mRNA_A-nodosum_M_contig886.15.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig886.15.1
Unique NamemRNA_A-nodosum_M_contig886.15.1
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_contig886.15.1 vs. uniprot
Match: A0A6H5L731_9PHAE (Glyco_trans_2-like domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L731_9PHAE)

HSP 1 Score: 406 bits (1044), Expect = 1.240e-133
Identity = 192/265 (72.45%), Postives = 226/265 (85.28%), Query Frame = 1 
Query:    1 PKLSPPTECHLGEGFVSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSLMETLANYRTRVFHMPYGDQA---FCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYYGWNPE 786
            P+L P TECH+GEGFVSV+VPAYNEGDG+KLTL+TI + AQ+KS +EIIVVD GC+D+TMDAVASMKLD+++STTTSVGGRGPALNAGA +AKGDL LFVHADT+VPP+FD  LR AF DP++LM+TF FGINRALL+GKEP  M++ME + NYRTRV H+PYGDQA   FCFTAHKF  +GGFPD VMMEDFEVVRRL +EE AGGG I V DEAALC PRRWE+PG  PF  F RNW +LF+Y+KLG +P QIFR+YYG +P+
Sbjct:   27 PRLVPNTECHVGEGFVSVVVPAYNEGDGVKLTLATIDELAQDKSLVEIIVVDAGCKDHTMDAVASMKLDVKLSTTTSVGGRGPALNAGARMAKGDLLLFVHADTIVPPAFDVTLRKAFRDPEILMSTFLFGINRALLRGKEPFGMAVMERVTNYRTRVIHLPYGDQASRAFCFTAHKFAEMGGFPDIVMMEDFEVVRRLRKEELAGGGHIHVLDEAALCNPRRWEQPGNNPFVNFWRNWMFLFLYSKLGFSPEQIFRLYYGRDPD 291
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BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: D7FSW3_ECTSI (Glycosyl transferase, group 2 family protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FSW3_ECTSI)

HSP 1 Score: 234 bits (598), Expect = 1.460e-69
Identity = 112/168 (66.67%), Postives = 133/168 (79.17%), Query Frame = 1 
Query:  271 IAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYYG 774
            +AKGDL LFVHADT+VPP+FD  LR AF DPK+LM+TF FGINRALL+GKEP  M++ME + NYRTRV H+PYGDQAFCFTAHKF  +GGFPD VMMEDFEVVRRL +EE AGGG I V DEAALC PRRWE+  +G F +  +N C+  +Y    ++  QIFR+YYG
Sbjct:    1 MAKGDLLLFVHADTIVPPAFDVTLRKAFRDPKILMSTFLFGINRALLRGKEPFGMAVMERVTNYRTRVIHLPYGDQAFCFTAHKFAEMGGFPDIVMMEDFEVVRRLRKEELAGGGHIHVLDEAALCNPRRWEK--QGVFRSSLQNICFALLYVVGNLSADQIFRLYYG 166
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A835ZCJ3_9STRA (Nucleotide-diphospho-sugar transferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZCJ3_9STRA)

HSP 1 Score: 212 bits (540), Expect = 2.230e-59
Identity = 116/274 (42.34%), Postives = 161/274 (58.76%), Query Frame = 1 
Query:   13 PPTEC-------HLG-EGFVSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQ--VSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPML----------MSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYYG 774
            PP++C        +G +G ++VI+PAYNEG GI  TL+ +S   +    +E+++VDGGC D+TM    ++ L +   + T  S GGRGPAL+AGA  A+GDL LF+HADT++P  +DA LR AF DP +L++ F FG+NRA+   +              + L+E   + RTR    PYGDQA C +   +  +GGFP   MMEDFE VRR     + GG  IR     ALC+PRRWE+  KG       N+ ++F Y  LG +P QI+  YYG
Sbjct:   32 PPSQCITPGSGPQIGKDGLITVIIPAYNEGAGIADTLAALSAATEATGLVEVVIVDGGCSDDTMAQARAVPLRLAHGIRTLESRGGRGPALHAGAQAARGDLLLFLHADTLLPQGYDAALRDAFQDPALLLSCFRFGVNRAVCAARGAXXXXXXXXXXRGLRLLEWAVDRRTRAKSFPYGDQALCTSRVNYFRLGGFPRVPMMEDFEFVRRAKAVAQGGGWGIRQLPLTALCSPRRWEQ--KGVLTVSLLNFSFVFRYVVLGWSPQQIYDRYYG 303
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A0M0JLK4_9EUKA (Glycosyl transferase n=1 Tax=Chrysochromulina tobinii TaxID=1460289 RepID=A0A0M0JLK4_9EUKA)

HSP 1 Score: 193 bits (491), Expect = 3.770e-52
Identity = 104/247 (42.11%), Postives = 146/247 (59.11%), Query Frame = 1 
Query:   46 VSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVS--TTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKE--PMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYYG 774
            +SV+VPA+NE   I + L T+ +HA    R++++VVD GC+D+TM  V +     +VS  TTTS GGRGPA+ AG  ++ GD  L +HADT +P ++D  +  A  DP VLMT FSFG +RA L   E  P  ++LME   N R+R + +P+GDQA   T     AIGG+P+  ++E+F +V RL     AG G I   D  ALC+PRRWE           +    + ++ + G TP Q+F  YYG
Sbjct:   78 ISVVVPAFNEARSIGMCLETLERHASSLKRVQVVVVDAGCKDDTMAIVTAWAAQTKVSVLTTTSSGGRGPAVAAGTRLSVGDAILVLHADTALPANWDGAVLEALADPTVLMTAFSFGCDRAQLSCPESPPAGLALMEWTVNRRSRWYELPFGDQALATTRATLDAIGGYPETCILEEFILVNRLRAMSAAGLGRILTLDATALCSPRRWERSTVWRINAVNQA---VMLWHRWGATPAQVFEFYYG 321
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BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A7S3PIZ7_9STRA (Hypothetical protein n=1 Tax=Aplanochytrium stocchinoi TaxID=215587 RepID=A0A7S3PIZ7_9STRA)

HSP 1 Score: 185 bits (469), Expect = 3.540e-49
Identity = 104/255 (40.78%), Postives = 138/255 (54.12%), Query Frame = 1 
Query:   28 HLGEGFVSVIVPAYNEG-DGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSL------METLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYY 771
            H     VSV++P YNEG + +   L  + Q    KS  E+IVVD GC D+TM+A+    + I V    S  GRG AL+AGA  A GD+ LF+HADT++P  +D +LR    D KVLMT FSF IN   ++  E    S       +E   N R R F +PYGDQA       ++ +GG     MMEDFE+V R+ R     GG I +  E A C+PRRWE+ G    +    NW ++  Y   G++P  IF  YY
Sbjct:   68 HTSVSKVSVVIPVYNEGAENLIQNLERLDQSTLGKSCTEVIVVDAGCSDDTMEALVKADMRIPVRVLRSKHGRGQALSAGAESATGDILLFLHADTLLPTGYDEVLRNKLADKKVLMTAFSFEIN---VENAEDSTASFRNGIKRLEYFTNIRARNFWLPYGDQALAMRRSAYKEVGGVKRLKMMEDFELVSRVRRIALENGGRIEILPEHAKCSPRRWEKNGIAKNSVL--NWTFVAAYVWAGISPDTIFEYYY 317
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A7S2CQU7_9STRA (Hypothetical protein n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2CQU7_9STRA)

HSP 1 Score: 180 bits (456), Expect = 2.710e-47
Identity = 105/264 (39.77%), Postives = 142/264 (53.79%), Query Frame = 1 
Query:   16 PTECHLGEGFVSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAV--------ASMKLDIQVSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINR----ALLKGKEPMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYY 771
            P     G G +S+I+PAY E D I   L  ++    E + +E+IVVD G  D TM+ V        + + L        S GGRG  L AG + +KGD+ LF+HADTVV P FD +LR+      VL T FSFG+NR    A + G     ++ ME   N R+ +  +P+GDQA   T  +  A+GG PD  +MEDFE+V++L R   AG G I+  D   LC+ RRW+E  KG + T   N   +  Y   G TP QI+  YY
Sbjct:   52 PLRDFSGPGHISIIIPAYKEVDTIGACLQRLNDCISEPNLVEVIVVDAGGGDGTMEKVREAAEGSLSGLTLRTANLPHDSKGGRGATLIAGVAASKGDIILFLHADTVVLPGFDGLLRSELAKDSVLATAFSFGVNRDSVVAPIAG-----LAWMEWTVNIRSSILELPFGDQAIAMTRQRLDAVGGVPDVPIMEDFELVQKLRRIGAAGSGRIKTLDAKVLCSGRRWQE--KGVWRTNLLNQVIMTAYVYFGFTPAQIYSWYY 308
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A7S2RVS7_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2RVS7_9STRA)

HSP 1 Score: 179 bits (455), Expect = 1.020e-46
Identity = 109/275 (39.64%), Postives = 146/275 (53.09%), Query Frame = 1 
Query:    1 PKLSPPTECHLGEGFVSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVSTT-----TSV---GGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCR--NWCYLFMYTKLGVTPMQIFRMYYGWNPETTS 795
            P LSP  + H     VSVI+PAY E   I+ TL  I        R+E+IVVD G  D TMD V  +  +I    T     T V   GGRGP LNAG   ++G + LF+HADT++P  FDA++R A  D +VL T F F ++RA  +      +  ME   + R+ ++ +P+GDQA   T  +F A+GGFPD  MMEDFE+V+ L R   AG G I+  D  A C  RRW +        +C   N   +  Y   G +P QI+  YY   P + S
Sbjct:   44 PGLSP-LQPH--NNLVSVIIPAYREATTIEATLRRIEHTVAASDRVEVIVVDAGGNDGTMDIVRRVSAEINEQATGLSIRTDVWARGGRGPTLNAGVRASRGGILLFLHADTLLPDCFDALVRRALEDHEVLATAFRFRVSRA--EDTRVAALGWMEWTVHLRSSLYELPFGDQAMAITRQRFDALGGFPDVPMMEDFELVQALRRAGAAGAGYIKTLDAPATCGARRWVKNK----VWWCNAMNQVIMIAYVYFGFSPTQIYTWYYQSTPSSRS 309
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: K9RKF7_9CYAN (Glycosyl transferase n=1 Tax=Rivularia sp. PCC 7116 TaxID=373994 RepID=K9RKF7_9CYAN)

HSP 1 Score: 156 bits (394), Expect = 1.710e-39
Identity = 94/243 (38.68%), Postives = 136/243 (55.97%), Query Frame = 1 
Query:   46 VSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYYG 774
            +SVI+P  NE   +K TL +     Q  + +E+IVVDGG  DNT+D   S+ + +     +    R   +NAGA  AKGD+ LF+HADT++P +FD ++RTA   P  +   F+  IN A +       + L+E    +R+R+F MPYGDQA   T  KF  IGGFP+  +MEDFE++R+L +      G I +   + + +PRRW +  KG   T   N   +  Y  LGV+P +I R Y G
Sbjct:   28 ISVIIPTLNESKNLKATLVS----TQTSTNVEVIVVDGGSDDNTVDIAESLGVKV----ISGYKNRASQMNAGAKNAKGDILLFLHADTLLPANFDGMIRTAMQQPSTVAGAFALRINAANIG------LRLVEWGVKWRSRLFKMPYGDQAIFITKDKFNYIGGFPELPIMEDFELIRQLQKT-----GNITLIPVSVITSPRRWLK--KGILQTTLINQIVIIAYF-LGVSPARIRRWYRG 248
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A8J7ID11_9NOST (TIGR04283 family arsenosugar biosynthesis glycosyltransferase n=1 Tax=Dendronalium phyllosphericum CENA369 TaxID=1725256 RepID=A0A8J7ID11_9NOST)

