mRNA_P-littoralis_Contig635.36.5 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig635.36.5
Unique Name	mRNA_P-littoralis_Contig635.36.5
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: D7G0Z2_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G0Z2_ECTSI)

HSP 1 Score: 227 bits (579), Expect = 4.050e-71
Identity = 109/119 (91.60%), Postives = 114/119 (95.80%), Query Frame = 1

Query:  154 MEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            M+ VLFVE+GFGNDQHGQ+ATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPV EEEVDVE IKKVFPYGELLPIEFQ GGMRASSGIALPEMGD NDDM++AISCVTVGY
Sbjct:    1 MDHVLFVELGFGNDQHGQNATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVAEEEVDVEEIKKVFPYGELLPIEFQSGGMRASSGIALPEMGDTNDDMIVAISCVTVGY 119

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A4D9D6T6_9STRA (Uncharacterized protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9D6T6_9STRA)

HSP 1 Score: 186 bits (472), Expect = 8.710e-55
Identity = 85/120 (70.83%), Postives = 103/120 (85.83%), Query Frame = 1

Query:  151 GMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            GM+Q+LFV++GFG DQHGQDATKA V+ACRNAIE+NS+PSI  IVPGGY  MK+RVQ+AVPV    +D EAIKK FPYG+LLP+E Q GGMRASSGIALP MGD+NDD ++AI+ V+VG+
Sbjct:   18 GMQQLLFVQMGFGCDQHGQDATKAAVKACRNAIEWNSLPSINQIVPGGYEAMKVRVQIAVPVDATNIDTEAIKKAFPYGQLLPVEIQSGGMRASSGIALPAMGDRNDDWIVAIAAVSVGW 137

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: W7TCK4_9STRA (Uncharacterized protein n=2 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TCK4_9STRA)

HSP 1 Score: 186 bits (472), Expect = 3.690e-54
Identity = 85/120 (70.83%), Postives = 103/120 (85.83%), Query Frame = 1

Query:  151 GMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            GM+Q+LFV++GFG DQHGQDATKA V+ACRNAIE+NS+PSI  IVPGGY  MK+RVQ+AVPV    +D EAIKK FPYG+LLP+E Q GGMRASSGIALP MGD+NDD ++AI+ V+VG+
Sbjct:   63 GMQQLLFVQMGFGCDQHGQDATKAAVKACRNAIEWNSLPSINQIVPGGYDAMKVRVQIAVPVDASNIDTEAIKKAFPYGQLLPVEIQSGGMRASSGIALPAMGDRNDDWIVAIAAVSVGW 182

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: C1N169_MICPC (Predicted protein n=1 Tax=Micromonas pusilla (strain CCMP1545) TaxID=564608 RepID=C1N169_MICPC)

HSP 1 Score: 161 bits (407), Expect = 2.460e-45
Identity = 79/120 (65.83%), Postives = 92/120 (76.67%), Query Frame = 1

Query:  154 MEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELL-PIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            M QVLFVE G G DQHGQDATKA VRACRNAIEFNSIPSI+ +VPGGY  MKL + L VP    EVD+E++K VFPYG ++ P+    GG+ A SGIA+ EMGD NDD VIA++ VTVGY
Sbjct:    1 MTQVLFVECGIGADQHGQDATKAAVRACRNAIEFNSIPSIRAVVPGGYDNMKLHIHLGVPA-GHEVDLESVKAVFPYGRIVEPVRVDAGGLLAKSGIAIAEMGDVNDDFVIAVAAVTVGY 119

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A7S2TRT2_9EUKA (Hypothetical protein n=1 Tax=Lotharella oceanica TaxID=641309 RepID=A0A7S2TRT2_9EUKA)

HSP 1 Score: 161 bits (407), Expect = 3.590e-45
Identity = 75/119 (63.03%), Postives = 97/119 (81.51%), Query Frame = 1

Query:  154 MEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
             ++VLFVE GFG DQHGQ+ TKA VRACRNAIEFNS+P I+N++PGG   M ++VQ+ +P PE  VDV A+K VFPYG+   ++ + GG+ +SSGIALPEMGDKNDDM+IA++C+TVGY
Sbjct:   15 FQEVLFVECGFGCDQHGQNYTKAAVRACRNAIEFNSLPGIRNVIPGGKENMIVQVQVGIPNPEL-VDVNAVKAVFPYGKKT-VKLETGGLLSSSGIALPEMGDKNDDMIIAVACITVGY 131

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A7S0SHI2_9CHLO (Hypothetical protein n=1 Tax=Mantoniella antarctica TaxID=81844 RepID=A0A7S0SHI2_9CHLO)

HSP 1 Score: 161 bits (407), Expect = 4.760e-45
Identity = 79/121 (65.29%), Postives = 94/121 (77.69%), Query Frame = 1

Query:  151 GMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELL-PIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            GM QVLFVEVG G DQHGQDATKA VRACRNAIEFNSIPSI+ IVPGGY  MKL +Q+  P    ++D+  ++ VFPYG ++ PI+   GG+ A SGIA+PEMGDKNDD VI ++ VTVGY
Sbjct:   21 GMTQVLFVEVGMGADQHGQDATKAAVRACRNAIEFNSIPSIRAIVPGGYDAMKLHIQIGAPE-GAKIDLAKVRAVFPYGNIVDPIDVCVGGLLAKSGIAIPEMGDKNDDFVICVASVTVGY 140

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A7S3ZZA4_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S3ZZA4_9STRA)

HSP 1 Score: 163 bits (412), Expect = 1.090e-44
Identity = 82/123 (66.67%), Postives = 95/123 (77.24%), Query Frame = 1

Query:  145 RGGMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVP-EEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            R G EQVLFVE+G+G DQHGQ+ATKACVRA RNAIEFNSIPSI+ +VP GY GMKL V LAVP    E +DV+A+  VFPYG +  I  QPGG   SSGIA+P MGDK D +V+A+ CVTVGY
Sbjct:  102 RPGFEQVLFVEMGWGADQHGQNATKACVRAARNAIEFNSIPSIRALVPNGYEGMKLAVDLAVPEAYHEHIDVDAVGAVFPYGAVS-IRLQPGGAEFSSGIAIPAMGDKGDALVVALCCVTVGY 223

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A7S0IE99_MICPS (Hypothetical protein n=4 Tax=Micromonas TaxID=38832 RepID=A0A7S0IE99_MICPS)

HSP 1 Score: 161 bits (407), Expect = 1.460e-44
Identity = 77/121 (63.64%), Postives = 95/121 (78.51%), Query Frame = 1

Query:  151 GMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELL-PIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            GM  VLFVE+G G DQHGQDATKA VRACRNAIEFNSIPSI+ IVPGGY  MKL +Q+ VP     +D+E I++VFPYG++  PIE   GG+ A SGI +PEMGDK+D+ VIA++ +T+GY
Sbjct:   57 GMNHVLFVEIGMGADQHGQDATKAAVRACRNAIEFNSIPSIRQIVPGGYDNMKLHIQIGVPK-GAVLDLEKIRRVFPYGQICEPIEVVEGGLMARSGIKIPEMGDKSDEFVIAVAAITIGY 176

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A7S0H8L2_9EUKA (Hypothetical protein n=1 Tax=Amorphochlora amoebiformis TaxID=1561963 RepID=A0A7S0H8L2_9EUKA)

HSP 1 Score: 162 bits (411), Expect = 2.170e-44
Identity = 69/120 (57.50%), Postives = 95/120 (79.17%), Query Frame = 1

Query:  151 GMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            G ++VLFVE G G DQHGQ+ TKA VRACRNAIEFNS+P+++ ++PGG A MKL +QL VPV  + +D++ ++KVFPYG++ PI+   GG+   SG+A+ E+GD NDDM+I ++CVTVGY
Sbjct:  116 GFQEVLFVECGMGCDQHGQNVTKAAVRACRNAIEFNSLPALRRLIPGGKANMKLHLQLGVPVDPKGLDLDQVRKVFPYGQMQPIQIDKGGLLGKSGVAMAELGDTNDDMIIVVACVTVGY 235

