mRNA_A-nodosum_M_contig1053.30.2 (mRNA) Ascophyllum nodosum dioecious

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

Overview


Name	mRNA_A-nodosum_M_contig1053.30.2
Unique Name	mRNA_A-nodosum_M_contig1053.30.2
Type	mRNA
Organism	Ascophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))

Homology

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: D8LKJ1_ECTSI (Arf2A, ARF family GTPase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LKJ1_ECTSI)

HSP 1 Score: 282 bits (722), Expect = 2.570e-87
Identity = 132/186 (70.97%), Postives = 154/186 (82.80%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKK 791
            MGQ ++RL NI+ G QEKRLLLLGLD AGKTSLLY+LHL EVV TIPT+GFNVERVEY +M M IWDIGGQTKLRPLW HYF+NTDALI+++DS+D  RIEEARDELF +L+D NM  C+++LILLNKQDLPGAI+PS M  K G      NPL +R WY+QGCCAVTGEGV++GLDWL  +L KK
Sbjct:    1 MGQIIARLANILNGLQEKRLLLLGLDAAGKTSLLYRLHLNEVVTTIPTIGFNVERVEYNRMMMTIWDIGGQTKLRPLWHHYFINTDALIFVVDSNDHERIEEARDELFHILQDPNMDGCQTVLILLNKQDLPGAISPSAMRSKLGLDGAGRNPLMKRNWYMQGCCAVTGEGVYDGLDWLRGALNKK 186

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: D8LKJ9_ECTSI (Arf2B, ARF family GTPase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LKJ9_ECTSI)

HSP 1 Score: 273 bits (699), Expect = 7.950e-84
Identity = 125/188 (66.49%), Postives = 154/188 (81.91%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKR 797
            MG  VSRLV+I+   +EKRLLLLGLD AGKTSLLY LHL E V T+PTVGFN+E+VEY  M M IWD+GGQ KLR LWR+YFV+TDALI+M+DSSD +RIEEARDE+F VL+D NM  C+++LI+LNKQD+PGA+ P ++ID+ G      NPL++R WY+Q CCA+TGEGVF GLDWLCE+L+KK R
Sbjct:    1 MGHVVSRLVHILGTLKEKRLLLLGLDNAGKTSLLYNLHLNEAVGTVPTVGFNMEQVEYNNMVMTIWDVGGQAKLRSLWRYYFVDTDALIFMVDSSDENRIEEARDEMFHVLRDPNMDGCQTVLIMLNKQDVPGAVGPGIVIDRMGLNSAGDNPLRERNWYMQSCCALTGEGVFYGLDWLCEALKKKNR 188

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: A0A7S1U6G7_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1U6G7_9STRA)

HSP 1 Score: 215 bits (547), Expect = 9.460e-62
Identity = 100/190 (52.63%), Postives = 137/190 (72.11%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMS-ECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKRS 800
            MG F+S L   + G QEKR+L+LGLDGAGKT++LY L L EV+HTIPT+GFNVERVEY K+++ IWD+GGQ K+R LWRHYF  TDALI+++D++D SRI+EA  E+  +L    M  +C  +L+  NK DLP  ++ + ++DK G     A  LKQ  W++QG CA TG+G++EGL WL  S+RK + +
Sbjct:    1 MGMFISSLWGALQGIQEKRILMLGLDGAGKTTILYSLRLGEVIHTIPTIGFNVERVEYDKLDLTIWDVGGQEKIRRLWRHYFSGTDALIFVVDANDRSRIDEAAHEMSAILDSDEMRRKCDHVLVYANKMDLPQNLSVAEVVDKMGLTSNPA--LKQVHWHVQGACATTGQGLYEGLSWLSNSMRKHRNN 188

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: A0A516IJG8_9ROSI (Uncharacterized protein (Fragment) n=2 Tax=rosids TaxID=71275 RepID=A0A516IJG8_9ROSI)

HSP 1 Score: 216 bits (549), Expect = 2.090e-61
Identity = 100/190 (52.63%), Postives = 139/190 (73.16%), Query Frame = 3

Query:  222 LGERMGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKK 791
            LGE MG  +SRLV ++   +E R+L++GLD AGKT++LYKL L E+V TIPT+GFNVE VEY+ +   +WD+GGQ K+RPLWRHYF NT  LI+++DS+D  RI EAR+EL ++L +V + +  ++L+  NKQDLP A+N S + DK G      + L+QRRWYIQ  CA +G+G++EGLDWL  ++  K
Sbjct:   51 LGEEMGLAISRLVRMLFAKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNVSFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERISEAREELHRMLSEVELRDA-TLLVFANKQDLPNAMNVSEITDKLG-----LHSLRQRRWYIQATCATSGQGLYEGLDWLSSNISSK 234

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: D2VJC3_NAEGR (ADP-ribosylation factor n=2 Tax=Naegleria TaxID=5761 RepID=D2VJC3_NAEGR)

HSP 1 Score: 210 bits (535), Expect = 3.260e-60
Identity = 100/183 (54.64%), Postives = 136/183 (74.32%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESL 782
            MGQ +++L   +   +E R+LL+GLD AGKT++LYKL L+E V TIPT+GFNVE V+Y+K+   +WD+GGQ K+RPLWRHY+ NT+A+I+++DS+D  RI EARDEL K+L D  + EC  +LIL NKQDLP A++ + M DK    +     LKQR W+IQ CCA++G+G+FEGLDWL   L
Sbjct:    1 MGQSIAKLFENLFKNKEARILLVGLDAAGKTTILYKLKLDENVTTIPTIGFNVETVQYKKINFTMWDVGGQDKIRPLWRHYYANTNAVIFVVDSNDRDRIGEARDELQKMLSDDQLREC-VVLILANKQDLPNAMSAAEMTDKLSLHN-----LKQRNWFIQPCCAISGQGLFEGLDWLSNQL 177

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: A0A1R3GES4_COCAP (ADP-ribosylation factor n=1 Tax=Corchorus capsularis TaxID=210143 RepID=A0A1R3GES4_COCAP)

HSP 1 Score: 211 bits (536), Expect = 4.650e-60
Identity = 98/188 (52.13%), Postives = 135/188 (71.81%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKR 797
            MG  +SRLV ++   +E R+L++GLD AGKT++LYKL L E+V TIPT+GFNVE VEY+ +   +WD+GGQ K+RPLWRHYF NT  LI+++DS+D  RI EARDEL ++L +  + +  ++L+  NKQDLP A+  S + DK G      N L+QRRWYIQ  CA +G+G++EGLDWL  ++  K R
Sbjct:    1 MGMTISRLVRMLFAKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNVSFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERISEARDELHRMLSEDELRDA-TLLVFANKQDLPNALTVSEITDKLG-----LNSLRQRRWYIQATCATSGQGLYEGLDWLSSNISTKAR 182

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: M5WK44_PRUPE (ADP-ribosylation factor n=27 Tax=Mesangiospermae TaxID=1437183 RepID=M5WK44_PRUPE)