HSP 1 Score: 151 bits (381), Expect = 6.400e-38
Identity = 93/241 (38.59%), Postives = 133/241 (55.19%), Query Frame = 1 
Query:   46 VSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMY 768
            +S+I+P  NE   IK  ++T     Q  + +EIIVVDGG +D T++   S+     V+  +S  GR   +NAGA  A GD+ LF+HADT +PP FD ++R A   P ++   F+  I+ +LL       +  +E   N+R+R   MPYGDQA   T   F+ IGGFP+  +MEDFE++RRL R      G+I +     + + RRW +  KG F T   N   +  Y  LGV+P QI   Y
Sbjct:   10 ISIIIPTLNEARNIKEAIAT----TQHSTNIEIIVVDGGSQDGTVEIAQSLG----VTVISSSPGRASQMNAGAVAASGDILLFLHADTRLPPKFDVLIRAALQKPAIVAGAFALRIDASLLS------LRWVEWGVNWRSRFLQMPYGDQAIFLTKEVFQQIGGFPELPIMEDFELMRRLKRT-----GKIVILPVPVVTSARRWLQ--KGVFKTTLINQIVIIAYF-LGVSPEQIHSWY 228
[Close]
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Match: A0A8J7F7G9_9CYAN (TIGR04283 family arsenosugar biosynthesis glycosyltransferase n=1 Tax=Plectonema cf. radiosum LEGE 06105 TaxID=945769 RepID=A0A8J7F7G9_9CYAN)

HSP 1 Score: 149 bits (375), Expect = 9.400e-37
Identity = 96/243 (39.51%), Postives = 135/243 (55.56%), Query Frame = 1 
Query:   46 VSVIVPAYNEGDGIKLTLSTISQHAQEKSRMEIIVVDGGCRDNTMDAVASMKLDIQVSTTTSVGGRGPALNAGASIAKGDLFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLMSLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRRLWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKLGVTPMQIFRMYYG 774
            +S+I+P  NE   IK TL++     Q  + +E+IVVDGG +DNT+D V S+ + +     T    R   +NAGA  A GD+ LF+HADT++PP+FDA++R     PK +   FS  IN A   G     + L+E    +R++   MPYGDQ    T   F  IGGFP+  +MEDFE+VR L   +R GG  I +     + +PRRW +  KG + T   N   +  Y  LGV+P +I   Y G
Sbjct:   39 ISIIIPTLNESKNIKATLAS----TQISTNIEVIVVDGGSQDNTIDIVQSLGIKV----ITGYQNRACQMNAGAMNATGDILLFLHADTLLPPNFDAMIRIGLQQPKTVAGAFSLRIN-APQTG-----LRLVEWGVKFRSKWLQMPYGDQGIFITKKIFNDIGGFPELPIMEDFELVRSL---KRLGG--INLIPVPVITSPRRWLK--KGVWQTTLINQIVIIAYF-LGVSPNRIRSWYRG 259
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig886.15.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5L731_9PHAE1.240e-13372.45Glyco_trans_2-like domain-containing protein n=1 T... [more]
D7FSW3_ECTSI1.460e-6966.67Glycosyl transferase, group 2 family protein n=1 T... [more]
A0A835ZCJ3_9STRA2.230e-5942.34Nucleotide-diphospho-sugar transferase n=1 Tax=Tri... [more]
A0A0M0JLK4_9EUKA3.770e-5242.11Glycosyl transferase n=1 Tax=Chrysochromulina tobi... [more]
A0A7S3PIZ7_9STRA3.540e-4940.78Hypothetical protein n=1 Tax=Aplanochytrium stocch... [more]
A0A7S2CQU7_9STRA2.710e-4739.77Hypothetical protein n=1 Tax=Dictyocha speculum Ta... [more]
A0A7S2RVS7_9STRA1.020e-4639.64Hypothetical protein n=1 Tax=Rhizochromulina marin... [more]
K9RKF7_9CYAN1.710e-3938.68Glycosyl transferase n=1 Tax=Rivularia sp. PCC 711... [more]
A0A8J7ID11_9NOST6.400e-3838.59TIGR04283 family arsenosugar biosynthesis glycosyl... [more]
A0A8J7F7G9_9CYAN9.400e-3739.51TIGR04283 family arsenosugar biosynthesis glycosyl... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig886contigA-nodosum_M_contig886:178245..209630 -
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.D7FSW3
PFAMsDUF2064,Glycos_transf_2
Model size2175
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons7
Evalue3.91e-76
EggNOG OGs2E0YR@1|root,2S8BV@2759|Eukaryota
Ec32 ortholog descriptionGlycosyl transferase, family 2
Ec32 orthologEc-27_006590.1
Cds size675
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig886.15.1prot_A-nodosum_M_contig886.15.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig886 179719..207922 -


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

Feature NameUnique NameSpeciesTypePosition
1680870300.2122598-UTR-A-nodosum_M_contig886:178244..1784531680870300.2122598-UTR-A-nodosum_M_contig886:178244..178453Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig886 178245..178453 -
1680870300.223398-UTR-A-nodosum_M_contig886:178562..1797181680870300.223398-UTR-A-nodosum_M_contig886:178562..179718Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig886 178563..179718 -
1680870300.286726-UTR-A-nodosum_M_contig886:207922..2079341680870300.286726-UTR-A-nodosum_M_contig886:207922..207934Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig886 207923..207934 -
1680870300.3013935-UTR-A-nodosum_M_contig886:209507..2096301680870300.3013935-UTR-A-nodosum_M_contig886:209507..209630Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig886 209508..209630 -


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

Feature NameUnique NameSpeciesTypePosition
1680870300.232851-CDS-A-nodosum_M_contig886:179718..1798691680870300.232851-CDS-A-nodosum_M_contig886:179718..179869Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig886 179719..179869 -
1680870300.2426174-CDS-A-nodosum_M_contig886:180804..1808991680870300.2426174-CDS-A-nodosum_M_contig886:180804..180899Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig886 180805..180899 -
1680870300.2573364-CDS-A-nodosum_M_contig886:181336..1814021680870300.2573364-CDS-A-nodosum_M_contig886:181336..181402Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig886 181337..181402 -
1680870300.268456-CDS-A-nodosum_M_contig886:182531..1828111680870300.268456-CDS-A-nodosum_M_contig886:182531..182811Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig886 182532..182811 -
1680870300.2773554-CDS-A-nodosum_M_contig886:207839..2079221680870300.2773554-CDS-A-nodosum_M_contig886:207839..207922Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig886 207840..207922 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig886.15.1

