mRNA_P-littoralis_Contig697.24.4 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig697.24.4
Unique NamemRNA_P-littoralis_Contig697.24.4
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: D7FTJ6_ECTSI (Oxa1 or Cox18/Oxa2 homolog, mitochondrial integral inner membrane protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FTJ6_ECTSI)

HSP 1 Score: 525 bits (1351), Expect = 1.370e-174
Identity = 320/515 (62.14%), Postives = 363/515 (70.49%), Query Frame = 2 
Query:   68 MLRSVDLLKQSRRLVGPACGNGAAAAAARGRGSSTGNRL----GSTPQGRRC-------------QSLQVPASQQQSRNYWRSTSSSSRXXXXVGXXXXXXVGRGHGL--SSGWRGA---GASVGARRGLAGRSGGSXXXXXXXXXKDGVAESGGA---------AVDGDSWTPPPDAWRPDEAPPTDPQDFSSTMSGFDLGDGFSNSSAVA--DAAA-AAPD---VGAAVTATGLSAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPEDMPQVKPQQAPREEPTDADFASKEDLERWAGG 1501
            ML    L +QSRRLVG   GNGA+  A     +   NRL    GS    R C             Q+L VPA QQ+       +SS +R            +G G GL  S+ WRGA   G +VGARR   GRSGG    XXXXXX                   A D D W+ PPDAW PDE PP  PQD S  + GFD+G+GFS  SA A  DA A AAPD   VG A+TATGLSAADL  YPHHLFM  I++VQA+AGVPYWEAIVMVS+A RIAVLPAV TFLGMSKRLNM+KP++AVHQ K+QDIK RMEANPEIK+AAM EMMLVSQE+G LLK ++IHFPKM LSMFAQFPVFISLFLATRDMG+YFPGYMTGG++WM NL+APDPTWTLPILTS SM+LLMELGSDMP A G DKP FNPK +FR M V+FVPVAF+MPAGVL+YWTTTN+FG+LQ  +FE+RPVQQALGWPLPEDMP      A ++EP +ADFASKEDLERW GG
Sbjct:    1 MLTGARLSRQSRRLVGRVHGNGASLTAP----AIAENRLTHHDGSDNSKRTCRGYLRPPQHLLQAQTLHVPALQQRGHR----SSSVTRLGGDGSAIGAAALGGGRGLDLSAAWRGAAAAGGTVGARRSFWGRSGGDGSQXXXXXXXXXXXXXXXXXXXXXXXXXAADADGWSAPPDAWAPDEVPPEIPQDAS--VPGFDVGEGFSVDSAAAALDAVAGAAPDASAVGTAMTATGLSAADLGMYPHHLFMHVIEYVQATAGVPYWEAIVMVSVAARIAVLPAVATFLGMSKRLNMIKPEMAVHQGKMQDIKNRMEANPEIKEAAMAEMMLVSQEMGNLLKQHRIHFPKMMLSMFAQFPVFISLFLATRDMGTYFPGYMTGGLDWMMNLNAPDPTWTLPILTSGSMILLMELGSDMPAAHGPDKPNFNPKVMFRVMSVVFVPVAFSMPAGVLVYWTTTNVFGMLQRGLFEMRPVQQALGWPLPEDMP-APAAPADKKEPAEADFASKEDLERWGGG 504
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BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: A0A482SHT9_9ARCH (YidC/Oxa1 family membrane protein insertase n=1 Tax=archaeon TaxID=1906665 RepID=A0A482SHT9_9ARCH)

HSP 1 Score: 160 bits (404), Expect = 2.050e-39
Identity = 98/274 (35.77%), Postives = 153/274 (55.84%), Query Frame = 2 
Query:  629 PDVGAAVTATGLSAA---DLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSD-MPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPEDMPQVKPQQAP 1438
            P V  A+T+T   A    D + Y     M+ ID+V   AGVPYWEAIV  ++  R  +LP V      S RL + +P++    +K+Q+  A+     +   A  +  +   +E+  +L  +K++  +  L    QFP+FI+ F+A RDMG+YFPG++TGG  W +NLSAPD  + LPI  S S +L++ELG+D MP  Q     Q   + V R + V  VP+  +MP G+ +YW T N+F ++QT + +   V++AL      D+P++  +  P
Sbjct:   68 PSVVDALTSTAAVAVANIDDANYVVGTVMKFIDYVHTLAGVPYWEAIVFTTVGLRFLLLPVVLKTTQSSARLAVARPEM----QKVQEAMAK-----DTNTADSRVQLKYQKEMSAVLSKHKVNPVRALLWPVCQFPIFIAFFMALRDMGTYFPGFLTGGDFWFTNLSAPDSFYYLPIANSVSFLLMIELGADGMPTQQ-----QATFRWVMRGLAVALVPLTSSMPQGLFVYWVTNNVFSLVQTMILKQESVRKAL------DIPKIPTENTP 321
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BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: A0A7S3XPC4_HETAK (Hypothetical protein n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XPC4_HETAK)

HSP 1 Score: 139 bits (351), Expect = 1.000e-31
Identity = 82/263 (31.18%), Postives = 146/263 (55.51%), Query Frame = 2 
Query:  626 APDVGAAVTATGLSAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWP-LPEDM 1411
            A +V A    TGL +  +   P  + M+ ++ +   AG+PYW AIV +++A R A LP   + +  + ++ +++P++    +K+Q          +++D   +E ML++QE+  LL  + +H  K  +  F Q P+F+S+F   ++MG++FPG  TGG+  + +L+A DPT+ LP++T A  + ++ELG    + Q     Q   K   RAM V    + +  PAGV +YW T+N F ++Q+   +   ++ AL  P +PE +
Sbjct:  134 ATEVAATEVLTGLES--IGYAPSEIVMRTVEMLHVGAGLPYWGAIVALTLALRTATLPIHVSSMRNAAKMAIIRPEMEAMTKKMQ----------QLQDPTSEEQMLMAQEMQALLNKHDVHPFKNLIYPFLQLPLFVSVFFGLKEMGTHFPGLATGGLGPVLDLTAADPTFVLPVVTGALFLGMVELGGGADMPQTPTTRQL--KWFMRAMAVATPVMTYQFPAGVFVYWMTSNAFTLMQSVALKNPTIKAALDIPEIPESI 382
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BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: A0A024U946_9STRA (Uncharacterized protein n=1 Tax=Aphanomyces invadans TaxID=157072 RepID=A0A024U946_9STRA)

HSP 1 Score: 132 bits (332), Expect = 8.490e-30
Identity = 84/265 (31.70%), Postives = 138/265 (52.08%), Query Frame = 2 
Query:  611 DAAAAAPDVGAAVTATGLSAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAA-MQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLP 1402
            DA AA   V A  TA      D+      + ++ +D V A +G+P+W  I+  ++  R A  P     +  S R+ +++P++   Q +I++       +P+  D A M E    +Q    L K +K+     FL   +Q P+F+  F   +D+  Y PGY T G  W  NL+APDPT+ LP+++SA M+  +E G +    +  DK +       RA+ ++ +PVA    +G+L+YW T+NIF + QT V ++  ++ ALG P P
Sbjct:   65 DAVAAHNAVDAFQTAVAPVTVDMGYSLAEMAIRTMDVVHAMSGLPWWATIIATTVIVRSAFFPISIMSMKNSARMGILQPKLEKLQNEIKN-------SPDAYDPAKMTEFRARAQ---ALFKEHKVRPFMSFLMPISQLPIFLGFFWGLQDISKYIPGYATDGAFWFENLAAPDPTYALPVISSALMVASLEAGGEGMPPEYIDKAKMG----MRAVALIMIPVAINFESGILLYWVTSNIFTLTQTLVLKIPGLKAALGIPSP 315
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BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: D0MU00_PHYIT (Mitochondrial inner membrane protein OXA1 n=2 Tax=Phytophthora infestans TaxID=4787 RepID=D0MU00_PHYIT)

HSP 1 Score: 129 bits (325), Expect = 7.720e-29
Identity = 75/247 (30.36%), Postives = 131/247 (53.04%), Query Frame = 2 
Query:  665 SAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPE 1405
            S +DL      + ++++D + ++ G+P+W  I+  ++A R    P     +  + ++ + +P +       + +KA+M+ANP     + +E      +   L+K + ++  K  L+  +Q PVF+  F   +D+  YFP Y   G+ W+ +LS  DPT  LP+++SA M   +ELG D   A GGD  Q N K   R   +M VP+     +G+ +YW T+N+F + QTA+  L  V++AL  P+ E
Sbjct:   64 SVSDLGYSLSDMAIRSLDVIHSTTGLPWWATIIATTVAVRTVFFPVTVISMRNAAKMKLFQPDM-------EKLKAQMDANPTQSPESTKEFQT---KYKALMKKHDVNPFKSVLTPLSQIPVFLGFFWGLQDISKYFPEYAHEGIGWVPDLSVADPTLALPVISSALMAASVELGGD---AMGGDM-QRNLKFGMRCFALMMVPLTMNFQSGIFVYWVTSNMFTLTQTALMRLNVVKRALNIPVTE 296
[Close]
BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: A0A0P1AY12_PLAHL (Mitochondrial inner membrane protein oxa1 n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1AY12_PLAHL)

HSP 1 Score: 134 bits (336), Expect = 2.120e-28
Identity = 75/247 (30.36%), Postives = 134/247 (54.25%), Query Frame = 2 
Query:  665 SAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPE 1405
            S +DL      L ++++D +  + G+P+W  I+  ++A R A  P     +  + ++ + +P +    EK+++    M+ANP       +E     ++   L+K + ++  K  L+  +Q PVF+  F   +D+  YFP Y   G+ W+S+LSA DPT TLP+++SA M+  +ELG D   ++  DK +F      R   ++ +P+     +G+ +YW T+N F ++QTAV  L  V++AL  P+ E
Sbjct:  609 SVSDLGYSLSDLAIRSLDLIHTTTGLPWWATIIATTVAVRTAFFPMTVISMRNAAKMKLFQPDM----EKLRE---EMDANPTRDPQTAKEFQ---KKYRALMKKHDVNPFKSVLTPLSQIPVFLGFFWGLQDISKYFPEYAHEGVGWVSDLSAADPTMTLPVISSALMVASVELGGDAMSSEMADKMKFG----MRCFALLMIPLTMNFQSGIFVYWVTSNTFTLMQTAVMRLNAVKRALNIPVRE 841
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BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: W4FLF9_9STRA (Uncharacterized protein (Fragment) n=2 Tax=Aphanomyces astaci TaxID=112090 RepID=W4FLF9_9STRA)

HSP 1 Score: 128 bits (321), Expect = 2.340e-28
Identity = 75/234 (32.05%), Postives = 129/234 (55.13%), Query Frame = 2 
Query:  704 MQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAA-MQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLP 1402
            ++ +D V A++G+P+W  I+  +I  R A  P     +  S R+ +++P++    +K+QD    ++++P+  D A M E    +Q    L K +K+     FL   +Q P+F+  F   +D+  Y PGY   G  W  NL+APDPT+ LP+L+SA M+  +E G +   A+  DK +       R + ++ +PVA    +G+L+YW ++NIF + QT V ++  V++ L  P P
Sbjct:   99 IRTLDVVHATSGLPWWATIIATTIVVRSAFFPISIMSMRNSARMGILQPKL----QKLQD---EIKSSPDAYDPAKMTEFRARAQ---ALFKEHKVRPFMSFLMPISQLPIFLGFFWGLQDIAKYIPGYAADGAFWFENLAAPDPTYALPVLSSALMVASLEAGGEGMPAEYIDKAKMG----MRIVALIMIPVAVNFESGILLYWVSSNIFTLTQTLVLKIPGVKKLLDIPTP 318
[Close]
BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: A0A6G0WRG1_9STRA (Uncharacterized protein n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0WRG1_9STRA)

HSP 1 Score: 127 bits (318), Expect = 6.350e-28
Identity = 70/242 (28.93%), Postives = 129/242 (53.31%), Query Frame = 2 
Query:  671 ADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWP 1396
            ADL      L ++ +D V A++G+P+W  I+  ++  R A  P     +  S R+++++P       K++ ++A ++ +P+  D A  +M    +    L K +K+   + FL   +Q P+F+  F   +D+  Y P Y   G  W+ NL+APDPT+ LP+++SA M+  +E+G +    +   K     K   R + V+ +PV     +G+L+YW ++N+F + QT + ++   + ALG P
Sbjct:   85 ADLGYSLSELAIRTLDIVHATSGLPWWATIIATTVVVRAAFFPISIMSMRNSARMSILQP-------KLEKLQAEIKDSPDAYDPA--KMADFRKRAKALFKEHKVTPFRSFLMPLSQLPIFLGFFWGLQDIAKYMPDYANDGAFWIENLAAPDPTYALPVMSSALMVASLEMGGEGMSEEYIQKA----KTAMRVVAVIMIPVTMNFESGILLYWVSSNLFTLTQTLLLKIPGAKDALGIP 313
[Close]
BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: H3GE52_PHYRM (Uncharacterized protein n=1 Tax=Phytophthora ramorum TaxID=164328 RepID=H3GE52_PHYRM)

