mRNA_P-littoralis_Contig182.97.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig182.97.1
Unique Name	mRNA_P-littoralis_Contig182.97.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: D8LM17_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LM17_ECTSI)

HSP 1 Score: 143 bits (361), Expect = 8.110e-31
Identity = 65/102 (63.73%), Postives = 82/102 (80.39%), Query Frame = 3

Query: 1809 VEVHITEDGEAVYSFNKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTAKARESLQ 2114
            VEV  TE G+++YS  +SAP RRGKWSRLEEEYAKR++ DF++GVLDAP G GLR++LASKL C++MRVSKKF GW CVG+R FQPV + DGR ++   S +
Sbjct:   99 VEVKATEGGDSIYSLRESAPTRRGKWSRLEEEYAKRVVRDFEEGVLDAPAGAGLRKLLASKLGCDLMRVSKKFSGWACVGRRGFQPVRHPDGRASRRGSSTK 200

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A6H5KX67_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KX67_9PHAE)

HSP 1 Score: 122 bits (306), Expect = 2.280e-24
Identity = 103/231 (44.59%), Postives = 132/231 (57.14%), Query Frame = 3

Query: 1917 IISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTAKARESLQKMEQAWLRTFPS-SLRPSGEIA--------------------GGXXXXXXXXXXXXXXXXSPLSGRGGSSPESLMRLVPLPPPVERDICDDGSSLKKEMTPNQT------W-ATRANRTLASDTPCGSIDSLVSLVKEGR---ICCGNLEASEQGLRDADRGDDE 2516
            +I DF++GVLDAP G GLR++LASKL C++MRVSKKF GW CVG+R FQPV ++D R  +A+ES+ KMEQ+WL+   S S +P+G +A                      XXXXXXXXXXXXXXXX+P S RG SS +S  RL PLPP     +   G  +K+E   N T      W A R  ++   D+  G+I  L   V        C GN E  E   RDA+   +E
Sbjct:    4 VIRDFEEGVLDAPAGAGLRKLLASKLGCDLMRVSKKFSGWACVGRRGFQPVRHNDARALRAKESMFKMEQSWLKFLASKSSKPNGNVAINDGSSGIAAVSVSSTLPXXXXXXXXXXXXXXXXXXXXTPFSDRG-SSTKSTARLPPLPP-----VAAPGGIMKEEQKDNDTAAPARPWSAARGQQSSTCDSSPGAIHPLEKEVPPSNGLSPCRGNRETEE---RDAEEPQEE 225

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A6U9W9P0_9STRA (Hypothetical protein n=1 Tax=Pseudo-nitzschia australis TaxID=44445 RepID=A0A6U9W9P0_9STRA)

HSP 1 Score: 95.5 bits (236), Expect = 3.280e-16
Identity = 83/226 (36.73%), Postives = 114/226 (50.44%), Query Frame = 3

Query: 1854 NKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTA---KARESLQKMEQAWLRTFPSSLRPSGEIAGGXXXXXXXXXXXXXXXXSPLSGRGGSSPE---------SLMRLVPLPPPVER---------DICDDGSSLKKEMTPNQTWATRANRTLASDTPCGSIDSLVSLVKE--GRICCG 2462
            +K    RRGKW+  EEEY  R+I DF+ G L+AP G  LR  L+ KL+C+ MR++KKF G  C+GKR F P   +    A   KA+  L  +E+ W R      R S + A  XXXXXXXXXXXXX    P+S  G SS           ++ R       ++R         DI +  +S  +E   N+++  R N+   +    G+ DSL   +KE    IC G
Sbjct:  196 SKGTARRRGKWTTEEEEYVARVIQDFNSGFLNAPAGYTLRSYLSDKLQCDPMRITKKFTGESCIGKRVFHPAVRNATNAAAIDKAQAELDTLERRWRRRLEMQQRESVKKAAAXXXXXXXXXXXXXVQGVPVSMLGASSQSPSDSQLQQSAVTRAATW---LDRANVILLGNIDIGNQANSSCREKDSNESYHQRNNKDETASNQSGAEDSLEHQLKELQSLICEG 418

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A7S2A0M8_TRICV (Hypothetical protein (Fragment) n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S2A0M8_TRICV)

HSP 1 Score: 85.5 bits (210), Expect = 1.990e-15
Identity = 44/105 (41.90%), Postives = 58/105 (55.24%), Query Frame = 3

Query: 1833 GEAVYSFNKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTA---KARESLQKMEQAWLR 2138
            G A  +     P RRGKW+  EE Y  R+I +F+ G L+AP G  LR  L+ +L C+ MR++KKF G  C+GKR F P        A   KAR  L  +E+ W R
Sbjct:   17 GPATSTATTRPPLRRGKWTVEEEAYVARVIQEFNSGYLNAPAGATLRTYLSERLHCDPMRITKKFTGDACIGKRVFHPAVRCATNAAAIDKARAELDALERRWRR 121

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A1Z5JKA6_FISSO (Uncharacterized protein n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5JKA6_FISSO)

HSP 1 Score: 90.9 bits (224), Expect = 3.580e-15
Identity = 46/117 (39.32%), Postives = 63/117 (53.85%), Query Frame = 3

Query: 1830 DGEAVYSFNKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTA---KARESLQKMEQAWLRTFPSSLRPSGE 2171
            D   +    ++   RRGKW+  EE Y  R+I DF+ G LDAP G  LR  L+ KL+C+ MR++KKF G  C+GKR F P        +   KA+  L  +E+ W R   S  R S +
Sbjct:  144 DASKLLGSERNGRLRRGKWTAEEEAYVARVIQDFNSGFLDAPAGTTLRTYLSEKLQCDPMRITKKFTGDACIGKRVFHPAVRSPNNVSTIDKAQAELLHLEKRWHRRLESQQRDSAK 260

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A7S2R8R9_9STRA (Hypothetical protein n=2 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2R8R9_9STRA)

HSP 1 Score: 88.6 bits (218), Expect = 3.360e-14
Identity = 42/99 (42.42%), Postives = 63/99 (63.64%), Query Frame = 3

Query: 1872 RRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVF---YHDGRTAKARESLQKMEQAWLRTFPSSLR 2159
            RRGKW+  EE Y ++II+DF++G L    G  LR  L++KL C+ MR++KKF G  C+GKR F P+     +D + ++ARE+L+++E  WL       R
Sbjct:  166 RRGKWTPEEERYVQQIINDFNNGTLAVSAGTTLRSYLSAKLNCDPMRITKKFTGDSCIGKRVFHPLERNPLNDAQVSEARETLKRLEARWLAKLDEQKR 264

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: B7FR00_PHATC (Predicted protein n=3 Tax=Phaeodactylum tricornutum TaxID=2850 RepID=B7FR00_PHATC)

HSP 1 Score: 88.6 bits (218), Expect = 4.300e-14
Identity = 48/111 (43.24%), Postives = 63/111 (56.76%), Query Frame = 3

Query: 1848 SFNKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGR-TA--KARESLQKMEQAWLRTFPSSLRPSGE 2171
            S  K++  RRGKW+  EE Y  R+I DF+ G LDAP G  LR  L+ KL+C+ MR++KKF G  C+GKR F P        TA  KA+  L  +E+ W R      R S +
Sbjct:  219 SVRKTSGLRRGKWTVEEEAYVARVIQDFNSGFLDAPAGTTLRTFLSEKLQCDPMRITKKFTGDACIGKRVFHPAVRSPSNGTAIDKAQAELHGLERRWQRRLELQQRESAK 329

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A7S1D940_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1D940_CYCTE)

HSP 1 Score: 86.3 bits (212), Expect = 8.940e-14
Identity = 44/99 (44.44%), Postives = 56/99 (56.57%), Query Frame = 3

