mRNA_P-littoralis_Contig66.64.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig66.64.1
Unique Name	mRNA_P-littoralis_Contig66.64.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A6H5JIN5_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JIN5_9PHAE)

HSP 1 Score: 226 bits (575), Expect = 9.410e-70
Identity = 134/194 (69.07%), Postives = 148/194 (76.29%), Query Frame = 2

Query:   86 LRTMAVAAAGVALFCSRGYSVSAFAFTAPLSPRATTMQRQQQACSMPSTSSWYRRAKEQLRALDARPIRGRAP-RAAAAAGRSPSMAQEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADPQ-GRGQGAEM 661
            LR +AV AA +AL CS     SAFAFTA LSP    +++   + S   + SW RR +EQ RALD R  RGR+    A   GR   MAQE LILTEENV+ VLAEAK+EL TLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEK++VLARVGNFVQ RIPECVDVEIEDP+QLEDADP  G GQ AEM
Sbjct:   11 LRVVAVVAAALALCCSS--RCSAFAFTARLSPSTAVLRQSHSSSSSRCSGSWDRRVQEQFRALDTR-SRGRSETHLANGVGRGLYMAQETLILTEENVVAVLAEAKRELSTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKTTVLARVGNFVQTRIPECVDVEIEDPSQLEDADPPPGPGQ-AEM 200

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: D7G2J7_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G2J7_ECTSI)

HSP 1 Score: 189 bits (479), Expect = 1.330e-56
Identity = 97/109 (88.99%), Postives = 102/109 (93.58%), Query Frame = 2

Query:  338 MAQEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADP-QGRGQGAEM 661
            MAQE LILTEENV+ VLAEAK+EL TLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEK++VLARVGNFVQ RIPECVDVEIEDP+QLEDADP QG GQ AEM
Sbjct:    1 MAQETLILTEENVVAVLAEAKRELSTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKTTVLARVGNFVQTRIPECVDVEIEDPSQLEDADPPQGPGQ-AEM 108

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: L1JDA8_GUITC (Uncharacterized protein n=1 Tax=Guillardia theta (strain CCMP2712) TaxID=905079 RepID=L1JDA8_GUITC)

HSP 1 Score: 124 bits (312), Expect = 6.180e-31
Identity = 76/159 (47.80%), Postives = 100/159 (62.89%), Query Frame = 2

Query:  173 LSPRATTMQRQQQACSMPSTSSWYRRAKEQLRA--LDARPIRGRAPRAAAAAGRSPSMAQEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADPQGR 643
            L P AT M+    A +  S S  Y  A  +LR   L + P++ R   A   +   P M +EPL LTE+NV   L E+K+ LGT+FGN+ EN  +GITGD + V LDGP   VRL GRFWH++S VLARV N+V+ R+PE V+V IEDP QL+D  P+ +
Sbjct:   12 LPPAATGMRL---ATASSSASRSYAAASPELRTGGLTSLPLQTRKGVALRLSVGGPPMDKEPLDLTEDNVQQALEESKEILGTMFGNSQENREIGITGDVQLVNLDGPFASVRLVGRFWHKRSDVLARVENYVKTRVPEIVEVSIEDPMQLDDNLPENQ 167

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A7S0DXW5_9CRYP (Hypothetical protein n=1 Tax=Hanusia phi TaxID=3032 RepID=A0A7S0DXW5_9CRYP)

HSP 1 Score: 123 bits (308), Expect = 3.250e-30
Identity = 59/104 (56.73%), Postives = 77/104 (74.04%), Query Frame = 2

Query:  332 PSMAQEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADPQGR 643
            P M +EPL LTEENV   L EAK+ LGT+FGN+ EN  +GITGD + + LDGP   VRL GRFWH+++ VLARV N+++ RIPE ++V IEDP QL+D  P+ +
Sbjct:   75 PPMDKEPLDLTEENVQNALEEAKEILGTMFGNSQENREIGITGDVKLINLDGPFATVRLVGRFWHKRADVLARVENYLKTRIPEIIEVSIEDPMQLDDNLPENQ 178

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A7S3T494_EMIHU (Hypothetical protein n=3 Tax=Emiliania huxleyi TaxID=2903 RepID=A0A7S3T494_EMIHU)

HSP 1 Score: 123 bits (308), Expect = 3.730e-30
Identity = 61/95 (64.21%), Postives = 78/95 (82.11%), Query Frame = 2

Query:  353 LILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDA-DP 634
            L+LTEENV  VL EA+++LGT+FG+N E+ AVGITG  + V LDGP+VV+RL+GRFWH ++ VL R+  FV +RIPEC+ VEIEDP+QLEDA DP
Sbjct:   71 LVLTEENVQAVLDEAERDLGTMFGSNPESAAVGITGRADLVELDGPTVVIRLSGRFWHARARVLERLEAFVLERIPECIGVEIEDPSQLEDALDP 165

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A7S3EXN2_9EUKA (Hypothetical protein n=1 Tax=Haptolina ericina TaxID=156174 RepID=A0A7S3EXN2_9EUKA)

HSP 1 Score: 123 bits (309), Expect = 4.600e-30
Identity = 69/113 (61.06%), Postives = 81/113 (71.68%), Query Frame = 2

Query:  302 PRAAAAAGRS-PSMAQ-EPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADP 634
            PRA A   RS P+M + E  +L EEN   VL E  QELGTLFG NAE+  VGITG   FV LDGP++VV L+GRFWHE+S V+ RV +FV +RIPECV VEI D AQL+D DP
Sbjct:   21 PRACATTARSRPAMMKPEERVLDEENAKAVLDECMQELGTLFGTNAESLQVGITGIVNFVELDGPTMVVSLSGRFWHERSRVIERVNSFVLERIPECVGVEIVDEAQLDDTDP 133