HSP 1 Score: 126 bits (317), Expect = 9.070e-28
Identity = 73/247 (29.55%), Postives = 135/247 (54.66%), Query Frame = 2 
Query:  665 SAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPE 1405
            S +DL      + ++++D + A+ G+P+W  I+  ++A R A  P     +  + ++ + +P +    EK++D    M+ANP   + + +E      +   L+K + ++  K  L+  AQ PVF+  F   +D+  YFP Y   G+ W+++LSA DPT  LPI++SA M+  +ELG +      GD+ +   K   R   +M +P+     +G+ +YW ++N++ ++QTA+  L  V++AL  P+ E
Sbjct:  103 SVSDLGYSLSDIAIRSLDVIHATTGLPWWATIIATTVAVRTAFFPITVVSMRNAAKMKLFQPDM----EKLRD---EMDANPTRDEKSTREFQT---KYKALMKKHGVNPFKSMLTPLAQIPVFLGFFWGLQDISKYFPEYAHEGIGWVTDLSASDPTMALPIISSALMVASVELGGEAM----GDEMKGKMKFGMRCFALMMIPLTMNFQSGIFVYWVSSNMYTLVQTALMRLNFVKRALKIPVSE 335
[Close]
BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Match: A0A2P4XDZ8_9STRA (Mitochondrial inner membrane protein OXA1 n=1 Tax=Phytophthora palmivora var. palmivora TaxID=611791 RepID=A0A2P4XDZ8_9STRA)

HSP 1 Score: 125 bits (315), Expect = 1.400e-27
Identity = 77/247 (31.17%), Postives = 131/247 (53.04%), Query Frame = 2 
Query:  665 SAADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFLGMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGTLLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSNLSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGVMFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPE 1405
            S ADL      + ++++D + A+ G+P+W  I+  ++A R    P     +  + ++ M +P +    EK++D    MEANP     + +E     Q+   L+K + ++  K  L+  +Q PVF+  F   +D+  YFP Y   G+ W+++LSA DPT  LPI ++  M+  +ELG +   A  G+    N K   R   +M VP+     +G+ +YW T+N+F + QTA+  L  V++AL  P+ E
Sbjct:   95 SVADLGYSLSDIAIRSLDMIHATTGLPWWATIIATTVAVRTVFFPITVISMRNAAKMKMFQPDM----EKLRD---EMEANPTKTPESTREFQ---QKYKALMKKHDVNPFKSVLTPLSQIPVFLGFFWGLQDISKYFPEYAHEGIGWVTDLSAADPTMGLPIASAVLMLASVELGGE---AMAGEMKN-NLKFGMRCFALMMVPLTMNFQSGIFVYWVTSNMFTLTQTALLRLNFVKRALKIPVTE 327
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig697.24.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FTJ6_ECTSI1.370e-17462.14Oxa1 or Cox18/Oxa2 homolog, mitochondrial integral... [more]
A0A482SHT9_9ARCH2.050e-3935.77YidC/Oxa1 family membrane protein insertase n=1 Ta... [more]
A0A7S3XPC4_HETAK1.000e-3131.18Hypothetical protein n=2 Tax=Heterosigma akashiwo ... [more]
A0A024U946_9STRA8.490e-3031.70Uncharacterized protein n=1 Tax=Aphanomyces invada... [more]
D0MU00_PHYIT7.720e-2930.36Mitochondrial inner membrane protein OXA1 n=2 Tax=... [more]
A0A0P1AY12_PLAHL2.120e-2830.36Mitochondrial inner membrane protein oxa1 n=1 Tax=... [more]
W4FLF9_9STRA2.340e-2832.05Uncharacterized protein (Fragment) n=2 Tax=Aphanom... [more]
A0A6G0WRG1_9STRA6.350e-2828.93Uncharacterized protein n=1 Tax=Aphanomyces euteic... [more]
H3GE52_PHYRM9.070e-2829.55Uncharacterized protein n=1 Tax=Phytophthora ramor... [more]
A0A2P4XDZ8_9STRA1.400e-2731.17Mitochondrial inner membrane protein OXA1 n=1 Tax=... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig697contigP-littoralis_Contig697:109212..142791 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FTJ6
PFAMs60KD_IMP
Model size2583
Max annot lvl2759|Eukaryota
KEGG koko:K03217
KEGG TC2.A.9
KEGG Pathwayko02024,ko03060,ko03070,map02024,map03060,map03070
KEGG ModuleM00335
Hectar predicted targeting categoryother localisation
GOsGO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0005740,GO:0005743,GO:0016020,GO:0019866,GO:0031090,GO:0031966,GO:0031967,GO:0031975,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044422,GO:0044424,GO:0044429,GO:0044444,GO:0044446,GO:0044464
Exons11
Evalue8.71e-180
EggNOG OGsCOG0706@1|root,KOG1239@2759|Eukaryota
Ec32 ortholog descriptionOxa1 or Cox18/Oxa2 homolog, mitochondrial integral inner membrane protein
Ec32 orthologEc-21_001610.1
Descriptionmembrane insertase activity
Cds size1596
COG categoryU
BRITEko00000,ko00001,ko00002,ko02044,ko03029
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig697.24.4prot_P-littoralis_Contig697.24.4Pylaiella littoralis U1_48polypeptideP-littoralis_Contig697 110132..142724 -


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

Feature NameUnique NameSpeciesTypePosition
1680791443.1395235-UTR-P-littoralis_Contig697:109211..1101311680791443.1395235-UTR-P-littoralis_Contig697:109211..110131Pylaiella littoralis U1_48UTRP-littoralis_Contig697 109212..110131 -
1680791443.304803-UTR-P-littoralis_Contig697:142724..1427911680791443.304803-UTR-P-littoralis_Contig697:142724..142791Pylaiella littoralis U1_48UTRP-littoralis_Contig697 142725..142791 -


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

Feature NameUnique NameSpeciesTypePosition
1680791443.151462-CDS-P-littoralis_Contig697:110131..1102001680791443.151462-CDS-P-littoralis_Contig697:110131..110200Pylaiella littoralis U1_48CDSP-littoralis_Contig697 110132..110200 -
1680791443.1633236-CDS-P-littoralis_Contig697:118492..1186421680791443.1633236-CDS-P-littoralis_Contig697:118492..118642Pylaiella littoralis U1_48CDSP-littoralis_Contig697 118493..118642 -
1680791443.1791024-CDS-P-littoralis_Contig697:119391..1196611680791443.1791024-CDS-P-littoralis_Contig697:119391..119661Pylaiella littoralis U1_48CDSP-littoralis_Contig697 119392..119661 -
1680791443.1942163-CDS-P-littoralis_Contig697:120662..1207731680791443.1942163-CDS-P-littoralis_Contig697:120662..120773Pylaiella littoralis U1_48CDSP-littoralis_Contig697 120663..120773 -
1680791443.211057-CDS-P-littoralis_Contig697:121986..1221541680791443.211057-CDS-P-littoralis_Contig697:121986..122154Pylaiella littoralis U1_48CDSP-littoralis_Contig697 121987..122154 -
1680791443.223756-CDS-P-littoralis_Contig697:122442..1225231680791443.223756-CDS-P-littoralis_Contig697:122442..122523Pylaiella littoralis U1_48CDSP-littoralis_Contig697 122443..122523 -
1680791443.2355173-CDS-P-littoralis_Contig697:123621..1237181680791443.2355173-CDS-P-littoralis_Contig697:123621..123718Pylaiella littoralis U1_48CDSP-littoralis_Contig697 123622..123718 -
1680791443.2458737-CDS-P-littoralis_Contig697:124562..1248001680791443.2458737-CDS-P-littoralis_Contig697:124562..124800Pylaiella littoralis U1_48CDSP-littoralis_Contig697 124563..124800 -
1680791443.2596526-CDS-P-littoralis_Contig697:125353..1254361680791443.2596526-CDS-P-littoralis_Contig697:125353..125436Pylaiella littoralis U1_48CDSP-littoralis_Contig697 125354..125436 -
1680791443.2728872-CDS-P-littoralis_Contig697:142209..1425001680791443.2728872-CDS-P-littoralis_Contig697:142209..142500Pylaiella littoralis U1_48CDSP-littoralis_Contig697 142210..142500 -
1680791443.285446-CDS-P-littoralis_Contig697:142686..1427241680791443.285446-CDS-P-littoralis_Contig697:142686..142724Pylaiella littoralis U1_48CDSP-littoralis_Contig697 142687..142724 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig697.24.4

