mRNA_A-nodosum_M_contig883.19.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig883.19.1
Unique NamemRNA_A-nodosum_M_contig883.19.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A6H5JPB2_9PHAE (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JPB2_9PHAE)

HSP 1 Score: 424 bits (1091), Expect = 1.180e-138
Identity = 221/291 (75.95%), Postives = 247/291 (84.88%), Query Frame = 3 
Query:  393 QVESKQNLVKAAETLLEDAGQALEEMRKRAARYRETPKDTTDEDMSAQMEGLQVDDKVAVYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQ-GEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSVGH-QPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDPFQDPKETQD 1259
            Q ++K +L K AE L EDA +A+EEMRKRAARYRETPK+ TD D++AQMEGLQVD K+A+Y+K F  HPVAIGKAISK ERDETD+ G+STLVYGEITFKTLALALHKVKTKYGLPGVGSSG  GVLQ G GG FYDIGSGTGKPV AAAI HPFH+AVGIEILEGL++TS E+LK W+ G+RD VGH Q  T+VEF  GDA+D +VCDWSD  VVFANSTCFDD LM +LA AATALKKG IFITLTKR+PA YFKVLEHDMFPMSWGSATVYISQKTT PF DP   ++
Sbjct:   41 QAKTKADLAKVAEKLREDATEAMEEMRKRAARYRETPKEDTD-DLTAQMEGLQVDSKMALYDKLFEAHPVAIGKAISKTERDETDQSGNSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGPAGVLQEGSGGAFYDIGSGTGKPVFAAAILHPFHKAVGIEILEGLYSTSRELLKAWDGGIRDRVGHGQERTKVEFFLGDALDMNVCDWSDATVVFANSTCFDDTLMRRLASAATALKKGTIFITLTKRLPAAYFKVLEHDMFPMSWGSATVYISQKTTAPFGDPSAVEE 330
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A7S2RS53_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=2 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2RS53_9STRA)

HSP 1 Score: 257 bits (656), Expect = 1.180e-74
Identity = 138/281 (49.11%), Postives = 186/281 (66.19%), Query Frame = 3 
Query:  534 QMEGLQVD---DKVAVYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWE---EGLRDSVGHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDPFQDPKET-------QDESRGPVKVAGAGASGGSYKQDAELEE 1337
            +++G+ +D    + A+Y++     P  +GK +SK ERDET ++  + LVYGEI F++  +A  K+K+ YGLPG G++  +GVLQ  GG+FYDIGSGTGKP IAAA+ HPF    G+EILEGL+ TS+++ +++    + +    G    TRVEFVHGD  D +  DW+DG+VVFANSTCFDD+LM  +AK A  +K G+IFITLTKR+P+  FKVLE  ++ MSWG ATVYI QK TDP +DP+E        Q +  G      AGA  G   Q A LEE
Sbjct:   58 ELKGMAIDRVAQRKAIYDQVVEPFPTKVGKHVSKKERDETGKN-QTNLVYGEINFESFGIAFEKIKSTYGLPGEGTTPVQGVLQAPGGIFYDIGSGTGKPAIAAAVLHPFESVGGVEILEGLYETSLQVAERFTAVGKPMLADAGETVETRVEFVHGDVTDLATLDWTDGDVVFANSTCFDDSLMQAVAKLAGGMKMGSIFITLTKRLPSKSFKVLEQQLYQMSWGGATVYIQQKLTDP-EDPEEXXXXXXXGQGDEEGAADNDAAGAGSGDPNQ-APLEE 335
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A836CL60_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CL60_9STRA)

HSP 1 Score: 251 bits (640), Expect = 3.400e-73
Identity = 140/261 (53.64%), Postives = 174/261 (66.67%), Query Frame = 3 
Query:  456 ALEEMRKRAARYRETPKDTTDEDMSAQ--MEGLQ--VDDKVAVYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSVGHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTT 1226
            A+EEMRKRA RYRE P D  +E ++A    EG Q  V     +++K F +HP+A+GKAIS+ ERD   +   STL YGE+TF  LA+AL K++  +G   V  SGE G LQ  GGVF D+GSGTGK VIAAA+FH F    GIEILEGL+ TS+EI K W+E  R+  G      V F HGDA D  V DWS  +VVFANSTCF DALM  +A    +L+ GA  IT T+++P+P F VLEH M+ MSWG ATV+I QKT+
Sbjct:   28 AMEEMRKRAQRYREKPVDALEESLAALDLKEGGQGLVSRMHQLHDKIFIEHPIALGKAISRKERDHLGKAASSTLTYGEVTFDALAVALSKIRHVWGPKAV--SGEAGPLQEPGGVFVDLGSGTGKGVIAAALFHRFTACHGIEILEGLYKTSLEIKKSWDEKHREEAGAS--ATVNFWHGDATDLGVFDWSTADVVFANSTCFHDALMRSIADCCASLRVGAFVITFTRQLPSPLFTVLEHQMYEMSWGGATVFIQQKTS 284
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A7S2GDF8_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2GDF8_9STRA)

HSP 1 Score: 211 bits (537), Expect = 7.440e-60
Identity = 103/184 (55.98%), Postives = 133/184 (72.28%), Query Frame = 3 
Query:  708 LHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSV-GHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDPFQDPKETQ 1256
            L K+KTKYG+ G  ++ ++G++Q  GGVFYDIGSGTGKP IAAA+ HPF    G+EILEGLH++S E+   W     + + G     R EF  GD  D    DWS+GN++FANSTCFDDALM K+A  A  LKKG+IFIT TK++P+PYF+VLE++M+ MSWG ATV+I QKT+DP   P ET+
Sbjct:    1 LQKIKTKYGVAGQYANDDEGIMQKPGGVFYDIGSGTGKPAIAAALLHPFDLVSGVEILEGLHSSSQELAAVWNNTAHELLPGDAIIPRAEFTLGDGTDMGCLDWSNGNLIFANSTCFDDALMEKIADKAALLKKGSIFITFTKKLPSPYFEVLEYEMYQMSWGGATVFIQQKTSDPIS-PTETE 183
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A482SE85_9ARCH (DOT1 domain-containing protein n=1 Tax=archaeon TaxID=1906665 RepID=A0A482SE85_9ARCH)

HSP 1 Score: 207 bits (528), Expect = 1.530e-57
Identity = 109/251 (43.43%), Postives = 154/251 (61.35%), Query Frame = 3 
Query:  483 ARYRETPKDTTDEDMSAQMEGLQVDDKVAVYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWE-EGLRDSVGHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDP 1232
            ++  E P++    +M ++++ + V +   +Y+      P  +GKA+SK ER+E     D  L+YGEI F TL L   K+K  YG P  GSSG  G++QG GG++YD+G+GTGK VIA+AI H F    GIE LEGL + S++ L  +   G       +  T  +F+HGD +     DW D +VVFANSTCFD  LM  +AK A  +KKG+ FIT+TKR+P   F  ++ +M  MSWG A+++I QKTTDP
Sbjct:    2 SKIEEDPEEQKLAEMMSKLDMVSVLENKEIYDSIMQSFPTQLGKAVSKKEREELSLK-DPNLIYGEIVFDTLGLVFEKIKKVYGRPYQGSSGPSGIMQGRGGIYYDLGAGTGKGVIASAILHNFDVCYGIECLEGLFSLSLDALNSYNTRGKARLSMREHDTHCQFIHGDFLKPRTKDWRDADVVFANSTCFDTNLMMDIAKLAVGMKKGSFFITITKRLPCKDFVTVDCEMQRMSWGEASIFIMQKTTDP 251
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A6T7BPQ5_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A6T7BPQ5_9STRA)

HSP 1 Score: 197 bits (501), Expect = 4.780e-55
Identity = 92/151 (60.93%), Postives = 115/151 (76.16%), Query Frame = 3 
Query:  789 VFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWE---EGLRDSVGHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDP 1232
            +FYDIGSGTGKP +AAA+ HPF R  G+EILEGL+ TS+++   WE   + + ++ G +  T + F HGDA D  VCDWSDG+V+FANSTCFDDALM K+A  A  LKKGA+FIT TKR+P+ +F+VLEH M+ MSWG ATVYI QK TDP
Sbjct:    1 LFYDIGSGTGKPAVAAALLHPFERVHGVEILEGLYRTSLDLAATWETRGKEILEAAGQEHATEIGFTHGDATDPEVCDWSDGDVLFANSTCFDDALMKKVAGQAVTLKKGAVFITFTKRLPSHHFEVLEHQMYQMSWGGATVYIQQKMTDP 151
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A7S2X7Y4_9EUKA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Lotharella oceanica TaxID=641309 RepID=A0A7S2X7Y4_9EUKA)

HSP 1 Score: 199 bits (505), Expect = 2.050e-54
Identity = 107/213 (50.23%), Postives = 140/213 (65.73%), Query Frame = 3 
Query:  597 PVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSVGH-QPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDP 1232
            PV+IGK  S  ERDE  R G STLVYGEI F+   + + K+K  YG            LQ  GGVFYDIGSGTGKP  AAA+ H F +A G+EILEGLH  S+ +L++W + +R ++   +  T ++F+ GDA+ +   DWSD ++ FANSTCFD  LM +LAKAA ++KK + FIT TK +P+  +KVLE +   MSWG ATVYI QK  +P
Sbjct:   51 PVSIGKKASSKERDEK-RLGASTLVYGEIRFEPYGVTIEKIKKWYG-----------GLQKPGGVFYDIGSGTGKPTFAAALLHDFDKAYGVEILEGLHKISVTLLERWNKAIRPNLNKAKQETDIQFICGDAVAY---DWSDADLCFANSTCFDSKLMQQLAKAADSMKKDSFFITFTKELPSKAWKVLEAERHNMSWGQATVYIQQKLAEP 248
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: F0XWY6_AURAN (DOT1 domain-containing protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0XWY6_AURAN)

HSP 1 Score: 192 bits (489), Expect = 1.770e-51
Identity = 111/238 (46.64%), Postives = 141/238 (59.24%), Query Frame = 3 
Query:  570 VYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKT----------LALALHKVKTKYGLPGVGSSGEKGVLQGEG-GVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEE---GLRDSVGHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDPFQD 1241
            VYE  F + P   GK ISK ERD    +  S+LVYGEI F +             AL K+K  YG PGVG+SG+ GV+Q  G GVFYD+GSG GKP +AAA    F    G+E L GL   S +    +EE    L  S+G   P  V+F   D  D    DWS G+VVFANSTCFDD ++  +A+ A  LK+GA FIT TK++P+ +F+V E ++  MSWG ATV+I QK TDP  +
Sbjct:   51 VYEAIFGRWPATHGKIISKRERDARGMNA-SSLVYGEINFASSGAAKGRDASFGAALLKIKAVYGRPGVGASGDGGVMQAPGSGVFYDLGSGAGKPAVAAATLFEFEACRGVEYLGGLVRASRDAKAAYEEVGVPLLASLGRTGPA-VDFYEADVTDLGAHDWSGGDVVFANSTCFDDGMLAAVARRAARLKRGAFFITFTKKLPSDHFEVRESELHQMSWGGATVFIQQKVTDPADE 286
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A2R5GI67_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Hondaea fermentalgiana TaxID=2315210 RepID=A0A2R5GI67_9STRA)

