mRNA_A-nodosum_M_contig910.11.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig910.11.1
Unique NamemRNA_A-nodosum_M_contig910.11.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: D8LC91_ECTSI (PRF3, plastid translation release factor RF3 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LC91_ECTSI)

HSP 1 Score: 93.2 bits (230), Expect = 1.760e-16
Identity = 39/52 (75.00%), Postives = 47/52 (90.38%), Query Frame = -1
Query:  910 SVQKAGKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDL 1065
               KAGKLFG+F AQD+FGRPVLLFRNEWKLA++Q +LPQLEL+PWS+PPD+
Sbjct:  579 EATKAGKLFGVFTAQDRFGRPVLLFRNEWKLANVQGDLPQLELIPWSRPPDI 630          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: D8LPQ1_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LPQ1_ECTSI)

HSP 1 Score: 80.5 bits (197), Expect = 5.320e-14
Identity = 72/163 (44.17%), Postives = 95/163 (58.28%), Query Frame = 1
Query:    1 MSQKRLSRALSLERFAAGKDGRVNAYKKKKQANKRKLFEKAQLKRRYAKLLKKEGLANTSSLTHESQQTRCDPTDDIAYTDVEGEPGSSAPSVAERRPEETAVTEDRNQGCSIKEDDGQNRRRVGERKRRREQHAEGTGRTKSEKRETPLQQHRPDPFKEAKA 489
            M++K L +AL+LE+FAAGKDGR NA+KKKKQA KRKLFEKAQLKR+YAKLLKKE +  T+   H     R   +D  A    E   G        R+ +E A   +  +   + +D     R+ GER    +Q AEG  + + +  +    +HRPDPFK AKA
Sbjct:    1 MARKELPQALTLEKFAAGKDGRANAFKKKKQAKKRKLFEKAQLKRQYAKLLKKEAV--TARGEHGPDAPR---SDGAAGVGKEKRAGRLV-LTPNRKWKEEASGGELKRRRELSDD-----RQSGER----QQVAEGRKQEQRKPGKWRRPEHRPDPFKAAKA 148          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: A0A836C6V6_9STRA (PRF3, plastid translation release factor RF3 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C6V6_9STRA)

HSP 1 Score: 82.0 bits (201), Expect = 6.730e-13
Identity = 34/52 (65.38%), Postives = 43/52 (82.69%), Query Frame = -1
Query:  910 SVQKAGKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDL 1065
            + +  GKLFGIF A+D+FGRPVLLFRNEWKL  +  +LP+LELVPW+ PPD+
Sbjct:  563 AAEADGKLFGIFQAKDRFGRPVLLFRNEWKLQQVMADLPELELVPWAAPPDI 614          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: A0A7S4AKR9_9STRA (Hypothetical protein n=1 Tax=Pseudo-nitzschia australis TaxID=44445 RepID=A0A7S4AKR9_9STRA)

HSP 1 Score: 75.9 bits (185), Expect = 6.280e-11
Identity = 35/56 (62.50%), Postives = 42/56 (75.00%), Query Frame = -1
Query:  907 SVQKA---GKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDLD 1065
            +V KA   GKLFGI   QD++GRPVLLFRN+WK AS+ EE   L+L PWSQPPD +
Sbjct:  565 AVDKADADGKLFGIMIVQDRWGRPVLLFRNDWKAASLMEEEKDLQLKPWSQPPDFE 620          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: A0A448ZM45_9STRA (Tr-type G domain-containing protein n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448ZM45_9STRA)

HSP 1 Score: 75.5 bits (184), Expect = 8.400e-11
Identity = 35/56 (62.50%), Postives = 42/56 (75.00%), Query Frame = -1
Query:  907 SVQKA---GKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDLD 1065
            +V KA   GKLFGI   QD++GRPVLLFRN+WK AS+ EE   L+L PWSQPPD +
Sbjct:  571 AVDKADADGKLFGIMIVQDRWGRPVLLFRNDWKAASLTEEEKDLQLKPWSQPPDFE 626          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: K0RHV0_THAOC (RF3_C domain-containing protein (Fragment) n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0RHV0_THAOC)

HSP 1 Score: 69.7 bits (169), Expect = 1.410e-10
Identity = 34/53 (64.15%), Postives = 39/53 (73.58%), Query Frame = -1
Query:  916 SVQKA---GKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPP 1065
            +V KA   GKLF I   QD++ RPVLLFRNEWK AS+QEE   LEL PWS+PP
Sbjct:   93 AVDKADADGKLFNIMIVQDRWQRPVLLFRNEWKAASLQEEEKYLELKPWSRPP 145          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: A0A7S2SJV3_9STRA (Hypothetical protein n=1 Tax=Eucampia antarctica TaxID=49252 RepID=A0A7S2SJV3_9STRA)

HSP 1 Score: 71.6 bits (174), Expect = 3.850e-10
Identity = 32/53 (60.38%), Postives = 37/53 (69.81%), Query Frame = -1
Query:  907 SVQKAGKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDLD 1065
               K GKLFGI   QD++ RPVLLFRN+WK AS+ EE   LEL PWS+PP  D
Sbjct:  245 KADKDGKLFGIMIVQDRWQRPVLLFRNDWKAASLGEEEKYLELKPWSKPPSFD 297          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: B7G1B1_PHATC (Predicted protein n=1 Tax=Phaeodactylum tricornutum (strain CCAP 1055/1) TaxID=556484 RepID=B7G1B1_PHATC)