Query: 1872 RRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTA---KARESLQKMEQAWLRTFPSSLR 2159
            RRGKW+  EE Y  R+I DF+ G L+AP G  LR  L+ KL C+ MR++KKF G  C+GKR F P       TA   KA+  L  +E+ W R      R
Sbjct:   78 RRGKWTVEEEAYVARVIQDFNSGYLNAPAGTTLRSYLSEKLHCDPMRITKKFTGDACIGKRVFHPAVRCPSNTAAIDKAQGELDALERRWRRRLEMQQR 176

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A1E7FWV8_9STRA (Putative chitinase n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7FWV8_9STRA)

HSP 1 Score: 86.3 bits (212), Expect = 2.540e-13
Identity = 43/101 (42.57%), Postives = 57/101 (56.44%), Query Frame = 3

Query: 1878 GKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFY---HDGRTAKARESLQKMEQAWLRTFPSSLRPSGE 2171
            GKW+  EEEY  R+I DF+ G L+AP G  LR  L+ KL+C+ MR++KKF G  C+GKR F P      + G   KA+  L  +E  W R      R S +
Sbjct:  194 GKWTVEEEEYVARVIQDFNSGFLNAPAGYTLRSYLSDKLQCDPMRITKKFTGESCIGKRVFHPAVRSAANSGSIDKAQAELDALETRWRRRLEMQQRDSAK 294

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BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Match: A0A7S2YAQ7_9STRA (Hypothetical protein n=1 Tax=Amphiprora paludosa TaxID=265537 RepID=A0A7S2YAQ7_9STRA)

HSP 1 Score: 83.2 bits (204), Expect = 4.970e-13
Identity = 44/101 (43.56%), Postives = 57/101 (56.44%), Query Frame = 3

Query: 1848 SFNKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGIGLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTAKARES----LQKMEQAWLR 2138
            S + S   RRGKW+  EE Y  R+I DF+ G L AP G  LR  L+ KL+C+ MR++KKF G  C+GKR F P       T  A E     L+ +E+ W R
Sbjct:    6 STSNSKSLRRGKWTVEEETYVARVIQDFNLGYLKAPAGTTLRTYLSEKLQCDPMRITKKFTGDACIGKRVFHPAVPTSASTLAAMEQAQAELEDLERQWRR 106

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig182.97.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LM17_ECTSI	8.110e-31	63.73	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A6H5KX67_9PHAE	2.280e-24	44.59	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A6U9W9P0_9STRA	3.280e-16	36.73	Hypothetical protein n=1 Tax=Pseudo-nitzschia aust...	[more]
A0A7S2A0M8_TRICV	1.990e-15	41.90	Hypothetical protein (Fragment) n=1 Tax=Trieres ch...	[more]
A0A1Z5JKA6_FISSO	3.580e-15	39.32	Uncharacterized protein n=1 Tax=Fistulifera solari...	[more]
A0A7S2R8R9_9STRA	3.360e-14	42.42	Hypothetical protein n=2 Tax=Rhizochromulina marin...	[more]
B7FR00_PHATC	4.300e-14	43.24	Predicted protein n=3 Tax=Phaeodactylum tricornutu...	[more]
A0A7S1D940_CYCTE	8.940e-14	44.44	Hypothetical protein n=1 Tax=Cyclophora tenuis Tax...	[more]
A0A1E7FWV8_9STRA	2.540e-13	42.57	Putative chitinase n=1 Tax=Fragilariopsis cylindru...	[more]
A0A7S2YAQ7_9STRA	4.970e-13	43.56	Hypothetical protein n=1 Tax=Amphiprora paludosa T...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig182	contig	P-littoralis_Contig182:356539..373001 -

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	2850.Phatr43209
Model size	6311
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	5
Evalue	3.89e-15
EggNOG OGs	28HE3@1\|root,2QRTK@2759\|Eukaryota
Cds size	3912

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig182.97.1	prot_P-littoralis_Contig182.97.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig182 358474..371681 -

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


Feature Name	Unique Name	Species	Type	Position
1680789880.829085-UTR-P-littoralis_Contig182:356538..358473	1680789880.829085-UTR-P-littoralis_Contig182:356538..358473	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig182 356539..358473 -
1680789880.8759995-UTR-P-littoralis_Contig182:371681..371898	1680789880.8759995-UTR-P-littoralis_Contig182:371681..371898	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig182 371682..371898 -
1680789880.8849845-UTR-P-littoralis_Contig182:372754..373001	1680789880.8849845-UTR-P-littoralis_Contig182:372754..373001	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig182 372755..373001 -

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


Feature Name	Unique Name	Species	Type	Position
1680789880.8411307-CDS-P-littoralis_Contig182:358473..360753	1680789880.8411307-CDS-P-littoralis_Contig182:358473..360753	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 358474..360753 -
1680789880.8495965-CDS-P-littoralis_Contig182:361160..361341	1680789880.8495965-CDS-P-littoralis_Contig182:361160..361341	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 361161..361341 -
1680789880.8580537-CDS-P-littoralis_Contig182:361632..362285	1680789880.8580537-CDS-P-littoralis_Contig182:361632..362285	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 361633..362285 -
1680789880.867069-CDS-P-littoralis_Contig182:370883..371681	1680789880.867069-CDS-P-littoralis_Contig182:370883..371681	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 370884..371681 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig182:356539..373001-
coding sequence from alignment at P-littoralis_Contig182:356539..373001-

protein sequence of mRNA_P-littoralis_Contig182.97.1

>prot_P-littoralis_Contig182.97.1 ID=prot_P-littoralis_Contig182.97.1|Name=mRNA_P-littoralis_Contig182.97.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1304bp
MFKCASPSGLPRPDQDKQQRNSSSSEARERRQQHHEQRGGDRATDHVIRG
WELPPHGDDDNEGESNDDRGKDGVGAVRMWSEAAGHQKLFKDRGQQKEQL
QQQQQQQEHQRVKEEFAGARFADDDVTTTNTLRPPLEMAQPKPAAVEAAA
ASSTGNVPELAPARPGDRGSGQEIESRLFPEDAEDAASSTAAVPPALPPP
CSPSCVVSSRPHSPPAAVGKEGDDEQEGSDGSAAREEHDEHSMTAATTTS
SRRRRSTSSERWTALKVSIPGPEVEGPTVSIVTDSSGSSTDRSGRGFPAP
GAAMWGASRYAGRQEVATERRAGYSRGCDEGFRAAQVVTGHVRGAFATAV
TTFARPLNSAAEVGATATAGKGDDSAGVAAATIETTSTTLTPAAVVVEGG
GGRVVPSLSPPTRLDPGRPVIPGIPGAILEQQQQQQRRQQQLCRRYFSVE
VHITEDGEAVYSFNKSAPARRGKWSRLEEEYAKRIISDFDDGVLDAPVGI
GLRQVLASKLRCEVMRVSKKFRGWQCVGKRNFQPVFYHDGRTAKARESLQ
KMEQAWLRTFPSSLRPSGEIAGGGGTGTGTGTGSTSSSSSPLSGRGGSSP
ESLMRLVPLPPPVERDICDDGSSLKKEMTPNQTWATRANRTLASDTPCGS
IDSLVSLVKEGRICCGNLEASEQGLRDADRGDDEEREEEQEKGKEDSRRL
VSPVRKEGHSVWPQPQQQQLAPFHGGGHDDHHHNNRSVTAGSGAGRVIDR
EGMGGHSWATVSEVHASSQGSYRMRDTEPPHESVGRPREHQGERSRSQAD
ALSPWQRPRAKRLPGGGGGRGGGGSSEGDADPYPVYSKRKKVCGADASWA
RCGSREGNVGGGGCGTSGNEWPQGSCLMSARAPGAGTTDPYEHQQGRQPP
PYAVSRRGETNARDYAPEHHREEVTTAMGGAQAEGPDVRRGEHGLPRGVA
AADERYQTDPPPLYKPLRRRRAATGSNDCGGGDSGGHEVTNDCDGNSGGN
AGIGRRPFRLKPAPLPIHMRADSREEVYPSYEQAAKAKGSEARQPYRPET
SHRAAPAGSYPQQQPQRRSSEGHGHGYAAKDERRAWGNDLATGSPHRSVK
APRVLDFVSHDSATAAGGGTHPRFDNNSDYPMYRKRQQQQQPCSGRVITT
AATIANSHGPQQYRRDVEGSTSASATEESYHCRMSLKRPAGPYGEVYSSS
NGAFPPPPPPASSRDHFYDASASPRSMEMSGGGGAVVVPSHEHGTVVVGP
AGCSSRTLERREAPTSRWGRREAPPSQQWGRAVRRDAERTPTRTVLVGKD
YHY*

