mRNA_P-littoralis_Contig63.28.4 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig63.28.4
Unique NamemRNA_P-littoralis_Contig63.28.4
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: A0A6H5JWM7_9PHAE (Methyltransf_11 domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JWM7_9PHAE)

HSP 1 Score: 320 bits (821), Expect = 1.410e-100
Identity = 184/310 (59.35%), Postives = 207/310 (66.77%), Query Frame = 1 
Query:  370 PDYSSMSVWDKRYRDGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVSHIHPSTAEGMAFLSETLVPALQEESCP-DSVRRNTGEEAEEKEGGAS-------SWSVDVHCGDDGDTDGDTDGGGREESEEGRGAKEAGGDEDCRRGDGHDDDGASGQ-IGPSAYMARKVARRHTRASAARGQSGRQQQRRAIPIRIHEY 1272
            PDYS M VWDKRY+DGV VEWYCGFEHV+PLFERF+PK+S VL+VGCGDKPLAWDLRDAGYTGKITSFDFSPTVIE+L  E +SCDRK+LD GV F+VLDARDLPF+ GSFDLVVDKG VDAMLCD AG+ +AR+     IC EAAR+VA GGW V+VSH+HPST EGM  LSE LVPAL+E S    S     G E +E E   +       SWSVDVHC D                                      +  ASGQ  GPSAYMARKV RRHTR+SA+    G       IP+RIHEY
Sbjct:   78 PDYSLMQVWDKRYQDGVSVEWYCGFEHVRPLFERFIPKESSVLEVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIERLLLEARSCDRKRLDAGVDFQVLDARDLPFEDGSFDLVVDKGAVDAMLCDDAGQDNARK-----ICLEAARVVAPGGWLVVVSHVHPSTPEGMVLLSEVLVPALRESSSSLSSAGEGGGREGKEGEYEEAYEYEEVYSWSVDVHCADVDXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEQSASGQSAGPSAYMARKVPRRHTRSSASGEPQG-------IPVRIHEY 375
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BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: D8LLU3_ECTSI (Methyltransf_11 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LLU3_ECTSI)

HSP 1 Score: 314 bits (805), Expect = 2.550e-99
Identity = 185/319 (57.99%), Postives = 209/319 (65.52%), Query Frame = 1 
Query:  385 MSVWDKRYRDGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVSHIHPSTAEGMAFLSETLVPALQEESCPDSVRRNTGEEAEEKEG---------GASSWSVDVHCGDDGDTDGDTDGGGREESEEGRGAKEAGGDEDCRRGDGHD-------------DDGASGQ-IGPSAYMARKVARRHTRASAARGQSGRQQQRRAIPIRIHEY 1272
            M VWDKRY+DGV VEWYCGF+HV+PLFERF+PK+S VL+VGCGDKPLAWDLRDA YTGKITSFDFSPTVIE+L  E +SCDRK+LD GV F+VLDARDLPF+ GSFDLVVDKG VDAMLCD AG+ +AR+     IC EAAR+VA GGWFV+VSHIHPST EGMA L E LVPAL+E S   S+    G E E++EG            SWSVDVHC          DG                                         +  ASGQ +GPSAYMARKV RRHTR+SA    SG  Q   AIP+RIHEY
Sbjct:    1 MQVWDKRYQDGVSVEWYCGFDHVRPLFERFIPKESSVLEVGCGDKPLAWDLRDASYTGKITSFDFSPTVIERLLLEARSCDRKRLDAGVDFQVLDARDLPFEDGSFDLVVDKGAVDAMLCDDAGQENARE-----ICLEAARVVAPGGWFVVVSHIHPSTPEGMALLEEALVPALRESS--SSLSAGEGGEREDREGEYEEVYEXXXXXSWSVDVHC---------ADGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEQSASGQSVGPSAYMARKVPRRHTRSSA----SGEPQ---AIPVRIHEY 296
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BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: D7G665_ECTSI (Methyltransf_11 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G665_ECTSI)

HSP 1 Score: 202 bits (515), Expect = 4.930e-57
Identity = 138/250 (55.20%), Postives = 157/250 (62.80%), Query Frame = 1 
Query:  568 SFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVSHIHPSTAEGMAFLSETLVPALQEESCPDSVRRNTGEEAEEKEG---------GASSWSVDVHCGDDGDTDGDTDGGGREESEEGRGAKEAGGDEDCRRGDGHD-----DDGASGQ-IGPSAYMARKVARRHTRASAARGQSGRQQQRRAIPIRIHEY 1272
            SFDFSPTVIE+L  E +SCDRK+LD GV F+VLDARDLPF+ GSFDLVVDKG VDAMLCD AG+ +AR+     IC EAAR+VA GGWFV+VSHIHPST EGMA L E LVPAL+E S   S+    G E E++EG            SWSVDVHC D GD                    E+G         G       +  ASGQ +GPSAYMARKV RRHTR+SA    SG  Q   AIP+RIHEY
Sbjct:   25 SFDFSPTVIERLLLEARSCDRKRLDAGVDFQVLDARDLPFEDGSFDLVVDKGAVDAMLCDDAGQENARE-----ICLEAARVVAPGGWFVVVSHIHPSTPEGMALLEEALVPALRESS--SSLSAGEGGEREDREGEYEEVYEXXXVYSWSVDVHCAD-GDEXXXXXXXXXXXXXXXXXXXESGXXXXXXXQHGXXXXXXXEQSASGQSVGPSAYMARKVPRRHTRSSA----SGEPQ---AIPVRIHEY 259
[Close]
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: A0A7S4PUA0_9DINO (Hypothetical protein n=1 Tax=Alexandrium monilatum TaxID=311494 RepID=A0A7S4PUA0_9DINO)

HSP 1 Score: 108 bits (271), Expect = 6.420e-23
Identity = 72/236 (30.51%), Postives = 114/236 (48.31%), Query Frame = 1 
Query:  370 PDYSSMSVWDKRYRD--------GVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVSHIHPSTAEGMAFLSETLVPALQEESCPDSVRRNTGEEAEEKEGGASSWSVDVHCGDDGDTDGDTDGGGR 1053
            P Y +   W+ RY          G   EW   F+ ++ L  R  P+ +  LD+GCG      DLR  G  G++   D++P+ +         C R +  +G+ +  +DAR + F   SFD+V+DK T+D  LC   G+G+A      A CRE  R++  GG +++V+   P+ A G+++L + ++PAL+E S                  G   W VDVH   DG+ D   +G G+
Sbjct:   27 PGYGARRYWEARYASLAAGAGSRGETDEWLLDFQQLEGLLPR--PRTASFLDLGCGVSAFLKDLRARGARGRLVGIDYAPSAVAL-------CKRTRAAEGIEYFRMDARRMTFPDESFDVVLDKATLDGQLC---GRGAAA-----AACREVGRVLRPGGAYILVTWRGPTRAGGLSWLLDVVLPALRERS------------------GGHRWRVDVHSFADGEDDAKMEGEGK 227
[Close]
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: A0A196SE48_BLAHN (Methyltransferase n=1 Tax=Blastocystis sp. subtype 1 (strain ATCC 50177 / NandII) TaxID=478820 RepID=A0A196SE48_BLAHN)

HSP 1 Score: 103 bits (256), Expect = 1.670e-21
Identity = 55/158 (34.81%), Postives = 93/158 (58.86%), Query Frame = 1 
Query:  376 YSSMSVWDKRY-RDGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVS 846
            Y S+  W++RY ++    EWY  +  ++    +++ KD+ +L++GCGD  L+ D+   G+T  ITS DFSP VIEK+   K+ C  KK   G+ + V+D   + +   SFD+V+DKGT+DA++C     G      P  +  E  R++ TGG +++++
Sbjct:    4 YGSVEYWNERYTKEDQGFEWYNAYGTIKDTICKYIKKDTSILNIGCGDSNLSEDMYRDGFTD-ITSCDFSPIVIEKM---KEKCSEKK---GMKWDVMDIHHMTYADASFDVVLDKGTLDAVIC-----GDEATCFPEKVVSEVYRVLKTGGIYMLIT 149
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BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: UPI0018F49C49 (EEF1A lysine methyltransferase 4 isoform X1 n=3 Tax=Galeoidea TaxID=119195 RepID=UPI0018F49C49)

HSP 1 Score: 103 bits (257), Expect = 3.160e-21
Identity = 53/164 (32.32%), Postives = 93/164 (56.71%), Query Frame = 1 
Query:  376 YSSMSVWDKRYRDGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAI---CREAARMVATGGWFVIVSHIHP 858
            Y     WD+RYR     EW+  F   + L +  +  D  +L +GCG+  +++D+  +GY   IT+ DFS   IEK++++  SC       G+ ++V+DA+ L F++ SFD+V++KGT+DAM+ D+    +  Q+    I    +E +R++  GG F+ ++   P
Sbjct:   11 YKDQDYWDERYRHEETFEWFGAFSRFEHLLKEEIRSDETILILGCGNSSMSYDMFMSGYRS-ITNIDFSAICIEKMASKYASCP------GMEWKVMDAKALEFQSESFDVVLEKGTLDAMMVDETDPWNVSQETKEIIDQILKEISRILRKGGRFISITFAQP 167
[Close]
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: A0A8J2SP25_9STRA (Hypothetical protein n=2 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2SP25_9STRA)

HSP 1 Score: 100 bits (250), Expect = 1.840e-20
Identity = 58/165 (35.15%), Postives = 85/165 (51.52%), Query Frame = 1 
Query:  376 YSSMSVWDKRYR---DGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDL-PFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVSHIHP 858
            Y++   W  RY    DG   EW+  F+ ++PL   FV + S VLD+GCG   L  D+R+AGY G++   D +   +  +    +SC  + ++        DA  L PF   +FD+VVDKGTVDA++   A   +         C  A R++  GG FV+VSH  P
Sbjct:   22 YATQRYWAARYAAVGDGDVFEWFLSFDDLRPLLG-FVKRRSSVLDLGCGTSRLLCDMREAGYAGRLVGVDCAAAALRSVKERSESCHVELVE-------ADATTLAPFADATFDVVVDKGTVDALISGDAAAAT-------EACAAAGRVLKRGGRFVVVSHRRP 171
[Close]
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: A0A197K808_9FUNG (S-adenosyl-L-methionine-dependent methyltransferase n=1 Tax=Linnemannia elongata AG-77 TaxID=1314771 RepID=A0A197K808_9FUNG)

HSP 1 Score: 100 bits (248), Expect = 2.280e-20
Identity = 55/173 (31.79%), Postives = 97/173 (56.07%), Query Frame = 1 
Query:  364 DAPD----YSSMSVWDKRYRDGVFVEWYCGFEHVQPLFERFVP-KDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREA---ARMVATGGWFVIVSHIHP 858
            D PD    Y     W++RY      +W+  +E ++PL  + +  KD+R+L +GCG+  L+ D+ D GY   I + DFS TVI+ ++   + C  +    G+ +  +D +DL F+AGSFD+ +DKGT+DA++CD+    +  ++    + +E     R++  GG F+ ++   P
Sbjct:    5 DVPDDPTAYKRQEYWEERYAKEESFDWFKTYEDLKPLLSQHITSKDARILMLGCGNSTLSEDMYDDGYHN-IVNIDFSKTVIDNMT---EKCKDRV---GMEWIEMDIKDLKFEAGSFDIAIDKGTMDALMCDRGDVWNPDEELVRTVAQEVDEVVRVLKIGGKFLYITFGQP 170
[Close]
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: UPI001B7F69DE (EEF1A lysine methyltransferase 4 n=2 Tax=Acipenseroidei TaxID=186622 RepID=UPI001B7F69DE)

