mRNA_H-akashiwo_Contig1211.4.1 (mRNA) Heterosigma akashiwo CCMP452

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

Overview
NamemRNA_H-akashiwo_Contig1211.4.1
Unique NamemRNA_H-akashiwo_Contig1211.4.1
TypemRNA
OrganismHeterosigma akashiwo CCMP452 (Heterosigma akashiwo CCMP452)
Homology
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A7S3XXJ7_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XXJ7_HETAK)

HSP 1 Score: 441 bits (1135), Expect = 1.480e-153
Identity = 217/219 (99.09%), Postives = 217/219 (99.09%), Query Frame = 3 
Query:   33 MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRRGGDLTNLNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEFSQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPPF 689
            MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRR GDLTNLNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEF QDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPPF
Sbjct:    1 MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRRAGDLTNLNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEFPQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPPF 219
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A7S4D8I3_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4D8I3_HETAK)

HSP 1 Score: 172 bits (437), Expect = 4.060e-50
Identity = 84/85 (98.82%), Postives = 84/85 (98.82%), Query Frame = 3 
Query:   33 MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRRGGDLTNLNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLK 287
            MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRR GDLTNLNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLK
Sbjct:   17 MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRRAGDLTNLNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLK 101
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A7S0M3X5_9CRYP (Hypothetical protein (Fragment) n=1 Tax=Cryptomonas curvata TaxID=233186 RepID=A0A7S0M3X5_9CRYP)

HSP 1 Score: 91.7 bits (226), Expect = 1.980e-18
Identity = 53/141 (37.59%), Postives = 75/141 (53.19%), Query Frame = 3 
Query:  267 IKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEAL-----NPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEFSQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKV 674
            +K  LL +   SQRGL  TP D      +   +EAL      P A + P      +  RW + WTTE+E+LF+ EKGFFG   + +YQDID+    L N + F  DSY  V S+   +     R  F FS+C+A+W+ ++V
Sbjct:   34 LKQNLLNLCGKSQRGL--TPFDPPTKQRFEELIEALVDQNPTPDAASSP-----LMTGRWEMRWTTEKEILFLVEKGFFGQKCLSVYQDIDSAAGTLANALVFENDSYLKVQSTFLPEPSGP-RFAFRFSACAAQWRGLRV 166
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A7S0HLR2_9CRYP (Hypothetical protein n=1 Tax=Hanusia phi TaxID=3032 RepID=A0A7S0HLR2_9CRYP)

HSP 1 Score: 91.3 bits (225), Expect = 6.560e-17
Identity = 52/146 (35.62%), Postives = 80/146 (54.79%), Query Frame = 3 
Query:  264 DIKAQLLKVVEDSQRGLLTTPEDQEL-INDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEFSQDS-YFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPPFWQ 695
            ++K +L  + E + +GL T P+++   + D + +LEA     K     Y   +  RW + WTTE+E+LF+ EKG FGL    ++Q+I+     L N+I+F +      V SS   D D   +  F+F +CS KW SI +PLPP  Q
Sbjct:   79 ELKEELRGICERAGKGLQTLPQEESARMKDIMDELEANFSVEKPAESPY---MQGRWNMLWTTEKEILFLVEKGLFGLACTGVWQEINLEEGSLTNIIDFEEGKGMLKVGSSFMPDGD---KFTFKFQTCSLKWNSISLPLPPVGQ 218
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A835YUD2_9STRA (PAP_fibrillin domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YUD2_9STRA)

HSP 1 Score: 84.3 bits (207), Expect = 4.080e-15
Identity = 54/158 (34.18%), Postives = 77/158 (48.73%), Query Frame = 3 
Query:  261 RDIKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEF-------SQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPPF---WQAAI 704
            + +K++LL +   + RG+  T E +  I++ +   EAL    K         LN +W L WT E+E  F+ + G FGL   ++ Q IDT    L N + F       S    F V S+   +     RVNFEF SCS +WK   VPLPP    W A++
Sbjct:   63 KQLKSELLSIAGATGRGVSMTEEQRTRIDELM---EALTKVNKVKDAATSPLLNGKWVLQWTDEKETAFLLKSGLFGLKTGEVSQTIDTKQQVLSNAVLFGTGDDVASAQGTFQVGSTAIPETSGA-RVNFEFLSCSIRWKKFTVPLPPVGKGWFASV 216
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A7S2I5Q3_9EUKA (Hypothetical protein n=1 Tax=Haptolina brevifila TaxID=156173 RepID=A0A7S2I5Q3_9EUKA)

HSP 1 Score: 84.0 bits (206), Expect = 4.970e-14
Identity = 52/143 (36.36%), Postives = 72/143 (50.35%), Query Frame = 3 
Query:  270 KAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDI---DTVNN-RLQNMIEFSQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPP 686
            K +LL +    +RG      D+  +   +  L  LNP            L   W + WTTE E+LF+ EKGFFGLP +   Q I   DT     L+N ++F    +  V SSC  +     RVNF F SC+A+W+ ++VPLPP
Sbjct:  289 KKELLALCRGLERGARGDEADKARVAAAMEALATLNPTPNPASS---LLLQGTWEVVWTTESELLFLTEKGFFGLPCLSTSQTIAPADTATGLELRNTVDFDG-GFLRVGSSCAPEPTGG-RVNFAFESCAARWRDMEVPLPP 426
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A830HN40_9CHLO (PAP_fibrillin domain-containing protein n=1 Tax=Pycnococcus provasolii TaxID=41880 RepID=A0A830HN40_9CHLO)

HSP 1 Score: 74.3 bits (181), Expect = 2.400e-11
Identity = 50/156 (32.05%), Postives = 75/156 (48.08%), Query Frame = 3 
Query:  267 IKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEY------RRTLNKRWRLTWTTEQEVLFIAEKG-FFGLPVMDIYQDIDTVNNRLQNMIEFSQDSYFSVMSSCREDQDNTLRVNFEFSSCS-----AKWKSIK-VPLPPFWQ 695
            +K++LL  +    RGL  + ED   I   I+ L     A              + +L   W+LT+T+EQE LFI +    FG    D++Q ID   N LQN+I F     F V SS + D+  ++R NF+F+        A W  ++ +P PP+ Q
Sbjct:   92 LKSELLDFITPLSRGLDASSEDVMFIRGMISSLAEAQQAQXXXXXXXXXXXXXQASLTGSWKLTFTSEQETLFILKNAALFGTEAGDVWQVIDDDANLLQNVITFPPAGRFQVNSSLQTDESKSIRRNFKFNQAKLVVGDADWNHVRTIPFPPYGQ 247
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: A0A835Y140_9CHLO (PAP_fibrillin domain-containing protein n=1 Tax=Edaphochlamys debaryana TaxID=47281 RepID=A0A835Y140_9CHLO)

HSP 1 Score: 71.2 bits (173), Expect = 1.170e-10
Identity = 51/146 (34.93%), Postives = 74/146 (50.68%), Query Frame = 3 
Query:  270 KAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKG-FFGLPVMDIYQDIDTVNNR----LQNMIEFSQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIK-VPLPPF 689
            KA+LL++V+ ++RG+ T+  D   I   +  L A    +     E   T    W L WTTE+E LFI EK   FG     +YQ IDT  +     LQN+I F  +  F V S+   + +   RV F F++   K  + + VP+PPF
Sbjct:   44 KAELLRLVKGTERGVSTSASDLSAIKSAVQVLRAAGEGSATTGAEQSGT----WELVWTTEKETLFILEKAPVFGTRAGGVYQVIDTAGDGSGPYLQNVITFPPEGAFIVDSAI--NVEGPQRVGFSFTAAKLKLPAGRNVPVPPF 183
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: L1JCV5_GUITC (PAP_fibrillin domain-containing protein n=1 Tax=Guillardia theta (strain CCMP2712) TaxID=905079 RepID=L1JCV5_GUITC)

HSP 1 Score: 66.6 bits (161), Expect = 3.510e-9
Identity = 37/101 (36.63%), Postives = 61/101 (60.40%), Query Frame = 3 
Query:  264 DIKAQLLKVVEDSQRGL--LTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEF 560
            ++KA+L  + + +++GL  LTT ED + + + +AKLE+     K     +   +  RW + WTTE+E+LF+ EKG FGL    ++QDI+     L N+I+F
Sbjct:   99 ELKAELRAICQRARKGLSELTT-EDSQRMQEIMAKLESKFSIEKPAESLF---MQGRWNMLWTTEKEILFLVEKGLFGLQCTGVWQDINLQEASLTNIIDF 195
[Close]
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Match: W7T0Y9_9STRA (Putative plastid-lipid-associated protein chloroplastic-like protein n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7T0Y9_9STRA)