mRNA from alignment at P-littoralis_Contig182:356539..373001-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig182.97.1 ID=mRNA_P-littoralis_Contig182.97.1|Name=mRNA_P-littoralis_Contig182.97.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=16463bp|location=Sequence derived from alignment at P-littoralis_Contig182:356539..373001- (Pylaiella littoralis U1_48)
CGCAACCTGTCGACAACAACTTGTCGAAAGATGAACGGAGTGCACAGACC
AACTGGTGTTAAGAGCACGAAATTCCCCAGACAGACCAGACACGCACACA
CCTGGACAAGAGCACACCGAGACCTGCTTGCATGCAGGCACGTGTGTGTG
CAGACGGAACTTGAAGAAACTCGGCTCCTCACGAACATCTTCAACAGCGT
TCAAGGAGGCTATCTCGCACAACACACAAGAGGAGGAAGAGGAGTGGGTG
AGCGATCGCGTAACCCTTTCTTTGGTGTATGAGGATGAGAGAGAGAGAGA
GAGAGATACATGAATAGAGAAAGAAAAAGAGATTTTACTGTAGGGGATGG
AAGATTTTCACTGACGGGGTGTTGTACTTATACGATATCCTGACAGGGAA
TTGAACCAAGTTTGTGGAAGAAGAGAACTGGAAAATATATTTCAGCTGTG
GCGTGTCGGAATTCCCCGGCTCCTCTTGCTTGGTGGGTGGCACAGGACCT
GTGGCGTCTGGCGCTGCTGTGCCAGATATCACATATATATGCATGTGGAG
AGCAGCAGCGCTGCCTGGCTATACCACATATTTTGTTTATACCGTGTTAC
CATACGCTCTGCGTCTCGTGGCCGTCTCATCTGTGAGTGCATCTGTCATA
CGTATGTGCAAGAAGTTTGGAAAGGTACAAGGAGAGTGCAGCTGTGAAAC
ATTTGCCGCTCTGTGACCGAAATAACAAATAAATGCCGCCCGGCCGGTGC
TACCAGCAGCAGCAGTAAAGTAGGAACACTTTGAAGAGGCAGCAGCCAGT
GCACGCGCTGACCGTCCATGCCATTGAACTACGGAAGTAAGTGCCGTAGA
CGAGTGTATGTGTGCCGGTGTGTGCTCTCCGTAGCGATCAAAACGTACGG
TAGACACAAATGATCTACCCTCCTCTGTCTCCCTCTGTTCTCCTAAGTAG
TGCGTGTGTGCTCGTGTGTGGGACTCCCGACTCCCTTGAAGATCCCCCTT
AAACTCAAATTCTGAAGAAATTTATTGAATCTCGTTTCTTCCCTTCTTCG
TTTGGACACCGCCGTCTGCCTCTTTTTTGGTTTAATTTTACCGTTGCAAG
CAGCAGCAGCGAGGGGGTAGAGGACCTGCTTGCGCAGCGAGCAGCAGCAG
CGGCGGCAACGGAAGCAGGCCCGTGAGGGTCACCGAACGGCGAGGGTGGG
CGGGGGACTGCTCTGCAACACAGCAGTGCGTACGGTCAGAGGTCGATCCC
TAGTGTCCACAACACGCGACACGGCGTTCTGCACCACCGGCAGATACCAT
TTGGCACACTATTTGCTTCAATGTTCAAATGTGCTTCACCTTCTGGTCTG
CCCAGGCCGGACCAAGACAAACAACAACGAAACAGCAGTAGTAGTGAGGC
CAGAGAACGTCGACAACAACATCATGAGCAGCGAGGCGGTGATCGAGCTA
CCGATCACGTCATCCGCGGGTGGGAACTCCCACCCCACGGTGACGATGAT
AACGAAGGAGAAAGCAATGATGATCGTGGGAAGGACGGGGTGGGGGCGGT
GCGAATGTGGTCCGAAGCAGCCGGGCACCAAAAACTTTTCAAAGATCGTG
GACAACAGAAAGAACAACTGCAACAGCAGCAGCAGCAGCAGGAACACCAA
CGTGTGAAGGAAGAGTTCGCGGGAGCACGGTTCGCAGACGACGACGTTAC
GACCACCAATACTCTCCGTCCTCCCCTAGAGATGGCCCAACCAAAACCAG
CAGCAGTAGAAGCAGCAGCAGCATCGTCGACTGGCAACGTGCCGGAACTC
GCGCCTGCTCGGCCTGGTGATCGTGGAAGCGGCCAGGAGATAGAGTCGCG
ACTTTTCCCGGAAGATGCCGAAGATGCGGCATCGTCAACAGCAGCAGTAC
CACCAGCTCTCCCTCCACCCTGCTCCCCGTCGTGTGTCGTTTCTTCACGT
CCGCACAGCCCGCCTGCCGCCGTCGGTAAGGAAGGTGATGACGAGCAAGA
AGGGAGTGATGGATCGGCCGCACGCGAAGAGCACGATGAGCACAGCATGA
CCGCCGCTACCACCACCAGCAGCAGACGAAGAAGGAGCACCAGCAGTGAG
CGGTGGACAGCTCTGAAGGTCAGTTTTTGTTTTATAACGAAGCAGGATGA
GGGATCCTAAACAACGCAAGTCTACCCTCCATAATCTCCTCTGTTTGGGT
GATGCACTCTCTAAAATATGCTCTGTATATATATCACGGACTCACAAAAT
GCATATGATATGCACCACTTACTTTTTGACGTTTACGAATTATATATACT
CCGGAGTACATGTTGTAGTATACTGTATACGGAGTATACTATATGATGAT
GTACTGGTATCATAGAGCTTACAACAAGTCCTTCATGTACATGATACGAA
GTTCGAGGATTTCCCATGAAATGGCATGATGATTTGATGACTGCCTACAG
CAGCGGTATAGGATCCTCCACTCCCAAGCTATGTTTCTTCGTCTGCATTT
ACCCATGGGAGCATTGTGTGTGTGTTGTCATCCCTTTAATTGGACGCCAC
TCTACACCTTTCGGGTAGGTAGACGCTCCAACTGAGGTCACACAGTAGGA
AGTCAACACAGGAGTTTTTTTTTTTTTCTCCGCTCTCCCCGCTGCGGTAC
TTGCCGTCATTTTTTCTCGCGAGAAAGGGTATAGCCATCCCTTTCCCTCG
TCGACACTTCGAATTTTGTTTATTCACGAATGACTCGTTTTCCACCCTCA
CGCATGACATGAAAATAATTCCCTTTCGTGTTACTTGCACCGGGACTTGA
ACTCAAGCGTGAGTGACTGTCAGAAGATTTCGGGGATAATCAACTGAACC
ACCGGGGCGACCGGTCATTGTGTGTGTGTGTGTCGTCATCCCTTTTAATT
GGACGCCACACAACACACACACCCTACACCTTTCGGGTAGGTCGACGCTC
CAACTGGGGTCACACAGAGGGAAGTCAACACAGGAGTTTTTTTTTTCTCC
