mRNA_P-littoralis_Contig110.41.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig110.41.3
Unique NamemRNA_P-littoralis_Contig110.41.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: D7FRY7_ECTSI (Aldo/Keto Reductase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FRY7_ECTSI)

HSP 1 Score: 565 bits (1457), Expect = 1.200e-199
Identity = 269/323 (83.28%), Postives = 292/323 (90.40%), Query Frame = 3 
Query:   90 MALSIDSTVALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFASCLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMCNWKYRPGGGRIYEGETSAYPDK 1058
            M+LSI STV LSDG  MPRLGLGTWRS TGEV+TAV+CALKAGY HIDCAWCY NQ+EVG ALA +FKE++I RENVF+TTKLWNTFHRP LL+KN+DTCLKDLGL +VD VQLHYSFAMVP ADE  LVPRH NGDAHLDD+V LKQTWKAMEGFVE GLAK+IGVSNFTKEELA++MEDAKIMPSVLQVEIHPYL N ELL WC EK IHVTAYAPLGNVNKEFASCL+DP I EIA R+ KSPAQVIIRWHLQRGVTVIPKSVTP RILANKDV+DF+LS+EDM AIDKLGER +RMCNWKYRPGGGR+YEGETSAYP+K
Sbjct:    1 MSLSIGSTVTLSDGIIMPRLGLGTWRSATGEVETAVKCALKAGYLHIDCAWCYGNQVEVGKALADAFKEDNIIRENVFITTKLWNTFHRPELLKKNLDTCLKDLGLPYVDCVQLHYSFAMVPCADETVLVPRHANGDAHLDDEVDLKQTWKAMEGFVESGLAKTIGVSNFTKEELAYVMEDAKIMPSVLQVEIHPYLPNTELLLWCKEKNIHVTAYAPLGNVNKEFASCLDDPVIIEIAERMTKSPAQVIIRWHLQRGVTVIPKSVTPARILANKDVYDFDLSNEDMAAIDKLGERNLRMCNWKYRPGGGRLYEGETSAYPEK 323
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BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: A0A836CCV3_9STRA (Aldo/Keto reductase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CCV3_9STRA)

HSP 1 Score: 323 bits (827), Expect = 2.880e-104
Identity = 166/324 (51.23%), Postives = 212/324 (65.43%), Query Frame = 3 
Query:   90 MALSIDSTVALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVN--KEFASCLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMCNWKYRPGGGRIYEGETSAYPD 1055
            M LSI STV L++G +MP  GLGTWRS  G+V  AV+ ALK GY+HID A CY NQ EVG  + AS     + R +VFVTTKLWNT  RP   R+     L DLGL +VD + +H+     P A    L P+ E+G   LD    L +TW+AMEGFV DG  +SIGVSN ++E++    E  KI P+  QVEI PY NNA L   C  +G+HV AY+PLGN +  K+  S L+DP I ++A + +KSPAQVIIRWHLQ G TVIPKSVTP RI+ N  VFDFEL+++++ AID LG R  R CN +Y PGG  ++  +T+ + D
Sbjct:    1 MTLSITSTVTLNNGLQMPVFGLGTWRSEPGKVKEAVEYALKHGYRHIDAAHCYENQEEVGAGIKAS----GVPRGDVFVTTKLWNTHLRPDAARELFAQILSDLGLDYVDQLLIHWP---CPFAKSAQLHPKGEDGALQLDAGADLGETWRAMEGFVADGRCRSIGVSNCSEEQVKMFAEAGKIKPATNQVEIQPYFNNAALAASCKSQGVHVVAYSPLGNYDPTKDLPSALKDPVITDLAKKYSKSPAQVIIRWHLQNGETVIPKSVTPSRIVENSQVFDFELTADEVAAIDALGARNFRTCNPRYAPGGALVWPNDTTVFDD 317
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BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: UPI0013F22C13 (aldo-keto reductase family 1 member B1-like n=1 Tax=Odontomachus brunneus TaxID=486640 RepID=UPI0013F22C13)

HSP 1 Score: 281 bits (718), Expect = 7.210e-88
Identity = 145/313 (46.33%), Postives = 198/313 (63.26%), Query Frame = 3 
Query:  126 DGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMCNWKYRPGGGRIYEGETSAY 1049
            +GN++P  GLGTW+S  GEV  AVQ A+  GY+HIDCA+ Y N+ E+G A+ A  KEN + RE +F+T+KLWNTFHRP L+   +   L DLGL +VD+  +H+    V   +   L P++ +G   L D V    TWKAME  +  GLAK+IG+SNF  E++  ++E+A + P   Q+E HPYL+  EL ++C EKGI VTAY+PLG+ ++ +A       LED T+ +IAT+ +K+PAQ++IR+ L+RG  VIPKSVT  RIL N  VFDFEL  ED+  ID         CN +  P  G     E S Y
Sbjct:   13 NGNQVPAFGLGTWKSKPGEVTQAVQDAIDIGYRHIDCAYIYGNEKEIGAAIQAKIKENVVKREELFITSKLWNTFHRPDLVEPTIKRTLADLGLDYVDLYLIHWP---VGFKEGDNLFPKNADGTTTLSD-VDYVDTWKAMEAVLSKGLAKNIGISNFNSEQITRLLENATVKPVTNQIECHPYLSQKELSNFCKEKGILVTAYSPLGSPDRPWAKPDDPKLLEDKTLSQIATKYSKTPAQILIRYQLERGHIVIPKSVTRSRILENSKVFDFELKPEDIAYIDTFN------CNGRICPLTG----SEASPY 311
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: A0A0K8TNU1_TABBR (Putative aldo/keto reductase family n=1 Tax=Tabanus bromius TaxID=304241 RepID=A0A0K8TNU1_TABBR)

HSP 1 Score: 280 bits (715), Expect = 1.900e-87
Identity = 144/308 (46.75%), Postives = 197/308 (63.96%), Query Frame = 3 
Query:  111 TVALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMCNWKYRPGGG 1019
            +V L++G+KMP LGLGTW SP GEV  AV+ A+  GY+HIDCA  Y N+ EVG  L A  +E  I RE+VF+T+KLWNTFH P L+R   +T LK+L   ++DM  +H+  A     +   L P+++ G+    D V    TWK ME  V+DGL KSIG+SNF K ++  ++   +I P   QVE HPYLN   L+D+C  K I VTAY+PLG+ N+ +A       LEDP I  IA++  KSPAQ++IR+ +QRG+ VIPKSV  +RI  N +VFDFEL+++D+  ID +       CN ++ P  G
Sbjct:    5 SVVLNNGHKMPILGLGTWGSPKGEVAQAVKDAIDIGYRHIDCAHVYENEHEVGEGLNAKIQEGVIKREDVFITSKLWNTFHDPRLVRGACETTLKNLNTPYLDMYLIHWPMAY---KEGGPLFPKNDKGEILFSD-VDYLDTWKEMEKLVDDGLCKSIGLSNFNKRQIERVLGACRIQPGTNQVECHPYLNQKRLIDFCKSKNISVTAYSPLGSPNRPWAQPGDPVLLEDPKITSIASKYKKSPAQILIRYQIQRGIIVIPKSVNKKRIAENFNVFDFELNADDIALIDTID------CNGRFVPLAG 302
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: A0A0L0BNI7_LUCCU (Aldo_ket_red domain-containing protein n=5 Tax=Lucilia TaxID=7374 RepID=A0A0L0BNI7_LUCCU)

HSP 1 Score: 278 bits (711), Expect = 1.180e-86
Identity = 145/305 (47.54%), Postives = 193/305 (63.28%), Query Frame = 3 
Query:  111 TVALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFASC-----LEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMCNWKYRP 1010
            T+ LS G+KMP LGLGTW SP GEV  AV+ A+  GY+HIDCA  Y N+ EVG  + A   E  + RE++FVT+KLWNTFHRP L+R   +T LK+L L+++DM  +H+        D   L P  E G     D V    TWK ME  V+DGL KSIG+SNF K+++  ++  A I P+  Q+E HPYLN  +L+++C  K I +TAY+PLG+ N+ +A       +EDP I  IA +  K+PAQ++IR+ LQRG  VIPKSVT  RI +N DVF FELS+ED+  ID         CN ++ P
Sbjct:    6 TITLSSGHKMPVLGLGTWGSPKGEVAQAVKDAIDIGYRHIDCAHVYQNEHEVGEGIEAKINEGVVKREDLFVTSKLWNTFHRPDLVRGACETTLKNLKLSYIDMYLIHWPMGYKEGDD---LFPVDEAGKTAYSD-VDYVDTWKEMEKLVQDGLVKSIGISNFNKKQIERVLAVATIPPATNQIECHPYLNQKKLMEFCKSKNIAITAYSPLGSPNRPWAKAGDPVLMEDPKIVAIAEKYQKTPAQILIRYQLQRGNIVIPKSVTKSRIASNFDVFGFELSAEDINTIDSFD------CNGRFVP 300
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: UPI000D329E38 (aldo-keto reductase family 1 member B1-like n=2 Tax=Teleopsis dalmanni TaxID=139649 RepID=UPI000D329E38)

HSP 1 Score: 273 bits (697), Expect = 1.730e-84
Identity = 145/320 (45.31%), Postives = 197/320 (61.56%), Query Frame = 3 
Query:  114 VALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMCNWKYRPGGGRIYEGETSAYPDK 1058
            V L++G  MP +GLGTW SP GEV  AV+ A+  GY+HIDCA  Y N+ EVG AL+   KE  I RE+VF+T+KLWNTFHR  L+R   +  LK+LGL ++D+  +H+  A     ++  L P   +G   L  +V    TWK ME  VE GL KSIG+SNF K ++  +++ AKI P   Q+E HPYLN  +L+++C  K I +TAY+PLG+ N+ +A       L+DP I  IAT+  K+PAQ++IRW ++RG   IPKSVT  RI +N DVF FEL+ +D+  ID         CN ++ P         TSAY  K
Sbjct:   25 VTLNNGKTMPVVGLGTWGSPKGEVTQAVKDAIDIGYRHIDCAHVYQNEEEVGEALSVKIKEGVIKREDVFITSKLWNTFHRTDLVRPACEKTLKNLGLQYLDLYLIHWPMAY---QEDGELFPSDADGKT-LYSEVDYVDTWKEMEKLVEAGLCKSIGISNFNKSQIERVLQAAKIPPVTNQIECHPYLNQKKLMEYCKSKNIVITAYSPLGSPNRPWAKPGDPVLLDDPKIIAIATKYGKTPAQILIRWQVERGNIPIPKSVTKSRIASNFDVFSFELTKDDIDTIDSFD------CNGRFVP--------ITSAYGHK 326
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: UPI000875505C (aldose reductase n=1 Tax=Anoplophora glabripennis TaxID=217634 RepID=UPI000875505C)

HSP 1 Score: 271 bits (694), Expect = 2.750e-84
Identity = 141/300 (47.00%), Postives = 195/300 (65.00%), Query Frame = 3 
Query:  114 VALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVA--DEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMC 992
            + L++G ++P  GLGTW+S  GEV+ AV+ A+  GY+HIDCA+ Y N+ EVG AL A F E  I RE+VFVT+KLWNT+HRP L+ KN+   L DLGL ++++  +H+     PVA  ++    P   NG       V    TWKAME  V+ GL KSIGVSNF K++L  I+  A I P + QVE HPYLN  +L+D+C  KGI VTAY+PLG+ ++ +A       ++DP + ++AT+  KSPAQ+++R+ L RGV  IPKSVT  RI  N ++FDF LS ED+  +D   +   R+C
Sbjct:    7 IKLNNGLEIPAFGLGTWKSKPGEVEEAVKNAIDIGYRHIDCAYAYGNEKEVGAALKAKFAEGVIKREDVFVTSKLWNTYHRPDLVEKNIRITLNDLGLDYLNLYLIHW-----PVAYKEDGENFPFDANGKMQFS-HVDYVDTWKAMEELVKKGLTKSIGVSNFNKKQLERILSVATIKPVINQVECHPYLNQRKLIDFCWSKGIVVTAYSPLGSPDRPWAKPGDPQLMDDPKLQQLATKYKKSPAQILLRYQLDRGVVTIPKSVTKSRIQQNFEIFDFNLSKEDIAYLDTF-DCNGRLC 299
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: A0A6F9D5K7_9ASCI (Aldose reductase-like n=1 Tax=Phallusia mammillata TaxID=59560 RepID=A0A6F9D5K7_9ASCI)

HSP 1 Score: 271 bits (692), Expect = 5.320e-84
Identity = 139/309 (44.98%), Postives = 200/309 (64.72%), Query Frame = 3 
Query:  114 VALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRM--CNW---KYRP 1010
            + L+ G KMP LGLGTW+S  GEV  AV+CA+  GY+HIDCA  Y N+ EVG  +A   KEN + RE++F+ +KLWN  H P  +R  +   L++L L ++D+  +H+    +   +  ++ P+ ENG  H+   V    T+KA+E  V++GL KSIGVSNF + +L  I+++ K++P+  QVE+HPYL    ++++C  KGI VTAY+PLG+  + +A+      LEDP +  IA R+ K+ AQV+IR+ +QRGV VIPKSVTP RI +N  VFDFEL+ EDM  I+ L ++  RM    W   KY P
Sbjct:    6 LTLNCGTKMPMLGLGTWQSKPGEVKAAVECAIDVGYRHIDCALAYGNENEVGEGIATKIKENKVKREDLFIVSKLWNVHHDPKDVRVGVQKSLENLKLEYLDLYLIHWPTGYI---NNGSMFPKDENGQ-HIASDVDYVDTYKALEKLVDEGLVKSIGVSNFNEFQLGRILKECKVVPANHQVELHPYLLQTNMVEFCQSKGISVTAYSPLGSNERPWATEGEPVLLEDPKLLAIAKRIGKTAAQVLIRFQIQRGVIVIPKSVTPSRIESNFQVFDFELTDEDMNTIN-LFDQNFRMFALQWEIHKYHP 309
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: A0A834IRZ7_RHYFE (Aldo_ket_red domain-containing protein n=1 Tax=Rhynchophorus ferrugineus TaxID=354439 RepID=A0A834IRZ7_RHYFE)

HSP 1 Score: 270 bits (690), Expect = 1.130e-83
Identity = 137/298 (45.97%), Postives = 193/298 (64.77%), Query Frame = 3 
Query:  114 VALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMC 992
            V L++G ++P  GLGTW+S  GEV+ AV+ A+  GY+HIDCA  Y N+ EVG AL A F +  + R++V +T+KLWNT+HRP L+ KN+   L DLGL ++D+  +H+        +E    P+ E G+    D V    TWKAME  V+  L KSIG+SNF K ++  I+E   I P+VLQ+E HPYLN + LL++   KGI VTAY+PLG+ ++ +A       LEDP + E+AT+  K+PAQV++R+ L RGV  IPKSVT  RI  N ++FDF LSSED+  ++   +   R+C
Sbjct:    8 VKLNNGLEIPIFGLGTWKSKAGEVEQAVKDAIDIGYRHIDCAHVYGNEKEVGAALKAKFSDGTVKRKDVHITSKLWNTYHRPDLVEKNLRISLSDLGLEYLDLYLIHWPCGY---KEEAETFPKDEAGNIIFSD-VDYLDTWKAMEELVKKNLVKSIGLSNFNKAQITRILEKGSIAPAVLQIECHPYLNQSRLLEFAKSKGIVVTAYSPLGSPDRPWAKPGDPQLLEDPKLKELATKYNKTPAQVLLRYQLDRGVVTIPKSVTKSRIQQNFNIFDFNLSSEDIAYLNTF-DCNGRLC 300
[Close]
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Match: R7UJA8_CAPTE (Alcohol dehydrogenase (NADP(+)) n=1 Tax=Capitella teleta TaxID=283909 RepID=R7UJA8_CAPTE)