HSP 1 Score: 62.8 bits (151), Expect = 1.620e-7
Identity = 39/142 (27.46%), Postives = 63/142 (44.37%), Query Frame = 3 
Query:  267 IKAQLLKVVEDSQRGLLTTPEDQELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKGFFGLPVMDIYQDIDTVNNRLQNMIEFSQDSYFSVMSSCREDQDNTLRVNFEFSSCSAKWKSIKVPLPPFW 692
            +K  L + +E S RG +     +E     I  L A+NP   +         +  W L WTTE+E+    ++G  G     + Q  +    RL+N+IEFSQ+S   ++S    +     RV F +      +K   +P P F+
Sbjct:   94 LKKTLFETMEGSDRGRVNLGGGRERTIQAIQALAAVNPTPNSATSPLA---SGTWDLVWTTEEEIHLFRKQGLLGCTCQAVLQTTEQSTQRLENIIEFSQNSALRIISKLSPEPSGP-RVYFTWEDARVIYKGFVLPFPSFF 231
The following BLAST results are available for this feature:
BLAST of mRNA_H-akashiwo_Contig1211.4.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 11
Match NameE-valueIdentityDescription
A0A7S3XXJ7_HETAK1.480e-15399.09Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S4D8I3_HETAK4.060e-5098.82Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S0M3X5_9CRYP1.980e-1837.59Hypothetical protein (Fragment) n=1 Tax=Cryptomona... [more]
A0A7S0HLR2_9CRYP6.560e-1735.62Hypothetical protein n=1 Tax=Hanusia phi TaxID=303... [more]
A0A835YUD2_9STRA4.080e-1534.18PAP_fibrillin domain-containing protein n=1 Tax=Tr... [more]
A0A7S2I5Q3_9EUKA4.970e-1436.36Hypothetical protein n=1 Tax=Haptolina brevifila T... [more]
A0A830HN40_9CHLO2.400e-1132.05PAP_fibrillin domain-containing protein n=1 Tax=Py... [more]
A0A835Y140_9CHLO1.170e-1034.93PAP_fibrillin domain-containing protein n=1 Tax=Ed... [more]
L1JCV5_GUITC3.510e-936.63PAP_fibrillin domain-containing protein n=1 Tax=Gu... [more]
W7T0Y9_9STRA1.620e-727.46Putative plastid-lipid-associated protein chloropl... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-akashiwo_Contig1211contigH-akashiwo_Contig1211:184259..210018 +
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 ortholog2880.D7FZ57
PFAMsPAP_fibrillin
Model size1147
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorychloroplast
Exons9
Evalue1.01e-25
EggNOG OGs2CNCY@1|root,2QVAR@2759|Eukaryota
DescriptionPAP_fibrillin
Cds size714
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-akashiwo_Contig1211.4.1prot_H-akashiwo_Contig1211.4.1Heterosigma akashiwo CCMP452polypeptideH-akashiwo_Contig1211 184291..209553 +


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

Feature NameUnique NameSpeciesTypePosition
1681387122.6420517-UTR-H-akashiwo_Contig1211:184258..1842901681387122.6420517-UTR-H-akashiwo_Contig1211:184258..184290Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1211 184259..184290 +
1681387122.7337606-UTR-H-akashiwo_Contig1211:209553..2097651681387122.7337606-UTR-H-akashiwo_Contig1211:209553..209765Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1211 209554..209765 +
1681387122.7434707-UTR-H-akashiwo_Contig1211:209829..2100181681387122.7434707-UTR-H-akashiwo_Contig1211:209829..210018Heterosigma akashiwo CCMP452UTRH-akashiwo_Contig1211 209830..210018 +


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

Feature NameUnique NameSpeciesTypePosition
1681387122.6509569-CDS-H-akashiwo_Contig1211:184290..1844791681387122.6509569-CDS-H-akashiwo_Contig1211:184290..184479Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 184291..184479 +
1681387122.658887-CDS-H-akashiwo_Contig1211:184683..1847491681387122.658887-CDS-H-akashiwo_Contig1211:184683..184749Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 184684..184749 +
1681387122.6667113-CDS-H-akashiwo_Contig1211:186702..1867871681387122.6667113-CDS-H-akashiwo_Contig1211:186702..186787Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 186703..186787 +
1681387122.67462-CDS-H-akashiwo_Contig1211:187181..1872671681387122.67462-CDS-H-akashiwo_Contig1211:187181..187267Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 187182..187267 +
1681387122.6865811-CDS-H-akashiwo_Contig1211:203235..2033221681387122.6865811-CDS-H-akashiwo_Contig1211:203235..203322Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 203236..203322 +
1681387122.697712-CDS-H-akashiwo_Contig1211:206282..2063451681387122.697712-CDS-H-akashiwo_Contig1211:206282..206345Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 206283..206345 +
1681387122.7073166-CDS-H-akashiwo_Contig1211:207210..2072981681387122.7073166-CDS-H-akashiwo_Contig1211:207210..207298Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 207211..207298 +
1681387122.7216542-CDS-H-akashiwo_Contig1211:209503..2095531681387122.7216542-CDS-H-akashiwo_Contig1211:209503..209553Heterosigma akashiwo CCMP452CDSH-akashiwo_Contig1211 209504..209553 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-akashiwo_Contig1211.4.1

