mRNA_P-littoralis_Contig156.49.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig156.49.1
Unique Name	mRNA_P-littoralis_Contig156.49.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig156.49.1 vs. uniprot
Match: D7FZ20_ECTSI (Metallothioneines are cystein rich small peptides thet chelate heavy metals n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FZ20_ECTSI)

HSP 1 Score: 55.5 bits (132), Expect = 2.040e-8
Identity = 51/67 (76.12%), Postives = 53/67 (79.10%), Query Frame = 1

Query:   43 SGGGCKVWADCSCGPXXXXXXXXXXXTVKQTKKSTSRSAGDXXXXXXXXXTGTTCTRTDNGCCGCGC 243
            S GGCKVWADCSCG XXXXXXXXXXX+VKQTK +TSRSAG XXXXXXXXX       T  G CGCGC
Sbjct:    2 SSGGCKVWADCSCGXXXXXXXXXXXXSVKQTKSATSRSAGXXXXXXXXXXXXXX-XXTSGGTCGCGC 67

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig156.49.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig156.49.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 1


Match Name	E-value	Identity	Description
D7FZ20_ECTSI	2.040e-8	76.12	Metallothioneines are cystein rich small peptides ...	[more]

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig156	contig	P-littoralis_Contig156:183698..195636 +

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	0
Model size	255
Hectar predicted targeting category	other localisation
Exons	3
Ec32 ortholog description	Metallothionein
Ec32 ortholog	Ec-20_001230.1
Cds size	255

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680789745.1574779-CDS-P-littoralis_Contig156:183697..183779	1680789745.1574779-CDS-P-littoralis_Contig156:183697..183779	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig156 183698..183779 +
1680789745.1741815-CDS-P-littoralis_Contig156:195259..195353	1680789745.1741815-CDS-P-littoralis_Contig156:195259..195353	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig156 195260..195353 +
1680789745.182949-CDS-P-littoralis_Contig156:195557..195636	1680789745.182949-CDS-P-littoralis_Contig156:195557..195636	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig156 195558..195636 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig156.49.1	prot_P-littoralis_Contig156.49.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig156 183698..195636 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig156:183698..195636+
coding sequence from alignment at P-littoralis_Contig156:183698..195636+

protein sequence of mRNA_P-littoralis_Contig156.49.1

>prot_P-littoralis_Contig156.49.1 ID=prot_P-littoralis_Contig156.49.1|Name=mRNA_P-littoralis_Contig156.49.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=85bp
TYEITTRTPALNMSSGGGCKVWADCSCGPSCSCGDSCTCGTVKQTKKSTS
RSAGDCPCGDKCGCTGTTCTRTDNGCCGCGCGNK*