ACTTCCCTCTGTGGTGCTTGCCTTGTTTGGTTGAGCTTTTATCGCGAGAA
AGGGGACAGCAACCCCTTTCCCTCGTCGATGGTACGAATTTTTGTTTCAC
TCACGAATTAATCGCTTTCCACCTTCACCCGCATTGTGATAACTCAACCT
TTATGATACTCGTGTTGATTGCACGATGGATACTGCCGGGTTTTTTTTTG
TACAACGTAGTACCGGCCCGCAAGTAAGAAACTGAAGATCGGACTGAGGC
TGGGTCTCTTGTTTTGTGACCGCCATGAAAGCACGCGCCGTCTCTTCATA
TCATACCACACACAGCAGCATATAGTGTGGGGCCGGCCTCTGACCAAATT
TTCCTACAATTCAATATTGTTTTTTTTTTAACTTGGGCCTTTTTTAATCA
GGACGCCTGATTTCACTGAAACGTGAAATGGCCGAGAATGCGTGGGCTTT
CTTTCCCCGAAACATGAAATTGAGCGACAGCAAATAAACGTGAAAATTCA
ATTCGACGGAAACGGTTTTTTTTTCAGGGAAACGTGAAATGGAGTCCACT
CACACCAAACTCGCCCTACAGCAACAGCAGTGCAGGCAGCAAAAGAAAGA
GCAGGGTACCCGAGGCAGTTTCTCTGGCAAGCAGACCCTTCCACAACATG
CACATTCCGGCAGGTGTGGCGATTGGTTGGTGACAAATTTACCCAAGGGC
TTGCACGGGACACAATGGGACGGGAGTCCCGTTGAAAAGGGGACGGGATG
GGACGGGACGTCCCATCCCACAGTGAAATACGTGCGGCCCGTCCCACCCC
GGCACCATCCCACCGTGAGTTTCTGCCCCACTTGCTCCCACATTACCTAC
ATAATTTCGCTCCCGTCCCACCTACGTCCCGTCCCACCACTAGCACAGCC
AGTCCCGTCCCAAGCCCGTTGTGAACGGAGCTACTCCCGTCCCATGTGTA
CTGTGGGCTCAAGACTTCCCGTCCGAGATGCTCTACGATGTCCCGCAGGA
GACACACACACACACCCAACAAAGAATAAAGAATCAATTGTAAAATCTAA
AATATTTTTATTTCGAAATAGTTCTATTGAAGAATCTCGAATTGCGGCGC
CAGTGCCTCAGCTGACTAGGATGGAAAAGATAAGGCTGGCTCAGAACGCA
AAGATCGCCCGGCCGAATACCGCCAGCTCTGCTGTCCGCGAGACGCGAAG
GGCTGCCGCACAACGGGAGTACGCCGAGTACATGAACACACACACACACC
CAACAAAGAATAAAGAATCAATTGTAAAATCTAAAATATTTTTATTTCGA
AATAGTTCTATTGAAGAATCTCGAATTGCGGCGCCAGTGCCTCAGCTGAC
TAGGATGGAAAAGATAAGGCTGGCTCAGAACGCAAAGATCGCCCGGCCGA
ATACCGCCAGCTCTGCTGTCCGCGAGACGCGAAGGGCTGCCGCACAACGG
GAGTACGCCGAGTACATGAAGGAGGCAGCTCTCACTGACACCGACCCCAC
TTTCACTGCCCTAGAGTACTGGAAGCCGCGGGCAGTTGATGGGCTCGACA
AATCGGGGAACGTTGTCGCTCCTGCCCGCTGGCCGCATGTTGGCTTGATA
GCGCGGTTGCACCTAGGCGTTGATGCAACCAGTTGCCAAGCGGAAAGGAA
TTTTTCCGCCCTCAAGTTGATCGTTAGCGACCTACGTGCGAACACTTCCC
CCGCCAAGGTTGAGAAGACTATTTTTCTTAGGCTTAACAAGCACCTTATC
CCCGGGCTAGGGAAGGCGTTGAGGGATTGGGATGCCTTGCAGGCTGAGCG
GAAGGCGCAGAAAGAAGCAGCAGCTAACGCTAAGAACGCTGCGGCAGGTG
GCGCGGGTGTTACCCCTGATGCAGTTTTGTAGGAGCGAGACTTCGTTCAT
GTCTATTTGCAATCTAGGTTTGCGTTATTCTTTTTGATTCTTCTCTTCGT
TTGTCGTCTACTCCCTCGGTGGCGTCTACTTCGGTTGGGGAGCCATCAAA
GGTGCATTCGTGCACTCATCTGAAACTCAGTTGACACACCTGCTACAAAC
ACGATATCTGCTTTTTCGTTCGGAGCTGGTTGGTTTTCAAACCATGGCTT
GCACGGGGCAAGCAGTGCAGCACGGGGCGAATGTATGAATAATATATATA
TTTTCTATGTTGTCTGTCCGGTGTGGTCCCACACTGGATTCCCACGTTGG
AATCCCACATAACCCAGCAGTGTCCCGCCACCCCCCTATGACACAATAGT
CCCGTCCCGTCCCAAATGGATTTTTCTGGATTCCCATGTGATGCCCATTC
TCGCTAAGCATCCCAGCTTCCCGTCCCATTCCCATCCCACATACAACGCA
AGTGGGACCGTCCCATCCCGTTAAAGTGGGATGGCAAATGCCTGACCATG
GGATCCCATACCATCGACAATGGGACCTAAAAATTTTCCCGCCTGCGGCG
AGCAAACCCGTCCTATCCCGCTTGCACGGGGCCTTCGGCCCCGTGCAAGC
CCTTGAAATTTACAGCGCAGTAGAGACGAGAAGGAATCGGAATCATTTTT
TTCGCCGCTTGTCCGCCCCTTTTTCTTGCTTCGCCAAGACACACCCTGCT
GGCAACCCTTTGAAGTCAGCAAACAAGCTGTGACGACCGCGTAGCGCCAG
CGTGGTCGAGGACTACGATCATATAGAGGTCCGTCTCGAAAGAATCAGGA
GTTTGAAGGCCTTGTAGCTCTGATGCTGTCTGGTGCCGTGAACTGAAGCT
TGTGACTGCAACCTAAAAACACCACCAGCGCGATCTGGAAGCGTCTCACA
GCACACACCATCATCTTGCGGCCCTCGTTGAGCCTCACACAAGCTACGAC
AGCCACGTAGCGGCAACAATACCGAGGGTCACTATCACGCAGACCTCCGT
TTTGAAAGAATGGGCACTTGGGAGGCCTTCAGTCTCTGTTGCTATCTGCT
GTTGTGCGATACACTTGGTTTGATTTTATACCATAAAAGAACCATCTCCT
GTTCGATTGGAACGGAAGTATTTTCAAGATCTTTTTTCCCTAAAATAATT
CCTGTTTCCCGGAAATGAGGCAATGAGAATAAATAGGACGTTAAAATAGG
CGTTCCGGTTCACTTCCTGCTTGTAACACGACGACACATACATTTTCACC
ATCTATCATACAGCCGCGCGAAGAACTGGTTGGATTTCGGCTCGCGTTTT
TTCGTGTTGTTGTGTGTGAGATGTGTTCGTGTCTGAGTGTTTGTAGCTTT
CAATATACTTGCGCCTCTCCAGTTAGTTTTCGTCGTAGGGACAACCACTT
CTGTGTTGGGCAAAAATAGAAATACTTCATGTCATGCTTCAGCAGTATGC
