mRNA_P-littoralis_Contig113.9.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig113.9.2
Unique Name	mRNA_P-littoralis_Contig113.9.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: D8LKD0_ECTSI (SsrA-binding protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LKD0_ECTSI)

HSP 1 Score: 201 bits (512), Expect = 9.900e-60
Identity = 98/111 (88.29%), Postives = 106/111 (95.50%), Query Frame = 1

Query:  517 NKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRLPME 849
            ++KARRNYEILEKF AGIELVGSEVKSCRMSK+NMDEGFAQAK GQC LHG+HIAECG SNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLK+FF+D+NRL +E
Sbjct:    3 HRKARRNYEILEKFVAGIELVGSEVKSCRMSKINMDEGFAQAKKGQCFLHGIHIAECGVSNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKIFFDDNNRLKVE 113

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A835YRQ5_9STRA (Small protein B n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YRQ5_9STRA)

HSP 1 Score: 150 bits (378), Expect = 4.320e-38
Identity = 74/116 (63.79%), Postives = 90/116 (77.59%), Query Frame = 1

Query:  493 GPYKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRL 840
            GP+KVIA NK+A RNYEILE FEAGIEL+G+EVKS R  + ++DEG+A AK G+C+LHGVHIA    SN + QHE +RPRRLLLHKREIK+LED   + G T VPL ++FN  N L
Sbjct:   18 GPFKVIAKNKQAYRNYEILETFEAGIELLGTEVKSARGGRCSIDEGYAAAKRGECVLHGVHIAPYATSNAYDQHEAKRPRRLLLHKREIKRLEDMTTRAGYTAVPLTLYFNHKNLL 133

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A7S3EVW1_9EUKA (Hypothetical protein n=1 Tax=Haptolina ericina TaxID=156174 RepID=A0A7S3EVW1_9EUKA)

HSP 1 Score: 140 bits (352), Expect = 1.430e-35
Identity = 65/118 (55.08%), Postives = 92/118 (77.97%), Query Frame = 1

Query:  496 PYKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRLPME 849
            P K +A N+ ARRNYEIL+ FEAGI L+G+EVKSCR +++ + +G+ + K+G+C L  VHIA+ G +  F+QHE  RPRRLLLHKREI+KLE +  Q+G+T+VPL+ +FN+ NR+ +E
Sbjct:   44 PSKQVAVNRLARRNYEILDDFEAGISLLGTEVKSCRANQMQLRDGYCRIKDGECWLMNVHIAKHGTTGAFFQHEETRPRRLLLHKREIRKLEKESEQRGLTIVPLRCYFNEQNRMKVE 161

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A7S4FCI8_CHRCT (Hypothetical protein (Fragment) n=1 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4FCI8_CHRCT)

HSP 1 Score: 136 bits (343), Expect = 1.780e-34
Identity = 66/122 (54.10%), Postives = 92/122 (75.41%), Query Frame = 1

Query:  484 KGKGPYKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRLPME 849
            KG G  + +  N++AR+NYE+LE++EAGI LVG+EVKSCR  K+N+ +G+ Q K+G+C L  VHIA    S  F+QH+  R RRLLL+KREI+KL+  V QKG+T+VP+K +FN DNRL ++
Sbjct:   28 KGTGVARDVTLNRQARQNYELLEEYEAGISLVGTEVKSCRAGKINLRDGYCQIKDGECWLRNVHIARHQFSGTFFQHDETRSRRLLLNKREIRKLDAAVQQKGLTIVPVKAYFNCDNRLKLQ 149

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A845X7C8_9CYAN (SsrA-binding protein n=1 Tax=Spirulina sp. SIO3F2 TaxID=2607816 RepID=A0A845X7C8_9CYAN)

HSP 1 Score: 131 bits (330), Expect = 7.160e-33
Identity = 64/110 (58.18%), Postives = 84/110 (76.36%), Query Frame = 1

Query:  493 GPYKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFF 822
            G ++ I+DN+KAR  YEILE FEAG+ LVG+EVKS R  K+NM +GF Q +NG+  LH VHI+   AS  ++ HEPRR R+LLLHK+EI KL  K+ +KG+T+VPLKM+F
Sbjct:    7 GGFRTISDNRKARFRYEILETFEAGLVLVGTEVKSIRAGKVNMGDGFGQIRNGEAWLHNVHISPYQASGEYFNHEPRRIRKLLLHKKEITKLIGKLEEKGLTLVPLKMYF 116

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A7S2S2L9_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2S2L9_9STRA)

HSP 1 Score: 130 bits (326), Expect = 2.540e-32
Identity = 62/117 (52.99%), Postives = 86/117 (73.50%), Query Frame = 1

Query:  499 YKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRLPME 849
            Y+V + NK+ARRNYE LE+ EAGI LVG+EVK+ R  +++M +GFAQ K G+C L  VHI    +S  F+QHE RR R+LLLHK +I+K   +V  K +T+VP+K +FN+DNRL ++
Sbjct:    2 YRVFSVNKQARRNYEFLEELEAGISLVGTEVKAIRDGRIDMTDGFAQVKKGECWLKNVHIGPDKSSGPFFQHEARRERKLLLHKNQIRKFNQEVRMKQLTIVPVKAYFNEDNRLKIQ 118

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A6H2NLS0_9CYAN (SsrA-binding protein n=1 Tax=Leptolyngbya sp. LCM1.Bin17 TaxID=2480211 RepID=A0A6H2NLS0_9CYAN)

HSP 1 Score: 130 bits (326), Expect = 2.690e-32
Identity = 62/107 (57.94%), Postives = 84/107 (78.50%), Query Frame = 1

Query:  499 YKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMF 819
            YKVI+DN++AR  YEILE +EAGIEL+GSEVKS R  K+N+ +G+AQ KNG+  LH VH++    +N+ Y HE +R R+LLLH+ EI+KL  KV QKG+T+VPLK++
Sbjct:    8 YKVISDNRQARHQYEILETYEAGIELLGSEVKSIRQGKVNLRDGYAQIKNGELWLHNVHVSPHSMTNKVYNHEAKRTRKLLLHRDEIRKLIGKVEQKGLTLVPLKLY 114

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A7S2S2R4_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2S2R4_9STRA)

HSP 1 Score: 131 bits (329), Expect = 8.390e-32
Identity = 62/117 (52.99%), Postives = 87/117 (74.36%), Query Frame = 1

Query:  499 YKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRLPME 849
            Y+V++ NK+ARRNYE LE+ EAGI LVG+EVK+ R  +++M +GFAQ K G+C L  VHI    +S  F+QHE RR R+LLLHK +I+K   +V  K +T+VP+K +FN+DNRL ++
Sbjct:   80 YRVVSVNKQARRNYEFLEELEAGISLVGTEVKAIRDGRIDMTDGFAQVKKGECWLKNVHIGPDKSSGPFFQHEARRERKLLLHKNQIRKFNQEVRMKQLTIVPVKAYFNEDNRLKIQ 196

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: K9FEP1_9CYAN (SsrA-binding protein n=8 Tax=Leptolyngbyaceae TaxID=1890438 RepID=K9FEP1_9CYAN)