mRNA from alignment at P-littoralis_Contig156:183698..195636+

Legend: CDSpolypeptide

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

>mRNA_P-littoralis_Contig156.49.1 ID=mRNA_P-littoralis_Contig156.49.1|Name=mRNA_P-littoralis_Contig156.49.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=11939bp|location=Sequence derived from alignment at P-littoralis_Contig156:183698..195636+ (Pylaiella littoralis U1_48)
ACTTACGAAATAACAACACGAACTCCAGCTCTAAACATGTCCAGCGGAGG
AGGATGTAAAGTGTGGGCGGACTGCAGCTGTGGTGAGAGACCGGGGCCGT
GGGGGTAGGGGAATGTATGGTAAGGGGGCCGAATCAGAGTTTTCGCCCGG
TTGGTTGTCTCGTCGGTTTATTCCGTGCTTTTCTCTTGTGAAAGCTTCTG
TATACGATATCATATCATGAGCATTTTCATCTCGGGCACGTTCCCCAGAG
TCCCATCATACTCTAGGTGAAAATAAGTAAGCCTTGGCATGGTGACGGCA
GCTTGATTTCACAATCTTCAATCAGCTTGCGAAGCTCGGCGTTCGTTGCC
GGGCGGGGGACCACAGAGAAAGGAGGGGGGTTGTTGACATATTGACATAA
CCCCCAGAGGTGTTGAAGTTCACGTTGCCTGCATCACTGCTGCCGGACCG
AAGAACCGACCCTCTTCGTGTGTGCGAATTGAGTTACAGCAGTCGCCACA
CGCAGCACTGATCGCCGTTCACTCTCACGGGTGTTGTTCATTTTCACAAC
TCTTACGTTTAATCCTGCTTCGTAAACACATATTTGTATAATATCTTACA
CTCGAAGTACTTCGTATGTATCTCGTATAGTATGTACTTCGCACTACCAC
CTATGAAGGGCAAAGACCAAAAACGGATGCTCCGGGTTGTTTCGTGGCCA
TAAGGTCCACTATCATTGTAGATTGGCCGTCTTCTCGTACCAACTTTGTG
TGTGTGTTGTCATCCCTTTAATTTGAACTGGAAAATGGGTTTAGAAACAC
CACAGGTCAGGTAGATGTGTACTTTGGTATTATTCCACATTCTCTGTCTT
CGCTGCAATATAGATGAGGACTTTAGGTTAGGGCCTACGTAATTTTTGTG
AACTCGAACATCGAATAACGGATAGTTCGATGTTCGACTTTTTGGGTCCT
TTATTTCGGAAAAGGCGAGTAAAAAAATCCCACACGCACACACACACACG
CAAGTGCTCTCCATTAGCCCGGGCTGTCATATCGGTATATACGCAGCTGC
TGCTGCTGCTACTTCTGCTGCTGTGTGGTTGCGACAGGAAGCCACGCCCG
TGTGATTGCGTCTCACCTGGCCCCGCTTGCGCTCGCGGGGCCCTGGGATC
AGTCGAAACCTCGCTGTCGCTCGGCATAGATACTTGTTTTGCGGCTATGC
TCTGCGGTCGTCTCTCTCGGTCGCCCGGTGGACTTCTCTCTCTTGTCGTG
ATGTGAGAGGGAGCGATAGACGCGGGTCTTCTTTTTTTGTCACCAATTTA
TTTCGTCAATAGCCCACAGGACTGCTGTAGGTTCGGTGTTAGAGCCCGTA
CTAACGGAAGGCCAAAAAAAACGAAATAGCGAAAACGAAAACGAAATTGG
GCTCTGATTGGTCGGGAAAAAAAACGAAAGAGGCATGTTTTCGTTTCAAC
