mRNA_H-akashiwo_Contig884.7.1 (mRNA) Heterosigma akashiwo CCMP452

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

Overview
NamemRNA_H-akashiwo_Contig884.7.1
Unique NamemRNA_H-akashiwo_Contig884.7.1
TypemRNA
OrganismHeterosigma akashiwo CCMP452 (Heterosigma akashiwo CCMP452)
Homology
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A7S4D5B8_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4D5B8_HETAK)

HSP 1 Score: 137 bits (344), Expect = 8.460e-35
Identity = 68/68 (100.00%), Postives = 68/68 (100.00%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSIGHALSEN 204
            GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSIGHALSEN
Sbjct:  454 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSIGHALSEN 521
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A7S2UXQ2_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UXQ2_9STRA)

HSP 1 Score: 68.9 bits (167), Expect = 1.400e-10
Identity = 32/70 (45.71%), Postives = 49/70 (70.00%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKK--NNLVKKGAMVLLIGSIAFTVFCSYQSIGHALSEN 204
            GVAVVWS+ GS++G+++A+  P+ CYL+IR +K    + VK GA ++ I S   TVFC+YQS+  A+  +
Sbjct:  296 GVAVVWSVCGSSLGMMVAYFFPSVCYLRIRRKKSLLRSKVKMGAWLMAITSAGLTVFCTYQSVERAIKAS 365
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A7S2KBB1_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2KBB1_9STRA)

HSP 1 Score: 64.7 bits (156), Expect = 2.130e-9
Identity = 29/62 (46.77%), Postives = 45/62 (72.58%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKK-NNLVKKGAMVLLIGSIAFTVFCSYQSI 183
            GVAVVWS+ GS++G+++ F++PAACYLK+RW K     +  GA+ LLI S+   + C+ Q++
Sbjct:  177 GVAVVWSVLGSSIGMMIGFIIPAACYLKLRWHKGWRRGLNLGALALLIFSVVGAIACTAQTV 238
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: B7GA29_PHATC (Predicted protein n=1 Tax=Phaeodactylum tricornutum (strain CCAP 1055/1) TaxID=556484 RepID=B7GA29_PHATC)

HSP 1 Score: 62.8 bits (151), Expect = 2.440e-8
Identity = 32/66 (48.48%), Postives = 43/66 (65.15%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSIGHALS 198
            GVA VWSI GS+M + +AF++P ACYLKIR  K   L+   A +LLI S    V C+ Q++ +A S
Sbjct:  550 GVAAVWSICGSSMAIWIAFIVPTACYLKIREHKGLTLLASAAWLLLITSAIAMVLCTRQAVQNATS 615
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: T0QZ21_SAPDV (Aa_trans domain-containing protein n=2 Tax=Saprolegnia TaxID=4769 RepID=T0QZ21_SAPDV)

HSP 1 Score: 62.0 bits (149), Expect = 4.200e-8
Identity = 30/62 (48.39%), Postives = 48/62 (77.42%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNN-LVKKGAMVLLIGSIAFTVFCSYQSI 183
            GVAVVW+I GST+G+++++VLP+ CY++IR +K N+   K+GA +LL+ S +  V+CS  +I
Sbjct:  400 GVAVVWNIMGSTVGILISYVLPSVCYIRIRSEKPNSDWRKRGAWILLVISGSLFVYCSTTAI 461
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A835YKB4_9STRA (Transmembrane amino acid transporter protein-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YKB4_9STRA)

HSP 1 Score: 60.5 bits (145), Expect = 1.400e-7
Identity = 32/67 (47.76%), Postives = 45/67 (67.16%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSIGHALSE 201
            GVA+VWSI GS++G  ++F LPA  YLKIR +K  N+ K  A V+LI +   +V C+Y +I  A S+
Sbjct:  374 GVALVWSICGSSVGFFVSFGLPALFYLKIRAKKAFNIRKLAAWVMLIVTCFASVLCTYNAIATAASK 440
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A1W0A103_9STRA (Sodium-coupled neutral amino acid transporter n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1W0A103_9STRA)

HSP 1 Score: 59.7 bits (143), Expect = 2.620e-7
Identity = 30/58 (51.72%), Postives = 46/58 (79.31%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKK-GAMVLLIGSIAFTVFCS 171
            GVAVVW+I GST+G+++++VLP+ACY++IR +K N+  +K GA VLL  S +  ++CS
Sbjct:  392 GVAVVWNIMGSTVGILISYVLPSACYIRIRSEKPNSDWRKVGAWVLLTISGSLFLYCS 449
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A485KWV7_9STRA (Aste57867_12930 protein n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485KWV7_9STRA)

HSP 1 Score: 59.7 bits (143), Expect = 2.650e-7
Identity = 30/61 (49.18%), Postives = 45/61 (73.77%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKK-GAMVLLIGSIAFTVFCSYQS 180
            GVAVVW+I GST+G+++++VLP  CY++IR +K N+  +K GA VLL+ S    + CS Q+
Sbjct:  406 GVAVVWNIMGSTVGIMISYVLPCVCYIRIRREKPNSDWRKVGAWVLLVISGTICLVCSVQA 466
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A7S3VE83_9STRA (Hypothetical protein n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3VE83_9STRA)

HSP 1 Score: 59.7 bits (143), Expect = 2.690e-7
Identity = 29/61 (47.54%), Postives = 42/61 (68.85%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSI 183
            GVAVVWSI GS++ +++ F++P+ACYLKIR  K  +  +  A  LLI S    + C+YQ+I
Sbjct:  448 GVAVVWSILGSSIAMIIGFIVPSACYLKIRGSK-GSARRTSAWALLIFSTILAIVCTYQTI 507
[Close]
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Match: A0A7S4RNK3_9STRA (Hypothetical protein n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S4RNK3_9STRA)

