mRNA_P-littoralis_Contig120.14.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig120.14.2
Unique Name	mRNA_P-littoralis_Contig120.14.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: D7G7H7_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G7H7_ECTSI)

HSP 1 Score: 186 bits (473), Expect = 1.210e-48
Identity = 92/98 (93.88%), Postives = 96/98 (97.96%), Query Frame = 3

Query:  582 EDDSHVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIRVASTGMLPP 875
            EDDS+VSW+DIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSY+ARLKMRDQIVAFNYLVDQQV LIRV STGM+PP
Sbjct:   74 EDDSNVSWNDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYHARLKMRDQIVAFNYLVDQQVYLIRVTSTGMMPP 171

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: A0A6H5LJM5_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5LJM5_9PHAE)

HSP 1 Score: 186 bits (473), Expect = 3.310e-46
Identity = 92/98 (93.88%), Postives = 96/98 (97.96%), Query Frame = 3

Query:  582 EDDSHVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIRVASTGMLPP 875
            EDDS+VSW+DIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSY+ARLKMRDQIVAFNYLVDQQV LIRV STGM+PP
Sbjct:   75 EDDSNVSWNDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYHARLKMRDQIVAFNYLVDQQVYLIRVTSTGMMPP 172

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: A0A7S2UUZ3_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UUZ3_9STRA)

HSP 1 Score: 140 bits (354), Expect = 1.420e-33
Identity = 65/93 (69.89%), Postives = 83/93 (89.25%), Query Frame = 3

Query:  594 HVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIRVASTGMLP 872
            ++SW+DIK VQ LIERCLQ++MTQ EII ALQV+ANVDPSFTCLVWQKLE+QNPEFF++Y+ RL+++DQIVAFNYLV+QQ+ L+  A  G++P
Sbjct:   17 NISWNDIKMVQALIERCLQQYMTQPEIITALQVQANVDPSFTCLVWQKLEEQNPEFFYTYSIRLRLKDQIVAFNYLVNQQLELMHKAPGGVVP 109

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: A0A7S3ZKS9_9STRA (Hypothetical protein n=2 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S3ZKS9_9STRA)

HSP 1 Score: 124 bits (312), Expect = 7.430e-30
Identity = 54/83 (65.06%), Postives = 72/83 (86.75%), Query Frame = 3

Query:  600 SWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIR 848
            +W+ +KSVQNLIERCL ++MTQ E+IA LQV+A+VDP+ TCLVW KLE+ NP+FF SY+ RLK++DQ+VAFNYLV+QQ  L++
Sbjct:   11 TWTQVKSVQNLIERCLNQYMTQAEVIATLQVQADVDPALTCLVWSKLEEANPDFFLSYDVRLKLKDQVVAFNYLVEQQTRLLQ 93

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: A0A835YZS3_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YZS3_9STRA)

HSP 1 Score: 124 bits (310), Expect = 1.680e-27
Identity = 54/84 (64.29%), Postives = 72/84 (85.71%), Query Frame = 3

Query:  597 VSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIR 848
            V W DIK VQ LIERCL +FMTQ++++A L  +AN+DPSFTCLVWQKLE+QNPEFF++Y  R+ MRDQI++FNYLV++Q+ L++
Sbjct:   30 VKWDDIKMVQTLIERCLNQFMTQSQVVATLVQQANIDPSFTCLVWQKLEEQNPEFFYTYGVRVTMRDQILSFNYLVERQLELMQ 113

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: A0A1W0A900_9STRA (Uncharacterized protein n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1W0A900_9STRA)

HSP 1 Score: 111 bits (277), Expect = 1.090e-24
Identity = 52/86 (60.47%), Postives = 68/86 (79.07%), Query Frame = 3

Query:  576 AEEDDSHVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQ 833
            A +D +  SW++I  VQNLIERCLQ+ M+Q +II ALQ +AN+DP+FT  VWQKLE+QNP FF++Y   LK++DQI+ FNYLV QQ
Sbjct:   10 AGKDGATFSWNEILRVQNLIERCLQQCMSQEDIIVALQNQANIDPNFTRTVWQKLEEQNPSFFYAYTTHLKLKDQILMFNYLVSQQ 95

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: W4FQM2_9STRA (Uncharacterized protein n=1 Tax=Aphanomyces astaci TaxID=112090 RepID=W4FQM2_9STRA)

HSP 1 Score: 110 bits (274), Expect = 1.310e-24
Identity = 51/91 (56.04%), Postives = 66/91 (72.53%), Query Frame = 3

Query:  591 SHVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIRVASTG 863
            S +SW++I  VQNLIERCLQ+ M+Q +II ALQ +ANVDP FTC VWQKLE+QNP FF +Y   L +++QI+ FNYLV    C++     G
Sbjct:   26 SALSWNEILRVQNLIERCLQQSMSQADIINALQAQANVDPHFTCTVWQKLEEQNPSFFEAYTLHLTLKEQILTFNYLVRGDSCVVYSTDVG 116

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: W4FSG8_9STRA (Uncharacterized protein n=4 Tax=Aphanomyces astaci TaxID=112090 RepID=W4FSG8_9STRA)

HSP 1 Score: 110 bits (275), Expect = 3.520e-24
Identity = 51/81 (62.96%), Postives = 64/81 (79.01%), Query Frame = 3

Query:  591 SHVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQ 833
            S +SW++I  VQNLIERCLQ+ M+Q +II ALQ +ANVDP FTC VWQKLE+QNP FF +Y   L +++QI+ FNYLV QQ
Sbjct:   26 SALSWNEILRVQNLIERCLQQSMSQADIINALQAQANVDPHFTCTVWQKLEEQNPSFFEAYTLHLTLKEQILTFNYLVSQQ 106

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: A0A067BEL9_SAPPC (Uncharacterized protein n=2 Tax=Saprolegnia parasitica (strain CBS 223.65) TaxID=695850 RepID=A0A067BEL9_SAPPC)

HSP 1 Score: 110 bits (274), Expect = 4.270e-24
Identity = 50/78 (64.10%), Postives = 66/78 (84.62%), Query Frame = 3

Query:  600 SWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQ 833
            +W++I  VQNLIERCLQ+ M+QT+II+ LQ +ANVDP+FT  VWQKLE+QNP FF +Y A L++++QI+AFNYLV QQ
Sbjct:   20 NWNEILRVQNLIERCLQQCMSQTDIISTLQTQANVDPTFTRTVWQKLEEQNPSFFHAYTAHLQLKEQILAFNYLVAQQ 97

[Close]

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Match: T0QIE9_SAPDV (Uncharacterized protein (Fragment) n=1 Tax=Saprolegnia diclina (strain VS20) TaxID=1156394 RepID=T0QIE9_SAPDV)

HSP 1 Score: 109 bits (272), Expect = 8.160e-24
Identity = 50/78 (64.10%), Postives = 65/78 (83.33%), Query Frame = 3

Query:  600 SWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVDPSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQ 833
            +W++I  VQNLIERCLQ+ M+Q +IIA LQ +ANVDP+FT  VWQKLE+QNP FF +Y A L++++QI+AFNYLV QQ
Sbjct:   18 NWNEILRVQNLIERCLQQCMSQADIIATLQTQANVDPTFTRTVWQKLEEQNPSFFHAYTAHLQLKEQILAFNYLVAQQ 95