GTCCTCCGGGGAGGCGTTCCTTCGTTTTCGATTTCGCAAAAATGAAGTGT
TTCGGACCACATGATTACGCTGCTTGTTCGATGTTCGAGTCCAAAAAAAT
TATGTAGGCCCCACCCTTAGACAACATGACAGGTAAATGTCTACGTCCGT
ATCACTCTCTGTTTTCTCTGCAACATGTACCCCGGATCCTCGTCTGGGGA
GACTCTAAAACACTGATTTTTTCTTCTTTTCTTACAAACATACGGTATTA
GTTTCTTTTAGGGCCGGATTTTTTTTCATTTTTGGATAGAATCCGAACGA
ACTTTTTCCGGCCAGCGGTTGCCGATCCGCCGTTCTTATAGGTAAACAGG
TGTTCGGATTTTCGGTGATTCTTTTTTTTAGTAGGTGCTTGAAGAGTCGG
CTCCAGAGTAAATATCTGCATCGAAGGACCGCAGGGTGGTGTTTTTTGCG
CTGAAACCCGTTTGCATCGGCGCTCGTAACTTTCGAACGAATGAAGACAC
AGCAATGACGAAGGCATCTTCCGTGAGCTGTGTATATGATCCCCTTCGTG
TCGTGATCGCTTGGGTTAGGGTTACATCCGTACATTCGCAACGTAGGTTT
GCTCATGGCCAACTCATGCAAAACAAATTGAGAAAGATGTATCAGCCGGT
CTGCTGTACAGCAGCATTATTATATACTGCTGTATGTATGGTAGTTGTAC
AGCAGTAGAGAAATGAGATGACAGCTCGGGTTATTTTTTACAACACAACA
ACATGCCACAGCCACGAGCGATGACCATTTTGCGAACATGCCAGTGTGAT
CCTCACCCAAACGATTACCACACGAGGGGAGCCATACGCACAGCTCACGG
GAGACGTGTTTGTCATCGCTGTGGCTTCATTCGTTGGGGAGTTACGCGCG
AAGAAGACGCAAACTGGTCTCACTCAGAGGAAGCTTTGATACTCCTCCTC
CTGCGTGTTGCTGCTGTGCTGATGGTGCTGCTGCTACATACGGTTGGTTT
TGGTTGCTGATGAACACGATGGAACGGATGATGACACGGCAAGCGTACAC
AGAAAGATGGTGGACACATGTATGGACAGCAGCAAGCAGTAGTAGCAGCA
GCAGCAGCAGCAGCAGGAGCAGCAGGAGCAGAAGCTGCAACAGCACAGAA
AGTAGTAGCAGCAGCTCTCCTCCTCTGATGATCTGTTGTGATAAATATCG
TTTGTTTTGTCCACACACAAAGAGAGATATAACTTCACACGTTGTTTTTT
TATATATTTTCCGATCGTATTTTCCGAACTGATCCAGCGTTCGGAAAATG
TCCGATTTTCCGGCTGCAATCCGATTAAAAGCTGTTCGGAGATTTTTGTT
CGGAATTTTTTGTTCGGAAAAAGGTGTTCACTGTACCGAGCCTACAAGAA
GCGTTGACTTTAAAAATATTCGAAATCTATCAAAAAAATAAATAAAAAAA
TCGGCCCTACAAGAAACCGCCTTACAGTAGTGTGTTTTTTCAGGGTGGTT
AGCCCGCCGCAGGCGAATTTTTTTTTAGGGTTCCCATCAGGTCAGATGGG
ATGGTATTTGCGCCCACTTTGATGCTATTACGATGGTATGGGATGTAATC
GTACATGACGTGATGGTATGGGATGGTATAAGAGCAGGGTGCTGATGGTA
TGGGATGGTAAATGTTGGCTTCGCGTGATGGTATGGGATGGTAACGGGTG
GGACGGTAAGTGTGATGGGATGGGGGAGCTAGTAATGCCGTGGCGTGGTG
GCGAGAAGACGGGGACACATGAACTCTGGTACACAGAGTTGTTGCCCTGG
TGTTTCCGGTACCCTCCCGCTTGCACATGCATATACGATGTAACACGAGA
