mRNA_M-pyrifera_M_contig7861.18470.1 (mRNA) Macrocystis pyrifera P11B4 male

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

Overview
NamemRNA_M-pyrifera_M_contig7861.18470.1
Unique NamemRNA_M-pyrifera_M_contig7861.18470.1
TypemRNA
OrganismMacrocystis pyrifera P11B4 male (Macrocystis pyrifera P11B4 male (Giant kelp))
Homology
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: D8LIS9_ECTSI (Branched chain amino acid aminotransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LIS9_ECTSI)

HSP 1 Score: 262 bits (670), Expect = 1.410e-81
Identity = 129/179 (72.07%), Postives = 151/179 (84.36%), Query Frame = 1 
Query:    1 AGKEDDKEEDKRPCGRPQTASVRKVPQVGELLQDGTVRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNIDASMNEIGMLDLLNVYSLLRACGQ 537
            A K+DDK  D     RP T +  +VP+ GELL+DGTVRINVW++PRSLSTALMYSFAQR D VVYDEPLYAHFLRT+ E E  RPY DEVF++QD+DGDRWI+EVAL P+PKPVVYMKH+AK +RNLDL FLPKCRNIIQIRTP+ +LPSWN NI A++ EIGMLDLL++YSL+RA GQ
Sbjct:   12 ASKQDDK--DSEEYVRPSTTTKLEVPEGGELLKDGTVRINVWASPRSLSTALMYSFAQRPDCVVYDEPLYAHFLRTHPEDETWRPYRDEVFREQDSDGDRWIKEVALGPTPKPVVYMKHMAKQMRNLDLSFLPKCRNIIQIRTPIHMLPSWNTNIHANLKEIGMLDLLHMYSLVRAMGQ 188
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BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A520XM97_9ACTN (Sulfotransferase family protein n=2 Tax=Acidimicrobiales bacterium TaxID=2201156 RepID=A0A520XM97_9ACTN)

HSP 1 Score: 121 bits (304), Expect = 6.920e-31
Identity = 63/144 (43.75%), Postives = 91/144 (63.19%), Query Frame = 1 
Query:  109 VRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNI-DASMNEIGMLDLLNVYSLLRACGQ 537
            +RIN+WS+PR+LSTA+MYS+AQRADT   DEP+YAH+LR      +  P  DEV   QD DG+  IR+V L     PVV+ K +AK +  LD  FLP+ RN++  R P  +L S  V + DA++++ G  +L+ +   +   G+
Sbjct:    2 LRINMWSSPRNLSTAMMYSWAQRADTTAVDEPIYAHYLRVTG---RAHPGDDEVMASQDTDGEAVIRDVMLGEYDTPVVFFKQMAKHLVELDWSFLPQFRNVLLTREPHDMLTSLQVRLPDATIDDTGFPELITILDRMLDAGE 142
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BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A3A0G7S9_9BACT (Sulfotransferase family protein n=1 Tax=bacterium TaxID=1869227 RepID=A0A3A0G7S9_9BACT)

HSP 1 Score: 122 bits (305), Expect = 7.220e-31
Identity = 67/146 (45.89%), Postives = 90/146 (61.64%), Query Frame = 1 
Query:  103 GTVRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNIDA-SMNEIGMLDLLNVYSLLRACGQ 537
            G +RIN+WS PR++STALMYSFAQRADT V DEPLY H+LR +       P   EV    D DGDR +R V L P  +PV++ K +A  + +LD  FL  C N++ +R PVQ+LPS    I   ++ + G+     ++  LRA GQ
Sbjct:   14 GPLRINLWSGPRNVSTALMYSFAQRADTRVVDEPLYGHYLRVSG---ADHPAAAEVMAAMDCDGDRVVRSVILGPCDRPVLFCKQMAHHLVDLDEAFLAACANVLLVRDPVQMLPSLARQIPRPTLRDTGLARQWALFEGLRARGQ 156
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BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A2E9LQE2_9CHLR (Sulfotransferase family protein n=2 Tax=Terrabacteria group TaxID=1783272 RepID=A0A2E9LQE2_9CHLR)

HSP 1 Score: 121 bits (303), Expect = 1.370e-30
Identity = 61/130 (46.92%), Postives = 85/130 (65.38%), Query Frame = 1 
Query:  106 TVRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNI-DASMNEIGM 492
            T+RIN WS PR++STALMYSF QR DT V+DEP+YAH+LR +    +  P  +E    QD+DGD  +R++ L P   P+ + K ++  +  LD  FL +C NI+ IR P  VL S NVNI DA++ + G+
Sbjct:   16 TLRINCWSGPRNISTALMYSFRQRTDTTVFDEPIYAHYLRVSG---RAHPGRNETLASQDSDGDAVVRDLILGPHSSPIAFFKMMSHHLVELDTAFLRECHNILLIRDPRHVLRSLNVNIPDANLGDTGL 142
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A2E3YEV7_9BACT (Sulfotransferase family protein n=3 Tax=FCB group TaxID=1783270 RepID=A0A2E3YEV7_9BACT)