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig120.14.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G7H7_ECTSI	1.210e-48	93.88	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A6H5LJM5_9PHAE	3.310e-46	93.88	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A7S2UUZ3_9STRA	1.420e-33	69.89	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S3ZKS9_9STRA	7.430e-30	65.06	Hypothetical protein n=2 Tax=Pelagomonas calceolat...	[more]
A0A835YZS3_9STRA	1.680e-27	64.29	Uncharacterized protein n=1 Tax=Tribonema minus Ta...	[more]
A0A1W0A900_9STRA	1.090e-24	60.47	Uncharacterized protein n=1 Tax=Thraustotheca clav...	[more]
W4FQM2_9STRA	1.310e-24	56.04	Uncharacterized protein n=1 Tax=Aphanomyces astaci...	[more]
W4FSG8_9STRA	3.520e-24	62.96	Uncharacterized protein n=4 Tax=Aphanomyces astaci...	[more]
A0A067BEL9_SAPPC	4.270e-24	64.10	Uncharacterized protein n=2 Tax=Saprolegnia parasi...	[more]
T0QIE9_SAPDV	8.160e-24	64.10	Uncharacterized protein (Fragment) n=1 Tax=Saprole...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig120	contig	P-littoralis_Contig120:106800..125421 +

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.D7G7H7
PFAMs	A_thal_3526
Model size	3700
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	6
Evalue	8.73e-51
EggNOG OGs	28IH3@1\|root,2QQTW@2759\|Eukaryota
Ec32 ortholog description	Conserved hypothetical protein CHP01589, plant
Ec32 ortholog	Ec-02_000320.1
Description	Plant protein 1589 of unknown function (A_thal_3526)
Cds size	1980
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig120.14.2	prot_P-littoralis_Contig120.14.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig120 107057..123958 +

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


Feature Name	Unique Name	Species	Type	Position
1680789514.8413882-UTR-P-littoralis_Contig120:106799..107056	1680789514.8413882-UTR-P-littoralis_Contig120:106799..107056	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig120 106800..107056 +
1680789514.911391-UTR-P-littoralis_Contig120:123958..125421	1680789514.911391-UTR-P-littoralis_Contig120:123958..125421	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig120 123959..125421 +

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


Feature Name	Unique Name	Species	Type	Position
1680789514.8557205-CDS-P-littoralis_Contig120:107056..107488	1680789514.8557205-CDS-P-littoralis_Contig120:107056..107488	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig120 107057..107488 +
1680789514.8637967-CDS-P-littoralis_Contig120:110257..110317	1680789514.8637967-CDS-P-littoralis_Contig120:110257..110317	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig120 110258..110317 +
1680789514.871911-CDS-P-littoralis_Contig120:110637..110721	1680789514.871911-CDS-P-littoralis_Contig120:110637..110721	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig120 110638..110721 +
1680789514.8801885-CDS-P-littoralis_Contig120:112081..112331	1680789514.8801885-CDS-P-littoralis_Contig120:112081..112331	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig120 112082..112331 +
1680789514.8893168-CDS-P-littoralis_Contig120:122307..123219	1680789514.8893168-CDS-P-littoralis_Contig120:122307..123219	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig120 122308..123219 +
1680789514.8984377-CDS-P-littoralis_Contig120:123716..123958	1680789514.8984377-CDS-P-littoralis_Contig120:123716..123958	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig120 123717..123958 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig120:106800..125421+
coding sequence from alignment at P-littoralis_Contig120:106800..125421+

protein sequence of mRNA_P-littoralis_Contig120.14.2

>prot_P-littoralis_Contig120.14.2 ID=prot_P-littoralis_Contig120.14.2|Name=mRNA_P-littoralis_Contig120.14.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=660bp
MEVVAPSQGPGDVPPPAAPQPTPPGIPAAAAAAATNNPPASNENQNQSTT
NGLGAVGEQNDSSSAAASVAAAAASTASSYAAAGGGGGVAPSAVASTAPP
SAPAEKAEEDDSHVSWSDIKSVQNLIERCLQKFMTQTEIIAALQVEANVD
PSFTCLVWQKLEQQNPEFFFSYNARLKMRDQIVAFNYLVDQQVCLIRVAS
TGMLPPGMPPPGMPPPGMPPPGMPPGMPPPGMPPPGMPPPGMQPGMIPHH
PLAHQQHPGFPHGVPVSGGVPGGLPGNHGAPPFQRPEIPPPAMPQAVSAP
LPIPVAPPQPLAATASVFSTPLDACDDSDGAPTAPVPMSGSCAILESSTT
PLPSVPMSDGLASSPSPAPTPLPTLSPAPPAAAACAAAAADAAATAAAVS
AAATAAAATVSHPPSAALPVVDGVLLPPSSSVGPGVTSDVAATAATPEAS
AAAKAAMAATPIAPITAVTSVPPLTSPVTAAAATTATTTAGADAAATAAA
AVAGAAGAGASVGEHGLLQSAAAVAEVSVEAAAGQRGVLHEGMMTTAAIE
AAATAAVEAGAAAAVAGFEPMAEEGGGGHVTISGDTIGGTGGIDGRGGVA
DPAASVAHSDIAAASATRFLPLAGGDKATTPNDDPMEVVDAGGGKAEAGR
AGLIDVFKS*