HSP 1 Score: 128 bits (321), Expect = 1.630e-31
Identity = 63/107 (58.88%), Postives = 84/107 (78.50%), Query Frame = 1

Query:  499 YKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMF 819
            +KV+ADN++AR  YEIL+ +EAGIEL G+EVKS R  K+N+ +G+AQ KNG+  L  VHI+    +N+ Y HEPRRPRRLLLHK EI+KL  KV +KG+T+VPLK++
Sbjct:   14 FKVMADNRQARFTYEILDSYEAGIELKGTEVKSIRAGKVNLRDGYAQVKNGEVWLLNVHISPHDMTNQAYNHEPRRPRRLLLHKAEIRKLIGKVEEKGLTLVPLKLY 120

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BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Match: A0A7T5E3S4_9CYAN (SsrA-binding protein n=2 Tax=Cyanobacteria TaxID=1117 RepID=A0A7T5E3S4_9CYAN)

HSP 1 Score: 127 bits (319), Expect = 2.720e-31
Identity = 60/107 (56.07%), Postives = 84/107 (78.50%), Query Frame = 1

Query:  499 YKVIADNKKARRNYEILEKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASNRFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMF 819
            +K+++DN++AR  YEILE +EAGIEL+GSEVKS R  K+N+ +GFAQ K+G+  L  +HI+    +N+ Y HE +RPRRLL+H+ EI+KL  KV QKG+T+VPLKM+
Sbjct:    8 FKIVSDNRQARHEYEILETYEAGIELLGSEVKSIRQGKVNLRDGFAQLKDGELWLQNIHISPHTMTNKAYNHEAKRPRRLLMHRDEIRKLIGKVEQKGLTLVPLKMY 114

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig113.9.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LKD0_ECTSI	9.900e-60	88.29	SsrA-binding protein n=1 Tax=Ectocarpus siliculosu...	[more]
A0A835YRQ5_9STRA	4.320e-38	63.79	Small protein B n=1 Tax=Tribonema minus TaxID=3033...	[more]
A0A7S3EVW1_9EUKA	1.430e-35	55.08	Hypothetical protein n=1 Tax=Haptolina ericina Tax...	[more]
A0A7S4FCI8_CHRCT	1.780e-34	54.10	Hypothetical protein (Fragment) n=1 Tax=Chrysotila...	[more]
A0A845X7C8_9CYAN	7.160e-33	58.18	SsrA-binding protein n=1 Tax=Spirulina sp. SIO3F2 ...	[more]
A0A7S2S2L9_9STRA	2.540e-32	52.99	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
A0A6H2NLS0_9CYAN	2.690e-32	57.94	SsrA-binding protein n=1 Tax=Leptolyngbya sp. LCM1...	[more]
A0A7S2S2R4_9STRA	8.390e-32	52.99	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
K9FEP1_9CYAN	1.630e-31	58.88	SsrA-binding protein n=8 Tax=Leptolyngbyaceae TaxI...	[more]
A0A7T5E3S4_9CYAN	2.720e-31	56.07	SsrA-binding protein n=2 Tax=Cyanobacteria TaxID=1...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig113	contig	P-littoralis_Contig113:35326..53414 -

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.D8LKD0
PFAMs	SmpB
Model size	1401
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	chloroplast
Exons	9
Evalue	3.34e-62
EggNOG OGs	COG0691@1\|root,2S5AD@2759\|Eukaryota
Description	SmpB protein
Cds size	984
COG category	O

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig113.9.2	prot_P-littoralis_Contig113.9.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig113 36900..53315 -

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


Feature Name	Unique Name	Species	Type	Position
1680789457.467563-UTR-P-littoralis_Contig113:35325..35445	1680789457.467563-UTR-P-littoralis_Contig113:35325..35445	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig113 35326..35445 -
1680789457.4813244-UTR-P-littoralis_Contig113:35766..35897	1680789457.4813244-UTR-P-littoralis_Contig113:35766..35897	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig113 35767..35897 -
1680789457.4901302-UTR-P-littoralis_Contig113:36165..36217	1680789457.4901302-UTR-P-littoralis_Contig113:36165..36217	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig113 36166..36217 -
1680789457.503302-UTR-P-littoralis_Contig113:36884..36899	1680789457.503302-UTR-P-littoralis_Contig113:36884..36899	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig113 36885..36899 -
1680789457.569786-UTR-P-littoralis_Contig113:53315..53414	1680789457.569786-UTR-P-littoralis_Contig113:53315..53414	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig113 53316..53414 -

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


Feature Name	Unique Name	Species	Type	Position
1680789457.5132034-CDS-P-littoralis_Contig113:36899..37006	1680789457.5132034-CDS-P-littoralis_Contig113:36899..37006	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig113 36900..37006 -
1680789457.5230975-CDS-P-littoralis_Contig113:40969..41109	1680789457.5230975-CDS-P-littoralis_Contig113:40969..41109	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig113 40970..41109 -
1680789457.5342033-CDS-P-littoralis_Contig113:45306..45392	1680789457.5342033-CDS-P-littoralis_Contig113:45306..45392	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig113 45307..45392 -
1680789457.544894-CDS-P-littoralis_Contig113:45835..45946	1680789457.544894-CDS-P-littoralis_Contig113:45835..45946	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig113 45836..45946 -
1680789457.5525768-CDS-P-littoralis_Contig113:47018..47136	1680789457.5525768-CDS-P-littoralis_Contig113:47018..47136	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig113 47019..47136 -
1680789457.5607314-CDS-P-littoralis_Contig113:52893..53315	1680789457.5607314-CDS-P-littoralis_Contig113:52893..53315	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig113 52894..53315 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig113:35326..53414-
coding sequence from alignment at P-littoralis_Contig113:35326..53414-

protein sequence of mRNA_P-littoralis_Contig113.9.2

>prot_P-littoralis_Contig113.9.2 ID=prot_P-littoralis_Contig113.9.2|Name=mRNA_P-littoralis_Contig113.9.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=328bp
MRNISQLMWLSVAAAFSLFMSGAQGYSCVSGSLGSRSSSLAASATATTMN
LSRPYGEQQQQQQQQQQHHRYSISARREARSMGLGEGGWVVGKGVGWAWG
QTSAATFNQAPPLGMAAESGAPPAKKKRKGKGPYKVIADNKKARRNYEIL
EKFEAGIELVGSEVKSCRMSKLNMDEGFAQAKNGQCLLHGVHIAECGASN
RFYQHEPRRPRRLLLHKREIKKLEDKVAQKGMTVVPLKMFFNDDNRLPME
HLLRQALAAVMARSSPAGEFNAKEPSRFRTQPSRRKILGERRGREGGGCQ
QGRRFEHAHGSRKAVFEEGSGRRCRCP*