>prot_H-akashiwo_Contig1211.4.1 ID=prot_H-akashiwo_Contig1211.4.1|Name=mRNA_H-akashiwo_Contig1211.4.1|organism=Heterosigma akashiwo CCMP452|type=polypeptide|length=238bp
MMLNLHSQGGLTILIVLWSFACCWAFTQQGQYLKFSTKTVLKRRGGDLTN
LNASLFNFDFGRKQVKDIEADNRPSTRDIKAQLLKVVEDSQRGLLTTPED
QELINDYIAKLEALNPAAKADPEEYRRTLNKRWRLTWTTEQEVLFIAEKG
FFGLPVMDIYQDIDTVNNRLQNMIEFSQDSYFSVMSSCREDQDNTLRVNF
EFSSCSAKWKSIKVPLPPFWQAAITTSPLLFFFSGMV*
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mRNA from alignment at H-akashiwo_Contig1211:184259..210018+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-akashiwo_Contig1211.4.1 ID=mRNA_H-akashiwo_Contig1211.4.1|Name=mRNA_H-akashiwo_Contig1211.4.1|organism=Heterosigma akashiwo CCMP452|type=mRNA|length=25760bp|location=Sequence derived from alignment at H-akashiwo_Contig1211:184259..210018+ (Heterosigma akashiwo CCMP452)
CCGAAGAAGAGGACCAGCACCACCATCACAACATGATGCTGAACTTGCAT
TCACAAGGAGGTCTAACAATACTGATTGTACTTTGGTCCTTCGCATGCTG
CTGGGCATTCACACAGCAGGGCCAGTATCTGAAGTTTTCGACTAAAACCG
TGCTGAAAAGACGTGGGGGCGATTTGACCAATTTAAATGCATCACTTTTC
AACTTTGACTTTGGCAGAAAGGTCGGTCCTTTCCCTTCTTAGAAGACTGT
TGACACTCCCATATGAGTGAGATATATATATTTCAGCTGGGGGGGGGGGA
TTTCGTATTTGTTTGCATTTGATCAATCGCGTCATCATCATATTTTGTTT
TTAATATTTTTTTTTATTTTTTTTTTGGGGGGCTACAATTGGACTTTTGC
GTGTTGGTCCTATCTAACAATTCAGCAAGTAAAAGATATCGAAGCAGATA
ATAGACCATCTACCAGAGATATCAAGGCCCAGCTTTTGAAGGTTAAGTTA
TGTTATGATGTATCATCAATGTAAAGTCCAAACTTGTATGTATCTTCTTT
TTTTTTTGTCAGACTTTAATTTGGTACTGTAGCAAACTGTGGTGCTGTAC
GCAAGAGAATATATCTTCAATCATATGATTATCTCAACAATAATATGATA
CCAGTATAATATGACACTATTAAGATGTACACATGTTTTTTTAGTAAGAT
CGAACGTGGCAGTCTGGTTTTCTGGGGGGCAGCTGATGGGCATCCCCGAG
ATCTTGATGCAGTCCAGCGCGGTGCTCTCAAGCTTCTTCAGAAGCCAGAA
CTAGTTGACCCAACTTGACCCTCGCTTGAAAGTAGGAGACAGACTGCTGC
AGTGGGCTCCGCGTGCAAACTGCTTGATGGCAAAGGGCGTGGGTTGCTAA
ATGAGCTCAAGCCTATTTTGTAGACCCCACACAGCCACCTCCTCCTGTAA
GAGTCTCTGCCCAGATTTCAGCACGGACAGGGGGGGCACCACGGCACCCG
CACCAACTGCAGCATGCTCCAATATGTCACAGAGCTGGACTTCGCTCCCT
TGAAACATACAAGAGGCCGCTCGGGGTCAGGCTACCAGGAGTATGGAACA
ATCTCAATCACAACGTACTTCAACAATGCTCCATTGAAACATACAAGAGG
TCACTCAGGGTCAGGCTACCAGGAGTATGGAACAATCTCAATCACAACAT
ACTTCAACAACTGAAAACATAGAATAGAAGAATTCATGCCAATTAGGAAG
CAGCTTCAAAATCAGATAAGGATGGGTGGTAGCAGCAGTAGATTACTTCT
GGGTTATCGTTTTTCACTTCATGTTGAACGTAGAAAAAAAAAAAAAATAG
TGTGACATACAAGAGGCAGACAAGGCTTAACCCTTTCCACTCACTCCTTC
CATTGGAAAAAAAATGGCAGAGGCCTAAACTTTAGAAGCCCATATCTCAA
CGAGTTTTTGGTCTTTTTGAGCTCTAAAAAGCTCTATGATTTTGTTTGGA
TGTGCTCTACACTGCTGGCTACTTGCATAATTGGCTAAATTCATTGTCCA
GTCAGAAAAGAAATTGAAAGATCATGTCATTTTCTACCAAGAAAGTGTCA
ACTGTAAAATAACTGCCATCCCAACAACATCAAATCATTGCATATTCATG
AGAGATTTGTCTTGAGAAGGAAAAAAAGAGAAAATAATTATTTTTCCCGA
TCACATCCACGTCATCAAGATCACGTCAGCGTCACCACCATTTGGACCTA
GTCAAGTACGCGAGTTTCATCCTGGCCTTCTCCTTCTGTTGCATACATTC
GTCCGGATCCAAATTAAAAGTATCCAAAGTTCCTTTTTTAATTCTTTTCC
ATTTACACGGAATTAAAGTATTTTATGACCTCTCCTTCAACTTCTTTCTC
CCGGTGCTAGAGGAGATGAAAGCGAAATTGGCAGGATTTTTTGCGGGAAT
TTCATAATTTAACAGAAAACTTTTGAAGATTTTGGCCTATTCCAAATTCG
AAAGATTCCGGTACTTTTTGAAAATTCCATAATTTTTGTGAGCACTTTGG
ATACTTTTAATAAACATAGAGAACAGTTTTCTTTCGATCGTCATCGTGTC
ATCATCATCAACTTCAATCACGCCAAATGATTCCCTGGTCTTCTTGTTGG
GGTCTGCTCTTTTGGCTCTTTTTTCCGAGTGCGCTGGCTCTTTTATCCGA
GTGCGGAGGAACTTGGCCAATGGGGTACTGTTCAGGAACCACAATTCTGA
AGAGCCCAAGGGTATATCTGCTGTTCGTACGCTTGGACAGATCTGTCCAA
GAAAGGAGCGGAAAGGGTTAATTAAACCAACAAAAAGGTTCCAATATCCA
GGCAGCCTGCCGTGGGAAAACTTAAGTCATTCACTTCTTCATAAGTAACG
AATACAACTTTTTTTTTGTTTCGAACACAATTCTTAATCAAAAGGTTGTT
GAAGACTCTCAGCGTGGCCTCTTAACAACCCCAGAGGATCAAGAGCTTAT
AAATGACTACATCGCTAAGCTTGAAGCCTGTAGGTTTTTTTTTATGTGGG
CTCCTCAACACTCCAGACCACCCGCCTATCTCTTTCTTTTTCTTCTTCTT
CTTTGTAAAATATAATAAACTAAAACCAATGCACAAAAATGATGTGCTTG
GAGGATGTTTGTTTTACTAGCATACATACATCCCTCTGCAACAATCATAT
TACATTACATATATTGGAAAATTCTGGAAGTGGGGGGAGGCTGGGGGTCA
TAGGGTGCTTCAGCTACTGTCGAGGCGCATCATTTGGTAGTAGATTGGTT
GTACATTTCATCCCATTCATCATCGTTCAAGTCTAACGAAAGATAATAAT
GGCCGCCTCTACTGTTGTTAACATCCACCACTATACACTATTTTATTGCC
TCTGTATGTACATTTAATTTAAGTAAACCCAGCAGCCAAGGCTGATCCTG
AAGAGTATCGCAGAACTCTCAACAAACGATGGCGCCTGACTTGGACCACT
GAACAGGAGGTTGGTGGTTCTGCTCTATAATAATATAATATAATATTATA
GTATACATATATAGACCAGCATATGCGCTATCAATACTCCTACACTATTA
GTGGTGCTCACATCACCAAACAACTGGTCAATCAGCAAGAATGTTAAAAT
CTGGGCCCTACCCCCCCAATATAATATAATACAATAATATCTACACCTTA
AGAAGTTTGCTTGTTTCTCTCTGTGTGTGTCCATCAACTGCAGCGGCATT
TCACGCATACTACAGTAGCAGCAGCATGCAACAGCATTAGCAGCAGCATC
TACCAGTTGCAGTCAACACTCAAGTTTTTGCAGTTGACATTTCATAGCAG
TAGCATAACAGTTGTTACATAGTTTCATAGTTTGCAGTTTACAGTTTTTT
TTTGCAGCTTTTGTGTTGTCAGTTTGAAACAAAAAGAAGAAGAAGAAGAA
GAAAAAGGTGTGACAGCCCATATAATGCCATGTGACATGTGACCAACAAT
GCACGACTTACTAAACATATATATACATAATCAATGAGAGATTGATAAGG
ACACTTTTTATAGTCCAACAGAACTTCATAAGAACTAAATATTTCGATCG
AGAGTCCGATCTTCTTCAGTATTCCCAGCCGCTCTGGATAATTCAGCTGG
AAAGTATACCAATGAAGTTCCTCTTACAACATCATCACCACACACCCCGC
TACTCGCTCGTTCTCACAACAACGATAAGAGGAGGAGGATGCCTCCTCCC
AAAAATATTCAACGGAAATAAGGCCAAGATAAAAAGAAGGAAAGAAAATC
AACGAAAACCCGTCAAAATGGTAGGATGACAACAACAACGTCAAGGAGAG
AAGTAATGCCTATCGTAGATGATAATGGTGAAGTTCTCGAGTTGGGATAT
GTGGGGAAGGGTGAGAAGGCGATGGGGGCGGGATCTTACAGTGTAAACAA
GAGATCACAGGCCGCGCTAGTGAGGGAGGTGAAGCACAAGGTTGTTTCTG
CACTTAAGGAGGCGGGCACAGATAAGGAGAAAATGAAGGAACTGTCTGTG
GCACATCCACAAATGGCGTCCATGTATCTGCAGATCAAGCATCACAAACC
AGAGAAGGGGTTCCCGGGAAGGGAGGTGGTAGCTCAGACTGGCGATGCTA
CGTATCATCTCTCCAAGGAGCTTACAAGAATCACCCAACCATTAGTGGAA
AGACTGCCATCCTTCATCAGGAACACAGACCACCTTGTCCAACTCGTAAA
CCAAGTGAGCGGTCCTACCAGGCAACTTCCTCTTCTCAATGGATGTAGTG
GCGATGTATCCCAGTGTGCAGAGGGAACCAGCACTGCGGAAATGGAAGCC
CAGCTTAGTAAGGACCCCAAGCTGAAAGAAAGAACTAAGTGGAAGCCAAA
GCAGATTAAGAGACTGGCAGAGGTCTGTTTTGAGACCCACTTTGTTTTTA
TTAATGGGAAAACGCACACACTGTCTGACGGAACCCCGATCGGTAAGTCC