mRNA from alignment at P-littoralis_Contig120:106800..125421+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig120.14.2 ID=mRNA_P-littoralis_Contig120.14.2|Name=mRNA_P-littoralis_Contig120.14.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=18622bp|location=Sequence derived from alignment at P-littoralis_Contig120:106800..125421+ (Pylaiella littoralis U1_48)
AGCCCCGTTGACCGGAGAACAATATACCAGGGTGCGGGTGGCAGCGAGAG
GCTGGGCTACACCAAGACATTCGTCTCCCTCGCGTGCTTTAGATTTGCAA
GAGAGAGGGGGCCTCTCTGTGTGTGATACTTTTGTGGAAACAGGCCTTGA
CGTAAATACCCAACAACCCGGGGGTGCAGAAGGCAACACCAGCAGCAGGA
GAGCGGGGCCTTTCTCTCGGTGCACCGAGTACGGGCTGTTCGAACCAGTA
GCTAGCTATGGAGGTCGTTGCCCCTTCGCAAGGTCCTGGAGACGTTCCGC
CACCAGCAGCACCACAGCCAACGCCGCCTGGAATCCCAGCTGCTGCTGCT
GCAGCTGCTACTAATAATCCGCCAGCGTCGAATGAAAACCAAAACCAATC
CACCACGAATGGGTTAGGTGCCGTTGGGGAGCAGAACGACAGCAGCTCCG
CCGCTGCCTCTGTCGCCGCTGCGGCTGCCTCTACTGCTTCTTCTTACGCA
GCCGCTGGTGGCGGTGGTGGCGTTGCACCGTCGGCTGTTGCTAGTACTGC
TCCTCCTTCGGCCCCGGCAGAGAAAGCGGAGGAAGACGACTCACATGTCT
CGTGGAGTGACATCAAGAGCGTGCAGAACCTGATCGAGCGGTGTCTTCAG
AAGTTCATGACCCAAACGGAGATCATCGCGGCTCTGCAGGCAAGCCCTTC
GTACCATGCCATCTTGTGTGTGCTTCGTCTTGATTGCAGGTTCAAATAGA
GCGGTACATACAGTAAGAGACCGTTGTTGTTGCTGGACACGTACTATGTC
ATATGATATGGCATGATATCATACGCAGGGAAGAAAGATGAGATACCACC
CCCCCCGGCTATTTTACGTAAGCCGTTTTTTCAATTTCTGCTCCTGTACT
TGTAAGATGCTACCGGTACAAGTACTTATGCTGTGTATCATCAAGTACTG
CTGTACTGCTGTGTCGTGTCGTATACTTCGGAAAGGACAAGGGAGCCACG
GGAAAATAGAAGTATACCGTACTAAGGTACAAAGCACAGAGTGCGCACAA
CCCGTGAGATATCATACAGCAAAAAATGATACAAGTACTTGGTTGGAAAT
ATTATCACGGGGGTGCGGTATCGTGAGCAACCTGCATCTGCATACAGTAG
GTCACTTCCTGGAGAAAAGTAGCGGTCCCGGAAACGAAGAGAGGGTAGGG
TTGTGTGTTGCCATCCCATTCATTCTGGACGCCAGTCTACACCTTTCGGT
ATGTACATGGGGCGCACCGGCCGGGGTTGGTCACACAGGAGGAAAGTCAA
CGGGAGAGGCGATTCAATACAGTTAGGTTTGTGTCCTAAAGGTCGTTATT
AGCCTACGATAGATATGGATCACTACAAAAGCGATCGGCACCAGCCACTT
TGGTTCTGGTTTCGTTCTACTGAAGGTCGGTTCCTTTTTCTGGTTCTCTT
GCTGTGCGCACAGCCGGCACAGCAGCAGCACCACATGGGCACACAGCAGC
GCACGGCAGTAGTACACAGGCAGGGAGGAAGTAGCCTCCCTCCTGTCATT
CCAGCAGCGCAGAGAGCAGCAGCAGCAGCAGAGTAGCAGCAGCGGGCCAG
AGATCAGAGCCCTTGGTTGCTGGCAGAACTGACAGAGCGAGCCAAATGAG
TGGAAGAGGAAGACAGCAGCAGGAGTTACCACCATTTTTGATAGCGACAC
AGCAGTCCAGTGATGTACAACGAAGAGCAGCGAAGGCGTATCACATCTGT
ATCATATGACTATAATAACATGCACTCAGGATAGACTGCTGATGACTACG
TCACATCTCGAAGCATATACTTAGTATGTGAGCCAGAAAATGTTGCGCCC
GTTAGGATTTTCCAGTCCAAGGCACGTCGCAACAGCATCGGCAGATTGTA
TGCTGTGAGGGTGTAATCGGCGATAAAGGCGTACCAGTAGTCCCAGCAGT
ATGTCGCAGCAGCCGAACCAGAGGCAATGCACCTCATGTACACTGTTGGT
ATTGTTGTGAGCGGCGGCTTGTGTGAGGACTACCACCGGTGACAAAGAGT
CATGACCACGAATGGTGTTTCGATCACAAGTTTGCAAAGTAAGGAGGGGC
TCAGAGTTCCGTGACGGGTACCCATCGCCAACTTTTGTCGATATAAAAAA
AAAAAACGTGTGTAAATCAAGCCATAAATGCCTGTCCATGGCTTCCCGTG
GTATTTTGTGCGGTATTTCTACCCTCGGCCACTGCTGTGTGTGGCAGAGC
CTGCTATGGGTCGGCCACGAGAAAGTAATGATCTCCCAGAGCCTGCCTCC
ATGACGATATAATACATTACTTCTGCGGTGAATACCGTCAACCCGCTGTT
ATATCCCTTGTACCACGTACCTCGTGTACGAAGTATATTCTTCATGATAC
CACCACGGATGTGTACCCGAGTTATTATGTTGTTACTCGACAGAGCTCGG
AAAGTTTTCAATGTGAAGGCGACACGCACACCTTGATTTACACTTTTCCC
CCCTATCGGATGAGTTTGCAGTACACAGCAGTACGGAGATCAGGAGGTGC
CAAACAGAGATCGGAAATATTTCCACGTGAAGACGACACACACACCCCGA
TTTAAACGTTGTCCCCCTATCGGATGAGTTTGCAGTACATGGCACTACGG
AGATTAGGAGAGATTAGGAGGTACTACCGGAAAGCAGAGCTCGGAAAGTT
TTTCGTGAAGACGACACACACACACTTTGATTTACACTTTGCCCCCCTAT
CGGATGAGTTTGCAGTACACAGCAGTACGGAGATCAGGTGGTGCTAAACA
GAAATCGGAAATATTTCCATGTGAAGACGACACACACACCTCGATTCAAA
CGTTGTCCCCCTATCGGATGAGTTTGCAGTACATAGCACAACGGAGATGA
GGAGGTACTACCGGAAAGCAGAGATCGGAAAGTTTTTAATGTGAAGACGA
CAACGCACACTTTGATTGACACGTTGTCCCCCTATTGGATGAGTTAGCAG
TACACAGCAGCACGGAGATAGGGAGGGACTAACAGAGATCGGAAATGTTT
TCATGTGAAGACGAGACACACCTCGATTTACATGTGGTCCCCCTATCGCA
TGAGTTAGCAGTACACAGCAGTACGGAGATATGGAGGCACTAAAGAGAGC
TCGGAATACTTTTCATGTGATGAGAGGACACACACACTCGATTTTCACGT
TTTCGAAAGGATTCTTTTTAGTTTGACGCCGTGATGACAATAATGGTCTG
ATCGAGTAGAGAATGAAGTTCGCCCGCTTCTCTTCCGTGGTGTTGGATAC
TTCGAAGTACAAACAATTTTCAACACAGACAGTCGGGCTGTACGATGCTG
GATTATACTGTTTTTTATGTGTTGAAAGCACAAGGGCTTGTCTGTTTTTG
TCACGCAATCAACCTTTGCTCATCCCAATTAAACTGTTTATGACGGCGAC