mRNA from alignment at P-littoralis_Contig113:35326..53414-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig113.9.2 ID=mRNA_P-littoralis_Contig113.9.2|Name=mRNA_P-littoralis_Contig113.9.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=18089bp|location=Sequence derived from alignment at P-littoralis_Contig113:35326..53414- (Pylaiella littoralis U1_48)
CGCCAGCTCAACTCTGACACCTTCGTTGCTACTGTGAGAATCCAAACGGC
TGCTGTTGATCTCGTTGGACCTCGTTGTGGGTAGTGGGGGGGTTATACTA
TGCGAAACATTTCGCAACTGATGTGGCTGAGCGTGGCTGCGGCATTCAGC
CTTTTTATGTCAGGTGCACAGGGATACTCCTGTGTAAGCGGCTCACTGGG
CAGCAGAAGCAGCAGCCTTGCTGCCTCTGCAACTGCAACAACGATGAACT
TGTCGCGACCATACGGGGAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAG
CACCACCGCTATTCTATATCGGCTCGACGAGAGGCTAGATCAATGGGTCT
TGGAGAGGGTGGATGGGTTGTTGGCAAGGGCGTTGGCTGGGCCTGGGGTC
AAACATCGGCGGCAACCTTCAACCAAGCGCCACCGCTTGGAATGGCGGCG
GAGAGCGGTGCTCCCCCGGCGAAGAAGAAGCGGAAAGGGAAGGGGCCGTA
CAAAGTTATCGCCGACAACAAGTGAGATTGTGATCCAACTCCATTACAGC
ACGTCGTTTGGACGTATCATACAGCACTAGTTGAACAGCCTCGCTACTAC
TTCTGCTACTGCCACCTCCTGCTACTATCATATCATGCGACTCTCTCGAA
AGAACGTCCATGACACAGCACAGCACCACATCAGCACCGGTACGAGGGAG
TATACGGCGCTGTGGATTGCAGTAGGCACCTAACACCCCTGCTGCAACTA
CGACTCTTAGAAGAACCATGAGGGTTTGTCTTGTCGAGACCAAATTCTTG
AACTTGATTTTTTGTTGATTTGATTTTGATTATGACGGTTCGCACGCTCA
AAATCAACAGATTTCACCTTTGCTGGCCATGTCATCATCTTATAGACGGC
TCACGAAGGCGAGATTGATTTTGATTTTGGAAACAGTTCTCAAACAGAAC
AACATGGAGTGTCGGGGTGATTACTCCTCGTGCAAACAGCAATCCGTGTC
ACACCTGTTGATTCCTATGGGAAAACTGCGATATGTATTTTATATGCACT
CAAAATATAATTATGGAATCACAACCCCTGGCGCTCCTCTTTGGGTAAAT
TCCTCAACACCTCGTGGTACAATGCCGATCCCTAATTCGGCAGACCTGGA
ATAGGACATCTAGCCTGTTCACCACAGCGTAGTCAAATACCAGAGTTGTC
GGTGCCTTGTGGCACCCCGACTTTCGCGCCATAGTTTGCGCAGATGTGGT
TCCAGGCCAAAAATCCTGCAGAGTAGTCATGCTTGTAGTACAGCAGTGAC
AATATGATATGGTATGCTACAGGATACAGCAGCACTCTCCTCAGTAAACG
ATTAAAGTACAGCAGTATGGTATCATATGGAACAAAACAGCGGAACAAGG
GGGATTTTCGGCCCGATTCGATTGTGTTGCACTTATCGTTTTCTACTGCT
GTAGTGCCGATCCCTAATCCGGCACCCCTCAAAGTCCATCTACCCTTGTG
ATTGCCCACGCTGCCAGAGTGTGGCTGCATCTGGTTCAGTACAGCACCCG
AACCTTCGGCGCAAAGATGCTGCTATGCCAGCATATGCTCTCGAGGGTGC
AACCGCCACGCTGGTGGCGTGCCCTCGCAACACGAACTGGCACCACGACG
AGTGTCAGCCCTACCGTCAATCTTAGCGCCTGCTAAATACACATGGGCTA
AGGCTGTGGCTCCCTCTAGCCACTTCGCGTATTTCGCGCTCATCACTGAT
TTGAGCTCAGAGCTTTGTGGTGGTGACTGGGTTGGCCTCTCTCTACGAAG
TGGCGGCCTTTCCGGGGGGGGGGGTGAAAAGCTCTATACTCCCGTCAGAT
ACGAACGCCTCGCATTTCGAAAATATTTCTTTTTTTATTTCTATAGGGAC
CAACACATGTGGTGTCAGACAACAACAGGAGGGTATGACGCTGGTTGGTG
CTGCTGCCATTCTCGCCCCAGCACCACTTCTAGACCTGTCTGCAACCTCA
TGGGCTCGCTGATGGGGTGGGGCGGCATCACGAGCAGCGGGCGGTATCAC
GAGCAGCCAGCTGTAGTGAGGCTGCTGGGTTGTGTTACACGTATTACGAA
TGATGTAGGCAGTATGTTATTCTTTTGATTTTATGATACTGCTGCACTAC
GTTTCCTTCGCTGCTGTTTGCTACTGCTGCGATGTTGCTTGAATGATGAA
CTGACGGACTATCGGCGCCAACATCGCACGACATGCCAGCTGGTGGGAAA
CTCTGTCCATGCTACTCGCCGGTTTGTCCATGTTTCCTCACGCGGTCAAG
CCCTAGAGCAGAGAGAGGAGGTGGTTTGAACGCGCCTCTTTCTGATCTGC
TGTGATTTTACGACGTCCTCCAACGCAAACTTCACATACAGTATGTATAT
AATAAATAGAAGTGGCCCGTGCCGAACGGTCTTCGAGGCAGCCAATTTTT
TTCCGATTCTGAAATCAAGTGCACGTTCGCCAAAGATTCAAGAAAATCAA
ATGAAAAATGATTTCCTTTTCTTGAACTTGAATTCGGTCGTTGATTTTTA
GACAATAAACAAATAAATAGTTAGACCAACCGGAAGAGTGAAAAGAAAAG
AAAAAGTTCAAACGGGAACAATCAAAATCAAAATCAATAATCAAAATCTA
GAATTTGGTCTCGAAAAGATATGCCCTGACACTGGCACAGCACCACAGCA
GCACCAGTACGAGGGAGTATACGGCCCTGTGGATGGCAGTAGGCACCTAA
CACCCCTGAACCGATTCTTGAAGCTCGATTGCTCCTTAACCCTTTTACCC
CCCCCTGTAAAAAATCATGGAAGTTTTTTTTTCAAAACGTTACAGGACTA
CAGAGCAAGCGAACGCGTCGCCACATTCTAAGATGACGCGTCTGGTCACT
TGCTTACAGAGTGCGTTTCGAAATTGAGCGGTTACGTCGCGAGGTAAAGG
TTAGAGAGTGTAGCTATTGGGAGTCACGTGATATTCCAAGTGACGAACGA
CCAAATGGCGACCCAAAATGGCGACATTTAGCTACCCATGACAGGGTTAA
GGCAGAACAGGGGGAGGAGGATTGCCATCGTCCCCTCGGTCTCCGCGGCG
GTATTTGCGGCTCCACGGTATAATATTATTTTCCCCACATCTCGAACTTC
TAGATCTCACATCAGCTTGAAATCCTGTGTGGATGAAATCTGTGCCTGAC
CCCTGTTAATGCCTTGTAACGCGAGATCGAGGTGCTCAAATTTAAAGATT
TGAGCACTATTTTGCCCCATGGAGTTTGGTGCACATTACACCGCAGAAAC