CTTGTCATCTTCCGCCGGTCCAGCTAGGTCTAGACCAAGAAAAACAGCAG
CTAGCTGAACTGACAACAGCAGCAAATCAATGTTAAATATTATTTAGAAT
ATGGTATATACTGGTATGTTTTTATTTAGATTTCAGCACCTTTGCAGGCA
CCAACTAACCCCAGCCGCTAAAACAAAAACGGCAAAAACAATAGCGAAAA
ACAAAGTAAAAACAAAAACAAAACACAAAAACGCAAAAACTATCAATCGA
AACGTGACAGGACACCGCAACCCTAGTTGTTCAGGGTGGCAGTGCTTCCT
TCCCTGGCCTGCTGGGGGGCAACCGCCGCCTTTGCGTTTGCATCGTGCCT
TGCCTTCAATGCGGCCAGCTCTCGCTCTACTTTCGCAAAGTCGGAATGAG
GTGCCTGTTAAGCCTGAGCAACAGCATCTGCTCGATCTAACGGGGCAGGG
TACCGGCACGCATGTCACTAAGGACCTGCGTGAGGGCGGAAAAGTTCCTC
TCCGCTTGACAACTGGTGGCATCGACGCCTGCGTATAAGCGTGCTAGTAA
ACTCAGATGCGGCCAGCGGGCAGGCGCTACAACGTTCCCTGCCACGTCTA
CCCTATCCACGCCCCGCGCATTCCAGTACTTCAGTAGGTCGAAGTTGGAG
TCGTTGACGGCGGCCGCTTCTTTCATGTACGCGGCAAACTCGCGCTCTGC
GACGTCCGCTCGATCCTCTGCCGCATCCACGTCGCCCGCGGGGCCGGAGA
CCTGGGTGCTTAGATTCGCTCTGATCCTGTCCATTCTGGACATCTTCGGG
GCCGGCTTGGGCGGGGCACCGCCTCCGGGGGCGGGGTTCACGCCCGGTGC
CGCGCCCGGTGCCGCCCCCGTTGCCGCCCCCGGAGAAGCCTGCGAAGAGC
CCCCCGAAGCACTCCCCGTTCCTTCGACCTCCGCGCTCGCAGATACAGTG
CCGGAGAATTTCCCCAACTCCTCCCGTACCGCGCTGGCTGCAGCCTGTTT
TAGGCTGTGTCCCCCGTTGTAGCAAACAGCGAGGCAACAGGACTTGAAAC
GCGGATCGAGCATCAGGCATATCTTCTCCGTCGGCCTCTTAGCACGCGCC
AAGCCCCTGGATTCCATGTCCTCCACCAGAATCTCCAGCAGCTCCTGAAC
CTCCGGGAGAAGGTTCGTCACGGGCACCTCCTCGGGGTCGCCATTGAAAG
GGTCAAGGCTGACGATGTCTTGGCGCGAGTCGGACAACGACTTCAGCAGC
ACGTATAATGAGTTGATCGCCTCGCCCACAAAGCCATGAGGTCCACCCTG
GACCTGCGTGCTCACCAGTGAAGCGTCTTGAAGGACGCTGATAATCTCAC
GGGCAGCCTGCCACTTCCGTCGGGTTAGGCGCGCGCTTGCTGATGTTTGA
TTTGTTCAGGTTCCGCGTGAAGAACTCCTGCATAGGCTTGTAGAGGCGCA
CCTCCCGCTTCAACACCGCATACACTGACCCCCACCTGCAAGGGGGGTGT
AAGAGGGGGGGGGCATGTTAAAGTTGATCGTGAGATTTGCCGATGGTATC
ACGAGCAGGGAGCTCGAACTCTGCAGCTACCGCAGTAAACAATTAACACC
AGTGACACCAACTAATGTTACGGCGTGTTCATGCATGAGAGCGCCACAAC
AAATGTCAACGAACACAAGCGTACCGCGGCACTAGGAAAGGGCATGAAAT
ACTTTGCCAAAGCAACCCCCGGCAGTTGTTTCTAGTTTCTGGGAGTATTA
CAGAACTTACCGCTCATCTATGCTCTTATGCTAACTCCACGCTATTCTAA
ACAAGACACAAGCACACACAAAACACACACCTTGTATCGTTGCGGCGGAG