>prot_P-littoralis_Contig697.24.4 ID=prot_P-littoralis_Contig697.24.4|Name=mRNA_P-littoralis_Contig697.24.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=532bp
MLRSVDLLKQSRRLVGPACGNGAAAAAARGRGSSTGNRLGSTPQGRRCQS
LQVPASQQQSRNYWRSTSSSSRSSSGVGGNGSGVVGRGHGLSSGWRGAGA
SVGARRGLAGRSGGSGSGSGSGEGKDGVAESGGAAVDGDSWTPPPDAWRP
DEAPPTDPQDFSSTMSGFDLGDGFSNSSAVADAAAAAPDVGAAVTATGLS
AADLSTYPHHLFMQAIDFVQASAGVPYWEAIVMVSIATRIAVLPAVTTFL
GMSKRLNMVKPQVAVHQEKIQDIKARMEANPEIKDAAMQEMMLVSQEIGT
LLKSNKIHFPKMFLSMFAQFPVFISLFLATRDMGSYFPGYMTGGMEWMSN
LSAPDPTWTLPILTSASMMLLMELGSDMPVAQGGDKPQFNPKNVFRAMGV
MFVPVAFTMPAGVLIYWTTTNIFGILQTAVFELRPVQQALGWPLPEDMPQ
VKPQQAPREEPTDADFASKEDLERWAGGGGGGGGDSSEASRGATQAAERA
REAVAKASKARQEELRREHEERSGGGGDRRQ*
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mRNA from alignment at P-littoralis_Contig697:109212..142791-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig697.24.4 ID=mRNA_P-littoralis_Contig697.24.4|Name=mRNA_P-littoralis_Contig697.24.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=33580bp|location=Sequence derived from alignment at P-littoralis_Contig697:109212..142791- (Pylaiella littoralis U1_48)
GATGTGTTGAAATATTGGAGCCAGCTGCGAGCGCGAGAGACGGAAGGCGA
GCTAAACGCACTGTATCATGTTGAGGAGCGTAGATTTATTGAAGCAAAGC
CGAAGGTGCGAGAGAAAGGCTTGCATACGTAGCTTGTGTCATGCTCAGAG
GTGCGTTGTTGCCCTTGCATTGGTTTGCACCGCACACAGAGAGGGACGCT
CCAGGTATCGAATGAGAAGTCTTGGCAGCACCGACTCAACAATATCACCC
TGCTAATTTTCCATTCTCCCGCCTCTGGCTTGTGTCTGAAGGCTCGTGGG
CCCGGCATGCGGTAACGGTGCCGCGGCAGCCGCAGCCCGTGGACGCGGCA
GCAGCACCGGCAACAGGTTGGGTTCCACACCGCAGGGGCGGCGTTGTCAA
TCCTTGCAAGTACCGGCCAGTCAGCAGCAGAGCAGGAACTACTGGAGAAG
CACAAGCAGCAGCAGCAGGAGCAGCAGCGGCGTCGGAGGAAATGGTAGCG
GAGTGGTTGGACGGGGTCACGGTCTCTCATCCGGCTGGAGAGGGGCGGGA
GCGAGCGTGGGAGCTCGACGAGGCCTTGCGGGGTGAGTTCATAAGTCACG
GCTGGCTGCTGTCCTCGATGGAGCATCGCGGAGAGGGATGTTGAGCTCTA
ATCATTACAGAGCTGGGGCAGGATCGTGAACCTGGTTCAGCAGTAATGGG
GAAGTTGGTTTTGCTCCCTCGATCGGCGAGACATCAACACCGGCGGTCCT
GTTGTTATCCGAGCAGTGCATATCGTACATAAGATGTTCAAACATGATAC
ACGAAGTACTCTTTTGTACCTGGTTTGAGGGTGTTATTGCCACTTCCTGA
AACAGGAAAACCACAACAAGGCGTCGATTTTGGTGCTTTGAAAAATATGT
TGTCTGGTATACCATTACTACGTACTGCTGATCTTAAACAAATTGTTACC
CCACTCTGCAGTACTGCTGTAACACGATCTTGGGTTTTTTCTCACATTGC
GCGTGGAAGTGGAAAGCGATCAATTCGTGAGTAAACAAGATTCGATCGTA
CCATCGACGAGGGAAAGCGATTGCTGTCCCCTTTCTCGCGATAAAAGCTC
AACCCAAAAACAAGGGAAGCACCGCAGAGGGAAGTGGAGAAAAAAAAAAA
AAACTCCTGTGTTGACTTCCCCCTGTGTGACCTACCCGAAAGTTGTAGAG
TGGCGCCCGATGAAAGGGATGACAACACACACACACACACAGCAGCAGTT
ACGTTGTGTAGTGCAGCTGTGAAATTCTATTTGTATACTTCGAAGTGTCA
TCCTGTTGTAATACTACTGGTGTTTTTGTGTATACTGTATGAACAATTGG
ACAGCAGGTTGAAAAAAAAATTAACAAAAGGGTAAAATAAAAAAAAAGGG
TTGTGTTATACGGAGTACTCCGTATTCAACTCATGTGGAACTTTAGGCTC
CCTATTCAACGTCATTAGAGTGTTTGCGAAGTCCAAATTTTGGACTTGGA
CTTGGACTTTTTTTTACCCCGAGGTGGGAGACCCGAAGTAAAGTCCAGAC
TCCGGACTTTTACAAAGCTAATTCGGGCTCAAAGTCCACCAAAAAAGTCC
GGTGCGGGCTTGCTCAGTTTGTTCTTGCGAAAGAGAATTCCTAGAGAAAA
ATCAATACCCCGAGGCTGTGTGGCAGCACACCTCGCACACCTACACACCT
ACCACCTCGAATAGCAGCAGCACTCAAACCACGGCGGAGGCACGCGTGGC
ACGGCCCTCTGCACACCGCGCCGGCCCGCTGCCGCAGCAGGCTCTCCTCT
AACATCGGCGCGTAGGCGACGAACATGTCGAGCGAGGTGCGCTATAGGAA
CACTGTGAGGAGGACCTCCCTACACCAAAGACCCGGCGCCCTTCATGCTG
CTGAGATGTTGCGTCTGCATTACTACATTCGATGTATCCCCTTGTTCATG
CTCTTGGTCATGCGCGTCACCCGGGCGCCCCCCACGCCTGCGAGGAAGGT
TATCAGAAAGATCTTTCCCAAAAAATCAAAGTCGGTTTTCGCACGGTGAA
ATTTTGGAAATTATTCGGACTTCCTCGGGGTACGCTCAGGGCTTGAAACC
CAAACCTGAGTCCGGACTTCGCAAACACTCAATTGTGTCCGTTCACGAAT
GCGGCGTAATAAACTCATATAGAAGTTATAGTTGGTAGAAACCCCCCCGA
CAGTCCCGTCTGACTCTCTCCACCTTCACTTCTGGCGGACAGCTAGGAGG
CAACAGCGACGTGCTGGGAGATGGAAGAGGTACGTGGGGAGAGTGACATA
AATCAGGTTGCTTGCCCCAAACTTTGGTTCTCCAGTCGTCGCCGGCACAA
AAGATATCAGCGAGATAGCACACATGTGGTGAAATGACTTGCCGCGGCCG
TAGCACGCATTCCAAGGAAGGCGCACCTGTCCGTGCATCCGACTGGTGAT
AAATTAAGCCGATGTTTCTCCTTGTGAGTGCTACCCGTGCGTCTTAGCGT
CGCCCTAATGTCGCAGAAGCTTATTTCGCAGGCGCAAGAGTGCCTTCGTC
GCGCCTGAAAAAAGAAAAAAGGCATGTAATTCAGCTATTTCCGCCTCAAA
ATGAGACTGGGTGGACGAAAGCAAGTAGGGGACACGAAATACTCTAGGCA
ACTTGCGTAAAGCAGTGGCATATGAGAGTATTACTTCTGGTCTCTACGCC
TACCAAGTTTGGACAAGAAAAACCACGCACGAAACGAGGAAGTTCTCAGC
TTTGTCCGAAATGTTCCCAAAAAGCTGACGACCTCCCGGGTTTGGACGCA
TGTGGAGGCGTTTTTGGAAATGATGCATTGATGTTTTTTTTTTTGCTTTG
ATAGAATGATGATCTTGAGTCCTAGCTTTCCACAGATGTAGAAACATCGG
CTTAATTCGCAAAACCCATTTAATTTGAGCTTGTCCCGCGGAGGCTATCG
TACAGCAGCAAAATTCCTTATTAATAGGGGTTTAGTACGGAATATTTTTT
GGGGAACATCACCGTAAGAAAGGGTGCCTTCGCCCCATCTACTGGCGTGT
GCCGACATCATACTTTTCTTTTTTTACGTTTTTTGTCGCTTATCATGTGG
GGTTGGCCTGAAGCTTTCCTGAGAGCGCGAAGATCGGCTTACGCATCGAA
GTTTCACTGCTGTGAAGTGAACACTGCTGTACAGCGACAGCAAGAATTTT
CCCCTGTAGGTGGTTCGGGTATCCTCCTTTTTATTGCTCTTCTGCGGTAA
GAAGGCACCCCTGCACGGGTTACGTTCGCGTCACGTAGCGTCTTGTTCGC
CTTCTGCCTTTTGTAGTACACAGCAGTGTGGACAAGGACTCATCACCTAT
TTCATGTGCCACAAAACGACACTCCAACCATACATATCTGGCCACCACAG
ATGGTACCCCAACGGTACCACGTCTGATCTGACTGTGGGTGATCATAGTC
CATATATTTTATTTTTTTATTTTTTTCCTCCTAGCACGATATGTGCCTGG
TTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCA
ACATGTGCCTGGTGCAGAAATTCTGAGCGACCCACACCCCTCCCTGCTGT
CTCGACTGTTTTGTTTTGTGTTCGTTTTTTGTTTAGTCGCACTACAGCAG
CAGTTAGGGCTGCGCCTGACCCCCCTTTTTGAGGGTAAAATATGTCCGGA
GTTCGTTCCGAAAATGCTGAATAGATTTATTTTAGCCAATCATATAACAA
CATTTTGAGTGACGTTTTCATCGAAGAGCCCAAAGAACAAACCAAAGAAC
GGCGAGTACGTGTGTGTGCCGGTGCTGCTGCTGCTCTCACGATTTTCTCT
CAAGCGCTCTAGAGGCGCGATGCTGATAAAGCAGCAGTAACAGCAGCACT
AGCAGTGTGCACTGCTGTGCAAAGCAGCCGCCTGTGATTCAACAAGCAGC
AGTAGCCAGATCACACCACCAGTGGGCCGCCATGGCCGATAGCGCGCAAG
GACGCGGACAGCAGCCCCAGAGCAATAATCAATCTCAACAAGCAGAGAGC
GAGCCTGCTCCTGCTGCTGCTGCTTCTGCTTTCGATGGCTTCGTCTTTGC
TATCCGTATCGGATGTCTCTTGCACATCCTGCACCTCGCGGTGAATGCGG
GGATGCAGTCTCTGTTCTTCATGGGCCCCCTCACTCAGGCGTCATGGCAC
GAGTGGCCAAAGCCTCACCTCGTCGCTTTACTTGGATCACTTTGGTACAA
CACCTCCAGGTCGGATTCATCTTGTATTTCATGGAAAATATTTCAAAACC
TGGTGTTTGGAAGCAAAGGGGTCTTGTGGAAAACAAAATTCATCAGGCCC
GCCGAAACGCGGTGGATGGTGATTTGGGAGGGTGCAGCCATTCTTGAGGA
ACGCTGGGAGCAGGTCCGGTGGCTGTTTGTGGAGTGGGCTGCCAAGGTTC
TACTTCGCACCCCGTTTATGTCGTACTGGTTCAAGGCGACGTGCATGCTC
CAAAATCCTCTCATCCGAGTACACGCTAAGTTTTGTGGTGCCCTGCACAA
GGCGATCCTGAGTTGGGCATACAACTGGCTGCGTGGCGAGGGTGGATACT
TCTTGAAGGGCCCTGATGGAGTACCGAAGCGGCTGCCACCTGGGATGCGA
TAGGCCGAAGTACCTGACTTCTCCCTCTTGTTACTCTCCCGCCTGATCGA
GCTTCGCGAGCACCCATGGAAGTATTTTCCTGAGCTGCTCTATTTTGCGA
TGCAGAAGCTGGACGACGAAGAGGTGAAAAAATGATTTCCCAGCAGCAGC
TGTTTTTTATCTGAACAAATGAATGAAAAAATGTTTTTACAGCAGTCTGA
ATTTGACTGAAACAAAGAGGGAAAAATGATTTTTTTCCAAATCAAGAAAG
AGAAGGCTGAGCAAAACTTTTTGCGGAACATCTTCTGCTGCTGTTTGCCT
GCTCTCTTTCTCTGCTATCTCTGTCGTCTCCTGCTCGCGAGCGCCGGCTC
GCATGCGTTGTGACTGGACTTTCACTACCACCGTTCGCAACCCTCACGAG
TTTCCTGTTTTTCGCCTACCCCTGCGTTCTCTATTCTCCTGACGCGTGCT
GCTCGACCAGTTCGAGGCATTTTTGCAAAATTTCGAAGAAGGTGGCGGCT
TTTGTTGGGAGATGGAGCAGCGGTGGATCAAATGGACGGACAGGCACCAG
CACCTTCCCCTCAGCATGGCGCGCCTGGGGTGTAGTTCTTTTTACGAAGG
AAAGTGGGCTGGGTCGGAGAAGGCTTTTGATCAGCAGATTCATGGACTGC
AGCTCCCTTTTCCTTTGGCTGGCCTGCATCCTCGCTTCAAGAACTTGCTG
CTTAAGAGTGAGGGCTCGTTGAGACTCGGCAGCAGCAGTAGCAGCAGCAG
CAGCACCAGAGGCAGAGGCAGAATTGGTTCCAGGCAAATTACACCCAATC
TTCTCCGCCATTGCCTTGATTTCTTCGTCCATGCTGCCGTTCGCCAGAGA
CAAGCGCCTCACCTCCTCCGTCAAACGATGCACCTCCTCACGCTCAGCAG
CCAGCTTTTCCTTGGCAGCGTTGGCCGCGCGTTGCCACCACATGCGATCC
GCTGCTGCTGCCGTTACGGCCTCCTCTCTCAGCTGCTGCTGCTTTTTGGT
TTCTCTTTTTTCGTCCTCCAACCTTTTTTTTTGCATCCTCCAACTTGTTT
TTTTCGTCCTTTAAATCTTTTTCAACCGCTTGACACGCTGCCGTCTCCTT
TCGCCTTTCGCCACGGGCGACTGCCAACAGAGCGTGCGCGTTACGGTTGC
TAAGCTCCAACGCCTCAGAGTCAGCGCGCCTGATGTTGGCGTCAAGTATC