HSP 1 Score: 59.3 bits (142), Expect = 3.430e-7
Identity = 32/63 (50.79%), Postives = 41/63 (65.08%), Query Frame = 1 
Query:    1 GVAVVWSIAGSTMGLVLAFVLPAACYLKIRWQKKN--NLVKKGAMVLLIGSIAFTVFCSYQSI 183
            GVAVVWSI GS++  ++AF+LP+ CY++IR  KK   N     A  LLI SI   V CS Q+I
Sbjct:  350 GVAVVWSICGSSLAFIIAFILPSICYIRIRASKKGHGNPRLLSAWALLIFSICSAVLCSVQTI 412
The following BLAST results are available for this feature:
BLAST of mRNA_H-akashiwo_Contig884.7.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 16
Match NameE-valueIdentityDescription
A0A7S4D5B8_HETAK8.460e-35100.00Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S2UXQ2_9STRA1.400e-1045.71Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
A0A7S2KBB1_9STRA2.130e-946.77Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
B7GA29_PHATC2.440e-848.48Predicted protein n=1 Tax=Phaeodactylum tricornutu... [more]
T0QZ21_SAPDV4.200e-848.39Aa_trans domain-containing protein n=2 Tax=Saprole... [more]
A0A835YKB4_9STRA1.400e-747.76Transmembrane amino acid transporter protein-domai... [more]
A0A1W0A103_9STRA2.620e-751.72Sodium-coupled neutral amino acid transporter n=1 ... [more]
A0A485KWV7_9STRA2.650e-749.18Aste57867_12930 protein n=1 Tax=Aphanomyces stella... [more]
A0A7S3VE83_9STRA2.690e-747.54Hypothetical protein n=1 Tax=Chaetoceros debilis T... [more]
A0A7S4RNK3_9STRA3.430e-750.79Hypothetical protein n=1 Tax=Ditylum brightwellii ... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-akashiwo_Contig884contigH-akashiwo_Contig884:187362..205592 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Heterosigma akashiwo CCMP452 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2850.Phatr49278
PFAMsAa_trans
Model size522
Max annot lvl2836|Bacillariophyta
Hectar predicted targeting categorysignal anchor
Exons2
Evalue3.83e-05
EggNOG OGsCOG0814@1|root,KOG1305@2759|Eukaryota,2XE6K@2836|Bacillariophyta
DescriptionTryptophan/tyrosine permease family
Cds size171
COG categoryE
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1681388023.6412995-UTR-H-akashiwo_Contig884:187361..1876761681388023.6412995-UTR-H-akashiwo_Contig884:187361..187676Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig884 187362..187676 -
1681388023.6830351-UTR-H-akashiwo_Contig884:205556..2055921681388023.6830351-UTR-H-akashiwo_Contig884:205556..205592Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig884 205557..205592 -


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

Feature NameUnique NameSpeciesTypePosition
1681388023.65773-CDS-H-akashiwo_Contig884:187676..1877991681388023.65773-CDS-H-akashiwo_Contig884:187676..187799Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig884 187677..187799 -
1681388023.6679914-CDS-H-akashiwo_Contig884:205508..2055561681388023.6679914-CDS-H-akashiwo_Contig884:205508..205556Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig884 205509..205556 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-akashiwo_Contig884.7.1prot_H-akashiwo_Contig884.7.1Heterosigma akashiwo CCMP452polypeptideH-akashiwo_Contig884 187677..205556 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-akashiwo_Contig884.7.1

>prot_H-akashiwo_Contig884.7.1 ID=prot_H-akashiwo_Contig884.7.1|Name=mRNA_H-akashiwo_Contig884.7.1|organism=Heterosigma akashiwo CCMP452|type=polypeptide|length=57bp
MGLVLAFVLPAACYLKIRWQKKNNLVKKGAMVLLIGSIAFTVFCSYQSIG
HALSEN*
back to top