HSP 1 Score: 100 bits (250), Expect = 2.760e-20
Identity = 51/164 (31.10%), Postives = 89/164 (54.27%), Query Frame = 1 
Query:  376 YSSMSVWDKRYRDGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAI---CREAARMVATGGWFVIVSHIHP 858
            Y  +  WD+RY+     EW+  F   +PL E  V K+ R+L +GCG+  ++ D+   G+T  IT+ D+S   IE ++A  + C       G+ +  +DAR L F  GSFD+V++KGT+DAM+ ++        +    +    ++ +R++  GG F+ ++   P
Sbjct:   11 YKDVDYWDERYKQEESFEWFGNFSTFKPLLELHVRKEDRILVLGCGNSSMSSDMHSCGFTS-ITNIDYSAVCIEAMAARHRGCP------GMDWCQMDARSLTFAEGSFDVVLEKGTLDAMMVEEKDPWRVSPETGETVRQVLKQVSRVLKPGGRFISITFAQP 167
[Close]
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Match: A0A7S0D0M1_9EUKA (Hypothetical protein n=1 Tax=Amorphochlora amoebiformis TaxID=1561963 RepID=A0A7S0D0M1_9EUKA)

HSP 1 Score: 102 bits (254), Expect = 3.830e-20
Identity = 61/166 (36.75%), Postives = 94/166 (56.63%), Query Frame = 1 
Query:  376 YSSMSVWDKRYR--DGVFVEWYCGFEHVQPLFERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAEKQSCDRKKLD-DGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKGSARQDGPLAICREAARMVATGGWFVIVSHIHPST 864
            Y     WDKRY   +G F +WY  +  ++P  E  V +DSR+L++GCG+  L  DL   GY G +TS D S   I ++  +K+S + K+     + +  +DA  L F   SFDLV+DKGT+DA++C      + R+     I  EA R++ TGG  V++++  P+T
Sbjct:   65 YHDPGYWDKRYEKTEGTF-DWYTDYRSLKPYLEELVDEDSRILNIGCGNSNLPRDLALDGY-GDVTSIDISKLCINRM--KKRSSEAKESSVQSLKWVQMDASRLSFSEYSFDLVIDKGTLDALVCSNDMLPTIRK-----IISEAWRVLRTGGCLVVITYGSPNT 221
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig63.28.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JWM7_9PHAE1.410e-10059.35Methyltransf_11 domain-containing protein n=1 Tax=... [more]
D8LLU3_ECTSI2.550e-9957.99Methyltransf_11 domain-containing protein n=1 Tax=... [more]
D7G665_ECTSI4.930e-5755.20Methyltransf_11 domain-containing protein n=1 Tax=... [more]
A0A7S4PUA0_9DINO6.420e-2330.51Hypothetical protein n=1 Tax=Alexandrium monilatum... [more]
A0A196SE48_BLAHN1.670e-2134.81Methyltransferase n=1 Tax=Blastocystis sp. subtype... [more]
UPI0018F49C493.160e-2132.32EEF1A lysine methyltransferase 4 isoform X1 n=3 Ta... [more]
A0A8J2SP25_9STRA1.840e-2035.15Hypothetical protein n=2 Tax=Pelagomonas calceolat... [more]
A0A197K808_9FUNG2.280e-2031.79S-adenosyl-L-methionine-dependent methyltransferas... [more]
UPI001B7F69DE2.760e-2031.10EEF1A lysine methyltransferase 4 n=2 Tax=Acipenser... [more]
A0A7S0D0M1_9EUKA3.830e-2036.75Hypothetical protein n=1 Tax=Amorphochlora amoebif... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig63contigP-littoralis_Contig63:170916..202622 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LLU3
PFAMsMethyltransf_11,Methyltransf_25,Methyltransf_31
Model size1917
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons6
Evalue7.58e-104
EggNOG OGsKOG2352@1|root,KOG2352@2759|Eukaryota
Descriptionmethyltransferase activity
Cds size1113
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig63.28.4prot_P-littoralis_Contig63.28.4Pylaiella littoralis U1_48polypeptideP-littoralis_Contig63 171078..201980 +


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

Feature NameUnique NameSpeciesTypePosition
1680791311.9000762-UTR-P-littoralis_Contig63:170915..1710771680791311.9000762-UTR-P-littoralis_Contig63:170915..171077Pylaiella littoralis U1_48UTRP-littoralis_Contig63 170916..171077 +
1680791311.9917874-UTR-P-littoralis_Contig63:201980..2026221680791311.9917874-UTR-P-littoralis_Contig63:201980..202622Pylaiella littoralis U1_48UTRP-littoralis_Contig63 201981..202622 +


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

Feature NameUnique NameSpeciesTypePosition
1680791311.9164114-CDS-P-littoralis_Contig63:171077..1713981680791311.9164114-CDS-P-littoralis_Contig63:171077..171398Pylaiella littoralis U1_48CDSP-littoralis_Contig63 171078..171398 +
1680791311.9313283-CDS-P-littoralis_Contig63:198240..1983261680791311.9313283-CDS-P-littoralis_Contig63:198240..198326Pylaiella littoralis U1_48CDSP-littoralis_Contig63 198241..198326 +
1680791311.9416215-CDS-P-littoralis_Contig63:199649..1997401680791311.9416215-CDS-P-littoralis_Contig63:199649..199740Pylaiella littoralis U1_48CDSP-littoralis_Contig63 199650..199740 +
1680791311.957348-CDS-P-littoralis_Contig63:200590..2007151680791311.957348-CDS-P-littoralis_Contig63:200590..200715Pylaiella littoralis U1_48CDSP-littoralis_Contig63 200591..200715 +
1680791311.971048-CDS-P-littoralis_Contig63:201124..2015181680791311.971048-CDS-P-littoralis_Contig63:201124..201518Pylaiella littoralis U1_48CDSP-littoralis_Contig63 201125..201518 +
1680791311.9805984-CDS-P-littoralis_Contig63:201884..2019801680791311.9805984-CDS-P-littoralis_Contig63:201884..201980Pylaiella littoralis U1_48CDSP-littoralis_Contig63 201885..201980 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig63.28.4

