mRNA_H-akashiwo_Contig1199.4.1 (mRNA) Heterosigma akashiwo CCMP452

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

Overview


Name	mRNA_H-akashiwo_Contig1199.4.1
Unique Name	mRNA_H-akashiwo_Contig1199.4.1
Type	mRNA
Organism	Heterosigma akashiwo CCMP452 (Heterosigma akashiwo CCMP452)

Homology

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: A0A7S3Y278_HETAK (Glutaminyl-tRNA synthase (glutamine-hydrolyzing) (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3Y278_HETAK)

HSP 1 Score: 333 bits (855), Expect = 8.130e-106
Identity = 182/210 (86.67%), Postives = 186/210 (88.57%), Query Frame = 3

Query:   96 GRDRSGAWPLEGTRVGVIQEAENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRAGFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTACSRCPANLAGLPALSVPCAVAPGGLPIGLQFIG 725
            G   +G  PLEGTRVGVIQEAENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRAGFGDEVKQRIILGTFALSAGYSDAFYKKAMD RTLLAEEVKEAFKKVDILLCPTSPTLA   +     +G    +      PANLAGLPALSVPCAVAPGGLPIGLQFIG
Sbjct:  290 GLGEAGPRPLEGTRVGVIQEAENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRAGFGDEVKQRIILGTFALSAGYSDAFYKKAMDTRTLLAEEVKEAFKKVDILLCPTSPTLAYE-VGAYAAKGASGYQDDVFTVPANLAGLPALSVPCAVAPGGLPIGLQFIG 498

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: A0A836CQP8_9STRA (Glutamyl-tRNA(Gln) amidotransferase subunit A, mitochondrial n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CQP8_9STRA)

HSP 1 Score: 197 bits (500), Expect = 8.170e-55
Identity = 116/210 (55.24%), Postives = 139/210 (66.19%), Query Frame = 3

Query:  120 PLEGTRVGVIQEAENC---APEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTACSRCPANLAGLPALSVPCAVAPGGLPIGLQFIGRCAQ 737
            PLEG RVG+I EA      APEVAAA + A   L  LGA +A VS PRL +QC AYYVNA SEASANLARFDG+RYG  ++   +AR S+L TR  GFG EV+QRI+LGTF+LSAGY+DA+Y +A  +R  L  +   AF   D+LLCPT+PT A R L     +G           PA+LAGLPALS+PC V   GLPIG+Q IG   Q
Sbjct:  279 PLEGLRVGLISEALTAGGVAPEVAAAARAAADALAALGARIADVSLPRLPQQCAAYYVNALSEASANLARFDGVRYGARARDAASARASLLRTRHDGFGAEVRQRILLGTFSLSAGYADAYYARAQAVRAGLRTDFARAFAGADVLLCPTAPTTAYR-LGDFEAKGVASYADDLFTVPASLAGLPALSLPCGVDAAGLPIGVQLIGGAWQ 487

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: A0A6H5KXC5_9PHAE (Glutamyl-tRNA(Gln) amidotransferase subunit A, mitochondrial n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KXC5_9PHAE)

HSP 1 Score: 197 bits (500), Expect = 2.060e-54
Identity = 113/209 (54.07%), Postives = 143/209 (68.42%), Query Frame = 3

Query:  111 GAWPLEGTRVGVIQEA--ENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTACSRCPANLAGLPALSVPCAVAPGGLPIGLQFIGR 728
            G+ PLEG ++GVI+EA  E   P+VAAA KEA+ T+  LGA V  VS P L EQC AYYV A SEASANLARFDGIRYG  +    +++ +ML +R  GFG EV+QRIILGTF+LS+GYSD +YK+A  IR  L+ +    F+K+D+L+CPT+PT A R L     +G  V        PA+LAGLP LSVPC     GLPIG+Q +G+
Sbjct:  313 GSRPLEGIKMGVIREALVERVQPDVAAAVKEAIDTMASLGADVTEVSLPSLPEQCAAYYVTALSEASANLARFDGIRYGQRNSEATSSKEAMLKSRHDGFGAEVRQRIILGTFSLSSGYSDKYYKRAQAIREGLSRDFSTVFEKLDVLVCPTAPTTAYR-LGEYAEKGVGVYADDVFTTPASLAGLPGLSVPCGQDRAGLPIGVQLMGK 520

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: A3YYB8_9SYNE (Glutamyl-tRNA (Gln) amidotransferase subunit A n=1 Tax=Synechococcus sp. WH 5701 TaxID=69042 RepID=A3YYB8_9SYNE)

HSP 1 Score: 171 bits (434), Expect = 3.000e-47
Identity = 103/206 (50.00%), Postives = 132/206 (64.08%), Query Frame = 3

Query:  120 PLEGTRVGVIQE---AENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTA-CSRCPANLAGLPALSVPCAVAPGGLPIGLQFI 722
            P++G RVG+++E   AE   P+V A+   A A LE LG  +  VS PR ++    YYV A SEASANLAR+DG++YG  S++  +       +RA GFGDEV++RI++GT+ALSAGY DA+YKKA  +RTL+  +   AF  VD+LL PTSPT A R   H     P     A     PAN+AGLPA+SVPC    GGLPIGLQ I
Sbjct:   68 PVKGLRVGLVKECFEAEGLDPQVKASVLAAAAQLEALGCELVDVSCPRFNDGIATYYVIAPSEASANLARYDGVKYGYRSEQAGSLAEMTARSRAEGFGDEVQRRILIGTYALSAGYVDAYYKKAQQVRTLIRRDFDAAFGAVDVLLTPTSPTTAFRFGAHA--EDPLAMYLADLLTIPANMAGLPAISVPCGFDDGGLPIGLQLI 271

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: W7TRV8_9STRA (Glutamyl-tRNA(Gln) amidotransferase subunit A, mitochondrial n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TRV8_9STRA)

HSP 1 Score: 174 bits (442), Expect = 3.250e-46
Identity = 106/219 (48.40%), Postives = 143/219 (65.30%), Query Frame = 3

Query:  111 GAWPLEGTRVGVIQEAENCAPE--VAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPR--GPRVTRTACS--RCPANLAGLPALSVPCAVAPGG------LPIGLQFIGR 728
            G  PL GTR+G+I+E      E  V+   ++AVA LEGLGA +  VS P L   C +YYVN  SEASANLAR+DG+RYGL  +   +A+  ML +R  GFG+EVKQRI+LGTF+LSAGY+DA+Y K+  +R++L+E  K AF+  D+L+ PT+PT+A     + L +  G +V   A      PA+LAGLPA+S+P   AP        LP+GLQ IG+
Sbjct:  306 GERPLAGTRIGLIRETLQTRVEDGVSTVVQDAVARLEGLGAEIMEVSIPYLDAHCASYYVNVLSEASANLARYDGVRYGLRPRDAGSAKTVMLGSRGEGFGEEVKQRILLGTFSLSAGYADAYYLKSQQLRSVLSEAFKSAFETADVLISPTAPTVA-----YPLGKAAGSKVDMYADDLFTVPASLAGLPAISLPVGKAPSSSASSDFLPVGLQIIGQ 519

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: UPI0009DEBD63 (Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA n=1 Tax=Thermorudis peleae TaxID=1382356 RepID=UPI0009DEBD63)

HSP 1 Score: 172 bits (436), Expect = 1.050e-45
Identity = 102/204 (50.00%), Postives = 137/204 (67.16%), Query Frame = 3

Query:  123 LEGTRVGVIQ-EAENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTACSRCPANLAGLPALSVPCAVAPGGLPIGLQFIGR 728
            + G R+GV++ EAE   P V AA ++A+ TLE LGA V PV+ P +S     YY+ A SEASANLAR+DG++YGL++ + DT   + L TR  GFG EVK+RI+LGT+ALSAGY DA+Y KA  +RTL+  +   AF KVD++  PTSPT+A R L        ++        PAN+AGLP ++VPC +A G LP+ LQFIG+
Sbjct:  257 IRGLRIGVLENEAEGVDPAVTAAIQDALRTLEDLGATVEPVTLPHISYALPTYYIIAPSEASANLARYDGVKYGLSAGK-DTLLENYLETRGRGFGPEVKRRIMLGTYALSAGYYDAYYVKAQKVRTLIKRDFDTAFTKVDVIALPTSPTVAFR-LGERTEDPLQMYLADIFTIPANMAGLPGIAVPCGLAQG-LPVSLQFIGK 457

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: A0A2G4HMR0_9SYNE (Glutamyl-tRNA(Gln) amidotransferase subunit A n=1 Tax=Synechococcus sp. Baikal-G1 TaxID=2026890 RepID=A0A2G4HMR0_9SYNE)

HSP 1 Score: 172 bits (435), Expect = 1.420e-45
Identity = 103/210 (49.05%), Postives = 133/210 (63.33%), Query Frame = 3

