mRNA_A-nodosum_M_contig11.71.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview


Name	mRNA_A-nodosum_M_contig11.71.1
Unique Name	mRNA_A-nodosum_M_contig11.71.1
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_contig11.71.1 vs. uniprot
Match: D7G4V1_ECTSI (Peptidylprolyl isomerase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4V1_ECTSI)

HSP 1 Score: 347 bits (889), Expect = 4.530e-116
Identity = 182/260 (70.00%), Postives = 203/260 (78.08%), Query Frame = 1

Query:  217 TRRGEFLFGATGSVAVAATVAAAMGSSFGAPASAYVKGNMPPPNYNKRRG---GQTALEREPSEKVAVDEPTAIGTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQDPKCATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMVGARDAVGKLF 987
            T RG+FL GA  + A    V+AA       PASA VKGN PPP YNK+RG   G    E  P+     ++     TFSVT SG+R+KDLKIG GPEVKP +VVD+RYRVEKLGKRSYDGISGETQSVFS GYGEDDDKEGDVLTVPLG GRL+SAVDEGV+GM VGGVRRVAVRPERGWKKQDPKCATEIDMG +SGVPG+AL         +VEDCIDL LEPRPVGYGATRRMARRFDETLIVE+EMVGA++  G++F
Sbjct:   59 TNRGDFLSGAAVTAAAVLGVSAAGTVGAPPPASALVKGNAPPPGYNKKRGSGYGNGEPEATPTADAGPEDSDPSRTFSVTSSGIRFKDLKIGVGPEVKPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGSGRLISAVDEGVVGMRVGGVRRVAVRPERGWKKQDPKCATEIDMGVMSGVPGAAL--------AKVEDCIDLTLEPRPVGYGATRRMARRFDETLIVEVEMVGAKEGNGRIF 310

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A835YV71_9STRA (Peptidylprolyl isomerase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YV71_9STRA)

HSP 1 Score: 241 bits (615), Expect = 2.650e-75
Identity = 135/242 (55.79%), Postives = 161/242 (66.53%), Query Frame = 1

Query:  307 PASAYVKGNMPPPNYNKRRGGQTALEREPS----------EKVAVD-------EPTAIGT---FSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERG--WKKQDPKCATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMVGAR 966
            PASA VKGN PP    + R    A ERE S          EK  V+       E TA+G+   F VT++GVRYKD+ +G G +V   S VD+RYRV KLGKRSY+G+SGE   VFS GYGEDDDKEG V+TVP+G G+L++AVDE ++GM +GG RRV VRP+RG  WKK DP CA  ID+G  SG+PG+ +         +VEDCID  LEPRPV YGA RRMARRFDE LIVEIE V  R
Sbjct:   28 PASALVKGNAPPTAEERARKRAEAAEREKSRSISEAKDAGEKREVEMRSKYETEETALGSDTAFKVTQNGVRYKDIALGAGAQVNKGSTVDLRYRVMKLGKRSYNGLSGEATMVFSLGYGEDDDKEGSVVTVPVGKGKLITAVDEAIVGMKLGGKRRVLVRPDRGQGWKKDDPNCAALIDVGIASGIPGATI--------AKVEDCIDETLEPRPVSYGAKRRMARRFDEALIVEIEPVAVR 261

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: L1JF69_GUITC (PPIase FKBP-type domain-containing protein n=3 Tax=Guillardia theta TaxID=55529 RepID=L1JF69_GUITC)

HSP 1 Score: 189 bits (480), Expect = 1.930e-55
Identity = 101/223 (45.29%), Postives = 140/223 (62.78%), Query Frame = 1

Query:  310 ASAYVKGNMPPPNYNKRRGGQTALE---REPSEKVAVDEPTAI----GTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQDPKCATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMV 957
            A A VKG  PPP++ K++   T      +E  E  A  E T      G FSVTK G RY+D++IGTG EVKP S V+++YRV +LGKRS DG+SGE   VFS GYGEDDDKE D L   +G   L++A+   + GM  GG+RR++V+PERGWK +D  C   +D+G+  G+PG A+         + E C+D    P P  + A R+++RRFDE L++E+E++
Sbjct:   10 AQALVKGIAPPPDFGKKKDLPTKKITNIQEAQEYGAQREATLFDKQDGNFSVTKEGDRYRDVRIGTGAEVKPGSEVEIKYRVLRLGKRSRDGLSGEASLVFSYGYGEDDDKETDTLKFVVGEANLINALSSSLPGMKQGGLRRISVKPERGWKLEDASCVKSVDIGSAVGLPGGAVT--------EAETCLDYFRVPSPATFQAKRKLSRRFDENLLMEVEVI 224

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A7S2XW09_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XW09_9STRA)

HSP 1 Score: 188 bits (478), Expect = 3.520e-55
Identity = 105/224 (46.88%), Postives = 136/224 (60.71%), Query Frame = 1

Query:  307 PASAYVKGNMPPPNYNK------RRGGQTALEREPSEKVAVDEPTAIGTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQDPK-CATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMV 957
            P +A VKG+ PP  Y K      + G       EPS         A G  S T SGVR+KD+ +G+G EV   S V +RYR+ + GKRSYDGISGE   +F  GYGEDDDK GD L V +G G++V A+++G+IG   GGVRRV VRP+ GW+K D + CA ++D+GA   VPG+             E C+DL L P P  + A R++ARRFDE+LI EIE+V
Sbjct:    8 PTNALVKGSAPPEGYGKIKSQAPKEGASLDKSAEPSTIAEGSMEAAEGELSFTPSGVRFKDMVLGSGQEVGSDSKVSLRYRILRSGKRSYDGISGEGSLIFGLGYGEDDDKVGDTLKVGMGSGKMVKALEDGLIGAKAGGVRRVLVRPDMGWQKSDLEACAPKLDLGATGTVPGAIT---------YTEGCMDLDLLPSPRTFQAKRKLARRFDESLIAEIEVV 222

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A7S2XYV7_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XYV7_9STRA)

HSP 1 Score: 188 bits (478), Expect = 2.720e-54
Identity = 105/224 (46.88%), Postives = 136/224 (60.71%), Query Frame = 1

Query:  307 PASAYVKGNMPPPNYNK------RRGGQTALEREPSEKVAVDEPTAIGTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQDPK-CATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMV 957
            P +A VKG+ PP  Y K      + G       EPS         A G  S T SGVR+KD+ +G+G EV   S V +RYR+ + GKRSYDGISGE   +F  GYGEDDDK GD L V +G G++V A+++G+IG   GGVRRV VRP+ GW+K D + CA ++D+GA   VPG+             E C+DL L P P  + A R++ARRFDE+LI EIE+V
Sbjct:   77 PTNALVKGSAPPEGYGKIKSQAPKEGASLDKSAEPSTIAEGSMEAAEGELSFTPSGVRFKDMVLGSGQEVGSDSKVSLRYRILRSGKRSYDGISGEGSLIFGLGYGEDDDKVGDTLKVGMGSGKMVKALEDGLIGAKAGGVRRVLVRPDMGWQKSDLEACAPKLDLGATGTVPGAIT---------YTEGCMDLDLLPSPRTFQAKRKLARRFDESLIAEIEVV 291

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A6U4XZ85_HEMAN (Hypothetical protein n=1 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A6U4XZ85_HEMAN)

HSP 1 Score: 178 bits (451), Expect = 4.580e-50
Identity = 99/231 (42.86%), Postives = 139/231 (60.17%), Query Frame = 1