GCTTGCCGAATCCTTTCGGTCATGGAGGAGCAGGTTTCAGCAAAAACCTT
TGCTCCATGCTTCGCGAATCGCGCTTGTCTCTTTTTTTTTACCGAAGCTC
CCGTTTTCTTTGTGCGAGCGTTTGCCATAATAGACGATTCTGCAAGAGGT
GCTGCTCGACGTTGCCGTGGAGGTTTCGTTGACGGTTTGTTGCGTTGGCT
CGGCGAAAAGTAGAGCTAAGGTCTGTTCGCAATCGATTTGCATGTGTCAC
TGAGCCAGAGCTGGCAGAGAGGCTTCACCGCTAAAAAAGGCCAAAATAAC
ACTGTTTTAGAGTCGTATGGGCCCCAGACACAAGCAATTGAAAAACTGCG
CGGACAGACATCAGATCTCCCATGTACACAGGTACGTATGCAGTGGAGAG
AGCCAGTTGCTCGCCTGAATCGAGTATTTCTCGATACCGTTTTGTGCGGA
AAGCAGTGTTTGTTGAAGTCAAACCGATTTTTGGCGTCATCAGCCGGACC
GGCGGAATACGAGTATTTCCTGGTCCCCAGCCAAAAAAAAATCGAATAAT
CATGCCATATTTTACCCTCAAAAAGGGGGGTCAGGCGCAGCCCTAGCAGT
AGTCATCGGTCGAAGCTGTTCCCGGCGTCTTCACGAGGGGAGTTCGAACT
AAGGGGAGGACGGAACAAGTGACAGATGCTTTTTAGTAAAATATATTTCG
AAGTAAAACGTGTCGTTATATTTCATGCGCGAAATATTGAACGCGTAGTT
CACGCCAGACCGGGGGAGCCGGTGTGCTACTCTGCAACTTTGTTCAAGTG
TCTCCTTCATAGCCAGCCGAAGCCATCATTTAGTTCACTGTTGATAGCCG
CAACCACACCCCTACGGTCTGTCGCCAGCTACAGAGAAGAAAGCCTGCGT
AGACCAGTCACACCGAAATCCGGATGTAACCAAGAGCTTCCTTTACCTTA
CCAAAAACAAACTAAATCAAAAACAAATGTGCCAACGGCATCCACGACAT
CATTGAAATAGTAAATCGGCGACCGAAAATTACCGCGTTTTTTTTACACA
TTAGCAACCAGGGATAGGCGTTTTCACGACGCGCACACTCGAGTCGCACG
TACGTATAATACATTTTCCCCGCAAGTACACGAACGCTTCCCTCGCATGA
GCGGGATCATGTGGCAGATTGCCTTGTACATGATCCCCGATAACTCACTC
ATACTAACGGAGTTCACGCAAACGACATGATGCACAAGGCCAGCACGCAT
CGTGCACTCCTTCTTATTTGACTACTACAAACACCAAACCCATATTTTCT
TCGATATCAAAGTCCCTCCTCCATCACAGGCACTCCCAAATCCCAGCATA
CACGCACCCCCCGTCCCATCCAAGCCGGAGGGCCCGAGCCTACTCGTGTT
CGCTTTGTATGACTTCTCATTTCGCAATGAAAGTATGAGCCCTAAAACGA
CCAGGTCAACTATCTTCTGCGGCGCTGTATAGCTAAAGAGGACATACATG
TTGCAGTATCGAGCTGAGCCCCCCCCCCCCCTACGAAACTAGATAATAAA
AAAAGAAAAAAATGTAAGGAGATTATTCATGCACACATATCATACAAGAC
AAGACAACAAAAACGAGCGCACCCATCTATGAGAACTTGCAAAGAGTTTG
CACGATTTCGGGCGGGGTTCCACCCTCATCATCTCCTGTGAACATATTCA
GAGCCGCATGCAGTCATGCGAGGGGCATCGCTGGCCGGCCCCTCACGCTC
CGAGGTATTTCGCCGTCTCCTCATTGAGCTGATTTGGGGACCCTCTTCGC
CTTGCAATGCCCGATGTTTCCTTCAACCTTGCCCTGTCTGGCCAGAAATT
CCTGCGGGTCCAAAACAAATACCGGTAGTTCGCTGGCCGTTATTTTACTT
TTCATGGCTGCGCGTAAATGAAATTTGGAAACTGTGCTGTGTCTTCACAC
TAAAATACGAGGCTAGTGATTTTTTGTCGGATATATCAATAAATATAACA
TACCACTCTGTTCCGAAATATAGTTCACATTTGGAAAAACCGAAATATAG
TTCACATTTGGAGTATTGAGGTATAGAGGGTGATGTTGGTGATCAATATA
GCTCAACCATGTGCCATGGACCCTCAGTAGTGAGGGGGGCCCGAAAAAAA
AAAAAAAAAGGTTCATGGGCCGGGCGGGGATGCTGATTCATCATCCCCGG
GAAAACAGCTGAAATCCGGAATATGGTGGGAAATTTGTTTTTTGGGAAAT
CGACCCCGTTGTTTTTGACCGAAGCATTCGGCATCGCGCGTATAAACCAA
TACCAAGTGGACCGTGCTTTTTGCAGGAAAGAAAAACTCAGTCGTGGCAG
GGTAGCCGGGGATGCTGGCGAATCATCCCCGGGGTACGACAGAGCAACGC
GAAGGCCCACACTACCAAACCTTTCCTTTCCACAAAATGGGCCGTGGCCG
CTACCACTGCTGCACGGAATAGTGACAGCACCTGAGTATTGGAGTCACAC
ACTGAACGACCAGTTACAGGTCTTCCACCTAGAGCAAAGCTCAACATACT
ACCACACGCCTGCCCAGTCAGGGAGCACAGCAGTACCATATGTGCACCTT
CTTTCCGGATCCCCCTGCCCGCCCCGCTACAGCAGTGACATGACAAAAGC
GGAAAAACAACAATCTGGCCACACTGGCTGCAGCGAGGGGAAACAAACAT
GGTGGACAGAGCTTGTCAGGAATATCTTTAGCAGCATACTGGTAGTTTAG
CGCGTCAATTCCCCCTCAAGCGCCCCCCCCCCCCTCCTCCCCCTCCAGCG
CTCCCGCCCGCCCCTCCCTCCGGAAGGTGCGCTGCCTGCCATGCCTCCTG
ACTGCACGGTAGCTCCGCCGGTTTCGGCGTGCCCCGGCGTGCTGCCGTGG
CCTTGCGAAGATTCGGTAGCTTGAACGTGTTGTTGCCTCGCGCCAGCATC
ACCTCCTGAAGAACGCTCTGCAGCGTTGTCCACACGTTGCCGAGAGTAGC
CGGCGTCTGGGCCCAAAAAGCCCTCTCCACTTCGGCCACAAGCTGGTCAA
TCGTGGTGGGAGTGGTGCGGTCTTGCAAGGACTGGATGGAGTTGAAGAAG
CCGAGGTCGAGGACGTTCATATCCGGGCTGTTGGGAGGCTGGTTTAAGAG
CTCCATCCTCATCCCTCCTTGCCCGGCCGCCGCCACGACCTCAGGGTCTT
GCAGCACACGGTGCCCCGGCGCGTTGTCCTGCTGCACATAGACGGTCGAG
GCGGCCGGAAATTTCGCCCTGACGTCTGGGAACACGTTGTTGATCAGCTT
CTGTGTGTACGTCTCGCGGTTGACCTCCACGCTGTACGTCACCATTGTCC
CCGCCGCCCTGTTTCTGCTGTTGCGCTGAGCAGCGCGCTGCACCGTGAAG
GGGTAGATGCCGATCTTGCCATCGAACTGGCGGTTGCGGCTAGCGTCAAA
GCGCGGCCGAGCAACTGCTGCGAGGAACATGACCTTGATAACGTGGCTCT
TGTGTTGGACTTTTCTAATGGGCATGTCCTCGCCCTCGTAGAGCCCTCGT
AGAGGTAGTACCGCTGACCATGCTTGCATATGTAGAACCACTTCTCGTCC
AGGTGAACGAAGTCGTAGAAGTGATGGAACTTGTGTGCACCCCCAGGGGC
ATTCCGAACCCACCTCAACGACCACTCCAGTCTAGCAGCCTTGCCGTTGT
CAGTGAGAAGCGGCTTCAGGAACCTCGAGCACGCGCGTAGGCCTAGATTC
TTGAGGTTTCGATGGAGGGTTGTTAGCGGAATCTCCAAAGCTGCGGCAAC
CGACCTTTGCGTGGTGCGGTTCTTGAGGGGAATCTCCGCCAGCGGATAAA
TGTTATGCCGCCAGATGTCCAAATGTGAGGAGGAATTTTTCCGGTTTTTT
TGCTGCGCAGAACCTCTTTGGGCGGGAAACCTCAAAAACACACTTTTCAA
GAAAGCAGACCCCACACACCCTCTCAGCAGCAGCCAAGACACAGCAAACA
GAGCTCGATCGCGGAAATCACCGGTTGGAGCACTTGCTGCGGACCTACTA
ACATGGCTGATTCGGAGAGCGCTGCTAACACACCAAACCGCAAGAATTTG
ACAACTTCAGAGAAGAGAGCCATGATTGCCGAGCTGCTGAAGGGCAGCAA
CAACGGAGAGTTGGTCCACGGTGACTTCAAGAGGGTGGCGGCCATGTACC
AGCAGCATCCACGCACGGTGAGCAAGTACTGGCGCGTGTACTCGAGCAAG
AAGGAGGCCGGTGAGGTAGATCCCGATCTTCACAACAAACGTAAAGGCAA
CAGCGGCCGGAAGGGCTTGGACCTCACCGCTCTACGGGCGGCGCTGGCGG
AGATTCCCCTCAAGAACCGCACCACGCAAAGGTCGGTTGCCGCAGCTTTG
GAGATTCCGCTAACAACCCTCCATCGAAACCTCAAGAATCTAGGCCTACG
CGCGTGCTCGAGGTTCCTGAAGCCGCTTCTCACTGACAACGGCAAGGCCG
CTAGACTGGAGTGGTCGTTGAGGTGGGTTCGGAATGCCCCTGGGGTGCAC
ACAAGTTCCATCACTTCTACGACTTCGTTCACCTGGACGAGAAGTGGTTC
TACATATGCAAGCATGGTCAGCGGTACTACCTCTACGAGGGCGAGGACAT
GCCCATTAGAAAAGTCCAACACAAGAGCCACGTTATCAAGGTCATGTTCC
TCGCAGCAGTTGCTCGGCCGCGCTTTGACGCTAGCCGCAACCGCCAGTTC
GATGGCAAGATCGGCATCTACCCTTCACGGTGCAGCGCGCTGCTCAGCGC
AACAGCAGAAACAGGGCGGCGGGGACAATGGTGACGTACAGCGTGGAGGT
CAACCGCGAGACGTACACACAGAAGCTGATCAACAACGTGTTCCCAGACG
TCAGGGCGAAATTTCCGGCCGCCTCGACCGTCTATGTGCAGCAGGACAAC
GCGCCGGGGCACCGTGTGCTGCAAGACCCTGAGAGTGGCGGCGGCCGGGC
AAGGAGGGATGAGGATGGAGCTCTTAAACCAGCCTCCCAACAGCCCGGAT
ATGAACGTCCTCGACCTCGGCTTCTTCAACTCCATCCAGTCCTTGCAAGA
CCGCACCACTCCCACCACGATCGACCAGCTTGTGGCCGAAGTGGAGAGGG
CTTTTTGGGCCCAGACGCCGGCTACTCTCGGCAACGTGTGGACAACGCTG
CAGAGCGTTCTTCAGGAGGTGATGCTGGCGCGAGGCGACAACACGTTCAA
GCTACCGCATCTTCGCAAGGCCACGGCAGCACGCCGGGGCACGCCGAAAC
CGGCGGAGCTACCGTGCAGTCAGGAGGCATGGCAGGCAGCGCACCTTCCG
GAGGGAGGGGCGGGCGGGAGCGCTGGAGGGGGAGGAGGGGGGGGGGAGGG
CGCTTGAGGGGGGAATTGACGCGCTAAACTACCAGTATGCTGCTAAAGAT
ATTCCTGACAAGCTCTGTCCACCATGTTTGTTTCCCCCTCGCTGCAGCCA
GTGTGGCCAGATTGTTGTTTTTCCGCTTTTGTCATGTCACTGCTGTAGCG
GGGCGGGCAGGGGGATCCGGAAAGAAGGTGCACATATGGTACTGCTGTGC
TCCCTGACTGGGCAGGCGTGTGGTAGTATGTTGAGCTTTGCTCTAGGTGG
AAGACCTGTAACTGGTCGTTCAGTGTGTGACTCCAATACTCAGGTGCTGT
CACTATTCCGTGCAGCAGTGGTAGCGGCCACGGCCCATTTTATGGAAAGG
AAAGGTTTGGTAGTGTGGGCCTTCGCGTTGCTCTGTCGTACCCCGGGGAT
GATTCGCCAGCATCCCCGGCTACCCTGCCACGACTGAGTTTTTCTTTCCT
GCAAAAAGCACGGTCCACTATGGTATTGGTTTATACGCGCGATGCCGAAT
GCTTCGGTCAAAAACAACGGGGTCGATTTCCCAAAAAAACAAATTTCCCA
CCATATTCCGGATTTCAGCTGTTTTCCCGGGGATGATGAATCAGCATCCC
CGCCCGGCCCATGAACCTTTTTTTTTTTTTTTCGGGCCCCCCTCACTACT
GAGGGTCCATGGCACATGGTTGAGCTGTATTGATCACCAACATCACCCTC
TGTACCTCAATACTCCAAATGTGAACTATATTTCGGTTTTTCCAAATGTG
AACTATATTTCGGAACAGAGTGTAAAAGGATTGCGAATGACAACGTTTCC
ACAGGGTTTTTCGAACACACGACCGTACATATGCATGTATGATCTAACCG
AACAGCAGGCGGGTACAAAAAAGCTTTCGGAACAAATCTCTCCTATTCCA
GGGCGGTTTCGGTTGGCATTACTTTTGCCCTGTAACCGTATTGCTCATTA
TTCGTTTTATCACTCTCGAACGAAAAGCCACACCAATGCTGAAGCCATGA
CCACAGCAAAGCCAAAGGCATGCCTCGCGAGCCGTGTGTATGGTCCTTCT
CCTGCGAGGTCACCTGTAGCCGCGAGGCATCGACAGGCTAGAAAAATACC
TTTCAAAGTCGACGACGTGCATACAAAAGATAAACTTTTCGATACAGCAA
CATGTACAGCAGGCGGTGATTTCTTACCTTGTCCCACGTCATCGATTCCT
GAAGACATGCTTCGCTAACTTATCTATGCCTCGCGACCTCAGATGACCTC
TGCAGGAGAAGATCCATGCACACAGCTCGCGGGCGATGGCTTCCCTGGTA
TATCATAGCCCTGTGGCTTTATTCGTTCGAGAGCGGCGCACAAAGTATCA
AACTGGCGTGGCTGCGAACGAACTGCTGCAGCAGCTGCCGCCGCTACTGT
GTTCGACAGCTCAGAGCAGCAGCTGCCACTGCTCTCTCTCTCTCTAACCT
ATTTTGATTTTTTGTCAATTTCTCTCAGACGAAAGCAGCCGCAGCAATGC
AGTACTAAAGCCATTGTCCGCGAGGTGTGATGTTCACGATTTTTCTCCTG
AGGTGGTCACGTGAGGCCGCGAGGTATCGGTGGGCTACAAAAAAAGATAT