Query:  120 PLEGTRVGVIQE---AENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-----GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTA-CSRCPANLAGLPALSVPCAVAPGGLPIGLQFI 722
            P++G RVG+++E   A+  APEVAAA   A  TL+ LG  +  VS PR ++    YYV A SEASANLAR+DG++YG  S  ++ A  S+    A     GFGDEV++RI++GT+ALSAGY DA+YKKA  +RTL+  +   AF+ VD+LL PTSPT A     H     P     A     PAN+AGLPA+S+PC     GLPIGLQ I
Sbjct:  250 PIKGLRVGIVRECFSADGLAPEVAAAVMAAADTLQALGCELVDVSCPRFNDGIATYYVIAPSEASANLARYDGVKYGYRSSSSEAAGDSLAQMTARSRAEGFGDEVQRRILIGTYALSAGYVDAYYKKAQQVRTLIRRDFDAAFQGVDVLLTPTSPTTAFAFGAHA--EDPLAMYLADLLTIPANMAGLPAISLPCGFDSQGLPIGLQLI 457

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: A0A7T1HP89_9SYNE (Glutamyl-tRNA(Gln) amidotransferase subunit A n=3 Tax=Synechococcaceae TaxID=1890426 RepID=A0A7T1HP89_9SYNE)

HSP 1 Score: 170 bits (431), Expect = 4.980e-45
Identity = 104/206 (50.49%), Postives = 131/206 (63.59%), Query Frame = 3

Query:  120 PLEGTRVGVIQE---AENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTA-CSRCPANLAGLPALSVPCAVAPGGLPIGLQFI 722
            P+ G RVG+++E   AE   PEV A+   A A LE LG  +  VS PR ++    YYV A SEASANLAR+DG++YG  ++ T +       +RA GFGDEV++RI++GT+ALSAGY DAFYKKA  +RTL+  +   AF+ VD+LL PTSPT A R   H     P     A     PAN+AGLPA+SVPC     GLPIGLQ I
Sbjct:  250 PVAGLRVGLVRECFEAEGLDPEVKASVMAAAAQLEALGCDLVDVSCPRFNDGIATYYVIAPSEASANLARYDGVKYGYRAEGTGSLAEMTSRSRAEGFGDEVQRRILIGTYALSAGYVDAFYKKAQQVRTLIRRDFNRAFETVDVLLTPTSPTTAFRFGAHS--DDPLAMYLADLLTIPANMAGLPAISVPCGFDSKGLPIGLQLI 453

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BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: UPI0019E0699F (Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA n=1 Tax=Gloeomargaritaceae cyanobacterium C42_A2020_066 TaxID=2747801 RepID=UPI0019E0699F)

HSP 1 Score: 170 bits (430), Expect = 7.200e-45
Identity = 101/206 (49.03%), Postives = 128/206 (62.14%), Query Frame = 3

Query:  120 PLEGTRVGVIQEA--ENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRAGFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHML-PRGPRVTRTACSRCPANLAGLPALSVPCAVAPGGLPIGLQFIGR 728
            PL G RVG++QE   E   PEV   F++AVA L  LGA +  +S PR +    AYY+ A SEASANLAR+DG+RYGL +               GFG EVK+RI+LGT+ LSAGY DA+Y KA  +RTL+ E+ + AF +VD+L+ PT+PT A +  E    P    +T       P NLAGLPALS+PC     GLP+GLQ IGR
Sbjct:  256 PLAGRRVGLVQETLGEGLDPEVNTLFQQAVAHLASLGAEITIISCPRFAYGLPAYYILAPSEASANLARYDGVRYGLRAPEATLLAMYQATRAQGFGPEVKRRIMLGTYTLSAGYYDAYYLKAQKVRTLIKEDFEAAFTQVDVLVSPTAPTPAFKAGEKTADPLSMYLTDL--MTIPVNLAGLPALSLPCGFTADGLPVGLQIIGR 459

[Close]

BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Match: UPI000B981D9D (Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA n=1 Tax=Synechococcus sp. 1G10 TaxID=2025605 RepID=UPI000B981D9D)

HSP 1 Score: 169 bits (429), Expect = 9.680e-45
Identity = 101/206 (49.03%), Postives = 132/206 (64.08%), Query Frame = 3

Query:  120 PLEGTRVGVIQE---AENCAPEVAAAFKEAVATLEGLGAAVAPVSFPRLSEQCTAYYVNAFSEASANLARFDGIRYGLASKRTDTARGSMLNTRA-GFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAFKKVDILLCPTSPTLASRGLEHMLPRGPRVTRTA-CSRCPANLAGLPALSVPCAVAPGGLPIGLQFI 722
            P++G RVG+++E   A+   P+V A+   A A LE LG  +  VS PR ++    YYV A SEASANLAR+DG++YG  S++  +       +RA GFGDEV++RI++GT+ALSAGY DA+YKKA  +RTL+  +   AF KVD+LL PTSPT A R   H     P     A     PAN+AGLPA++VPC     GLPIGLQ I
Sbjct:  250 PVKGLRVGLVKECFEADGLDPQVKASVLAAAAQLEALGCELVEVSCPRFNDGIATYYVIAPSEASANLARYDGVKYGYRSEQAGSLAEMTARSRAEGFGDEVQRRILIGTYALSAGYVDAYYKKAQQVRTLIRRDFDAAFTKVDVLLTPTSPTTAFRFGAHA--EDPLAMYLADLLTIPANMAGLPAINVPCGFDDSGLPIGLQLI 453

The following BLAST results are available for this feature:

BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot

BLAST of mRNA_H-akashiwo_Contig1199.4.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A7S3Y278_HETAK	8.130e-106	86.67	Glutaminyl-tRNA synthase (glutamine-hydrolyzing) (...	[more]
A0A836CQP8_9STRA	8.170e-55	55.24	Glutamyl-tRNA(Gln) amidotransferase subunit A, mit...	[more]
A0A6H5KXC5_9PHAE	2.060e-54	54.07	Glutamyl-tRNA(Gln) amidotransferase subunit A, mit...	[more]
A3YYB8_9SYNE	3.000e-47	50.00	Glutamyl-tRNA (Gln) amidotransferase subunit A n=1...	[more]
W7TRV8_9STRA	3.250e-46	48.40	Glutamyl-tRNA(Gln) amidotransferase subunit A, mit...	[more]
UPI0009DEBD63	1.050e-45	50.00	Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subun...	[more]
A0A2G4HMR0_9SYNE	1.420e-45	49.05	Glutamyl-tRNA(Gln) amidotransferase subunit A n=1 ...	[more]
A0A7T1HP89_9SYNE	4.980e-45	50.49	Glutamyl-tRNA(Gln) amidotransferase subunit A n=3 ...	[more]
UPI0019E0699F	7.200e-45	49.03	Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subun...	[more]
UPI000B981D9D	9.680e-45	49.03	Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subun...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
H-akashiwo_Contig1199	contig	H-akashiwo_Contig1199:96998..118433 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Heterosigma akashiwo CCMP452 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	641146.HMPREF9020_00437
Preferred name	gatA
PFAMs	Amidase
Model size	1086
Max annot lvl	201174\|Actinobacteria
KEGG rclass	RC00010
KEGG ko	ko:K02433
KEGG Reaction	R03905,R04212
KEGG Pathway	ko00970,ko01100,map00970,map01100
Hectar predicted targeting category	other localisation
GOs	GO:0008150,GO:0040007
Exons	9
Evalue	6.41e-28
EggNOG OGs	COG0154@1\|root,COG0154@2\|Bacteria,2GJK5@201174\|Actinobacteria,4CZ1X@85004\|Bifidobacteriales
EC	6.3.5.6,6.3.5.7
Description	Allows the formation of correctly charged Gln-tRNA(Gln) through the transamidation of misacylated Glu-tRNA(Gln) in organisms which lack glutaminyl-tRNA synthetase. The reaction takes place in the presence of glutamine and ATP through an activated gamma-phospho-Glu-tRNA(Gln)
Cds size	396
COG category	F
BRITE	ko00000,ko00001,ko01000,ko03029

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_H-akashiwo_Contig1199.4.1	prot_H-akashiwo_Contig1199.4.1	Heterosigma akashiwo CCMP452	polypeptide	H-akashiwo_Contig1199 101447..117626 +