ATCTCCGGTCCAGCGTGTGACCTGCTCATGGGAGCACTAGAGCGAGATTA
CATCTTGACGAGAAGGAACAAGTGGAAACCAGACTTCTGGGTGAGAATCA
AGGATGACACCCTCAGCCTATGGCGCCACTCAAGAGAGGAGTTTGAGATG
TTCAAGGAAGAACTCAAGACCCTGAAGCATAGGGATGAGAGGTTCAAGAA
CATAGATTTCACTTTTGAGGTAGAAAATGAGGTGGATGGCAAGCCTGGTA
TCCCATTTTGTGATGTTCGTCTGATGTGCGATTACGTAAAAGCATGCATA
AGAAGAGAGGTGTACAGGAAACTCTCCAACACCTTCGTATACTTGAATTT
GAAAAGTCCAACGGTCCACAATACCTGAAAGATGGTATTCTACGTGGTTT
CCTACATAGAAACGATATCGTCTCCAGCACGCCGGAGGCCCATGCCAAGG
AGTTGGAGCTTCTGGCAAACATCTTCATCAGGAACGGGTATGATCCGGAA
CGCGTTGACAGGATCATTAGTAGCTGGGTGCCCAAGGCTGAGAGGGACAA
CACCACAAGAGAGGATAGGGAGACAGAGACCCAAGGGCAAGAAGAAGAGG
CTAGGGTGGTTCTCAAGGTGCCGTATGTGAAGGGGGCATCTGAGAAACTG
AAGAAAAGCCTGAAAAAAGCCGCAGGGGTGGATGTAGTCTTCAGTGGTGG
CGTCTCAATCAAGCAAAAACTGTGCTCCAAGCTCAAACCAGCGAAAGACC
CAATGGAGAAGCAGGGTACCGTGCAAAGACTGCCCCCGTCTATACATTGG
TGAGACCAAATAACCTCTTGGAGAGAGGGTGAAGCAGCATAAGGCTAAGA
CCGCAGCAGCAGACATGCTGAATGGGCCTGCCTACCACACCTTCCACCAC
GACCACAAAGTGGACTTTGAGGGCGCGCTCATACTGGATACAGAGAAGCA
GACATGGCTGAGGAAGACGAAAGAGGCTCTGTTCATCCGGGCAGCAAACC
CTGGCAGAGAGCTGACACAGGTCATGAATCAGGACCGTGGCTATACCATC
AGCAAATGCTGGGACTGGGCCATCCCAGAGACCAGGCGCAAGATGGAATG
GGCGCAGAGAAAGAAGAACCCCAGGCCAAGTGATCATTCATGAGCAGCCA
GCCTCTTCCTTGTTATCGTTGTTGTAGTCGTTGTTATTGATAAAGTAGAC
CTACTGTCGTTAGCGATTAGCTGATTTTCTTCTTCTCGTCGTGAATTGAT
AATTACTTCTTCTCCGAGATCTTCTTCTTGATGCTACTGTTGACATTACT
TCTCTCCTTGACGTTGTTGTTGTCATCCTACCATTTTGGCGGGTTTTCGT
TGATTTTCTTTCCTTCTTTTTATCTTGGCCTTATTTCCGTTGAATATTTT
TGGGAGGAGGCATCCTCCTCCTCTTATCGTTGTTGTGAGAACGAGCGAGT
AGCGGGGTGTGTGGTGATGATGTTGTAAGAGGAATTTCATTGGTATACTT
TCCAGCTGAATTATCCAGAGCGGCTGGGAATACTGAAGAAGATCGGACTC
TCGATCGAAATATTTAGTTTTATGAAGTTCTGTTGGATTATAAAAAGTGT
CCTTATCAATCTCTCATTGATTATTCTCATGAATCCAATTCTGGCGCCAC
AAACTCAGTATATATATATATATACATATCCAACACTGAGTGGTATATAT
AATGGAGGCGGCTGTTTAGTATCATTACCAACTCCACAGGTGATGTCAGA
AGCGCACCCCATTGCTCCGACTCGCTGGACAGAGGGGTTTAGGGCGACCA
CAAAAGACATCCGCATAGTAGCAAGCAAGACACATATTTTAGTTATCCTT
CCAGTGGCTCTAGGTTGTGTTGTGTATTAAATGAGCAATTCTCACCCTCG
CCAGCGACGCAACTTTACTCTGGGCAAGTAAGCCTAAGCCACATGGGTTG
TCCAACAGAACAGAGCAAAGTCTCGTCCAGGGACGCCAAAAGCGTACTAT
ACATAGTCTTAGCGAAGGAGGCAAACAGGGCATAGTCTCGGGCAGCGACG
CCAAAAGCGTACATACTAGATAGTAGTGTCAGCGAAGGAGGCCACAAGCA
TTGATGACCAGTGCGATGTCCCGATGAGCTGGCCAAGAGTTTCAGCAGAG
CACGAAGTCGAGTGGGCGTATGTAGCATATTAGCAAAAGTTTAAAAAGTA
TTTGCTTGTCTCTGGAAAATCAGGCATTACTTATAGTTGACGACATTAGC
AGCTGGGAATGACCTCGAATGTCGCTGCTTTGGAAAAAAATGTAGGTTGC
TGCACACAAACAATGTGCTGCTACTGACTGCTGCTGCTGATCTTTATATA
ATGATGATGATGGTGCTGCTGCTGCCCTCTAATGATGCACTCCGATTGGA
GCCCCCCCCGCCTGTTGATGTTGACTATGATGATGAAATGATGATGATGA
TGATGATGATTGTTAAAACATACATGTTTGTACATTTTTAGCCTGTGCCA
TGAGGTCAGGCGAACACCAATGTAATGGGCATTTTATTACATGGCTGAGT
TTCTTGAGGAAGTAAGAAGCTTTCCGAGAGAACACAGCGAGTTAGTATAG
AGAAGTGGTTGTGGTGGTCATCGAGAACGCCACTATAGGCAGCAGAGTGC
GGCGTCGAGCTTTGAGGCAAGCGATAGCGGGTTCGATCCCTAGCGATCAA
GTTCGTGTATGCGCTCACCTCTAGCAATCGAGCGTATCTCATTGGCAATT
CGCTTACTCGGGAAATTTCTGGGGTTCTGAAGAAATTTCTCGGGGGCACG
CGAAAATGGCCTTCGCGATCGCTGTAGATGTCGGGACGACTTGTCACGAC
ATTGAAAGCTGAGCGCCACCAGTCGTTCAGTAGGCCGGTCTGAGTAAGTT
AACTTCCGCAGGCTGAAAAACGGACTTGGGAGCTACGGTTGTGTAGCGAG
CACAGGGAGATGTGGGGGGAGCCGAACTTCCTGGAAACACCGGCGAGAAG
GAGCAGACGCCAACCATCGAGATTGAGGGGCCGAGATGAAAGAACCATTA
CGATGAGGCCTGGAGAGCGGGAACGGAAGATGGTGCCACACGGATCAAGG
CGCTTCGAAATGCAGTCCATAAAAATAGACTGGAGGTTCAGCAATCGTCA
GCAATGTCGAAAGATACTCGTTCCGATGAAGTTGTCAGAGATCATGGCAT
CAGGCGACATTGGAGTGAGAAGCCTGCCGGGGTGCTAGAGGGGGCATCGC
CTGAACAAACGTAGAAAAAAAAAAAAAAAAATTACAAAAACTTCCTATCT
TGTTGTCGGTGTACACTACTACTTCTTCTCTACATATCATAATACGACAA
GCACTTTCATACCTCGAAGTGTGATTGTTCAACACTCCCTCTTGACCAGT
CAGAACCGGAGGAGGTGAAGTCTGGTCAACAACATCAGCACAAGAGGTGA
AAGGCACTGTCTGCTTTCGCTCCCAGGCTAACCACACTGCCCCAACATGG
GCACAAACCCAGGACAACTTACACATCTATTTCCAGCAGGACCAGTGTCA
AGTGGTGCGTGGTGGCAGTTCCGCCCCCGCGTGCGCCAGGCGGCGCCGGG
CTCAACCCCGTGTCCGGCCTAGCGTCTTTTCCATCGACATACGCCAGGCG
TTGTCGAAAATCTTCACTTGCTTCGGGCTCGGGCCGTCAGCAAACTGCTC
CATCATCAACCTCATTGGTGATGAAAAAATCCTCTTGAGGTGATCAGGCC
TATAAGCAGTCAACAGAGAGGTGCACTAACAAGCAGATGCCTCGTGCAGG
TGGCAACTCCCCCACAATGGCGAGCGCAGGAGAGCGTAGCTCCATCCACC
GTGAAGGTAGCCAGGGGTGGCCCCAGCCGCAGGAGGCGCAGCCATTGGCA
GGACCAGGTTGGTGAGAAAGTGTGCCATGGCACCAACTCCCCCAATAGGC
CGCAGGCTCCTCGAGCCACATCAGGCCAAGCATGCTGCAGGCTCTCCAAC
AGCCACATCAGCACAACATCCGCGTCACAGTTGGTCGAATATCCAAACGA
CCCAAGTTGCAGAGAAGAATCACCAGAGCCAAAGTCCAAAGATACAGGCA
CAAGTAGTGCCTCGCCTCCAGCTGTCTCCAACCCCCATCCCCGTCGATCC
GTTACTTCGACGGAATACCAGACGAGATGATCTGCTCGTATTCAAAGGAA
TGTTCCCAGGGCATCAGTAGAGAACGATATCCAAGACCGAAGTCAACTGC
GATGTGCTAACGGTCCTCGGTTGAGAAGTCCGTTTCTAGCCGAGGTCCCC
GCCCCTAGTGAAGGAAATGACGGGCTCACACGTTCGTCTTTGTTCTTGAT
CAGTTGGAGCACCCAGCTGCTTCGTGTGATCACCATCTATCGGTCTTCGG
CAAAACCTTTGTCGTCGAAACAACGCGTCTTATTTTCTTTGTCTCCTCCT
CGTCAAGCTCGTACTCCTCCCCAGTCCGCGCCATGGCTCAAGGGAGTACC
CTAAGTACCCCAAGTACCCCAAGTACCCATAAGTACCCAATCTGTGGTAC
TTGGGTACTTATGGGTACTTGGGGTCCTGAGTGATTTTTAAATTAAAAAA
AAATAGCTATATAAAGCACTAGAGCCCAATTGAACTGTTGTGAGTCGAGA
AACGTTATTCAGCGTGCACATTTCCCGAGGGCGCTAGCCCGAGGGAAATG
TGCACGCTGAATGACGTTCGAGACTCACAAGTTCAAGGGCTCGTAGTAGC
TTTATATTGCTGTATCCGAGGGGCGACAGCCATTTGACCTCCTATGAACT
CGACCAACTACTGTAGAAGCCAATAAAAACCTCTTGTATCCCTGAAATTC
CCAAAAACGCTCAGCCCTATAAGGGTGACGAGGTTTTGACGTTTTTTTCC
CCGTTTGGGCCGACAAGATTTTTGACATGAAATTCTGATCTTCCTTCATT
TTAAGAGAATAGTACTGCACCACTTCCCGGGGTGAAAGTTTTTCAGGTGC
CGAGGGCCCCTTGGGCCGAgGGATCGGTTCCTTGGGACCGCAGGGTCTCA
CTAAAGTGCGGGGTTTCTTATTATTTCTAATTTTTTGAATTAACGGAAAA
CGAGTGCCGAGTAGTATGCACCGGATGGATTCCCTCACCTTGGTGTCAGG
TAGTTTTTGTGATGATTCGGATGCTATAGTACCGGTCGCGTGGCTAGAGG
TCGTCTAGATCAAGGCTTTGGTTTGATGGATCAAGCAAATTCAATACCAG
TAGGGACTCTTAAAGTCAAGTCAAGTCAACATAAAGGTGGTGTCCTGAAT
GTACCCACAAATGAAACTTTAGGATTTGAAGTTGGATATAAATCTGCTCT