AACCTCCAAAGCGGTGGACAGTCCGTCCAGCTCCGTTTGCAGGTTTTTGA
AGGCGTCGTTGTTGCACGGGGAATGGCTGAAGACCCCCGCAAGCGCGGTC
ATCACAGACACGACGTTGCGAAGCTCAGGGTTCTTGCACGTGCCCCCCTG
CGTTGCCTTCACGAAGGAGCCGCTGATGCCCATTCCCCAGTTGATCCCCG
AGTTGAGCCGATGTCCCGTGCAGATGAGGACGGCCACGCCCATGCCCTCA
AGCGCATTCACCATGTTGCCCCCTCGGTCGACCGTGGCAGCAACGTAAAT
CTTCGCTGGGTCGGCGTTGGCCTCTCCTACGATAGGCGCGAAGTACCCGG
TAGTGACCTGCTCAAAGCAAAAGTAACACGGTCAGCGAATGCTAGGCATG
GGGCAGAGTTGCTCAGAAATAAGAAATTAAGGCACAATTTAGAATAGTAG
AGAACAGCATTCAACGCGGCAATTGGTGTCCACGAACGCAAGAGGTTTCG
TTGGGCACAAACAAACCGATCCTATATTACAACGAATTGCCAACAAATTC
ATAATGTGACAATCCCTTCTATCCAGCAGCTTTTATGGTCGCCCCAAGAA
GTTCGGCCAAGCGTGAAAAAATCAGCTGGAACAAATGAATAAATATAATC
AACCAGCAGTAAACAATCAATAAACTAAACCAACACCCAGAGAAACTCAC
CTCGCGGATCCACGGGTCCACATCGCTTGCCGTGTGCGTACCCGGGAACA
CCTTTGTCGTTAGCGTCAGTCGCTCCATCTCCGTGTTACCCTTCGGAATG
AAGGAGACCGTGAGAGTGCAAAACTCGATGCCTTGCGTGCTGCTCAGGTC
TGACTGCACGCCAAAGAATGGCCCACCCCACCCGAGTTCCTTGCAGGAAA
CTATGTAGTCCTTCAGCTTCGTGATGAGGTTGGTGCGAACATCGGCGGCC
AAGGCATCGAGAATGTTTTCCATCGTGCCCTGGTGTATCGGATCCTGTAC
GTACGACGGGCTCAAGCCGCCGACGAAGGACTGGAACCCGGCCCGCTCAG
CCATGGAGAACGGCCGCACGTCGACGCAGCACATGATGACGTATCGAACG
TGTGTTCTTTCTTCTCATCGGCTTTCATGGGCTTGACGAAGTGTTCGGCG
ATCGAGCGCATCCCCGCTCCAGCTCCAGGCTTGCCGTTTTTCGTGCCCAA
GCTTCCTGAAGGGTTGCAACAAAGATTCAGCATAGCAGCAGTTTTTGGTC
ATTGCCCTACCTGGGCCTTTCTGGGTCGAATGTACGAAGAGCAACGTTCC
CAACAGGCCCTTCTGAAGAACCTGATATTGTGTGTCGAAACGTCGAAACA
GGGTGATAAAAGAAGCACGAGACTTACTTGAATATGATTTTCGTTGCTAA
ATCGAAATGGATCCTTCTACTGTACTCGTGGAGAAAAGAAACTAACGAGA
CGTATGTATCATCTGTTTTCGTCTCTAATCTACTCTGGATCCTCGTCTAG
AGAGAGGCGGGCACATTGATGTCTTCGCAAAAACAAATTCCATCAGGTAT
CCAACCAAACACACAATGAACGCCCAGGACGGTGCTGCCAGCACAGGTGT
GCGTGTGTGTGTCCGTTCGCCCCATCTATTCTGGGCTCCGGGCTATACCT
TTCGGTATATAGAGTGAGTGCACCAGCCGGGGCCACACGGAAGGAAGGCG
ACACACGAGCTTTTTACTTTTTTTCTGTTGATAGCCACTGCACGGACACC
GGTGGCCCCGGTGGTCTAGTGGGTCCCTCGTTAACCTACTACCTTACTCT
GAGAGCGTTTCTTCCGACTTGATAGTGGAAAGCGAATCACTCGTGAGTAA