HSP 1 Score: 270 bits (690), Expect = 1.450e-83
Identity = 133/296 (44.93%), Postives = 196/296 (66.22%), Query Frame = 3 
Query:  120 LSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCAWCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTCLKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTWKAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNAELLDWCNEKGIHVTAYAPLGNVNKEFAS-----CLEDPTIGEIATRVAKSPAQVIIRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRMC 992
            LS G  MP LGLGTW+S  GEV+ AV+ A+ AGY+H+DCAW Y N+ EVG AL +   E  + RE++F+T+K+WNT HR      N+   L +LG++++D+  +H+  +M    +     PR + G+    + V+  +TWKA+E  ++DGL K+IG+SNF   ++  I+ +A+I PSVLQVEIHPY    +L+ +C E+ I VTAY+PLG+ ++ +A+      LEDP + EIA + +KSPAQVIIRW +QRG+ VIPKSVTP RI+ N +V DF+L+++DM  +         +C
Sbjct:    8 LSSGIDMPILGLGTWKSKPGEVENAVKAAIDAGYRHLDCAWIYGNEQEVGAALKSKIDEGVVKREDLFITSKIWNTKHRFEDALTNIKQSLSNLGISYLDLSLIHWPTSMKHDGNCDKF-PRDDQGNVQHTN-VSYLETWKALEKAMDDGLVKAIGLSNFNSRQIGEIISNARIQPSVLQVEIHPYFTQEKLVHFCKERNIVVTAYSPLGSPDRPWAAPGEPLLLEDPKLIEIAKKYSKSPAQVIIRWLMQRGIAVIPKSVTPSRIIENFNVRDFKLTADDMNVVSGFNRNHRLVC 301
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig110.41.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FRY7_ECTSI1.200e-19983.28Aldo/Keto Reductase n=2 Tax=Ectocarpus TaxID=2879 ... [more]
A0A836CCV3_9STRA2.880e-10451.23Aldo/Keto reductase n=1 Tax=Tribonema minus TaxID=... [more]
UPI0013F22C137.210e-8846.33aldo-keto reductase family 1 member B1-like n=1 Ta... [more]
A0A0K8TNU1_TABBR1.900e-8746.75Putative aldo/keto reductase family n=1 Tax=Tabanu... [more]
A0A0L0BNI7_LUCCU1.180e-8647.54Aldo_ket_red domain-containing protein n=5 Tax=Luc... [more]
UPI000D329E381.730e-8445.31aldo-keto reductase family 1 member B1-like n=2 Ta... [more]
UPI000875505C2.750e-8447.00aldose reductase n=1 Tax=Anoplophora glabripennis ... [more]
A0A6F9D5K7_9ASCI5.320e-8444.98Aldose reductase-like n=1 Tax=Phallusia mammillata... [more]
A0A834IRZ7_RHYFE1.130e-8345.97Aldo_ket_red domain-containing protein n=1 Tax=Rhy... [more]
R7UJA8_CAPTE1.450e-8344.93Alcohol dehydrogenase (NADP(+)) n=1 Tax=Capitella ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig110contigP-littoralis_Contig110:145697..188535 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog81824.XP_001746813.1
PFAMsAldo_ket_red
Model size1462
Max annot lvl33154|Opisthokonta
KEGG rclassRC00087,RC00088,RC00099,RC00108,RC00133,RC00205,RC00670
KEGG koko:K00002,ko:K00011
KEGG ReactionR00746,R01036,R01041,R01093,R01095,R01431,R01481,R01758,R01759,R01787,R02531,R02577,R04285,R05231,R11764
KEGG Pathwayko00010,ko00040,ko00051,ko00052,ko00561,ko00790,ko00930,ko01100,ko01110,ko01120,ko01130,ko01220,map00010,map00040,map00051,map00052,map00561,map00790,map00930,map01100,map01110,map01120,map01130,map01220
KEGG ModuleM00014
Hectar predicted targeting categoryother localisation
Exons11
Evalue6.15e-85
EggNOG OGsCOG0656@1|root,KOG1577@2759|Eukaryota,38HH0@33154|Opisthokonta
Ec32 ortholog descriptionAldo/Keto Reductase
Ec32 orthologEc-03_003640.1
EC1.1.1.2,1.1.1.21
Descriptionreductase
Cds size972
COG categoryL
BRITEko00000,ko00001,ko00002,ko01000,ko04147
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig110.41.3prot_P-littoralis_Contig110.41.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig110 145786..188134 +


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

Feature NameUnique NameSpeciesTypePosition
1680789433.2821162-UTR-P-littoralis_Contig110:145696..1457851680789433.2821162-UTR-P-littoralis_Contig110:145696..145785Pylaiella littoralis U1_48UTRP-littoralis_Contig110 145697..145785 +
1680789433.4178944-UTR-P-littoralis_Contig110:188134..1885351680789433.4178944-UTR-P-littoralis_Contig110:188134..188535Pylaiella littoralis U1_48UTRP-littoralis_Contig110 188135..188535 +


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

Feature NameUnique NameSpeciesTypePosition
1680789433.2955124-CDS-P-littoralis_Contig110:145785..1458401680789433.2955124-CDS-P-littoralis_Contig110:145785..145840Pylaiella littoralis U1_48CDSP-littoralis_Contig110 145786..145840 +
1680789433.3085837-CDS-P-littoralis_Contig110:150038..1500941680789433.3085837-CDS-P-littoralis_Contig110:150038..150094Pylaiella littoralis U1_48CDSP-littoralis_Contig110 150039..150094 +
1680789433.3185606-CDS-P-littoralis_Contig110:178138..1781751680789433.3185606-CDS-P-littoralis_Contig110:178138..178175Pylaiella littoralis U1_48CDSP-littoralis_Contig110 178139..178175 +
1680789433.3292656-CDS-P-littoralis_Contig110:178909..1790071680789433.3292656-CDS-P-littoralis_Contig110:178909..179007Pylaiella littoralis U1_48CDSP-littoralis_Contig110 178910..179007 +
1680789433.339109-CDS-P-littoralis_Contig110:180490..1806241680789433.339109-CDS-P-littoralis_Contig110:180490..180624Pylaiella littoralis U1_48CDSP-littoralis_Contig110 180491..180624 +
1680789433.3504345-CDS-P-littoralis_Contig110:180795..1808711680789433.3504345-CDS-P-littoralis_Contig110:180795..180871Pylaiella littoralis U1_48CDSP-littoralis_Contig110 180796..180871 +
1680789433.3611085-CDS-P-littoralis_Contig110:181924..1819841680789433.3611085-CDS-P-littoralis_Contig110:181924..181984Pylaiella littoralis U1_48CDSP-littoralis_Contig110 181925..181984 +
1680789433.3779292-CDS-P-littoralis_Contig110:182489..1825491680789433.3779292-CDS-P-littoralis_Contig110:182489..182549Pylaiella littoralis U1_48CDSP-littoralis_Contig110 182490..182549 +
1680789433.390003-CDS-P-littoralis_Contig110:183019..1831871680789433.390003-CDS-P-littoralis_Contig110:183019..183187Pylaiella littoralis U1_48CDSP-littoralis_Contig110 183020..183187 +
1680789433.4015436-CDS-P-littoralis_Contig110:187640..1877211680789433.4015436-CDS-P-littoralis_Contig110:187640..187721Pylaiella littoralis U1_48CDSP-littoralis_Contig110 187641..187721 +
1680789433.4097743-CDS-P-littoralis_Contig110:187987..1881341680789433.4097743-CDS-P-littoralis_Contig110:187987..188134Pylaiella littoralis U1_48CDSP-littoralis_Contig110 187988..188134 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig110.41.3