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


Feature Name	Unique Name	Species	Type	Position
1681387114.5084467-UTR-H-akashiwo_Contig1199:96997..97106	1681387114.5084467-UTR-H-akashiwo_Contig1199:96997..97106	Heterosigma akashiwo CCMP452	UTR	H-akashiwo_Contig1199 96998..97106 +
1681387114.5187736-UTR-H-akashiwo_Contig1199:97523..97611	1681387114.5187736-UTR-H-akashiwo_Contig1199:97523..97611	Heterosigma akashiwo CCMP452	UTR	H-akashiwo_Contig1199 97524..97611 +
1681387114.5263612-UTR-H-akashiwo_Contig1199:98869..98991	1681387114.5263612-UTR-H-akashiwo_Contig1199:98869..98991	Heterosigma akashiwo CCMP452	UTR	H-akashiwo_Contig1199 98870..98991 +
1681387114.5340836-UTR-H-akashiwo_Contig1199:101388..101446	1681387114.5340836-UTR-H-akashiwo_Contig1199:101388..101446	Heterosigma akashiwo CCMP452	UTR	H-akashiwo_Contig1199 101389..101446 +
1681387114.587115-UTR-H-akashiwo_Contig1199:117626..117873	1681387114.587115-UTR-H-akashiwo_Contig1199:117626..117873	Heterosigma akashiwo CCMP452	UTR	H-akashiwo_Contig1199 117627..117873 +
1681387114.5995944-UTR-H-akashiwo_Contig1199:118367..118433	1681387114.5995944-UTR-H-akashiwo_Contig1199:118367..118433	Heterosigma akashiwo CCMP452	UTR	H-akashiwo_Contig1199 118368..118433 +

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


Feature Name	Unique Name	Species	Type	Position
1681387114.5421526-CDS-H-akashiwo_Contig1199:101446..101479	1681387114.5421526-CDS-H-akashiwo_Contig1199:101446..101479	Heterosigma akashiwo CCMP452	CDS	H-akashiwo_Contig1199 101447..101479 +
1681387114.550072-CDS-H-akashiwo_Contig1199:102043..102145	1681387114.550072-CDS-H-akashiwo_Contig1199:102043..102145	Heterosigma akashiwo CCMP452	CDS	H-akashiwo_Contig1199 102044..102145 +
1681387114.558076-CDS-H-akashiwo_Contig1199:102849..102933	1681387114.558076-CDS-H-akashiwo_Contig1199:102849..102933	Heterosigma akashiwo CCMP452	CDS	H-akashiwo_Contig1199 102850..102933 +
1681387114.5676537-CDS-H-akashiwo_Contig1199:116251..116379	1681387114.5676537-CDS-H-akashiwo_Contig1199:116251..116379	Heterosigma akashiwo CCMP452	CDS	H-akashiwo_Contig1199 116252..116379 +
1681387114.5774198-CDS-H-akashiwo_Contig1199:117577..117626	1681387114.5774198-CDS-H-akashiwo_Contig1199:117577..117626	Heterosigma akashiwo CCMP452	CDS	H-akashiwo_Contig1199 117578..117626 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at H-akashiwo_Contig1199:96998..118433+
coding sequence from alignment at H-akashiwo_Contig1199:96998..118433+

protein sequence of mRNA_H-akashiwo_Contig1199.4.1

>prot_H-akashiwo_Contig1199.4.1 ID=prot_H-akashiwo_Contig1199.4.1|Name=mRNA_H-akashiwo_Contig1199.4.1|organism=Heterosigma akashiwo CCMP452|type=polypeptide|length=132bp
MLNTRAGFGDEVKQRIILGTFALSAGYSDAFYKKAMDIRTLLAEEVKEAF
KKVDILLCPTSPTLASRGLEHMLPRGPRVTRTACSRCPANLAGLPALSVP
CAVAPGGLPIGLQFIGRCAQGRFSPKDWLSL*