HSP 1 Score: 72.8 bits (177), Expect = 6.100e-10
Identity = 34/56 (60.71%), Postives = 42/56 (75.00%), Query Frame = -1
Query:  907 SVQKA---GKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDLD 1065
            +V+KA   GKLFGI   QD++GRPVLLFRN+WK AS+ EE   L+L PWS PP +D
Sbjct:  578 AVEKADADGKLFGIMICQDRWGRPVLLFRNDWKAASVAEEEKYLDLKPWSTPPIID 633          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: A0A7S2UGB4_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2UGB4_9STRA)

HSP 1 Score: 72.4 bits (176), Expect = 7.930e-10
Identity = 34/56 (60.71%), Postives = 42/56 (75.00%), Query Frame = -1
Query:  907 SVQKA---GKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDLD 1065
            +V+KA   GKLFGI   QD++ RPVLLFRN+WK AS+ EE   LEL+PWS+PP  D
Sbjct:  563 AVEKADADGKLFGIMVVQDRWKRPVLLFRNDWKAASLAEEEKYLELLPWSRPPSFD 618          
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Match: A0A7S2LLQ4_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2LLQ4_9STRA)

HSP 1 Score: 69.3 bits (168), Expect = 1.390e-9
Identity = 33/56 (58.93%), Postives = 41/56 (73.21%), Query Frame = -1
Query:  907 SVQKA---GKLFGIFFAQDKFGRPVLLFRNEWKLASIQEELPQLELVPWSQPPDLD 1065
            +V KA   GKLFGI   QD++ RPVLLFRNEWK AS+ +E   L+L PWS+PP+ D
Sbjct:  200 AVDKADADGKLFGIMIVQDRWKRPVLLFRNEWKAASVAQEEDYLQLQPWSKPPEDD 255          
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig910.11.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LC91_ECTSI1.760e-1675.00PRF3, plastid translation release factor RF3 n=1 T... [more]
D8LPQ1_ECTSI5.320e-1444.17Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A836C6V6_9STRA6.730e-1365.38PRF3, plastid translation release factor RF3 n=1 T... [more]
A0A7S4AKR9_9STRA6.280e-1162.50Hypothetical protein n=1 Tax=Pseudo-nitzschia aust... [more]
A0A448ZM45_9STRA8.400e-1162.50Tr-type G domain-containing protein n=1 Tax=Pseudo... [more]
K0RHV0_THAOC1.410e-1064.15RF3_C domain-containing protein (Fragment) n=1 Tax... [more]
A0A7S2SJV3_9STRA3.850e-1060.38Hypothetical protein n=1 Tax=Eucampia antarctica T... [more]
B7G1B1_PHATC6.100e-1060.71Predicted protein n=1 Tax=Phaeodactylum tricornutu... [more]
A0A7S2UGB4_9STRA7.930e-1060.71Hypothetical protein n=1 Tax=Attheya septentrional... [more]
A0A7S2LLQ4_9STRA1.390e-958.93Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig910contigA-nodosum_M_contig910:75720..90653 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Model size1434
Hectar predicted targeting categoryother localisation
Exons3
Cds size681
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680870363.4687448-CDS-A-nodosum_M_contig910:75719..758131680870363.4687448-CDS-A-nodosum_M_contig910:75719..75813Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig910 75720..75813 +
1680870363.4825401-CDS-A-nodosum_M_contig910:88669..890611680870363.4825401-CDS-A-nodosum_M_contig910:88669..89061Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig910 88670..89061 +
1680870363.546355-CDS-A-nodosum_M_contig910:89705..899001680870363.546355-CDS-A-nodosum_M_contig910:89705..89900Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig910 89706..89900 +


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

Feature NameUnique NameSpeciesTypePosition
1680870363.557848-UTR-A-nodosum_M_contig910:89900..906531680870363.557848-UTR-A-nodosum_M_contig910:89900..90653Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig910 89901..90653 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig910.11.1prot_A-nodosum_M_contig910.11.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig910 75720..89900 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig910.11.1

>prot_A-nodosum_M_contig910.11.1 ID=prot_A-nodosum_M_contig910.11.1|Name=mRNA_A-nodosum_M_contig910.11.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=227bp
MSQKRLSRALSLERFAAGKDGRVNAYKKKKQANKRKLFEKAQLKRRYAKL
LKKEGLANTSSLTHESQQTRCDPTDDIAYTDVEGEPGSSAPSVAERRPEE
TAVTEDRNQGCSIKEDDGQNRRRVGERKRRREQHAEGTGRTKSEKRETPL
QQHRPDPFKEAKAKAEQRRLEKEEAHEERERQRTEKQSKAKQRRKKHALL
SKRTKGGQPVMKHTMQHLLEKIQGQA*
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mRNA from alignment at A-nodosum_M_contig910:75720..90653+