HSP 1 Score: 210 bits (534), Expect = 5.350e-60
Identity = 97/188 (51.60%), Postives = 136/188 (72.34%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKR 797
            MG  +SR+V ++   +E R+L++GLD AGKT++LYKL L EVV TIPT+GFNVE VEY+ +   +WD+GGQ K+RPLWRHYF NT  LI+++DS+D  R+ EARDEL ++L +  + E  ++L+  NKQDLP A++ S + DK G      + L+QRRWYIQ  CA +G+G++EGLDWL  ++  K R
Sbjct:    1 MGMAISRMVKMLFARKEMRILMVGLDAAGKTTILYKLKLGEVVTTIPTIGFNVETVEYKNVSFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRDRVSEARDELHRMLSEDELREA-TLLVFANKQDLPNAMSVSEITDKLG-----LHSLRQRRWYIQAACATSGQGLYEGLDWLSSNISSKAR 182

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: A0A3S3Q2S8_9MAGN (ADP-ribosylation factor n=1 Tax=Cinnamomum micranthum f. kanehirae TaxID=337451 RepID=A0A3S3Q2S8_9MAGN)

HSP 1 Score: 210 bits (534), Expect = 5.350e-60
Identity = 98/188 (52.13%), Postives = 135/188 (71.81%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKR 797
            MG  +SRL+  +   +E R+L++GLD AGKT++LYKL L E+V TIPT+GFNVE V+Y+ +   +WD+GGQ K+RPLWRHYF NT  LI++IDS+D  RI EARDEL ++L +  + +  ++L+  NKQDLP A++ S + DK G      + L+QRRWYIQ  CA TGEG++EGLDWL  ++  K R
Sbjct:    1 MGMTISRLIRQLFSRKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVDYKNVSFTVWDVGGQDKIRPLWRHYFQNTQGLIFVIDSNDKERISEARDELHRMLSEEELRDA-TLLVFANKQDLPNAMSVSEITDKLG-----LHSLRQRRWYIQSACATTGEGLYEGLDWLSNNISTKSR 182

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: A0A4V1IX66_9FUNG (ADP-ribosylation factor n=1 Tax=Thamnocephalis sphaerospora TaxID=78915 RepID=A0A4V1IX66_9FUNG)

HSP 1 Score: 210 bits (534), Expect = 5.710e-60
Identity = 100/187 (53.48%), Postives = 138/187 (73.80%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRS--ILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRK 788
            MG  +SRL+  + G +E R+L++GLD AGKT++LYKL L EVV TIPT+GFNVE VEY+ +   +WD+GGQ K+RPLWRHYF NT  +IY++DS+D  RIE+ARDEL ++L   N  E R+  +LI  NKQDLPGA+NP+ + D+ G      + L+QR WYIQ  CA +G+G++EGL+WL  +L++
Sbjct:    1 MGMSISRLMQSLLGKKEMRILMVGLDAAGKTTILYKLKLGEVVTTIPTIGFNVETVEYKNISFTVWDVGGQDKIRPLWRHYFQNTQGIIYVVDSNDRGRIEDARDELQRML---NEDELRNAVLLIFANKQDLPGAMNPAEITDQLG-----LHSLRQRTWYIQATCATSGDGLYEGLEWLSTTLKR 179

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BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Match: A0A6A5MNI6_LUPAL (ADP-ribosylation factor n=2 Tax=Lupinus albus TaxID=3870 RepID=A0A6A5MNI6_LUPAL)

HSP 1 Score: 208 bits (529), Expect = 2.780e-59
Identity = 96/188 (51.06%), Postives = 134/188 (71.28%), Query Frame = 3

Query:  234 MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVGFNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRIEEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGEANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKR 797
            MG  +SRL  ++   +E R+L++GLD AGKT++LYKL L E+V TIPT+GFNVE VEY+ +   +WD+GGQ K+RPLWRHYF NT  LIY++DS+D  RI EARDEL ++L +  + E  ++L+  NKQDLP A++ + + DK G      N  +QRRWYIQ  CA +G+G++EGLDWL  ++  K +
Sbjct:    1 MGLTISRLFRLLYSKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGQDKIRPLWRHYFQNTQGLIYVVDSNDRERISEARDELHRMLSEDELREA-TLLVFANKQDLPNALSVAEITDKLG-----LNSFRQRRWYIQATCATSGQGLYEGLDWLSSNISSKAK 182

The following BLAST results are available for this feature:

BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot

BLAST of mRNA_A-nodosum_M_contig1053.30.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LKJ1_ECTSI	2.570e-87	70.97	Arf2A, ARF family GTPase n=1 Tax=Ectocarpus silicu...	[more]
D8LKJ9_ECTSI	7.950e-84	66.49	Arf2B, ARF family GTPase n=2 Tax=Ectocarpus TaxID=...	[more]
A0A7S1U6G7_9STRA	9.460e-62	52.63	Hypothetical protein n=1 Tax=Phaeomonas parva TaxI...	[more]
A0A516IJG8_9ROSI	2.090e-61	52.63	Uncharacterized protein (Fragment) n=2 Tax=rosids ...	[more]
D2VJC3_NAEGR	3.260e-60	54.64	ADP-ribosylation factor n=2 Tax=Naegleria TaxID=57...	[more]
A0A1R3GES4_COCAP	4.650e-60	52.13	ADP-ribosylation factor n=1 Tax=Corchorus capsular...	[more]
M5WK44_PRUPE	5.350e-60	51.60	ADP-ribosylation factor n=27 Tax=Mesangiospermae T...	[more]
A0A3S3Q2S8_9MAGN	5.350e-60	52.13	ADP-ribosylation factor n=1 Tax=Cinnamomum micrant...	[more]
A0A4V1IX66_9FUNG	5.710e-60	53.48	ADP-ribosylation factor n=1 Tax=Thamnocephalis sph...	[more]
A0A6A5MNI6_LUPAL	2.780e-59	51.06	ADP-ribosylation factor n=2 Tax=Lupinus albus TaxI...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
A-nodosum_M_contig1053	contig	A-nodosum_M_contig1053:198893..217300 +

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
Ascophyllum nodosum dioecious OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D8LKJ1
PFAMs	Arf
Model size	2295
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K07937,ko:K07977
KEGG Pathway	ko04072,ko04144,ko05110,ko05134,map04072,map04144,map05110,map05134
Hectar predicted targeting category	other localisation
Exons	6
Evalue	7.5e-96
EggNOG OGs	COG1100@1\|root,KOG0070@2759\|Eukaryota
Description	GTP binding
Cds size	585
COG category	BDLTU
BRITE	ko00000,ko00001,ko04031,ko04131,ko04147

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_A-nodosum_M_contig1053.30.2	prot_A-nodosum_M_contig1053.30.2	Ascophyllum nodosum dioecious	polypeptide	A-nodosum_M_contig1053 199126..215823 +

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


Feature Name	Unique Name	Species	Type	Position
1680866435.048544-UTR-A-nodosum_M_contig1053:198892..199125	1680866435.048544-UTR-A-nodosum_M_contig1053:198892..199125	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig1053 198893..199125 +
1680866435.522917-UTR-A-nodosum_M_contig1053:215823..217300	1680866435.522917-UTR-A-nodosum_M_contig1053:215823..217300	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig1053 215824..217300 +