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: B7G9E5_PHATC (Predicted protein n=2 Tax=Phaeodactylum tricornutum TaxID=2850 RepID=B7G9E5_PHATC)

HSP 1 Score: 121 bits (304), Expect = 2.330e-29
Identity = 60/101 (59.41%), Postives = 77/101 (76.24%), Query Frame = 2

Query:  326 RSPSMAQEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDA 628
            RS    Q P  LTEE V+ VL+  + ELGTLFG +AEN  VGITG  ++V LDGPSV++ L GRFWH++++VL RVGN++Q+RIPE VDV++EDP QL DA
Sbjct:   98 RSADPIQVPAELTEETVLGVLSACRGELGTLFGYSAENRGVGITGGVDYVDLDGPSVILSLKGRFWHQRTAVLERVGNYLQQRIPEIVDVQVEDPWQLTDA 198

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A0G4GKJ3_VITBC (Uncharacterized protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4GKJ3_VITBC)

HSP 1 Score: 117 bits (293), Expect = 3.690e-28
Identity = 57/94 (60.64%), Postives = 70/94 (74.47%), Query Frame = 2

Query:  344 QEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLED 625
            ++ LILTEENV   L   +QEL  LFGN+ EN +VGITGD EF  LDGP V++RL GRFWH +++VL RV  F+  RIPEC+ VEIEDPA L+D
Sbjct:   73 EDQLILTEENVEKTLEACRQELSALFGNSEENRSVGITGDVEFAGLDGPLVILRLKGRFWHSRATVLERVTAFLLNRIPECLGVEIEDPAMLDD 166

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A0M0K0E4_9EUKA (WW domain-containing protein n=1 Tax=Chrysochromulina tobinii TaxID=1460289 RepID=A0A0M0K0E4_9EUKA)

HSP 1 Score: 117 bits (293), Expect = 5.730e-28
Identity = 58/98 (59.18%), Postives = 73/98 (74.49%), Query Frame = 2

Query:  341 AQEPLILTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADP 634
            A  P  LTEEN   VL E  ++LGTLFG+NAE+ AVGITG  +FV L+GP +V+ L+GRFWH++S V+ RV  +V  RIPECVDVEI D AQL+D +P
Sbjct:    4 APPPRELTEENARAVLQECMEDLGTLFGSNAESLAVGITGAADFVDLEGPILVISLSGRFWHQRSMVVERVKKYVMDRIPECVDVEIVDVAQLDDTNP 101

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BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Match: A0A7S3EC75_9RHOD (Hypothetical protein n=1 Tax=Rhodosorus marinus TaxID=101924 RepID=A0A7S3EC75_9RHOD)

HSP 1 Score: 115 bits (289), Expect = 7.800e-28
Identity = 58/91 (63.74%), Postives = 70/91 (76.92%), Query Frame = 2

Query:  359 LTEENVITVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHEKSSVLARVGNFVQKRIPECVDVEIEDPAQLEDAD 631
            L+EEN+  VL EAK ELGTLFGN+ EN  VGITGD     LDG +VV+RLTGRFWH++S V+ARV  ++Q RIPE  DV IED +QL+DAD
Sbjct:   50 LSEENINIVLEEAKIELGTLFGNSEENREVGITGDVSLAELDGVTVVLRLTGRFWHKRSDVVARVSQYLQNRIPEVCDVMIEDESQLDDAD 140

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig66.64.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5JIN5_9PHAE	9.410e-70	69.07	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
D7G2J7_ECTSI	1.330e-56	88.99	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
L1JDA8_GUITC	6.180e-31	47.80	Uncharacterized protein n=1 Tax=Guillardia theta (...	[more]
A0A7S0DXW5_9CRYP	3.250e-30	56.73	Hypothetical protein n=1 Tax=Hanusia phi TaxID=303...	[more]
A0A7S3T494_EMIHU	3.730e-30	64.21	Hypothetical protein n=3 Tax=Emiliania huxleyi Tax...	[more]
A0A7S3EXN2_9EUKA	4.600e-30	61.06	Hypothetical protein n=1 Tax=Haptolina ericina Tax...	[more]
B7G9E5_PHATC	2.330e-29	59.41	Predicted protein n=2 Tax=Phaeodactylum tricornutu...	[more]
A0A0G4GKJ3_VITBC	3.690e-28	60.64	Uncharacterized protein n=1 Tax=Vitrella brassicaf...	[more]
A0A0M0K0E4_9EUKA	5.730e-28	59.18	WW domain-containing protein n=1 Tax=Chrysochromul...	[more]
A0A7S3EC75_9RHOD	7.800e-28	63.74	Hypothetical protein n=1 Tax=Rhodosorus marinus Ta...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig66	contig	P-littoralis_Contig66:222424..235437 +

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.D7G2J7
Model size	1072
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	chloroplast
Exons	4
Evalue	6.26e-59
EggNOG OGs	2BCYA@1\|root,2S115@2759\|Eukaryota
Ec32 ortholog description	conserved unknown protein
Ec32 ortholog	Ec-11_002490.1
Cds size	585

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig66.64.1	prot_P-littoralis_Contig66.64.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig66 222503..235029 +

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


Feature Name	Unique Name	Species	Type	Position
1680791376.0229816-UTR-P-littoralis_Contig66:222423..222502	1680791376.0229816-UTR-P-littoralis_Contig66:222423..222502	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig66 222424..222502 +
1680791376.076003-UTR-P-littoralis_Contig66:235029..235437	1680791376.076003-UTR-P-littoralis_Contig66:235029..235437	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig66 235030..235437 +

