mRNA_P-littoralis_Contig7.118.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig7.118.2
Unique Name	mRNA_P-littoralis_Contig7.118.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: D7FS05_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FS05_ECTSI)

HSP 1 Score: 290 bits (742), Expect = 3.120e-92
Identity = 171/236 (72.46%), Postives = 187/236 (79.24%), Query Frame = 3

Query:   45 MASSDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRWEVKLGLEQEVEEAAKAAKQKEMDSRKEEERRQVEXADKQRRAKAEKIVMRSAAEKAERDRLLGEYGYDSDPVDEEGNPLPPEEGGDGEGAVGSSAGDSLGEAYGQNLNKERVRQEVAAKRDAIKKTHHATALQNKIALEADKMKKEMAKNARKTTKGERKR 752
            MA   G S FDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERI+SVIEILSGAAEED +L +FRS+L +RW++K+  E++ +EAAKAAKQKEMDS+K        X               SA E+AER RLLGEYGYDSDPVDEEGNPLPPEEGGDGEG  GSSA           LNKERVR+EVAAKR+AIKKTHHATALQNKIALEADKM+KEMAKNARKTTKGERKR
Sbjct:    1 MAEGGGDSSFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIESVIEILSGAAEEDNDLGEFRSALNERWDMKVEHEEKEKEAAKAAKQKEMDSKKXXXXXXXXXXXXXXXXXXXXXXXXSAEEQAERARLLGEYGYDSDPVDEEGNPLPPEEGGDGEG--GSSAXXXXXXXXXXXLNKERVREEVAAKREAIKKTHHATALQNKIALEADKMRKEMAKNARKTTKGERKR 234

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: A0A7S2WBQ4_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WBQ4_9STRA)

HSP 1 Score: 102 bits (253), Expect = 5.900e-21
Identity = 78/197 (39.59%), Postives = 107/197 (54.31%), Query Frame = 3

Query:   69 GFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDD-FRSSLKQRWEVKLGLEQEVEEAAKAAKQKEMDSRKEEERRQVEXAD--KQRRAKAEKIVMRSAAEKAERDRLLGEYGYDSDPVDEEGNPLPPEEGGDGEGAVGSSAGDSLGEAYGQNLNKERVRQEVAAKRDAIKKTH 650
            GF+TWL  KL+A GLD E+Y  YVTGI+ DE    E R +SVI+ILSGA EE T L+D F S L  +WE ++   Q+   AA  A +K         R     A   +Q+R +  K    +  E+ ER+R+L +YG+ SD VDE+GN +          +  SSA        GQN N+ RV++   AKR A + +H
Sbjct:   14 GFETWLALKLEACGLDTEIYSEYVTGILADESEDMEARAESVIDILSGALEEGTELEDTFASDLAAQWEARVS--QQTSTAASDAAEKXXXXXXXXXRDLALAAXXXEQKRLQLAKQNEMTREERKERNRILDQYGFASDVVDEDGNVI-------ASASASSSAAQDDMSGIGQNTNRTRVKEAEQAKRVAARASH 201

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: UPI00077A0E87 (coiled-coil domain-containing protein 43-like n=2 Tax=Acropora TaxID=6127 RepID=UPI00077A0E87)

HSP 1 Score: 58.9 bits (141), Expect = 3.270e-6
Identity = 33/72 (45.83%), Postives = 42/72 (58.33%), Query Frame = 3

Query:   54 SDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRW 269
            SDG   F  WL  +L  LGLD +V+G YVTG++  ED   EER D++I IL G  E    L+D  S +  RW
Sbjct:    9 SDGCEEFKDWLSSRLKTLGLDEDVFGNYVTGVLDSEDT-DEERKDALIGILDGMTE--YPLEDLCSEVLNRW 77

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: UPI0014037390 (coiled-coil domain-containing protein 43 n=1 Tax=Petromyzon marinus TaxID=7757 RepID=UPI0014037390)

HSP 1 Score: 58.5 bits (140), Expect = 4.180e-6
Identity = 28/75 (37.33%), Postives = 47/75 (62.67%), Query Frame = 3

Query:   45 MASSDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRW 269
            MA SD    F  WL  +L+A+ ++AEVYG Y+ GI+G+ED+  EE+ +++  +LS    E+ +LD     + ++W
Sbjct:    1 MAESD----FAPWLSRRLEAMQVEAEVYGSYLAGILGEEDDSDEEKEEAMRAVLSAVVAEEDSLDSICREILRKW 71

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: UPI00139017B9 (coiled-coil domain-containing protein 43-like isoform X1 n=2 Tax=Nematostella vectensis TaxID=45351 RepID=UPI00139017B9)

HSP 1 Score: 57.8 bits (138), Expect = 8.780e-6
Identity = 28/75 (37.33%), Postives = 45/75 (60.00%), Query Frame = 3

Query:   45 MASSDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRW 269
            M  S     F+ WL  KL A+GLD +V+G YVTG++  +D+ +++R D++I IL G  E    +++  S + Q W
Sbjct:    6 MNGSQEKGDFEGWLCSKLSAIGLDEDVFGSYVTGVLDADDSTEDDRKDALIGILDGMTE--YPVEELSSEILQHW 78

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: A0A6P8HGC0_ACTTE (Coiled-coil domain-containing protein 43 n=1 Tax=Actinia tenebrosa TaxID=6105 RepID=A0A6P8HGC0_ACTTE)

HSP 1 Score: 55.5 bits (132), Expect = 4.880e-5
Identity = 25/68 (36.76%), Postives = 43/68 (63.24%), Query Frame = 3

Query:   72 FDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRWEV 275
            F+ WL  KL  LGLD EV+G YVTG++ +ED+  ++R ++++ IL G  E    +++    +  RW++
Sbjct:    9 FEQWLCLKLKHLGLDEEVFGSYVTGVLDEEDSNDDDRQEALVGILDGMTE--APVEEVSDEILSRWKI 74

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: A0A8J6ERC0_ELECQ (Coiled-coil domain-containing protein 43 n=3 Tax=Hyloidea TaxID=8417 RepID=A0A8J6ERC0_ELECQ)

HSP 1 Score: 55.1 bits (131), Expect = 5.870e-5
Identity = 30/77 (38.96%), Postives = 49/77 (63.64%), Query Frame = 3

Query:   39 EEMASSDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRW 269
            E++ + D    F  WL ++L+ALG+D EVY  Y+ G++ +EDNP EER +++  ILS   EED+ ++D    +  +W
Sbjct:    6 EQVVAGD----FGVWLDERLEALGMDPEVYPAYIKGVLREEDNP-EERDEALRGILSAFLEEDS-IEDVCLEIVTKW 76

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BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Match: UPI0009E42DD4 (coiled-coil domain-containing protein 43-like n=1 Tax=Orbicella faveolata TaxID=48498 RepID=UPI0009E42DD4)

HSP 1 Score: 55.1 bits (131), Expect = 6.490e-5
Identity = 30/77 (38.96%), Postives = 46/77 (59.74%), Query Frame = 3

Query:   45 MASSDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSVIEILSGAAEEDTNLDDFRSSLKQRWEV 275
            ++SS     F+ WL  ++  LGLD +V+G YVTG++  ED   E+R D++I IL G  E    LDD  + + +RW+ 
Sbjct:    5 LSSSQQEESFEEWLSCRMRQLGLDEDVFGSYVTGVLDSEDT-DEDRKDALIGILEGMTE--YPLDDLCNEVIERWKT 78

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig7.118.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 8