mRNA from alignment at H-akashiwo_Contig1199:96998..118433+

Legend: UTRpolypeptideCDS

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

>mRNA_H-akashiwo_Contig1199.4.1 ID=mRNA_H-akashiwo_Contig1199.4.1|Name=mRNA_H-akashiwo_Contig1199.4.1|organism=Heterosigma akashiwo CCMP452|type=mRNA|length=21436bp|location=Sequence derived from alignment at H-akashiwo_Contig1199:96998..118433+ (Heterosigma akashiwo CCMP452)
CAGGTGCTGGCGGGCCCCGCCCCGGACAAGGACGCGACCTCCGCCGCGGC
GCCCGTGCCCGACTACCTGGCCTCCCTGGGGGAGGTGGGCGGCCGGGCCG
GGACCGCTCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGCCGC
CACTGGGCGGCCCCGATGTGCTGAGCGCGGCCCGGCCTTGTCCCGGATGA
AATCCACCACTGGAAGTCTTTCTTGAGCCGCCTTCTGCAGCGTCTGAGCC
CAAGATGTGTTTGTGCTGCGTGGCATGATGGCACTACAAAATAGTGTATA
TGTGGCGTTTAATCCAACAAAGGTTATGTAAACCCACACATGATGATGGT
GATCATGATTTTGCTTTTTGATTTGAGGCCCCACCCCCCCGAGTAGATGG
CTTGAAGGGCCAAATCCCAGGCCCCACATCTCTTTCAATTCTGCATGTAG
ATGTATGCTCCTTGTTCCCACCCCTCTGCCCCGCCGCTTTCGCTGCTCCC
GCCATGGGCGGCGGGCGGGCGGCAAGCGGGGCTTGGCCGCTGGAGGGCAC
CCGGGTGGGCGTGATCCAGGAGGCCGAGAACTGCGCGCCGGAGGTCGCCG
CCGCCTTCAAGGAGGTGTGTGTGGGGGGAGGGTCGGTCCTTCGCTCGCTG
CCCCTGCCTGGGCTTACCTTAGCCGGTGAGGGATCGCAATCCTTCTTCTC
CTCCTTTTTTTAATTTCTTCTTGCGTCTTGTTGATACCGACTCTCTTCTT
GGGCGAGGACACCATCATTCTTTTTGTTGTTGTTTCAGCGCGATGATGAT
GGACACTAACCACATATTATTATTCATTCTTCTTCTTCTTCCTTCAAAGA
TTAGAGAGACTCTTTAGGATATGTCTGCCATTCGCAGAGTGAATGATCTC
GTCCTTGAAAGGCCAGTGCAAGATGACTACATAGTAGTAATTTGAGTAGT
GGCGATGATTACATTCTTTACTGATCTCCTCCTACAGTTCTTCTGCGCAG
CTATGTGTACCGCATATGCTTGTCCATTGTTGTATACACATCACTGCTTA
GCATAATATTGATGCTGACGTTGCCATCATTATCGTGAAAGAGAAATTCT
GGAGAAGAAGATCATGACACTTTATTTCAGAAAAGCTTGACTACAATTTA
GTGTTGACTTCTGTTACTCCAAATATGCCGCGTATACTTTTCCATTGTTG
CACATTTGTAGAAAGAGAAGAAGTCTTTACCAAACAACAAACTGTACTCT
CGTCCAGCAGCACTCGACTTCCGCTAGATAGTAGGTCGGTGCTGCCAGGG
AGGAGCCGTAGTAGTCTCGGGGCCTGCAGGCCGGAGTCGCCATTGGCTTG
AACCATCTGCTGCACGAGTGCGGATCCAATGGCCCACCACAGGCGTGTGG
TGGAGGGGGCAAGCCAAGAAGCCAGTAAGCCAAGAGCCCACCATTCTTGG
TTAGCCCACCAGAGGCCCACCAGAGTAGGCAGCCGGAGCTACCCATCATA
AGGTGTAAAAGAACCCATCAGACTCCGCTGTGTGTGTCAAACCAGACCTG
GGCGGCCGAAGGAGAAGGGCCAGGAAGTGCCATCGGTAGAGTCACGTCGC
GCGCAGCCCCAGGATGCTTCTCAGAGCGGGCAGGAGTCACAATTGGCTTG
AACCATCTGCCACACAAGTGCGGATCCAAAGATCAATGCATTTTCCTTCG
TCTTGTTCTTCCTTTTAAGAAATGAGAAAATTGATAACTGTTGGTATGGA
ACAAAATCAATCTTCTATAGCACACCACTGGGGGGGGCGCGGCGCAAGCA
AGAAAAAGAAACTTAAATATTTTTACCTAAGTACATAAAATATATGGGTA
AAAAGGGGTTTTGTTTGTTCAGGCAGTGGCGACCCTGGAGGGGCTGGGGG
CGGCCGTGGCGCCGGTGAGCTTCCCGCGGCTGTCCGAGCAGTGCACGGCC
TACTACGTCAACGCCTTCTCCGAGGCCAGCGCCAACCTGGCCAGGTGGCG
CCGTCGCCCCTTTTCCCTTCCCGGCACCGCGTGTGCTGCGGCTATGCCCG
TCTGCTGTCGTTTCTTCTGGGGTGGTGTATAGTATCAGCGACGGATGGTG
GTGTTGGCGAAAGTGACGGTAGATGATGGTGGGCAACCATTCAAAAAATG
ACTTTTTTCTTGTCCCACGTCTGTATCAAATATGCGATGTGCCCCTTCAC
ATCCTGAGCCACAACCACTGTCTTCTTACAAAGCATCATGGCATCTGAGC
ACTTCTTTGTTGGGGTCAATGTCTCGCTTTTGACCGACTTTGAAGTTCCA
ACTGTACGCAAAGCCCTACATGCTCTATATATTGCCCTTTGGCCTAGGTC
CAGCCTATCGATTAATTCTCTCTCTTTTTTTTTTGGCGCATCTGTATCAC
CTGCAAGTCAAGATGGTTCCGATACACATCATCAAGCCACGTCTGGTTGC
GAAGCACCAGGCTACTCCGCCCTGACCCTTCTCTACTATACCCCTTCAAG
GAGAAGAAGAAAATGGAAATTCTTGGTTTGACTATAGATCCTAGGGGGGG
AACTGGTCTCAACAGATACAAGCAATAGCCTCAGATGCCCGCAAGCGCTT
GAGAGCAATCAGAAGGATAAGCCACATGCTTGATGACAAGAGCATCATGA
GGGCCTACAAAGCTTTTGTGCGCTCAAAGATTGAGTATGGCAGCCTGGCC
TACTGGGGAGCTGCAGAAAGTCATTTGAAGAAGCTTGATAGAATTCAAGA
GAGTGCTGTGGCCCTACTCCGCAATCCTGACCCTTCTCTACTACCCCCTT
CACTGGAAAGTAGAAGAGAACAAGCTGCCATTCTGCCATCTCTTCAAAAG
ACTAAGAAGACATTGATTGCCCCCATGATGCTGGATCCCCACCACCACCT
CCACCAGTGGTCAATAAGAGTCCTACAAAGAGCTAAGCCTGTGTGGCTTG
GGAAAATTAATGAAAGGACGGCGATGGACAGAAAGGCCTGCTTGTGCTAA
GATTGGGCAGTGGAGAGGATGCAGAGAGTGAGTATTAGTATTCAAGGATT
ACTGGGAATTGTTGGAGTCGAAGAAACGACTGTTTGGGAGTGTATGTTGG
GGGAGGAAGCAGAGATGTCGGTGAAGCTTAAGGCTACCACGTTGGGCCCA
GAGCAAGAAGCAGCAGCTCCCTCTGCAAGATTCACCTGCAAGCTGCTGGA
CGGGCGAGGGCGTGGTATGGCTCGCACCGTGACACCAGAGTTTGATGACC
CCCTTGCTCCAAAACCTCGGAAATCAGCTCGGCTGGCTGCAGCACGCCCA
CAGCACCTTCATCAACTGAGACCAGTTCATTTTCCGCCCAACTCCCTGGC
AACTTTCAAAAGACGCTATAGCGCTAGAATTCCGGGCATATGGAACGATC
TAAGACACCCCGCTCTCCAACAGCAGCAGGTGCAAGAATACCTTCCTCTT
AAAAGACAACTGCACACACATGGACGATAATGGGTAGAGGTAGCAACAGT
TACAACAAGCAATTTTTGTCACTCAAATGCTAAAACGTAGGGAAAAAAAA
GAAAAAAAAAGGCTTCTTGCTATGCCATTCATGATCATCTTTGTGTTTTT
TCGAGGAGTCTCTCGGATCAGCCTACACGCTGCCTGCTCGTTGTTCAACG
CTGGCAGTTACGGGAGCTACTGCCAACGCCTATACGTTCCACAAAAACGA
TTCCGTGAAACACCTTCCCTCGAGTGTTATCAATCATTATTATCACCGCA
CCCAGAGTGGGTCTTCTGCTGCACCGCACAACGCCGAGAATACTTCCTAT
AGTAGATCACAATTCATCACCATGACTCCTCCGGGAAAGTGCGTAGAGAC
CAGGCGCTATTACCGAGATTTAACCCGTTATACTTCATCGCCTAGTCCGC
ATGGGATTCCCAAAGTCAATTGCATTGACCGCTCGACTATTGCGAACTTC
CGACCTTGTGTAGAAATTGATGTCTCTCCAGCTTCCAACTTTTTAGCGTG
AGCGCCGGCCTTGAAAGAACTACCATGCTTGCCTACTATCCACTCCCCAT
CAAGAGGCCTAAAAACATCCCCCTTCTTGTAAATTAACATTGATGATGTT
GTTATGTTATCCCTTCTTGTACACAAAGCATATGGGACCCTAGGCCATAG
AAAACACATTTTGATGAAGATGAAAGTGTTGACCCCCGTCCCCTATATAT
ATTTTATTACTTAATTTGTTATGCCAAATGTTATACTTGATTGATGAAGT
TTATGCAAAGCCAAACACAACTCTCCCCACACCAGTGCCCACTACTACCA
CCACAAATCTCATAACTCAAAATATATTAGAACTGCTGCCGTTACCTTGA
TGATCCTATGGCGCACTACTATAATGGCCGGGATGGGGCAGATTTGATGG
CATTCGGTATGGGCTGGCCTCCAAAAGGACAGACACAGCCCGCGGCAGTA
TGCTCAACACACGTGCTGGCTTTGGCGACGAGGTATTACAGTGCTTGTTT
TATGTCCATTCTCAGCACCCGACCCGATAATAAATAATAATAATAAAGAG
ATACAATAAGGTACAAGGTTGTGATTTGCTTACTCTCATCATTGCATTTT
TTTTACAGGTTGTGGGTCATTATGTACTTCTTCTTCAGGGTGCATTCTTC
CTTATTTACTGTTTCTTTCAAAGGGTTGAGGGTGGTGGTGATTGTTGATG
ACTACTAGTAGTATTTTCTTGAAATTGTAATATAAGTCTTCTCTTTCACT
TTGGTTAAAAAATCATATATGCAGCTTGCGGCCGCCTCCAGATAAAAAAA
AAAAATAATATAAATGAAGATAAGCGTAGTATTTGGCAAACTTGGTGACT
CTGTAAAGAAGGTATGACTGGATGTCGAAACGTCGGGAGCTGAAGAGGCT
TATGAACGAAATATTATAAAATTAATTGTTCTAGTCCATCAGCAATCATT
TTTCTGAGTATAATAGTATTATTATGGTTTCCCACCATGTCTTGTCAGTT
TTCTCACCCCAAAGCCTGTCGCCCGTACCCCTCTCTCTGGGGGCAGGTGA