HSP 1 Score: 120 bits (302), Expect = 1.510e-30
Identity = 64/144 (44.44%), Postives = 89/144 (61.81%), Query Frame = 1 
Query:  109 VRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNIDA-SMNEIGMLDLLNVYSLLRACGQ 537
            +RINVWS PR++STALMYSFAQR DT V DEPLYAH+L ++   ++  P  DEV   QD DG+  +R+V L P  + V+++K +   +  LDL FL K  N+I  R PV +LPS+   ++  S+ + G    L +   L   GQ
Sbjct:    5 LRINVWSGPRNISTALMYSFAQRPDTRVVDEPLYAHYL-SHTPAQQYHPAADEVLASQDNDGEAVVRDVILGPCDRQVLFLKQMTHHLVELDLGFLAKTMNVILTRDPVDMLPSYQQQVETPSLRDTGYPQHLELLEALHEIGQ 147
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A2E9W1G4_9ACTN (Sulfotransferase family protein n=2 Tax=Actinobacteria TaxID=201174 RepID=A0A2E9W1G4_9ACTN)

HSP 1 Score: 120 bits (300), Expect = 4.000e-30
Identity = 62/130 (47.69%), Postives = 86/130 (66.15%), Query Frame = 1 
Query:  106 TVRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNI-DASMNEIGM 492
            T+RIN WS PR++STALMYSF QR DTVV+DEP+YAH+LR +    +  P   E    QD DG+  +R++ L P P+PV + K ++  + +LD  FL  CRNI+ IR P  VL S +VNI D ++ + G+
Sbjct:   18 TLRINCWSGPRNISTALMYSFRQRTDTVVFDEPIYAHYLRVSG---REHPGRSETLASQDPDGNAVVRDLILGPHPRPVAFFKMMSHHLIDLDTAFLRGCRNILLIRDPRHVLRSLSVNIPDVNLGDTGL 144
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A8J5CVZ7_ZINOF (Uncharacterized protein n=1 Tax=Zingiber officinale TaxID=94328 RepID=A0A8J5CVZ7_ZINOF)

HSP 1 Score: 117 bits (293), Expect = 5.450e-30
Identity = 68/142 (47.89%), Postives = 91/142 (64.08%), Query Frame = 1 
Query:  115 INVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKM-IRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNIDASMNEIGMLDLLNVYSLLRACGQ 537
            I+ WS PRSLST+LMYSFAQR D  V DEPLYA+FLR    VE  RPY DE+  + D+DG++ ++EV   P  K   Y KHIAK  + NL    + K ++ I IR P+ +L S+N  I  S  E+G+ DL+++YS L   G+
Sbjct:    9 IHSWSAPRSLSTSLMYSFAQRDDMDVVDEPLYANFLRITG-VE--RPYRDELLAKMDSDGNKVVKEVIFGPGEKKYRYCKHIAKQRLPNLTNDLMKKGKHFILIRNPLNILQSFNKVISPSFLELGLGDLVSIYSELCKFGK 147
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A3A0AZN6_9CHLR (Sulfotransferase family protein n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3A0AZN6_9CHLR)

HSP 1 Score: 117 bits (293), Expect = 3.310e-29
Identity = 63/148 (42.57%), Postives = 91/148 (61.49%), Query Frame = 1 
Query:  106 TVRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNI-DASMNEIGMLDLLNVYSLLRACGQVSA 546
            T+RIN+WS PR++STALMYSFAQR+DT V DEPLYAH+LR +       P   EV    ++DG+R  R + L P  +PV+++K +A  + +L   FL +  NI+ +R P Q+LPS   N+   ++ + G+     +Y  LR  GQ  A
Sbjct:    3 TLRINLWSGPRNVSTALMYSFAQRSDTCVVDEPLYAHYLRVSG---APHPGAAEVIASMESDGERVTRNLILGPCDRPVLFLKQMAHHLVDLSWDFLAETTNILLVRDPAQMLPSLAQNLAQPTLRDTGLALQSELYQYLRQLGQQPA 147
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A484KZA9_9ASTE (Uncharacterized protein n=1 Tax=Cuscuta campestris TaxID=132261 RepID=A0A484KZA9_9ASTE)

HSP 1 Score: 115 bits (287), Expect = 3.480e-29
Identity = 59/142 (41.55%), Postives = 90/142 (63.38%), Query Frame = 1 
Query:  115 INVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKM-IRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNIDASMNEIGMLDLLNVYSLLRACGQ 537
            I+ WS PRSLST+LMYSFAQR DT V DEPLYA+FL+        RPY D V    + DG++ ++++   P  K   Y KH+AK  +  L    + + ++ I IR P+++LPS++ ++ +S  E+G+ DL+++YS L   G+
Sbjct:   11 IHSWSAPRSLSTSLMYSFAQRDDTEVLDEPLYAYFLKVTG---AKRPYRDAVLSNMECDGNKVVKDIIFGPGEKKFRYCKHMAKQHLPGLTDELMKRGKHFILIRNPIEILPSFDEHVPSSFLELGLGDLVSLYSELSRLGK 149
[Close]
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Match: A0A3D5K3A4_9ACTN (Sulfotransferase family protein n=1 Tax=Acidimicrobiaceae bacterium TaxID=2024894 RepID=A0A3D5K3A4_9ACTN)