Match Name	E-value	Identity	Description
D7FS05_ECTSI	3.120e-92	72.46	Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2...	[more]
A0A7S2WBQ4_9STRA	5.900e-21	39.59	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
UPI00077A0E87	3.270e-6	45.83	coiled-coil domain-containing protein 43-like n=2 ...	[more]
UPI0014037390	4.180e-6	37.33	coiled-coil domain-containing protein 43 n=1 Tax=P...	[more]
UPI00139017B9	8.780e-6	37.33	coiled-coil domain-containing protein 43-like isof...	[more]
A0A6P8HGC0_ACTTE	4.880e-5	36.76	Coiled-coil domain-containing protein 43 n=1 Tax=A...	[more]
A0A8J6ERC0_ELECQ	5.870e-5	38.96	Coiled-coil domain-containing protein 43 n=3 Tax=H...	[more]
UPI0009E42DD4	6.490e-5	38.96	coiled-coil domain-containing protein 43-like n=1 ...	[more]

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig7	contig	P-littoralis_Contig7:570780..591219 -

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
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7FS05
Model size	1566
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	6
Evalue	4.17e-96
EggNOG OGs	29Y8F@1\|root,2RXTG@2759\|Eukaryota
Ec32 ortholog description	hypothetical protein
Ec32 ortholog	Ec-12_006970.1
Cds size	711

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig7.118.2	prot_P-littoralis_Contig7.118.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig7 571591..591175 -

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


Feature Name	Unique Name	Species	Type	Position
1680791453.1987197-UTR-P-littoralis_Contig7:570779..571590	1680791453.1987197-UTR-P-littoralis_Contig7:570779..571590	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig7 570780..571590 -
1680791453.278584-UTR-P-littoralis_Contig7:591175..591219	1680791453.278584-UTR-P-littoralis_Contig7:591175..591219	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig7 591176..591219 -

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


Feature Name	Unique Name	Species	Type	Position
1680791453.2113054-CDS-P-littoralis_Contig7:571590..571719	1680791453.2113054-CDS-P-littoralis_Contig7:571590..571719	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig7 571591..571719 -
1680791453.2229917-CDS-P-littoralis_Contig7:572563..572638	1680791453.2229917-CDS-P-littoralis_Contig7:572563..572638	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig7 572564..572638 -
1680791453.232145-CDS-P-littoralis_Contig7:573588..573789	1680791453.232145-CDS-P-littoralis_Contig7:573588..573789	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig7 573589..573789 -
1680791453.2420425-CDS-P-littoralis_Contig7:581323..581449	1680791453.2420425-CDS-P-littoralis_Contig7:581323..581449	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig7 581324..581449 -
1680791453.2544062-CDS-P-littoralis_Contig7:588370..588472	1680791453.2544062-CDS-P-littoralis_Contig7:588370..588472	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig7 588371..588472 -
1680791453.2666144-CDS-P-littoralis_Contig7:591097..591175	1680791453.2666144-CDS-P-littoralis_Contig7:591097..591175	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig7 591098..591175 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig7:570780..591219-
coding sequence from alignment at P-littoralis_Contig7:570780..591219-

protein sequence of mRNA_P-littoralis_Contig7.118.2

>prot_P-littoralis_Contig7.118.2 ID=prot_P-littoralis_Contig7.118.2|Name=mRNA_P-littoralis_Contig7.118.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=237bp
MASSDGISGFDTWLVDKLDALGLDAEVYGGYVTGIMGDEDNPQEERIDSV
IEILSGAAEEDTNLDDFRSSLKQRWEVKLGLEQEVEEAAKAAKQKEMDSR
KEEERRQVEEADKQRRAKAEKIVMRSAAEKAERDRLLGEYGYDSDPVDEE
GNPLPPEEGGDGEGAVGSSAGDSLGEAYGQNLNKERVRQEVAAKRDAIKK
THHATALQNKIALEADKMKKEMAKNARKTTKGERKR*