Query:  310 ASAYVKGNMPPPNYNKRR----------GGQTALEREPSEKVAVDEPTAIGTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQDP-KCATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMVGARD 969
            A A VKG  PP  Y KR+            Q ALE    ++  + E  A   F  T SG RY+D+K+GTG EV     VD++YRV +LGKRS DG+ GE   + S GYGEDDDKE D  T+ +G   LV A++E ++G+  GGVRRV+VRPERGW+  D  +C   ID+G + G+PG+++         + ++C+D    P P  + A R++ RRFDET++VE+E+V  R+
Sbjct:   86 AEALVKGVAPPEGYGKRKEKAEGEKKITNKQDALEAGAKKEAEMFENQATD-FEKTPSGDRYRDMKVGTGAEVVTGKEVDIKYRVLRLGKRSRDGLGGEASLIMSYGYGEDDDKETDFKTITVGQTPLVLALEESILGIKEGGVRRVSVRPERGWRLPDSSQCGAAIDVGTVLGLPGASVT--------EADNCLDTNRVPSPTTFQAKRKLGRRFDETVLVEVEVVAVRE 307

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A6H5JW52_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JW52_9PHAE)

HSP 1 Score: 171 bits (434), Expect = 1.530e-48
Identity = 89/125 (71.20%), Postives = 97/125 (77.60%), Query Frame = 1

Query:  316 AYVKGNMPPPNYNKRRG---GQTALEREPSEKVAVDEPTAIGTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDE 681
            A VKGN PPP YNK+RG   G    E  P+     ++     TFSVT SG+R+KDLKIG G EVKP +VVD+RYRVEKLGKRSYDGISGETQSVFS GYGEDDDKEGDVLTVPLG GRLVSAVDE
Sbjct:   92 ALVKGNAPPPGYNKKRGSGYGNGEPEATPTADAGPEDSDPSRTFSVTSSGIRFKDLKIGDGAEVKPANVVDMRYRVEKLGKRSYDGISGETQSVFSLGYGEDDDKEGDVLTVPLGSGRLVSAVDE 216

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A7S1E5E0_HEMAN (Hypothetical protein n=1 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A7S1E5E0_HEMAN)

HSP 1 Score: 169 bits (429), Expect = 6.730e-48
Identity = 93/221 (42.08%), Postives = 133/221 (60.18%), Query Frame = 1

Query:  340 PPNYNKRR----------GGQTALEREPSEKVAVDEPTAIGTFSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQDP-KCATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMVGARD 969
            P  Y KR+            Q ALE    ++  + E  A   F  T SG RY+D+K+GTG EV     VD++YRV +LGKRS DG+ GE   + S GYGEDDDKE D  T+ +G   LV A++E ++G+  GGVRRV+VRPERGW+  D  +C   ID+G + G+PG+++         + ++C+D    P P  + A R++ RRFDET++VE+E+V  R+
Sbjct:    6 PEGYGKRKEKAEGEKKITNKQDALEAGAKKEAEMFENQATD-FEKTPSGDRYRDMKVGTGAEVVTGKEVDIKYRVLRLGKRSRDGLGGEASLIMSYGYGEDDDKETDFKTITVGQTPLVLALEESILGIKEGGVRRVSVRPERGWRLPDSSQCGAAIDVGTVLGLPGASVT--------EADNCLDTNRVPSPTTFQAKRKLGRRFDETVLVEVEVVAVRE 217

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A7S3T9K2_9SPIT (Peptidylprolyl isomerase (Fragment) n=1 Tax=Strombidinopsis acuminata TaxID=141414 RepID=A0A7S3T9K2_9SPIT)

HSP 1 Score: 165 bits (418), Expect = 3.520e-46
Identity = 110/233 (47.21%), Postives = 139/233 (59.66%), Query Frame = 1

Query:  259 AVAATVAAAMGSSFGAPASAYVKGNMPPPNYNKRRGGQTALE-------REPSEKVAVDEPTAIGT-----FSVTKSGVRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERG--WKKQDPKCATEID-MGALSGVP-GSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRR 909
            A+AA +AAA+    G  A A VKGN PP NY   +    A +       +E       +E  A GT     +  T SG RYKD+ +G+G  VK  SVV VRYRV + GKRS DG+SGE  ++FS GYGEDD  +   LTVPLG GR V AV+EG+IGM+VGGVRRV VRPE G  WKK+  KCATE+  +G ++G+P G A          Q EDC+D A  P+P  + + RR
Sbjct:    6 ALAALLAAAVLGGGGV-ARALVKGNAPPKNYGVGKNFTEAADCKSVGDCQELGRTRETEEFGAAGTAKDVAYQKTASGARYKDMTVGSGDVVKKDSVVQVRYRVMRSGKRSSDGLSGEASTIFSLGYGEDDGPKDATLTVPLGQGRFVKAVEEGLIGMSVGGVRRVQVRPENGLGWKKEG-KCATEVQSVGLIAGLPVGGA---------EQQEDCLDSARLPQPQDFASKRR 227

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BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Match: A0A812IG78_9DINO (Peptidylprolyl isomerase n=4 Tax=Symbiodinium TaxID=2949 RepID=A0A812IG78_9DINO)

HSP 1 Score: 168 bits (425), Expect = 3.850e-46
Identity = 108/243 (44.44%), Postives = 146/243 (60.08%), Query Frame = 1

Query:  286 MGSSFGA---PASAYVKGNMPPPNYNKRRGGQTALE----REPSEKVAVDEPTAIGT-----FSVTKSGVRYKDLKIGTGPE--VKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYGEDDDKEGDV-LTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERG--WKKQDPKCATEID-MGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATRRMARRFDETLIVEIEMVG 960
            MG+++GA    A A VKG+ PP  Y   +G + A +     E  E  A  E    GT     F VT SG R+KD+K+G   +   K    + +RYRV + GKRSYDG+SGE  ++FS GYGE DD++ D  L  PLG GR V A+DEG++GM+VGG+RRV VRP+ G  WKK   KCA  I  +GA++G+P +           +   C+D +L P+P  + A RR  RRFDE+LIVE+E+VG
Sbjct:   81 MGAAWGAGLASAQALVKGSTPPKGYGLGKGIKEAADCKSLAECEELGAKREEEKYGTKMEKTFKVTASGARWKDMKVGNEADGVAKVGDDLKLRYRVMRAGKRSYDGVSGEATTLFSLGYGEGDDEKKDATLNAPLGTGRFVKAIDEGLVGMSVGGIRRVQVRPDYGLGWKKPG-KCAEAIGAVGAIAGLPAAGAE--------KESACLDTSLLPQPEDWNAKRRFERRFDESLIVEMELVG 314

The following BLAST results are available for this feature:

BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot

BLAST of mRNA_A-nodosum_M_contig11.71.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G4V1_ECTSI	4.530e-116	70.00	Peptidylprolyl isomerase n=1 Tax=Ectocarpus silicu...	[more]
A0A835YV71_9STRA	2.650e-75	55.79	Peptidylprolyl isomerase n=1 Tax=Tribonema minus T...	[more]
L1JF69_GUITC	1.930e-55	45.29	PPIase FKBP-type domain-containing protein n=3 Tax...	[more]
A0A7S2XW09_9STRA	3.520e-55	46.88	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S2XYV7_9STRA	2.720e-54	46.88	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A6U4XZ85_HEMAN	4.580e-50	42.86	Hypothetical protein n=1 Tax=Hemiselmis andersenii...	[more]
A0A6H5JW52_9PHAE	1.530e-48	71.20	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A7S1E5E0_HEMAN	6.730e-48	42.08	Hypothetical protein n=1 Tax=Hemiselmis andersenii...	[more]
A0A7S3T9K2_9SPIT	3.520e-46	47.21	Peptidylprolyl isomerase (Fragment) n=1 Tax=Stromb...	[more]
A0A812IG78_9DINO	3.850e-46	44.44	Peptidylprolyl isomerase n=4 Tax=Symbiodinium TaxI...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
A-nodosum_M_contig11	contig	A-nodosum_M_contig11:951930..968837 +