HSP 1 Score: 117 bits (292), Expect = 4.240e-29
Identity = 61/145 (42.07%), Postives = 89/145 (61.38%), Query Frame = 1 
Query:  106 TVRINVWSTPRSLSTALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDRWIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPSWNVNI-DASMNEIGMLDLLNVYSLLRACGQ 537
            T+RIN WS PR++ST+ MY+F QRADT V+DEP+YAH+LR      +  P   EV   QD DG+  +R+V L   P PVV+ K +A    +LDL FL  CRN++ IR P +V+ S+  N+ D  + + G+   + +   + A G+
Sbjct:    2 TLRINCWSGPRNISTSFMYAFGQRADTKVFDEPIYAHYLRVTG---RQHPGRAEVLASQDPDGEAVVRDVILGDHPTPVVFFKQMAHHAVDLDLDFLESCRNMLLIRDPERVVTSFAKNVPDVGVADTGLSIQVELLEAMLAAGE 143
The following BLAST results are available for this feature:
BLAST of mRNA_M-pyrifera_M_contig7861.18470.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 of Macrocystis pyrifera male vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LIS9_ECTSI1.410e-8172.07Branched chain amino acid aminotransferase n=2 Tax... [more]
A0A520XM97_9ACTN6.920e-3143.75Sulfotransferase family protein n=2 Tax=Acidimicro... [more]
A0A3A0G7S9_9BACT7.220e-3145.89Sulfotransferase family protein n=1 Tax=bacterium ... [more]
A0A2E9LQE2_9CHLR1.370e-3046.92Sulfotransferase family protein n=2 Tax=Terrabacte... [more]
A0A2E3YEV7_9BACT1.510e-3044.44Sulfotransferase family protein n=3 Tax=FCB group ... [more]
A0A2E9W1G4_9ACTN4.000e-3047.69Sulfotransferase family protein n=2 Tax=Actinobact... [more]
A0A8J5CVZ7_ZINOF5.450e-3047.89Uncharacterized protein n=1 Tax=Zingiber officinal... [more]
A0A3A0AZN6_9CHLR3.310e-2942.57Sulfotransferase family protein n=1 Tax=Chloroflex... [more]
A0A484KZA9_9ASTE3.480e-2941.55Uncharacterized protein n=1 Tax=Cuscuta campestris... [more]
A0A3D5K3A4_9ACTN4.240e-2942.07Sulfotransferase family protein n=1 Tax=Acidimicro... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
M-pyrifera_M_contig7861contigM-pyrifera_M_contig7861:563..10386 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 of Macrocystis pyrifera male vs UniRef902022-09-19
OGS1.0 of Macrocystis pyrifera P11B4 male2021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score265.4
Seed ortholog evalue2e-68
Seed eggNOG ortholog2880.D8LIS9
KEGG rclassRC00006,RC00036
KEGG koko:K00826
KEGG ReactionR01090,R01214,R02199,R10991
KEGG Pathwayko00270,ko00280,ko00290,ko00770,ko01100,ko01110,ko01130,ko01210,ko01230,map00270,map00280,map00290,map00770,map01100,map01110,map01130,map01210,map01230
KEGG ModuleM00019,M00036,M00119,M00570
Hectar predicted targeting categoryother localisation
EggNOG free text desc.branched-chain-amino-acid transaminase activity
EggNOG OGsCOG0115@1,KOG0975@2759
Ec32 ortholog descriptionbranched chain amino acid aminotransferase
Ec32 orthologEc-20_001390.1
EC2.6.1.42
COG Functional cat.E
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko00002,ko01000,ko01007
Exons5
Model size564
Cds size564
Stop1
Start0
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_M-pyrifera_M_contig7861.18470.1prot_M-pyrifera_M_contig7861.18470.1Macrocystis pyrifera P11B4 malepolypeptideM-pyrifera_M_contig7861 563..10386 +


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

Feature NameUnique NameSpeciesTypePosition
1622816688.509087-CDS-M-pyrifera_M_contig7861:562..7361622816688.509087-CDS-M-pyrifera_M_contig7861:562..736Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 563..736 +
1692278120.6265297-CDS-M-pyrifera_M_contig7861:562..7361692278120.6265297-CDS-M-pyrifera_M_contig7861:562..736Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 563..736 +
1622816688.5208418-CDS-M-pyrifera_M_contig7861:1401..15091622816688.5208418-CDS-M-pyrifera_M_contig7861:1401..1509Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 1402..1509 +
1692278120.6390224-CDS-M-pyrifera_M_contig7861:1401..15091692278120.6390224-CDS-M-pyrifera_M_contig7861:1401..1509Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 1402..1509 +
1622816688.5321906-CDS-M-pyrifera_M_contig7861:4133..42201622816688.5321906-CDS-M-pyrifera_M_contig7861:4133..4220Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 4134..4220 +
1692278120.6479573-CDS-M-pyrifera_M_contig7861:4133..42201692278120.6479573-CDS-M-pyrifera_M_contig7861:4133..4220Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 4134..4220 +
1622816688.5430832-CDS-M-pyrifera_M_contig7861:4980..50941622816688.5430832-CDS-M-pyrifera_M_contig7861:4980..5094Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 4981..5094 +
1692278120.6568773-CDS-M-pyrifera_M_contig7861:4980..50941692278120.6568773-CDS-M-pyrifera_M_contig7861:4980..5094Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 4981..5094 +
1622816688.5533698-CDS-M-pyrifera_M_contig7861:10305..103861622816688.5533698-CDS-M-pyrifera_M_contig7861:10305..10386Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 10306..10386 +
1692278120.6664217-CDS-M-pyrifera_M_contig7861:10305..103861692278120.6664217-CDS-M-pyrifera_M_contig7861:10305..10386Macrocystis pyrifera P11B4 maleCDSM-pyrifera_M_contig7861 10306..10386 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_M-pyrifera_M_contig7861.18470.1