mRNA from alignment at P-littoralis_Contig7:570780..591219-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig7.118.2 ID=mRNA_P-littoralis_Contig7.118.2|Name=mRNA_P-littoralis_Contig7.118.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=20440bp|location=Sequence derived from alignment at P-littoralis_Contig7:570780..591219- (Pylaiella littoralis U1_48)
GCCGTGGTTGCGCAGTATCACGCAACACAGGCAGAGGTGAAGAAATGGCA
AGCAGCGATGGGATTTCGGGGTTCGACACGTGGCTAGTTGACAAGCTAGA
TGCCCTAGGCCTCGATGCCGAGGTACGTTGATGCATGGATGTATGAAACG
GTTGATGTATTTGCTGCCTCCACCCTTGAACAAGGACCTCGCTGCCGGTG
ACTTTCCGCTTGCTTATGCGACGGGTCGGCAGAGCGCCTGTCGCCAGAAC
GTTTTGGGAGGTTTGATGATAGACACCACCCTGCATGGCCGCACACGCTG
GTTGGCGTCATCCTTTCTGGTAGTGCGTGGGAGTCCTTGTCGGTCAGGCT
TGAGCTGAACGCACTCCCACACAAACAGTAGTACCCTGCACAAAAACAAA
ATGCGGCGGAACCCGACAGCGGTGAAAAGCAGAATACCGGTATTCGCACA
ATACCAAACCCCGCCCAACTTCAACTTTCGTGCTGTGAGCTGTGAGTCGA
GCTGCAAATTGCAGATTCAGATTGCAGAGCGACAACGAGACGACGAGACG
ACAGGCGTTGAAATCTGAGGGTGGCCCTTGTCGCCGCGTCGCCGCGAGAG
GGCCAAATCGGAAGTCGAAATAAGATTTCGGTTCTAGACATCGGGTTCGG
CCCGAAGTGGCAAGCGATGAAGCGATGGCGTAATGGTGTATGCTGTATCT
AAAATCGAAAAAATTGCGGTGCTTTTTCGAACAGATGATACCATACATTT
CAATCATGGGGAATTATGAAGTGCGGGATGTGGTACTCCCGGCCACACCA
GCACCACCGAGAGAGGATCTAGCTGGCGCATATACACAGCGCTCATCTCC
ATATTTTCGGTGGATTGTCGTGCACAGCTGGTGCATGACCAGCCGAATCA
GAAGCAGCGGCCGCAGCAGCTCGGACAGCCGAGTGCTGTGCCGGTAAAAA
CTGCCGGAAATAAGAAATAACTGCTGCTGTTGTTGCGCTGCTGCTGCTGT
GCTGGAGAAGAGAGCGCGTCCTCCACCGCCGGCACGGGGTTGGGCGATGG
GGGCAGGTAGAAGCCTTCGCCTGCCGCACCTTGTGCGCCGTCAGGAGTGT
CACCACGGCTGCCCTCGTCAGACATGACACCGATGCTGCATGTGTGTGTG
AGCGTGTGGTGTGTGTGCGTGTGGAGGGTGAAAGATGCACCCCTCTTGAA
TTCTAGGTCTATCCGTTCCTGAGCCGCGTTTTCGATTTATAGTCTCCGAT
ATTTCGATCTTCCCTTGCGATTAGCTTTCGGAACAAGGAGGTCGAAATCG
GAAATCTGCGGAAAGCTATGATGCACATTTCCACATGTGCGGAGGGGGAA
TTTTGGCCAATCAGTGACATTTAGATATCTCGATTTTCAGATGTCAATTC
GTTTGTTTGTTTTTTGCGGTGGCGAGGGCCACCCTGAAATCTGAGCTTTG
TGGTCTCATAGCGTAAGAAAAAAAAATAAGGAGTCACTGGCCAACCGGCA
TGCAGTAATGAGTCACCTGAGATTCACCAGGAGAAGGCAGAGACAGACCC
CTCCTGGCAGTCGTTGGTCTGACGTGAGCGAGCGAAAGCGAGTGCGAGAA
AACTGTTGCCCAAGGAGTGTTTGTTCCCTGGAGACCTACCTTCTGCTTTC
AGACCTCTCGTCTTTCGGTCCGTGGGTGGGCGGTGGTATGGGCTTGGTCT
GCCTTCCGTGTGCTGTAACGGTCTCGGCTCATGTGGATCGTTCTTGCTAG
TACTTCGACGGGTCATAGATTGGTCGGGCGGCAAGGGCAAGGCGCCTGAT
CGCTCGTACCGCGGGGAGGGGAGGAGGCTGAACCCGACGGGGGTGGCTGT
GCAGGGGGCGGGGGCGGCGCTCCATTTAACCTTACGCACAACCCGGATGG
GGGGGGGCATACGGTAGTCCGGCCGTAGCGGCTGCTTTGGCTGCCGCAGC
GCTCGCGAGGGGCGCCCGTTCAAGTCTTGATGGCAGTTCGGAGCATCTAC
AGGGTTCGAGCAGCAGGGGTCGAACCGCCACCAAGACTTCAATGGGCGCC
CCTCACGAGCGCTGCGGTGGCCAACGCAGCCGCTAGGGCCGGACTACCAT
ATGCGCCCCCCTACCCCCCCCATCCGGGTTGTGCGTGCGGCAGACGTCTA
CCTGGTGGTGTAAGTGGCTCACTTTTCTACACTGACGTCGTGGGCGGAGA
TGTTTCGTGTCGTCCCCGGGGACTTCACTCTTCTCTCCCCTCCCCGGTCA
ATCGAAGCACGTGATTCATAAATATGATTTACAACATTCGATAGCATTGA
ACACGCACTCCCTGGACTTACACGGGCCGCGAGTGCAAATTACGCCACCT
GAAATTGGCGGAGCAGATCCCGCGAGCCGTCAACTGATCAGAGGCCTCTA
TTTTCTATTTTCTACGAGCCACGAGCCATCGACCAATCAAAATCCCACCA
TTTCACGAGCCACCGCACGAGCCACGAAACCCCGCCGCACCCACCACACA
CACACAGGAGGCAAGCCGTGCCATCGAAGAAGAGTTCCGGCACCACGGCT
GGGTCACGGGTGGGGTGCCATCGTACGTTCTACTCGCCCACCAGACTTGG
CATCTTTTGATTCATCCATTCGTTAATCTCGTTCATCATGCATGGAGACA
AACAACACATGTATATGATACCGGCATGTACATGAAATCGCTCTTTACAT
TTTGTGCGATTTTTTTTTTGTGCGTGCACGCATGTGCGTTCGTCAAGGTC
TACGGGGGCTACGTGACTGGCATCATGGGGGACGAGGACAATCCGCAGGA
GGAAAGAATAGACTCCGTCATAGAGATACTCTCCGGGGCTGCCGAAGAGG
TGAGGTGGGAAAAAAACGCGCGGTGCGGCGGTGAGGTTTTCCCTGGAGCG
CGTAGTTTGCGACCAAAGGCATCGGTGAGGGGGACAACGAAGTGCAGTAC
CGTTGACGCACGCACACCAATGAAAAATAGATTGTTATTTCAAAACAAAA
GGGAGCTTTACTCTCTTCGCGCCTTTCCTGCGAGACGCAGAAGACATCCC
AGCTTCTGCAGGCGCTACAGCAGCTGGCCGTCATCATTCATCCTCACTGC
TCACTGCTGCTGTCGTCGTTGCCTTTTTTGTGTGACGCACTCGAGCCGGC
GGATTTGGAGATCTTGGGCTTCTCGGACTTGCGCGAACCCGACTGTTGGC
CTCCCTTCGACTTGCCCTTCTGGTGACACTCCCAGTGGTGGTATCGTACG
GGGCTTATTGCACCCCCCGAAAGTCGCAAGACGGTCGTCCATCGCATTTG
TGATCCTCCGGGTTGTAAGAAAAAATAGACAAAAAGCCCGTGGGACCACG
GGGAGTGTTGATAGAATAACAAGTTCGATTCGCGCAAGTCCAAGAAGCCC
CAAGATCTCGAACTCCGCTGGCTCGAGTGCGTCCCACAATAAAGGCAACA
GCGGCAGCCGCGGTGAGCAGTGAGGATGAATGATGCTGCCCAGCTGCTGT
AGCGCCTGCAGCAGTTGGGATGTCTCCTGTGTCTCGCAGGAGAGGCGCGA
AGAGACTAAATATCTCTCTCCACGTCGTTAGTAGTCGGTACACCACTGGT
CTAGTAGTACCCCGTGTCGGGTCTCCGAAGTGGTAAACTTTGTCGTGCCT
CGAGTACGTGTCCGTTCTTGTGGGTACCGTGAGAAAAACTTTTCGAAAGC
TTGTCGGTGAAATTCGTGCTTCTTCCTCCAAAGTTGTCGATGATGTTGGT
TCATCTCTCCCGTCCGCGGGTCATGCAAACGGTCGTCTTCTGTCAGTGAT
