mRNA_P-littoralis_Contig1053.15.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig1053.15.1
Unique NamemRNA_P-littoralis_Contig1053.15.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: D7G9A2_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G9A2_ECTSI)

HSP 1 Score: 663 bits (1710), Expect = 1.370e-209
Identity = 308/498 (61.85%), Postives = 394/498 (79.12%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPSFEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTPYLA-DPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMMEFTWYQYVPAIILAFGNLCLNLSSL 3545
            +V+PCPP++ EKI+YH +GR  L++    SF   T GMWLFT+ +P FYWFGAP +FL+FY   HY  +A+WG+DF+PE H E++RA++E G  P +VDVFLPVC+E + LL NTW++V ALDYP F+V VLDDGA D+V  +A +FGF YV R++ P +KKAGNLR  FART GEAI IFDADFCPR DFLKET PY   DPTIGI+QTPQYFR+R+EQTW+E+GAG SQEFFYRMVQ+NQD+F+ +VCVGSCG+YRR+A+EP GG+AAI HSEDMYTGY MTE G+K+KY+PL LAMG CPDEP+SFFMQQYRWC GS +L+ +KGFW + +S   K+CFLNGLLYY AT++LLF+APLPI+LL++++A  VLWY+SGFALPS++   + +P+WSKQ YGM  HRV++IQ YAHL A+ D+L+G +A WVPSGG  SR  S  Y  SV +M+ W+  ++ LI GG +WRM   TWY +VPA++ A G   LN+S+L
Sbjct:  668 LVLPCPPSDEEKIIYHHSGRLGLITCAMISFAALTWGMWLFTMVTPAFYWFGAPAIFLIFYTACHYLGIAIWGRDFKPEVHTEVLRASQEKGYRP-SVDVFLPVCKEPLYLLANTWQHVAALDYPDFKVFVLDDGASDEVAALASKFGFEYVVREDAPALKKAGNLRNAFARTSGEAIAIFDADFCPRPDFLKETVPYFGEDPTIGIVQTPQYFRHRKEQTWIEQGAGVSQEFFYRMVQVNQDRFNAAVCVGSCGLYRRTALEPLGGMAAIEHSEDMYTGYKMTENGFKIKYVPLALAMGICPDEPQSFFMQQYRWCKGSTTLVKEKGFWTSGISKRQKLCFLNGLLYYFATSLLLFMAPLPIMLLVWVEADGVLWYHSGFALPSLIFAAIVLPLWSKQRYGMACHRVKIIQYYAHLYAVKDSLLGLSAPWVPSGG--SRLTSTRYKSSVRLMVVWSFVSSALIFGGCVWRMTMLTWYHFVPAMVFAVGTFALNMSTL 1162
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: A0A6H5K7X7_9PHAE (GT2 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K7X7_9PHAE)

HSP 1 Score: 639 bits (1647), Expect = 2.980e-199
Identity = 308/537 (57.36%), Postives = 394/537 (73.37%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPSFEVHVLDDGAKDDVRDMAEEFGFHY---------------------------------------VRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTPYLA-DPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMMEFTWYQYVPAIILAFGNLCLNLSSL 3545