>prot_A-nodosum_M_contig886.15.1 ID=prot_A-nodosum_M_contig886.15.1|Name=mRNA_A-nodosum_M_contig886.15.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=225bp
MEIIVVDGGCRDNTMDAVASMKLDIQVSTTTSVGGRGPALNAGASIAKGD
LFLFVHADTVVPPSFDAILRTAFLDPKVLMTTFSFGINRALLKGKEPMLM
SLMETLANYRTRVFHMPYGDQAFCFTAHKFRAIGGFPDFVMMEDFEVVRR
LWREERAGGGEIRVFDEAALCAPRRWEEPGKGPFATFCRNWCYLFMYTKL
GVTPMQIFRMYYGWNPETTSGKSN*
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mRNA from alignment at A-nodosum_M_contig886:178245..209630-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig886.15.1 ID=mRNA_A-nodosum_M_contig886.15.1|Name=mRNA_A-nodosum_M_contig886.15.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=31386bp|location=Sequence derived from alignment at A-nodosum_M_contig886:178245..209630- (Ascophyllum nodosum dioecious)
CCAAAGCTCTCTCCGCCCACAGAATGCCACCTGGGCGAAGGCTTCGTCTC
CGTTATCGTTCCTGCCTATAACGAGGGCGATGGCATCAAGTTAACGCTCT
CTACCATCAGCCAACATGCCCAGGTACGTGTGTGAAGAGCGTCGGGGGAG
TATCCGTCGCACCAATCGTGGGGCGCGTGCGCCGTCAAGCCCAGAAGTCG
CCTGGTAAGGATTGAAGTCCTGCTCCAGCAGTAAACAGCAACAACAGTCC
CCCCCAAATCTTTCACTGTCGAAATTAGATAAAGATTTCGAAAACTTTAA
TGTACATTTTGGTACAGTATGGATGGATGGATGGATGGATGTTTTGTCGT
ACATTCAGCAAGTAGGATGGATCAAACGGGTAAGGTTGCCAATTCTTCTC
GTGGTCACATTTCCCTGTCCCTGTTCGCACCTGAGAATTTGGTCTCGCGA
GATGGGTTCGGCCGTCCCGTCCCGCGTGCATTTTCCATACTTAGGCTAAA
TATGGTGCTCACTCACGGGATTTCTCCCGATTTCCGCGGCGGCGTCCCTT
TATTTAAACCGGCACATGTCCAGAAGTCCTCAAGGTAGTTCGAGTAACGG
GTGATGGCTTTTCAGGTTTCACCATGGACCAATTAATATGCGCCTCTCTT
TTCCCACACCCACTGTTGGTCGTTGGTATGAAATGGGCATGTTGAAAGTT
TTTTTTTTCTTTTTTTTTTTCAGTTCGTCGCCCGAGTGGTCTAGTAAGTA
GGTAACCTGCACACCTGCTAGGTGCGGAAGTCGTGAGTTCGATTCTTACC
AAAGTCGGATTTGTGTTCTTTCTTTCGTAACGGAAAGCGTGGGAACGTGA
GTAAAATTTAACCGTTGGTTGACGAGTTGTGAGAGTGCTGAACTTGCATC
GCGATAAAAAATCGTAAGGCGTGAACCGGGGGGAGATGGGAAGATCCTTA
ATGACAACAGGCAGGATGGTAATGATGAGGTCCATCGGCTATAAGTGAGA
TTAAAGGAAAAAAAAAAAACAGACCACGTACTACTATCGGATTGGCGACT
GCGTATATTGTGGTTGAAGCCAGTCTGTATTATTTATTACGGTAGTACTA
CTGTAATATTCTTACAGTCGAGTTCAGAGCAGCTCGAAGTATTATAGTTG
TTATTATTTTCACTTTCACTTTTCGCCGATTTGACACCATATTATTTATT
ACTTTATTATTATTAACGGCACATTAGCCCGATCTCTCGAACCCGTGGTC
ACAGAGTGCAAGGAGCATACCATCCATACCCAAACGCAAGTCGTGGCTAG
CAGAAAGCCAAAAGAAATAAAACGCACACACGAAGGCGAGGCAAACTTCA
CCACATAATCAGCACAAAAGCCCCATCGAACTACAGCAATGTTGACCCGC
CACGGAAAAAAATCCGGCGCACAACGCCCGATTACCTATCACAGAATCGC
TGCTACTGATGCTGTCGCAAGGCGACACGCAAAAGATGACAAGCAGACGC
CAATAATGTGGTAACGAATGTCACATGCAAAACCCCCGTCGGCCAAGTTT
ACTATACTGTCTGAAGTTCTGCTCAAGAGATGACATATAATACTGTGCAT
GTTCCTCCCCCTCTCCATTTCCTGTACTGCATATATATTTTTCTACCGCT
CCGTGGTATTTTCATCTTCATCTTCATTCATCCCGATCCGCCGAAGGAAA
AATCCCGGATGGAGATCATCGTCGTTGATGGCGGATGTAGAGACAACACC
ATGGATGCTGTGGCCTCGATGAAGCTCGACATTCAAGTAAGGTATGTATG
GATTTACTATTTAGTGTTGGTATTTCAGTGACTGGTTCTCATGACGCCAT
GGCCCTGCTCGTCTCTCTTTTTTTGAGTAATTCGTAGTCAACCTTCCTTC
CGGCATTTTATTTTGGTGTTTGTGAGTTAAAGTTTGCGCGCGCGCGTCTG
GTGAAATTAATGAACGATTGGGCCACAGATACCACGGTTACTATTATCCA
ACAGGAGAGAATATTCATTGTCTCATGACGTCATGGTCCTGTCCGTCATA
CTTTTTCCTTTTTGTCGAGTACATAGTCTAGATGTATGTGTGTGTGTGTT
TTCTTCCCATTCATTCTGGACATCAAGTTCGTTGGACGTACCAGCCGGGG
TCACACAGGAGGAAGGTCACACAGGATTTTTTATCCACCTTCTTTCTGCG
GTGCGTGCCTTCATTTTTCTCGCGAGAAGGATTCAGCCATTCCTTTCCCT
CGTCGACCGTGAAGTCGAATTTTGTGTACTAACGACTTTAATCGTTCTCC
ACCCGCTGGGCATTGTATCTATGTATGCATAGTCGTCATATATATATACA
GAGTATAGCAGAGTATAAATCAATCGGGTAAGGTTGCCAATCCTGCTCGT
GGTCAGTCCAACAGGAGAAATGTTTTTTTTCTCTCTGTCCCCGCTCGTGC
CGGAGAATTTGGTCTCGCGAGACAGGTTCGGCCGTCCCGTCCCGCGTCAG
CCTGCTCATTCTCCACACTCAGGCTGAATCTGATTCTTATTCACGGGATA
AACTCGTAATAGACAGTTCTGTTGGCACCTTCTAATCCCGATACGTACGT
TCTGACACGTTGGGACGTGAGTTCGATCCCGGTAAACGGTATTTTTCTCA
CAAAAAATACCTGGTAAAAAATAAAAACAAAAATGCCCAACGAGTGGAGA
ACGATCAAATCGTTTTAGGGCCTGTATTAACGATGTTCGGAAAATCAAAA
TCGGAAAATCAAAAATCAAAAATAAACGTTTGATTTCTTAAAAAACACTG
CGAGCCATGTTAACGAAAAACACTCGAACGGCCTGTCCGGAGCTGTTTAC
GCCGCCAGTATGGAAAACCTCTTGTGGCCTTGGAAAAATCCTGGAAAACT
CCAAGGGAACACCTCACAGTACTACTACCACTGCTGCTGTACTGATGACC
TCACCGTAATGGACAGTTCACAACGTGTTTAGACTTCGACCTTTATATAG
TTTACCTTCCCGTGCTTTCGACGTGCGGGTGGACAGTACCCTACCTCGCT
TCTAATGTTGGTGGTGGTGACTGTGGTGCTGTTGTTATTTTAAAACAAAT
CTGAAGGCGCCTAAACCTTCTGAGCATCCCCGGTAAAAAATGTCAATTTG
TCGCATATAACGGCGTGCAAAGAATCAGGCCCGTGGTCACATCGCAAATA
ATACTTGCCAGAAGGGAAGTAGGCAATAAATGATGTTTGTACAAACACTT
CGTTGTAGCTGCGAAAAAATAAAAGGGTGGGTACAGAAATGGCGATATTG
TGTGAGGTACCCCTGAACAAAGACACAGAGAGAGAGAGAGGGAGATAAAT
ATAGGCAACAGCAGCAGCAGAACTACTGGTACATAGTACACATACGAAGT
CTATATCTGTGCTGAGGTAGTAGGGAATAAATGCCGTTTGTACAAACACT
TCGTTGTAGCTGCGAAAAAATAAAAGGGCAGGTAGATAAATGGCGATATC
GTTGTGAGGTACCCTAGAACAAAGACACAGAGAGAGAGAGAGGGAGAGAA
AGAGAGGCAACAGCAGCAGTAGAAATATTACTGGTACATATTACACATAC
GAAGTCTATCTGTGCTGAGGTAGCACCCGTCGCCTTTTGGGTTGTATCGG
CGTCTACAAAGTCCAGCACCACTCGTTGCTCCTGTCCCCACCACCAGCTG
GTAGAATCAACGGTTGCCCTCGCCGTGGGACCGTTGGCGTGGGCCATGCC
AGCAGAAGTTGTGTGTATTGTGTGGCGGTGCAGTCTGTCTACGTGCTGCT
GTTGTAACTCTGCTGTGCTCTGGTCTCTGGCGTGTTTGTTGTTGTTGTTG
TCTTCACATTAAAAGCCGTTCCGGTCTCTACTCAGTACTTTCTAACATCC
GTACTGGTCCAACTGACGCGGACGCCTTCCGGGGTCACAGGCTAACTACC
CAGAAAGGGTACACATGTCAGAAAGAAATAAAAGGACCCAGAAAAGTCAA
CACACACGCGATAATTTGAAAATAAAATAAGACCCCCAGAAAATAAGTCT
CCAGACAGTCAGACGTCGCAGGCGACATGTCAGACAAAGGAGATAGATAG
AGCCCATCGCTCCCACTCGACACGCGAGGCCAAGCAAAATGAAACAAACA
AAAAGAATCAAGGATCACCAATCAAGACAATAAAATCGCATGATTCTATC
CTTGTACCCCTACTAGGCCGGAGTGTATTCACCGCCGGGTTTGCACCGCC
CAGGCGGAAAGCCTTCGATCAGGTGAACACCTCCAATGTTTATTTTCCGA
AAAATAAACATTAAGTCCCTGGGGACTTCTTTGGTTTGGCAGCGATTTCC
AAAAAATAAACTGGCGTAGTCAGGAGGTTTTGAACCTCGACCAATCAGAA
CCCAATTTTGATTTTGATTTTTTCCGATTTTGATTTTCCGAACATCGTTA
ATACAGGCCCTTAGTACACAAAATTCGACTTCACGGTCGACGAGGGAAAG
GAATGGCTGAATCCTTCTCGCGAGAAAAATGAAGGCACGCACCGCAGAAG
GAAGGTGGATGAAAAATCTTGTGTGACCTTAATCCTGTGTGACCCCGGCT
GGTACGTCCAACGAACTTGATGTCCAGAATGAATGGGAAGAAACACACAC
ACACACTTTACGCACATATACACATTGACTCTCTCCTGGCCCCAGGGATT
TGCGTTCTGCGCAAGATTTATGGTCTGTGTTTCACCCTGGGCCCTACGGC
TTGTGGGGGATTTTTCGTGTGACTGTATGTTTTGGGACGGTAGGGGAGGG
GGGCTTACTGGGCAACCGATGGACCCACAGGTGGATACAGCAAACATTAG
AACAGTATTGAGCACAAATCACGTGGATTCGAGAAGTTTTAGCTCGAGAT
GTTGGGCGTTCCGGCGTACACATCCGAGCGCAGACCCTATTCGGCTACAT
GGTATCCGGCTAGCTTTACCCTTGACTCTCTCCTTGCCCTCAGGATTTGT
GCCCAGCACAAAACTCATGGTTGCTGCTTCACCTCGTGCCCTAGGGCTTG
TGAAGGATTTTTCGTGTGATTGTATGTTTTGGGACGAGAGGGGAGGAGGA
CTTGCGCCGGTGGGCGCACGAGTGGACACAGCAACCATTAGAACAGTATT
GAGCACAAATTGCGTAGACTCGGGAAGTTTTAGCTCGGGATGCTGTGCGT
TTCGACGTACACACACGAGCGCAGACCCTATTCGGCTACTTTGTATCCGA
CTAGCTTTACCCTTGACTCTTGCCCTCACGATTCGCGCCCAGCGCCAGAC
TTACGGTTGGTGGTACACCTTGTGCCCTATGGCTTGTGGGGAATTTTTCG
TGTGACTGTATGTTTTGGGAAAATAGTGGAGGAGGACTTACTACGCAACC
GGTGGGTACATCAACCATGACGACAGTAACGAGCGCAAATCGTGTGGACT
TGGAGAGTTTTAGCTCACGATGTTGGACGTTCCGGCGTACACACACGAGC
GCAGACCCTATTCGGGTACTTCGTACCCGACTAGCTTTACCCTTGACTCT
CTCCTTACCCTCACGATTAGCGCCCCGTGCAAGACTTACGGTTGATGTTC
CAACCCGGGCCCTATGGCTGGCGGGGATTTTCTTACGTAGAAAGAAAAGA
TGTGCGGGTGTAGTCGGGACACGCACCGATTGGGTGTTGAAGGGGGAAGA
