mRNA_A-nodosum_M_contig887.20.2 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig887.20.2
Unique NamemRNA_A-nodosum_M_contig887.20.2
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: D8LTE4_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LTE4_ECTSI)

HSP 1 Score: 445 bits (1145), Expect = 3.470e-151
Identity = 224/285 (78.60%), Postives = 255/285 (89.47%), Query Frame = 3 
Query:   99 DPLTFPASAGATAQPDAPPMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLATEEGCSGLASEAERLMGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPDMVNNCWG 953
            DPL FPASAG TAQ DAPP+SVPTFDVTG  FVVTGGTQG+GLVISAC+AKAGA AV ISAR++D GEKAV +LTE  PSC+F+F  AD+A EE CS L SEA+RLMG IDGLVNCAA T RATLDTTT+++WDR+MNTNVRGPFLL +AVS+SMRS+GRPGSIVNISS+ AHGG+PK+STYS+SKAALN+ TK+HAYEL+ +RI RVNAINVGW LTDNEH LQR+EMGS++WI + DKGH MGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHP+MV+NCWG
Sbjct:    6 DPLAFPASAGPTAQKDAPPLSVPTFDVTGKMFVVTGGTQGMGLVISACIAKAGASAVTISARSQDTGEKAVAQLTEHTPSCRFFFVPADVAKEEDCSRLVSEADRLMGCIDGLVNCAAWTARATLDTTTVDVWDRMMNTNVRGPFLLVQAVSKSMRSKGRPGSIVNISSVVAHGGIPKVSTYSVSKAALNACTKMHAYELKRSRI-RVNAINVGWTLTDNEHVLQRVEMGSENWIEDADKGHAMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPEMVDNCWG 289
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: A0A6H5KWZ8_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KWZ8_9PHAE)

HSP 1 Score: 301 bits (771), Expect = 1.610e-96
Identity = 146/179 (81.56%), Postives = 165/179 (92.18%), Query Frame = 3 
Query:  417 MGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPDMVNNCWG 953
            MG IDGLVNCAA T RATLDTTT+E+WDR+MNTNVRGPFLL +AVS+SMRS+G PGSIVNISS+ AHGG+PK+STYS+SKAALN+ TK+HAYEL+ ARI RVNAINVGW LTDNEH LQR+EMGS++WI + DKGH MGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHP+MV+NCWG
Sbjct:    1 MGCIDGLVNCAAWTARATLDTTTVEVWDRMMNTNVRGPFLLVQAVSKSMRSKGHPGSIVNISSVVAHGGIPKVSTYSVSKAALNACTKMHAYELKGARI-RVNAINVGWTLTDNEHVLQRVEMGSENWIEDADKGHAMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPEMVDNCWG 178
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: A0A6V1MI94_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1MI94_HETAK)

HSP 1 Score: 256 bits (654), Expect = 6.490e-77
Identity = 137/271 (50.55%), Postives = 188/271 (69.37%), Query Frame = 3 
Query:  138 QPDAP-PMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLATEEGCSGLASEAERLMGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRP--GSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPDMVN 941
            QPD   P+S P+FDVTG +F+VTGG QGLG  I+ C+A  GA  V+I+ R+++ GEK  + +  T  +CQ  + +AD+A E  C+ L   A    GA+ GLVN A  T R TL++T    +D ++ TN++GPF LTK  +++MR       GS+VNISSIA+H G P IS YS++KAALN+MTK+HA EL+  R+ RVNA+ +GW LTDNEH++Q +E G D W+ +GD  HP GR+LRPVD+AA  G LLSDA+ M++G ++D HPD VN
Sbjct:   52 QPDGKQPLSKPSFDVTGKNFIVTGGGQGLGRNIAECLAAQGAAGVLITCRSEEQGEKVKSYINSTNTNCQAEWMVADVAAEAQCAALVRRALGRFGALHGLVNAAGLTTRGTLESTDEATFDALLATNLKGPFFLTKHAARAMRDTAGASGGSVVNISSIASHAGAPFISCYSVTKAALNAMTKVHALELQRDRV-RVNALAIGWTLTDNEHKIQLVERGPD-WLEKGDAAHPFGRILRPVDVAAAAGFLLSDAALMISGAVLDQHPDFVN 320
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: A0A7S1APH9_NOCSC (Hypothetical protein (Fragment) n=1 Tax=Noctiluca scintillans TaxID=2966 RepID=A0A7S1APH9_NOCSC)

HSP 1 Score: 228 bits (581), Expect = 9.580e-67
Identity = 134/264 (50.76%), Postives = 175/264 (66.29%), Query Frame = 3 
Query:  147 APPMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLATEEGCSGLASEAERLMG-AIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRG-RPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPD 932
            APP+S PTFD++GG ++VTGGTQGLGL I+  +   GA  +++ ART+  GE AV  L+    +C  +F   D+A        A+ +  ++G  +DGLVN A TTER  L TTT E +D+  + N R PFLLT+A++  ++ R  R  SIVNISS+AA GG P I+ YS SKAALN +T  +A EL    I RVNAIN+GW +TDNEH L   + G++ W+ E D  HPM RLLRPVD+A TV  LLS AS MMTG ++DLHPD
Sbjct:   12 APPLSRPTFDLSGGHYIVTGGTQGLGLEIARQLKATGAGKLVLMARTRSRGEAAVAELSNA--TCTAHFVEVDIADAASLQAAAAASFEILGDRVDGLVNAAGTTERGNLMTTTAEGFDKQFDINARAPFLLTQALAVHLKERKLRGASIVNISSLAAKGGAPFITAYSASKAALNVLTMNNAVELAEHGI-RVNAINMGWTVTDNEHELMVKKAGAE-WLTEADAAHPMKRLLRPVDVACTVCFLLSPASTMMTGNVLDLHPD 271
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: A0A7S2HYS1_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2HYS1_9STRA)

HSP 1 Score: 218 bits (556), Expect = 4.640e-63
Identity = 136/265 (51.32%), Postives = 172/265 (64.91%), Query Frame = 3 
Query:  150 PPMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLATEEGCSGL---ASEAERLMGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSM-RSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPD 932
            P +S    DVTG  FVVTGGTQGLGL I+  +   GA  +++ +R++  GEK    L     SC   F  ADL+  E  S +   A+EA   +G I GLVN AATT R  L TTT E +D  M  NVR PFL+++ V++ M  +  + GSIVNI S+AA GG P I  YS +KAAL+SMTK +A EL    I RVN +N+GW LT+NE +LQR   G DDW  + D G P+GR+LRP D+AATVG LLSDASAMMTG++V LHP+
Sbjct:    6 PTLSATNLDVTGRVFVVTGGTQGLGLAIARFLKGNGAAGLVLVSRSQAKGEKVCKELQGDDGSCTVAFVSADLSKAEDASAVVPKAAEAMSGVGPISGLVNAAATTGRGNLLTTTAEDFDMQMALNVRAPFLVSQGVAKHMIENNVKGGSIVNICSVAALGGAPFIMAYSAAKAALSSMTKNNAAELAPKGI-RVNGVNMGWCLTENEDKLQRQNSG-DDWAEKADAGVPIGRILRPEDVAATVGFLLSDASAMMTGSVVGLHPE 268
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: R1CSP3_EMIHU (Short chain dehydrogenase n=1 Tax=Emiliania huxleyi TaxID=2903 RepID=R1CSP3_EMIHU)

HSP 1 Score: 218 bits (555), Expect = 6.510e-63
Identity = 127/263 (48.29%), Postives = 165/263 (62.74%), Query Frame = 3 
Query:  153 PMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETA---PSCQFYFALADLATEEGCSGLASEAERLMGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPD 932
            P+S PT    G ++++TGGTQGLG  I+  +   GA  V + AR  + G KAV RL   A      + +F  ADL+   G     + A   MGAIDG+VN AATT R  L +TT E WD +M  N R PFL+T+A ++ M  +G  GSIVNISS+A  GG P +  YS+SKAA +++T+ +A EL    I RVN + +GW  TDNE  LQR   G DDW+ + D   P+GR+LRP D+AATV  LLSDAS MMTG +VDLHP+
Sbjct:    7 PLSSPTLSARGRNYLITGGTQGLGFEIATQLKACGAAKVAVIARNAERGTKAVERLQAAAGVQEPFEAFFVEADLSDATGPGKAVALALAAMGAIDGVVNAAATTARGNLASTTAEDWDAMMACNARAPFLITQAATRHMIEKGIRGSIVNISSVAGKGGAPFLMAYSVSKAAASALTRNNAAELAPHGI-RVNCVEMGWCATDNEDALQRSVKG-DDWLQQADASQPLGRILRPADVAATVCFLLSDASLMMTGNVVDLHPE 267
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: A0A6V2PCJ6_9STRA (Hypothetical protein n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6V2PCJ6_9STRA)