>prot_P-littoralis_Contig110.41.3 ID=prot_P-littoralis_Contig110.41.3|Name=mRNA_P-littoralis_Contig110.41.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=324bp
MALSIDSTVALSDGNKMPRLGLGTWRSPTGEVDTAVQCALKAGYKHIDCA
WCYNNQMEVGGALAASFKENDISRENVFVTTKLWNTFHRPALLRKNMDTC
LKDLGLAWVDMVQLHYSFAMVPVADEKTLVPRHENGDAHLDDQVTLKQTW
KAMEGFVEDGLAKSIGVSNFTKEELAHIMEDAKIMPSVLQVEIHPYLNNA
ELLDWCNEKGIHVTAYAPLGNVNKEFASCLEDPTIGEIATRVAKSPAQVI
IRWHLQRGVTVIPKSVTPERILANKDVFDFELSSEDMTAIDKLGERKIRM
CNWKYRPGGGRIYEGETSAYPDK*
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mRNA from alignment at P-littoralis_Contig110:145697..188535+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig110.41.3 ID=mRNA_P-littoralis_Contig110.41.3|Name=mRNA_P-littoralis_Contig110.41.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=42839bp|location=Sequence derived from alignment at P-littoralis_Contig110:145697..188535+ (Pylaiella littoralis U1_48)
CAGCACATACAGCAGGAGGCGACAACGAAGCTGCTTCGCCTTGCAGCCGG
TAGTAGAAAGGAATACTTGACTCGTGCACGGACAGTATCATGGCACTCAG
CATTGACTCCACTGTGGCTCTGAGCGATGGGAATAAAATGCCTCGTGAGT
ACCGTCAGACACTCGTACATACAGGGTGTGTGTTTGTGTAGCGGGTATTT
TGTTCATTGCTCTAAATATGTGTGTGTGTTGTATCTACAACTAAAAACTC
ATATCATATCATGTTATACGAAGTGTGTGCGTTGTCTCCCTTTGATTGGA
CGCCACTCTACACCTTTCGGGTAGGTACAGTAGACGCTCCAACGCTCCAA
CCGGGGTCACGCAGGGGGAAGTCAGCACAGGAGTTTTTTTTTTCTTTCTC
CACTTCCCTCTGCGGTGCTTGCCTTTTTGGTTGAGCTTTTATCGCGAGAA
AGGGGACAGCAATCCCTTTCCCTCGTCGATGGTACGATCGAATTTTGTTT
ACTCACGAATTGATCGCTTTCCACTTTCACGCGCAATGTGAGAAAAAACC
CCAGATCGTGTTACTGCACTGGGATTTGAACTCACGCGTGAATGTCAGAA
GGTTGCGTGGATAACCAACTGAACCACCGGGGCGACCGGCAGTACGAGTA
TTGTATGGTATAATACGAAGTACAGCAGTGTTGTGTGTGTGTGTGTGTGT
GTGTGTGTGTGTGTGTGTGTCATCCCTTTAATTGGACGCCACCCTACACC
TTTCGGGTAGGTAGACGCTCCAACCGGGGTCACACAGGGAGAAGTCAACA
CAGGAGTTTTTTTTTTTTTTTGCTCCACTTCCCTCTGCGGTGCTTGCCTT
TTGATTGCGCTTTTATCGCGAAAAAGGGGACAGCAATTCCTTTCCCTCGT
CGATGGCACGATTGAATTTTGTTTAGGCCCTTTTTAATCAGGAGGCCTGA
ATTCGCCGAAACGTGAAATCATTTCCCCGAAAGGTGGAGAGAATTTTGCC
CCGTTCTAATCGGAGAGGTCATGGTGCTTTTCTTCCATAAAATCAGACAA
AGATCACTACACAACAGCAGACAGCAACAGAGACCGAAGACCTCCCGAGT
CTTCCTTCCTTCGAAACGTAGGTCTACATGATAGTGACCCTCGGTATTAT
TGCCGCTGCGTGGTTATGGTAGCTCGTGTGAGGCTCACCGAGGGTCGCAA
GAAGACGGTGTGTGCTGTTGGACGCTTCCAAATCGCGCTGGTGATGTTTT
TTGGTTGCAGTCACAAGCTTCACTTGACGGCATCAGACAGCATCAGAGCT
ACAAGGCCTCCGAACTCCTGATTATTTTGGAACGGGCGTCTACATGATAG
TGGCCCTCGACCACGCTGGCGCTACGCGGTCGTTGCAGCTTGATTGCTGG
CTTCAAAGGGGTTGCCAGCAGGGTGTGTGTTGGCGGAGCAAGAAAAAGAG
GCAGACAAGCGGCGAAATCAAGGATTCCGGTTCCTTCTCGTCGCTACTGC
TCTAATTTTGTTCACCAACCTCTCACCACGCCTGCCGGAATGTGAACATC
AGGGGCGGGTTTGCTCGCCAGAGTGATAGTCTCGGGTACCCTGCTTTTTA
TTTTGCTATCTGCACTGCTGTTGCTGCTGTAGGGCGAGTTTGGTGTGTGT
TGTGTACGTTTCTGGAAATGGTTGGAAAAATTCACCTTTCGGTGAAATCG
AATATTCACCTTTTTTTTGCTGTCGCTCAATTTCACCTTTCGGGGGAAGA
AAGCCTTCATATTGTCAGCCGTTTCACCGAAAGGTTAAAAAAAAAGCGGT
TCGGCGAATTCAGGCCTCCTGATTAAAAAGGGCCTTACTCACGAATTGAT
CGCTTTCCACTTTCACGCGCAATGTGAGAAAAAAACCCAGATCGTGTTAC
TGCAGTGGGATTCGAATTTACGCGTGAATGTCAGAAGGTTGCGTGGATAA
CCAACTGAACCAGGGGCGACCGATGTAGCAGTACATTCACGAAATTGTTG
ATTCTCACATTAGCTCATCGCCAAAATCTATCTAGCCCGTGGTCACGAAA
AGTGCTGAGCCCTAGGAAGATCCAAAAAACAGAAAGAAACTACGGAGTAC
AAGGGAATACCCTAAGAAAGACCGAAGAAGATACTGTACACCTTCCTACG
CGGTGTGCATCGCTGAACTACAGCAGTCACAGCAGTACCAATAGCAAACG
CACTTCCTGTATTCATACGGTACCACTGCTGTACCCTGGGATCGTGCTGT
ATAATCTTATCACGTCACATCATATCACATTCGAGGTACTACGTACCTCG
AACCATGATATTACACTACAAAAGAGCAGTGTCATACAGCAGTGTCATAA
AAAGCTGTACGGAGTTAGGAAACCTAGTCCAGGTACAGTATCTTGCAATA
TCAACCTCTGAGGCCCACTCTTATGGTAGAGCCGAAAACTGGAATCCAAG
GGTTTCACATGAGGAACTGGAATCCAATTCCAGGCCTGGAAAATATTTCT
ATCTTATGGGGGTTGTTTTCGGTCGGAATTGGAAAATATTTTCCATTTCT
CCGGATTCCAGACGAGTCGCCTAGAATCTGCCCTCGGATTCCAGGCCAAA
TGACCTCAGATTCCAAGCTGGAATCCGTGGCGCGCGCAGCCACGAGCTTC
GGTCGCAGTGGTTCACAGCATACAACAAGCACAAATACAAACAACCGAGC
ACACAAACACACGGGCCAGGTGCAGGTACCAAAGCGACGTGCGATCCTGG
CCGTGCTGGCGATAACGCTTGCCGCTCTGCGCCATCAGCAGCAGTTTATC
GAAATTAGCCCAAACCGCCTGCCGTCCATCCTGCAACCCCATCTGATTTC
CAATCGCTGCCCAAATTTTCCAGTTCTCCCATAAAGTTGGCACCAGTCTG
ATTGTCCGACTTGGAATATCAGGGTTGGAAAACGCTTTTCCAGCTGTGGA
AATTCCAGTTGCCCATCTCCCATAAGATTGGGTCTGAGACCGTTTACTAC
GGCTCCGTTATTTGGTCCTGCGTTTTTTCTCCTGAGGTACCCCCCTCCCC
CCCAACAACAGAGAGCCCAGACGGTTGAAAAATCTACTTTTTGAGCACAA
CAGGAGACATCGCCAAGCAGAACTCGACCCCTGGGACACCAATCGAAACT
ATAACTGTTTGACGGTACGCTCTAGTGTTCTCAGGTTAGCCACAGGAAAT
TTGGTGGGTGTGGGCTTTGGCTGTGGCGAGGTTTCGGCGGCGGAGTGGGT
TGAGGAAGGAAAATCCGGTGAAAAAAAAACGCTGTCCGAGCCTGTTTTTT
GGCCGGAAAAATAGGAGCGAAGACCGTTATTTCGTTTCATCTGTTTTTCC
ATCTCCAACACACACCGCCGCCAAAATCTCGCCACAGCCCGAACCCACTG
CCACCAAACTTCCTGTGGCCAACTTGAGAACATAGGAGGACACGCTCCAT
CAGGTTTGATCGGCATGTGTCCTAGGGGTCGAGTTCTGGTTCGTGCTGTC
GCCTGATGTGTGCAACAGGGCTGTTTGCGGGTGGGGGGGGTAGGTTCACT
GCTTGGATTCTTGTAGGGGGGTCAAAACGCCAGGCCAAAATAACGTTGAC
CGTAAGAAACAGCCTGTGATCCGTAATTAGTGGGTGGTACGGAACAAAAA
GACCATTACCTACGTGACTTTTCATCGTCGATGAGTTTTCAGATGCAGAT
TCGAGCCTCGGCATCATGTCGTCTTTGTTTTCGTCATTTTTTTATGTTCT
TTTTTTCGCTTTTTTTTGCACACTTTTTTTCCGTTTTTCGGGCTCGTTTC
TTTAATCCTTCGGGTTCTAATATCTTGCTAGAACATCTATTACACACAAC
AAGATAAAGTAATCCGGAGTAACATTTGCGAATTTTGCACCAAAAACCCA
GGACCATCCTTGGGCGAAACCCTGGGGGGGACGTTAAAAAGCCATCCCCG
GGCGGTATCCCATCAATATCTCAATGTTTTTCATCTCGCAAGTACCTCCA
GTGATGGATAGCAGCTGCGTTTGCAATTAGTATCTATGCAATGGCTCATT
TGTGAAACCGGCCACTTATTCCGGATTATCCGGACCGGCCACTATTGCGG
ATCAGATCAGATTTGTACAAGGATATCATTGTATGATGCTAAAGTATCAT
ACAAGGATTGACGTTTCAGCATACATGCTACAGCAGTATGATGAAGATCC
CGTGTTTGTCTGCTCTGCTGACTGCTGTAAGGAGATACTTAGTGTGAGTA
GGAGTTACTCCGTGTGTTTGTCTCCTGCAGCAGTAATTCGTTTGTGAGAG
CGACTCCCGTCGTGTTGTCTGTGCGGCACTCGGTGGATGCAGGACTCGGC
CTTGGCACATGGAGGAGCCCCACGGGAGAGGTGGACACCGCTGTCCAGGT
AATGCTGCAACTCTGCAACGGAATTGAAGTATTTTAGTACAGACGTATAT
ATCATACGAAGCACGAAGTGCTAAATGAAACACTTCTCGATTGTCGGAGT
AGTCCTTCACGTTTCTGCTTCGCTTATCATATCAGTAAAAATCGCTGCGA
TGCCTCTCGGCAAGAATGTACGCATTTGCTGTGTTCAGTATTAAATTGAA
AAGGGGTTGTAGAGGGGTGGCGTTTTCTAACAGGGAACCAAATGACTTGA
ACATAGCAGGGGCTATGCGTGGTTATGCGATGGGATGGTATTATCAATGG
GATGGGATGTGATGGGTCGACAAATTCCGTTCCCATCACAAGCTACTATC
CCATCGCCATCACTGTGATTTGTACAACCCGTCATTTGCCATCTGGTGGT
TTGTCTGCATTTACCATCCCATCGACTTCCCCATCTCACCACCCGGAGTT
GCTTCCCATCCCATCCACAACCCACCGCTCGAACTCTTTACCATCCCACC
ACATACCCACGTTCAGCCACCCCGATAACACCGCACAGCAATCATTTTCC
TGGATATTTCCAGGAAGGCATGCCCCCTACCACCATACAGCGTTGTATAT
ACGCTCTACTCATTTTTATATTTTTACTGTATAGACATACAAACAAAAAA
CGGAAAACGAGTGGAATTCAGGCGGGGGGAGGTATTTTTTTTCGTTGTTG
TGAGCACTTCTGCTTGTCAACGCGCACACAACATGCATGTGAATATGCAT
GATGTTCGCACCCCAAGGCGGCACGCCGGCCGCAGTACAGTAGTCAACCA
GCCACTGCAGCACCGGGTACCCCCAACGCCATCATAATTTTTCGTGTAAG
TGTGAGACAAAATGCACCATTGGCGAGAGCTCTGCAGGAACACACCAATC
TGCAGCGCTCTCTGCTGCTTTTGCTGCTGGCACCACCGCAGCTGGCACCA
CCGCAGTCGTGGTCGGGGCTGGTGTTGGGATGCGCAGACAAACGTCTTCC
ATTTGGCGATTTATTCAACTCTTCGCACCGCCCGATGCGAAAGGCAGGAA
CGTCAAGTGCATCGTGAAGATCCAACTGCCTGTTGTGCGTCTGTCGGAGA
TGTGCCACCTGCACGCATGCAGTGCTCTGAGATTTGGCGCACTGCGACAC
GCACAAAGTAGGCGTTTGGTTGTGGCTGCTTGTGACATGGGCGTGACACT
AGTACTGATGATGACAAGTGGAACTCACTGCTATATCATGGAGTAATGAT
GATCCTAAAGCAGTCCGATCGCATTCCCATCGCTTCACCATCGCTTTACC
ATCCTTCCCCCGAATACCATCACCATCGTGATGGCAAAAGGGCTCACCAT
CCCATCAGCACCCGACTCCCAATACCATCCCATCCCATGAATACCGAATC
CGAGTACCATCCCATCCCATCAGCACCCGACTCTCATTACCATCCCATTC
CATCTACACCCGACGCCGATTACCATATCATCCCATCAATGCATTTCTTC
ATGTTTTCCATCCCATCGCGTTACCATCAAAGGAAATGATTTCCATCCCA
TCTTGGTGGTAGTAAGACCGCACGGTATGGGAGCCACGTCTTTTTCTTAA
TCTTGAGTTTTGGTGGGGGGGGTAGGGTGATTCAAGAAAACTTTCTCCAT
GTACACCTGGGATGGGGAAAAAAGGTTGCCTTGGAATCTTGAAAACTTTT
GGATCGAGATCGCGAGGCTGGGTATTTGGGAAAGTTGGGCCCAACTTCTG
GGCGAGCCACACCTCCTTGAAAACTTGTTTGGAGGGGGGGGGGTCGATTG
TGCCGCTCCGGACGCATGCACACACCACACATGCTGCTGGAGACACAATC
ATCGATAACACAAGAAATACAGAACGTAGCGCGCTCGTCAAGGGCTTGGA
GCAACCCTTCGTGCATTGCCTTCCCAACCTGGCCACTGGCCGGTGGCGAT
CGTTCTTGAGGTGTGCAACAAAAAAAACATTTGACCACAGGCTTGAAGCT
GGAGATGTCAAACAGCATTTTTGAGGCCCACTGAACAAAAAAGACAGATT
TTCAACAGACATCCCGAGCACACCACACTAGATTTCTCGCTCCATAGAGC
ACGTATCGCGCCAAAACCTGGAAGGGTGGGAGCTCCATTCACTACGTTCG
GCCGATATGGCTTTGGTTTGGCGGTGGGATCATTCAATTAGCAGGGAAGT
AGCAGCGTTGTGTACAAGTATCGAACATCTGCTCGGAACATGATTTTCAA
GGCAGCAGAGAAAGCCCTTTATTTTCAAGAGAGAAAAAAAAGACAGATTC
TGTTTGTTTTCGAAGCTCACGCCCTCGAGCGCTGCTACTCCTTGCTGGTT
GAATGATCCCACCGCCAACCCAATGCCCTGCTGGCGGTAAGCAGTTAGTG
GAGATCCTACCCTTCAAAGTTTCAGGTTGATCTGTGCTCGATGGGGCGAG
AAATCGAGTGTGGTGTGGTCGGGTGTCCGTTGAAAAGCTGTCTTTTTTAT
TCTGTGGGCCTCAAAAAGCTGTTTGACATCTCCAGCTTCAAGCCTGTGGT
CAAATGTTATTTTTTTGCATGCCTGAAGAACGACCGCCACCGTCCAGCGG
CGAGGTTGGCAAGGCAATGCATGTAGGGTTGTGCCGAGCCCTGGATGGGC
GCACCACGTTCTGTATTTGTTGTGTAATGGTGGTTATGTAACCAGAGTGC
GATGAGATGGGCCACCCATGCCACCGTCCCTACAGCAGTTCTACAACATC
AAGATATATACAGCAGTAGATTCCTGGACCATAAGGACGGACAGAAAAAA
GTTTATTTTGGAAATGCAGAGCCCAAATCTTTGGGGGGGGTATGGAAAGA
TTAAGAAAAATATTTGGCTCTCATAACGTGCGGTCTAAAGCTCAAAAAAA
AATCCGGCTGCGGCAGGCTTTCTGATGGAATACCATCCCACATGTTGCCT
TCGGCACCACGCGTAGCCCTGGAACATAGTGTCAAGGATCTGCACAAATG
CAGCTTTTATTTGGAGGGTGTTCAAATCTTACCAGAAAAAACGTCTTTTA
AGTACCAGGTAGCTCTTTGGGCTGTATATTGAATTTTGGAATTGTGCCCA
ATCAAAAACCTGTGTGGATTATTGGCCGGAGAGGTCGCCCGGTAAGCCAG
CTTCATTCGCGTCAAATCCGTTTGCTGGTCGGGGGTACACACGCGGAGAA
CGGTGGCATCGCGGAAACGCACCCGCAGATCTCCCATTTTGTTGTAATAC
AACAGTGTCGGACTCCTGCAGCCACCACCTAGATACAGTTCACACGAATA
CCTCTAGAAGGACTTCTGGCTGCTTGCTGCTGCTGTCAAAGTATTGGACG
CCACTCACACACCACATAAAGTAGGCTGTGGCAATTTGAAGCAGTGGGGT
TGCTTGTGGCAAGCTTGCTCTGTCCGTAGCTGAAGCACAGTTTCTGCGGT