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


Feature Name	Unique Name	Species	Type	Position
1680791376.034514-CDS-P-littoralis_Contig66:222502..222690	1680791376.034514-CDS-P-littoralis_Contig66:222502..222690	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig66 222503..222690 +
1680791376.0465336-CDS-P-littoralis_Contig66:226974..227101	1680791376.0465336-CDS-P-littoralis_Contig66:226974..227101	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig66 226975..227101 +
1680791376.056013-CDS-P-littoralis_Contig66:234451..234595	1680791376.056013-CDS-P-littoralis_Contig66:234451..234595	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig66 234452..234595 +
1680791376.0672507-CDS-P-littoralis_Contig66:234903..235029	1680791376.0672507-CDS-P-littoralis_Contig66:234903..235029	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig66 234904..235029 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig66:222424..235437+
coding sequence from alignment at P-littoralis_Contig66:222424..235437+

protein sequence of mRNA_P-littoralis_Contig66.64.1

>prot_P-littoralis_Contig66.64.1 ID=prot_P-littoralis_Contig66.64.1|Name=mRNA_P-littoralis_Contig66.64.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=195bp
MVLRTMAVAAAGVALFCSRGYSVSAFAFTAPLSPRATTMQRQQQACSMPS
TSSWYRRAKEQLRALDARPIRGRAPRAAAAAGRSPSMAQEPLILTEENVI
TVLAEAKQELGTLFGNNAENTAVGITGDCEFVCLDGPSVVVRLTGRFWHE
KSSVLARVGNFVQKRIPECVDVEIEDPAQLEDADPQGRGQGAEM*