GTAGCCTCACCTCCAAAACGCGAGTCATGGTCGCGCAGGTCGTCTGCAGG
TGATATCAACTCGCCTTCCCCTCGAATGTCAAAACAAGCGGGTGTCTTTT
GCAGGCAGAGGTACTCATGATCCATCTCCTGTGTCGGAGTCTTGCCGTTG
CGGGTGGTGAACCTTCTGTGCTGGATGATAATCAAAAAGATGATGTGTGG
TAAGATACAGTCCTTCGCTGGCTCACAAACCCAATCCTAAAAATATTTCT
CTTGTTTTTTCGTCTCGCCGGCGCCGCGTTGCCGGTTCGGTTGATGACTG
TCGCATCGATAATGTCTACCATCGATGCTGCTTCCGATGTGCCTGTGGTG
TCCCTTGAATGGTTGCAATCCCATCCCACTTTAAAAAAAGGTTCCACTTA
AATCTGTCCCCCAAGCTGCTGTTGCCTCGAGTGTAGCGAACGGCTCACCG
ATATGTGTCTCATGGTTTGTCAATTTTTCTTTGACCCTTGGTGGAACCAC
CTGTCTTGTCACAGCACTAGTTGTGCTGTCTCTTGGCCCTGATTCTGTGT
TCTTGGATAACCAAGTCATGCCCGACTTTGGAGCCATTTTGGATTGGGAA
AATCAAACTCTCACTCTTTCGTCTACCGGTGTGTCCATACCAGCTATACG
TCATACAAATATCGTTGCCCCCCCCTGGCACTAGTACTTGTCCCCCAGCC
CCCGCGGATACCCCCATGTGTGTGGCTGCTGTTCATAGTGATGATGAAGT
CATCGCTGTCACCCTGTGCGAAATGTTGCATTAGAACCGATGCGCGAAGC
GCTTGCAGTAGCGTTTACTGATTTGTCTACCGCCGCAAGATTGTGCTGTC
GTCGTCGAACCTCGGACTGTTTCCGAAGGAGCATCTCTTGACCCAAAACT
TGCATCTTTCAAAAATGTCATTGTCGCCCGTACTTTCAGCGCCTGGAAAG
CCTCCGATGGTTCAGTGGCGGCTCGAATCGCAAACCCGCCCACGGATGGA
GTTTCCTTGCCTGCGGGTCTGTGTCTTGGTTGTCTTCAGTGTCAGTTGTA
GCTCCTGATCAACTCCATCAACGCCGTTACTTACACTCCAAAGTCAGCAA
CATAAAAAATTGACATGAAAGATCTTGGATCTGTTTTAGGCATACGCTCA
ATTTCGTCCGTGGCGTTTTGTCAAAGATTTTGCGGATAATACGTCTCCGT
TAGTCGAGCTCACTCCTAGAGATTAATATTTCGCTAGCGATGAATCTGCG
TGGGGTCCTGCACAAGATGCAGCCTTCGCCGATGTCAAGAGATCTTGGCC
TCCGCACCTGTCCTTCACTTTCCTGTTTTTTTTTAGAGAGTTCGTTGTCC
ACACCGATGCCTCTCAATTAGGCGTTGGTGCTTTCTTTGCTCAACGTTGA
AAGGGTAGTGTGTGTTGTCATCCCGTTTATTCTGGGCACCAGTCTACACC
TTTCGGTATGGTGTGGGTGCTTCAGCCGGGGTCACACAGGAGGAAGGTCA
CACACGAGCTTTTCCGTTTTTTTTTTGTTTTACAGTATTGCCCACACCTT
CCTCCTTCGGTACGTGCCTTTGTTTTTTAATGCGAGTCGGGTCCAGCAAT
CCCTTCCCTCTGTTTACTCACGAGTGGATCGCTTTCCACTGTAGAGTTGC
AAGAAAACACTCTCTCAGAGAGAATCGAACCTGCATCCTTCCTGCTAGTA
GGTTGACTAGTACTGACGGTAAAGACCTCGATATTGTCGCGGACTATCAT
ATGATGCTGCAAGCGTTTTTCCAAAAGCCAACCAACATCACTGCAGCGCA
ACGATGAAGGAGGTGTCTCGCAGTAAGTGTCTGGTCATTCGTACACTGGC
GCCCGTGTTTGTGGGATCGCCGCTTCACTTCTCGCAAGCAAGCGGCTTAG
TCATCGGTATGATATCACATACGTGCAAGACACGTCCAACATGCTGACAC
GATGGGCGATCGCGCTCCGGATTTTCGATTTCGCTGTCAAACAATGTCCC
GGGTGAACTCAATGTCGTCCCAGATACGCTGTCTCGTAGTTTCAGCGAAA
TTAACGGGGGACCCATTCCGTCTGAGCCAAAAGTTAGCGGCCATCTGTCG
AAATGTGCCTCATGATCAAACATTTAGTCCGCCTTGTCCCGGCGAGCATG
AAGTGTCCGCTTACAATAGACGAGAGCGATCGTGAATTGTTCACGAGCGC
CGTGTCTGTCTCTCCTGTCGTAGATTTCTGTCAAACTCCTCGACCAGCAA
AAAAGAATAGTTCGGTGCACATCATACTGCCGCTATCTCAACGAGTCCCA
AACAACAGCCGTCCCGTCCCCAACAGTCCGAAGCCGAGCATGAGTAAATT
TTGTCGTTCATGAAGGTTTGCTTTGTCGTTCATATCCGCCCTGGCCACTT
GCGCAGGCGTGGCCAGTTCCGCGATCAATTAGTACCGCAATCACGACTCG
ATTACATCCTTCGTACTGCCGTCGACAATTTGCAGCTAGCATATGAGTTA
GCTCGCCGCCATCTTAAAAGAGCGCGCGGACGAGCGGAAGCGGTCGCGAA
TGAGAAACTGTATTTTCCTAGTTTTGTCCCAGGCGAGAAAGTGTTAGTCC
ATCGCCCTTATCACAAAACTAATGAGTCCCAACCCCCCAGCTTAACAGCC
CATGGGATGGCCCATATTTTGTTTGATCGACATTGTCACCGATCACATTT
CGTGTTGGTAAAGCCGGTGACCCACCCGGCCGAGACCACTGTCCATCTTG
GTCGCATGAAAAAATACATGCTCTCAGGAACAACACTCCCTGTCCTCGAT
CTTGATGGTTCAGTGCACAGGGCTATGATCGGACCGTTTCAAGTAGAGTA
AATTGGTGGTCATAAACGGAGGCGTAGGAGCCGGTTCGCTGGAATTTTTC
AGCACCGCCTTACGCTCAAGGGCTATCCACCTCAGCGTGGTGTGCGGCGG
CATTGCCGTGTCATTCCCCAATGTCACGAAATGGTCAAATCCTACCGCGC
TGCAATTTATGTCGAAGGATCCAGCAGCGTTTGATCCCCCGCGGCGTAAG
TCTTGTCCAGATACTGCCGTTGTCACTTAGCGTTAATTTTTTTTTTTTCT
CCGTGGGATCGTCGAGTGTGCTTCGAAGTACGCGTTATGCCTGCCGTCCG
CAGAGCTTCGTCTACGTCAGTCTTTTGCAGCAACTGATGCCTGCCCAGCG
CTACTCTCGTCCCAAGAGCTTGTGTCTTCGTCAACATTTCTCTTTCCCGG
ATTGAACTCCACGTCTGGCTCGTCTGTCAAGTGCGAAGAAGTACCGCGCT
CAAAGTTGAGTTTGTCCTTGCACGAAAATCGTTTTTCTTTCTTGAGTCTA
TCATACCATGGTATGTATTAGTCTTGTCCGTGTGTATCTTTATTTTATTT
TTTCATTTTGCAAGTCTTGTCCCTTGGCACGCCCCCCCCCCCGCCTCGTT
CATCCCGTGTTGTATACGGCCATGGATGCGGTTTTAAGAGAGGGGTGTGC
CATGCCAAGGAAACCTCTCTTGAACACTTCCTTCTCTTCATCCGGTTTTT
TAAGAGAGGAATTCTCTTTAACCGAGATGCCGGTATTATCATATGGATGT
TGACTGCTGTCTGTAGCTGGCAGCTAGAGCGCAGAAGAAAGAGGCGCCCG
TGTCGTGATGCCTTATCGTCCTCTTGTCCTGTGCATGCCCGCTGCTGTCA
ACCGATTGATGGTCTTCGCGTTGCCTCTTCTGCGGAGCTTTCCAGTATTT
TTCCTGCAAGGCGCGATTGATGCTACCGAACGCGTGTCGTTTACGATCCA
GCGTAACCGCCGATCAGATGTAGACTCAACAACTTCCAATGTATTTGTGC
TTCATACGCGTTACACGTATTTTGTCAATGCCTCCGTCGTGTGTTCACCG
CACGTGTTCACAACGACGCCCTGAATCTGTCAGCCATGTCGGTCTTTTTA
CCGTACAGCAGTGTCCTGTCCCGGCACTCAGGTATTGTCAGTGCCGCTGA
TAGCATCCACTGTCTCTCCACGATGCTATCTAAAAAAAGCCTCTTGTTGT
GTCACGGCACGTGCTGTCGCCAGGATCAACCGGCATGAACGCTTCGTCGT
TCATGCTGTACGCGCGTCGTCACAACGAACAACAAAAAACAATGGATTCA
GCCCTGCAGGCCGCCTTTTACACACCAATGTTACGTCGTGTGTTCCGAGC