HSP 1 Score: 182 bits (462), Expect = 6.110e-48
Identity = 100/223 (44.84%), Postives = 137/223 (61.43%), Query Frame = 3 
Query:  570 VYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSVG---HQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTD 1229
            +++K    +P AIGKA+SK ER + D   + +LVYGEI F+T ALAL K++ KYG            L   GG+F D+GSG+GKPV AA + H F R +GIEIL GLH  S ++   W E      G       T++EF+ GD   F+V DWSD  + F NSTCFDD +M +L + A  +K G+ FI+ T+RIP+  ++VLE++   MSWG ATV+I Q+  D
Sbjct:   88 IFKKICGHYPAAIGKAVSKKERQD-DALEEQSLVYGEIQFRTFALALEKIRHKYG-----------GLSEPGGIFVDVGSGSGKPVFAAMLMHEFDRVIGIEILTGLHELSRDMEAIWHERKHKIGGITEKMSKTQIEFIRGDI--FNV-DWSDATLAFVNSTCFDDEMMNRLVEPADKMKPGSFFISFTRRIPSENWQVLEYERHLMSWGDATVFIHQRKAD 295
[Close]
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Match: A0A812WQD4_9DINO (Histone-lysine N-methyltransferase, H3 lysine-79 specific (Fragment) n=1 Tax=Symbiodinium sp. KB8 TaxID=230985 RepID=A0A812WQD4_9DINO)

HSP 1 Score: 165 bits (417), Expect = 2.140e-42
Identity = 98/220 (44.55%), Postives = 128/220 (58.18%), Query Frame = 3 
Query:  561 KVAVYEKAFAQHPVAIGKAISKMERDETDRHGDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDIGSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSVGHQPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALKKGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQK 1220
            K AVY+      PV +GK  S  ER E     DSTL YGEI F   A ALHK++  YG       GE+ +     GVFYDIG+GTGKPV AAA+   F + +GIEIL GLH  S+E+ ++W++ +  ++     T    +     DF   D ++  V FANSTCF D LM KLA+A    + G   IT T+ +P+P +KVLE ++  MSWG ATVYI QK
Sbjct:   41 KSAVYDYLIKHTPVKVGKKASSEER-EAMVGADSTLTYGEIAFAPFATALHKIRDVYG-------GEQAMK----GVFYDIGAGTGKPVFAAALLGDFSQCIGIEILTGLHGISLELQQRWQDKVLPALPEG--TASASIDLRCEDFLNVDMNNATVWFANSTCFSDKLMGKLAEAVVDQEVGTFAITFTRSLPSPKWKVLESELHQMSWGGATVYIQQK 246
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig883.19.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JPB2_9PHAE1.180e-13875.95Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S2RS53_9STRA1.180e-7449.11Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A836CL60_9STRA3.400e-7353.64Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S2GDF8_9STRA7.440e-6055.98Hypothetical protein n=1 Tax=Dictyocha speculum Ta... [more]
A0A482SE85_9ARCH1.530e-5743.43DOT1 domain-containing protein n=1 Tax=archaeon Ta... [more]
A0A6T7BPQ5_9STRA4.780e-5560.93Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S2X7Y4_9EUKA2.050e-5450.23Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
F0XWY6_AURAN1.770e-5146.64DOT1 domain-containing protein n=1 Tax=Aureococcus... [more]
A0A2R5GI67_9STRA6.110e-4844.84Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A812WQD4_9DINO2.140e-4244.55Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig883contigA-nodosum_M_contig883:107286..137672 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LS74
PFAMsDOT1
Model size2582
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons8
Evalue8.91e-149
EggNOG OGs2BR00@1|root,2S3F7@2759|Eukaryota
DescriptionHistone methylation protein DOT1
Cds size1152
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig883.19.1prot_A-nodosum_M_contig883.19.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig883 107489..136445 +


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

Feature NameUnique NameSpeciesTypePosition
1680870293.9013271-UTR-A-nodosum_M_contig883:107285..1074881680870293.9013271-UTR-A-nodosum_M_contig883:107285..107488Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig883 107286..107488 +
1680870294.0136743-UTR-A-nodosum_M_contig883:136445..1376721680870294.0136743-UTR-A-nodosum_M_contig883:136445..137672Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig883 136446..137672 +


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

Feature NameUnique NameSpeciesTypePosition
1680870293.917082-CDS-A-nodosum_M_contig883:107488..1077411680870293.917082-CDS-A-nodosum_M_contig883:107488..107741Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 107489..107741 +
1680870293.929221-CDS-A-nodosum_M_contig883:132000..1320951680870293.929221-CDS-A-nodosum_M_contig883:132000..132095Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 132001..132095 +
1680870293.9400542-CDS-A-nodosum_M_contig883:133602..1336851680870293.9400542-CDS-A-nodosum_M_contig883:133602..133685Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 133603..133685 +
1680870293.9532893-CDS-A-nodosum_M_contig883:134179..1343691680870293.9532893-CDS-A-nodosum_M_contig883:134179..134369Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 134180..134369 +
1680870293.964869-CDS-A-nodosum_M_contig883:134914..1349651680870293.964869-CDS-A-nodosum_M_contig883:134914..134965Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 134915..134965 +
1680870293.976481-CDS-A-nodosum_M_contig883:135170..1352611680870293.976481-CDS-A-nodosum_M_contig883:135170..135261Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 135171..135261 +
1680870293.9891922-CDS-A-nodosum_M_contig883:135526..1357021680870293.9891922-CDS-A-nodosum_M_contig883:135526..135702Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 135527..135702 +
1680870294.0011704-CDS-A-nodosum_M_contig883:136232..1364451680870294.0011704-CDS-A-nodosum_M_contig883:136232..136445Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig883 136233..136445 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig883.19.1