GGGCGGAATGACGACACCACTGCTGCAGTACGTTGCACGGTTTGATGGGG
GGGGCGAAATTTTCGGGTTTGGAGGGGGGGGTTACAAGGAGAGTTGGCTA
TGGTGCTCCCTGTTTGTCGGATTCCGTCTCTATTTGTTGCGCCAAGCGGC
GAGAAACCAGCTTCACCCATGTGTTGGAAGGGGACAAGCCTGTCCACCAT
TTCCCGCGTTTTCGTCCCCATAATTTTCGTTGAGCAGAGCGTTGTAGTTG
ATGCCGAGGGAGTGGGGTTCCGGCCGAGAGCGGTCGTAGCGGGGAGAGGA
GTCGTAGCTGTGTGCACGCGGATTTCTAGCCAAGATTATGTTTATGATAA
GTAACCCCCAGGTGGGTTACATGCAGTAGCATAGAATGAGTAGATTACAG
GGCCGGGTTGCGCGGTTATGTGCAATCCAATAAATACACACACACACACA
CACACTCTACCAGTGTATCGTTTGTGTTTCTGCGTTTGTACGCGCGCTTC
TCGTGCATGTTAGCCCCCGACACTTTCAACATGCCCACTTCACTCCGCTG
TTAGGCCTTGTCTTAACGTCGAGATATAATCTGTTCATAGAATCTGTTTG
ATGACAGATTCCGTCGACAGATCCTATTTTGGGTCCAAACGACCATATTA
GGAAATGCGGTGTCATTAGATAGTCACGCCTGCGAGTCACTTTCAACACC
TACACACTGTTGAGGGCGGCAAAGGGCGGACAGCGTAACGAGGTTCGATC
TCGCTCGAACCTCGACCTTATGCTACCTAGGGTACTCGGCAAGCCGTCAG
TCAAGCCTCCCCATAAACCGTGACTGTCGACAGACTGCAACAAACTAACT
ACTTACTTTACCAAAGTAGGGCATACACGGAGCACCATATATTTTTTGCG
TTTCACAAGCTCCTCAAACGATATATAAACCCAACAGCTCGTCGTGCAGT
GCATGGTATCTCGTGCGTTGTTTGATGGTACCTCGTGCGTTGTTTGATGG
TCCCTCGTGCGTTGTTTGATGGTCCCTCGTGCGTCGTTATACTACCATTG
GGGAACCCGTTTAAATACCATGTACCAGGTAGTGGCTTTGTATTTATAGC
CTATCTAATATGTAGTATATTACTACTACCCTGTGTGATGGTGTACTACG
TTGTCTCTGTTTTGTTTTTAATGTTTTTCTGGTGTCCCTGCATGGCGATT
AATGTAAATGTACAGTATAACGGCGGGCTTCTCCCCGACATTATACTGTT
GACCCAATGTTATTTCCATCGGGGAACCCGTTTAAATGCCATGAAGAGGT
TTTGTATTTGCAGCCTTTGATCCCACCTAAACGTTTTGACATTTTTCCTC
CCTAACCGGGGGATGCTCAGAAGGTCTAGGTGCGTTCTGATTTTAATTTA
AACTGCTGTTGTCCAGACCCAGCGTTAGCGGTGCGTACTGAGAAGTACAC
AAGAAAAACAACCACTCGGATATCAGTTATACTGTTTCCAGTATGTAGCA
GCTGGGGTTTTTTTAAAAATCGGCATCAGTTGTACTATTTTCAGTATGTA
GCAGCTGATGTCTTTTCTTTTTATGGTCTCAGTTATACTGTTTCTAGTAT
GTAGCAAGCTATGATGTACATTACTGGCCATCAGAATGTTGAGTAAGTAA
CGTTTTGGCCAGTAATGTTGGGCCCGAAAGGACCCCTAAAAAAAATGCCG
ATAATGTTTTTGGAAAGCCCTATTTTTGGGGCACCAGACAGCACAGACAG
CCATCGTATAATATGTAAAAACAAAAACAGAAAACACGTTTGCATGGTTC
GTGTGCAAGCTTTTCGCACGCCGTGGTCGAGACGACGTGTCCAGCAGAAA
GAGCTGTGTGTGCAACAGAGGGAAGTCAATGATGTTGCGATGTTACTTCA
GTGTAAGCCCGTATGTTCATGGAAATCCACGTATATATTTTTCAGTATTT
TTTTGTCATGTACATCCACCCCCCAAAAAGTTGCACATCGGAGGGAGCCA
CAGAAAAAAAAATCACGTGCGTACCATCCGCATTAAAAAAAAATGCACAT
GAAAGGGAGTTCCACATCGCCGGTGCCATCATGTTTGACCTGGCCAGTGA
TGTCAGTTACCTGGTAAATGTTAAAAATGTTTTTCCCATAACTGGGGCAT
TACTCAGTAAATAATGTGTCCCAAACCAAGTAATGTACATCATTGGTAGC
AAGTGTGTGTGTTTTTTTGGTGCCATCGAATAATTTCGCACGACAGAATC
TACGTAGAACAGAAAGAAAGTGTCGGTGGACAGATTCTATTAAGGCTGCA
CTATACATGATTGTTCCCCGATCCCCGTTTTTTTCTTTTTGTAAGGCCGG
TCGACCCCGGTAGCTCAGTTGGCACCTCGTAACCTTCTGACACGTTGGGA
CGTGAGTTCGATCCCGGCAAACGGGATTTTTCTCACTAAAAACTAAAAAA
CCAAAATAAAAATGCCCAACGGGTGGAGAACGATTAATTCGTTAGTACAC
AAAATTCGACCTCACGGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTC
GCGACAAAAATCAAGGCACGCACCGCAGAAGGAAGGTGGATTAAAAATCC
TGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAACGAACTTG
ATGTCCAGAATGGATGGGAAGAAAACACACACAGAAAACACACACTCCAA
AATATTGCCGGTTACAAAAATGCGGTTGAATGTCTGCTTCAATGAAATGG
CGCTATTTGGGCTATTTGCAGCTCTTATCAAAGGCTGTAGCAGCTATAGC
AGAAATGGGGGTCAGTCCACAAGAGGAGATGGCTAATCCACAAGGAATGA
AAGTGTTCGCCGTTGAGAGACCTGGGCTTCCTGAAGATTTTGTGTCTTTT
CCTGCTCTGTGTGGAGTGCAATCGTCGCCACTCGTATTTGCTCCGAATCT
GCCGATCGTTTGGGGTCCGCTACAGTGGTAGACACCGGGGGAGACACTGT
GCTTGAGGTTCGCGTTCTCCTGAGCTGAGTGCTCAAGCTGTTAGAGCGGA
CTCTTGCAAATCGTGCATGCCAGCTCACACGGACGCCTCTATATCCCGCC
CGGGCCGAAACGGTTGTGAGTACGTCGAGTACGGTCGAGGTCGGCGGCCG
AGAGCGTTTGTGGTCTGGATGTGAACCAAAGCCTGTCTCAGCCGACCAAA
TACATCCCACTCCCGGTACACAAAGCCTCCGATCTCAAGAAACTGCAAGC
AGCATCGTGTGTGGGAGTCAGGTACACATGGCCGCTGGAATTAGCACGCA
AAACCGAGCTACGATGGAAAAATCATCTCTTTTTGTTGAAGTTGAAAGCC
TGTGCGGGGCAACGGGTTACCCTCTTCGAACGCCTCGACTGGAAGACACC
GTACTTGATGCACACACTCGCGAACCAATTACGGTTATCACAGAAAGATA
CCTGGGCTTTCTACGCTTCTGTAGATGGTCTCAGCCTGGGCACTATCAAA
AGTTGGCACATTTAATATCTGAAATCCGCGTGGAGAGATCACACTTGGTG
TTCTGTACAAATTGTCACAAAATCGACATAACTACTGGGTACTGCAGTTG
GGTGGAAATACATCCATACAAGAAAAAACAATATACAGTACTAAGCTTCA
CAGACACCTGATATTCAGCTTTGTTTATTGGTACAACAGACAGGTACTAT
TATTGCTGATGATCTGTATTTATGTATAGAGCTAGTAAGTATGGCCACCA
CTTACTTATAAGAGAGTAATAGGGATCAACCGCGTAAGGTTGCCAAACCT
GCTCGTGGTCAGCTGTATCCGTGGTAAGTACATATATATGTACTGGTACA
GTACTGCTTTTGTACTGGTTCGTATACCAGGTACCAGTATATTTTGTATT
TGGGAACATGTACTTTCGTGCACGGTTCACTGCTGTATATGCATATATGT
GTAACTACAGCGGTATGTATGTAGAGCTTGTTTATATGTATGACCATCAC
AACTGGGCAAGGTTGCTAATCCTGCTCGCGGTCAGCTAGCTCAACAGGGA
AAATGAATTATTCCTGGTCCCCGTTCGCGCCTGAGAATTTGGTCTCGCGA
GACGGGTTCGGCAGTCCCATCTCGCGTCAGCCTGCTCATCTCCATGCTCC
AGGCTGAATCTAGTGCTTGCTTACGGGATTTCTCCCGAGTTCCGCTGCGG
CGTCCATTCATTATCGGTACACACTAATATGTACTATGCAGCAGTACATA
TATGTATACATACTATGTACGATGATATTAGCAGCACTGTGATCATGCTC
AGTCAGTTCGACCAATGATTGCTCGCGCATAAAATAAAAGTGCCAAGGGA
AGGCCTGGGAAATACAATGAATCCCGCCCTTAGGCCCTGTCTTAACGTCG
AGATATAATCTGTTCCTAGAATCTGTTTGTTGACAGATTCCGTCGACAGA
TCCTGTTTTGGGTCCTACCATTTAGGAAATGCGGTGTCATTAGATAGTCA
CGCCTCCGAGTCATTTCCAACACCTACACACTGGCGAGGGCGGCAGAGGG
CGGACAGCGTAACGAGGTTCGATCTCGCTCGAACCTCGACCTTGCGCCCT
CCTCCGAGCTCCGCTACCTAGGGCGCTCGGCAAGCCGACAGTCAAGCCTC
CCCATAAACCGTGACTGTCAACAGACTGCAACAAACTACTAAATGTACCA
AAGTAGGACATACACGGAGCACCAGATATTTTTTGCGTTTCACAAGCTCC
TCAAACGATATATGAAAGCCCAACAGCTCGTGCAGTGCATGGTACCTCGC
GCGTTGTTTGGGGGCGTCTGGAATACATCAAAGTCGGTGTACTCGTCGGG
CTCGCAACTGCTGTTGTGCAGACCCAGCGTTAGCGGCGCGTACTTAAAGA
AGTACACAAGAAAATCAACTACTCGGGGTATCAGTTATACTGTTTCTAGT
ACGTAGCAGCTTTTTTTTTTTTTATCGGTTTCAGTTGTACTGTTTCCAGC
ATGTAGCAGCTGATGTCCTTTTCTTTTTTTGGCCTCAGTTGTACTGTTTT
CAGTACAGGGCAGGTGTGTGTTTTTTTTCTTGCCATCGAATCATTTCGCA
CGATAGAATTTATGTAGAACAGAACGAAAGTATGCGTTTACTGATGTTTT
GGGGTCCGGCCGACAGAATCAGCTCACCGACAGAAAAAAATAAATGCCAA
AACAATTATTAATAGTTAGAATCTGTCCATCCGACAGATTCTGTCGTGTT
CAGAACTTGCCAACTAGTAGTGTCGAGCTTTTTTGGCCAATCACAGAGCT
TTATTTTCGACAGATTCTGTCGACAGATTTGTATGAACAGATTCTATCAA
GACGTTGAGACAGGGCCTTAGTCTAGAATTTCATCTTTTTTGCGAACAGG
AACACCCTCAGAGACATGCAAACACAGATAAAAATCCATACTGTGTATAC
GGCACCCTTAAGGCTGCGGGAAACAGTATGAATTTTATCGAAGAGTTGCA
TGTTTTTTTGGGTATTCCGGTTCACAGAAAATATTAAATTTGTGCTGGAT
TCGTTGTATTTTCCAGGTCTCTCCGGGACACTTTTAATTTATGCGCTGGT
CCTCATTGGTCGAACTGACAGGATTGTGACAGTGCTACAAGTACTGTTGC
TGTTGTTGTTGTTGTTGTTGTCTTCACATTAACCGATCGGGCCTCAACCA
TACCCAGTAATATACGTGGTTGCCAATCCGGTACGTGGTCACAAAGAGGT
ACCAAGGTCAACGGGTCACATCACGGTGACAACCCGCTACTCAGACCAAC
AGGGATCCAAATCGCGACAAAAAGTTATGCGACTCTACAAGCGATGGCAC
CGACCAATAGCAAAACGGTTCATCAAACTTTCTTTACTCCAAATCGAGAG
CAGCCTCGATCGACTCGGATTGTTGTCTCCAACCCACGACCAGCGTTCTC
AGCAACAAATCGGACAAACACGTTCCAACCAGTTTTGATCAACAATTCCA
AGTTTCTCAAGGCTACACATCGTACAAAAATAAGGAAAATTGAAATACCG
AGGTCCATGGTGGTGGAGGCCTTGAGCTGTTGAAGCCGGCGCGCGAGCCA
GCATCCAGCCGTCACAAAGCCCTGTGCATCCTTGAAAAAGCCCCACGAAT
CTTGCCCGTTCGCCGCTCCATGTGACCCTCGCAGGAAGAAAAATGACCGT
GGTCAGAGATCAGCTTTTCCCTCAGAAACCTCCCGGTTCGCGCTTTCGAT
TCTCGCGCACAGGGTTCAGCCCTCCCTGGCTCGTCAACGATCGAGCTGCC
CTCCGCCTTCGCCGAATCTGGTGCGTACCCACCTGATAGAGAACCACCAG
GCTCTCCGCGACAGTGCTCCCTGCTTCTCGCGTGCCGCCACCCTCCCGAA