>prot_M-pyrifera_M_contig7861.18470.1 ID=prot_M-pyrifera_M_contig7861.18470.1|Name=mRNA_M-pyrifera_M_contig7861.18470.1|organism=Macrocystis pyrifera P11B4 male|type=polypeptide|length=188bp
AGKEDDKEEDKRPCGRPQTASVRKVPQVGELLQDGTVRINVWSTPRSLST
ALMYSFAQRADTVVYDEPLYAHFLRTNEEVEKCRPYVDEVFKQQDADGDR
WIREVALAPSPKPVVYMKHIAKMIRNLDLHFLPKCRNIIQIRTPVQVLPS
WNVNIDASMNEIGMLDLLNVYSLLRACGQVSAGCPDG*
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mRNA from alignment at M-pyrifera_M_contig7861:563..10386+

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_M-pyrifera_M_contig7861.18470.1 ID=mRNA_M-pyrifera_M_contig7861.18470.1|Name=mRNA_M-pyrifera_M_contig7861.18470.1|organism=Macrocystis pyrifera P11B4 male|type=mRNA|length=9824bp|location=Sequence derived from alignment at M-pyrifera_M_contig7861:563..10386+ (Macrocystis pyrifera P11B4 male)
GCCGGTAAAGAAGATGACAAAGAGGAAGATAAGCGGCCCTGCGGGCGGCC
TCAGACAGCGTCGGTACGCAAAGTTCCACAGGTTGGAGAGCTTCTGCAGG
ATGGGACTGTTCGAATTAACGTGTGGTCGACCCCACGCTCTCTCAGCACC
GCACTCATGTACTCCTTCGCCCAGGTTTGGCCTTTATTTCTTAGTTGCAC
CCTTGACTGGTAAAAACAGTGGTTGTCCAGCGTTGACGGGGGGACGACGG
GACTAATAACCGTGAACGATATCGTATCGAACGTTGCGTTGACGTGTGCT
TCCGATATGGACAGTAACTATTTCACAACTACAGCAGTAGCAACTCAAGT
CCTTCATCGGTTTAATACTATGACAAGTAGCTAGGATGTCAACCGATTTT
TTAATAGGTTTTGCCAAGGATTGAAATTGGGATTGCAAACCTCTTGCGAG
AGAAATATAAAACACTCTCAAACCAGGCCTTTTCCCGCCAACACACTAGA
CCAGAGTCAAATTCGACCCACCGCACAACAACTATGTCAATTTCGAACGC
AAAGCTGACTCCCAGCCATTTTAGACCCCCAAACAAACACCGAGCGAATT
TGAGAATGAAGGAGGCAGAATGGGTCGCCTAGTCCCGTGCTATATACTCT
CAAAAATTGCTACTCTTATTTTGTTTTGCGTGGTACATACGGACGTACGT
TTTCGTTGTGTGTTGCCGTGATTTATAGCGCGCAGAATCGAGACACGGTG
TTTGAAACCGCGGCCGTTACAAGAGTTACTACTCAGGATATTAGTCATGT
GTGTTTGCGTTTGTTTTTGCTGCGTCTTGTCTCTTGCAGAGGGCGGACAC
CGTGGTGTACGACGAGCCGCTTTACGCGCACTTTCTGAGGACGAACGAGG
AGGTGGAAAAATGTCGGCCCTACGTCGACGAGGTCTTTAAGCAGCAGGTA
TTATGGAAAGGTTGTGGACAGGAACCGATAGTATTCACCTTAATATAGGG
TCCGGTGTCATCGATATCGGAATACATTTTGGCGGCTTCGACCTAATCGA
TGTCGGAATCGAAAGAAAGAACTTCGATACGTATTATACTATTCATAGAC
TACGAGTGGGTTAGTGGTGAGATTTTCTCTACCCAATAATCTCAATGAAA
TCTATACCATCATTGCTATTGTACTGGTGCAGGCGTTCGTCCCACTGTTG
TACGCTGCAGTTGGATATCCCCGAGGAGTACGGCCATTAGTAGTACCGAT
AGCCAGCACCCAGGCTCAGTCTCAGCCAAACGCCGCCTGCTGGGGTGCCG
TCTGTGCCGGTCCCGTTTGTGCTTTTACGCATAACGTGTTTTCCGTGATC
GTTCTGGAAGCGTTTCCAGCAGCAGCCACAAAATATAGAACTCGACACCA
CGTAACACATGTGGGGCAGCGGTGGACTGCCATCCTTGGCGTCGGCTCTG
CCAGCGATCGAATCCCGGCTAATTAATAGCGATATTCCTCACCAGACGAA
ATGGGCTACACACATTTTGGTTCCAGACTTTCCAATCGGTCGAGCTCGTC
AAGTGGCTAACTCCCGGTTAACATGAAAACTTCTGCTTCAGCACAGTAGT
GATGCCTCCATAGTGCCGGTCGGATAGTGCCGGTTGCCCGCTCTTGAGTC
TGTGAGATCGCTTCGACCAGATGGGATTCGACAGAGTGGTAGTGCTCGTA
GTAGTGCCGGTATTGCTAGTTCCGGTATTGTAGACTATCACATGCCAACA
CTATAGATCGACCACGAATGCTGTAGTACATTTGTTCTAGAACTGGCGCG
GGCAGACAAGCCTGGGTCGGGCTGCGCGAAGAGACTCCGTCGACGTCATG