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


Feature Name	Unique Name	Species	Type	Position
1680866435.1360307-CDS-A-nodosum_M_contig1053:199125..199173	1680866435.1360307-CDS-A-nodosum_M_contig1053:199125..199173	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig1053 199126..199173 +
1680866435.1469002-CDS-A-nodosum_M_contig1053:199558..199612	1680866435.1469002-CDS-A-nodosum_M_contig1053:199558..199612	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig1053 199559..199612 +
1680866435.15713-CDS-A-nodosum_M_contig1053:206852..206947	1680866435.15713-CDS-A-nodosum_M_contig1053:206852..206947	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig1053 206853..206947 +
1680866435.1670332-CDS-A-nodosum_M_contig1053:207600..207790	1680866435.1670332-CDS-A-nodosum_M_contig1053:207600..207790	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig1053 207601..207790 +
1680866435.1774802-CDS-A-nodosum_M_contig1053:212776..212875	1680866435.1774802-CDS-A-nodosum_M_contig1053:212776..212875	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig1053 212777..212875 +
1680866435.387808-CDS-A-nodosum_M_contig1053:215724..215823	1680866435.387808-CDS-A-nodosum_M_contig1053:215724..215823	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig1053 215725..215823 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at A-nodosum_M_contig1053:198893..217300+
coding sequence from alignment at A-nodosum_M_contig1053:198893..217300+

protein sequence of mRNA_A-nodosum_M_contig1053.30.2

>prot_A-nodosum_M_contig1053.30.2 ID=prot_A-nodosum_M_contig1053.30.2|Name=mRNA_A-nodosum_M_contig1053.30.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=195bp
MGQFVSRLVNIITGFQEKRLLLLGLDGAGKTSLLYKLHLEEVVHTIPTVG
FNVERVEYRKMEMIIWDIGGQTKLRPLWRHYFVNTDALIYMIDSSDTSRI
EEARDELFKVLKDVNMSECRSILILLNKQDLPGAINPSVMIDKFGWKDGE
ANPLKQRRWYIQGCCAVTGEGVFEGLDWLCESLRKKKRSFTKWV*