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.D7G4V1
PFAMs	FKBP_C
Model size	990
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	7
Evalue	6.91e-117
EggNOG OGs	COG0545@1\|root,KOG0552@2759\|Eukaryota
Ec32 ortholog description	Secreted FKBP domain protein
Ec32 ortholog	Ec-20_000240.1
Description	histone peptidyl-prolyl isomerization
Cds size	984
COG category	O

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_A-nodosum_M_contig11.71.1	prot_A-nodosum_M_contig11.71.1	Ascophyllum nodosum dioecious	polypeptide	A-nodosum_M_contig11 951936..968837 +

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


Feature Name	Unique Name	Species	Type	Position
1680866489.2708743-UTR-A-nodosum_M_contig11:951929..951935	1680866489.2708743-UTR-A-nodosum_M_contig11:951929..951935	Ascophyllum nodosum dioecious	UTR	A-nodosum_M_contig11 951930..951935 +

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


Feature Name	Unique Name	Species	Type	Position
1680866489.2802088-CDS-A-nodosum_M_contig11:951935..952113	1680866489.2802088-CDS-A-nodosum_M_contig11:951935..952113	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 951936..952113 +
1680866489.2886474-CDS-A-nodosum_M_contig11:965904..966108	1680866489.2886474-CDS-A-nodosum_M_contig11:965904..966108	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 965905..966108 +
1680866489.3002384-CDS-A-nodosum_M_contig11:966408..966515	1680866489.3002384-CDS-A-nodosum_M_contig11:966408..966515	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 966409..966515 +
1680866489.3093972-CDS-A-nodosum_M_contig11:966771..966852	1680866489.3093972-CDS-A-nodosum_M_contig11:966771..966852	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 966772..966852 +
1680866489.321229-CDS-A-nodosum_M_contig11:967668..967773	1680866489.321229-CDS-A-nodosum_M_contig11:967668..967773	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 967669..967773 +
1680866489.3305974-CDS-A-nodosum_M_contig11:968075..968209	1680866489.3305974-CDS-A-nodosum_M_contig11:968075..968209	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 968076..968209 +
1680866489.3419433-CDS-A-nodosum_M_contig11:968662..968837	1680866489.3419433-CDS-A-nodosum_M_contig11:968662..968837	Ascophyllum nodosum dioecious	CDS	A-nodosum_M_contig11 968663..968837 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at A-nodosum_M_contig11:951930..968837+
coding sequence from alignment at A-nodosum_M_contig11:951930..968837+

protein sequence of mRNA_A-nodosum_M_contig11.71.1

>prot_A-nodosum_M_contig11.71.1 ID=prot_A-nodosum_M_contig11.71.1|Name=mRNA_A-nodosum_M_contig11.71.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=328bp
MIVSGAKRTIAIATVLMLVQRLCPMNSVSSGTAFLSLPSVAAFSTHPVTH
QSRLSRCRQVSMTLQDEIKPTRRGEFLFGATGSVAVAATVAAAMGSSFGA
PASAYVKGNMPPPNYNKRRGGQTALEREPSEKVAVDEPTAIGTFSVTKSG
VRYKDLKIGTGPEVKPTSVVDVRYRVEKLGKRSYDGISGETQSVFSRGYG
EDDDKEGDVLTVPLGLGRLVSAVDEGVIGMNVGGVRRVAVRPERGWKKQD
PKCATEIDMGALSGVPGSALPCSLCLPPGQVEDCIDLALEPRPVGYGATR
RMARRFDETLIVEIEMVGARDAVGKLF*