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BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Match: A0A7R9T124_9CHLO (Hypothetical protein n=2 Tax=Ostreococcus sp. 'lucimarinus' TaxID=242159 RepID=A0A7R9T124_9CHLO)

HSP 1 Score: 159 bits (403), Expect = 4.610e-44
Identity = 72/120 (60.00%), Postives = 92/120 (76.67%), Query Frame = 1

Query:  151 GMEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAGMKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPEMGDKNDDMVIAISCVTVGY 510
            G E+ LF E GFG DQHGQDATKA VRACRNAIEFNS+PS++ +VPGGYA MK+ VQL VP    +VD   +++VFPYGE++ ++   GG+RA S I++P  GD NDD +I ++CVTVGY
Sbjct:   51 GFERALFAECGFGADQHGQDATKAAVRACRNAIEFNSVPSVRAVVPGGYAKMKIHVQLGVPE-NAKVDAGRVREVFPYGEVVDVQIDTGGLRARSWISIPAQGDANDDFLICVACVTVGY 169

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot

BLAST of mRNA_P-littoralis_Contig635.36.5 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G0Z2_ECTSI	4.050e-71	91.60	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A4D9D6T6_9STRA	8.710e-55	70.83	Uncharacterized protein n=1 Tax=Nannochloropsis sa...	[more]
W7TCK4_9STRA	3.690e-54	70.83	Uncharacterized protein n=2 Tax=Nannochloropsis ga...	[more]
C1N169_MICPC	2.460e-45	65.83	Predicted protein n=1 Tax=Micromonas pusilla (stra...	[more]
A0A7S2TRT2_9EUKA	3.590e-45	63.03	Hypothetical protein n=1 Tax=Lotharella oceanica T...	[more]
A0A7S0SHI2_9CHLO	4.760e-45	65.29	Hypothetical protein n=1 Tax=Mantoniella antarctic...	[more]
A0A7S3ZZA4_9STRA	1.090e-44	66.67	Hypothetical protein n=1 Tax=Pelagomonas calceolat...	[more]
A0A7S0IE99_MICPS	1.460e-44	63.64	Hypothetical protein n=4 Tax=Micromonas TaxID=3883...	[more]
A0A7S0H8L2_9EUKA	2.170e-44	57.50	Hypothetical protein n=1 Tax=Amorphochlora amoebif...	[more]
A0A7R9T124_9CHLO	4.610e-44	60.00	Hypothetical protein n=2 Tax=Ostreococcus sp. 'luc...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig635	contig	P-littoralis_Contig635:80820..102319 +

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.D7G0Z2
PFAMs	Lin0512_fam
Model size	1162
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	5
Evalue	2.8e-75
EggNOG OGs	2AJ2R@1\|root,2RZVV@2759\|Eukaryota
Description	Conserved hypothetical protein (Lin0512_fam)
Cds size	360
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig635.36.5	prot_P-littoralis_Contig635.36.5	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig635 99160..101670 +

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


Feature Name	Unique Name	Species	Type	Position
1680791324.4350157-UTR-P-littoralis_Contig635:80819..80966	1680791324.4350157-UTR-P-littoralis_Contig635:80819..80966	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig635 80820..80966 +
1680791324.492528-UTR-P-littoralis_Contig635:99153..99159	1680791324.492528-UTR-P-littoralis_Contig635:99153..99159	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig635 99154..99159 +
1680791324.5583522-UTR-P-littoralis_Contig635:101670..102319	1680791324.5583522-UTR-P-littoralis_Contig635:101670..102319	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig635 101671..102319 +

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


Feature Name	Unique Name	Species	Type	Position
1680791324.507898-CDS-P-littoralis_Contig635:99159..99236	1680791324.507898-CDS-P-littoralis_Contig635:99159..99236	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig635 99160..99236 +
1680791324.5184782-CDS-P-littoralis_Contig635:99919..100031	1680791324.5184782-CDS-P-littoralis_Contig635:99919..100031	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig635 99920..100031 +
1680791324.5286305-CDS-P-littoralis_Contig635:100960..101078	1680791324.5286305-CDS-P-littoralis_Contig635:100960..101078	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig635 100961..101078 +
1680791324.5421715-CDS-P-littoralis_Contig635:101617..101670	1680791324.5421715-CDS-P-littoralis_Contig635:101617..101670	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig635 101618..101670 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig635:80820..102319+
coding sequence from alignment at P-littoralis_Contig635:80820..102319+

protein sequence of mRNA_P-littoralis_Contig635.36.5

>prot_P-littoralis_Contig635.36.5 ID=prot_P-littoralis_Contig635.36.5|Name=mRNA_P-littoralis_Contig635.36.5|organism=Pylaiella littoralis U1_48|type=polypeptide|length=120bp
MEQVLFVEVGFGNDQHGQDATKACVRACRNAIEFNSIPSIKNIVPGGYAG
MKLRVQLAVPVPEEEVDVEAIKKVFPYGELLPIEFQPGGMRASSGIALPE
MGDKNDDMVIAISCVTVGY*