mRNA from alignment at H-akashiwo_Contig884:187362..205592-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-akashiwo_Contig884.7.1 ID=mRNA_H-akashiwo_Contig884.7.1|Name=mRNA_H-akashiwo_Contig884.7.1|organism=Heterosigma akashiwo CCMP452|type=mRNA|length=18231bp|location=Sequence derived from alignment at H-akashiwo_Contig884:187362..205592- (Heterosigma akashiwo CCMP452)
GGTGTTGCTGTGGTTTGGAGTATTGCTGGATCAACGATGGGATTGGTGCT
TGCTTTTGTATTGCCAGCAGCCTGCTACCTCAAGGTAGGTGTACAATCAC
TTTAGTATGTTGCGCGAGCACATGAGATGCTTCAGGGATTTCAGAACTAC
TTTTATTTTATATAGTGAAGATATTTCCTTGAAGAGATATGGTGCTCCAG
CCTAAGGGAACATTATCCCACAATGCATCATAGCCAGATCACTGGTTCCA
CCATCACGACCCTGGGCAACCTTGTGCTGTACTACAAAGATCCGTAGCAT
AGAGTTGTAATTAATTTATAAAATTGTTATTCGTAATCAAATTCTGAATT
GTGAAATTCTAGAATAATCATTATACATAATAGTAGCTGACGTGGCATGG
CGTCAGATGACAAAAGCGAAGTGGTTAGTGTGTATTTGTCGTATTCGTTC
GGGCGGTGTGACCAAAGGGCCGACCGTTCGCTCGGACACAGCGAGACAAA
TATACTATGGGTTGTCATACTGTTGTCGGACTTGCGGAATTGGCGATGCT
CACACGATTGGATAAGTAGCGGTACATGGGAGTGGAAGGCTCCGCGTGTG
ATGGCTGGGGCTCCGGTCCCAAGCGAGGCTTGCATACATAGTGTGAGACC
CGAGTTCATTAGCTAATGATCAGTATGGTTTTGATGGTTCTACTGACTCT
TCAGTCATTGTGTCTCAGAAGCGTCAAACTCTGGTTGCATGGGGAAAAAA
TGCTCTTGGAACTGAAGGAGTCGACGTGGCAGGAGTTGAGCCAGAACCTC
TAGGAAGAACGTCCAAAGAAGAAGATCACCAGAGATGGGTGGTCGTTAGC
GGAGTGTGGAAGGGAAGGCTGGATTTTTGAGCGGATTGGGGGGATGATTA
ATACGGCAAGAGGGAAGAGAAACGGAGAACAAGCGACGGGTCGCAGAAGT
GGGCTTGTTGTTTGTAGTAGAACTTCATCATTCAGAAAGGAACGTTAAAT
CCCTAGGTTTTCTGGGGCTTTCGCGTACCCCTGTTGGAGTGGTTTTTGGC
CATGTCACGTGGCGCGGCCAAGAACCCCGGATATTATTAGGGGAGAAGAA
GTAGGAGAGAAAGTAGGAATAGTAGAAGGAAAGGGGGGGAATTACAAGAT
TGTCGTCGTTCTTTCTATTTGTTCACAACCATAATTAACGACATACGGCA
GAAAGCTATACTAGAGGTTAGAGGAGAATTGGTCGTTGTCGTGTTCCGCC
CTAACGGGGTTGGGGCTCGGACCCAGCGGGGTCGGACTCCGACCGGTCAA
ATTTCAAATATCAGGCAAAACAAAATATCCGCCCCGATTTAATAGCTTTC
TGCTTTAAATACTAAAGACATGTAAGCCCTAGTTCTACAAAACAATTCTT
TTTGTTTTTAAATGTCTTAAAATTTTCAAAACAAAAACCAGTTTTACTTT
TAAAATAAAATAGAACAACATTTATGAAGTTAAATTAAAACCGTATACAC
ATCAGAAAGTTAATTCTCCTGTAATATTGATGAAAAGTGTGATTATAGCT
TACGCTTTACAGCGTTACTATGAAATATACCTCACCACACGCCCCACTGC
CAGGGGCGATTCGGAAAAGAAATATACCTATGGATTACAGTTTCAAAACT
TGCCCGAAATGTATTTAACACGACTAAACCAGGGCCGTAGAGTGCAGATG
AGGAGGAGGAGAGCGACATCATGTTCGATAATCTCAGCTGGAACTTAACC
CTTTGATAGCCTATTTCTAAAATGAAAATGGAATAATCGACGATGTGTAA
TCCGATTGATTTAGCGACGTCATTCTGGCACAAATATGGTGCAGACATGG
TGAGAAATGCTGGCATTTCAAGAATGGCTTCTGCTTGTACCGTCACACTG
ACTCGCTGAGTATACTACCTGTGCCAATTTTGGTCCTTACAGCTTCCATT
GAAACCCAGACGGACCCTGACACCTCCCAGCTACCCTCTATAAATGTATG
CCGATTTCTGTTGTCCCTACAGCTTCTGCTGCTGTTGTTGGAATTCAGAC
AACAGACCCTGACACCAGGATTCAAACCGAAACTCAGACAGACACTTTGC
TAGATTCTCAAGCTGATACCCAAACAGATGCCCCCGATCTATGTTCAAGC
AGCGCTCAGACCAACCTAGAGCAGCACTTCCTGGGAACACAGACAGACGA
AAAGAACCCTGAGCAAGTCGTTATTGACAAGATACAGACGGTTACTCTTC
CTGCCCCGCCACAACTGTTGAAGGACAGAATGGGTAAGTCATTTGGAATT
TTGATGAAAGAAATGGATGTCAAAGTCTTATGGACGGACAACGACAAGGA
CAAGGAGGATGAAGAAGAGAATCATCTTGAAAGCGAGCTGTTCAATAGAG
ATCCTACACCACCAGTTACACTGCTTCCCCGAGCTCCTTCTGAGGAGCCA
AAGAAAAAGAAGACTATGAAGCCGACTCCCCTTTCTACAAGCAGTGTTGT
CCTTGCTACTGCTATAACTGCTACTGCCCCCAAGGGCTCTACCATCTTCA
CTTTTAAAGGAGTTTCTCTAATTATACCCTCTTCTCCCTTCCATTCAAAA
GTAGTGGTAGACTCAGCAGCAGTCAGTCAGCTGAGGCTGATGATTCGCCT
ACCTCAGCAGCAACTTCCCTTCGTTCACACTCTGAAGGCGCACGCCGAAT
CCACTACTACAGCCAGAGTTTCTTGTGAATCCAAAACCTAGGTCCTCTAA
AAAAAAACAAGTAAGAAAAGGCCCAAAACGAGCAAGAGGTTCGTGGTCTC