GGTGTCCCACCGGACCTTTTCTCCTCCTTCCGGCAGATCGAGCCGAACAA
ACGGACGAAGGATGGTCGCAAAGCTACAGAATTTTTCCCAGTTTTTCATG
TTTTTGAAGAAAAACGGCAGACTGCTGCTGCTGCTTGAGAAATGAAAACA
CTATGAAACCTGTTGTGTGTGTTGTATGTGTTGTCATCCCTTTTATTGGA
CGCCACTCTACGCCTTTCGGGTAGGTGGACGCTCCAACCGGGGTCGCACA
GGGGGAAGTCAACACAGGAGTTTTTTTGTACAAAAAATAAAAACATCAAT
GTGTTCGCCTCTCTCCAGACAATGATCTGGAGCAGATATTGCAACGAACA
CAAAGAGTGAAATACGTCTACCAGTGTCTCCATACTCAGCAGACAATGTA
TCGTCGCAGCTCCCCTGGGGGCATCAGGCTCAACAAGACAATTTGGTGGT
CGTCTTGTGTGACACACGTTAGATCATGTGTTGAGTGTTTACGATCTATA
TTTGTGCTGTTTGCGTCGTCCTTGGCATAGTTATGGTGGTGATTTGATGT
GGCTTTGCAACTACGTGCAGCAGTAGATTTTACGTTCCTACAGACAAGAA
CAGTTTTTTTAATTCCACAAATAAATGCTAACTATACTTCGTCTAGTAGA
TTTTACGTTCCTACAGACAAGAACAGTTTTTTTAATTCCACAAATAAATG
CTAACTGTACTTCGTCTACCAATTTAAAAAAAAATGTCATCCTCATTTTC
TTACGCACTCGTGTTCTTGCCGGCCGGTACGTACGCCATCTCGTACCAAG
TACTGGGAGTAGCGTGCTGTTGTTGTATCATACGTATAGATAAATTTTAA
ATGATGAGCTTCCGACTACCAAATTCTCTTGTTGGGCCTGATAACCTCAA
GGGAGCTGCGACGGTAGGGACATGCACATGATGGCTGTATCCAATTATAT
GTGTCCATTCATTGTTAATCTACTCCAGATCCTCGTCTGGAGAGAGACGA
ACACACTTATGATACTGCTGTAAATGTGTTCGTGAGAAAGTTAAAAAATG
TGAGCTTCGCGTATCGCCTACTGTACATCACGATGAAATATGATATGACA
CCTGGTATGTATTTGGTACGTGTGTGTTGTCATCCCTTTCATTGGACGCC
ACTCTTTACCTTTCTTTCGGGTAGGGAAACGCTCCAACCGGGGTCGCACA
GGGGGAAGTCAACACAGGAGTTTTTTTTTTTTCTCCACTTCCCTCTGCGG
TGCTTGCCTTTTTGGTTGAGCTTTTATAGAAAGGGGACAGCAATCCCTTT
CCCTCGTCGATGGCCCTCGTCGGTGGTATGATCGACTTTTGTTTGCTCAC
GAATTGATCGCTTTCCGCTTTTACGCACAATGTGAGAAAAACACCCAGAT
ACTGTAGTGTTCATGCACTGGGATTCGAACTCACGCGTGAGTATCAGAGG
GTTGCGTGGATAACCGACTGAACCACCGGGGCTACCGGTTTTTGGTATTA
GTTTTACAATTACAGGCTGTCTATTCAGATGGACGGATAAAATACAAAAT
ATCTTCACCGCTGTAGGCATGACACATGAACGATGTGCAGCACGCACACA
AAAGCTGTCGCACGTCATATTATCCCTTTTTTTCCTGATTTTTGTACCCC
CCGTGTGGAAAGTTGGGGGCATTACTGCTGTCCTGTGCGTTGTATAGAAT
AGCTTTGTTCTACTATATGTACCTGCGGTGTGGCCGGTGCAATCAAAGGC
AATTTTTCCAGATTTTCCCGTCTTTCATTTTCGTCTCTCACCTCTCAACT
AACTTTCTCAAAGGAACGTGGACGAGCAACGGCCACACCGGTCAGCGCTG
AGTTTTTCAACATTTTGGGCCAAAAATCATCACACAAACCCCCCGAATTG
CCCCGAAAACATTCTCATTCCCAGACCAAATCTCCCGTGATTTTCTGCAA
GTAGTACTGTAGACAAACAAATCCTTTCGTGTTGAGATAACTGTTGGTGG
CGGGCTCGACCTTGAAGCCCCTCTCCGCTGTCGAGGCCAAGCCTCTGTTC
CGTGAAGCGGCGGCGGTGGTCCTTAGTCCTCCTCCTTGCGATACTTGCTG
TAGGTACGACCTCGCTGTGAATCGGCGGCCCGCCACCATGAAGAGGCTGC
GCGGCATGAATACAACGCCGAGCTCTGCGACGAAGTTTTTTCTGACTTCG
AAGTAGTATCAGTCACTACTTTGGAGTATCATACTACATAGGTGTTGACT
CACCACACCTTCAGCCAGACTTCTCCCGAACAAATATGTGCTGTGTTGTG
TGTGTGTTGTCATCCCTTTCATTGGACGCCACTCTACACCTATCGGGTAG
GTAGACGCTCCAACCGGGGTCACACAGGGGGAAGTCAACACAGGAGTTTT
TCTTTTTTTTTCTCCACTTCCCTCTGCGGTGCTTGCCTTTTTGGTTGAGC
TTTTATCGCGAGAAAGGGGACAGCAATCCCTTTCCCTCGTCGATGTAACA
TGTGCAAAAAATAAATAATCATGGAATGCATGTGATATCCCAGACATTCC
GATTTCCCAGAGTAGAAATCCCTCGGGGTATTGGTGATACGGAGCGTTTG
TCACACCGTATCGAATTCGAACAATATGATGGGAGAGACTGGTTGATTGT
CGTTCTAAAAAGTGAACAATACCACCTTCCGGCTCATCTCCAAGGCGGTG
GTTTTGTTTTTGTTACCGTACAGAAAAAAGAAAGACTCTCCACAGACTAG
TCCGCCTGGAGACAGGATTTATCTTTTTTGTTAATGAAATTCGGAACAAC
TATCATACACGGCCCTAAACAACAATAAAGGGTGTCGGCCAAAGGCTTCA
ACATAAAACCAAATCAATTTGTACCATGTACTCGAAAGTATTAAATTTAT
TGAGTCTTTACCACAGCCTGAAAGCAGGAGATGCCAGAACGAGCGCGTTC
TGATGCGAATAGAGCAACGCCGAGACCCTTCCAACAGCCCCCCGAGGACA
CCACGTTAACTCTTATTCGCTAGCTTGAGCACGTTATCAAAGCTTTAAGC
CTGGAATAATGTCACATCCATTTACTGCTTGCCATCGGCAGAGCGTTGGG
TTGGCGTGGAGTAATTAATCAGTTCGTGAGTAGCAGCGCCGTGTGTCGAA
CGTCTCTTCTAGAAATCATTTTGAAGGCGGTAGCCATTGTTGTCTGTTTT
CAGGGGGGAAAGGGCAGATTGTGTTTTTGACTCTGGCAGCTCACGCTCCC
TCTCGACCGACGGTGCTTCCTGCCGAATGACACCCCGAATACCAGGTTTT
AGCTTGGTAAGTGCTCGAGCGAGCGAGCAATGGACTCACAGGTGTTTTCG
GGTTTTCGGGTGTCGTTTACAGTGTGTCTTGATCTGCTCCCAAGAAATGA