mRNA from alignment at P-littoralis_Contig635:80820..102319+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig635.36.5 ID=mRNA_P-littoralis_Contig635.36.5|Name=mRNA_P-littoralis_Contig635.36.5|organism=Pylaiella littoralis U1_48|type=mRNA|length=21500bp|location=Sequence derived from alignment at P-littoralis_Contig635:80820..102319+ (Pylaiella littoralis U1_48)
AGCGGCACAGCGACGGCCACTGACCTCGAAAATACGTCTGCAGGGTTTGC
CCCTTCCGCGGCACCAGCGGCTGCGTCCGAGAGCGGGAGGTCTAGGAGCG
GTCGCCACAGAGTCCAAGGGAGTTGCATCCATCAAAGACAGTGACGGGTG
AGCAGTTGGTTGCGGGCGGTCGAGTGCGCGCGCGGGGTGGGGGTGCGGGA
GTGGGCCCGTCGTTGGCGTGCTTGCTGTCGAAGGGTGAATTCGGGGCAGA
GGAGGTGGAGTGGAGGTGGGGAGGGGGGAAGGGGTGGGGCTTCGACAAGT
GTGTGCGGGAGCGGCGGTGAGCTGGGGTGGCGTATCGGCATTCTACTTAC
TTCCTCATTTTTAATCTCTATCGCCTTCTATAAGTTTCCTTGAGGATTTT
TTGTTCTCTATCGTGTCCTCGGAGACGGGGTAATCGCCATGTGTGTGCGG
GAGCGGCTGACCTTAGGGTGGGGGTGGGGGGCGTACCGGCACTTGTTTTC
TTCCTTATTTTTATACTCTACCGCCTTACCTACTTTCTATTTCAGTGTTT
TTTTCTGTTGTGTTATTGGAGACGGGATAATCGACATGTATGAGCGGGAG
CGGCAGTGAGCTGGGAGGTGCCGTATCGGCGGTCTTTTTCATTCAGATTT
CTATTATCTACCTGGTGCATCCTGACGTATTTTTCCTTTCGGAGTTTATT
TTTCGGTTGTGTCCTCAGGCTCGACCTTGTGTGTTGGTCTTTCACTTTTG
CTTGTACGCACGTATTCGCCACACATAAAATACACCCGTGGGTATTCCTG
CGTGTTCGTGTGTAGCCTTCTTTTCGATGTCATTTTTCTTTTCGTGTGTC
CTCGGTGCGTAATCACGTGCCTGGTTTGTTTCCACGGACTAAACTTAGGG
ACCTGGGCTGATGTGATGTCGATAAACAACGACAAAACGACGTACTTTGA
AGTACAATTTTATTGCAGGCCCGACATTATTCTTGGCCTGACTGGAGTTT
CAAACATAAAATATACTCGAAGTACGTAATCCTCGAAATATTCTGACACT
TACGCTTGAGTTCGAACCCCGGTGCAGTAACACGATCCGGAATTCTTCTC
ATCATGTCATCCGTGAGGGTGGAAAACGATGAATTCGTGAGTAAACAAAA
TTCGAAGTGTCGACGAGGGAAAGGGATGGCTGTACCCTTTCTCGCGAGAA
AAAACGAAGGCAAGTACCGCAGTGGGAAGTGGAGAAAGAAAAAAATAAAA
ATAAACTCCTGTGTTGGCTTCCTACTGTGTGACCCCGGTTGGAGCGTCTA
CCTACCCGAAAGGCGTAGAGTGGCGTCCAATTAAAGGGATGACAACACAC
ACACTTCGTATGAGGTTTTGTTCGATATGACACTCATTGGGGTCTACGTC
AAACCCGTCGTTCGCACATCTATCTGCGTACCACCGCGACTCTACGAGAC
AGACACGCTCGGTCGTATTTTTTTGTATGGTCTGTGTGCAGCAAATTGTC
CAGCTCTGAGAACGTACGTGAAAAACAAGTTGGGGCGTGGAACAACGATG
TCCGTGATCGCTTCGCCGAGCTTCGTCGATAACCGCAGATTCTTGTTGAA
CCTGGAGACAAAAAGTATCATTTTACACCAAAACACATGGAGACCCCATA
AATCGGCACGGAACTCCCTCATTCATCGCGGATTCAACTATCATTGATTT
GCTCTGAGACACCCCATCAAATATCATACCATATTTCTGAGTACAATTTA
GTTTAATATGCTACTTCGAAAGTATTTCCTACCGTAAACTACGGAGTTTG
TCCCCCGTAGTACAGATTTCCCCCCCCCCCATTACCTTTTCGGCCTGGAA
GCATGGTTTCGTTGATTTAGCCCCGGGGTAGATCGTTTTCGACCaAAAAA
AAAAGATCCCCCCGGGTATTTCAATTTCCCCCCGGGGTACCAGTTTTCCC
ACGAGTTCCCCCCGGGGGGGATGTATCTCCCTTATTTTCTGAGTCGATGT
TATTGCATCGCGGAGCACAAAAAGCATGATATGGGACGGGAAATTCATCT
GCAGATCTCCGCTTCGAGCGAGATTAGGTGTACCGTTTGTCACTTGGCTC
TCGCCGTTGTTTCATGGGTGAAATGCTCTCGTTTTCTTGTCTATTTCTTG
CATTTATCATCCCTGGAATCAGCTGAAATGTACCATAGCATGCTGACGAA
ACCTTGCGCACAAGGGGGAAACACAATCGTATTCATTTCTGGATCTCGCA
AATCAAGATAGAACCGAACCATATAATAGCTTATTCCTTTGGACAAACTG
CGAATTCTTGTACATGAGCTCAGGCAATGGTACCTCTCTTGCGACCCGAC
AAAAACACCCACACCGCCTGCCATATGCTCGCCACGCTTGCCTAATCCTG
TACCCACTCTACAGCTAATGAACTAAAAAACCAGCTCATATCTTAACCCT
CTGATTCCCCGCCCAAGTCAATGATGTCCTCAGGGTCATCCTCCTCGTCC
GAGTCGTCGTTCGGGTCCTTGGGCGTTAGAGATGCTCTCGGCGCTGTCGC
TGTCTCCTCTATCGTCTTGCCGGCACCGTCTCCGGTGGGGATGACCGGTA
GCTGGAGCGGTTCCAGGTCGACGCCGTGCGCTTGCTCCCAGTCTGCGCGC
TGCTCGCGAAGAACCTCGCGGTAGTTGTCCCCGAACGTGTAGCTGCACCA
CGCATGGTCCTCGCTGCCGTCGAGGTTGAGGGTGAGACCGCAGACCTTGA
AGCACGAGAGGATGGTCTGCGCCGAGATGCCGGCCCACACCTCCTTTACC
CACGTCGCGACCAGCCCCCTGCTCGGCGCGGACACCTTCTTCCCCGAGCG
CCCGAAGTTGTCCCGGATCCAGATGGTGTACTTGGCCCGAAAGCCTCGCT
TGAACTCCTTGTTGATTTTCCGGTCGAGCGGCTGGCACACCGGGGTCAGC
CCTCCACCAAGCATCACCACCTGCGTCTTCGCCTTACTCTGCAGCTTCTG
TTGGAACTTCTCTTCCCGGTGGCAACTGAAGTCGTCGAGCACGAGAACGC
TGGGACGCTGGTCTCGGGGGCTAGAACCTGGTCGGCGCATGAAGTCCTGG
GTTACCCAGTCGTCCGGCTGAGTGCCGTCGCACCACGACGACTTCTGCAC
CCCGAGGCTGATGCCGGCAGGAGGGTAGCCGAAGGACGTCCGCTTGTCTG
GGAGGTGCTCGTACGACAGGCTGTTCTTGCCCGGCTTCTTGGACGAGCCC
GACTTGTTGGTACCCCCGACGAAAGGGGTCCCTTGTAGATGATGCGCGGC
AGCACCTTCTGCCCATCACCCCTGACGGTTAGCACAACGGTGTACCGCAG
CTTCTCCTTGCCTGGTGTGAAAATAGTGATTTAGGCATGTAAACAACGAA
AATTGAGTTAAAAAAATAATACCCCGTTAATAAAATAACGAGAGGAACAA
CATACCGGTAAGGTACATTTTCACTGCAGCAAAAACCACATCAAAAATAT
AATAAAAAAACACCACACATATAAATAGGTATCCGTAGGTACCGATAAGC
GTATACTTCGAAGTACATAATTAACTATATAAATCGCTGATAAAAGAAAA
CAAAGCGCAAGTCGGATAAACGAACGAGACACAATCAGAAAAAGTGTAGG
ATCGATGCTCTTTACCGCAGCACCTGTACATAGGTAAAAAGAAGAACGCA
AAACGGGTGTGCGCGGAACGATGACGAGCGTGACGGCAGAAGCCATGCAC
AAAATCCTAATTCCCCGTATTTCCACTGTCGGCATATTTGATATTTGCCA
GAGAAATATCAAAATCTCAACCGTCTTGGGTTTGAACTCAACACAGCACA
CCGCCTCACCGCCTGTCGAGATACGGACGTGCTTCGCACCAGTCTTCTCC
ACCGTGGTCTCCGAAGGCGTTTCAGCCTGGATCGGGGTCTGGTCCATGTT
GTAGAGCAGCTCGAAGATCTTGCGCTGAACGGCCAGAAGTTCCTCCGCAG
