mRNA_P-littoralis_Contig171.55.3 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig171.55.3
Unique Name	mRNA_P-littoralis_Contig171.55.3
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: D7G1V9_ECTSI (Dynein light chain n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G1V9_ECTSI)

HSP 1 Score: 209 bits (532), Expect = 3.050e-64
Identity = 98/103 (95.15%), Postives = 100/103 (97.09%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALD C DFEAE GLAAAEKIKKHFDARWDPSWH+IIGRNFGSFVTHETTCF+YFYLADKAIMMYKAG
Sbjct:    1 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDHCADFEAE-GLAAAEKIKKHFDARWDPSWHVIIGRNFGSFVTHETTCFVYFYLADKAIMMYKAG 102

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A836CJA1_9STRA (Dynein light chain n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CJA1_9STRA)

HSP 1 Score: 159 bits (402), Expect = 8.630e-45
Identity = 72/103 (69.90%), Postives = 85/103 (82.52%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            M  M  DW  MWGAKVK+P DM DD+L+DAI+T R+ LD+C DFEAE GLA+AEKIK+H D +WDP WH++IGRNFGSFVTHET  FLYFY+ DKA+MMYKAG
Sbjct:    1 MPSMGDDWRMMWGAKVKLPLDMPDDILKDAIDTSREVLDKCHDFEAE-GLASAEKIKRHLDEQWDPHWHVVIGRNFGSFVTHETRMFLYFYIGDKAVMMYKAG 102

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A7S2W886_9STRA (Dynein light chain n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2W886_9STRA)

HSP 1 Score: 142 bits (358), Expect = 2.850e-38
Identity = 67/103 (65.05%), Postives = 79/103 (76.70%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGE VP+W  MWGAKVK P D+ DDML+DAI T +  + +  DFEAE G+  AEKIK+ FD RW P WH+IIG+NFGSFVTHET  FLYFY  DKA+M+YKAG
Sbjct:    1 MGEEVPEWQMMWGAKVKTPVDVPDDMLKDAILTSQRLIGEATDFEAE-GVDVAEKIKREFDERWTPYWHVIIGKNFGSFVTHETKRFLYFYFDDKAVMIYKAG 102

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A7S1TPD3_9STRA (Dynein light chain n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1TPD3_9STRA)

HSP 1 Score: 139 bits (350), Expect = 4.450e-37
Identity = 61/99 (61.62%), Postives = 78/99 (78.79%), Query Frame = 1

Query:  454 VPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            + +W+ MWGA+VK+P DM DDML+DA+ET R   ++  DFE + GL AAE IK  FD +W P+WH+++GR FGSFVTHET CF+YFYL DKA+MMYKAG
Sbjct:    6 IQEWSTMWGARVKVPCDMGDDMLKDAVETTRSVFEEFPDFEND-GLKAAEAIKLAFDEKWTPNWHVVVGRGFGSFVTHETKCFVYFYLDDKAVMMYKAG 103

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A7S1CI82_9STRA (Dynein light chain n=1 Tax=Bicosoecida sp. CB-2014 TaxID=1486930 RepID=A0A7S1CI82_9STRA)

HSP 1 Score: 126 bits (316), Expect = 4.370e-32
Identity = 59/104 (56.73%), Postives = 76/104 (73.08%), Query Frame = 1

Query:  442 MGEMVP-DWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGE  P +W  MWGAKVK P+D+ DDML DAI   R AL+   D+E+E G A  +K+KK FD +W P WH ++G NFGSFVTHE   F+YFY+ADKA++++KAG
Sbjct:    1 MGESAPVEWKHMWGAKVKWPSDLPDDMLEDAITVTRAALEGIEDWESE-GDAVVDKLKKTFDEKWGPHWHAVVGTNFGSFVTHEARRFVYFYVADKAVLLFKAG 103

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: H3GHN7_PHYRM (Dynein light chain n=21 Tax=Oomycota TaxID=4762 RepID=H3GHN7_PHYRM)

HSP 1 Score: 116 bits (290), Expect = 2.690e-28
Identity = 59/104 (56.73%), Postives = 69/104 (66.35%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEA-GLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGE  P W  MWGAKVKMP DM DD+L DAI+     L +    E E  GLA  E+IK H D  WDP W + IGRNFGSFVTH T  F++FY  +KA+M+YKAG
Sbjct:    1 MGE-APSWQHMWGAKVKMPCDMEDDVLEDAIKHVTSRLTKYDTEEWEKNGLAVCEEIKAHLDEAWDPHWVVCIGRNFGSFVTHVTRNFVFFYYNEKAVMIYKAG 103

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: F0XVB6_AURAN (Dynein light chain n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0XVB6_AURAN)

HSP 1 Score: 114 bits (286), Expect = 8.330e-28
Identity = 52/95 (54.74%), Postives = 72/95 (75.79%), Query Frame = 1

Query:  472 MWGAKVKMPTDMRDDMLRDAIETCRDALDQC----GDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYK 744
            MWGA+V++P DM DD+LRDAIE+ R+ L+      GD+E  AG    E+IK+ FD++W PSWH++IGR++GSFVTHET  F+ F + DKA+M+YK
Sbjct:    1 MWGAQVRLPCDMGDDVLRDAIESVREELNNLEATQGDWEGPAGSEIVERIKRKFDSKWSPSWHVVIGRSYGSFVTHETRQFVSFKINDKAVMLYK 95

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A5D6XID8_9STRA (Dynein light chain n=1 Tax=Pythium brassicum TaxID=1485010 RepID=A0A5D6XID8_9STRA)

HSP 1 Score: 113 bits (283), Expect = 2.780e-27
Identity = 58/105 (55.24%), Postives = 72/105 (68.57%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIE--TCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGE  P+W  MWGAKVKMP DM DD+L DAI+  T R A     ++E + GL   E+IK H D  W+P W + IGRNFGS+VTH T  F+YFY  +KA+M+YKAG
Sbjct:    1 MGE-APNWQHMWGAKVKMPCDMEDDVLEDAIKHVTSRLAKYDTEEWEKQ-GLTVCEEIKAHMDELWEPHWVVCIGRNFGSYVTHVTRNFVYFYFNEKAVMVYKAG 103

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A1V9ZER7_9STRA (Dynein light chain n=4 Tax=Saprolegniaceae TaxID=4764 RepID=A0A1V9ZER7_9STRA)

HSP 1 Score: 113 bits (282), Expect = 3.880e-27
Identity = 56/104 (53.85%), Postives = 69/104 (66.35%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEA-GLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGE  P W  MWGA+VK P DM DD+L D I+     L+Q    E E  GLA  E+I+ H D  WDP+W + IGRNFGS+VTH T  F+YFY  +KAI++YKAG
Sbjct:    1 MGE-APSWQNMWGARVKTPCDMEDDVLEDVIKYVTQRLEQFDTEEWEKQGLAVCEEIRDHLDKAWDPAWVVCIGRNFGSYVTHVTRNFVYFYYNEKAILIYKAG 103

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BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Match: A0A7S2WLS4_9STRA (Dynein light chain n=1 Tax=Eucampia antarctica TaxID=49252 RepID=A0A7S2WLS4_9STRA)

HSP 1 Score: 113 bits (282), Expect = 4.000e-27
Identity = 54/103 (52.43%), Postives = 69/103 (66.99%), Query Frame = 1

Query:  442 MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGLAAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMYKAG 750
            MGE V +W  +WGAKVK P +M DD+L+DAI T  + L  C +FE+   LA  + IK H D +W P W   IGRNFGS V+HET  F++FY  DKA+M+YK G
Sbjct:    3 MGEEVREWQTIWGAKVKTPVEMPDDILKDAITTVTNELAACENFESNGNLAV-QNIKDHMDHKWSPHWCCFIGRNFGSKVSHETRRFVFFYHNDKAVMLYKIG 104