>prot_A-nodosum_M_contig883.19.1 ID=prot_A-nodosum_M_contig883.19.1|Name=mRNA_A-nodosum_M_contig883.19.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=384bp
MPMLTGSEETTNSPGEASAEQGTDSAETTSQVASRREPQEGVAPAHGPTE
TTSASTLKSSSTSQVESKQNLVKAAETLLEDAGQALEEMRKRAARYRETP
KDTTDEDMSAQMEGLQVDDKVAVYEKAFAQHPVAIGKAISKMERDETDRH
GDSTLVYGEITFKTLALALHKVKTKYGLPGVGSSGEKGVLQGEGGVFYDI
GSGTGKPVIAAAIFHPFHRAVGIEILEGLHATSMEILKQWEEGLRDSVGH
QPPTRVEFVHGDAIDFSVCDWSDGNVVFANSTCFDDALMWKLAKAATALK
KGAIFITLTKRIPAPYFKVLEHDMFPMSWGSATVYISQKTTDPFQDPKET
QDESRGPVKVAGAGASGGSYKQDAELEEPAGTE*
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mRNA from alignment at A-nodosum_M_contig883:107286..137672+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig883.19.1 ID=mRNA_A-nodosum_M_contig883.19.1|Name=mRNA_A-nodosum_M_contig883.19.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=30387bp|location=Sequence derived from alignment at A-nodosum_M_contig883:107286..137672+ (Ascophyllum nodosum dioecious)
CCCTTTTTTTTTCTATAAAATGCATGCGTAATACGTACGAAAACGATCGT
GGTATTTTTTCCTCTCCTCTTTGTTGCCGAGAAACGTATGGTTTAGTCTT
CAACGTGCCAAGCTTCGGCGCACGTAGCACTGTCCAGTCTTCCTTACTGC
ATCTTCTCAACCGCCGTCTCCGCTCGGAATACGACTCCGTTCAGTCTTAG
ACCATGCCGATGCTGACTGGATCTGAAGAAACCACGAACAGCCCAGGAGA
AGCCTCGGCGGAACAAGGCACGGATTCTGCGGAAACGACATCTCAGGTTG
CGAGCAGACGAGAGCCGCAAGAGGGAGTGGCGCCAGCGCACGGTCCTACC
GAAACGACGTCTGCGTCGACGCTAAAATCGTCGTCAACTTCTCAAGTAGA
GAGCAAGCAGAATCTTGTCAAGGCCGCTGAAACGCTCCTCGAGGACGCCG
GGCAAGGTGCGACGGATAATGATGACAAACGAGATACTCCTGTGCCATGA
TACTATATTTTTCTTTAAAAATACTTGTTCAGCTGGGAATGCCGAACCCC
TCTCGCGAGACCAATTTCTACAGTGTATGACCATATATTACATCCCCCTT
AGTCGCGTTTGATCAGAGGTTTTCGTAACAAGTATCATTGATCCCCCCTT
GGGAGGATCAATGCGAGTGGCATAGAACGACTCGGATGACAGGGCCGGAT
TGCGCGGTTATGTGCAATTTAATAAATATACATACATACATACTGTAAGT
ATTTGTAACTACAGTAACTCATGATGCATAGTCATCACATGTAGCAAGGG
TAAGGGTCGACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGGTGAACA
GGCAAAATGAATGGTTTCTGTCCCCGTTAGCGCCTGAGAATTTAGTCTCG
CGAGACGGGTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCGTCTTCATGA
TCAGGTTGAATCTGGCCCTCCCGATTTCTACGGCGGCGTCCATTTGCTTA
TTTAAACCGCTGTACGCCATCGGGTCAGTCCCAAGTTTATCGTGTCACGC
AAATGCGTACAGATGGCGTTCACTGCCGAGAGTCCGCTGGCACAGGACCA
GTAAACCTCAAGGTAGTTCCACACGGATACTGCCTTGGCAGGTCACCATG
GACCAACTCGTATGCGCCTCTCTTTCCCACACCCACTATGGGTATGAAAT
GGGCATGCTGAAAGTACCGGCGGTTGTACCCTGGGGAATAAAACGAGCAC
AGTACTTTTTGACGAACTGCACGTCCTACAGTTCCACAGTCGTGGCGGAT
ATCTCCATTCAGCATTCCTTGGAAATGTGTGTATATTGTGTTATCTACTG
TAAACAACAAAAAGCTGTTTCCGAGCTGTATACCCCTGACACGTACATAT
TTCGGCTTTATAGAACAGACAAATAGGCAGTAAGTGTAGTACGAGGACGA
CAACTAACTGCTCTAGTGCACTCATCGTGTACCTGTACTGCGTACCTGTA
CTGCACAAAAAGCACATTCTCCCGATATAAAAATGCATATTATTATTATT
ATTATTAACGGCACATTAGCCCGATCTCTCGAACCCGTGGTCACAGAGTG
CAAGGAGCATACCATCCATACCCAAACGCAAATCGTGGCTAGCAGAAAGC
CAAAAGAAATAAAACATACACACGAAGGCGAGGCAAACTTCACCACATAA
TCAGCACAAAAGCCCCATCGAACTACAGCAATGTTGACCCGCCACGGAAC
CGGCGCACAACGCCCGATTACCTATCACAGACTCGCTGCTACTGATGCTG
TCGCAGGGCGACACGCAAAAGATGACAAGCATACGAAGTGTCACATGCAA
AACCCCCGTTGGCCAAGTTTACTATACTGTCTGAAGTGCTGCTCAAGAGA
CCCTCTCGGCAAACAACGTGGCGGAGACGACGGCACAAAACAAAAGTATA
GGAAGGTCCaaAAAAAAAATTAGAGAACTTGAGCTGGGTACGAGGGAGCG
GGGGGAAAGCGGGCGGCTTCTCTACCTCAATCAAGTCAAAGTCACGTCTA
GCAACACAACAGACAGGGCATGTCATTGCCTACACACGACCAGCGCTATC
GGCATAAGACAGAATTTGTCCAGAGTGTCCTACATCAGCCATGAAAACAT
GGGAAACCATCTGCAATATTGAAAAGAACAACAAACTTCACATAATTTTC
AGTAGAAAGATGATCATCCGCTCGTCGATGATGCCCTTGCTCTGCTCTCT
TCGCTCTTCCTTTCGCGGGGCCGGCTCCAGGCGCTACCGTCCATCCTCGC
CTGCGTCCATGGTCCCACGTATCCTCTCGTCTTTGTTCATAGTCCTTTGC
CCCTCTGCTTCTTCGTGCGATATACCTCCTCCTTCGTCATGCACCCTGGT
TCTGGTCTTTGTTTTTTCACGACCGAAGGCTCAACCACACCATCCGCCCG
TCGACGGCCGCTCCTCCACCCTTGCCGCCGAGTCCAGCCTACACACCGGG
TGCACTGAGTACATACCGGCTTTCGACTACAGTGTCATCTGCCTCCGCGC
ACGCACCGAATCGCCTAACATGCCTGCGTTTGAAGCGCTGACATGTACTG
CTCTCACAGGGGGGATGCGTGCCTAATGAGCACCGCGCTGACCCAACTCC
ACCACCACACCACGGCCAGGGCCAGGGCGGTGGTAGCAAGAAGGAATCAT
TCTCCTTGAGGGTGAGTCCGGCCTTACACCCGCCAGAAAGACCCTCCCCA
CGCCGCGCCGACATGGCCGATCATGGCCTTGGTCGGGAGACGCGGGAACG
GAGTATACGTATATATAAATCCAGAATAATTTTCACACCTTTTGGCTACT
CCCCCCGCAAGATGTAGACTACATTACGGTTGGTGGTGGTATACAGTATA
CAGTCAGTATAAGCTTCATTTATTAATTACTCCGGCAACAACAAACAACT
AGTATGCACGTCGGCTGTCTTTTTTAGTACGGGAGTGTTCGTTCGTTATC
CACCATGAAGCGTTCAATGCCAGTGGTACTCGAACACTAACGTACATATT
AGCCCTTTCTATAACAACAACAACTGCAGCTATCTACTGTAGTTGTAGAG
CGATATTCCTTACTCGTAGTTAGTGTGGGAGAAAACATCTTTTGAACATC
GTTTTATTAATAGAGCACATGGTCATCACATGTAGCTGAGTATGGATCAA
TCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGCTGAACAGGAAAACAAA
AATGAACATTTCCCTGTATCCATTTGCGCCGGAGAATTTGTTCTCGCGAG
ACAGGTTCGGCCGTCCCGTCCCGCGTCGGCCTGCTCATTCTCCACGCTCA
GGCCGAATCTGGTGCTTAATCACGGGATTCCCCCCGATTTCCGCGGCAGC
GTCCATTTATTTAGATCGCCATACGCCATCGGGTCAGTCCCGAGTTTATC
GGGTCACGCAATAGCGTACCGATGGCGCTCTCAACGGGATTGCATTTGAT
AGGTCCGCCGTGTCACCGTAGTTTCTTCAGGCAAGGACAATACGCTGAAT
GTGTGAATCAACAACAACTGCCGAGAGTCCCCGTAAAGGGGGTAGTTGCC
TTTTCAGGTTTCACCATGGACAAATTAATGTGTACCTCTCTTTTCCCACA
CCCACTATTGGCATGAAGTGGGCATGTTGAAAGTATTGGCGGAGTAGTGT
GGATTAGCCACACCGAGAGAAGCTGCCGCTGTGATACCCTCACTCGAAAT
AGTATAAATATCTTGTAGCGAATCCGGCAATCGAATCGGATCAAAAAATG
TATGGTGCTTGGTGCTCGTCTGACAAGAATTACATGTCTTATCCACAGAA
ATATAGTGAAAGGTACAGTACTTATAGTACAGTACACAGTTCAATACTCT
TAAAAGTATAGTATACAGTTCAATACTCTTATAGTACAGTATACAGTTCA
AGTATTATTAATAGTTAAAAGCGCTCGGTGTAGTACTAGTATTAATATTA
AGTTTAATAGCAGTATAATGTATATTAGTGTAGTCGGGGGCCCATCTATT
CATTTTACTGTCGGCGAAATTTCAATTTTCCTACTCAGGTGCATGCAGGA
GTGGCAACCATACCGGTTGATTCCCAATATGCTGTGATACACCTGGTATG
TGATGACAATACGGCTGTGTATGTATGCGTAGTCACACATTTAGCATGAG
TATGGATCAACCGGGTAATGTTACCAATCCTGCACGTGGTCAGCTGAAAA
GGGAAAATGAATATTTCCCTGTCCGCGTTCGTGCCTGAGAATTTGGTCTC
GCGAGACGGGTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCATCTTCATA
CTCAGGCTGAATCTGGTGCTTACTTACGGGATTCCTCCCGATTTCCGTGC
CGGCGTTCATTTATTTATTGAAACCGCCATACGCCATCGGGTCAGTCACG
AGTTTATCGGGTCACGCATTTGCGTACCGATGGCGTTCACTGCCGAGAGT
CCGCCGACGCGGGACCAGTAAACCTCAAGGTAGTTCCGAACGAGTGCTGC
CTTGGCAGGTCACCATAGACCAATTAATATTCGCCTCTCTTTCCCACACC
CACTATTGGTATGAAGTGGGCATGTTGAAAGTACCGGCGGTTTTTGTGCA
CGTAGATGAACCTTTTTGTCGAATGGTAACGGTGGGGGCTTCCCCCCGGC
GTGTTAGTGTTTACCATGTGCGAAAATCATTGGGGAATCGAATCAAGTTG
AATCGAATCGAATCGAATCCGTCTAAGGATATGGAGTAAAGGAGGTTTGA
TGTACCGTTTTGTTATTGGTCGGTGCCATCGCTTGTAGAGTCGCATAACT
TTTTGTCGCGATTTGGATCCCTGTTGGTCCGAGTAGCGGGTTGTCACCAT
GATGTGACCCGTTGACCTTGGTACCTCTTTGTGGCCACGTACCGGATTGG
CAACCACGTATATTATTGGGTATGGTTGAGGCCCGATCGGTTAATGTGAA
GAATACAACAACAACAAGGCCATTCGGAGTTTCTGTTCCTAACCAAACGT
TTCAACATGCTTCTCCCGTATGAGGGTGGATGCTCGTTGGCTTTATTATT
ATACTTGTATATAGTAATATAGTTATATAATAGTGGGGAGCTATTATTAT
TATTAGCACGGTATCGAAGGTACTCTTTAAACAGTACAGTACACAGTATT
TTTACTTCGTTCCTCGCTCTCTTGTTGATGGGGCGAACCCACCCGCTATT