GGCCACCAAATTGGAGCTCGGAAGAGGCGCACACCTGAAAACACCATCCT
CAGCCAACCATACTGCCGCCGCGTCCCAACCGACAGGTCGGATCGCGAAG
GCAGCCAGTTGGCTGCATCTCTCGAGGGTGAGCCCGGCCCTACTCCCGCC
GGAAAGACCCTCCCACACTCATACCCCGAAACCAGGTTTCGGAGGGAGAG
GGCACGAGAGTAAATACGAATGTCTCTCAAAGAGTATGCATGGCCATCAC
ATAAACCACCAGGCTCTCCGCGACAGTGCTCCCTGCTTCTCGCGTGCCGC
CACCCTCCCGAAGGCCACCAAATTGGAGCTCGGAAGAGGCGCACACCTGA
AAACACCATCCTCAGCCAACGATACTGCCGCCGCGTCCCAACCGACAGGT
CGGATCGCGAAGGCAGCCAGTTGGCTGCATCTCTCGAGGGTGAGCCCGGC
CCTACTCCCGCCGGAAAGACCCTCCCACACTCATACCCCGAAACCAGGTT
TCGGAGGGAGAGGGCACGAGAGTAAATACGAATGTCTCTCAAAGAGTATG
CATGGCCATCACATAGACTGAGTAAATAGCAGAGTATGGATCAACCGCGG
GTGAGGTTGCCAGTACTACTCGTGGTCAGCTGAATAGAGAATTTAAATGT
TTTACTGTCTGTCCCCGTTCGCGCCTAAGAGTTTAGTCTCGCAAGACGCG
TTCGGCCGTCCGGTCCCGCGTCAGCCTGCTCATTCTCCAAACTCAGGCTG
AATATGGTGCTTACTCACGGAATTCCTCCCGGTTTACGTGGCGGCGTTCT
ATGTGCCTTCTGATATTGATTGACTGAATTCTCACGTAAACTGATGTAAA
GCCCCTGATCACAAGGTAGAAAACATCATCCCGGAAGGGGAAAACGTACA
CTCTTCCATAAATTTTACAATGAGCACTTAGTGCTATACTGCTGATGATG
CTCGGTACAACTCCTGCTGGTCTACTGCTGTAACAACACACACAAATACA
TACCAGGGTACCTGGTATGTACATAGAGTACTACAAGCTACTCTTCCATA
AATACTACCTGGTACTTGAGTACTATTATACTGATGATGCTCGGTACATA
CCTGTTTGTGTGTGTGTTGTGTTTTCTTCCCATTAATTCTTGACATCAAG
TTCGTTGGACGTACCAGCCGGGGTCACACAGAAGGAAGGTCACACAGGAT
TTCTCATCCACCTTCTTTCTGCGGTGCGTGCCTTAATTTTTCTCGCGAGA
AGGATTCGGCCATTCCTTTCCCTCGTCGACCGTGAAATCGAATTTTGTGT
ACTTACGATTTAATCGTTCTCCACCCGTCGGGCATTTTTAGTTTCATTTT
TTAGTTTTCCAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCC
CAACGTGTCAGAGATTACATGGTACCTCTGAGCTACCGGGGCGACCGGCT
GCAGTACTCGACACGAAAACATTACTTTGTTATTGTTTGTCACATTTAGT
GTTTTGGTTGCCAACCCGAAAAACTACTTTACACGGTGGCCAATCCCGCT
TTATAGAGTACCTTGGTGTAAGATAATGGTGTCATCGAACAATCCTGTAA
TACAATATGAAGTTATTGTATACAATATAATGTTATGGTATTGTAATCCT
GGCAGAAATTGTTACGACTACACTTTTTACCATGCTTTATATTCAGTACG
TGTTTCGATTTCACACTACGTGTTACTGGTACATATTATGTGGCAACACA
AGGGGTGAGGTATAGACTAGTATTCAAAGGTCTAGAGCTATTCTTGTACT
GCTGATAGACTATAGCAGTAAGTACAAGTCATACGCTTCTGAGCCTTACT
TACGAGTAGTACATCGTGTCTCGTAGTTCTAAATACAAGTATAATCGTGT
CTACTTTGGGAAAATTTGTACCAAATCTAGGGTGTCATCTCGCCCTGCGG
ATTTAAAAACGTCGACGGTGTAGGCTTGAACGTGTCATCACGATAGACCA
CCGGAACAAGCACAAAACACACAGCTGTCTCTGACCAATGGCTGTGGTTC
GCTCGCAAGAGTGTACAACGAGTGCGGTGTGCGGCAGTCGAGGAATCGAA
CGAGGGTCGCTGTTGCACCGCACAAGACTTCAAATACCAGTTGAAGAACG
ATTTCTCCATGGTAGCCCTGTCCCGTGCGCTAATTCCAGCGGAAATGTCT
ACCTTACTCCCACATACGACTCTGCCTGCAATTTGGCGAGCTCGGGGGCT
TCGTGTGGCGTGAGTAAGCTGCATTTGAGCGACTGAGACAGGCTTTTGCA
CCAAACGGTGCACATCCGATGAGCAAACACCGCGACCGCCGTCCTCAGCG
CACCACAAACCGTTTCGACCATTGCACCGATGCAACTCGTTCACAATACC
CTTGTCTACAAGATGTAGAAGAGTTTGGTCGTCTAACTTGAGCGCTCAGC
TCAGGAGAACGCAGGGCTGAAACACATAGTCTCTAACGGTGCCTGCCACT
GTGGCGAACCCCGAGCAATCGCTCGATTCGGAGCAAATCTCACCAGCGAC
GATTGCACACCACACAGTGTACGAAAAGGCACCAAACCTTCAGCAAAGCC
ATGTATGTCAATGGGGAGCACAGCCGTACCTGGTGGGTCAGCTATCTCTT
CTCGTGGGCAAACCTCATTTTTCGCCATCGCTATGAAAGAATGTTTTGCC
TTTGACAAAAGCTGCAAATGGCCCAAATAGCACAATTTCATTGACGCAGA
CATTCGACCGCATTTTATTTTATGTTTGTAACAGTCTGTATTTTGGGGTA
CAAAAAGCAAAAAACGGGGATCGGGGAACGATCGTGTTTGCCGCAACCTT
AAATACCAAAGCAATTAGTTAGAATCTGTCCACTTCTGTCGTGTTCAGAA
CTTGCCAACAAGTAGCGTCGAGCTTATTTGTCCAATCACAGAGCTTTATT
TTCGACAGATTTTATGAACAGATTCTGTCTGGACGTTAAGACAGGGCCTT
AATTATTAATATTTGTTTAAAGTTGTTGTTTGTTGTTTGTCTCACATTAA
CTGATCCGCTACGAATCCAGGCGTGGTCACAAGATAGACATAACCAAACC
AAATTAAACCGGGAACAATTTCGAAGAACAAAATAAAATAAAAAAAGCAG
GGAAAACAGACATAAGACAGCGAGAAAGTAGGACATCGTCGCCAGGAAAG
GACACAGAAGAGACAAAAAAAAATCAACAAGAAACACAAAACAAGAGCAC
AAACAGTAAGAAACAAACATAAGGCAACCGCATAGTACGCTCCTCAGCAG
GCTACGCAAGAAAGACAGCCCTATGAGCGGCGGAATACAACCCAGACAGG
AAGACGAGGGCAAGGACAACGGATGCGAGACACAGCGAAAGAAAAACACA
GAAGGAGGAAAGGGAGACAACAATCAAATCAAATAAAAGATTGGAGGTAT
ACAGACACAAGAACCATCGCGATGGGTTAGCTACCCAAAAATGTAAGAGG
AGCAGAACCCATACCGGACTCACCTATATAATGAAGAAGACAAGTAGAAA
CAAAATAACACAAAATCGCACACCACGTGGATGTTTATCTCATAGCATGA
ACTGATCCGCTACGAATACAGCTGTGGTCACAAGATAGAGGGAGTTACAC
CAAAACAAACCGGGTGTTCAGTTAGGCCTCAAACTAGGTGATCAATGAGA
TGGTCTTGGATGGGGGCGGGCACTTTAGCCCTACAGGTATCGTTCGTGTA
CACACATCTTTATTATTATTGTCCCATACAGCACATGACCGTGCCGAGGG
TAACACAAGAGAACACAAACGTAGAGACACTAGAATAACAATAACCAACA
CAACCAACAATGAACGCGGGTACAGTACAAGCCAATCCAGGAAGGTATGA
ACTCCGTCCCCCTGTGAGTAACGCATAGATACTGATGTCAACTCCCACGT
AGATGAAACGTTTATGGAATCGTAACTTCGACATTCGACATCCCCCTCGA
TGAGATCAACGTTTCCTGCTCGTCTTCAACGTTTAATTTCCCCCTGGGTG
CGTGAACCCTTTTCACACAAATTTCAAACAAAATACCCCCCTAGCTATGA
AGAATCCAAACTTCAAACAGTACATCCCCCTAGCTACGAAGGATCTAAAC
ATTCCCCTTAATTACTGCACATGCTCTACAGATACATTGCAAGACTTGGA
ATATTAGTACTCAAACTGCATGTAAATGCTATTCAAAGTCCAGTACATTA
TTACCAGATTTATAAAAAAACTTTATTGTCGCCACGGGGATTGAACCCGC
GACATACGTTCTGAACTACATCATTTCAGTTGCTCTTCCATGATTTATAA
CACTGACGTATGTTGCTACGGTAGGGTCTGCACTGACGTAAGTTACTTGA
ACCCAAATGATCCATATTTTATAGAGTCAGTTACTGCTGAATCAGATTCG
CAAACATGATAACAGTAGGGTTACGCTTGTACAGAAAATACAAAAATGTT
GAATATTCCCAAAATACTATATTGGGTTGTGTATACTGTACCTTATCTTT
AGTGTCAGCTGGCTATGACTCTCAAACCCAGCTTCAAGCTAAAAGTCTAC
AACGATCGTGCAAATCGTTTTGGTAGCTTAGGTCGGCGACAGAGCGGGCA
TAGCTTTGCTCAGTCCGTTCTTCCAGCATCGCTACAGTACCGTACTCGAT
GAAAAATCTAATAACCTACTCCCATTTTTCTTCAGACATGCAGCATTGAA
TCTGGCCCACATCAACTGAATTGCTACTGTGCTACAGTAACAAAATGGGA
ACTTCCTATACTGTTGTGTTACAGTGCAGTACAGGAGAAAATTCGAATCT
CAACATCATTGTCTTGAGTTTAATGTACCACGCAGTAATTCCAGCATAAA
CACTGCCAGGTACTTATTTCAGCATAAAAACAGCCACGAGCACAAGGCCT
ACAGACACCGGACCATATTAACTCTATCCTAGAGCGTTTGCGCTACGACT
AAACCGGGCGTTGCTTGTCCTCGCCAGCTTCAAAAGGGTGATGGGCGAGA
AAATGCTTGCCCTCCGGTTGCGTACATCAGCGACCTGATCCGCGTCCAGG
ACCCGCGTCTCTTTCAGCTTCGCTGAGAAGTGATCACCTGTGGGAAAAAT
AAATAAATCGGAAAACAAACACACACAGAGCACAGAGCACGAAGCACAAA
CATAAAGCAACAAGGAGCTTTCCAGCTCTCCCCAGAAAAAGAAAGGTAGA
GTTACAGCCGCGTCCCAAGGCGGTGCCTTCTCTCTACTCCCACCGGGGTC
GAACTGTTTGTTCTGTTCGCTGAATGTCTTGAGTCTGCGGTTTTCCGGGG
TTGCAGCTGTGAAGAGATGCCTGCAACCGTTACCGTACTTTTCTCTCGTT
CGTCCACACTTTCCGTTGTTGGTGACGAAATATTTCCCTTTTTGGTTGAA
TCCACGCCCGCGGTCAAGATGCCAGAGGCGGTAGTTTTTCCAGTCTCCCA
TATCCCCTCAATCGGGGGACACTGCTGTCCGGGCGTCTCGAGACCCTTAT
CAGCTGATAGTGATTTGAGTTCCTCCAACTCCGGGCCCATCCTCCCCTTG
TTCTCCAAATCGCCATATACACTCGATGAAGGTTCGGGATCAGGCGAGCA
GGGGCTACAGTAGTGCTGTACGGTGTCATCTCGTGTAACAGCAGTCACCT
GTGCCGCCTCGCGGTCTCGCTTCTCCACGAGCCGTTTGAGAGTAGCGTAT
TCCTCATCGCTCAATTTACCCTGTTCAATTGCGTTGATGAGTTTGCCGAC
CTTCTGTCTCGGCATCGAAATTGCATTTTTCAACGCGTTCACCTCAGACC
ACAAGCCGGCATAGTACTGCTCCGGAGTGGGCGGAAGTGAGCGATGAACA
TAAAACAACTTTCCTCGCCTTCCACAACTCGATCAAAGCCATTCTCTCTC
CTCCAAATTGCTAGCTCCTCGTACGCAAGGAATTCTCTCATATGCTTGAG
ACGGTGAGCTGCAACGATTCCCATTACTCTGCCTAACTTGCGTGCATGCT
TTGATGCTTCTCCAGCTTCATCAAGTATTGTCGTCAGCTCTTCGTCTGAA
CATTTCCTGATTTCAACACCAGTCGGGAACGTCATTTTTTTTTTCTCACG
TTCCTAGCTTTCAGGAGGAGCCTCTCGCCTCCGGCGTCGCTTCAACTCCT
GCGCTCGTTCTCCGTCGGGTCGCTCATGCGCCCGGTCTCGTCAATCCAGC
TCTCCTTTGGCTGGGGACGCTTCGCTTCTCGGCGGTAGTCCAAATTCTTC
GCTCTCCTGCGGTAATATCAATTCTTCTGCTTTGCTCCGCCTTATGTAAA
AACGACACTGTCTCAGGGTCCCAAGCTTGAAGACCGAAAACCTTTCTGAA
GGTCTCCTCGGGATCCTCTCTCCGCTTAGCGTGTTCAGTTAGGCCTCAAA
CCAGGTGATCAATGAGGTGGTCTTGGACGGGGGCGGGCACTTTAGCCCTG