mRNA from alignment at A-nodosum_M_contig11:951930..968837+

Legend: UTRpolypeptideCDS

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

>mRNA_A-nodosum_M_contig11.71.1 ID=mRNA_A-nodosum_M_contig11.71.1|Name=mRNA_A-nodosum_M_contig11.71.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=16908bp|location=Sequence derived from alignment at A-nodosum_M_contig11:951930..968837+ (Ascophyllum nodosum dioecious)
GTCGCGATGATTGTTTCTGGGGCGAAACGTACGATAGCAATAGCCACAGT
TCTGATGCTCGTGCAACGACTCTGTCCGATGAATTCGGTTTCGTCGGGCA
CCGCCTTCCTCTCCCTCCCAAGCGTCGCCGCATTTTCTACACACCCAGTG
ACGCACCAATCCCGCTTGTCGAGATGCCGCCAAGGTGAGAGGCTTTGTAT
CCTATGCACATCATGTTGGTCGGTGCTTGCAGCTAGTATCGACGTCTAGC
CGGCTTGCTTTCGCTTTTCTAGCGAATATATGTCCGTGGTCATCACGTAC
AGCCGACAGCGTACAGCATAGCAGATGGGGTGCCAACCGATTTCATGTGG
TCATAACTGAACTAGGGAAAATGTATTTTCGATTCCTCTTCATGTCAATC
TCCAACCCAAAATAGCTTCTGAATCGTAAATTTTAACAAAAAACTGGTCT
CGCGACACATGTTCGGCTGTCCCGTACCGCGTGATCCCACCCATATTATC
TACACCCTGGCTGAATCTCGTGCTGTCTAGTTTCCGTCTTACCCTCTCTC
AACGATCGGTGCTATGTCTACCGTGTTACCCCTTGCATCTTAAGAGTCGT
CAGATGTGCACTGGCAGTGCAAGAACGACTTTGATAGTAGTGTAGCAGAG
ATAGATGCCAGGGAATTCCAACGCGATCTCCCTTTTTTTCGATGTTCTCC
GAAAAATCTCGAGTCTTCACACCATCCGCACACGCGCCGAAATTTTCGAC
ATGCCCGCTTCGTACCAATAGGGGGTGTGGGAAAAGAGAGGCGCACAACC
GGTCTCCCCGGTGGTTCAGTTTGTAACCTCGAAACCTTCTGACCTTGGGA
CGTGAGTTCGAACCCCGGTGCAGTCACACAACCTGGGATTTTTCCTCACC
AAAAAAAATAACAGTCCCCAACAAGCGGAGAACGATTAAATCGATATTAA
TAGTACACAAATTCGATTTTACGGTCGACGAGGGAAAGGAACGGCTGAAT
CCTTCTCGCGAGAAAAATTAAGGCAAGCACCGCAGAAGGAAGGTGGAGAA
ATCCTGTGTCACCTTCCTCCTGTGTTATTGTTTAAAGAAAAATCAGAACG
CACCTAGACCTTCTGAGCATCCCCCAGTCAGGGGGGAAAAAATGTCAAAA
CGTTTAGGTGGGATCATAGGCTGCAAATACAAAACCTCTTCATGGCATTT
AAACGGGTTCCCCTATGGCAGTAACATTGGGTCAACAGTATAATATCGGG
GAGAAGCCCACCGTTATACTGTACACTTACATTAATCGCCATGCAGGGAC
ACCGGAAAAACAGCCAAGACAAAGTAGTACATCATCAAAGATGCTAGTAA
TAATATACTGTTACATAGGCTGTGAAGACGAATTCACTACATTGAAACGA
GAACAGAGAGAGAGGACCATGATGTAGATATCATATCTTGAACATAATCC
AGAAAGTACAAGACACCGTTATTCACCTGGAAGTAGACGAAGAGCAGTGG
GAGATCACACAAGCAAGTAAGAGGCAAGCGGAAAGAACTGGGTTCCTCGC
TCAATATTTGTCAAGCCTACGACACACAGATGCTCCTCATATATAATTGT
CCCGCGTTGACCAGAAACACAGAGGAAAGAGCATATGTCTGTCAAAGTGA
CTAAGTAGGCCTCACAACCTCCTCGTGTAATCCCCATACGATATTCCCGA
AGAACCATAGACTCCCAAAATGTCTACAACTCCTCGTCTTTATTCCGAAC
TGTCGTGCCCCATATATCATCAGGCCCGTTGCCATCCTTCGCTTCTCGAA
TCTTCTAGCAGAGCGGGACTGTATCATTGTACTTTGGGTTCAATAAGAAT
GATCTAGTTAGCTAGTTCAGGTAAAAAACATTGTTCCAGCCACTTGACAA
TATTTTTTTCAAGATCTAGAGAGGGGTTTTTATAATAGGGTAATAATAAA
GAAAAACACAAAATCACCGTCCGTAGCGAGGCTGAGAGGGTCATTGACCA
CAATCTACCAGTATGCCACCCCTTAACCGAGGTCATAGACGTCCAGTACT
ACAGAACTTACGAAGCACTGCTCTTGAGCTCGTATCCGTCGCTTGTCGTG
TTTAAAGAAAAGTTGTTGTTTCTCACATTCAGCGCATTGGTTGCCAACCC
GAAAAACTACTTTACACGGTGGCCAATCCCGCTCGTGGTCTGCTGAACAG
GGAAAAAAAGAAGAAAAAAAAAAAGTCTGGCAGCGCACCCCCCCCCAACC
CCCACGCTGCTCGTTCGGAGAAAAAACATAAAAATCACACGAAGCATCTA
CATGTCTAGGCGCTACGCAGGTCGGCGTTACGCGGGTCTCGGTCCGTCTC
GCGTCCGTACGAGGATTCCTTCGACTCGTCGGCTAGGCCAATAGGTGTCG
CTTCGCAAAAATTCTACGCTTCCGTGTGCGATAACAACTTTCCCAGTCTC
GTTGCCTCTCTCTTCTCCTGGCGATGTCTGGCCGCGTTTTCTGACCCCGG
CTAGTACGTCCACAAGCCTGACGTCCAGAATAGATGGGATGACAACACAC
ACACACACGCGCGCGCGTTTGATCAGAGGTTTTCGTAACAAGTATCATTG
ATCCCCCCTTGGGAGGATCAATGCGAGTGGCATAGAATGACTAGGATGAC
AGGGCCGGATTGCGCGGTTATGTGCAATTTAATAAATACACACACACGGG
GGAGCACAAGGAACTCTGAGCTTAAGTAAGAATTGTACAAGTAGAGAGAG
CGTGTCCCCTTTGTCGCGTCTGATCAGAGGTTTTCGTAATAAGTATCATT
GATCCCCCCTCGGGAGGATCAATGCGAGTGGCATAGAATGACTAGGATGA
CAGGGCCGGATTGCGTGGTTATGTGCAATTTAATAAATACACACACACAC
ACACACACACACACACACACACACACATAATTTGGTCCATGGTGATGCAA
AGGAAGCACCTGTTGCTGGAACTACCTTAAGGACTACTGGCCCTGTGCGG
GCGGACTCTCGGCAGTGAACGCCATCGGTACGCAATTGCGTGACCCGATA
AACTCGGGACTGACCCGATGGCGTATGGCGGTTTAAATAAATAAATGGAC
ACCGCCGCGGGAATCGGGAGGAATCCCCCCGTGAGTAAGCACCAGATTCA
GCCTGCATATGGATAATGCGGGGACTGGGAAATATTCATTTTCCTTGTTC
AGATGATCACGAGAAGGATTGGTAGCAACCTTACCCGGTTGATCCATACT
CTGCTATATTTGATTAACATACATACATACATCCACACATCATCTGTTCA
AATGAAAATATGTTCCTCTTCATCTGGATGAAGGTTTCTTCATGTGCTTG
GTTTTTCTGTTGTTGATCACTGACCTTGTTATTGAAATAGAAAAATCACT
TTCGACAGACTGGGTGTCAACTCGTTGCATGGTCACACATGTATGGTCAC
ACATATAGCAAGAGTATGGATCAACCGGGTAAGGTTGCCAATCCTGCTCG
TGGTCAGCTGAACAGGGAAAATGAATATTTGCCTGTCCGCGTTCGCGCCT
GAGAATTTGGTCTCGCGAGACGGGTTCGGCAGTCCCGTCCCGCGTCAGCC
TGCTCATCTCCATACTCAGGCTGAGCTGGCTGCTGTTGTCAACTTGTTTG
TTTTGAATTTAGTGTGCTTCGTTGGTCGTGCCGCTCTTACATTTTCCCCA
CCCCCAAATAATTCGTCGAATTTGTTTATTGGCCTCATGCGGATGAGGGG
AAACCAACCGTATACGTCAGTGTTGGTTGCTCGTTGGTGGTTGCTGTTGA
CGCCGGACGGGAAGGTTTGGGGCTTCGGGGAGGGGAACATTTCCGTTTGC
CCCTGTATACCCGGAACGGGCAGGTTGGAGAACACGTACAGAAGAAAAAA