CGCCCTTGGCACCTCCTCGCACTTCCACGACCTCGGCCAGTGCCACCACC
ACTCATCAAGTAAATCACTGCCGGACCATTGATGTAAGAGCTCGATGTAG
AGCTCTGTTCGCGTGCGTTTCAATGGTGACAACAACAAGCAAGTCGTTTC
TTTTCTGCAAGCAAGCAAGCACAAACAACGCGCACAAGAGTCAACTTGAA
ACTAAATTGAAGTCATCGCAACCTGGCGTGAACAGCAGCAGTGCTGCTGC
TGCTGCACTAGTCGCAGTTTGTCCTCGGATAGTTCTAATTTCTTGATTTC
CCCTCGGGGCGTCCGCACGGTGCGACGGTTGAAGTATCGGCTGAGACCTC
CCGTACAGAAAGAGGTTCAAATTTGATCGCCTCGTCCTTGCTTCTTTCAC
GTACTGTCGCCCCAAGTCGTCATGATAGTCCCAACACGTGGGATACTCAC
CTTCCGCCGGGTAAAACTACCATGTGTGTGAAAAAAATATGGATTGGGGG
GGGGGTAGGGGGAGGGATGCCGCGCCCCGAATCTGAGACGATCGGAGTCT
ATAGTACTACCGGTCTGACAAAGTCAGACTCAACCATGTAAAAATCCCCG
ATCCAGGCTCGGAATCGCCGTTTATAACGATTCGGAGGCTGACCTACCGA
CGCCCCGTGTATTTTGCTCTGTACTCTGCCCTTCAACCGTTCCACACGCA
CGTGTCACGGGTGTGCATCTGTTGTGTATGAAGCTTGGGTACAGAAGTAT
ACTTTCGTACATAATTTTGCGATATACTTCGAAGTATATCATACCACGGT
TTACAAGCCTTTGCTGATACTGCTGAAAATAGTTTGGACTTACGGTAGTG
TGACGTCCTCTCGATGTCAGGACAGCCCTCGCCCGCCACATATCATACGT
GCCACATCATTCCATGTCAACCCACCGTTTACCTTTCCCCGAATCCTGCA
ACAAATGGTATTATAGGTGAGTATTCCTGGGCCAGAGGTTGAGGGACCAA
CCGTATCCATCGTCACCGACAGCAGCGGCAGCAGCACGGACCGAAGTGGC
CGTGGCTTCCCGGCCCCCGGCGCCGCAATGTGGGGTGCATCACGGTATGC
CGGGAGGCAAGAAGTCGCGACGGAGAGACGCGCTGGCTACTCCCGTGGTT
GCGACGAGGGCTTTCGGGCGGCCCAGGTGGTGACGGGCCACGTTCGCGGC
GCGTTTGCCACGGCGGTTACCACTTTCGCGAGGCCTCTCAACAGCGCCGC
AGAGGTCGGCGCTACCGCCACCGCCGGAAAAGGCGACGACTCTGCCGGGG
TAGCTGCCGCGACAATAGAAACAACTTCTACTACTCTAACACCAGCAGCA
GTAGTAGTGGAGGGTGGTGGCGGAAGAGTCGTCCCGTCTCTCTCCCCGCC
GACGAGGCTGGACCCTGGGCGGCCGGTCATTCCCGGGATCCCGGGGGCGA
TACTGGAACAGCAGCAGCAGCAGCAGCGGCGACAGCAGCAGCTCTGCAGG
AGGTACTTTTCGGTGGAGGTGCACATCACCGAAGACGGCGAAGCCGTTTA
CAGTTTCAATAAGTCCGCGCCTGCACGTCGCGGAAAATGGTCTCGTCTGG
AAGAGGAGTATGCCAAGAGGTCAGTTGCTTTCACCATTGAACGAGACGGA
CGAGAACCGGGGGGAGGGGTGATTTTGTTCATCCTCAAAGTTTCGTTTTT
TACTGTTGTTTCCGGGTGTTGTGGGAACGGGCGAAAGAAAGTGTGGATGG
GTTGTTGCGAAACACAAATGTTTTCTCCCGCCCATGGAGAGACCACCGTG
GATGCTATGCAGATGTTCCTATCATATGAGGAATCAGAGGTTGAAAAACT
GATCGTACAACCCGTGCCCCCCACTCCGCCCCCCACCCTTTCTTCCCCTG
CAACTCTCAGGATTATCAGCGATTTCGATGATGGAGTACTCGACGCACCC
GTAGGGATAGGCCTGCGCCAGGTGCTGGCTTCGAAACTCCGCTGCGAAGT
GATGCGTGTGTCTAAAAAATTCCGCGGGTGGCAATGCGTCGGGAAGCGAA
ATTTTCAGCCGGTTTTTTACCACGACGGTAGAACCGCGAAGGTGAGGCGG
AGGCTCGGTGTGGTTCTGTGCGTGTCTGTCGCGCGAAGGGAGGTTTCTGC
TTCCTGTCGTCTACTACGCTTTCAATGGAAGACTGGGCGTAGTACTCAAG
ACACGGGGCTGTGTTGAATTGGGGCGTCATCGATGAGACGCGTCCACCCG
TGTGCTGCTCGCTTTTTATTCTCGTCGCATGATATCCACCCCAAAAAAAG
GGTTTGGCGGGTGCATTGCCTCTGCTGCGCCCGTTCCGCCGCCTCGGGCG
CGAGAAATACACGCCTCCAACCCGGCGCCGACGGCAAGAACAAAAATATT
TTGAGCATATCATACCTCACGCCCCCCCCCCTCCCCCCACGTCCTTGACA
TCTCCGTTCCCTCCTTCACGCTATTCTGTTCCGGCACCATTTTTTAAGGC
GAGGGAGAGCCTGCAGAAGATGGAACAAGCCTGGCTTAGAACGTTTCCTT
CCAGCTTGAGACCCTCCGGAGAGATCGCCGGTGGGGGCGGCACCGGCACT
GGTACCGGCACCGGCTCAACGTCCTCTTCTTCCTCTCCCTTGTCCGGGCG
CGGAGGGTCATCGCCGGAGAGCTTGATGCGCCTCGTCCCCCTTCCGCCGC
CGGTCGAGCGGGACATTTGTGACGACGGTAGCAGCCTCAAGAAGGAAATG
ACGCCCAACCAGACGTGGGCGACACGGGCGAACCGGACTCTGGCGAGTGA
CACCCCCTGCGGTTCCATTGACTCGCTGGTCTCGCTGGTCAAAGAGGGAC
GGATCTGCTGCGGTAACTTGGAGGCGTCCGAACAAGGGTTGAGGGACGCG
GACAGGGGGGACGATGAGGAGCGGGAGGAGGAACAGGAGAAAGGAAAGGA
AGATTCCCGTAGGTTGGTGTCGCCTGTCAGGAAGGAGGGTCATTCAGTGT
GGCCACAGCCTCAGCAGCAACAGCTGGCCCCTTTCCACGGTGGCGGACAC
GACGACCACCACCACAACAATCGCTCCGTAACTGCAGGAAGTGGTGCCGG
CCGTGTGATCGATCGTGAGGGTATGGGCGGACACAGCTGGGCAACGGTGT
CAGAGGTTCATGCTTCTTCGCAAGGGTCATACCGCATGCGAGACACTGAG
CCGCCCCACGAAAGTGTAGGTCGCCCGCGGGAGCACCAAGGCGAAAGAAG
CCGTAGTCAAGCCGATGCTCTGTCTCCGTGGCAGCGTCCCCGGGCGAAGA
GGCTGCCGGGGGGTGGCGGTGGCCGTGGCGGCGGCGGTAGCAGCGAAGGT