CAGGTATCGTTCGTGTACACACATCATCTTTATTATTATTGTTCCATACA
GCACACGACCGTGCCGAGGGTAACAAAAGAGAACACAAACGTAGAGACAC
TAGAATAACAATAGCCAACACAACCAACAATGAACGTGGGTACAGTACAA
GCCAATCCAGGGAGGTATGAACTCCGTCCCCCTGTGAGAAACGCATAGAT
ACTGATGTCAACTCCCACGTAGATGAAACGTTTATGGAATCGTAACTTCG
ATATTCGACAGCGGGAACGAACATGGTCGGATAAAACAAACAGGGAAGAA
AGCAGACAGAAGGAAGCGGACGTGAAAGTAGCCTGCAAAGGACATCGTCG
CTAGGAAGGGACTCAGAAGAGAAAACCGAGAAACAAAAGATAAACAAAGC
AAAGGTCCAGATGCGTTCATATTTTTCTTTGAAGGACAACCACATATAAT
ACGCGGAAGGCAAGAAAAAAATATCCTTCTCAGCAGGCTACGGAAGAAAG
GCAACCCATATAAGCAGTCCAAGACCACCCAAATAGAAAGACAAGGACAA
CGAATGCGCCACACAGCGAAATATTAAATATTAATGAAGGAGGGGGTAAA
GGGGAACAGCAATCAAATCAAATCAAATCAAATAACAGAATGAGGTCAAC
AGACACAGGGAGAAGCACCGCGAGGGGTTAGCTGCCCCAAAAATAAATAT
AAAAACAGGAGCAGGCCCCATACCGGACCCAGCAAATTTCCGGTCAAAAC
GCGTGGACCATGTTTTTCTGTACTGCGCATGAGGAACATCTGGGAGCCGT
AGCCCTGACAAGTTGGGCACGTGGGGGACTATACCCATTATTATAGCTTG
CCTCTTACTTCCTTGTGCGATCGATCCTCTACTGCCCTTCGTCTACTAAT
ATTGATACTAATACTTTCAGGTGAATACCGGTGTTTCGTACTGTCTAGCC
GGTACTTTCAACATGCCCACTTCATACCAATAGTGGGTGTGGGAAAGAGA
GGCGCATATTAATTGGTCCATGGTGACCTGCCAAGGCAGCACCCGCTTGG
AACTACCTTGAGGTTTACTGGCCCTGTGCCGGCGGACTCTCGGCAGTAAA
CGCCATCGGTACGCAATTGCGTGACCCGATAAACTCGGGACTGACCCGAT
GGCGTATGGCGGTTTAAAATAAATAAATGGACGCCGCCGTGGAACTCGGG
AAGAATCCCGTAAGTAAGCACCAGATTCAGCCGGAGTATGGAGATAATGA
GCAGGCTGACGCGGGACGGGACGGCTGAACCCGTCTCGCGAGACCAAATT
CTCAGGCGCGTACGGGGACAGGGAAATATTCATTTTCCTTGTTCAGCTGA
CCACGAGCAGGATTGGCAACCTTACCCGGTTGATCCTTACCCTTGCTATA
TGTGTGACTATACATGCATACATACTGGTGGTCCTCTCTGCCCCTGTTTC
AATCATTAACCCAAACCCAAAGTATTTACCACTACCACTATAATAGCTGT
TCTATACCATTAGCACTAGCTGTTCTATCCTATACCTGGTACTGTACTGT
ACCTCACTCATCCTGTTGTCACAAAGGTAACATGTACTGTGAAATTCAAT
TGTGTGCTGAATAGATGGCACGGTAAAAAGTCGCTATGGACTAATATTGT
TGTAAAACAAAAATGTTACATTGTACCACTCTGCACCAATTATAATATTA
CAACGTTCCTTGCGCTCTAGACTATAAACCCCTATTGTTTAAAGAAAAAT
CTGAACGCATCTAAACCTTCCAATTAGTCAAAAGGTTTAGGTGGGAACAT
TGGCTGTAAGGACAAAAACTCTACATGGTATTAAAAGGGTCCCCCAATGG
AGTCACATAGGATAGGGTCAACAGTATAATATCGGGGAGAAGCCCACCGT
TACACTGTACACACTTACATTAATCACCATGTAGGGACACCAAAACAAAA
GCACCGATGGCACTATTATCGTATATTATTACTAACCTCTTTAATCATGT
ACAACATGGTTTTGTTTTGTTTCGTTTGGTGTCCCTGCATGGCGATTAAT
GTAAGTGTACAATATAACGGTGAGCCTCTTCCCGACATTATACTGTTGAC
CCAATGTTACTACCATCGGGGAACCCGTTTAAATGTCATGAAGAGGTTTT
GTCTTTGCAGCCTATGATCCCACCTAAACGTTTTGACATTTTCCCCTCTG
ACTGGGGGATACTCAGAAGGTTCTAGAATCGTTCAGACTTTTCTTTAAAA
ACAAAATCGCACACATAACTACTGTACAAATTCGCTAGCCTTACGCTGGC
GCCGCACGTAGGATTGGCGAAGGTCCGCGCGTCGCCAGGCGTTATCGAGT
TCTTCCGCTCCCCTCTCGACCCCCCGGTGCCACATGCCCACGTTCTTCGC
AGTAGCCATCCAATCCCGTCCATCCTTGACAACAAGTGGGTGTGGGGAAC
GAGAGGCGCACATTAATTGGTTCATGGCGACACCTGCAAATGCAGCACCC
GTTACTGGAATTACTTTGAGGACTTTCGACACTGTGCCGGTCGACTCTCC
GCAGTGAACGCCATCGGTACGCGATTGCGTGACCCGATAAACCCGGCACT
GACCCGATGGCGTATGGCGGTCTAGATAAATGGACGCCGCCGCGGAAATC
GGGAGGAATCCTATAAGTAAGCACCAGATTCAGCCTGAGTGTGGAGAATG
AATGAGCAGGCTGACGCGGGACGGGACGGCCGAACCCGTCTCGCGAGACC
CAATTGTCAGGCGCGAACGGGGACAGGAAAATATTCATTTTCCCTGTTCA
GCTGACCACGAGCAGGATTGGCAACCTTACCCGGTTGATCCATTCTCTGC
TACAAGTGATGACCATACATACATGCATACAAACGATTAGGCCACATATA
CCTGTACCACAGTTACCATTATCGAACAGGAGAGAATATTCACTGTCGAG
AACATGAGTTTCCAGAAACGCCAACACAATCTCAGGCCTCAAATCAACCA
ACAAGTGGAGTTCCCTCTCCGACCCTAATTGAATTTCCCCTGTGTTGCCT
CCCATCAATTTATATCAACCAAAGATGAACCTCACCTATATACTAATATT
AGAAAAGTTTGTTTAACTTCTCTAAGACCATATAAGACCATATTGTTACT
ACTGTAGCCCGGAACTCCTAGATAAAAAGAATTGTGGTTTTGGTGTCCCT
GCATGGAGATTAATGTAAGTGTACAGTATAATGGAGGGCTTCTCCCCGAT
ATTATACTGTTGACCCGATGTGGTTACATTGGGGAACCCGTTTGATACCA
TGAAGAGGTTTTGTCTCTACAGCCAATGTTCCCACCTAAGCCTTAAGACA
TTTTTTCCCCTGAAGGCAGATGCTCAGACCGCTTAGATGCGTTCATATTT
TTCTTAAAAAACCGAGTGCCACTTGTGGGTGGTCTCTACATCTTGTCAAC
GTACAGGTACGTACATGTACGTCATTGACTACTGCAGCACCCACTCGAAC
CTCTGAAATGTGTTCCGTGTGGTTGTCGTGTCTGCAGATTTTTTTAGAAA
AACGCCACCTACCGCTGTTTGCATTTTACCGGTACTACTATTATTGTTAT
TATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTATTA
TTATTATTATTATTATTATTATTATTATTATTATTATTATTATTACTATC
TTGATTATTACTATCATTATTACTATCATTATTACTATCATTATTACTAT
CGTTATTACTATAATTATTACTATTACTATCATTATTACTATTACTATCA
TTATTACTACTAGTGTACAAATACTGCTTATTAAGACCTCTTCCGATCGG
ATTGGGTTGGCAATCGATCCTTCGTGTATATGTCTGTGTGTGTGTGTGTG
TATTTTTTAAATTGCACATAACCGCGCAATCCGGCCTTGTCATCCTAGTC
ATTCTATGCCACTCGCATTTATCCTCCCAAGGGGGGATCAATGATACTTG
TTACGAAAAACTCTGATCAAACGCGACAAAGGGGACACACTCTCTCTACT
TGTACAAATCTTACTTGAGCCCTGAGCACCTTGTGCTCCCCACCCTGCTT
CATTGTTGCTCCCCAGGTTATCCGAGTTGGCAGCTACTGAACCAACCCTT
TCTTTTCTACATTTTTTTCGTTTTCCACCCATGTCTCCCCCGTTGTGAGT
GTGTGTGTGTGTGTGTGTGTATCCATTAAATTGCACATAACCGCGCAATC
CCGCCCTCTGTGTGTGTGTATTTGAAGAAAAATCTGAAAGCATCTATACC
TTCTGAGCATCCCCCAGTCACGGGGGGAAACATCAAAACGCTTAGGTGGG
ATCATAGGCTTATTAAATTGTACATAACCGCGTAATCCGGTTCTGTCATC
CTAGTCATTATATGCCGCTCGCATTAATTATTCCAAGAAGGGGTCAATGA
TATTTATTACGAAAATGTTTGTGTGTGTGTGTTATCGTTGTTGTTGATTC
ACACATTCAGCGTATTGTCCTTGCAACTGAAGAAACTACTGTGACACAAC
AAGGCAGCCATAGAACTATCAAATGACAATCCCGCTCGTGGTCATAAACA
GATACGAAGGTCAACGGGCCACATCATGGTGACAACCCACTACTCAAATG
TACTTCTCTTTACCAATTACAATATTGTAACATTTCTCATTGTGTTCTAG
ACTAAAAACCCTTATTGTACAGGGTCGATGGCACTATTACTGTATATTAT
TATAAACCTTTTTTATTATGTACTAAAATGTTTTTGTTTTGTTTTTCGTC
TGGTGTCCCTGAATGGCGATTAATGTAAGTGTACAGCATAACGGCGGGTT
TCTCCCCGGTATTATACTGTTGACTCAATGTAACTACCATCGGGGAACCC
GTTTAAATGCCATGAAGAGGTTTTGTCTTTGCAGCCTATGATCTCACCTA
AACGTTTTGACAGTTTTCCCCCTGACTGGGGGATGCTCAGAAGGTCTAGA
TGCATATTTTTCTTGAAACAGGGATCGATATCGCGAGAGACAAAATTGTT
GCCAGGTCCAACCACAACCGAGAACATCGGAAACTTACCGGCGTCAAGAC
GATGTCTTTGGGTACAAACTATAAATACAGACAGTTTCTACTATCTAGAG
TTCTGCAAGTATTTCAGATCTGAATGACAAGCTACAGAGAAGACAAGACT
GCCTGATATGCTATCGTACCCAACCAACAAAGTGATGTCATCAAAAGTGC
CTACCCACGGCCAGCGTTCTCAACAACAAAGCGGACAAATCACGCTCCAA
TCAGTTTTGATCAAGCCGCAGGTACTTTCAACATGCCCACTTCTTACTAG
TGGGTGTGAGAAAGAGAGGTGTCCATCCAAGGCAGCACTCGTTCGGAACT
ACCTGGGGTTTACTGGCTCTGTGCCGACGGACTCTCGGCAGTGAATCGCA
TCGGTACAATTGCGTGGCCCGATACACTCGGGAATGACCCGATGGCGTAT
GGCGGTTCAAAATAAATAATGGATGCCGCCGCGGAACTCGGAAGGAACCC
CGTAAGTAAGAACCAGATTCAGCCTGAGTATGGAGATGAGCAGGCTGGCG
CTGGACGGGACTGCCGAACCCGTCTCGCGAGACCAAATTCTCAGGCGCGA
ACGCGGACAGAGAAATATTCACTTTTCCTGTTCAGCTGACCACGACCACA
GCAGGATTGGCAACCTTACCCGGTTGATCCTTACCCTTGCTATATGTGAT
GACCGTACATAATACATACATATATACTCTCCATACAAAAAGTTGCTGCC
ATTAAATACTGTAAGTACTTTATAATAACGTAGCATATTATTAATTATAT
GAGAATGAAATGAGAGAACGGTCGGCAGTAGAGTATTACTTTTGGTATTA
AATAGTACGAGCACAAATCCAAACACGTAATGCTTCACGAGAAGACTGAC
TTCAAAAACTGTCACAGACTCCCGAGACACGATACTCTCTATTAAATAGT
ATACAGACGTGGTACGGATGAGCAGGAAGGCTGGAAGGCCTTGAACGAGA
TGACGTCGATCGGCTATCCCCGTAAGGGAAAGGGCTCCGCTTCGTTCACC
TCAAGCCCACGACTTTACTCAATACAGTGCAGAGACTCCATGCGAGGCCA
TGCGGCAGTGCCCGCCCTAACGAATCCTGCTCTCCAGCGTGCATCTGTGT
TTGTGCCGCGCATTAGCCTTACCACTTTCTGCATCTCTCCTAGCCTCTGG
GACCGTTTGCATTATTTGTCAGAAGGGGACACGTGTGATGTGGCCCCCAC
CACCTAGATAACCGCGTAAACCGTCAGGTGCTCGACAAGCTCCTTACCGC
TCTCGTCGAGGCGCTCGAAGCTCTCCACGGCAAGGGTGGTTTGTTTGAAG
CAGCGCTCTGCAAATGACACGTGTCTTTTGGCAAGCGTTTTTTTTTGGCA