AAAAAACTTGCGCCGCGTCCAGGGCACGCGGCTCCACGTGACCTTTTCTT
GCAGGTGTGCTAACGCAGCGATTCTCAGCGCAAACTCTTGAGCTGTAAAC
TACATACCGAGGCTTTCCCGCTGCACTACTCAGTAGGTCGTCTCCTGCTC
CGAGTATATTTACGTCGACGAAAGCCTCAAAACACCAGTCCCGCTGTACA
CGCACACACAAATAATATACACACAGATTTGAATGTGGAGACTACAGTAC
AACAACTGGGAATATTGGCTGAAGGGACAAAGGCTCTACATGGTATTAAA
AGGGTTCCCCAATGTAGTAACATAGGGTCAACAGTATGATATAGGGGAGA
AGCCCAACGATATACGCTCGTGGTCAGCTGAACAGGGAAAAATAATATTT
CCCTGTTCGCGTTCGCGCCTGAGAATTTGGTCTCACGAAACGGGTTCAGC
AGTCCCGTCCCGCGTCAGCCTGCTCGTCTCCATACTCAGGCTGAATCTGG
TGCTTATGGGATTCCTCCCGAGTTCCGCGGCGGCGTCCATTTTTTTATTT
ATTTAAAGCGCCATACGCCATCGGGTCAGTCCCGAGTTTATCGGGTCACG
CAATTGCGTACCGATGACGTTCACTGCCGAGAGTCCGCCGATACAGGGTC
AGTGAACCTGAAGGTAGTTCCGAACGAGTGCTGCCTTGGCAGGTCACCAT
GGACCAATTAATATGCGCCTCTCTTTCCCGCACCCACTATTGGTATGAAG
TGGGCATTTTGAAAGTCCCGGCATATTTTTAAAGAAAAATCAGAACACAC
CTAGACCTTCTGAGCATCCCCCGGTTATGGGGGAAAAAATATCAAAACGT
TTAGGTGGGATCAAAGGCTGCAAATACAAAACCTCTTCATGGCATTTAAA
CAGGTTCCCCGATGCAGATAACATTGGGTCCACAGTATAATGTCGGGGAG
AAACCCACCGTTATACTGTACATTTACATACATTTACATTAACCGCCATG
CAGGGACACCAGAAAAACATTAGAAAAAAAAAAGAGACAACGTAGTACAC
CATTACACATGGCAGTAGTAATATACATTACAAAGGCTATAAATACAAAG
CCACTACATGGTATTTAACCGGGTTCCCCACTGGTAGTAACCTTGGGTCA
ACAGTATAATATCGGGGAGAAGCCCACCGCTATACTGTACATTTATATTA
ATCACCATGCACAGCCACCAATCATACCCACAGTAATACATAGTTACGAG
TATAGTCCTACTGTCGATAATAGTACCATCGAGACATACAGAAATAGGGG
CTTGGGTAAATAGTAAAATGTACACTAGTATACTGTATAATTTCATTAAT
TGTCATGCAAGGGTATTCAAAGGCTGCAAATACAAAGCCTCTTCCTGGCA
TTTAAACAGGTCGGGGAGGTTCTAGGATTGGATGGGGTACGTAATTTATT
AGTGTACAGTACTTCGACCGAGTGGTCTAGTAGGTAAGCTGCACATCTGC
TAGTACGGAAGTCGTGAGTTCGATTCTTACCAAAGTAGGATTTTTGTGTT
CTTTCTTTCGTAACGGAAAGCGTGGGAACGTGAGTAAGTAAAATTCAACC
ATTGGTTGACGAGTTGTAAGGCTGCTGAACTTGCATCGCGATAAAAAAAT
TGTAAGGCGTGAACCAGGGAGAGATGGGAAGATCCTTTGTGACCACAGGC
AGGATGGTAATGATGAGGTCCATCGGCTATAAGTGAGATGAAAGAAAAAA
AGAAAAAGAAAAAGTACAACACAGTACTACAATACCATAGTCATAAAATG
TATTCACAGTACAAATACAAACGTGTTAGATTTGTAGAGGATAGTTAATA
GAAGTGGTAAATACATATGATTTGGGTTAAGGATTGAAACGAGGAACGAG
AGGACCCTGATGTAGATATCTTCAACATAATCCAGAACGTACAAGACACC
GTTATTCACCTGGAAGTAGACGAAGAGCGGTGGAAGATCACGAAAGGATT
TCAGAGGCAAGCCCAGTGGGTATGGCCCCCACGTACGATGTCAGGTCTAC
GGCTTCCAGATACTCCTCATGCTCGACATCAAACACAACGGTCCACGCGT
TTAGACCGGAAAACAACGTAGGAGTATCTAGTCAACCCATAAATGACACG
TGTGCTTTGCCTCAAACAGACCAAGGTGTCCGTAAAAAAATCCACCATGA
AGATTCAGCTTCGAAGAAACCACCTCATCCAAAAAAAAATGATTGGTGAA
GCAGGAGTCCAAAAGGTCGTTGTTGATGTTTAAAGAAAAATCAGAACGCA
CCTAGACCTTCTGAGCATCCCCCGGTTATGGGGGAAAAATGTAAAAACGT
TTAGGTGGGATCAAAGGCTGCAAATACAAAACCTCTTCATGGCATTTAAA
CAGGTTCCCCGATGCAGATAACATTGGGTCAACAGTACAATGTCGGGGAG
AAACCCACCGTTATACTGTACATTTACATTAATCGCCATGTAGGGACACC
AGAAAAACATTAAAAACAAAAGACAATGTAGTACACCATCACATATGGTA
GTAGTAATATACATTACAAAGGTTGTAAATACAAAGCCACTACATGGTAT
TTAAACGGGTTCCCCACTGGTAGTAACCTTGGGTCAACAGTATAATGTCG
GGGAGAAGCCCACCGCTATACTGTACACTTATATTAATCACCATGCGCAG
CCACCAATCATACCACAACATAACCACAGTAAAACATAGTTACGAGTATA
GTACTACTGTCGATAATAGTACCATCGAGACATACAGGAATAGGGGCTTG
GGTAAATAGTACCTGGTAAATTGTACACTAGTATACTGTATAATTTAATT
ATCATGCAAGGGTATTGTACAAACACAGAATACACGGGAAGCTTGGGTTA
CAACTAAGTTACAGATGGGTGTTTAAAGAAAAATCAAACCAGATGTGCCC
GGTTATGGGGGAAAAAACAAATGTCAAAACGTGTTAGGTGGGATCAAAGG
GTGGGATCAAAGGTTGCAATTTTTTTAAAGAAATCAGAACATTACATTAC
ATCTAGGAATGGATGGGTGTCACTAAAGGATTTTCAGGTAGTATATATGT
AGACGTGATCCTAGTACATATCAAAACACGCCTGGACCTTCTGGGCATAC
AAACGTTTAGGTGGGATCAGAGGCTGGGCCGACAGTATAGTAACCTTAAT
CGTCATGTAAGTACACAAGAAAAACAAAGCCAGAGGCAATATAGTACCTC
ATCAAGCCTGGTGTTATAGAGATGGCCATACAATCTTTGTTCTAGGGTCG
GATGGTATATGTAATTTATTAGTGTACAGTATAATACAGTACCATGTATT
CAGTACAATTACAAATGATACGGATTAAGGATTGAAACGAGGAGCAAGAG
GACCCTGATGTAGATATCTTCAACATAAGCCAGAACGTACAAGACATCGT
TATTCACCTGGAAGTAGACGAAAAGTATCGTAGTAGAGTTTAAAGAAAAA
TCTGAATGCGCCTAGACCTTCTGAGCATCCCCCAGTCAGGGGGAAAAAAT
GTCAGAGTTATCTTGCTCCTCCAGCATGTCTATAGTCTCTCCGATCTTCA
AGGTAGAGCGGGCTATATTATATTATATGATTAACTACCAGGTACCATTT
ACTGTATTGTTGTTAAGTACTTGTATAATAATTTGTAGGGAATCTATCAT
TCGAAAAAGCTTTTCTGTCCTTTGACCAGAAATAAATACAAAAGTTTGGA
CTTTAATAAGCGGTAGGTCATGGGTCTTAAATGAGTTTTACTATAATGAT
TCGAGAAGAATTATATTAGATGATTCTGTACTTGATTGTTTCTAAATACT
TGTATATAAGTTCTAGGGAATCTATTATACAAAAAGGATTACACTGCTTA
GCATGTTATTGTCACACGAACGGAAAAAAAAAATATCTCTTCCCCCGTTC
ACCTCTGAAAACATTTAAAGAAAAGAATGAACGCGTCTAAACCTTCTGAG
CATCCCCCAGACAGGGGGGGGGGGGAGTCAAAACGATTGCGTGGGAACAT
AATAGGCTGCAAAGACAAAACCTCATGTGATGGGATACAGGATCGACCGT
ACCGTCCCCCTTCAGCTCGCCCATACTCCACAGCCAGGCTGAATCTGGTG
CTTACTCGCGGATTTCTCTCCTCCCTCCCGCTTCTCGCGACGGTCCATTT
GTACCGTTAACCGCCATCGGGACAGTCCCGAGTTTGTCTAAATACAAACC
ATGACCAGCCAGCTCCCTGCTATCCGAGTTTATCAGGTCACGCAGTTGGG
TGCTGATGGCGTTGAGAGTCCTCCGGCTCAGGGCCAGTAGTCTTCTAGGT