CGTCGATATAAATGGAAGCTCAGTTTAAAAAAAGCGGACATCAAAAACAA
TGAAAATTTTGGGTTTTAGACTCCAAGTGGGGAATTAATCTGCGTGACCG
ATAGGACAACCACAAGTATGTAAATCAACGATTTTCATTTTCCCCGTCTT
TCCTCTTTCCTGTTCATATCGTATCTTCGCATTACGAAATGCGCACTTTC
ATCAATGCGCGCCGTCAGAATAGGATTATCTATGATATCATCACGCTGCT
TTCTTGCAGCCCCACGAAATTTCTCGCACATTTTCCAGAATATGAGCAAC
CAGCTGAATTAAAAAAAAAAAAAACCGTGCGGGTTTAATTTGTAGATGAA
ACAAATGAGTTCCCATGATCTGAGCATCTGTCATCGGCACTGCCGAATGA
CCCTCTACACCCATCCTCGGTCGTGGTGGTGTGTGGTCGAGCTCAATGAT
GACGGATGCAGGAGGCGCCTCCTGTATTCATCATCACTGTGTACTCCCAC
TCATCACAGAATCGTCCGTGTCATGGTCGAGCATCGCAGCTGTGGAGCTG
GATACGAAGTGCTCCGTGCACTTCGGCATCCGGCCCACAGCCATGATGTT
CGGACTTTGATTTGGTCAGACTATGATTGTTCTGGAACAAGAATCTTATA
AAATTCTAAAGAAAATTCTGAAACTCCAGGGCGTCAACCTGAAATCCGAG
GGCGTCAATCTCTCGTCCGAGGGTGCCAATCTATGCTTTTTGCACTCCCT
CCTATATTACCCCCAGAACCCTCCCAAAATAGGCATTTGTGAAAAAAATA
GTCCCCGAGTTTTCCTGTGCAAAATGCGCTTGTCGCCCTGAGTGGGATAC
AATATTTTTTTGGGATCAGCAGGTAAGGGATAGATGGCCAATCTGTTTTT
CCAGCCTTAAAAATGGCCCAATTTTTTAAATTTGTAGTTTGAAATTCCCA
TCACCAGCCTCCTCCCTCATCCTGGGTGGCCCTCCTCTTACCATTTCTAT
GGCCTCCAAATTGAGGACTGGGCACCTCTTCACATTTTTGCGTGTGCCTG
GTTTCAAACTGACGGCAACACGTGCTGCTTCCATGTTGTATAGCTCCCCT
TGAATTCGGCCCCACAGTCCTTGTTGTATTTGTCTCGAGATTTTATATTC
GCACATTATGCCATGGCGCTTCCACCCACGCCGCTTTGCCCTCTTTCTCT
TGCGTTTGGGTACTGCCATCACCCTTTTCTTCATCCTGATTTGCTTTCTC
CATTTTGCGAAGAATTGAAATCGTATCTGTCGTCTATGTGCAAATGGTTC
TTCGCTTCGTGGTATCTGCTGCTGCGCGTTGTCCTTGTATTTTTCGCTGG
GGAACTGACAAATGCATCAAACATAAAAGCTCGGATTATTACTCGTGTCA
AACATACCCGCCCGCCCGCACAATTTAAATGGGCGTAAACCTATATCACC
GAAACAATTAAATGCCCCCAACACAAATAGGCGTCCCCCAAAAAAGAATT
GGTGCCCCCCTCAGGGAGGCACCTATTTTTTTAGAGGCTGGTGTCAAAAC
AAAAGTAAAAGTAAAAAGTTGGAGTTAACTAACTCCTCGCCACAGAAGTT
GTCTGTCATATTTGTAAAGTAAAAGTAAAAGTAGAAGTAAAGAACTCGCC
TAGAACGTTCTTCAGCAAAAAAAATAAAAAATAAAGAATACTCCTGCTTC
TTGTCTGTCCTTCTTGTATGTAGAGTGGCAGCAACTAAAGAAGCCGCTTC
GAACAACTCCTCGCTCATCCCACCCACTGTATGTAGAGTGGCAGCAACAA
CTACAGAAGCCGCTTCGAACCACTCCTCACTCATCCCCCCCCCCATGTAA
ATTGAGTGTGAGCAACTACAGAAGAAGCTGCTTTGAATCACTCTTCATTG
ATCCCTCCCACTGTATATATAGTGGAAGTAGTGGAAGCAAGTACAGAATC
TGTTTGCTTGGAATCACTCCTCACTCATCCCCCCCCACCCACTGTACATA
GAGTGGCAGGAACTACAGACCTACTCCAAAACACATTTGTTACTCATCCC
CCCCATTGTATATAGAGTGGCAGTAACTACTACAGAAGCTGCTTCAAACC
ACTCCTCCTCACTCATCCCTCTCACTGTACATATTCAGTGGCAGCAACTA
CAGAAGCTGTTCCGAAACAACAACACTGCTCACTCATCCCTCTCGCTGTA
CAACATAGAGTGGCAGCAACTACAGAAACAGCTCCAAAACACGACTCACT
CATCCTTCCCACTGTAAATATAGTGGCAGCATCTAAGCAGCTGCTCCAAA
ATACTACTCACACATCTCCAAAGACATATGTCGATGAGTGCGAAACAACA
CTGGTGTATTGTTTTTTTTTTTTTCCATGATTGCTTAAACGTATATTGAA
AAAAAAAATCACTCCCACTGTAAGTAAAATGGCAGCAACTACTAAAGCTG
TTGTTCCGAATCACTCCTCACAGGGCCACATTCTGTCTCCACACGCTGTT
TGATCTCCTTAACCTCATTCCAGGAGCCAAATGTTGCCTCGGCCCAAGTT
CATGATGACATTAGTAAATTGAACTCTGTTTCCTTACTAGGAGATATATA
ATTAGGACTTTGTCTCCTTTCGTCAATACCCTGGGCTTTGTTGCCCTTCC
TCCAAAAAAAAAAAAAAGCGCCTCCCTGAGGGGGCGCCTATTTTTTGAAG
GGGGCGTCTTATACCATTTGGAGCGTGTAATTGTTTCAGTGATATATTTA
TTTAAAATTTTGATATTCGAAATTCAAATTCAAAAAGCGGCGGTTTCGGT
TTCGTTGGAACATATTTTACGATGAGAGACTTTGACATGAGACCAGCTGA
GAAGAAGAGGAAGTGTTTCACAGAAATGTGTCCGCGAGACGCTATGTTTG
ATATATTTGTCGATTCCCCATTTTTCGCTTCTTCGCAAGCCTTCTTCTTC
TTCTTATCCCTTCTATATTTTGCAGTTTCATTTTTTTATTGCGCATGGTT
TTGGTACGGGCGGAAGTTATGTCCGCAGGGGGCAAAGACCGGGCCCGCCC
GGCGTACAGTGGCGGGGACATTTTTGGCGTGCATTTTGGGTACTCGTCGT
ACTTGGGTACAGCGTACTCAAGTACGATAAGTACGAGAAAAAATCGCGTA
TTTGCGTACTACCTCGAGCCATGGTCCGCGCAACAAAAACTGCTATTCAC
AGAGACACCCAACTAACGGATGAGGAATCGCCCCAGCAGGCAATCCCCAT
ACGGACTTCCTTAAGAATGTTAAAACATACGTGTTTGTACATTCTTAGCC
TGTGCCATGAGGTCAGGCGAACACCAATGTAATGGGCATTTTATTACATG
GCTGAGATTAGAATATATGTTTTCGGCTACTGATGGATTATCGTCTAATA
TGTGATTACTTTCCATTGAGTATGAGCATAAATATAATCCAACGAAATGT
TCATTACTGAATATTTGAATTGTTTAGTGACCCTTATCAACAAAGGTGCC
AAGCCTTAGGATTCCTGGACACCCCTCAATGGTAATGAGTAGGTACTATC
ACTATACAACTTCTTCTTCTTCTTCTTTGCAACAACATATATATCGATCA
TCGCCGCCAATGACTGGAGCAACAAATGTGTAGCAGCCACTCGTCATCTG
CTCTTCTGGCTGCTGCTGCTGCTATATCAGTCTTGGCCGCATGCTGCTGC
TGCTGCTACATCAGTCTTGGCCGCATGCGCTAAAGCAAAAAAAAAATAAA
TCCACATGCTGCTGCTGCTGCTACATCAGTCTTGGCCGCATGCGCTAAAA
CAAAATAAAAATAAATAAGTCTTGGGCAAAATGACGAAATGCAATATCTG
TCCCCAGACTACTGCATCGTCTGGCTTTCTCCTCTTTTCGCCAAGCCTCG
GGGTTACAGAAAAATTTTGTAGTCCTTGCGGATGAACTTGAAAGTTCTTC
CCCCGTAGTGTCAGCCTGTAATTGTTGTCCACATTCATGGTTCCAGGCAT
TCTATCATCTCCTCCGTCCTTGCCTGGATTAGGATTGACTCCATCATCCT
TCTTCTGTATGTATTTGCCCTCTTTGGCTACTATATGCGACTTCTCCCAG
TCGGGGTGATGAAGCATGTTCACAGCATGAAGAGGAGAAGCGAGCAAGAG
TGGTGTGGCCAACCATGCTGTGAACATGCTTCATCACCCCGACTGGGAGA
AGTCGCATATAGTAGCCAAAGAGGGCAACACATACAGAAGAAGGATGATG
GAGTCAATCCTAATCCAGGCAAGGACGGGAGGAGATGATAGAATGCCTGG
AACCATGAATGTGGACAACAATTACAGGCTGGACACTACGTGGGAAAGAA
CTTTCAAGTTCATCCGCAAGGACTACAAAATTTTTCTGTAACCCCGTGAG
GCTTGGCGGAAAAGAGGAGAAAGCCGTACGATGCAGTAGTCTGGGGACAG
ATATTGCATTTCGTCATTTTGCCCAAGACTTATTTATTTTTATTTTGTTT
TAGCGCATGCGGGCCAAGACTGATGTAGCAGCAGCAGCAGCATGTGGATT
TATTTTTTTGCTTTAGCGCATGCGGGCCAAGACTGATGTAGCAGCAGCAG
CAGCATGCGGGGCCAAGACTGATATAGCAGCAGCAGCAGCCAGAAGAGCA
GATGACGAGTGGGTTATATAATATTTGTTGCTCCAGTCATTGGCGATGAT
GATCGATATATATGTTGTTGCAAAGAAGAAGAAGAAGAAGTTGTATAGTG
ATAGTACCTACTCATTACCATGGAGGGGTGTCCAGGAATCCTAAGGCTTG
GCACCTTGTTGATAAAGGGTCACCAAACGACCCAAATATTCAGTAATAAA
CATTTCGTTGGATTATATTTATGCTCATACTCAATGGAAAGTAATCACAT
ACATGGCTGAGAGTTTCTTGAGGAAGTGAGAAGACTTCCGAGAGAACACA
GCAAGTTAGTAGAGAAGTGTTTGTGGTGGTCATTGAGAACGCCGCTATAT
AGGCAGCAAGTACAAAAACTTCCTATCTTGTTGTCAGTGTACACTACTAC
TTCTTCTCTACATATCATAATATGACGAACACTTTCATACCTCGAAGTGT
GATTATTCAACAATGATGTTGATTTTAGTTTTCAGTCTAACCTTTCAAAC
CGCTTTTGGGGCAGAACCCCTAGCTTCTATAAGCAGACCCTTCCACCTCA
ATCTGCCATTTCTCAATACCACAACTCAATCATCATGCAAACACAGGAAC
AATATACACTCCAGTACATTTCTCTCCATTAGGTGCTCACTGGTGACGTA
CAAAAGGAGCTACAGAGCAAGAATCCCAGAGATATGGAACAGCCTCGATC