TGGTTCTCTTCCTTCGCTTTGAACGAAAAATCAAAAGGAAGGAATTGATA
CTGCTTTTCCATAGAATACCCTAACTTTTTTTATAGCGAATACCAGGTAT
GTAATAGATTCATTCGTCCTGTACTCCCCACAAATTGTACTGCTCGAGGA
GTGCCTGGACGGGCTCTATAGATCGCTCTGAGCTTCCCCACTGGTGGATA
TAGTACTCTCTACAGCATACAGGAAGACGTAAACTTGTGTGTTGAACTTA
CTCAGCAGCAGTGCGTGTCTTCAGGAATTCCAGTGGGAACCGCGAAACGC
TCGAAATGATTTCGCTCGCCGCGATGGGCGAGGTTATAGAGTTGACGAGG
CTCCATCCCCCCTCCCAACGGAGGCAATCTACATCTACTTACATCTATCT
AGATCTATAGACTAAGCCGCTGCATTCGGCAGTGACATTTAGCTTCCGCC
TCTATTTATGCGTTCAATGTGGACTACTACCTGGCATCTAGACTAATAAT
ATTTATGCAATAGTTATACATTAATATTTATATATTAATACGAATAAATG
TGCAGGGGTACGCCATGGCTCCTTCCAGGGAAATGAATACTTATAGTCTT
CTGATGTACTTGTGTGACTCAAGCAACCTACTAGAGAGAGAGTATAGACT
GCGGAAGTAATATATGTATTTCTCAAGTGTCTAATGAAGCATGACTCCTC
TGGGTCGAAAATGTAACAAGACGTGTTTTTGTCATGCTGTTGCTATAATG
CTATGATGGTTGCTAGAGCAAGGAGGACGTTCGACTTTCTATCGAAGAGC
ACGAAGAGCCGAATTCGACACGACCCATGTCGTGTACTATTGTAGTAACT
TGATTTGCTTGACTTGGGGTGTCCTTAGGGCGAGAGCTCGTTTAGGGACG
GAGTTGTGGTTTGAGGGACAAGCGCCGATGGTAATATCTGCGCTTAAAGA
CCCGCCTTCGTGGTTACTGGTACAGTGCGATAGATATTATGTGGTGCTTG
CTTATCAGCACTCCGCGCTTTGGAGCGAGCGATACCGCAAACCGGTCTGC
GATGTGTTCCATTCACGGCCGGTTTCAAAGGGACAAGGCTATTAATAACT
TGATAAGAGATGGAAGATGCCCCATTATAACGAGAATACGGTAATTTTTA
TGGGACGGGACGGGACGGGACTGGGACCTAGAATCCAAAACTTGAGACGG
GACAGGACAGGGCAGGACTTTCCCGACAGTCGATGGTTAGGAGGGAGAAG
ATCGATTCCTTTTTAAAAACCCTTCATGAAATGAAATCATCTTCTCAAGC
CCTGCACGACTACGACTACAGGCAACAGTTCAGTCACTAGCATTCACAGA
GATAGATTTGGTGCTAAATATACTATAATAGAGTCTAAATATTTATCTAT
ACTATACTACGGCTCTCTTTTATATTATACAGTATTATAATAATACGTGT
ACAGTATTGGTATGAGTATTAATACAGTAGTATTTTCTAGACACTCGTGC
CAAGTTCTATGATGCACATACGTCGTGGCTCTGGTATGATTTGACCGTCC
AATCAGCGCCATTGTCACCGTATCGTCTCCTGCGGCTGTACTTAAAACGT
TTGTAACCTGTGTAACGCCTTGCCGCTCTCCTGTAACGTCTGTAACGTCT
TCAACCTCGCGGTCGTTTCTGTTTGTGTTGTGTTCTTTGTACCATACATC
CCTACCTGGGCTCCGAATCTGCGCCTCTATCGTGTCTCGTCTGTTGTGTG
AATCAAACGACACCATCAGCACCACAACTTCCGTCGGGGGTCGAGGGCCG
GCTTTGAACGCCGGGGCGAGCATTGCGAAGGGGGATCTATTCCTGTTCGT
GCACGCAGACACCGTGGTTCCTCCCTCATTCGATGCGATCCTGCGGACTG
CCTTCCTCGACCCGAAGGTCCTTATGACGACCTTCAGCTTCGGCATCAAC
CGCGCGCTGCTCAAGGGAAAAGAGCCCATGCTCATGTCTCTCATGGAAAC
ACTCGCCAACTACCGAACGCGGGTATTCCACATGCCCTACGGAGACCAGG
TGAGCTTGGTAGATAGAAGCGAACTAGAAAGTCCGGGGACGTTTCTGTTT
TGTGTGTGTTTTGTCTTTCCTTTCCGGAGAAGTTTTCCACAAGTTTTTTC
CTTCTTTCTGGGAAGCACGAGGAAAGAGACTGCCGTGTCCCCTTTGTCTT
TCCATTTGCCACGCACGACGCATGGATCATGAGTTTGTAGGCTTGCCTGT
TGCCGGGATGGACTTGGACTCGAGCGTGGGGAAGTCGACAGGGCGGTACC
TGCTTGCCGTCTCTTCATGTATGCTCCCTCACTTATTGCAGACCCTATAA
GTTTGCCAATCCTGCTCGAGGTCAGCTGAACAGGGAAAAATAGTATTTAC
GTCCCGCCGTTCGCGCCTGAGAATTTGGTCTCGAGAGACGGGTTCGGCTG
TCCCGTCCCGTGTCAGCCTGCTCATTTTCAGTACTCAGGCTGAATATGAT
GCTTATTCATGGTATCCCTCTCGCTTGCCGCGGCGGCGTCCATTTATTTA
TACCACCAACCGCCATCGGTTCAGTCCCGAGTTCATCAGCGCACTGATGG
CTTTCACTGCCGAGAGTCCGCCGGCACAGGGCCAGTAGTCGTCAAGGTAG
TTCGTGTAACGGGTGCTACCTTTTTAGGTATCACCATGTATCAATGAACG
TGCACATCTCTTGTCCCAAACCCACTATTGGTACGTAGTGGACAGGTGTG
ATACAGAAAATATCGGATACAGAAAATATCGGATACAGAAAATATCGGAT
ACAGAAAATATCGGAGGCTGTATTGGTAGGATTCTGTCCTACGGTATGAC
AACGACGATTGATCAGGGAGCGCGTGTCGGAGTCGGACGGGTCAACACAC
ACCGGCGTTCGCGGTACAAACTACGTACGCGACGTTAAGAAACGCCTCGC
TCAGCCATGGGAAATCTCGCGTTATCTCTAGACTTTTCCCGAGGGAGTTC
CATCACCAATGCTTTCTGGTACAGGTGTTCCTCACCCCTGCTTCCGTAAC
TCCTCGGTATATTTATATCTATGTATATTATATGTATGACGCGTTCACAA
CCATTGTTACAGCAACCGTTTTTGTTGTTGTTTTTCCCCCCTGTTATTAC
ATATCTGCCGGGTAATAAATCTCACCAGGCCTTCTGCTTCACGGCCCACA
AATTCCGAGCGATAGGAGGTTTCCCCGACTTCGTGATGATGGAGGTAACT
TGAAAACGATCACGATCACGATCACGAGTACAAAGGTCCGCAGCGTCTAG
TCCGGCGGCGGCTGCGTCGAGTCCCTGCAGCTGCGGGAGGGTTTTCTTTG
GGAGGGAGGCGATTGTTAGATACCTTCATCCCCGCTCCGGATCTACTGTA
TCTATCTCGCCTTTGATCGCCTTTGTTCTAGCGTGTTGGCTCTGGCAAAG
CCGAGACGCGGGTAAATAACACTATATTGTCATAGTCGTAATGTATAGGC
CACTGTACAAGCTAGGTGGTGGCGACGGCGGCGATGTACAGCGCTCCCCT
CCACAGATTTCATAGCATTATAACTGCCATACCGGTACACATTTCTCGTC
CGTGTGTATCTTATGTTGTGTTTGGAATGGGTGGCAAAGTCAAGCCACTC
ACACTGCCCTCTTGAACGCTAAACGCCCCAGGACTTTGAAGTGGTGAGGC
GGCTTTGGCGTGAGGAGAGAGCCGGAGGCGGAGAGATTCGCGTATTTGAT
GAGGCGGCGCTGTGCGCCCCTAGAAGGTAAGATGAGGTTCGGTAGTGTTA
TAATATATAGTGTAAAGTGCATATCTGGTACTGTAGTGTATACTGTAGTG
TATAGTGTGTACTGTATACTTTAGTACCCAAGTGTTGTGTAGCGTATTAA
TAGGGCAGGCACGAGTAAAGCTATGAGTGTGCCCACCCTATCAGCCGCGC
TATTTTAAGGTCGGCCTGCTCTGTTGCCTCTTTGAGTTTTGTTCGTTTGT
GTATGTCTTACTTGTTTGTACGTCTTGTTGTTGGCGCGCGATCTTTTTTC
TTTCTTTCGGGAATCGCGATATCGATCATCGATCATCGATCGTGGATTAC
GGTACCTTGCTTTCTGGCATTCCGGTACAAGCTTGGCCAACCATGTCAGG
ATAGCTTTTGCTACCGATGCCGTCATAGCACGTTACAGCAGCAGCAACGC
CTTTCCCCCTGTGACGAAAACCTCTTCTTGTTCATATTCCGCACCGTATT
CCTGGTACGATTCCTGCCTTCAGTGGCGCGGATTGGTTGTCTCGTCTGAC
CCACGAGTCTAATCCCCCTCCTCCCTTTGACTGAATCAGAAGAACACCCG
ACGACGGAGCTACGCGCTCGGTACCCGAATCTGTCGAACCCACCTGCGGA
TTCGATTCGATTCGGTAACGGCTGGATTGATCCGAGTAAGGGTATCAAGA
TTCAATCGGCCGTAGAAAATGATTCGCGCAAAACCGATTTCGGTACTGAT
GAAATTTCATGGTTATCACACTCTGACGACCCTCGATCCTCGTGCGCCCG
TCCGCCCGCCCCTCCCCCCCCACCCCCTAAAACGCCTCCAAAACTCTCCA
CGCGCTACGTCTGGCTCGGTTTGGCTGGCGCTGGCGCCGCGTGATAACGG
CTGTACTCAATGGACCAAAATCTGGTCGATTTGACGCAAACGTGGATCAT
CGGAAAACCAGGTGGGAAGAGCCGGGCAAAGGTCCCTTCGCGACCTTCTG
CCGTAATTGGTGTTATCTTTTTATGTACACCAAGCTGGGCGTCACCCCCA
TGCAAATTTTTCGCATGTACTACGGTTGGAACCCTGAAACGACCAGCGGG
AAGTCGAACTAAGAGACACCAAGAGACACTGAGAGAGAGCCGTCGCCAAG
AAAAGAAAAACAGACGCGACGCGCGACTGTCGTGTCTAAAAAACAAATGA
AAATATAGAAATGGATGAGGTTATTTTTTGGCCTTTTAGATTGGCCGGGG
TTTGCGTTTTTTGTTGTTTTTTTCTTACGTATTTGTGTGGGGTTTTTGCT
GTTTTTGGTCTTTGTTTTGTTTTGTTTTTGTGTTTCGTTTTTTGTTTTTA
TTTTTTTATTTGGCAGAGCGTGGCTCAACAACGTGCTGGATGACGAATGA
GCGTGCCGCCTGAGCTGCCCTCCGACCAATCATATGCCTCATAGAGCGGG
AATGATGATCCCCCTGACCAATCATGTGCCTCACAGAGCGGGAATGATGA
TAGATTTGGATTGCTTCGGTGTGGTTTTGTCACACAATCAAACGCACAAA
TTTATAAGTCGACAGCGATGCGGGTTTCCATATTGCGCATAGGGATGTTT
AAGAGGCCGATGCTGCGGGGAGAGAGTTTGATATTCAATGTCATTTTTAT
AATCAGTCGCGAAGGCAGAGGCGAATCGGCCCACCTTTTTTCGTCAACAT
GTGTCCATGTTTGTGAGGGAATGGTATTGGGGCGAGACGCGAGCACCGAT
TAGACAGAATAGGCGTACAAGGCCGTTAATCGATACTCGAGACGTCTGGT
CGGGTTTAGCGGCGGCGGCTGGGGCTGGGGTAAGATGTGTCAACGATCTT
TGTGGTGAGAGCGAGAGCGTTTTTTATACCCGACTCGCTGGTCGACCGAT
CAAGTAGTCGGCCGAAGAGTGACGCTTCCTTACATTGAGAGCCCGCCACT
CGGGAGTTCGAGACTGTACAGGCGGTGTACAGGCGTGTGGTTCTTTTCGG
AGAAGGCTGACAACATATTGTATTGAAGATAAGGTGGAAAACCTGACCCT
GGACCTTACTTCGTGTGTGAGGAAGTTAACAGTCGCCGCCGAGTTTGATT
CGTGTTTCTTGAGAGGAGGGAGTATATGCCGCGATGCGCGCAGGTGTTAA
GCTGGCGTTGCTGAGAATTGAATTCGCGGTGACTGCTCGTTATGTCAAAA
AAGGGAGATTTAAAGGTACCGGAACCCTTCTGGTCGCCCTCGAGTGGCGG
CTACATTATTTTTTGTAGGTAGAACCTTGTTGCGACTCGACTTGTGCGTG
TGTAGATATCGTTCATCTCGCGGACCGGAAATTACCGATGTCGACCGCGA
GTGTCGCGATCAACCTTTCGTAGCTAGGTCGGGCGGTAACTGGTACGGTA
CGTAAATACACAGCTTTTACCGCCCTCTCGGATAAAGCTTTAGCTACTCT
CTCGGTACACACCGGTGTGCCCATCTAGGCGGCAGTGTGTATTTAGTATG
TATTTATTTTTATCTTGTACTGTACCGGTCCGAGTTTTTAGTTTTCGCGT
GCCTCTGAAAAAAATAAAATACAATGGGAAGGGGAC
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Coding sequence (CDS) from alignment at A-nodosum_M_contig886:178245..209630-