HSP 1 Score: 215 bits (548), Expect = 6.900e-62
Identity = 135/265 (50.94%), Postives = 174/265 (65.66%), Query Frame = 3 
Query:  150 PPMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLA-TEEGCSGLASEAERL--MGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSM-RSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPD 932
            P +S     V+G  FV+TGGTQGLGL I+  +   GA  +++ +R+K+ GEK    L E   +C   F  ADL  TE+  S +A  AE +  +G I GLVN AATT R  L TTT E +D  M  NVR PFL+++  ++ M  ++ R GSIVNI S+AA GG P I  YS SKAAL +MTK +A EL    I RVN +N+GW LT+NE +LQR   G DDW V+ D G P+GR+LRP D+AATVG LLSDASAMMTG+++ LHP+
Sbjct:    8 PKLSATGLGVSGRVFVITGGTQGLGLAIARYLKGNGAAGLVLVSRSKEKGEKVCKELEEN--TCVVKFVAADLGNTEDASSVIAKAAEAMSGVGPISGLVNAAATTGRGNLLTTTAEDFDIQMALNVRAPFLVSQGAAKHMIENKVRGGSIVNICSVAALGGAPFIMAYSASKAALAAMTKNNAAELAPKGI-RVNGVNMGWCLTENEDKLQRKNSG-DDWAVKADAGVPIGRILRPEDVAATVGFLLSDASAMMTGSVLSLHPE 268
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: A0A7S4R1D7_9DINO (Hypothetical protein n=1 Tax=Alexandrium monilatum TaxID=311494 RepID=A0A7S4R1D7_9DINO)

HSP 1 Score: 207 bits (526), Expect = 2.750e-58
Identity = 126/263 (47.91%), Postives = 171/263 (65.02%), Query Frame = 3 
Query:  150 PPMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLATEEGCSGLASEAERLMGA-IDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQS-MRSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPD 932
            PP+S P+FD++G  ++VTGGTQGLGL I+  +   GA  + + +RTK  GE AV  L+     C   F  A++A        A+EA + +G  +DGLVN A TTER  L  TT+E++++  + N R PFLLT+AV++  + ++ R GSIVN+SSIAA GG P I  YS SKAALN++T  +A EL    I RVNA+N+GW LTDNE+ L  +  G  +W+   + G PM R++RPVD+A TV  LLS AS M TG + DLHPD
Sbjct:   40 PPLSRPSFDLSGKHYIVTGGTQGLGLEIARQLKALGAAKLALMSRTKAKGEAAVAELS--GDGCTACFVEANMADPASVMPAAAEAIKALGGHVDGLVNAAGTTERGNLMDTTVEMFNKQFDINTRAPFLLTQAVAKHWIDAKVRGGSIVNVSSIAAKGGAPFIMAYSASKAALNALTTNNAGELAPHGI-RVNAVNMGWTLTDNENDLM-VAKGGPNWLDAAEPGLPMKRIMRPVDVACTVCFLLSPASQMTTGNLYDLHPD 298
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: K0TJ38_THAOC (Uncharacterized protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0TJ38_THAOC)

HSP 1 Score: 204 bits (518), Expect = 1.990e-57
Identity = 125/276 (45.29%), Postives = 170/276 (61.59%), Query Frame = 3 
Query:  150 PPMSVPTFDVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPS--CQFYFALADLATEEGCSGLASEAERLMG-------AIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRP---GSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPDMVN 941
            PP+S P+ DV+G  FVVTGGTQGLGL I+  + + GA  V++ +R+    E A+  + +  PS  C   F  AD+A     S +   A   +         I G+VN AA T R  L +TT +++D   + NVRGPFLLT+A S+ M   G P   GS+VNI S+AA GG P I  YS +K+AL ++TK +A EL    I RVN IN+GW LT+NEH+LQ     ++ W  E DK  P+GR+LRP D+A++V  LLS AS MMTG I+DLHP++ +
Sbjct:    3 PPLSHPSLDVSGRFFVVTGGTQGLGLEIAKQLKQCGASGVVLVSRSPSKAEAAIREIGDHCPSSTCHAVFVKADMAVSSEVSSIVPRAVEELAKHCGSPIVITGVVNAAALTARGNLASTTPDMFDSQFSVNVRGPFLLTQAASKHMIEAGVPRGLGSVVNICSVAADGGAPFIMGYSCAKSALVTLTKNNAAELAPKGI-RVNGINMGWTLTENEHKLQSEVHKNERWHEEADKSVPLGRILRPADVASSVLFLLSGASTMMTGAILDLHPEIAS 277
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BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Match: I0I718_CALAS (Putative oxidoreductase n=2 Tax=Caldilinea aerophila TaxID=133453 RepID=I0I718_CALAS)

HSP 1 Score: 201 bits (510), Expect = 1.150e-56
Identity = 116/249 (46.59%), Postives = 153/249 (61.45%), Query Frame = 3 
Query:  174 DVTGGSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAPSCQFYFALADLATEEGCSGLASEAERLMGAIDGLVNCAATTERATLDTTTIEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRPGSIVNISSIAAHGGMPKISTYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEMGSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVD 920
            D+T    VVTGGTQGLG  I+   A+  A  ++I  R +  G++    +TE+   C   F  ADLA+ + C  +   A+   G IDGLVNCAA+TER ++D  T E+WDR+M  N+R PF L +  ++ MR  GR GSIVNI SI AHGG+P ++ YS SK  L ++TK  A  L A RI RVN INVGWM T NE  +QR E   D+W+   D   P GR+LRP D++  V  LLS   AMM+G ++D
Sbjct:    3 DLTDLIIVVTGGTQGLGEDIARRAAQHHAAGLIICGRNEQKGQRVAAEITES--GCPTVFVPADLASIDDCRTVIRAADERFGRIDGLVNCAASTERGSVDDATPELWDRIMAINLRAPFFLMQEAARVMRREGRGGSIVNIGSINAHGGLPNLTVYSTSKGGLMTLTKNAAVVLGADRI-RVNCINVGWMFTPNEDIVQRAEGRGDNWLEVADAQMPFGRILRPPDVSGLVMWLLSAEGAMMSGAVID 248
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig887.20.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LTE4_ECTSI3.470e-15178.60Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A6H5KWZ8_9PHAE1.610e-9681.56Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A6V1MI94_HETAK6.490e-7750.55Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S1APH9_NOCSC9.580e-6750.76Hypothetical protein (Fragment) n=1 Tax=Noctiluca ... [more]
A0A7S2HYS1_9STRA4.640e-6351.32Hypothetical protein n=1 Tax=Helicotheca tamesis T... [more]
R1CSP3_EMIHU6.510e-6348.29Short chain dehydrogenase n=1 Tax=Emiliania huxley... [more]
A0A6V2PCJ6_9STRA6.900e-6250.94Hypothetical protein n=1 Tax=Ditylum brightwellii ... [more]
A0A7S4R1D7_9DINO2.750e-5847.91Hypothetical protein n=1 Tax=Alexandrium monilatum... [more]
K0TJ38_THAOC1.990e-5745.29Uncharacterized protein n=1 Tax=Thalassiosira ocea... [more]
I0I718_CALAS1.150e-5646.59Putative oxidoreductase n=2 Tax=Caldilinea aerophi... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig887contigA-nodosum_M_contig887:285127..308384 -
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.D8LTE4
Preferred nameTR-1
PFAMsPex14_N,adh_short,adh_short_C2
Model size1785
Max annot lvl2759|Eukaryota
KEGG rclassRC00144
KEGG koko:K08081
KEGG ReactionR02832
KEGG Pathwayko00960,ko01100,ko01110,map00960,map01100,map01110
Hectar predicted targeting categoryother localisation
Exons11
Evalue2.59e-156
EggNOG OGsCOG1028@1|root,KOG0725@2759|Eukaryota
Ec32 ortholog descriptionShort-chain dehydrogenase/reductase SDR
Ec32 orthologEc-02_006020.1
EC1.1.1.206
Descriptionoxidation-reduction process
Cds size921
COG categoryIQ
BRITEko00000,ko00001,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig887.20.2prot_A-nodosum_M_contig887.20.2Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig887 285956..308349 -


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

Feature NameUnique NameSpeciesTypePosition
1680870302.58535-UTR-A-nodosum_M_contig887:285126..2859551680870302.58535-UTR-A-nodosum_M_contig887:285126..285955Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig887 285127..285955 -
1680870304.0862548-UTR-A-nodosum_M_contig887:308349..3083841680870304.0862548-UTR-A-nodosum_M_contig887:308349..308384Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig887 308350..308384 -


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

Feature NameUnique NameSpeciesTypePosition
1680870302.60463-CDS-A-nodosum_M_contig887:285955..2859761680870302.60463-CDS-A-nodosum_M_contig887:285955..285976Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 285956..285976 -
1680870302.6167428-CDS-A-nodosum_M_contig887:286103..2862201680870302.6167428-CDS-A-nodosum_M_contig887:286103..286220Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 286104..286220 -
1680870302.6315289-CDS-A-nodosum_M_contig887:286449..2865521680870302.6315289-CDS-A-nodosum_M_contig887:286449..286552Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 286450..286552 -
1680870302.6440866-CDS-A-nodosum_M_contig887:286761..2868701680870302.6440866-CDS-A-nodosum_M_contig887:286761..286870Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 286762..286870 -
1680870302.6578465-CDS-A-nodosum_M_contig887:287136..2871971680870302.6578465-CDS-A-nodosum_M_contig887:287136..287197Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 287137..287197 -
1680870302.668745-CDS-A-nodosum_M_contig887:287558..2876661680870302.668745-CDS-A-nodosum_M_contig887:287558..287666Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 287559..287666 -
1680870303.2781289-CDS-A-nodosum_M_contig887:287818..2879111680870303.2781289-CDS-A-nodosum_M_contig887:287818..287911Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 287819..287911 -
1680870303.911366-CDS-A-nodosum_M_contig887:288196..2882991680870303.911366-CDS-A-nodosum_M_contig887:288196..288299Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 288197..288299 -
1680870303.9994383-CDS-A-nodosum_M_contig887:288537..2885951680870303.9994383-CDS-A-nodosum_M_contig887:288537..288595Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 288538..288595 -
1680870304.0094538-CDS-A-nodosum_M_contig887:289225..2893281680870304.0094538-CDS-A-nodosum_M_contig887:289225..289328Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 289226..289328 -
1680870304.0756087-CDS-A-nodosum_M_contig887:308304..3083491680870304.0756087-CDS-A-nodosum_M_contig887:308304..308349Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig887 308305..308349 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig887.20.2