mRNA from alignment at A-nodosum_M_contig1053:198893..217300+

Legend: UTRpolypeptideCDS

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

>mRNA_A-nodosum_M_contig1053.30.2 ID=mRNA_A-nodosum_M_contig1053.30.2|Name=mRNA_A-nodosum_M_contig1053.30.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=18408bp|location=Sequence derived from alignment at A-nodosum_M_contig1053:198893..217300+ (Ascophyllum nodosum dioecious)
GAACCAACGCCGAGGAGACAAGACTAGCAATCGTAATCACTATTGTGGTG
TTGCGAACCGGTCTCCCATTAGAGAGCAAAAGAAAGCGAACGCGTCTTCC
AGTCTCGCCGTCGTCAGTTGCCAGGAAAGCAACGAGGTGTGCCCTACGCC
CTTCCTCCCTCTCTGACGACCCGGCCAATCTCTCTGTTTGTGTGCTCTGT
TGACGACCTTCGAACTGCCTGCTAGGCGAGAGAATGGGCCAGTTCGTGTC
GCGTCTCGTGAACATCATCACCGGCTTTCAGGTATGACCGTCGGTGATTG
ACCTGGGTTTACAGCAAGCGACGATTCAAAATAGCGAGACTGGATGATGA
GAGAGAGGCGTTCAACCTGTGAGGTGCAACGCTGTCGCGTGCCTCATTTT
ATTCCCTTGAAGGCGTAAAGGTTGACTCGTAAAATCGTTTTGCACTTACT
TGGATTCAAGAGTTCAGGGGTGGAGATCAACGCCTCGATGGAGATCGCGA
TCGAACATGAACATGATGCATGACGAAACAAGTAAGAAATTTGAGCGAAT
GGGTCAAGGATGCTACTTACTGCTGCTGCTACACCCTCCTCCCTAGCTAC
TCCGCTGTTACACGACGGTCGGTGCTGATAACCGGAGATCCCTAACAACG
CGTGGCAAATTCGCAGGAGAAGCGCCTCTTGTTGCTCGGACTGGATGGTG
CAGGCAAGACTTCGCTCTTGGTGAGATGTTTTGTTGCTGTCATCTTTCCA
GGCCGAGACTCATGTAAATTTCTGTGTCTAGCAGGAAAAATAATTCTGCC
AGATACCAGCGATCTGGACGATATTTTGACTCAAGTCTCTACAGTAAAAA
CAAGTACTCCTAACATCGAGGTCAGTACAGTACAAAACAGTGTCAACTTT
TTTTCAGTGATATTCTTGCCTATAAAGAAAGTGTTGGATCAACTATTAAT
ATGTGAAAGTGAAACACGAAACCGTACACCAGACTGTTTAAAAAAAGTAT
TCGGTACGTACAGCTCTACTTTTCGGTAGAACGCATACTTGTGTTATGTT
TTGTATGTGTGTTTTCTTCCCATTCATTCTGGACATCAAGTTCGTTGGAC
GTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTCTCATCCA
CCTTCCTTCCGCGGAGCGTGCCTTAATTTTTCTCGCGAGAAGGATTCAGC
CATTCCTTTCCCTCGTCAACTCTGTGAAGTCAATTTTGTGTACTAACGAT
TTAATCGTTCTCCACCCGTTGGGCATGTTTATTTTGTCTTTTAGTTTTTT
AGTGAGAAAATACCTTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAG
AGGGTTACGAGGTACCTCTGAGCTACCGGGGCGACCGGTATTTTTTATTT
TTTTGTTTTTTTGTTTTTTCTTCTCATTCATTCTGGACATCAAGTTCGTT
CGACGTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGATTTCTCA
TCCACCTTCTTTCTGCGATGCGTGCCTTAATTTTTCTCGCGAGAAGGATT
CAGCCATTCCTTTCCCTCGTCAACCGTGAAGTCGAACTTTGTGAACTAAC
GATTTAATCGTTTTCCACCCGTTGGGCATTTTTATTTTTGTTTTTTAGTT
TTTTAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCAACGT
GTCAGAGGGTTACGAGGTACCTCTGAGCTACCGGGGCGACCGGCTATGTA
GGGTTTAATTAGGTTCTCATTTCTCAGTTACGGACAAGTGCTACAGTCTT
AACTGTGGGTGACAGAGTCTTACGAGTAGGAAAATCGAGACGCTTCAGAA
CGGCCTTGGTTGCGAGGCTGCGCCTGAGAATCTGTGTAGTGATGGTGACA
ATGTTTTTTTTTTTTTGTTAAGACCGACTCTTGTATCGCTGTGTACAGAT
AGACGTCACGAGTATCCTTTAGGGAACTGTTGATGCGCTCACGATCTGGT
TGCTGCAACAGACGATTATTAGACTACGTCAGGCATTTTGGGTCATGATC
GACTACTGATATATCTACACTGTACGTGCTCTTAATACAAGAAACATGAT
TGATTGATTGATTGATTGAATTCTCACATAAGCTAATAATTAATGTAAAA
AATCTATGAAATAGCCCGTGGTCACAAGGAAGAAAAAACACCATTCGAAA
GGAAATAATGTACGACGTACTCTCCACACAAAGAGAAAGCGGAAATGGTA
CAAAAAATACTCTGAAAAAGCGAAATCTCCAAATAAACAAAAAATGTTAC
CTGGTACAGCATATTGTAGTATAACGTGCCTGTTGTGCTGATTTCCCCTT
GCACCCAAATATAAATATTAGTCTAATAGTATCAAGCTTGTGACCACGGA
AATTCGTTTCTTTGCCTTGAAGAGGAAGAAAGAGAAGGTACTGGATAGAG
GTCAGAACGGTTTTCAATGTGAAGACAACAACAACAATTTCCCCCCTGAC
TGAGGGATGCTCAGAAATCCTAGATGCGTTCAGATTTTTGTTTAATTGTG
ATCCGGGGGTGGCTCGCGGCTGAAGATAGACCCAACCCTCTCTATAGTAG
TATTTAAAAGCAGCCATGCATCGGTAATTATTTGATGGGTTCTAAAGCTA
TCATTTTTGGCATCTGATGTTTGTTTTGTTCATGTTTTCTTTTCCTTTCT
TTTTGTCGTTTTTGCCGTGTTTTTGTTTTGTAATATGCTCTCGTTGAAGC
TTTGTAGAATGTCCCTCTGATATTTTCCTGTCCCGTAGACCACGTACTAC
TACTGGATTGGTAACCGCTTACAGTACTGGATATCACAAACTGGCATTTT
TCCTCACGAAAAAAAAAAAAAAAGTCCAACAAGTGGAGAATGATTAATGC
GTTAGTACACACAAATCGACTTTACGGTCGACGAGGGGAAGCAACGGCTG
AATCCTTCTCGCGAGAAAAATTAAGGCAAGCACCGCAGAAGGAAGGTGGA
TGAGAAATTCTGTGTGACCTTCCTCCTCTGACCCCGGCTGACGTCCAGAA
TAAATGGGAAGACAAGAAGGTTTAGATGCGTTCAGATTTTTCTTAAAACA
CATACACATGGTTGAGGCCCGATCGGTTAGTGCGAAGAACACACACACCT
ACACACACACAGTATTTATATAGGAGTACAGTACGAGAGCCGCCGCCGGT
GGGCCAATGAACAGTACTTTACTTTACTTTACTGTACTGTAGTACTTGTT
GTGAATGTTTCACATCGGAGAGCACGTCGCTTGTTTACTCGTTTTCTCCC
GTCGAGATCGAATTGGCGGATGACTATTACAGTAATAAATGTCGACAAAG
GTGGGGCCCGATCGGAATACGGTGAAAAAATAATAATCTGAACGCATCTA
GACCTTCTGACAATCCCACACAGAGGGAAAAATGTAAAGACGCTTAGGTG
GGATCATAGGCTGCAAAGACAAAACATCTTCATGGTATAACAGTACATAA
TTAGATAGGGTAGTGATAATATACGATAGTAGCGCCATCGCACCATACAT
CAACAGGGGCTAATAGTCTAGAACGCAAGGAACGTTAGGATATTATAACT
GATGAGGAGTGGTACATTTTGGTTAAGGTATAGGACACCTAGTCGTAGTG
GTAGTGGTAAATACATAGGGTTTGGGTGAAGGATTGAAACAGGGGCAGAG
AGGACCACCTTCTTCGTAGATATCTTCGACATAATTCAGCAAGTACGAGA
CGCCGGTATTTACCAGAAGAAAGTAGGTGAAGAGCAAATGGCGGATCACA
CCAAGAAGTAAGGGGCAAGCAGGTGGAACTGGGTCCCTCGCTCACTACTT
GTCATGGCTACGACACGCAGATGCTCCTCATACGTACACTTAACTAGAGA
GCTATGGTCCCGCGTTGACCAGAAAAATAATTACTCTGCCCGGTACTTTC
AACGTGCCCACTTCATACCATTAGTGAGTTTTGGAATAGAGAGGCGCATA
TTAATTGTTGTTGTTATCAGCGCAGTGGTTGCCAACCCGAAAAAACTAGT
TGAGGCCCGATCGGTAAATGTGAAGAAAATAACAACAACAACTTTGCACG
GTCGCCAATCCCGCTCGTGATCTGCTGAACAGAGAAAAAAAAAAAAAGTC
TGGCAGCGCCCCCCCCCTCACGCTGCTCGTTCGGAGAAAGAATGGTAAAG
GCCGAGGCAATCGAAGCTCTCCTGTATGGATGCAGTACGTGGACCCTCCG
CCAGGAACACTACGCCAAACTCCGCACGGTACATGACCGGGTCTTGCTCC