GAAAATCTAACGTCGCCACTGCTGTCTTTCACTCTCATTTTGTCGATCCT
GGCGTACTGTAGTTGGTACAATACCACCATTTCGTCTCGGTGCTGTCGGT
ACCCATGCATATATTAATTTTTGCATGGCAATTTGATATCCTGTGCTACA
CCCGCGATGTGTGAGTTAACACTCGGATGTATGTCTGTGGGAATGTTGGG
TCTGTTTTGTCGCGTGTACTGTCGTAGGTCCCTTGCTTTCGAGTTCTGGT
GGAGTGAGAGCTCTCACCCACCGAAACTGGGGGTGGTGTGGATCCCTGTT
CATAGCTCTACCCACCACCTGTCCACAAGGAAGTTTCTAGTGGCGTCGAA
CGTTCCCCGCGTACTCCACTAGAACAGTAATCTCGGGCTTGTGCATGGGC
TGTGTACTGTCGGAGTATTCCTCACACACGCCCAGTCTTGCCACTTGTCA
CGCCACAACCCGTCGTGGAACCTTTTGTGAGTGTTCCTTGGCACGTCGTG
GTCCGTCTGTCGGAGAAATCGGATGTGGGGCGAGGTGTCCCCTCGCACGC
ACATCCCTGCACTTCTCTCTCTTCTCTGTTCGTCTCTGCCCGAGACCTTG
TTTCACTCAACGGTCGTTGTAGCTCAGTTGTTCAGTTGTTAAAGCACTCT
CGTGTCCCCGGAGAGACGGGGAATCGCTCCTATTTGGCGTCGATGGCTTC
TCTACGCACACACACGCTACTCTACGCACACACTCTTATTTGTTGCATTA
TAATCGCATGTATTAACACTTTGAAGTACAGCAGTCTGGTATTTGGTATA
AACCGGGAGAAGAACACCGTGTGTTGAAGCACTTCTTGGTATGGGTTTTT
GGCAACAGCATCCAGCAGGGCGCGGCCGCCGTTCTGGCACTCTGTTTTGA
CACGTATCATACCTGGAGCAGATTTCAATTCAAGAATAAAAAATACACTT
TTGGTATTGTGTTGTTTGGAGTTCCTCCTGCAAGACTGGCGTCAAGAGCA
AATGGAACGACAGCACACACACGCGCACACGCACACGCACTTTTTTGTGA
CCACGGGCTAGCTTGTGGCGATGAGCTATGATGGGAGAATCAACAACAAC
AACAAAAATAACACAAGCACGTACGCAAGCACGCACATTCCTTCCGTTGC
CAAAAACGTAAGCCCTGTTCAACCTGGTCTAGGAGACAACACGATGAAAC
GCAGGATCGACAACAGCAGCAGTCAAATCGTATGTAACACTTTCCGTTCA
GGGCAGCGAGTGGCACTCTGAAAATTCTCTCATTCTGCTCTCGAGCTGCG
TTCCGCTCGAGCTACTGCATTACTGCCGTACGGCCATGTACCAACCGCTG
TCGTTGTGCAAAAAATTGTTGCTGTTCCTAGCTAGGGCTAGATATTGGAC
CTAACAGGCCAACCTCGGTGCAAAACCTTGTACTGCTGTGGTGTGGTTCG
AAGTATTGGGCTGTGTATCTGGTACACCTGCGGCACTACTGCACATCGTA
CCGACCTCCGGTTCGACATCGACCTCTGGTTCAACATGAACACCTACCCC
CCCCCCCCCCCCCTTCGCTCTTCACCTCACCCCACAAGTTTCGCATGACT
TCATTGGCCCACGCAGCACCGCATTATATGCTATGAAGCAGGAAGCGGGA
TGTTCGTAAATATGCCATATTTTTAAGTTGTCAATATGCGTGATCTCATG
ATCTCTCATTTATTTCTTTTCCTCGATTTTTTTCCTCTTTTATTGTTGTT
TTCGTTGTTGCTGTTGGCAGGACACAAACCTAGACGACTTCCGCTCGTCG
CTGAAGCAGAGGTGGGAGGTAAAATTAGGCCTGGAGCAGGAAGTGGAGGA
GGCGGCCAAAGCCGCCAAGCAGAAGGAAATGGATAGCAGGAAGGAGGTGA
GGGAAGGACTGGGCATTGTGAGAAAGTCACACCGAGGACACGTATTACAA
CAGCTTTGTGGTACAACGAGATGTCATGTGTGGGGATTTGGGTACGCATC
GAGAAAAATAGGTGTGATAGTGAGGAAATGGACACAGTTCAGCCGGAAGT
ATGAGTCAGAAAGGAAATTGCTACAGACAGCAGTTTAGGTAGAGTGGGGG
AAATGGGTAGCAAAAGATGACAACGCCCAAGAGTTGTATGTATTGAAACT
CTCAACCTGTAAAAGAAAACTCCTTTGTTGACCTATCTCCTGGGCTCCTG
CGGTGTGACCCCCGGCTGGCTCTCACCACTTGCGCCGTGAGGTGTCGACT
GGTGTCCAGAAGAGATGGGATGACAACACACACGCCTCCTTTCATTTCCC
GAGAGGTGTAGACTGGCGTCCGGAAGAGATGGGATGACAACACACATGCC
TTGACTGGTGGTGGCGGATGTTTGTCAGAGTCTCGGGTAGATGGACTCAA
TTCCCTTTTTTGATTAACGTTGAACACACACAACACAGCAACAACACAGA
GGGAAGCGCGGGACTTCCTCCACACGGAATACACGGGGGCACGATAGGTG
TGACCACATATACTCACGAATCCACGAAAACCCCCAAGATCGTATCTAGT
TCCTAGTACACACCGAACAGCCCCCCTACTCGGTACTAGATATGATCGCG
GGGATATCTGCAAATCCCACGGAACAACGCTACCAAATGCATCGAAAGAC
CAATATTAGACCAAACCATCCATAACCATCAACTCAGACAATCTCTCAAG
ATAATGCGTCCTCCGAAATCGGTTGATCTCCCAATAAGACTAATAGTCCC
GAACTGATTAAATATCCAGTTACCAAGTTATTCTTCCTTCATATCAACGA
ACAATTAACCTTCTCACGAAATATTATCACACCAAACTCAACACGCCATT
CATCAACAGCGTCAATATTTCTCAAGACGCTAAAACCAAGAATCATTCTC
AGAAATTTTCCACACGAAATCAACATTCCTCCAGAAAGGGGTAGAAGTAA
TCATCTTGATCAAGGACGAAAATTCAAAAAAAGCATTCCTGCAGGAACGT
ATTCATCGCATAAACAGAAACCTTGAACAAAACCAAATCTTACCTTTCTG
GCTTCTTCTAAATAAGCTTCGGAAGCACTAAAGCCTCAACAACAGACTAT
CAGAATGCCAAATTATTCCATCAAGCATACGGTATACCAGCAAAGTAAAA
GGCCCCACGTGTTAGAACATCGGAAAAACCTTCACCAGAAATACGGAAGC
TCACATGTATCTCTACCATCAAATCTCAACAGCCCCCCTGCTGTGACATT
TGGGTAGGAAAGCCCAAAACACAAACAAATTCTTCGGAATGCTGCGACAA
ATATCAGGGAACACTATCACCCCCCCCCCATGATCATGGGCGCAGCATAT
AGCACGAAAGACATAGTCAGAAGTCTCGGCACTATGTACCGTGGTATACG
CGATGCAGAAGGAGAAGGACACGCGCACAGGAAAGAAACGAAAAAAAAGA
AAACAGAAGAACAATAGCAGAAACGGGCTGCTAGAAAGACAGGAAACATG
AACACACAGCGCGCCTTCTCGGACGTAAGTACCACACGAAGAAAAACATG
AAGAATGCCTCCCCCGCAAAATCAACGAGTGTTCATCGTAAAGTTGCGGT
GCACCAAGAAAGACTCCCTAGGCAACGGCTTAGTGAGGAAGTCAGCGTGC
TGAAGGTGCGAAGGCACATGTAGAATCTCAAACTCCCCCCGGGCCACGCG
CTCCCCAATGAAGTGGTGACGGATGTCGATGTGTTTGGAGTTGGGCGTAG
TCCTGGGGTTGTTCGCCAAGTGGAGCGCCCCAACGTTGTCCTCATACCCC
AGCGTACTCCGTGCGTGTTTGTGCACAAAAACAAAGCACCATAGACCACG
CAGAAAGAGCCTCTTTCATCCCGTCACCCATCGCAACATACTCAGCCTCA
CAGGAGGACAGAGTGACACTCCTCTGCGTCTTGGACAAATACGCTGCGCT
CGCACCCGCACACATCACAATGACACCGGAAACAGAACGAGGGTCGGTGG
CCTTGCTGGCGAAGTCCGAGTCTACGTAGAGTTCCAAGTCGACACCGCGC
CCACGTTGAAAAGCAATACCAAGACCACTCGTACCACGCACATACATCAC
TTCGGCGCATGCGAATATCCCGCCACGGCCCGCACCGCGTTGAGAATATC