>prot_A-nodosum_M_contig887.20.2 ID=prot_A-nodosum_M_contig887.20.2|Name=mRNA_A-nodosum_M_contig887.20.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=307bp
MSKENCAPETNPSSSTRVSLPDPLTFPASAGATAQPDAPPMSVPTFDVTG
GSFVVTGGTQGLGLVISACVAKAGARAVMISARTKDAGEKAVTRLTETAP
SCQFYFALADLATEEGCSGLASEAERLMGAIDGLVNCAATTERATLDTTT
IEIWDRVMNTNVRGPFLLTKAVSQSMRSRGRPGSIVNISSIAAHGGMPKI
STYSISKAALNSMTKIHAYELRAARISRVNAINVGWMLTDNEHRLQRIEM
GSDDWIVEGDKGHPMGRLLRPVDIAATVGHLLSDASAMMTGTIVDLHPDM
VNNCWG*
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mRNA from alignment at A-nodosum_M_contig887:285127..308384-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig887.20.2 ID=mRNA_A-nodosum_M_contig887.20.2|Name=mRNA_A-nodosum_M_contig887.20.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=23258bp|location=Sequence derived from alignment at A-nodosum_M_contig887:285127..308384- (Ascophyllum nodosum dioecious)
TTTCAACCGATCCTGTGGTGGTGATTGCAGCCAATATGTCGAAGGAGAAC
TGTGCGCCGGAAACAAACCCGTCATCTTCTGTGAGTAATTGAACAGCAGT
TGTTTCTGACGATGAACCCGTCTCGTCGGAGTCATCTGGTCAAACTCAAC
CCATGTACGCTACGACTATAAAGTCAGCACCGTACCATATACCGGTTTCA
GACAATTGTACTCGGCCGAATCCGTCTCGCGAGATCAAATTCTCGGGCGC
GAACGGGGACAGCGAAATATTCATTTTCTCTGTTCAGCTGACCACGAGCA
GCAGGATTGGCAACCTATTATTTGTGATGACCATGCATACATATATACAT
ACTGGTACAACACATACAGTCAGTACATAAATATTACAATTCTTCCAGAA
TAGCAGTAGTACCTGTACCACATTATCTTCAACTACACCACAGCCCGCGC
AACAGCAGGTTAATTGTGCCTTATCAGACCACCTTAGGCCTACGTCGTGT
GGTTGCCTGCATTGGCAATTTCTTCAATGCTAATTCCTAGCACCGGAACA
GCAACATAAGATTCGAAGTCTTCCGCAAAACACTCGTTATTTGTAGGCGC
TGGTGCATCATCTATAGTAACGTACCTGGTATCCCCTTGATGGAGTAATA
TCCCTCTACAGCAGAATGCCGAAGACTAAAGTATGAGACTATGTAGCCTC
CGATGCTTTCTGTATAGTCTACAGTATTAGTAGTAATAGTAGTAATAGTA
GTAATTACTGACTCCTCGCTCGTGTAATCTCCATTTGCCCACCTTCAACA
AGCGGCAGGTTCATGAGTTTAAAGAAGTGTTTAAAGAAAAATCTGAATGT
TCTTGAAATTAAACGATCGGGCCTCAACCAATCGTGCTCTCTTGCTGACA
ATGTGAGGTTCGCGATATCGGAGCAGCGGTGTTTAACCATCTATCTATCT
CGTGCCCGCTCCCTCCGAAACCTGCTGGTTTCGGGGAATGAGTGTGGGAG
GGTCTTTCCGGCGGGTGTAGGGCCGGGCTCACCCTCAAGAGATGCAGCCA
ACTGGCTGCCTTCGCGATTCAGCCTGTCGGTTGAGACGCGGCGGCGGTAT
GGTTGGCTGAGGATGATGGTGTTCCCAGGTGCGCGCCTCTTCCCGAGCCC
CAATTTGGTGCCCTTCGGGAGGGTGGCGGCACGCGAGAGGCAGGGAGCAC
TGTCGCGGAGAGCCTGGTAGTACTCTACTATCGGGTGGGTACGCACCAGA
TTCGGCGAAGGCGGAGGGCAGCTCGATCGTTGACGAGCCAGGGGAGGGCT
GAACCCCTGTGCGCGAGAATCACAGGCTTGAACCGGGAGGTTTCTGAGGG
AAAAGCTGATCTCTGACCACGGTCATTTTCTTCCTACGAGGGCCACAAGG
AGCGGCGAACGGGCAAGATTCGTGGGGCTTTTTCAAGAATGCACAGGGCT
TTGGACGGCTGGATGCTGGCTCGCGCGCCGGCTTCACCAGTTCAAGGCCT
CCACCACCATGGACCTCGGTATTTCAATTTTCCTTATTTCTGTACAAAAT
GTGTGGCCTTGAGAAACTTGGACTTGTTGATCAAAACTGGTTGGAGCGTA
ATTTTTCCGGTTTTTTGCTGAGAACGCTGGTCGTGGGTAGGCGACAAAAT
TCCGAGTCGATCGAGGTTGCTCTCGAATGGAGTAAGGAGGTTTGATGAAC
CGTTTTGATATTGGTCGGTGCCATTGCTTGTAGAGCCGCATAACTTTTTG
TCGCGATTTGGATCCCTGTTGGTCTGAGTAGCGGGTTGTCACCATGATGT
GACCCGTTGACCTTCGTACCTCTTTGTGACCACAAGCGGGATTGGCGTTT
GATAGGTCTATGGCTGACTTGTTGTTCTGGCATAGGCTCGACAGCTTGGT
GCAACGGATCCCCAAAAAGGAGGCTCTTTTTGTGCTGATGGACGCGAATG
CACGTACCGGCCTGAAGATAGAAGGAGAGAGAACGGAGGATGATGGGGTA
CTCGGTGCATATGGACGTGATGAGTTGAACGACAACGGTAAACGCTTGCT
GAACTTCGCCACAGACAACAAACTTGCTGTCACGAACACATTCTTCAGCA
CGCGCAAAGGCGGCATCTCGCACACTTACAACGGTGTCATCGGGGATCGC
TGGCGACTTCAAGCGCATCGACTACATCCTAACACGCCAGGCACACCGAC
CGAGAGTACACAACGTAGAAGTACACCCGCAACCAAATCGGCCGATCAAA
GCGGACTCGGACCACAACATGGTGTTTGCCACCGTGGACCTTGGGGACGA
CTTGCCCACAACCGCCGTGTTCAGCAGACACCGCAACCCCGGTCATTCGA
CAGAAGCAAGCTGAAGACGAGATTCCTCCGGGAGCGCGTGATCCGGAAAT
TCTCGACAACATCGACGAGATAGCAGGCCAGCGAGCCAGCGTGGCGGAGG
AAGCTAGGGAGTTCACGGAAGCCATTCTCGGGGCGGCGCATGCGGTTCTC
CCGAGGCGAGACGGACCCCACACAGGCTTGGGTGGTGCGAACGGCCAGCA
GTTAGAGCTGCGCTCTTGGCGGCGCTGGAAAAAGCGGAGGCTCGCCGGCA
ATGCAAGTCCAAACACACCACGGCAACGTGGAAAGCACTTCGAGCTGCGT
GCAAGGAAGTGCGAGCGGCGATCGACAAGGGTATAGAGGCCCACTTGGAG
GAGTATGTGGCGGAACTAGAGACACTCCTCCGACACCGCGACATGAGGGT
TTGTACAAACACCTGAAAATGACGGCGGGCCTGGGCGGGAGGAAAACCGA
GGGACAGCAGGCCATCAAGGACGAGAACGGCAATCTGCTGCGAGATAAGA
GGGACATCCTCCGGCGGTGGGAGAGGTTCTTCGGCAATCTGCTCAACACC
AAGTCTCCCACACTCCAACCATCCATCGTCGAGAAGGTACAGCAGCGGAG
GAAGGCACCGCAGCAGCCGCCGCCCGGGGCAAGGTCGCAAATGGAGGAGC
CAATATCACTCGAGGCAGAGCCAACGTACGCGGAGACGCAGAAGGCAGTC
CGGGCGATGGCCAACTGGAAAGCGCCGGGCGCTGACTCACTCCCAGTAGA
GCTACTCAAACTGGACGACCCAACCCGCGAACCCGTCGTTCTCAAGCATT
TCCACGCCATTCTCGTCCGTGTGTGGAGAGGGGAGGAAATCCCACAGGAG
TGGAAAGACGCAACGATCAAGGTGCTCCACAAGAAGTCGGACCGATCTGA
CTGCAACAACTTCCGAGGATTTCACTCGTCTCCCACGCCGGCAAAGTACT
GCTGAAGATCGTCGCCAATCGCCTTAGCGACTTCTGCGAAGCACAGCAGA
TACTGCCGGAGGAGCAGTGCGGCTTCCGGCCGGCGCAATCCACCATCGAC
ATGCTGTTCGTAGTCCGCCGACTCCAGGAACTGGGTCGACAGAGGAAAAT
CCCTCTGTACATGTGCTTCGTCGACCTCCAGAAGGCCTACGACTCGGTCG
ACCGAGAACTGTTGTGGAAGGTGCTGGCCCGGGCAGGCGTACCGTCCGTG
ATGATCGACGTCATCCGCCAGTTCCATGACGGTATGCGCGCTAGGGTGCG
CATGGACGATGGAGAGCTCTCGGAATGGTTCGAGGTCACACAGGGGCTCC
GGCAAGGATGTGCACCATTACTGTTCAACATCTTCTTTGCAGCGGTGATA
GAAGTGGTACTACAACGTTTCAGCGAAGACGACACCATTCTCGAGAGCCT
GGTATTTCTCGACGAAGGAAGTGGGGGCGGACCGGACGAGACACTGCTAG
ATCGGGTGCGAAGGGCAGTATGGGGAATGCTGTATGCCGACGATGCTGGG
ATCGTGTCCAGATCGCCAGCAGGGCTAGCGAGAATGATGACGGTTATCGT
GGAGGTATTCGGTGCGTTTGGCTTGACCGTATCGGAGAAGAAGACGGAGA
CTCTCCTGATGCGGACACCGGAGAAGGCGCAACAACCGGGGAGACACCAA