GTTATGCGCAAAAATTCATGTGACAAGATGGTGCTGAAAACGTTAATTTT
GAGCAACTCGATCTCGCGCTACAAGGCATTTACAGAGGTTGGGCACAATT
TTGATCCACAGAGGAGTTGAAGCTGCCGTGAGATCTCTAAAAACCTGTAG
AGGTTTGTGCCTCCTGAGGCTGAATGGGGGAGGGTGGATAGAGAGTGTAC
AGCAGTCAGGGGGGACTCCGCCCAGGATTTTTTTATCTATGTAGAAGTTG
AGACGTGGTGAAAAAACTTGTTTGGTGGAGCCAAAGACACCACCACGGAG
CCTAAGGGGATGACGCCCGGCATCCCCAAAAGCCTTGCCTTAAGCTCCAC
TTTCAATCTTCAAAATTTCGTGAGTTCGTTGTGTACAGCAGTAGTTGGAC
TTGGACAGAGAAAATAGCAGTTCACCAGCTTTTAATTTTTATGGCGATTT
TTTAGCGTCACAACACACATTCCATTTTCAAATGCAAAAAAGGCCGTCTT
TATTTTGAGCTTGGCAGGCCAGACCTCGAGCAGTGAGCCCCCCGGCAACC
CAACGTCCTGCTGACAGAGATCAGTGATTGGAGGTGACAGTCAAGGAGGT
TTCACCTGGATTGGTGGTTTAGTGAGCGACAACGAGACTGTGGTGTTCAA
ATGTCGCCTGAAACTGTTGTTGTGCCTGAGTATCTTACATTCCCTTCAGT
AGCTTTCAAGGAAAATAGAGAAAAGAGCCCCAATTCAAAAACTTAAGTAT
CATTTTTACGCGTGCCCGGCGCGCTTCCGAGACACATACTAGCGATCGAG
GTTGCACCAAGCTCTCTACGAGCCCGCTGCGTTCAGATTTTATGGCGTAA
AGTGGTTGATTTTGTCCACAAAGCGGTTGACGTTGTCATAGGCCAATTTC
GCCGCGTTTCGAAGCAAATCAATAACAAGATATTTACCCCACAGGGGTAC
GATATTTTAAAATATTAGCATCTGCCTCCAAAATATTGATTGACATTTCG
GTAAACTTCAACATGTTTCCGCAAGATATCGTTTCCTTAGACATGAGTGT
AAGGCCCTGTACTAACGAAATTCGGAAAATCACTATAGGAATAAAACATT
ATCATAGATGGTCTCTGGTCTCTGATTGGCCAAGGCTCTCATTACCTCCC
GACGACGCTTATGATTTTTAGACATCACCGGCAGATCAAAGAAGTCCAAA
AAGTCTTAATTGCCAAAATTGTAATCATTTTTCGGGGTCTTGACCCGATC
GAAGTCTTTCTGAACGATTTGCCTCGCGCACCATAGACAGGCGGACAGGC
AGGCCAGACCAAATGCTAACGAAGCAACCAACAGCAATGCGACAGAACAT
GACATAGAGGTTTGTTGTTGCACCAAGCAAGCCAACGCAAGCATGACATG
GCAGCGCAACAAACACAGCAGTTTGCATGATGACGACCCATTACACACGC
CACAGGCAGGTCACGAGGCCGCCTCTCACAGCCCATGGCAGACAGAAATA
TGATACAGCAGTTTTGAGTGCATGGGTCAACACATACGCACCGCACACCT
ACACTAACGAAGTGTCTCTCAGCATGCAGGCTTGGTGCATAGAGCCCACG
ACCTTGCCTCTTTGCATGCGAGAGGATGCATATCATACGTCGAAGTACTG
CCTGTTTCATTGTTCTGTTTTACCCGTCGTGTCATCATCAGAGGTTTGCA
TCCTGCAGGCCTTCAAACAGCTTTTTCAGCTTTTCCGTTATGTTTGAAGG
TTGTTTGGAAAATCCTGGAATGTGAATGATTCCAATAATGGTTTTCCGAC
TTTCGTTAAAACAGGCCTTAACCCATAGGATTTCAAACCACGTTGAAAAA
AATAATTGAAGGTATCCAAATCGGACGATTCCGGCCTCTCTGGAAATCTT
ACGTTACCCAAACCGAGCGGTGTTGAATGTCCTGTCCGACGCGGCGAGAT
ATTGATTACTCGAAGTATATCACAGGTCCACAGGCGTCAGTCAACGACAC
CCATCACTGCGTGATAAAATCTGAACTTGGCAGCTGTAGGGGGGTTCGGA
GAAACCCCAGTGTAACTGTGCCAACACTTTGACCGTCGGTTGGTGGCAGA
CACCCGCCAGGTATGCACAGAAAGTCAAGTGATACTTACGTTGTTTGTTC
TTTGAACCCCCGAGAGTGGGTAATCAATCCACTTTTCATACAGAAAGTGG
CGGAGGCAATATGCAGACACTGGCTTAGCCCGTGCACATACCAAACTCCA
ACCGATTTCCTTACCATAAAGCAACACACCCACGGCCGGTGCAAGCATGG
GCGTCGACTTGTGCTATCATGAATTTTGGGCACATCTTAGAGCCTGCCGC
GGCAAACCAGGGCTCTACACGGCACCCCTTTTCGTCCGACAAAGCCACCA
CCTGCTACTGCTGTTCCACCCTCCCCCCTTTTTGTCCACTTTGTCTAGCT
ATTTTTCTGAAATTACCCGCTGTTGACTCCTCTCCGCCCGTCTACAGCAG
TCAAGATCCAGGTCACCGCACGGCACAACATCAAGAGAAAGGACCAACAA
TTCTTATGCGATAGCTTTAGTCTCATAATCCTAAATTCGAAAAGTGTGGA
CCCCCCACAGAAGCTCCGGCCCACGCGTTTTCCCGCCAGAAACGCCGTTC
TCGACAATGCAGCTGCAGCTTGACCTGAAATCTTGAGATTCTGCCCGTCA
GCACGCCTTCGACTAGCATACCGAATCTCGTACGGTTCTGTGGCGCCGGT
GCAGAGCGTCGGGTGTGGGGTGCACTGCATGCATCTATCATATCCCACCC
CACAATCTCGGTTAACCGGAATTGTCGGCATCTCTTGGGGGTTACATGTG
TCCGCCATTCTTGAAATAACTTTTTCGGCAGTACTTTCCTACCTCAAGTA
TGTTATTGCTCGTACGTAGTCAAACCGAGAGGGTACCCCCTGATTGATCG
ATCCTCATAAAAAGCTACCACCTGGTAAATGTCAGCCTACAGCACAGATC
TCCCGAGTCTTGATGCATCCCTGTGTAGCCAGTACGATTCGGGAGCTCTC
CGCGTGTTTCTATCAGCTACGGCCACCTGTGGTACACGAAAATCGATTTC
GTCGCCACCGGCTTTGGCGGCCCGGTCAACCTATTCGGGAGGGTCTCTCG
AAACGCCTTCAGGTGGTCTCTCGAAACGCCTGTGGATCCCGACATCACGA
AAATACAGAATACAGCACAACAGCACAACAATACCACACAGCAGCGATTC
GATGCCATGGTCGCGAGGGACCTGTGCCTGGTCAAGCTCGCGAACGCCTG
CTGGCTTTGCATCTGCAGCTTTGGTGGAAATGCCTCGTGGTACCTGTGTT
TGTGTCTGCACCTATACCCCAGGGGGGTTTGACGGGGGTGGGAGATATTT
TTTGCATTTTTTTTCTCCGGGTGTCGGGACGGGAGATCACAGCAGACAAG
AGCGACAGGCAGGCGCCTCGTGCTGTTGGCGGCTCCACCCGGCTAGGGGT
TGCCGAGCAGACAGACAGCCACTACGCTGTGGCTCGCATACAAACAGCTG
CGTTGGCGGAGATGAGTCACGGGTGTGATGTGTGTATCAGCACTTCTGGC
GAGAAGGCGGGACAACCTCAACTTCGAGAGATCCATGAGCTGGGATCGAT
TGCACTACAGGCATCGCCAGGCACCATGACATCGATTGCAGAGACAAGGT
GAGAGTAGGTGTCGGTCGCTGACTCGGTAGTGCACACATTGTTCGGTGAT
ACGTGTGGATGTATGGTTGTGTGTTGTATGTTTGCATGGTTGCAGTATTT
GAGTACCGGTTTCGTTCGACTGCTGTACCGCTACTGCTGCTTCTCCCTCT
CTACTGGTATAGAGTTATGGTAAATATCTCACTCACTGCTGTGTTGTCTT
TTTTTTTTTTCGACAAACACATCAATGTGTTCCACTCTAGACGAGAACCT
AGGGCATTGGCAACGAATACAAATGGACCAATTCTTCTCTACTCGTATAC
TGCGTTACCTGTCGTGTTGTTTGTAAACTCATCAGATAATGTACCGTTGC
AGCTCCCCTGAGGTTATCAGGCTCAACAAGACAATGTGGGGGTCGTCTGC
GGTGTTGTTGGTCTGTCGTGTGTCTCTTTTTTTTATGTGTAACGGCTATG
TTGTGAGCAGCAGTACCTCGGTGACGATTGCGTCAACATATATTTGATAT
TTTTAACCCCCGCCCACGATGAGATAGCCCAAATCTGATAGTGTCTATCT
CTGTTGCTTAGTTATGTCGGTGATCCCACTGCTGTGTTGCTGCGTTATGA
GCTTAGAATATTCCAGAATATTCGGCCTACAGCAGTTTGATGTGTATGAT
ACGAAGCACAAGTACGTTCGACCGAATCGCACAGCGTTCGTTGATGCGTA
TGAACATTTTTATAGCACAGAATTGGAGTGCTGGTTTCGTTTTACTGCTG
TGCTGCTGCTGCTTCTGTACTGGCAGTTATGGCTGAGATCTCGCTGCTGT
GTTGTCTGTAGCCCCGGTCTGCAGCGTGTCTCTCTTTTTTTTCATGTGTA
ACGGCTACGCTGTGTGTTGCATTGTAAAATACCTCGGTGACGATCGCGTC
AACTCTTCCTCAACCCCGCCCAACTTCAGATGAGAAATACCAAATGCGAT
ACAGGTAGTGTCCACCATCTGCTGTTGTGTATGTTATGGATCTCACTGAG
GTGTTGCTGTGTTCTGTGCGTGGAATATTCGGCCTTTGGTGTGTATGATA
CGAAGGACAAGTAGTACGTTCGACATAATCTTTTTTGCACCACCTCCGTC
TACCGCACCAATATTGTGAGAGAGCGATCGAATAGCACCCAGGTCCTATG
ATATGAAAACAGTGTTTTCGGGATGAGCTTGCAGAGACCCAAACTTATAA
CCGTTGTGGCCGTCGTCTGAAACATGTCGTGATATTGATCTGCAGCACAC
ATCGTTTTATGGAGTCGCCCGGCAGTATGGCACACAGCTGATCACGTACA
CATCGCCTTCCCTTTTCCCCCATCGACTCCCTGCCTCTCCCCTTAGCAAA
TGTCAAACACCGCAGCCACGCGGGGAGATTTCCAAGACGAGGTGGAGCGT
ATCCCCAGGGTGCTGTCTCGCCTCACCAGGGATCAAGCGACGATGATCAC
TTGCCGCGAGTGTGCTGGCAATGCGTTCAAGATCCCCGGCGTAAGGGGTC
GGGGAATGAGGTGAGGCAGGTATACTGTGACTAGCTTACCTTCCAGACCT
GGTGCCCTTAGTCGCCTGCATGTATCGTACATTCAGCCTTCGTTTGATGT
ATGGACGTGTGCCGATAGTTTCTTGTCAAAAACAGACCGGAGTCGCGTAT
GTGAGTATTTTGGCTGGTTGTAAGCAATCATTTCCACGACAAAGAGCACC
TCACGTTTACTCTTCGTCTAAGGGTCACTTCGTCTAAGGGTCAACACCAA
AGAATTGCGCCGAGAGGCGGGCGGGCGTCAGAACTGTTGCCAGTGTTCCA
TCGGAGAAAATAATGCCTCTCGCGTTGTTACGGTTTGTCCGTGGCCAAAC
ATCACGGTCATGTGTCTTTGCTTGTTCTCCGAGACAGACGGGAGACGTAC
GTGACTACTTTTTGGCGCGTGAAGCAATCTTATATCAGTTGGAGTGTGGA
AAACAGGATATTGGTATCGGTAGAAGGACGTGTGTGCGAATTGCCGCGGT
TTGACATCGCAGAAATAATGGCCTCACTCAATTCGAAGTTGTTTCTAGCC
ACGCGAGAGTGAAATGTACATTGCGCTGCTGCTCCCGTCTGTGGTGATGG
TTTGCTCATGTCGGTCTATAGTTGGATACGTGACTCCCTGGCGTGTCCTT
GTTTTATACCATTCTATCTTTGAATTGTGTTTTTAATCACTGCACGCACT
TATAACTTTGAAGCATTCTGTTCAGAAAACAGCTAGATCTAGGTGCAGAA
GTATCCTCATGGCTTCTGTAAACTTTTTTCCCTTGCCCCACCTTTCCCCT
GCCACAAATCACCTGCAACGCCTGCAGCTGCAGCATCTCCGTGTGAGCGG
ACGAACCGACAGCGGACGAGAAGAACAAGAGGAAGTTCACCAAGGCGTTC
CGGTGCTTCTTCTGTCGCTCCGACACTAGGTTCAAGAAATCTTGCTAGAA
GATGCTCGATCCCAAGGGGGGGAAGAACTCGTGGGACGACCAACCGGCGA
CGGTATACCTGCACGCTGATGGCGAAAAGTGCGGTACTCGCAAGAGGCCG
CAGGACGACAAGGACGACCGAGTGCAAGAACAGCGCCCCGGACGTTGTCA
TTTTCGACACCATGGGTGCCGTAAAGGCTGACCATTTGTTTTGAGTTGGC
TGCCTGTACCAGAAGCGGGCCGATAGGTTGGGAGAAGTCCAAGAGGAACT
GAAACAGGCCCGCATCGAGCGGAATACTTCGCCGCTCGATGCGGGCCTGC
TCCACTTCCTCTTGGACGTCTCCTCGACGTTGCCTGAACTTCATCTCAGG
CCCTTCAGCCCCTTTGCGACTTCTACCGTACCGGACAACTTTCATCCCCT
TAGTCCTTCCGGTACATCAGGTTGACGGAATTTGGCTTCACAGCAGCATT
TTCTTTGTTTGTTGCCGTGAGTTTCTGCCTGCCTACTACTTCGTATTTAT
TTTATTTATACGTTGACAGTCAACCGTCTCTGTATTGAGTCTCAGTGTTT
CCTGCTGCCATACAATTCACGGGTTCTTTGTTATGCTGACGCCTTTACCA
CTTACTTTTTGCCGCATATTCTTGTGCGTGTCTTTTTGATGTTTCCAACC
TTGAACCTTTCATGGCTGCATGCATGCACGTCCATCTTGTGTTTAGATTA
TTGCCATTACGGCAGCAAGCGAAAAAAACAAGCAGCTTGGGACTAGCAAC
GCCGACGATAGCCGTCGGATTTCTTTTCAAGAATGTTTACAATCTATCCT
CGTAGCTCTCATTTCACCTCTCTCGGTTTCAAAGGAGGTTGGTTGGTATT
CAGAATATTTTATTTCGCTCGTACTGCCTGCACCAACTTCCAAAACACCT
TGACAACCCGGACACACAAACGTGAAACACCTAATAATAAAAACTCGCTC
AAGACAGGCAGCGCCGACGAAACTCGTCGCGATGGTATAAAGGCAATGAA
ATATTACATTAGGAATTCATCAATGTTGAGAAGCTTCTTAATCCGTCGGG
GCCTTAAGATGAACAAATTGGGCATCACAATCGAGCAATTGGTTTTTTTG
TTCCAGTCCGGTCTACTCGGATGTTGGGATCATAAACACGTGTGTGAACG
AGACGAATTGATTGTAGCAGGCGGCTGTGCCGTCCTCTGTGTAGGCGGTA
GCGTCAACCGCGGGAAGAACAGGCATGGTTGTGTGCTTTCCGAGAGCCTT
CACCAGGCAGCAGCAGCAGCAGCAGCAATGGGTACGCTAAAGAGGCCGAC
GGCCTGCTCACCCAGGGGATTAGAGGATTACAGATACAGGAAAACCTTCA
CCCGGGAAAAATCAGGCATTTTTCCCGGGCAATAGAATATATACTGAAAT
ATACAGCAGGAGCAAACACACCGGAACCAGGGATACAGCATGCTACCTCT
GTCGGCTCGTAATAGCGGCTGGGATATCCTTCTACTATCTAACCCTAACC
CATTTAGCCTATCGCGGGCCTTCGCCTCGGCCCCTGCGTATTTTTAGCTC
ATGCCATTCCTGCTGTGCTGCTGCAATTCTCGAGTCGATTTGCAGGCTGT
TCGCGGCGAGATTACACGCAACGGAACCTTTTTGCCCGACAAAAAAAAAG
TAGGCTTCTCGACTAGCCACCTGAGTGACAAAGGCTCTTGTCAAAGCGTT
TTGGGCCCATTCAAAAATCAAAAAGCAAAAAGCAAACTCAGAACATGTCA
CTGATAGGCCAACCATCCATCCGCCCGCACCACGTTTTGGATTTCAGTTT
TATTCTTCCGAAACGGGAAGACGCGGCTCAAAAACGATTAGACCTACAAT
ACGAGACAGAGAGGTGTTTGTTGTGCATTCCGGGAGCACATGGTGCACAC
TACATATGTTTGCTTAACTGACCACAGCACAACGCGTAGACCCCGGCTGT
ACATATGTGCTAGCTCCGGAGAAAGCTGGTATCACGCAGAATACAGATCA
CTTTGTTTGAGCGAATTCCGACCAGAATCCGGAGAGCAGCACTCAAGTGT
GTAGAAGTGTGCAGGAAGTTTGTTGCTCAACTGCTGTTTGCGGAGCTGAC
ACAGCCGCTACCTCCAAAAAAGTGCAGATAGATGTGCAACACGTACTTAC
TATCTCTTGCCGAGTTTTTCGGTTATCGATCCCAAACAAAGAACTACCAA
CGCGCCTGAGTCAGGGCGACGTGGGGCACCATCGTGCTCTTCGTTTGAGG
CACGACAGCTCCCGCACTTGTCTTGGAATCGACACGGCATGCTCATATCA
TACACCATCTGTCTGTGACTGCTGTTTGGCTGCTGTTTTTTTTTATGCAT
CCGCTTTGGATTTTGGACAAACGAAAGCTGCAGCAGATCGGACCCAACAC
GGAATCAAAATCCACATCCTTTTTTGTTTTTGATTTTGAATGCGGTCAAA
AAAGTGACACGAGCTACCCTGAGAGGGTGGCTCGTGTCCCCGAGAAAAAG
CCAATCGAAATCGAACATCGAAATCCAAAATATTACTCGTTGGTCAAACT
TCCCTCCGCACATGCGGCGCATCCAGCAGATTTTCGATTTCGCCCCTATT
ATTCCAAAAGCTAAAGGAAAGGGTAGAATCGAAAAAATCCGAGTTTAGAA