AAATACTCCGTAGGTTTGTCAATTTCTAACGACCGTGCCACCGATACGAT
GCCACCTACATCTACGTCAACGATTCGCTGCAATTTCTTGTTGCTTGCTG
GTCATGAGGGCGGAAAATACAGCTGAGAGCTATTAATATTAGTATGTACC
TGTTATGCACAGTAGTAGTACGCCATCTTTGCACTAATTACGCCTTATAC
TACTATTCTTTTAAAATCTTGCGGCCTCAAAAACCTCGCGGAACACATCG
AAAGGTTCAAGTTTCGATACTAGATGTACAAAGTGTAAATACCTGCTGCT
ATGCTATCTGTTGTTGTTGTTGTTTTCTTCATATTAACCGATCGGGCCTC
AACCATACCCAGTAATATACGTGGTTGCCAATCTATTAATACCTGTCGTA
AGATACTTCAACTCTATTAATAGTACTATTTACTGTATTACAATGTTGGG
ACATGAGGACAACTCTAAATACTGTTCCATGGTTCTGTACTCGAAGCACG
AACAACTCGGCATAACTTTGGTCGGCCGTATGCATGGCTGATGGCTGACG
GCTTATGGCTGACGGCTGACGGCTGATGGTTGGAAACCGAAATTGGCTGA
TGGCAGGTGGCTGATGGCTGATGGCTGATGGTTGATGGCTGATGGCTGAC
GGCTTATGTCTGATGGCTGACGGCTGATGGCTGGAAACCGAAATTGGGAA
TTGAGTCCGAATCCTAGCTGCAGTCACACGAACTGGGATTCTAACTCATG
CAATGCCCAACACGTGGAGAGCGGCTAATTTGTCGTGGGTACACAAAATT
CGACCTCAACGTCGACGAGGGAAGGGAGGGCTGAACCCTTTTCGCGATAA
AAATTAATAATAAAAGGCATGTATCGCAGTGGGAAGGATGTGTGGCCTTT
CTACTGTTGTGACCCCGGCTGGAGCGTCTTATCAATATATCGAAAGATAT
ATTCTCACGCAATATAAGGGTGATGATGATGCCATACCTGCCAGTACTCG
TAAACCTGTTACCTATTACCTATTACCTATTAATACCAGTAGGTCTTTAG
TCCTTTTGTACTGTCTGTTGATAGGTAATAGGTAATAGGTGTTGCGTGTC
CCGTCGTGGTGGCCAGGTTTTTCTGTGAGTCTTGTGTGTTTGATAGACAC
GCCTCTCCCATTGAAATATCAATAGTATTATTTATTGTTACACCCAACTG
CAAGTTTGAGTCCCGGGACGTGTTGCTCTATGTAGCTAGTAATAGAGTAG
AAATACATGGATGTGTTAATTAATATGGACAGGATTGAGAGTATGGGGGT
TGGGAGTGCAAAGAAAATGAACGCATCTACAGGAAAATTTTCTGAGCATC
CACCCTATAAGGGGTGGAAATTGTCAAAACATTCCGTTGGGAACATAGGC
TGTAAGGACGAAAGCTCGTGATGGGATTCGTTTGGTGTGGTGGGGTGATA
CAGTAGCTCTTTCTCTTTTATGCTATTAATAGTATTAGGGTCTTCTGTCT
ACAGCGACGGTGAAACTATTCGTAGCGAACAATTACACGACTAGACTACG
CCTATTTTTCAACAGCAGCCTATCTATAATGATAACTCCAGTTTGCAGTT
TTATCGTTGCGCAGGTTCAGCGCGGCATCCGTTGACCTTGACAACCATGC
AGTGATGTGCTCTGTGTACAGGTTTTCTCATACACAAATTGTAGGCTACC
GTACTTTTATGCTGCAGTAATTTCCTCCTACAGTAATCTAATTCCCTGTC
ACAGTAATTCCCTAGTACTGTACTGTAATTCCTTGGTACAGGTACAGCAA
TTCCCTGGTACAGTAATCAGTAGTAATTTAATTCTCTGCTACGGTAATGC
ATCCAAATGCCCACTTTCCTTCTACGACGGCATTACTATATATGTATGTA
TGTATGTATGTATGTATGTATATTTATTAAATTGCACATAACCACTCCCA
ATCCTCGCAAGGAAGGATCAATGATACGCCCTGTATGTCATCCTAGTCAT
TCTATGCGCAATCGGCTGTAATCGATCCTCCCAAGGGGGGATCAATGATA
CTTGTTACGATGTATGTATGCATGTACTGTATGTATGTATGCATGTATGT
ATGGTCATCACTTATAGCAAAGTATGGATCAACTGGGTAAGGTTGTCAAT
CCTGCTCGAGGTCAGTTGAACAGGGAAAATAATATTTCCCTGTCTCCGTT
CGCGCCTGACAATCTTGTCTCGCGACACGGGTTCGGGCGTCTCATACCGC
GTCAGCCTGCTCATCTCCATACTCAGGCTGAATCTGGTGCTTACTTACGG
GATTACTCCAGAGTTCGGCGGCGGCGTCCATTTATTTATTTAAAACAGCC
ATAGGTCATCGGGTCAGTCCCGAGTTTATCGGGTCACGTAATTTGCCTAC
TGCCGAGAGTCCGCCGGCACAGGGCCAGTAGTCCTCAAGGTACTGTAATA
ACAGTTCCAGTGACGAGTGCTGCCTTTTCAGGTATCACCATGGACCAAGC
CAACTAATGTGCGCCTCTTTTTTCACACACCCACATCAGAAAGTATTGGA
ATTGGTATCAATGTATGTATGTATGTAAGGTCATCAAATATAGCAAGAGT
TGTTGTTTTAAGAAAATCAGAACGCACCTAGACCTTCTGAGCATCCCTCA
GTTAGGGGGGAAAAAATGTCAAAACGTTCAAGTTGGATCAAAGGCTGCAA
ATACAAAACCTCTTCATGGCATTTAAACGAGTTCCCCGATGGAAATGACG
TTGGGTCAACAGTATAATGTCGGGGAGAAGCCCACCGTTATACTGTTTAA
AGAAAAATCAGAACACACCTAGACCTTCTGAGCATCCCCCGGTTATGGAG
GAAAAAATGTCAAAACATTTAGGTGGGATCAAAAGGCTGCAAATACAAAA
CCTCTTCATGGCATTCAAACAGGTTCCCCGATGCAGATAACGTTGGGTCC
ACAGTATAGTGTCGGGGAGAAACCCACCGTTATACTTCCAGCCGGACTTG
ATTCGGCACATCAAAAGACAAAAGATTTTGAATCTACCGTGTATACCAAT
TCCACCATGGAAGCCTAACCCCTACGATTTTAATAACGAAGCTTGATCTA
TGCGAATACTGCCACGAACACGGAAATAAACTAAAATAAGCGTGGAGGGA
AGAAGAGGAAGACGCGGCTAGACATCGCCAGGAGAAGAGAGAGGCAACGA
GACTGGGAAAGTTGCAATCGCACACGGAAGCGTAGAGTTTTGCGAAGCGA
CACCCATTGGCCTAGCTGACGAGTCGTAGGAATCCTTGTACGGATGCGAG
ACGGACCGAGACCACCTGCGTAACGCCGGCTTGCGTAGCGCCTAGACATG
TGGATGCGCCGCGTGATTTTCTATTTTTTTATTTTTTTTATTTTTATTTT
TTCTCCGAACGAGCAGCGCGCGCGGGTGGGGGGGGGTGCGCTGCCAGACT
TTTTATTTTTATTTTTTTCCCTGTTCAGCAGACCATGAGCGGGATTGGCC
ACCGTGTAAAGTAGTTTTTTTCGGGTTGGCAACCAATGCGCTGAATGTGA
GAAACAACAACAACAACAACTGTACATTTACATTAATCGCCATGCAGGGA
CACCAGAAAAACATTAAAACCAAACCAGAGACGATGTAGCACACCATCAC
ACATGGTAGTAGTAATATACATTACAAAGGCTATAAGTACAAAGCCACTA
CATGGTATTTAATTAACCGGGTTCCCCACTGGTAGTAACCTTGGGTCAAC
AGTATAATGTCGGGGAGAAACCCACCGTTATACTGTACGCTTATATTAAT
CACCATGCACAGCCACCAATCATACCCCAACATAACCACAGTAATACATA
GTTACGAGTGTAGTCCTACTATCGATAATAGTACCATCGAGACTTACAGG
GATAGGGGCTTGGGTAAATAGTACACTAGTATACTGTATAATTTCCTTAT
TTGTCATTCTCGGGTATTCAGAGGCTGCAAATACAAAACCACTTGCTGGT
ATTTTAAATAGGTTATATTAATCACTGTTATTATTATTATTATTATTATT
AACGACACATTAGCCCGATCTCTCGAACCCGTGGTCACAGAGTGCAAGGA
GCATACCATCCATACCCAAACGCAAGTCGTGGCTAGCAGAAAACCAAAAG
AAATAAAACGCACACACGAAGGCGAGGCAAACTTAACCACATAATCAGCA
CAAAAGCCCCATCGAACTACAGCAATGTTGACCTGCCACGGAAAAAAATC
CGGCGCACAACGCCCGATTACCTATCACAGAACCGCTGCTACTGATGCTG
TCGCAGGGCGACACGCAAAAAATGACAAACAGACGCCAATAATGTGGTAA
CGAATGTCACATGCAAAACCCCCGTTGGCCAAGTTTACTATACTGTCTGA
AGTGCTGCTCAAGAGACCCTCGGCAAACAACGCGGCGGCGACGGCACAAA
ACAAACGCATGGAAGATCCAAAAAATAGAAAAGTTGAGCCGGGGTAAGAG
AGAGCGGGCAGAAAGCGGCCGGCTTCTCTGCCTCAATCAAGTCAAAGTCA
CGTCTAGCAACACAACAGACAGGGCATGTCATTGCCTACACACGACCAGG
CGCTATCGGCATAAGACATAATTTGTCCAGAGTGCCCTACATCAGCCATG
AAAACATGGGAAACCATCTGCAATATTGAAAAGAACAACAAACTTGACAC
AATTTTCAGTAGAAAAAGAACCTCCGCTCGTCGATGATGCCGTCCTTGCT
CTGCTCTCTTCGCTCTTCCTTTCGCGGGGCCGGCTCCAGGCGCTACCGCC
CGTCCTCGCCTGCGTCCATGGTCCCACGTATCCTCTCGTCTTTGTTCCTG
GTCCTTTGCCCCTCTGCTTCTTCGTGCGATATACCTCCTCCTTCGTCATG
CACCCTGGTTCTGGTCTTTGTTTTTTCACGATCGAAGGCTCAACCACACC
ATCCGCCCGTCGATGGCCGCTCCTCCACCCTTGCCGCCGAGTCCAGCCTG
CACACCGGGTGCACTGAGTACACACCAGCTTTCGACTACAGTGTCATCTG
CCTCCGCGCACGCACCGAATCGCTTAACATGCCTGCGTTTGAAGCGCTGA
CATGTACCGCTCTCACAGGGGGGATGCGTGCCTAATGAGCACCGCGCTGG
CTGACCCAACTCCACCACCACACCACGGCCAGGGCCGGGGCGGTAGCAAG
AAGGAATCCTTCTCCTTGAGGGTGAGTCCGGCCTTACACCCGACAGAAAG
ACCCTCCCCACATCACGCCGACATGGCCGATCATGGTATTGGTCGGGAGA
CGCGGGAACGTACACTTACATTAATCGCCATGCAGGGACACCAGAAAAAC
ATTAACAACACACCAGAAACAATGTAGTACACCATCACACATGGTAGTAG
TACTAAACTATTATATAGGCTATAAATACAAAGCCACTACATGGTATTTA
AACGGGTTCCCCAATGGTAGTAACCTTGGGTCAACAGTATAATGTCGGGG
AGAAGCCCACCGTTATACTGTATGTATGTATGTATGTATGGTCATCGCAT
ATAGCAGAGTATGGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTC
AGCTGAACAGGGAAAATGAATATTCCCCTGTCCCCGTGCGTGCCTGAGAA
TTTGGTCTCGCGAGACGGGTTCAGCCGTCCCGTCCCGCGTCAGCCTGCTC
ATCTCTATACTCAGGCTGAATCTGGCTCTTACTTATGAGATTCCTCCCGA
GTTCCGCGGCGGCGTCCACTTATGAAACCGCCATACGCCATCGTGTCAGT
CCCGAGTTTATCGGGTCACGCAATTGCGTACCGATGGCGTTCACTGCCGA
GAGTCCGCCGGCACAGGGCCAGTAAACCCCAAGGTAGTTCCGAACGGGTG
CTACCTTGGCAGATCACCATGGACCAAATAATATTCGCCTCTCTTTACCA
TACCCACTATTGTACTGCTGTACACTTATATTAATCACCATGCACAGCTA
CCAGTCATAACCCAACATACCGACTGTAGTACATAGTTACGAGGATTGTA
CTAATGTCGATAATAGTACTATCGAACCATACAAGAATAGGGGCTTGGGT
AACCAGAAAAATGTAGGGGTATACTGTACAATATCATTAATTGCCATGCA
CGGGTATCGCACAAACACAGAATACACGGGAAGCCTGGGTTACAACTCTG
TTTACAGAAAAATCAGAATGCACCTAGACCTTCTGAGTTTGTTACATTTT
ATCTAGGATCGTATGGGTGTCACTGAAGGGGATTTAAGTATAGATGTAGT