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot

BLAST of mRNA_P-littoralis_Contig171.55.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G1V9_ECTSI	3.050e-64	95.15	Dynein light chain n=1 Tax=Ectocarpus siliculosus ...	[more]
A0A836CJA1_9STRA	8.630e-45	69.90	Dynein light chain n=1 Tax=Tribonema minus TaxID=3...	[more]
A0A7S2W886_9STRA	2.850e-38	65.05	Dynein light chain n=1 Tax=Rhizochromulina marina ...	[more]
A0A7S1TPD3_9STRA	4.450e-37	61.62	Dynein light chain n=1 Tax=Phaeomonas parva TaxID=...	[more]
A0A7S1CI82_9STRA	4.370e-32	56.73	Dynein light chain n=1 Tax=Bicosoecida sp. CB-2014...	[more]
H3GHN7_PHYRM	2.690e-28	56.73	Dynein light chain n=21 Tax=Oomycota TaxID=4762 Re...	[more]
F0XVB6_AURAN	8.330e-28	54.74	Dynein light chain n=1 Tax=Aureococcus anophageffe...	[more]
A0A5D6XID8_9STRA	2.780e-27	55.24	Dynein light chain n=1 Tax=Pythium brassicum TaxID...	[more]
A0A1V9ZER7_9STRA	3.880e-27	53.85	Dynein light chain n=4 Tax=Saprolegniaceae TaxID=4...	[more]
A0A7S2WLS4_9STRA	4.000e-27	52.43	Dynein light chain n=1 Tax=Eucampia antarctica Tax...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig171	contig	P-littoralis_Contig171:165548..186756 -

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.D7G1V9
PFAMs	Dynein_light
Model size	1172
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K10418
KEGG Pathway	ko04962,map04962
Hectar predicted targeting category	other localisation
Exons	4
Evalue	2.13e-69
EggNOG OGs	KOG3430@1\|root,KOG3430@2759\|Eukaryota
Ec32 ortholog description	Dynein light chain, type 1/2
Ec32 ortholog	Ec-07_003930.1
Description	positive regulation of ATP-dependent microtubule motor activity, plus-end-directed
Cds size	312
COG category	S
BRITE	ko00000,ko00001,ko04812

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig171.55.3	prot_P-littoralis_Contig171.55.3	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig171 165967..167481 -

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


Feature Name	Unique Name	Species	Type	Position
1680789828.8759878-UTR-P-littoralis_Contig171:165547..165966	1680789828.8759878-UTR-P-littoralis_Contig171:165547..165966	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig171 165548..165966 -
1680789828.93211-UTR-P-littoralis_Contig171:167481..167584	1680789828.93211-UTR-P-littoralis_Contig171:167481..167584	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig171 167482..167584 -
1680789828.9403594-UTR-P-littoralis_Contig171:186418..186756	1680789828.9403594-UTR-P-littoralis_Contig171:186418..186756	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig171 186419..186756 -

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


Feature Name	Unique Name	Species	Type	Position
1680789828.8888605-CDS-P-littoralis_Contig171:165966..166024	1680789828.8888605-CDS-P-littoralis_Contig171:165966..166024	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig171 165967..166024 -
1680789828.9052343-CDS-P-littoralis_Contig171:166492..166604	1680789828.9052343-CDS-P-littoralis_Contig171:166492..166604	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig171 166493..166604 -
1680789828.9192894-CDS-P-littoralis_Contig171:167339..167481	1680789828.9192894-CDS-P-littoralis_Contig171:167339..167481	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig171 167340..167481 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig171:165548..186756-
coding sequence from alignment at P-littoralis_Contig171:165548..186756-

protein sequence of mRNA_P-littoralis_Contig171.55.3

>prot_P-littoralis_Contig171.55.3 ID=prot_P-littoralis_Contig171.55.3|Name=mRNA_P-littoralis_Contig171.55.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=104bp
MGEMVPDWAQMWGAKVKMPTDMRDDMLRDAIETCRDALDQCGDFEAEAGL
AAAEKIKKHFDARWDPSWHIIIGRNFGSFVTHETTCFLYFYLADKAIMMY
KAG*