GGCGGCAGGTGGAGGCAAATGTGGACCCTTCGTTTACGTGCTTGGTCTGG
CAGAAGCTTGAACAGCAGGTGAAGAGGGAAATCTGTGGGGCGGGCCGGGG
GAAGGCGGCTTGGTGTCGAAACCCTTGTATTTTTGTTTTAACACATGTTC
TTCTCGATGTCTTCGCTTCTTTCCATTTGTTTCTTGTGTTTATGCTGTGC
ATACTTGCTCTATTTTGTTGTTGTCGTTGTGGTTGTTGTTGGGGTCTGAT
CTCGGCAAACCCAGGATCACGTTGGAATCGTGATGATGCCCTCCCCCCAT
CCGCCCATCCCCCCCCCCCCCCCCTACTTCCCCACTCTGCTGCCGGATTT
GTTTTGTTTTCGTGTTTTGCTTTCGTCCTTTGTTTCAGAACCCGGAGTTT
TTCTTTTCGTACAACGCGCGGCTCAAGATGCGGGACCAGATCGTAGCTTT
TAACTACCTCGTCGACCAGCAGGTGAAGGACAAACATCATAGGTTGCTAC
ATAAGTTGTACATCTACAACACCCATATCATGTAACCTTGTACTGCCTGC
CTGCGATCTTCTAATGTAGGGCACATACTGCGTGTGTATGATGGCACGCC
GCGCTTTTTTCAATACTCGCGCGACAATCGGGGGCCCCAGATGAATATGC
GACTCAACTAGTAGGGGTGTGGTTATATCTTCTACCACCCGCCTAATGAG
GCCGTTTCTTAGGAAAGTCCTCTCGGAAATGACCTAGATTCGGTCAGCGG
CGAAACCCCGAACGGCCCAATATTTTGCTTTTGGAACACGACACGTGACA
ACGTCAATCGGTGCTCGGCCCCCTGACGCCAATTTCGACCAAACCTGTTG
GGGCGGATGCTCCTGTATTATAAGCCTGGGCGCACCAAGTGTGTACCGGT
GGTGGGCTATGTCTACCGCGAAAATCAGGTGGCGGGGTGCCCGAGGTTCA
ATTTTTGGTCGCATTTTTCGGGCGGGCAACCTGCCCGTTTTGCCTCATGA
TTTCCGGCTGGAGCATCGATCGACAACTGCAACCGAAACTTTCACTTCAA
CCTTCGTCGCCCGAGGTTCAGTTTTTGGTCGTACTTTTCGGTCGGGCAAC
CTGTCCGTTTTTCCCCATGATTTCCGGCTGGAGCACCAATCGCAAAATGC
GACCGGAAAATGGTCCTCGGACGACTCTGCTTCTGGAGTCTCACGATTGA
CAGAGCCCACAACCTACACAACTTGGTGTGTGCAAGCTCGGAACATAGGA
GCGTATGATCCCGACGGTCTGACCGCGATTGGTGTCCTACGGGCATCGAC
TGACGTTGTCACGCGCTGTGTTCCCAACATAAAATACTGGGCCGTTTGGG
GGTCTCGCTGCTGACCGAATCAAATTTATTTCCGGCGAGAAAAATCGGCC
GTAAAAGAAACGGCCTGAACGACAATTTTTCCGGGTCCAAAATAAGAATG
TGTTCGCTGGGGGGTGTGCCGCCCAATGAAGATGGCTTGCTATCGGAGTT
ATCTCACGGCTCTAGGTCGCATAAGAAGCTACAGGGCCCCCCCTGGCCCG
ATTGTCCTCGTGAGACAACAAAAGTGCGGCCAGCTAGCGGTCTGATTTCT
GATTTCAGGTTTTGGCACTTTGTCGGCACCTCCGCCAACCCGTCTCTCCC
GTCTCTCCATTATTTTATGTTGTTTTTCTCGTTGTGCTCCAGGTGTGCTT
GGTTTAAAGTTTTAATATCATCTTCTCAATGTAGTCGGAGTGTGACAGTC
ACACAATGGTGTGAACATCTCCCCCCCCCCTCCGCCCCTTGCCCCCCAAT
TTCCATTTTGTTTTTGTTCTTCTGCGCTTCAGGTGTGCTTGATAAGGGTG
GCTTCGACGGGAATGCTGCCACCCGGCATGCCCCCACCCGGCATGCCCCC
ACCCGGTATGCCCCCACCAGGCATGCCGCCTGGAATGCCGCCGCCTGGAA
TGCCGCCGCCTGGAATGCCGCCGCCTGGAATGCAGCCGGGGATGATTCCT
CATCACCCCCTGGCTCATCAGCAGCACCCGGGGTTTCCTCATGGCGTTCC
TGTTTCGGGAGGGGTGCCAGGGGGCTTGCCAGGTGGGGCCTTAATTAAGG
GCGTATAACGATCTATGTTTTAGCATTTTCATGAATCGTACCCAATATTT
TTGTGACTGTCTCGGGAGGGGCACAGCGGCTGAGCAGTCCTCTTTGCTCG
AACCCCCGTGAAGTTTCTACGAGCGTAGCGAGCCACCTACACACTGTGAA
CCAGGGTTCCTCTTCGCTCGATTTCCCGTTGGACACCGACAAGCATAGCG
AACCACAAACGTACTGTGACAGATCATACCAGTCCTCTTTGCTCAAACCC
TTGCTAGTTTTTTCGCGTCTGTCTTTATTCCGCCAGCGCCTTCTTCCATT
TTTTTCAGATAATGTCAAAACAGGGGGTGTGGGGGGTCACCGACTTCTTT
ACCGACATAAACAAGTATCTCACTTCTTTGGGCCCTGTCAGTCCTTTACC
CCTTTGTTCACGTTACGAGGTCGAATTACGAAATTTTGAAACGCTCGGCT
GGCTTTTGTCATTGCGATGCTTGGCTCCGTCTCCGCGCCATCTCCAGTAC
TATCCGCTCCCATGGGCCTTCGCTCATCTCGAGCTTACCGTCACAGGTTC
GTCGACTCCTTTTGTCGCAACTGTCGCTAGTGCCTTATCTGCACGCGTGC
TACCGACATGTTGGCCCCTGTTGACCTCTCTATGCGTCTTCGTACACCAG
CGAGGAACCTCTCCTGCTGCTGTTGGCTCTCTCTGTTCCTACCGGCTCAT
CGCAAGTTCCCCGACAATATTCTGCACATCCCGCGCCTGCCTTTCAACGT
ATTCCTTGCACTCAAACCTCCTTGCCCTTCTACCCTCTCGCCAACCTCCT
CTCCTCCTGCTTGCTACCACAACACACCCAACACATTTTCATGCACTTCA
TGCATAACCGTCCGCAATCACGCTGTGAAACACAACAGTTTGTATAAGCT
GGGTTCAGTGCACACATACGTCCCATTTCTTCAGTACAGCTGTTCCCGGG
AGATCTTCTTTCGTATGTAAACGTCTTTCCTTTCATAGCTGCCGCCGTCG
TACCGTACATTCTTTGTGCGCGGTCTCATACTGTTTTACATTTACCGCAT
TCCCGCACCGTGCGTGTACTGCGTTCAGTATACACACCCTACCGCATGCT
TCTGGTCTCGGTTCTCGCAGCAGTGCCTGGTAACACCGAGGTTGCATCTC
TTCTTCTGACATGTACACTTGTATGCAAGTGACTCCGACCCCGAGCAACC
CACCCAACACGCTACAGGAAACTGTCATCCGCCAATAAACCTACAAACCC
GAATCCCCGACCTTATCAACGCCAGCCTACTTATTTGTGTGCGTTCATCG
CTGTCATGCATCAATCCATCTCCGAGTTACCGATGAATTCTCACGACCTC
GGGCGAGCCACCAACACCTGTCAAAAAACAACAGTCCATGTGACCGGAAT
CACCCCGGTAAGTTCCCAAGAGCCCAAGCGAGCCACGCTGTGACACGGCG
GCACTTCTCGCTGGAATCCTCGTGAACGACGATCCCAAGCGAGTCACCAA
CAAACATATACTTTTGGACACAGCAGTCCTTCCGCCCGGTGTCCCCGTTA
GATTCAATCGAGCCCCACCAACACGCTGGTTGATCAGTCCACCTTTTCGC
CTGAATCCCCGGTAAGCTCCTACGATCCCAAGCGAGCCACCCACGCACTG
CGATTTTGCGATCCATCTCTGCTGAATCCCCGATAAGCTACAAGCGTAAG