AATCCTGGGAAATTGTACAATACCTTTTGTTATACGTATTTAACGAAAGA
TCAACCCCCGCCTAGTACTTTATTAAATAGTAGTATATGGTACAATGCAG
CCCCCGCCTAAATAGTACTTTAGTAGTATATGGTACAATGCAGTACAATA
CCGTAGAAATAATAATATGATGTCATAAGTAGTACATATCAAAACACACC
TAGACCTTCTGGGCATAAAAAACATTTAGGTGGGATCAAACCTTGGGTCA
ACAGTATAATGTCGGGGAGAAGCCCCCCGTTATACTGTACACTTATATTA
ATCACCATGCAGTTGTTGTTTCTCACAGCGCATTGGTTGTCAACCCGAAA
AAAACTACTTTACACGGTGGCCAATCCCGCTCGTAGTCTGCTGAACAGGG
GAAAAAAAAAAAAGTCTGGCCGCGTCCCCCCCCCGCGCGCTGCTCGTTCG
GAGAAAAATAAATAAATAAAAAATAAAAAATAACGCGACGCATCCAGACG
TCTAGGCGCTATGAAGGTCGGCGTTACGCAGGTGGTCTCGGTCCGTCTCG
CGTCCGTACAAGGATTCCTACGACTCGTCGGCTAGGCCAATGGGTGTCGC
TTCGCAAAATTCTACGCTTCCGTGTGCGATTGCAACTTTCCCAGTCTCGT
ATGGATCAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGCTGAACAG
GAAAAATGAATATTTCCCTGTCCGCGTTCGCTCCTGAGAATTTGGTCTCG
CGAGACGGGTTCGGCAGTGCCGTCCCGCGTCAGCCTGCTCATCTCCATAC
TCAGGCTAAATATGGTGCTTACTGACGGGATTCCTCCCGAGTTCCGTGGC
GGCGTCCATTTATTTATTTAAAACCGCCATACGTCATCGGGTCAGTCCCG
AGTTCATCGGGTCACACAATTGCGTACCGATGGCGTTCACTGCCGAGAGT
CCGCCAGCACAGGGCCAGTAAACCTCAAGGTAGTTCCGAACGAGTACTGC
CTTGGCAGGTCACCCATGGACCAATTAATATTCGCCTCTCTTTCCCACAC
CTACTATTGGTATGAAGTGGTTATAGCATGTTGAAAGTACCGGCTGCATC
AATAGTTGAAATCGATGTGAAAATCGATGGGATAAGCGGGAAAACTCCCT
TTCGGGAGGTACAGTACAGTACAGTACAGTAGAGTAACGGATGGATGGAT
GGTGTGGGTCGAAGTGAGCACTAGCAAGTAAATCATGAATATTTGCTCAT
GTTCGGCATTATTGTGGCTGACAACGCAAGTAAGCAAGCAAGCAAGCTAC
GAGGTACCGATAATGGAATGGTTGTAGCTGTTGAGGCATGGACACGACGG
ACTATCTGCAGCCAGGTTAGTTAGGTATGAAAAATCGGGAAAACCTGTGA
GCGAGAGGATATGCCGTGTTGCAGAACTAGAGGTTGTTATAACAGGGAAT
TCTAATTGTCATACGACACACCCCTTCGGGTTGAAGTTCTTCTTCTCACC
ATAATATTCGACAGTACTTAAGTGCACCTGTAATCGCGATTGGGCTTTTC
AAACTCGGTAAAGCATGAGCACCAACACACACCCAGGCGCAGGCAGAGGG
GAAAGCAAGACGCTGGAGGAGGGGTACGGAAGAACTGTAGAGAGAGTGTA
TCTATCCCCTTTGTCGCTTCTTGTCAGAGGTGTTTTAGTTCCAACGATCA
TCAATCCCCCATTGGAAGGACCAATGCAAGTGCTTGGGGCATATCTTCGG
AGTATATATATATATATTTGTGGAAGTAAGTATATATGTATGTATAGTCA
TTACTTTTTGAAGAGTATACCGGTCGACCCCGGTAGCTCAGTTGGCACCT
CGTAACCTTCTGACACGTTGGGACGTGAGTTCGATTCCGGCAAACGGGAT
TTTTCTCACAAAAAACTAAAAAACCAAAATAAAAATGCCCAACGGGTGGA
GAACGATTAATTCGTTAGTACACAAAAAATTCGACTTCACGGTCGACGAg
GGAAAGGAATGGCTGAATCCTTCTCGCGACAAAAATCAAGGCACGCACCG
CAGAAGGAAGGTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTGTGACC
CCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGGATGGGAAGAAAA
CACACACACACACACACATGGATCAACCGGGTAAGGGTTACCAATCCTGT
TTGTGGTCAGCTGAACAGGAAAAAGGAATATTTCCCTGTGCCCGTTCGCG
CCTAAGAATTTGGTCTCGTGAGACAGGTTCGGCCGTCCCGTCTCGCGTCA
GCCGCTCATTCTCCACATTCAGACTGGATCTGGTGCTTACGCACGGGATT
CCTCCCACTTTCCGGGGCGGCATCATATTAATAGTCCATTTATTTAGACC
GCGATACGCCATCGGATCAGTCCCGAGTTTATCAGGCCACGCAATTGCGT
ACCGATGGCGTTTACTGCCGAGAGTCTGCCGGCATAGTGCCAGTAGTCCT
CAAGGCAGTTCCAGTAACGGGTGCTGTCTTTTCAGGTATCACCATGGACC
AATGAATCAATGTGCCCCTCTTTTTTCCCACACCCATTATACTATTAATA
TTAATATTAATATTGATATGTAGTGTGTGTGTGTTATACAGAAAGTATCG
GACGCATGTGTACAAACTATTAATAGAGGGTTTTGTATTTTCAGCTATTG
ATCCCACCTAAACGTTTTGACATTTTTTCCCCCTGACTGGGGGATGCTCA
GAAGGTCTAGGTGCATTCAGATTTTTCTTTAAACACCATGTATGTATGTA
TGGTCACACATATAGCAAGAGTGTGGATCAACCGGGTAAGGTTGCCAATC
CTGCTCGTGGTCAGCTGAACAGGGAAACATTATATTTCTCTCTCCCCGTT
GGCGCCTGAGAATTTGGTCTCGCGAGACGGGTTCGGCCATCCCGCCCCGT
TATATCTATAGTATAATTATAATAATAGCACTCCAACTCCGTTCCTCCAC
ATGAGCTGTAAGCTTTCAGTTGTTGTTGTTGTTTCTCACATTCAGCGTAT
TGGTTGCCAACCCGAAAAAACTACTTTACACGGTGGCCAATCCCGCTCGT
GGTCTGCTGAACAGGGAAAAGAGAACAAAAGAAAAAGTCTGGCAGCATAC
CCCCCCCCCCCCACCCCCCACACTGCTCGTTTGGAGAAAATAAATGAAAT
CACGCGACGCATCTACAGGCGCTACGCAGGTGGTCGGTCTCGCGTCCGTA
CAAGGATACCTTCGGCTCGTCGACTAGGCCTATGTGGCTTCGCAAAATTC
TACACTCCGTCTGCGATAATAAGGTTCCCAGTCTCGTTGCTTTCTCTTCC
TGGCGATGTCTAGCCGCGTCTACCTCTTCTTTCCTCCACGCGGCCATAAA
CCTCCGCCTCCACCCTCCCAGACCGTCTCAACCCACACCTCAGCATTTAA
AGCCGTCGCTTTCCAGTCCCCATAAGCCAAACGTCCGGATGACGCTCTCT
GTACGCAATCGGTCCACTTTTTCCTTCCCACCCCGTCCCCTCCGTACTGC
ACCCTCAGGTTTCCGAAAGCGATTCGCTTCGGCAGCCGCCTGCCGCTCAT
TCGCAGGAGCGTCCCCGCCCACAAAGTCTTCTCGTTCGCAACGTCGTCTC
AATGCTTTCACACCCGGTTATCTCAAGGGCACGGTTGTACGAAGTCATTG
GTCTTTGCGCTGCACCCGATGATACGAAGCAAGACTCGGTGGTGTACGGT
GCGGAGTTTGGCGTAGTGTTCTGGCGAAGGGTCCACGTACCATCCATACA
AGAGGCCTCGATTGCCTCCGCCTTAACCATTCGGGTCTTGAGGGAGCGAG
ACTTTCGGTTGGTCGTAGAGCTCCCGTAGGTACCGCCTGATGCGCATCCA
GCATGCGCGGGTCCGTCTGGCGATTTCAACGGGACATGTCCGGGGACTTC
GGTCACCGCGCCCCCTAGGTAGGTGAAGGATTGCACCTGTTTGTACTTTT
TTGCCCGGCCGCTTCGATTTGCACCATCGTCCGCGTACGCGGTGGAGGCA
TGCACATGGTCTCCGTCTTCTTCGCCGACACGGTCAGCGCGAAGGCTCGG
CACACCTCTACGATGACTTCCATCATCTTAGCGAGTCCTCGCGGCGATCG
CGACTATGCAGGCGTCATCCGCGTACAGCATGCCCCACACCGCACGACGA
ACGTAGTCCATGGCCGGCTCCGGTCCCATCGACGTCGGCGGTTCCTTCAG
GTGCACCAGCTCGGCGAGGATGGCCGGTTCCTCACTGAATCTCTGGAGAA
CAACGGTCAGTACGGCCGCGAAGAAGAGTGGAACGAGGGAACTCTTGCGA
CAGGATAGTAAAGCAGACCACTTACTACATTATATAATCCGTTCGCTTTC
ACATATTAATGTACATGATAATAGTGGCACATCTTGGAGAAAAATGCTGT
CGGTACGTGTGTGGAGCAGGGTGCTTATCGACTTTACAAATGTGATGTGT
ACTCGTAGATGCTTATTTTTTCTGTATCATGCTCTCTACGATACCTGGTT
GCCTTCTGGGTAGTAGCCTGCCCCGCCCCTCTGATGGTGTGTTAAAAGTA
AGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTCTTCATATTACC
CGATCGGGCCTCAACCTTACCCAGTACTACGGGTATACGTGGTTGCCAAT
CCGGTAGTACTAATAGTATTACGTGGTCTGCTGGACAGGAAAGTATCATA
GGAACATCTACAAAGCTCCAACGAGAGCAGGACAACAAAAACAAAATAAC
AAAAACGACAAAACGAAAGGAATAACACAAAAGCACATGCCAGAGAAAGA
TAGAAGAAGGGCACTCGATAGAGAGTATTTGGTATACGGCCAGCCGCGAA
TCATCCGATACCCCTCCCCCCCGGATCGCAACTATTAATATTAACATCTC
TTTATAGCATTTGCACCCAAAGGCATATCATCTACAGCTCCTCGGGGTTT
CAGGTTTCTCTATCGGGACAGTCGACGCCGCTTGGGGAGTCCTTGCTAGT
GTGAAGAATAAACTTACCTATAATATGTAGCGCTACAATATACGTGATCT
AATACGTGATCTAATTATAATATCATAATGTTCCTTGTGTTTAGACTATT
GAAGCCCCTATAGTTTGTTGTATGGCTCGATGGCACTTTTATCGTATAAT
ATTAGATTACTACCCTGTTTTATGACGTACTAGACTACATTGTTTTATGT
TTAGTTTTTGTTTGGTGTCCCTGCATGGCGATCAATGTAAGTGTGCAGTA
TAACGGTGGGCTTCTCCCCGACATTATACTGTTGACCCAATGTTACTACC
ATAGGGGAACCCGTTTAAATGCCACGAAGAGGTTTTATCTTTGCAGCCTA
TGATCCCACCTAAACGTTTTGACATCTTTTCCCCTTGACTGGGGGATGCT
CAGAAGCAGATTTTTCTTTATTAAACAACAAACAATCAGTCTTACTATAA
ATAATAATATGAAGTACTCGCTGTACAAATATTAATAGTTCAAAAACGAA
ACGGCAGCACTTGTTCTGTAGAGTGTCAGAGTACCGGTATATATCTAAAT
CTAAATCTATACCTGGTATCTACATCCCACCATTATTTCATGTACAAAGC
TTTCTGTACATCGATTCATAGCGTTAGTTGGGTGAGCGTACGAAATGTTT
CAAAATGTTTTAGTCCACTTATACTATAATTGTATAGTTATGCTGCTGCG
AGGAAGTCCCCTCGCTTTCCGTTTAACCACAAAACTGTTGTTTAAAGAAA
AATCAGAGCACACCTAGACCTTCTGAGCATCCCCCGGTTATGGGGGAAAA
AATGTCTTGTTGTTGTTGTTATCGTTTCTTCCATTCAGCGTATTGTTTGC
CAACCCGAAAAGGCTGCTTTACACGGTGACCAATCCCGCTCGCGGTCTGC
TGAACAGGGAGCAGAGAACAAAAAGAGAGAGTCTGGCAGCCTTCCCCCAC
GCTGCTCGAACTGTACTGTACTGTACTGTACGGAGGGGGGGGGGAAGCAC
AGGGCGCGTACAATGAAGAAAAAAAAGAACAGATTGTCAGAAGGGCATCA
TCACGTGACGCATCTACATGCCAAGTAAGCGGTACGCGGGTCTCGGTCCG
TCTCGCGCCCGCACAGGATTCCTTCGGCTCGTCGACTAGGTCAATTGGTG
TTGTTTCGCAGGTTCTACGCTTTCGTGTACAATAACAACTTTCCCAGTCA