>prot_P-littoralis_Contig63.28.4 ID=prot_P-littoralis_Contig63.28.4|Name=mRNA_P-littoralis_Contig63.28.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=371bp
MPPPRSRKREREGVDGLKCERKMAVKKRSAASRATKAPAAGPTTASAGTS
TTTTTAEAAGTNSDSDGDAPDYSSMSVWDKRYRDGVFVEWYCGFEHVQPL
FERFVPKDSRVLDVGCGDKPLAWDLRDAGYTGKITSFDFSPTVIEKLSAE
KQSCDRKKLDDGVAFRVLDARDLPFKAGSFDLVVDKGTVDAMLCDKAGKG
SARQDGPLAICREAARMVATGGWFVIVSHIHPSTAEGMAFLSETLVPALQ
EESCPDSVRRNTGEEAEEKEGGASSWSVDVHCGDDGDTDGDTDGGGREES
EEGRGAKEAGGDEDCRRGDGHDDDGASGQIGPSAYMARKVARRHTRASAA
RGQSGRQQQRRAIPIRIHEY*
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mRNA from alignment at P-littoralis_Contig63:170916..202622+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig63.28.4 ID=mRNA_P-littoralis_Contig63.28.4|Name=mRNA_P-littoralis_Contig63.28.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=31707bp|location=Sequence derived from alignment at P-littoralis_Contig63:170916..202622+ (Pylaiella littoralis U1_48)
GTCGATAATCGCGCCGCCTTTTTCTGTTTTACTGGTTTTACTGCTGTATT
GCTGTGTGTTGTCCGTTGTGCGGAGTAGTTCCAGGGTGGGGCGCCAGGCT
CAGCCACATCAGCAAATCAGCATCTTTCTCCGCACCTCTCTGCACCTCTC
ACAGCACCCGATATGCCGCCGCCACGTTCTCGCAAGAGAGAGAGAGAAGG
TGTTGATGGCCTCAAATGCGAACGAAAGATGGCTGTGAAGAAGAGGTCAG
CAGCATCACGAGCAACTAAAGCACCGGCAGCAGGACCAACAACAGCATCG
GCTGGAACATCAACAACAACGACGACAGCCGAGGCAGCAGGAACGAATAG
TGATTCGGACGGAGATGCTCCCGATTACTCCTCGATGAGCGTGTGGGACA
AACGCTATCGAGACGGCGTATTTGTGGAGTGGTACTGCGGATTCGAGCAC
GTCCAACCCCTCTTTGAGCGCTTCGTCCCCAAGGTGTGAGCAGATTCAAA
ATCAATGTGTGTGACGGATGTTCTTATGGACTTCACGAGTATGCTTCGTA
CTTGTACAAGGGTTTCGACGGCTGACGCCGCCACGGTCCTGACCGAATCC
AAGATATAGAGGCACGCGGAAGGGGTGATGGTGGGACATGGCCTGGTGAA
GATGTCGAGGATACACGGGGTCGAAAATGGCACATACTATATACATACAT
ATATACATTTCTTTAGTTGTAAAGATGAAAGAAAAAGGAAGAAGGAAAAA
GTCCCGGGCCGCTATTGTAATGAAAAAACAAACAATCCCACGACGAAAGA
ATAACGAAAAAACAAACCTTCAGAGTAATCGTATCATACGTTTATTACAT
AATCCACAACAGTAAAGGCACCAACCGAAACACACACGTACAAAGTACCT
ACCTGCTGCATACAGTGTACTACTGCAGGGAAAAGGCAAGCCATGTGGTA
ATTCCCGAGGGCTAAACGCTCTAGCCCCTTTCGTATTACAGCAGGAAACG
AAAAAACGGTATTAAACATTGGCGAAGAAGGTAAAGGGGGAGGAGTACGG
ATCACTGACGATTACAGCTGTGCGGGTTAAATGTCGGGAATTCGCAAGTG
GGTGGGTGGGGAGGTGGGAGGCAATATATATATAGATGATCTGTAGAACA
ACAATTGTTACCGGGAGATGGTACGTAGCCCGCAAGACTACGTTATGCAC
GACGTAGACATTTTGCTGCGGCTTCGAAGACGTTATCTATATCTCTTTTT
ACGTTTTGTCTTTTTGAACGGCATTCTGTAGCCCTACAGAACTGATGTGG
ACCGCCAGAGCCCAGATGGACACACACCAACAACCCAGCCGAACCCGAAC
CCGAATCCTAAACCGCGCGGAGGACTGCTATAGGACACATAATATTTATT
ATGTATAGCAGTAGTATTAGTACTACTGTTTGCTGTAGCAGTAGTAGTAG
TGGTCTTGTGTGAGGAATGGGGGAGGGTTCCCCTCAAGAGACCTCTGCTA
CGACCGTACTCTGTATTTATTTGTTGTATTGGGAGGGGTGGCCTTTTTAC
TACTTCTTCGTGTATGATGCTACTACAGCAGCAGCAGTAAACGCTTTTGT
TGTTGTTGTTGTTGTTGGTTTGATCTCAGGGCCTCCAACGGTTTACTGCT
TGCTGTGTGTGAGGACACTTCCGCAGAGAGAGCAGAGAGAGGCATCTCGC
CGCGGTCTACTACTACAACTGGACTACTACTGTAGTTCTACGCGAAAACG
AAATGTATCCTGGGGTATCATATGATAATATTATGTGAATACATGTATGT
ATGCATATCACCGCGGGACCGCAGTCAAATTCAACAACAATTGAACAACA
ACTTACAAATAATTGATAAATATGATATCCTGGGCTTCCAGACCGAGCTG
TAAAGAGGCAGATGAGAGACAGGTGCTGGCCTGTGGGCGGTATTTTAGAG
GTGGTCCCGCCCCCTTATAATTTTTATTACTACTTTCGTGCTCTGTGTTC
CATGATACTGCTGTTGATTTTTGATGAGGACCCCCAACGGTTTACTGTGA
GAACGTTTCCGCAGGGAGAGCAGAGAGAGGCATGATAAATCGATGCTCTG
TGGGATCCTGGCACTATATTTCTGCTGTGTAATTATTCGAAGTATTATGT
TCGTGAGTAAACAAATTCGATCGTACCATCGACGAGGAAAAGGGATTGCT
GTCCCCTTTCTCGCGATAAAAGCTCAACCAACCAAGGCAAGCACCGCAGA
GGGAAGTGGAGAAAAAAAATAAAAAACTTCTGTGTTGACTTCCCCCTGTG
TGACCCCAGTTGGAGCGTCGACCTACCCGAAAGGTGTAGAGTGGCGTCCA
ATTAAAGGGATGACAACACACACATTATATATCTGTAAAGCAGTACACTA
CAGGAATATAGTACTGCTTGCTGTTGTTGTTGTGATTCAACGATATCAAC
CGCAAAGTGGTGGCTAGCTGCGCTGATGATCTGGATCTGACGACAGGGAG
GGCTGGATATAAAATGTGTACGAATGAGTGTAATACCGTAATCATGCGTA
GGTTCGCACCCATCGGAAGGTTGGCACCCATCGGAGAGATAGCACCGGGG
TGCGATAAAAAACACAACGTAGAAACATTTAATCGTGTTTTCGCACCCCG
ATCGGATCATGCGTAGGTTCGCACCCATCGGAAGGTTGGCACCCATCGGA
GAGATAGCACCGGGGTGCGATAAAAAACACAACGTAGAAACATTTAATCG
TGTTTTCGCACCCCGATCGGAGAGATCGCACCCGGGTGCGATCTCTCCGA
CATAAATAGAAATTTGAGGGCCACCGCACCCGATGAGATATCACCAGTGC
GCCACTCCTCTCAAACGTACTTTACCAACGCATGGTAGGTCAAGTCGATT
TGGGTAGCTTTGAGCCATTCAATTTGTATGCTCTCAACCAAGCACACAGC
AGACACCATCTGGTACATGCCGCCTACCGTTACACATCACAAATAACAGA
ACCAGCTCCTGCTACGATATTACAATACCTTGTGCAACCGAGGCAGACAT
GAACGACAGAGGAAATCGAGTGGTTCAACATAAAGCGAACAGCAGATTCA
CAGTGTACGTGACATTTCAGCAAAAAACAAAACTCCGGAGCATCGTTCTC
CGTCCCATTGCAACACGCCGCAACCAAACTCGCTTCGACCCCACAACCAA
CCCCAACGCCATGTTGATACGCACTAGACTCCGATACCCTTATGCATTCC
AGCCAGCGACAATGGTACCTACGGTCAAGGCGAAAACACCTGTATTGTAC
TGATCTACGGTATTTTCAAGTACCGGTTTTGTAGCGATGTTTCACGGCTC
AATGTCTTCCTCTACTCCCCCCCCACCACCACCCAAGAACTCCACATCGC
TGTCATCTTCCAGCAGCTCCACATCGCTGTAGGGTTTCGATTCAGCATCG
CAACCCTCGGAGAGATCGCACCGGGGGTGCGCCAAAATAGAAGAACGGCA
TGATTTAATTGTGTTTCCGCACCCCGATCGGAAGGTTGGCACCCATCGGA
GAGATAGCACCGGGGTGCGATAAAAAACACAACGTAGAAACATTTAAAAA
CGCGTTCGCACCCGGTGCGAACCTACGCATGATTACGGTATGTAGTACTT
GTATGTACGTACGAACGAGTATTATTAGTGTATACCCGGTCGCCCCGGTG
GTTCAGTTGGTTATCCACGCAACCTTCTGACATTCACGCGTGAGTTCGAA
CTCCAGTGCAGTAACATGATCTGGGTTTTTTTCTCTCACATTGCGCGTGC
AAGTGGAAAGCGAGCAATTCGTGAGTAAACAAAGTTCGATCGTGCCATCG
ACGAGGGAAAGGGATTGCTGTCCCCTTTCTCGCGATAAAAGCTCAACCAA
AAAGGCAAGCATCGCAGAGGGAAGATGAGAAAAAAAAAAAAACTCCTGTG
TTGACTTCCCCCTGTGTGACCCCGGATGGAGCGTCTACCTACCCGAAAGG
TGTAGAGTGGCGTCTAATGAAAGGGATGACAACACACACATAACACATCA
TACGCCATACGCTGTTGTTGTGGTTATTGAGATGTTCACGCAAGATGCTG
CGTGTACAGCAGAAGAATAAAATCTGATCTATGATAATAATAGGCGATCG
AACTTGTTTTATTAGATCTATGTCTGAGTAGCAATCAATATGTATCATAC
AGAGGAGGAGGGGTGGATGATTTCGAATTCCCGTTTCCCGCCGTGGTCTG
TATATTGTTAGACCATTGAATGGATGTATCCAATATATGATCCAATCCTA
CAGAGGAAGGGATGGATACATGCCGTAATATGATCCGAATTAGAGTCTCT
CGGGACAGACTACCTGAGATCGGATGTGAACACCACACACACCACACAGA
CTTGTGGACAATGGTGATGATAAGATGTCATGCAGAAGGCCTGCGTGTCT
ACCACGCGGCCAGGAGACATTTCACAGAGTGTGGGTCGAACGTCGAAGTC
AAAGAAAGCGTGAGTATTCAAAATGATGTGATTGATGTTGATGATGTAAA
TAAATGCAGCAGTCCTGTGTTTACCAAAAGCGAGAGATATTTAGTGCGTC
CCCCAGTCTGGTCTGTCTGTTCCTGCTCTTGTTATAGCCGACAATCTCCT
GATGATGATGTCATACTGATCCAATTTGATGTGATCCAAAATGAGAGTGT
GGGTCGACGTCAACGCCAACAAACAGCAGATGTGCGCAGATGAAAAGATG
AGAAGATGTGATGATGATGACAATATCGTACTCGTACAGCAAAAAAAAGA
GAGCAGTTATAGTTGTCTGATGTGATACTTGTATACGGAGTATATGATAT
GAGGTAGATAATAAATGATCCAAAACGATCTCCATCCTTTGATGATGCAG
GAAAGATAAACGACCCAATGTGATCGGATATGACAGGGGTAGATAAATGA
TCCAAAACGATTTCCGTCCTATGATGATGCAGGAAAGATAAACGACCCAA
TGTGATCGAAATTACCCAATATCATATGATGATACTGTACAGGAAAAGGA
AAGACAAATGACCCAAAATGATCGAAATGAAAGGTTCCGCCGTGGTCTTA
TTTCAAGTGATAGCAGGAGGAACGGAAGAAACACCCAAAATGAATCATGG
ATGCCAAATGATCCAAATCAGAGGTCCACCGTAGTCTGATTTCAAGTGAT
TTCAAGGGATATGTGCATATGCGCAGATAAAAAGATGAGGAGATGTGATG
ATGATGATAATAATATCGTACTCGTACACAGCAAAAAAAGCGGAGAGAGC
AGTTGTCTGCTGTGATATACGGAGTAGTATATGATATGACAGGGGTCGAT
AAATGTTCCAAAACGATCTCCGTCCTATGATGAAGGAAAGATGAACGACC
CAATGTGATCGAAATTACCCAATATCGTATATACGGAGTATGATTTAATA
CTGTACAGGAAAAGGAACGACAAATGACCCAAGATGATCCAAATGAAAGG
TTCCGCCGTGGTCTAATTTCAAGTGACATGCAGGAGGAATGGAAAAAAAA
ATAAGATCCATGGAAGCCAAATGATCCTAATCAGAGGTCCGCCGTGGTCT