GATGCCGACCCGTACCCGGTGTATTCAAAGCGGAAGAAAGTCTGCGGCGC
TGATGCATCCTGGGCTCGGTGCGGTTCGAGAGAGGGCAACGTTGGTGGCG
GAGGTTGCGGCACGAGCGGCAACGAATGGCCGCAGGGTTCGTGCCTAATG
TCCGCTCGTGCACCGGGCGCCGGAACAACAGACCCATACGAGCACCAGCA
GGGACGGCAGCCACCACCGTACGCGGTGAGCCGGCGAGGAGAAACAAACG
CGCGCGATTACGCTCCAGAACACCATCGGGAGGAGGTCACGACAGCAATG
GGCGGAGCGCAGGCAGAAGGACCGGACGTGAGGAGAGGGGAGCATGGCCT
GCCGAGGGGTGTCGCGGCCGCTGACGAAAGGTACCAGACAGACCCTCCTC
CTCTTTACAAACCCTTGAGACGACGGCGTGCGGCAACCGGAAGCAACGAC
TGTGGTGGGGGTGACAGCGGTGGCCACGAGGTCACAAACGATTGTGACGG
CAATTCAGGAGGGAATGCAGGTATCGGGCGACGACCTTTCCGGCTAAAGC
CCGCACCCCTCCCTATCCACATGCGCGCGGACAGCCGTGAAGAGGTATAT
CCTAGTTACGAACAAGCGGCGAAAGCAAAGGGCTCCGAAGCGAGACAACC
GTACCGGCCCGAGACGTCCCACAGGGCTGCGCCGGCTGGGTCGTACCCGC
AGCAGCAGCCGCAGCGGCGATCCAGCGAGGGGCACGGTCACGGTTATGCG
GCGAAGGACGAGCGAAGAGCGTGGGGAAACGATCTAGCCACGGGGTCGCC
GCACCGCTCAGTCAAGGCGCCTCGGGTACTGGATTTTGTTTCACACGATA
GTGCCACCGCCGCCGGCGGCGGTACTCATCCCCGCTTTGACAACAACAGT
GACTACCCCATGTACCGAAAGCGGCAGCAGCAGCAGCAGCCGTGCTCAGG
AAGGGTGATCACAACGGCCGCGACGATTGCAAACAGCCATGGCCCACAGC
AGTATCGGCGCGACGTTGAAGGCAGCACCAGCGCAAGTGCGACCGAAGAG
TCGTACCACTGTCGGATGAGCCTCAAACGTCCGGCTGGACCGTACGGCGA
GGTTTACTCCTCCTCTAACGGTGCTTTTCCTCCTCCTCCTCCCCCTGCCT
CTTCCCGCGATCATTTCTATGACGCGTCGGCATCCCCTCGGTCAATGGAG
ATGTCGGGTGGCGGCGGCGCGGTGGTGGTCCCTTCGCACGAGCACGGCAC
GGTCGTGGTCGGTCCGGCGGGGTGCAGCAGTCGCACGCTAGAACGTCGTG
AGGCGCCAACGTCGCGGTGGGGGCGTCGTGAGGCGCCACCGTCGCAGCAG
TGGGGGCGTGCGGTGCGGAGGGATGCCGAACGAACACCAACGAGAACGGT
GCTGGTTGGAAAAGACTACCACTATTGAAGGGAAGTCTCGTGCGAGGGTC
TCGGGGAACGTAGAAAGGTCGCATACATGCACGTGGTATGATACACGAAA
TGCAGCTCGCGGCCCGAACAAGAAGTCGCTCATTTTTGCATACGTCGTAT
ATACAACAATGTTGCAGTGCATACCTCGGGAAAAGTGACGTCTGCTCTAC
TCATAGATATGCCAAAACGATTTGGATAATTGTGTATTTTACTTTATTCT
ATTATTCTTAGTTGTCACACAAAACGCGCAAAATATTGGTGCCGTCGGAA
ATTCCAACTATTATTTGGACCAAGGATGGCTCGAAGCTCGCCGATGGATG
CGATATGCGCAGCATTTCGCTCGAGTGCTCTGCGGTAGTGCTGCTGCTAC
TGGTTTTAGGTGTGCAGTTTTCCTTTTTTGTTCTGGCCCCTTCTTTGGGC
ATGTTGGGTGATTTCGGGTGTACTGTTTTCAGACGTTTGTTTGACACAAC
TAGGATGTGGTGCGTGGTTCTTCATTGCATTGTTCGTTCGTTTATGTTTT
GTGCGTGTTACTTGAGGCCGTTTGGTCATTTGTACTAAAAGTGTAGATGT
TTCTCGTGTTGTCACAATTTTCGACACCAACGTGAGGAGGGCGGAGCGTA
CTCCACCTTTGATTCAGTCACCTTATCGTTTGCATGCAAGGAAGGTGGCT
TTTTTCACCCACTCACACTGCGCTGTCGTGTTGCAGCGGGGACGAAACAT
GGTGTTCTCTGCTAAGGGTCGTGAAGGTGTGGTTGGCATGTCGCCTCACT
CCCGATGGAGATAAACGTCTTGTTATTATTTCGTGTGTTTGCTTGTCCTC
TCGCCTCTTTTTTGTGTTTTTGAATCGAATTATTTTGTCAGTACTGCTAC
GAATGGAATGCGGCTTGTCCAAGCGAAGTTCCCGCGTGTTGTACAGTTAT
GTAAGGCAGTCAGCCTTCCTTGTGTATGATAGTGCGGTTTCGTTGTTTTG
AGTGAGGAAGGAGCCTCGGAGTAGAAAAAATGTTTTTTTTTTTTTCGTGC
TTATACCTTGTGTGTATTATCTTGTGGGTCCAAGTATTCGTTTTTGAGTC
GTGAAGAAAGGGAGTGAGAGATGAGGTACTCCTCCGCCCGGTTGTGGTTG
TTGGCAAAAGGTATGATAGATACTACCGCTTGCTGCATAGTGTGTAGTCT
TCGTGGGGACGGGTGATACGGAACAAGATTGTCTTGAAGGCAGGGGTTTT
TGTCTTGAACAGGTATATGGAGTATCTCTGTTTTCACTGACGGAAGTGTG
CCAGGTACGATACTTCGAAGTATACGTTTCCGTCTCTGTTCGATGTGAAA
TTATATTTTTTTATTTCAATATTTGATTTTATTTTTTATGTCCGAGAACG
ATGAAAAATAGGTTAAAATAGTGTATTCTTGGGGCTACACATGATATGAC
ATCGCATATGACATCTCAGCGCCATCTAGGAAGTGTCAAGATTCAAGTTT
TTTAGAGAGCGTTTTCGCGGGGGACATTGTTTGCTTTCCCAATATTCGAG
TTCATTTCGTTTCGTCGCCATTGTGTTTCGTTTGCTGTACTTTGCTATTG
TGGTGACGGTCCCGTGTACGCATCGTTTTCAGTCGGCGAAGAATATCAGA
TGGATTTGATTGATGTGCTTCCGTTTTCTGTAAATAGGTGGTGTGCAGGG
GTGAGAAGGGCTCGTTGTCTGCCTGTCATTTCTATCTATGTACTGCTTGT
TGGTCTAGGCCGCCGGGTACGCTCTTGCACCCGCCTGCTGAAGTGAGGCA
GAACACCGCCGTGGGATGTGTTGAGTCCCTAGGCTACCACCACATATCAT
ACGCGCACGTTGTGTACTATACTTTGGTGTTGCACGCGCACATTATGTAC
TATACCGTTGTTGTTGCAGCGTACTTTCCTCGGGAGAATCATAATTTATC
ATATTTTATTGTG