Legend: CDSpolypeptideUTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig910.11.1 ID=mRNA_A-nodosum_M_contig910.11.1|Name=mRNA_A-nodosum_M_contig910.11.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=14934bp|location=Sequence derived from alignment at A-nodosum_M_contig910:75720..90653+ (Ascophyllum nodosum dioecious)
ATGAGTCAAAAACGTTTATCCCGTGCTTTGAGTCTTGAGCGATTTGCGGC TGGAAAAGACGGCCGAGTTAATGCGTACAAGAAGAAGAAACAAGGTGAAG AAATACAGAGGAAAATGTCAAATAAACAAATTTTATGCTTACATCAATTT TCTCCCCTCGGAGATGAGAGGTGCTGCGGTACCGTACACATGACCTGCCC TGTTGAATAACTTGGGATACTGTATTAACGAGTGTGACTGCTAGCTTCGA ATGAAGTATCGTACAACAACACGATTTGCTGATCAGATTATGTCGCAACT TCCATTGGGGGAACTTGACTCTTCGAGATTCCCATAAAAATCTGAACGCA TCTAGACCTTCTGAGCATCCCACACAGGTAGGTGCATGTAGGCCTTTATC CATTAGACCGGTTTTTATGGGAGCATAAAGTTGCGGGAAAAGTAAAAGTT TCCAAACTTTTCTCGCAACTTTTCTCATGTACGCTCTTTATGGGAGCGAA AAGTTGCGAGAAAAGTTTGGAAACTTTTGCTTTGGACCATAATCCCGCGA TCTGGAGCAAAAGTTTGCAAACTTTTCTCGCGACAGAAGTGGCGAAAAAA GTTGCACGGCGGAAATTATACCGGTTCGGGTGTCCGTGTTATTGTCAAAT ATTGGTAGACTGTTCTCTGGGGTCACACAACCCAATACACAAACACACAC GCGTGCGAGCCCCACACCGACGCACACCACACGAAACATGGAGAGCATCG ACAACCAGTCAGAAGAGACTGTTGTCGCAGCAGCAGCTGCAGCAACTTCG ATCATGATGGGCCTGATCCAGCAACTTCGATCATGCTGGCCGGGAGTGCA TTCCTTTGGAATTGAAGGTGCGTCTGTGTTGGTGTTCCTTTCTGTTCCTT GTACATAGACCTGTACGTGGTGAGCCTGTATTTGTAGGCCGGTTCAACTT TTCGGAGACGGAATTTACTACTGCTGTAGGTAGCTCTCGCGGCGTGGGAG GCATGAACACGCTTGTTTAACTCGTACTTGTGCCCCTCTGTGCTTTGCAC GCGTTCTAGGTGTATTATTTGAGCTTAAAATGAGAAACTCTTTCCTCGCA CAGCAGTCGTACCGCAACAATTTTTCACGCGGCGAGCTTTACTCCTCTAC AGAAGACCTTCTGCGTGCATTCGACTCGTACTCTTGTTGGTGCCTTTGTA GTGCTGCCGGGATGCGAGTGCCAGACTTGTCAATTTCCCGGGCCCGTCGT ATATAGCAGCAGTGTTTTTTTTTTGTAGTGTTGACATGCCCTGGCACTGG TGCTAGTGCTACCGGAATCCGAGTTCAGAACCGAATTATTCATCGAAACA CGTTTTTTCACAACACCATCCTTGTGTCACGACCAGCTAACTGCACAGTA CTCTTGTAGCTCTACCGCAGTAGCTTATAATAGGAGTCGAAAGTCTCTTT TTGCTGCTCCACCTTACACTCCATCTGCCGCTCGCCGCTGCTGCTGCGAC CGCGCCGCTGCCGCTGCTGCTGCTGCGACCGACAGGTGTGCGTGGCCCTG AAGGTTTTAGCTGCGGGAAATTCCTTCCAGGACGTCGCTACTTTCTCTGG AATGAGCGTCACAACCGCCGAGACATCATTCCACCAGTCCCGTGAACAAA ACTTTCTTCGCCCCATAATGAGCGTGCAACAAAAGTGATATTGACAAAAG TTGCCGACCAAAAGTTTCCAAAAAACTTTTACTTCTCTCGCAACTTTATG CTCCCATAAAAACCGGTCTTAGGCGAGCATTTCTTTTGGCTTATTTGGGC ATAAACAGCATGTGGAAAAGCATATCTCAAAAGAGGCAATGCTCGCCGAA AAATAGGCATAATGCGCAGCATAACAAGCATAAGAGCATAAAGTGTGCTA CAAAACGCATGAAGGCACGCCCCGCAGCTTTTAACTACGCGATTATGCTT GATGCATGCCAAGTCTGAAGCGTATGATACATGATACTGGTACAATATAT TACACATGAAACATTAATAAATCATTACACTTCCTCCTGTGTGACCCCGG CTGGTACGTCCAACGAACTTGATGTCCAGAATGAACGGGAAGAAAACACA ACACACACTGCTGTACAGCATCACCGCCGCGAAAATCCACCCATTTACAG TATCGCAAACAGCAAACAGCAAACAACAAGCAAGCACAGAGTTCAAAATT AAAAATTAAAAAGAAAAAGACAAAAAAAAAAAGCACACACGCACACTTGA TCCCCTCTTGGGAGGATCAATGCGAGTGGCATTGCGCGGTTATGTGCAAT TTAATAAACACACATACACAACACACAGCAGTACAGCAGTGACGCCGTGA CCAGCAGCCAGCTGGATCGGGTCGTACTGCTGTATGCACACAGAGAGTGT ACTTTGCATATACGCATACATACTGCTGTACACACATGCGTTGAACACAA CACTGCTGTGAACGCCGGAAACGACCATAAAGTAGCGTAATTGCCTGTTG AAAGCATTTTTGAAATTTGACCCCCCCCAAAAAAGAGCATAAGGCCACTT CCTATGCTGTTAGAAAATGTTATCAGAAAACGGCTTTTCTGATATGGGAC CAAAAATCCGCTTCTTATGCTATCAGAAAAGGCCTTTTCTAATAAGACAT TTTCTAATAAAATTTTCTAACAGCCCCATCCTGTTAGAAAACCCTGATTT TCTAACAGGATGTGGCTATCAGAAAATGTTATTAAAAAAGGATTTAAATT