mRNA from alignment at P-littoralis_Contig66:222424..235437+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig66.64.1 ID=mRNA_P-littoralis_Contig66.64.1|Name=mRNA_P-littoralis_Contig66.64.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=13014bp|location=Sequence derived from alignment at P-littoralis_Contig66:222424..235437+ (Pylaiella littoralis U1_48)
GGACTGTGGGCGGGCTGATGTACAGCTGATCTTCCTCTCCCTGTACCTGT
GAAGTGTGACGCGCTTACTGCTCTCAAGGATGGTCCTACGAACGATGGCA
GTGGCAGCAGCAGGGGTGGCTCTCTTCTGCAGTCGTGGATATTCCGTTTC
TGCGTTCGCTTTCACAGCACCTCTGTCACCACGTGCAACCACGATGCAAC
GGCAGCAACAGGCCTGCAGCATGCCCTCAACATCATCATGGTATAGACGA
GCGAAGGAGCAGCTCAGGTGTGTATTAGCTTTTATTGCGCTACGACTGGA
TTGCGCCCGCTAGCGTGCAATTACGACGGTCACGCCTGTTTCACGTGTCG
TCAGTATCGTTTGGCTACCGGTTCAGATTTCTACCAGCAGCATGTGTTTT
TTTTGCACCCATTTGCGGCGTAAAAAGCAAAGAGCGAGAATCATGCGCAT
TTCAAAATGGTCAACCTCCGCATGACAAGTGGAGTAACCAAGTTCGAAGT
ACTTCGCACACAGCAGTACTGCAGTACTACTGCTGCGTTGAACTGGCCCA
TCATCATGTGAGGGCTTGTTGTAACGGAAAAAGTGACACCCGGATTGGAA
AGCTAGTTGGAATTGGAATTGCTTTCTACGAGGCTAGCTTTCGCATCCCA
CGGGGTTGGCTTTTTCCTCAAAACAAGTCAGCCCTTCGACGGTTGGTTTT
TGGAATCCGACGATCGGAATTGGAATGGGAGTTGGGTACAAAGCAGTATG
AGAAACGAAAGACGGTTGAGGAAATGGCAAGAAAGGGCAAAATAAAAGAA
TTATGCAATGGCACAGATTCAACTTGGCGTTTTGACCAATCAGAGGCCTT
CTCTAAAAGATTCTACAAGTACTTAGCAGCACCAAATCACGCCTCATATT
CCTGCACCCAGCAGCCGGTCACACACGCACCTCACCGTTACACCAGAGTG
CGTGCCACACATCAAAAGGAGGGCTCGAATCTCATACCTACCACCGATCA
CGTGCTAGAGGGACAGATCCAGTCCCCTTGTCGTTCCCTTTCTTCGTGTC
GTTAGGAAGAAAACAGTCTCTACTCGTCGGTGTAGGACAAAAGTACGATC
GCCAACTCCACGCAACAAAAGACCAAGCAAATCATGTCTCATCGGTGCGA
CGAGTGCACAGCAGCAGACATACACTTCGTATCATATGATATGTAATTCC
AGGCTGTAACACACTGACTGCCGTTCGTTTTATTTTTATACCACGTGCGA
GCAATGACGTGTATCTTGGGTGACTCTCGCTGGATATATCATACTCAGTA
GTACATGATCCGCATTACAGCAGCAGCAGCAGCAGCAGCAGCAGCAAAAG
TAAGAGACAGACACGGGGAGTTAGCGTGAAAAAAAAAGACAAAAACGAGC
CAAACTTACATCTCAACACCAACAGCTCACGCTGTCTGTAAACAAAACAC
AAACAAGAGTTCTTCCAAGTCATCATGACGTTCCTCGAGACAAATGGAAT
TTTGGCACATATTCAATACTCAGACAGTTTCGGTCCGTCACACATACATG
CTACAGAACAGCACTGCGTAGCAAGCCTCATCTGCGAAGAAGGAGACACG
GAGAAGGTTAAGGTTTCAATAGAATTCTTGGGCTTCGCCCGCTAGTTTAA
TTGCATAAAAAAATGTGCCACTACATCAGTATTTTGCCGCAAGTTTCGTG
CACAGCATTACAGCAGTAATGTTTTCAACGAAAGTTACCGACAAAACGCA
CGCACGCAGCTAGCAGCGAGCAGCTGCTGCTGCCGCGGGCAGGCCTGTGG
GGTGCACCCACACACCCACACTCACACCCACAATACAAACACGCACGCGT
ACATACATACACACACGTCTGCTACATGCCGATGGCTGACATGAACCATG
AACTATAGTCAGCTGGCAGCAGATAGTTCCCCGTCTGCTGAGCACGGCGC
CTACCGTCGCTTGTCGGCGGACGCTATGATAGGGAATACGTGCGCGTGAA
TGCGTTCTACAGATAGTAGTATAGGCGGCGCTGGCGTTCAACCGTCTGCC
AACTGCTGTCAACCGCAGTTGCTTCGTTGGGGGTTTGCATGTATATCACA
TATCTGGAACGCAGACCAGCTACAACTGCCCCACCCAATCCGGGTGTCAC
ATTTTCCGTTAAAACGATATAGGTCTTTTTTTCATAAAAGCTTATAGTTC
TTTCCAATTTGGGCCTCCAATCCGGTTGTCACATTTTCCGTTAAACCGCC
CTGATACGATGTACTTCGAAGTACGAAGTTTTAGCACATGTACTTCGTAT
GACATCATATTTCGAAGTAGAGAACTGACGGTATCTAAGTGGTTCCCTTG
TTAACTACTGTAGTACTAGTAGTAAGGTCGCAGGTTCGATTCTCTCTGAG
AGCGTTTCTTGCGGCTTTTCAGTGGAAAGTGAGTTATTCGTGAGTAAATA
GAGGGAAGGGATTGCTGAACCCGACTCGCACTTAAAACAAAGGCAACTAC
TGAGGAGGAAAGGTGTAGGCAAAAAAAAAAAAACGTGTATGACCTTCCTT
CTGTGTGGCCCCGACTGGTGCACCCACCTCATGCCGAAAGGTGTAGACTG
GTACCCAGAATAATGGGATGACAACACATTAGATTTCAGGTCTGAGAGTT
TGAGTACCGTAGACCTTCCAGTAAACTCACTAATATGTCAATCCAGTTGC
GAAACAACGAAATTGTAATTGTACCACCAGAAATTGGAAATTGGATTGGG
CAAGTGAGAGCGTGAGAGTTCAGGTTATGAAAAATAAAAATAAAGCGGAA
CTAACAGCAGCATGTAGCAACAGACAGCCCGCATGAAACAAGCAGCAGTA
GCAGCAGCAGGACGTACAGCAGCAGGACCAGAGTACTCGTCAGCCTCCTG
TTTCCTTCGTCGTCATCTTTATTTAAGCGGAAAAATAACAAGAAGTTCGA
GCCAGGCTTACGTCCCTTTCCAGCCTCACTCCCTGCTGTGAGAATAACTT