AGCAGCGCATCATCCTGGGGACCTTTGCCCTGAGTGCGGGCTACTCGGAT
GCGTTCTACAAGAAGGCCATGGACATCCGGACGCTTCTGGCCGAGGAGGT
GAGTGAGGAATGTGATGATCAATGGGAGAACCATTTTCTGCTCGCCTTCT
TACCTTGCCTACCCACCCTTCCTACTGTGAATGCAAGAGAGAGGCTTGAA
GCCCAGTGGTGCTGGTGATGGAAGAAGGCATCGCATGAAGAGAAAGAGCT
TGCTTTGTTTCTTTTTATCCCCCCCCCTTTTCTTCTTTGTTATTATTATT
ATCATTATTTAATTTATTATTATTTATTATTATTTGTTGCATAATAATAA
TGATGATGATGATGCCCCTGCATAACATCATTATTAAATCCAATTGAGAT
GGAGCATAGTGAAATCTAATGAAATTTTCAATGATTGAAGATTTCGGGTT
GTCTGGTGACCCTTTTTCTAACATACAGTCCGATTGGGATGTCCCTGCAT
TTCACTCTGGCGCATGATGTCACGTCTGCTGCCGGCGGGGGGAGCGCAAG
GGAGGGGGCTGCTGCTTGGAGGAATCGCGGGCCTTTTTCTTTGCGATGGC
TGAATTCCTGTACGACAAAAAACAGCCAGCAGTGTTGTTTCTGACCAAAT
CAAATAACCCTAACCTGAAGAAGTCACTATAATGACATAACCACTACACT
TCTACAAAAGAGATGCTTGAAAATGCATGAAAAAATGTGTATTTTATTCA
TGCTCTTCTTCTTTCTTGTTATTGCTTTTGTTTTCAAATGATTTACTCAA
AGGTGAAAgAAGCTTTCAAGAAAGTGGACATTTTGCTTTGCCCTACCAGC
CCAACTTTGGCCTCACGAGGGTTGGAGCATATGCTGGTAAGTTGTGCAAA
ATCAATGACAGATTGATAAGGATACTTCTCTTAAAAACCCACACAGAAGT
AAAGATATATAATTGAGGATTGATAATTGAGGATTGTGGGGTAGTAGGTG
AGCTAATTACAGATGAAGTGTTGCAATGATTTTTTCTTTATTGATTATTA
AGTACAATAATAGTAATAGTAGTAGCAGGTGACAGACAACTGTTGTTTCG
GCTCTTCTTAGAGCCAATCATCAGTGCCCCATAGCCATATGCAACTTGAG
CAACTTGGAAGGCTACATTGTTTCGGCTTTTCTGAAACTTGTCATCATGA
TGGAAATGAGTCTCGCTGCCCGAACAGAGGGTGGCCCCGATAGTGCAAAC
AGTGCTGCTGTTAGTGGTGGTGTGCAAAGGTTACTCAGTTCCTTGTTGAT
CTCTCTCCTTCGTGAGGAGGAGGAGTAGGCTTTGGTTGTGTTGTGTCCAT
ACATGAAGAGTACAGTAGAGTCCCAGTAGATAGAGAAGGTAACACCAGTA
TGGGTGGTTGTTGGAAATCAGTCCGACTTGAAAAATGTTAGTTTTGACCG
TTATTCCTTGTCCTTACAATCGCCATGATGTTGGCATTGTCGAGTCATGT
TCCGAGCAAAGTGAGGTCTCATATCTCGATTTATGTTTTGAGAACCGATG
CAGGGTTGTGCAAGAGCTGGCAACTTATAAAACAGCTCGAGCGCCGTTGC
ATCCTCGTTGTCGATGTGCCCATTGCCACATGCCCATAAGTACCAATGCA
TTTTCAATGATGCAGACAAGCAATCAGGGATTGAAGTGGTCGCATTCAGC
ATCGTTGTACTGCTCGCAGAGGAGCAGTTAGAAGCGGAAGGGTCTGTGTA
TGAAGGCCAGGACTTTGGTTCTTGTAGTGATCCAAAATGGGATTGGAAGG
ATGGCGTGCAATTGGGAATCGAAGAGATCTTTCTGAAAGTTTTGGTGATG
AATAGGCGTGAGAGGTGGAACCTAGAAGTGGCAGGGTCCGTGTATGGAGG
CCGGGGCTTCGGTCCTTGTAGTTATCTAAAAGGCTAGAGCTTAAATAAAT
TAAAATCATCATCATCATCACCATGCTGCAGTACCAAACGAGTTGTGGAA
AGTCATAATGAAAAATAGCTTCTTCTTTTTTCCATTTTCGGAAATCTTGT
CAACTGGCATGTTATTTCAAGGAAACTCACCCCCCTTTTATTAGTATAAC
CAATACGTACATCATCATCATAGTATCTAGATATAGTAGTAATAATAATA
TATGAATGCCTTCTCCATTGTATATATATTTTTTCTTGCTACATTTGTCT
CATGCAATGTGCTCCTCTCACTTCCTGAGCCACAACCAATGTCTTCTTGC
ACGTGCCATGGCTTCTGAGCACTTTAACGAGCAGCGTATTGCTACTGACC
AGCCGAAGCTTCAGCTGCGCGAAGCCTTATACGACAGATCATCGTAGGGA
TCAGTAGATCATCTAAATGTATCTGGTTGATAATGAAATCATGCGGACGA
ATCAGTGAATAAAACAAAGGAGCATTATCACAGTCTGTTAAAGGTTACGA
CGTTTCGGGTTTCCCCTTCATCAGGTAAGATCACAAAGCTATCTCAGAAG
AAATCTCATCGAGTTCTCATCGTCAATAGTAACTTTTTCATGAGTAGTAT
AAGCAGAGATAACTTTTGTTAAAGCTTTTAAAAAACACACACACACAAGC
TAATCAAATTGCTATTATATGATAAAAATAATGATAAGGTCACGCATGGT
CCTCACATTCCCAACGATGATCCTACATCAAATTTGGCGCAGAGTACGAA
CTGGTAGCTGTAATCTTGGGCTTATCAGAATTGTAATCCTGAACAGTATT
CGATTGGCCAAGGTTCTCTGCACTTCCAATCATCTGGCGTGGTTGAAGTT
GTTGATGATGGCGCGGGGATGATCGAAAAAAAACACACACACACAAACCT
GTTCTCTTTCGATTGGGACTAACATTGGGAAAAGAAGAGCAGAGAAATCT
GGACTCGGAAGTTGAAGGTGAAGATCAGCGGGATGTTTTTATGCACCCAA
CGTGTTTGATACCACTGTTGTGATGATGACGTGGTGATGATCAAAACAAA
ACTTTTTTTATTTTTTTTTTTTTAGCCAAGATCTATCTGATGAATGCGTG
ATGTTTGGCTGTAGTTACACTTCTGCCGATCTCTGAATGGCTATTTGGTG
TCCCAAAACAATTGATTAAAGGTGTCTATTTAACTTTGACTGGAGAATGC
TGTTGGCAACTTATTTGAATGAATAGCAAAGAGGCTAGAGCACATCAAAG
ACACCAAAAACCTGGTTTGGTATGGTGTTTTGAAGTTTAGGCCTTTGCCC
CCCCCAAAACAATGGATTGTAGGGAAAGGGCTAAAGAAAGTTATATGAGG
TAGTTTTTTTCCTTCTACAAAAAAATGCTTGTTGTAATTGCTGCTACATT
CTTAACAGTACATGCCGCTGTTGGAGAACAGGGTGCCTTAGATCGGAGTT
GGGCGGAAGATGAACTGGTCTCGGTTGATGAAGGTGCTGTGGGCGTGCTG
CAGCCAGCTGAGCTGATCGGCGAGGTTTTGGGGCAGAGGGGTAATCAAAC
TCTGGTGTCAAGGTGTGAGCCAGCCATACCACGCCCTCGCCCGTCCAGCA
GCTTGCTGGTGAACTTGTTCTCTTCTACTTTCCAGTGAAGGGGGGAGTAG
AGAAGAAGGGTCAGGGTTCTTGAGTAGGGCCAGCACTCTCTTGAATTCTG
TCAAGGTTCTTCAAATGGCTTTCTGCAGCTCCTTATTATAAATAAAGTAT
TTATAATAATATAATTGGTTGAGAAATGGACCTGAAAAATCTAAAAAAGT
CTTGGTTCTTGAATCCGAAATGAGCTGCATTTTATAAGCCGGGAATGGTA
GGTTGTCTTCGAATTTGTCAATCTTGTTATAAGTATGTATATTTTGGCGG
CTTGCGGATAGCGATTGAAGATTGAGCGGACGTGATTTTGCGTAGCGATA
TTTTATGATTTTAAAAATGATATCACCAAAAGCGATATTTTCCCGTTGTC
ATTTCATTTTTTTTTTCAACTCGGAATTTCGGATTGTTTATTCGTTTGAA
TTGTTGTTGTGCGGGAGCCAGTGTCCCATGGCCAGGAAGGGGTTGAATCT
TGGCCTCCACAGGCCCAAAAGAGTACCTGAAGAGGTCCAGGAAGAAGGGT
CGCCCCAAGCCTAGAAAAGGGTTTATACCCAAGACCACATCCCCCTGAAG
TAATGATGAAGTGGGCAAGGTTGGGGTGATCCTGCTTCTAATTTATTTTT
GAGGTACAAGAATGGGGTACTGTTTTAAAAATCATTATAAATATATTTTA
AAAATGATTTCAGACCTGATTTTAAAAACTATATTCTACTTTTCTACATA
ATAACTGTTCGAGATGTTAAGCTTGCTTTTTAATCATAAATAATATTCAA
TATCATCAGAGCACGATCGTAACATTTCCAATGGTCTTCGCATAACTGAC
GTTTGTAATGAACGATTAGGCATTACACTTTTTTGCTTTTGGTGGCAACG
CTTTCCGCTGCTTCTACTTCTTTGCCTCAAATCGTTGTTGAAGTTGTGTC
CAAAAAATGTATCTAAATTGGCGACATCCCCTCGGGGATCCAGAAGATTC
GATACATTTTTACTTGTTCTTAAAACCATAGGATACTTTTCAAAATCATA
TCTCGGTATGCCGCAGTCAATATCAATAATTGGGACTAGTTATTAGTGTA
ACTTTTACTTCTCGTTACGAAGGGGAAAAACTACTGAATCCCTCCATCCG
ACGATAATGGTGTACACATCATCACCACCACCACCAACCACCACCACCAA
CCACCAATAATAACGACAGTGTCTTGCCATTTTGGTATTGGTACTGTTAT
TGACTGGATCAATGGGGTTCCTTGATAAGTTGGTGCAGACATTTTTTACT
ACGTGTCTAACAAACAAAGATAAAGGTGGGGAAGAGAAGAAGTGTGGTCC
ATGCGAGTCCAGAAACAGGACAGGGGGCTGCCAGTCTGTTGAGTTCAAGC
TTGCGGACTGGTTCGAATTCAAAGGTATGAATACACCGGAGCATAAGCTG
TCAGCTCTGTTCAACCAGCCCCTTCCGGAAGTGTTTCAGAACAAAGGCTT
CAAGATGCCCAGAACAGCTGACCTCAGCTCTCTGTCTGCCAAACACATGG
CGGAACACTTGCAAGCGGCAGAGTGGTTGACGACAACCACTTTCGAGGGT
GTCTACGGCCCCGTTACTGGGCCAGAACTCCCTAAGTTCTACGCGGCAAA
CTCTTTTGAGTGGACCCAAAAACAAGACTCCGGTCCCGGTGCCGTTGTTA
GGCGTATTCTAGCCAGCATTCAGGAGCCCACTCTCTACTGCTGCCATTTT
TGAATGTTTTTTTTTATTGTGTTTGTTGGTTGTGTCGTCTATAGATCGGT
TTTGAAGGAGGAAGCGCTTTTGCTTTTCTTTGTTTCTTTGTAGAAGAATT
AGAAAAAAAAAACTCCGGCTTCTGCGCACTCAGAAGAAGAAGAAGAAAAA