CCTACCGGATGACTGTGTCGCAGCGGTGAAGGTCTGTGTCGCAGCGGTGA AGGTCGCGGTGGCAGCATATCGACGCCGCAAGCAGAGAATAAAAATACCA ATCAGTTGGCACTCGTTCTAGGGTAACTCGACGAGGAAGACGCAGTCGTG TCCCGAGAAAATATCTGTATGTAGCCTTTGAAGCGTCCGTCGTGCAGCAG TTACGTCCTCGGTACAGATTATTAGATGCCGTTGCAGAGCTGTTTGTATG GTAAATTGCGGCCTTCGAGCTGCATTCGTGTGGCTGTGCAAGCCCCAAAC GATTGAAGACCACGTGCTGTACCACGCCGCGGTTGTAAGTAGGTGCACAA GGTAATGCGCCTACCCGCAGCAGCAGTCCTTCGCTATGTGTCGTGGGCGT GCCCCGGACGAACGGACGCAAAAATTCAAAAAAAAACAAAAAAAAACAAA AAAAGACAATCCTCGTGTACAGGCATGGATGACTACTGCCGTGTCGGAAT TCATTTTTTTTCGTTCAAAGACAGACCTCGTGTACAGGCATGAATGGCTG TGTCGGAGCGGTAACGGCCACGGTGGCAGCATATTGACGCCGCAAGCAGA GAATAAAAATTGTCAATCAGTTGGTACTTGTTCCACGTGGAAGATGCAAT CGTGGCTCGAACACACATCTGTAGCCTTTCTTTACAATGTGTATCGTACA GCAGTCACGTTCTCGGTACAGATTATATGTTTAAGGAAAAATCTGAATGC ACCTAGTCTGAGCTTGTTAGAGGCCGCTTGCACAGTACTGTTTCCATGGC ACGTTGCGGCCTTCGAGATGCATTTGTTGTGTGGTTGTGTAAGTCCGAAA CGATCGAAGACCATGTGCTGTACTACGCCAAGGTTGTAAGTAGGTACGCA ACGTAGGCAATGGGCCTACATGCCGCAGTCCTTGGCGACGTGTTGTTGGT GACATTATCTAAAACATACAGCAGACTGTGTATACATTGAACAGACTCTC CAATAGAGTACAATGAGCAGACGCCTCCTTGTAACCGGCCGGTGAAAACT ACTTTTTTATTGCCTTTTTTGTTTTGATAACCTGTGAAGATAAGAACGGG TGCTTGGAAAAATCCTGTTGGAAAATTGATTGTCAGAAAAGCCGTTTTCT GACATCATTTTTCTAACAGCATAAGAAGTGGCCTAATTGGATGCAAAAAC ACCAAATAATAGCATATGCAGGACCAAAAGCGTCACCAAAAAGTAGCATA TGCCAGAGCATAATTGCCTGTGCAACGCCTGCGATTCGTAAAAAAAAGCA TGAAAAAAAAAAAAAAAAAGGATAATATTTGGTATTTTTATCTGTTTTGG TTCTGTTGATTATGCTACAGTATTCTCGTTTGCACCTCAACTATCGTCTT GTACATTGTCTTTTCTAAATATTGCATTTAAAGCATTTAAATTAATAGGG GTTCTCCTATTTGTTGGTGCTGTGGGAAAGTCAGCACAACTTGGTTTGCA CACGTGGTTGCCTGATGCGATGGAAGGGCCTACCCCAGTGTCGGCTTTGA TTCATGCTGCAACGATGGTTACTGCGGGCGTTTTTTTGTTAGCTCGTTGC TCCCCGCTTTTAGAATATTGTCCAGGAGCTCTTGTCTACACAGGTGAAAA AATGTCAAAACGCTTACCTGGTAGGTGGGATCATAAGCTGCAAAGACAAA ACATCTTCATGGCATTTAAACGGGTTCCCCGATGGTAGTGTAACATTGGG TCAACAGTATAATGTCGGGGAGAAGCCCACCGTTATACTGTACACATACA TTAATCGCCATTCAGGGACACCAAAAAAACTTTTAAACAAAAACATCGTA AGTACATCCCACAACCAAAGCCAACCAAAAACAATGTACATGTAGTACAT AATAATTAGATAGGATAGTAATAAGTAATAATATACGATAATAGTACCAT CGCACGATACAGCAATAGGGCTATTAGTCTATTATAGAACAAAAGGAACG TTATGATACTATAACTGATGAGGAGTGGTACATTTTGGTTAAGGTATAGG ACACCTAGTGGTAGTGGTAAATACATAGGGTTTGGGTTAAGGATTGAAAC AGGGGCAGAGAGGACCACCATCTTAGATATCTTCGACATAATCCAGCCAG TACAAGACACCACATGATACCGGTATTCACCTGAAAGTAGATGAGTAAAT AGCGGATCACACGAGGAAGTAAGAGGCAAGCGGGTGGAACTGGGTCCCTC GCTCACTATTAATACTTGTCATGGCTACGACACACTATTCTTCCACCTAA TAGATACCACTCGCCGGTACTTCCAACATGCCCACTTCATACCAATAGTG GGTGTGGGAAAGAGAGGCACACACTAATTCATTTTTTGGTCCATGGTGAC CTGCCAAGGCAGCACTCGTTCGGAACTACCTTGAGGTTTACTGGCCTTGT GCCGGCGGACTCTCGGCAGTGGACGCCATCGGTACGCATTTGTGTGACCC GATAAACCTGGGACTGACCCGATGGCGTATCGCGATTTTAAACAAATAAT GGACGCCGCCGCTGAACTCGGGAGGAATCTCGTAAGCACCAGATTCAGCC TGAGTATGAACATGAGCACGCTGGCGCGGGACGAGACTGCCGAGTACGTC TCGCGAGACCAAATTCTCAGGCGCGAACGTGGCCGGGGAAATATTCATTT TCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCGGTTGATC CATACTCTTTCTATTAATATATACCGGTATATATATATGACCAAGAAGGT CTAGATGCGTCCAGATTTTTCTTTCAACTAGAGAAGAGCTATCATACCAC AGCCACAGTAGTAATGGTATACCATCGGGGAACCCGTTTAAGTGCCATAA AGAGGTTTTGTCTTTGTAGCCTATGATCCCCCCTAAACGGTTTGACATTT CTTCCCCCAACTAGGGGGATGCTCAGAAGGGACGCGTTCAGGTTTTCCTT TAAACTACCGGTAAAGTGCAACTGGACTACTGTAACAGAGTATCGATACA