TCTAAAATGCGGCTCAAAAATCGAATGGACCTACGGTTTGTGCAGAACAA
TTTGTCCGTAATTCTGGACAACACCCACGGGTACACTTTTCTCGGGGTGC
TGTTGGTTGTTCCGAAATCCTAAGACACCGGCAAACGCCCTGTCTCAAGG
CGCAGATCCCAACGTTTTTTTTTTTTCAATTCTGAACTCTTAATCGTCAA
AGTCGTTGTAGAACTGCTTCGAATTTATACCGACTGGGTCGCGATGTTCA
AGGGTGTGGGTGTATGTGCGAAAAAAAAAACATGAAGTGTCACAGGGTGC
CGTCATTCAATTTGGGGAGGTGTTCGGTGTTTGTCTGTCTGTGTGTCCGA
TGGCCACGTTTTGCAACACTACGACACCAGCTCAGCACAGATCTACAAGG
GCTTGAAGTGATGAGAGAAACAGCATCTATCCATTGCAGCTGGGTTCACT
GCAGCTGCAGCCAATGCCCGATTCGCACAGCTACCTCGTCATAGGTGTGT
CGTATACGGTGTTTTTTTCTGTTGGAAACTGAGAAGAGGCGTTTGTTTGT
TCCCACTACGTCCAACACCAACGCAGACGGCTTAACTCTTCTGGGTCTTC
AGTGCATTTTTTGTTTACTGAAAATTGTTCATTTTATTTTATTTTTTTCT
TGGGGCGGTGTCGTCGGGACATGGGGATGGAGTCCGGGATGGGGACGACA
ACACAACAACTAAATCCCGAACCAAAGAACGCGATGGAGTTGTCACATGT
GTTGGTCCCCGTGGGAAATGAAAAAAAAAATGTCTTCACAATCGGAGGCG
TGCTTGCCTCACGGGAAGATAAAACTTTTCAGCCCCTCCCCCTAATATAC
CGCCTCGAGACAGAGAGATGGTCCCGCCGCAAGGCTTTAGGGGTGTCTTG
TGGGATCCGCCGGGTCGCAATACTGCACCAAACATTGCCACAATCCGAGG
GCATAGTCTGTTACAAAGGTAGAATCGATGGCAGGGTTGGCGACTTTTGG
ATCACCGCTGCAGCGGTAGAAACTCAAGATTGAAGCTCCGTCCAAAAAGG
CCAAAATCGCACCAATCCTCTCAAAAATCAGTATGATTGTGACTGTATCT
TATACGATCTCACGACTTGTGTGATCGGCATGCCTGTATAGATGCCATAC
CTCCGTCTACAGCAGTACTGCTGTATGATACCTGCCTACAGCAGTAGCAC
TGCTGCAGGAACACTCCTGATATACTGCTGTACTCCGACGGTTGTGGTGT
TGTTATGAAGTTTGATATGATACCATGATGTCAGGAAACAATGATTGGGA
CTGCTGTTGTTGCTGTATTCCAGATCTGTCCCCTGTATTTACATACTGCG
GGCGGATCAAATCTAGCCTGGGACCACATCTCGCGACTTTTGCCGCCTCC
GCCGGGTCGCCAGAAGCGACCGATTCTTCTCCTACTTTGCCATGCTGTAG
GAAATAGATAACAAGTCCTATTGCAGGGTTGGCGACTTTGGGATCGGCGC
TGTGGAGCGAGATATTCAACACTTAGCCAAAACACGACGCGGAGGAACGT
CTCGAGTGATGATTTCATGATTAATCTTTGATCGCATAAAAAAATAAAAG
TCGTTTTTTTGTACGGGACCAACACATGTGTTGACACCATTGATTATAAA
AGAAAACACCGCGCCAGCAGTATCCAACACGAGCAACACACAGCAGCAGC
AGTCTTCCGACCACCGCAGGGCCTGCTACATGCATCCTGCTGTGCCCCAG
ATTGATAAAATGAAGGTTGTGGGCTACAGTGGACAAAAATGCGCTAAAAA
AATGCGCTATTCCTGAATTGACTTGATTCCATTTGGGTATGGGAGGGGAA
GGCCTGTGGTGACCAGTCATCATTTCGCGATATTTGAGAGCAGGAGGCGG
CATCGCGATCATCGGTTAACTCTCCTTGTCTCTCCATGGACGCTACCAGC
CTGTTGCGAGACCTTGTTAGTGACCCTGGCTGAATAAGTGTGAGGTGCTC
ACATGTCAATTTTCTCATGATTCGTGCCACAGAGCCAAGAGCTGGGTTTG
TGTCTGGTTCTCGGGCGGTGGAATACCAGCTGGTTCAGTTCTTTTGTTTT
TTCTAGAACCCGGGCTATTCGGGGCCCCGCCGAAACACCCTGGTCCCAGA
ATGGGTCAACGCAGTTGTTTAACCCTCCTGGTACCAGGCTCCTCAGGGTG
GCTCTTGTCCCCGCGAAATGCCCAAATCTAAAATCTAAAATCTAAAATCT
AAATTAGATTCCGATTTTAGAAATGGGGTTGGGTCCACGCCGCTTCAACT
GCGTTCATCTAAAATCTAAAAAGCGGAGGTATTAAAAATACAAAAAAAGG
AAGAGGCACGACCAGCAAGTCAGAGGATAGACGGTCGTGAAATGCATCCA
GTGACGATTGGAAGGCTAGTGCGGGAGCTACGATGCCTCTAACCCAGTGC
ACGATAGCGCCCTTCATCGGCCTGACTCAGGCGCGTTGTTTGTCCTTAGT
TTGAGATCGATCACCGTAAAAAACTAGGAAGAAATGTGTGTTTGATTGCG
TGATGCACACCAGCATACCCTACATACCCCTACTGACCCTTTTCAGAGTC
AACGAAGCCCATGGTTTTCAGCCGTTGTACATATTCTGCAGAGCGACACC
ATGTTACTCGAATGAGAGCTCGTCAGCATCTCAGCAGACTCCGCTCGGAC
AGAGTTCCCCTCTTTGCAGTTGGCGATACCATCTTCATGTGGAGGTACCG
ATTGTGTACAGCAGGCAGCTACAAGTTGTGTTGTGAGTAAAAGCATACCG
ATGTTGCTATCGAAATGCACAGCAGCACCACCGGTATGAGAGTGTGAGCA
ACAACAGCAGTTACTGCTGTCTGCACACTTCTGCACACTTGGGTGGTGCT
TTCCGGATTCTTATGAGAATCCGCTCGAACAAAGTGATCTGTGTTCTACG
GGACACCAGGCTTCTGCCGAGGTCACACATACGTTCAACAGGGGGATACA
AGTTGGGCTGTGACCAACTAAGCAAAGACACATCGATGTGCACCGATGTC
TATCAGAAAGCACAGCAAACACCTCTCTGCTCGTGTTCTATGGTCCGTGC
AAAGCAATTTGTCCATTTTTTGTTTCAAGTATATCTTTCGAACAAAAAAA
AATTGTAACTTTAAACAACGATGGCCGTGACCGCCGCGGCGAGCTACGTC
GACAGCCGTGGAGTTTTTTTTTAAAATGCAACATTTTCGGCGAAAGTTAC
CTCGAAATTATCCCGAATACCCCGAAAGTACCCCCGAAATACCCCGAAAT
GGTACCGGCACATGCAGCACGTTCACGAAACAAGCCATACAGCACACCAG
CAATTATCATTCATATGATATGTACACATGAAACACGATATTTTAAGTAC
GACATACCAGGTATATGCGTATGATACCAACATCGTGTGTGTATGTGGGT
GTGTGGGTGTTTGTGTGGGTGCGATCGTCCCATTTATTCCGGCGCCAGTG
TATACACCTTTCGGTATCAATCTGTATGTCCTTGACGTTCAGTTCGGGTA
AAACAGGAGGAAGGTCACACACGAGCTTTCTATTTTATTTTTTGTTGCTC
ACTGCTCCACCTTTCCTCCTGCTTTCCTCCTGCGGTGTTCGCCTTTGATT
TTAAACGCGAGAAGGGATCGATAGTCCCCTCCCTCTCTCCCTCTTGTGTG
TGTGTGTGCGTGTGTGTGCGTGTGTGTAGTGTGTGTGTGGTGTGTGTGTG
GTGTGTGTGTGTGTTGTGTGTGACACGTGTGTGTGTGTTTGTGTTTGTGT
TTTATTTTTTTGTGGCGGGTGCTGGGCTGCATTCATACAGCGTACATACA
TACATTTGTATGTACGTGCATACTTAAATGCATATTTATGAGTATATGTT
CAGTCATGTGTATGGTGGTCACACAAAATCACGAATATCTCATGAAATAT
CGTTCCCAGAAAAAAAAAAACGCTCGCGGGTATTGACGAGAAGAAGCGTT
TGCCGCCCTCTGTTTTTAGAGCATACTGCTAGTTTCTCCGATTAAAACGA
ATCAAGTCGACCTTCCAGATCCACATATTTGCCAATATCTCAATCAATTT
TGGCTTTTTAAAAAAAAACGCTCGGGGCAAATTTCAAGAGCTGTCCGAAT
CCGTTGAGATATTGGACATCAGAACAATGCAGCCTCCTAGTAAAATGAAT
CAAGTTATTTCGGACCAGACTGGTACTTCGCTACGCTTGTGAACTGCTTG
TCAATATGACACAAAGTGTCAATGTCCGTGTTCTACAACAAACATTTGCA
GACCCCAACGGAACATTTTGATATGCCTCGGGCAATATGGAGTCAACACG
TTCATTATTGGCCGCAGAAAAGGACACAAAGAGAAGTAGAGCTTCGTGCA
ACACATCACAAGCTCACAATAACGTGGTGCAAGCAGCAAGTCCAGACGGT
TGCACCTGACAGGTCTAACAGCGTGAAACCGTCACTGCAGGTAGATCCGA
CTAAATTCGTCCTCTGACAAGACCCCGGACGACGAACACCCTCCCTGGTT
CTTCACGCAAGTGACCAACCATCATTCAGGGAATATTGCTGCGCCTTGAT
CATAACGAAACTATGCAAAAACGGTGCAAGGTGGGAACCGGACCCGAAAC
CCCAAGCCTTACACCGGTTACTATGCTATATGTTGGTCCCTGTAGGAAAA
TGTCGACTTTTTTTTTTATGCACTCAAATCATAACCGTGGAATCACAACC
CCAGAGGTTCCTCCGCGCTGGATTGTACGCAGTTCGTCTACCCCTCCTGG
TACAGTGCGGATCCAAAAGTGGCCACTCCGGCAAAAGGATGCCTTACCTG
TGTCACACAGCATAGCGAAGCTACACATCATTCGGTAGCTTGTAGCACCC
GCGCAGCGGCGCTAAAGGTCGTAAGGTGTGGTTCCAGGGTAGGGTTGAAT
ACAAAGTAGGTTGAATACAAAGTATCATATAAAATATAAATCGCTATATG
CACAAGCACCTTGCAGTCAAATCGCGTATGATACGAAGTACAAGTATACA
AGGGTTTCGGCGGCTGACGCCGCCACGGTCCTGACCGAATCCAAGATATA
GAGGCACGCGGAAGGCGTGATGGTGGGACATGGCCTGGTGAACATGCCGA
ACTGGTGGGACCGCAATTCGATGTGCTTTCTCCTAGCGGAACTCAGGGGG
CTTTCAATCAAAGCCTTGGCCCCCTGATTGTCCTCAAGGACCTTGATGCT
ATGAGACCCGCAGTTCAGGAGGTTGGGGTCTGTGGCGGCCAGTACAGGAG
TGACAAACCTTTGGTGTCGGTCCAGTTCGGCCGCATTTTGCGAACTTTTT
AAGCCACTGCTGCAGCCTTCGATATCTCAGCCCCAGCAGCATGTCTGAAC
GTGCCGATACACATATAGCTACTCCATGTGTCCCTTTTTATACTGATTGA
AGAACTTTGAAAACTACTCCTTGCACAACACAAGTGAAAGGTGTAGCCAA
ATAAGCTGTTTTAACTTGATGAAAGAGCAAATGTTATCCTTTGGGTTCAA
AATCAGATTTTTCTCATGGATATATTTACCGCCCTTTTCGGTGGATCATT
AAATAACGTACTTGATGCTGATCTTCCCCGTCCGGAAAAAATCGCCGATA
TGGTGGGACCGCAATTCGATGTGCTTTCTCCTAGCGGAACTCAGGGGGCT
TTCAATCAAAGCCTTGGCCCCCTGATTGTCCTCAAGGACCTTGATGCTTG
CCCCATACGTCTCAGGCGCAGTCCGCGTCTGCGTACAGCTTCAGCCAACG
TCCAATCCCCGCACATACGTAATACCGAGACCCATTGTTCCTTTGAAGTA
CGACGATACCTTCAGTATCGCTCTCCAGAGCCTTTGAGTCCGGGTGTTGG
CGCGACGCCGCTACAGCTCGCACGGCGTTCATGATGTCTGGCCGCGACAT
AGAGAACATCCAAAGCAGGCTCCCGACGGCCTCCCTTACAGGCCAGTCTC
CTCCGGACTCGTCATCCCGCTTCGGCCGTAAATCACCACCGGGTGAAGCA
GGGATGTCGGAGGTGAATTGTCCGTTGAATCTTTTTATCAGGCTCTCAAC
ATTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTG
GTCACAAATCAGGCACATATCGTGCTAGGAGGAAAAAGAAAAAGAAAGTA
AATGGACTATGATCAACCACAGTCAAATCAGACAGGGTACCGTTGGGGTA
CCATCCGTGGTGGCCAAAGTACCAAACAAAAAACAGAAAAAAAAATAGCA
GGTTCGAGTGATATGCTTCCTGTGACAATTTTAGTTCGCCTAGCTCCATG
CCCCTCTCGATACCGTACCCATCGTACCATATGCACTATCCTAGGTTGTT
TGTAGGGGATTTGTTGTTTAGAAGTTCTAGTTTCCGTTCGCTGTCTTCTA
CTGATCCTCCTAACAAGTCATCCACACATACTCCCACGATCATGACCGCA
GTCCCGTCGATAATCTTGCATAATATGCAAGGGTTAGCCTTGCACTGCTC
AAAGCCCTGTTCTGTTAGAGTATCTGGGCACAAAAGTCCCCGCTTGCGCC
TACTTTACTGAAGGCCATAGATTGCCCTCTCTACCTTGCTGTTTCTCTTC
GACTGATCTCCGTAGCCATGAGGAAGTTAGAGGTATGCCTCTTCGTCTAG
AGATGCCGGATTGTACGTCGAAATGATAGTCCCCGGTCATTGGCCACAGC
TAGTACCAGTTTGATTGATGCCGACGACGGACAGGGGGAGGTGAATGCGT
GAAGTCTACGTCACAGGGTTGCGTGAAACCCCTAGCTACCAATCGAGCCT
TTCGAGATGTTTCCCTCCTTGTCAGTTTCGAACTCAAGGGTTTGCCTCTC
TCCGGCACTCTGTTTCCCATGGAAAAGGTCGTTTTTATATGACTCTCAAA
GTCCAACTGCATGGCCTGTTCCGACCCTCCCTGGTAAGCAGACCGTTCTT
CTTCTGCTTCAGTACGCGGTGGTTGCTCTACGTCGCTGAGTTTCTGTCCG
ATTGGTAACGGAACAAACTCAGCTCGGGTTGTTGTTCGACGGCTATTGAG
AGGGGGCAGCCCGAGTCCTGCTCCTCCTCGCGCTGCTCCGGCAGCTGCTC
AAATCACTCATACTTCTCCTGCAGGCGCTCTTCCAGCAGTGAAATATGAG
CTTCTCCACGTCCCTCTTCCAGCACCTCCTCCAACCGCCCCTCCTTTTTG
GTTTTAGTGGCGTTGGCCTTCTTCTTGGCGTGCGCCAGTAGTGCTTCGAT
GCACGTGTCGCTCATGCGGTGGGACTGCGGCGATCGGTTTCTCGTGCGTC
CGCTCTGTTGCTCGGGGGGTTCATCCACCCATCTCAGTGCTGCCGCATAC
ATTCATCCATCTCAGTGCCCCCGCATCTCCCCCTTGAGTGCGGGGCCGTC
GCTGCTGTTGATGCTGGTGTTGCTGCTACTGCTGCTGCTACCGTCGCCGC
CGAAACCGGCCCTCCCGGAGGAGACCGATGATGCTGGGGGGGTGCCTTCC
GCGTCCACTTCGGTCCCGTCTGCTGTATCTGCTGCTGGCGCTACGCGCGC
CGCGGGTGGCAGAGGGAACCCCGCCTCTGTCACGTCGAGGCCGGATTCGC
TGTGCAAGTCTTGCGTTTTGGGTCGTGATTTAGGGGTTATTTTCACTCGG
CACACGGCAGGTTTGAGGAACGGCCATACCTCCCCTGATGGGGGGGGTGA
ACCATACCACATTTCAAACGGTGATTTCATTCCGGGGTTCGCAATTGTGG
CAGCGCGGCTCAGTGCGTAGCCCACGGCACCGCTTCTGCCCACAGCGATG
GGTAAGTTGGGGCGCCCGGGTTAAGCTCGGGTGCTTGGATGCGTGCTGCC
AAGGCAACTTCATTGAAGACTGCTAGTGCTCGCTCGGCTACACCGTTGTA
CTTCAAGCTGTCAGATGGTGTAAAGTCTTTTGCTTGATAACACATTTTTG
GCACAGGTCTCCGAACTCTCCCCCGAAAACCTCTCCACCGTTATCGCCGC
CGTTGTCGGAGTTGATGGTGTTCCATCTGCTCGCACCTCTGCAAGACCTA
CACTCGTGAGCACCGTATGTAGTCATCACGGTCGACTAGGGTGTATGATT
TTCCGCCGAGACTGCACTGGCTTTGGCCCCCTTCAATCGAATAACACGCG
CTCTAGCTTCTTGACTGCTCTGGTGGCTGTCGACCTCGCGAAAGGTTTCC
GTAGCCCCTTCGCTATGGAGTACCCTCGGCACTCGTGAAGCTCTCCGCTA
AATGTCACGCCCTGCTGCTTCGCCGTCTTCTTGAGCAGTTCCTCGGATGT
GTTGCCATACGTGCATTGAACGAGGTTGACGTAAGGGAGGGTGGTGGGAG
CTTTCGCTTGCCCAGGAGATTCTACGGCACAAACAGTGGTTACCAAGCTA
TCTATCGCCTCAGGGCGGTACCCATCGTGGCGGCAAAGCGTTCCGGCCGG
TGGGAAATGTGCGCAATTCCCCTTTTGAGCTTGAGAGTGACTATCTCTTC
ACCACCGGTGTATCTGTGGCCGTGGTTCACCAAAGACGGTAGTGCTACGT
CTTTCAGTTCGACGGTCACCCGCCAGTCTTCGGCGCGGAATGCTACTATG
AGGTCACCGTAGCCGGCGTTGGAAACTGTTTCGCCATCTGCAAGGGCCAA
GGGCCTCTGCTATACTCTCGGTAGCTGGCAAAGCCGTCGGCATTGGGCGT