TCTGCGTCAGTTGTGGACAGAGCAAGCTCATCACAAGCAACCACACAGCT
TCAAATTGCCACAGCCTACTAATGTGGTGTGTGAGTGGCGTCCCATGTCT
TCACGGCAGCAGAGCAGGCAGCCAGAAACCCTTCTAGAGGAATTCTTGTG
AATTGTATCTAGATGCCTGCAGCAGTCCGAAATCACACGAAAATGGGAGA
CCTGCGGGTGCTTTTTGGCGATGCCACCGTTCTCCGCGTGTGTACCCCGT
TCAACAAACGAATTGGACGCGAATTCAGCTGGCTTACCGGGCGATCTCCT
AGGCCAAAAACCTATAGAGGTTTTAGACGGGGTACAGATTTTCTTTCAAT
CTAGGGCCCAAAAAGCTACTTGACGTACTAAAAAGACGTGTTTTCTGGTA
GTCATTGGACCCCCTCCAAATAAAGCTGCATCTGTACGAATCCCTGACAC
TATGTTCAAGTCATTCGGCTCCCTGTTACAAAACGCCAGTCCTCTACAAC
CCCTTTTTAATTTTATACTGAAAATAGTGCTGCCTTAAGGGACGGGGAGG
GTGCCGACACCACATGGCGATTCACGTTGTTTTCGGAAAGCTATCATATC
GGCGATATCTTTCGAACGCCAGCCAGCCCTTTCGGCGGTGCGGTGTGATC
AAAATCTTTAACGCTGTGGAGAACCGGTGGCAGATCTTTTGAAACGTCGG
TACAGGGTGTCTGTTATTTTCCTGCGACCTATCGCATCACGCGGCGTGCG
TGGTACATATCATATCATACTAGTAGGGGCAAGAAACATGTGAGTGTACA
CGGTCGCTGGTAGATAGATGCGGAAGCCGTGGTACGTATTCGTCTATTCC
ATCGAGCAAACGCAGTCGTGTCTTTTGCTGAACAGCAGCATGACATCGTC
TCTCTGCAGACAAGAAGGGGTCAGTCTACAACAAGTTGCCGCCGAAGCGT
AGGTTCGCGGATTGACTCTTGGCTGGTTGTATGTGTGGAACAGGGCCCTC
GCCCGACTTCATCATACCTGCTGGCTGTTCGTCAGCCGTTCACCTCAATA
CACGGCGGTACGGCGTTTCGATTATTTTCGTATGTACACATCTTGTCACT
TTTTTTTACTTTTTATTTCATTTTGTGTTTACTCTGGACCAGACTCCCTT
TTCTTGTTCTATTTTTGTGGCGTTGTGTGATATTTCGGGGTCCGTTTTGT
TTTGCCGGAGTTTCCCTGTCGTACCTTAAGTGGATTTAGGGGATCTCCCG
CGTACTATATACGGAGTATCTCTTTTGGGGCAAGCAGCCTGTGACCACCG
AAATTGTCCCTGACCGGAGGAGTAACGATATTATTTCGAAGAAGAAGGTA
CTGAGGAGAGATCGGAATTGTTTTAATGTGAAGACAACACACACACATAT
AAGGGCTTTCGACGGCTTGCGCCGTCACGATCGTGATCGAATCCCAGATT
TTTAGGGCTGTGAATCGGCGCAATTTTCCGATATTTAAGAAAATGATTTT
CGGCGCAGCCGATATTACGATACATTGGCGTCGCCGATGCATCGGGCGAG
CGCAACGATCCCCCAACGCCCCCACCCGGCAGGGCCCCCCAGGCGAAAAT
GTTTTTGACCGATGTTTGAGCGATTGTTGACCGATTTTGGAGTTTTTCAA
AAACATCGAAAAGTGTCGGTCTGATTGATTACGATTTCGATTTAACGTGG
AACGATTACTTGGGTGCATCGGCAGCGATTCACAGCCCTAAACATTTAGC
GGGAAAGAGGAGGTGGCGTAGAGGCGAAAGGTGTAAAACTGCTCTTCCCG
AAACGTTGAAGATGAAGAAGCTGTGTCATACCGTCGACGATTTATTTGTT
TGGGTGGGTGCATCTAGTAGTTCCGCATGATGTGGCGTATCACACATACA
TGTTGGGAGGTGGTTGTGGTTGTTTTCGTCTCATTTATTCTGATCACCAG
TGTTCTCCTTTCGGTACGAAGTGGGGTGCACCGGCCGGGGTCATGCGAAA
AGGAAGGTCACACTGGAGTTGTTTTTTTTCCTCCATCCACCTTCTGCGGT
GCTTGTAGGAAAAAAAAGAAGGGTTGAAAGGGTTCATATATATGATAGAG
TGCGCATATACCATATGTACCATGTTTTTGTGATGACCTTGCTTCCAGAT
GGAGAAAAAAACAAAGTCTCAAAACTTTTTTTTTCTCATTAATTAAGACA
TGAACGCATCGAGTTTCAGGCCCATGGGGGAAGAAAGAGCCAGCGAATCT
TTAGAGCCAGTCTCAGCGCCGGGAACGTTTCCCATGGATGTCGCGAGCGA
GCTCTTTGGCATGCCTGAAAGGGGCTGGAACTCGGCTTGCGCGTCGTGTC
TCGAGCCCGCGACGGGAGCGTTGGGACGGAAATGGCTTTCTCGTCCGGGA
CGCGAACTTAAAAAAAGACAACTAATTTTGTTTGCGGTGGCGATCTGGAA
GGGCGTTAAAACGTCTCGATTCTAAGAAGGTGGCAAATCTCCCCGCCGCG
CTCTCAGCTTCCTAAAACCATAAGCTCTCGGTGTGAAATAAACAAAGTAA
GTCTGTTGGGCGTGTTTTTGGAGTGAAGCACGGGGTGGGGTGCAACGCCG
TTCTTTCCCAAGACCGCGCCATGAAAAAAACTTCAAAAATGCCGTCGATG
GTGTCTCTTTCGTCGTCTCGAAGTAGCCGTAACCGCCGACTCTTCGACTT
CCTCGTGGGGCAAACACGGAAGCACCTCCCGCTTTGACCTCGTATTTTTT
TCTCCGTTGGGTGCCCCTGTCATAGTGCCGTTGCCTGCACGAACGTGATA
GTCGTGTGCCAGGACGACCCTAGATCCTTCATCACATTTGTGCCGTTTTT
CGAGGAGTGTCGCCATAAGACCGTATGTCACTCGCCCTGTGTCGGATTGT
GCTGGACTTGCAGATCGTTTCCCGTCGTTTCTTTCGTGTTGTGATACCCG
CTTTTTTTTTTTCTTCGGTCTGTTGTAGGAAAGCGAGGCGCAACTACGAA
ATCCTCGAGAAGTTCGAGGCCGGGATCGAGCTGGTGGGGTCGGAGGTGAA
GTCGTGCCGGATGTCCAAGCTCAACATGGACGAAGGCTTTGCTCAGGTGG
GTAGCACAGCATGTTCTCCGAGAGTCCATCCAATGCATCGCGATGGCGTG
GGTGATTGACTCTCGCGCTGTGTACGGCCAGAGCCTTCAACGTGGATGTT
ATTCGTTTTCTAGAGGGCTGAATTACATGTTTCATGAGGTTTGAATCGAA
CGGTGGTACGTTTGAGTCATGATCGTGCATATACGAAGAAAAACTTGATT
CGGCTCTGAAACGTAGGGCGGCTTGTTGTTGGGCGCGGCACGACTTAATA
TACGACGCATCTTTCTGCACCTCCACAGCGCGGGGCTGTGGATACGGCAA
TGACACGTTGTTTAGAGCAGAAAGGGCCAAGCGGGGCCGAATCGAACCCT
GATCCATGTTGGCGAGGTTTTCGCGTACAGATGCGTGTCAACGTCGTCGC
CGTGGCTCGAAATACTTGCTAAATTTGGCAGTTTTTGGTTTATGCACCGA
TTTGTTTTTCTCAGAATGCTCGCGTTCGTAAATGTTCGAAACGCTGCCTT
ATTTCGTTCAGTTCCTCCAAATTCGCCCTTTCAGCGTGGCGCTTGCGTGG