ATACAGTAGCCCCAAGTATCCAAACCTTCCGTGATGGGGAACAAAATAAA TGGGTGGGTGGAAACGTTTGGATATGAACATATTGAAACCTTCTTAGGCC GGCTCCTATTGTACAGGAAAAAACAAAAACGAGATCGAAAAGCGCTTTTC TCTGATACGAACATTTCACGATTAAAAAACGTATTTTTCTGATGCGGGCA TTTCTCATGTATAGATGGATGGTCATCAGATATTGCAGAGTGAGGACCAA CCGGGTAAGGTTGCCAAACCTGCTTGTGGCCAGCTGAACAGGGAAAACCC GTTCGCGCCTGAGAATTTGGTCTCGCGAGGCGGGTTTGGCCGTCCCACCC GGCGTCAGTCTCCTTATTCTGCATACTCTATTACCAGGCTGAATCTGGTG CTTACTCGCAGGATTCCTCCCGTTTTCCGCGGCGCCGTACATTTATTTAT TCAAACAACCATACGCCATCGGGTCACTCCCGAGTTTATCGGATCACGCG ATTCCGTATCGATGGCGTTCACTGCCGAGAGTCCGCCGGTGAACACCTTT GCGGGGAGCTGTATGGCTCCATTTTGTTGTGTTGGGTTTTCTTGCGTATG TTTGCATGATACGGTACTGCCTGCCAGCTGCATTCATGTAGTTATGCAAG CCCCACACGATCGAAGACCACTGTACCACGCCACGGTTGTAAGTAGGTAC ACAAGACAATAAGCCTATGCGCAGCAATCCTTCGCGGTGTGTTGTGGGTT GCAGTAAAATTTACAATTTACAACCCAGGTACAGCGTAAAGGTAGCACAA ATCTACTGCAACCCAAAAGCCGAGGAATCTCGGTGTCTGCACGTACTGCA GTTGTACTCTAATCGAGAGCCTGTTCAGTGTATACACCTGGTATGTTTTT AATCTTGCGCCATCCACAACACATCCCGAAGGACTGGTAAGGCCTGGTTC GGGTAGTCTTATTGCCTTGTGCACCAATTTATACTATTTATTCGCCCCGG TAGCTCAGAGGTACAGTAGCCTCGTAATCTTCTGACACGTTGGGACGTGA GTTCGATCCCGGTAAACTGGATTTTTCTCCCTAAGAAATATTTATTAAAA AAAAAAAAAATGCCCAACGAGTGTAGAACGATTAAATCGTTAGCACACAA AATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATTATTCTCGC GAGAAAAATGAAGGCACGCACCGCAGAAGGAAGGTGGATGAAAAATCCTG TGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACTTGAT GTCCAGAATTAATGGGAAGAAAACACACACACACACACACACACACATAG TTTTTATAACCGTGGCATGGCACAGCACGTGGTCTTGGATTTGGTTGCAC AACCACATGAATGTAGCTGGCAGGCCGCACCGTATCATGCAAACAGCGCT ATGCAAGCGGCCTTCAACAGCATCTAGACTATTAATACTGTAGTGTACTG TAGTCTGTATCGAGGAGGTGAGGTGAGGTGAGGTATTTGTACGAAACTGC AAAGGCTACAGATACGTGTTCCTGTCGTCCTGGAACAGGAAAGGATTGCA TCTTCCTCGTCGAGCAAACCCAGAACGAGGGCCGACTGGGCGATTGTCTT GGCTCCTCCTTGCGGCGCGGGTATGCTGCCACCGCGGCCGCCACCCCCCC CAACGCAGTCATCCACATCTGTCTTAATCCCACGCAATGTCTGTGTTTAA ATGCCGATATGAACTCATCAGGCGTACGTCCGTCCGAGGGACACCTTCGT GTCTGTCTGTCTTTCTCTTGACGCGGTCATCTCTGATGAAGGCTTTTCTC ATGGCTTCCTCCTCCATGTTTTCCTATATTTCCGGCCAAGTGCTCCTCCG AAAGCGGTTCCTGGGGGAAAAGTGGCCCGAAAGCGTTTTTTTCTGACCCA CAGACTATTATAGGTAGGTTATGCGGTCAAGATTAAAAAAAAAAAAAAAC GATCTCGTTCTTTCTGTCCCACAAGAGTCGGCCTGGCCGAGATCAGGATC TGCTTCCATTACTGTATATATCCCGTTGTAATCTGAGGCCGCCCATATCT ATGAGTTGCAGGTATATTTTATCGTAATAACAATGAACAACACCAAACCC CATTTTTAACTTAATTTCTCTATAGAATGTTACTGTACCGTCCTCTGGAA CTCTTAGTCCAAAAATACTGTATAGTAGGCCCGTTGTAATTCGAGACCTC CTATATAGTTCATAGATAACTGTAGGTATATTCTATCGTAATACTATGAT CATATTACTATTAAAGTCCTGATCCCTAACGTAAGTTTTATAGTATAATG AGTAACATATCCACGATTCGTCCTTTTGACCTTACTTACTGTATATAACT AAACCTTCAAACACCTGCTTTCATAAATGTATACATCAGTTGGCATGCTG TAATTTTGAGGTCCTCCACATCTATGACCTGTAGAACTAGACTGCCCTCG AAATACCAACACCAAACCCTATTTTTAACTTAATTTCTCTATAGAATTAT TACTGTACCTTAGTCTGGAACTTTTAGTCCAAAAAACTGTATAATAACTA TAGTCTGCTTCTGTTTTGGTGTCCCTACATGGTGATTAATGTAAATGTAC AGTGAAACGGTGGGCTTCTCCCCGATATTATAATGTTGACCCCATGTGAC TCCATTGGGGAACCCTTTTAATACCATGTAGAGTTTTCGTCCTTACAGCC AATGTTTTAATACCACCTAACTAAACCTTTCGACTAATTGGAAGCTTTAG ATGCGTTCAGATTTTTCTTTAAGCATCGATAAGCATCCACCCTGTGAAAG GGACAAAATGTCAACGTCTATTAATAAGCATGTATTTACCGATGTCTAGG GGATTGGATATTCTAATATTTGGACCCTTTTCAATTTCAGCGAATCATCA CATCCTCGGCACCGAAAGCTATCTTGTGGGGTTCTGATCCTGTATTTGTA TGGTTCTGCAACAGGCAATCTAGATGTGGCCAGTCTGTAGTCCAGCGTCT