CGAGCCACCAATACTTTTGTGACTTATCAAATCCACCTCTCCCGAATCCC
CGAGAATTTCTACTGGTAGGAGCACGAGCGAGCCATCAACCGCCTGGTCT
TCATCAATCCACCTCGACTTGATCCCAGAGAAGCTCCTACGGGCGTAAGC
AAGCCTCCAACACTTCGTGATTAATCGATCTACCTATCCACAATCCCCCA
ACTGGTACGAGCACGAGCAAGCCACCAACCCCCTGGTCTTCATGAATCCA
CCTTTGCCTGATCCCAGATAAGCTCCTATGAGCGTAAGAGAGCCACCAAC
ACTTTGTGGTACACCAACCCACCTCTTCAGAGTCCCCGAGAATCTCTACT
GGTTGGAGCACGAGCGAGCCACGAACCCCTTGGTCTTCATCGATATACCT
CTGCCAGATCCCAGATAAGCTCCTACGAGCGCAAGCGAGCCACCAACACT
TTGCGATACACCAACCCACCTCTTCAGAGTCCCCGAGAAACTTTACGAGC
GTAAGCGTGCCACCAACACCCTGCAACTAGCCAATCAGCCTTGTTTTTTC
GCGAAGCGGCGGTTCCCACGTTGTGTGCTTCCATTTTGATTCCCCATCCG
TGCGGAAGAAACTGCTCCGGGGGCCGTGCGACCGGCTTTGTGGTCAACGA
CTTTTCGTACTGTTGCATACTGTGTAGTGTTGTATTTTGGAACAGGGCTC
CTGCGCTAATTCAGCCGAGAAGCGATGCGCCAACTACGTTGTCGGTCTCT
TTGCAGGGAAGCACTTGGTAGGCGTTTCCAAGCGGTATCTCGCACCGACT
CACTCGTACTTTACCGTTTGCCCCGGTGGTCCGGTGGTTCCGTCGGTAAT
CTACTTACGGCTAGGCCGCAGGTTCGATTCTCTCTGAGCGCGTTTTTTGT
GCGACCTCGCAGCGGAAAGCAATTTGTTCGTGAGCAAACACATGTAAGGG
ATTGCTGAACCTTTCCCGCATTAAACGTCCAAGGCAAGCACCGCAGGAGG
AAAGGTGTGGGCAATAAAAACAAAATGGAAAAGGTCAACGTCGTGTGAGA
TCCACCTCCTGTATGACCCCAGCTGACCGCCAAGGATATTGCCGAAAACG
TGTAAAGACAGGCGCCAGAATAAACTGGACGAACACACACACTGAGCACA
CTAGGCACACCTTCGGGCGACAAGCGTTCCTGGCTGTTTGTGTTGAACGT
TTTGGTTTCATTTCATTTTTGCAATCTAGCACGTGTTGTTGTGCATGGCT
GATATCCGTAAAAATTGGCGATGAGCTGTTATAACGTACTTCGAAGTACT
TCGTAAGAGTTATCGTAACAACAACACAACTTAACAAAAACAGACAGGAC
AGAATCAGGGGGGTGATGCGAGACGAAGATAGGCATATATGTGGCAGTGA
GTCAGCCGCCGTGTAGCTCATGTGTTTAGGGAGAGGGAGACGGTAGTGCA
AGGAATGTGGGCGGGAAAAGGCATGCATGACGCTTTGTTGGAGGCGGGTC
AGGTGGAGGAGAGAAAATTGTGCCCGCCATTTCGAAGTGTATATTTACAT
CCCTCAATCTTCTGTCTATATCCTATTTGTCGGCGAAGTTACTTGGGCGT
GACGATCTGGAGCGGCCGATGTGGATGTATACATCCTTGAAAATCTTCTT
CATAAACACTATTTCTTGGCGAAAGGTGCTTGGGCGTCATTGTCCGGGGC
AACAAAAAGCTTTTCTGGCGTTGGTCCCCTTGCCTGTTGGATGGACGCAT
GCCGCATAGACAGCTCCATCCACATGAGGTCGGCGGCTGCTGCTATTGTG
ATGGGAAACCCGCGAGGGTCCAAATTGCTGGGTCAACACGCGTGCGCTCT
GAGGAGAGAAGAGATTTTTCGCCAACAGAATAAAAATGCATGTATTGCTA
ATCTCTGAAGATTTGGTTTTCTAGCAGGGCAAAAAAAAGCACAATGAAAA
CTTGACCCCTTTTTTCGTATAGGAAATTGGGCCCCGGTTTGACCCCGGTT
ATCGTACAGGAATCTTAACGCCACTTTCCCGAAAATCGTACTACTATCAG
ACTACTTTCGTGACCCCTAGGTTAATTTCACACGCAGAGGTCACGACCCG
ATCGCTCGGTTCACATAAGCTGATCTCAGCTCACGGTGCTGCTGTACGGA
CACCCGGTGCGTCCTTGCCTCGCCAATACGATTTCGAGACCTCTCCACAT
GGTTTTATCACCTACGGCCTCCTGTGGCACACGATGTTGATGTCGACGGG
CTGTCACAGCTGTGCGTCCAAGGGACTGCCCCTGAAGGGTCCATGACCCA
GGACGCGTGTTCCAAAAAATGAAACAATACAGCAGTAGTATGCCTCTCAA
ACAGCAGTACAGCAGTATACGCAACTTCAACCATCCTTGTCATCTCGTGG
GTGAAGCAGTCAAACACACATACCAGACATCATCATACCAGGTCCAATTA
CTCGCTCGATCGGCAATGTACCAAGCTAAAACCTCAAAGGATGGGAACCC
TACTTACAGCTTGCCGCCGACGGCGCATTCGATCGCCGGTGGGGTCATTC
AGCCGATAGGGAGCAGCGTCGTTCAAAGAGTAAGCGTGAGCTTCCCAAAT
CAAGAAAACGATCGGAGACATCGAACAGCGAAGAGAAACGGAAAATAACA
AAAAAAAAAGCAGTTGAAAAAAGGAAATATATTCATCCACGTCATCTGGT
CGGTTTTGAGGCAGATAAACAAACACACACACCATCATGACCGCATTCAA
TTACTCGCTCGATCGACGACGTATCCAGCTAGAACCTCGAAGGATGGAAC
CCCCTCTTACAGCCTGCCGTCGATAGCGCATTCGATCGGCGGTGGAGTTA
TTCAATCTATTCAATCAACAGCGAGCAGCGTCGGTCAAAAAGTGTGAGAG
CTTCCTAAATCACACATGAAAAAAAAACGAAAAAACAAGAACATAACGAA
GAGAGACACCGGACAACAAAAATAAACACTACGCACGAAGTATACTGCTT
TGCTTGCGTATCATACGTACCGCACAGAAGCAGCAGTATATCCAGCATCC
AGTGAGTATGAAACCAGTACATGCACCAGCGCTGCTGTGCTTCTGTGCCG
TATGTTTCGCCTGTGCTGCGGTGCTGTGTGTAGGGGAAGAAGCGACCACG
TTGGGTGGTAGATCTGTCACGTATGTGATGATGATGTTGCACAGCACACA
GCACTCTCGGTTTAGGCCCACTCTTATGGTAGAGCCGAAAACTGGAATCC
AAATTCCAGGCCTGGAAAATATTACTATCTTGTGGGGGTTGCATTCGGTC
CGAATTGGAAAATATTTTCCATTTCTCCGGATTCCAAGCGACTCGGCTGG
GATCTGCCCTCGGATTCCAGGCCAAATGACCTCGGATTCCAAGCTGGAAT
CCGTCGCGCGCGCGCCGCGCGCGCAGTCACGAGGTTACGCCGCAGTGGTT
CACAGCACACAAGAAGCACAAATACTTACAGCTGAGGACACAAACACACG
GGCCAGGTGCAGGTACCAAAGCTACGTGCGATCCTAACCGTGCTGGCGAT
TACGCTTGCCGCTCTGCGCCATCAGCAGCACTTTATCGAAATTAGCCCAA
ACCGCCTGCCGTCCATCCGGCAACCCCATCTGATTTCCAATCGCTGTCCA
GATTTTCCGATTCTCCCATGAAGTTGGCACCAGTCTGATTGTCCGACTTG
AAATATCAGGCTTGGAAAACGCTTTTTCAGCTCTGGAAATTCCAGTTGCC
TATCTCCCATAAGATTGGGCCTTACTGCCACACAGCAGCAGTACAGCAGT