TTTCGGATGAGATGCTGAGCTATTCTTCAAAGTAAGAAACTCAGAACATT
GCGCACCACCCGTACCGTGGCGTTGCATAGAGACGTAATTCTGAGCCTTC
TTCTGCCTGCAAACGTGCGGGAACGCTAGGTAGAAAAATCTGATCCAAAT
CGACGTGCAGTGGGAATGGCGACCCCTCGGTGTGACAACAGGGAAGGCTC
CGTATAAACTGTGGAAGGGAAGGGACGATCCGCATGACCACGGCTTGGTC
AGAACGCCTCCGAAGGTAGAACCCCCTACTGGCATTTATATGTACACACG
AGTTGAGCTGGAATGCAGGAACTCCTACCGTGGCATTGCATAGGACGTGG
TTCTGAGCCTTCTTCTGTCTTCAAACTTGTGAGCGCGCTAGGTGGAAAAC
TCCGGTCGAGATCGACGTGCAATGGGAATGGTGTCCCCTCCACGTGATGA
AGGGGAAGGCTTCTATAAACCGCGGGCGGAGTGGGACGATCCTTGTGACG
GCGACTTGGTCAGGACGCCACCGAAGATAGAACCCCCTACTGGCATATAA
ATACATACGAGTTGAGCTGGAAAGTAAGAGTAGCTTACGGACTCGCGCGA
ACTCAGTCATTCCGGCCTTCCGTACATTAGGGACTGGCGAGTACCCAGTC
ATTTCAGCCTTCAGTACTAGTAGGACTTGCAAAGACTCAGTCATTCCAGC
TTTTCCGGTACGCTGGAGGTTCTCAAAACGACTCGGACTCGCGAGTCAAT
GACTGTTGTGTCTCGATAACTGATACTGATATTCTGACGACGGTTTGCAT
TGTTTTTCAACCGTCGATAACAAAACACACAAAAAAGAAAAAACACGTGT
TTTCTGTTGGGTTTTACCCTTTGGCTCGGTAGTTGCGAGGACTCAGTTAT
TTCAGCTTCTAGTACCCTGGGAACTTGCGAGGACTCAGGCATTGGAGCTT
CTTGTACGCTGTGGACTCGCGAGGAACTCCTACGAGTAGTACCCTTGGGA
ATCGCGAGGACTCAGCCATTTCAACGTTTGGTGCCATGGGGACCGACGAG
GACTCATTCGGTTTAACGTCTGGTACCCTGGCGACTCGCGAAGACTCAGT
CGTTGTTGTAACGTCTGGTACCCTGGGGAATCGCGAACACTCAGCCATTC
AACCTCCGGTGGGGACTCTCGTACACTCAGTCGGTTCAGCGTCTGCTCCC
TGAAGACTCAGTACCTCGATTTGATTCGAACACACGAGGCAATGACTGAG
TCCCATTGACTCGGACTCGGACTCGGACTCCGACGACCATTTTCACCATG
TAACAATTATCTGGAGCGCAGTGAATTAGTAAAAAGCTTACTAGAGTTTG
ATTTGATGTGTTTCCGCTGATCGCTCTTAGTCAAAGCAGCGCAGGCCCTC
CGGTAGGGATACTAAACAAACCAAAGTCAGCGAAGCAAAAAAAAAACAGC
CGAAAGCCACAAATCAAACCAACTAACAAATAAAAACAGACACAAAACAA
AATATTTACAACAAAACTAGTTACAACACATAAATGCCATCGCCATTTGT
TTTTTACACCACAAGCATTGATATTTTGGTCATGCAACTCATTTCGCTTG
CATGATGGTTCAAGCATAACGCCCCAACTTCCATCACACGTCTTCAGTAA
CGTCAACTCCGTTGTTCCTGACATCTGGCTCTGTCTTCGCCGTGCTTTAT
CGCCGCGTGTGGGCATGGCAGGACGCAGATGGCGACCGATGGATCAGGGA
GGTGGCATTGGCGCCGTCACCCAAGCCGGTGGTGTACATGAAGCACATCG
CCAAGATGGTACAGTACATGTTGCAGTGCGTACTCCCGGTTGACGAGCGC
GTACGATGCAGGCATTAGATAGTTGTGTTGGGTATCCTCGGGGACGTTGG
GTACCATCGGGGTCAAGACCCCAACGCTTAGGGTTAGGGTTGGGGTTATG
ATAATGCAGGGAAGTCGTGAGCGGGCAAAACATTCTGCTTCGAAGAACAG
AGGTTTACAGAGCACGACGTTCACCACCCGTGCATGGTCTGTATGGTCTG
AACATTTCGCGATCTGGGTGATGTGGCCGATCTACACATCACTTTCCTGG
TGAAAAATGTACGACGCGGCTCTTACCCCAATAAGATCTCGTACAATACT
TCGCTTGCGCGCGACAACTCACAGAGGCTACTATTTTATCTGAAGGTACT
AGTGTACAAAATATATACCTTGATCAGCCAGGCCGACGTGCGCAATCGTC
CGCCAGACGAAAATGTTTGTTTCGTTTTTAGCTGAAATAGTATGCGGCAG
GGACGGGCGTGGGTGCACGTGATGCGCCCACGCCCGCCTCGTTTGCACAT
GTATCGCACTACTTTTGTTGCCCAACATTGTATATTATTTAGGCGAAAAC
AATATTTACTGCTGTTGTGGATGCTGTAGATCGTAATCAGTCCGACGTGT
GCAGTCTTCAGCAGCAAGTTAAACTTTTGTTTGATTTTTCGGTTCTGATT
GGGGGGGGGGGCGGGGGGGGGTCTGCCCTCGCGCTGGGGGGCGGGGCGGG
GATTGCACACACACGCAGATAAGGAACCTGGATCTCCACTTTTTACCCAA
GTGCCGCAACATCATTCAGATCAGGACACCAGTTCAAGTGCTGCCGTCGT
GGAACGTCAACATTGACGCCAGCATGAACGAGGTGAGTTTGAAAACCCCA