GCATCATCGGGGCGCAGCGCAAGAGACCAGCCCACCCGATGACCTCGTAC
AGCCGTGACTTGAGTCAACCCGGTGCGAGAGCATTGAGACAAGGTTGCGC
ACGAGAAGACTTTTTTTGTGGGCGGGGACGCTCATGCGAATGAGCGGCGG
GCGGCTACCAAAGCGAATCATGTTCGGAAACCTTGAGGGCGCAGTGCGGA
GAGGACGGGATGGGAAGGAGAAAGTGTGGACCGATTGCGTACAGAGCGGC
ATCCGGGCATTTGGCATAACGGGGGGGAACTGGAAAGCGATGACGTTAAA
GGCCGAGGTGTGGGTTGAGGCGGTCACAGAGGGTGGGCGGAGGTTCATGG
CCGCGTGGAGGGAAGAAGAGGAAGACGCGGCCAGACATCGCCAGGATAAG
AGAGAGGCAACGAGACTGGGAAAGTTGCTATCGCACACGGAAGCGTAGAA
TTTTTCGAAGCGACGCCCATTGGCCTAGCTGACGAGTCGTAGGAATCCTT
GTACGGACGCGAGACGGACCGAGACCTGCGTAGCGCCGACCCGCGCTCTA
TAGTGACTCTTGCCAAGGCAGCACCCGTTTGGAACTACCTTGAGGTTTGC
TCGCCGGCGGATTCTCGGTAATGAACGCCATCGGTACGCAATTGCGTGAC
CCGATTAACTCGGGACTGACCCGCGTATGGCGGTTTAAATAAATAAATGG
ACGCCGCCGCGGAACTTGGGAGGAATCCCGTAAGTAAGCTCCAGATTCAG
CCTCTGAGTATGGAGATGAGCAGGCTGACGCGGGACGGGTCTGCCGAACC
CGTCTCGCGAGACCAACTTCTCAGGTGCGAACGGGTACAGGTAAATGTTC
ATGGTTCCCTGTTCATCTGACTACGAGCAGAATTGGCAACCTTCCCCGGT
TGATCCTTACTCTTGCTACATGTGATGGCCACATACCGCACATACTACCA
TAGAATAGTATGTACAACAGTAAACACAAACGCTTAATTTCCAAAAATAT
TATTAGAATAGAGCCTAGAGCCTAGAACCTTACTCGTACAATATAATAGT
ATTGATGATCGATGTGTGTGTGTGTATTTATTAAATTGCACATAACCGCG
CAATCCGGCCCTGTAATCTACTTATTCTATGCTACTGGATGTAACCCACC
TGGGGGTTACTTATCGTGTGTGTGTGTTTTCTTCCATTCATTCTGGACTT
CAATGGACGTACCAGCCGGGGTCACACAGGAAGAAGGTAACACAGGATTT
TCCATCCACCTTCTTTCTGCGATGCTTGCCTTAGTTTTTCTCGTGAGAAG
GATTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGTAC
TAACGATTTAATCGTTCTCCACCCGTAGGGCATTTTTGTTTTCATTTTTT
AGTTTTTCAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCA
ACGTGTCAGAGGTTACATGGTACCTCTGAGCTACCGGGGCGACCGACACT
CCGAAAAACGCTCACGCTCGATTCCGAAAAAAACACACACAGTGTGTGTG
TATTTTTAAAGAAAAATCAGAGCACACCTAGACCTTCTGAGCATCCCCCG
GTTATGGGGGAAAAAATGTCAAAACGTTTACGTGGGATCAAAGGTTTCTT
CCCATTCATTCTGGACATCAAGTTCGTTGGACGTACCAGCCGGGGTCACA
CAGGAGGAAGGTCACACAGGACTTTTCCTCCACCTTCTTTCTGCGGTGCG
AGCCTTAATTTTTTCTCGCGAGAAGGATTCAGCCATTCCTTTCCCTCGTC
GACCGTGAAGTCGAATTTTGTGTACTAACGATTTAATCGTTCTCCACCCG
TTGGGCATTTTTTAGTTTTTTTTCTTTTCTTTTTTTCTTTTAGGGAGAAA
AATCCCGTTTGCCGGGATCGAACTCACGTCCCAACGTGTCAGAGGTTTAC
GAGGTACCTCTGAGCTACCGGGGCGACCGGCAGTGGACCAGCAGTAGTCG
GTTGTCTAGCTCTAGATACTCCGTACTGTAGCACTATTAATAATCCACAC
ATTATTAGCAGTATTATCATTAATAGCAGTATTATTATCAGTATTCGTCA
AGAGTCTTTGGACTACGAATTTCGCGATGGCCGCGTTTCGTGGGTTGACG
TGGGCTGACAGTCATTATAACTACAACACCAGATTCAGCCTGAGTATGGA
GAATGAGCAGGCTGGCGCGGGACGGGACGGGACGGGACGGGACGGCTAAA
CCCGTCTCGCGAGACCAAATTCTCAGGCGCGTACGGGGACAGGGGAATAT
TTATTTTTACCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCG
GTTAATCCATACTCTGCCCTATGTGATGACCATATATACATACATACTAT
AATACATACGGTATTAAGTATTAACAGTACGTACTGGTTGTAGCTCTAGA
GCTCTATACTACCACTACCGTAGCTACTACTGTACCTGTATCTTCAAAAC
CATGGGAGTACTGTAGCCGGTCGACCCCGGTAGCTCAGTAGGCACCTCGT
AACCTTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAAACGGGATTTT
TCTCACTAAAAACTAAAAAACCAAAATAAAAATGCCCAACGGGTGGAGAA
CGATTAATTCGTTAGTACACAAAATTCGACTTCACGGTCGACGAGGGAAA
GGAATGGCTGAATCCTTCTCGCGACAAAAAGCAAGGCACGCACCGCAGAA
GGAAGGTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGC
TGGTACGTCCAACGAACTTGATGTCCAGAATGGATGGGAAGAAAACACAC
ACACACACACTGTACTCACGTTCGGCTGGGAGACCTCCTCACCTCCTCGA
AGCTATAATAACCTGGGAAATACTGTCTGTACATATAGTCTATTGTGGGA
GAACAAGTTAATCGTGCTGCACGGTGAACTGTGATTAGCATGGCTGGAGG
ATTGACGTGTGCTCCCTCGTGATGACCCTCAGGCAGGCCGAGCTTGATGA
TCACGTACGCTTAGAGCCTAGGGATCGCGGGCCAGAATAATTTCCCCTTC
CGCATCCCTTTCTGATACTACATAATGCTCGTATGTATTATGTATTTATT
AATAACCAGTAAGCAACAGTTTCTCAACACGCCCTACAGAGGGCATCGGT
TGGCATAGACGTGAAGTCATGTCGGGGGTTGGAAACAATTTCTGTACACA
TTTCTCCCACTCCCAGCCCAACGGTCACGAGAGCTTTACTTGGTACGAGA
GCTATACTTGGAGCCGTGGCGCTTCTGCTACCTGGGCGAATCGAGAGAAA
TCGAGAGAAACAAACATGACGCGCGGGTTGAAGCCGCAGACTGGAAACAG
CGCTGACCCGCGCCTAATGATCTCATGACGAAAGAGTCTCCGGAGTCTAG
CCCAGTCTAGTCTAGTCTTACGACACGACTGCTACTGACGATGCTGATGA
TGTTGATGCTGACGGTGATACTTATGGTGGTATTATAATGATGCTGTGTT
GCTCCTTCTCGCGGATCGATCGCGTCTCACCACGCACCTTTCTTGCGCCC
TTCATTTTTTCTCTGTTACTTGCCCAATATTTTGCATGAACAATACTAAT
ACTAATATAGTACAAGCTCCACCTTGAGGAGGTGGTGCACACCATACCCA
CGGTCGGGTTCAACGTCGAACGTGTGGAGTACAGGAAGATGGAAATGATC
ATTTGGTGAGAGAAAATGTACTGCATGTGTGTTGTATATACATATACGTA
GTAATCATCGTGTTTCGAGAGAGCGAGCAAGCGTGTTGGCCTGAGAGATG
AGAGATTTAGTTGCCCTTGCGCTCTCGAGCATTCAAAATTTCTCGCCCCC
TCCGTTTTTTCTCGCTTGCCGCCCTTGCCGTGTGGGCCCTCGACTACGAT
ATACAAGTACTCTAGTTTGCCAAAAACAGGTTTCCCGTATTCCCGTTCAA
GCTCTAGACTATTAATACTAATAGTAGTATATTAGAGCTACTGTAGTAAT
AGTAGCTTTCACACGCCGGAAGGGTCTCAGCATTTTAGAAAACGATTGGT
CAAGTATAATATTAGTACAATATTGTACTGTGGTACAGTAATAATTCAAT
ATTATATAATACTGTGGATTACATACAGTAACTGAACCAGAAAACAATAC
ACAGCGCCACCGTTCATATCGTGTGTCTAAATATATAATATACTACGGAG
TATAGTCTAAATATATTTTTGTGCGTTTCCTTCTTTCGAGATGCTTCTTT
CGTTGGCGTTGTTCTCCGATGTTTCGTCCAAGTCGCTGCCCGCCCGCTCC
CCCCGCCCCTTCTCTCCGTCGGCCGCCCTCACTCGCTCTCTCGCTCTCGC
GTCGCCAGGGATATAGGAGGACAGACGAAGCTGCGGCCGCTGTGGCGCCA
CTACTTCGTGAACACGGACGCGCTCATCTACATGATCGATTCGTCGGATA
CGAGCCGCATCGAGGAGGCGCGAGACGAGCTTTTCAAGGTTCTGAAAGAT
GTCAACATGAGCGAATGTAGAAGCATCCTCATCTTGCTCAACAAGCAGGT
GACCAGGTGACCCGTACGTGGAGGCTGGAGGAGGCGATATATACGTTATA