mRNA from alignment at P-littoralis_Contig171:165548..186756-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig171.55.3 ID=mRNA_P-littoralis_Contig171.55.3|Name=mRNA_P-littoralis_Contig171.55.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=21209bp|location=Sequence derived from alignment at P-littoralis_Contig171:165548..186756- (Pylaiella littoralis U1_48)
TGCTGTTCGTCAGCACGGCTCACGAGGAGCAGCGTCCTTCTAAGCGCGCG
AAGCCAAGTGGTGCCGAGGGGTGATGCATCCCCAGACGTTATTCTGCCGC
TGAGGGTGGAGGCGAGACCGGCGCAGGCACTGCTGACTTTGAAAACCAAA
CCTACGCTGATCAGTTTGGAACAGCAGAGAGAGATGGCATGCCTCCTGGA
AGGCGAGATTTTGACTGTGATGTGAGGGGTCATGTGCCTGGGCGAGCTAG
TGGGACGTAGCCAACCAGAACCCTCCTAGGTATAAGGCTGGAAAGGCGAG
AAAACCGGCACTACTGTTCCCAGCTGGACATTGAGGAGGCTGTTTCTTAC
GGTCAACGTTATTTTTTGAAACCATTATTGCAATAACGATGTCACATGTA
CCCCCCCCCGACCTCACTGAAAAAAGAAATGACCCTTCTTGTGGTTCAGG
TTTTCTGTGTGCACAAAAGTCGAGTTTTTAGGTAGCCGATAGGGGGTGCG
AAGTAGTGCCGAATATGCACGGAGCCTCTCCAACTGCATCCAGCCCAGTC
GCCTTCGCTGCTGTGTATGCACACGCCGGCAACACGCGCACGCCCTCTCT
CAGCAGCATGGAGGAAATTTTTCCTCTACCCCTGGTCACTAATGACCTCT
CGGCTATGCTGCTCACAACCATCGGGAATTGTTCCAAGGAGAACTCGAGG
CATCTAGCGATGGTTCAAAACGCGGCTGTGTACTATCAGTGCCTCGTCAC
GAAGCGCAAGATCGGCACCACCAACACCGAAGGACGGGATGCGCACGCAA
AGCAGAACTACCTCGACCACACCGTTCCTGGTTTCTTTGCCTGGTGGAAT
AAGTCCTGCAAGCTGCCGATTCCTACGTGGCTGACGCCGAAGCTCATGGG
CCAGAGCACGCTGACTGACCAAAGTGAGATGCGGAAAGATTTGTAGGGTG
GAGCAGCTGCAGCAGCAGCTGCTGCAGCGCAGCGGCAGCAGTAACAGCAG
TACCGGTACCAGTGTTTGCGTGCCACAAACTCTCAAGCAGGCTCACATCA
GCTATATTTCGCCTCTGTGCTGTTTCAGCCTTCGATTGCGAGTTCATCTG
CTGGCACATCCAATAGGGTTTGCTGCACACATCATATCTTGGAATAACTT
CGTCGAGAAAGAAAAAGAAACAACAGCAGTACTGCTGTATCTGATACGTA
CTCCAGTATAATTTGCTCGTTCCCGAGGACAACAGTACAACAGCAGCAGT
ATATACAAGACCACGCCTCTGCATCACGAACGACGCACATCCGACGAACC
GTGTGCATTGTGCGGCAACACTCGTCTACCTGATTTATTATTAATTATTT
ACATAGTTTTGTTTGTATTGCTGCCCAGTGCTTTGGCTTGTTCATAGCTT
GAAGCCCTTTGCCGAGGGAGACGCTCGAAACCATGCCGACATATCAGTGC
TTGACGAATAACCCTCCACCCCGTTGGCCTCCTCGTTGCGTCCCGTCACG
TTGTTGCCTCCGTGCAGCTAACAGGCTGTACACAGTTGATGGTGCTATCT
GGAGCAAGTACTCGGAAGCTGGCAAAATTATTAAGAGGGACTTCAACCTC
CTCTGGGACAGGTGAGCGGTGATGACGGTGTTCCCAAGTACTTTTGTAGA
CCTGTTTGCCAGATACAATCGACAAATCAAGATCGAGGTTATAGGTCCTA
GCGCAACAGACCTCGTGGTGTGATACGGATGACACGGCAGGGTTTGCCTG
CAGATCAACGCAATGAACATGAATATAGGTACAGGCACCACCCGTTTGAG
AAGCCGAAGACATCTATTGATGAGTGACTAGCGGTCATGTAGGCGATGGC
GCAGGTCCGAGCCCGCATCATATACATGGTCGCTGCAAGATGGGTGACAC
GCACTAAATACGACCGACAAACAGCAGCAGTAGACAGCATCAGGGTGCTC
TGTTTTCTCGTCTGCTTCGCACGTTTGTGAGCCAATGTTGAAGAATGGCT
CCAAATACCACTAATGCCACAAAAGTTTTTTCCGTTTTCTCGCAAAAGGG
GTGTAAACCTCCGGTTGGTCGCTGCATATGTGCCATGTCTCTTGTTGCGT
TAAATGAGCTCCACGAGTAAACGTTACCGCTGCAAGTGTTCCGCCAATTT
CTGTGCGTTCTTGCGTACCCAACTTCACGCCCCTAGCCGCCAAGGTATTT
GCGTGTGTGCCAAACACTTTGGTCTGGCTCTCTACGCTCTCGTTCACGTG
ATGATTGGTGTACATTTTCTCTACTGGTAGTCGACTCGAGGATCTGACTT
TTGTTTTGCACGTTTGACAATTCCAAGTACCACGCGCAGCTCATACTATC
GTGCGTCGGAGCTCGGACCATCTATATCTCAATCTGTTGGTCGAAGACGA
CACGGCATGCTCGCCAGAAAATTTACCAAAGGTTTTTTGTTGTCGAATCC
TCTGCGTTCCGTGTTCGTTGCCAGTTTTAGGACAGCAGATGGTGAACTTC
CTTCAGGACAGCAGGAGACCGACGCCTGGGGAAACCTGCAGGACGGGCTA
TACTACACCTGGAAGAAAGAAAACGAGAAGGTGAAGATGCGGAACAAGCG
AAACAAAGTGGCGAAGAATAATCCCGTGGTGTTGACGGGAGGCGAGGGGA
ACCAAACACTGTCCGGGGAGTCGACGGCAGCCCGGGATAAGGCACAGCAG
CAGTCGGAGGAGGAGGTGGCTGCAGCAAGGCAAGGTGCGACGGCGGATTC
CCAATCCGCCCCAATATCCACCGTGTCGGCGGTGGCGGCGAAGTGGATGG
CCCAGCAAGCAGCTGAGAGCGTGAGGGCAGACATTACCGGTACCAAGGAA
GGGCAAGCGACTCCCATCAAGAAGGAAGGGCAGGGGGGGGGGGGGAGACG
CAGGAGGACGAAGAGGACGAAGATCAGGACGGGGCAAGTGGAGATGCTCA
ACGTGCACGTGACGTGGCTAAATTCGGCGACAGGCCCGACGACTGGATCA
ATCCCTTCAGCCTCGCCTTCGTGTTGTTCGGGCGGCCCGCCGGCGAGCAA
GAGGATGTGGACCTCAAATGCAAGGTGTCTGGAGGCGGCAAGACAGGCGC
GGCAGCAACTGCCGCGGTCGAACCGGGGGGTGCGGGCGTTGGTTCTGCGG
CGAAAGCCCATGGGCTGGGCAGGCACGACCTGGCCAACCTGGATGGGGCC
GGGGGCGGGGCCGGCGGTCAGCAAAGTCGCGCGGCAGTTAAGAAGGAGAG
GCATGTCGCGAACTCAGAGGCAAAGAGGGCGGAAGAGAGTAAGGCCACCG
CTAAGTTTAGGGCCGAGGCCTTGAAGGCCATGACTGCCCCCGCCCAATCT