ATGAAACTCTTCAACAGCAGCGCATAGAAGGTTTCATCCCACTCAGAAAG
CAGCTTCAACGTCATATTGTCTCCCAGCCACATCAGAAGTCTTAGaAAAA
GAAGAAGAAGAAAAAAAAAATGGAAAGGAAGAAAAATGCAAATGACATGA
GCAAAAAAAAACAAACATGCTTGTGAACCCCTGAGAAATCAAGACGCCCC
GTTCGCTTCACATACCTTGCCAGCTCCTCAAGTTCTCTATACATGTTCCC
CAGACTGGAGCCTGGGTCTCCCCGCACAATAAGATCATCCATTTCCAGCC
GCTGCATATATATATGTATACCACCTCGGACAGCGCAAGAGATAGTGATG
CACGTCTTCTCCTCCTCCAGCCCGCAGTAGCCACACACGCCACTCTCCTG
TTTTGTCACCCTTGCATGATACCCCCCTACATTGCAGTGACCAGATATAA
CAGTTGCAGGACTCTCCGACCCCCCTGCACACGGAGGCTGGGCAGGGCCA
GGTCGTGGCAGCTGTGGGCGCAGGAGTGGGAGGCCCTGGAGGATGGGACC
GGGATGGATGATGATGATGATGAGGCGGAGTTGGCAATGCTCATGAGGAG
TGTATCGTGTCATCTCCAACTTTTGATAATTTGTAACAAACAACAACAAC
AATAGAGTTTAATCAATGAGAGATTGATAAGGACACTTTTTATAATCCAA
CAGAACTTCATAAGAACTAAATATTTCGATCGAGAGTCCGATCTTCTTCA
GTATTCCCAGCCGCTCTGGATAATTCAGCTGGAAAGTATACCAATGAAAT
TCCTCTTACAACATCATCACCATACACCCCGCTGCTCGCCTGTTCTCACA
ACAACGACAAGAGGAGGAGGATGCCTCCTCCCAAAAATATTCAACGGAAA
TAAGGCCAAGATAAAAAGAAGGAAAGAAAATCAACGAAAACCCGCCAAAA
TGGTAGGATGACAACAACAACGTCAAGGAGAGAAGTAATGTCAACAGTAG
CATCAAGAAGATGATATCGGAGAAGAAGTAATTATCAATTCACGACGAGA
AGAAGAAAATCAGCTAATCGCTAACGACAGTAGGTCTACTTTATCAATAA
CAACGACTACAACAACGATAACAAGGAAGAGGCTGGCTGCTTATGAATGA
TCACTTGGTCTGGGGTTCTTCCGGTAGAGTTGGGAGCATAAATTTAGTTT
TTTAGTTACAATGATTGGCTTCAGACAGACACAGAGCAACTTCATACACA
ACTGTTCTACTACATAAATAATATATGAATAATCCTACTAAATGCATATG
AAATATAGTGAAGATATTGCCAGCCCATAACAGGTGGTAGCAAAAAAAAA
CCTACAATTTCGCTTGATGACGTTCGGCCTTTATATAATGAGGCTCGTCT
TTTGATTGGTCCAAATGTGAAATAAAGCGGCTCTCAACCTGAGGGCGTTC
CCTGCTCTTGAGGAACTATGCTCCTCGGGTCTCAGCGATTAATTTCAACT
AATTGGACCAATCACAGACGACTCGGCTGATTATAAAGGTCAGAATCGTA
ACGCAGCTGAAAAATAGCTATAGCCGAATGCAAAAGAACTGTCTTTAAAA
TTCAATCATTGATAACTTCTTAAAATCAAAAACGGATATTACGAGCGTGG
GGTCATACATTAATGGCATCATCAACTTTTCCCCAATTTTGACCCCCCAA
GTTATCGAAGTCATCGTTTTTTCTCTGACCCCCCCCCCCCCCAAGTCATC
GAAGTCATCGCCGCCCCCCCTCCCCCTTCACCAAGTCATAGTTGTTTCCA
ACCTATACCCCCCACTCCTCCAAATCGAAGGCATTTCCAACTTATAATAA
AACAAATGAGCTAAACAAAGAATGACATAAGGGGGAAGTCGATTCCAAAG
GGTGATCAGTTTGTTTTTATTGGCTGCCGCCTTTGCGCTGAAAAACCGAA
TCTTAGAATGCACCGACTCTTCGAATTCAGGAGTTTTTTTTTTGTTTCTG
TCTTTCAAGCAGGTTCCAAGCATCATTGTCTTATTTCTGGATCTCTGCTT
TCGTGCCGTTTCCATGGGCTGCAGTAAAGCTCTTTATGAACTCCGTGTAC
AGTTTCGACAAACTCATGTGGGCAATCAAAAGCGTGAGAAGAGAGGAAGG
TCAAATATCAAAGCTATATATATTATACTTCGTGAATCGACGATGGTGGT
GGTGGTACGACGATGATGACGACGATGACGAATGAGCAGCAGCAACCAGC
AAGCAGCAACAGATTCCGAATAAGGGACCTCCCAAATTCCCAAGTAATTT
TGTGGAATTCCTAGAAAATGTTAGGATATTGTGAATTTTGAAAAAGGCCA
AGTTCCATCCAGGCATAACTCCCAAAACAATGATGAAATTCCCATGAACA
CAAATGGACAAATTTTTGATGAGTTTCCCCTGTACACCTCTTCCTCTTCT
TTTTATCCTCCTCTTCCTCTAAAAGAAGAAGAGGAGGTGTAAAGAGGAGC
TGAAAAACGTGGGATTGCCCAAAAAAATGGCCGAATTTCTAAATATGTAG
GATCTAAAAATGAACAAAGGTGAGGGGAAAAGGAGAGGAGTTCGCGGCGG
AAAGGAAATGAAGTCGGTGCGTTTTTTCCCCAACCATTTTTTCTTCGCGC
GGGGTGCGGGTTTGTGTGTTTCCTACTAATTTATGGGTCACAGGGGTGCC
CCCACGAAGTCATCATCATCAACCCCCCCCCCCGCGAAGTCATCACGAAG
TCATCACCTCTTGGACCCGATCATGACGTCGCACCCCCCCAAGTCATCAC
CTCGCAAcccCCCCCCCAAATGATGACGTCATTAATGCATGACCCCCATA
CATATTTGCACGAGTTGATCATTATTATGAGTTTTTTTTTCTAATTATTA
TTGATCCGATGCCCATTTTCATAATAATCTTTCCCCAATTTTGAAATTCT
ACATCTTCGTTTTGCCGGCACCACCTGAAACCTGATTGCAGCTGCGCATC
ATTGTTGACTTCTCTATATTTTTTTTACGGTGGATGTCATCGTGATGCAA
CCGATCCCGCCGATTGATCAAACGAGAGAATGCCTTGGACTTGGCAGCTG
AAGGTAGGAGACGTCTTATCAGCAGAAGATAGGGGCTCAGTACATTCAGT
GCAGGATCGGGAATCAAATTGGCTAACGGGCTAACTAGTACATTCAGAGT
AATATACTTTTTAGAATGAGAAACTGAGAGAGAGAGGACCATCACGAACA
CAGCATAGATAGACGCCCCCCACCAACATCTTAGATGGCGAGCCAGAAAT
GCATGAAAAGAATCCAAACCGGCCACGTAGACGCTCAAGTCAATAAAGCG
CCAGCTGGCACAGTAAAGGCTTCCTCAAAAACATGCTAAAGCACTATGCT
GTCTGCAGGAGAGAACAGCCAATAGACCCCAGTACTATAGCACCGCATCA
CAGGAAACAATTAGGAATGTATCAATTAGACAGCTTGCCAGGACGGCGCT
CCTTTGGCTCATAAGCATAACAGGAAGACCCCAAAAAACTCAAATAAGAT
AACAGCGGAGGATCTCCGCACCAAGAAACATCAGGATGTTGACGCGGGAC
GGCCTCACGAAAGCCAAAAAATGAGACATGGTATCTTTTTATTCTTCATA
TAATAAAGCCGGGTATCACCAATCCATACTTCTGATTTCAGCTGGGTCTG
TGTCCATGATATACTCATCTTGTAAATTTGCAGGAGACCAGTTTTAATAC
GACTGCTGGTGATTACAAATAACACAGGTTCTTTTCATTGCTGAAAAGGG
GTTCTTTGGCCTCCCTGTTATGGACATCTATCAGGATATTGATACAGTTA
ACAACAGACTTCAGGTAAGAGTTGCAAAGGCCTACTATGTCCAAATAAAA
ATGCAATGTTATCAGTAAAAGTAATAATATTATTGATGTGAATATTCTGA
GTATCAGTGGTGGTGTCTCTTGAGCCCCGCAGGTGCGCGCACACTGCACA
AATGTGGGGCGGAATCGGGGCGATTCTGCTTATGTAGACTATATGCTGAT
CACTGATTGGTAGATAGTGGTAGAAGCATGTAGGATGATGCTGATGATGA
TGATGAATTTAGTTTATTTCAAGTCCGCCTCTTGGATAACTGCAAAGACC
GAATAGAATACGTAATAGAATCGTATACTTACACCTGCACCAGCAGAAGG
AGGACCAATTCCCTCTTGCTTGGCGGAGGTCTGAATTCGATTAACTTACA
AATGGAGATTACTGGCCAGGCAATGGCCGTACCTCATCATAATTAAAGTT
ATGGGCTCATAGACGTTTTCCTGACCATGAGCAGGGTTTTTCGGCTTCAG
AATCGGTCCCGAAAAAGGGGGGAAAGAAGGGTTTTCATTCTCCTCCAGAA
AAACGCAAAATGATCTCACCTTATCCGAACAGAAGCAGCAGGTGTTTGAC
AAGCTTGTTGCCGAATTCGGGGACAGGTCCAAAGAATGAAACAGCGGTTC
TTTTCTCGTCTTTTTTTTTTTTTTTTTGTATCGTTCTACTTGCAATGCGC
GAAGCGTTGGTCGACGAGGTCAAGCCACCTGAGGAAAATTCAGATTCGCT
CAGCGATGGTGACAGGAAAGTATGTTGGAACTGTGATGAGCCCTCTCGCC
GCGGCGTAAAAAGCGGGGCAAGACAGCAACACCGGCGGCTGTGGTGCAAA
TCCTGATACCAAGAACTCCCAGCAGGAAGGTAGAGTTCCCGTGGCTCCTC
TTTTGGATAAAACAGGCCAAGGAGAGCATGACACCAACAGCGACACCGGT
GGCTGCGGTGCAAGTTCACCTGGCGGTGGACTACCCCCACAGGTACgGCC
TGGGGGCTGCAGGTTGAGGGCGTAGCCTCCACGCTGCACAACGACGTCTC
CGGGAACACGGCCATGGAGAATGCCAGCCGTCCACCCACGACGGGCTGGC
AAGCCACAGCACGCAGGCGGCGGGCGCCGACACCCCCGCCCTGCGGAAGG
TCTCCGGGGCCACGGCCACAGAGAAGGGACAGGGCCAGCCGTCCGCCCAC
GGCGGGCTGGCGAGCCACATCACGCAGGCGGCGGGCGCTGACACCCCCGC
GCTGCAGACAGTCTCCGTGTCCACGGCCACGGAGAAGGGGCCGGGCCGGC
CGGCCATCCCCGACGGGCTGGCAAGCCACGACGCGCAGGCGGGAGGCATG
GGCCCCGACCAGCGTGAAGCCCCCCGGGCGCCGGCCCGGGGAGAGTGAGG
TCGCCAGTTGGCCGCCGGCCCCAGCGGCGGCGGGGCCAACTTGGATGGCC
GCGACATGCAGGCGGCGAGCACAGCTCCTGCTCTGCACAGCGTCTCCGGG