TAGTATCGTTGCCTCTCTCTTTTCCTGGCGATGTCTAGCCGCGTCTACCT
CTTGTTTCCTCCACGCGGCCATAAATCTCCGTCCACCCTTCTTGACCGTC
TCAACCCACACCTCTTCCTCCGACGCCGTCGCCTTCCCAACCCCCCGCTA
TACCAAACGCCCGGATGTCGCTCTGTACGCAATTGGTCCACTCTTTCTAC
TTGCCACCCGGCCTCTCCGCACTGCACCGTCGAGGTTTCCGAACATGATT
CGCTTTGGCAACCGCCCGCCGCACATCCGGATGAGCGCCCCTGCCCACAA
AAGTCTTCTCGTGCGCCACGTTTTCTCGATGTTCTCACACCGGGTTATAT
CGAAGGCACGGTTGTACGAGGTCATCCGATGGTCTGGTCTCTTGTGCTGT
GCCCCGATGGTACGAAGGAAGACCCAATGGTGAACGGTGTGGAGTTTGAA
GAAGTGTTCCTGGTGAAGGTCCACGTACTACATCCATACAGTGGGGCCGT
GATTGCTTCGGCCTCTACCATTCGAGTCTTGAGGGAGAGCGCCAGTTTCG
GCTGGTCGTAGAGCTCATGTAGGTACCGCCTGATGCGCATCCAGCATGCG
CGGGTCCGCCTGGCGATTTCAACAGACATGTCCGGGGTTTCGGTCACGGC
TTTCCCCAGGTAAGTGAAGGATTGTACGTATCTGTAGATTTGTCCGACCG
CTTCGACTGGCACCATCGTTCATTGTTTTCACCGTGGGGGCATGCACATA
GTCTCTGTCTTCCTCGCCGACACGTTTAAAGCGAAGACTCGGCAAACCTC
TGAGATAACTTCCATCATCTTAGCGAGCGCCCCTGCGTCGATCGCGAAAC
TATGTAGGCGTTATCCGCGGACAGCATACCCTACGCCGCACGACGAAGGT
AGTCCATAGCTTGGCGAGGATGACCGTATCTGGCTGAATATTTGGAGAAC
AACGGCCAGCTTGTCCATATCGAGTGTCGGATACCACAGCATTATACTCT
CGTGCCCTCTCCCTCCGAAACCTGGTTTCGGGGTATGATTGTGGGAGGGT
CTTTCCGGCGGGTGTTGGGCCGGGCTCACCCTCGAGAGATGCAGCCAACT
GGCTGCCTTCGCGATTCGGCCTGTCGGTTGAGACGCGGCGGCAGTATGGT
TGGCTGAGGATGGTGTTTTCAGATGTGCGCCTTTTCCGAGCTCCAATTTG
GTGGCCTTCGGGAGGGTGGCGGCACGCGAGAGGCAGGGGGCTCTGTCGCG
GAGAGCCTGGTAGTTCTCTGTCAAGTGGGTACGCACCAGATTCGACGAAG
GCGGAGGGCAGCTCGATCGTTGACGAGCCAGGGGAGGGCTGAACCCCTGT
GCGCGAGAATCGAAAGCGCGAACCGGGAGGTTTCTGAGGGATAGCTGATG
TCTGACCACCGTCATTTTTCTTCCTACGAGGGCCACATGGAGCGGCGAAC
GGGCAAGATTCGTGGGGCTTTTTCAAGGATGCACAGGGCTTTGGGCGGCT
GGATGCTGGCTCGCGCGCCGGCTTCACCACGTCAAGGCCTCCACCACCAT
GGGTCTCGGTATTTTAATTTTCCTTATTTTTGTACTATGTGTGGCCTTGA
GAAACTTGGAATTGTTGATCAAACTGGTTGGAACGTATTTGTCCGGTTTG
TTGCTGAGAACGCGGGTCGTGGGTAGGCGGCAACAATCCGAGTCGGTCGA
AGCTGCTCTCGATATGGAGTATAGGAGGTTTGATGAACCGTTTTGATATC
GGTCGGTGCCATCGCTTGTAGAGTCGCATATTTGGATCCCTGTTGGTCTG
AGTAGCGGGTTGTCACCATGATGTGACCCGTTGACCTTGGTACCTCTTTG
TGACCACGCACCGGATTGGCAACCACGTATTTTACTGGGTATGGTTGAGG
CCCGATCGGTTAATGTGAAGAATAAAACAACAACAATCAACAACAACAAC
TACTGTAGCAGGGAACCGGTGTTGCTAGATAACTGAAGTACGCCCTATTC
ATAGTGTTTTCTCCAACTTTTCATCGACCAGCCAAAGGAAACGTTCCATC
GACCAACCAAGGAAACGTTCCATCGACGAACCAAAGGATCAATTAACCAC
ACGAAGCGGCTTGAAAAAATAATTCGTACTTGATAGTGTTCTTTTGTGTT
TAGTTTTGGCGTCCCTACATGGTGATTGATGTCAGTGTACAGTATAACGG
TGGGTTTCTCCCCGAAATTATTCTGTTGACCCTATGTGATAACATTGGGG
AACCCTTTTAACACCATATACAAGGTAGAGGTTTTGTCCTTACTTAGAGC
CAATGTTCTAATACCACCTAAACCTTTTGATTGCTCAGGAGGTTTAGCTG
CGTTCAGATTTTTTCTTTACCAAATCAGGACTTACGTAGAAGTATTATTT
TTTTCCTACCGAAAAAAAAATGCTGTACAAACGACAAAGATTTTAATATT
TCAAAACAACGACGACACAGCTTCTGAAAGACGCGATTCATATTGTAGTA
TTTTCTCCAAACGTTTCATCGACGAACCAAAGGATCAATGAACCACTCGA
AGCGGCTTGAAAAAAAATAAAAAAATCAGAACCTACGTACAAAGTATTCT
CTTTTCCTACTAAAAAAAAAATACGGTACAAAGCACAAAGATTTCAATAT
TTCAATACAACGACGACACACAGCTTCTGAAAGACGCGATTTGGCAAAAG
CGGAACAAAAATGCCACCCAGCTCTAAAAGGATTACGAACAAAAATCCCA
CACAAATAATAAAATATGAAGATAATAGGTAGCTCTAACCCCCCCCCAAA
AGTTAGGGATAATGCCAACCCCAAAAGTAAGATGGAAGGCTGTTCGGAGC
TTTTACTAATATTGATAGTGCTGTTATGTACTACTCTACTGTGATGTTTC
TCTAAATTAGGTCTAATTTAGGCAAGATCATTACTTCCCGGATGCATATA
TCCTGACCTTCCCTTTACTTAAAATATTTATCATACCAAACACCTCCTAT
GACTATAGAGCTAATATCACTACAAGTATACATGTATCCTATGGGAGCCT
GACCCATATCAAGTATTATTAGTTAAGAAAATAATAATTTACTATTAAGA
TCTACTCCCTGGTAGTTACTCAACAAACCATCCACACTGCTTTGCCAATT
ACTACTGTTTCTACTTTCTTACCCCGAAACGCTCTGTACATGGAACATAG
AGTAGTTAGATTTAGACTCCTGCAGTGTTCTGGTTTGGTGTACGGTGTCC
ACATGGCGATAAGCGCAAGTGCATAATAGGATGGTGGGTCTCTTCCCGAT
ATTATAGTGTTGACCCTATGCAAGTTGTGTATTCCACAATCGACCCGATT
CACCAATATTCGAACCTAATCCTAAACCCAATGCCGGTATAATATAACTG
AGGTGTACCCAGGTTCATCGTGTGCTGTTCGTCTGTTTTGTTGTCCCTGC
ATGGTGATTAATGTAAGTGTACAGTGGTATAACGGTGGGTTTCTACCCGG
TATATACTGTTAACCCTATGCTACCGCCATCGGGGAACCCGATTATATGC
CATGAAGAGGTTTTTGTCCTAGCAGTATTCCCGCGGAGTCCGAGTGACTG
GCGCCGTTATCCGAAATGGAATAGGGCTAAATGAATGTACCCAACAGTAT
ATATAAATATATGATTAATAGTAGTACACTAGTGTTAATAGTAGTACCGT
CGGTAGTAAAGCAGATAACTGCAACTTCACTTAACTATCTTTTAACTCTG
GAGGGACGATTCTCCGACGATGGCCCAGAAGGGAACCGTTACAAACAAGT
TATGAATATTAATCAACTCCATTAAGAGGCTCTATTGCTGTATTAATTAT
TCATGATGCTGTACGCCGTAGTGAAGTCTCTACAGTAAAAACAAGGTAAG
AGGTATTAATATAGGAGTCTAAAATACCCTATCAATAGAGCTACACCGTA
CAATCTAACATGTACAAGAGAAGAGGTTGACTTACCCCTTGCTGGGCGCA
TGGAGCTACAGTACTACGACGGTAATACTGAACAGCGCCCTTGGCTGATT
TGCTGTATTAATATTATTATTAGTTCTTTGTAGGGGTTGAGGACACGTGG
TGGTCGGTGGGCCTCGCGTCAAGAAGCGTTCCAAGACTGTCTGAATGATA
TCTATAGAGTATAAAGTACTCAACAATGATTATGATTCCGATCTGACCAT
GAGAGAGATCGGAAATCACCCAGAAACCTGAAGAATCGATGAATCGATGA
ACAATCGATGGTCTCATCAGAGGCCAGAGGTGTTGGCATTTCTCGCGGAC
GAAAATCGCCGAAATTTTTCATCTCAAAGAAAAAATGGAGTATTTATAGG
TCGGGGGGTTTTATGGCCGGACTCGGTCTGAAATTGCCAATATCCAACTG
GGAAACATAGGAGAATCATTCTCCGCTCCTCTAAACGCTCTTGAAAGTGC
TATTAATATTGATGTTGCTATTAGCTCTTCTAGTAGAAACTTTGTATTTT
TACTGGGATTTATGGGGTCGACGGTCGCTCAGCGACGAAAGAATCGACTA
GAGTCGGCAGATCTCAGCAGGCGGTACAGCAATATCGTACAATCGCGATG
TACGTATAGCCGAAGCAGCATTCTACCACCTTCCACCACCTTCGGCCGCC
GCTTCACGAAAATATGAAGTAACTAACTAACTATCGCATCTAAACCTAGC
TTCTTCTGAGCATCCACCGAGGCAGGGACAAAAAATGGCAAAACGTTTAG
GTGAGAGCGTTGACATTGTAAGGATAAAAACCCTTCTTGGGATTTAAATG
GGTTCCCCAATGGTGGTAGCATAGGGTCGACATTATAATATCGGGGAGAA
ACACACCGTTATGCTGTATGTACACTTACACTAATCGCCATGCAGGTACA
CCAAAACAGAGGCAAAATCACGCGATAATAACCTGGATACCTCTATAACT
CTATAACTCAGTTATGTGTGTGATATTTTGGGTTGGGATCGGATTCAATT
GTTTTGTGAATCAGAGTCGATTGTGGAATATACTAATAAATAGTCGCACA
GGGTCAACTAAACGATATCGGGGAGAGATCCATGTAGCTCTATGCTTCTA
TTACTTATCGCCACGTGGGTACACCAAAACCAGAACACAGTAAGAGTCTT
AATCTAATTAAGTTATACTCCGAGTATATACATACTCCGTACGTTTTTTG
GGGGGGGGGTTAGAGTGTACCTAGATACAGTATTTGGCGAAGCAATCGAT
GGTTGTTGAGGAATTACCAGGTACTGTAGGTACTGATAGTATTATTATTA
ATAGTAGTGGTTTCTTACTACTAAATACAGAATGAAATATTACCTATTGT
TGTATTATACGGGGTGTAGTCAAGCCACCGTAGGGTAGACTATAGATATA
GCTGTAGTCGTATATGAGGTGTACGGCTTGATAACTATTTTTATTAATAG
GACAGTAATGAATAATACAGCCCTCGTCGCCCGAGTGGTCTAGTAGGTAA
CCTGCAGACCTGCTAGTGCGGAAGTCGTGAGTTCGATTCTTACCAAAGTA
GGATTTGTGTTCTTTCTTTCGTAACGGAAAGCGTGGGAACGTGAGTAAGT
AAAATTCAACCATTGGTTGACGAGTTGTAAGAGTGCTGAACTTGCATCGC
GATAAAAAAATTGTAAGGCGTGAACCGGGGAGAGATGGGAAGATCCTTTG
TGACCACAGGCAGGATGGTAACGATGAGGTCCATCGGCCATAAGTGAGAT
TAAAGAAAAAAGAAAAAAAAGTACATTACAGCACTAGACAGTCTTCTATT
TTACTTTTGGCGTTGACGTTAGCCCTAAAAAAATATCGCGAGCTAAGCGC
CCCCCGCTCCCCCCCGCCCAGAAATAGAAAATAGAAAACTTTCTTGAGAC
CGCAATATATTTTATTGTGGATCCACGATAAAATGTTGAAAAACGTGAAG
CAAGGCATATATAGCTTCTACAGCCGTCAGTATCTGAAAAACATTCAGGC
AATCGTTACTACTACAAAATATCCTAGTCTAGAGACATATGTACATTCCA
GGCGATCGTCACTACTACAGACAGTCTTCATATTGTTGTATAAGTACCCG
CAAGACGTGCCCAAGTCCATTTTTTTTCACTAGAGCCACTATGCTGCAAT
GCAGGATAAAACATAGCTACCGCCGAACACAAAGACAGTGGTCTAGGGCG
AGCCTTGTTGGAACAAAAATCGCTACTTTGAAGAAGAGAGTGATGTTGTT
CTAGTCCGTGCGGTAGAGACCGTGGCCCTCCGGGCGGTAGAGACCGACTT
CGCCACGAGAGGAAAGGAATGCGATTTATGGCGTTGTCGCACGATGACGA