CACCACCTCTACCGGCGCTGGAGATTGCAGCAGCCGGCCAGAAGTACCAC
CAGGTCCACCAGTTCGTATACCTGGGCGGCCTCATTACCGAAGACGCCGA
CATCACGCGAGATATTAACCGCCGCACCAAAATCGCTTGGGGATGCTTTA
GGAAGTTCTCCACAGAGCTCTTCGACAGGCCAAACGCGCCATTAAGGCTC
AAGGCTCGGTTGCTGAAGGCGGAGGCCATGGAGGCTCTTCTGTACGGGTG
CATGACGTGGGCCCCGCGTAACGCTCACTATCGGCAGCTCCGGACGACGC
ACCACAAGCCCTTCTGCGGGTCATCGGGTACCACCGCGTTCACGGCACAT
ACCGAAAGATGTCGTACGCTAAAGCCCTCAAGAAAACCGGGAGCCAAAGT
GTGGAAGCGACAATTCGCCAGCGGCGGCTTCTGTTCGCAGGGGCCTTGGC
CAGACAGGATGACAAGCGACTCCCGAAGCGGCTGTTGTTCGCCGAGAGAC
TCGAGGGGGGGCAAGACCCGGGACCCGGCCAGCCGGCACAGCACTGGCAG
AAAAGCTTGAGGGACGACTTCAAGGCATTCGGAGCTCTACACGGCTCCAC
GCCAAGTGATCGGCGGACTTTCGGAGTCGACAGGCTCGTCTGGACAGAGG
CGGCGCGCAAGGGGGAGGGAGCGCCGTGGTACACAGGGGTCCTGCTGGGG
GCGGAGAGATTTATGGCGTCGTGGCACAAAAGCGAAGAAGAGGCTAGCAA
GTTACGCGAGGTAAATCGAGCGGCTTAAGAGTGCTGGTGAGCCATAATCT
GCTGCCTTGAGTTACCTCCACTTGGGGCTTTTGCCCATAAACGGGTTTGA
CCTGACCGCTTGCCTTGAGTTAAACCTAATGTGTGTGTGTGTGTTGTTTT
GTTTTTATGTGTTTTTTGTTTTGTTTTGCCTTGAGTTAACCCTAATGTGT
TTTTTTTTTTTTTTTTTTTTTTCTTGTTTTATTTGTTTGTTTTTATCCCG
TATTTGCCTGGCTAGTGAGAAACCCGACAAAGAGCTCCCCGGCATAGTAG
GGGCGCGTGGAGATACTGTCTAGGACATAGGGTACTATCTTGCATGACGT
GCGTGGTTAATTATTATTTTATTTTTTGCCCTCTCACAGCTCCAAGGTGT
TGAGGGGAGATGGCCTGGTCGGCGGGAACCCGACGATGAACACTCCCCGG
CTTCGTAGGGGGGGGGGATAGCTTCCTCTTCATTTTTTTTTTTTTTTTTT
TTTACCTGTATTGGTATTCCTATATACGTAGGATATTTTGTTTGTGACTC
AGCTTCCGAGTTTGGAGCGATGGGCTCTACTTCCTTTTTTGGGGTTTTCC
TACCCTAACCTGCTTCTTGTTTTTCTGAACCTGTTACTTTTAGGAACCTG
TATCATATGTTTTTCGCAAGTGTTGGACTTTCTCTGGGTCTTTTTTATTT
TATTTTATTTTCCTGTACCTTATTTTGGGTTAGCGTGTGACCACGGAAAT
TCGTTTCTTTGCCTTGAAGAGTAAGAAAGAGAAGGGTACTGGATAGAGGT
CAGAACGGTTTTTAATGTGAAGACAACAACAAGGACAATACGCTGAATGT
GTGAATCAACAACAACAACAACAACAACAACAACCAATCCGATACTGTAC
GTGGTCTGCTGGACAGGAAAAGATCAGAGGACCATCTACAAAGCTCCAAC
GACAGAGCATAAAAACAAAGACTAAACGAAAACGACAAAAGGAAAGGAAC
AGCGTATGCTCAGAAGGTCTAGGTGCGTTCTGATTTTTCTTCGAATAACC
AGAAAAAGATTGAAATGGGTATTTTCCACACCGGTGGGGTATTCTCTTAT
TTACCCCACCACCTGGATCTCGCGCTAGAAGACTCGGTTGGTCACAGTAC
ATGCATGTGCTAGGACTCGGTTGGTCACAGTACATGCATGTGCTGGCGCG
TCGCAGGGCGATCATGGGGTAGTTGGTGAATTAGGGTTAGCGGTGGGGTG
GTTGGTGGATTCTTGGCGGTGGGGTAACTATGGCTATTTGCCCCACCGGT
GTGGGGATTCCGCTGTATCCGTGGCAGCACCTAAACAGGACCGTTTGGGC
TGCACGATAGACCCCATGATAGCCCTGCGACGCGCCAACACACTCATGCA
TGTACTGTGACCAACCGAGTCTTCAGACGCAAGATCCAGGTGGTGGGGTA
AATAAGAGAATACCCCACCGGTGGGTGAAATAGCCATACCGGAAAAAGAT
AGAAGAAGGGCACTCGATAGAGAGAGTTTGGTATGGTGCCAGCCGCGAGC
CATCCGGTACCCTCCCCGGATCGCAACCATGCACCCAAACGCGTAGCATC
TATTAATACCACACTCCGTACTCTCAGGGTTTCAGGCTTCCCTAACGGCA
CAGTCGACGTCTGCGGAATTTGGAATTTCGAGTGTCGTTATCCTGAATCT
GGACACTCGCCACGAATACCGGTACAGTAATGTATCCGTACGGGTCACAA
GGTAGAAAAACACCATTCGGAAGGAAAGAACGTACGACGTACGCCTGGTC
GGCGGGAACCCGATTATGAACACTCCCCGGCTTCGTAGGGAAGGGGGGAT
AGCTTCCTCTTCATTTGTTTTTTACCTGTATTGGTATTCCTATATAGAAT
ATTAATATTTTGTTTATGACTCAGCTTCCGAGTTTGGAGCGATGGGCTCT
ACTTCCTTTTTGGGGTTTTCCTACCCTAACCTGCTTCTTGTTTTTTTTTT
GTTTGTTTTCTCTGAACCTGTTATTTTTAGGAACCTGTTTCATATTTTTG
TCGCAAGTGTTGGGACTTTCTCTTATCGTTATTTTTATGTACCTTATTTT
GGGTTAGCCTGTACCTGGTATATAAAAAAAACTATCTAGATCTTGAAAAA
ATATTGTCAAGTGGCTGAGACAATGATTTTTCCTGACTAGCTAATTAGAT
CATTTTTACTGAAACCAAAGGACAATCATACAGTCCCGCTCTACAAGAAG
ATTGGAGAAACGATTGATAAAATGGAGCTGGTGTACGTTCTGCAAGAAGA
TTCAAGGAACTCATGATATCCGGCACGACAGTTCGGAATAAAAGACATGG
AGCTCAAGATAGTTCGGGTCAGGATCGTATGGGAGGTTACACGAGGTGGC
CTGAGGCCTACTTGGTCACTTTGACAGACAGATGCTCTTTCCTTTGTGTT
TCTGGTCAACGCGGGACCATAGCTAAGTCCATACATGAGCATCTGTGTGT
CGTAGCCCTGACAAGTATGGAGCGAGGAACCCAGTTCTTTCCGCTTGCCT
CTTACCGCCTTGTGTGATCGCCTACTGCTCTTCGTCTACTTCCAGGCGAA
TAACGGGGTCGTGTACTTGGATTATGAAGATTCTCACCATTATGGTCCTC
TGCTGTGCTCGTTTCAATTATTGTATTGGATTTGTCTTTATTGTTTGATG
ATGTATTGTTTTGTCTTCCCTTTTGTTGGTGTCCCTGCATGGCGATTAAT
GTAAGTGTACAGTATGACGGTGGGTTTCTCTCCGACATTATACTGTTGAC
CCAATGTTATTACCATCGGGGAACCCGTTTAAATGCCATGAAGAGGTTTT
GTATTTTCAGCTATTGATCCCACCTAAACGTTTTGACATTTTTTCCCCCT
GACTGGGGGATGCTCAGAAGGTCTAGGTGCATTCAGATTTTTCTTTGAAT
TCTCTATCAGCTACCAGGTATACAGTACAAGAAGAAAGCGGAAATGGCAC
AAAAAAATACTCGGAAAAAGCGACATCTCCAAATAAACAAAAGGCAAAAA
GAAAGAAACACGTGTGACTATCGGAGCGCCTGCATATCGAGGGACGATTA
AACAAAGGGTCGCGGCTTCAACGAAAGCATAAAGGCGAAAAATGAAGCAA
AACAAAACAAATGTAACACCAGAGATAGACATCATAACATCTGCAAACCA
AACGTCAAACACCCGGAGGATACAAGTTCGCGCCACTTGTGGCTAGTATG
GATGCAGTACGTGGACCCTTCGCCAGGAACACGACGCTAAACTCTGCACC
GTACACCACCGAGTCTTGCTTCGTATCATCGGGGCACAGCGCAAGAGACC
AGACCATCGGATGACTTCGTACAACCGTGCCCTTGAGATGACCGGTCGTG
AGAGCATTGAGACGACGTTGCGAACAAGAAGACTTTTGTGGGCGGGGACG
CTCCTCCGAATGAGCGGCGGGCGGCTGCCGAAACGAATCGTTTTCGGAAA
CCTTGAGGGTGCAGTACGAAGAGGACGGGGTAGGAAGGAGAAAAAGTGGA
CCGATTGCGTCCAGAGCGACATCCGGGCGTTTGGCATAGCGGGACTGGGA
AGCGACGGCGTTAAAGGCTGAGGTGTGGGTTGAGACGGTCACGGAGGGTA
GGCGGAGATTCATGGCCACGTGGAGGAAAGAAGAGGTAGACGCGGCTAGA
CATCGCCAGGAGAAAAGAGAAGCAACGAGACTGGGAAACTTGTTGTCGCA
GACGGGAGTGTAGAATTTTGTGAAGCCACACCCATTGGCCTAGTGCCTAG
TCGACGAGCCGAAGATATCCTTGTACGGATGCGAGACCGACCGAGACCTG
CGTAGCGCCTGTAGATGCGTCGCGTGATTTTTATTTTTTATTTTTCTCCG
AACGAGCAGTGTGGGGGGTGGGGGGGGGGGGGTATGTTGCCAGACTTTTT
CTTTTGCTCTCTTTTCCCTGCTCAGCAGACCACGAGCGGGATCGGCCACT
GTGTAAAGAAGTTTTTTTCTGGTTGGCAACCAATGCGCTGAATGTGAGAA
ACAACAACTACAACAACACTCAACAAGGGCGAGCGAACCAGCACGAGCCC