CAGATGACGTGTTGCCCCACTATCAAGGATATGTCGCGCGACCTGCTTGT
CCAACGCCCCACTCCCAACGTCTGTGACCGTCATACTCTGCACTTGCCTG
CATGCGTTGCCGCGAACGCCTGGTGTTTCAAGTTTAGGAGTTCTTCGACG
GGCACCTCCGGCTCCATCGCCAGCACACCCGTGGTCGACCCACTTACGCC
CTCTGTGTGGTCGCAGCCGTCGCACCTGGCGCACTTGATGATAAAGTCGC
TTTCTTCGGTTGTGCAGTCCTTCTGCTCATGGACCTCCCGGATGCAGCGC
CAGCAGCGGCTGCGAAAATCGCCGCCGCTGCCGCTGTTGCAGCCGCCTTT
ACCGCCCCCTCTGCTGCCGCCACGGCCTCGCTGCAGGCCGCCCCGCCCGC
CGCGCTCGCTCGAGTACAATGCCTGTTCGGGCGGCCGGGACGACCGCTGC
GCCCCCTGCTTCTGGGGCAAGTGGGAGTATCGAGTGCCAAGCATGTGGAT
AATCTGATGCCGGTCCCGCTCCTTCATAGTCTGTAGATAAAATCTTCGGC
GGTGCCCCCCCCAAACTGCTGAACGCTCCATATGATACAACTTGCAATTC
TATACCTTTTGCGTTTTCCTGACAATTTATTTACGGAATAATTTGTTTTG
GCATTAACTTTTTCTCAAACATTAGCGATACAGCGCTAGTGTGAAACATT
CGGGCGAATTCCCGCCAAATTTCCGCCCTTCGTCAATGAATAAAGCAACG
TTTTTCCGAGCATCTTCCGAAATGAAAATTCCCGCTTGATCAGGCGGAGG
AAGTTTTCTTCAAAAAAGCTTGATCAAGCAGGGCATTCACGGACGTTATC
GGGGGGGCCTCACGCCTTGCGCACTCACAGCCTTCGCCTGCTCGGGACAC
ACGCACAATACACCACACGTGGTGTTGATGCTTCCAATGATTCTTCATGC
CAGATTTGGAAGGCTCACGCAGTGCCAATCAATGGCACCACGAGTTTTTC
CGTGAGACGCAGGTGTGGCCGGCAGAATTTCCATGGCCTTGATTATTTTT
CTGGAAAAGTATGGCCGAAAAACGAAATCCCTGTGCGACTGTAGATCGAG
GGCAAAAAACAAAAACACGTACTGCCACACAGCCCCCTTCCGCTCTTTGG
CGTGATATTTCAATGTTTTTTCACGGTTGGACAAAAGGCTTGCTGTTTCA
GGAAATGGTACCCCGTGAGCTGCTCCATGCAACACAGTTGCAGCTGGTGG
CCGGCAGAGTTTCCATGGCCTTGATTATTTTTCTGGAAAAGTATGGCCGA
AAAACGAAATCCCTGTGGGACTGTAGATCGAGTGCAAAAAACGAAAACAC
GTACTGCCACACAGCCCCCTTCCGCTCTTTGGCGTGATATTTCAATGTTT
TTTCACGGTTGGACAAAAGGCTTGCTGTTTCAGGAAATGGTACCGCGAGC
TGCTCCATGCAACACAGTTGCAGCTGGTGGCCGGCAGAGTTTCCATGGCC
TTGATTATTTTTCTGGAAAAGTATGGCCGAAAAACGAAATCCCTGTGGGA
CTGTAGATCGAGGGCAAAAAACGAAAACACGTACTGCCACACAGCCCCCT
TCCGCTCTTTGGCGTGATATTTCAATGTTTTTTCACGGTTGGACAAAAGG
CTTGCTGTTTCAGGAAATGGTACCGCGAGCCGCTCCATGCAACACAGTTG
CAGCTGGTAGCTCTATCAAGGCGCTTGCCTCCTTTCCTGCTTGCTGGAAG
GTTTTCGCCGGGAATCTAAACCCGTTGTACGGCAGTATCGCATGTAGTGG
TGAGAAGTTTTGTGGGAACTGCTGTGACAGACTGACAGACTGGTGATCGT
CAGGAAACACATACGTGCTGAACATGCCCATTTTCCTAGAAAAAATGGCC
CATCTGATTCGTGACCGGAATATCGCTAAGCATCAATATATGCCAGTTTA
ATCGGGATGCGAATTTCTTCTCCTATGCGCCCGAAATAAAGAGGGGGTCG
AATTGTAAAGCAAACCAAAAAAGCGAGTTTCTAACTTGATCCATCTTTGG
TACCAGCACTACCCTCCCCCGTTGACGCACTAGGGCATGTTTTAACGAAA
TTTTTGATACCCAGGTTGGAAAGGTTATTGGAATAGGGATGGCCTCTGAT
TGCTCAAGGCACGTGGTTATCTTTAGCATCCTACGGGACTGTCGTTTTCC
TGCGTACAGCCGCTCGAGAGCTTTTTAAATTGAAAGTCGACGAATCAGAA
GAGGGAGCTGGTGATAAAAACTGAAAGCGCGGCCAAACGCTGGCATATTT
TTTCTGTCAAGATCGACAAAATGCAGGCACGCAACTAGCAGCAGCTGCAG
GCTCGCCCGAATACACAGCTGGTCGCCCCCCGGCTAGGCGAGTACTGCGA
ACGAGAGGATATTCTGCCGGAGGAACAGAGCGGTTTCCGACCAAACCGCT
CAACGGTCGACATGATATTCGTGGGTCGACGCCTGCACGAGCTTGCGCGG
AAGAAGTCAACCCCACTGTACGCCTGTTTCATCGACCTCACGAAAGCCTA
CGACTCCGTCGACCGGGAACTACTGTGGTCGGTGCTCAAGCAGCTCGGAG
TGCCCCCAAAGATGCTTGCGGTTATCCGCCAATTCCACGACGGCATGAGA
GCACGCGTACGGATGGACGATGGAACGTGCTCCGACTGGTTCGATGTCGG
ACAGGGACTCAGACAGGGGTGCAATCTGGCATCACTGCTGTTCATCCTTT
TCTTCGCTGCGATGCTCATGGTCGCCTTCGACGAGTTCCGCCAGGACGAG
GAGGTGATAGCGGACATGACCAAGGTCAGGAGGAAGGTCACGAAGTGGAA
GGGGAGAAATGCTCGACTGGTGGAGGCAGTGAAGGCCATCTGGGGTATGC
TTTACGCCGACGACGCATGTATCGTCTCTCAATCACCTGGGAGCCTCGAG
AAGATGATGTCGATAATCGTACGTGTAACCGGGCGGTTTGGACTGTCGGT
GTCAGAACCCAAGACGGAGACCATGTGTATGCTCGCGAAAGGGATGGACG
CGTGTTCGTTCACGATCGACGCTGCCGGGATGGTTTTCAGGCAGAAGAAA
GACTTTGTGTATCTCGGGGGTAAGATCTGCGAGGGCGGTAGCATTGAGGA
CGAGATCAACCACCGAGTTCAGCGAGCACACGACTGCTTCCGTCGCAACA
GCCAGGCAATGTACAACCGTCGGGGGCCCCCCATCCGACTCAAAGTACGA
CTCCTCCAAGCCGAAGTTGTGGAGACCCTACTCTACAGTTGTGTCACGTG
GAACCTGAAGCTAGCCGAGTACCGCAAGCTTCGGTTAGCCCACTAGTTCT
TCCTCCTTCGTTGCATCGGATGGAAAAAGAGGGAGAGACAGGACCGACCC
ATGTCCTACGCCGAAGCCCTCATCCACGCGGGCTGTGACGAGAGCATTGA
AGCCACCGTGCGCAAGCGGCGCCTATGTTTCGCAGGCTTCGTCGCGCGCA
TGGGAGACGAGAGACTCCCGAAAATTGCTCTTTGGGATAATTGGAGGGGG
GTGCGAGGTACTTGGGGCAAAAGTTTGACTGGCTAAGGCGACTGCAGGAG
GACCTCGAAGCGTTCGGCATCGACATCAACGAGAAAGAAGGGTGGGAAGC
AAGTGCCAAGAGAGCGGATGAATGGTACGGCAGGATCGAGGAGGGTGTGG
AGTGGTTTATGCACGAGTGGTTCAAGAAAGAGGGAGACTTCAAAGAGACA
CGTCGACTGAAGAGGGAGAGGGACGCGGCTGAGGGACAGGCTTTGGCCAA
GAGAGGGAGAATGGATGGCGGGGAGAAACGAGAGGAGGAACACGGGGGAC
CAAAGCGGGGGGAAAGTCCTCCACGCAGCGGCGTAGTGGGGTGAAAGCTG
CGCGTCAGCGAAGCAACCCCAAGCCAAGCTGCGGGGCGACCGGATTGAAA
GAACTGTAAGGCAGAAATCGTGGAGCGGTGCTGCCAAAGATGTAGGGCAG
AAGTAACCGTCTACGGTGGTGCCAGTGACGAGTGGCATGAGTGCGTCTGA
GGAGAGCAAGCGTGAACAGGCAGACCTCGTGGCGAGACATGTGTGTGTGT
GTTGTCATCCCATATTCTCTGGCACACTAGTCTGCACCCTGCGGTTCATG
TGTGTGCGACTGACTGCATTCCTTTTCTTTCCTTCTTTCCGATTTCTGTC
TTTTTGCTCGGCTCTCTGTGTTGCTTTCTCTGTGCCGTTTTCTCATTTTT
TTTCTTGCTCCCTCTTTGTTTGTTTCCCCTCCCTCATTCTCTGTCCTCCT
TTTTAGTCCTTTTAGTCTTTCGTCTTCTGGCTCCCGCCTTTCACCTCTCG
GCTTTCGGTATCTTTCTCTTGTTCTTGGCGTGCCTTATACTGGGCTCTGC
GCTCTGGAGTACCTTGGTCGGTCTAGGCTCTGAGCTCTGGTTGGGAAGCT
GCTGTTTGGTTGGCCCTGGTTTTGTTTGTTTCCAATTTATATTTTTTTGG
GCCTGTATGTATTCCTGTATTTGTAACTCTGGCCACCACAGAAGGTACCC
CAACGGTACTTTCTCTGATTTTTTTATTTTGTTTGGGTGTGGCCATCGTT
GATTGTTTATTACTTTTACTTTTATATTTTCCTCCTAGCACGATTTGTGC
CTGGTTTGTGACCACGGGCTAGACTTTGGTGGTGAGCTAATGTGATAATC
AACAAAAACAAACAAAAGACACATACGCGCGCTGATATGGCTGACACGAA
CGTTGGGTTTTCCATGTATATCACTTCATTTCGAACGCAGACGAGGTGAA
AATTTCCAAACGGCCAAGCGAACGTTGAAACGTCATTGATCGGTCTTTTT
TCACCGAAACGATAGTAGTATTGTACAAATCCGGCCTCCAGTGCAGGTGT
CCCAATTTTCGTGAAGACCTCGCCTTGAGCAACCGGACCGACTTAGCCCA
GTTACGTTTATTCAAACTCCTCCTTCATACCTTTCTGCAGCTTCTCAGTA
TAGGTCGAAGCGCGAGATCGATTTGCTCGAAATTAATGCTTTCAGCACCA
TCCGCATAGAAATGGTCTTAATATTCTCACACAATTTTTTTTAGTATAAG
ACAGCACAAGCTCGCGACCAACCACACCCCACGAAATTGCCACAGCCTAC
TGATGTGGTGTGTGAGTGGTGTTCCATGCGTTTGCAGCAGCAGCAGGCAG
CCTGCGATGACCCCTGAGGTGTTATTTGACCATGTGGAAATGTATCTAGA
TGCAAGCAGCAGCCGGAAATTACACCGAGTACGTTTGCGCTTCGTCGTCG
TTTTCCGTTTGTGTATCCGCGATCAACTAGGCGATTGGACACGAATTTAG
CTAGTTCACCTGGCGTAGTTGACCTGGAGTGAAACAATTGTCGGTCTACG
CATATAAAGCTCCTGACAAGAAATTCTTCTAATTTTTTGGCCCCTCCAGT
AACGTTGCATTTTTGCAAATCCCCTCCTCGATGTTAAAGTCGTTGTGCTC
TTATCTCGAAACGCTGTTTCTTTGCAAACTCATTGTTTTGCACTAAAGCC
AGCGTTAAGTTTCTACTCTGGTCCTTCGTTTCTGCGATTGTTCAGTGTGC
AGCGGTCTCTCATGGTATCATTTGTATCATACCACACCACCGCCCGTATG
TGCTCATCCAAGAAGAAATCAGATATTGTTGTACATGTATGACACGGCGA
ATGTCGGCATGCTACATACTGTAGTACGCCCTAATCGTTCGCTACGCCGT
CGGTCACTGACTACTGATGTGCAACGGTCTTTCCATGATGCTTAATATTT
GTGTGTTTGCGTAGTTCCAGTGTGTGGTCGCCGTCGTCACGTCGACACGG
TGCACGAGGGATACATAAACAAATATATACTTCGTATATGTCTAAATAAA
CACGACCTACCTGCGCGTTCCCCGATTCCTCCCATGCCGTATGCCTTTGT
TATACCATTCAAACCCCCTTTATCGACATGAATCATCGTCTTGTGTCTAT
CGAATTCCATTTCGTACGTTAAACAGAAGTACACGCGTACACTCTGTCCC
GTGCAAAATATTTGTTGCGACATACCAAACGTCGCCCTGCTGCTAGCCTC
CACCCTTTTAAGCTCTTGTTTTGGACTCCGCGTGACAAGCAACACGGCAC
AATTTCATCCTCGCGTCTTTTGCCCATCTCTTCAATTCGGACGCAAATGT
CTACATGGTCCAGTGTCTCCTTTACGCCTAAATTCCTCTTTGTTCTTACT
CATTCTTATATAGTGTCGGGTTTATATTCGATAATCTGACAACATTCGTG
CACCCTCCGGTGCCCCACGAAACACCAAAAGGCGAACCTCAACCAACACC
ACCACAATGCCCTTCCTTTGTGGTCAGCGGATCACTGCCAAACCACGAGG
CTGCACACCCTTCGTCACTGGGGTTCTTTGCAGCTAGTTATTCTCGTGGG
CTTCCTGTGTGTCAAGCATGATCGATCGATGTCAGCAAAGATCCGTTCCA
AACATTTTTTGCGCGATATCACACGAATTTTGGGCGCACTATCCGTGTGA
TCTCGCGCATACCTGGGAATGTTTTTGACGGACTAACGGTCTCGAGCATG
CTTATCGATCTTTCTCCACACGAGAAGCCCATGGCAAACAAGCTGCGGAG
AAGCCCAGAGATATGAGGCGTGCAACCTCGGCGGTCTGGTGGCGATCCGC
TGACCAGGGAGAAAAGGCGCTGTATGGTATAGGGTGAGGCCCGTCATGAG
TGTTCGTTGGGGCACCGAAGGGTGCGCACGAATATCGTCAGATTACCGTT
TCTACCCCCGATGTCTTGAAATCTTGTGCGCCGAAATCCGTAGCAAAATA
TCCGACCTCGTATCGGCAGATCAACAGACCTACAAGTACTTTTTTTTCAT
GACGCGCATGATGTCTTGATCGAGTCCTCGCACCTCCGGTTTGAATATCA
ACGTGGGTCACCGTCCTTCACACCTCCCGTTTGCCGCGTTTGACATTCCA
ACCAAATACGCACTCCTAACATGTTGCTCATGGCGGGAGCAGTGTGCTCT
CAAAGCTGGTTACAAGCACATCGACTGCGGTGAGTTTGTGTTTCACGTCA
AGAAGTGCGCTGGAGGACAGCACTGGGGGTATCTTGGGTGGTTCACGAAG
GAGAATCTGTTGTTCAACTTATGTATAAGGTACAGTAGCAAATATAGACA
GCACATCGCCGTTTCCACTCAGGTAGAACGTATTTCGACGTTTCTGATGC
TGCTGAGCAGACACATTCTGGGAGCAGGCCCTTATTGACTCTGGTTATGA
ATCATCCATAATGTAGTGAAAGTATTGGGCTCGTAGTCAAAACGAAATCC
TGTGCAAGCATTCAACCGTCGCCCTCGTCAAGTCCGGACCAAATCTCCCT
TTCCAGCATCCAGCGGATTTTTACGAGGCATCACCGAGATCACGTGCCCG
AAGCTGGCGCCATCGTGCTGAACGCTGTTTGAACAACGCCCCCATCTAGC
GCGCGCCCCATCGCGCCCTTTTTCGGGAGGACCTGGTTGTTCGAACGTTC
GATCTGATTTCTCCATTGTTTTATCGTTGTCCTAACAATGCAGCATTGAT
TTCACATTGAAGACCGGGCAGGACTGTTTAACCCTAGGCGGCAGAGTCGT
ATTTGAATCCGTTGATTTATTTACCGCGGTTGGGCCCCTGGGCAAGAAAA
CTTGCTCGAAATGCACGTCAATTGCAACGCGAACTACAACACTGGGCTGA
CACCATCCTCACATATTGTATTTCGTTATTTCCCCTTCGTCCAATGCGCT
CTCTCACTTCCAGCCTGGTGTTACAATAATCAGATGGAGGTTGGAGGAGC
ACTTGCAGCCTCTTTCAAAGAAAACGACATCAGCAGGGAAAATGTGTTCG
TCACGACCAAGGTATAGCATGGCAGGCGCTAAAACCCTTGGGACTGAGGT
TTCTGCCCCAAAGCCGAATGCCCGGTGCATTCGTGCCCCCTTGTGCACCT
GTTGTTTGGTAGGAATGTTGGAAGAGGCAGGTAACCGTATTGAATGCACT
ATACGTACTCAATATCTAGTGCTTGAATTAAGGGACGCCAGTCAACCTGA
ACCAACTTTTCCAATTATTTGAATGTTGAAAAGAGATCCCAAAACGTCAC
GAAATAGGGCCATCAGACCAGTAGAACAGGGGTCAGAGGCCGACACAACG
GCTCGAAGACGGCGGTAGAGGCGTGATCGCGACACAAATGTTCCGATTTT
CTTCTTTGGCCATTGGCATATTTTTTACTTCCTCCAATTTTTTCTTTATT
TTCTCGACTACAGTAGTGTCCCATCTCATGCCCCATCTCTCCCTTTCGTT
ACTTTTTCCCATATAGCCTCGTCAGCTATGGCTGACGATCGTTTGCTCGC
ACTTCTTTCCTGTTCGGCACGTCTTTCTTGTTCTGCTCTTGATTCTGTGT
TTTAGTCGAAGTTTTTTGTCCCAAAACAAATTCAGCTGCCCTGTGCTGTT
ACTCGCTGCTTGATAATAATCTCAGTTCCTTTCCACACTAGTCCTGCCTA
CCTTAGCTTTCGTACATTTAGTTGCAATGAAGGGAATATGCCTTTCCGTC
CGTGTCCAGATGTTAGTCTGTGAAGACCACATCTCCTGAGTACGTATGCT
TGGCTATTCTCCAATACTTTTGCTCTGCGTGCATTCAGAGGTATTCTATT
AGTATATCTACGTTCAGGTACGCATGTTGATCTATCGGTAGTACTTGTAG
CTCTTTCCCACATTTCCATCCGAAATGTTCAGCGCTCTCCTCACTTGAAA