TTATCTTCCTTGTCCTTTGTTCCTTTGTTCCTTTGTTCCTTTAGTAATAG TAATAGTAGATCAAAGGTGTTATGACAACGGTGACAGACAGCGGAGAATA AAGTGGGATACGCTGTAGGTCCTTTCGAAAGGAGAATTTTCGATTATTAT ACTGTCATAATGTTGATTGTTCAGTTCAAAAAATAACGACCGACCGCCCG ACCTATTGTACTGTTATACTAAAACTATTTTGCTTTTAATAATAGATAAC AAAAGGCGAAAAATGTAAAGTACAAATACTTCCCCTCTCCCCCACAAAAC GTGCACCATACAAGATGTGACGTCATGGTATACAAGATGTGACCTCATGA TGGACAAGACCAGATTAAGAAGTCCCTGGGAACAACACCGAGGCTTCATG ACGCGCTGTCCCACCACCAAGTCGAGACTTGTGTACTCGAGTACAAACAC CATACCAGTAAATTATTGTAGAAACTATAGTTCGTACCCAAAGAAATCGT CTTGACGCCAATAAGTTTCTGATGTTCTCGGTTAGTTGGACCTGGCAAGT GTTTTGTCGCGGTTTGGATCCCTTTTGGTTTGAGTAGCGGGCTGTCACCA CGATGCGACCCGTTGACCTCCGTACCTCTTTGTGACCACTATTGAGAGCG GGATTGATATTTGATAGGCATATGGCTGACTTCTTGTGTCACCGTAGTTT CTTCAGTTGCGAGGGCAACACGCTGAATATCATACACGAATCAATCAAGA GGTCAATGAATCAGTCAAGTACTGTACCCGTATTAATGGTCCCTCCTCAT ATCGTATTACTATTACTAGTCCCGTACAAGCGCCAAAACAAATGCCCAAA GCACCAAGGAGCTGCGTGTATCATTGCGCACAAGCAACACTCATGGTCGC AGCGACAGCGATCAGCTGCTGTCGCTGCCTTGTGGCTTTCGTCCTCTCAA AGGAATGCATGGTACATGGAGGTTACTCGCGGCGGTCATATCTAAATGGT CCAAATACAATAACAAGCATGTTCAAATACGAGCCCCGTAAGAGTTGATA CTATTTATACAGTTATACAGCATTATTGGTCGGATTTTTCCCTATATAAA GCAGCCAGTCGCCCTGGTGATTCAGTTGGTAACCTCGAAATCTTCTGTCG TTGGGACGCGAGTTTGAATCTCGGTGCCGTCACACGAACTGGGATTTTTC CTAACAAAAAATAAATAAAATTCATGCCCAACAAGTGGAGAACGATTAAT TCGTAGGTACACAAAATTCGACTTCACGGTCGACGAGGGAAAGGAACGGC TGAATCCTTCTCGCGAGAAAAATTAAGGCAAGCACCGCAGAAGGAAGGTA GAGAAATCCTGTGTGACCCCGGCTGGTACGTTCGCAAGTCTGACGTCCAG AATAAATGGGATGACAACACACACAGACTTTCACTGTTAATAGTCGCTTT GTGCCTTGTCAACACAAATACATTATGTTTCTATGCACCCTAAAATCTTC TTCAGCACAAGAGTACACTGCCAACCCGGATGTGGTGTGAAGAATGGGAT ACTGTACAAGGGGGACATCCAAACTCGCCCACGATCTCTAGAGCTTCTAT AGCCTGTATAGCCTCCTCGTTGGCACGGTGGCAAACACCGATAGTGGGTG TAGGAAAGAGAGGCGAATATTAATTGGTCCATGGTGACCTGCCAAGGCAG GACCCGTTACTGCAACTACCTTGAGGTTTACTGGCCCTGTGCCGGCGTAC TCTCGGCAGTGAACGTCGTCGGTACGCAATTGCGTGACCCGATAAACTCG GGACTAACCCGATGGTGTATGGCGGTTTAAATAAGTAAATGGGCGCCGCC GCGGAACTCGGGAGAAATCCCGTAAGTAAGCACCAGATTCAGCCTGAGTA TGGAGATGAGCAGGCTGACGCAGGACGGGACTGCCGAATCGTCTCGCGAA ACCAAACTCTCAGGCGCGAACGGGAATAGGGAAATATTCATTTTGCCTGT CCAGCTGACCACGAGCAGAATTGGCAACCTTGCCGTTGATCCATACTCTT GCTGTATGTGATTACCATACACGGGGGTAAAAAAGGACAAGGTGGTCCGA CTGAGGGTGTTTCGACCCGATGGTGCACAACAAGACTCTGTGATGTACAG AGCGGAGTTTGTTGGCGTGGGCGTGGCGAATAGTGCACGTTACGTATTGA GGGAAGTCCCGATTGCCTTGGCCTTCTAGTTATCTTCCGGGTTCTGAATT GATGCCACGTTTTCTATTGATCGCATGATATATGCTGGCAATCCCTGACG CGCATCCAGTACGCACGTTTCCAAATGCTGTCTGGCGTTTTCCGCGTAAA CATTGGGGCTTCCGTTGATGGCTCCCGTTGATGGCTCCCGTTGATGGCTC CCGTTGATGGCTCCCGTCACTTACGTAGAGAAACGAGCCCATTCATATTT CAGCCCTGCTGCCTCCACGTGGCGGCATACTGTCTTCATCAGTACCCTCG TATACTATTTTCACAAGTACCCTATTCTCGTAAAAATAGGTACAGTAGCG GTGATAATGCCAGCTGGACCTACCAAAAGGTTGCCAAGGTTTCGAACGAC CAAAACTCTAGTGCGCCGTTTTTTATTATCCTTCATTATTGACGATGGAT GTTTCAAATCCATGATGAAAAATATGAGTCCTTGTGGAGCTTTGGAATCG AACCCCCCCCCTTGAAATTGACGATTTCGGAGGAGGAATATCCGATGTTC TACCCTACAATTTTTTATCGCGATGCAAGGTCAGCTTTCTTACACGTCGT CAACCGATGGTTGGATTTTACGTTCTCACGTTTCCACGCTTTCCGCTACA GAAAACCAGAGTAAAAAATACCATCCCGTCCAGATTCGAACTTCCAAAAT CCTCACTATTAGAGTAAATTTCCAGAATACCGCTTCTCCATCGCCCCGGT AGCTCAAAGGTACCTCGTAACCCTCTGACACGTTGGACGTGAGTTCGACC CCGGCAAACGGGATTTTTCTCACTAAAAAACTAAAAAACTAAAAAACTAA AAAAAAAATACTCAACGGGTGGAGAACGATTAAATCGTTAGTACACAAAA