GCTTGCGTTGGGCTATCCTCTCCTTGGTCCTTCCCGTCCCGTTCGGGCAT
ACCACTGCATGCCGTAGTCCAGCGTTGGCTTTCTCTGCAGCAATCCATTT
CGCCATGAAATATTCCGCCCCTTGTTCCGCCGTTCTGCGCCATTCCCATT
TGTTCTGGGCGGCGGTCGTCCACTGGTCGGCGTTGATGCCGAAACCTCTG
AGGTCGTCCAGGAAACACCCCGTCCACTCTTTTTCCTGGCCCCCCACACA
GCCCCCGCCTCCCACCATTTCTCCGAACATCACACAATTCGATAGTCTCG
TATCCTCCATGCGCGCCACAAATCCCCCAAACAAGATCCGCCTCCTGCGT
AAAGTCGTCTCGATGCTCTCACTTCCCGTCTTGATAAGCGTGTCCAGGTA
GGAAATCCGGTGGTCGGCGCGATTGTGCTTTCGCCAACCGATGCAGCGAG
TCAAGAACCTGTGGTGGGCTCGGCGCAGCGTGTCGTAGTGGCACGCGCGC
GGACTCCGCGTGTCGCAGCCGTACAGCATTGTCTCAAGTACCTCGACTCT
TAGCATCCGGATTTTGAGCTCGGTCGTACAGTTCGAGGGTATACTTCCGG
AAGCTGCACCATGCGTTGCGTATGCGCCGGTCGACCTCGATGGACAGGTC
TATCGTGGATCAGTACGTACTACTGTTCGTAGTGTGTGTTGTTTATTCTA
TTAATTACACAGCTGTTCTTGTTGACGGGTGCCAACTTCCGCACGGGGAG
AAGGGAGAAGGGAAGGGTTGTGAACAAAACAAAGACAACAACGCTCGAAG
CGCCTACGGTCGAGATGCCCTCAACGAGAACGGAGAACTACTGCTGTCCT
TGGCTGTCAACCTCGACCTGGCACTTGTGAACAAGTCCTTCGGCACACTA
CTGGTGGTACACTTGTACTTTGAACGGACGAGATAAAAAAACGTATACAA
TTCTTCTACATACTCACAAGGCTGCGTGACGTTGAACTCATACGAAACGC
TACGGTGCGCCCCTAGCCTTTCTTCCTTCCCATTTCGGACCACAACATCG
TGTCCGCCCCCGTCAAGCTTCTGGGCCATTTTGCTCGTAACCGCCGGTTG
GGGACGGTAGTTGAGCCACCTGCCGACCAGAGGCGCCTGACGACTGACCT
CCATTTTCGGTAGGAGGTGGCTACACTGGTTGGAAGACACCTCAGGGCCT
CAGGGCAACCCCCCCCGAAGGCAGCAGTGTGAACCACTTGGAAGTCGCTT
TCGCCGTGGCCATTATGCGAACGGCTGAACTGGATGCCATCCCAGGAGAC
CAGGGCGAGGTTTGGAGTGGAGACACCCAAACGGAACCTGAACTACATCC
AGTGACTGCGGCGATGTACGCAGCCTGGAAGCGCCTGGAACAGGAGACCG
TTAATATTAATAATAGGGATGCCCAGCTGCAGAGGGTCGTAAGGCATGCG
GCTCTGGCGCGAGAGAGTGAGATATGCTTCAGTCGTTCGTTTTTTCGGGC
AAAACGTGCTACATGGAGGAGCAGCTGAGCAGGGAAGATCAGCGGGGGTT
CTCCCAAAACATCAAAACGTTGCATAGTTGATTAGCCAGAAGTGGCGCGA
ACTTGCATCTTCCGGGCGGATGTCGAGTTGTCTTTCTCTGGCGTTACGTT
TGTTTTGTTTTTGTTTCGTTTTCGTCTTCTTTGATTTTATCAAAGCCGAG
GCCCTTGGTTCAACCATTCCTCAAAATACGTGCGCCCCGGCAGCCACACG
CAGTTACCTAACAACTGTTTGTGTCCGCTTTTGCCTTGTTTCTTTTGTTT
TGTTTCATGGGAGGTGTCGCCTTTTCCAAGTATTCTCTATCATTGCCACT
TCCTCTTTTGTATGGAGAGAGAGTACCTTGCACGTTTTCCTCTTCCGGGT
GGTGTTTTTTTACCTTGTGTTCACGGGCTGGATTTTGACATCAGCTTATG
TGAGAAGTCAATCAAATATATTCAATTCAATCAAGGGTTGAGGATACGGA
GATGGTCAAATCGTGGTACATTCGTGACAACAACAAAAAAGACAGCTACG
AGTTTAAGGGCTCATTCGCGAAAGACGGGGGCGATTCTTCCGCTCGCTGC
TGAACGCGAAATCCGACATGTTTGATATCGACATCGTAACGTGGCTTCCG
CAGCAGCCCGGTCGCGAATGCCCTCGGAGCTGAGCCCACGGAAGAGGAAG
TTGTCACAGCGTCAAAAGCGATGGCAACGCGAAAGCAGTGAGGCTATTTA
ATAGACGGTCTTCCCGTGGAACTGGTGTAACTAACTCGGTCTACAACAAG
ACCGCGCCATCTTCCTGGCGCTCCACGAATTGATCGCCCTCGTCGTGTGT
AGTGCTCAGACGACCGACGTCGATGGGACCGGACCTCGCTATGGACTTCC
TAAGTCGTGCGATGTGGGGTATGGCCTACGCAGATGACACCTACATAGTT
TCGCGATCGCCGCGAAGATTCGCCAAGATGATGGAAGTTATCGTGGAGGA
TTGCCGGGCTTACGAGACCCTGTGCATACCCCAGCGGGTGCACCGCCGAC
GATGATGAAGGCTGAAGCGGCCTGGCAGTAGTACCAACAGGTGCAATGCT
CCACCTGGTTTGGGGGTGCCATTACCGAGAGCCCGGACATGCCCGTTGAA
ATCGCCAGGCGGGCCCGCGCGAGCTAGATGCATATCAGGCGGTACCTACG
TGAGCTCTACAACCAGCCAAAAGTGAAGATCTCCCCTAAGACCCGACGGC
AAAGGCCGAGGCAATCGAGACCCTCCTGTTTGGATGCAGTACATGGACCC
TTTGCCAGGAACACTGCGCCAAACATGGCATCTCGCACCACCAGGTCTTG
CTTCACATCATCGGAGGCACAGCGCAAGCTACCAGACCACCGTATAACCT
TCTACAACCGCGCCCACGAGATAACTGGATGTGAGAGAATTGACATAACC
GTGCTTACGAGAAGACTCTTGTGGGCGGGGGCACTCGTGTGAATGAGCGA
CAGGCGGTTGCCAAAGCGAATCATGCTCGGGAACCTTTAGGGTGCCGTGA
AGAAAGGACGGGGTGAGAAGGAGAAAGAGTGTGTGTATAGATTGGGTGTA
GGGCGACGTTCGGGCATTTGGCATCATGTTTGACTAGAAAGTGATGGCGT
TGGAAGCAGGGGTGCGGAATACGACGGTGACGGGGAGGGGGACGTATACT
ATGTTCGTGGCCGCGAGAAGGAACGAGGAGGAAGACGCGGTTGGACGTAG
ACAAGGGAAGAGAAATGTTTGTAGGCTAGGGGAGTTGTTACCGCTCCGGG
GATGTAAAACCCTCGAAGCGACGCCGCTTGTTCCACTAGACTATCGTAGA
CTTACCGTAGACTATCGTAGACTAGAAACGCTATTAACAGCCGAAGAAAC
CTATTTATATTAATATTAGAAAGGGCACGAGACCTACCGAGGCCGCAGTA
TTGTCCAAGTATGCGGATGCATGATTTCTGCCCCTTCTGGGCATCATCTG
TTACGCTGCCAGCCTTTTCTTGTTTCTTTTTTCCCTTCTACAGTTAAGAA
GACCACAAGTGGGGTTGGCCACCGTGTCTAGTAGATTCTCTGGTTGGCAA
CCAACACTTGTACGCTGAATGCGAGAAGCAACAACAACAAACACAACTTC
ACAACTTCTTGGAATAGGGTTCGCTTCGTGCGCCGCAGTTTATTCTTTGC
CAATAATATGCCCAAATATTCCAGGCCAGAGCTTTCTCTGCCCGAAATTC
CTGGGCTGAATTTTCCAATTTTTTGGTCCCATAGTGGCGGTTGGACAGGA
ACTTCTGGCCCAAAATATTTTGAAAAGCGGCCTGAATGCCGATTTCGGGC
CACCGGTGGACTTGAATGATTGCGTGAGCGTTATGGCAGTATGTATAGTA
TATACCGAGTATGATATTATGTATGATGTGTATGAGATTATGTACGATAT
GTATGAGAGTATGTACGGTATGGCAGGATGTATGGTATGTATGAGAGTAT
ACTGTATATGGTAAGATTATGTCTAAGAGCATGTATGGTATGTATGAGAG
TAATCTTGGTATGTTTGAGTGTATGAATAGTATGTTTGAGAGTATGTATA
GTATGTACTCTATGAAAGTATATATGGTATGTCTGGTGAGTACTTTCAGC
AGAATATGGATCAACCAGACATATGGTTGCCAGTCCTGGCTCGTGGTCAG
CTGAACAGGGAAAATTGATATTTCCCTCTCCCCGTTCGCACCTTACAATT
TGGTTTCGCAGGGACGGATTTGGCCGTCCGGTCCTGCGTCAGCCCGCTCA
TGATCCACTTTCAGGCTGAATCTGGTGTTTACTCACGAGATTCCTCCCGC
TTTCAGCGACGGCGTTCATCTAGACCGTCAACCGCTATCGGATCAATCTC
TATTAGAGTATTAGAGTCCATCAGATCACGCAATTGCCTACCGATGGCGT
TCATCCGCCGGCCTAGGGCCAGTAATCCTCCAGGTAGTTCGAGTAACGGG
TGCTTCCTTTTAAGGTATCACCACGGACCAATTTTTGTGCGCCTCTCTTT
TTCCACACCCACGATTGATATGTAGTGGACATGTTGATGTTAATGTTAAT
GTGAATGTGAATGTGTGGTAAAATAAGTATCGGAGGCGGTATGAATGCTC
CGAAGGTTCAGGGGTTCTACTTACCAGAGTATATCTGATATGAGACCACT
TGTCATTGGAAAACGATAGTTTTGGGCAAGGAATAAGTACAATATCTGCT
TTTTGTAACCGTTCAAGACCAGTTTCTTTATCTTCACAAACAGTGGGCGA
GGCCATCATTTTACGTTTTCTCGTTTATACTACCTCGTACACTCTCCCTC