ACATTAGCTCGATTAACGTGTGCTGCCTCCCTGTTCAGGCACATGCGGAA
GAGGTCTTGCGACCCAAAAGCCAGCGGCGACGGCTATTATTTTCCGACGC
TCGATGACTCCGGCGCCGGGGTGGGGTCCCCGGCCCGCGGGCCAGCGGCG
ATGACCGCTGCGGCGATTTCCCCTCAAGCTCCCGCTCCGGCGGGGGGGTC
GGACGCCTCGCCGTTGCCGGCAATTTCACCGATGATGCGTAACGCGCGTG
TTGTCGCTAAGTGACGGGGCTCTGGCGAACTTCAGTCTCATTCGGGACGG
TTCCCTCCCGTCGGGGAGAGCGCGGCATGCTGAGGGGTGGACCTGCCGAC
TTCGCGGCAGGCCCTGGTTGTCCTTCCTCGTCGCTCCTCTCCACAATCGT
ACTAGTTGACGCCCGGTCGCGCCTCAGGTCTTGCTACAGCCATAATTCGC
TACCGTTGTTCTTGCGCAACTGCTCCATCTCTCCGTCGAAAGCCGCGCAC
CGCTGCTCCATTTCGCGGTCGAAGGCCTTGGCGGCGAGACGCTCGACTCG
ACGTTGTTGTTCATACCGGTGATCGTCCTCCAGGCGTTGTTGCTCGGATG
GGCGATCGTCATCCAGGCGTTGTTGCTGCATCTTGAGCATCCATGAGTAG
AGCGTTGGCGTCTTCATCACACGCCGCCTCCTCTCGCGGTCAACCCCTGA
ACGCAGTACACAGCGAGCTCACTACCGCCTCGATTGCCAGACTCGTTAAT
TGACATGTTGAGGCGCCGAATAGGCTGTGTGCAGCGCTGCGTGTTGACGT
GGCTTTCCCAGGTAAAACTTAACAACCTGGTAAATCTTGAGAGGAAAGAG
AAAAATATGTAAAGCAGATAACTTTGGATTATGATTACCACATGACACCC
AACACAAGAAGAAAAAGGAGAAACTGGAAAGAGAGGCAAGAGCAAAGGGG
AAAGAAATGCGTTTCTACATGCCTCCGTCGGAATTTCGATGCCATTTTCG
GTTTGGGCTCCCGTCTCTCCTCGATGCAGTTACCACGCTTAGACTGTTCC
CCAGCCCTTGCGTGGTTGCCTCCTCCTTATTGTGTCTCTCTGGCCCAGAG
AAGCCTTTGGTTTCCCCATGTGCAAGCAGGCCTTTTCTCGGCAAGGTTCA
GTTAACTATTCCGTTTTATGTGGCGCGCCATTATTGCGTGCCCGCAGCTT
TCGCGCTTTGCGGCTTGCTGCGTAATGTTGATATTTTTGTCCCTGTTGCG
CCGAGATTACCGCGGCGACACCCTTAGCCTTATCGGAGCATTTTCGTTCC
GTGGCAAAGGTCTGATGCGGTATCTTCGCTGCCCCCCCCTAGCCTGGGCC
AATTGCCTCTTTCCCATCACCCTCGAGACGTCACCCTTCCCTCCGCTTAG
TGCTCTCGTGGCGCGGCACGAACCTGTCTTGATATGCTCCCCCTGGCTCG
TTCTGAGCATCACTGGCGGCTGCACCCCTCGTTCGCCGTCGCCTCCGGGA
TGCCGACATCTTGAGGTTGTCTTCACGCCGCTTCATTGATGCATCCGACT
CTAAGACCTAGTACTTTACTCGCTGTCGTTTTTATCCCCAACCTCTTTCC
CTTTTGACTATCCACAGATCCGCCCTTGCTCTGGCCCCACCGCCTCATCT
CCTCCTGTCCTCCTGGCCCTCCTCTTTCGGCCGTCGTTCCCCCTGTTTGT
TGTGCCATTTTCTACGATAACCACCTCAACTCGAAGATTTTCTCGCCTGT
TTGCTAACTAACTACCTGGTAGCTCGCAGTGAAAGCGAAAAAAGCGTCAA
GCGTTTGCCTGATAGATGCAGATAACAATTGGCACCATACTTTAGATAGT
AGGTGGGGTTGGCAACGAGATTAAGAAAAGGGAGCAAAACGTGGCGTACC
GTAAGTATCGGAGTCTTGGCACACCCCCTAGACTGACTTTCCAGGCTCGA
TTGCTCCACAACCAAGAGGGTGCCAATGCCGAAAAGGGCGATTTTCGAAA
GATCTCGTCGAGAGCTCTCTTTAGACGTATCGGTCGGTGTTCACATCATC
TTTGTTGTGGAGCAATCGAGCCTGGAAAATCAGTCTAGGGGGTGTGCCAA
GACTCCGATACTTACGGTAGTCGCTCCATGTTATACCGGTAATTTAGTCT
CGCCTCGACCCCCCTCTGGCGTTTTTTGTTTCTTTGCATTCTGCTCTTTC
ATCTTCTCTAGAGTCATGCTCTCGATTCCTTTTTCCCTCTCCTCTGGCTA
TCTTTCGACAGCGCGCCCTATACCGACAAGGCAGCCAGCCCTACAACGAC
CCCCTATATCCGTCGTGCTGCAGTACATACAGAATCTGCAATATCGCGGT
TCTGGTGCCTTCTTTTTTTCTTTCTGGCGAGAGTTTATTTTGTCTGTATC
TCACTTACGGCCGATGGGCCTCAACGTGCTAGGTTACCAATCCCACCTAC
TGCAACGTTGCCATCCTGCCTGTGGACACTACGGATATTCCCATCTCTCC
CCGGTTCTGGCCTACGTTTTTTTATCGCGATGTAAAATTCAACCATTGGT
TGACGAGTTGTAAGAATGTTGAACTTGCATCGCGATAAAGAAATCGTAAG
GCGCGAACCGGGGAGAGATGGGAAGATCCTTAGTGACCACAGGCAGGATG
GTAATGATGAGGTCCATCGGCTATAAGTGAGATTAAAGAAAAAGAAAAGA
AAAAAAATGCAAGTTCAGCGCATTTACACCTCGTCAACCAGCAGTTGAAT
TTTACATACTCGCGTTCTCACGCTTTCCGTTACGAAAGCCAGAATAGAAG
ACCTGATTTTGTCAAAAATCGAACTCACGACTCCGCATTAGGGATCTGCG
AGGTTACCACTACTCCACTCGGGCGACGAGTGACTGAATCCAACAACCGC
GATTGGTATGCATGAAGGAGTAGAAATATAGTACAAGGTACTCGGTACAA
GATAAAGCGTTAATTTTACCGTTGACACATTTTTCTCTGGGTTTTCTTAG
TTTGGAGTACCAGTAGATCTGTGCAGCAGGAAACCAGCACCTGGACTGCT
GTACCAGAAGGTTCGACGGCGTTATGGTTCTATGGTTCTATAATAGTAGT
GCGGCGTTATGGTTCTATAATAGTAGTGCGGCGTTATGTTCCTTTTTCCG
AAGTCTGCTGTAGCCGTCCGTTCTATCCCATGTTGGCACTCTGTTTTCCG
ATGCGCCCTAGCCGTGGTCGCCCGAGTGGTCTAGTAAGTAACCTCGTACA
CCTGCTAGTGCGGAAGTCGTGAGTTCGATTCTTGTCAAATACCTGGATTT
TTATTCTGGCTTCCGTAGCGGAAAGCGTGGGAACGTGAGTAAGTAAATTC
CAACCATTCGTTGACGAGTTGTAATAGCGCTGAACTTGCATCGCGATAAA
AAATCATAAGGCGAGAACCGGGGAGAGATGGGAAGATCCTTAGTGACCGC
AGGCAGGATGGCAACGTTGCGGTAGGTGGGGTTGGAAACCTAGCACGTTG
GGGCCCATCTGTAAGTGAAATGCAACAACATGAAGAGGTTTTGTATTTTG
CAGCCTGTGATCCCACCTAAACGTCTTGACATTTTTCCCCCTGAATGCGG
GATGCTCAGAAGGTCTAGATGCGTCCAGATTTTTCTTTAAACAACCTGTA
GGGCCAATTCAGTTCAAACGTTCTATACAGCAGTGCGCTATGGCAGATTC
CCCCATGTACGGTGTAGTCCTGGGTCAACAAATACTGTTGTATTATATTA
ATTGTAAAACGGATATCCCAGCTGGCCGAAGACGAGTGAGCGAGGCGGGG
TGTGGCCATCCGATGCTCTCTCGAAACAATGTACACAGAGGATACAACTG
CTCGTAGAGATTCACCAGACCTTTGGCGGGTTGTCTGGCAAACATCGCTT
ACAACGATGCCCCGTCCGTATGATCATAAACGCTGAGAGACCAGATCCGA
TACCCCGAAGATCTTGCTCTGCCCCGTGTCGACATTGAGGACATAACATA
CTTCTCTACTTGTTTTTTTCTGCGATGGCATGATCTTATCGACATCCTTG
AATGCATAATACTTTAAAACAACTTACGAAAACATTTGCAGGACTAATGC
AGCGCAGCAGTATGTATTAGTAATTCTTGGCATTTGTCTTAAAGGAGAGA
GGAGATGGAAGATAATTGTCAACTTGAGTTGCGTAAATTACTACCTGTAT
GGATGGATGTGTATATGTATATATGTATGTGTGTATGTATGGTCATCACA
TAAAGCAGAGGTATGGATCAACCGGGTATGGCTGCCAATCCTGCGCGTGG
TCAGCTGAACAGGGAAAATGAATATTTCCCTGTCCGCGTTCGCGCCTGAG