AGTTCCAAGTGATTTCATTCCTTGCCTATGAGACCTCTGGAGCCAAAAAT
GCCGGTCTGTCAGCGGCCTAGAGGTCTCGCAATGCCAGGCTAATTGTAAG
TGAGACACAATGAATAAAAAAAAGAAAGAAGAAAAGGTCTCGCAACGCCA
GTCTTATTGTGAGTGAATCACAGTGAATAAAAAAAATAAAAATGAAAATG
CTGATCAATGAGCGGAATGATAAGATGTACTCGAGTATAAATTTTACAAG
GTCTCTGGCGCTACGCGCCCCCGCTCAGAGCGAGCGAATCCAAGGCAAAT
ATTCTTTGAAAAGTCCTGCGGAATACTGGTATTTATTATTTTCGGTCATT
AGTATGCCTGTCTGTTGTGCAACCTGCAACGACAACAATTACCATCTTTT
CAACTCAAAGAGAAAAGGATGAGACACAGTAGGCAGGGTAGAAATTGGCC
CTTGACGACGACACTCTTTGTGATTCTTGCGACGAAAGTACATTATTTGT
CATTTATTTGAGAAGTGAATGCCGAGAAGAGAGGGAGAAGAGGAGAAGCA
ACAAAGTTACCACAACACACGGACGAGAGAGATAGGCGCTCCGCGCGCCC
CCCCTGCTGGAAAAAGAGAAGCCAATTGCATAGATGCATACTACGTATAC
ATACATACCAGGTACATACTCACTATACTGTACCTAGAAATAACAAAGGC
GGCATAATGTATTGACAACATTATTAGTTACTTGAGAAATACATGCCGAG
AGAGAGAGAGAGAGGTGGAAGAGGGGAGGAGAAACAAAATAAAACCAAAC
CACCATCACACGGAGAGAGGCGTTCCGCGCGCCCCCCCATTCCCTGCTGG
AAGGAGAGAAGCCACTTTTTTTTAACACATACTTGAAGTATTAACAAACA
ACGCGGGGAGAGACAGAGGGGAGAGGGAGTGGCACCGACTGGGAGTGAGT
GTGGTGTGTCTCTATGACGACGGCGGGGATACTGAAAAGGGGTTGGTCTA
AAATCAAGTGAAATGTTGATGAGGGAAACCGCAGAAGAAATGGAGATAAG
GCCTCTCACAGGCGCCGAGAGAACATCAATTACATACTGTACAGTAAATA
TACTTTGACTGGTGGTGTGTGTGTTTTCCGTTCTCTTCTAGAAGAACGAA
CACGCGGCGCACGCGACGAGAAACTCTATGATTGGTGGTGGCGGATGTTT
GTCAGAGTCTCGGGGTAGATGGACTTAATTCCCTTTTTTGATTAACGTTG
AACACACGCAACACAGCACAACAACAGAGGGAAGCGCGGGACTTCCTCCA
CACGGAATACACAGGGGCACGATAGGTGTGACCACATATACTCACGAATC
CACGAAACCCCCCAAGATCGTATCTAGTTCCTAGTACACACGAAACAGCC
CCCCTACTCGGTACTAGATATGATTGCGGGGATATCTGCAAATCCCACGG
AACGACGCTACCAAATGCATAGAAAGACCAATATTAGACCAAACCATCCA
TAACCATCAACTCAGACAATCTCTCAAGATAATGCGTCCTCCGAAATCGG
TTGATCTCCCAATAAGACTCATAGTCCCAAACTGATTGAATATCCAGTTA
TCAAGTTATTCTTCCTTCATATCAACGAATAATTAACCTTCTCAAGAAAT
ATCATCACACCAAACTCAACACGCCATTCATCAACAGCGTCAATATTTCT
CAAGACGCTAAAACCAAGAATCGTTCTTAGAAATTATCCACACGAAATCA
ACATTCCTCCAGAAAGGGGTAGAACTAATCATCTTGATCAAGGACGAAAA
TTCAAAAAAGCATTCCTGCAGGAATGTATTCATCGCATAAACAGAAACCT
TGAACAAAACCAAATCTTAACTTTCTGGCTTCTTCTAAATAAGCTTCGGA
AGCACTAAAGCCTCAACAACAGGCTATCAGAATGCCAAATCCTTCCATCA
AGCGTACGGTATACCAGCAAAGTAAAAGGCCCCACGTGTTGGAACATCGG
GAAAAACCTTCACCAGAAATACGGAAGCTCACATGCATCTCTTCCATCAA
ACCTCAACAGCCCCCCTGCTGTGACATTTGGGTAGGAAAGCCCAAAACAC
AAACAAATTCTTCGGAATGCTGCGACAATTATCAGAGAACACTATCACCC
CCCCCCCATGATCGTGGGCGCAGCATATAGCACGAAAGACTAGTCAGAAT
TCTCGGCACTATGTACCGTGGTATACGCGATGCAGAACGAGAAGGACACG
CGCACAAGAAAAAAAAAAAAAACGAAAAGAAAAAAAACAGAAGAACAATA
GCAGAAACGGGCTGCTAGAAAGACAGGAAGCATGAACACACAGCGCGCCT
TCTCGGACGTAAGTACCACACGAAGAAAAACATAAAGAATGCCTCCCCCG
CAAAATCAACGAATGTTCATCGTAAAGTTGCGGTGCACCAAGAAAGACTC
CCTAGGCAACGGCTTAGTGAGGAAGTCAGCGTGCTGAAGGTGCGAAGGCA
CATGTAGAATCTTGAACTCTCCCAGGGCCACGCGCTCCCTAATGAAGTGG
TGACGGATGTCGATGTATTTGGAGTTGGGCGTAGTCCTGGGGTTGTTCGC
CAAGTGGAGCGCCCCAACGTTGTCCTCATACACCAGCGTACTCCGTGCGT
GCCTGTGCACAAAAACAAAGCACCATAGACCACGCAGAAAGAGAGCCTCT
CTCATCCCGTCACCCATCGCAACATACTCAGCCTCACAGGAGGACAGAGT
GACACTCCTCTACGTCTTGGACAAATACGCTACGCTCGCACCCGCACACA
TCACAATGACACCAGAAACACAACGACGGTCGGTGGCCTTGCTGGCGAAG
TCCGAGTCTACGTAGAGTTCCAAGTCGACACCGCGCCCACGGTGAAAAGC
AACACCAAGACCACTCGTACCACGCACAAACATCAAGATAGACAACGCCG
CATTCCAATGCAACCACTTCGGCGCATGCGAATATCTCGCCACGGCCCGC
ACCGCGTTGAGAATATCCGGGCGAGTATTAATCGCCAGCCACATCAGGTG
CCCCACCAGCGACCTAAATGGTTCAGAGACATGCGGCTCTTCCGGATCGA
ACTCGTACAGCTTCACTCCAACAGCCATCGGGGTATCCCGGCTCTGAGTC
ACGCCGAACTTCGCAACCATGGCCTCTGCAACCGCTTACTGCGAAATCGT
CACGGTACCAGCAACCCTATCACGCGAAAAACGCAAACCAGCATACCACC
GCAACTCTCCGAGGTCAGTGGTGGGAACGTAAAGCTTGAGGTCACTACCA
AACTTCACACACCGATCCTTTGCACCGATAGCGAAGACATCGTCCACGTG
GACAACGACCACCATGGTTACAGCCTCATGCTCAATCAGTCGAAACATAC
ACGTGTCAACAGGGCACTGTACGAAGCCAAGACGCAGCATGCAACGCACC
AATAGATGGTGCCAGGTTCGAGAGGCCTGTTTCAAGCCGTACAGACTGCG
CGCAAGCTTGACAACCTTACCAGAAAGCCGACCGCAACCACGAGGCAAAC
GCACGAAAACATCCTCCTCCAACTCGGACTGCACAAAAGCCTGCTCGACG
TCAAAATGCCACAACTCCAAATCCGACTCACAAGCAATCGCAGCCAAGAA
CCGGACAGTGGTAACAGAGGGGCAGGGAGAAAAAGTCTCGAAATAGTCAA
TACCCTCACGCTGGCCAAAACCTCGAGCTACTTACCTAGCTTTCGCACGC
ACAATACGCCCAAATTCATCAGACTTCCAGGCAAACACCCACTTCGCAGA
GATGACGTTGATGTGTCGTTGCTAGGACCCGCCAACCCCCTCGGAGGTCC
CCGCCGCGCAAAGTCCGTCGCCCTCACCCTGCATAGCAGCCAACCAGACC
TTGGCGTACGGCCCAGAAAGCGCCTCCTGTACGGTCGCCGGCGTAGCGAT
CTCGCTCGCCAGACCAGAAGGCAGATCGCCGAGAGAGATCTCGGGCGGAG
GCTCGTCGTACATCTCCTGAATGAGGCCGGGCTGTGCAAGGTGGACGGCC
ATCATGCCGGGGAGGCCCCGCGTGCGCGCTTGGGCTCGGGTGACGCGCGG
CTCCGGACGGTAAACACCCCCTCGAACCCGCGCGTGGGGATCACTCGGTT
GAATCCCGGGTCATGGCACACATCAGGCACCGGGTTGGCCGGGTCCCACA
CCGGTAGCACGCCGCGCCCAAGCAAATCCACGGCAGTACTCTCAACACCC
CCGAAGCACCTTCACCGCCGCCGACAACGCCCCCCCCAGCTTCGCCATCA
CCACCACCGACGCCACCGCCGCTCACAAAAGCGCCCCCAGCTTCGCCATC
ACCGCCGCCGCCGCTGCCGCCGCCGCTCACAAGAGCCCCCCCAGCTTCGC
CAGTCAGGAAAGGCCCAGCAGAAGAAGACGCGGCAGCGCCCACGGAGGCA
AAAGACGGCGCACCAGCGGAAACAGAAGGGACGCCAGGCACAGGCGTAGA
CGACGATCCATCGCCCGGCACACCAGCGCGAGCACCAGACTCTAGCGGCA
ACCCAGGTGATCCCCACGGGCGAGAGGGAACGTCCTGGGCGTCCGTCGCA
AAGAAACGCCGGGAGTACCCGAAAGTGCAGTGCGCGGATGACGCGACGGA
ACCAGACGGCAGAAGGACCCTGCTGACGCGGGAGGAGTGGCTGGCGGCCG
GGCCCAGGTAGAAAACTCGCTCTCCCTTGGGCTCCAGCTTGTTTTCCCGC
ATCCGGTGACGGTTCCCCGGAGTCATGAAGGGCAATACCAGGAAAGTCTT
GCGTTCACCCCACATCTTGAGCTCCGGACTGCGCTGATCCTGCTTGGACA
CCTCGGCGCAGATGTTGATGGAGTGCGACGACCACAGACAGGACTCCGGC
CACATATGGGCGTAGCTCAACGCGCGCGACGGGAAATCCATGCCGTGGAA
GAGCTGCGCGAACGACGACCACGCCGCGTAGGAGCTCTCCATGACAAAGG
AGATGCGGCGCTCGATCTGTCCGTTGCTCTTGGCGCCGTCGACCGAAGTA
TACTCGGCGGTGATGCCGAGGTCCACCAGCAGCTCCCGGAAGTCGGCGTT
GAATCACTCGTTGCCGTTCTCCGAAAGCACGTACTCCACAGGACCGTGAA
GCTCGATGAGGGGCTTAATGGAGACGTGCCAGGCCTTGAACGCTGCGGTA
ACGTCGGCAGCGCTCTTGGTGCGGAGAAAGAGCGTCCACCCGTAGTTCGT
GCACAGCCGCCGTCGCCGCCGCCGTATTCGTAACCGCCGCCACCGCCGCT
TTCATCGGGGCACGGCGGGCAACCGCCGCCATCCCACACAGGAGCGACAG
GGGCCGCAGAGCCGCCGTCGCCAGAAGAAACGACGGCATTCGCGAACATG
GGCGGACCTGGCGGACGGCAGTTGCGGCGCAAGCGTATATCGCACACAAG
TGTGGCGCAAACGGCAAGAGTGGTGGGTGTGGCCGTAAACACCACAACAA
AAACAAAAACCTTCAAAACGGCGTTTCGCGGCGCAGTGTTCCTCTTTGTG
CCCGAGCCTACCACACCGCCGGCATTGGTATACCTGCCCTTGAATCGCGT
CAGGCGGAGGAGGCGAGTTCGGCTGAAAGTAACTAGCATTCCTCCCGCAA
TCGTACACTCCACCAACACCATATTGCAACTCACCAGATGCATTCCGCGG
GGGAGTCACACGGGCATCTGGCGAAAGAGAAGGACGTTGCTACTGCCGCT
GCTGTTGCGGCTGCGAAGGGCGCCACTGCTGCTGCTGCCGCTGTTGTTGC
TGCTGCGGTTGCTGCTGCTGCTGAGAAGGACGCCACTGCTGCTGTTGCTG
AGAAGGGCGCCACTGCTGCTGCTGCTGAGATGGGCGCCACTGCTGCTGCT
GCTGCTGAGAAGGACGCCACTGCTGCTGTTGCGCCCCCTGCTGCCCACCT
TGGTACCACTGAGGAGGCCGCCGCCACTGCTGCAACTGCTGTTGTCGTAG
CTGCTGCGGAGGGACCCAGTCACCACTGCCGTCGACATACCAACTACCGC
CGTCTGGCTGCTGGGAGGGATGTGGACGCGGCTGTGGAGGTGCAGCATGA
CCATCGTACGCACCAGAGCCAACTCCCCCACGGCCGCCTCCGCGACGGAA
GTTGCCCCCCGCACCAAAAACCAGATCATGAGATGGACTCGTAGCAACGG
TGGCTGGGGCGGGGGCAGGTGTCGCCGGCGCTGCTGCCGACAACGTGGAC
CCCAGCAGCTTCGCAGACTGGTATCGAGCGAAAGCACTGCGTATACTCTC
CTCGACCTTCTCCCGAGAGAGACCAGATGCAATTAGCACAGACCGTTTTT
CGACGAGATATAAACGGTCAGGAAGACGGCGGCGAATGATAGGAACTATA
TCCGCCTCCGACTTCTTTTCCCCAGCATATGAGAGGATGTGCAGCATACT
ATCCAGTCTCGCGAAGAACTTGTCGGGGTGCTCTTCCCCGCGGACCTCTA
CGTTCTCGATGGATTGCCGTACCAACTGCAATTCGTCATCATTATTTGGG
GCGACGGTTTTGTTGATGATCGACCATGCATCGGGTGCGCTAGAGCAGTT