CCGTTGCGGCTGTCGTACCCTACCATAAGGGCCTTGTTTCAGGTTGAGCT
CGTCGTGCGTAAGGCTATGTAGCAGCAGAGCAAGCAGTCGTGAGCCTCTC
TCGTATTCTTTCGCAACAAGAATAGCCAACGACGGTGCCATCCTCGCGTC
CCTGAACAACCTCATCTCCTACTCCGTCTCCGTATACAGCAGTATAGCAG
CGTTGCTTCCGGTGGTGTCATGCCGCCACAATGGCGTCTGAGTTACAGCT
CGTGCACAGCAGTGAGGGAGCCTTTTTCCTGCCGTGCTCAACATGTGGGG
GGAATGCTTCGCCTCGGAGGCAGGAGAGGTAGCGGTCTCCGTGTGGCTTG
GCCAATCGCTGCCACTCACCGCTCTGGTCCCAAATATAATTCGCAAGTTT
TTGAGATATTATTTTCTTCGGCTAGAGCTCTCAGATCTGTGAGTCAGGTA
TGTGATTTAACAAACACACCCACACATTTCACGGAATTCTCTGATGGCCG
TGGGCTTGGAAAGTTGGTTGGAATTGGGATTGCCTCTGACTGGCCAAAGC
ACATGAGGCCGGTTCACAGTTTTTTTTTATTTTTCTCACCCAAAGGGGTT
TTGGGGATTTTTTTTTTAATATATATACAAGTATTTGCTTAGGGCTCTGT
AGGAGTTTGTGTTGGGTCGCGTGGTCGATATTAAGTGTACGAGACACCGT
GCGTACGTCGGCGTCAAGAGTGTCTCTACATGGGCGCAAGTTGGAGGCAA
TTCGTGAAAAAAAGGGGGAAAGGGGTTCCGGGGAAAAGAGTTTTTTTTTT
CTGAATGGGGTTTAAAGCACCCGCAGAGCTCGCCTTTGCGTCGCGCGGTG
CTAGTTTTTTTCTTTTAAAAACTGTCGGGAGGCTGATTTTTGGAATTTGA
CCAATCGGAACAAGGAATTGTCGAGAGAACTGAAGGCGCGACCAAAAACT
GGGCACAGCTCTTCCGAAAGTACCGAAAACACGCACGCACGTGGATCTAA
AATGCGCTCACCAGCTTCACCGCACACACCCACTCACCGTCACATCCATA
ATATATTCATACCCACAACGAGATGGCTGACATGAGCCTTGGACTTACCA
CGTATGTCGCGTCATTCGGAACGCAGACGAGCTGCAAAAAGCCCAACCGA
CCTGAGTTACGTTAAACCGACATCAGTATTTTTCGCCAAAAAGCGAACGG
GATTGTCCAAATTGGGCCTTCAATCCGGGCGTCATCATTTTCGCTTTTAG
ATCCGGCCCAACGTGTGAGCAACAGCAGCAGGCAGTAGTGGAGCCACCGC
CGTGCCTGCCCTTCGAACACTCCATACTAGCGTGCGTGGGATTGTAGCAC
CGGCACGGCAGGATGCTCGAGGTCCTTCTTGTTCGCGTAACACCTTGTCG
CTCCTACCTCCTTCCTCGGTGGTGCTTTTGTCACATGTCACACCTGCTGT
ATGGTGCCGTACTGCTGTACCGCCGTGCGGGCCAAGGTGACTAGTTCTGC
CCCCCTGCCCCCCCCCCCCCACCTTTACAACTGGGTGTGCTCCCCACACA
GGGCGCTCGACGCGCGACCAATAAGGGGACGCGCGCCGCGAGCGGCTGCC
GCAGCTGGACGGAGCCCGTCGATGGCGCAGGAACCTCTCATTCTTACGGA
GGAGAACGTCATCACCGTGCTGGCCGAGGTGAAAGTCATTTACTTCACAG
GGTGGTGATGCAATAGTTTCGCCTCGTATATACGAAGTAACACAGCAGTA
AGTGAGTCTTTAAAGAAATGCCGACGAATATCGTCGGCGTCGCGATAGTC
TAAAGTGCTGCTTCGTGTTTTTTTCTTTCGACCGTAGAATAAGAAATGGA
AAGACGAGGGTGACGTGTTTTGACTTTCAGCCTCATGAGGTGAGAAGAAA
AGAAGCAGACGATAAATTGAGAGGCGTGAGCTCGCGAAGCATGAAAGCAT
GAGACGCACGGAACTATGAAACACTGCTGTCTGTCAAGAGAGAAACGGGT
CAAGACGTAATGAACGAAAACACCTCTTCGACGGTAATGAAAAGTCGAGC
GGAGTCAAATCACAAATTAACTCGCTAAGAAACCAACACCCGACATGCAA
GACAACGACAGTTTCAACACACGCAAGACCGGATGAATTTGTTCCACCGG
CAGGAAAAAACTGAGAAACAAAAAAACAGTTGCCAGGTGTGATATGATAG
GTACATACGCTCAGTCGCTCAAGAATCACAACGTCAAAATCGAGCAAAAA
TCGTCAATATCTCCGCTGAAATAGCCCTGCGGCCAAAGTCAATCATGGCG
TTGCTGACCGGAAAGGAACGCTAGAACAATCAGTGGACAGGCACAAACAG
CGCTGCAGAAGATGACACCGTCAGCAAGAAGAAAAACACAGAGCAGACCC
TGTCAACTTCTTCTATCGGAAGAACAAAAGAGGTACTGTACTAATATCGT
GGGCCCGAAACGATGGGAGTTGCAGAAGGACTGGGAGGCCTGAAGTCAAG
CGCGGGGCGGTTGGCCGAATCACCGGCAGAGCTAAATGTTGCGGAAGGAT
TGGAACTGGCTGTGGCTGAACTTGGAGTTGGCTCGTGGCCGTCCTTGAGG
GCTGTGGCGAAGTTGTTCATCACACCGACGTTGGTTGTAGGTTGTAGGTG
GCCGGAGTCGCAATGCGTAGCGACGTCTTCGGATGTACCAGCACATGCGA
GGTCGAGTGGTTCCAAGCGCGATCGAGGTTGTCGGACAAGGCGACGGCGC
CACCGGTGAGGCGTTCGTTCTCATGCCGTCGTCCTCTGGCACGTGATCTG
AGAGACGGCCATGCTAGAGCCTACTCCGAGGGCAACATGGTAGGAAATGG
CAAAATGAAAGAGTACTCAACTCCTAAGGTGGTCGAGTGCCATGTAGACC
ATCCCTGCTGTGGACGGTGGGAAACACATGTATCGGTAGACCTTGAGGAG
ATCGTGTCTGGGGCGTTGTCGCGAGTCCACGAAAGCAAGGCCCATCAGCA
TATTTGGTTGTGCGCAGCATCAGCGCAAGCGGGGCACAGAGTGTTCTCAG
GAATAGCGAGGTCGGAGACGGATCCGGAGGCGAAGACGTAGGTGGCGCGT
CGCTTGAACAAAGATGATGGGGAACTATTGGGGATGGTTGTGATGGTGCT
TCGTAGACTGGCGGAGTGATCCGGCGAGATGTGAAGCTGATCATGGTGGC
TGACGTAGTGGTTGGTGGAGTACCTGGAGTCGAGGCCAAGAACTCGACGG
GGGTGCAAGATAAGGGGGTGTTTGGTCATCGATGTTGCACGGCCAAGGGC
CGAAAGGGCGCTCAGGACGTCTTGCTGCGATCGCCTCAAAAACACTAGCG