TCGGCGGGCTGCCTTCGATCTCGATCTCAACGGTCCCTCCGTTCTTCGCT
GCCTGGGCTGCCCTCTCCACGATAACGGCTTCCTCCGCGTGCCGAACTAG
CACCGAGCGAAGCTTCTGGATGAACGCCCACGCCTTGCCCTCCCATCCTT
CCGGTTTCTTCTGCCCCACGCTTGTCTTGCGTCGGATCGAGAACCGGTGC
CGCTTGAGGAACCTGTAGTACCAGGCGTTGTAAAGCCTCCGAATTTTTTC
CATCTTCTCGGGATCGTCTGCGGACGGCACGCCCCCTGCAAAGGTTGGCA
TCTCGGCGAGTAGCTTGGCCATGACAAGGTCCCGGGTCACAGCAGCACCG
TTCTTCCTGAGGGTGTTGATCTCGTCCACCACCGCCGCCTCCGCCTTCTG
TGTGTCAGACTCGCGTCCAGGGTGCAACGACCGCTGCTTGCCTGCGCTCT
GCTTCTTGGAAAACGCCACAAGCTCCCCCTCCTGGGTCTCCCAATCCCGG
ACGAGCTTCGGGTCGATGCCGAACACCTTCCTAGCACCACGCCTTCCGAC
TGGGTTCCCATCGGCACACTTGCTCCGGCTGTACTTCAGCACCTCCAGCT
TCTGCACGTTCTCGTATGCGCTGCGCCCGCTCTTTCCAGATACTCGCCGC
AGTGTGAACGGAGCTGGCGGGTAGTCTCTGGAAGGCGGGCCCTTCCTCTT
CTTGGAATCACTCGAGGGACGAGACAAACTCCCCCAGCTGCTGTCCTCCT
TGCCGTCTTTCTTCTCTTTGTCTTCGTTGCTCTTACGTTCCTCCTGCCTC
TGCTTGTTGAACGCTTGCTCGTAAACCTTATCCATCTCAGTTTCGCTACT
CTGTGTGTGTGTGTGTGCAGTTTCGCTACTCTCTGTGTGTGGTGTGTGGA
CCATCAATGTTTTGCACAACCCCCCGGGGTGGGCTTCCCCCAGGGGTAGC
GTTAAAAAAAAAAACTACCCCCCCCCGGTACGCCAATTTCCCCCCGGGGG
GTTTGGTTTCAGAAAAAAAAACAATCCCCTCCCCGGGGGGAAAACTCCGT
AGTTTACGGTATTTTCATGCCACCAATATCGTGTCATAGCACACTTCGTG
TTTCAATGCCCAACAAACGGAGACAAGCCCGTACACTTCTCATAAATAAT
CAAACAGACAGACGCACCGCGCCGTCCGCTCGTGGGCTACCAAATACAGC
AGTTGCTATTTCCCCGACAGCAATTCGCAACCATCATCAGTGCCTCAACA
GTGCTAGAACCACTTCAGTGGGTATTCGGTCCATTCCTTTTCCAGGGAAC
ATCTGCATCGCTCGTGCAAAGCTCTGCCCACGCTTGCACTGGGTACCCAT
GCCCGTACACCCGATCAATTTCGCCGCCTCCTGGTGCAAATTGCTGCGGA
TCGTGCAAGCAAGGACATACGGCACGTTGTCGTATTTTCCTCCCTCTCCT
TCTGGCGATCCAGCACGCCCTGTCAGGTCATGCGTTTCGGGGACGCGGGG
GTGGGGGGGGGTGTTTTATTCACTGAGCATAATGAGCATGTTCAGTAGCC
GAAGAAACATCGAGACATAAAATAAACTCCAACAGCCTCTTGGAACCATG
AGACCCCAAACACACCCAAGCGATGTTTTCGAGTGCCACTGATTGCTGTG
TTTGTGTGCTTTTACGTCAGCGTCAATTTCGATGGCTTCGTTGATGGCAT
CATGTTAAATACTTCGTACTAGACTACCAACGAACATCGGCAACAACATC
ATCAAACATGCCGCTCGATACAACTACAGATCGTCCGCTGTTCGTGCAGT
TTGTGTGTCCAGCAACCCCTGTACAGCAGGCATTTTTGGTGTGGTGACAC
ATGTGGCTTTCGGTGAGCAGTTTTACTTCAACTATCTATAAGCGGGTACG
TGTGATAGCAGGATGACCCGTGAAATACAAAGAGCCTAGTTCAAATACCG
ATGCTGCTGTTGTCTTCAGCTCGTGTTTTCTCTTGTGATATCGTAAGTGT
ACCGCTGCCGTTGCCGACGGCTGCCGTTGTTTGGGTTGAAATGTTTCATT
CCGAACATGTCATATCATACCGCTGGCGCAAGAGGTCTCTCTTCCACAAA
CATAATGCACACACACCTGGTTGTCTGCTGTAGTAGTAGTAGTTGAGACA
CGAGGAAGCCCTGTTGATTGCCGCAAGTTGTCGTCCGGTTGGGGTGTTTC
TTGTCCCACCTCGGGAGAGGCACCTCGCATTCGCACTCTCCTGCAGACTC
GGATACTTGCTGTTCTAGTCAGTTGCGGATGTGGGAGGGGGTCGTTTGTT
GCCTGCTCCAACATCGCGGCCGCCAAAGCTTTGGAGTACTGCTGTAGTCA
GTCGAAGGAGTGGCGCCGAGAAGCGTCACCAGCTCGTCTCCAAACTCCTC
TTCTGGTGTCTATGACCCGGCTACGTAACTGCCATTACCAGCAGGCGTAT
CTGCTGCATTCGTCTCACGTGTGCCTTGTGCATCGCTCTCCTGGGAAGGA
GGTACTCCACGACTACTTACAAAAGCAGCAGCAACAGCAACAGCAGCAGC
AGCAGCAAGCAGTAGAGTCTCCGGTCTCGGGCGTTCTACTCTCGACATTG
GATGGAATCGGTGGGCTTCACGCGTTTTGCCGCACGCTTGTCAACATCAG
TCGTGATGAGGCGTATAAGCAGCAGGGACAAGAGGTCGTTGTGTGTGCAC
GCACGCACGAGTGCACACATGGTGTGGTTTCTTGGTGAAAGCGAAAGCAC
AGCGTTGATGAGTCCGCGCCGGCTGTGTTGTTCTATGATATACCGCTTTC
TTCCTTTCTTTTTACAGATCTCCGATTCCGATCGTGCAACAAAATCGGGC
GATGTACGGTAGTCGAACCGGCACCTTCTTGCCGGCCTTTTTTTTGTTTT
TTGCCATGGAAATAAAAAAAAACGCCATTTCTTATTGTACTGAAAAGAGT
GCTGCCTTAACGATAGTCGGAAAATCATTATTGGAATAAATCATTATCAT
GGAAGGTCTCTGATTGGCCAAGCTCTCATTACCTACCGACGGAAATAATG
ATTTTCCGAAAAACCCTTCGAGACCAAAGAAGTCCAAAAAGACTTAATTG
GAAGAAAATCATTAATCATTATTGGGGGTCTTAACCCGATCGAAGGCTTT
TTCTGAACGATGTGCCTCGCGCACGAGGCTGGCCAGACAAAATACTACCG
AGGCAACCAACAGCAGTGCCACAGAACATAGCATAGAGGTTTGCCGTTGC
ACCAGGCAAGCCAACGTTGTTAGCACCACACATGACAGCGCAACAAAGAA
ACACAACATGCATGATTGATGACCCACATTTCATTTTGCACAACACACCA
TCAGCACACACGACGCAGACAGGCAGGTCACAGGTCACGAGCACGAAGCC
GCCTCTCACAGCCCATGGCAGACAGAAACACGATACAGCAGCAGTCTTGA
GTGCATGAGCCAACACACATACCCACGCACCGCACACATCTACAAACGGG
GTGTCTGTCAGCATCAACGCTTGGTGCACAGAGCCCACGACCTTGCCTTG
CGTGCGAGAGGACGCACATGATGCGTCCAAGTACTGCTGTACTGCTGTAC
GGAGTACTTTGTACAGCAGTATATTTTATTGTTCTGTTTTACCCGTCGTG
CCGTCATCATCAGAGGTTTGCATTCTGCTGGCGTTTACAGGCCTTCAGAG
AGCCTTTTCAGCTCTTTCGTTAACATGGCTCGAAGGGTTTTTCGAAAAAT
CATACTCCGAGTATAATGATAATGATTTCAATAATGATTTTCCAACTATC
GTTAATACAGGACCTTATGAGCGGGCCGGTACTGGTGGGATATGTGTCCA
GACAGGATATCCATAGCTAGGGTTGTGTATCGTCGATATAATCCGAGCGC
AGCGAGGCGCCGGAGCCACCAATGGCCCCCCGGCTGGTGGAGGGCCCCGC
TGGAGGCGCCGTCGGAGTCAATTTTTTTACGCCATTTGGCTTCATTTCCC
CTCACAATCGGGCAACAATAGTGACCACCGAACGGGGTTCCTTCTACAGC
ATCATTGGAATAGTTGTAAGTTACTCCAGTGGTGGTTAACCCTTATACCC
CTAGATCGCTATATGTCGCCATTTGCGTCGCCATTTTTTTGGTCTTCAAT
TTGGATTTGGACGAACGTGATCAAGATATAGCACATTTTCAGTCGCTTTT
TGAACACTTTCGGCATCCTTCCAGCGAGCCAGAGCGATTTTCGGGTGCAC
AGGACTGTGAGCATGGGCCAATGGTGATCGGTTTCGTGTTTACACCAGCG
CTGGTAGAGAACAGCAGTAATGTAGTAGACATTGACAGACCGATGCCCTC
ACAGAGACACACACAGCTGCAGCAGCGCATCATCTCCCTTTTCGAGGCCA