CGTGTTGTTCCTACTCCAAACTTACCTATTAGTAGTAGATATTATATTGC
AGTACTTTGTTTGTTAGTAAGATTAAGACTCTATCGATTGAGTGGAAGCA
TATGAGCACTCCGTGTAGAGCAACCATCAACCAGCATCAACCAGCATTAC
AACCAGCATCCCCTTGGATGCACGTAAGAAAAAGGGCAGGTGGGCATTAC
TCCTCTCCCATGGATGGATTGATTGATTGATTGAATTCTCACATAAGCTG
ATCTAAAAAATCCAGCCCTTGGTCACAAGGTAGAAAAACACCGTTTTTTC
CTTCAACCGCGAAACAACGAACAACAGCAACGCCCCTCACCCCCCCCCCT
CCCCCTCCGTCGAAACCCGAATATTACGGCATACTTTACGAATATTACTG
GAACTACTTGTGGACTCGGACCAACAAAAATGAAACGCCAAACGGCAACC
GTTACCACGAAGAGAGAGGACAGCTGTTTAACAGCTGGTGTTATGCCCCA
TCGCCTGACTCGCCTTCCTTGACGTGGGCCGACCGCGCCCGACTGCATCG
CTTGGGTCGTCGCAGCCTTGGAGGAGATGCGGAAGCGAGCCGCGAGGTAT
CGAGAAACGCCGAAGGATACCACTGATGAGGACATGTCGGCGCAGATGGA
AGGCTTGCAGGTGAGGGGGACAGGGAAGTTTATGTGTTTGCGTGTATATG
TGTGTAGACAGGGGGTGGGGGGGGGGGGGGTGCGGAGAACTTGGGGGTCG
TCCTGGCGATAACATACGGCTACGGCTGGTCAGCTTCAGGGTACGATGGG
GACTGGTCAGCGTCAGGGTACGGTGGGGACCTGTGTGGGGCTGGAAAGGC
GCCCACCGCCTCCACGTGGAGATGATGGCGTGTGGCGTTATCCCGTCACC
AATGAACTATGGCAAGAGCAGTATCTGCCATCGTTGCCGATGTTGTTGCT
ATTGCTATTACAGTATTACTATTACAGTATTGCTATTACAGTATTGCTAT
TACAGTATTGCTATTACAGTATTGCCATTACAGTATTGCTATTACAGTAT
TGCTATTACAGTATTGCTATTACAGTATTGCTGTTACAGTATTGCTGTTA
CAGTATTGCTATTACAGTATTGCTGTTACAGTATTACAGTATTGTTTTTG
CAGTATTTCTATTACAGTATTGCTGTTACAGTATTACTATTACCGTATTG
CCATTACAGTATTGCTGTTACAGTATTACTATTACAGCATTGCTATTACA
GTATTGCTATTACAGTATTGCTATTACAGTATTGCTATTACAGTATTGCT
ATTACAGTATTGCTATTACAATAAAGCTATTACAGTATTGCTGTTACAGT
ATTGCTATTACAGTATTGCTATTACAGTATTGCTATTACAGTATTGCTAT
TACAGTATTGCTATTACAGTATTGCTATTACAGTATTGCTATTACAGTAA
TGCTATTACAATAAAGCTATTACAGTATTGCTGTTACCGTATTACTATTA
CAGTATTGCTATTACAGTATTGCTATTACAGTATTGCTATTACAGTATTG
CTATTACAGTATTGCCATTACAATATTGCTATTACAGTATTGCTATTACA
GTATTGATATTACAGTATTGCTGTTACAGTATTGCTGTTACAGTATTGCT
ATTACAGTATTGCTGTTACAGTATTACAGTATTGTTTTTACAGTATTTCT
ATTACAGTATTGCTGTTACAGTATTACTATTACAGTATTGCCATTACAGT
ATTGCTGTTACAGTATTACTATTACAGCATTGCTATTACAGTATTGCTAT
TACAGTATTGCTATTACAGTATTGCTATTACAGTATTGCTATTACAGTAT
TGCTATTACAATAAAGCTATTACAGTATTGCTGTTACCGTATTGCTGTTA
CAGTATTGCCGTTACAGTATTGCTACTACAGTATTGCTATTACAGTATTG
CTATTACAGTATTGCTATTACAGTATTGCCGTTACAGTATTGCTGTTACA
GTATTGCAATTACAACAGTATTGCTATTACAGTATTGCTGTTACAGTATT
GCTATTACGGTGTTGCTATTACAGTATTGCTATTACAGTATTGCTTGACG
GTGTGGTGTGGTGTGATGACACACGTGACACACGACCCTTTCCTTTTATG
TATTTTTTTGTTTTCAGGTGGACGATAAGGTTGCGGTGTACGAAAAGGCT
TTCGCGCAACATCCCGTCGCCATCGGGAAAGCCATTTCCAAGATGGAGAG
GTACGCGTATCAAAAGTTTCGTTTTTTTTTTTTTTTTTTAGGTATGGAGG
GAGGGTGGGGGAACTGTAAAAACTGACTTGTTACGGATTGTCTGGGAAAG
GCCTCCGAACCACATAGTCCGTAATCATAGAGCTATAGTCCATAGAAATC
CACAATCATTGTGCTTCCCCAGCCCTCCCTATCGCTCGCTTAGGAAAGGA
TCAACACTTTCTACTATACCTTACATGGTTCGCGAGGCATGACTTTATAC
AAACAAATATGGGAGGGTGGTGGCGGATCACAGCTACAGGCTATACCGTT
CGCCAGTCATGGGGATATACTTCCGGGCGTTAGCGTCGCGTTCCTCGCCC
CTCAACCATCCCTTGCTGCAGGGTCATATTTTATTTTAGCAGTAACACGT
CGCTCAAAAACCTGTTTTTTTTCATGTTCTGCTTTTTTATTGGGCGGGGA
CGGGATTGATGGCCGTTGGTGGTCGATGACGCGCGCCTTGAAAGGGATGA
GACGGACCGGCACGGCGACTCCACCCTGGTGTACGGAGAGATCACCTTCA
AGACGCTGGCTCTCGCACTGCACAAGGTCAAGACCAAGTACGGCTTGCCG
GGAGTGGGGAGCTCCGGGGAGAAAGGGGTTCTTCAGGGCGAAGGAGGCGT
GTTTTACGACATTGGTTCCGGCACGGGAAAGCCGGTAAGTTTTTTGCACG
TCTCGTGTCCTCGATGAGAGGAGGGGCGGGGACGTCAAGGGAAGGGAAAC
CCTAGAATAGTTTGATTTGTTTTTTTGGGGGGGGGAGATAGGAGTCCGGG
ATAAGGGATGCTCTGTATATTTTTGTGTCCCGTTTTTGGTTAGGGACATG
ATGTATAAAACAGTGCAGATTTCCCGGACAAGTACGAAACCAAGGTACGC
AAAATCGGTTGTTCAGACGAATACCTCTTGATCGATTTCGGAAGCCTCCC
GCGTGGATCATTTGCCGCAGCGCCGACCGACACGCGCGTCACGAGGCTCT
TTGTCCCCCACGGCGCCTGGTTTTCTCGTCCCGTTGGTCTCGTTACTTTT
TCAGCCGTCCCCCCGATGTGTGTGTGTATGTATTCAATTGCACATAACTG
CGCAATCCGACTCTTGCCAAGCTAGCCGTTCTCTCCTACTCGCGTTGGTC
CTCGCAGGGGGGATGGGATCAATGGGTGTACATTTAGTATAAAGTGCTTT
GTCTGTGTCGGCGCGCGCCCGGGGTGCAGGTAATCGCGGCGGCCATCTTT
CATCCGTTCCACAGGGCGGTGGGAATCGAGGTGAGACGCGTCGCCTTCAC
GGTGCGAATTGGTTCGAACCCATGCCATGAAGACTTGCTGAATGAAATCC
TTTTAGGGCAGCACCCCCCCGTCTACTCCCTCCCCTCCCCTCCTGACGTT
GCATGTCGATCTGTCTGGCGCGGGCGTGAACCAAACGCGCGCACCCCCGT
GCGCACGACCCCGGCCGCGCTTGTCGGTAGCGCAGATCCTGGAGGGGCTG
CACGCAACATCTATGGAAATTCTTAAGCAGTGGGAGGAAGGGCTGCGGGA
TAGTGTTGGCCACCAGCCGCCCACGAGTGGGTTGAAAATTTAAAAGAGAT
GTTGGTGTCGGTGGAAGACACTCACCACTGTACTCGACTTAAGGCGAAAG
TCGAGTCGAACCTACCCACGCTAGGCCGAGTGAAGACTTGATGGCAAAAC
CCAAGAGACCGCGGCGCTCTGCATCATTGCGCTGACTCGGACTCTCTACG
AACCGCGCGCTCTTGGTGTTCGTGCGCGCGTACGGGGGGGCGGGGGCGGT
TGGAACTGTCTGTTCGTCTCTCTTTTTAATACGGGGTTCAGGGGTGGAAT
TTGTCCACGGTGACGCTATTGACTTTAGCGTGTGTGACTGGAGCGACGGG
AACGTGGTGTTCGCTAACAGCACCTGCTTCGACGACGCTCTCATGTGGAA
GCTGGCGAAGGCCGCCACCGCGCTGAAGAAGGGCGCAATCTTCATCACAC
TCACCAAGCGGATACCGGTAAGCGGCGCTCGGGTTGGGACGTGTTTCCTA
GCTTTCTGTCAACACTTTTCATGCCCACGTTCTCTGTTTTTGTCGGACGG
TCCGATGAAAGGTCGAGCGTCGAGCGCAGCTTCTGCTTGTGCCCCTCAGC
GAACGAATGGCCTCATCTCACCGTCATCTGACGTAATGTGCTTCAACCCC
GACCAAGGCCGGGTTGTGTGTACAAACCTAGTGTTTTTATTCCGTTTTGA
TGGAGGAGTTTTTTTTTTCGGCACTCCGTTCGCTCGCCTGCGCTCCCTCT
TATAGAGATCCCATCGCGCGCAATACAACTAACTCCGCACTAGTCTAAAC
TATAAGCCTGGTTTGAAATAGAAACTTTTATCGTGCCGTCTTAGCTCAAA
AATATACCTCCACTAGCTCGACCTCCACTCAGCTCGCGCGGAAGATAATA
ATACTATCAGTACATGTGCAGTAGAAATGCGTACGGATCAAACAACAACA
ATAACCAAACAAATACGTGCGGGATCACCACGTGCCGTGCCGGCCAGGCG
CCGTACTTCAAGGTCCTGGAGCACGACATGTTCCCCATGAGCTGGGGGTC
GGCAACAGTGTACATTTCCCAGAAGACGACGGATCCTTTCCAAGACCCAA
AGGAGACCCAAGACGAATCCAGAGGGCCAGTAAAGGTGGCGGGCGCGGGC
GCGTCGGGCGGGAGCTACAAGCAAGACGCCGAGCTCGAAGAACCCGCCGG
TACCGAGTGAAGAGATGGGTGGTGCCTGGCTCTGTGCGAGCTCGCCACAA
TATTTGATGCTTCGCGCTACGCTTGTTGTCGACGAGATTATCTCCTTGTA
GCAAAGAGGCGTTCTCACGTTTCACATTTCATGTGCTTGAGCCGTGTGTG
TGCTTGTGTGCGTGTCTTCTGTTTTATATTTTTGACAAATGTTGGTGGGT
GGGTGTTTTTCATCTGTTTCGTGTGTGTTTTTCACCTGTGTCTAATTCGT
GTGTTTTTCACCTGTTTCGTGTGTGTGTTTTCGTCTAATTTGCGTGTGTT
TTTCATCTGGTTCGTGTGTTTTTCACCTGTTTCGTGTGTGTTTTTCATCC
GTTTCGTGTGTTTGTTTTCGTCTAATTTGCGTGTGTTTTTCATCTGGTTC
GTGTGTTTTCGTCTGTTTTGTGTGTGATTGTTAGTGTCGCATCTATGGTG
GGTGGGTGGTTGAGTATATCTCCCGTATACCGGTACGTTTTAAGTCGAAC
GAGTGTTTTGGGGCACACGGTTAAAAAACAGCAGTGCGTGGCGTTTGAAG
CCGGTGCTGCGACCCTTTGCCCTCTTACTCTGTTCTCCACAGTTTTTAAC
AACCGAGGAGCGCCTCGAATAGCGGGCGCTAGTACTTGGTTGCTAAATCG
CGCGTAATAGCGCGGAAAGTAGGTCACAACACTTGAAAAATACTTTGTTT
TTTCTGGCAGGAGAGCGATTGCAAATATAGCTTGAGTGTGACGTGCTTTT
TTCAGAATCCTTGTACACTTTTTTTTGTGAAGTGTCATCCCGTTTCTCAC
AGTTTTTGCGTGTAGCGTCATCAACGAGTCCCATTTTATCTATTTATTTA
TGTCGGGAGAGGTTAGGTGAGGTTTGTTTGGGGTTGAGGGTCACACACGT
ACTTGGTCCACGGTATGGAGTTAGTTTAGTGTTGGTCGAGAAACGAGATC
TTCATTCTCGTGCCGACCGCAATTGTTCTTGTTGCGCCACACGAATCCGG
CACACGCTTCAGATTTCACAAAATAATATACAAGCTTTTTGTCTGTACTG
CGTTGAGAGCGACGAATTCGTAGTACAACGAAGACGCCCTTTGGCTCTTT
GATTGCTCGATAGCTCCCCCGGCCCCCGAAAAGCCTCCCCGACCCAAGGA
GAACTGGATCGCGGCAACCATCACAAGTTGTTCTCGGAGAAAGCTTAAGT
AACCGACCCATTCACAGTTTTTTTTTTGGCATTTGGG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig883:107286..137672+