ACAGCACCCATGCATCAAGCCCAGCCTGGGAGACCTGGTTCGTCGAAGAT
AGCGTCTCGTGCAAGGCGAAGAGAGTTCTTCGGGTCCTTCATATGGGAGA
AAAATTGGAAAGGACAAGTCGACAATATTAACACATCATCTGTCAAACAT
CCGTGGCAACTCGATCTACAGCAAATATACACTAACGAAACAGCGAATAC
AAATATGAGATACAGACAAGACAGGAAACACAAGTGAAAGGGAAAAAATG
GTCGATCCCCGAGACATCATGGCTGTTTCGACACAGACCTCCTAATATCG
ACAGCCTCCGTCAGGGGACCGGTTTTAGTGTGGCGCAACTCACTAAAATA
TCGGGGGAGAGAGCGGCACCGTCGAACATGCAGTTGCGCGAGAATGACAA
GGCGCCGAAGAACGCAGCGGCGACGGGGGTATGCGCTTCGTAAGGCGTTA
TGCACGGGCTACCCATCCCACCCGGCCAGTGCCAAGGTGGGCGAAGCGTT
GACGTGACGAAGCCGTTGTCGACGGCGTCTCGAAGGAGATGGGTAACTCC
CCTCGTGGCACCAGGGCCGTGTCGACCCGGATATGCTGCTTCCTGGTGCT
CCGGGACCGGCGACATCCATGGCGCCGAGGGAGGCCGACGCTGACCCCAG
CGTAAATAGTCAGGGTTGTCCTGGAATAGCTTGAGGGTTGCGTCGTCAAG
ACGGAGAAGGCAGTTAACGATGGCAACGATTTCCGCGCATTTTTTGTGCT
GGTTGAGATCTTCTTGGTCGATGGGGGAAGAGGAGGTCCGGGTTCTTCAG
GTCCAGTTTTAGCACCCTCGGGTTCGAGGGTCTTGACGTGGGACTTCCGG
TACTACCCAACATTGGCGTATCGCAAGAAGCAGCGGAAGGACGTGGACAA
CCTGTCCAGGGCATCTTCGCTTCCGCCGTTGGCTTCCCTGCCGAGACGCA
TGTGCGTCAGTCGCAGGCCATGCAGCTGTGTTCACCAAAAGAGAACAAAA
GTCGCGAGAGGGCACAACGTATTTGAAAAAACTAAACTAAAGACGGTTAA
ACGGCGGTAAGGTTGGGCAGCTTCCTGGGATTCTGCTCGACCTCCTGCTG
GAAAGCTCCCCTCGTCGATGCGGTTGAGGCGAGGGGGTGGTTAGAGAAGA
CGGTGCACGCAAAGAGGAAGGGAGGACGATGTCTTGTTCGTTATGGCGGA
AGGGGGCTGGTGGGTGGGTGGGAGGGTTCGTCTGTCTCTATCCGGGAGGG
CGTTGCTGTGATGGGGGGTCTGTCGCCAAGAGCCGCCCCTGAAGGTGGGT
AGGGTCCAGAACGGAGAATATTTGTAATATTTACTTGTAGTATGATAAAT
ACACGTGACGGTAAAAAACAAAAATAGAAAAGCAACTCAACAGCGGTGTC
CGTGAGAGAGAGAGAAAGAAAGAGAAAAAGGACATACAGAGAATGCTGTG
ATATACTGGAGAGGGGGTGTTATTCTACAGAAATTCCACGGTGTCCACCT
ATCCTTTTCGGTGCAGTGGGCAGTCGTTCCAGACCCATACAGTACAATTC
CGCTCAAGCATCCGCTTCTCAGCCAAAGATTCCTGGTTTTTGCGCAAGTT
TTGGTTCTTGAAAACGCAAAAGGACACCATTGGCAAGAGCCGTGTCATAT
GATACATCGGTCAGCGGTATGTAGATACGGCCATCGGCGCGCTTAAACGC
TGGGAACCTCTCATGGCCTCTTGCTGGCACAACACTGTCTCCTTTGACGT
CTACCTTCCACGAGTGATTTTACTCAAACAAACAACCCGTCGTCTGGGAA
AGAGACACACGACCACACAAAGCTGAGAGAGAGAGAGAGAGAGATCATGC
GCACAAAAAATGCCCATGGTGTGAATGATGATTATGGCACAAATCGGCGG
CACAAATCGGCGCGCCGGGGGGTAAAAACGTGCCTCTCGCGAACACGACC
AATCGAAAAGGGAAACGCGGGAACAACACGACAATATGAAGAAAGAGGGG
ATAAATGAAACAAGAGGAGACTAGTCTCTGTGTGGTCCCAGAACAAAACA
AAGGTGGAAAGGTGAGAAAGACACATCTGGAACAACACATCCACATGTGG
CGAAGAACGATGCTCGCGCACCACCGAGTCACTCGACATCTCCACAAGCA
TCGGCCAACACCCACAGCGTTGTGTAGGTATGTCATGGGTCTCTGCAAGC
TATGCTACTGTAGAACCAACACCTTACACACAGGGAGTTGGTATCATACT
TGCTGTAGCTTAACTACTTCGAAGTACTACTTAATCAAACAATTAACCAA
CAGATCCAAAGATCACAGCCGCCACCCACAGCAGAGTACAGCAGTATAGA
CACGGAAATGGCCCTACAGAGCGTTGGCGCTATCTCACTGTCTATGGCGC
TCCTTCTGTGTGAGATGGAAAGACCGAAAACTCGCTTGCTCGGGGTTGAC
GCATCGATGCCCAGCCGGAGGTATAGGCGAACATACAAATCGCACACGCG
ACACATCTTCACCACCACAGATGCATAGCCATAAGCAGGCACTCGCGAAC
TCCAACAAGCACAGACGCGCAACCTATGCCTTTTGGGCTGGTTTGGCAGC
AGACGGGATGGCCACTAGTGTCGGCTTACGGCTGCGCATAGCAGCAGCTT
GAGTGGAAACGAAAAATGGGCGTGTGTAGCGGAGATCAACCGTATCGGTG
TGACCATGTCAAACAATTGGTATGGCTTAGGCTACATCTTGTGTGTCAAA
AACGTCGTTATTTTGAAGGATACGATATTGTGTGTCAATACCGAACAGCA
GGTGGTTTCTATGTTTTCTTCCGAAAAAAATGTTCCTCCTGTTCTTTCGG
CTGGGGCGGTTTGATGGTTGACAACTTGACACTAATTTTGCACTGCTGTA
ACCGGTTCGCTCTTTCGTCCACCACTCTCGAACGAATGAAGCCACAGTAA
TGGTAAGGACATGCCTCGCGAGCTGGGTATATGGTCCTTCTTCTCCCGTG
GTCACCTAAGACCGCGAGGTATCGATTGACGAGCGAAAAAAGGTTGCAGG
CATCACCGATGACGTGTGAAGAAATGAAAAAAAATCGATGCAGCTCACCA
CCAGCAAGGTGGTGTGGTGATTTTTTCTTTTTTCTACTGGTCATCATCGA
TTCCTTCAATCGTTCTATGCTGGCCTATCGATGCCTCGCTGCTTCAGAGG
ACCACCGTGGGAGAGAGACCATGTTCACAGCTCGCGAGGCATGGCTTTAC
CATTGCTGTGGCTTTATTCGTTCGAGAGCGATCAACAATAAACCAAACTG