ACAGAGGAAGGGGATTGCTGTACCCGACTCACGTTTAAAATCAAAGGCAC
GTACCGCGTACCGCAGGAGGAAGATGTGGGCAACATAAAATAAAAAATGA
AGAAGCTCGTACGTGACCTAGAGTTCCGCCCCGTCTCAAAATGACCTGGG
TACCCGAGTCTGGTACCCGGGTCCGGCACTACCCGGTCAGGTCCCGGGTA
GCATATTTACTACCCGGGTATTTATTACCCGGGTAATTGAAATCGTAGTA
TCACACACGGTGCCCCTTGGATTTTTGGGGCACCGTATTTTACTATTCAG
GGAGGAAGGGGGCACCGTATTCCACGTCACAATTACCCGGGTATGGGTAA
CGCTCCTCGAGTCCCAATGGGTACCCGGGTCCAAAAAAAGAGACGGGGCG
GAACTCGTGTGTGACCTTCCTCCTGGGTGACCCCGGCTGAAGCACCCATG
TCATTCCGAAAGGTGTAGACTGGTGCCCAGAATAAATGGGATGACACGCA
CGTATTATATGCACTGGAGTTTATCACAAAAGGTTGCATCGAATATGATA
GGTCTCAGAGAGAATCGAACTTTCAACCGCACTGGTAGCAGGTAGACGAG
AGGAGCACTACACCACCGGGGCGACCGGTTATAGGTCGTGCACACTCAAC
TCACACATGATCTACGTGTGTCACACAAGACATCCACTAAATTGTGTTGT
TGACCCTATGCAACGGTACATTTTCTGAGAAAGAAAGAAGCAAAAAAACA
CAGGTATGACAGATGTATCTTATTTTTTGAGCCGACTCACATTTAATATC
AAAGGCACGTACCGCGTACCGCAGGAGGAAGATGTGGGCAACATAAAATA
AAAAATGAAGAAGCTCGTACGTGACCTAGAGTTCCGCCCCGTCTCAAAAT
GACCTGGGTACCCGAGTCTGGTACCCGGGTCCGGCACTACCCGGTCAGGT
CCCGGGTAGCATATTTACTACCCGGGTATTTACTACCCGGGTAATTGAAA
TCGTAGTATCACACACGGTGCCCCTTGGATTTTTGGGGCACCGTATTTTA
CTATTCAGGGAGAAAGGGGGCACCGTATTCCACGTCACAATTACCCGGGT
ATGGGTAACGCTCCTCGAGTCCCAATGGGTACCCGGGTCCAAAAAAAGAG
ACGGGGCGGAACTCGTGTGTGACCTTCCTCCTGGGTGACCCCGGCTGAAG
CACCCATATAATTCCGAAAGGTGTAGACTGGTGCCCAGAATAAATGGGAT
GACACGCACGTATTATATGCACTGGAGTTTATCACAAAAGGTTGCATCGA
ATATGATAGGTCTCAGAGAGAATCGAACTTTCAACCGCACTGGTAGCAGG
TAGACGAGAGGAGCACTACACCACCGGGGCGACCGGTTATAGGTCGTGCA
CACTCAACTCACACATGATCTACGTGTGTCACACAAGACATCCACTAAAT
TGTGTTGACTCTATGCAACGGTACATTTTCTGAGAAAGAAAGAAGCAAAA
AAACACAGGTATGACAGATGTATCTTATTTTTTGAGTTCGTTGTTCGTTT
CTACAAGTATAATAATCTACTCCAGATCCTCCTCTGAAGAGAGACGGACG
CCGTAATGATGTTTTTTTTATATGAAAGACTTCAGTGATGTCTCCGGATC
TCCAGATGAGGACCCGGGGTAAACAATGACTATTGGGTAACCCCTATCTA
CAGATGCCATCTGCAAAACGTTTCTTGCAGTTGTCGCCCGCGTTTTTTTC
AACTTTGACCAAACCCTACTTCAATTTTACGCTTCTTCCGACCCAACCCA
ACCCCAACCCTAGCCTTATCCCTAACCCAGACCCTGAGCCGACCCGAGTC