GCCCTGAAAATTGGACGGATCTCTCTCCTTGTTGAAAGGGAAGCAAACAC
AACGTAGCAGCGCCCAAAGTTGCACGAAACACGCATAGAGCACGGCGACT
GCTGCTGCTGCTGCTCTTTCAATCCGCAGCAGCAGCAACAACGCATCACG
GGAGCTCTGTTCGGCTCATGGTCGCAGAGATCTCGGTATGGACAGCGACA
TGGAGGTTGAGACCCCACCCCGTCAGGATGGCGGAGGATGGGAACACAAC
GCCCAATCGCTCGGAAAGGAGCTGCTACGACTGCAACACGGCTCACTCCA
AGGTCTTCCGCAAATCAGTGGGGATGCAGTCGGTGGGTGCGAGGTTCGGG
CCGTGATAGGTGATGGTAGCTGTGGATGTCACAGCACACTCGTTGGCATT
ACGGGGACAACACCAGGTGGGGTTGAGCCCTTGTTGGTTTATTCTGGTAA
TCCTTCTCTCTACAAAGGGAGCTCGAAGGAGGTAGCGGGCCTTTACACGG
ACATCAAGGAAGATACCATGTCAGACGTATTCGGTGACTCGTGGGAGCAT
GAACAAGATAGAGAAGTGACCGTCGAGGAGGACAATATGCTATTAGGCTA
TCCGTCACCGAAACGTCGAAGCCCCGCACGAAAGTGGGACAGGTCAAGAC
GCGAAAGACCGTACGTGAAGTGGCCGCAAGTGTCAGAAAACGATCGAAGT
ATTGGTTGGCTGTATGCCAGATGGCGCTGGTTGCAGCAATCGAAGAGAAA
AACATCGCGGTCTGGGAAGCGAAGGACGGCGGGGGGATTCGGTTGTACAA
GAACGGTCACGAGACAGGTTTGTTCATCGGAAATTCCGAAGACATCGGCG
AATTTGTGCATCTGTTGTATAGCAACGGAAACTGCACCATTTCGAAGCTG
CAGGACGGAACGTACCCTGTGCGCAATTCTCGCGTCACGAGTCAGGCCAC
GAGCGACCATTTCGACAATATCTGGGTTCCCTCGACCTTGGCTTCTTTTA
TCCCATCAAGCTCAGCTGAGAAGAAACAGATTGAGCAACAGTTGACCACG
CTTGGAGGACAGATTCGCACGCATGAGCGAGATCAGCAAAAGCTACGACA
ACAGCAACGGGAACAGCAGCAACGGGAACGGTCAAAATATCCTGGGCAAC
AATTGCAGCAACGACAGTCGGGTAGAGAGCGAAGACCAAACGTGAGGCAC
GGGGGCTACATAGTAGGTGAGGCAGCGAAGGAAGACGACGGGGGTGGTAG
ATCAGAGTTACCGTCTGGCCGCAACTTTCAGAAAGGAGCGCAACAGCAGC
AGCAGCAGTAGCAGCAGCAAGGCCAGGAGCGGCAGCAACAGCGGCAGCAA
CAGCAACAACAACAGCAGCAGCAGCAACAGCAGTGCCAGCAGCAAGAGCA
GGAGCCTCAGCAAGAGCCTCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGG
CAGCAGGTCCGGGGCTGAGACCCGTCAAAGTCGAACAGCAGCAACAACAG
CAGCAGCAGGCAGCAGGTCCGGGCCTGAGACCCGTCAAAGTCGAACAGCA
GCAGCAACAGCAGCAGCAGCAGTGCCAGCAGCAACAGCAGGAGCCTCAGC
AAGAGCCTCAGCAGTAGCAGCTGCAGCAGCAGCAGCAGCAGCAGCAGCAG
GCAGCAGGTCCGGGCCTGAGACCCGTCAAAGTCAAACATGACGCCTCGGC
GAGGAAGAATACCGGACCAGGCGGAAGCAGGAAGGCTGAAGTTTGTAAGG
GTCGATATCAAAGTGGCAACAGAGCAGGAGAGCAGTGTCAGGTGAAATTG
AAAGCCGGGAATAACGGCTTTTGTGCGCGTCACGCAAGACAAGGAGATTC
GAGAGACGACGAGGATGAAGACGTTGGCGACGAAAGCCTCAGCGACGATG
GTAGTGAGGCCGAATACCCTGGTGACCTCGGAGATCACGACGGTTCCGGG
GAGTGCCAACTCACCAAGGCAACAGCCACGAAATTTGGACGAGACAGGGG
AATAGCAAAGGTTAAGGAGCCTTGGGCAAAACGAGCGCTGTCTTACATGT
GGGGCCTGCGCGAAGCAACGGTGGAGTTGGAGGCAAGCCGCGAGGTGAGA
AGTGTAGTCTGTGGCTGGGAGAACCTCCTTATCCCAATAATTCAGTGCCG
GTGTAGCCCCGAGTCTACCAGGACTTTGCGGGAGCATCTCTCTTTTTTTT
TCGTCTTCTCCGCCTCTGATCTCCACCTCTGAGTTATCCCAAGATACATA
TATATATTTTTTCACTAGTCGTATCGATACTGTTTGTATCGATTTATGTA
GTGGAACAGCCTTTGATCAACATGAAATCCGGACGACCTTCTTACTCTCG
ACGACAAACATAGTACGTGCGCTGTCAAATTGTTGTAGCAGGAGCTCGCC
AAACATCGAGAGATATGCCTGCCCTTGCCAATTGCTCAGTAGAACGCGTT
TGGAGCTTGCCAAAAACAAAACATCAGAAACACCACATGAATTTGCGGAA
AATGCGCGACCAGACGGAGAGATCCGACAGAAACATTGAAACAGATCATC
GGAAGCGAAAGGACAAACGAAATCCAGAAGTGGTAGCCGTCTACGTACAA
CGCCTCAACATCCTGTTTACAACGCTAGAGACCACTTAATCTCCATGGAC
AGGCATTTTGTTTATTTGTCCTGGTGCTTCAGAAAGTGGCAGGTGGAAAC
GTGTGCGATACTCCATCAGTATGCCTTGTTTTACGAGAGTCCCGACGTTT
TTCATCCCCAGATCCGCACCGCAGCGAATCCCGTGATTGGTGCTCACTGA
GCCTGCCCTTTGCTTTTTTCCCTCTCAACGCGTGTGTTGCCTGTATCAGT
TAAAAAAAACTGCAAGGGCTGAAGCTAAAAGCAATCAACCACTCCTGGCA
AGCAATGAGGAAGAGAGTGGTCATGGAGGGAGCGACGACTACGGTTCTGA
TAGTCAGGACCCTCCTTCAGACTGGCGCTGGTCCTGTACTGGAATGACAT
CAAAGATGCGTTGGATGTTCAGAGAACGAAGGGGGGGTGACGGCGAGGTA
GGAGATGACGCTAGCGAGGAAGTCTTTTCCGGGGATGTCAGTCACGGAGC
AGCAGGGTTGGGGGGTCTAGGGGTCGGTAGAAATGATGGCGAAAATGGCG
AGAGCGGGGCCGGGGTTAGTCGAGACGGAGGAAGAACAAAGGGAAACGAA
GAGGGCAGTTTCCAGGGCTGCGCCGATTGTGACGGTTATGGAGTCGGGAG
TTGCGACTCTCAAGGTGGTAGCGGCGGAGGGAACGGGAATGTTCGCGGCG
CTAACGGAGGGGGTGCCGACGACGACCTTGGGGGCGCCAGGCGTAGTGGT
ACAGATGGCGGATCGGCCGGGGCTGGGTGGATCGGAGGGCAACGGAGGGT
GGCGTCGGCTCGAAACACTTCATGGCAGCCAGTCTTGTGCGACTGCAAGC
TCGAGTGCAAAGAGACGACGGTGACGGAAAAGGTGAGCACGCACTGTGAA
TATTTGCTTCGCCGTTATTGGTCTTTGTCGCAATTCGGTTGGAATTCGCC
GATCAGTTCTATGAATGGTTTCTGAAGCGGTCTTGATGCTTTTCGCTCGA
GTAATTGATATTTGAGCATTATCCGAAGGGAATTCTGTTACGATAGGTAT
CTTATACAGCGGCGTTTTTTCGCGCCCCTCCCCCCCCGCTGCCGATTCGT
ACAGGCCTCACCACTGTTTGGAATGACAGTCTACACGTGCCCGACGCAGG
GTCGCCTGCAGCCATGTATTTTCCATGTCATCAAAGACGGGCCCGCAGCC
GCCGGTGGGAAGAGTGGTGTTGGTGAAGGCAGGAGCGCGAGTTGTGGCGG
TAGAGAGGCGAGTGACAGTGGGAGTGGGGCCGGTGGCGATAGTCCATGTT
CGACACAAGAAAGATGGAACGGGGGTGGGGATGGAGATGACGCAGGATTG
TCGTAATTGAATCCATGTCTGTGGTTTCTAATTTTCCTTCTTTCAAGAGG
GGTGCTTTGTGGACCGATTAACGCCTAATGTATTTTTAGCGACATTTTGA
GTTCCAGCCGGCGGTGACAGTGTGGTATGAACAATAAATACCTTACCACC
GTTCGTGCAGCCGTGCTGTTTGCCATGATAAACGTCCGGAATAACACGCA
CGGGTTTTTTGTTTTTGTGGTTTTCCGGAGAGCAGGTGACTGCAGCGTGA
TACAACCTCGGCCTGGTACCGCCTGGCTGCGTAAGTGGCTTGGGGGAATT
CCTTCGGGAGACTGAAAAACACTGTAAATATGAAGTTCGTGCCACTGCTG
CTATGCTGTGCCACGGTCTTGGTACCCGTGGAAGACACGAGGGCACACCC
