATATTTGATTCATATTTATAAAGACCTGGGG
TAAAAAAAAAAAAAAGTTATAGTTAAGTTAAAACACAATTGTAAATAGGT
AAAAAATATTTCTGTTACTCCTGTTGTTACAAAATGGGATAAACCTTTAG
GTAAAAATAAAAATATTAACCCTTGCTTATAAGTGTATGTAGTAAAAAAA
AAAAGAGCTACTCCAAATGCAGCATAGGCTACGCGGTTTTTTAGTTCTTG
TAAGTAGTAAACTGAAAATTGAAATTTTTTCATTGGTAAGGTTGCAAACA
CAGGAAAGATAGTTCAATTGGTAGAACTTTGGTTTCCAAAGCCAACGGTT
GGGGGTTCAAGACCATACATACATACATACACATAAGTATATTTAGTACT
ATTTGTAGGTATCAGTATTAGTAGTGCTGTTAGTATAGAAGTACTGTCTC
GTCTCTACTAAAGACAGTAACTCAAACTTCTACAATTAGCAAGTCTACTC
CAATTCAGTTGTACCCCTGAGTTTTTCTCGGCTGGTGTAGCGACGTCTTC
GGTTCAGAATAGGTCGGATTGACTTATCGAGCCGGGTTCCGGAAATCGTG
AAATGGACTGAAAATGTATCAAATCCTCTGGGTCTGTCCCAAAATTAACG
GTCCACTTGTCAGCCTTTTTGCTTCCTTCCTGGAACCTCTACTGTTTTAT
TTTCGCGAGTCGACTGCTAAATAAAAACATAAAAATACGTTTTCTGACAA
AACAATTGAAGGAAAATGTCCAGTCCCTGAGATTGAAATCAAATACGTCA
ATTCGGTAAATTGCGAATGGGCAGTGCCATCGGTTATTTCCTGCAAGGAG
TCAAAGGCGTAGCTTGGGCTCGTTTCTTTAACATTATCGACGCGGATAGA
AGGTTTCTCGGAAGATCGCATCGACCTTGGCAGTGCGGTATATTGTGTTC
TTTGAAATCCTTCCACATTCCTAGCGGCTCTTCTTTCTCTTACACAAGTC
TTTTTCTCCTCGCCATACGTTTCATCTCCACAATTGTTTTGGCGCCGACA
GCCTGCCTGAGGGTATAGCTTCGATAAGATCCAGAATATATAGATGCCGA
CAGCCTACAAAACTCTCGTTTTTTCGTTGACCTCTCTGTGGCAGGTCCTA
GCCGGTGTGTCGATGCCTTCTCCATCGCCTTCAATCAGGCCGATAGCAGC
GGGTGGTATTCATCGACGTTGGAACTCCAGCTGGCTTCGCTGCAATTCTG
CGTGGTGTGCCGAAACGTGTCCACGTTACACTTGATCGTGAAAAATGACA
TGCGAACATTGTTGTTGGACGATGCTCCCACGTCTGATGTCAAGGTCAAA
AAGCCGTGCCGTACGCGTGTTCCAACCCTTCGGCCCCTCATATTGACGTG
GAAGCTTCCGATGTCTTGCTTTAGGCGATACTCGAGCGAGGCCTTGGCTA
ATGTCGAGCAACTTACGTTCAGTGACCGCTTCAACGACGAAGTCAACAGT
TTTTCATGGCCACCGTCGCTGCACCGACTCACGTTCAGGAAACGTTTCAA
CCAAGCGATCGACGGGATCGTGTGCCCGGCTTTGATTCAGCAGCTCACGT
TCGGGCGTGATTTTAATCAGGCGGTTGACATAGTCGTGTGGCCGGTGTCG
CTTCGGCAGCTCACGTTCGGGAATTGTTTCAACCAGGCGATCGTCGGTGT
TGTGTGGCCAGCGTCGCTCCAGCATCTCACGTTTGGGGTATATTTCAACC
AAACGATCGACGGAGTCGCGTGGCCGGCGTCGCTTCAGCAGCTCACGCTC