AATTTGGTCTCGCGAGACGAGTTCGGCAGTCCCGTCCCGCGTCAGCCTGC
TCATCTCCATACTCAGGCTGAATCTGGTGCTTACTCACGGGATTCCTCCC
GAGTTCCGCTGCGGCGTCCATTTATTTATTTTAAACCGCCATACGCCATC
GGGTCAGTCCCGAGTTTATCGGGTCACGCAATTGCGTACCGATGGCGTTC
ACTGCCGAGAGTCCACCAGCACAGGGCCAGTAAACCTCAAGGTAGTTCGG
AACGAGTGCTGCCTTGGCAGCTCACCATGGACCAGTTAATATGCGCCTCT
CTATCCCATACCCACTATCGGTATGAAGTGGGCATGTTGAAAGTACCGGC
GAAATGTCAAGGGTCGATACAGAATGCACGCAGAGGGCAGCAAGTTCATG
ATATGAAGAGCAAGAACATTATACTGTTGACCCAATGTTACTACCATAGG
GGAACCCGTTTAAATGCCATGAAGAGGTTTTGTCTTTGCAGCCTATGACC
CCCCCTAAACGTTTTGACATCTTTCCCCCTGACTGGGGGGTGCTCAGAAG
GTCTAGACGCGTTCAGATTTTTCTTTAAACACGTTTTAAAGTGCGACACA
TTGGTTCTTGGTACCGTAATTTCTATTAATAGTGTCCCGAGTTGCTTTTC
TACCGCGTTATGACTGTCAGATGCGTCGAGAACTGCTTGCAAAGCTCTGC
ACCAAACGCTTCAGAATGGATGCCGTAGAAGCTCAAGAGACAACTCTCCG
GCGTGCATGTGGTTTGGCAGTAGTCAATAAAAGTACCAAGTTGATTGGGA
AGCACCTGACATTGATTCCTACCTATTAATAGCAAAATATTTGTTGCTGT
GGAGGGAGCAGAAACCGTCCAACCGCGACGAACCCTGGAGACAACGGAGG
CACCTAAGATACCGAAAGGTGTCTTGTGAAGTCTGCGCCCTGCTAAACGC
TTCGACGCCGGTCACGTGCTGATTTCTCTAGGCTATTTTTAAGCATGTTT
AATGCTGAAGTAGTTGTATTCCGTATCTAGCTCCCTGTAAAAGGGTACTG
ATACAATGTACACTGTGTGTTATGAATCAGTCGGCACGTGTTGAAGGTTG
GCCGTGGCGAAAGCAACGACTTGCCCAGCTGCACACGAACGCGCTACGCA
TCTTGGCGTCCACAAGATACATCGGGAGACTGATCTATAGCATGACCAGA
ATATTGTGATGCTCGTAACTAGCATCTTAACTTGACGAACTCACTATTTA
CATACCCGGTAACGCCATGGAACGAAATAGTTAAACGAAATGCCTCATGT
GACTGATCCTCCAGCGTCTTCGTTTCCGTGAAACCCTCTCGCGAATCGCG
CACGTGTCGTCAACATGACACGCAGTCAGCATGACTTTGCAGGATGAGAT
CAAACCGACAAGGCGCGGCGAGTTCCTGTTCGGAGCCACTGGCAGCGTTG
CTGTGGCTGCGACTGTCGCTGCTGCGATGGGATCTTCATTCGGGGCACCC
GCGAGCGCGTACGTGAAGGGAAACATGCCTCCCCCTAACTACAATAAGAG
GAGAGGTGGACAAACCGCCCTGGAGCGAGGTTTGTGTTTCCGGTCCCCCA
TTTTTGTCGCCCAGATAGGAAGTCGATAATGTACGGTCTGTGTCGAAAGG
GCCTGCCCAACCAGATTCTTCGCACGTCTTGACGCCTGCACCGTAAGCCT
TTGACCTAGGCATCGTTTTGGTCGATGGGGAATGCGCAGGGACTTCGGTT
GCCCTTGTTCGTCTTACCTCTCGGCCGCTAGATCGAACGCTTCCCACATT
GCAGGTTCCAAACACGCTTCGCTCCACATCCTATATCTACATGTACCCCA
CACTTGGCCTTGATTGCATCGTGACACAGAGCCGTCAGAAAAAGTTGCGG
TGGACGAACCGACGGCAATCGGCACGTTTTCCGTCACTAAGTCGGGCGTT
CGGTACAAGGACCTGAAGATCGGAACAGGGCCCGAGGTGGGCAAATTTCA
CCCCCACGCGCCACGCCAAGAGACAAAGAGCGTGGGATCTTGTTGTGCTT
TGCTGATAGCAACCGTAGACTGCACACATGGTTCGACCTTGTTTCTTCCC
GTGGTTGGCGACGGTTCGTTGACGGATAAGCGCAGCGGTTTATCGAAGGA
AAAGACGTCCTTCTTCTTTTATGTACACTTCATCTACGCCATCTGCCCGA
TCGAGAGCATATCGCTCGTGTCTGCTCGTGTGCGGCGTCCAGGTAAAACC
TACGAGCGTGGTTGACGTGCGGTATCGCGTCGAAAAACTCGGCAAGAGGA
GTTACGACGGAATCTCCGGAGAGGTGGGTGTGGAAGCGATCGAATAGTAT
CCTATGACGAGAGTCTGTATAAAGTAAGTCAACGATACGCGAGATCCTGT
GGACAAAATAGAACTCAATGGTTTCAACCGAACATATTAAATGGTCCATG
GTGACCTGCCAAGGCAGCATTCGTTCGGAATTACCTTGAGGTTTACTGGC
CCTGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAATTGCGT
GGCCCGATAAACTCGAGACTGACCCGATGGCGCGTGGCGGTTTAAAATAT
ATAAATGGAGGCCGCCGCGGAACTCGGGAGGAATCCCTTGAGTAATCACC
AGATTCAGCCTGAGTATGGAGACGAGCAGGCTGACGCGGGACGGGACTGC
CGAAACCGTCCCGCGAGACCAAATTCTCAGGCGCGAACGCGGACAGAGAA
ATACTCATTTTCCCTGTTCAGCTGACCACAAGCAGGATTGGCAACCTTAC
CCGGTTGATCCATACTCTTGCTATATGTGTGATCATACATACATACATAC
ATACATACATACATTTCGTAACAAGTGTTAGGGAGGATCAATACGAGTGG
CATAGAATGACTAGAATTACAGGGCCGGATTGCGCGGTTATGTGCAATTT
AATAAATATACATACATACATACATACATACATACATACATACATACATA
CATACGAGTAGATCGTTTGAACGCCGTAAACAAATTTTGCAATGCTTCCC
TGGACGAAGCATTTTCTTAAAGTACTCCCGGCGTAGTTTAAGATTCATTG
CTACCCCCCCCCCCCGACCCCATCCCCATGCATCCGCAGACCCAATCCGT
ATTTTCCCGTGGATATGGAGAAGACGACGATAAGGAAGGAGACGTCCTCA
CCGTACCTCTGGGTCTGGGGAGGCTCGTTAGCGCCGTCGACGAGGTCTGT
AGCGCTCCCCTTGGGGGGGGTGGGTGCACATTTAGTGCACTTTCGGTCAC
GCTTCAGATCAGTATAGGTTTCTTCGCCACTTGTATTTTACATCGACGGT
GATGTTTCCGGAAGGATTATTTTGTCAAGCCGCATATCAGGGATGCATGT
GTGTCACCCAGTTACAGGAGTGAGAAGGTCTTGCCGTCTGATGTCGAGGC
AGGGCGCACCAAGCCTGCAACAACATCGCGTCATTCGTTTGGCGAGGCCT
TGTGAAGCCGATATCCGCCCCCTCCACTTCGAACGCATCCGCGCAGGGAG
TAATAGGAATGAACGTTGGGGGAGTTAGGCGGGTTGCCGTGCGGCCGGAG
AGGGGGTGGAAGAAGCAAGACCCCAAGTGCGCCACCGAGATAGACATGGG
GGCCTTGTCCGGCGTGCCCGGGTCAGCTCTGTCGAAGGCGAGAAGAGGGT
TCTATCCCTGTCGAGATACTTTCGGGTAGCTTTTCTCTCCTTTCGTACCA
CATGGTGTTCGAAATAGTGGGGTTACCGAAGGCAAAGCGCGTGGGAAAAT
TATTTGCTGCTTCGACAAGCGAGTCTTCTACTGTTTTGCGAGTTCATGTA
CAAGTTTTCATGTTTGTACATTAAGCCCTTTTTCATCATGTTTTCGTCGT
CCTGCCACAGAATTGGCGTCAGCAATATTTGTTTCCATCTACCTCTTTGA
TCGGTAGCAAAAATGTGGCAGATACGGCATCGTATGCGTTACTGTGCTTC
TATTTTTCGAACTCTTGGTGACAAAGTCGACCGAAGCGTTTCCATGTCCA
CACTATGGTGCCGTTTTGGCGCTTTCTCACCGTCACCACTCGTGGATTTG
ATATTATTGAGCGTTGCCATGCTTGGGCCTTAGCCCTTGTTCCCTTTGCC
TCCCGCCGGGTCAGGTGGAAGATTGCATCGATCTCGCCCTGGAGCCGCGG
CCTGTGGGGTACGGCGCGACTCGACGAATGGCCCGAAGGTTCGATGAGAC
TCTAATTGTGGAGATTGAGATGGTCGGTGCCAGGGATGCAGTGGGAAAGT
TATTCTAG