TCCGCCCTGGCAACACCAAAACCTTGAAACCACGTCCAGCATCAACATCT
TTTCAGACGGCAAGGCGTTTTTTTTATTGAATTTCGCTTCCTCAAAATTG
CATACGGCACCAACGCTCAACAGGCTTGCCTGTGGAGCTCAAGACACAAC
ACAGGATGCATCGTCACACTGCCGTAAGCTCCGCACTTGATGAGGCGTTT
CGTCTCACACCTGGAGGCAGACGACATGGCCCTGACCGTTAGTCACCCGC
AATGAAGAAACCTAAGCAACCGATTACCAATACCGATGCCAACTTAGAGG
AAAACGCATCTCGAGCCCAACATCTCCACAAGTGGCGACGGCGCGATTCC
CGCATGATAATCCACGCTGCGATGCTAGCGTAAGAAAACATGTTTCAGGT
AACATGACAGCAAATTTGGGCGACGCGCAATACTTGCTCCTCCTTAGGCC
TCTCGTAAAGCAAACATCAATATTAATAAGCATCCCAAGTTCGCCAGATG
TCAGCCTTCGGGGCTGGGTTCCTTTGATACGTCGTCGCCGTCCCCTTCCG
TGTCGGACTCTGCCTGAATATTATCCTCCGAGAACGCCGCCGCACACCAC
CGGGCTACTGGAGCTTCTCCGGGCCAAAGTGCCTGGCATGCCTTTTCGAA
GCATTTACCGCGACGAACTTGTACACCCATGCCTTGGACATTCAGAGAAC
GCGCCGCATCGTAGCACGCCTGTTTAAAAGCATGCAGGGTGAAGAAAGTG
TGGGGTGTTGTGGTAGGGCGCGGCTTTGAAGTGCAGGCCGTCAGCGCAAG
ATGATTAAATCTTTCGCAAAACATCCTCTGACAAAAATAGGTACTATAAA
TTGACATCATGCGGGGGATTCATCACAAACCTAATTCGTAGTTAACAATG
ATTCTAAAATGTTACATTCATTCAGAGGGAAATTGCTGGTGGATTATTGG
TAGTGGAGGCGTATCGAAATTCGTACAAAGTGGAGGAGACCGTGGTGTCG
TCCCCGATAACAAATCTTGGTCATGGTGCATGTGGAAGCAGGAAACATAA
TAATCACCGAATTAACGACCTGCCGCCAGTGAAAAGTGCGCCGCGTTGGC
TGCAGGCGGTTGGTTACCAGGGGTACCGCTTGCGCCTTAGCTTTAGCTGA
AGAGGGGGGGGGGGGCATCAAGTTTTACAACTTAATTTCTTCGGAACGCC
GTCGTGGGGTAGAGGCTATTTGAGGTTACGCTGTTCCATCACGATACTTT
TCGCGCAGAGACAAGTAGGGTGCACCCACAGGCGTGAAGGTTTGAAATGG
CTTGGCAGAAGATATATTTTTAGGCAGCCCCTATCTGCACTTGCTGCACC
TGCCATAACGCCTTGGCAACTAAACACCAGAAATCCTGCAATAATGCCTG
CCGACCACTTCTTTGGACACACAGCACAAATAACAAAGGGATAAGGTCAA
CGGCAAACACGACAGCAGGCAGACGTAGGTTTATCTCTCTCTCTCCCTGT
CTCTCTCGGCAGCAGATATACTGCTACGGCAGACAAACAGAACACGAAAT
GAATATAAAGAGAGAGAAAGCGATCGAGAACACCATGCGAGGGCCGAGCA
CACATTACCGCACAAAGCACAACAAACGTACGGCAGCAACAGAGAGTGCA
AGACAGGTAGTAGAGTATATGCATACTCAAAACTGGAGCGTGCAATCCCA
GAGGTAGGTGAAGGTAGAGAAGAAAAGGGAGAGAGTACGGCGTGCACGCA
CACAACGCCGCAGTCAGCACACCGCATACAGCACTGCTACAGCAGTACTT
GTATCATACCGCGTTTAGTGTCTGGGTGTGTTTTTTGGGGTTCATGTGTG
GGTGTGTCTTTGTTACCAGGTATGATGCGTGTTGTAGTCCCATATGTCTC
GGACGCGAACCTACTGCCGTTGTATGCTGCTGTACGAAGTGTTCTGAGGG
ACCACCAGGCGGGGTAACACAAGAGAATGGTAAACACAGACAGGAGCGCA
CGATTCGTGAAGTACTTCGAGTGTTGTAGCAGTACTGCTGCTGATCTCTG
CTTTTGTGCATGCATGTGCTGCGGCTAACGCTGCACATCATGATGATCCG
ACGCACTCGATTTCTCAGCTGTTTCACACACCTGGTTGCGGAAGGTCTTG
TACGTACACTCCCGCGCTTCTCGGCTGTTGCCTTCACAGACTCCATCGAG
ACAGCAGCTATGAGCTCCGCTTAGTGCACGCCGCAGGTGCCGGGTGGTCC
CTCGCCGCCTTGCGTCGCTCATCCCGGTTTTTGATGACAGGGAGAGGCTC
GGGCTTCTCCACGCCGTGTGAGCAGTGTAGCCGGCCCGCAAGGCGGCTTG
CAGTTGTAGCGAACGCCCTGGTCCGAGCCGTGTGATGTTCTGCCACAAAC
TTGAGCTGCTCGTGTACAACTCGATCGCCACCTGGAAGATTGAGGCTCTC
CACTAACACCTTGGTCGGATATGTTCCGCTCGCCATTCTCTCTGGTGTAG
CTTCGTGGACGCATGTGTGGGCTGTTGTTGGTGCAGCGCCTGCATCGTAT
GTACGCGGCGCCATCACGTGACCCCCAGTAGCTAAACTTTTGCCTCCCTA
ACCGCTTGATTTTTTTTTGTTCGTTATAACCAAGTAAACACGTCGCCATT
TTTTTGGCGACGCGTTTACTTGGTTTTAGAGTTGATTTGTAAATATAACC
CACGGTGATGCGCGAGCTCTCACGAATGGGGCTGTCGTTGCGGGCCAATG
AAACATATCTACCAAAAATGAGAATATAACTATTTTCACCATTTTTCAAC
GATAATTTCTTCTTTTTTTTTATCAGGATTTTCACACTGGGGGTATAAGG
GTTAAGTACGTGAGGTAGAATTCATAGAATTCATTGATGAAAAACAACAG
ACATTCCGGTACTTCATACTCGTACAATGCCGAAAGACGATGAAATGCCA
GCTACCGCGTGTTGCCGTTGACGAAACCCCCGACAGCAGTAAATAGCAAC
AGTGTAGAGACGTCGGCCTCTTTCGTTATACGTTAATCGTACGGTTGTCC
ACGCGGTCCCTCACTTGCAGCAACACCAGTCCCTCGCAGTAGATGCCAAC
AATCACAAAAGACAAAAGAACAAAATACGCGGTAACATATACTCCGAGTA
CTTCGTACGAAGTATGAAGCTAAAACCACAAACTCCCCCTAGCAGCTTTC
AACCACGCATCCACACAAAATGAAGCCACCAACAGTGAGTTCTCAACAGT
GTAGATACGTCGGCCTCTTCGTTAGATTAAAGGTGCATAAATTTTAAGAC
GGTCCTGCACTTGCATCAAAGCCTGCTCCTCGCGTAGATGCCGACAAGCA
CCAAAGAGTAGAACAACACGCGGTATCAAGTGAAGCTAACACAACAAAAC
AACTCTCCCCCTAGTTCGCAGCAATCAATCACGCATCACACAAGGGTCGC
AGGTATACCTGTCCTGCCGTTAAGTGCAGAGACATCATCACCCGCCGAGC
TTAATTTCTACCTGGTACAAATTAACGGACAAACAAAAGAAACACTCGCC
ACACCGTCTCAACATAAAAAAAAAGAGTGCCGCAACACCACTCGAAAGGC
GCTCCTATCTTTCAAAGCTTGGCCTACCTGGTGCCTAGAATGGCGTATAA
ACAGAAATATCTTGCATCTGGCGCAGCACATCTTCTAATTCTTATCTGAT
ATGATATCATATGGTAGTATTATGATAAATGCATGAGATACAGCAGGCCT
CGTCGTTTCGCCAATTTAGGCCCGCTGTGTTGATGAGAAGTTCACCCAAA
TGGACAAATGTGTCGCATGGTTTTTTACTACAAGTAGTTGTGTTCATGTT
CTACATTTTACGCGTCCTCCCCGGCGTCCAGAGGGAGTTGGAGGGAGCTG
GAAACAATGCCGCTCCTGCTGTAGCAGTAGGCTATACCGTATACGACACG
AGATAACACACCCCCCACAGAATAACACACCCGGTACTATTTTTTTTTCA
TTTTCACCGAGGGGCCCATTATCACTCGGGTTACATAAGATAACACCCCC
CCTGAGGACACGCCGCCTGTAGTCACGGAGCCCCTCCTGCTACCGATATC
ACCTCTGTGCAGTCCCCTCTGTGAAGGGGGCAGCACCCACAAACGCTCTT
GACGAACGAATCAACTTCCATTGCTCTCCAGCCTTCTTGGCATGTTGTAT
TTTTTTTTCAAGTGTTCATGGATGACACGTTTTTTTCAATACGAAGTGCG
GAGTACCGTACATCGCAACAATGTGCCGTTGTCGACCGAGGAGCTGTTAG
CGTTCATGTCAAGGGACGTCGAGCTCTAGAGATTTTTTATCGCCTCTCCT