            +V+PCPP++ EKI+YH +GR  L+     +F   T GMWLFT+ +P FYWFGAP +FL+FY   HY  VA+WG+DF+PE HAE++RA+EE G  P +VDVFLPVC+E + LL NTW++V ALDYP F+V VLDDGA D+V+ +A +FGF                                         V R++ P +KKAGNLR  FART GEAI IFDADFCPR+DFLKET PY   DPTIGI+QTPQYFR+R+EQTW+E+GAG SQEFFYRMVQ+NQD+F+ +VCVGSCG+YRR+A+EP GG+AAI HSEDMYTGY MTE G+K+KY+PL LAMG CP+EP+SFFMQQYRWC GS +L+ +KGFW + +S   K+CFLNGLLYY AT++LLF+APLPI+LL++++A  VLWY+SGFALPS++   + +P+WSKQ YGM  HRV++IQ YAHL A+ D+L+G +A WVPSGG  SR  S  Y  SV +M+ W+  ++ LI GG  WRM   TWY +VPA++ A G   LN+S+L
Sbjct:  731 LVLPCPPSDEEKIIYHHSGRLGLIMCAMIAFAALTWGMWLFTMVTPAFYWFGAPAIFLIFYTACHYLGVAIWGRDFKPEVHAEVLRASEEKGYRP-SVDVFLPVCKEPLHLLANTWQHVAALDYPDFKVFVLDDGASDEVKALASKFGFESRYVPSPIVTYFVLSRPPYRYCSMLLPDAATHCCRGIAEDVLREDAPALKKAGNLRNAFARTSGEAIAIFDADFCPRADFLKETVPYFGEDPTIGIVQTPQYFRHRKEQTWIEQGAGVSQEFFYRMVQVNQDRFNAAVCVGSCGLYRRTALEPLGGMAAIEHSEDMYTGYKMTENGFKIKYVPLALAMGICPNEPQSFFMQQYRWCKGSTTLVREKGFWTSGISKRQKLCFLNGLLYYFATSLLLFMAPLPIMLLVWVEADGVLWYHSGFALPSLIFAGIILPLWSKQRYGMACHRVKIIQYYAHLYAVKDSLLGLSAPWVPSGG--SRLTSARYKSSVRLMVFWSFVSSALIFGGCAWRMTMLTWYHFVPAMVFAVGTFALNMSTL 1264
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: D7FQH7_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FQH7_ECTSI)

HSP 1 Score: 616 bits (1588), Expect = 1.240e-196
Identity = 293/472 (62.08%), Postives = 373/472 (79.03%), Query Frame = 3 
Query: 1992 AVTVAKPLTYKTAEPAVI---------ENGIVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPSFEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTPYLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPY---GMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASR 3371
            AV +A P T + A+ AV+         E G+V+PC P++ EK+LYHK+GR  ++STG  SF     GM LFT+SSP+FYW+GAPT+F++ ++  HYF V++WG+DF+PE HA +VR   +    P TVDVFLPVC E   LL NTW +V A+DYP   VHVLDDGAKD+V+ +A E+GF Y+RRDNRPE+KKAGNLR+ FART GE IVIFDADFCPR DFL+ET PYL DP+IGI+QTPQ+FR REEQTWVE+GAGASQE FYR++Q+N D+F+ +VCVGSCG+YRR+AVEPFGGVA I HSEDMYTGY MTELGYKV+YLPLCLAMG CPDEPRSFFMQQYRWCMG+++L+  K FW++ +S IHK+CF NG+L+Y+ATA+ +F+ P+PI+LLI++KA  VLW+Y GF +P+++   V +P WSKQ      +   R++V+QSYAHL A+ D +MGT AAWVPSGGGAS+
Sbjct:  327 AVEIAAPSTAELAKAAVMPDTLVRQAAEQGLVLPCGPSDEEKVLYHKSGRLTMLSTGFVSFCTLLTGMSLFTMSSPHFYWYGAPTIFVVVHICCHYFGVSIWGRDFDPEIHACVVRHGLDVAFSP-TVDVFLPVCNEPAVLLANTWNHVLAMDYPHVTVHVLDDGAKDEVKALAGEYGFQYIRRDNRPELKKAGNLRHAFARTSGEVIVIFDADFCPRPDFLRETLPYLVDPSIGILQTPQFFRRREEQTWVEQGAGASQEHFYRLIQVNLDRFNAAVCVGSCGLYRRTAVEPFGGVAPIEHSEDMYTGYKMTELGYKVRYLPLCLAMGICPDEPRSFFMQQYRWCMGTSTLVLQKEFWQSEISKIHKLCFFNGMLFYLATALFVFLGPMPILLLIWMKADEVLWFYYGFTVPALIYSLVVVPTWSKQDSVFKALTAQRIKVLQSYAHLFAIKDRIMGTVAAWVPSGGGASK 797