TCGGAGAGCTCGAAGAGACTGGCCCTTAGCGTGGAAACGCTCACCAGGAC
TGCCGTGCTGAGGCAGCGTCTCGCTGAAGAGGGGGCCGAGGAGAGACGCT
GGACGTTCCGAAAGGGCGCGAAGGAATCCCATATTGCCCACCTCGAAAAA
ATGGGAAAAATAAATACAGAGCAGTGGGATCGAGCACAGGAAGAGCTGCT
GGAGATATTGAGCAACCCCCCGGCGCAACGACGCAGACAGCTACGTTAGA
GTTGTACCCTACCACTACCCTTCAGGGCTCAGGTAGTGGTGCCGGAGCCG
GTGCCGCAGTCGATGGCAGTGGTGGCGGGGCAGGGGGTGCAGCAGGAGAC
GATGGGGGTATAGGAGCTGCAGGCGGTACGCTGGAATTTGCTGGTGAATC
GGCGATATGAAACAGCCGGGGTGGTGAGGTTTTGATTTTTTTGTTTAGCT
GGAGTGACAGGCAAAAGAGTGGAGGCGGGGTTAAGGTCTTATTGCGACTG
TCACGTGTACGGTAAACTGGTATTTTCTGATGTGTTCGTGTTATGTCGAA
CCAACATCTGTTTTTTTTTTCGTGTGTGACTGCTATCGTGTGAAACAACA
CCAGTTGTGAGAAGAGGGTACTGATGCGCCGGGTCGCACCATTTTAATAC
TTCGTATATTTTATCCATGTTTAATGCTGCTAAACTGCGTGCAATAACAC
CAGTCGTGATCCATCTATGCCGGCATTGGTATTCCAGAAGGGGTCAGCGA
CACGCAGAGTCGAACCGAATTTTTTGTTTTTTAGTGTTTGACTGCTTCTG
CGTGAAAAACAATAGTTGTGTGTTCGTGTTTACTACTGCCGCCGTGGAGA
ATAACTGGCGGTGGTGGTTGACGCCACGTTCTTTTCGTGAGGAGAGGGAT
TTGATGCGCAGGGTCGAACCGAAGTCTTTAGTGACAGAGGAGTAGCGGGA
CGTGTGGTCGAGGTGAGATCTCGCTAGTTTTTTATTTTCGTGTTCATAGT
CGTGTGAAACAATGCTGTTGGTGTAAGACTTTTGCGCATGTGTTTTTTTG
CGCAGCGCGAGAGGTATTCTGCCAGGTTCCCACCACAAGGTTGTGTATTT
GTTACCTTTGCGAAGATGAATCACAGTCGAAGCTGACACTGTTTCCGAAG
TGTCTGCGTGTATTTACTTCGGCAAGCTTCTCAACGGAGTTGCGCACGAC
GAGTATGCACACAGATACAACACGACGAAACGTTTCATCAGAGTCCTCTT
TCGAACTGGGTTTAGTTACGTGTTTGCGAGAGTGAAAAATGTTTCGGCTA
TGCCACCGCAAAAATCAGGGAATTGGACACGATTCAAATACATCTCGGTA
CGCAGATAAGAATCGGAGCAGTACATGTGTCGTGCGAAACAAAAACGTTG
CATACCTGGTACTTCGTGCAACTTCAAGTGTCTTATGTGCACTTTAAGTA
CAGCAGTATAGAATACTGTCATGTGAACCAGCATGCCCTCCTCTGGGCGT
TTTGCGGCTGGTACACTGCCTGCCGCGAGTGACCTTCAAACAAGAGGTAG
ATGCAAGCCGCAAAATTTAGTGTGCAACAGGTCGTCGTGCTAGATAAAAT
ACATGATGGGCAGACCTACCACCTCCGTTTTCATCGATACGCTCTCTTTT
CGTGCATCATCATCGGACACAAACAAACTGGAAACACCCACACAATACAG
CAGCAGCAGCAGCAGCAAGTAGCAGCATCCACCGCCGAGCGCTACGGACT
GACTGCTCTAGTCATGATGAAGCTTGGTTGAGGGTGCTATCTAGCAACCT
GACACGACGTCCGCGCCGGCAAACCTCGAACGGTATCGAGTCATGATGTG
TCCAACTGGTGCCTATATGACGTACACGTGTTGTGTGATTGGGTCTGTTC
GATGCGGGCACGAAATATATCTTCCAAATGGATCTAATCTGGGTGATTTC
CGACACATTTCCGACACATTTGGTCAGATCTTCCCGCGAGTTTTCTTCGG
AGAAACAATTTGGGCCCAAAACTGGTCGTGTCTGAAACATTTTCACTTTC
GCAAACACGTTAATAATAATATAACAATACCCCCGCATATCGAATCACCT
TTCTACGTGTAAATGTCTCAACAGCAAAAAAAACGAGAAACACCGGTGAT
TCGGTTGGTACACGCCAAGGGTAGGCCCCCCGATGCGTTTACTCGTAAAC
ATATCTCATATATCCAACGAAAACAGATTGGGTGTACAAAGAAATGCGAA
CAATACCCATACCGTTGCGAGTAAACGCCCCGGGGGGGCTATATGGCTTA
ACAGGAAGGAAAGGCGCCCCGGGGGCGTTTTCTGGGAAACGTTTTCGGGT
GCCAGCGCCCCCTGAGGCGATACAAAAAAAATACCGAAAAATGCCCCTGC
CCCGCAGGGCGTCACGAAAAAAAAAATGCTACCGCGGAGTCTGCTACCAA
GCAGACTGGCCTAGAAGCTGTAAGCTCGGCCGGTTCTCTACAATAGCTAC
GAAGCAATCGTCACATGGTCATCAGTATACCGTAGATTGCCGGCACATTG
CCGGTATGGCCATGATGACAGCATTTGTTTACACCACTGTCTGTAGCTGA
ACACAAACGATACTACGATACAACCCGAACGGGAATACACCGTACACGGG
GTGACATCCGTTGTTGCCTGCTTCGAAATGCTTCGAAACAGCCCAATTCA
CCTCTCTCCCCATCACATGGCAGCTCCGCCCCCCGGGGCGTTCACCGCAA
AAATGCGAAGGGGGGGGGGGGCGTTAACAGTGATACGGGACGTTTCTTGC
GTCTTTTTTAGGGGGGGGGTTTACACCGTAATTAGGGTATTTTCGCCCGA
AAAAAGGCGGCCCGGGTCGTTTACTCGCAACATTACGGCATCACCCTAAT
CACCTCAACTCTACTTGGGCCTAGAGAGCCAGACAACGTCATTGTTTTTC
TTGCGGTAGGCAAAACTCTCGATCAGCTGGCCCTTCAGCTTTGCATGTTG
CGGATTGAACAAGTACTCCTCCGGGTCGGTTGCCGGCCTCGGCCCGACCG
ACGTGAAGTCCGTGTCTGGGGCGTGGTCCTTGGGGTCGTGCAGACCAGCG
CTGCCTGCCCAGTCGACGTTCTCCTTGAACACGCTCATGCCGTCGAAGGA
GTGGAGCATGTTGTGGAGAATGCAGCACGTGAAGAAGATGTTATCGATGT
CTTCCCTGCAGTGGTAGGCCAGGCGGAGCTTCAGGATTCTGAAGCGCCCT
TTCAGAATGCCGAAGAAACACTCCACATCCTTGCGCACACTCTCAAGCAT
CTTGGAGAAGGCCGCGTCATCCACGTCACCCGGGTACTTCGATGGGGCCA
TCAGGGTGACCCACTGTTGATTTGGCACACGACGGCACAACAGTAGCAGG
GGGGGGGGTCGAAAGGGACGACTGGTGAGCTACGGAAAGGCTCTGGAAAC
CTCAGGCCCCGACGCACATATTTTCACGATCAAACTCCTCGGGGGAACGA
GGAACCGTGTCGACATGTGGGCAACACAGATGCCTACAACTTTGTACTTC
GAAGTACAATATTTGCCATCTGACCACCCCTGAGCAGATTTGTTTGTTAA
AACCTTTGGTGTTATAAATGGGGTGATGTATGCTCGAAATGTAAAAAAGT
GAACGCAACCGTCCAAACGGAACCAGCACGAAAACAACTACAAATAGAAG