GTTAGCCCCCCCCCCGCCAAACTTTTGCACGGTACTGGTACCGGTAGAAA
GTTGTGACATTTTTGTCACACCTCCTCAATACTACGACCCTTGCAAGTGT
AGCAGCAGTACGGTACGCTACCGGTACGCAAATTCTTTGCCAGCAGTGTG
ATCACACCCCGTAGTGTTATCACACACCATGGTTATCACAGACCATTTGT
GGTCAGACGCCTTGCAAAGAGTGAGGCAGTGTTGTCACACCCCCATGGTG
ATCACAGCCCATTCATGACCAAACCCCCTGCAAAGAGTGTGGCCGTGTCA
CTGCACACCATAATTTTCGCACCCCATTCATGTCCAAACCCCCTGCAAGA
ATAGAGTGCGGCAGTGTTATCACACTCTTATGTTTATCACACCCTACTCA
TGGCTCCCGCGACCTGCACTCTATCACCCGGGTTACATAAGATAGCACAC
CCCCCACAGAATAACACACCCGGTGATAATATTTTTAAAACGCCGAAATT
TTATCACCGGGGTGTGTTTGTCTTGTGTCGTATACGGTATATGCCTGAAA
ACACCCTACATATCGGCACGCATATATCGAAATACGGCCGATATATCGGC
GTTCGCCGATATATCGGGATGTCGGCCGGGCACCAAAATCCATAGATAGA
TAATATCGTGCTTAGTATCGTGCGATATATCGGTCTATATCGTATACGAT
ACACAACCCTAGTAATTACAGCCAGCTGATGTAGTATGATATTCGGAGTA
TGATACAGCAGTAGCAGGTAGGCCTTTGTGTAGACTTCGCGAATCGCTCT
TTTTGGCGGATCCAAACGGGTCGTGCAACTAAAAACTACACCTCGGTACC
CGCGAGACTATGTGCTGCATATGTTTGCATGCTGCCTGTGAAGGGTTGCA
GTGTACGTCGAAGTATCAAAATTCTACGTCCAACGCCTTTGGATGTTCAT
GTTTACAGCGGCTCTTCTTCCATACATACTTGAATACTGTGCAGGTCTCA
GCCACCATCATATCTGCGGGCGTGCCAAGCAGAGTGCATCTGATCGGTTT
TCCTTTGTGCGGCATCGTTTTCTGGGCGGAAAGACGCTTTTTCTGCGTCT
GTCTGCCGTGTTCGCGAAACCGCTGCAACCACTGGACTGGAATGTATACT
TGTAGTGCTACAGCACCAACTATATGCCAACACTCAGTGCTGTCCTTGTT
GCTGCTCGTCGTGCGTATGACATGAAATGGTAAGGGCGGTATGGAACAAG
TCCTCTTCGTTGAGGTCGGCTTCGGCAACGACCAGCACGGTCAAGACGCC
ACCAAAGCTTGCGTAAGGTGTGCTTTTTGCACTCTCACGTCGGGATTCAT
TGGTGAACGTTTTATTGTTATGTTACACACAACGTCGATGTTTACATGTA
AACTGCTTTTTTTTTGTCCTTCCGGGCATAGAACTATATAGATTGTGTGG
ACATGGATGCACAGTTCGCTTTTCTGGTACGTACGCGAATGAGCACTAGC
GCGTCCCCGCCATGTTTGTTACTTCGAAGTACATATTACTACTGTCTTCT
CTCTCTAGTCTGTCTTTCCTCCCTGTGCATTTTTATCCTCTCTTTTGCCC
CCTCCCCACCCCATATTTTTGGCGCGCGCGCCCCTCCCCTTCCCGCTTCT
CTCTCTTCCTTCCCCTCTCTCTTCCTGCTAACTTCTTTCCTATCGCCTCT
CCCTGAGCGACTTCTGTCTGAGCCATATTCAACTGCCTCCCCTGCTCCTT
TATCACACAAACAGAACATCGACGAACGGCAGTACAGAGTGCTTGTTTAG
TCACCCCATGGCGTTTTTTTGTTTTCGCTCTCTGCAACCATCAACAATTT
GGCGCTAGCTCAGCTCAGATAGCATACACACACAACATGGAAACCATGCC
ACGCGCAGACGAAGCCGATTGCAAAGCACGCAACCTGGACAGGCTGCTGT
TGAAATAGGAGTGCTGATGATGCACTGCTGTGTGTTTTGTTTTCCCGCAG
AGCATGTCGTAACGCAATCGAGTTCAACTCTATCCCGTCCATCAAGAATA
TCGTTCCAGGAGGCTACGCGGGCATGAAGCTCCGAGTACAACTGGCTGTG
CCAGTGCCGGAGGTGACTGGTCGTCATGAGTGCACTCCATATACATTACG
CACTGCTGTAGGAAATATTTGGGTTTTGACGCGTTGGTTTGTCCTTGTTG
CATCTTTCGGTTTTCTGTCGCAAGCGGCGATACTAGGGAATTGGTCAACG
TCGAGTAGCCTGTGTGCGTCAGTGCGGCAGCTTCTCAAAGGACTGTGCTA
TGCAGCGTGCGTTGCTGTTGAAAGTTCCGGCGTGGGCACAAACGCCTCTT
GTCATTTCTCAAAGGAAATACATCGTTCACCACGTGACCATCATACGACG
ACACAGCTGTGCGGGTAGGGCAGTGGTTGCGGTGAACCCAGCTGCAAGTT
GATCATATTTATCTCATCGGCTTAAGCCCTTGGTCGTAACGATCGGTGCT
GAACTGGTGTCGTAAGTGTTGCAAAAGGGGGCCGATATATCGGACAGACA
GACAGAAACTGAAAACCTCCGATAGTAGAACAAAGGCACCCTATGCGCCC
TTTTGTTTTGTTTTGTTTTATTCGCGCATTAACTCACACCTACAATAATC
GCGACGTTTTCCGTATGAAATCGAAGCAGTTAGACAACGAAGCTATACTT
CGCTGAACTCGTGGACTGCTTCTCAATACAAACTTGGAGCAGATAATACG
CTCCGCGCCGATGCAACATCTAATGATTCTCCATGCTGTAGATCGCCTTC
TCTGCCTGCCGGATATGAAGGTACCACCTATTGTCGGAACGCGACAGCGT
GTACACCCCGTGTTCCGCCTACGCTTCCACGGGGTGACCAACACGCACAC
TATCGGTTGTGTGCCGCTCCGCATCGTGCGTTCACGGTTGTCGATTCTTG
AACTCAATCTGCACCTCGAATGCTCGACCACTGGTCTTGCACGCTGTGTC
CATCGCGTATCTCCCCGCACACATTTCAACCCCACCCGCAGGAAGAGGTG
GATGTTGAAGCCATAAAAAAAGTGTTCCCGTATGGCGAGCTTTTGCCAAT
AGAGTTCCAACCTGGCGGGATGCGCGCGTCCAGCGGTATTGCTTTGCCAG
AGATGGGAGGTAGGGCGTATTTCTTCGCCTGAGTGGGTACTCGCGAGCCA
GGGTAGACCTTGGTGTTTTTTTTGCGTGCATGAGGTACTGCTGTAGTATA
CCAAGTGTCAATACTACCCCCCCTCTGGTTGAAAGGAGTGTTTAACCCCA
ATTTTTCTGTTTCAAGGAAGGGCACACCCAGCGATAGGTCAAGTCACAGA
AAGCTGTCGGCAAAGATGCCTCTAGTGCCAATGCCGTTAGCGATGCCGCC
GTCCACGTTGTGGAAAACCGGAAGGTTGTTGTCGGGTCTTGACCGTTGAT
AGGCAACCCTCATTTTAGGTTTATTTTACCCGTACTGCTCTCAATATTTG
TTTGTCGTGTGATCGCCTGTGTTTCAAGTAATTTCCCTCCGAAGATGTGA
GTCCGGGGTTCTGAAGGGGTTGTGAAGGGGCAAACATAACGTCTTTGTGG
CAGAGAGTACGACAATTTTGACCCCCCTTGTTTTTCCCTCGCCTTCTGTT
CCTTTCCCTACCCCTTGTGCCGACGACACGCTTTGCTTACTTGATCAGAC
AAGAACGACGACATGGTGATCGCCATCAGCTGCGTCACAGTGGGATATTA
AGAGGGTTGTTAAGGGACAAGTGACACCTCCGCTCTACCCACTAGATTCC
GCAAAAATATGGTTGTACATTGTGTTTTCTCTTGCGCGTTTTGAGGGAAC
ACGAAAGGGGTGGTCGCGGGGAGGGGAAGGGGGTGCCGAGAGTATGCTAG
ACGGGAATCATGTCATTCCTCAATCACTCGTCGTGGTTTGTGGTGGAGGT
GGACTCAATCTCCGATTTGTTTTGCCCTTTTTGAGGTACAATGCGTCTGA
GAGCTAGCCGTCACATCCTTGTGTCCATAAAGGCGTGTGGACGCGGGTCG
AAGTCTCCTTGGCTACCATATGGGCCGACTATAAGAACATTGGGAATTGA
TCAAAATTAAGAAAATCAAAATTTTCAGTATATAATACATTTTCCGAAGC
GAACAACCTCCCCGTTTTCGCGCGAAATCCGGGTTTCGGGCCAAATCAGA
ATACTTCCATTTATTATTGTCCCGTATGACAATGGCATACTCCCCCCAAC
AGACACAGGCAGGCGGGAATCCAGCATCCTGCGGCCCCATCCCTGCGTAC
CAAGCAGCATTTCTCCCAAGACTGCGGCCACCGTCACCGCCGCCACCATC
ACCATGACCGAAACCTCTCTTCCATCTGCTTCGGCCGTCAGATGCCGCGC