TTGTGGCGGCAAAAGTACCTGCTACTGTGTTGAAGAGTCCAGAGGACAGC
AGCAGCAGCATCAGGTAGCTGCCAGCTCTCGTCCGATCCATTTTGGGTTT
TGGTCCTTTGCTCTCGAACGAAAGAACCCACAGCAATACTAAAGCCATCG
GCAGTGAGGCGTATGTATGTTCCTTCTCCTGCGTCGGTCATCAGAGGCCG
CGAGGAATCGATGGGCTACCAAAACAAAGTTTGCAGGTCATATCATCATG
CAAGGCTGACTCTGACGTGGGGTGTTCAACCAAAAAAAAACAGGTTTCCG
ACAGCTGCAGGCTATCAAAAAAATATTTTCTGATCGTTCGGGGCTATCGG
AAAAAGTTATCCGAAAAGTCGCTGTCTAAAATGGCTGTTTCTGATCACGT
AAGATGGTCCATTTCGGACCAGTATTCAAAACAGCCAAAAAAATGGACGG
TTTTGACATACAAGATGTAGCCTTACGGTACGGATTTGGTTACAGGATAC
GTATGGAGATCTAGCAAATAATTCATGCGGCTTTGATCACAAGCTGGCTC
AGTTGAAGACCTCAAACTTAGTCAGCAGCGTTTTCTCACATGCTGTTTTT
TCGAGTGAGACCCTGAAGATAATTTGAACGCGTGTACCATGGCCCACGCG
TAGCTAGCCCCGATCGTGTTTTTTTATTTTTCGACAGATATGATATCTGA
AAAAAGAAAAAAGATGATTTTCGGGTCTGTCTGAGTCGACTAGTATCCCA
GATACCTTCCAGATACCGGTACCTGTCAAAAAGAAAACGGTCGGAGACAG
TTGCGTAGTGGCCCATCGTACACGCGTGCATATTTTTAGGTTCTACCTCG
AAAAATCGCACGAAAAAACTCAGTTCAGTTTGGGCAAGTACTGAAAGCTA
AAAACACTCCCTAAAGTACCTACTTTGGGTTTCATACATGATCCGCTCGC
TTGGGACACTCTTACCCTATAACTTGCCAAAATACGTCAATGCGTGGATT
TGACACGAAAAATTTGTTTGAACACCTGCCTTGGATCCTAAGTGACCGAC
TGCGTATTTGTTTTTTCAATATTTTTCTTTAAATACGTTCGGCGTTTGAT
GTTTCGAAGCGGAACACATTTTCGCCACTGCTGTAAAGCGCCATCACTAG
AGCCTTCTACAAAAACCCAGGAGTGGCATGGTCTTCTGCCATTGACAGCG
GTCAGTTTTTGGTCCGTTTTTGTAATAATCGGTAATTCATTGCGTTCAGG
CTCGTCTGCATACTAAATTTGGGGTTTTCAACCGGAACCAGCGTGTACGG
AAATTTGAGACGCAACATATTCGGCATGAAGTAAATAAATCTGAGACGTT
TTTTTTTCATTGAGGAAAAGAAAGCCCAGTCTCCTGGCGGAGCTGACCTC
CTAGCGAAGCTCGGGGGAATATCGATACTCTGTACCACCACCCCCCGCGT
GATTTGCTTCGCCTGCGGCCGTGAAATACCGCTGGCATGCACCAGCTAGT
GGTAGTGACACGTCAGGTCACGAGTAGGCATTCAGGGTAGATTACTTGTA
GCAATCTCCCCCTTTTCCGTCCTTCGGAAAAGCAAAAGGGACGGTGGGCG
GGAGAAAAACTACAGAAGGCTGCTAGCCTCTCGTGGAAGAGGAGAGTGTA
CGCGTTAGATGCCACCCACGCCCCCGCAGAAACATCACGCCGACTGATAA
CTTTCAGTGGCACACGAACGTAGTCGGCGGAGGGCGGGGTTTGGAGCGGG
CTGTATACGATGGCGACAAGCTCATGTCCAAAACCCAGAGCCCCGATCAC
GTTTCACGAACCGGTGGAGATTCAAGCTGTGGGCACTCTGTCGTTTCGGC
AACAGCTTCGAGGTCGGAGACCCTCCCTTTCGAGTTTTTTTCCTTGACGT
CGTTTCTCCGAGGACTGAATCAGTTTGCCGTGTACGTGCCCTGATGCGTA
TCGCATTTTGCCAAAATTGTCCCAACAAAGCGCCATCTTTAGCAACGTTT
TTTTTTCTTTTCCGCACACACTCCTCGATCCTCACTTCGCCAGGGGAGAA
TGCTAAGGGGCGTTGTGCTCGTCAGAGACGTTACTTGACCACGCTAATCT
CTCCGTATCACTCTCTTCTCTCTGTGTGCCTCTCCCACTCTCTCTCTCTC
TCTTCACCACTCAGTGATAATGTAGAAATCACAACGTCTGAGTACATAGT
TCCCCACAGGTATCCAACGCAGTACGGCAAGCCGCACCACCTGGAATTGT
GATGATGTGATAGCTTCCAGGGTCTTGCGGGAGGTGCTTGTTGCATAATT
GCCTCTCATATTAAACTCGCCTCTGGTACATGCAGGTATGTAAAGTCAGA
CCCTCGACACTTTCGTTGAACTGAGCAGGCGAAGCAGGAGCTGGGCACGT
TGTTCGGGAACAACGCAGAGAATACCGCGGTTGGCATCACGGGCGACTGC
GAATTCGTCTGCCTAGACGGGCCGAGCGTGGTGGTCCGTCTGACGGGAAG
ATTTTGGCACGAGAAGAGCTCGGTAAGCGAGGGGGGGGGGGGGGCAGAAA
CGCACCTGGTGTGCGCAGACAGAGAGAAACACAAACCATCGAGCAAGGCC
AAATATGGTTTCGTCTGCTGTGCGGGTTGCGCATAGCGTGCGTGTGTGTG
TGCGTGTGTGTTTGTGTGTTTGTTTGTGTGTGTGCTCCATCATACCGCGA
TTTCCAACTCCGATGCCGTGCAGTACGGCAGCCGAAACGACTGATCTGAC
CTCTCTTGGCTTTGCCGTGCGTCGCGTCTCACCCGCCTCTTGCCGTTTCG
ATTGCTGTTGTTACGATGGCCAACAACCAGGTCCTTGCTCGCGTGGGCAA
CTTCGTGCAAAAGCGCATCCCTGAGTGCGTCGACGTCGAGATTGAAGACC
CTGCGCAGCTGGAGGACGCAGACCCTCAAGGACGCGGACAAGGCGCCGAG
ATGTAGAGGATACCTAATTAGATAGGATAGATAAAATATGGATACGGAGA
GCCCGCTCTACGATTTTACGTACATAATCATCGCAAATGCAAGCCAGATT
TTTTTTTGTCGCATATACGGGATGAATCAGAAGCATGAATGGCTGGACGA
GATCGCCGTTCGTCTCGTTCCCCACCACGGAACGATCGAGAACCTTTTTT
CTCCTGTCCTGCGTACATACATACTGCATACGTCTTTTCACAGCTTGTTT
ACGCCTCTTTGCCTTGGTGGTGGGTGGCTGAAGAAGCCGTGACATGCAGT
CTTCTCTGGTGACATACTTCGAAGAACTACGCAGAGGGTCAACGGGTAGG
ATACCTTGGGAGAGGCATGTATGTCTTCTGAAATTTACATTCAGTTAAAA
GTTATCTCAAGCTG