CATCTTCAAACACTAAGGTTAAGGTGATCTCTGATATACTGCAACAACAA
TACAATCTCTCCAAGATGTCCTCTGAAGGAAAACCATCTTCTTCCAAGAT
GGAACCAAATTGGGCCAGCTTTTTCCCTACAGACGTACGAACACCCCAAT
ACCATACTTTAAACTACTATAGTCATTGACGATTACGTTCAACCTTCCGT
CTTTTTGATGTAAGGGTCCCATATTAGTATAAGCTGCTGTTGGCAAAAAA
TGGCTGCTGCTGCTGATGACTGCTGCTTGTGGTGCTTGGTGGCGGTGGTC
CTGGATGATGGATGACGGTGGTATGGGTGGGTCTTGCATTGGGATGATGT
GCAGGCGGGCTGCTGTATGGACCGTACGGGAATGATGATCCGATGGGGTT
GTGCGGAAAAAAATGGGATTGCCCGAGGGTCCCCCACCCAAAATGGAATT
GGTCCGCCACTAGCTTAACAGTTAAAAGTGTTGAGAAATGGTGGGTCGGC
ATTACGCCGATTTCCGGATATTGTTGCAGCTACGGAAAAAAAAACATATC
TTCAAAATATTTAATTCGAGTCCGCTAGAATCCGCTAGAATGTATGTGGC
GCGTTTTTTTCCTATAGCGACGCGTGATGTGCCCCACCACCAACAACACT
GCATGGTTGCTCCTTGGCAGTCTTTCCCCTCTCAGGCCTCCCCTACCCTA
GCCTGCAGCGCACCGCGCGCCCGCACCACCACCACCCTGCCTTTGGCACC
CAGGTTGCCACCAGCCTCCAGCTTGTGGTATGTATGGTTGGTGGGGGCGC
CCTGAATGTTGTACTACTGTGGGCCCTGCCAAGGCTGCTTGGTTGGTTGC
TCCCCTCCAGCCTTCTCCTCTTCTCAGGCTTCCACTATTATTTCCCTCCC
TCCTAGCCCAGCTGCAGCGCCACCACGCCCACCCACATTACCACCCAGCA
CTCAGCATCCAGGTTGCCCCCAGCCTCCAGCTTGTGATATGGTGGGTGGG
GTGCCCTGCTGATGAATCTTGTGTTTCACAAATGATTGTCCCTTGCCAAG
CTGCAGCACGCCACGCTCACATCACCATCCTGCCTTTGGCACCCAGGTTT
CCACCAGCCTCCAGCTTGTGATGTGATATGGTGTGCAGGGATACTTTTAA
TCTCGTAGTACTAGGGGCTCTGCAGAGGCTACTTGGTTCCTTGTTCTACA
GCCTTTCTCCACCCAGGCTCCCACTGATTGCCCCTAGCCCATCCTGCTGC
AGCGGTCCGCGCCTTGCATCACCACCCGGCATACCAGCCTCCAGCCTGTG
CAGTAAGTGGGATGCATTGTGGGTCACGACAGGGCATCTCATCAACAATA
ATGTGAAAAATGACTCTCAAGTCCCTTTCAGACTTGAACTGAATGAAGAA
AATTGGCAACGACTCAACTGACTGCAAAAATGAAGATTTAAAATCCCTCT
CTTTGTGCTGCTGCAGCAGCACACCACCAGGCATCATTCAGTACCGAACA
CAATGTTGATCACTTACTAGTAGCTCGATTACTGCGCGCTGATGTGCTTC
AATGAGAGCGAAGTCAGGCTGTGTCGCATATCTACACCACCGCTGTGATA
AATGATAAGCTCTAAGTTCAATATCAATCGTCACCGAACCTTGTTCCACG
TCCAGATTGTTGGTGTGGAAAAGTCCATTGTGGTGCAGCAGCTAGAAGAA
GAGCAGAATGATGATTATTATCATATCATCAGCTGCCCTGCCGCCGTCTT
TCGTCACCACCACCGGCCGTGATGGCGGCGTGGTGTTTTGGGGAGATTGT
TTGATATAACATATATTCCCTAAATTCGATGAAAGGTTTTCGTGACAAGT
TTGATTGCTTGTTCAACTTGAAGAGAATCTCTGGCATTCGCTGTGTATCG
CGAATCTATCTGGGCTAATGACTAATGACTAATGATATTTGATATTGACT
GTTGACTGCGATTTGATTGGACTAATGTTGAAGATTGAAGATTTGATTCA
ACCAACAGCAGTGCACACATGCATATTAAATGTTTTATCGATCTGTGTCC
AGATCAACATAAATCGTTTGATCCACGATACGGATTTATTACCACTTCAT
GGAATAACAAATCAACAATATTTCTACAGCATTTGGTGATCATTATACTA
CTACTAATATATTCAAGACACCAATAGTATATTGTATAATGGTGGAATGG
TCTTTCTAGAAGAATAGCCGCTGAGGAACTTATTATCTTACCCGAAGAAA
GCTATACTTTGAATTCATTGGTCAGAAGAAACCAAGTTTTGAATTCATTA
GTCAGGAGAAACCAAAGAACAGTCCAAGAACAGTTCAAGACAAACTGTGT
GTCATCAGAGAAAATATATAAGCTGCTGCTGCTGCTGGTCGTTATCGTTC
ATCAACAGAGAAGAGGATGAAGAGCAAAGGATCATGGATCATGTTCACAA
CGGTGGTGGCGGTGTACTCGTCACCAACACTGTGACTGCGGCAAAGAGTG
AAATTAATGAATAGAAGAATGAATGGTGATTGAAGAAGTAGTAGTAGGCA
GAAGAGCCAGGTTAATGGATTATTAGGGTAGTAGTAGGACCCAGGTTTTT
ACATTCTTGCTGATTTGGCAGCAGTAGCTGTTCTGCATGATGTGAGCACC
ACTAGTAGTGTAGTAGGAGCATCATTGATTGACATAGTGCTGCTGTACTA
CCTCAGTTCAGTTGTTCTTGTATTATTTTTATTTATTAATTGAAATGAAA
GTGATCACTGATGGTACGGAACAATTAATTAATCTTCTAGCAAATGATAC
GCCCCTCCAGCTCCCGACGTTTCGACAAGAAGTCATGCCTTCTTCACAGA
GTCACCAAGTTGGCCAAACTTCAACTATAATAATAGTACTAAATACTGCT
GCTGATGCTGCGGCTGCTGCTGAGCTGCCAAGCGCCAATACCACACCACA
GCCCTGCCTTTGGCACCCAGGTTGCCACCAGCCTTGGGTGCCATGAATCT
TGACTTACTGTGGGTCCCGTAAAGAATGCTTATTGTTAGTCGCTCCTTAG
CAAGAAGAGACAAGTCCTGTCAAATCAATAATGATGGGGCACAAAAAATT
ATTCAAAAAAAAACAAACAATGGAGCCGTGCAAAAGTGTCAGTGGATCCA
TTCATTTATATATGATGCCAAATAAAGAGGGTTAAACCCCGGTAATCTGC