ACTCTGGTCATCTCATCGTGAACGGCTGACTGGCTGCTTTTGGGGGGTTC
AAACTCCTGTCGTAAAAAAAACAGGGTTTATTTCTGATACTAGTGGCAGG
CCATCCGAAAAATGGCTCCTCTGATCGTTTGGGGCTAACGATGTAAGGGG
TTGAAAAAGTTGTCGCAAAACAAACTGTTTCTGGTTACAAGAGGTGGGCG
ATTTTGCACCAATGTCCAAAAGGCTGATTTTAAACACGTCAGATGCAACC
TGCTCGAAAGAAAAGAGGATTCTTCGCCGCCGCTTGTATTTGCGAGTTGT
TACGATAATACTCCACTGTGCTCCGCTGCAAATGAAAACTCCGTAATCTA
GTCTGTATACGTACAGACTAATTGCAGATGCGTGTGATTTCATGGTCTAT
GCATTGTAGCATAAGGAGCATTGCGAAGCGGGAGTATTGTTTTTTTCGTA
AGGTGTTTCCACCGCAGACCTTGCATGAAATACCGCACCCACTTCACATG
GTGCTACATAAGGTTGATGAATCCGCAGCAGCAGAATTTTCGGTGCCGGA
AATAGCGGTGGCTACGACGCGTCACCAGTTGTTGTTTTCATCAAACACCC
CCTAGTGCCTTTCATTCATGCAGTAGTGGGATGCCCAAGCATTGAAAACC
GGTCCAGACGGGGGCGTGGCATCTCGTACATTTTGCTGCCGTGCTACGAA
AGTGTCATGCCATCCACGTGACACAGTAACGTTCCCTGTTCCTATACTTC
AAGTATAAGAAAATATTGCCCTCTCCACTGTTGTACAGTTCTCTCTGCGC
GGACCGGTGTCTTGGTGAGAGAGGCTACATAATCCTGCACATCAGGCAGG
TGGGCAGCCATCAACTCCGGCAGGAAACGCAAGACAGTGGGGAGTGGAGA
GAGCAAAGCTGCTGTGTAGGGAGGTATATCTATGCCGGAGGGTCGTCTTT
TTTGTGTGTACTTTGTACATATGGTACCATACATAATTAGTCGTCACATA
TACTCCGAGTATTGATTGTGCTTCGTATCCAATTAACAGCAGTATGTCAT
ACCGCGAGGGTTGCGATATGACAGGTATACATGTGACGAAAACCAAGGTT
GCTTCATTCACACAGCAGCAATCTTTCGCCATACTTCAATACAGCAGTAT
GCCGCGAGGGTTGTTTCACACGCAAGCGTGTACGTCGGATAATGTAAACT
GAGTTACTGAGCAAACAAAAAAAAAGATGGGACACAAACAAGTGAGTTTT
GCGCGACAAACAAACGTGGAAGTTGGTGGAAATGGACCCAAAAGCAGCAG
CAGTCTGTTCGTACCTCTGAGTGAATTCAACTCAAACAAAACAACGTGGA
GAACCCACTATTTTTGTTATTGCACTGCCCACTTGTCTGCAATAAAATGC
TGAGCGGAGACAACGCGGCTGTACGGGGCTCCAACCCTGCGTGGCTCTGC
CGACACAGATCACAAACTTGCCTGCATGCTCAGTGCTGCCAACACACGTG
AGCTTGATGCTGCCCGCAGGTCCGCGCCGCTCCATTGTTTTCCCCATAGA
TCACTGCTGCCGTAGGTTCCTCGCTCATGAGGGCAGCCTGCTGCCGCGGT
TAACTTCGCGACCAGATCCTTCACTTTGGAGCGGGTGGTCTAGGGACTCA
AACGCATACATGCATGATACCCTCCTGCTCCTGCTACTCCCGCTGCTGCT
GCTGCTGCTGCTGCAGCTGCTGTGTTGGCTGCTCATGCTGGTCCACCCTT
GCTCCGTTTCCCTCTCCAGCCGTGGTCCCCTATTCGTGCCCATCGACGAT
TTCCGGGCACGCTGCGCGCTGGGGACAGCAGCAGTACCACCCATCTGCAA
CACGCCACTTGGTTCAAGTCTTGTTCGCCTGCACTACGCTCCTATGTGCT
CTGGGTCCAAGCGCGGTGTTGTGCTGTTTCACCGCACAGTGTGCAGTGTT
GTGCTTTACCTATGTTTAACCCTATAAACCATCCCCTCCCCAATAACGCA
GAAATTTGACGGTTTCATTTAAAAAAATGCCAGAAAATGGTTGAAAATGT
TGCGGTTCGTTCATGTTGTTAAATGAACGGGTGAATAGGGTGCCTTAAAA
CTGAAAACCATTTACTTACCTGTACATAAAAATGAAGATAAACAAACCTG
AAACAAACACATGTAGACCGTACATACTCACCACATGATGTATCGTGTGT
CACACAAGACGACTACCAAATTGTCTTGTCGAGCCTGATATCCTCAGGGG
AGCTGCAACGGTATGTCATCTGCTGAGTTGTAGAAAGACAAATAGATGTA
TTACTCACTGCGTTCGTTGCTAATCTTGCTGGATCCTCGTCTAGGGAGAG
GCGAACACACTACTACTGGTGTCTTCGTAAGAAAAAAAGAAAAAAAGAAA
AAAACATTTTTGGGTCTACGCCGCTCAGTAATCAAAACATTGCTTGTACA
AGTAGGTATCTTGTGTTTTCATGGTCTGTGTATCGTTGGCTCTGAGCTAC
ATACGCCAGGAACGGGGTACAGCAGTATTCCAACTGCTGTCGACAGCTAC
CTGGCATACTGCTGTACCTTATCGCAACATGCTGTGATGTAGTGCTGCTT
TGCTGAATCGGGGCACTAGGACTCGCTTCGTCTACACCTTGAAGTACCCT
ATACGAAGTACGGTACTTTCAAGTACTTTTTATTTATTTTTAAATGAAAA
AATTTACATACTTTTTCGTATGTATGATAGCATATTTGCGGCAGAGAGGG
CGGCGACCCAAAAGGGTACTCCTTGTATCAACCATCAATGCATATATATT
TCGTATATTCATACTTCGAGTATGACATACTTGAAGTATATCACATGGTC
GCGTTAATCCTTCCGCAGCACCCTGCAGCCTACCTTTGATTGAAGTGCGG
GATCTGTGGGGTGAACTTCAGTGAGTGCCCCACGCACGTGATGTCCCCCT
GTGGAAAATCGCATTATGTTTTTTTCATGCACTCGGAACATAATTATGTG
TGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGCACCCTGCGGTTC
AAACGACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACA
CAGGAGGAGTTACCCCTACCTTCCTTCTGCGGTACATGCGTGAGATTTTT
TCTCGCGAGCCGGGATCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATC
TGCTTTTATTAACAGCATAGCCGCTTTTAAAGGAGCAAAGAAACACCTTC
ACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGGAC
CACTAGTCCACCAGGGCGACCGGTACATGTAACGAATCGCCACCCCGGAA
GTTCCCTTTAATGGCGTCCTGGGCAATTCCTCGACACCTCCTGGTACAGC
AGCAGTGCAGATCCAAAAAGTGCCACACCAGGAATAGGTTATATCGACCG
TTTCCCCACAGCATGGCAAAGTAAGAGAAGAATCCCTCGCTTTTTCGCGG
AGCCGACGAAGGTCGTGAGGTGTGTGGTTCCAGGCTAGATTCGATCCTGC
CGCATGTACAGGGCGGTAGTAGCGATAGCAGGTACCTAAATTTTACGACA
CGACCGGTGATCACAGCATAGTAGGGTTACTCAGGTACTTGTACAACAGT
CTGCTAGTGCCGTGTCCGGGAGGTATTACACAGCAGCACGACGCAGTACT
TCCATCACAGCAGTAGTGCACGTATGCTGGTCACACGTCGTGAGATCGTG
AAAAAATACGAGCTCTCAATCATGGTGATCAATGAGGGGATCGATGGAAT
TTTTATGTTTTGTTATTTCAGACGGAGCTTCAATCTTGGTTTTCTACTGC
TGCAATGGCGATCCAAAAAGTGCCATACCTGCAATCGATTCCACCTTTGT
GACCGCCCATGCTCTTGGATCATGGAAATGTTTGGCATCTGGCAGATCGC
ACAAGGACACCCCTAAAGCCTCGCGGCGGAACTATCCCGTAGTCTAGAGG
CTGCAGGTGTTTGGGGGCTGACGAGTTGTTTATTCCCGTGAGACAAGCAC
GACTTCGATTTTGAAGGCATTTTGTTTTTAATTTCTCATGGGGACCAACA
CGTGTGCACGCGGCAGCTGCCATGGTCGAGATAAATTTAGACCATACTTT
CGCTCGTGTCTTATCAAATATACGCATGCCTGTTTATCGAAGTAGCAGGC
CAGTGGAATGTTGTCCGTTGCACTAAAGTACGACAATGGGTATCACCGCA
GTAACGCAGAAGTGTCCCAGGGAAGTCGAGCATGTATCTCGCCCCATGTT
TTAGCCTCTATGATACTCGTCTGCAGGGAGAAACAAAAACCCAGCACACA
CACCCGGAGCGACCCCTCGCCGCGATTGTATGTCATATACGGGATGCGCA
GTGGATGCACCACGGTGGGCTGCCCTGTCCCAACGCTGCTCGCACTGGCG
TACCCTTCTCTTGCTTCGTGAACGAAAACGGTACGATGTCTCTTTCGCTG
CGCAGGCGGAGTGGCGGCAGCGGCAGTGGAAGCGGCAGCGGCGAGGGTAA
AGATGGCGTTGCCGAGTCAGGAGGAGCAGCGGTTGACGGTGCGTATTTTG
TTATGTGCTGTCTTTTCTGCCCCTACCTTCCCGCTCATTGGCTGCGGGAG
GAGTGCCTCCCGTTTGACCCGCTTAATGATTTGGTAGCAGCAGCAGCAGC
AGCAGCCGAAACGCGTCGTTGCTGCACGCCGCCTTATTGCCCGCTCTGCA
CGGCAAGCAGTGAACAAACAGTACGGGCACGACACGTGTGTTTCTGCCAT
CGCGACAGTGCTAACTAAACATAGAAAAATCCTGGAAATATCACATCACG
GGGTGTAAAACTTCGCCCCTCCAGCCGATACTGCGATTCGGACTGCAGCC
ACAACCGAGAAGCATAGATCAGGAGAGGAAAGTTGCAGTAGTAGTTCTGA
ACACAGCACGTACGCTGCCAGCACGGAGTATGTACGGGACCTTGTTGGGT
GTGGGGTCATGTGCACTCCGCCTCCTGTAGAAAGGTTTACAAACACTCCC
GTACACCGAAAACATCAAAATTCGGCTGTAGTACGACACCGCTGCCCCCC
CCCCCAACGCCGAACGCTGCGTGATACGCCGACACCACCAGGGGACAGCT
GGACGCCGCCCCCGGACGCGTGGAGGCCTGACGAGGCTCCACCAACAGAC
CCGCAAGATTTTTCCTCCACCATGTCAGGTTTCGACCTCGGGGATGGCTT
TTCGAACTCGTCTGCCGTGGCCGACGCCGCGGCTGCGGCGCCGGATGTTG
GGGCGGCGGTGACGGCCACGGGACTGTCAGCGGCGGACCTCAGCACGTAC
CCGCACCACCTCTTCATGCAGGCTATCGAGTGAGACGTTGTTTTCGTCCA
GACTCATGGCTGATTTTTCATGTAGCGGTTTGCGGTGTTCGTGTGTGTCT
GCCCCGCCGTCTCTCGGCCTTGTATGAGTGCACGAACACACTATACGTGC
GTGTATATTTATTTCGTAGATGCGTGATGAAATACATGTCGATTCGATCG
GGTCTGTAGTCACTCGGCTGGGGTTTACTTCTAGTATTATGCCGCAATGC
AGGAGGCTGCCGAGCGAACTTCGCTTGGGCGACGGCTCGTTTGACGGGGG
TGTAGTGCAGCCCTCGAGTGCTTCGTTTCGTGCCAGCGTTCGCCCATCTC
TACTCCCTGCGGCCAGCCGAACATGGAGTTAAATACTCGTATGCTGTTTC
TTGATGTAAGGTCGTTTTTCCTGGCACGCCTGCCCGCATTTCAATTTCAT
GTCTACTCTCACTACTGTGCCCCCATCTCCCCCTTCGTGTTGACCTCCAC
GCTGTTCCAAAGAGGTTCACAATTGGTCGGATTTTCCTCTCTCCAAAGAG
ATTCGCAATTCGGTCTGGTTAACCGCAAAGCGTGTGGAACGACCCACCGC
TCATACCGGGCTGGGCAGCCACAAGGGTCACGGTCGCATTTTGCACGCAC
GGCCTTGGCTTGGAATGGCCTCATTTCGTCGGAAGCTTTTTTTTATTCGT
CATCATCGCACCAAGGCGTCGGTCGACCTCTGACCTCACAAACCTGCCCC
CCCCCCCGCCAACCGGCTCCCGCTCCTCTGTGCCCCCGCGCGCGCGTCTT
GCGAACGCCATCTCGTTGTCCGCTCGCACCCCATCCCTCCCTCCCTCCCT
CCCTCCCCTCTCTCTCTCTCCAGCTTTGTCCAGGCGAGTGCCGGAGTGCC
CTACTGGGAGGCGATCGTGATGGTTTCGATCGCCACCAGGATAGCGGTGC
TTCCGGCCGTCACCACCTTTGTGAGTGAGGTTACCCTAAAGAGCGTTTTC
CTTTGTTGCCGGGGCTTAGACAGCACTGCGAAAAAAGCCAGTGGCAGACC
AAACGGTGCGGCATACGCATGTCAGAGGAGTTTACTCCGGTACATTGTCC
GGTTATTGTGACGTCTGTATACATAAATGCTACCTACATTAGATATCACA
GCAGTGTCATCTTGAAGAAGAGGTTGTCGGTCGTACATGGCTGAAAGAAA
GATGATACTTCTGTTTTCAGGCTGGTGCTGACTGCTTTGGTACGCAGGCG
CTTGTCGTGCGCGTGGAACCAAGAAGGCACAGAGTGGCCAGCTGTGCGAA
AAGCATCGTGGTAGTGTATGTGTCTACGCACAGGGAATCAAGAATCAACC
CGCGCTCACGCCTGTTTGTGGTTCTATCTTTTTTAAACGGACCGCTCTCG
TCGAAGGCCACGTACGAAGAAGAGAGAAAAAAACACTTTCCCATATACGG
TACGGTACTCAGCCGACTTTTTCCCGGTTAGCGACGTTCCACGGGATGGA
ACGGAACGGAAGTCCTCGCCGCGGGATATCAGCCTTGGGTTTGGCTCGTC