CGAAACCTGGTTTCGGGGTATGGCTGTGGGAGGGTCTTTTCGGCGGGTGT
AGGGCCGGGCTCATCCTCGAGAGATGCAGCTAACTGGCTGTCTTCACGAT
GCAGCCAGTCGGTTGAGGCGCGGCGGCGGTATAGTTGGCTGAGGATGGTG
TTCCCCAGGTGCCCGTCTTCCGAGCTCCAATTTGGTGCCCTGCGGGAGGT
GGTGGCACGCGAGAGGCAGGTGGCACTGTCGCGGAGAGCCTGGTAGCGCT
CTATCGGGTGGGTACGCACCAGATTCGGCGAGGGGGGAGGGCAGCTGGAT
CGTCGACGAGCCAGGGGAGTGCTGAACCCCTGGGCGCAAGAATCAAAGGC
GCGAACCGGGAGGTTTCTGAGGGAAAAGCTTATGTCTGACCGCGGTCTGT
TTTCTTCCTACGAGGGCCAACAAGGAGCGGCGAACTGGCAACATTCATTG
GGCGTTTTTCAGGGATATGCACAGGGATTTGGATGGCTGGATGCTGGCTC
ACGCGCCGGCTTCACCAGATCAAGGCCTCCACCACCATGGACCTCTGTAT
TTAAATTTTCCTCATTTCTGTACGTGTGCCCTTGAGAAATTTGAACTTGT
TAATCGAAACTGATTGGAGCGGGATTTGCCCGCTTTGTTGCTGAGAACGC
TGGCCGTGGGTAGGAGGTTTGGTGAACTGTTTTGACATTGGTCGGTGTCA
TTCCTTGAAAATGTCGCATAACTTGTCTTCGTGTAACCCTCCGAGAGCTA
GAAAACTTTTTATATCACTTTTGATGACTTTTGTTAGATGGGAAGCACAT
CAGGCAGTCTTTCTATGTAGCTTGTATTAATAATTCAGGTTTTGAAATAC
TGGCAGCACTCTATTAATAGACAGTAGAAACTGTGGTTCGTACCCAAAGA
CATCTTCTTGACGCCGATATGTTTCCGATGTTCTTGGTTGGTTGGACCTG
GCAAGGGTTTTGTCGCGATATGGATCCCTGTTGGTCTGAATAGCGGGTTG
CCACCATGATATGATCCGTTGACCTTTGTACCTCTTTGTGACCAGGAGCG
GGATTGGCATTTATTTGATAGGTCTATGGCTGACTCGTTGTGTCACCTTA
GTTTCTTCAGTTGCAACGAAAATACGCTGAATGTGTGAATCAACAAGTAC
AACAACAACAACTAGCTGCTGGTGAGAGCGAAATCAGGTTATGAGGAATG
CCCTAAAATCGTCCCCCAGTTCAGGAGGGGACAGCACGAAAAACGCCTCT
TTCGGGGACAGATTTGACCAAACCCCTGGTAGGGTGAGTTGAGTTTGGGG
CTAGCGCGCCCATCATGTAGGGGAGATCATGTAATACTATCCCCGGGGGG
GCTGCTTTGGCGACATCCCCGGGGAAGGGATCGTCGAAGCCCCCGCGCCC
CCATTCGTTGAACGACGCGTATGTATGGTCAGGGGATGCCCCCAAACTCA
AACCAGAGAGTAAGGAACCATAATAGCAAAAGGAAGTCCTCCGGCGGCAC
TATAGTAGCAGCAAGAGCTCCGCCAATGCTCGCACCAGTGCTCTCCCAAG
TCTAGCGCGCTTAGCATCGTCGAAACCTCCCAAGTCTTGTAATCAGTCGT
TCACAGCAGTCTACTTAAATGTATGGTATGGTATGGTTAGGTTAGCACCG
AAGAGACACGCTGACACGCAGGATGCAGGCGCGGTGTACCAGACTATTAA
TGTGAGAAACTCTACATCCACCGCAGTTGACATTTGAAGTGGCCGTATTA
CTTTTCTTATTAGCTCTTATTACTCAGCATTTTTTACGAAACACTTGCTC
TTCAAACACAAAAGCGGCGCTGGGTTCGTACGTATTCACGTAGCAATAAC
GGCAAAGGCCATGCAACACCATCCACCATGAGATGTGCCGGTAGCGCTTG
GACTTTGGCGACCTCGAAGAACTCGTTTTGAGCTGCATCGTTACCTGAAT
CCCTTCGCTTGTCTGGAGCACGAATGCTCATATTCGTTGTTAACAAGCAT
AGTTATGGCTCACATAATATGGGTTAGGGGTGATTTCTGGAGAGTTTGGA
TTATTTCGCGTCCGAGAGGGAATTTACTGGAATTTACTATGCCCTTTCTG
CTGTTTGCGAGTTGTTATTTTGTACGGAGTACGTACGACATGACCAGAGA
CCCGTGTGCAGCGATGACCAACCGAGGGGAAATATGCTGGAATTGATTAT
ACCTTCTCTGCTCTCTACAACAACAGTAATACGTGCTGCTCTTGTCGAGT
TATTGTGATTGTACCAAAGAGTCATATTTAGAGTGCAGCGACGTTAATAA
CGATCGTGTCGGTAATACGTGCTGCTCTTGACGAGTTATTGATTTGATTG
TACCAGTCTTTAGAGTCATCTTTAGAGTGCAGCGTCGTTAATAACGACCG
TGTCGGTAATACGTGCTGCTCTTGACGAGTTATTGATCTTATCGTACCAG
TCTTTAGAGTCATCTTAAGAGTGCAGCGACGTTAATAACGACCGTGTCAG
AAACTGTCCGACGCCCACCCGACAAAGGACAACCATCCCGTACACACAAT
CCCGTACACATGATCAAAATGGTCCCGACCAAGATCCAAGATGAATGCCC
TTTTGATGGATCGCGAACGGGAAAGCGCGTTGAGAATGGGCTTCAAAACA
CAACTGTTAGTAACTAAAGGGATAATACTATAATACCTGATCTGTCTCAT
CTAAAAAGCACGAGACCACAAACTAGACCTCATCTGTGGAATTGGAGGGA
ACCTGGGGAGGAATTCTGTAGTCTGATTAATTCTTGAAGTATTCCACCGA
CGGGTTATTTGATCATCGCGTTGCCTCATCTCTCGCACTTCCTTCCTTTC
CCACTTCCTCCTTTCTTATTTCCTTTTTTATTTCCTACGCGTTCACGTTG
ACACGGGTGTACATTCGTCTAGTCTATACTGTATATAGTATATAACATAC
GCTACGCTGCGTTTCTTGTAAGATTTCCATCGGTTTGTCTGCTGCATACC
TGATGTATGTAGGAGGAAATCTCCCGATTCTCTCTCTCTCGAAGGTTATC
GTGTTTACCTGTAGGCAATAAACTAGAGCTATATATTTTGTGTCGATTTC
GCTTAGGCAGCACTAGCTTATGGGTATTTCTCAAACGTTTATTTCATCTT
TCCCTCTTTTTGTCTTCGCGTTTTCTATTAATAGTCTCGCCCGCTGCTCG
TAGTAACTCGCCGTAAGTCACGTTGAATGCAATCTGCAGAGTGACTACGA
GGAGTGGGATCACCATTATCCGCCTTTAGGGCTACCTTATTTGGCATTTG
CAAGAAAGTTCACTCTAGTACCTTAGGTCGTAGAGCTATACGGTATCTCC
CTTTTAGAGTTCTTCATCCTGTCAGATGGAAATAATGAAAATCGACAATA
TACTGTAGCTTGGCAGAGAACTTGCGGGAGGCGGTTAAAATAGGGGTTTT
ATTTGTAAAGCGCAGGCCAATCACTGGCCAATATTCCCAAACTTATGAGG
ACTATTCTTGAAGGTGCAAGCCAATCACTGATGTCACACAAGTCCCGTGG
TCAAGGTCTCTCACATATAGCCGATGGGCCTCAGCGTTGCCATCCTGCCT
ATATTAATGGTCATTAAGGATCTTACCATCTCTCCCCGGTTCACGCCTTA
CGATTTTTTATCGCGATGCCAAGTTCAGCACTCTCACATTTCGTCACGAA
TGGTTAAACTTCACTTGCTCACGTTCTCACGCTTTCTGCTATGGAAGAAA
GAGCACAAATTCTGGTTTTACAAGAACCGAACTCACGACTTCCGCACCAG
CAGGTATGCAAGTTACCTACTAGACCACTCGGATGACGATTTGTACCGTG
TAATTCCCGGTAATCATGTTCTACATGGTGGCCTGAGACTGTCTTGTGTA
GTCTGGTGGATAAAATGTGTCCTGCTTACTCCTGGCGGATGTTCTCGGCG
CGGGAATTGGTCGCCCTCGAACTAGTCTGTACTTCTGCGCGTGTATGTCC
CCTATCCATCGCCCATCATGGGCGTGGTCTTAAACACACCAACCTAGCGT
ACTGGCAGAAAGTGAAAATAGAGTTTTTAAACAGAAAAATATGGAAAAGA
AAACGTGCAGGACCAAGTGTACTGTACTCTAGAATTCCTATGTTCCGCCT
CCGATATTTTATGTATCGCACAGGCCCACTTCATACCATTAATAGTATGG
TGGGTGCGGGAAAAGAGAGGCGTACATTAATTGGTCCATGGTGAAACCTA
AAAAGGCAGCACCAGTTACTGGAACTACCTTGAGGACTCCTGGCCCTGTG
CCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGCAACTGCGTGACCCG
ATAAACTCGGGACTGACCCGATGGCGTATGGCGGTTCAAATAAATGGACG
CCGCCGCGGAACTCGGGAGCAATCCCGTGATTAAGCGCCATATTCAGCCT
GAGTATGGAGAATGGGCAGGCTGATGCGGGACGGGACTCTGCCGAAACCG
TCTCGCGAGGCCAAATTCTCAGGCGCGAACGGGGACAGGGAAATGCTCAT
TTTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCAGTTGA
TCCATACTCTACTATGTGTGATGACCATACATACACATATGTACCCCATG
ATTTTACCTTTCTTCGAAACAAAGCCCCAAGACTATAGCTCTAAGACTGT
AAGACTCTTCGTAAACTATTAAAAATAGAGGTACTCAAGAAGCGGCCAAT
ACGGCATGTGCGCCGAGAGGCATGACTAGGCTTGATCCATCGTTTAATTA
CTATACTGTATACACGTTTTCTATTAGACCATAGAGGCAAGAGAATTATG