CAGAACTCTAGCACTCAACGAGGAGTTCGCGACAGCTTCTGACATGATAT
CAAAAGCGCGCGCATGATCAGCCACCAGCTCGCGAGGAGCCTCTGGCACA
ATCACATGCGCCAGACCTTCACGTCGGAGGTGACTCTTGAAACGTGTCAG
CCAAGCAAGATGCGCCTGCCGCTCCTCCATAAAATCCAATTTCTTCTCAG
ATTTCGGAAATTTCAGAGATGCTGGCAATGTTGTTGTTGCCAGACGCACC
ACCCCTGTGGGCAACGGGCGAGTCACACCGAAACTCTGTCTACGGTCACT
CCCATAGGCTTCACCACCGCGTACACCACCTGGATCCAACGAAGCTCCGC
CACCAGTTGCAGCGGCTGTCGCAGCTGCCACAGCTGCCGCAGCTGCCGCT
CCCTCCGATGCTGCTGCGTTCTGCCGAGTCGTCTCTAGAGCCACCGTCAG
CTCTTGGACCTCCGACCGAAGCCTCTCCAGCTCCTCCTCAGGGGTCTCCA
TCACCACCCCAGGTCTTCACACAAACTAACTTTCTCGCTCCGCTCTTTAA
TCTCGCTCTTCGCTCTCGCTCTTCAATCTCGCCCTTCGCTCTCGCTCTTC
AATCTCGCTCTTCGCTCTTCAATCTCGCTCTTCGCTCTCGCTCTTCACAC
ACACATACACACACACACACACGTGCAAATCCTCTCAAGACTGAGCACGT
TGGACATAAACTTCCCGAGCAATACCTTTTCCACCATCCTCCACAGACAG
GGGGAGCTCGGCATGATGTGGGGAGGGAACAGACATAATACTGCTGCCGC
TCTGAGAACTGCCCCTCTGAAAGCTGTCCTCCGGATGAAAGCGTTTATGA
GAGTTCCGAAAAATTACGAAGTACTTCAACCAGAAGTATATAAATGGAAG
ACTAATAATTAAATGCTCTCCGAAGCAGGGTTGTGAGATCATCATAGCGA
GTTCATGTAGAACACACGAGAATTTCCGAGAGCTATTTTCAGCAGTACGC
ACCAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAGACAGCAGTGC
AGGCAGGTAGTTATTGATCGAACGTTCACAGAAATAGGGAGGATGGGAGT
GTTGTTGTCATCGAGTGAATAATCTAGCTGTGAAGTGAGCCCATCAACGG
CTACGGAAGAACATATGATGGTACTACGTCTCGAGGCAGACTAAAAATAC
TGCTGCAGAAAGGATAAACGTCCAGATAATACATAGAGCGAGACGAGTCT
TCTGACAGAGAGAGCGAGTCCGCCTCACAGAGCACAGAGCGAGTCTTCCT
CTAGACAGAACGAGTCAGAGATCCGTCGGACACAAGAGCACAGAGCGAGT
ATTATAAACAGAGCGAGTCCAGTAAGTAATGACACGAGAAGAGAGAGAAG
ACATGTATGTGTAAAGGGAGAGCTGCATGTAAGTTACCAAGTGATAAGGG
AGAGGAGATAAAAGTCGAGTTCAGTCTAAAACCCCGCCCTCACAGACCTG
TGAGAGTTCCTGAAAAAAAAAAGTGATAGATAGATGTACGTCGTACAGAG
CGAGAGTCCTTCTCTGGACAGAGCGAGTCAGACGTGTACGTCGCACAGAG
AACAGGTCGACTATCATAAACAGAGCGAGTCCAGTGAGTGAGATACGCAA
GAGAGGAGGGAAATGTGTGGAGGTAGAGCTGCAGTGTTCATGATGAGAGA
GTGAAAAAAGAGAAATTTGTGCGCCGGGAGGAGATAAAAGTCTAGCTCAC
TCTAAAACCAAGTGATAAATGAGAGGGAGACCACAGAAAAAATGGAGGTA
AATGCAGGTCTGTCAGGCGGTCCTGAAAAAAAAAAATGCAGGTCTGTCAG
GCGTCGAGAGCCGCTCTCAGATGGAAATGGAGACCTGTGAGAGGTCCTGA
AAAAAAAAATAAAGATGGAATCCAGCGATTCTAGCGAATTCTTAATTGGT
AAAACGAATACAAGGTATCTGGCGCTACGCGCCCCCGCTCAGTGGGAGCG
AATCCAAGGCAAATGTTCTTTGGAAAGTCCTACGGAATACTGGTATTTTT
CTCGATTATTAGCCTGTCTGTTATGCAACCTGCAAGGACAACAATTCTTA
TGTTTCAACGTAAAGAGAAAAGGATGAGACACAATAGGCAGGGTAGAAAT
TGGCCCTTGACGACACTCAAAGAAAGAGTCTATTTCTGTGTGATTCTTGG
GATGAAAGCACATTAATTATTTGTCATTTATTTGAGAAACGAATGCCGAG
AAGAGAAGAGAAGAGGAGAAGCAACAAAGTTACCACAAAACACAGACGAG
AGGGAGAGAGGCGCTTCGCGCGCCCTCCCTGCTGGAAAAAGAGAAGCCAA
TTGCATGCAAACATGCATACTACGTATTACATACATATCAATACCTAGAA
ATAACAACAAACGCGGTATAATGTATTGACAACATTACTAGTCACTTGAG
AAATGCATGCCGAGAGAGAGAGGTGGAAGAGGGGAGGAGAAACAAAATAA
AACCACACCACCACCACACGGAGAGAGGCGCTTCGTGCGCACCCCCATTC
CCTGCTGGAAGGAGAGAAGCCACTTTTTTTTAACACATAATACCTGAAGT
ATTAACAAACAACGCGGCGAGAGACAGAGGGGAGAGGGAGTGGCACCGAC
TGGGAGTGAGCGTGGTGTGTCTCTATGACGACGGCGGGGATACTGAAAAG
GAGTTGGTCTAAAATCAAGTGAAATGTTGATGAGAGGGAAACCGCAGAAG
AAATGGAGATAAGGCCTCTCACAGGCGCCGAGAGAACGTTTTGACTGGTG
GTGGTGTGTGTGTGTTTTGTGTGTTTTCCGTTCTCTTCTAGAAGAAGAAC
GAACACGCGGCGCACGCGACGAGAAACTCTATGATAATAAAAGAAATATC
GAACGAAGAACAAAGGATGTGACATAAAACATTCATATATAGTATTATTA
TTGCGTAATCTGCATACAGTGTATAATGCCCGGATGTCCTCCACACACAC
AGAGAGACAGCAGGGAGGTATGCACAGCAGCAGCAACATCATCAGCAGCA
GTACACAACAATACAGCATGACTAAAAAATACTCGGAGTACGAAGTGGTA
GCAAAGAGGAGAGAGAGACAGGGGGAAAGAGTGGCACAACAGAGACTGTA
TGACGAGTACATAGATGGCGGGAAAACTAGAATGAATAATAATGGGACAT
TCCGCCTCACAACTAACAGGGAAAAAAGAAATAAATGCTGGAAATACTCC
GGAGTAGTATTGTTCGATATTATTTCGTCTCCCAATCCGCAGTGAGAAAA
GTGTAGTGCGAGTATTATATTGTTCGGTAAATTTCCCAAGGGTGGGGGGT
ACGTTCGCAACAACAGAAAGACAGAGGAGCCTGCAGTCAGTGTTGGTTGG
ATGTCCACAGGAGGGAGCTAGGATAGATAGGAAGCAGGAGTGTTTGTTGT
TGTCATCGAGTGATCGAGGGCTGGCTATGGAGTGAAATCACGTGGTGAGA
GGCCGAGAGAGCAGCTCTAGATGGCGGGAAAACTACTCGAACCCTTCCGG
CAGGCAACGAACGGAACAAAAGAGAATAACACAGATAAAGGAGAATGCAG
TCAGTGTTAGTCGGATGTCCACAGACAGGAGGGAGCTAGGATAGGAGTCT
TGTCATCGAGTGTCAGATGGCTGTGGAGTGAAACCACGTGAGAGGCCGAG
AGAGCAGCTCTAGATGGCGGGAAAAGTACTCGAATCCTTCCGGCAGGCAA
CGAACGGAACAAAAGAGAATAACACAGATAAAGGAGAATGCAGTCAGTGT
TAGTCGGATGTCCACAGACAGGAGGGAGCTAGGATAGGAGTCTTGTCATC
GAGTGTCAGATGGCTGTGGAGTGAAACCACGTGAGAGGCCGAGAGAGCAG
CTCTAGATGGCGGGAAAAGTACTCGAATCCTTCCGGCTGACAACGAACGG
AAGAAAAGAGAACAGAGGGTTACAACACATACATCAGATCATCAATCGAT
GCGCGAACAATCTTTCCCTCCAGGAATTAGCAATGAAAGGTCGACAGGTT
TTCCTAGTGCATGTTTATGTTTTCAACAGTACACAACAGAGAGAGAGAGA
GAGAGACAGACAGACAGACAGGTAAACTGTTGTAAGTACAGTTATTGATC
AGACGTTCACAGAAATAGGGAGGATGGGAGTGTTGTCATCGAGTGACCGA
TGTGGCTGTGAAATGAAAGGACGAGAGAGATAGATGCTGCTTGCAAGATC
ACGATAATAGGAAGTTCGTTCATGCGAGTGAGGCCTGCCCCGCGGCGAAA
GGATGGACGAGGTAAATAGTGCTGGTCTTTGGGTGGATCTGTGAGCCGTG
GAAAGAAAATGGAGACCTGCGAGTGTTCCTGTAACTGAAAAAGATACAGC
AGCAGTAAGATCCAGTGGACAAAAAAACAATAATTACATATACCCTTCGT
ATCGTAATTCACACAGCACACAGCAAAATAAACAGCTGATAGTAGATTCA
CCGCCGTGGTACCCCATCCATAGAGATTTTCTCCAGGGGACGAGGAGAGG
ATGGATGTAAAGTTTATGTCCGTTCGTCCTCCACAGACAGGGGGGGAGCT
CGGCATGATGGGTAGGGAACAGACATAATACTGCTGCCGCTCTGAGAACT
GCCGCTCTGAGAGCTGTCCTCCCGATGAAAGCATTTATGAGAGTTCCGAA
AAATTACGAAGTACTTCAACCAGAAGTATAAGTCAAAAAGTAGACTAATG
CTCTCCGAAGCAGAGTTGTGAGATCATCACAGCGAGTTCATGCAGAACAC
ACGAGATTTTCCGAGCTATTTTCAGCAGTACGCACCAGAGAGAGAGAGAC
AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGG
AGGGAGAGAGAGAGAGAGAGAGGAGACAGCAGTGCAGACAGGTAGTTATT
GATCGAACGATCACAGAAATAGGGAGGATGGGAGTGTTGTTGTCATCGAG
TGAATAATCTGGCTGTGAAGTGAAGAAGATACTATAATACACACTTGTAC
ATCACATCAGGCGACCTTCACCGGAGAGGATATGCAATTCAGGTAGATAG
ATGCGCACAGGGGCCGACCCCCACCGGCGAGGACACATACATATTGGAAT
ATTCGAATAGAAGACGTTGTCCGGCTGCTAGAGCCGTTCCTCGAAGATAA
GACCATATATGTCATATGATACATCAAACAAAGTGGAGAAGAGGAAAATG
ATATACCGCGAATGCGAGCAGGGGCCGACCCCCAACGGCGACGGACAATG
TTGGAATATGTTGTACTTGATACTCCGTACGTACAAACTCGAAGACAGAA
AGAGGCATAATATTACGATGATACTGCGATTTGGTGGAAAACAAAAACTA
AAAAGGTTGCGAGAGAAAAAGTGTAAACTGAAAATGAAAAAGTGTAAACT
GAAAATGAAAAAGTGTAAACTGAAAATGAAAAAGTGTAAACTGAAAATGA
AAAAAGACTCCCAGTATGGAGGACTCAAAGAGCTCTCAAAGACGAAGCCA
ATGAACTTCAACATATTAATGAAGCCTTCACCGCCGTGGCAAACGTGAAG
AAACCCGGTGTAGGGGCTGACCCCCAACCGCTACGGAAGCACATATGATG
GTACTACCTTTCGAGGCAGACTACAAATACTGCTGCAGAAAGGATAAACG
TCCAGATAATACATAGAGCGAGACGAGTCTTCTGACAGAGCGAGTCCGCC
TCACAGAGCACAGAGCGAGTCTCCCTCTAGACAGAACGAGTCAGAGATCC
GTCGCACACAGACAGAGCACACAGCGAGTATTATAAACAGAGCGAGTCCA
GTAAGTAATTACACGAGAAGAGAGAGAAGACATGTATGTGTAAAGGGAGA
GCTGCATGATGAGTAAGATGCCAAGTGGTAAATGAGAGTCGAGTTCAGTC
TAAAACCCCGCCCTCACAGACCTGTGAGAGTTCTTGAAAAAGAAAAGGGA
TAGATAGATGTACGCCGCACAGAGCGAGAGTCCTTCTCAGGACAGAGCGA
GTCAGACGTGTACGCCGCACAGAGAACAGGTCGACGATCATGAACAGAGC
GAATGAATTCAACAGAGCGAGTCCAGTGAGTGAGATACGCAAGAGGGAAG
AGAGATGTGTGGAGGTAGAGCTGCAGTGTTCATGATAGAGTGAAAAAAGA
GAAATTAGTGCGCCGGGAGGAGATAAAAGTCTAGTTCAGCCTAAAACCAA
GTGATAAATGAGAGGGAGACCACAGAAAAAATGGACTGATAAATGAGGGA
GATCCACAAGAAGACCAAGTGATAAATGAGAGGAGATAAAAGTCTAGCTC
ACTCTAAAACCAAGTGATCAATGAGAGGGAGACCACAGAAAAATGGAGGT
CAATAATGCAGGTCTGTCAGGCGGTCCTGAAAAAAATAATAAAGATAAAT
CCAGGTCTGTCAGGCGTCGAGAGCCGCTCTCAGAGGAAAATGGAGACTTG