CGGGCGAGTATTAATCGCCAGCCACATCAGGTGCCCCACCAGCGACCTAA
ATGGTTCAGAGACATCCGGCTCTTCCGGATCGAACTCGTACAGCTTCACT
CCAACAGCCATCGGGGTATCCCGGCTCTGAGTCACGCCGAACTTCGCAAC
CATGGCCTCTGCAACCGCTTGCTGCGAAATCGTCACGGTGCCAGCAACCC
TATCACGCGAAAAACGCAAACCAGCATACCACCGCAACTCTCCGAGGTCA
GTGGTGGGAACGTAAAGCTTTAGGTCACCACCAAACTTCACACACCGATC
CTTTGCACCGATAGCGAAGACATCGTCCACGTGGACAACGACCACCATGG
TTACAGCCTCATTCTCAATCAGTCGAAACATACACGTGTCAACAGGGCAC
TGTACGAAGCCAAGACGCAGCATGCAACGCACCAATAGATAGTGCCAGGT
TCGAGAGGCCTGTTTCAAGCCGTACAGACTGCGCGCAAGCTTGACAACCT
TACCAGAAAGCCGACCGCAACCACGAGGCAAACGCACGAAAACATCCTCC
TCCAACTCGGACTGCACAAAAGCTTGCTCGACGTCAAAATGCCACAACTC
CAAATCCAACTCACAAGCAATCGCAGCCAAGAACCGGACAGTGGTAACAG
AGGGGCATGGGGAAAAAGTCTCGAAATAGTAAATACCCTCACGCTGGCCA
AAACCTCGAGCTACCAACCTAGCTTTCGCACGCACAATACGCCCAAATTC
ATCAGACTTCCAGGCAAACACCCACTTCGCGGAGATGACGTTGATGTGTC
GTTGCTAGGACCCGCCAACCCCCTCGAAGGTCCCCGCCGCGCAAAGTCCG
TCGCCCTCACCCCGCAAAGCAGCCAACCAGACCTTGGCGTACGGCCCAGA
AAGCGCCTCCTGTACGGTCGCCGGCGTAGCGATCTCGCTCGCCAGACCAG
AAGGCAGATCGCCGGGAGAGATCTCGGGCGGAGGCTCGTCGTACATCTCC
TGAATGAGGCCGGTCTGTGCAAGGTGGACGGCCATCATGCCGGGAGGCCC
CCCCCGCGTGCGCGCTTGGGCTCGGGTGACGCGCGGCTCCGGACGGTAAA
CACGCCCCCCCCGAACCCGCGCGTGGGGATCACTCGGTTGAATCCCCGGG
TCATGGCACACATCAGGCACCGGGTTGGCCGGGTCCCACACCGGTAGCAC
GCCGCGCCCAAGCGAATCCACGGCAGTACTCTCAACACCACCCGAAGCAC
CTTCACCGCCGCCGACAACGCCCCCCCCAGCTTCGCCATCACCGCCGCCG
ACGCCGCCGCCGCCATCACCGCCGCCGCCGCTGCCGCCGCCGCTCACAAG
AGCCCCCCCAGCTTCGCCAGTCAGGAAAGGCCCAGCAGAAGAAGACGCGG
CAGCGCCCACAGAGGCAGAAGACGGCGCACCAGCGGAAACAGAAGGGACG
CCAGGCACAGGCGTAGACGACGATCCATCGCCCGGCACACCAGCGCGAGC
ACCAGACTCTAGCGGCAACCCAGGTGATCCCCACGGGCGAGAGGGGACGT
CCTGGGCGTCCGTCGCAAAGAAACGCCGGGAGTACCCGAAAGTGCAGTGC
GCGGATGACGCGACGGAACCAGACGGCAGAAGGACCCTGCTGACGCGGGA
GGAGTGGCCGGCGGCCGGGCCCAGGTAGAAAACTCGCTCTCCCTTGGGCT
CCAGCTTATTTTCCCGCATCCGGTGACGGTTCCCCGGAGTCATGAAGGGC
AATACCAGGAAAGTCTTGCGTTCACCCCACATCTTGAGCTCCGGACTGCG
CTGATCCTGCTTGGACACCTCGGCGCAGATGTTGATGGAGTGCGACGACC
ACAGACAGGACTCCGGCCACATATGGGCGTAGCTCAACGCGCGCGACGGG
AAATCCATGCCGTGGAAGAGCTGCGCGAACGACGACCACGCCGCGTAGGA
GCTCTCCATGACAAGGGAGATGCGGCGCTCGATCTGTCCGTTGCTCTTGG
CGCCGTCGACCGAAGTATACTCGGCGGTGATGCCGAGGTCCACCAGCAGC
TCCCGGAAGTCGGCGTTGACCCACTCGTTGCCGTTGTCCCAAAGCACGTA
CTCCACAGGACCGTGAAGCTCGATGAGGGGCTTAATGGAGACGTGCCAGG
CCTTGAACGCTGCGGTAACGTCGGCAGCGCTCTTGGTGCGGAGAAAGAGC
GTCCACCCGTAGTTCGTGCACAGGTCGAGGACCATGAATAGGAACTGTGA
GCCACCGGTGGACGCCTTGTAGCTGCCCGCCATGTCAATGGCGAGGCGGT
AGAGGGGACGCTTGGGCGCGCGGTAGGGGGCGATAGCCCGAGGAACCGCA
GCTCAGATAGCTTTCGACCGCGCGCAGAAGTCGCAGTACTCCTCCAAACC
GGTGAGCTTGATACCTAGCTGCTTATCGGTGGCCCGGAGGATCTCGGCGC
TGCGGTGACCGATTGCATGGTGGAAGTCGTTAATGTTGATCGACTTCTGC
TTACCCGGCCGGACGAGAGCAGCGGGCAGCACTGCAGGCGCCTCCGGGTC
ATCCGGCGGCACCCGCGTTCCTTGGATGTAGTTGCGGTTTCCAAGGAGCG
AAAAGTGGATGTCCGTTCCCAGAATCGACGCACCTTCCTCATGCAGCAAA
TTTTTACGCCGGCGTTGGAGCTTCGTCAGCGAGATGAGGTTGAACCGCAG
ACCGAGAACGACAGCAACATCCTCGAGGGTATATACCACATCCTTCCCCC
GGCTGTGAAAGCACACGTTCAGATCCCCGAAAAACGAAACTTCCAAGCAC
TGACCGTTTGCCACCTGCACATACCGCTCTGCAGGCAGCGGCTCACGACG
ATTGTACACGTGTTCCCCGTCGTCCACCCCCGTAATTGCCGCGCCGGAGT
CACCGAGGAACACCGTCGCGCCAGGCCTAAGGTCGGGAATCTTCACGGAC
AGGACAGGCAGAGGCGAAGACGCTTGCGGGGGGGAAGCAGCAAACATGCG
CTCGGAGACAGACGGGGACACGGGCTGTAAAGCCATGAAGCCCCGGTCGA
ACACGTCGGTGGGGGCAAACTGCAAAGACAAGAACCCCTCGGTCACCAGG
TGATCATCTCCCTCAGCTCCGAATGGCAGTGGGACGGACATGGTGGCGCG
ACCGGAGTCGCCACCGTCGCCCCCCCGGCTATTCAGGAGTTGATTCTGGT
CTGCCGACGCCCACGCGCCATCATCGAGCGCAGCCGGAGCACAAACCGCA
GAAGTGGCGCCGCCCTCACCGGCAGAAACCCCCACGTAGTTAAACTGCTG
CTGGTGGTCTGCCTCGAGCGACTGTCCGGAAGCATCGACGTCGCCGCAGT
CGCCAACATACCCGTCGCCACCGCCGTACTCGTAGCCGCCGCTGCCGCCG
CCACCGTATTCGTAACCGCCGCCACCGCCGCTTCCATCGGGGCACGGCGG
GCAACCGCCGCCATCCCACACAGGAGCGGCAGGCGCATCTTGCTTGGCTG
ACCCGTTTCAAGAGTCACCTCCGACGTGAAGGTCTGGCGCATGTGATTGT
GCCAGAGGCTCCGATTGTGCCCATCGCAGAGGCGATCAGCTCTGCGCCAC
CAAGCAACTACGCTCGCGAGTTGGTGGCTGATCATGCGCGCGCTTTCGAT
ATCATGTCAGAAGCTGCCGCGAACTCCTCGTTGAGTGCTAGAGTTTTGAA
CTGCTCGAGCGCACCCGATGCATGGTCGATCATCTGCAAAACCGTCGTTC
CAAATAATGATGACGAATTGCATTTGGTACGGCAATCCATCGAGAATGCA
ATTCGCCATCATTATTTGGAACGACGGTTTTGCAGATGATCGACCATGCA
TCGGGTGCGCTCGAGCAGTTCAAAACTCTAGCACTCAACGAGGAGTTCGC
GGCAGCTTCTGACATGATATCGAAAGCGCGCGCATGATCAGCCACCAACT
CGCGAGCGTAGTTGCTTGGTGGCGCAGAGCTGATCGCCTCTGCGATGGGC
ACAATCGGAGCCTCTGGCACAATCACATGCGCCAGACCTTCACGTCGGAG
GTGACTCTTGAAGCGGGTCACCCAAGCAAGATGCGCCTACCGCTCCTCCA
TAAAATCCAATTTCTTCTCAGATTTCGGAAATTTCAGAGATGCTGGCAAT