TCCCGGACAGCCTACAAATACAAAAAGGCTGCCCGCACGAGATTTGAACA
CATTACTTCACGCTTTTCAACCGTGCAACGAGATATTTTAAAGCGTGAAG
TAATGTGAAGTAATGTGGTCAGATCACGAGATTTTCAAATCTCGACAGCA
CTGGTGTCGCATATTTGTGGTCAGATATTTTATATACATATTCACGTCAT
ACACACCCTTTGAGGAAATAAAAAATGGTTTCCGTGCAGCAACCTTATAG
AAGATAGATAATTTCATGCGTATTCGCCTGCTTTGCGCGCAGATGCTCGA
ATCAAGTATATATTAATCTGTGTGATGCCTATGACAAAGAAATAGTCAAT
TTTCTTCCCTCTCTTGAAGTATAAACTTCTTGCATCTACTCGGATTAAAC
TTAGCCTATCAGATCGCTCCATTACGCGTGAAGTATAGAGACTATAATTC
CATAAAATATCACATGGTTTCGCTTTGCTTCGGTTTACAGCGATTTGAGA
ACTTCAACTTTAACTGGAAGTACCACGAAATTAGAACACCTGGCACTTCG
AATCGCTATAGCCGAAAGATAACTTCAACGATCAACTTTTCATTATTCTT
AAAATCATATTATCAAAATGATAATATGATTTCAAAAAGTACTTTGCTTT
TAAAATCATAATATCGCTATTACGAAAATCAACGCCCGCTCAATTTTCAA
TAATTATCCGCAAGCCGCCTTATACTTGTAATTGTACGCGTCACAACAAA
ATGTTATAATGTATATAAAGTGCTCCCCTTTTATGCGGTGCCAAGGGTCA
GCTGGTATATTTTTAGATTTCAAACTTTGGTTTGCCATCTAAACTCTCCT
TTTCTTCTTTTTATTAATACAATTCTCAACACAAGTTTATCATTGAGGAT
GACAACTTAATGAGAAATTCATAGCCTCTGTTCCATGGGTGAGGTTTGAA
ACTCCATCTGTGGGTCCGACAAAGCTTGCTGGTGGGATCGACGAATCAAT
GTTGCAACGCGGCGCCAATATATAACACGCACACCCGGGATCGAACCACT
TGACCTGCTGGGTGTTTGAAACCAACGTTGCCATTTGACCTGCAACGGCA
ATGGTTGCCGAGCTCAGATTGTCACTGTCCAACATGAACCCCGTACTGTT
ACACTGCCGCGTGGCAATTCTCTCACGGGACCCTCGTTACGGGGTGAGCT
AGGCTCTTAACCTGTTGAAACGGCTCCAATTAAAACACGCACACCCGGGA
TCAGACCACTGACCTTCCAGGTGTTTGGAACCAACGTTCCCATTTGACCT
GCAACGGCGATGGTTGCCGTACTCAGATTGTCACTGTCCAACAATCAATC
CCATTGGTGGGACTTAAATTGACGACTGGAGAGGGTATTTCTCAGTATAA
TCATCCACAATACCAGTTACTCCCCCCAATTTTTGTTTTTTATAAACCAA
GAAGATCACACCACCACAAACCTTTTGCTAACCTGTACCCTGAATCATGC
TGCTGCACTGATAATACAAACACATATATAATATATATATATATATATAT
ATATACCAGGGCATGCGGGGCCCTTCGGGCCCAAGTTATTGGTTGTTGAA
CATTGTTTTCTGGTGGAACAACAACAACAACAACTGGTTGGTTGGTGATG
ATTTTGTTGTATTATTAGCTAGTGTATGATGGCCCAAGTTGTCAATCAGC
ACAACAACTACTACTACAACCTACTACTACTTGTTGTTGTTGTTTTATAT
ACTACTACTTTGTTTTCAATAGTGAAGGAACAACAGAAGCATAATCTGAT
GTGTTGACAGCACCATATAGTTTGATGTGTTGAAACTGGTTGTTGGTGAT
GATGATGCAGTAGTAGTAGTATAGTATATGATGACGACAATCAAATTACA
CAATAAATGATTAAAGGTGGTCGGCAGTTGCATGATGCAGCAGCAGCATT
ACTATTTGTACATAGTAGTGAAACAACAGGAGCATACTTTGGTGTGTGAA
AGTTAGTGATGATGTTGTAGTAGTAGTGCATGATGGGAGCAGTTTTAGTT
GCAGGCTTGATGCAGGCTTTCACGGGTTCTGATTGATGATGGTGGTACAA
AAGTAAACAGCAGTAGTAGTTGCTGTTGAAGGATCATAATAGTAGGATGT
GATAAGGGAAGTGCAATATGTAGCATTTCACTTAAAGCAGTGGTAATTTT
CATTGATGCAATGCATAATGAAGAAAGCAACAGGAAGAAACCAAAAAAGG
TAGAAGGTAGAAGCCTAAGGAAGTGATGTTTTGCTTTTGCCATTATTATT
GTTGTACTGTACGGGCGTTGGTAGGTGTGGAACCGCCAAAAAATGATCAT
GCAAGGAGCGTGGGGTGAAGACAGCAACAGGCAAAAAGAAAAAAAGTACT
TTGAATTCTAAGAAAGGGTGGGGGAAAAAAAAAAAAATGGAGAACCGTGC
CATAATAAAAGCAAAGAGGGAAAGGGCTACTCATTCCCTTGCACGGAAAG
ATGGTGGCAAAACATGTGCCGTGATGAGCGTGGTGATCAGCAGCAGCTAC
AGCTTTTTTTTCTTTTTCATCCAGCGGGAACTTCAACCAAGACCAAGGAA
GCAACCTCTTTTTTTTCTATGAATGCCGGCGCGGCGCTGTTTTTTTATAC
ATTAGAGTTTGTCAAATTCTATTTTTGGCAGAAATCCCCAAATCTGCAGG
TTTTTCGTCTTTTACTTTAAAAATTTCCATTATTAGTGATCAAAATTACC
AAAATTCACGATAGTCCCGAAAGTTTACTGGGAAGAGAACTTATTCATGA
GAAATGTTTCATTAAAAAGACAAAACTAAAAATAAGCTTTTGATAAATCA
ATATAGTATATACAGCCCATGTATGTTGCCGGCACAGCAGCGTTAAAAAT
ATTTGTGCAAGGGGAATACACACATAAAAACAAATAAAGACTCTCTTTTT
GTCAAGCCGGTACGTGAATGCTCGAAGTGACATTGCCAGTACACATAATT
CAATTGTTTTTTAGCAGGATTTTACTGATTGGTTGTGTAGCGCGCATGGC
TGGAATCTGATTGATTGTAGCGAGAATATTGGAATATGATTGGGTGAAGG
CATGCAGCCATTATACGTGGATTGATGTTTCGAATGAAAGAAGAAAGAAA
GAAGCAGTATACGTCATTGATTGTAGCGAGAATGTTGGAATATGATTGGG
TGAAGGCACGCAGCCATTATACGTGGATTGATGTTTCGAATGAAAGAAGA
AAGAAAGAAGCATTATACGTGTAATGAAAGGCTGAGAGAAGAAAGAAGCC
ACTCATTCTTCATGTTGTCTCGTGTACTTGCATTGAGAGAAAGCCATCAT
TCTTCAGAAATTAAAATTGTACAAAACTATAATTCTTTTTTTCAATTCTT
TAAAAATACAGGATTTTGGTGGAATTTCGAAACAGTTGAATTATGAAGTG
ATAATCGATAAAAATGATACCATTCCCGCTAGATAAAAATGTTTATGTGA
TATGGATAGTACGAAGTACAGTTTTCATTTGCTTGCTCTCACGTTGTAGA
TCGTGAAATATTCGGAGTAATGACAGAGTGTCGTTTTACTCGAGCATAGA
GAAGAAGAAGGGAAAAGAAAGACTTATAATGCCACTAACAGAAAAGTGAT
ATAGAACAGAAAAGTGTTATAATTTTCTTTTCCGTCAAAATGCAGAACTT
TTTTTTTCTTTTGCGTGTCATCTCATCATCAACCACGCCAAAGGATTCCC
TGGTCTTCTTGTTTGGGTGACTCTTTTACATGAATTTCAGATTGGACCGC
CACGTGGTGCGTGTCTTCTCCTTCTTCTGTTGCAATCATTCGTTTGGCTC
CAAAATAAAAGTATCGAAAACTCTCATTTAAGATTTTGTCTTTTTTTTCA
CGCTTCTATAATAGAATGAAGAGAAAATTGGCAGGATTTTTACGGGAATT
TCATCTTTTTAACGGTTATTAAACGAGAAGTGTGGTGTTTCTCAAATTAC
CGAAATCCCCGTACTTTTTGAGAAATTCCACAAAGATCTCTTACGTGAAG
CAATTAATATAATCTAGATTACGACGAAATTCCATATAAACGCTTTGAAT
TTCCGTTTTGGAGCGGGAAAGCTGAATTGTATAAAGCGATGGGTTTTACT
AATTTTTTGTAATTCATGGTTTGTGAATATTTTGTAACTAACTTTTTATC
CAAAAATCCTCCAAAGCATTCATGATGTGTCTTCCCCTGAAATTAATTGT
ACGTGCTTCGCCAAAATTGTCTTTTAAATATTATTAAACTTTATTACGTT
GATGCTGCTGCTGCTGCTGATGCTTATTACTGCTGCTGCTGATGGTGAGA
GGTGAGAGACGGAGGGCCGAAGAAGGCTGCAGGGGGCACGGCGGCACCAC
CACCATGATGACAATTCCACCATCATTTTCATTTGTTTGTTCAAAAGTTT
GAGCAGTAGTGATTGACCTTCGAAGACTTCGAGCCAGCCTGTCTGCTCGG
GCAGCGACCTTCGAAGCCAACTACTGAGCAACTGCGAGCCAGCCCCAGCA
TCAACATGGCAGCCCAGTATCAGCATGGAAGCGACACCTTCTCCTTTGTT
GCTTCGCTTGGCCTAGACTGTGCATATTGAACCATCGTAATAAACAGTTG
CATCGCAGTTGAGACATGGAAGGTTTGATGCTGATGTGTCATTTTCCAAG
CCCAAAGGTTACATGAAGCACGGTATTCTCTTCTTTCCAAGCACACGGCG
CTCTCTTTGCACGGTTGCTGCTAACACATGTGTGGAAGCTTTATGGTATT
TGGCAGTGGCAGTTGTTCCTGGAGCACGATATCTCTTTCCCTTGTGACTC
TAGTCACTGTGTTTTCTTCAAAACACTTGATACCTTGTTGCTTCATGAGC
TGCAAAACTAAAGAAAAGTTTTTGCTGCCTCATAAGCCGCACTTTTTACA
TTACACTAAACACATACTAAGTACAGCACACATATAGAGCAAACGACAAA
TGAACTCAAAAAGTGTTGAGAAGTTATGTGTCATACTTGCCCTGGTGCCC
TTTGTGCTATCCTCGCCCAGAACCACCCAGCCACAGTTGCTGAACCCTGG
GTTGCACTTATGGCATCAGAGTCGGGTGTTGGCATTGATATCTCGGTGCT
TCATGAGCTGCAAAAACTAAACAAATGTTTTCGCTGCCTCATGAGCACTT
TTTTTAATAATAATAAATTAATGTCTGAATAATGATATATTATTATTCTA
GGAAATTTTTAAGACTGTAATGAGCTGTTGTAAGGCTGTATTATGCTGCC
GCCTAGGAAAATTTTAAGactACTACTTGAAAAATTAAAGTAATGCAAGT
TCATAAAAATATAATATGCTGCTGCTGCATGCTTAATAGTGGTAGTAACT
GTTAATTATTTGAAACCGAGTAAATACAACAACAACAAAAACTGCTTCTA