GGGATGGAAGGATTCGATTCAGAGCATGGGTTGATTACCGGGTTTGCCTC
AGCTTGTCCCCCCTCCCTTTCGCGTTGCTGGATTCTTGCCCATGGTTTCC
TGTTATTTGTGAGGGCCTTGCTGACCGGTACGGTGCTTCGTATTTTCCGG
GTTGCTCTGTTCTACATGAGGTCCTTTCTGACTGTCTCTTCGCACTTTCC
CCATGTTGTTTTCAGTCTGGAAGGGCGCAAACTTTAATCACAAGCTTCGA
AGTAAATGATCCTCGAAATAATTACAATTTTGCCGTGCCGTTTTTTTGCC
GACCCGTGAGCCCCGTCCTTGGCCGTCTTTCAGCGCGGCCTGTCCGAACG
TCTCGGGATGCACGAGCGCAGCCGATGCGTCCGTGCTGCCCTCTCTTTCC
CGCCGGAAACGTCCTCGACCCCCCTTCGTCTTTGTGCGCGCCGCCCCTCC
ACTCCGCTGGTTTCTCGTGCGATGATCGTGCCCACGCGCTGTTCGCCGGC
GTGTTTTCGCATTCGCAGCTGGGCATGTCCAAGCGCCTGAACATGGTGAA
GCCGCAGGTGGCCGTCCATCAAGAGAAGATTCAGGACATCAAAGCGAGGG
TGAGATATGAAACGAATGACCCCCCCCCCCCCCACACGACGCTTTCGTTT
TGCGGCGCGTTTTTTTGTGGTGCACCTGGTGTGGAAAGGCGACCCCCCGT
GCTATCTTTCACCATTCGCCGCCGCCGTTTCTGTTATGATATCGCACACC
CGTGTACCGCCGTGCACATTTTTCTTCCCAACTTTCTTCGTCCCGAGACT
TTTTTCTGACGTCGGCTTTGTCTGTGCTCGCCTTCGTGTTTTTTCGATGA
ATCGGCCAACAATCAATCTTTCACGCCCGCCTGGCAGATGGAGGCGAACC
CTGAGATAAAGGATGCGGCCATGCAGGAGATGATGCTCGTCTCGCAGGAG
ATCGGCACGCTGCTCAAGTCGAACAAGATTCACTTCCCCAAGATGTTTCT
GTCCATGTTCGCTCAGTTCCCGGTTTTCATCTCGCTCTTCCTCGCAACCA
GAGATGTGAGTGTTGACAGGGCGCTGCCGCACGCGCATTGTTGCGAAAAT
AAAGCACGTCGTATACAGGAAGTCCACGGATTAGCTGCGTCAAATGAGCA
TAGAATTCAGGTTGCCATCCACCGTTAAATATTTTAGCCTAAAACATTAA
ATTTCTGTTATCAGCTTGACTACTTTGAAGTACTTCGAAGCACCAGGTGT
GTGTTGTCGCTCAAGCGAAACCCGCGTGGTTTCCTCTAGGCGCTGAGCTC
GACACAATTTTGGGCGCGAGGACAGCAGTTTGTGCGAAATCACGCCCCCT
TCCTTGTGCTGCCTGTCCCTGAATGGTTGCCTGGGTTATCCACGGAAAAA
TCAAAAACCAAGAGTTGGCCTCTTCTTTGTTCTGCCCTGGTACGTACTTC
GCAGACCCTGTGTTGTCATCGAAGATGTTGTATGCGGCGTCCTGATTCGG
TTCGGTGGGGTGGTGATGAAGAAGCTGTCCACAGTCGAACGGCGTCGGCT
CATCTCCCAAAAATGGTGTCGATCGATCGTTGTCGTGATGCGTTGTCGTC
ATGTCGCGTTCCAAACTAGTTCGTGTTTGTGATCACTTGCCGTGTACCCC
AGGCGTCTGAGAGACGGCATTCCATGGTTGGTCGCAAGGTAAAAAATGCA
CTGTTTTTTTTTTGTTGAGTATTTGGTGCAAACCGTGCAGCAGATGGGTT
AACAAGGCAATGAGAGGCACTTGGAGCTCGGCCGGCTTGTCTTGGAAGTT
TAGTTTCGACCGCAGGATGTCGCCAATGCCCCGTATCGACGACCGGAAAC
AGCAACGATCGCCATATGATACAGTAGCAGCGAAGCTGTAGCTGTTGCAG
CATCTAGCTCCGCGCGAATGTCGGTCGTGATTTATCGGATGCTTTCGCCG
TGCTTCCTACGATATACGTGAGGGGTGTCTTTCCGTGTGATACGTCAAAC
GTGCCTATGGGAAACGAAACACCTCATGGAGACACGAACACAACACCAGT
GACTGTCTCTTTTTTGTAGTGTCCATCGTGTCGCATTAATATCATGGTAC
GCAGTTCTTTGCCCCTTCACGCCCGCCCCCTCCCCCCCCCAACCCCTTTT
TTTCCCACGCCGTCTCGTGCGCACCCGATCACTGCTGCTGCTGCTGCTGC
TGTGCAATCGACGTCCCGCGGGAAATACCGTCCCGTTTATGTACTCCGTA
CATGTGTATATATCCCAGATGGGGTCATACTTCCCCGGATACATGACCGG
CGGGATGGAATGGATGTCGAATCTGAGCGCGCCCGACCCCACCTGGACCC
TGCCTATACTGACCTCGGCGTCGATGATGGTACGTTCGTCACGGCGGTGC
ATGCGTCGGCTGTGCTGTTTGTACTGCTGCTGCTGCTGTTTCGCCTTGGT
GGCACGCGGGGGGGGCGGTCCGGCCCGGCCGCCGCGGTTGCTGTCTGTCT
TCTCAGGAAAGGAAGCGTTCGTGCGTACCTGATACGATACGGTACGATAC
GATACGAAAGAAGTTGCTGCCTGAAATGTGCAATGTAGAACTCCAACCAA
GAACGGACTGCTGGTTTGATGGAAGAAGACGACCGCACATATGATGGCAG
TACTGCTGTAGCGAACGATGTCAAAACGTTGATGTATACACGTTGAGAAG
CTTCTGTCGCAACTAATGTGCGTTTTGTGTTGTCGTCCCCATCTTTTGTC
GGACACCTCTCTATCGTACAACAATGGTGTGGACTAATCACGCGAAATTG
GGATACTCGAGAAGTTTGTTTCGTCATCGTGGGTAACGCGTCGAAGGAGC
TTTGGTTGCGGCTGGTGTGCGTATCGCGTATACCAACGCCCGACACGGTG
GCGGCGACGGTTCTTCTCGTGCCCTTGTTTCTGTGCGTGGCAAGATGCAG
ATGCAGGGGGTCGTCGAGAGCTCCGGAAGATCGGAATTGCCCGGCTGCGT
CCTCTCGTTCGTTTTTGCCTGCGACGGCAGGCAACACACGTCCGTGTGTG
TCATATGGCATGTGTCTCTTTTTTTCCTCCGTCGCTCTGATTTGCGTCCC
CCCCCCCTCTTTCTCTCTCTCTTTGTTTGTCCCTCTGTCTATATCTCTCT
CCCTCTTTCTTCAGACGGACCGGACTGGATCTCCAAATATGTTGTTCTGC
TTTTCAATCTCGAAAGCATGAAACGTCGGTGTATCCCCGTATGCTGCTGT
ACGTCCAACTCCTGTGAAAGCACCATCCATTCACGCTTTACCCCGTATCT
TCATTCATAGCCGTGCCCCCCCCCCCCCCCCCCCGGTGCGAACGAACGAC
AACCAACCGCGCTCCCCTCGACCCCCCCAGCTCTTGATGGAGCTGGGCTC
CGACATGCCTGTCGCTCAGGGGGGCGACAAGCCGCAGTTCAACCCGAAGA
ACGTCTTTCGAGCGATGGGCGTCATGTTCGTGCCCGTGGCCTTCACGATG
CCCGCCGGAGTGCTCATCTACTGGACGACCACGAACATCTTCGGCATACT
CCAGACGGCGGTGTTCGAGCTGCGGCCCGTGCAGCAGGCCCTGGGGTGGC
CGCTGCCGGAGGACATGCCGCAGGTCAAGCCCCAGCAGGCTCCCCGCGAG
GTGCGCGCGTGTGGTGTTTGGTATTTGGTGTTTTGCTCTGCCGGCGGATG
TTTTTGAGCCTGCTGCGCGGTTGGGACGCATCCACGTAGGGTAGTAGTAT
GAAAGAACACGAGACATGTATGTACCCCACCAAGTACGGTGCTTGTTTTT
TATTTCAGTCAGCTACTGCTGTACTGCTGTACTGCTGTACTGCTGTTTGC
CTTCTTTTTTTTTCACGAAATAACCAATGCAGCTGGTTTTGGTAAACCAG
ACTGAGAGCGGGAAAAAACAAGACTACGAGGAGGGGGGGGGGTAAACAAA
CATCGACCCCCCGAACCCCGCTGAAAACCACGGTCATGACAGCGGCGGAA
GGGGCGAAAAGAAGAGTGTTCGTGGAGCGGGAGGGGGGAAAGGCTTACCT
TCCTGTGTGGGGCCTTTCATGCCAGCGTGAGGATTTCAACTTTGCAACAC
ACACACACACACACACACACACACACACACACACACACACACACACACAC
ATCGAATCGAATTTTTGGTACAGCGATATACGGGTGTGAGTCCTGATTTG
GTTCATCGTGTGCACCGTTTTTTGCGGCACTGTTTTTATTTTTTTTGCTC
GCCTCGGCCTGAAACTCCCTCGTCCATCACTGATGACATCACCCGGACCG
GACCACTTGCGCCAACACCCGCCGATTGTGCTGGGCTGGCCTGTTCTTGG
TGTGATTGGTCTTTTTTTCTTCTTGCATGGTATTTCCTGTGTGTTGCAGG
AGCCGACGGACGCAGATTTTGCAAGCAAGGAGGACTTGGAGAGGTGGGCG
GGTGGCGGCGGCGGGGGCGGGGGGGATTCCAGCGAAGCATCGAGAGGGGC
GACGCAAGCCGCCGAGCGCGCGAGAGAAGCTGTCGCCAAAGCCTCAAAGG
TGGGCCGAAATCTGCGACAGGGTTCTCGATGGGGCTTGCTTTGAAAGTTC
AGGTGGACTGCGGCATGATTCGCGTCACACGGCTTGTTCCGCTTTCCACG
CTCCGCCGGTGGCCCTCTTTTGGCTTTCGTCGAAGGATTTTTCCTCATGT
TGTTGTTATTTCATGGGCCCATGTCCGTTAACGTTCGAACAAAAAATACG
AGATCGCAAAAAATTGAAACGAAATTTGTTTCAGATTGGTCGTATCGTAA
TCGAATAATCAAAAAAGGAAAGAGGCGTGTTTTCTTTTCTTTCTTCATGA
CCTTCCGCGAGGAGGCGTGTTTTTGTTTTTCTGCCCCCGATATAACGAAG
CATGTTGGATCTTTTTCTTTCTTTGCGAGAACGAAAACGAAACGAAATTA
AAATGGACAGCATGTTGGCGGAGACGTGTCAGCTCTGAGAGGCATCTCCG
GCTGACTTTATTGCACAGCAGACAAGTCCTCACGTTGGCTGGTACCTCGC
AGAAAAAATACAAGTATGGACCGAGACTCCGCACCAGCTGCGTCCCTAGA
GAGGTGGGCTTACGCATAGCGTCAGCAAGGAATGCCGAAGGTTCGGGGCA
GTGGGGTGTCCAGGCGGGACGGGAAATATGTCTTAAACCTACGCACAACG
ACCCACTCGTGCTCCGAGCTGAGCCGCTTTTGGGGTGAGCTTTTTGCAAG
CAGCCAAGTTCACGTGTTTTCCTGGCATCTCGACGAAACATGGACGAGGT
TCCTTCCCAACTGTGCTCCGCGACGGCATGCCAGCCCGCATACGCATGGA
TACCCGATCAATTTCGGGCTGTTTTTGAGTCACCCAGGGACTTCGACAAG
GATGTGTGCTGTCTCCGAAAACCGAAAACCCCGAGACGGTTTTCACGGTT
TTACGGGTCCCTACGAGTAGAGATGAGGTTTGGAGCCGGCGGGTGTCAAT
CAAGCGTGACGAGCAATAAGTTTGTCTATCGCTGATTCGGAACTTGTGTC
CCGTTGTTGTTGGTATGGCATTCCTCCGAACCTCGGCATTCTCTGGTGGA
GGAGCTCCGTCCTCGGTTTAACTTTTTCAAGGTTTGTTTTTTTGGAAGTT
TGGTTTTGTTTTTTTACAAAAACTCTTTGTGGTCCAAACACCAAAAAAAC
ACCCCAAACTTCAAGTGTACCACAAAATTTTGTGTGTAAAACGCCAAAAA
TTACCCCCCACATATATTGAACAGCTTTTTTGTGTTTTGACACGTTGAGG
GGTGCTTTTGGATTTTTTGACCACAAATAGTTGTGGTAAAAAAACAAAAA
AACAATTTCCAAAAAATTTAAGTCGAAAAGATTTAGCTGTGAATGGATAT
TTGCCTCTTGTGTCGGTGCGGTTGGTATGGAATCTCGGCGAGATTCGGGC
GAGATATCAGTGAAAACGCGAATGTTAGCGTAGCTTAAGAAGGCAACGCG
CATAGTGTTGCTCTCGCTCATCCCCTCTACCCCCTCTACCCTGGTATCAG
GTCTGTTGTGACCGCCTGAAAATAAAAGTACCTTGTTCGCTTACCGCTTG
TCCTTTGAATGCAACGGTTTCAATTTTGTCGCGGGACGTAACTTCGTTTG
TTTATTTTTTTTCGTCTTCCGCTAACTGGTATGTAGGACTCCCTGAAAAC
TCCAATATTTTCCAACATTTTCCAACATTTGGCCGCTGTATCTTGTGCGT
TCTTGCCGGCAATGAACTAGAGTCGATCAGCGGCGGCACCCCCAGACGGC
CCCATATTTATGTGGGACACACCACGTGACAACATCAATCGGTGCTCGGT
CCCCAGGACATCACTCTCGACAAACCTGTTTGGGCGTGTATGACGCGCTT
GTTTCGGCTGGCAACCCGCCCATTTTTCCCCGTGAGTTTCGGCTGGAGCA
CCAATCGAAAAACGCAGCCGGAAATTCAACCTCGGATCACTCCGCCACTG
GAAGCTCACGATAGACATGACTACAGTAACCCGCAACCGACCGACTCGGT
GTGCCCAAGCTCACAACACAGGAGCGTACGCCGCCCCATAAAGGTTTGGT
TGCGGTCGGTGTCCTGGGGGCCCAGCAGTGATTGATGTCACCACGTGCTG
TTTTTCCTGACGAGAAATGTCGAGCCATTTCGGGGGTCTCGCCGCTGATC
GAATCTACTCTGTTGTAGGTCATTTTCGGCAAAAAAGACAAGCCAGCCGC
TTTTTCAGTTGGTATTTGTTGGGGTTTCAAAAACTCTGAAAATAATTATG
CGGTGTTTTTGAAAGCCGTATTTTGTAAAGTGGGTAATCTGGAGCGCACT
GAAATTGATCTCGAGCTGACGAAAGTTACGCACACGAAAGCTATGAGCCG
GGAATGGTGGCGGTCAGGGCGAGCTAGATCAAAAAGAACGACTCCGACTT
CGACAACACTCACGTCGCAAGAGCCCGAATCGGAAAAGAACGCTTGCGAT