>mRNA_A-nodosum_M_contig886.15.1 ID=mRNA_A-nodosum_M_contig886.15.1|Name=mRNA_A-nodosum_M_contig886.15.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=675bp|location=Sequence derived from alignment at A-nodosum_M_contig886:178245..209630- (Ascophyllum nodosum dioecious)
ATGGAGATCATCGTCGTTGATGGCGGATGTAGAGACAACACCATGGATGC
TGTGGCCTCGATGAAGCTCGACATTCAAGTAAGCACCACAACTTCCGTCG
GGGGTCGAGGGCCGGCTTTGAACGCCGGGGCGAGCATTGCGAAGGGGGAT
CTATTCCTGTTCGTGCACGCAGACACCGTGGTTCCTCCCTCATTCGATGC
GATCCTGCGGACTGCCTTCCTCGACCCGAAGGTCCTTATGACGACCTTCA
GCTTCGGCATCAACCGCGCGCTGCTCAAGGGAAAAGAGCCCATGCTCATG
TCTCTCATGGAAACACTCGCCAACTACCGAACGCGGGTATTCCACATGCC
CTACGGAGACCAGGCCTTCTGCTTCACGGCCCACAAATTCCGAGCGATAG
GAGGTTTCCCCGACTTCGTGATGATGGAGGACTTTGAAGTGGTGAGGCGG
CTTTGGCGTGAGGAGAGAGCCGGAGGCGGAGAGATTCGCGTATTTGATGA
GGCGGCGCTGTGCGCCCCTAGAAGGTGGGAAGAGCCGGGCAAAGGTCCCT
TCGCGACCTTCTGCCGTAATTGGTGTTATCTTTTTATGTACACCAAGCTG
GGCGTCACCCCCATGCAAATTTTTCGCATGTACTACGGTTGGAACCCTGA
AACGACCAGCGGGAAGTCGAACTAA
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