AGTTCATTGTTCAATAATCCCAATCCGGCCACATGACACCTGGTACCAGG
TACAAGTACGAAGAGTGAAATACAAAAGTCCTGCCGCACATGTGTGAGAA
CAGGCTAGTGCTGTTGTGCTGTTGTATCATACGAATGCGATACCGGGATG
CACAGCAGGTAGGTCCGAAAACCGAAACACAAACAAACAAACGTGAACAG
CACCCAACAGCAGTCAGTTGACTACCTACATTACTCTGCCACAGACATGG
AATCAGTACACCAGTGCTTCTTCTGCTGTGCAGAGCATGCGGCCTGTGTG
TGGTACAGCAGTAGATCTGTCATCATGTGGTGTTGCACAGCACCGAGCAC
CCTCTTTTGGTTTTAGTTGCTCAAAAACCCGGCCATATGACCGGTCGCCC
CGGTGGTTTCAGTTGATTGTCCTCGAAATCTTCTGACACTTACGCTTGAG
TTCGAATCCCGGTGCAGTAACACGATCCGGAATTCTTCTAATGTCATGCG
TGAGGGTGGAAAACGATTAATTCGTGAGTAAGTAAATTTCGAAGTGTCGA
CGAGGGAAAGGGGTGGCTGTACCCTTTCTCGCGAGAAAAAAATGAAGGCA
AGTACAGTACCGCAGTGGGAAGAAGTGGGAAAGAAAAGAAAAGAAATATA
AGAAAAACAAAATCCTGTGTTGACTTCCTACTGTGTAACCCCGGTTGGAG
CGTCTACCTACCTACCCGAAGGTGTAGAGTGGCGTCCAATTAAAGGGATG
ACAACACACACACTCACACACGCACACACACACACATTACACCTCTGGTA
CCAGGTATAAGAACGAAGTGGGAAATACTAAAAAAGTCCTGCTGCACAGA
CAGGAGCCGCTGTATGGTATGCGCGACCGGTATGCACAGCAGGTCCGAAA
ACCGAAACACAACGTGTGAACAGCACCCAAAAGTCAGTTGACTACATCCA
ACTCTGCCACAGACAGACGTGGAATCAGCACATTACCAGTGCTTCTTCTG
CTGTGCAGAGCATGCGGCCTGTGCAACTCTGTTTGTACTGTGGGTATCGT
AGAGCAATAACTGCTGTTGTCAACTTATACTACTGCTGTTATTGTCATGG
ATACAGACCCCGAACGAACTGCTGCCTAAATACTGTCTGTATTGGTATTG
GAAGGGATCGGACGAACCCCTACTTCATTCAGTGAATGAATGAACCTCTC
GAGACGATCACCTGCCCTGAGCCTATCGATAAACCAGCACAAACATATCG
ATCGTTGTCTTTCAGTACCCCAGAAATAGCAGTGAGGCAAAGAAAGCAAC
CCGCCCGCGTCGAGGCATCAACTTCCGCATGTACAGCAGCAGCAGCAGCA
GTAGCGGCAGCGAACGTCAGATCGATCATGATCATATGCAGAGAGATACC
GGTAGATCACAAAACCCTGGTCTTCTTCCGGAGCTACCAAGTTTTTACTG
AGTCCGACGCCAAAGAAGCGCACCGCGCAGTCGCCAGTGCAGCAATCCAA
AAAGTGCATATGAGGCACTTCCTTGTTGTATGTAGCCGAGTTCCTACACG
ATGATGATGCAGAGACTAGAATCAATCCTGTTGCGCTTGATCGATCGTTC
TCACTTTCTCTGTCTCCGTCTCACACACACTCGCTGCTGTGCGGTAGCCT
CACTCGGTCTTTTTCCAAGTAAATAAGGTCCAAACAAATTTGGTTTCTTC
GATGGTAAACCTACTTCATTATCCTGAAGCGCCCAGGAGCCTGAAACGAA
AAGTAGGCCCTTATCGGAAGTAGCCTGACAGCCACATACATGATGACACC
TGTGGTACCAGGTACAGCGCAGTACGAAGTGTGAAATACAAAAAAGTACA
CAGCATACTGCCAGGGACATGAGCGATGGTATGATATGCGAAACGCGAAC
TGTACCGGTGTGCACAGCCCTTCTGTGCCGTATGTCTCATCTGTGCTGCG
GTGCTGTGTGTGTGCAGGGGAAGAAGCGACCGCGTGTCCGCGTGTGTGTG
TTGAAGTAGATCTGTCATGATTTGATGTTGCGCAGCGCACAGCACTCTCT
CCTCCCAGTTTTAGTTGTTCAGAAACCCGGCCACATGACACCTGGTACCA
GGTACAAATACGAAAGTATGCACTACTACTGAGTAGTAGTGTGAAATACA
ATTTATACTAATAAAGTACTTGCTGTATGCGATACTGCTTAGTACCGGTT
GGTATGAACCGCAAGTCCGAAAAACCCAACAGTTGTCAGTTGACTACACC
CTGCTCTGCCCAAGTAGTGTGTGACCGGATTCGTTCTCTAGCTGACATTA
ATTTGTGATTGATTTGGAATGCGCCCTGGGTCCCCCAGGGCAATGCTATA
AAAAGTATCGGAACGCTGTTCTCCTTCATCTTTCCTGTCAAATCATGTAC
ACAGAAACCAAACAGTAGCGGCGTCACACGCTTATCTTTGGGCAGCACTA
TACACGCATCAGTCCTCGGTATCTAACTGCTTCTACCCGAGCCGCACACA
GCACCATCCCAAGGTTGGCTTGTGCTGCTGTTCAGTTGCAGCTACAACAA
TTGTTCCGACTTCCGTCCTCACTCTGCTGTTTCTGGCGTCTCAAACTTCC
GACGGTTTCATACGAGAACACCATTTCAGTTCCGAAAAAAACATCAGAGA
AAAAGAAAGAGCTTCTATCATATTGTGTCATTTGTACGGTATATTACAAC
ACCGCTGCTTGCTGTACCTCGTTGGTAATCTTATAGTCTCAGTATGCACA
AAATACCCAGTCGTCAGTACAGGGTACAGACAGCAGGGGGTTAGCACGCT
TTGCAACCTGTGTCCTGCTGCTGCTGTGGCACTATCTTGTGCAGTTGCAA
CAGCAGTAGGTGAAGTAGGCATATCATACTCATAACAACAAGGAGCTCTC
TACTGCTGCACATGTATGCTGCCTTTTGTCGCTCTGTTGCTGCTGCTGCC
TCGATTGATTCAGCAGCGTTTCTTTTCCACTACGCGGGCTGTTGTAGGTA
CACGAGAGGCGTCATTGACTACTTGGTCTGAGTACCAGGGCCAGGAGGAC
CTAGGAGACCTAGGCTTCCTCTCCTTCTTGTACCTGCTGCTGTTGTTGTG
TACTCAGCACACCACCTACAGATGCTGCTGTCGTGGTTCTCCGCCTCCAC
CAAGCCGCATACAGCAGTGAGAAATACTCTGCGCTTTCTCTCATTCATGA
TTTTAGATCGCCCCACTCGGAAAAGAGCTGCTGAGCTCCTGGCATTCTTG
AACAGCAGCATAGCGACCGACCCCAGTTTACCGGCGTGCATCCATCTATG
TGCTTTCACAAAAATTACTCGTGGGAACAGCTGCACACCAACAGATTAAA
CACCGACAGTCTGCCTGGGACAAATATTCGTCACAGCAGTAGTCTACCCT
GCTGTCTGGAGCGAGACTGACCTCAGATTATGCTTGTTATCCTCTGCAAC
AACAGAAGATAGATGCATATTGTGCCTCTTTGTACTGCTGCTGTACTTGA
GTGTGCGTTCATGTATGCGTTGTAAGATACATGAGGTTCGAGTGGCGACG
TAGCTTTATGTGTGTGTTGTAAGATTGACACAGGGAGCAGGCGTGGCAAG
AGAGAGTGCATGTGGGGCAATGGCCGAACTGAACACCCATCACGGGGGAG
AGCGCTGTGTAATACTGATGTCAGATTTCTTCATACGTGAACGTGGTGTT
ACACTTGGACCACAAAAAAAAAAAGACAGACAGAGACAGCTGGCGTTTCT
GAAACTCGAACAGTCCGCACACAGCTGGCTTTGTCGAGGCTGATCAAGAC