TATATACTTTTATATGTGTTTATGCGTGTGTTCACCCCTAAACACGGTCA
CGCCGCCCGTATTAATATTATTAGTAAGATGCCAAGGTCGATGAGGTCGG
TCATCCACACATTCCATATTTCGTATTACAACAAGTAACTACCTGGGGGG
TCGGGATCGGCCGGGTTTGTTTTTATGATGTTTATGTTGTTTAAAGAAAG
ATCAGAGCACACCTAGACCTTCTGAGCATCCCCCGGTTATGGGGGGGAAA
ATGTCAAAACGTTTAGGTGGGATCAAAGGCTGCAAATAGTTGTTGTATTC
TTCACATTAACCGATCGGGCCTCAACCATACCCAGTAATATACGTGGTTG
CCAATCCGGTACGTGGTCACAAAGAGGTACCAAGGTCAACGGGTCACATC
ATGGTGACAACCCGCTACTCAGACCAACGGGGATCCAAATCGCGACAAAA
AATTATGCGACTCTTCAAGCGATGGCACCGACCAATAACAAACCTCATTT
ACTCTATATCGAGAGCAGCCTCGATCGACTCGGATTATTGTCGCCTACCC
ACGACCAGCGTTCTCAGCAATAAATCGGACAAATACGTTCCAACCATCGT
ACAAAAATAAGGAAAATGGAAATACCGAGGTCCATGGTGGTGGAGGTATT
GAGCTGAGGAAGCCGGCGCTCGAGCCAGCATCCAGCCGTCCAAAGCCCTG
TGCATTTTTGAAAAAGCCCCACGAATCTTGCCCGTTCGCCGCTCCATGTG
ACCCTCGTAGGAAGAAAAATATGTACGAGCTATTTAATAGTATTAGTTGT
ACAATAACAACAACACGCCCAACCCAGCCCTCGGGCTGACCGATCTTAGA
CGTTAATACCGAGGAGGTCGACGACTAGACTCATATATACGGCGACTGCC
TGCTGTTGAATTTATTATTAGTTTTGTAGGCAAAAAACAGCAACGAAAAC
AACTGAGGCCCAGTGATGGTTGAAATCTCCTTGTTGTTCCCAACATGAGG
CCCAGAACATGCCGATTGGGCGGGCAAATCGCAGCCCCTGCTCGCCGAAC
CTCGTTGACGGAAACCAACCTAGCCGCTTTGGATCACATCACATGTATGT
TGTATCAGTGAGCCAACATGTATACCGCGCCCCGGTGGATCAGTGCGCCA
AATCAGAATAAAGCTTGGTTGCGGATAACCATTGGAGCCTACCCTCATAT
GTTACCATATATTATTATATTAAATACTGAGCAGCAAGTAGTATTGTAGT
CGTTGTTGCTTGCAGCAGTAGTAGCTCTAGCGTCTAGCGGTCTAGCGGTA
GTCTAGGAACGCGCACGAATGAAACAAATAACAAGAATTAAACGCAGAAT
TTTTTTAACAAAGCAAGTACCTACTGTATAACTGGTACAGCACAGCAATC
GGCGTCACCTCTAAGTATGCATACATACTCATAACAGTACGCTACGTACG
ACATGATGTATGTATGCATGTATGACGACAGCCGAAGGTCTTGGCCAAAT
GTCATTGCTATGTACGCTGGTACTTATGGATGCAGGATGAGGCCCGATCG
GTTAATGTGAAGAAAACAACAACAACTTCCGACATGACATGCTTTAACCA
CTTCATACCAATATTAATAGAGGGTGTGGGAAAGAGAGGCGCATGTTAAT
TGGTCCATGGTGACAGCCGGTCGCCCCGGTAGCTCAGAGGTACCTCGTAA
CCCTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAAACGGGATTTTTC
TCACTAAAAGACTGAAAAACAAAAATAAAAATGCCCAACGGGTGGAGAAC
GATTAAATCGTTAGCACACAAAATTTGACTTAACGGTCGACGAGGGAAAG
GAATGGCTGAATCCTTCTCGCGAGAAAAATTAAGGCACGCACCGCAGAAA
GGTGGATGAAAAATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGT
GCGTCTAACGAACTTGATGTCCAGAATGAATGGGAAGGAAACACACACAC
ACACACACATGGTGACCTGCCAAGGCAGCACTCGTTTGGAACTACCTTTT
GGTTTACTGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTA
CGCAATCGCGTGACCCGATAAACTCAGGACTAACCCGATGGCGTATGGCG
GTTTATATAAATAAATGGACGCCGCCGCGGAATTCGGGAGGAATCCCGTA
AGTAAGCACCAGATTCAGCCTCTTGAGTATGGAGTAGAGCAGGCTGACGC
GGGACGGGACTGCCGAACCCGTCTCGCGAGACCAAATTCTAAGGCACGAA
CACGGACAGAGAAATATGTATTTTCCCTGTTCAGCTGACCACGAGCAGGA
TTGGCAACCATACCCGGTTGATCTCTATTCTTGCTATATATGTAATCATA
CATACATACAAAAAGCAATCTACCTTTTATACAGTAGTACCGCGAACAAC
GTAAACCTGGGTGACCCAAGCTTGCGAAGCCACGGAATAAAACCTAGGTG
GCCGAGGGCGTTTGAGATGTTCTCTGCTACAGTAGACTGTGGGTCAAGTT
ACCCCAAACCGTTTTTTTTATTTTATTTTATTTTTTTTGACTTACTTCGT
TGGTCGTGAATAAAGCCTATAAAGCCTATTAATAATTTTAGAAATTGGAC
AGCTCAGTCTTCTCCTTCCAATATTTTCGTTTCTAGGACGGCTCCCTCCC
TCTCTGTCTGGAAATGTTGATTCAGCAGCGGCGAACTCGTAAAATTGCAC
ATTAATTAGTCTGGAAATGCTTAAGAGAATAGCACTCAGCATGAACAGTA
CTGTATAACGATGGGTCTCTCCCCGAACCGCATTAGATACTCTCTATACC
GCACGTGCATGCCCAATACTCTACCGACAATAGTATTATTAGTATAATTA
ATAGTGGGTGTCGGAAAAAAGGGGCGCTCATTAATTTGATTGGTCCATCA
TCATGGTGAAACCCGAGAAGCCAGTATCCATGATAAATGGACCTACCTTG
ATTCGTGGACTAATGGCCCTGTGCCGGCGGACTCTCGGCAGTGAATGCCG
TCGGTACGCAATTGCGTGACCTGATAAACTCGGGACTGACCCGATGGCGG
ATGACGGTAAAAATAAACGAACGCCGCCGCAGGAAGTCGGGAGGAATCCC
GTGAGTAAGCACCCGATTCAGCCTGACTGAGTGATCAGCTGAACACAGAA
AATGGATATTCCCCTGTCCCCGTTCGCGCCTGAGAATTTGGTCTCACGAG
ACGGGTTCAGCCGTCCCGTCCCGTGTCAGCCTGCTCATTCTCCGTACTCA
GGCTGAAACTGGTGCTTACTCACGGGATTCCTACCGATTTCCGCGGCGGC
GTCCATTTATTTATTCATACGCCATCGAGTCAGTCCCGAGTTTATCGGGT
CACGCAATTGCGTACATATGGCATTCACTGCCGAGAGACCGCCGGCACAG
GGCTATTAGTCCTCAAGATAGTTCCAGTAACAAAGGGTGCTGGCTTTTTG
CAGGTCGCCATGGACCTATTGACGTACGCCATTATATACTAATATTGATA
TGAAGTGGTTATAGCATGTTGATAGAAGGCGGCATATATACATCGTTGTT
TAAAGAAAAATCAGAACGCACCTAGACCTTTTGAGCATCCTCCAGTCAGG
GGGAAAAAATGTTGTTGTTTCTCACATTCAGCGCATTGGTTGCGAACCCG
AAAAAACTACTTTACACGGTGGCCAATCCGGCTCGTGGTCTGCTGAAGAG
GGGAAAAAAAAAGAAAAAAAAAGTCTGGCAGCGCTCCCTCCCCCCCCTCG
CGCGCTGCTCGTTTGGAGAAAAAAATAAAAAATAAATTATGCGACGCATC
CACATGTCTAGGCGCTATGAAGGTCGGCGTTACTTAGGTGGTCTCAGTCC
GTCTCGCCTCGTACATAATGTTGAATATGTACTACTACTACATTAGGGAA
TATATACCGGATTAAATACCATGAAAAGTTTTTGTCCTTGTCGCCAATGT
TCCAACTCTACTCAACTCAACTAAACGTTTGACAATTTCCCCCCTTGACC
GGATGGATGCTCTATTATATTGATATTAATTGAAGCTTTATTAGATGTGT
TCAATTTTTCCTTTAAACACCCAAACCCGGTCCTCCAACATTTCTTAAAC
AGAAAAAGCCGAATGCGGAAAGCGGAAGGACTCGTCTTCTGGTAGCATAG
AATAGGCTGTTAAGACCACAAAAAAAACGGAGGGAATTGATCGAAAAAAG
AAAAGAAAAGCGCCGGCTGAGCTCTGGCGGGGAGGGGAGGGGAGGGGGAA
AGTGTTGATATACCCAGTAAGACCTTGATGTGTACATATTATTTGCTATT
TACAGAACTATTACATTAAGGCCATCGTAGAGGACATGAGCCACCCGGGG
TAAAACTCTTTATTTCTACAGTAGGACTTGCCTCGGACGGTACGTGGTGG
TGTGTGTTGTATGTTGTGTGTTGTGTGTATTACACTATTATTACACTCAA
AAAGAAAGCCGGTCGGTAGCTCAGTCGGCATAACCTTCTGACACGTTGGG
ACGTGAGTTCGATCCCGGCAAACGGGATTTTTCTCACTAAAAACTAAAAA
ACCAAAATAAAAATGCCCAACGGGTGGAGAACGATTAATTCGTTaGTACA
CAAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCT
CGCGACAAAAATCAAGGCACGCACCGCAGAAGGAAGGTGGATTAAAAATc
aTGTGTGACCTTCCTTCTGTGTGACCCCGGCTGGTACGTCCAACGAACTT
GATGTCCAGAATGGATGGGAAGAAAACACACACACAAAAGAAAAAAGAAA
AGTCGCATAACCTGCGACAACTTGAAGCCGCTGACTGCCGCATGCCTCAA
CCCAAGACCTTCTTGCTTCCTTCCCTTTACACAGGACTTGCCCGGCGCGA
TCAATCCGTCCGTGATGATCGATAAGTTTGGTTGGAAGGACGGCGAAGCG
AACCCCCTCAAGCAACGTCGATGGTATATCCAGGTACTACATACTGTAGT
CTATATAATTAATACTTTGGTGTGTGTAAATCATACCTGGTACGTCTTGT
TGCTGACTGCCTCACACACTAGACAAGCGTATTATACTTGTGTGAAACTc
ttatcATAAGAAGAAGAAGAAGAAAAAAAAAATATATATATATATAGTCT
CCCTCGTCGCCCGAGTGGTCTAGTAGGTAACCTGCACACCTGCTAGTGCG
GAAGTCGTGAGTTCGATTCTTACCAAAGTACCTGGTAGGATTTGTGTTCT
TTCTTTCGTAACGGAAAGCGTGGGAACGTGAGTAAGTAAAATTCAACCAT
TGGTTGATGAGTTGTAAGAGTGCTGAACTTGCATCGCGATAAAAAATCGT
AAGGCGTGAACCGGGGAGAGATGGGAAGATCCTTTGTGACCACAGGCAGG
ATGGTAATGATGAGGTCCATCGGCTTTAAGTGAGATAAAAATGTATGGTC
ATGACATGGTCTATTCAACTATAGTATTAAGAAAGCCGGTCGACCCCGGT
AGGTCTAAAAATACAACTATACACAAAATTCGACTTCACGGTCGAAGGGA
AAGGAATGGCTGAATCCTTCTCGGACAAAAATCAACCGGGCAGAAGGAAG
GTGGATTAAAAATCCTGTGTGACCTTCTCCAATCCGTCCAACGAACTTGA
TGTCGTGGTCAGCTGAACAGGGAAAGGGTCAATTCTTGCCCCTGTCGTGG
TCCCGTTCTGTCCCCGTTGAGAATTTGGTCTCGCGAGACGGGTTCGGCAG
TCCAGTTCCGCGTCAGCTTGCTCATTTCCATACTCAGGCTGAATCTGGTG
CTTACTTACGGTATTCCTCCCGAGTTCCGCGACGGCGTCCATTTACTTAT
TTTAACCGCGATACGCCACCGGGTCAGTCCCGAGTTTATCGGGTCACGCG
ACTTCGTACCGATGGCGTTCACTGCCGAGAATCCGCCAGCACAGGGCCAG
TAAACCTCAGGGTAGTTCCAAACGGGTACTGCCTTGGCAGGTCACCATGG
ACCAATTAATATGCGCCTCTCTTCATACGTATATATATATAGTGGCGTCA
GGGCGAGTGCCTATGAATATTCTTGGATGTTGTATAAAGTATTGGTGTGT
TCTCCGATTCGGTGAGTAAGGTCTCGTGCATGGGGATGGGGCATGCAAGA
TCGTCCGCTTGTTGTATTATAGCTACAGTATACCAGTAAGCTGTACAGTT
TCCTAATATAGTGCTGGATTGAAGTCCACGAGTGGGAAGATGTTTCAAAC
AGAAAATAATATTTCTACAATATTTTTCACAGACAATCTCTAGAGCTACA
TCTATTATCAATGATTACGTACTTTTAACATGCCCACTTCATACCAATGT
GAAGAAAACAACAACAACAACCAATAGTGGGTGTGGGAAGGAAACGTTTT
GACATTTTTCCCCCCATTACCGGGGGATGCTCAGAAGGTCTAGATGTGCT
CTGATTTTTCTTTAAAAAGAGAGGCGCTTATTAATTGGTCCATGGTGACC
TGCCAAGGCAGCACCCGTTTGGAACTACCTTGAGGTTTACTGACCCTGTG
CTGGCGGACTCTCGGCAGTGAACGCCATCAGTAGGCAATTGCGTGACCCG
ATAAACTCGAGACTGACCCGATGGTGTATGGCGGTTTGTATAAATAAATG
GACGCCGCCGCGGAACTCGGGAGGAATCCCGTAAGTAAGCACCAGATCCA
GCCTGAGTATAGAGATGAACAGGCTGACGCGGGACGAGACTACCGAACCC
GTTTCGCGAGATCAAATTCTCAGGCGCGAACGCGGACGCGGAAATATTCA
GTTTCCCTGTTCAGCTGACCACGAGCAGAATTGACAACCTTACCCGGTTG
ATCCATACTCTTGCCATATATGGGGACCGGTCGCCCCGGTAGCTCAGAGG
TACCTCGTAACCCTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAAAC
GGGATTTTTCTCACTAAAAAACTAAAAAACAAAAATAAGAATGCCCAACG
GTGGAGAACGATTAAATCGTTAGTACACAAAATTCGACGTCACGGTCGAC
GAGGGAAAGGAATGGCTGAATCCTTCCCGCGAGAAAAATAAAGGCACGCA
CCGCAGAAAGGTGGATGAGAAATCCTGTGTGACCCCGGCTGGTACGTCCA
ACGAACTTGATGTCCAGAATGAATGGGAAGAAAACATACACGTGAAGACA
ACAACAACACACACACATACCACTACGTACAGTTTTTGGTAATGCCATCA
TTCATTTCGTATTGGAATACTCCAACAAAGTAGTCTAGTAGGTAATCTGC
ACACCTGCTATTAATAGTGCGGAAGTCGTGAGTTCGATTCTTACCAGAGT
AGGATTTGTGTTCTCTCTTTCGTAACGGAAAGCGTGGGAACGTGAGTAAG
TAAAATTCAACCATTGGTTGACGAGTTGTAAGAGTGCTGAACTTGCATCG
CGATaAAAAAAAAATGTAAGGCGTGAACCGGGGAGAGATGGGAAGATCCT
TTGTGACCACAGGCAGGATGGTAATGATGAGGTCCATCGGCTATAAGTGA
GATTAAAAAGAGAAAGAAAAAAAGCGCGCGGAAAACTGTCTGGATGGAAA
CCGAACTGTCCACTGCCACCCGAACCACAAATTTCCCTGTTGTTTATCGT
TAATATGTTACTGTTGTCCTGTTGAACCACAGTTTCATTGTTACTACTTG
TTGTGTTACATACTCCTGCACAATAATAACTAGTAGTAATACTGTAACAA
GCCACTGCTGCTGCACTTGTGGTATCGTGTCGTACCTCACCAACACGCCA
AAACATTCTTAAACACCAACCACGTGTGGCAGGGCTGCTGCGCTGTGACG
GGGGAGGGTGTGTTCGAAGGGCTCGACTGGTTGTGCGAGTCTCTGAGGAA
GAAGAAAAGGTCCTTTACTAAATGGGTCTAAAAAGAGTTAGATAATGTGA
TGGGCGTGTATACCACGAGGGGACTGCCCGCGCCGGCGGTTGGTTGGCCG
TCTCCTTTGTCAGGAGAAGTCTAGAGCTGCCACGGGGATTCTGAGATAAT
AAGATCTCACCCGGGCATTGAATATTGGTCGGAACGCTGACCATTCTCGA
GTGTGCGCAATTGCACGCGAGCAACAACATCGTCATCAATCATGTGAAAC
ATATGATATATGATTATTGCACGTCACTCGGAATTGAAACATAAACCATG
TTATGTTACAGTTACAAAGGGCAGTACAGTACCAGTAAAAAAAAAGTGAA
ACGAAATCTTGTTGGGAAAATCTTGGGTAAGATCAAGATTTTTGTACAAG
ATTTTGTTCCCATAAGAACCGCCCTAAGTACTAGTAAGTACGGGACTGTA
TTGTTGTTGGTGTCGACAAGACACAGATCGAGTTGTTACGACATTGTTAA
CTTAGTCGGTATTTGTACAGTCAGTGGATGTACTGTATGTTATGTGATGT
TTGTGTTTGTCGGGATGACGTCGAAGCAGACTGCCACAGCAGGAGGAGGA
TAAGACAAGAGAAGATTGATGAATGAGACTTTGTGGTATCGGGTGTGAGA
AATCAGTGTGATGGCTCAGTAGTTTCACTGTCAGCAGCTCAAAGGTGGCA
AGGCAGCCTGCATCATGTGTTTGGCATTGTGCGAGCTACTCTTCTTACAT
CGCCGCCAGAGGGCGCAGTGACTGCGAGTACAGTAGTCTTCTAAAAGGTT
TGATTCCCAAAGTTATGAGCGTAGTGTGCTGGCGATATAGCCTGCACTTT
CTTGGGTAGTTAGTCCGTCGGATTGATTTTTTGTCACTTGTATTAGCATC
GTATCAGCCGGGCGCGTCGGCGTTGTCCGCCTCTGGAAGAAGTAGATTGT
TACCTGTTGTATTAGATTACGGTTTCGAAAGAATGGCGGCTCTTTGGTAG
GGTTGCAAGGATTTTGAAACGAACGCAGGTGGTTGTTACACCAGAACAAA
GGCGCACAAATTGTAATTGAGGAATTCTGACGCAGTTCCGTCGCGACGAT
AATAACCTAGTTTCTGTCCTGTACGTAGTACTTTCTGTATGTAGTATTGT
AATGCCCTCGGGCCCTTTTCGTGTCTCTTTATGTTTTCCCGGTTAGACTG
CCTTGTAGAGCTTAACGACAAAAGCGAGTGTATGTATGTATGTAAGGGTG
GAGAGCTATCAGTAGGGATGTTGGAATAACCTACGGCAATAATACGTATC
CTACTGTACTGTCTGTGCATGGTGAGGGAAAAAGCGTCTGACGATACCGT
ACTACATGTAGGGCTACCTGTCGTAGTTTTTCTGAACTCGTTTCCGACTT
TTCGGAGAGAGCAGTAGTTGTTGACTTGAAGTTCAAGTCAACTACCGGAC
CAGATGCTACAATAGATGGTGTTCTGACAACGCTTTTTCTTTAAATGTAA
TACGGAGT