GAACGCGAAGCGGCAAAACGTTTTTCACCTTGGTGTGCCGCTGCGTAAGG
TCGACGCCCGATGCACGGGGCCGACATGCCATAAAGATCCTCATCCAGTA
CCGACAAATATGGCATTGGTCTGCTTTCGGTGTACCGGCGTGTATTTTTC
GGGCTTCACATCAACCCGAAGCGTCACGGAGCACGCACTACGTTCGGATA
TTCTAATACTCCCCACGCCCCCAATACACTCACCTCGTGATAGCCGTTGT
CGACGATCAAATAGCATCCTTTCCGGGTGAACTCCGTGCCATCCGCCTTC
CTGAGCTTGTACTCTCGATCCTTGTACACTTTGTTGTTCCTGATGGTCTG
TACGGCTGCGTCGTAGCGGACGATCGTCTTGTCGTTGGTCGCACCGGTGA
ACCCTTGGGTGACGCCAATGGCGCGGCCCGCGTGGTCGACGGTAACCTCG
AACGCCAGGGTTGGAAACCCCTCCTTGCCCGTGAAAGAACGGCCAAGGGT
GAACGGACACATGCCCCAACCGACGTGAGTGACGTCGGTAGAACCGATTG
CTCCAGTAAAACCCAGTTTGCGGTAGCAGTCCATCACTTCGTCTTGGTAC
GTTCCTGTTGGAAGGTAGATATGCTCCTCGAACATCTCCTTCGCGAAGTT
CTTGCAGAACTTGTGGAACGTTGCTGCCGCCATCGATTTGCTCATTAACG
ACAGCTGGTTGATGTCGTCGAAGCAGTTGCCCCTGCCGAGTATCTGGAGG
GCCGTCAAGATCTGTCGAATAATGTCAGGGGGGAGGGGGAGCGCGCGCGG
CGGCGGGGAGAAAAGGGGGGGGCGGGAGTGTCCATCAGTCAAGTAGTTGC
TGTTGCCCGATTCGCTCGGCTGGACAACTACCATTTTAAGTAGTCCGTGT
ATACGAATCAGGCAGATACATGATTTCGTATTACGGATGATGTTTTGACT
TTCACATACACACATCGTGACAGCTGTTGTGTCGGAATAGCGTCACGTGG
TGGCGCAGCAACGGCATGTTTTATTTTACGTGAAAGCGTGATAAATACTG
TTGTGTTGTGTTGCCATCCCATCTATTCTGCACGCCAGTCTACAGCAGTA
CAGCAGTCATGTATGGTTGCATTCCCGTGTTTCCGCACCCACTCGACCCG
AAACGACCAATCAAGAAAGGTTCGGAATATAAGTACCTCGTAATAACCAC
CGACCCAGGAGTGGGGCACAGAAGAGTACCCAAAAACCTGCAGCGGTATC
TTCGGCAGCATCAGCAACACACACTGCTGTGGTGATATCCGTCTGCGGCA
CTTTGTTATCCAGAATAAGTTCATTCGCTAGTCCTCGTCGTGCCGACCCA
CAAAAATCGTTGCGCACTTGATTGGTCTCGCATACCCTACAGCTGCAAGT
GCTTCACAAATATACCGGCCCCGAAAGGCATGCAGACTTTCATCAGGTGC
AGCAGTTGTGCTGCAGTCATGAGGTGGACGGCGGTGTGTGGACAGCAGTT
GTGTGACGTACAGCAGTGGAAAGCTGCTGTATTTTGTACTTGTACACATA
CCATCTATATTATTTTCCAGTATGTTATGCTTCGTACGAAGTGTCATTTT
CAAGCGCACCTTGAGCTCTACTGGGATACCCTCACGGCCTGCTGCATCCG
CTCCTCCGTCTGAGAACCACTTCTTCTCCCTCGACAGCTCCACCAACCTC
AGGAAGAAGGCGTGAGGCACGCGAAAGCGCTCTCGGAATACCTTCGCCGC
ATCGGACGTGGGCACGGCAAGTTCTTCCTCCTGAAGTTGCGTCCACCAGG
CAGACTGCTTCCAGTTCTTTCGCTCCTTGATGTATCTCGTCCGCTTCGCA
CGCGGCACGTCGTCGTCATCATCCTCCTCTGGCCACAAAGTAGCAGCACC
CAACTCCTCGAGTACAACAGCCCACTGTGCCATCGAGCGCACGCGTGTTT
GTCGATCGTGCTGCTCGCTGTGGTGGAGAGCGGCAATGGCAACCGACAGA
ACTGTCGTGGCCAGAAGGTCGTCACATTCGGACGGCTTCGGCGGCGCCTG
CATAGCGAAGTGCGGAGGGTGTCCTGGCAATTGTGCGGTGCTTGTCGGCT
GCGAAATAAGTTTGAGGGTAGCCCCACACGCGAGGAAGGAGGGCAGCCAC
ATGCTCTACAGCTGTACTGCTGTGCTGTTCCCGCGTTCCAGCTCTGCTGT
AGATTTGAATTTGTTGATCTCGCCGCCTCTCAGACCCTCGACCCCCCCCC
CCCACACCGAAAACCAGGCAGACAAAAAAACGTTGATCGGAAACGTTTTT
CGGGAGAAATAACGGAGCCGATCGAGATTATTCTGGCCGAAACGTTTTCC
GACCCCCACGATTTCCGGGAAAAGGTGGACCGTAAGAAGCGACGAGAACG
TTTTTTGAGGGGGGGGGGGGGTACCCCCTAAAACCCCAAATAACGTTGAC
CGTAAGAAACAGCCTAAGGATGTACAAAAAATGTACAGCAGTATTATACA
GAGTTCAGTGTCGTATCATACGTATGAAATACAAGCTTGCAGCGTTTTTT
TATTTACACTTCGCAGTTACAGGAACTGGGTACATGCAGTACTTCGAAGT
ATCTTATGATATGATATGATATCCTCCCTTTTCGTTTACGTTATATCGTG
AGTGAGAATTTTCGTGCTGCTGCACGCTCTGCACTGCTGAATAATCAAAG
AAGATCCCCATATATATGATATCATACGTAATACTTACCTGGGGGGAGTG
TTGTTGATTTTCACATTCCTTGGGTGTGTACGTACGTCCCATTTATTCTG
GCGCCAGTCTTTCTACCTTTCGGTGAAATCCTTGTCGTTCCGCCGTGGTC
ACACAAGCGGAAGGTCACACACTAGATTTTTTTTTATTGCCCACACACCT
TTCCTTCGGCCGTGCTTGCCTTTGATTTTGAGTGCTAGAAGAGTTCAGTG
ATCCCTTCCCTCTGTTTACTCACGAATAAATCGCTTCCCACTATTATTGT
AAAATTCAGCAAAACCCTGTCAGAGAGAATCGAAGCTGCGACCATTGCCA
ACAGGTAGTGTGTGTGTGTCATCCCACTAATTGGACGCCACTCTTCGCCC
TTCGGGTAGGTAGACGCTCCAACCGGGGTCACACAGTAGGAAGTCTACAC
AGGAGTTTTTTTTTTTTCTCCACTTCCCACTGCGGTACTTGCCTAAATTT
TTTCTTGCGAGAAAGGGTACAACGATCCCTTTCCCTCGTCGACACTTTCG
AATTTCGTATACTCACGAATTAATCGCTTTCCACCCTCACGCATGACATG
AGAAAAATCCCGGATCGTGTTACTGCACCGGGGTTCGGACTCAAGCGTGA
GTATCAGAGGATTTCGTGGATAATCAACTAAACCACCGGGGCGACAGGTG
GTAGTGCATCGTGTTATTTCGGTGGTACAGCACATAAATAGCAAAACTTA
CCCCCGCCGCGGCTTCGCGTTTGTACAAAAGTGCACCTTTTCTTACGCAG
TTTGGCAAAGTCACAGAAAATTCGACTATGACAGACAACAGGAGGAGTGT
ATTTCGTGGACCCACACGCCCTCGCCCCGCCCTCCGCCCCTCGTTACCCG
TCCCACAGGATGTCATGGGTGTGCAGAAAAGCAGGGAACATCAGTGTGGC
GATAACGTAACTATGTTGCGCGGACGTGCGGAGCAATCTTCAGTAATACG