Coding sequence (CDS) from alignment at P-littoralis_Contig66:222424..235437+

>mRNA_P-littoralis_Contig66.64.1 ID=mRNA_P-littoralis_Contig66.64.1|Name=mRNA_P-littoralis_Contig66.64.1|organism=Pylaiella littoralis U1_48|type=CDS|length=585bp|location=Sequence derived from alignment at P-littoralis_Contig66:222424..235437+ (Pylaiella littoralis U1_48)
ATGGTCCTACGAACGATGGCAGTGGCAGCAGCAGGGGTGGCTCTCTTCTG
CAGTCGTGGATATTCCGTTTCTGCGTTCGCTTTCACAGCACCTCTGTCAC
CACGTGCAACCACGATGCAACGGCAGCAACAGGCCTGCAGCATGCCCTCA
ACATCATCATGGTATAGACGAGCGAAGGAGCAGCTCAGGGCGCTCGACGC
GCGACCAATAAGGGGACGCGCGCCGCGAGCGGCTGCCGCAGCTGGACGGA
GCCCGTCGATGGCGCAGGAACCTCTCATTCTTACGGAGGAGAACGTCATC
ACCGTGCTGGCCGAGGCGAAGCAGGAGCTGGGCACGTTGTTCGGGAACAA
CGCAGAGAATACCGCGGTTGGCATCACGGGCGACTGCGAATTCGTCTGCC
TAGACGGGCCGAGCGTGGTGGTCCGTCTGACGGGAAGATTTTGGCACGAG
AAGAGCTCGGTCCTTGCTCGCGTGGGCAACTTCGTGCAAAAGCGCATCCC
TGAGTGCGTCGACGTCGAGATTGAAGACCCTGCGCAGCTGGAGGACGCAG
ACCCTCAAGGACGCGGACAAGGCGCCGAGATGTAG