ACAGCAGTTGAAACAAATTACGCGGGTCTCTTTGACCTGGTGTCTGTACA
CGACTACATCAATGCGGACAACTCGTTGTAATCCAGCCGTGAAAGGAAGA
AGAAAATGCGGTTTAAGTGCTGTTTGGAGTGAAAGAAAAGACCCTGCGGT
GCAAACACTCCATCATTACGCACACTATCATGCCAACATTCAGCTACACG
ATCAGTCGACGGCCTGTCAAGCTAAACCTAAAACCTTGAAGGATGGGGCC
TCGATTCACCGCCCGGCTGGGCATTCGGTTGGCGGTTGGGTATTTCGATC
AACAGGGAGCCGCGTCGCGTAAGAGGCACAGTGTGAACTGACAATAAAAA
ATAACGGATGTACGTATCATATGAAGAAAATCCCGGGGGGGTATCATAGC
GTTGATAGAGTGCAATGAAACACACATACAATAAAAAAAGCTTTAAAGGG
TGGCAGCCATTGATACTCACACACTCGCTGCCACGCCCACGAACTACTTG
CTGTACTGCTTTCCTGCACAAAGAAATATCATCGACGTGGCATACTGTAG
TGCATACCCTTGAATAGCAGCATCAGCAGCACTTTGTTTGTTTTCGTTTG
AAAACCAAACTCCCTGCAGAGGCAGTAAGTAGATTACTCCGTTAAAAAAG
ATGGTCTCCTGCGTGTCGTCAGTAACGGGAAACAGTCCAAGTACGCGCCT
CAAAACGCAGCATCTGACGAAACAGCAGTCGATACACGTGTGCGCCTAAT
TTGTATGCTAGTCACCTGTCACGAGAGTTGCAGATTTTCGTCATGTACTT
CGAAGTATGTTTTGAGGCTACGATACACATCATGTGTGCTCCCAAAAACA
ATATGTTACGAGGCGAGTATCATGTACTTCGAAGTACAAGTATTCTCCCA
AAACCCGAAGTACGATTATTTTCGATTAGTGTTTTTTTTTTTTCAGGGAC
ACCGCAAAAGTGCACGACGTTTAAGGGGAAGGAAGGGTGCAGCGATTTTC
GCCGGTATCTCGTCACGAACCGCGGCTGACTGCTGTATCGATACTTACTG
TATCCGTACAGCAGTGGCAACGGACATTCCGTGTTGCAATATTTTGCTGA
TTCCTGATTTTGTTTGGGATACCACTATTTGTTTCATTTTTGTTTTACTT
TCCTGCTACATAGATAGCACGGTATGTGCCGGGTTGGTGACCGCGGGCTA
GACTCCGGGTGGTGAGCTGATGTGATAATCAACAACCAGTCCTCGCTACA
GTTTCTCCGTTGATCGGCTGCAGTAAATGCCACCGAACAAAAAATTCGGG
AAGCGGCGACCAAAAGAAGAGCGCGAAAAACGCACGACATCGATCTCTAA
TACTCGGGAGTACGAAGTAGCATACTCGCAAATTGCAACACGAATGGTTG
GAATGGGCACAACAGTTCGCGCCGTCGTCCCGTTGCAAGTGACGGTTGGT
TGCCCTCTGTGTCCGTACAGCAGTAGTTTTGTACCTGGTACAGGCCATAC
ACCCATACAGCAGTGCGTGGTGGTAGAAGCATCTGCGCCCATACAGCGGC
AGTACTGCGGTGGCGAATTGATGGGTTCCGAATCGCAGTTATGGCGATGG
ACGGGGTGCAAGCTTGTGATGGGGTTGGAATTCGTCGCCTTATCCCATTC
CATCGTACGTATTACCATCCCATGTGAACGCCACGCGGCAGATCGGCCCG
ATTTAATAACTTCGAAGTAGTTTGTAGCGGGTATGTGAACATATGTATGT
ACGATATGTATGATTGTATGTATGTATTTGTGTACGAGTAGCGGGATCCA
GTTCAACCATGGTATTACGATCCCAGATTGCCGAAGGCGTGCGGATCGTG
CCGCGCGCTTTTCCCTCAGCGTTTTTTCTTAGTTTTTAGGAACGCGAGGT
TCAATGTGATGCAGTTTATGCTTGCACGCACAAAGACCGGCTGGACAAGA
CGTCCACTGTGATTGGAGAGTTGCACTGTTCTGCGAAGGCATGAAGCAGT
ACGAAGAGTTTTTAAGCAGACATGGCGCACTCCAACTTCGCGCGAAGTGC
GCTACGTCCGCTTGAAAACTCTTCGGACTGCTTCATGCCTTCGCAAAGGG
TGCAACCCTCCAATCACAGTGGACGTGTTGTCCAGCCGGTCTCTGTGCGT
GCAAACATAAACTGCATCACAAAGAACCTTTCGTTACGCCCAAAAACTAA
GAAAAAACGCTGAGGGAAAAGCGCGCGGCACGACCCCACGCCTTCTGAAG
AGTTGCGGTGAAGCGAATGCCATAGACGTACGTACCTCTTTTTGGTTGTT
CCCCGCTCTATCTTGTTGTCCCTCGCAGGTTTTCTGTGGAAGACGAGAAA
TGCAACGATATTTTCATTTCTGTATTGCGCTCTTACTTCTTTCCGGCTGC
CGTTTCCTTTAGCTTCTGGTTCCTCTTCTCTCGTTCATCGGCAAGCCCGC
ATCGCTGCCGAAAACAAAACGGACAAGACATCGATTTTAGACCGTACCAT
GAAAAGGTAACGGTGAAGCGAATGCCATTGGCATACCTCTTTTTGGCTGT
TGCCCGCTCTGGCAGATGTCTTCAAATCAAACGATGTCGAAGAGATTCAG
AGATACGAGAGCTACGTTTGCCTCTTTTTGGATGCTGCTCGCTTGAGATT
CTCGTTCCTCTTCTTTCGTTCATCGGCAAGCGCAGCATCGCTGCCGAGAA
AAAAATAAGAACGAAGCATCAATTTGAGACCACGAAGATTAACCGTGAAG
TGAATGCCATAGACATACCTCTTTTTGGTTGTTGCCCGCTCTATCTTGTT
GTCCCTCCCAGGTTTGCTGTGGAAGAAAACAAATGTAACGATAGGTTCAT
TTCTGTGTTTGCACGATCTTAATTAAGTAGGTCGTATTGAAGCGGATGCC
ATAAACATACCTCTTTTCAGGTGCTGATTGTTTTAGCTTTTCGTTTCTCT
TCAATCGTCCTTCAGCAAGCTCAGCATCGCTGCGTAAGAAATTCATGGGC
AAAACATATTTTGTCAGTCCTAAAGAGTTACATCAATGAAGCAAATGTCA
CGAACATGCCTCATTGAAGCTGATACCAGCTCTAACTTTTGTTCCTGTGA
TGTTGTCTATCAGCGAGATAAATTTCGATGGATATTTTTCAATATTCTAT
CGCGACCATGAAGCGTGTGCCACAAACATACCTCTTATCGGCTGCTGCTT
GCTTTCTTCTTTCGTTCATCGGGAAAAAGATCAATTTCAGACCATGACGA
GTTTCGGTAAAGCGAATGCCATTGACATACCTTTTTTCGGCTGCTGCCCG
CTCTAGAGAAGCTGGTGCCTGCTCTAGCTTTCGTTCCTGTTATCTCGTCC
ATCACAGAGATGAAATTCGCTGCAGATCGTAACGGGCAAACCTGTTCTTG
AATCTTGTATCGCGACGGGAAGCAATGCCCCAAACATACCTTTTTTTGGC
TGCTGCCCGCCATAGAGAAGCTGACGCCTGCTCTAGTTTTCGTTCCTGTT
CTCTTGTCCATCACAGAGATGAAATTCGCTGCAGATCATGACTGGCAAAC
CTATTCTTTAATCTTGTATCGCGACGGGAAGCAATGCCCCGAACATACCT
CTTTTTGGCTACTGCTTTCTTTCGCTTTTCGTTCCTTTTCTTTCGTTCCC
CGGCAAGCGCAGCATCGCCGCCAAAAAATACGGGCAAAACACTATTTCAG
TCTTTGAAGAGCGTCCCTGAAGCAAATGCCATAATATTACCTCATCCTGG
CTGCTGCCTACTAGGATTATATATTTAAATATATCCTTCGCATATATATA
CGAATATACCAAGGATATGTTTGAACGTGGTGTAGTCTAGACTATACGTG
TACAAGTAGTCACCAGAGGAAATTGCGTGTAACACGTCTTAGTGTATGGC
ACAGATACTTATGTGCATAGACTAAAGGTCTACAATGTACATGTGAGACG
CATGATGAACTCAAACGTTTTGTTTCTGGCTGCGTCTATCTGCGTTTGTG
CTTTGACACGATAGTCTAACTGAAGTCACCTACCTTGTGGTTTGTGACCT
TCTCTGCCGTTCCGCCTGGTCGGCAATTCGCGCCGCTCGTTACCCAGCAC
GTGTGAGAGGCACAGCACTTGTGTCGTCACGAAGTATTGAGTTTCTACGA
CCACCAAGAGGCACAAGCCCAGCGCGTCGTCGGCGGCGGTTGTGTTGGCT
GCGAAAAAAAGGTCGCCTCTGACCTGGTTGCGAATTTGAACGTCCACCTA
ACGGCACCGGGTGCTGAGCATCGTCGACGTCTGTGGTTGCAGCCCCGAAC
TAAGGGTCGCCTTTGACTTGACCGATTTTGACGATTTCGAGGATTTCCGC
TTTTGGACTCACCGAAGTCTTCCGGGTTTGATGCCATCGCACACAGAGCG
ACCCAAATAAACACAACAACAGAGAGCGGTGGGCGTAACGCAAACGGCAT
GCCCAAGTAATCATCGCCGGCGGTGGCGGATGTGTTACAGGCACTGTTCC
ACGTGCGAACGTATAGATATCCTGCGGCGGGTAATTCAGACGCTGTTCTG
CAAGATCGCGCGCGCGGAGCGTTCTGGGTTCTGGGTTTGTCAACGTAGTC
GAGACGACATATGTTGGGCCGCATGGCAGACAACAGCTCATGACTTCATG
CCAAAAGAGCGTGTTCTACGGCAAAGAATAGCGAAATTATGATTCGTGGA
CCCCGAGATCATCATCATAGCTTCATTTTGATCCCACCTGCGTGTCACAT
GCTTCGGTGCTGGCTGAGAGGACACAATGCTCCATGCGGCGCAAATACAT
CTGTGTACGAGGCGAGAGGATGCGTTTGGCGAACGACAAGCGTCTGCATG
CAAACCCACGAACACACGTCAAATAAGCGGCAGCACCACGTAGCAGTGCA
TCGCATCCAAACCGTCGCGGAAAAAGACGGTCCCCGTGAGGTGGTCTATA
CTGTTGTAATCGTTCGCGTGTGTGCGTGTGTGTGTGGTGTGCCCCCAAAA
CCTGCGTCCAACCTGACGAGTCCCAAAAACAGACCTGCGTCCAACCTGGC
CAGTCGAACTCGGCCCAGGAAGCACCAACTGAGCTAAAACTTTCTGGAGG
CCTCTAAGATCGTCTTAGACGGGCGATGGGCTCGCCGGTTGCGTTGCGCG
GAATCGGCTCCCTTTTTTCGTGGTTTGGAGCTACCTCATGCACACATACA
TACATATATACATGCATGTATACATACATACATACATACATACATACATA
CATACATACATACATACATACATACATACATACATACATACATACATACA
TACATACATACATACATACATACATACATACATACATACATACATACATA
CATACATACATACATACATACATACATACATACATACATACATACATACA
TACATACATACATACATACATACATACATACATACATACATACATACATA
CATACATACATACATACATACATACATACATACATACATAGAAATGTTTT
ACCGTTTCGTAAGTACCAGTTAACACTAAGGAAAATGAGTGGAAGATTTG
GGTGAAAAACGTCTGCGAGGATCTTGAGGCACTTTTTAACATTTTTTTCG
AATCTTGATGCCTCCAGCACAACGAGTTTGGAACATGCACAAGCTAACGG
ATATGCTGCAGGTACCAAAATGTTAACCAGAAGGTGTTGAAATGCGCGAC
ATCCAGTGGTGTAATTGCATCACTATGAACCCAGCAGAGGTTCATTCTTG
CTCGTCCTTTCGACCGACGCCGGGCGGTTTCCTTAAACTTTTGTTTTGTT
TTTCACTCCTATGTTTTTCCGTTCGTTTTTTGCCCCGCAAGGCTCGACAA
GAGGAGCTCAGGCGAGAGCACGAGGAGCGAAGTGGTGGAGGGGGAGACCG
TCGCCAATAACCACTTTTGCCAGAACGAAAGCCAATAACCACTTTTGCTA
GAACGAAAAGATGCCGACTCGCGCGAGGCAGGCCGCTTTCGGCCACGGGT
TAGTCGCCGTTAGGGCGGGTTAGGCTTGGGTTATAGGGTCTGGAGGAACG
CCGCGACGAACGCAGCACCGTTCGTGATGTTTGTCTACTTCGAAGTACTA
GTTAGGTGTGCCATGGAGAGTCGACTCTGAGGCTAAACGTTGAAGAAAAA
TTCCTCCATTTCGTGGCAGAAGTGAAGGCTCTCGTGTCTACGTTGTATCA
TGTCGCGCTCCACTGGCAGATAATACCCTAACCTTACGACAGCGCAGACA
ATTTTCGCGGTTTTCAAACGATACTTGGTCGTCCCAGGTATTGTTTTTAT
CTCGAGAGAGGGAAAGTTTTCCGCGCTGTCCGAGATTTACGTAGCACTTG
CTGGACTATACCGGTACTTCTGTACCAGGGCACGAGAGGGAATGCAAAAG
GCGTTTTCACACTTTTGCTCCGGTACGCCACGTATCCACTGGTACTACCA
CGATCAGTTGAAGGTGATCAATTCTAAGTCGAACACCAATGCGGAGTGCG
GAGGGACGAGGCCCGGAAATCCTCGTGCCCCATACGCTGAAGCCGCCGGA
ATTGTGACCTTGGGAGCATGGCGAGCGAAAGCGAAGAATCACGTAAAGCG
GTCGAAAAGCGGCGCGAAGAGGAGAGTGTTGAGAGTCGTAGTTTGGAAGA
TGCAGGATACGAACAAGCCTCTGAGGACGGCCGTCCACGCGATCACGGCA
CGACTGCCGAATGAGTACCGAGGAGAGACCCGAAGGTCTCCTCTCAAAGG
GGACAAAGGAAGACTGGCTGACAGCACGTTCTCAATTTTTTACGTGACTT
CCTGCAACCGATGGGATGGGATGTTTGTAG
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Coding sequence (CDS) from alignment at P-littoralis_Contig697:109212..142791-