CCGTGCTTATTGGTGGTGGCGTTGACAATCCTGCTCTGTCTTCCGAGTAT
AGGACTACCTCATCTATGAGTTCCGAGACTCTATATTTAGATACGACTTA
TAATTCCGCACCTATCCGATCATGGACATCCACGACGTGTGGCAATATTA
CCACCGATATTTTCCTGCCGCCTCGTGGCTGTGTTTAACTGTACAATTAT
CTTCGTGGTGTAAATAACCGCCCGACCCGCCCTCATTGGTCGGCGTCCAT
CGCTGGTGGGGATCCACCGTCAAGGGCAACCACCGGCTGGTGTACAGTAG
TCGGCACAAGTGGCACTCGTAAAGACTGCTCTTCCACCTGCCCTCTCCCT
GCTGCGAAAATTTTTCATCATAGCGCGCGTCTAAATGCTCTCCCGCCCGC
CTTTCCCTTCTGCGAAAATCTACGCTGTTGGGTTTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCGATTTTT
GCCTCCCTGATCGAAAAGGCCAAGAACGGGCAGTGTCTCCTTCACGGGGT
CCACATCGCTGAGTGCGGGGCGTCGAACCGGTTCTACCAGCACGAGCCGA
GGAGACCGCGAAGACTCCTCCTTCACAAGGTAAGATCATGCTGCTTGCCT
TACATAAATACCGACCCGCATACAAATGGCGGTGTGATAAGACACACGCT
TTCACGAGCCGATCTTCCTAGCTCGGTGTCTGTTTCCGCCGCAAGAATGG
CAGCGTCGGCGCCCAAACGTGCGGCTTCGAAAGTATCTGGTCGAGACGTT
ATCGAAGCATTTTTCCTCGACGGGGCAAGCGCGACGCCGTCGGACAACAA
CGTGATGTATGCGCGAGCCCACACACCATGAAAGCAGCAGCCGTCACGGA
CAATCAGTCCCACCTGAAGCTAAGGGTTACAACTGCTATTTGGGCACCAG
TTATGTACGTGCATTCAGGATGTGTGTTTCCTCTAATTTTTTATAATATT
CAATAATCGTATGTTAGTTTTATGTCTCAATATATATATTTTTCGCTGTG
TTCTTCGTTGTGTTCTTATCAGCGCGAGATCAAGAAGCTGGAGGACAAGG
TCGCCCAGAAAGGCATGACAGTTGTCCCCCTCAAGATGTTCTTCAACGAC
GACAACAGGTGAGAAGAGAACACAGTGTTACTTTTTGCGTGAGGGCCTCT
GGGAGTCGTGACACTAAATGCATTCGGCGACAACCACGGGAAGCCGTAGT
CGTACGTACCGACGACGCGTGCAGCATCGAGAAGCAAAGACGTGCACGAC
ATGGAAGAAATTTTAGCAGCCACATTCATGACGCAGGCAGCGAAGGCGTA
CGTGCTTGTACGCGAGGGAAGACGTAATGAGCCACACAGCATGAACGCAT
GTGGCAGACAGAGAGAGAGAGCGGGAGAGAGAAGGGGAAAGACAGACAGA
CAGACACAGAGAGAGAGCACGACGTAGTACTTGAGCGAAGACAAATCTAT
TTATAACAACAGCAGCCAGCGAACCTTGGTACCCGAGTGCCCAATCAAAT
CGTTGGATGAGGGTTCCATTTCTACGTTAAGCTCGACAAAAAGGGTACAC
CTGAATTCTAGTGCTCTCCTTGCGTATCTCGCCGCTGGATTCGAACCAAA
AGCGTCGGAAGTAGCCCACGACTACGATACTCATCACGATTATTTTGAGA
AAAGGACAGAGACGGTTTCGTCGAGCCCCTCTGGGTGGGGTAAAGGGAAG
AGTCATGATTTTTGAACCTACGGATAAGGCTACGAATCCCGTGACTTAAT
TATATTTTTGGACACGGTTTAAACACTGAGCCCCGTGACCAAATTATGTT
TTGGACGCGGTTCAGACACTGAGCCCGAGAATGTTCGAAGCCGTCCCAGA
TACTCCTCGGAGACGAAAGTGAGAAACAGCCATATGAGGGTACGTGGTCC
ATGGTGATGTCACCGTCTAATCGCCATAGATGTCCTCCAATGGCACGATA
AACAACAATAGTCGGGAATTATCACAACCCTTAAAGGGTTTCCGTGTTTG
TGTATCGCGGTTGCTGTACACCGCGTGCTCAAGGCAAATGGGATCAAAAC
CTCATAGCATTACCACCTCTCGCCTCGTGCCCACGCCAATAGCCGCCCTC
TCTCCATCCCGACACTCCTCGCTTGTTGACTATCGGTCGTAATGATCAGG
CTGAAGGTGGAGATAGGGCTAGCGCTAGGCAAGAACGTCCGAGATAAGAG
AGAAGACATTAAGGACCGCGAGGCCAAGCGAGACATGCAGAGAATAGCTA
AGAGTGCCTTCGACTAGATGACGTCGGAAGTAATCCTTTACGCACGACAG
AGGGGAGAAATCACCCGAAGCGTTAAGTGAAATAAGCGCAATGTTCGAAC
GTGTTGAACAATGTTGCTGTGCTGATGCCCGCCGAGCAATTTTTCTTGAT
TTTCACCTTTTTCGTGGTTTATCCGTAGAAAGGAGCTGGGGGGAAGTGCA
TTGCACGGATACCCAAACGTGCTTCCATTTAGAAGTAGACGTGAAGCCTT
GTAACTAGCAGGCGTGTTTCGGGGCAAGTGCTGTCTAGGCGCCGGGGGTA
CTGGAACGCACTAGCACTTTGTGCAGCTTGGGGGGCACTCGCTATAAAGG
AGATGGCACCATGGTGTAGTCGACCGGGGTAGGTAATCTGGCAGTCATTG
GCAATAAGATGGCCGTGCTGAAAGCATGATGCAGAATAGCAAGAGAGACG
CAAACCAATGGACTCCACAAACTTCGTCCATAAACAGCAGCAGGTGATGA
TACTCTTGAATCAACGACAAGAAGGATCAAAAATGTCTTTGACTAGCCAG
TGTGTACACTCGGTGATTCTGTTTTGAAAGAATGTTCGGAGAGAGAGAGA
GAACGGGAGGAAGGGAGGAAAGGAGGAAAGGAGGAAAGGAAGAGACAGCC
GAGGAATGGAAAAAAATATCATGACTCAACGCATAAGATACGAACCAATC
GATGTGGACGCCTTGATCAAGGCGTCGTCGCGGTCGTGCCTACCACGGCC
CTCCTTGGTCGGTTGTGCGGGTTAAGGTTAGGCTTGGGGTGGGTTGGATT
GGGTCGAAGTGGGGAGGTGTGTATGTCATGCTTAGTGTGCGGAACTGGAG
TTCGAACTTTCTTTCAGGCCTAAAGATCCTTTTAACAGAATGGAAACAGA
CCTCCCAACTGTAGGGCCAGGAGCTGGTTTCAAAACCGGTGATTTTCGTG
GGATCGTAGAGGGGCCATCATAAAACCCTCAAACCTGGAACGAGTTGGAC
GACAAGCAAATGCAATTGTTGCGCATCAACAGCAACCTACAGAGAGTCGA
CCCCAACCGGTATACACTAATTAGGACAGCAAAGAGGGGTGCCCAAAGCC
AGCCCAGTGTGTCCATGGTCCGGGTTCATGCCCCAAAACGTTCGGGAGGA
GTTCTCCAGAGTGCCCACCATCAGCCTCCCGGGGCAGCCGCGCACGAAAC
AAAACTGACGAAAAACATAAACGAGAACATTTTGCTCTCTCCAGTTGTGG
TCCAATCCGTGTTCACAGCCAATCTCACTCGTAGTCTTCCAGACCAGCGA
CCGCCCGCTGCGCATCTAAACGCAGATAGGCCAGCATCGAGACACACGGG
AAAAGTCGAAGAAACTATCATGAAACGATCAATCAAAACAACGTTCGAAC