CATACTAGTGCTGCGCACATTTTAACACACCTTATTCCAAGTGTGTTTTA
ATGCCTAATGTCCCAGGTGTTTGCTGTTGTTGCTCTGTGAAGTATCCGTT
TTTCCCACAAATTGTCCAAAAACATCAGTCAGGACACCTCCTATTCCTTT
TCGCCCTGTTTTCCGTGCTTCGCTTTTGCTGCTGCTCTGGATTTGGATGG
GCAGTTCTAGTTTGTCTTATCAGACAATTTCGCAAAGCCGTCTTAGTCGT
AGACTGCAGTATTGCTACTGTTTACAGCGTTCACGTTGCCCAAACTCAAG
GAAGGCCCAATACATGAATACTTGCCGATTTACAGTCGTAGTTCACACAG
TGAAGCAGAATGTTTGATGCCATCCGGGATTTGCAGGTTTTAACGCCAAG
TTTGACGTAAAAACTATTCGGGCGTTCAATACGTTGTCAACCGAGTCACT
CCTTCACCGCTCCCTCCCGGCATGTTCCTATCAGAAGTTAACGTGCAAGT
TGACACGCACAACACCAGGGAAGCGGGGAAACAAATCATGGCGATCTTGC
TTTACACCTCATACTTTGACTCACCTTGCGACTTCCATTGGCAGCTGTGG
AATACGTTTCACCGGCCAGCACTGCTGCGAAAGAACATGGACACGTGCCT
CAAAGACTTGGGCTTGGCCTGGGTTGACATGGTACAACTACACTACTCCT
TCGCGATGGTCCCTGTGGCGGACGAGAAGTGAGTTTCCATCTGTTGAACG
CTCGAACTCGCCGCGACTCGCCTGTGTCAGATATTTACCACCAATTGAAT
TCCTGAAGAAGTGCGAATCCCTTCTGATGCTGAGCACCCGTGTCTCTATC
ACAAATCGTCGACATCTGGTTACGTCCCTCCCCCTCTTCACCCGCACAGA
ACCCTGGTTCCGCGTCACGAGAACGGCGACGCTCATCTGGATGATCAGGT
TACTCTCAAGCAAACGTGGAAGGCGGTGAGTGGCTCAAGATGATAAACGC
TTGTAGAGAATCAGGCAATTTCCACGCCGTCGATTTCTGTCGAATGCTTG
AATTTTTTATCATGGTATGGTCATGATTCAGCTCCGCAGGGGCACTCGTG
GACCCCCCCCACTTGGACCCCCCACACTTCGCGTGCCGGCCCATCGTCGT
GTGCCTGCATTCCCCTTAACTCGCGAGGACTAAGCTTCCGAGTCAAGGTG
AGGTCCCGTTTCTCTTCCAAAACGTTTTGAACCAAAAGAGAGATCAAAAA
TAAAAGAAATCTACTTATATGCTACTGGGGATGCGGAGTCGATCCTTCGC
GGTAACCGCGTAGAAACCATGCTTTCGGGGAAAGCAAATTTTCAACCGGA
CGTTGTGGGGCAACAATAATCTCAAAAAGGGGCACCAAAACACGACGAAC
CAACTCGACACAGGCGCGTTGAATTGGATGATGTGTTGCACCTGAATAGA
CTCTTGGCAGCATTACCACAAATGACTGTACTTACTGGCTTTTTTCCTTT
TCGCGTGGTACGGTAGCAGTATTCTCTCAAAGTTACCGAACATGACTTCA
TCTCACGGCGCAGGGAAACAAGCCGACAGTATTGTTAGCGCATGAGTAGG
CTGTTTCAACGGACCCGCCCGCCCGCCCAGAAAACAGATTTAGGCGACCA
TTATTCTTGAAATTGTAGCGCCGTGGCCTCGAAAAGCTACAACTATTTAA
TCGTTCTGTCATTTTTTTTAAGCGCCCTCCGCGGCGAATGAGCGACTCCA
CGGTAAGCCGCTGACCCCGCGCGATGCTTCAATTCTGTGTTTCCATTCTT
GTGTTATCAGCCGCCTCCCATGCGAAACGAAGGCACCTTGCCTGCCTAGA
CTAGAAAGGAAGGAAGATCAAGCATTCGATTGTATTGACAGTAGAAATGA
AATGTTGACACGCAGGAAATAAAAGAATGATATTGACACGTGAAAATTGC
GCAACCTCTGATGATTTCCGTGGACGCAATCGCTGGCGAGTGTCATTTTC
TCATATTTTACCTTCACCGTCCCTGCAGATGGAGGGTTTCGTCGAGGACG
GGCTTGCCAAATCGATTGGAGTTTCCAACTTCACAAAGGTGATCTTTGCT
CCAGCTTTCAGAGAGGATCCCACAGTCAAAACGGTGTCACATGGATATGT
TTGAAGTTGGATGGAATACAGAATACCCCTGTATTTTTATGACTGATTCC
TCTCATCTTTGTCCGACCTGTCGTGTATGGCTTAAAGGCTTTAAAATGTC
CCCACATTTGGCACAGTCACAGAAGCGTACGCCAACGGACTTTTCTGAAA
GTTAGGCAAAGCGACAGAGAGATAACTTCCCGCAGTTTGTTGATGAGGAA
CCCACACCGCAAAACGAAAAGCCTTTAGATGAAAGAAGTCCGCCTGCTGA
AAATCAGGGTTTGCCAAGAAGACACATGAAAACATCCAACGACCGAGATT
TGCGCAGCGAGCTGAAAACGAGCAGGATAACCACCCCTAAAAGTAGGGTA
TATTGCCCAACATGATTACCAAAACCAATCCGTCGTGAGAAGCTTCGATC
ACAAACGCTTACACGAATACCTTGTCCCGATTCTTTGCTGCAGGAAGAGC
TGGCCCACATAATGGAAGACGCGAAAATCATGCCGTCCGTGCTGCAGGTT
GAGGTGCGTATTGCGGAATGTGCTGCAGCCCCTTGATTGTTTCGCCCCGC
GGGGCGAACATTGGTATCATACGTACATTGTACAAGTACACGCCTGACAC
AGACCTGCCCAACCCGACCTCATTCGATGTCAGGTCACGCACCGTAGTTG
TTAAAAAAAAAACTTGACACAGAAATAAATCGTACTTTGCCTTCGACAAG
TATTGCTGCAGGAGTACGCATTGATTGGCAGTCAGGATATGGTGCTTGTT
TGTTTATCCTTCAAAATCGACAACCTAACGGTATGTCTTCGGGGCTTCGG
ACGGACACCTCTTCGGATGTATGCGTGCCGGGCAGATATGCACGTTTTGT
GTGTATCGAGAGTACGTGGGTGCGCCCAGAGTAGCGGAGTTCTTTCTTGA
AACGATTCTGCAAAACATTTATTCACAATAAGCACCCGACTGGCTTTCCT
CGTACTGAACGTATACGCCACAGATACACCCTTATCTTAACAACGCAGAG
CTTCTCGATTGGTGCAACGAGAAAGGCATCCATGTCACTGCCTACGCGCC
GTTGGGCAACGTCAACAAGGAATTCGCATCGTGTCTGGAGGACCCCACAA
TAGGCGAAATCGCTACTAGAGTGGCCAAGAGCCCCGCTCAGGTGCGATGT
TGCTCTCACTTCCTTTGGCAGGGCTCGTCGATCCCGACCGGTTATTCTTA
ACAGAGCTAATTGTTGGACTGAACTTCAGCTGTGGTGTTCGTTTATCAAG
CGGGGCGTGGATCACAAGAAGTCAGTCATTGGGGTAGCGAATTAAACACC
TGCATCCAATCGCCGCATAGATATTCTCGCCACCACAGACCCCAACCAAC
TGAAGTGCAGGTCATTTGAGGTAGCTAGTGGCGAATACAGCAGTAACAAT
AAACCTTTGGTGTCGGTCCAGTTCGGCCGCAGTTTGCGGACTTTTTTAGC
CACCGCTGCAGCCTTCGATATCTCAGCCCCAGCAGCATGTCTGAACCTGC
CGACACACACGTAGCTGCTCCATGGTGTCTTCTACTGATTGAAACACTTT
GACTGGTACTCCTTCCACAACAGTCCAACTGAGAGGTCAAGCCAAAATAA
GCTGTTTTGACGTGATTAAAGACCGAAGTACATCCTTTGGATCCAAAATC
AGATTTTCCCCCGAGGAATAATTAACCGCCCTTGTCAGTTACAGGGTTTG
GGAGCCCTACACGGGTGGCCAAAAGGGTACGTTGCGGCACGTTTGGCGGC
TCTTACAACCTACAAAAAAAGAGTCGCATGAGCAAACCCCTGCAACCTAC
AACGCAACGTGTTCGCAATCTTCTCAGGCGACATGCCTTGCACAACGTGA
TTTTTTGTGCCTGCTCAACGTGGCGGCCGATTTTGACCCTGGGCAATATG
ACACCTTAACGTTGTCGAGCGGATACAGACTCCAATACTACGAGCACTTC
GCGCAAATCTTAAACAAGACGTGGCGCAAAGTTGCACTTGGCGTTTGACC
GCGCACAGTCATCGCAAGGAGGGATGCACAACATCGGTTCACTTTGTAGA
TTGCTTTCAGTATACAACGCATAAAAGGTGCGTAGTCTGATATTTCAGTC
ATTCTACAGCATACAACACGCATCATCTTAATACGCTCGACCGACCTGCC
GTTCCAGGACGCCCCCTGATATTTACTTGCCGCCCTCTCTACCGCGAGAA
AGCGTTTTGCCCGCGCTGCCTCCGCGTCCAGGGTGTTCGATACGAACTAA
AGATCATACGGTATGACAAAATCCCATTAAGTTATAGAAGACGCACAGGC
TAAATACATGCGCATGCTTATTATTGTATGCCGGTACTTCGTACGTCGTA
CTTTATATATTAGCAGTATCTACTCTGAGACTCTTCGCGTAATTTAGCAA
AATAACAGAAAAAACCACAAACGAGCGGCTGCTTCATTCTTTTATCTTTT
TCCTAGAATTTTGATAAACCTGCCAACAACGTTTGGGCAGTTTTCTTTTG
CTGCCAACGTTGGCAGGTTTTACAATAATTTTTTGTGCCAACGGTATGTC
ATCAAGTTTGACGCCACCATCGTCCTCATCTCGTGACACGAGCATCCAGT
GGTGGTCAAAAGAAAACATCGAGACGGTTTGCTGCGGCCTTGGGCTGACC
TACTGGGAGCTTTATCGTCGACCAAAAAACCAAAAAAAGGGCCGCGTCAC
ACATTTCCCCCCCCTTTTTCTTTGATCGACGATAAAGCTCCTAGTAGGGC
AGCCCAAGGCCGTATCAAACCGCCCCACCTTCTACTACTTTGGTCACCAG
ATGCTCGTGTCACGAGATAAGGGCGATGGCGTCGAGATTGATGACAAACA
GTTGGCAGGATTATAAAATCTACCCTTGTTGGCAGCGAAAAACAAACTGC
CCACCACGTTGTTGGCAGATTTGTCATGATTTTTAATGTAAGAACGAGAT
CGTCAGGGAGGGAGAGAGCGAGAAAGAGAGAGAGAGAGAGGGGGGGGGGG
GGGGAGAGAAGGGATCGGGGGGGGGGGGGGGCGGTGAAAGAGGAGATTTA
AGGAAAACGGCCTAGCCTAGAAACCATCACACACGTCTCACAGAAGAAAA
CGAATACGAAACTTCGACGGGACTTTATTATTTCAATGAACAAAACTATG
TTCAACATGGACGATGATTAGCACCAGGTCACACATTCAACTTTTATGTG
TTTGTCAGAGTCGATCAGAAAAAGTATAGAACAAAATATTTAAGGGGGAT
CACGCCGGCGGAGGGCTGACGCCCCCCGGCGCACCCACGAGGAGAACACT
TAGTGCGCGAAAATTGCACATGACAGAAAACCCAAGTCGATCAGTTGAGG
AAACAAGATGGAGGAAGACGGAATGAGGCGCAGACAGGCGATGAGGTTTC
CTAAGCAAGGCGCCTGTAAAAAGGGAGATGGGGAGGCCAAGAGGATGAAA
GGTAGAAAACAAGAAGACGCAGGAGGAGGAAAGCAGGCCGAGGGAGGCGT
AACGCACTAAAAAATACAATGTGCTTGCTAACGAACTCTTCCGCACGGCA
TTGCGTACGGAAAGTTGTAGACAATTGTCGAAATGAAGTGTATGCTACGG
GCTCGCTTTCGAAGGTCGTGGCTCGACGACCCCGTTGAGTCTTGAGCCCG
GACGGGTCACATTTTGTTCCCGTGCGCGGCCCAGGGTCTCCTCCCGCTAT
GAATACAAATACCTTTATTTAGACGTGGCGGAGGCCGGGCCGCGAGTGTG
CGATGAACGCGGAACAACATTATTGTATGGACATCTATGGTGATGGTGGC
GCCCTCATAGAATAACCTCCCCCCCCAACAAAAATCCCCTTCATTCGTAA
AAAAACAGTCGTCCTGAAAAGAGTGAGGGCACCCAAAAATATACAAGCAA
TAACGACCGACAAGATAGAGGGGGCTGGGGGGGGACTCGAAAAAATGCAC
TTCGTACGGAGTATGTTATATTATATACGGTACCTACCGCTTTTTACCCC
ACCGGTGGGGTATTTTCTTGCTTACCCCGCCACCTGGAAATCGCACCAGA
TACCTCGGTAGGTCACAGGACATACATGAATGCTTTTGCGCCATGCAGGG
CTATCGTAGGACCTATCGTAAAGCCCAAATGGTCCAATCTAGGTGGTACC
ACAGTCGGCAGATATCCAGATAATATCCAGGCGGTGGGAAAAGCGAGGCT
ATTCCCCCCCAAGACTCGGTGGGTCACAGGACAAACATGAATGTTTTGGC
GCCAAGCAGGGCTATCGTAGGACCTATCGTGAAGCCCAGACAAATCCAGT
CTAGGTGCTACCACAGACGGTAGATACTCAGATAATATCCAGGCGGTGGG
AAAAGCGAGGCGATTTCCCCCACCACGGTGGGGAGATTACGCTGTACCCC
ACCGGCCGTACCGGTACCGTGATTGTTATTGCATGCATGCATGATGCCTC
GAAGTATAATAATTTCTTGTATCTCGCGCAATAATATCCCTTGTTTGTAG
ATTTCATAAGGAAGCCGATCCGAAGGAAAGGAGGAGGTGAGTGTTGTCGG
AGCTGGTAGCCTAGCGGTGGAAGTCACATGGGATGTGATGCAATTTCGTA
GGTTCAACCCTGTCGTTCGATGATTGGAAATGCCGATGATCAAAGGGTGG
ATCCGAGAAGCGTACAAAGAAGGAGAGGAAAACGCGCGGGTGGAAAGGAA
TTGTTTTTCACACTTTTTCATTTTGTGGGGGTGCTTTTTACCGCCGAAAA
GGAAGTCCTTTCGCACAACCTAGGTACCTTGTGACGGGGACATTGCACAA
CCAGGGCACCTTGTGCCGTTTACATGTTTCGGTTGCGTCGACGTTGGCCA
AATCACCCAGACAAGGTACCCATTTGGCTACCTGTGTAGGGCGTTTTTCA
GAATGTCTCGAATAAACGCCCCGCGGGCGTTTGCCTTATACTGGGGCGTC
AGAAATTTCAGCAATAGCCTCAGGAGCCCGCCGCAGCGGTAGAACTCAGA
CTACTTATAAAAAACCACTCACGTGAGACAGAGTACATACATACCCCACA
CTGCTTGCACACGCATCAACCGAACACGCGATGATGTCACAAACCGCCAG
TACCACGGACAGAACCATGATTTTGCAACACCGGTGATTAGGACAGCTCT
TGGGGAAGGTTGCGTTACGTGGAGCTCGGTGGACAACAAAGCTACTCCGA
TAGAGACAGCCAATGCGGTACCCTTCTGAATTTGGTTAGTATTACGTCGT
AGACTACTCTGGTTGGGGAATCTGCTTCAACTGACAGAACAGAAACTAAG
AAATTCAAACTGCGGTGGCAAATCCGTTTGCTCTTTTTGTCTCGGGGGCT
TCAAGGATCGCCCCCGGGCGTTCGCCACTTGACCAGGGCGTCGAAGAAAG
GAAGGGGCAAGTGAGGGATGCAAACTCCCTATTTTTGCGTTTCGCTTTTT
AGAATCCCGGGACGCTTGCCGAATGAGGGGGGCACTCAACCCGTTCTATC
GGTGTCAACTCCAACCAACTGGCGGGTCCACGCCAGCGAGTGTACTGCGA
TTGTAACTTGTGTAGACGATCTAAATTCGCGATCCTCTTGGCAGGTGATC
ATTCGCTGGCACCTGCAGCGGGGTGTAACCGTAATACCCAAGTCTGTTAC
ACCGGAAAGGATCTTGGCCAACAAGGTCAGTCGACGACGCCTCAGTCACG
TATTTTGATATTCGTGTTGTCCTGTACTTGTATATTTTTTCATACGAAGT
CTAATTCGACCGTCACCGAAAACCTAAGCTTCAGACTGGTCGTTATATAT
TTCGTTGATGCGCAAAACAACGGGGATCGTGCTGGCTTACGAGAATACGT
AGGCGTGTTGTCATGGTTTGCATCGAAGAATTCGGACGGAGGCCAATGAT
TTGTGTTGGATGTCCACGTCATGTGTGTATTTTTCCTGCAGGACGTTTTT
GACTTCGAACTTTCGAGCGAAGACATGACTGCAATTGACAAGCTTGGTGA
GCGCAAGATTCGCATGTGCAACTGGAAGTACCGCCCAGGCGGCGGTCGCA
TCTACGAGGGCGAGACCAGCGCCTATCCTGACAAGTAACTTTGGTCCTGT
GATACGCATGTATACCATCTCGGTCATTCGGTACACAAGTTTCAAGGACG
ACAGACCAGCGCCTGTTGCTGAAATAGTCATGCATGTAGACGGGTTTTCA
AATCCTTGGCGCGCGGAGTTGTGGGAGACTAATTAGTGGAGCGATTACGT
CAACCAATGCTCGCATTGAATCAAGATTAGTCTCCCGGAAGGGGGACAGG
TTAAAGGTGGGGGCTCAGAGAGACCGTTGCCGCAGGCAATGCTTATGAAC
AAAAACCGACATGCGTACCCCATCTCGATGGCATGATCTAGTTACCGCTG
CAGGCGGTCACAAATCCGAAGCCCATTAGGCCACTCAACAGCCCAAAAAA
GGTCGCATGCGTTTCGTCTAAGGAAACAACCAACACCGC
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Coding sequence (CDS) from alignment at P-littoralis_Contig110:145697..188535+