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: D7FP53_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FP53_ECTSI)

HSP 1 Score: 620 bits (1598), Expect = 9.070e-193
Identity = 302/536 (56.34%), Postives = 386/536 (72.01%), Query Frame = 3 
Query: 2040 VIENGIVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPSFEVHVLDDGAKDDVRDMAEEFGFHY---------------------------------VRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTPYLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGAS-RSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMMEFTWYQYVPAIILAFGNLCLNLSSL 3545
            V+E G+V+PC P++ EK +YHKTGR FLV+ G  S    + GMWLFT ++P+FYWF APT F+M YL+  YF VA+WGKDF+PEDHA  +R A+   +  P+VD+FLPVCRE   LL NTWKYV ALDYP+  VHVLDDGAK++VR +AE  GF                                   +RR N PE+KKAGNLRY FART GE +VIFDADFCPR +FLKETTPY  D  + I+QTPQ+FRYREEQTWVEKGAG +QE FYRMVQ+N++KF  S+CVG+CGVYRR A+ PFGG AAI +SED++TG+   +LGYKVKY+P  +AMGTCPDEPR+FFMQQYRWCMGS +LLS++ FW++ L+   K+C+L+G+ YY ATA+ +F  PLP +LLI+ K  +VLW+   FA+PSIL   V M  W+KQPY     RV+VIQSY+HL AL D +M T   WVP+GGGAS RS S++Y+ SV +ML WT+  T+L +GG+ WR+ +F WY +VP I+L+  N  L++S+L
Sbjct:  680 VLEQGLVLPCAPSDEEKEIYHKTGRCFLVTAGVVSVGALSAGMWLFTFAAPFFYWFAAPTAFIMGYLLLSYFGVAVWGKDFDPEDHAARIRKAQHE-HYYPSVDIFLPVCREPTHLLDNTWKYVRALDYPNVTVHVLDDGAKEEVRQLAEMHGFQSSPFGATKAHREQPEWLAWWECERVALRRSRFTDIRRTNIPELKKAGNLRYAFARTSGEVLVIFDADFCPRPEFLKETTPYFKDRDVAILQTPQFFRYREEQTWVEKGAGVTQELFYRMVQVNRNKFDASICVGTCGVYRREALAPFGGTAAIGYSEDVHTGFNCIQLGYKVKYVPQVMAMGTCPDEPRAFFMQQYRWCMGSTTLLSNREFWQSTLTRKQKLCYLSGMFYYSATAITIFTGPLPGMLLIWFKPEAVLWFNISFAVPSILFGYVGMRFWAKQPYDFCCQRVKVIQSYSHLYALKDKIMNTTIPWVPTGGGASSRSSSQAYESSVKLMLVWTMMYTLLTVGGAAWRVTDFPWYHFVPTILLSILNFGLHISTL 1214
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: D7G9A6_ECTSI (Cellulose synthase (UDP-forming), family GT2 n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G9A6_ECTSI)

HSP 1 Score: 611 bits (1575), Expect = 1.760e-190
Identity = 311/590 (52.71%), Postives = 405/590 (68.64%), Query Frame = 3 
Query: 1779 GYCSSEGYDEASVSTPSAQVATNRGVLSEADVEEGGFRAVMVSAAVGSKDAGTRRAEPSSVVADATTTAAPAVTVAKPLTYKTAEPAVIENGIVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPSFEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTPYLA-DPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMMEFTWYQYVPAIILAFGNLCLNLSSL 3545