>mRNA_A-nodosum_M_contig883.19.1 ID=mRNA_A-nodosum_M_contig883.19.1|Name=mRNA_A-nodosum_M_contig883.19.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1152bp|location=Sequence derived from alignment at A-nodosum_M_contig883:107286..137672+ (Ascophyllum nodosum dioecious)
ATGCCGATGCTGACTGGATCTGAAGAAACCACGAACAGCCCAGGAGAAGC
CTCGGCGGAACAAGGCACGGATTCTGCGGAAACGACATCTCAGGTTGCGA
GCAGACGAGAGCCGCAAGAGGGAGTGGCGCCAGCGCACGGTCCTACCGAA
ACGACGTCTGCGTCGACGCTAAAATCGTCGTCAACTTCTCAAGTAGAGAG
CAAGCAGAATCTTGTCAAGGCCGCTGAAACGCTCCTCGAGGACGCCGGGC
AAGCCTTGGAGGAGATGCGGAAGCGAGCCGCGAGGTATCGAGAAACGCCG
AAGGATACCACTGATGAGGACATGTCGGCGCAGATGGAAGGCTTGCAGGT
GGACGATAAGGTTGCGGTGTACGAAAAGGCTTTCGCGCAACATCCCGTCG
CCATCGGGAAAGCCATTTCCAAGATGGAGAGGGATGAGACGGACCGGCAC
GGCGACTCCACCCTGGTGTACGGAGAGATCACCTTCAAGACGCTGGCTCT
CGCACTGCACAAGGTCAAGACCAAGTACGGCTTGCCGGGAGTGGGGAGCT
CCGGGGAGAAAGGGGTTCTTCAGGGCGAAGGAGGCGTGTTTTACGACATT
GGTTCCGGCACGGGAAAGCCGGTAATCGCGGCGGCCATCTTTCATCCGTT
CCACAGGGCGGTGGGAATCGAGATCCTGGAGGGGCTGCACGCAACATCTA
TGGAAATTCTTAAGCAGTGGGAGGAAGGGCTGCGGGATAGTGTTGGCCAC
CAGCCGCCCACGAGGGTGGAATTTGTCCACGGTGACGCTATTGACTTTAG
CGTGTGTGACTGGAGCGACGGGAACGTGGTGTTCGCTAACAGCACCTGCT
TCGACGACGCTCTCATGTGGAAGCTGGCGAAGGCCGCCACCGCGCTGAAG
AAGGGCGCAATCTTCATCACACTCACCAAGCGGATACCGGCGCCGTACTT
CAAGGTCCTGGAGCACGACATGTTCCCCATGAGCTGGGGGTCGGCAACAG
TGTACATTTCCCAGAAGACGACGGATCCTTTCCAAGACCCAAAGGAGACC
CAAGACGAATCCAGAGGGCCAGTAAAGGTGGCGGGCGCGGGCGCGTCGGG
CGGGAGCTACAAGCAAGACGCCGAGCTCGAAGAACCCGCCGGTACCGAGT
GA
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