TATCCTATGCCGGTAGGTACTGCCGTCTTGGAGCAACAGCATTCACGCCC
CTCTCATGGGAGGTGACACGGACAGGTCACGAACCGGATCGCCTAGATCC
TTCAGATCATGTACAGTAGATAATGTAGATCCTGCGTGTGATGCCGCCGT
GGGTCATCAACACCAACTACAATCCCAAGCGAAGAGTTATACAGATCGCT
GACCTGGATCATCTTCACCGTCCGAATTATATACTCACTGCCGTCGACCC
CAAGGACCACCAACGTCCACGCCGACCTGAAACGGGACTGTCGTACAGTA
GATCCTAATTATCTGGTTGTAAAACTGAATATCGGTGTCGGTAGTTGCAA
ATGTGTTTTTCTGTCTTTATGTCTGTCGGCCAGTACGCGTGGGTTATATT
TTGGAACACTTTCCAATGATGGATATATAATTTCGATAAAGATGATATTC
GTACGACGTATTCGACTCTTCCGGACCTTGTATACTGAAAAATACCATAC
CACAATTTTTGGCCATATAATACATCCACCACATCGTACTATCAAAACAT
ACCACCAACATACCATATTACCTACCGTGTTTTTTCTTCATATAGTATAT
CAAACCGTGCCATCATGCCATGCCAACCTTTTTTCTCATCAACATACCTT
ATAACATACCACCATACCATACCGCCAACATACCATATAACATATAGTTT
TTTTTCCATATAGTATGTCCAACCGTACCATCATGGCATACCGACATTTT
TTCCATATACTATATCAAACCGTACTATAAAACCACTTCCATGTAATATA
TCAAACCGTACCATCATACCATACCAACGTACACAAGAGCATGCGAGCAC
GCGATGAGCCACGACGGCAAAGCGTCGAGTTCACAAACGCATGTTCCTTC
AGGGCTATACTGCTGTACCAACACCTCAAGTACACAAGATCACACAATGT
ATAGAAAGCATACTGCTGCACCAACACCACAAGTACGCAAGCCCATGTCA
TCGCTCGTTAGATACCACACTGTTGTACCAAAACACTTGTTGGAGATCTC
TAATAATATGACGAGCGATGGCAGAGCGTCAAGTGCATAAACTCATATGC
CTTCAGGGCGACAGAGCAGGAACGAGTGTAGATAGAGTGTCAAGTGCATA
ACAGTATAAGCCTTAAAGGTGACAGAGGAAAACGAGTATAGATACCATAC
TGCTGTTCCAACACAAGTACACAGACCATGCGAGCACGCGACGAGCAACA
CCACAAGTACACAAGGGCATTCCTTGAGAGATCTGAAATATTTCGCGGTA
CAGAGATCTCTTGTCCATCTATCGTTTACCTTGTAGCAAACAACCGACAT
GATTTTCATCAGCCAACAGAGCCTCGTCAGCTCTCTGACCGCTTCTTGGG
GATCGCATATCCCCGTTCATGCTTGTGTGCCTCCTCTTTGTGTCCTGTTT
CCTATATTTCACGATCCTCGTCGCATATTTCGGTGCTCTAATAACCCCGC
TGTTGAAAACACATCGGAAATGCTGTTCTCTCAAAACTGATTGTCGGGGA
TCTCGTATATTTCGAGGTACAGATACCCCTTGTCAATCTGTCGTTTACCT
TGTAGTAAACAACCGACATGTTTGTCATTAGCCAACAGAGCGTCGTCAGC
TCTCGCTTGTTGGTGATCTTTGTTGCGAGGGCAGAATGTGCCTGTCCACA
AAATACGCGGGAAACAAATCCTGTTGTTGCGGACCTGTTTGTTGGGGATC
ACGGCGCAGACGGGTCTCTCGCGTGACTCTCACCAACTCCTACTGCCACT
TCACGAACAAAAGACAACCAAACTGAGACCAGCGCTCGAATGCATTATTT
CGAGGGTAATACCAATATAGAGACTATACCAGGGACGTTGTATTTCTAAA
CATAGGAGTATATTTTGCTGCCGTCGTGCGACACGAATAATCACGTCGTT
ACGGGTCGACTAGGCAGCACGTAGGGCCGTACAGCACGCACGCAAATATG
CACCCTCGCACGAATCTAAAATATTATATAGTCGAAAACGGGCACAGCAG
TAGAAACGACAACCGATGCGCCTCGGGAAACACTTAGACTGCGCTATTTC
CCAAGCGAGTATTTTCGATGTGTGCACCTCTCTCGTTCAGGGAAAAGCAG
ATCGGAAACACTTCGTTCGAGGTGCGTTGTCCCGCGTGCAATATGGCACG
CCCTCGTCGTGGATCTGTTTTGAAGTGCTATTTATTTTGTCTGTGACCAG
AACGGGAAAGCGCACAGGGGGTGCCGGGTTAGTAAAAACAAGGGGGAAAC
GTGCAACGATGGGTAGTAATTAGGAACATCTTTGGGGAGATCAATTCTGG
CTGGCAAGGCCCCCAAACTGAGTATCTATGAACGTATTACATTTTGGCCT
CTCGCAATGTATCTTACCCGTTCCAAATCGACTTGAATCGAACAGCCAAT
AAAACCGTAGGAATAGTAGTAGAAGTTGCAGTGAGAATAACAGTGTTGGT
AATAGTTGTTTCTCTCCTATTCACTCGAAACCAATACGCACCCCAGGTTC
CTTTGTTTAAGGCTCCTACTTTCACCTTCTTCCCCTGGCCAACCCTCGTT
TACCCTACTTCTCGTCGGTAGTTTGGCCCCTAGGACGTTGACGGCGTTGC
TCCGGTTTCTTCTCTCTGTTCCGTGATCAGACTGGCGTCGTTAGAATACC