CTAGAATCCGAAATAAGCCAAGTTTCGGGAATATCAAACCTAATTGCCCT
CCGATTTTGAAAAACTCAGACGCTGAACCCGGCGTTAGGCATATCTCGTG
GCCAGTTCGTCTTCGTTATTTCATCAGGTGTTCTTGGTGTTTGTCATAGA
TATGAGAGTATAAAAGCGACATCTTGAATGAATTCCCTGACCAACAAGCA
GAGATATAGACGAAGCACAAGAAACACGACCACCCGGTCTAACGGAAGAT
GACTTTCTGATTTGTGTGGTGGATCCTAATTAAACTCTTGATCCAAATTG
CTCGCCTTTTAGGAATTGATTGAAAGGCCCCTGTAGTCTAAAACAGGGTC
TTTCAGGTGGTAGCAGACGAATCGGGAAAGGTGTAGCAGTGCCGGAGTCT
TATCTTGGTGACCCTGCTTTTCAGAATGTGCGAAGATCGCAGTTCAAAAG
AGCAGGGCGAAAAAGGAAGAGGCGTTTGCTTCTTCTTCCTCCGTTACTCG
TGCAGGAAAGGGAGATGGTGTAGATTTTCTCACCGTTGACCTCCTTGCCG
ATACGGAGAGAATTGTACTTATGGGCCCACTAGGTGCCGGTACTCCCATC
ATGGGTCCACTCCGAAAGTGAGATCTGTGACGGTTGGTGGCACTACGAAA
AAGCAAGGAAGACATCACGCGAGGAATAGGCGCCGGAGAGAGAAGCTGAA
GGTGCTGAAGGCCGAAGCAAAGGTGTCCCTGGTGAAAATGAAGGAGCTTG
AAACTCAGCTGGAGGAGGAACAGAAAAAGGAGAGCCTGTTAGCTGAAGGG
GAACAGAAAAAGAAGAGCCAGTTGGCTGAGTCACAGGCCCAACTGGAGTT
GGAGCAGCAGAAGAGTGAAGAGCTGGAGCGCCAACTGGGCCTGGAGCAAG
AGAAGGGTGAGGAGCTGGAGCGCCAACTGGGCCTGGAGCAGCGGAAAAGT
GGGGAGCTGGAGCGCCAACTGGGCATGGAGCAGCAGAGGAGTGCAGAGCT
GGAGCAGCGGCTGAGCCTGGAGCGGGTGAAGAGTGCGGAGCTGGATCAAC
AACTGGGGCTCAGGCTGGACCAACTGAGCCTGGAGCAGCAGAAGAGTGCA
GAGCTGGAGCGGGCAGTGGAGCTAGCAAAGCAGGAGTGGGTCGAGCTGCA
GGACCGGAGATGGGAGGCGTTATCCACGCTTCGGATCCAACTGCAGGACG
TCCAGGAGCATGTGCCAGTGGGTCACCGGACGGAGTCCGTGATACCCCGG
CTCGAGGCCCAGCTGCAGTACGTCACAGATGATCTTGACCGGTACGGCGC
CCGACTCCGGGGCCGGCGGCCCCCTGGTCCTGGACACGGCTAGGTGCTCA
GCCCCAACTCAACACGGGCTTTCTTCTTTGGACGTGCAAGCCCTGCCTCG
CGGATAGGGGCTTGCACGTGGGGGGCCGTTAAATCCCTAGGTTTTCTGGG
GCTTTCGCGTACCCCTGTTGGAGTTCCACCAAGTATTATTTGGTGGTTTT
TGGCCATGTCACGTGGCGCGGCCAAGAACCCCGGATATTATTAGGGGAGA
AGAAGTAGGAGAGAAAGTAGGAATAGTAGAAGGAAAGGGGGGGAATTACA
AGATTGTCGTCGTTCTTTCTATTTGTTCACAACCATAATAAAACTCTTGA
TCCAAATTGCTCGCCTTTTAGGATCTGATTGAAAGGCCCCTATAGTCTAA
AACAGGGTCTTTCAGGGGAACAAAAATGATTTAGTGATTCATCACAGTGG
TGTGGGTATGCAACGCAGCCTGACTTTCGCTCTTATTGGAGCACATCAGC
GCACAATAACCTAACTACTAGTGAGTGATTAATATTATGTCTGGTACTGA
ATGATTGTTGGACTGCGACTGCAGTTGTTTTTGCCTTGTGTGTTGTTGTT
TTTTGTCAGTTGGGTTGTTGAGTCGTCGTTTGCAATACTTTTCAGTTGAG
CTGCAAAAAGAGCTTGATTGAGTATCATTTTCATTTTTTCAAATTGCTTT
GTTTCATTGCTGTTGTTGGACAGACAGACTTTATTCACATTCTTTTCATA
TTTTTCAGGGTTTAAGCTGTACTGTCTCTCTGAGAGCTCTTGTCATTGTC
GTGTTGATGTCCCCTGAGCGCGAGCCGTCGCCCGGTAAGGTGTTGGGTTT
AGCCAACCTACATCAACCAAAAAGGTGTAGAATTGCTGCAAGAATAAGCC
CCTATTTTCAGAGCCATGGCTCTCCAGACTGGCTATTTGTGTGCCCACCC
AACTTTGGCACATGCTGGGCCACATCCCAAGGAAGGGCTAGACACCCCCC
CCACTACCCCCCAAGCATTTTTGGAAGCACCTCAAATAACTACATGTTCA
TACATGACTGGTGTAACTTTTTTCCAAAAATGCTTCCATGCCATATGAGC
CAATATGAAGGTAGAGCACCATGAGATAAGCTCTATCGCAAAGGGGCATC
AAAAAGTAAATGGTTGGTAGTTCATGAGATATTAGTATTTCCCCTTTCTA
CTACCCCTTAATCCAGGTGGTCACTTTCAAGGTAAAAAAAAGTCCAAATG
ATGAATTTGATCGTGTTTTAGCTGAAAAATGACCCAAATTTTATTGGGAT
GAAGTGGCTTCCCGCTATTCATTATGGTTCAAAAGTTATTAAAGTTCCCG
CAAAGGGCCCGAATAGGCGTAACAGGCCCTGAATGAGTTGATTGATTATA
CAAGAGCTGAACTAGATGTTTTTTAATCAGTTATTACAATGGGTTAGCAA
GTCACGGACCGGTTTCAGCACCTTCTTGGGGCCATCGTCAGTGCGATGCA
GCTTGCACTACTATACAAGGCTGATGTTTTACATTTTGCTGAGTTAGTAC
AATTGGGAATGTCTGCAGCAGCTGATTGAAGTGCTGCAGGCGGCTTGGGT
GGGGGGAAGCATGCTTCTCCTTCTCCTTTGGAGCGCGTGCGTCATTGTGG
TACTGACATTGCGCATATTGGTTGAGCAATTGGCATAGTCAGCTACAGAA
TTACAGCTGGTTTTGTGACTGTTACTGGTGTCATTCTTGATTGGAACAGA
GCTTTTAACAATGTGTTCCATACTGGTTTGGTGACTTTGCCGTGTCAGGT
GCGAGAAAGTTGTTCTCCAGGTTGGCGGGAAATGATGGCTGTGACTCGGC
GGCAGCACGGTCCTCAGACCCATATAATTGTTGTAATATGTTGTTGTGAC