Coding sequence (CDS) from alignment at A-nodosum_M_contig11:951930..968837+

>mRNA_A-nodosum_M_contig11.71.1 ID=mRNA_A-nodosum_M_contig11.71.1|Name=mRNA_A-nodosum_M_contig11.71.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=984bp|location=Sequence derived from alignment at A-nodosum_M_contig11:951930..968837+ (Ascophyllum nodosum dioecious)
ATGATTGTTTCTGGGGCGAAACGTACGATAGCAATAGCCACAGTTCTGAT
GCTCGTGCAACGACTCTGTCCGATGAATTCGGTTTCGTCGGGCACCGCCT
TCCTCTCCCTCCCAAGCGTCGCCGCATTTTCTACACACCCAGTGACGCAC
CAATCCCGCTTGTCGAGATGCCGCCAAGTCAGCATGACTTTGCAGGATGA
GATCAAACCGACAAGGCGCGGCGAGTTCCTGTTCGGAGCCACTGGCAGCG
TTGCTGTGGCTGCGACTGTCGCTGCTGCGATGGGATCTTCATTCGGGGCA
CCCGCGAGCGCGTACGTGAAGGGAAACATGCCTCCCCCTAACTACAATAA
GAGGAGAGGTGGACAAACCGCCCTGGAGCGAGAGCCGTCAGAAAAAGTTG
CGGTGGACGAACCGACGGCAATCGGCACGTTTTCCGTCACTAAGTCGGGC
GTTCGGTACAAGGACCTGAAGATCGGAACAGGGCCCGAGGTAAAACCTAC
GAGCGTGGTTGACGTGCGGTATCGCGTCGAAAAACTCGGCAAGAGGAGTT
ACGACGGAATCTCCGGAGAGACCCAATCCGTATTTTCCCGTGGATATGGA
GAAGACGACGATAAGGAAGGAGACGTCCTCACCGTACCTCTGGGTCTGGG
GAGGCTCGTTAGCGCCGTCGACGAGGGAGTAATAGGAATGAACGTTGGGG
GAGTTAGGCGGGTTGCCGTGCGGCCGGAGAGGGGGTGGAAGAAGCAAGAC
CCCAAGTGCGCCACCGAGATAGACATGGGGGCCTTGTCCGGCGTGCCCGG
GTCAGCTCTCCCTTGTTCCCTTTGCCTCCCGCCGGGTCAGGTGGAAGATT
GCATCGATCTCGCCCTGGAGCCGCGGCCTGTGGGGTACGGCGCGACTCGA
CGAATGGCCCGAAGGTTCGATGAGACTCTAATTGTGGAGATTGAGATGGT
CGGTGCCAGGGATGCAGTGGGAAAGTTATTCTAG