Coding sequence (CDS) from alignment at P-littoralis_Contig182:356539..373001-

>mRNA_P-littoralis_Contig182.97.1 ID=mRNA_P-littoralis_Contig182.97.1|Name=mRNA_P-littoralis_Contig182.97.1|organism=Pylaiella littoralis U1_48|type=CDS|length=3912bp|location=Sequence derived from alignment at P-littoralis_Contig182:356539..373001- (Pylaiella littoralis U1_48)
ATGTTCAAATGTGCTTCACCTTCTGGTCTGCCCAGGCCGGACCAAGACAA
ACAACAACGAAACAGCAGTAGTAGTGAGGCCAGAGAACGTCGACAACAAC
ATCATGAGCAGCGAGGCGGTGATCGAGCTACCGATCACGTCATCCGCGGG
TGGGAACTCCCACCCCACGGTGACGATGATAACGAAGGAGAAAGCAATGA
TGATCGTGGGAAGGACGGGGTGGGGGCGGTGCGAATGTGGTCCGAAGCAG
CCGGGCACCAAAAACTTTTCAAAGATCGTGGACAACAGAAAGAACAACTG
CAACAGCAGCAGCAGCAGCAGGAACACCAACGTGTGAAGGAAGAGTTCGC
GGGAGCACGGTTCGCAGACGACGACGTTACGACCACCAATACTCTCCGTC
CTCCCCTAGAGATGGCCCAACCAAAACCAGCAGCAGTAGAAGCAGCAGCA
GCATCGTCGACTGGCAACGTGCCGGAACTCGCGCCTGCTCGGCCTGGTGA
TCGTGGAAGCGGCCAGGAGATAGAGTCGCGACTTTTCCCGGAAGATGCCG
AAGATGCGGCATCGTCAACAGCAGCAGTACCACCAGCTCTCCCTCCACCC
TGCTCCCCGTCGTGTGTCGTTTCTTCACGTCCGCACAGCCCGCCTGCCGC
CGTCGGTAAGGAAGGTGATGACGAGCAAGAAGGGAGTGATGGATCGGCCG
CACGCGAAGAGCACGATGAGCACAGCATGACCGCCGCTACCACCACCAGC
AGCAGACGAAGAAGGAGCACCAGCAGTGAGCGGTGGACAGCTCTGAAGGT
GAGTATTCCTGGGCCAGAGGTTGAGGGACCAACCGTATCCATCGTCACCG
ACAGCAGCGGCAGCAGCACGGACCGAAGTGGCCGTGGCTTCCCGGCCCCC
GGCGCCGCAATGTGGGGTGCATCACGGTATGCCGGGAGGCAAGAAGTCGC
GACGGAGAGACGCGCTGGCTACTCCCGTGGTTGCGACGAGGGCTTTCGGG
CGGCCCAGGTGGTGACGGGCCACGTTCGCGGCGCGTTTGCCACGGCGGTT
ACCACTTTCGCGAGGCCTCTCAACAGCGCCGCAGAGGTCGGCGCTACCGC
CACCGCCGGAAAAGGCGACGACTCTGCCGGGGTAGCTGCCGCGACAATAG
AAACAACTTCTACTACTCTAACACCAGCAGCAGTAGTAGTGGAGGGTGGT
GGCGGAAGAGTCGTCCCGTCTCTCTCCCCGCCGACGAGGCTGGACCCTGG
GCGGCCGGTCATTCCCGGGATCCCGGGGGCGATACTGGAACAGCAGCAGC
AGCAGCAGCGGCGACAGCAGCAGCTCTGCAGGAGGTACTTTTCGGTGGAG
GTGCACATCACCGAAGACGGCGAAGCCGTTTACAGTTTCAATAAGTCCGC
GCCTGCACGTCGCGGAAAATGGTCTCGTCTGGAAGAGGAGTATGCCAAGA
GGATTATCAGCGATTTCGATGATGGAGTACTCGACGCACCCGTAGGGATA
GGCCTGCGCCAGGTGCTGGCTTCGAAACTCCGCTGCGAAGTGATGCGTGT
GTCTAAAAAATTCCGCGGGTGGCAATGCGTCGGGAAGCGAAATTTTCAGC
CGGTTTTTTACCACGACGGTAGAACCGCGAAGGCGAGGGAGAGCCTGCAG
AAGATGGAACAAGCCTGGCTTAGAACGTTTCCTTCCAGCTTGAGACCCTC
CGGAGAGATCGCCGGTGGGGGCGGCACCGGCACTGGTACCGGCACCGGCT
CAACGTCCTCTTCTTCCTCTCCCTTGTCCGGGCGCGGAGGGTCATCGCCG
GAGAGCTTGATGCGCCTCGTCCCCCTTCCGCCGCCGGTCGAGCGGGACAT
TTGTGACGACGGTAGCAGCCTCAAGAAGGAAATGACGCCCAACCAGACGT
GGGCGACACGGGCGAACCGGACTCTGGCGAGTGACACCCCCTGCGGTTCC
ATTGACTCGCTGGTCTCGCTGGTCAAAGAGGGACGGATCTGCTGCGGTAA
CTTGGAGGCGTCCGAACAAGGGTTGAGGGACGCGGACAGGGGGGACGATG
AGGAGCGGGAGGAGGAACAGGAGAAAGGAAAGGAAGATTCCCGTAGGTTG
GTGTCGCCTGTCAGGAAGGAGGGTCATTCAGTGTGGCCACAGCCTCAGCA
GCAACAGCTGGCCCCTTTCCACGGTGGCGGACACGACGACCACCACCACA
ACAATCGCTCCGTAACTGCAGGAAGTGGTGCCGGCCGTGTGATCGATCGT
GAGGGTATGGGCGGACACAGCTGGGCAACGGTGTCAGAGGTTCATGCTTC
TTCGCAAGGGTCATACCGCATGCGAGACACTGAGCCGCCCCACGAAAGTG
TAGGTCGCCCGCGGGAGCACCAAGGCGAAAGAAGCCGTAGTCAAGCCGAT
GCTCTGTCTCCGTGGCAGCGTCCCCGGGCGAAGAGGCTGCCGGGGGGTGG
CGGTGGCCGTGGCGGCGGCGGTAGCAGCGAAGGTGATGCCGACCCGTACC
CGGTGTATTCAAAGCGGAAGAAAGTCTGCGGCGCTGATGCATCCTGGGCT
CGGTGCGGTTCGAGAGAGGGCAACGTTGGTGGCGGAGGTTGCGGCACGAG
CGGCAACGAATGGCCGCAGGGTTCGTGCCTAATGTCCGCTCGTGCACCGG
GCGCCGGAACAACAGACCCATACGAGCACCAGCAGGGACGGCAGCCACCA
CCGTACGCGGTGAGCCGGCGAGGAGAAACAAACGCGCGCGATTACGCTCC
AGAACACCATCGGGAGGAGGTCACGACAGCAATGGGCGGAGCGCAGGCAG
AAGGACCGGACGTGAGGAGAGGGGAGCATGGCCTGCCGAGGGGTGTCGCG
GCCGCTGACGAAAGGTACCAGACAGACCCTCCTCCTCTTTACAAACCCTT
GAGACGACGGCGTGCGGCAACCGGAAGCAACGACTGTGGTGGGGGTGACA
GCGGTGGCCACGAGGTCACAAACGATTGTGACGGCAATTCAGGAGGGAAT
GCAGGTATCGGGCGACGACCTTTCCGGCTAAAGCCCGCACCCCTCCCTAT
CCACATGCGCGCGGACAGCCGTGAAGAGGTATATCCTAGTTACGAACAAG
CGGCGAAAGCAAAGGGCTCCGAAGCGAGACAACCGTACCGGCCCGAGACG
TCCCACAGGGCTGCGCCGGCTGGGTCGTACCCGCAGCAGCAGCCGCAGCG
GCGATCCAGCGAGGGGCACGGTCACGGTTATGCGGCGAAGGACGAGCGAA
GAGCGTGGGGAAACGATCTAGCCACGGGGTCGCCGCACCGCTCAGTCAAG
GCGCCTCGGGTACTGGATTTTGTTTCACACGATAGTGCCACCGCCGCCGG
CGGCGGTACTCATCCCCGCTTTGACAACAACAGTGACTACCCCATGTACC
GAAAGCGGCAGCAGCAGCAGCAGCCGTGCTCAGGAAGGGTGATCACAACG
GCCGCGACGATTGCAAACAGCCATGGCCCACAGCAGTATCGGCGCGACGT
TGAAGGCAGCACCAGCGCAAGTGCGACCGAAGAGTCGTACCACTGTCGGA
TGAGCCTCAAACGTCCGGCTGGACCGTACGGCGAGGTTTACTCCTCCTCT
AACGGTGCTTTTCCTCCTCCTCCTCCCCCTGCCTCTTCCCGCGATCATTT
CTATGACGCGTCGGCATCCCCTCGGTCAATGGAGATGTCGGGTGGCGGCG
GCGCGGTGGTGGTCCCTTCGCACGAGCACGGCACGGTCGTGGTCGGTCCG
GCGGGGTGCAGCAGTCGCACGCTAGAACGTCGTGAGGCGCCAACGTCGCG
GTGGGGGCGTCGTGAGGCGCCACCGTCGCAGCAGTGGGGGCGTGCGGTGC
GGAGGGATGCCGAACGAACACCAACGAGAACGGTGCTGGTTGGAAAAGAC
TACCACTATTGA