GCGAAAGCAACTAAGAGGCTGGGGTGGCAAGAGTCAGATTTACAAATCTG
TATATGTACCGACATGAGTGCAGGCGTACACGCGTGCACACCTCTTTACG
ATCACGCACACAATAATTTCCGTCGGGGTGGTTGTCTTAAGTTCATCATC
GAACAGGGCCCGCGAGCTGAATCAAGGAAGGATGCACAACATGACAGTAT
TTAATCAGACTTGAATCAGACCAAGCTTGGCTGAAGCAGAGGGGCATGTT
CAAATGGTGTCGAGACCTGAAGCCGTCGTTTCTATGCCGAATAGTCCGGT
GCCATCGTCCCTTGACTAATTTTCAATGGTGGGATATTCTCCGCAATGAC
AAAGGTTTCAACAGAGCACCAAATAGCACCTTCTCCCGCAGCTCTCGATG
CGGTCTTTTTAACGCTACCATTTTCTTTCGGTATTTTTTTACTTCGAATT
GTTCACGCTTGCTGTGGAAGTTTCTGTTTCCTGTAAAAATATCTTTTCGC
TGCAGGGATTCCCCCTGTGTAGGTTTCTTCTTGCTGTGGAGATATTGAGT
CTTACAACATTGTCCTGTGGTGGTGTTGCGCTACGTCTACACCAGCAGCA
GGCTGTGACCCTCAACCCCCCTCCTCCCTCTCCCCTGACTCGTTCTCAAT
CTTTCCAGGAAATCATGGTGCCCCCCCCTTCCAGCGACCAGAGATCCCGC
CGCCAGCTATGCCTCAGGCCGTATCTGCACCCCTTCCGATCCCGGTCGCA
CCCCCGCAGCCCCTCGCGGCCACCGCTTCCGTCTTTTCCACTCCTTTGGA
TGCTTGCGATGACTCCGACGGCGCTCCGACGGCCCCCGTACCGATGTCTG
GCTCCTGCGCCATCCTGGAGTCGTCGACAACGCCGCTGCCGTCTGTACCA
ATGTCTGACGGGCTGGCCTCCTCCCCTTCTCCTGCTCCTACTCCTCTTCC
TACTCTTTCTCCTGCGCCACCTGCTGCTGCTGCTTGTGCGGCTGCTGCAG
CTGATGCGGCTGCTACCGCAGCTGCTGTATCCGCTGCCGCTACGGCTGCT
GCTGCGACTGTGAGCCATCCTCCTTCCGCGGCGTTGCCTGTCGTCGATGG
TGTGCTGCTCCCTCCCTCCTCCTCCGTGGGACCAGGAGTAACATCCGACG
TTGCGGCCACGGCGGCCACACCAGAGGCATCAGCAGCGGCAAAAGCAGCG
ATGGCAGCAACACCAATAGCGCCGATTACGGCAGTCACTTCCGTGCCCCC
TCTAACGTCTCCGGTGACGGCTGCCGCGGCCACCACCGCCACTACCACTG
CTGGTGCGGATGCTGCTGCTACCGCAGCGGCTGCAGTTGCTGGTGCTGCC
GGTGCTGGTGCCAGCGTTGGTGAGCACGGGCTATTACAATCGGCGGCGGC
AGTTGCGGAGGTATCGGTAGAGGCGGCAGCAGGACAGCGGGGTGTGCTTC
ACGAGGGCATGATGACTACCGCAGCTATTGAGGCAGCCGCGACGGCGGCG
GTGGAAGCAGGGGCGGCAGCTGCTGTTGCTGGGTTCGAGCCGATGGCTGA
GGAGGGCGGTGGAGGTCATGGTGATTATATATTGTTTTTATGGAGAGGAA
ATACGTGATGAGATTTATGTTTTCACAGACAAAACGAGTCTGGATTTTCA
CGTACTGTATGACAACACGTTTTGTGCCGACACATTTTGTTCCGTGAAAA
CATTTTTGTTCTCGTTATTGTTTGGGGGGGGGCTGAATCGATTGCACAGC
TAGCATGCATTTGCGTCGGGGAACTTTTTCAAAACGGCGACGGAAACTGG
AGCTAGACTTGCAGCAGAAGCGTCGACCGATAGGGGAGTGGTGTTACAAA
AATGCCCCCACCCGATTAAAATATTACTTGTACACAACAGCAGTGTTCAC
AATTTTGTGCTTTCATTTGCTAAGCTACCTTTATGCGACCGGCCCCACTA
CGGTGTCCTCGCCGACCACTAATTACATGCCCCCTCCCCCCCCCCTGAAT
GACCGTACGTCGCCCCTCCTTTGGCGTGCTCTATCTCAAAATCGAAACCG
TTTTCGCTGTGATAAAGTTACGATCTCCGGAGATACTATTGGCGGCACCG
GTGGAATAGACGGGAGAGGTGGTGTAGCCGACCCCGCCGCTTCTGTGGCG
CATTCTGATATTGCTGCTGCATCAGCCACAAGATTTTTACCACTAGCTGG
GGGCGACAAGGCTACCACACCTAACGATGACCCGATGGAGGTGGTCGATG
CCGGGGGCGGGAAGGCTGAAGCGGGTAGGGCTGGCTTAATCGACGTTTTC
AAGTCTTGAAGAAGGCGAACACGAACGAATTGTTTGTTTAAGGATGAAGA
TTTGCTGGCAGTATGGGGTGTAATGGTTGATGATTTGTAAGTTATGTTCA
CATCCGTACAATACTCGTTTTTTTATTTCTTTTTGTGTAAAAGCGATGGT
CCGTGGCGATCCCAAAGACATTTTTCAGGGAGCAATACGATATGATCTTT
CTGTCGGTATAAATGAGGTCGATGTGGGGTCCCAGAGTGTAGAGGGTACA
GAAGCACTGCGTTTCGTTATTGCTGTATTTTTTGTTCAATGACATGCGAG
TGTATGTGATGTGTTGGTTGCGGTGGTGTCATCTTCCTTGTGACAAAACA
TGATACTGTCTGTTAACGATGATTGTTTTGTGATCATGTTTTCGTCAAAT
TTGTTCTGTGCTTTTTGGCGGTGGTGGTGGTGGTGGTGACATTTCGCCAT
CGTGGACGAGGTTCGGCTCGCCTCTCGTCTCGGCTACTACGACTGCGGTT
GAGTGCGTTTATCGAGTAGTACCAGCCGCTCATGAGAGCAAGATGCTTTT
GGGAATCAAACCCACGAGAGTAGCAACGGTGTTTGAAAATGTCACAAATT
ATGCTAGAGTAAGGTATACTTTGCATCCACCCATGAGCGAAGACTTTTGG
ATCCCCAGCTTCGATGGTCGGAGCATGTCAGCCTGAGCAAGGTTCTCCGG
GTTTCGATCGAGCGAGGCGACACTACTACTACTACTACCCCAGAAAGGGA
AAGGTGGCACGGTTTCCTGATTGGTCAAAACGTCCACGTGTCGTTGTAGG
CTATACGAAGTAGTGTGTTGCCGCGATATTTTTCATTGTTTTCAGCTGCT
TTGTGAACTTTCGGTTTCCGTATCTGCAACGACGTGATTTCGTTTTCTTC
CCCTACAGTAGACAAGCTCAGACTTTGCCACGCATGAAATTGTATGTACG
TCCCGATTTATTCCTCTCTCTTGTTCTTTCTTGGGATGTTTGAGGAGTAA
GTGAGTTTCCTTGTTGGTCCGTGTTCGTTTCCCACCCCCGTTGATTTTCA
AAAGGTATGCTTCTCATGCTGGCAAAATCTTGCTGCTTGGTAGAGCTGAC
TTGGCTTGTGTGCGAGGGGGCAGAAGGGAGTATACATTGTACCCTGTGCG
TCTCTCGAAATCGCCGCTGCATCGAGGGGAGGCAGTTTGGATATGGAACA
TTCTCGGAAATTACTGAAGAACTTCGTCACACTTGTTGCTTGGGGGGGTG
TCGGGGGTTTTCTTGGCTCTTGTCCACTATCGAATTACTAGCGTCACTTT
CATCTTCAACTTCTGCCGGTGAATGTTTGCCTTTTCTCAGTTTTCGCGAG
GCGGCAGACATTTAGTTCTCTAGTTGTTGCTTGAAACAGCGATGCACTGG
GGAAAACACCCGCCGTTCCCAGTATACCCGCGCTTTCTTGTTGGAACCGA
ACGAAGACATACAACAAAAATG