CCTTTTCAATGACTACCGTGGTAAATTTCATTGTGATTTAAATGGATAGA
ACAATAACTCTCGTCTGTGAGTGGAAATTCAAATAATACTACTAGATATT
AAAAAGATGGGTGGCAGTGGGAGGATAAGTTCTTGATTGTTACGTAATGT
TTTCACTTTAGGTGCATTCTGAGGTCGGGTTGACGGGTTGTCGGGTTGTC
GAATTAATTTCATTGATATAGATCCGGGAGCCAGAATTTTGAGGGTTGAC
GAGTTCAAGTTGACGAGTTGCGAGGGTTGTCGAATTGATTTCATTGATAT
AGACGTAAAATCGACCTTTTTTGCCCTTTTTCGGGGACACTATTATATTA
CTTCCCGGGTCCGAAATCAGCCGCGAAATAGGCGCTCGCGTGCCCGAGAA
CACGGATTGCGGTTTCGCTCCTCGAGAATATAACCCATTAGAGAGGAAGA
AGAAGAATCTTCTCTTCCCAAAGCATTATTCATCTTCCAAAACGCCCGCG
CGAAGTCATCTGGCGTTTGCCAGGGACGACGTGGTGGAAGAAAAAGAAGT
ATTTCTATACATGTTAATAAAGATTAAGGAAATATATTATATTAAAATAC
ACTTCTGCTATACCTAATCGTCTTTCGAGACGAGCCGCCTAATGGGGTCG
GCGCTTTATAGCAGCATGATTGAAAAAGAGCATAGAAAGAGAAGAAGAGG
AGAAGTCTCTCCTTCTTCCCTCTCGTCGTGCCAAAAAACAATCGTGATAA
CGCCACAGCGATGAAGCAGAGGGTGCTGCAAATTCTCTTCTTCATCATCA
TCATCAATAATCAATTACCACCCATACTCAAAGAAGAGAGAATTTTAGGC
AACCCTTCATCCGAAGGTAAGCTTATCCCCCCAACAAAACTACAACCGGT
AGGTTAGGGACGTAGCAGCGCTAGTCCGAGAGCTACTTGGGAGTGGTTTT
GCAGGTGTAAAAGGTTTGGATCACGGAGAGTCCTTTGCCTTTTATATCTG
ACAGGGTGCCCGCTAGTGAACCGAAAAGTTCAGAGCGTGCATTCTCCACT
TGGATTTGGGTTTCTGTTGCTGAAGAAAGTATCTTCAGAACGGGAATCGA
TATTCAGGTGGCCCCTTTTCTCTTTCTTAGTACAGGTGGTACAGCTTTCG
TCTAGCTCAAGACGGTGGAAATTAGGAGTGAGACTTGAGGAGCTTTACAC
TACGCGCCCTTGCTTGTTTCCTGTTTCTCTTGTTTCACCCCTATTTCTCG
TGCTAGCAAAGATGAAAACGATTTGGTATTCAAAGCTTCCTCAACAATCC
ACATTCATAATTTTTTTTTAGAGTATTCATTTGATTATCAGTGCAGGCAT
TCAGGAAAGAAAGGCACACTACTGGGCAGAAGCTTGCTTCCTGAGTTCCC
ACCCTCCCACCCGGGAGTGGGGGGTCCAGACAGGTGGTGCTCTTGGTTGG
GCAGTTTGCTGAGAGAAAGTAGCAGACTGGGTACCAAGTGAGACTTGTTT
CTGGTACCACTTGCGGCAAACCTTATAGGCAGAAGTAACTGTACACTTTA
TTTGTTGTCCTGTTTGATACTTTACTGTTGATTATTATTGTTTTATATTT
GTCATTTTTTATTATCGGCACTGCCAACAAAAGAAGAAACGAAGCTTAAC
GTCTTGCTAGTCAATGTGTTACAAAATACACTATATATATATTGCGAGCA
AAACCTTTGTAACATATTTCAGAGGTGTGAAGCAATAATATAAGTATACA
TACAACACAATACAAGCACGTCATAGCACAACACAAACGAAATATAACAC
TTACAGACCGAAATGTCTCAGCAGCAAAACGAACCGAGGCCGGACCCCTA
CCCATCGCAGTACTGTGAGTTTGAGGGATGCCGCATAAGGCGCCCGTGGT
ACAACTTTGAGGGGGAACAGTGGGGCAAGTTTTGTGTTAAACATAAACTA
GATGGCATGGTGCACACATTCTATCCACCTTGTGTGCATGAAGGGTGCGA
CAAACGGTCTGACCATGGTCCGCAGGGAGCACTGCTCATGGAGTTCTGTG
AGGAGCACAAGTTGGAAGGCATGGTGTGGGATGAGCCCCCTACACCTTGC
CAGCATCCAGGCTGTGGGGAGGAGAACCCCGAGTACTGCTATTTTTATGA
AGAAATGCCAGCGGATGGTGAGATACCGGACGACAAGTTCTGCTTGTACC
ACTGGGAAGAAGGCATGTTACATAAAAGGTATTTTTGCCCTGATTGTAAG
CATTCTGACTGTGAGTGGGGTGCAGATGGTAGGTGTAGCGAGGGTGGTGT
ATGGGATGGCCCCCCCTGTACATACGAGGGGTGTAATGAGATGGTTATGT
ACGACTATTACAGGGCTCCGTACGACTTTCGCCCTGGGTCTGAATATCAT
GGGCGCAAGAAGCTCGAGAAGTTCTGCCACAACCACATGCCACCTCCGAT
CTGCAAAGTAGTCAGGTCTGTAACATCATCTGATGATACAACTACACCAC
TAGCCAATGTGATAAAAGAAGACACAAATCTAACATCATCTCACAAACAA
AGCGAGATTGTTAAACCATCAGATGCGTACCCATCAGATAATGAGTCATC
AACATCGCCGCCAACATCATCGGAGGATGATGCTGCAGTACCATCTGCTG
GGGATGGGGTAGCACCACCATCCAAAGAAGTGTATTCAGATGACGAGAAG
ATAAACACCCAAATTGACGTGAGAAATTGTGCGGAGTGGACGGCTCTCCT
TCTCAGAGCCTCCGCCAATCAGTAGCGTCTTCTTCAAAGAACGAAGGGAG
CGATCTTGAGAGTTCGCCCTCAATAGTCCCCGCCCCTTCAGAGAGTTGCA
CGTCGGAAGAGAGTGGTGACCAGCAGTACTCATCGGACTATGAGGGGAGA
GCGTCCGTCCCAACACAACCCGGCAGCAACGCCCACCTCGGTAGACAAGG
AGGGCGGTCTTTCTGATTTGTCCACCGAGATTTCCGCCGCGGTCGGGGTA
GAAGAAGTCCAAGCTGAAAGAGAGAACGTGAACACATCCATAGAGGTCGG
CATCCAGACTGAGGGGGAGACCCCTTCACAGAGAGTCCAACAATCCCACC
CGTGGAAGAAACTTCTACAACAAGTGTCATCCAGGTCGGCGTCATAGCCC
TGATCCGAGAAGAAAACGAAAGGAGGGCCGCCCGAACAGAAAGAGCGGGG