GTTGTTGTTGCCAGACGCACCACCCCTGTGGGCAACGGGCGAGTCACACC
GAAACTCTGTCTACGGTCACTCCCATAAGCTTCACCACCGCGTACACCAC
CTGGATCCAACGAAGCTCCGCCACCAGTTGCAGCGGCTGTCGCAGCTGCC
ACAGCTGCCGCAGCTGCCGCTTCCTCCGATGCTGCTGCGTTCTGCCGAGT
CGTCTCTAGAGCCACCGTCAGCCCTTGGACCTCCGACCGAAGCCTCTCCA
GCTCCTCCTCATGGGTCTCCATCACCACCCCAGGTCTTCACACAAACTAA
CTTTCTCGCTCCGCTCTTCAATGTCGCTCTTCGCTCTCGCTCTTCACACA
CACACACACACACACACACGTGCAAATCCTCTCAAGACTGAGCACGGTGG
ACATAAACTTCCCGAGCAATACCTTTTCCACCACGCAGGGACCTCCCTCG
ATATATCGTGATTGGTGGTGGCGGATGTCTGTCAGAGTCTCGGGGTAGAT
GGACTTAATTCCCTTTTTTGATTAACGTTGAACACACACAACACAGCAAC
AGCACAGAGGGAAGCGCGGGACTTCCTCCACACGGAATACACGGGGGCAC
GATAGGTGTGACCACATATACTCACGAATCCACGAAACCCCCCAAGATCG
TATCTAGTTCCTAGTACACACCAAACACGCCTCCTTTCATTTACCGAGAG
GTGTAGACTGGCGTCCGGAAGAGATGGGATGACAAGCACAAACACACGCA
TGCGAAGTTGCTTGCTAAGAATGAAAAAAAATCAATGCCGTCGTTATCCC
GTCCTTCTTTCGTAAAAATGATACCGAAATACTTCGTACTTCTCTAAAAA
AAAAATTACCAAGTGAAATGCGTTTGATACGCATTTTCATCATCTGTGTT
TTTTGTGCTGTCTCGTCTGCCCGTGTCCCTTCCGAGTGGTTGGTTTGAAT
AGTCTGTGTCTGTCTATCTATCTGTCTGTCTATCTGTCTGTCTGTCTGTC
TGTGACATTGCTGTCTGTGTGTTGCTCTCTGTCTTTGTCTGTCTGTTTGT
CTACCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTACCTTGCT
ACATACCCCTTCTCCCGACAACCGAAATAGGAGGAGCGGCGGCAGGTGGA
GGAGGCCGACAAGCAGAGAAGAGCGAAGGCCGAGAAGATAGTGATGAGAT
CTGCCGCGGAGAAGGCCGAGAGGGACAGGCTGCTGGGCGAGTACGGTTAC
GATTCGGACCCCGTGGACGAGGAGGGAAACCCTCTGCCGCCAGAGGAAGG
GGGAGACGGGGAAGGGGCGGTAGGAAGTTCGGTAAGATGGTATACCTACC
CGGTACGGTAGTAGTGCCAAGATCCTTCACGTGCACACCACGTACCAGTA
GAAGAGGTCACGGTGGTGTGAATCCAATCGAACTCGAAAAAAAAAATTGG
TCTCGGTTGGGGGGGGGTAGGGAGGGGGGCGGGGAGGGGGTTTCGTATGA
GGTGCTTGGGCCGTGGGGAGGGTTGGTGGTCTCGCACGTGCTCCGGCAGG
TTTTTGCGCTTCTCCGTGCTGAGTGAGGTCGGTCGGTTGGTTCCGCCTGG
GATGTATATGCAAGTATCATGCGGAGTGCGCACTTCGCAAGCGTTTTGCG
TGTGCACCACATTGATAGCGGCGATCGACAGCCCGGCCGGACAGATACGG
TACAGCGTAACATAGTGCTCATTGTATGTATGATACCCCAGTCTTGCAAC
GGAATAACTGCTCGAGAGAAAAAATTCAGGCCGCTGTGTCCTCGGGTCTT
GTTTGCAGATCACCGAACCGGAACCAAGACCGAAATCGAAAGATTTTTTT
TTCTGACCGGTTTCTTCCGCACCCGGAGAGCAACACGGAAAATCGTCTCT
GTTTCTGGCCAGCATGCATCGTTGGTGTGGCTGACCACATGAAAAAAAAA
GTATGTTGCAGACGTGCAACATTCGCACCCCAAATCGTACTCCGTTGCGC
AGGATGGTGTACTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTTCTCCAT
GTATTGTACGTGCAGCGCATCAACTGCTGCCCCCCAATATCTTACTTCGA
AGTATAATTACAGCACAGTTGACATGTTGTTCCGCATTCAAGTGATGATT
TTTGTCTTTCCCTCTCACGGCTGCCGCTGAAACACCGGCACGAAATCATG
CCGCAACTCTTTTTGGACTGCTGTACGGAGATGGCCTTCTTTTTTTTTTG
TTCATGTCTCGATCCTCCCGCCCGCTGGCAGGCCGGAGACAGCCTCGGAG
AAGCGTACGGCCAGAACCTCAACAAGGAGCGGGTCCGACAGGAGGTCGCC
GCGAAGGTACACATGGTTGAGATGCACACGTGTGAGGGCTTGTTTGCGTA
TGTGTGGTATTAAATCTGTGTACGTAAAAAATATGCGAAGTATCATAATT
CCTCTGTATCATAAGTCTGTGCCGTTATGGGCGTGTAATTGTTTGCGCAT
CCATACTGTTTCGATCATCCTATAGTTAGGTTCGTTCGAAAGATGAAGTC
TCAAAGAAGCTGATGCAAAAAAAAAAGCAAAAAAAAAAGCCAGTTGTTTA
TACTAAAATGAAGTCAAAATATGCCCATTTTGGCCCATTTGAAGAATTTT
GATTCCGCCAGATGTCTTGGTTTTAGAGCATGAGTCCCAAGTATCTTCGT
TTTAGTGTCGCAAACCCAAGTGTCTTGGTTTTAGGGTTGCGTCACTATTA
TACTGATCTTAGTAAGGAGGGACTCGACATGTATCTTTGAGGTAGGGGGG
CTAGGTTCAGGGATAGGGATAATTTTGGGGGGGATTGCATTGGTTTTTTT
ATTTGCCCCCGCCCCCCACTCCACCTCTGGAAAGGGTTAAATACGGCCAT
TTTTGGCCTGACTACTTTTTTGTTAGCCGCTAGCCCATGCGCAGGGTAGT
GCGCAAGAAATATATTTATATGTGTTTCAACCCAAAAAACTCCGAAGATT
TCGAAAAAATTATCGCCGAAGACATCGGACACCGTTGAGGGGGCGTAAAA
ACATAACGGCACAGACTTATGATACAGAGGAAGTATATACCTTGTACATT
TTATACGCAGTACCAGGCATTTGTTTTCCCTCTTCTGTACCTGCATCCCC
CCCCCCCCAACCCCCATCTTCCCACGGCCTCATTCCTCACTCAAAACCAG
CGAGACGCCATCAAGAAAACCCACCACGCTACGGCCTTGCAGAACAAGAT
TGCCCTGGAGGCGGACAAGATGAAGAAAGAAATGGCCAAGAATGCAAGAA
AGACTACCAAGGGAGAACGAAAGCGATGAAAGTGGGGGCGGTGTGAGGGC
ATGCTCATACTTCATATCACGAACACACTTGTACGGTTTCTCAGCCTGCG
TAGGATTTTTACAGCAGCTGCAGTCTGCTGTCCTTCTGTACGAGTGTGGC
GCATTCTTTTTCAGTCTATGGATAATACCGAAGTTCACAAAGTTAAGTTA
CTCGAGTTGTGCACACAGCAGCAGCACGACGGACGACTTCTTGGCGATAG
TTCTCCGCTGCTGTTCGTCAGAAGGTTTTGCCCCCACCCTGCCATCATAC
GACGCCTTCTGTTTTTCCTCTCGTGACTGTTGGTTTTGTTCCGGCCGGCC
TGACGTCATTTGGTGGAAGCCTGACCTGATCGTCAGATTTTTCTCCCCGA
GTTCCGTCCGAGGCTGGGAAGTTGTTTTTGGGCTGTGATTTGTCGAGCTT
TCCTCCCCGACACTGAACAAGAGGGAGAGTCTCTCCCGTTTTGCGTGAGC
TGTTTCCCCACACGTGCGTGTGCTGCTTGTTTCGAAGTTCTGAGTTTTGG
GGTGGCGCGTTCTTCGCGCGTGTGGGTTGTCGGACCGTCACTGCTGCATA
TCGATCGCTTGTAGTGAAAAGTCGAATGGTGGATGATACGCCCGAGTGTG
CCTGATGATTTGACGTAGCCGGCTGACTTCCCGATGATGAAGCGGGCTCA
AGTCTTGATTGTGGATCAAAACCAAGTTTGTTCGAAAGTCTGCCAGCACT
CAACACCAGTAGCCTACGTGCAGCATAAATCTCCACGAGTTTTGAAGGTG
CATGCATGCCGTGTGATTTCGGCACGCAGGGACAAGGGAC