TGAGAGGTCCTGAAAAAAAAATAAAAATGGAATCCAGCGATTCTAGCGAA
ATCTTAATTGGTAAAAGACTTAGTCTAAAACCAAGTGATAAATGAGAGGG
AGACCACAGAAAAAATGGACTGATAAATGAGGGAGATCCACAAGAAGACC
AAGTGATAAATGAGAGGAGATAAAAGTCTAGCTCACTCTAAAACCAAGTG
ATCAATGAGAGGGAGACCACAGAAAAATGGAGGTCAATAATGCAGGTCTG
TCAGGCGGTCCTGAAAAAAATAATAAAGATAAATCCAGGTCTGTCAGGCG
TCGAGAGCCGCTCTCAGAGGAAAATGGAGACTTGTGAGAGGTCCTGAAAA
AAAAATAAAAATGGAATCCAGCGATTCTAGCGAAGTCTTAATTGGTAAAA
GACTTAGTCTAAAACCAAGTGATAAATGAGAGGGAGACCACAGAAAAAAA
TAGCATTAAGTGTATGCAGGTCTGTCAGGCAATCCTGGAAAAGAAAATAA
AGATAAACGCAGGTCTGTCAGGCGTCGAGAGCCGCTTTCAGAGGAAAAGG
GAGACCTGTGAGAGGTCCTGAAAAAAAACAAAAGATGGAATCCAGCGATT
CTATCGAAATCTTAATTGGTAAAAGTATTATTTATCGTATCATACATTGT
AAAAGGATTTTTCATCCTCCTTCGTTGCATCGGATGGAAAAAGAGGGAGA
GGACGGACCGAACCATGTCCCACGCCGAAGCCCTGATAAACGCGGGTTGC
GACGAGAACATTAAAGCCACCGTGCGCACGCGGCGACTACAGTATGCCTC
GCAGGATTCGTCGCGCGCACGAGAGACGAGAGACGAGAGACTCCCGACAA
TTGCTCTGCTTGGAGAATTAGAAGGGGGTGCGAGGTACTCGGGGGGTCAA
GAGTTGGACTGGCTGACTCGATTGCAGGACCTCGAAGCGTTCGGCATCGC
CATCACCAAGGAAGAGGGGTGGGATACAAGTGCCAAGAGAGTGGCTGCAC
GGTACGACAGGATCGACAAGGCGTGGGGCAGTTCATCCACAAGTGGTTCA
AGAAAGCGGGAGACTTCAAAGAGACACGTCGACTGAAGAGGGAGAGGGAC
GCAGCTGAGGAACAGGCCTTGGCCAAGAGAAGGAGAATGGATGGCGGGGA
TAAACGAGAGGAGGGATGCGGCGGGCCAAACCGAGGGGGAAAGCCCCCCA
CACAGCGGGGTAGTAGTGGGGTTCAAGTTGCGCGGCAGAAGAAAGAAGGA
GCAACCCAAAGCCAAGCTGTGCGGTGGTCGGATTGAAAAATCTGTAGGGC
AGAAATCGCGGAGCGGTGTTGCTGCTGCCAAAGATGTGGGGCAGAAGCAA
CTGCGTACGGTGGTGTTTTTTTTTTTGTGAAGGGAGGCATGAGTGCGTAT
GAAGAGAGCAAGCGTGAACAGGCAGACCTCGCGGCGAGACATGTTTGCGA
CTGACTGCATGCCTTGTTATTTTTCTCTTTCCGATTCTCCTTTTTTTGCC
CTGCTCTGTCTCATTTTCCCATCTGTTTCCTCGTCCTTCTTCCTCTTTGT
TTGCCCTCCCTCACTCTTTGTACCCCCCTTCGGCTTTCGGCTTCCGACTC
TCGTCGTCTCTTCCGGGCTATCTGCTTGCCCTATCTTATTTTTTATGCTC
TCTCAGTCTACATTACTTTTTGCTGGGCTCCGCGCTCTGGTTTGCCATGA
TTTGTCTTGGTTCTGTGATCTGATTGGTCACTTTTATGGTTTTTCTTGGT
GTTTGTTTCCAGTTTTTGTTTTTGAAGCCTGTATTTCTGTACTTCTGTAC
CCTGGCCACCACAGAAGGTACCCAACGGTACTATCTCTGATTTTTTGTTT
GCGTGATCATCGTTTGTTTCCTTTTTTTTATTTATTATCTCCAGAACGGG
CTTTTGGTTCTAAGCTACATGTGAGAATCATCAACAACAACAACAACAAG
GTGGATGTATCTACTCTAGATCCTCGTATAGAGGGAGACGGACACATTGA
TGTCTTTCTAAAAAGTAAGACGTCAATATTTGTATACTGTGCAAGGAGTA
TTCCCTGGAGTATTTCTATCAGTAGAGGACACCGTGGAGCAGCTATGTGT
GTGTCGACGCGTTCAGATATACTGCTGGGGCTGAGATATCGAAGGCCGCA
GCAAAAACTCAAAACGTCCGCAAAATGGACCTGAACTGGACCGACACCAA
AGGTTTGTAACTGCTGTGCTCGCCGCCATGGACCCTAACCACCTGAACTG
CAGGTGATCCGAGACAGCTAGAGGTGCCAGCTACTGCTTTAGACCCGCAG
TTCAGGTGGTTAGGGTCTGTGGCGGCGAGTACAGCAGTGGCAAACTTTTG
GTGTCGGTCCAGTTCGGCCGCAGTTTGCGGACGTTTTGAACCACTGCTGC
AGCCTCCGATATCTCAGCCCCAGCAGCATGTCTGAACGTGCGGACACGCA
CGTAGCTGCTCCATGATATCCTCTACTGATTGAATTACTTCAGGGAATGC
TCCTCGCACAACAGCCCTTATTTGATCCTGATCAAAATAAGGTATTTTGA
CTTGATTTTAGAATTGTTGAAAAACTATCTTGATATTTACTTTACATGGG
AGATTGGTGGTAGACGTGTGATATGCATGTAAAGAGAAGCCCCTGCCACT
GCTGTGTGCGACAACCAACAGTGTTTCTCTTTCCTGGCGCCTTTTGTGAG
GTACCCAGTGTGATTGTCAGGGACCCTTTGCTATTTTTCAAAATCTGTGC
CATTCAACAATCTTTTGTCCCCAGATCCTTGAGTAGTGCCCCATAATGCG
GAGCTATCATACATGGCACTCGTGCAAGGGGAACAACGGAAAGCTGGGGT
AGGGGGTCAAGAAAGCGCCTCCGTTACTGGCAACCCCAAGCACAAGCACG
AGACCTCGTGGTAAACATGCGCCGACGCCTTCCTACGCCATCTATCCACA
GCGTCGGCATACATGGCCCATGACACCAGACATCGTTATCATTTGTCGAG
CGTTTCACACGATGAGAACGCGGGTTCGTGTTCGTGCTGTCGGTGGCCGT
GGCCGCCCGAGTCATCCAGTTACAGGGGGGAGAATGGTTCCTTTTTAAGT
TCCTCCTCGGGAAGACGCTTAGCTCATCCTCCCAAGCGGTGGTGGTATCA
GAGAGTTTCGACTGTCGTGATATCTTCGCGGTGGCAGCCTTGTTAGCTTA
CGAACAGGCGGCGGCGTCCATGCAGTGGTCCCCCGGGGAGGGAGCATGGT
TCCCCTTTCTGACCGTAATGGATGCCGGAACAGAGGGCGACGTGGCGCTG
ACTCCGGTGCAGATGACCACTAGTCTTCAGGCCCATCTGCGGGTAGCGTG
GATAGTCATGAACGGGAATATTTACAGCAACATACCTTGAAGGATACGTT
TTGGTATGCTAATGAAGTCGCACAAAAATGTGCGGAAATGACAAGAGCGG
AAAAAAAGCCGCAGGGGCATCGAGGAAGGAACAAATCAGCAACAAGGATG
GGTATGATCCCGTGCCGCAGCAGAGAAGCTTAATCAATCCCACCCTATGT
TGACCATTTGAAATCGTCTTCGGAATGTTACAACCATGATCTGAGTCCGA
AAAAAAGGGGGGACGATCGAAGAGCGTCCCCGGGTTGAGGAAAGCTTCAT
TCTGGTGGTGGTCAAGGAGAGGTTCTCTATGATACCTATCACTCGTGCGT
GGAAAAGCCAGCACACGTGCACGAAAACTTCTCTCAAGAGTGAGTACCGA
AACGTAGAAAAAGGATAGGGAATACACAGACCATCCAACCCGCCCATCGC
TGCGGGCACGAGCTCCGCCGACAACACCTGTTTTGTTGTAATGTCTACTT
CGTATTTTACCGGGGGAACTACTCTCTGTGAACGACATTCCGCGCTGACC
ACGGCAGATCGACGCGGACCTTGGGTGGGAGCCTCTGACTACGGTGAATC
GCAGCGAGAGGCCTCGCTGACCCAGTTCCTTCAAACGACAACACGAGTCC
AGCCCGCTTTGCTCCTTCTTAAAATTCCCTCAATATACTCGTATCAAATA
TATAAATTGTTTTTTCCGTGAACGCGAAGCAGTCTGCAGATTTCTTTCTC
TGTCCAGCTCTCACAGGCCTGCATTCAGTGCCCATACATTAAACAGTACG
CTTTTCAATACGGCTTCTCTCTGAGGGTTCGCAGCCCTGCATCCAGGGGC
GATTCGTTAAACTCACTGGCCTACATTCAGTGCCCATACATTAAACAGTA
CGCTTTTCAATACGGCTTCTCTCTGAGGGTTCGCAGCCCTGCATCCAGGG
GCGATTCGTTAAACTCACTGGCCTACATTCAGTGCCCATACATTAAACAG
TACGCTTTTCAATACGGCTTCTCTCTGAGGGTTCGCAGCCCTGCATCCAG
GGGCGATTCGTTAAACTCACTGGCCTACATTCAGGGCCTGTACATTAAAC
AGTACGCTTTTCAATACGGCTGCTCTCTGCGGGTTCGCAGCCCTGCATTC
AGGGTCGATTCAAAACGGCTTCTCTTTCAGAGCTCCAGAATGTTTCAGCG
GCCTGAGCAATCTCGAAGCGTGTCTCTCGCTCGAACGCACGTCGGGGCAC
ACTATCGTTTCGCCCTGGACCCTCGACGAGACCTTAGGTTGAGTGGAAAT
ACGCGTTGCTTTCTCTCTGCGCTTCATCCCTGCACCCGCGTCCCCGCGTC
CGATGCAAGGTTGTAAGAAGCAGTTAAAGCAGTCTGCAGACATATGCTCT
TATTCGGAGATGAAAGTGCATATTCAAAGTTCTTTCTCTGCATATCATAG
TATCAGATTCTGCACACAGCAAATTAGATTCTGCACCCACCCGCGTCCGA
TGCACTCCATCCAGTCATCGTATGAAGCAGTCTATTGATGAAAGTGCATT
TTCAAAGTTCGCTTTCAGGGCACCACACAGCGCAAAAGTCTGCAGACGAG
TACTGTAGGATTCTGGATGTATCCCATATCATTCCCATATCATACACTTG
ATGAAGCACTGCATTTTGAAAAGTGCTTCGCTCTCAGCGCTCGCAGCATT
CCGCAGCAGCGTAAGCGTGTCTCTCGCTCGCACGCACATCGGAGCGCGCT
CTCATTCCGCCCTTGACCCTACCCGAGACCTCTCGTTGCGTGGTAACTCG
CGTTCCTTTCTCTCTGCGCTTTCTCTCTGCGCCCGCGTCGTACATCATTC
ATGGCACCACGTCTGATTTTAGTGAAATTTTCACGAGCGAGAAGCAGACT
GTCTGCAGAAGAGGCGTCGAGCAATCTGCAGATCTCCCGTTCTGCCGAGC
CCTCTTCATTACACACGGCACAGCAATCCGCAGAAGCATAAGCGTATCTC
TCGCTCCCACGCACATCGAGGCACACTCTCATTCCACCCTGGACCCTCCC
CGAGACCTCTCCTTGAGCTCTCAGCACTCGACGACAGCATTCCGCAGCAG
CAGCACACACGGTACTTTCTCTGCCCCTTTGCACCCACCCGCGTCACATC
AACTATTTTGCGTCATTTTTATGATACGGCATCGCATGATCTGCAGTTAG
TTCATACCGGTACAGCTGTACAGCAACATGATTGTAAGAAGTAGTCAAAT
CAGTCGTCTGCAGAATATGTCTTTATTCGGAGATGAAACTGCATTTTCAA
AGTTCTTTCTCTGCACATCATATCAAATTCTGCACAGCATATCAGATTAT
GCACCCACCCAACCTGCACTCCAGTCATTGTTCCATGAAGCAGTCAAAGC
AGTCTCTGCAACGCTACATCTCTGCACATCATATCAGCTTCTCTGCACCC
ACCCGCGGCCGATGCTCTCCAGTCATGGTTATATGGAGCAGTCAAAGCAG
TCGAAGCAGTCTCTGCAGTTTGCAGATAGATGCTCTTATTCGGCGATATT
TATTGGCTGCATTTTCAAAATTCGCTTTCAGGGCACCACACAGCGCAAAA
GTCTGCAGACATTCATACACGATCCTGGATGTATCCCATATCATACAGCA
GTATATATCGACTCTGACTGTCCGTCACCTCTGACTGTCCTTATAGATGG
GCAGATTTCCCGGCTTTCATTCGGAGATGTAGATGAAAGTGCATTACTAC
AAGGAAAGTTGCTACTGGCTGCTCTGTCAGTTGAGGGCACCACAAAGCGT
AAAGAGCAGTCTTCAGCCAGATTTCCCGACTTTTATTCGGAGATACTTCG
AAGTATCGATGAAGAAACTGAATAACCTTGTAACCTCGGACTGTCCGTCG
GGGCACTGCAGTCAATGTACAGACAACAAACCATCATTCGTTTATATCGT
AAATATATATTTCCGGCAAAATCTGTTGACAGGAGTCACTTCTGCCCACG
CCAAGGACACCCGAAATTACCTTGTTGTCTCACTTCGTGCCAGCTACCCA
TGATATTTATTTATTGGTCTGATTTTCGTGAAATTTTCGCGAGCGAGAAG
CAACCTGTCTGCAGAAGAAGCGTCAAGCAATCTGCAGATCTCCCGTTCTG
CCGAGCCCTCTCTATGACACATGGCACAGCAATCCGCAGAAGCATGAGCG
TGTCTCTCGCTCCACGCACATCGGGGCACACTCTTGACTCTCATTCCGGC