AGCAGCAGAGGGCCGCCGAACAGAAAGAGCGGGAGCAGCAGAGGGCCGCC
CGAACAGAAAGAGCGGGACCAGCGCTTCTTCTCGTTCCTTGAGGCCAGTC
AACAGAAGTCACAGCAGATGTTTGAAGCCAGCCAGCAGAAGTGGGCGGAA
GAACAAGAGAAGCGTGACCGGCAGTTCGAGGCCAGCCAGCAGAGATTGGC
AGCTAAAAGGGAAGAGCGTGATAAACGTTTTGTGACCTTCTTAGAAGAGA
GCCAGCAAAGATCTCAGCAGATGATGAACGACACCCTCAGCCAGTTCAAA
CAAACAATGAGCTCGATGCTATAGCCCACCACGCACTCCTCTATATTCCG
GCAGTCTTCTGAGCTAGATAGGAAAGCACAAGGGAGTGATGAGAGTCCTA
GGAGGGCAAGAGTAGAGATTGATGAGTCAACTCACACAACGGCATCCGGC
CAGCTAGATCAGAATTCCCCGCTTCTCAATGTCACAATAGAAGACCCACT
GTTGCAACATGTAGAAGAAAGTGATGTTGATAAAACAGAACTTCAAATGG
GTGTTATACCAGAGAGCCCTCGCACAATTAGCGCGAGTGATCTCAACATA
AATAATACCCCAGCATTGACAGTAAGCCCCATTCCCGAAACGTGCAGGCC
ACACTCTCGAACCCAACACATTCCTCCTCGCCCTTGGAACAAGAAATCGA
CATTGACAGGGCGCATCTACGCAGGAATACTACGAGCGAAGAATTCTATA
TCGTCAACTACCTAGTCCAAAACATTCCTCCACACCCTTAGAACGAGAAG
TCGACATTGACAGGGAGCATCTACGTGAAGGAATACTGACGGGCAAGAAT
TTTATATACACCAATCATCGAAAACAAAATCCCTAGAGCATCCTTCCGCT
CAAAGAGAAGAAGTCATGCAGGCAGCAGACCTCAGTGTACTTCCACTACC
AGTGGTGTCTCCCGACCATATAATGGGGACAGTACATCCACACAAATATC
TGCTGAAGACCGGTCCAGTAATAGGTTGAGGAAACTTAACGAGTTGATTT
CCAAATTCAATAAAACTACCGGACCGCGTTCCTCCAACAACACAAAATCC
ACAACCGGCACAAAAGACACAGAGTTGGTCCAGGGCCATCTCTAGAAGTG
CTAGTTCGAACAACAGGCTGATAGGCGGCGAAGCCCGGCCGCCTCACTAT
ACCAACTCACACATGCGACCAGGAAGAAACACAGCATTGTAAGTGATAGC
ACCAGTGTAAAAGGCACAGTTGCAACAAAACAACGTAGAAGCCAAGTAGT
GCTACCTGGTATGGAGGGGGTAGACCCAACAGCAGCAACTCGCGAAAACG
AAATCAGCCCCAGCAATTACCCAAACAGCTCGCCCGTCCATATTAGAAAA
GCTATGAGACCGAGCACCCAGCCGAGAGGTAATGGCAACTTCCAACAGCT
AAATCTCAAGAAGTTATCTAACTCCTCCCGATCCGGCATCCCGCGACATG
TGCGGCAGTCTGAGGACAAAGCGTCGTCAGAGATAGTCAGAAAGCATTCA
ATTTTATAAACAATTTACAAATCTAAATAATATATACTGAATTAACTTTG
GAATCATAAGTCCCCAAAACCTTGATGGAAATAAAATCGGAAATGTAGGG
CAAGCACCTTATTTCCCGATTTCAAAAAATCCATTATGGAAAAAGGGTGA
CCGGAAGATTCAATCTTATAGAACAAGTAAATCATGAGAGCATTTAATTA
TATATATATAAGCACACTGTACCAGTAATAGATAGAGATAGAAAAAACTC
ACTGCCACTCTGGCAGTATGGAGTTCGAAAATATCTCACTATGGTACAAA
TATATACAATGCAGCTCCATTTTTATTCATTTATTATTATTTTTTATTTA
CATTTTATTTATCATTATTATTATTATTCGAACAAAGTGGTATTATTGTG
CATCATTAGGTCTGAAAGCAAACTTAATACACAACATGGAATTAGAACTG
AGAAAAAGAGTGAAGTGTCAGTATAGGAAGGGATAAACAGCATACTTCTT
CTCCCCAAAATTCTCACATGCATATTCCATAAATGGGTTTGACTGCCTAA
AAGCAAGGTACTTTGCTTACACAAAGTCATCTTGGGAAAGGCAGGCTTTC
CTCAGCCTTACAAATTTCAGAACTTGCGCAATAAAAGTATAATGATGATT
TCTTCCCATCTCTTCCCAACCGCAGCCAGGCGGGCACTCAGCAAAAGGGT
GGCCCGAGAGGGCGACCGCCTGGACACGATCGCAACACGGCGTCGGGCAC
GATGACGGGCCAACCACGCGGTGGGAGAGTGCCAGTCACATACTCATCAA
ATACAACATCACATGATGTATGGATGAGGTGCTGTGCTTACACGCAGAAG
AGAAATATTCCATATAGAAGTACAACAAAAGGACGACAGCTGCAGCAGCG
AACAAAATGCATACACTAATACAACAACAACAATGGTATGTATGAAGAAC
AAGCAAAACGATTATACATTGTAGATCAGTACAACTGGTGCTTTATGATT
GCTCACATGCTCCAGTGGTGCCGCCCTGCTGTGAGGGGATGCAGAAAGGG
GGTCCATCAAAGCCTGTCCTGTCCGCCCAGGTGGGTTGAGCGCCGGTGAG
CGGAGATCAGTCAGAACTCCGGCCGCCCTCCGTGGGTTATAGCCTCGCCG
GCTTACCAAGTGCTGGTGGATCTCCCAACTGAGTAACCGAACAGAAGAGT
AGCTACTGCAGCAGCTGTAACGGTCTGCAACGCACCAGCGCGATCTACTT
ATGTTTTTTTTTAGCAGAAAAATGCAGTGTCAGTATTGAAATTCACGGCG
TATAGGGTGTCAGACGTGGGGCAAGTAAGACTGAAGTGATCGATCGCCTC
CGCTAACCCCGCCGCCACCCATTACCAACTAAATGCGATTTTTGCAGTTT
TTTATATAGTATCGGAAAGGGGGGCTCTTCGTTAAACTTGAGCTGTCTGT
ACATTTCCACGCCGGCGCCGCCGTGTGAATGGAGGCAGTGGCGAGATGGC
ATGGCCGGTTTCGAGTACAAAAGAAGACCACTCTAACGAATTTAAATATC
ATCACACATAGTATTTAAAAAATAGAAAGAGATAGAAAGTACATGAACGG
CTATGTTATGAAGAAGTATCGCAATTTGTCGAACAAATTCAACTCCTACA