Coding sequence (CDS) from alignment at P-littoralis_Contig120:106800..125421+

>mRNA_P-littoralis_Contig120.14.2 ID=mRNA_P-littoralis_Contig120.14.2|Name=mRNA_P-littoralis_Contig120.14.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1980bp|location=Sequence derived from alignment at P-littoralis_Contig120:106800..125421+ (Pylaiella littoralis U1_48)
ATGGAGGTCGTTGCCCCTTCGCAAGGTCCTGGAGACGTTCCGCCACCAGC
AGCACCACAGCCAACGCCGCCTGGAATCCCAGCTGCTGCTGCTGCAGCTG
CTACTAATAATCCGCCAGCGTCGAATGAAAACCAAAACCAATCCACCACG
AATGGGTTAGGTGCCGTTGGGGAGCAGAACGACAGCAGCTCCGCCGCTGC
CTCTGTCGCCGCTGCGGCTGCCTCTACTGCTTCTTCTTACGCAGCCGCTG
GTGGCGGTGGTGGCGTTGCACCGTCGGCTGTTGCTAGTACTGCTCCTCCT
TCGGCCCCGGCAGAGAAAGCGGAGGAAGACGACTCACATGTCTCGTGGAG
TGACATCAAGAGCGTGCAGAACCTGATCGAGCGGTGTCTTCAGAAGTTCA
TGACCCAAACGGAGATCATCGCGGCTCTGCAGGTGGAGGCAAATGTGGAC
CCTTCGTTTACGTGCTTGGTCTGGCAGAAGCTTGAACAGCAGAACCCGGA
GTTTTTCTTTTCGTACAACGCGCGGCTCAAGATGCGGGACCAGATCGTAG
CTTTTAACTACCTCGTCGACCAGCAGGTGTGCTTGATAAGGGTGGCTTCG
ACGGGAATGCTGCCACCCGGCATGCCCCCACCCGGCATGCCCCCACCCGG
TATGCCCCCACCAGGCATGCCGCCTGGAATGCCGCCGCCTGGAATGCCGC
CGCCTGGAATGCCGCCGCCTGGAATGCAGCCGGGGATGATTCCTCATCAC
CCCCTGGCTCATCAGCAGCACCCGGGGTTTCCTCATGGCGTTCCTGTTTC
GGGAGGGGTGCCAGGGGGCTTGCCAGGAAATCATGGTGCCCCCCCCTTCC
AGCGACCAGAGATCCCGCCGCCAGCTATGCCTCAGGCCGTATCTGCACCC
CTTCCGATCCCGGTCGCACCCCCGCAGCCCCTCGCGGCCACCGCTTCCGT
CTTTTCCACTCCTTTGGATGCTTGCGATGACTCCGACGGCGCTCCGACGG
CCCCCGTACCGATGTCTGGCTCCTGCGCCATCCTGGAGTCGTCGACAACG
CCGCTGCCGTCTGTACCAATGTCTGACGGGCTGGCCTCCTCCCCTTCTCC
TGCTCCTACTCCTCTTCCTACTCTTTCTCCTGCGCCACCTGCTGCTGCTG
CTTGTGCGGCTGCTGCAGCTGATGCGGCTGCTACCGCAGCTGCTGTATCC
GCTGCCGCTACGGCTGCTGCTGCGACTGTGAGCCATCCTCCTTCCGCGGC
GTTGCCTGTCGTCGATGGTGTGCTGCTCCCTCCCTCCTCCTCCGTGGGAC
CAGGAGTAACATCCGACGTTGCGGCCACGGCGGCCACACCAGAGGCATCA
GCAGCGGCAAAAGCAGCGATGGCAGCAACACCAATAGCGCCGATTACGGC
AGTCACTTCCGTGCCCCCTCTAACGTCTCCGGTGACGGCTGCCGCGGCCA
CCACCGCCACTACCACTGCTGGTGCGGATGCTGCTGCTACCGCAGCGGCT
GCAGTTGCTGGTGCTGCCGGTGCTGGTGCCAGCGTTGGTGAGCACGGGCT
ATTACAATCGGCGGCGGCAGTTGCGGAGGTATCGGTAGAGGCGGCAGCAG
GACAGCGGGGTGTGCTTCACGAGGGCATGATGACTACCGCAGCTATTGAG
GCAGCCGCGACGGCGGCGGTGGAAGCAGGGGCGGCAGCTGCTGTTGCTGG
GTTCGAGCCGATGGCTGAGGAGGGCGGTGGAGGTCATGTTACGATCTCCG
GAGATACTATTGGCGGCACCGGTGGAATAGACGGGAGAGGTGGTGTAGCC
GACCCCGCCGCTTCTGTGGCGCATTCTGATATTGCTGCTGCATCAGCCAC
AAGATTTTTACCACTAGCTGGGGGCGACAAGGCTACCACACCTAACGATG
ACCCGATGGAGGTGGTCGATGCCGGGGGCGGGAAGGCTGAAGCGGGTAGG
GCTGGCTTAATCGACGTTTTCAAGTCTTGA