CGGCCCTTGAGATCGGGCATAGGGGGGGAGGAATCAGAGCCAATGCGGGA
GTTGCTTCAAAACTGGCCATTGATCTGTTCTCTGGCGCTAAAATGGATGG
TGTCCCCCGAGAGGTTATGCTTGCGTTGCTGAGACACCAGGCTTGCTATA
TGGCTATCCTTGCTGTCATAGAATATTGAGTCAATTGCGGGCTATAATCT
AGGCAGAGTTTTGTCACGCTTTGCGTGCTCGTTTTCCGTGCAAAGCTTGA
AGGCACCCGTAAAAACAGTACTAAGATCACAAGGGGGGGCTGATGACAGG
ATGGAAAACTACAGCAGTACAAGTATGGTGCTTGCGATGGGGAGGAAACT
GAAGTAAAACGTGCGCATATTGATGATGATGGAGGGCTTCGAGGGCGTGG
TTCAGAAGCAAGTGTGGTCAGCATCTAAGGTGTGACTTGGCTTGCATCCG
TGGGCATCACCGAAAACACCAATTTTCTATGTTTGTCGCCCCCAAGAACA
CATGCATGTTGGTTCACCGGAAAAAAAAACACGTCCACATTGGAGGTGGC
TGCACCTTTTTGCCCGCATTCAGAGATATGTTGATTATCTCATGTCCCGT
TGTGTCGAACGCCCCGCCCCGTTTCGTAGTTATTTTTCCCCGATATTTTA
TTGCGTCATGTTGGGCATACTTTTGCCCAACGGTCATATAGCTTGCGAAT
CGGAGAAACGTCACCAAGGCGCCGGCCACCAGGGTTGCCGTTCGCTCTTT
CTTTGACGAAAGTCGACGATTGTTTAAAAATATTTCACCTTCTTTTTGTG
TTTACGTCAAAAAATAGGGAAAATGAAATCATCTGCTACGATCATGCGCT
TGCTTGAATCAATCGTGTGTGCTTTTTTTGCGTGGCCTGAAAAAAGAGCG
TCAGGTTTGACATGACCAGAGCAGCAAGGCTTTGCCTGTTGTGTGGCCTA
GAAAAAATCGCCATGTTCCGTGCGAGCTACTCGTTGCGACGTCTCGTTCA
CACAAAACATGGATGAAACAAACGTCGAATCGAAACTCCCCTTTCAAATG
TACTATTACCCTGTCTGCTTCCATACAGAAGCAGGGAAGTGGAAAAGAGG
TTTAGAGTCCCATGGCCCTTCCAGCCCAAAAAACGACCAATCCACTTAAT
CGCTCTACACCTCTATGTACACACCCAAAAAATCACGGCTTCACTATACC
AATGCTGGTTTCATGAGTCCACACACAAACAACCTACAACGCCCGAGTGC
CGAAACGTGTACCAAAAAAAAAGAGGGGACATGCACAAAAAAAGCTGGAA
GGTCTGTAACCGCGCTTGAGTTCTTAGCTCAAGGTAGGCAGTTCGAGCCG
CACATTACAGCGTTGGCCAAATGCCCACTTCAGACGTACAGTATGTCGCG
GCAGCCATACTAATATACCAGGTATTCAGTGTACTGCCGAGGAAACAAGA
TACGACACGAAACACGCGGTGGCTCTTCTCACCCATCCGGATGCCACATA
CGTTAGAGTTATCTGCCATCTGCCACTCCCCCCCACCGCGGTCCACTCGA
GGCTCGCCACGATCGTCGTCATCCACCGAATCGCTTGCATCGCTAGCGTA
GCTCGAATCGCTTGCCTTCCTCGATTCGTCCGAAACACTCTCGTGTAGCT
CTTCACCGCCGCGCCGTTATCGCCGGAACCCTCTGCTGGATCAAAAAATC
ACCATCCGTAGTACATCGCCCTGGACACACGCCAACCTGAAAAGGCGAGC
AACACCACACGGACACAGTAGGACAGCGTGAAGAACACATATGATAAAAA
AAAAACGTTCGGCAAAGGCATAGCGTATCAGCGAGAGCACAAAAACAATT
GTAGTCTTACATAGATTCGTGGCAGACAACAGCACCGCGCCCCCCTCGGC
CCACCCTGCAGCAACCCAATCTGGTTATTTTTTCGCTGACTACACTCGAC
ATGAATCTCCGAGGAATATCAAAAAGTTCATTCGTCACCATTGCCCCAAA
CATTTTTTCTACACGGGGATTTTTCTCGGTAGCCTCGGGCGCGTTCCCAG
AAAACTACACATTTATGAGCGAGTGAAGTTTGACATGGTAATGTAGGCAA
GTGTGATGGTGGCGGCGCAGCACGGCATGATTTCTATAACAACAGTAACT
TTGAGGACAGCAGCAGATGCTTGTACAAATACTGTCATGCATACAAGCAG
CAGGCACATTCCACTGCTGCTCCTGCTGCTGGTGCTGCGCGCACGTACAG
CAGGCGAAGCAAGTACTGTGCCGACAACTGATAACTGCATGTGAGCGTAA
AAACTCCAAAAAAAATCATCCAAGAGGTACAACGTACCGTATATACCTTT
GTTGCGTAACCTCTGAACCATGTTGGGTGTCCTCGCCCATGGAGGCAAGA
CAACTGCCGCCCTCCCCTGGTGTGATGGCGGGTGCAACAGCAGCCTTGGG
CCTCGTTTCTCCAGCTCAACCATCCTCTGGGGTTGTGTAGTTACCCTTTC
CCTTCTTCTTCAAGACTGGTTTTCTTCACTCTTTACGTACCAACAAAGAC
CATCCACCGGACCCTCTTGCCAGCTGTCAAACTCTAGTGGCGATACACAC
CAGCTGTAGATAGATCCTTGGACACCGTCCTATTTCCCTCAGATAAGTCC
CCGGCCCAGTGCCTGAAAATATGAACCAAGCGCCCCAGCTTCGAGCCCCA
ATGACCTCTGTGCGTCTTGCTGCTGGCGGCAATAACCGTGTGCCGGGACA
TTGTACAGCATCGCTACGAGGTCCAGAGGAGGAGGGCCATCATTCGCCTT
GGCTGCTGTGCCCGAACCTGCTGCTGTCCTGCTACCTGCACATATAATTC
CCAATACAAAAGTTGACAAATAGTCGAATTTTAGGACATTTCTAGGTTTG
CGGTATTTGACTTTTCTCGCTAAGGTATAATCTGTGACGAATGGTTTGGT
TTTATACTAGTACGAATCTATTTGACGGTCTGTGATTTTGCGCCCGAGGT
TTAGAACCCACACACAACTATGACACCCCTGGGGCAATTGTTGTCGGGGT
AATAGGCGTGCACTTGCCCGAGCAGAAAACCTTTACACGCTAAAAAATCG
ATTTCTACTGCTGCGGTGTACACACTCTCTCGCTCTCTGTGGCGTTGCCT
CCGTACACATCAGGTCCACTACATTTTTGAATCTCGCAGGTTTTTCAAGG
TCGTAGGGGGTTGTCTACGCCTCTCAGCTAGAGTTTGATGGGCATCGGGT
CGATGCGCTTTTATCGTGGGGAAGGGTACCTAAAATATGATACTTTGGCT
CGGAATCGGGTTGTACGCAACCGATTGAGAAATCACAGACGAGCGAAGCG
CTTAAAATTACCCGCCGGTGGACTTAAGCCACTAAGCATCGGTAACAGCT
CTCAGTGAGAGCAGAACTCAGAGAGACGTCTCTTAGCTGCCAGACTGCGG
TGTTCTAACTTAGCTGGTCGGCATGACAAATACGTGGCTACCCGTTCTCG
AGCCACAGGGCACCACAGCCAGCCAAACCTTCACGAAGGACTTGTGTGAG
TACCTAAGTAACAACCTCACCTTCAGGAGTTGCCATGCTTCCGCCGGGAC
AGACGGCCTTGAGGACCCTCTGGAGATGAGGACGACTTGGTCGGGATTCC
CTCTAATATGAGCTCAAATAGAGCCCTCTGATTCGTCAGCAACAGCAGTC
TCGTCTTTTTTATCACTATACTTCGAAGTATTTTAGATGAAACCGTCAGT