AAGAAGGAGCCTTGGCTCCGCTGCGGCGCGTTTGGTTAGAAAAACAAGCC
TTGGTGATAAATGCAAACGCGGCGTACACTAAGAAAGATAACATTGTGCA
GATGGCATCTGCAGACAAGGGTTACCTGAATATTGAAGCCAACACAGAGA
ATAACATGTCATACATTTACCTGTTTCCAGTCTTATCAGATAATAATGCG
CCATTGCAGCAGCCGAGGTCATCAGGCTCATTTTGGTGGTCGTCTTGTGT
GACATACGTGTTGAGTATGTACGGTTAAAAATTATATTTCCTGTTGATAT
CTCTTATGTGTAGATACGATAAATATTTTACAAACGCAAACGAAACAATC
GTATCATTGATACTTGTATGCCTGTAAGGCCCGCCCTTAACCAGAAATCA
GCTCTGAGTCTGAGAGTTGGAGCTAGAAGATCTAAAGAACACTTGGTGTG
ATTCGGCGAAGTGAGGAAATCCACTACGGTACTTTCTTTCTGTTTCCAGC
GTGTGACATTCGGACCGGATCTCCCGGGCTCAATCGTGAACTTTTACGTT
CACTTTTGATCCAAGAACATTTTTTGGCTGAGAGTTGCCCTGAGAGATGG
CGAATCCTAACACAAGATCACAAAATATTACTTCGGCTTGCTTCAGAAGG
TGGTCACGTCGTCACACACCCACACGTGAGGCCCGTTCTTATCCGAAAGT
CAGCTCTGAGTCCGAGTGCTGAATCTAGAGTTAGAGCGAGAAGATCCAAA
GAACACTTGACATGATTGGGTGAAGTGAAGACATAATTTCTTTTTTTGTT
TTTTCAGCGTATGCTACGAGTAGTCGGACCGGATCTCTCAGACTCAATCG
CGGACTTACTTTCATTTTTGATGCAAAAACGTTTTTCGTGTCTCGAGAGT
TGCTCTGAGAGATGGCGAATCGGAACGTAACACCACAAAAGATGCCTTCG
GCTTGCTTCGGAAGGTGGCCACGTCGGCACATACTCACAAAGAAACACGG
AGGAGAGTTTCTCTTGCGAACCGCACAGCCACTCGCGAGACAAGGATGTC
CTCTTCAAGTGCCAAACAGCAACAGCAGCATGACAGGGAGAGAAGCACAG
CAGCGGCAGTACCACCACCAGTCCAGCAGCAGTACTGTCAAAACGACTTA
TTCGTGTCAAAGCAAGTGAATGCGTCGCCAAAATGTTTTGAAAATGAGAG
CCTTTTGTATACATAGCGGGGTAAAGAGTCTAGCTTCTTGGAGCTACGTG
GTATTTCAGCTGACGAATAACGAAATGGCGATTCAAAATGGCGACATTTA
GCTACCTAGGAGTCCGAGAGGGTGAACAGAGCGCACAGCAGCTTGGGCGT
TTACAAATTATTTTTCTCGGTAATGGGCATTCTCCCGATCTTTCGATGGA
TTTTTGAATTTTTCCACCCAAACTTTATTAAAATGTGTGAAGAGGCATTT
GTACAAGTTGCAACAGCAGTACTTTGTCCGATTGGTTTATTTTTGGGGGC
AACGACACAACATATTACGCACCCTGGTCATCAAGCGACACAGCTGGGTG
CACAATTTTTCCAGCGTGAAACGAGCGATTGGTCGTCGCTCGTTTTCATT
CTGCAGAGCCGGAAAATGGGCTGTGTGCAATCCGCGGGGGCCACTTTTCT
GCATAGCTGCACCCTGATTTTGGGCATGTACCCTGTTATGTCGGGAAGAT
GAGACCCTTCCACTGGCCATTCCTCCCGCAGTTAATTTATTTCCGCTTCA
GCCAAAGGGCATCAAAATACAGATTTTCCTACCTCGCGATTGTGAATCGG
CAGGGCCTGCCTCCAACCTCCAACCGTTCCACATCGACTCTTCCTTCTCT