AAAGGTGGTAGACGATAAAGATAGAGTAGACACCGGCTGGGGGGCTGTAA
AAGTTCACCGCTGCTAGTACACTTCTGCAACGAGTCGCGAACACATGACC
ATATAAAATTTTGCCCTTCTACAATCATACGTGGGCACATAACCTAGAAA
GATTTTTAAACGAAAAAGCGCATGCAACGGTCGCTTTCTCTCGAGACGTT
TCCAAACTCTTCGAGTTAGAAAACGGCTGGGGGGCCGTAAAATCGACCTT
TTTTGCCCTTTTTCGGGGACACTATTATATTACTTCCCGGGTCCGAAATC
AGCCAGCGAAATAGGCGCGGCGTGCCGAGAACACGGATTGCGGTTTCGCT
CCTCGAGAATATAACCCATTAGAGAGGAAGAAGAAGAATCTTCTCTTCCC
AAAGCATTATTCATCTTCCAAAACGCCAGCGAAAGTCATCTGGCGTTTGC
CAGGGACGACGTGGTGGAAGAAAAAGAAGTATTTCTATACATGTTAATAA
AGATTAAGGAAATATATTATATTAAAATACACTTCTGCTATACCTAATCG
TCTTTTCGAGACGAGCCGCCCTAATGGGGTCGGCGCTTTATAGCAGCATG
ATTGAAAAAAGAGCATAGAAAGAGAAGAAGAGGAGAAGTCTCTCCTTCTT
CCCTCTCGTCGTGCCAAAAACAATCGTGATAACGCCACAGCGATGAAGCA
GAGGGTGCTGCAAATTCTCTTCTTCATCATCATCATCAATAATCAATTAC
CACCCATACTCAAAGAAGAGAGAATTTTAGGCAACCCTTCATCCGAAGGT
AAGCTTATCCCCCCAACAAAACTACAACCGGTAGGTTAGGGACGTAGCAG
CGCTAGTCCGAGAGCTACTTGGGAGTGGTTTTGCAGGTGTAAAAGGTTTG
GATCACGGAGAGTCCTTCGCCTTTTATATCTGACAGGGTGCCCGCTAGTG
AACCGAAAAGTTCAGAGCGTGCATTCTCCACTTGGATTTGGGTTTCTGTT
GCTGAAGAAAGTATCTTCAGAACGGGGATCGATATTCAGGTGGCCCCTTT
TCTCTTTCTTAGTACAGGTGGTACAGCTTTCGTCTAGCTCAAGACGGTGG
AAATTAGGAGTGAGACTTGAGGAGCTTTACACTACGCGCCCTTGCTTGTT
TCCTGTTTCTCTTGTTTCACCCCTATTTCTCGTAGATTCGGGAGCCTAGT
GAAAGTCACCATTGTGTTGTTCTGGCCGAAGTAAAAAAAAAAGCATTTTT
GAGTCTCCGCGCCTAGTCTTGGATACAGACACATTCCTTCAATATGTTGG
ATACAAATGTGGGGAGAAACTATTCTTGTGGTCGTTGACCAATCATGTGG
TCGTGGATTTGGAGAGAAATTTCCGAAATGAACGGCAAAGTCCGACAAGC
GTGTACATATCTTCCGAGGGCCGCTGTACTTTATCTCTTTTTTGTCAAAA
CGAGTGTCCATATCAAGTACCATATACTGTAAATTCATTTTTATCCAGGA
TCGTTTTCAAGGAAATTAATTCGACAACCCGACAACCCGTCAACCCGACC
TCAGAATGCACATTATTATGGTTCCTGCATAGTATAGCAGCTAATGCCCG
GAGCCTGCGATGTACCGTTGGAGCCCGGGGGCGGAGCGCGAGCCGCCGCC
CTTGAGAGCCTTCATCGTAAATCCCCTCTCTCAGAGAAGAAGAAGTAGAA
TATAATATCGTGTTCAAGTGGGATTGGGTTGGTGCAGCAGCAGGTGTAGG
AAGGTGGATCGTCATCGTAGGAGCTGCATCATCATCATAAAACATATCCT
CAAAATAATAGGTGAATTGGCCCTTTGTTTAAGGTTTAGATCCGATCGAT
GGTTCTATAGGAACCACATTATTATATATCATTCAATGACGACCACAAAA
CAACAAAGCCATAAATAAACTACACCAATAATATTTTTTTTCATTGTACG
AAGTATACAATGGGGAGGAGACAGGGCTTTTTTTAGGTGGTAATGTATAT
TGGTTGCCGGAAATCAAAGTATTTTTTTTCGGGTATGTTATATAGGTCAT
GACTTGACGAAATGGCGTTGGGTCTCTTAACAACACTGTAATTTTCTCAA
TAAAAAGTTCCACGCAGTACTGTTTTTTATATGCCACGTACGTTGTTACC
TGAGAACAACGATGTTGACATTTTTTTCTTCTATGTTCATCAGATTCGCT
GGCAGAAGAAGAACAACTTGGTAAAAAAGGGGGCAATGGTACTGCTGATC
GGAAGTATCGCATTTACTGTTTTTTGCAGCTATCAGTCAATTGGTCATGC
GTTGAGTGAAAATTGATTCAAATTTTGTAGGAGGCGCTATAACGAAAACA
AATAATAATAATAATAATAATAATAACATGTAGACATTATTGCTCCCAGC
AGCGGCAGCAGCTAGTGATGAACATTCCATTCGTGCAGTCTCACAAAGTT
CATGGGCCCTGTAGTAGTAGTAGTAGTATAATATAGTAATGCTGCAGCCA
ACTGATAGAGCAAACATCTTGAAACCCACCCTCTGTGGCTTGTGGATTGT
GCATGCCCATTTTGTAATAATAAAAACTGATGAAACATTTTTATTTAATA
TTATTACACACCACGAGGATGTGGGAAATAC
back to top

Coding sequence (CDS) from alignment at H-akashiwo_Contig884:187362..205592-

>mRNA_H-akashiwo_Contig884.7.1 ID=mRNA_H-akashiwo_Contig884.7.1|Name=mRNA_H-akashiwo_Contig884.7.1|organism=Heterosigma akashiwo CCMP452|type=CDS|length=171bp|location=Sequence derived from alignment at H-akashiwo_Contig884:187362..205592- (Heterosigma akashiwo CCMP452)
ATGGGATTGGTGCTTGCTTTTGTATTGCCAGCAGCCTGCTACCTCAAGAT
TCGCTGGCAGAAGAAGAACAACTTGGTAAAAAAGGGGGCAATGGTACTGC
TGATCGGAAGTATCGCATTTACTGTTTTTTGCAGCTATCAGTCAATTGGT
CATGCGTTGAGTGAAAATTGA
back to top