TCCAGCATCAAATCGAAACGGAAAATGGAACACGCAGTCGAAAATCGAAC
CAATGCCGCCCGCACGACGAAAGGATCAAAAAGACAACACATATGAACAA
GCCGGTGTCACACTGTCGGGAGCCATCACGCACACAAAAAATGGGTAGGA
GGTTGCACTGCAACAGTATAAATATGAAAACAATTGCGCGCCCTCCGCGG
CGAACGACCAGCATGCAGAGCGCAAGCTACGCAACGTCGAACAACGACAT
CAAACCGATCGTGCACCCTTGTTTGCAAGGCATCTACAGGTGGTCTATGC
GAGACAAAATCTCGTATTCGTCCACATGGGCGAAGAAGCATGTCACAGCT
AAAGCACCTCGAATATACCAAATATTGGGGGCATGGCGCTGGTGGCAAAG
TGGGGAAAGGGTCAAGTATCGCACCCCTGACAAGAACCGTCGCGGCTATC
CTCAGAAAAAGGACAGTTCAGGGAGGCAGAGCGAAATCAAAACACGCACA
CCTAACCATCAAACCATCCATTAACCAAGCTCAGCAAGAAGCCATGGGAA
GGCATATCATATAAAAAGTAGACCAGCTTTCGCCAGTATCAACATGGGAT
GAAAACTCGGAGCTTTCCAAAAACAGCGATGTACTTGTAAAGGTCAGATG
GGGGACACACAGATATCTGTTTTGATGCCCAAACTAGTTAGCGGCCTAAA
CTAGACAAGTGACCTGAGCTAAACTAGTTACCGAGCGGATGCTCTCCCCT
CCTCGAAAGGTTCAAAGTTTCACCACACCAAGAAAAAAAACACCAAAAAC
GAATGACAAGTAAGGAACTTGGGGGGGGGGGGTGAAACAGGCCAATTTGC
AACATTTCCCTCCCAGTGCGAATGTCTCTGCTGTGGTGGTACTGCTGCGC
ACAACAAAAATAGCAAAATATTTACCTACCTTTCATGCATGTTGGCTGTA
GCACCATTCTCTGAGACAAGATAGAGAGAGAGAGAGAGAGAGAGAGAGAG
AGAGAGAGAGAGAGAGAGAGAGAGTACACCATGCATCACATGATGATGAA
TCGGGTACCCTCTTGCCAGGTGCTAGCACTTGAGGTAGGCGACAACAAGG
ACGGGCACACAGAAATATCTGCTCCTCGTCTCTCATCTACCGGTATGTGC
ATACGCCCACACACAGCAGGAAGCATGTGCCTGCCATGCCCGCGGTGTGG
TCGGTCACCACTTTGTGGACTTCGTCACGCGGAGGATTCTTAGGCGAGGA
AACATGCATTCCTGATCTTGAAATATAGACTATCTCTCATTTCTCGAAAA
AGGCTGTTTATTGTACTTCGCCATCGCGTGTCTTTCTGTGTGACTAGTAT
GCCGATCGAGAACCAAGAGGTGTGGTACATAGTTGTATACGTATGTACAC
CGGAGGTGCCGTTTAGGCGCTTGATGTTGCTGAGGAGATACGCCCACCGA
GAACGATGACGCGCGTCGACCGTGATCACAGGAGAGAGAAGGCACCGACC
TGGGTACGAGTGGCGACGTTTTCTGCCTCACCTTGTCTCAAGTATTTCGG
GAAACGGCCGGCAGCAGTTGGAAGGTTTTCTGATCAAATCGCAAGAGATA
CAATTTTTCTGCTGTCTGCTGTCTGCTGCCTCGTGACCCTTTTATGTGCC
TGCAGACTTCCGATGGAGCATCTTCTCCGGCAAGCCCTGGCGGCGGTTAT
GGCTAGATCGTCCCCCGCTGGCGAGTTCAATGCGAAGGAGCCCAGCCGCT
TTCGCACGCAGCCGTCACGCCGGAAAATACTCGGGGAGAGAAGAGGTGAG
ATACGACATTCATGTACAATGAAATATAGTATCATACGTGGGAGTATCCA
TCCTTTTTCGCTGCTCTGTTCAATTTGCGTGTGTATATGTATATGTAGTC
TTGAATACATGTTTCCTCACAGAGAGAGTTTTCGTTAAGGTAACACAAAT
ACACACGAGAGAAGGAACGCCGACCCAGAGGCAGGGATGTTGTGCCGGGT
TTGCCTTGAGCGGGGGCGCTAGACTTTGTACATGGCTGGGCGAATAATGC
GGCAAACGGCAAAAAATACACCTGCTACAATACCATGTGCCTCGAAAGAA
CGTAACAGGTATGATATATGCGTAGGGCAGGACCGAAGTATTTCGTATTG
TCTCTGTTTGTATCACGGATCGTTCTCACAAATGTAAACTGCTGCTGTAC
GATACTTCCAGGATGTTTTTTCATTATTGTCTTCATTTAAGACTGGGTGT
AGATTAGACTGCACCTTGCTGTGTGCTGTTTGCTGCCTCAGGTGTGAATG
ACTTGATTGCAGCGGCGGCGACGTGTGTGTTTTGTGTTATTTTATCACGT
CGTACGATAACCCCTAACGAGACTTACAGGAAACGAGAGTGACCTAGTAT
ACCCCCCCAAATATGTTGGCGTCGCGTAATTCCCGTCACGTCGCCGGTTG
TTCTCCTCTAACGAGTACCGGTGGAGAGCAAAAACTATACCAGTATGATA
TATTCTACACCTAGACTAGTGTATGTACACTGCGGACAAGAACAACTTGT
GCGTTGGGTGTTGTTATTGGTTTTGTTGTTGTGGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTT
TGATTTGTCTGTGTTGTTGTTGATTCTCACATCAACTCGCCGCTATCAGC
TCGCCCGTGATCACAAACCAGGCACACATCGTGCTACGAGGAAAAATTGT
ATTCAAATGAAATGCATCAAAGAGGGCCGCATGATACCCAAAAAATAAAA
ATAAAATAGACATACTGTAGATACCGCCCAACCAAGGGATACCTCCTGTA
GTGGTCGAAATACCAAAAATATAGAGAAATACAGACTCGAAAAAAACGGA
AAGAAGGCAACAACACTCCAGTAGGAAATGCCAGCCTGAGAAGAACAAAA
GGCATGTAATAGAGATGCAGAGATAAACGACGAATAGGAAAGCATGCGAG
AAAGAGTCAAGGAAAAAGGGAAAAGGAGGGAAATGGGAAACAATAAGCAA
AGGAAAGAAAATAGAAGAAAACTAAAAGAAAAGGGGGATATCATAGGTTA
GTATACACGCTATCACATCAGTCGCAAGCATGTTTGGCCACAAGGCCTGC
CAGCCCGCGCTTGCCCCCTCCCACGCGCGTATGCCTCCTGTTACGTGCAC
CACGCACTCTGTTGCTTTTGCCCTGCATCTTCAACGGCAAAACCCCTCCG
CGATTTCTGCCCTTCAGCTTTATTTACCCCCCCCCCACGCCGCAGCTTGA
GCGGCTTCTACTGCCCTGCAATTTGTCCAGCACCACCACCCGGAACTTCT
GCCTGACATTCTTTTTGTTATTTCACCCGGCTGCACGGTAGGGCTTATCC
CCCTCTCTGGGGTCGGGGGGCATGTCCCCTCCCTGTGTTTCCTCTCTCGT
TTATCCTCCCCCGTCCGTTCTCATCCTCTTGGCCGTGACCCGTCCCTCGA
CTACGTTTCTTTCCCTCCCTAGTCCACGTGTTTCTTTGGCATCTCCCTTT
CTTTTGTGCCACTCGTGCGTGAACCGCTGCACCCCCACCTCAATCCCGCC
GTACCATTCCTCCGCTCTCTTGGCCCTCGCTTCCCGCCCCTTTTTTTACG