TTTTTTGGTCGAAATGTGGCTCCTTTTTTTGTTTGTTTCAGGTATTCCTA
CGGTAGATAACACTCCCACCGTGGCCTTTATTATACACACACGTGTGTAT
ATGATACGGGTCTCGTCTAAAGTCTCTGACATGCACCTATATCCGCTACG
GCAACGAAATGTCGACAAATACTCGGAGTATAAAAAAACTTTGCCGATCA
AACACCGCTCCACGTCAAACACCCCTTCACCTTTTCGCCGCATTTTCTCG
GAGAGACAAACTCGGTGGAGGTGATGCCGGCCCACCTCGAGTCTCCCTGC
TGCTTGTCATAGTTGATGACCCTGCTGTAGTCGATCATGGCGTCTTCCGG
GGGCGGCAACCCAGCTCCGAATCTAATTTGTACAGTTCCGCCGGTCCTCT
CATCATAACAACATTAAACACCCACACCTTGCCCGAGCCTCACTTTCTTT
CTTTTGGGGCATGGAGAGGTTCGGTTACAGGCTGCTAACTATGTAAATCG
TGTGAACAGACGTAAAGTGTAGCGCTTGTCGCTAGGACTGAACACTATTT
TTGTTCTTTGGGCAGCATCAGCCTCGGTTACTCATAAGGGATACTGTTGT
GATCGTAGGGGCCCAGTTTTACGGGGTGAGTATCATGTTTTTCAGGCCCC
CGACGTTCGCCAATATAGCACGTGGTCCGACCCCGCGGACACGAATACTT
CCCGTGTAGTATCTCTCTTGGACCGCCGGTCGTGGTCGTAAGGCTTGTTG
TTCAAAACAAAAAAGGACGAACGCGTTGTGGTATGCACTTTTTCCAGGTG
TATCAACACTGCTTTCTGCCGACGGCCTGATATGCTGCGAATACAGTAGG
CGCCCGCTCGTAAGAAAATTTTTTATACGAAAATGAAGCTCACCTGTCCC
CGAAAAAAAAGAAATTCGGGGTAAGAAATAGAGCTCAGTCGTCGATCCTA
CACTAAACACTATACAAAGACTTTTGGCCACCGGTGGTGGCGAAAGAAGA
AATTGAGCCTCGACCCAAATTTCACGTTTCTTGTCAGCGGGCGTCTACTG
TAATCACCAGAGGGAGGCGACTCGGGGCAACGTAGCTACGTGAAGCACGC
ACCGGGAGGGTGAAAGCAGGACATCAAACCGGGGAAAGGATCACACATAC
ACACCTCTTTGGTCGTTGCAGGACACCGTCGAGCATTTGCTGGTGTGCGT
CAGTCCGGTACATGGCGTGGGGAAACCCCGCAGGGAGTGTTTGTCCCGGC
TCCTTGTTGAGCTCGACCCAGTTACCGCACTGTGCGTGCGTAATGTTTTG
GCGGGAGAGGTCAGCTGCTGTAGTAAGAGTAATATCGTGTGTGAAAGAAT
TGTGACAACGGCGCGAAATGTGAAATGGCTTCGGACAACGGAACCCTCAT
GTGATCCTGGATTCAAGCTACCTTAGTTCAGTGTAGCGAAGCTAAGGCGC
GGGCCCAGGTGAAATTGTTTCGGGTGATCTCATTTGAGCCCTCGCCATAA
AGAATTCACGACAGAGCGAACCCCCCTGAGTCTCTTCTTCGATGCGTGTT
ACTTGGCTGGCGGCGCTCGGAGCAACTTATTTTAACTTTCAACCACCACC
GTAAATGGCACCGTGGTACCTCTGCCATTGCGGAGATATCGGGCGTACAG
TCACCCCACCACGGGGGGGTGGCAGTCCACGTCTACGGCGCGTGGATTTG
TCGGCCTTGTCACCCGAAAGTAAGCCGTATACGTCGTGAATCTTACAGCA
CATGTTCTTGTTTTGTCGTATGAATTGGATGAAATCCAGGTACAGGTGCG
GATGCGTAGTACAGGAGTAGGACTCCCCTCCCAACTGCTATGTACTACTG
CTGTACAGGCTGTGGAACTTTGGGAGCGTTTGACAGCCTCCGTACGCCGC
ACAACACAGAAAGGTGATGGAACAACAGCACTCCCAAATGCTTCGTTATC
GTCCGCACCTATCAGTAACTGCAGCGGCAGTGCAGCCGCACCGACCACAC
CGACCTCGTACGACCTTCGCCGTACATATCATACTTCTGACCATTCGTGT
GTACAGCAGTGTGTTGTCATCCCATATTCTCTGGCACGCTAGTCTGCACC
GTGCGGTTCAAACTACAGGCTAGGTCCATCGACGGGGTCACACAGGAGGA
AGGTCAACACAGGAGGAGTTACCCCCACCTTCCTTCTGCAGTACATGCGT
GAGATTTTTCTCGCGAGCAGGGATCCGCGGTCCCTACCCTCGTCGGCGAA
GCCGAATCTGCTTTTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAGGA
ACACATTCACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAAC
GAGGGGACCACTAGTCCACCGGGGCGACCGTATTCCTCTTCAACAGCTCA
CACCACTCGATTTGTGGTGCTTTGCACATCTACTTCAAGTACTTCGAAGT
ATATTTTAACATGCATTGGTAAATAGAACAGCAAGGTTTACTTGAGGTGC
CTTGTCGTCCCATCTATAGTTCTGGACGCCAGTCTACACCTTTCGGCAAA
AAAGTAAGGCGCACCTCAGGCGGTTCCCGTTGCTTTAATTGTTGCGTGCA
GAAACAGTCCCAGTTTACCAGGATTCGAACTGGCGACTCTAGATGTCAGC
AGGATTTAAAGTTACGAATTGAACCATCAAGGGTAGACTAATCGCCAATG
CCACAATTTATCTAGCCCAAACAGTAAAAGAAGGTAATATGTGCCCTCAT
GGTACCAACTGCCTGCTGCATGTCGAAACGTGTTCCAAGTATCCGAAGAA
CAAGTAAAATGTACAGCAGTACCAGTGCTTCGTACGAGGTGGTGTTGTGG
AGACCATTTTAATCTCTGCTGTCCTGCTGTACACAGACAGGTAAATACAC
GCGCACCTTCGTTTTGGGGCCATACTTTTTTTTTCCGCCCCTCAGGGCGT
TCGATCCCCCTTGCTGTAAAGCCAACATCACTGGAAATCGGTGCTCGAGC
CTATGGTACCTCCTTCCAATTCCTTGCTTGCTCGTGGTGTCTGCCCCCTC
TGCCTTTTTTACGCATATCATACTTGCGCGCATGTGTTGGCGATGTCGTC
GAGAAAGTGCGGCGCAATTACAGAAAATGAAACTGCCGAAATCCTCCGTT
CGGGTGTTGTACTCTGTAGCGGATTTCAACCCACACATTTCAACGCCAGG
AACAGTAAATCAGAAACAGGATCAACTGCAGCGGCGCAGGAAAGTCACCG
CGTGATCAGGGCTCATCACGCTTGAGGTTTGGGAGACGGCCGGTTCAGCA
AATTCGAACGTACCAGGGAATAGTTACCGAGAAACGCGCTGTCTGTGTCG
ATCCAAATACATACTCCGGAGTATCATATACTGGTACTCCGGAGTAGTAT
CTTGTTTGCCTGAGCCATGTGCACTGCGTGCAACAGCCGCGGCCGGCAAT
TTTGTGTATGCAAATCCATCCCATAGAATACAAACCACGTAGTAAAAACA
TCTTTCTCGCGCTTTGCTCCAGTGTGGGAAGGCGCTTTCCGCATCCGAGT
TAAACGTCGTGTGTATAGAATGACAGACTCTACGGACCCGCGTTCGATAT
ATAGTCTAGCGAGGGAGCCGACAACGAAAACGCATCATGGCCGTGGTTGG