GAGCCGCCCCCGGGGACTGAGCGCATCTCCGGGGAGACGCCCGGGGGCCT
GGACTTCACCAGCTGGCCGCCCGCCCACACGGGCGGGCGGGCCGTGCTGG
ACAGCCAGGGGCCGCGGCAAGCGGGAACACAGCCCTTGCCGATGGCCGAC
GACTGGGGTTCTGGCAACTTGCCAGCCAACCCGATACCAGACCCGCACCG
CGCGCTGGAGATGGCACAGCGACGTGGCCACGCCACGGTCAGCAGACTAC
TTGCCCAGAGGTTGGCCACTGCAGCGGGGGGCCGGACAGAGTTCACCCCG
CTACACAATGAGCCTACGGGGGCCAGGGCGGAGAGCACGTGCGATGCGTA
CAGCGGCGGGGCGCCGATGATAAAGGTGGTGATGACGTAAGATCCCAGGG
GGAGAAGACCGCGCGGGTACCTGGACACCTTGATGACCAGCCTGGGGGGG
AGGAAGTTCCTCGGCGGGCGGGCGAACAAATGGGTGCTGCCAGGCACTCC
CTGTGGAGGGAAGATACCGACCCTCAGCCAGTGAGACTACAGGTTCTTGC
CAGGCAGCCCACAGGGGGGGATCAACCACGGGGATCAACCACGCGGATGT
ACCCTGGCCGCTTTTGGGGCTGTGTTTTGGGCTGTGTGTGCCGGAGGTAC
TTGTTTGAACTCCCAGGGATGGAGCCTCTAGTAGTGGACTAGTAGTGGAC
TCAGGGAGGTGTCGCAGCCTCAGCAACAGCAGCAGTAGCAGCAGCGACAG
CAGCATCTATCAACTTCACACTAGTTACTTGTGCTGGGTGTGATGACCTG
AGCAGCAGTAGCAGCAGCAGCAGCAGTGCCAGCAGCAGCAGCAGTTTCCA
GTAGTGGACTCAGAGCCTCTCAGTGCAGCTACGTCTTCTAGTTGGAAGTA
CTCGCTGAGGGGGAGTATTGATGTAGATATTCTGAGTATCAGTGGTGGTG
CGCGAGCCCGCAGGGTGCGCGCACACTGCACACATGCGGGAGCGGAATCG
GGGACGATTCCGCGTATGTAGACTATATGCTGATCACTGATTGGTAGATA
GTGGTAGAAGCATGTAGGATACGGGTAGAATTGAATTACATACTTACACC
TGCATCAGCAGGAGGATGTGCAATTTCCTTCCGCCTGGCGAGGGTCTGAA
TTCGGTGAACTTGAAATGGAGATTACTCGCCAGGCAATGGTCGTACCTCA
TAGTAATTAAAAAATACAAAGAATATATACTAAATTCTACTACTAGTTAT
ACTTCTTTTACCAGTACTGGAGAGGGTTTCAATGCACGAAAGCGATGGAC
AATAAAACAAAAAAAAGCAAAGGAAATGGACTCCCATCATACAGTTTTTT
CAATCTGCAACATTTATCATGACAATGAAAAACCTAATGATTTTATACAC
ACTGGCACCAGTAGTTTACATTTTTACACTTCAACATAATATTGCACTAA
ATTGCTTGTGAAATAAATTCACAGAACATGATAGAATTTTCCCAAGACTC
TTACTTTTCGGTGATGTCTTCCTGCCGAGAGGACCAGGTGAGGCGTATCT
TAAATATATATGGATGAATCAGTTTAAGGGTATGTGTATGGAAGCCGGGA
CTTTGGACCTTGTAATTTTTTCCAAAAGGCTGGATCTTAAATAATTTAAA
ATCATGACCATCAACACTTAAATTATTTCTGAACCCTTCAGCGGCACCAT
TTAGCTTGTTGCTAAGACAGATGGGTTGTTGCTTGCATTCTAAATTTATC
CCAGTCTGTTCAATGGTGTCTATGGTCGGTTTTCAAAACCATTATTTGTA
TAATATATCAAGTTCGCCTCGTCATGTGAATACAGCTCAAGATGCATATA
ATAGTAATATATATTGTTACTTGTATGATAATGATGACATTAGACTTAGT
TTCAAGTCTAGCCTTTCAGAACGTTTTCGCGACTAGCCAGCACAACCTGC
TAGCGCCTTACTTCGATAATTGAAGCTTTCTACCTCCTCACCCTATAACA
CACTCCAATATTTATTTCTTCTTCTGCTTTGACATTAATGTCTTTGGCGT
GGGGCAGATCTGGCACTTGTCCAGGCTCGCTCAAATCACAAACAACTATA
GGCAGATGTAATCATTTTGTGACCATATATTGGGTGTTGTAGGATAGCTT
TTTTTTTCTAATCAATAAACATGATTTCATCTGCCTAGTGGTTTGTGATT
GGAGCGAGCCTGGACCAGTGCCAGATCTACCCCACGTCAAAGACATTAAT
GTCAAATTAGAAGAAAAAATGATTAAAACCTCCGTCTTGACAGAGAGCCA
AAAAAAAAAAAAAACAATTTACACTCCAATATTTTTGTACTTAATCCATA
TAGTGGCATATTTTACTATGTATAATGTGACTCTACCCTTTAAAAAATCC
AGGATAATACTTTGAGAGTCAATTTTGAATTCAGCTCCTGTAGTGCCAAA
TGGAAGAGCATCAAAGTTCCTCTACCTCCTTTTTGGCAAGGTATGAACTA
CAAATCATCTTTTGCAGCAAACATGTCTTTGCCACGACATTGGTCCCTAC
AAATGCGCATGCAGCAGCGTGCAGTTATAGAGTTACAGACAAACTCTATG
CTCTTCTTCATCCTAATTGAATTTGATATATATATATCCTCCATGATGGT
CGTACTCTTGAACTTTACATCCACTCCTCTCCCTTCCCCAGGGAATTATC
CCCAGAAGCCGCCTCCTCCTCGGCCATTTTGGGGGCCTCCCGTAAAGCCA
TTCCACAAACTCATCCAGATATCCGTCGCCAGCAAAAGGTTCCCTCAGAT
TGGCAAACTTCGCCCGCCAGCTTACTTCAGATTTGCTGTAGAGTAATATT
GGGTAGCACGATGTGCCAGAGTTCTGGTGCCAGACAGCTTGTCCTTCACA
GGATGGTTAGATGATGTCCAAGGGAGGTACCTTTCAGAGTGCGTAGGCTT
CCTGTGTATCGTGGTTGTGAATGAGCCATCTTCATTTCTCACCATTAACG
CATCCAGAAACGGTAACTGCCTGTTCTCCTCAAAAACTCGTTCCCACTGG
ATCTTCGATTGTATGTGCCACTATGCCACTATATATTTTTGTTTCCCCCT
ACGTTTTAGCATTTACGCGACAAAAAAATGCTTACTGTAACTGTTGCTAC
CTCCCTGATGTGGCAGGACTGATGTGCTTAGAACTTATCAATGGCGGCCC
ACCACGGCTTTCCGCACGGGGGGTCCGGCATGTAAAAAAAAGGCTTCGGA
ACCGTTCGAATGTCCGTTTTTAGCAATCAAATGAGTGGAAAAGGTATCCT
TATACGTGCTGGTATTGGAAAGCGGGGTGCATTAGATCGTTCCACATGCC
CAGGATTCTAGCTCTATAGCATCTTTTGAAAGTTGCTATAGGGAGTCGGG
CGGAATGAACTGGTCTCAGTTGATGAAGGTGCTGTGGGCGTACTGCAGCC
AGCCGAGCTGATCTCCGAGGTTTGGGGGCAGAGGGGTCATCAAACTCAGG
TGTCAAGTTGCGAGCCATACCATACCCTCGCCCGTCCAGCAGCAGCTTAC
AGGTAAATCCAATGGCAGCTTGTTCTCTTCTACTTTCCAGTGAAGGGCGC
ACTAGTAGTAGAGAAGGGTCAGGGTTGCGGAGTAGGGCCACAGCACTCTC
TTGAATTCTATCAAGCTTCTTCAAATGGCTTTTTGCAGCTCCCCAGTAGG
CCAGGCTGCCATACTCAATCTTTGATCGCCCAAAAGCTTTGTAGGCCCTC
ATGGTGCTCTTGTCGTCAAGCATGTGGCTCATCCTTCTGATTGCTCCAAA
GCGCTTGCGGGCATCTGAGGCTATTGCTTGTATGTTGAGACAAGTTCCCC
CTAGGATATATAGTCAAACCAAGAATGCCCATCTTCTTCTTCTCCTTGAC
TGCTATTCTTCCCATGCggggggGGGGGGTGAAGCTTCTCCATGTTCTTG
CGCTTCTTGGTGTTGGAGACGCCCAGCCCCTGGGACTTCTTATGCTCAAA
TTCCAGCAGCCACTCCTTGCCAAACAGGTACAACTGATGGAGGTCGGTGC
ACAGCTCCCGTCGCGCCAGCCGCGCCGCCCGCTCCTCCCTCTCCACCTCT
TTGATAAGAGTGAGATCATCAGCGTACAAGTGGCACGCCTTCCGCAGAGA
CGCCCGCACCCGTTGGGAAACATTCTTCACAAAGAGGTCAAAGACAAGAG
GAGACCAGATGGCGCCCTGCAGAACGCCAGACTTGATGCCCACGTGCTCT
GAGACCTCACCGTTAGAAGAGGCAACAAAGAGCGCCCTGTCGGAGAGATC
TCAAAGAGCTTGAAGGCCTGTGCGCGCACCCCTACAGCCCAAAGATGTAT
GGGAAGCCCACGCCACCACACCTTGTGTAGAAAGCCCCCTTGAAATCAAG
GGCAGCTAGCCATACATCTTTCTTTTGTGCCTGCTTCTTAAAGAACTCAT
CAAAGAGCTCCTCAGATTGCTCCCAGATCCTATAGGAAGATCCCTACCGG
CCATGCTTTCCTTCCCATGCCCCCACTCCATTCAGCAGCTCCTCCCCGAT
CTGCTCCATCACCTTTGGCACCCTATTATTATATAGTGCTGCAATTGCCT
AGCGTTGTTAAAAGAATCCCTATAAAGTTAGGGGGTATGCCCTCCCAACA
GAAGAACTTACCTTTACCTTTCATTATGATTTGTTATTACTGAAGCTGCT
ATCACTACTTCTCCTCTGCTGTTTTTCTTCTCAGGGATGGTTTGAAAACG
TCTACTTGGATGATGACTTGAGAATCAACAGAGACAGCAGAGGGGATCTT
CAGATTACAACGCCGTATTAAAAAAACATGCTGATGGTTCAGGCATGCTG
CTTCCACCGGAGATCAGTACAATATAAGACCAGATGAAATTGGTTTTTTG
TGGCAGTCTCTGTCAAGACAGGGGCTATAATCATTTTTTTTCTACTTTGA
CATTATTGTCTTTGACGTGGAGCAATTCCGGCACTGGTCTAGGCTTGCTT
AAATCACAACACCTGCCGAAGTGGTTTGTGATTTAAGCAAGCCTAGACCA
GTGCCGGAATTGCTCCACGTCAAAGACAATAATGTCAAACCAGATGAAAT
GTTATATACTACAGCTGTACGATCATGAAGATGAAATATTTTTCAGCAAA
GTTTTTTTGAATCTCATCAGAATCGGTGTGAACACTGAATTACGTAAAAC
TTAGCCCCAC
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Coding sequence (CDS) from alignment at H-akashiwo_Contig1211:184259..210018+