>mRNA_P-littoralis_Contig110.41.3 ID=mRNA_P-littoralis_Contig110.41.3|Name=mRNA_P-littoralis_Contig110.41.3|organism=Pylaiella littoralis U1_48|type=CDS|length=972bp|location=Sequence derived from alignment at P-littoralis_Contig110:145697..188535+ (Pylaiella littoralis U1_48)
ATGGCACTCAGCATTGACTCCACTGTGGCTCTGAGCGATGGGAATAAAAT
GCCTCGACTCGGCCTTGGCACATGGAGGAGCCCCACGGGAGAGGTGGACA
CCGCTGTCCAGTGTGCTCTCAAAGCTGGTTACAAGCACATCGACTGCGCC
TGGTGTTACAATAATCAGATGGAGGTTGGAGGAGCACTTGCAGCCTCTTT
CAAAGAAAACGACATCAGCAGGGAAAATGTGTTCGTCACGACCAAGCTGT
GGAATACGTTTCACCGGCCAGCACTGCTGCGAAAGAACATGGACACGTGC
CTCAAAGACTTGGGCTTGGCCTGGGTTGACATGGTACAACTACACTACTC
CTTCGCGATGGTCCCTGTGGCGGACGAGAAAACCCTGGTTCCGCGTCACG
AGAACGGCGACGCTCATCTGGATGATCAGGTTACTCTCAAGCAAACGTGG
AAGGCGATGGAGGGTTTCGTCGAGGACGGGCTTGCCAAATCGATTGGAGT
TTCCAACTTCACAAAGGAAGAGCTGGCCCACATAATGGAAGACGCGAAAA
TCATGCCGTCCGTGCTGCAGGTTGAGATACACCCTTATCTTAACAACGCA
GAGCTTCTCGATTGGTGCAACGAGAAAGGCATCCATGTCACTGCCTACGC
GCCGTTGGGCAACGTCAACAAGGAATTCGCATCGTGTCTGGAGGACCCCA
CAATAGGCGAAATCGCTACTAGAGTGGCCAAGAGCCCCGCTCAGGTGATC
ATTCGCTGGCACCTGCAGCGGGGTGTAACCGTAATACCCAAGTCTGTTAC
ACCGGAAAGGATCTTGGCCAACAAGGACGTTTTTGACTTCGAACTTTCGA
GCGAAGACATGACTGCAATTGACAAGCTTGGTGAGCGCAAGATTCGCATG
TGCAACTGGAAGTACCGCCCAGGCGGCGGTCGCATCTACGAGGGCGAGAC
CAGCGCCTATCCTGACAAGTAA
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