TTCGACTTCACGGTCGACGAGGGAAAGAAATGGCTGAATCCTTCTCGCGA GAAAAATTAAGGCACGCACCCCAGAAAGAAGGTGGATGAAAAATCCTGTG TGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACTCGATGT CCAGAATGAGAAGAAAACACACACACACACATTCAGGCGACACTGCAGTC GCCTCTTCTTCATGTTTTTGTTTTTTCACCATTGAGCCATAAAAGGCATT ACTGTAATGCGATTGAAGCTTTGCGGATCTCGGATAGAATCCATGAAATG GTCCGTTTTCGAGAAAACCCCTCTCTGTTTCTTGTTCCGTCAGAACTTGT AGGTAAATCACAAATAACTCACGAATAAATGTTCAGTAAACAAACCCCTG CTACAATATACCAGTCAAGAATCATAATTCAAGAATCATGATCCAAATCT TGTCTTCATTCACGAACACACTATTTTGCAATGTCATCCGCCCATGCTGT CAAGTCCGCGAGGTTTGAGAAAAGCTTCACGAAAAGGGACCTTGTCCTGT GCCTGCCGCGTGCGGTGTTTTCCGGAGCACTTTAATATTAATAGTTATAG GCTGTAATATTAATAGTAAAAGTAATAGGCTGTAATATTGATAGTAATAG GCTGTAATATTAATAGTAATAGGCTGTAATATTAATAGTAATAGTAATAG GCTGTAATATTGATAGTATAGTAATAGGCTGTAATTGATAGTATAGTAAT AGGCTGTAATATTGGTAGTAGTAGGCTGCACCAGTCCTTCTTGTAGAGCT ATTATAGTGCTAGCTATTGAGGTAATTTTGATGCTTGGTAACTGCGACCC ACTCTGTCGCGCTTCGCAGGCGGACTACCTGCTACTATAAAATACTTCAT ACTACTTCGTATAAAGCTATATAATTTGTGTATACAGGTAGCCCTTCGAA GTATCATGAAGATTGTACCGCCCCCTAACCTCCCTCGTTGATTTCAACAG CAAACAAACGGAAGCTCTTCGAGAAGGCGCAACTCAAGCGGCGTTACGCG AAGCTGCTCAAAAAGGAAGGCTTGGCAAACACCTCGTCATTGACACACGA GTCACAACAGACACGGTGCGATCCGACCGACGACATAGCGTACACGGACG TTGAAGGAGAACCCGGGTCGTCAGCCCCATCTGTCGCCGAGAGAAGGCCA GAAGAGACTGCCGTGACGGAAGATCGAAACCAGGGATGCAGCATTAAAGA AGACGATGGGCAGAACCGGCGGCGGGTTGGAGAACGAAAGCGACGCCGAG AGCAGCACGCGGAAGGCACCGGGAGGACCAAGTCGGAAAAGAGAGAGACA CCATTGCAGCAGCATCGACCCGATCCCTTCAAAGAAGCGAAGGCGAGCGT AATGAGCGATTTGTAGGGCTCCACTTCGTATTCATACGGTAAACGACACG AAAGGGTACAGAGGTAGAAGCTGCCTATCCTATCCTATCCTATCCTATCC TATCCATCTCAAAAGACGACGTCATGCCATTTTAAGCCATCCCACACGCG CCAAGTACGTAGCAAAAGGCGAACGATGAGTACTATGTTTAATCCGTGGT GATTTGTGAAACACTTTTCCTGCACCATGTTATAAGTCCCTCAAAGTCAT AGTCCTTCACGTGACACACCTCTCACATCTCTTCATGAAATTTATTGCCG TAAAATGCACATGGTCGCCTTCTCTGCGTGATTTTAGTTTCATTTTGATT CAATGCATGATATCCATATTATACAGTATATATGACGAAGGGATTGTACT TTGATTTAGTGAATAGCTGTAAGTTGCGATGCCCAGGTCGTGCGCCAAGC CGCATTCTATATTTGTACGCATCCATGGATGGTTTAAAAGTAATATTTGG CAAAAGTTTACGGAAAATTTCCTCCGACCGGCGGACAACAAGGCGTTTCG TGATAAGAGATCCGATCTTTGCTGACGTCGTGGACGCGGGTTCCTTGCCG GCGGCGCTCGACCCATGAATAAATCCCGTGGCACAGGCAAAAGCGGAGCA GCGGAGGCTGGAGAAGGAGGAGGCGCATGAAGAGCGAGAAAGACAAAGAA CAGAGAAACAAAGCAAAGCAAAGCAGCGGAGAAAAAAACACGCATTGCTG TCCAAGCGCACCAAGGGAGGCCAACCCGTTATGAAGCACACCATGCAGCA CCTTCTGGAGAAAATTCAGGGTCAGGCGTGAAAAAAAAATGATACGTACG GTGTAGAGGGAACTTCGTTATCGAAGGCCGGCCGCTGGAGGCGGCTATGT CACCATCTTCACGTAAAATTTTTCTAGGCAATGATATGTTCGGTCACTTT TCTTTTTTCTACACTTTTTACAAAACATTTTGCTGCGATGCTGAACAGCA GCTACACACACACGCAAGCATAGGAGCGTACAAAAAATGCGTTCTTGCAG AAATCAGTCCAAATCAGGAGGTTGCGACCAAGGTACGAGCTCGAGCTGAG GGAGCTCCTCCTGAATACTGGCAAGCTTCCACTCGTTGCGGAACAGGAGA ACAGGGCGTCCGAACTTGTCCTGCGCGAAAAATATGCCGAACAGTTTGCC TGCTTTCTGCACGGAAAAAAATAACGAAATTTCAATACAGCATCAGGGAA CCAGTTCGGTAGGTGGACATCAGTAGGCTTCGCGTTATGCAGAAGATATA CAAATGGGAAAAAACAGCGTACCGCACCGCCCCCTTCACACCCCGCCTCT CAAAACTGATCGATAGGATAGGATATATGGCGGGATGCTCAAAATACCGT TTGTTCGTCGACGACATCCCAGCCTCCCTCGGCCCAGCGAGCCGTCTTGT ATCCCGGTAATTGTTCCAGGATCGTGTCTACGCCATATTCACCCTTCATG CGGTGCTGCACAACTGCAAAGCGGTTCAACGGTGTGTTCGGCGGAGTTCA GGATGATGAGTCCACACGAGTAATAATCGATCAG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig910:75720..90653+