GTGGCGATGCTGTCGAACGCAGTGTGGTCCTGTTCAAGTCGCTCCCGTCA
GTCAAATTAGTGTCCCCCCGAGTACCTCGCCCCCCTCCAACTATCCGTGC
AGATCAGTTCAGGAACCTGTTGTTCCCAATGCGTGCGACCAATCCCGTAA
AGCATACCGTGATCTCTCTTGATTTGCCCCCCCCCCTTCTTGATCCCCCC
CACAATATTCGCCGGAAAGCTGTCAAAATTTTACTTCTCCCCGGAGTGGA
TCTTTCAAATAGAAGATAGAGACCCCCCCCGCCTTCTTTTTTACCTCCGG
GGTTGGCGTTTCCACGTGTAGTCTCCCCCGGTGGGGGGTAAACAGATATT
TTCGCTATGTTTTTAGCGCCACAACGCGTAAGAGCTATCGCATCCAGCAC
ACGAAAGCGCGACACTGAATGGCACATATCATCTGTGTTCGGCACTACGG
TTGTGTGATGTATAGTTGTTTGAAGGATAGATCTTGTCCATCGCGAAAGA
GCTACGGGCACATGTGTGGTGTGTGCTATGTAATGTTTGTGTCACTGTTG
CTTCCTCCAGGGTAGATCCCCCCCCCGTGTAACAACAAATCAGGTATAAA
TAGAGAATATCCCCCCTCTTTCTTTATTGACACCCGGGGTAGAACAGTTT
CAAAGACAAAAAATCCAACCCCCGGGGGGCAAATCAACGGAGATTACGGT
GGTCGCCGTGTATTGCGAAGGCCTCGATGCTCTCGTCGCAACCCGCCTGG
GTGAGAGCCTCGGGGTAGGACATGGGGTGGTCCGTCCTCATCCTCTGTTT
TCATTGGATGCAGCGAAGGGGGAAGAGGTGGTGGGCTCTTCGAAGTTTGA
TGCAACACATTGGCGTCAGATTCCTTGTAACGCATCCATAGAGTAGGGTT
TCCACGAAGGAATCGTACCTGCCTGGCTGTTGCCTGGGAATCAGCCGTGC
ATTGCAGCTCCTACTGGTGGATCTCATCATCGACGCTCCCGTCCTCGCAG
ATCCTTCCCCGAGATACACAATATTTTCCGCTTGGTTGAACACCATCCCT
GCAGCGTTGACCGTGAGCAAGCCCGCCTTGATTCCTGCGCTGATCTTCGT
CTTGCTTTCTGACACCAACAGTCCAAAACGCCCGGCAAAGTGCCGGATGA
TCGACATTATCTTCCCAAGGCTTCCAACCTAGCTCAGCGTTCTTCCCTTC
CGCCTGAATCACAATCTTCTTGACCTGAACAACGTCTGCCGTCACCTACT
CCTCTTTTCGGAACTCGTCGAAGGCGACCATGAGCATTGCAGCAAATACG
GAGTAATAGGTTGAACAGCAGTGGTTCCAGATGGCATCCCTGACGGAGTC
CCTGTACCACGTCGGACCAGTCGGGGCACGTTCTATCGTCCATTCGCACA
CAACTGGCGGATGAACGCAAGCACATTGGGGGGCACTTCGAGCTTCTTGA
GCACTGCCATACAGCAGTGGTTCCCTGTCGGCGAATTCGTAGGCTTTCGT
GAGATCGATGAGCATGCGTTCGTGTAGTGGGTGTGTAGGTGCGGGAGTGG
GTAAGGTTGAGGTACGGGCGTCGATCGACCCTACCTGAGCGAAATGATTC
AATAGCGCCATACAATCCACGTGCAATGTCGGTGGCGAAGTAGCCCCCGC
ATCCCTAGACTATTTTTAGTGTCGGATGGCTTCCCATGTTTCCTTTTTTT
TTTCGCAATATTTTCATCTAAATTTGTCTGCTGTTATGTGCGTGTGTTTG
GTTGTCGTCGAAAGTACGGATGCCTTCGTTTTTTACGTGAACCTGCAGGT
ACATATCATACAAAACACCGATACTTGTATGTACCATGCTTGCACGTAAC
CCTGATTGGTGCATGATACTCACACTACGGATGCCGTTGGTAAACAGACA
GGTCGGAAATGCTCCCTGTGGAATAACCGTAACAAAAGCAGCATCATCAG
CAGCAACAAATACACGCCTCTCCTCGTATTCCTTCTCTTTGGGGGGGGTC
GCTAGCAGGGCGAGAAGGCGGCGGCTGCCAGCAGGGTCGTCGCTTTGAAC
ATGCTCATGGAAGCCGCAAGGCTGTCTTTGAAGAGGGGAGCGGACGTCGT
TGCCGATGCCCTTAACGCTTTAGTCGTGAGGTAATACATACATTACATTG
ATGTTATTGGTTGTTATTTTTTGTGGTGTTAATGGTTTTTGTTGCCGTTG
GCGTTGGCGGTGGCCGTTTTGTGACGTTTATTGGTTGCTGTCGCTGTTGG
TGGTGGTGGCAGTGGTGGTGGGCGTGGGCTTGGGCGTGCTATTTACCTTG
CTGTCGTTGCTGTTACCCAGGTGTTTTGTATTTCGTGCCCATCCTCCGTG
TTTTTTGTCTTTCATACCAGGGTGATTTTCCTTCCTGCACAGTAGCCAGC
CGCAGTCTTCTTTGGTCTGCACAAAACGAAATCATAACCAGCCGAACAAA
CACGAAAACGAGACTTTTGTCTTAAAACATGTAGGTAACACGTACGCACA
CCTTTTCATGCGTGTCATTTTTGCTGCTACTGCTGCTGCTGCTACTGGTG
CTCCTGCTGACGTTTCTGCTACGCTTGTATTCGAATCATGATCTGCTGAA
TGATTGTCTATCAACACGTACACACGCAGGCATTTGATCTTCAGTCTGCA
TGCTGCTGCTGTTACTGTTGTTCTGTTTTCCCCCCTATTCTCTTGTTTGT
ACACTGCAATGCGCCTTTTCGTTTCTTAATGCAGGGGGTATTCCCTTTTT
TTGTGATCAATCGCTCTTGTTTCTCGTTCGTGTTTCTCTGCTGACAGACG
CCGCGGTGACTAGCGGGAGCGGCGAGAGCATGGGCACCGCCTCAGACCTG
TGAGAATTTGTGTTTAGGATTGCATCCCTCAATGCACACAGCAGTAGCAC
CCACAGACTTTGCAGTACTCCACCAGCCACACTCCAGTTGTAACATATTG
AAGTAGTCCGTTGTTCACCCTCAATGCTCTCAGGTATTCCTCGCCTAACT
TGAGCCCCCATTCTGTGCCAGCTCTGTATGCATGCTTGCTTCGAGATTGG
ATGTTGTTCTCCACACGAAACAGCAAAAACTACGACTTTTCATGCCATCA
TTGTTCTGTATATGCAGAGGGGCGCTGCTTATTGTGGCGATGCACCCTGG
CATTGCTCTGGACCCTGGACCCCAGATCAAGTCCAGCGGCACCTTTACAC
AAGAGAGGGAAGCAAAAGAAGGTTTGCGAGGCGGCGGCAAATATCACCTT
GAAGACTTTGTTTGGTGCCGAAAGCTTCGTCAGAGGCCGAAGGAGGAAAG
AAGGTTGACTCAAGACCTTAATTCTTAACGAGTGAGCATACAGCGGTGTA
GCCCAGTCAGGGGCCCCGCCATACACCCATACACCACACACATGTTTGGG
GTACACGGTACTCGATTCGTATTATGTGGAACTCTGGGGATGTGTGTGGT
GTATGGGTGTATGGCGGGGCCCCTGACTGGGCTACACCGCTGTATGCTCA
CTCGTTAAGAATAAAGGTCTTGAGTCAACCTTCTTTCCTCCTTCGGACTC
TGACGAAGCTTTCGGCACCAAACACGATTATCGTAGGCCTGTGTCGCGGC
GGGGTATTGGCGTTGGAGTTGTCGTGGAACCGTGGTCCGGGCGGTGGAAC
GATATTTTTGGGTTGAAGCTGGGACGGCACTTCGAGAGG