Coding sequence (CDS) from alignment at P-littoralis_Contig7:570780..591219-

>mRNA_P-littoralis_Contig7.118.2 ID=mRNA_P-littoralis_Contig7.118.2|Name=mRNA_P-littoralis_Contig7.118.2|organism=Pylaiella littoralis U1_48|type=CDS|length=711bp|location=Sequence derived from alignment at P-littoralis_Contig7:570780..591219- (Pylaiella littoralis U1_48)
ATGGCAAGCAGCGATGGGATTTCGGGGTTCGACACGTGGCTAGTTGACAA
GCTAGATGCCCTAGGCCTCGATGCCGAGGTCTACGGGGGCTACGTGACTG
GCATCATGGGGGACGAGGACAATCCGCAGGAGGAAAGAATAGACTCCGTC
ATAGAGATACTCTCCGGGGCTGCCGAAGAGGACACAAACCTAGACGACTT
CCGCTCGTCGCTGAAGCAGAGGTGGGAGGTAAAATTAGGCCTGGAGCAGG
AAGTGGAGGAGGCGGCCAAAGCCGCCAAGCAGAAGGAAATGGATAGCAGG
AAGGAGGAGGAGCGGCGGCAGGTGGAGGAGGCCGACAAGCAGAGAAGAGC
GAAGGCCGAGAAGATAGTGATGAGATCTGCCGCGGAGAAGGCCGAGAGGG
ACAGGCTGCTGGGCGAGTACGGTTACGATTCGGACCCCGTGGACGAGGAG
GGAAACCCTCTGCCGCCAGAGGAAGGGGGAGACGGGGAAGGGGCGGTAGG
AAGTTCGGCCGGAGACAGCCTCGGAGAAGCGTACGGCCAGAACCTCAACA
AGGAGCGGGTCCGACAGGAGGTCGCCGCGAAGCGAGACGCCATCAAGAAA
ACCCACCACGCTACGGCCTTGCAGAACAAGATTGCCCTGGAGGCGGACAA
GATGAAGAAAGAAATGGCCAAGAATGCAAGAAAGACTACCAAGGGAGAAC
GAAAGCGATGA