CTGGACCCTCCCCGAGACCTACCGTTGCGCTCTCAGCTCTCACTTTGTGT
CAAGCCGGGTTCTTTCAGTGTGCAGGGGTTTTCGTCTTCTCGACTCTTCG
TCTTTCTTCGTGCCGTGTCGTCGTCGATCGTGTTTTCACTTGGGTATCTT
TTCGTTCGTCACTGAACTGTCTCCATCTCAATGTTTGAGCGTAGCGTGCG
GCGCCTCCACTGTTCAGTCATGATGTTGCAAATGTTGACTTTTCAACATT
TTCGACCGTACGTCGTGCTTGCGAGGCGTTTTTTTTCTGTTCCTGGCTTT
CAGCGGTTCGTGTCGTCTTCGGGCCTTCTGCCACCATCCGAGAGTCTGTC
GCAAACGCTTTCGCTTCCATTTATTTTCACCAGTGTTTGCCGTTAATGGA
CGTTCAATCAGAGGGTCATGTTGTCAAGTCAGGACTGACTGTGTGCCAAT
TTACCGTTGTTCACGCTTACTTACTTTTTTTGCAGTGAAGGCGTTCTCTT
CGCCTACGCTTCGTCCCTCTATACGTATTATGACGATGCGAACTTTTGCC
GCCACTCCTTTTCACCTATACAACAAATTAATACGCCTCCCCCGAGATCG
TCTCCCACAACTTTTGTGACGCTACGTCGCAACAACCTCGGAGATGTCCC
CCAGATAATACCCCAAGCATCTTGGAATCGCTCCGCTGAGCGCGCCGGCG
TAAGCCGCAAAACCCTTTATATAGGTGTATGTTTTATTTCCCACGACGGC
GAAGAGCAAGAACAATATGATATTCGTGAAGAGAAAAAAATGAAAACGGA
AAAAAATATTTAATTTTACAAAATAATCTCTCCCCCCCAAAAAAAAAACA
AATCGACTCCACCACGTCACCCTCGCGCGGGTTCTGGGCGGAAACTGACA
CATCTACTTGTGCGCTGCACTTCGCCTTGTAGGACTTGCAGCTGTTGCTT
TACATTCTTCGCAAATCCTGTGATGTTGAGCCTGTCAGCGACATCTTCTC
GATCTTGTGGGGGTAAGATGTGCCGAGGCGCATGCCACTAACAAACGAGC
GAACCGTGGCTGAAGGCGGAAAAGTTCCCGTCAGCTTGACAACTTGGTGG
GCATCGACGCTTGCATGCGACCAAGCGCGCGCGTGCTGACGAAAAAACCC
GATGTGCAGCCGGCGGGCAGGCCCCCGCAACTTTCCCTGACGACGGGTAT
ACCTCCATCCACGCCACGTGCGTGCCGGTATAACACTTCAGCGGGTCGAG
CTTGAGGCTGTGGGTGGGGGGCAGAGCAGTCCAGAAGTATCGCTGTCGGG
CAGCCACCTACATGACACCTTTCTATGCTTTGTTTTGTTCTGTTATGTAC
TGGTGTATACATATCCTCTTTATGCAAAAAAACACTCGGTGGCCTTCCTC
CTGCGTGACCCCGGCTGAACGTCACGTCAAGGATATTACCGAAAGATGTG
GAAGCTGGCGCCAGAATATATGGGATAAACATGCACACACACACCCCGGT
GGGAAACGGGGGGGGGTACCGCCGTCAGAAAAGTAGTGGAATATGAATAC
ACTGGAATTTACTGCTGCGCAGCACGTATGTGGTATCTGGGTGGTGTCGA
GTGGAGTTCGGTGGGACGGTACGAGAGGTCAAGCTGCGGGTTGTGAATGG
GACGGTGGGTCACTCCAGGCCCTGGCCTGGCAGCCGGTGGGATGAAAGAT
GCAGACTTCCCAGCAGGTGGTGGATTTCTGAGGCCGCGATGGTGATGGGA
TGGTAGCTCGTGATCTGCGACCGACTCATTTCGTGCTATCGAATACCATC
CCAGTAACATCCCATTACCATCCCATCTTCATAATTCTTACCATCCCATC
TTCATAATTCTTACCATCCCATAAACTAGTGATTGTATGATATCTCTGCA
CACATTGGTCAAATCATGGAGTCATGTGGAATAAAAGAGAGAAAAAAAAA
CAAAAAAACTTTCTCGACACTTGGTGGTCGCTGCTTTCGTGCCGGCTGCC
TCATCGTTTTATCTACGTAATGCAGGACTCTCGTGTACTTGATGTCGGGT
GCGGCGACAAGCCTTTGGCGTGGGACCTGAGAGACGCGGGCTACACCGGA
AAAATCACCAGGCGAGGGTGCTTCGAAGTTGGCGGTAGCGCAGTAGCAGC
GGTAGTCAGATGGAGAACGCGACTGCAGACGCGGCGAGTGCAAGGCAGTT
TGTTGTTGTTGTTGTCGTTGTTGTTGTTGTTGCTGCTGCTGTTGCTGTTG
CTGTCGCTATTGTTTCTCACATTCGCGCACCGCTGAAATCTAGCCAGTGG
TCACACACCAACCGGAGGTAATGTCGTGATGAAAGGAAAATAAAAATGCG
AAACGTGACAAAATAAGGCCACAACATGAGTGCACAAACAGGAATACACC
GCGCGAAGGGAACGGTTCATCTGCTGAGGTGGCCAAAAAACAGGGAGAGG
ATGCAGAAAAAAAAGACTCGACAAAATTTAAAACAATAAGTAAACAAGAA
CCAAAACAAAAGGACCAAAACGGACACAGAGACGAGTAACAGCAGTCCGA
GAAGAAAAGAAGACGAACAAAGATACAAAGGAAATGAAAACATAATTAGA
GATAAAACTAGAAGCGGGGTTGGATAGATGGATGTGCATGCGACCAGCCG
TAAACATGTCTCGCCACAATGTCGGCCTGCTCGCGCTTGCTCTCCTCCCA
CGAGCTCGTGTCTCCTGCTGCTCGTACCGCCCGCCGCACTCTGTTTGCTT
CTGCCCTGTGGTATGATACATCTTTCAACAGCAACACCACCCCGCAACAC
AGTACGCCCTGTGTGTGATGCATCTTTTTCTATCCCCACCACTCCGCAGC
TGGGCTAGCTGTTTCTGCCTTTTACGTCATTTATTAGCATAGCGGACGCT
CCGCAACTTTCTGCCCCACCGCCTTTTTAAACTCTATCACCCCACTGCGT
GGGCGCGTGGGGGGCTTCTCCCCTCCTCCCGGGTTGGCATGCCCCCCCCC
TTCGGCCACCGTTTTCATCCTCTTATTTATCCTCGCCATCCGTTCTCCCC
TCTCTTGGCCGTGGCCTGTTCTTCGACTGCGCCCCTCTCCCCTCTCCCTG
ACCGCTGCCCTGTGAACGAACGACAACAGAGTAATTGGAAGGCATGACTC
AGTCGCGGCGAGCGGCGGCATGCGCTTGACCGTCGACATTGTCCTTTCAC
CGCCCTACTTCTCACAACTACTTGGATATAACCTCGCATCATGTGGTGTG
CAAACCACTCTTCTCTTTTTCTCCTCATCCTCCTCCTCCTCCTCCTCCGG
CAGTCGTTTCCGATGCTGTTCAAAGCGTTCGGGACCTAGTCGTTAGATGG
TAACCACGTCGTTTCTTAGATGCTGTTGCCTCCTCTCGTCTGTCCCGCCC
CCCCGTTCCTCGCGTCCATCGCACTACCCATCAGCTTTGACTTCTCTCCC
ACGGTGATCGAGAAGCTCTCGGCCGAGAAGCAGAGCTGCGACCGGAAGAA
GCTCGACGACGGCGTGGCTTTCAGGGTGGGCATACCGCACGAATTCAATT
AATGCTGAAGTACTATCTGGGCAGTACGCACGATTTTATCTTTTTTGGCC
TTTTTTTTTTCGCTGTCACCGTTTTTGTTTTTTTCTTTTGGGACGGCGGC
GGTGGAAATGGGACTGCTGTGCGTGTTTTTTGGTTGTTCTCGAGCTTTTC
AATGCTGAGAACCATGCAGCCGATCGTGGCTGCTTGTGGTAGGATTGGTT
GTGATTTTGGCGTCGGAATTGTTCAGACACAAAAGGGAATCGCCTAGTCC
CAGCCTCTGAAGCTATCGCCGTTATTCGTGGGCGACGTGCTGGCTGGCTG
CTGTCTACATTTTTTTGTTGTGTAGAATGATGTACATATAAACCAACCGC
GACTGCTGCACAATGAGCGCCATCGCGGGTTCTCCTGAACCTGGCCCAGC
GCTTGTTTTTCTTCGCCCACGGCTAATTAAGCCATCTTGCATGATGTGCA
TTCAACCTTGTTGCATGAGTATGCGCTCGACCTTGTTGCCGTATACGCAT
TGAAAGCCTCGTTGAATGATATGCCTTAAACCTAGGTGAATGACATGCCT
TGAAACAACTCAATTGCATCGTGCTTCGTATGCTTTCAACCTTATTGCAT
GAATTTGCGCTAGACCTTGTTGCCGTGTACGCATTGAAAGCCTCGTTGCA
TGATATGCCTGAAAACCTCGTTGCATGTTTGTATCTTGACACCTTGTTGC
ATCATGCCTGATACTTGTGTGTATTTTTCTCTCTTGCTGGACGCATTTCG
ATCCCGGGATCACAGCAGCAGTACTGTAGAACGCCCACGTCACCCGCGTT
TCGCACACTTTGTCTCGGGTCTTAGGTTCTCGACGCGAGGGATCTCCCGT
TCAAGGCCGGCTCGTTCGACCTCGTCGTGGACAAGGGAACCGTGGACGCC
ATGCTCTGCGACAAGGCTGGCAAGGGATCCGCAAGGCAAGACGGGCCTTT
GTCCCAGTTGTTGCTTGCATTGAAATGCAACTCCATGGTCTGCGTCATCA
TGTTTGGTGTTTCGAGGCGTTGCAAGGATTTCCTCATGAAAATACGCACG
GAAGCGAAAGGCGCGACCATATGGCAGCATGGTCTACTTCATTCGCTGGT
ACTTTCAGGTGTCGCAAGGGTTTCCTTATGAAATGACCCCGGCAGTGAAA
GGTGGGATGGATGGGAGGTTTCCCAAGGCATGTGTTTTACTGCTGCACAC
CTACGGTAGCGAGTTGCGCGAGGGAGGCGCTGAAACGCACCTCGTTATTA
TTCCTTACAACATTGAAGAACGTTTCGTGCTCCACCTTCTTCCCGTGCTC
ACCCCTTGGGCTTTTTTTTATTTTCTCCTCGACACTGTTGGGGCCTTTGG
CGGCGGCAGGGCGATCTGTCGAGAGGCGGCGAGAATGGTGGCGACGGGGG
GATGGTTCGTCATCGTGTCGCACATACACCCGTCGACGGCCGAAGGGATG
GCCTTCTTGTCTGAAACGCTGGTGCCCGCGCTCCAGGAAGAGTCTTGCCC
CGACTCGGTCAGGCGGAACACTGGAGAGGAGGCGGAGGAGAAGGAGGGCG
GAGCCTCTTCCTGGTCTGTTGACGTTCACTGCGGCGATGACGGTGATACC
GACGGCGATACCGACGGCGGTGGTCGGGAAGAGAGCGAAGAGGGGCGCGG
GGCAAAGGAAGCCGGGGGCGATGAAGATTGCCGCCGTGGGGATGGTCACG
ATGATGACGGCGCCAGTGGCCAAATCGGACCAAGCGCGTACATGGCGCGA
AAGGTAGATAATAGAGTTCGTGCTCGGAAATGATTTTGCTGTCGAGAGAG
AGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAATACAT
TTTGTCATTGTTCGGCACCTTCTGAAAATGAAACACACACACACGTGGCC
AGTGCTAGTCCTTCGTTTCGAAACTACAGTTTCAGGTATTCGAACGGCGA
CTCGCCCGCCCGCCTGCCTCCTGCTTGTCTGCTTGCCCGCCTGCCTGCCT
GCCCGCCTGCCTGCCTGTCATTCTTTTTTTGTTTTCGTCCGCGAAAGGTT
TACATCCCACTCCGCGTCCCTCCCACGTCTTGATCTGCGCGCTTGTTTTG
AAAAACCACGTCACGGCAGGTAGCCAGGAGACACACCCGCGCGTCCGCCG
CGCGAGGGCAAAGCGGGCGGCAGCAGCAGCGGCGGGCCATCCCGATACGC
ATTCACGAGTACTAGCGTTCAAACGAAGAAGGCTACAGTAGTGTCCGAAC
CCCCCCCCCCCCCCCCCCGACGCCCACTGAAGCCCAGTGCCCAGGTCTCA
CGGGAGGCGGCGGCAATGCGCAGCCATTTGTTTTTACATCGTGTGATATG
TGCGATTTAAAAAAATGATCGACGCCCAGGGACTTATAGGTATTTCATAC
AGTATGATACGAAGTACTTCGTAATTTGTACCTCGCACAGCAGTACGTGT
TTGTTCATTTTGTTCATTTACGGCCCATTGATGGCCATAGGTCGTCCAAG
GCAATCTACCTCTTTACTGAATTACGTGAGCCCCCTTTCACAACTGAGTG
AGTGAGATCGGAGCGTATTTTTGTAGCAAATTTCACCATCAAACAACCGA
TATGCTTGCCTTTCCCTACTGTACTGTAAGCAGTAGCACGGCGCTACATG
CACGCCGTGTGAGTCTTTTCGCTGCTACGGTGTGTGTTGCACATAGATTT
GTTTCCGAGCCAACTAGCATCGATGTTTGCGCACGACATAAAATCTCTTT
TTCGGCCTCTCATGCACGGCTCCGGGGAGAAAATTCTGATGGCCAGGTCC
CTACCGGCGGCCGCGGCAGCCAACCGCTCTGGGCCAGCGTCGCAATATAT
TTCTGGC
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Coding sequence (CDS) from alignment at P-littoralis_Contig63:170916..202622+