CTTGGGCAGGTTGGCTGCAGTACGACAGTTTGAAAATGGTCAAGACACGA
TACTGCCTGCACCAATGGTAAATGACTACAGTATAGAGCCGGCTCTATAG
TCATTACATTGGACTGCACCTTTCTCGGGGGCTCCGTGGTGTTGCTCTGA
AATTTTGTAGGTACTGTTGATAGACTAAAGCAGGCGGGACCAAATTCAAA
ATTTAACAACTGCAGTAACGTGATTGATCGTGAAAGCATCGCGACTATGA
AAAGCAGGACAAAAACTGTAGAGTTTCTGTACTATCTCCAGTTGGTTCTT
CTACAGTGTTCTACAGTGTTCTTTTCTCATGGATTGCGATCCATACCTTG
CACCACGTGGCACCATGTGTTATGCGGGAGGGTTGAGTCCGAACTGGGAG
CTGTCGACAGAGTAGCCAAAATATATAAACAGTGGACCAACAACAGTACG
AGACCCTGTACGGGTATCATACGCGCGTACCGGTACACACAATGGCGCAC
AACCCTCTTCTGACAAGACATCGAGCTTGAGTCAGCATGACTCCACTGTA
GTACTGCTTTTTGCGCCATCTTCGCCATTGGCGACCACTGAAGTTCCCGC
GCTCCTTTCCACGACCCGCTGAAACGAAAAAAATTGGAAGGCGAGAAGTC
TTGCACTTTGAAAGCGTATGTAGGTGATCTGCTCCGCGATGTGCTCGTCA
AAGCACTCGCAAGCATGGAGGACGGCCAAAACAAACGAACACCGATAGAA
GACTGTGCGCGATAAGTCTGTGAGGCAGCAGGGTAAAACACGGAAATAAA
ATCACCTCCACGACATTTTTCCCCCACAACACAGCAAGGACAGGTGGGTA
TGTCCAACACTCTGTGGTGTCATAAATTCACCGTTTCCGGTGCTTTCACT
TTCATGTTGCATTTTTGCCGAATTTCTTTCGGGTGTCCCTCCTGATTTTA
GTCTTTGCACTCTAAGAACTCTTCTTACATTTAGAACACAAGTAATCCGT
GCCGAACCCTTGGTATGAGCAGGTCGCGCAGGACACCCTGTTTCCATTTG
ACACCAACATTTCTTCCTGGACTGGACAAGCAGTAGCAGCGGCAACATTA
GCGGCGGCAGCAGCGCAAACGAACAATGGGGGAAATGGTGCCCGACTGGG
CGCAGATGTGGGGGGCAAAGGTCAAGATGCCGACGGATATGCGCGATGAC
ATGCTGCGGGATGCGATCGAAACGTGCAGAGATGCCTTGGACCAGTGCGG
GGACTTCGAAGCCGAAGGTATCTTGTCACGCGCGTCTCATCACCCACACG
CAAGGCGCCAGCCAAAGCACTCAGCCGAGAGATACAGCACGCGGTACCAA
GTATCCCACGAGATGTTCCAAACCCTCTCTTTGCGGATAACAATGTGGTC
AGTCGAGTGGCCCTTTCCGGATGAAAATCTCGAAAGTTTCACACCACTAA
CAATTTTGCTGTTCTTCGAGCGAAGCTTTCACAGCAAGACGTACGAACCG
CTACCGACGGCGTTGCAATCGACGAACACCTCGCCCCTCTTGCTTTTCGT
GTTTCACGCTCTGAATGAGCATCCACGCATGAGGGTAAATTTTGTTTTGC
GGTCGAACCCTAACCTTTCGAGACAGAGGCCGGGGATTTCAATCCCAGTA
AGAAATCCCAGTAAGCTTGCTTATCTTTCTGTGGAGTCGTCAGGAAAAAT
GAATATTCTATTGACTACCAGCAGCAGTTGGCAAGCGGCGATAATTCTCA
GTCAAAGGGATTAATGATGTGTTGGAATGCGGTTGGTATTCGAGCCCCGG
GCAGACGATATTTAGGTTGATTTCAGTGTCTTCCCCTCTACCGTTTATTT
AATTCCAAGCGTTGACCCAGATGGACGAGAACTGAAACTGCTGTGCTTTC
AAGTATTGCGAGTCCATGAACTACACGCAGAGAGAGAGAGATATAATGTA
CTAGACTCAACCTCTTGCTAATCCGTTTACCTTCGCTTCGCTGTTCTGCG
AGCAGGGCTAGCGGCGGCAGAAAAGATCAAGAAGCACTTCGACGCGCGCT
GGGACCCCAGCTGGCACATCATCATCGGTCGTAATTTCGGCTCTTTCGTG
ACTCACGAAACTACGTGAGTGCGTTATCTCTCTCTCTTTCTCTCTCTCTC
TCCCTCTCTCTTCGCTTTCTCTTTCACTGTCTGTATTCTCTGTGAAATAG
ATCACACAGTGCCGAAGAAAGTACCGCATCGGTCGAGAACAACAAACACA
CTTGCAATCTCAATCAGTCAGCGTAGTGGGGAGAGGAGTAGGCTGATTGG
GCTCAACTCATTTATTGCTAGCACTGCATAATCATTTTTCCTTTTTGTGT
GTGGTGCAGTACAGGGAAGGAAGCCCCTATTTTTGTGCCATCCATCTCTC
AAGGAAGAAGCGCAGTATATTTTTCGAACGGGGTGATTTCGAACAGATGA
CATAGGCGGCGGCACCGTGTACATTTTTTCCTCGCCTTCTCGCACCTCTC
ACCGTACGTTCACCTTTTGACATTTTGCTGCCGCATCCAACATTTTTCGC
CCGCGCCTGTTCTTTCTGTGGGTCGTTCGAAGGTGTTTCCTGTATTTCTA
TTTGGCAGATAAAGCGATAATGATGTACAAGGCCGGCTAAAAGCGAGCTT
TTTGCATCGCGTGCACGCGATCGGCGGACGGAAACTATGCGTGCATACCG
ATGACGCGATTTCCCTCCGCAATTAGATAGGCATTTTTCAATTGTGAATG
AGGCCGTATCCCAGGGTGACAGCAGCAGCAGCAGAAGCCTTCTACCATAC
CAATACTGGAAGAATTGCACTACTTACTTGTCGGTGGGGGGGTGATATCT
ACAGAGCGAGGGCATTTCAACGACGGCTTTTCGGTGCAAACGAGCGGCGA
GTTTGGCATGCACGCGAAGGAGCGACACATACTACGAAGCACACACGGGA
ACGCCAGCCGACCGCGCTTTAACTTTTTAATTGTATTAATGTTTATTCGT
CCAATTTACTCCCCCTTCCCATCGCCGGCAGAGGCTAGTTTTACGATCTT
GTCTTCTTG

Coding sequence (CDS) from alignment at P-littoralis_Contig171:165548..186756-

>mRNA_P-littoralis_Contig171.55.3 ID=mRNA_P-littoralis_Contig171.55.3|Name=mRNA_P-littoralis_Contig171.55.3|organism=Pylaiella littoralis U1_48|type=CDS|length=312bp|location=Sequence derived from alignment at P-littoralis_Contig171:165548..186756- (Pylaiella littoralis U1_48)
ATGGGGGAAATGGTGCCCGACTGGGCGCAGATGTGGGGGGCAAAGGTCAA
GATGCCGACGGATATGCGCGATGACATGCTGCGGGATGCGATCGAAACGT
GCAGAGATGCCTTGGACCAGTGCGGGGACTTCGAAGCCGAAGCAGGGCTA
GCGGCGGCAGAAAAGATCAAGAAGCACTTCGACGCGCGCTGGGACCCCAG
CTGGCACATCATCATCGGTCGTAATTTCGGCTCTTTCGTGACTCACGAAA
CTACGTGTTTCCTGTATTTCTATTTGGCAGATAAAGCGATAATGATGTAC
AAGGCCGGCTAA