Coding sequence (CDS) from alignment at P-littoralis_Contig635:80820..102319+

>mRNA_P-littoralis_Contig635.36.5 ID=mRNA_P-littoralis_Contig635.36.5|Name=mRNA_P-littoralis_Contig635.36.5|organism=Pylaiella littoralis U1_48|type=CDS|length=360bp|location=Sequence derived from alignment at P-littoralis_Contig635:80820..102319+ (Pylaiella littoralis U1_48)
ATGGAACAAGTCCTCTTCGTTGAGGTCGGCTTCGGCAACGACCAGCACGG
TCAAGACGCCACCAAAGCTTGCGTAAGAGCATGTCGTAACGCAATCGAGT
TCAACTCTATCCCGTCCATCAAGAATATCGTTCCAGGAGGCTACGCGGGC
ATGAAGCTCCGAGTACAACTGGCTGTGCCAGTGCCGGAGGAAGAGGTGGA
TGTTGAAGCCATAAAAAAAGTGTTCCCGTATGGCGAGCTTTTGCCAATAG
AGTTCCAACCTGGCGGGATGCGCGCGTCCAGCGGTATTGCTTTGCCAGAG
ATGGGAGACAAGAACGACGACATGGTGATCGCCATCAGCTGCGTCACAGT
GGGATATTAA