>mRNA_H-akashiwo_Contig1211.4.1 ID=mRNA_H-akashiwo_Contig1211.4.1|Name=mRNA_H-akashiwo_Contig1211.4.1|organism=Heterosigma akashiwo CCMP452|type=CDS|length=714bp|location=Sequence derived from alignment at H-akashiwo_Contig1211:184259..210018+ (Heterosigma akashiwo CCMP452)
ATGATGCTGAACTTGCATTCACAAGGAGGTCTAACAATACTGATTGTACT
TTGGTCCTTCGCATGCTGCTGGGCATTCACACAGCAGGGCCAGTATCTGA
AGTTTTCGACTAAAACCGTGCTGAAAAGACGTGGGGGCGATTTGACCAAT
TTAAATGCATCACTTTTCAACTTTGACTTTGGCAGAAAGCAAGTAAAAGA
TATCGAAGCAGATAATAGACCATCTACCAGAGATATCAAGGCCCAGCTTT
TGAAGGTTGTTGAAGACTCTCAGCGTGGCCTCTTAACAACCCCAGAGGAT
CAAGAGCTTATAAATGACTACATCGCTAAGCTTGAAGCCTTAAACCCAGC
AGCCAAGGCTGATCCTGAAGAGTATCGCAGAACTCTCAACAAACGATGGC
GCCTGACTTGGACCACTGAACAGGAGGTTCTTTTCATTGCTGAAAAGGGG
TTCTTTGGCCTCCCTGTTATGGACATCTATCAGGATATTGATACAGTTAA
CAACAGACTTCAGAACATGATAGAATTTTCCCAAGACTCTTACTTTTCGG
TGATGTCTTCCTGCCGAGAGGACCAGGATAATACTTTGAGAGTCAATTTT
GAATTCAGCTCCTGTAGTGCCAAATGGAAGAGCATCAAAGTTCCTCTACC
TCCTTTTTGGCAAGCTGCTATCACTACTTCTCCTCTGCTGTTTTTCTTCT
CAGGGATGGTTTGA
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