Coding sequence (CDS) from alignment at A-nodosum_M_contig1053:198893..217300+

>mRNA_A-nodosum_M_contig1053.30.2 ID=mRNA_A-nodosum_M_contig1053.30.2|Name=mRNA_A-nodosum_M_contig1053.30.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=585bp|location=Sequence derived from alignment at A-nodosum_M_contig1053:198893..217300+ (Ascophyllum nodosum dioecious)
ATGGGCCAGTTCGTGTCGCGTCTCGTGAACATCATCACCGGCTTTCAGGA
GAAGCGCCTCTTGTTGCTCGGACTGGATGGTGCAGGCAAGACTTCGCTCT
TGTACAAGCTCCACCTTGAGGAGGTGGTGCACACCATACCCACGGTCGGG
TTCAACGTCGAACGTGTGGAGTACAGGAAGATGGAAATGATCATTTGGGA
TATAGGAGGACAGACGAAGCTGCGGCCGCTGTGGCGCCACTACTTCGTGA
ACACGGACGCGCTCATCTACATGATCGATTCGTCGGATACGAGCCGCATC
GAGGAGGCGCGAGACGAGCTTTTCAAGGTTCTGAAAGATGTCAACATGAG
CGAATGTAGAAGCATCCTCATCTTGCTCAACAAGCAGGACTTGCCCGGCG
CGATCAATCCGTCCGTGATGATCGATAAGTTTGGTTGGAAGGACGGCGAA
GCGAACCCCCTCAAGCAACGTCGATGGTATATCCAGGGCTGCTGCGCTGT
GACGGGGGAGGGTGTGTTCGAAGGGCTCGACTGGTTGTGCGAGTCTCTGA
GGAAGAAGAAAAGGTCCTTTACTAAATGGGTCTAA