>mRNA_P-littoralis_Contig63.28.4 ID=mRNA_P-littoralis_Contig63.28.4|Name=mRNA_P-littoralis_Contig63.28.4|organism=Pylaiella littoralis U1_48|type=CDS|length=1113bp|location=Sequence derived from alignment at P-littoralis_Contig63:170916..202622+ (Pylaiella littoralis U1_48)
ATGCCGCCGCCACGTTCTCGCAAGAGAGAGAGAGAAGGTGTTGATGGCCT
CAAATGCGAACGAAAGATGGCTGTGAAGAAGAGGTCAGCAGCATCACGAG
CAACTAAAGCACCGGCAGCAGGACCAACAACAGCATCGGCTGGAACATCA
ACAACAACGACGACAGCCGAGGCAGCAGGAACGAATAGTGATTCGGACGG
AGATGCTCCCGATTACTCCTCGATGAGCGTGTGGGACAAACGCTATCGAG
ACGGCGTATTTGTGGAGTGGTACTGCGGATTCGAGCACGTCCAACCCCTC
TTTGAGCGCTTCGTCCCCAAGGACTCTCGTGTACTTGATGTCGGGTGCGG
CGACAAGCCTTTGGCGTGGGACCTGAGAGACGCGGGCTACACCGGAAAAA
TCACCAGCTTTGACTTCTCTCCCACGGTGATCGAGAAGCTCTCGGCCGAG
AAGCAGAGCTGCGACCGGAAGAAGCTCGACGACGGCGTGGCTTTCAGGGT
TCTCGACGCGAGGGATCTCCCGTTCAAGGCCGGCTCGTTCGACCTCGTCG
TGGACAAGGGAACCGTGGACGCCATGCTCTGCGACAAGGCTGGCAAGGGA
TCCGCAAGGCAAGACGGGCCTTTGGCGATCTGTCGAGAGGCGGCGAGAAT
GGTGGCGACGGGGGGATGGTTCGTCATCGTGTCGCACATACACCCGTCGA
CGGCCGAAGGGATGGCCTTCTTGTCTGAAACGCTGGTGCCCGCGCTCCAG
GAAGAGTCTTGCCCCGACTCGGTCAGGCGGAACACTGGAGAGGAGGCGGA
GGAGAAGGAGGGCGGAGCCTCTTCCTGGTCTGTTGACGTTCACTGCGGCG
ATGACGGTGATACCGACGGCGATACCGACGGCGGTGGTCGGGAAGAGAGC
GAAGAGGGGCGCGGGGCAAAGGAAGCCGGGGGCGATGAAGATTGCCGCCG
TGGGGATGGTCACGATGATGACGGCGCCAGTGGCCAAATCGGACCAAGCG
CGTACATGGCGCGAAAGGTAGCCAGGAGACACACCCGCGCGTCCGCCGCG
CGAGGGCAAAGCGGGCGGCAGCAGCAGCGGCGGGCCATCCCGATACGCAT
TCACGAGTACTAG
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