GGCGATGCCTTTAATCTGGCGATCGATATGGTCGTGTGGCGGGCGTCGCT
TCAGCAGCTGACGTTCGGGTCACATTTAAACCAAGCGGTGGATGGGGTTG
TGTTGCCGGCGTCGCTCCAGCAGCTCACGTTTGGGAATAGTTTCAACCAG
GCGATAGACGGGGTCGGGTGGCCAACGTCGCTCAAGCAGCTCACGTTCGG
ATGTTGTTTTGACCGGGCGATTGCTGGGGTCGTGTGGCCTCCGTCGCTTC
AGCAGCTCACTTTCGGACATTTTTTCAACCAGGCAATCGATGGGGTGGTG
TGGCCTCCGTCGCTTCAGCAGCTCACTTTCGGATATCGTTTCAACCAGGC
GATAGACGGGGTCGTGTGGCCGGCGTCCCTTCAGCAGCTCACGTTCGGAG
CTGGGTTTAATCAGGCGATCGACGGGATCGTGTTGCCGGCATCTCTCCAG
CTGCTCACGTTCGGGGCGGTTTTCAACCAGGCGATAGACAGGGTTGGGTG
GCCAACGTCGCTCAAGCAGCTCACGTTCGGATGTTCTTTTAACCAGGCAA
TCGATGGGGTCGTGTGGCCTCCGTCGCTTCAGCAGCTCACTTTCGGACGT
CGTTTCAACCAGGCGATAGACGGGGTTGTGTGGCCGGCGTCGCTTCAGCA
GCTCACGTTCGTACGTCGTGTGGGGTATGTGTTATAGACAGGGTCATGCG
GGCGGCGTTGTATTTGTTATAGACGGTGTCGCTTCGGCAGCTCACGGTCG
GGTATCGTTTCAGCCAGGCGATCGGCGGGGTGGTGTGGCCGGCGTCGCTC
CAGCGACTTACCTCCGGGGATTATTTCAACCAGGCGATCGACGGGGTCGT
GTGGCCGGTGTCGCTTCAGCAGCTCACGTTTGGAGATGGTTTCAATCAGG
CGATCGACGGGGTCGCTCCAGCAGCTCACGTTCGGAGATGGGTTTAATCA
GGCGATCGACGGGATCGTGTGGCCGGCATCGCTCCAGCTGCTCACGTTTG
GGTATAACTTCGACCACGCGATAGACGGAGTCTCGTGGCCGGCATCGCTT
CAGCATGTCGTGGTCGGGAACATGATTTTGACCCCGCGGTCAACGAGGTC
TTATAGCCGGCGCAGATCTAGAAGCTAATGTTCATGGACAAACTCAACTA
GGCGATCAACGGTGTCTCGAGGTCGCTGTCGCTCCAGCAGCTCACGGTAG
CGGGAAAATGTTATGAGGCGATCGCCCGGGTTATTTGGCCGGCTTAGGTT
ATAGAGCTTGCGTTTGGGTACTAGATCGACCAGGCGATCGACGGAGTCCC
TTGGTCTATGAAGCTCAAGATATGTAAAGTTCGTAGATTGCTTCAGTCTG
GCGATTGAAGCATTTTCGAGGGCGGTATTTCTTGTGAAGGTCTTGCTTTA
AGTAGGCGTTTGTCGGATCGATACATTTGGCAATTTCCAATGGATAGGCG
TAGCGGAACTCCGCTGGACGGAATAATGTCAAACGCTTGTGGTCCAATAT
CGTATCGATACAAATGACGTCCGGCATAGCATGCCTACAGTAAACTGGGC
TTAATCTTGGACTGATAGATAACCAAGCGGCAGGAACTCTCCGGAACATT
TCTGTTTGCTCCTGGAAGATATGTTTCCCAACGAAATAGTTGAATATTAC
ATCGTCTTCTGACATCTTCCTGGACATGCGGGGATATTCATGCATATGGT
AGAGGAGACGTCTGAGTGAAGACGATGCCCAGACTTATTTTAATGGAAAA