>mRNA_P-littoralis_Contig697.24.4 ID=mRNA_P-littoralis_Contig697.24.4|Name=mRNA_P-littoralis_Contig697.24.4|organism=Pylaiella littoralis U1_48|type=CDS|length=1596bp|location=Sequence derived from alignment at P-littoralis_Contig697:109212..142791- (Pylaiella littoralis U1_48)
ATGTTGAGGAGCGTAGATTTATTGAAGCAAAGCCGAAGGCTCGTGGGCCC
GGCATGCGGTAACGGTGCCGCGGCAGCCGCAGCCCGTGGACGCGGCAGCA
GCACCGGCAACAGGTTGGGTTCCACACCGCAGGGGCGGCGTTGTCAATCC
TTGCAAGTACCGGCCAGTCAGCAGCAGAGCAGGAACTACTGGAGAAGCAC
AAGCAGCAGCAGCAGGAGCAGCAGCGGCGTCGGAGGAAATGGTAGCGGAG
TGGTTGGACGGGGTCACGGTCTCTCATCCGGCTGGAGAGGGGCGGGAGCG
AGCGTGGGAGCTCGACGAGGCCTTGCGGGGCGGAGTGGCGGCAGCGGCAG
TGGAAGCGGCAGCGGCGAGGGTAAAGATGGCGTTGCCGAGTCAGGAGGAG
CAGCGGTTGACGGGGACAGCTGGACGCCGCCCCCGGACGCGTGGAGGCCT
GACGAGGCTCCACCAACAGACCCGCAAGATTTTTCCTCCACCATGTCAGG
TTTCGACCTCGGGGATGGCTTTTCGAACTCGTCTGCCGTGGCCGACGCCG
CGGCTGCGGCGCCGGATGTTGGGGCGGCGGTGACGGCCACGGGACTGTCA
GCGGCGGACCTCAGCACGTACCCGCACCACCTCTTCATGCAGGCTATCGA
CTTTGTCCAGGCGAGTGCCGGAGTGCCCTACTGGGAGGCGATCGTGATGG
TTTCGATCGCCACCAGGATAGCGGTGCTTCCGGCCGTCACCACCTTTCTG
GGCATGTCCAAGCGCCTGAACATGGTGAAGCCGCAGGTGGCCGTCCATCA
AGAGAAGATTCAGGACATCAAAGCGAGGATGGAGGCGAACCCTGAGATAA
AGGATGCGGCCATGCAGGAGATGATGCTCGTCTCGCAGGAGATCGGCACG
CTGCTCAAGTCGAACAAGATTCACTTCCCCAAGATGTTTCTGTCCATGTT
CGCTCAGTTCCCGGTTTTCATCTCGCTCTTCCTCGCAACCAGAGATATGG
GGTCATACTTCCCCGGATACATGACCGGCGGGATGGAATGGATGTCGAAT
CTGAGCGCGCCCGACCCCACCTGGACCCTGCCTATACTGACCTCGGCGTC
GATGATGCTCTTGATGGAGCTGGGCTCCGACATGCCTGTCGCTCAGGGGG
GCGACAAGCCGCAGTTCAACCCGAAGAACGTCTTTCGAGCGATGGGCGTC
ATGTTCGTGCCCGTGGCCTTCACGATGCCCGCCGGAGTGCTCATCTACTG
GACGACCACGAACATCTTCGGCATACTCCAGACGGCGGTGTTCGAGCTGC
GGCCCGTGCAGCAGGCCCTGGGGTGGCCGCTGCCGGAGGACATGCCGCAG
GTCAAGCCCCAGCAGGCTCCCCGCGAGGAGCCGACGGACGCAGATTTTGC
AAGCAAGGAGGACTTGGAGAGGTGGGCGGGTGGCGGCGGCGGGGGCGGGG
GGGATTCCAGCGAAGCATCGAGAGGGGCGACGCAAGCCGCCGAGCGCGCG
AGAGAAGCTGTCGCCAAAGCCTCAAAGGCTCGACAAGAGGAGCTCAGGCG
AGAGCACGAGGAGCGAAGTGGTGGAGGGGGAGACCGTCGCCAATAA
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