TTTACGTCATCATAACGTTTCTTTTTAATCCCCAGGCCATGGCATCATTC
GTCTAGATGTATGCTTCGCCGGGTTTAGGGTGCAAAGTAGTGTGTTCCTC
AAGCGATGATCTTCAAGATAATATACGACTTACGCAACGCGTGCGTCATG
GATGCTCTGAGTATTGCTTGCCTAAACATGCGTATTTGAATATTGGCCTT
GTATCCCCCATGATATTCAGTATACCATGCTTAAACCCTCACATACCCAA
GAACGTTGAAAATGACAATCAAGACAGACGTTTCTCACTGGTCAAGTCCC
TGACCGCACAAAGCGATTGCCTTGGTGTTTGTTTTTTCTGCACGTACGAA
AACAAAGGTGGTGCATTAACAAGTCTAGCGCGGTCAGGAGATTGATAAGT
GACAAGCACGTCGTAGCACGCTCCCTATTCCCAGCGTTCTCGTACTCAAA
TTGACCAGCCCCAGCAAGTTGATATCTAGATACATGTATAAGATTCCCAC
TCTGGGGCAACAACAACGAAGCACAAAACGACAACAGATATGTACAAGTT
ATGTTAGTTTTCCCCACTCTTTTCTCGCAGTATGCTGTAAAAGGAGTAGC
TTACATTTTCCCAGTTTATGCCAGTAAGGTATCTCGCAATCAAGGCGGTA
GCTCATATGGCAGGCACGTGCGATGAGGCCAATATTATCAGCATTTCCAA
CACTGGTCGTAGGCTTACGAGTGCTTGTTCACGTCCTTTCCGTCGTGATA
CTGTTTTCTGCAAGTATGCCTAAGATTTAGCCGAAGTTTGTCGTTCTCAA
ACTGCTTGGAGCTGGTGTGCAAGTATGATTTTGTTTTTATTTCGTGCTCC
CGGCCACAAAAACTCATTCTCGTTTGGTTTAGAAGCCAATGTTTTCTCTC
ACTATTCATAACTATTACTTCAGTTAGGTGTTTGGGTGGAAACAATAGCT
TCTTAACCTACAACAGGCGTCCTACGACAGAGGTCCACGCTTAATTTTCT
TAGGCTCCTCACTTTGGGAGCTCCATACCTCACCCGGAAACTGACTTCTG
CAAAACTCAAATTGCATCCCAATGAATAATCCCATATACGAAGTATACTA
AAACTTGAATTTTCGAAACAAGATTGGCATTGCAACGATTTTGGGTTATA
GAGTCCCGTCGTTCAGAAAACATTTGAGCGGAAATGTTCTACCTCTATCG
TAGAACGCGTCAACTGCAGTCCTGTTTTGGGAACAAGCCAGTGGAATTCT
AAGTAGTTTGTATCCCATCCGGGACTGCAGTCCTTGAAAGTGCTTTACAA
ATCCAGGCGTTTATACCACTTCCATGGATTTACGCCATTATTTTCACTAC
CGCATTTAGACCACTTGGCCGAGTTGCTCCGAAGCCCGCTCAAAATTGGG
CTTGAAACATATTTTCGTGGCAGGAAGCTGACGCACCATCGGGGGGTCGA
ACATGTCGCGAAACATGAAAACAATGAATGCACAAGACTGCAATGCGATA
GAGTAGTCACTCGGCGAAGTGGGTCTGAGAAGCTGAAAAACTCGCACCCA
AAGAGGCGTTGTACGATAGAGGTTCACCCTTAATTTTCTGAGGCTCCTCA
CTTTAGGAGCTCCGTACCTCACCCAAACACTGACTTGAGCATCGCATGGG
CAAAGTATTAAAGACGCCATTCTTCGAAACAAATTGGCATTCCGACGAGT
TTGGGTTAAGGAGCCCCGTCATTCAGAAAACATTTCGGCGTAAATGTGCT
ACCTCTATCGTAAAACGCGTCTAGGTATGACCCCCCGTGCCGTAGCACCA
GTCCTTGTGGCACCCCTATCGTGGCACGCCTCCAAGGTTCTACTGGGAAA
CCTTGGTTGACCCCATTGACTGACTGCCCCCCCTCACAAAATGCGGAGCA
GCTACCCTTGAACAGCCGCACTGGCGTGTAATCGTACGGTAGGTTAGGGG
CACGGGGCTCCTATGCTTCCCGAGTCTCCTAGTTTGACGAACTCGATATT
CTACTTACCCCCCGAATACGAATCGAAATGAACAACGGACGCTCAGTTTT
CCCTCTCGGCCTCTTGAAGCCATGTCCGAAACAAATATTTGCGGGGAACT
AAAAGCGAGAATACGAAACGATACAGTTATTGGGGAGTTGCTCGGTGGAG
GGACCTCGACACTCCAACGCTATTCCGGCCAGAAAATGCTACCGCTATAT
CGTAGCGTGTGTCCACTATACACAAAGACCTGCTCCGCTTTTCAGTGAGA
ATTTGAGCTTTTGTTTGTGACCCTAAACGGGGTTATGGCCGGGGGTGGCC
TCGATGCGCCCTGATCTCTACTGCATCTGTTGGAGCGTTCGCCCTCGACT
CCGCGTACTACGTCTGTTTGATGTTTTTCTTATGTGTTCGACCTCGACTC
GTACCCCGTGTGTTTGAATGCTCGCCGTCAACGTTATACTACTGCATCGG
GATCAACGTCCGCCCTCCAACGTTAACTGCGTCTGGACTGCAGATCGGAA
TGCTGGATCTTCTGAACGTGTATTCTCTTCTCCGAGCGTGTGGTCAGGTA
AGCGCTGGTTGCCCGGATGGTTGA
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Coding sequence (CDS) from alignment at M-pyrifera_M_contig7861:563..10386+