CACTGCTGCTGCTGCTGGTGTAAAACTGCTGCTGCTGCTGCTGCTGGTGT
TCAATGCGGTCGCTCTGGATGGACAGAGCGAGAAACAAGAAAATGTTGAA
GGTTTATTATATATATATATATATATATATATATATATATTATAAATCAA
CGGTTTTTGAAATGCTGAAAAAAAAAAAAACACCCAAACGGAAACACCAG
CTGACCCATCCGTTTTTCCTTCCAAAGAAGAAGCCGAGTCTCTTTCTCTT
CTTTCCAAAGTGGTTGTCACTGAAGAGCATATTACAGAAGCTGCTCGGTC
TCGCCTCCACGGCTCTTCTGGGCCTGATGGCATTCATTCCATGGAGCTCC
GGAGGTGGTTGCTGGATTACGGCAATGCTAGCGCTAGGCTCCGCGCAGCG
CATGCAGCTTCTCTCAACCAGCGGTGCAATGAGGCGGTTAGCTTGGTTAA
CTCCTGAGCCTACCTTGCGGCTCGGGGTTTGGCATTGGACAAGCAGCCGG
GTGTCAGACCGCTTTGTATTCCCCACATCGAGTTTCTTCTGGAGGCCAAC
GCCCTTATTTTGGTAGCAGGAGAGGAGGCGGAACTGTTGCTGGGGTCGGA
GAATCTGTGTGGAGAACTCAGGGCTGCTTTGGAAGGGGACTTTCATGCCA
TGTGGAAACAGTTCAAGGAAGACCCGGAGGTGGAGGCGGTGGTCTTGATG
GATGCTGCCAATGCCTTCAACCGGCTCAACCGAGAACAGGCTTTAGCAGA
GGTGAGAGGTTCTTGGCTCAGAGCTGCCCGCTTCATCTTCAACGCCTACA
AGGGCTACAAGATGATTTTTGTGGACGGCAAGGACAAGATCCTCTATATA
TAAGTAAAGTGAGGACGGGTGCACCCAGGGTGACCTGATAGCCATGCTCT
TGTACGGTGTGGGAGTGAAGCCTCTGTTCGTGGTGGTGAAGGAGAAGGTT
GCTGAGGTCTTCTCTGACAAGGGCGAGAAACTGTTCTAGGTGCTGTTTGC
ATATGATTCTTCAGCGGCCAGCAAGCTCGAGACTGTTCTGGCCTGGGTGA
AAGCCTTGGTGAAGGAGGGCCCCAAGTATGGCTACTACCCTGAGCCGTTC
AAGAGTGTTTTGGTGGTGAAGGAGGGCAAGGAGGAAAGGGCCAGGGAGGT
GTTTGCGGAGTACCCTGACCTTGAGATTGTCTCTCACCACAGATTTTTGG
GCAGCTGCATTGGCGCAAGTACCGGGGTGGAGGCCTACGTGAAGAAGGTC
GCCACTTGAGGAGAGCGTGTGCGGCACCTGGCGCAGGCGGCGGAGAAGTT
TCCTCAGTCTGTGTACGTGGCTTTCACCATGTTGCTGAAGAGTGAGTGGA
AATTCCTTCAGTGAGTGATCCCGGAGTCCTCCGCTTGATTCGGGGAGTTG
AACGATGTGATCCAGCACGAGCTCATCCCTGCTCCCTGCACTACTTGCCA
GGCGACAGTTCTCTGAGGCTGAGATAGAGCTCTTCGAGCTCCTCTACAGA
CGGGGGGGGCTAGGCATTCTCGACCCAACCAAGGCCGCGCAGTCCTCCTA
TGAGCTGTCCTTTTCTGCCATCTCCATGGTGCGCGATGCCATCCTGGGTG
ACGAGCCTCTGGATGTGCCTGGGCACCGTGCCTAATATTCTAGCCAGCAG
TGGAAGCGCAAGGCGGAGGTGGAGGGAGGCGGAGCAAAAGGCTAGGTATG
AGGAGGTGCTGAGCAACCTGAGGCTGGAGCACAGGCAGAAGGTGCAGGGC
CAGGTGGACTACAAGGGCATGTCGGGGATGTCTGTGGTGCCCCGTGCGAA
AGAGTCATTTGACTTGTCCGCTCAGTAGTGGTGGGACCGGGTGCACCTCC
AGTACGGGTGGGACCTGCAGGGGCTGCCTGAGAGGTGCGATGGATGTGGC
AATCGCTTCTCCGCTGGTCATGCCCTCATCTGTATGAAGGGGGGTCTTGT
GGGGTGGGGCCACAAGCAGTCCCGGGATGTCATGGGGGAGTTCAGCCGGA
AGGCCTGGAATAACTGCACCTGCCGGTGAGGGAGATGTTGCAACGGGCCA
AGGACAGAGGTATATAGCGATGGCTTGACCGCGAATTTTGTTGTGAGGGG
TGTGTGGGAACCTGATAGGGACTGTCTTTTTGATACCCGCATTATACATG
CTGGCAGCCCTGGATGTGCAACCCACCACATCTCCTACCAGAATGCCCTC
AATACCTCTGCCCGTGAAAAGGTGAAGAAGTACAAGGCGCCGTGCTACTT
CTTGCCCCTTGATAGACACTGTGGAGGGTATTGATTGATTGATTGATTGA
TGTTATTTTTAGTTTCAAGTCTAGCCTTTCAAATCACTTTGGGAGCAGAA
CCCCCTAGCTTCTATATGTGTTGATCATGATTGATGCCATTCAGGGGCAT
TTCACAGAATCGTCCTCGTGGaACGTGTAGGCGTTTCAGTTGCATCCAGA
ACTGACAGCGTTGAAAATGAGCAGGCAGCCAGTGCTCGGAGGCTGGTCGA
GAGTTGAGTTCCTCGAACTGCAACTTGAAAACCATAAACGTCATGGCAAG
AAGTACCTAGTACTTCGCAACAAGAGGGAGAATGACCATGTCTATTGGAA
CTTCCTTGACTCGCAGGGTGGAGATAGATGCACTGATCATGGTAGTGGGT
TGTCGGAGGAAGCACCAACGGATGAGACAACCGAAATACTGGATCTGGGC
CAAAGGGCAAACCGAGTATGTAGGACTTCGTGCAGCTGTAGCTTCCGCTG
GTCAGTAGTAATACGCTGTCCGTCAAAGTACTCAGAAGCCATGGCACGCA
AAGAAGACATTGGTTGTGGCTAATGAAGTGAGAGGAGCACATTGCATGGT
ACAAACGTATAGAAGAAAAAAAATGCCCACCAGTCCATGCAGGCCTTCCT
CAGGCGCATCGCTGCTCGGCTCTCGGCAAAGTGGCAGAAGCCTCTATCAA
CGGTCACCAACTGGGTGCATGTCCGCGTGCAGTTTGTGCTCATCGTAGAA
GTGGAGGAGCTCGGGGTTCGAGGATGGCGAGGGGATTGCCGTTCTCTTCC
AGAGATCGTGGGGTGTGCTGTATTCTTGTTTGGAAGATAGGATATGTTTT
GTATTGATCCGGGTTTTGGGATTTCATGTTTAGGGGTAGGTTGTGTTGTT
GGTTTAATTTAACTCTCTCTCTTTCTCTCTCTCTCTGTATATACCCTCTG
TATCATTCCACCATAAGCACCCTCCTGCTGGTGGGTTGCCTCTACTACCC
TGCTCTGCCGCCGCCCGCCCGCTTCCGGTTTGCCCTGTGTGTGGGGGAGG
TCAGCCAAGGGGGCCTCGGGTTACCAGGACGGCGTGTTCACGGTGCCCGG
CCAACCTGGCGGGTCTGCCCGCGCTCAGCGTGCCCTGCGCCGTGGCCCCG
GGGGGCCTGCCTATTGGCCTGCAGTTCATCGGGTGGGGCGCGCCGCCGCC
GCCGCCCGCCATGTCCCCACCCGGCCGTCCGCCCCGTCCCCCGCCGCCGC
CCGCCCGCCGCCGTTGCGCGAACCACACCGCCGCCCGCACCCCTGCTACC
CCACCGCAGCAAAGGTTGTTGCGTCTGACCCTGCAGTCTTCAGTGGCCAA
TGTCAGTATTTCCTTTCTTTTACCATCTTTGTTCTTCAGTAAACAGGCAA
AACAATAGAATAAGAAAAAGGGCACTGCTGCTAAGGAGCTATCATCACTC
TTTTTAAGGATGATACAGTTGGTATAGGAAAACGAAAGATGCTGCCTGTT
TACTTCTTGTCTGAATCTATCTAGAGGATGAAAGAAAAGTGGGACCAGTT
GTCAATTAATTCTTGATTGATGACGAGGATGGGAGGGGTTCTTGACATTA
AAGGCCACGACTCAGGAGGAGTGACAAGATTGATAAAGAAGCGTTGGATC
TTGCACCCGGACGAGGAAGACCTGAGCGCAATCTGCGCGCTCATAGAGCG
GATAAAACTGAACGTCTGGGGTGGTGGTGAAGAAAGCTACTCCGCTGTCA
ATCTTGAAGGAGAAGAGACAGAGTCGGCTGGCAAGAGTCGGGTGAAGAGG
GTGAGGAAGAGAAAGTTGCGGTTCCCGTCGTGTTTTTTGTGTTTTCTTTT
CTTTTTCCTTTTCCTTTCCTTTCCTTTCCTTTCCTTTCCTTTTCTTTTCT
TTTCCATTTCCTTCTATTTGTGCTGCTGGCAGCGGGAAATGGGCGAGGAG
GAAGAAGGGGTGTAATTAATTCTTACATTTTTTTGGTCTCATCGACTATA
TTGGTATTGTTATGCTAGATGGGCCGCCTTCAGCTGTCAACAGAAAAGAG
ATACTGTAAGAATGTCCAGCTCATTGATATTCTTCTGATTATATTTCTTC
TTCATTGTCATTGTCTTTGCTGACCAGCATTACTACTGCCAGAGGACTCT
AAGCAGGTGTGATCCAAAGAAGACTGACACTAGCTACTGCAACCACAACA
ATAACTATATAATAATAATGATATGACAGCACAATGTAGTATGTCGGTAT
ATAGGAGTAGAATTAAATTGTGTTTTTATTCTTATATAGCAGGTTCTCAA
CAGTGAAATAATAGTTATTTTTTTGTGTAATAACAATTTTGCTTTTTTTA
CCTCCCCCCCATCCTTTTCTCCTCAAAAAGGCGATGTGCTCAGGGAAGAT
TTAGTCCTAAAGACTGGCTATCACTTTGAACAGGCCACAAAGATCTATGA
AAAACTACAACTTGACCCAGCCTTATCTGGTAACACTGCTGCGCCTGAAA
ATGCAGTCATAGGTGTCCCTGAAAAACCTGTGTTTACGTATGAATGGGGA
GTGGAAATTCCTGAAGAGAAGAAAGCGGCAGCTTCTGCTGCAAAAGAGAC
ACTTAAGTCAGCTCTTCCCGCTGAGCGTGTCCAAATTGGCTACATTGACG
TTGCTGAGAATAGTGTTGCAATTGAGGTAATATTTTGGTTGTTTGCGATA
CTTCTACCTTAGATTTTTGCACATCTTTTCATGGACCTCAACATCTTATA
GTACTCTGCTGCAACAACAGTACATATTAATATATATAGATTAGCATGTA
TATATATATATATTATACATATATATTTATTATAACGAATGGAACTGTAT
GTAGAAAATAACAATATATAATATATATATATATATGATCGGTTAGACCT
GAAACAAAACATAACATCATTCAATCAATCAATATATAAATATATTTTAG
TATATATGATCGTAAGCTCCTAATGTAGTAAATGCCGATTTCTTGGTATA
TTATATATATATAAGCACTTTAATTTTATATGGTGTGCCCCAAGATACTG
CTAAAACACACCACATCTCCCTCTTCTCATGCCCCGTCCGTCCCCCCCCG
TCACCGTGCCAGCCCCCCCCTGTCCCAACCTCTCATTACCCCTCCTCCAA
CCCGTGCCGCCCGCCCCCAGGTGGTCTCCGAGACCTTCGCGGGCAAGACG
GCCGCGAGCGCCGCCGCCGGGGCGGTGGCCGCCGCC