CGGGGGGACTACTGAAAATGAAGTGAGAAGGAATATTCAACGTTAAAGTT
CA

Coding sequence (CDS) from alignment at A-nodosum_M_contig926:14286..31087+

>mRNA_A-nodosum_M_contig926.1.1 ID=mRNA_A-nodosum_M_contig926.1.1|Name=mRNA_A-nodosum_M_contig926.1.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1362bp|location=Sequence derived from alignment at A-nodosum_M_contig926:14286..31087+ (Ascophyllum nodosum dioecious)
ATGGAGCTGACCCAAGACGGTCCTAGCCGGTGTGTCGATGCCTTCTCCAT
CGCCTTCAATCAGGCCGATAGCAGCGGGTGGTATTCATCGACGTTGGAAC
TCCAGCTGGCTTCGCTGCAATTCTGCGTGGTGTGCCGAAACGTGTCCACG
TTACACTTGATCGTGAAAAATGACATGCGAACATTGTTGTTGGACGATGC
TCCCACGTCTGATGTCAAGGTCAAAAAGCCGTGCCGTACGCGTGTTCCAA
CCCTTCGGCCCCTCATATTGACGTGGAAGCTTCCGATGTCTTGCTTTAGG
CGATACTCGAGCGAGGCCTTGGCTAATGTCGAGCAACTTACGTTCAGTGA
CCGCTTCAACGACGAAGTCAACAGTTTTTCATGGCCACCGTCGCTGCACC
GACTCACGTTCAGGAAACGTTTCAACCAAGCGATCGACGGGATCGTGTGC
CCGGCTTTGATTCAGCAGCTCACGTTCGGGCGTGATTTTAATCAGGCGGT
TGACATAGTCGTGTGGCCGGTGTCGCTTCGGCAGCTCACGTTCGGGAATT
GTTTCAACCAGGCGATCGTCGGTGTTGTGTGGCCAGCGTCGCTCCAGCAT
CTCACGTTTGGGGTATATTTCAACCAAACGATCGACGGAGTCGCGTGGCC
GGCGTCGCTTCAGCAGCTCACGCTCGGCGATGCCTTTAATCTGGCGATCG
ATATGGTCGTGTGGCGGGCGTCGCTTCAGCAGCTGACGTTCGGGTCACAT
TTAAACCAAGCGGTGGATGGGGTTGTGTTGCCGGCGTCGCTCCAGCAGCT
CACGTTTGGGAATAGTTTCAACCAGGCGATAGACGGGGTCGGGTGGCCAA
CGTCGCTCAAGCAGCTCACGTTCGGATGTTGTTTTGACCGGGCGATTGCT
GGGGTCGTGTGGCCTCCGTCGCTTCAGCAGCTCACTTTCGGACATTTTTT
CAACCAGGCAATCGATGGGGTGGTGTGGCCTCCGTCGCTTCAGCAGCTCA
CTTTCGGATATCGTTTCAACCAGGCGATAGACGGGGTCGTGTGGCCGGCG
TCCCTTCAGCAGCTCACGTTCGGAGCTGGGTTTAATCAGGCGATCGACGG
GATCGTGTTGCCGGCATCTCTCCAGCTGCTCACGTTCGGGGCGGTTTTCA
ACCAGGCGATAGACAGGGTTGGGTGGCCAACGTCGCTCAAGCAGCTCACG
TTCGGATGTTCTTTTAACCAGGCAATCGATGGGGTCGTGTGGCCTCCGTC
GCTTCAGCAGCTCACTTTCGGACGTCGTTTCAACCAGGCGATAGACGGGG
TTGTGTGGCCGGCGTCGCTTCAGCAGCTCACGTTCGTACGTCGTGTGGGG
TATGTGTTATAG