>mRNA_M-pyrifera_M_contig7861.18470.1 ID=mRNA_M-pyrifera_M_contig7861.18470.1|Name=mRNA_M-pyrifera_M_contig7861.18470.1|organism=Macrocystis pyrifera P11B4 male|type=CDS|length=1128bp|location=Sequence derived from alignment at M-pyrifera_M_contig7861:563..10386+ (Macrocystis pyrifera P11B4 male)
GCCGGTAAAGAAGATGACAAAGAGGAAGATAAGCGGCCCTGCGGGCGGCC
TCAGACAGCGTCGGTACGCAAAGTTCCACAGGTTGGAGAGCTTCTGCAGG
ATGGGACTGTTCGAATTAACGTGTGGTCGACCCCACGCTCTCTCAGCACC
GCACTCATGTACTCCTTCGCCCAGGCCGGTAAAGAAGATGACAAAGAGGA
AGATAAGCGGCCCTGCGGGCGGCCTCAGACAGCGTCGGTACGCAAAGTTC
CACAGGTTGGAGAGCTTCTGCAGGATGGGACTGTTCGAATTAACGTGTGG
TCGACCCCACGCTCTCTCAGCACCGCACTCATGTACTCCTTCGCCCAGAG
GGCGGACACCGTGGTGTACGACGAGCCGCTTTACGCGCACTTTCTGAGGA
CGAACGAGGAGGTGGAAAAATGTCGGCCCTACGTCGACGAGGTCTTTAAG
CAGCAGAGGGCGGACACCGTGGTGTACGACGAGCCGCTTTACGCGCACTT
TCTGAGGACGAACGAGGAGGTGGAAAAATGTCGGCCCTACGTCGACGAGG
TCTTTAAGCAGCAGGACGCAGATGGCGACCGATGGATCAGGGAGGTGGCA
TTGGCGCCGTCACCCAAGCCGGTGGTGTACATGAAGCACATCGCCAAGAT
GGACGCAGATGGCGACCGATGGATCAGGGAGGTGGCATTGGCGCCGTCAC
CCAAGCCGGTGGTGTACATGAAGCACATCGCCAAGATGATAAGGAACCTG
GATCTCCACTTTTTACCCAAGTGCCGCAACATCATTCAGATCAGGACACC
AGTTCAAGTGCTGCCGTCGTGGAACGTCAACATTGACGCCAGCATGAACG
AGATAAGGAACCTGGATCTCCACTTTTTACCCAAGTGCCGCAACATCATT
CAGATCAGGACACCAGTTCAAGTGCTGCCGTCGTGGAACGTCAACATTGA
CGCCAGCATGAACGAGATCGGAATGCTGGATCTTCTGAACGTGTATTCTC
TTCTCCGAGCGTGTGGTCAGGTAAGCGCTGGTTGCCCGGATGGTTGAATC
GGAATGCTGGATCTTCTGAACGTGTATTCTCTTCTCCGAGCGTGTGGTCA
GGTAAGCGCTGGTTGCCCGGATGGTTGA
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