GAAACATACAACGGCTACCATACCAACATACCAAGTACAATGTAACTCAA
CAGCTTTCGCCGTAGTCCTGAACACCAACATTCCCCAAGTTATTTTGGTT
TAACGTACATCGAGAAGGAGGCTGCCCAGGCCGACCTGCTCTTGACATCC
TCCCCAGACTTGCAAAAAGAGTAGGAGTACGAGAAATGTGTTTGTGGGAG
AAAAAAAAGGGCTCTGAAGCTCCTTTTGAAATTTTTGTTCACCCAACGAA
AAGCTACCATAGAATGATGCTGCCCGCTGCTGCTACGCATACACGACAGC
AGTGGTTTGACCGTCGCGTGGCTGGTGGTGATCCCAAATTGGATCAAACT
ACGCCATATTTTGCTCATGTATCCGGTGTGCCGTGTTGGCGAGTTTCGGG
CGATTTGGTCGTCGACTCTTTGCCGTCCGCAACACCGCGCTTGAAGGTTG
TTTGTTCGCAATGGAAACGAGCGTAGAGAAGCAAGACACCACACCGGGTT
GCTTCAGTTGTTCCCTCATCATGAACCTCTTGAAGAGCATCCGGTCCCCT
GTTTGAAACCGCAGGCGCAGGCAGGACCGGCGTCACGCGGGCATGACAGC
ATTGCGTACTGTAGGGCTTGGCCTTTCTTGAAGCTGTTGGAAACCCAGAG
GGTGCGCGACTTACAGGCATGCTCTGTAGTTGACCAAGACACGCTCATTG
GTCAAGATGAGCGCGGGATTTAAGCTGGTCTGGTATGCCACGCTCGTTCG
TTTTTCAATCTGTTTGGCGCGTGTTAATTTCATATATATATTTTTTTGTT
CGCGGCGGCCTAACTCTTCGCTATGATGATGCTGCTGTTGTTCCTTCGTT
TTTTGTCGGCAGGTCCTTCATGCTCGTGCGGTGACTCGTGCACCTGCGGC
ACCGTGAAGCAGACCAAGAAATCCACTTCTCGCTCTGCGGGGGACTGCCC
CTGCGGGTGAGAGGAAACGTTTTCATTGGCTGTCTTTGCAAGCTCATGAG
TGACGTAGTCGCAGATGAAAAATGAAGGGGATGCTTGGGTTTTTGGTTGA
CCAGCACGAAATGTTCCCACGCACCGCCGCGTTTCGAGGTTTTTGGAAAT
CGCTCGTCTCAACTCTTGTGCACGTGCTTTCTACTTTTGTCTCGTTCATG
TTCGGTTCAGGGACAAGTGCGGCTGCACCGGAACTACGTGCACCCGCACC
GACAACGGCTGCTGTGGCTGTGGCTGTGGCAACAAGTAA

Coding sequence (CDS) from alignment at P-littoralis_Contig156:183698..195636+

>mRNA_P-littoralis_Contig156.49.1 ID=mRNA_P-littoralis_Contig156.49.1|Name=mRNA_P-littoralis_Contig156.49.1|organism=Pylaiella littoralis U1_48|type=CDS|length=255bp|location=Sequence derived from alignment at P-littoralis_Contig156:183698..195636+ (Pylaiella littoralis U1_48)
ACTTACGAAATAACAACACGAACTCCAGCTCTAAACATGTCCAGCGGAGG
AGGATGTAAAGTGTGGGCGGACTGCAGCTGTGGTCCTTCATGCTCGTGCG
GTGACTCGTGCACCTGCGGCACCGTGAAGCAGACCAAGAAATCCACTTCT
CGCTCTGCGGGGGACTGCCCCTGCGGGGACAAGTGCGGCTGCACCGGAAC
TACGTGCACCCGCACCGACAACGGCTGCTGTGGCTGTGGCTGTGGCAACA
AGTAA