>mRNA_A-nodosum_M_contig910.11.1 ID=mRNA_A-nodosum_M_contig910.11.1|Name=mRNA_A-nodosum_M_contig910.11.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=681bp|location=Sequence derived from alignment at A-nodosum_M_contig910:75720..90653+ (Ascophyllum nodosum dioecious)
ATGAGTCAAAAACGTTTATCCCGTGCTTTGAGTCTTGAGCGATTTGCGGC
TGGAAAAGACGGCCGAGTTAATGCGTACAAGAAGAAGAAACAAGCAAACA
AACGGAAGCTCTTCGAGAAGGCGCAACTCAAGCGGCGTTACGCGAAGCTG
CTCAAAAAGGAAGGCTTGGCAAACACCTCGTCATTGACACACGAGTCACA
ACAGACACGGTGCGATCCGACCGACGACATAGCGTACACGGACGTTGAAG
GAGAACCCGGGTCGTCAGCCCCATCTGTCGCCGAGAGAAGGCCAGAAGAG
ACTGCCGTGACGGAAGATCGAAACCAGGGATGCAGCATTAAAGAAGACGA
TGGGCAGAACCGGCGGCGGGTTGGAGAACGAAAGCGACGCCGAGAGCAGC
ACGCGGAAGGCACCGGGAGGACCAAGTCGGAAAAGAGAGAGACACCATTG
CAGCAGCATCGACCCGATCCCTTCAAAGAAGCGAAGGCAAAAGCGGAGCA
GCGGAGGCTGGAGAAGGAGGAGGCGCATGAAGAGCGAGAAAGACAAAGAA
CAGAGAAACAAAGCAAAGCAAAGCAGCGGAGAAAAAAACACGCATTGCTG
TCCAAGCGCACCAAGGGAGGCCAACCCGTTATGAAGCACACCATGCAGCA
CCTTCTGGAGAAAATTCAGGGTCAGGCGTGA
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