Coding sequence (CDS) from alignment at H-akashiwo_Contig1199:96998..118433+

>mRNA_H-akashiwo_Contig1199.4.1 ID=mRNA_H-akashiwo_Contig1199.4.1|Name=mRNA_H-akashiwo_Contig1199.4.1|organism=Heterosigma akashiwo CCMP452|type=CDS|length=396bp|location=Sequence derived from alignment at H-akashiwo_Contig1199:96998..118433+ (Heterosigma akashiwo CCMP452)
ATGCTCAACACACGTGCTGGCTTTGGCGACGAGGTGAAGCAGCGCATCAT
CCTGGGGACCTTTGCCCTGAGTGCGGGCTACTCGGATGCGTTCTACAAGA
AGGCCATGGACATCCGGACGCTTCTGGCCGAGGAGGTGAAAgAAGCTTTC
AAGAAAGTGGACATTTTGCTTTGCCCTACCAGCCCAACTTTGGCCTCACG
AGGGTTGGAGCATATGCTGCCAAGGGGGCCTCGGGTTACCAGGACGGCGT
GTTCACGGTGCCCGGCCAACCTGGCGGGTCTGCCCGCGCTCAGCGTGCCC
TGCGCCGTGGCCCCGGGGGGCCTGCCTATTGGCCTGCAGTTCATCGGGCG
ATGTGCTCAGGGAAGATTTAGTCCTAAAGACTGGCTATCACTTTGA