AATAGCCAACGGATACCCGAACCCCAACCTTCCACGGAAAACCGATTCGG
TGTGCGTTCCGTGACTAAAACATGTGTGCGTTCCGTGACTCGAATGTATT
GTGCCGTCAAAATGCAGCTTATGTTAATTGTACTTGCTGCGTATAGCTTT
AGAGAGCACCGTATCCAGCCCAAGTAGATGTTTCTTTCTTTTTTTCCTCC
TTAAACGAGACAGTTCCTTAAGCAAGATAGCCGTTAATGACGGACCTTTG
CAAACGGAACACCTCGTGGATTACGAGCGGAGCTTGCATTGAGGCATAGA
ATCGAATCCTTGGTACACTTCATGAAATAGTGTACGAAGGGATGCCACAA
TGATCAAGCATGCGAAATCTAAAATGCAGCTAGCTCAAATGTAAGAAATG
CGCTATTAACAGAAGAGGTTGGTGGGAGTGCTGCGGAGGTCTAACTTGCT
CGAGCTCTTGGTTGCCCCCCCCCCCTACGTCTTTTCCGCCGGTCTCACGA
ACCAAGACGCGCGTCTCCTTGCCGGACCCTCTTACCTTCCCCGCATCTGC
GGGGGCCACCGCCCAGCCGGATGCGCCGCCGATGTCCGTTCCTACGTTCG
ACGTCACAGGTTGGATAAGTTGGTTAGGTTGGATGCAAAAAGCATATCAG
ACAGACCACCCCGTACAGTACGCACTACGTAGCAGTTGTTTTCATCTGCC
GCACTCAAAATAACGTTCGATTTGAGTTTGGCACCCAGGGGACAGGCACG
GGACGCACCAATTTGACTGGCGTTTTTTAAAGTCCCGGGGTTTTAAAGAC
GATTGATTGGTTTGTGTGTGTGTGTCTTTGTTATTCCTGAATTTCTTCCG
ATTAGGGGAATCAGGGTGCTAAGTTACCGATCCCGCCTACTGTCCCGCAG
CTTTGTGTCGAAAAGTGTGTTGAGACCTTCGGAGCGTCACGAGTATACAT
GTGTTGAGACGTTTTCAAGAAGTACGAGTAGTTTCTTCACGTTTGGCGTG
TGTGTGTGTTTTTGTTTGTTAGTACGTAGTATAATACTGTTATGTACTAT
AGTCTAGTAGCGGGAAGATATTTCGAAGAGCAAACGTGTCTGACCGGCTG
TTATGTTCCGAGAACGAGAGACGTTTTGGGACTATCCTACTACAGTAGTA
GTGCGCAGGAATATCATACAAAATATTAAGTACTCTACACTAATAAAGAC
TGATCGCTGATTCGATCGTCCTTTGTTGGATATTACCAGGAGGGTCCTTT
GTTGTGACCGGCGGGACTCAGGGCTTGGGCCTCGTCATCTCCGCGTGGTA
AGCCATATCGAGTACCGTACCAAGCAGCTGTCCAAACAGCATATGCTATT
CATGAAGCCGCTGCGCATTCTCCCAATAATATTACGTTTTGTCAGTCTCC
CTTTGCCACGGCAGCCTTCACAGTTGCTGCCTTCGCTGTGGCAAAAACGT
GCTCTCGAGAGTAACCAGTTTGACGTAAAGTCGCCTCCTGGGGCAACCTT
TTGCCCACCATATCCGTGGGTCGACGGATTCGAAGCGTTGCGAAAGCGGG
AGCGCGTGCGGTCATGATCAGTGCTCGGACGAAGGACGCCGGGGAAAAAG
CTGTCACTCGCTTGACGGAAACCGCACCATCCTGTCAGGCGAGTCGCTTG
CGACGTGATCGTATGTGCCGGTACTGTAGTGTTGAGTTTCTTCTTATCTG
AAATTAAGCACAGTGTATGTTTCGTCTCAAACCTTGTGAGAGTATTTTTT
TGCGAGTAGTCATCGTGTGTCCTTCTAGCAATGATTCGATCCCCCGGCTT
GAAGTCCACTCTGCTACTTAAGTGTTTTTTGGGGACCATTTGAATCCGGC
GTCGCGACGGTGAAGTATTTTCATAATCTCCAAACACAGATTCTCGCCCC
TCGGCTCCTCGCACACTCGGCAGTTTTACTTCGCGTTGGCTGACCTTGCT
ACCGAGGAAGGCTGCTCCGGACTAGCATCCGAAGCGGAGCGACTCATGGG
AGCTATCGACGGCCTGGTAAGCAAGCAAATATAGAGGTATAGGGTAAGAT
TGCTCCCTTGCTAATTTTGCGGCTTGTCGCGGTAGCAAGGGTAGAGCCAG
CAGGTTTCTCAAGAGCTATTGCGGGAGGCAAAAGGCAAGAGCTCGAACAA
ATAAACGTTGCTCACCAGGTGAACTGCGCTGCTACGACGGAAAGGGCTAC
GCTAGACACCACCACGATCGAGATCTGGGATCGTGTGATGAACACGAACG
TACGAGGGCCATTCCTTCTCACCAAGGTGACGTAACTGCACCGTACCTGT
CCCAAAGCCTATTCCCTCTAAGGGCTATTAATGTGTGTTTTCTATGATCG
GCATGTTTAAATAGAAGAAGTTGTGCGACGGTACCGGGATAGGATGGGGT
GGAATGTGGTTGTGTCTCACGTGATGGGACGCTTGCACGGCGTGATGAGT
TTTAGCATTAATAATAATCTGTCGAGTGGACCTCACGAGGCCCTTCAATA
GTCTTAATGGTATACAAATGCAGCTGTCCGGCATACCTGTTCGCAGCTTT
TTTTCTTCTTCTTAAATATTGTGAGAGACTGGCGTCCCGCGATCTTTCCC
GCATTTTGCTTATCGTGTCTGGATTTTCTTCTCGCAGGCCGTGTCACAGT
CCATGAGAAGCCGGGGGCGACCAGGATCGATCGTTAACATCTCCAGCAGT
GAGGATGGAGGATTAACGCGCGATATGTCACGCCAATCTGAAATGCTTCG
TCTTGGATTATGATATACCAAAGTGCAGTACTTCTGTTTCTTTCAAACGG
GCCTGATCAGTCAAGATGCATGGTTGACAAGCGCGTACTTGTAGAAAACT
CGCCTACGCTGCACGATCGTTCGACTAACTTAGAGTTTCTACACGCACCG
AAGGCGTGTGCTGCTTCGACAAAAGCCTCCGAAAACCGTCACACCTCGAT
TCGGCTAAAAACAGTTGCCGCTCATGGAGGCATGCCCAAGATCTCCACTT
ACTCCATTTCCAAGGCAGCTCTCAACTCTATGACCAAGATACACGCCTAC
GAGCTCAGGGCGGCACGAATCAGGTGCACAACTAAATACGGTCGCTTTCA
AGAGATTCTCTTGCAAGGAATAGAAACCACGCCGTCACGGAGGGGAAAAT
GGCTAAAAATTGATACCGCTCCTTCGCGAGGGGCCTGATGAACGTCGACA
AGACGCACGATCGCATGAGAATTTCCAAGGGTAGTGAAACCCACACATTG
TGTGTGCCGGATTGATCGTTTCGTGCGATGAGCAGGGTCAATGCGATAAA
CGTGGGCTGGATGTTGACGGACAACGAGCATCGCCTCCAACGTATCGAGA
TGGGGAGTGACGATTGGATTGTAGAGGGCGACAAGGTTTGAGAACCACTT
GATTCAGCACTCTTTAATGCATTAGTCGGACCCAATGTCTCCTGGTAAAT
GGAGATAGCAGGCGTTTTATAATATTAAAGCAGAAAAGGTACTACGCGAA
AATGGTCCCAATGGCCAGTTCTAAAGTAGGCCAAATATCAGACCTGATGA
GAACTCCCCCGCTTTGGCGCCTTCGCGTATGCTACCGCATTCGCACCACT
GATCTTTCACACAGGGTCACCCAATGGGCCGACTGCTGCGGCCGGTGGAT
ATTGCGGCAACTGTTGGACACCTTCTCTCCGACGCCAGTGCGATGATGAC
AGGAACGATCGTCGACCTCCATCCTGACATGGTGAGCCTGTTGTGCCCAA
CTCTGTATTAAAATTGCACGTTGCTACTCTTGCCACAGAGGCAGCGCCGA
CACTCTGATACTTTCGAAATACGCCATTAACAGTGGCTCGTCTTAATATC
GCACATAGGTGAACAACTGCTGGGGGTGACCTGCACCAAGTGCCCGCCGT
GTGGAGGAAAACCCTCTCAATCTCATCGCGACGACCTGCCCTAAAGGATT
GACGACTTCACGAAAAGAGGATGGGCCCGATCATCCCGTTTATCCTGGAT
CTCATTCTACTGTTTCCAGCATCATGGGCACGCACTACATTTGAATAGCA
GGGAGTGCGAAATGACAGTATAGTATACTGAATGGTGCACAATTTGAGTT
TTGCGCAAGAGCTGAAGGACAGAGGTTGGAAGTAAAGATCGTTCAGAAGG
CACCCATAGAAAACTTGTTCATGCTATCTTCGTACTGATAGCCCAGTGGA
CGAAATTCTTCCCTCGCTACCTTTACCCTATCTGTGCCGAAGAAAATAAA
TTGATTGTTATTTTCAGGCCTCAACGTGCAAATAGACGCAACAGTTACGA
TCTGCAGTGGTTAACCTCTCGTCGCGTTCCCTCGCTCATACCGGTTAGTG
GATCCTTGATCTTACGAGCGTATCCTCGTCCCAGAAGTCAGCAAAACTCT
ACAAACTGATTCGGAAGCCTGTAGCTATACTTTAGGGTTATGCTCCGGGC
TTGCCGTCGGAGCTATGAGATACCTTTGTTCTGTTATCGGGGTGTTAAGT
CTAGCTTTTGATTACAACGACGAAGATACCATACTCTGTTGTAGTAGTAT
TATTGGGGGGGTTAAGTTTCCCTGAGGGTTCAGTTGCTGGCACTCAGGCG
CGAACGGGTACAGGGAAAAACTCATGTTTCCCTGTTCAGCTGACCACGAC
CAGGATTGGCAACCATACCCGGTTGATCTATACTCAACTGAAAGCGCTGA
TCATACAC
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Coding sequence (CDS) from alignment at A-nodosum_M_contig887:285127..308384-