Coding sequence (CDS) from alignment at P-littoralis_Contig113:35326..53414-

>mRNA_P-littoralis_Contig113.9.2 ID=mRNA_P-littoralis_Contig113.9.2|Name=mRNA_P-littoralis_Contig113.9.2|organism=Pylaiella littoralis U1_48|type=CDS|length=984bp|location=Sequence derived from alignment at P-littoralis_Contig113:35326..53414- (Pylaiella littoralis U1_48)
ATGCGAAACATTTCGCAACTGATGTGGCTGAGCGTGGCTGCGGCATTCAG
CCTTTTTATGTCAGGTGCACAGGGATACTCCTGTGTAAGCGGCTCACTGG
GCAGCAGAAGCAGCAGCCTTGCTGCCTCTGCAACTGCAACAACGATGAAC
TTGTCGCGACCATACGGGGAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCA
GCACCACCGCTATTCTATATCGGCTCGACGAGAGGCTAGATCAATGGGTC
TTGGAGAGGGTGGATGGGTTGTTGGCAAGGGCGTTGGCTGGGCCTGGGGT
CAAACATCGGCGGCAACCTTCAACCAAGCGCCACCGCTTGGAATGGCGGC
GGAGAGCGGTGCTCCCCCGGCGAAGAAGAAGCGGAAAGGGAAGGGGCCGT
ACAAAGTTATCGCCGACAACAAGAAAGCGAGGCGCAACTACGAAATCCTC
GAGAAGTTCGAGGCCGGGATCGAGCTGGTGGGGTCGGAGGTGAAGTCGTG
CCGGATGTCCAAGCTCAACATGGACGAAGGCTTTGCTCAGGCCAAGAACG
GGCAGTGTCTCCTTCACGGGGTCCACATCGCTGAGTGCGGGGCGTCGAAC
CGGTTCTACCAGCACGAGCCGAGGAGACCGCGAAGACTCCTCCTTCACAA
GCGCGAGATCAAGAAGCTGGAGGACAAGGTCGCCCAGAAAGGCATGACAG
TTGTCCCCCTCAAGATGTTCTTCAACGACGACAACAGACTTCCGATGGAG
CATCTTCTCCGGCAAGCCCTGGCGGCGGTTATGGCTAGATCGTCCCCCGC
TGGCGAGTTCAATGCGAAGGAGCCCAGCCGCTTTCGCACGCAGCCGTCAC
GCCGGAAAATACTCGGGGAGAGAAGAGGGCGAGAAGGCGGCGGCTGCCAG
CAGGGTCGTCGCTTTGAACATGCTCATGGAAGCCGCAAGGCTGTCTTTGA
AGAGGGGAGCGGACGTCGTTGCCGATGCCCTTAA