>mRNA_A-nodosum_M_contig887.20.2 ID=mRNA_A-nodosum_M_contig887.20.2|Name=mRNA_A-nodosum_M_contig887.20.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=921bp|location=Sequence derived from alignment at A-nodosum_M_contig887:285127..308384- (Ascophyllum nodosum dioecious)
ATGTCGAAGGAGAACTGTGCGCCGGAAACAAACCCGTCATCTTCTACGCG
CGTCTCCTTGCCGGACCCTCTTACCTTCCCCGCATCTGCGGGGGCCACCG
CCCAGCCGGATGCGCCGCCGATGTCCGTTCCTACGTTCGACGTCACAGGA
GGGTCCTTTGTTGTGACCGGCGGGACTCAGGGCTTGGGCCTCGTCATCTC
CGCGTGCGTTGCGAAAGCGGGAGCGCGTGCGGTCATGATCAGTGCTCGGA
CGAAGGACGCCGGGGAAAAAGCTGTCACTCGCTTGACGGAAACCGCACCA
TCCTGTCAGTTTTACTTCGCGTTGGCTGACCTTGCTACCGAGGAAGGCTG
CTCCGGACTAGCATCCGAAGCGGAGCGACTCATGGGAGCTATCGACGGCC
TGGTGAACTGCGCTGCTACGACGGAAAGGGCTACGCTAGACACCACCACG
ATCGAGATCTGGGATCGTGTGATGAACACGAACGTACGAGGGCCATTCCT
TCTCACCAAGGCCGTGTCACAGTCCATGAGAAGCCGGGGGCGACCAGGAT
CGATCGTTAACATCTCCAGCATTGCCGCTCATGGAGGCATGCCCAAGATC
TCCACTTACTCCATTTCCAAGGCAGCTCTCAACTCTATGACCAAGATACA
CGCCTACGAGCTCAGGGCGGCACGAATCAGCAGGGTCAATGCGATAAACG
TGGGCTGGATGTTGACGGACAACGAGCATCGCCTCCAACGTATCGAGATG
GGGAGTGACGATTGGATTGTAGAGGGCGACAAGGGTCACCCAATGGGCCG
ACTGCTGCGGCCGGTGGATATTGCGGCAACTGTTGGACACCTTCTCTCCG
ACGCCAGTGCGATGATGACAGGAACGATCGTCGACCTCCATCCTGACATG
GTGAACAACTGCTGGGGGTGA
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