            G  +S   DE S +  S   A  R  + E D+EEGG R         +  AG       + VAD +T  A    VA       A  A  E   V+PC P + EK++Y  TGR  +++    SF+  T   W F I                          AMWG+DF+ ++HAE+++A+EE G  P +VDVFLPVC+E + LL NTWKYV ALDYP F+V VLDDGA D+V+ +A  FGF YV R N PE+KKAGNLR  FA T GEAI IFDADFCPR +FLKET PY   DPTIGI+QTPQ+FR R+EQTW+E+GAG SQEFFYRMVQMNQD+F+ +VCVGSCG+YRR+A+EP GG+AAI HSEDMYTGY MTE G+K+KYLPL LAMG CP+EP+S+FMQQYRWC GS++L+ +K FWK+ +S +HK+CFLNG+LYY+ATA+L+FVAP+PI+LL++++A  VLWY+SGF +PS++   + MP+WSKQ YG+   RV+V+Q YAHL A+ D  MGT A W+PSG G+++  + +Y  +V +M+ W +  T LI+GGS WRM   TWY ++PAI +A G+  LN+S+L
Sbjct:  576 GSTASTAADETSSAGTSPAAARARFEI-EGDIEEGGTRPASADGEAAAAAAG------GAAVADGSTGVA---AVADVEDIMLAAAATAEQEAVLPCAPTDEEKVIYRNTGRFGIITCAVISFITLT---WDFGI--------------------------AMWGRDFKLDEHAEVLKASEEKGYMP-SVDVFLPVCKEPLYLLANTWKYVAALDYPDFKVFVLDDGASDEVKALASVFGFEYVLRSNAPELKKAGNLRNAFAMTSGEAIAIFDADFCPRPEFLKETVPYFGEDPTIGIVQTPQFFRVRDEQTWIEQGAGVSQEFFYRMVQMNQDRFNAAVCVGSCGLYRRTALEPLGGMAAIEHSEDMYTGYKMTEHGFKIKYLPLALAMGICPEEPQSYFMQQYRWCKGSSTLIREKEFWKSGISNLHKLCFLNGMLYYMATALLIFVAPIPIMLLVWMEADGVLWYHSGFVMPSLIFAGIIMPLWSKQRYGLAAQRVKVLQCYAHLFAIKDTFMGTHAPWLPSGSGSAKKRNATYTAAVRLMIVWNLIITSLIVGGSAWRMTMLTWYHFLPAIAIASGSFVLNMSTL 1125
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: M3A7Q6_PSEFD (Glycosyltransferase family 2 protein (Fragment) n=1 Tax=Pseudocercospora fijiensis (strain CIRAD86) TaxID=383855 RepID=M3A7Q6_PSEFD)

HSP 1 Score: 459 bits (1182), Expect = 3.540e-142
Identity = 238/498 (47.79%), Postives = 335/498 (67.27%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPP--PTVDVFLPVCREDIALLRNTWKYVTALDYPS--FEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTP-YLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMME-FTWYQYVPAIILAFGNLCL 3530
            +++P  P + EK LY KT R  L + G  SFL  +VGMWLF IS   FYWFGA    L  YL+  Y  V++ GKD++   H +I+   E P +P   PTVD++LP C+E I +L NT+KYV  L YP+   +V+VLDDGA D+V+ MA+ +G++Y+ R++RP +KKAGNLR+ FART G+   IFDADFCPR DFL ET P +L+ P   I+QTPQ+FR    Q+WVE+GAGA QE FYR+VQ+N+++F  S+CVGS  VYRR+A+E  GG A I  SED++TG+   + G+KV+YLPLCLA G CPD PR+FF QQ RWCMGS +LL++  FW++ L+ I KIC+L+G++YY A ++ +F+ PLP IL+++ +   V +Y   FA+PSI+   +A+  WSK  YG  +  V VIQSYA+L+A+ D + G A AWVPSG   +    K  ++ +     W +T    +I G+ +++++   WY  +P I+L   NL L
Sbjct:   14 LILPSGPTDFEKTLYLKTNRLGLYTFGVFSFLSLSVGMWLFVISFAAFYWFGAVVFLLQIYLLISY-TVSICGKDYDISKHHKILE--EHPIDPLTCPTVDIYLPCCKEPIEVLENTYKYVKQLQYPAPKLKVYVLDDGASDEVKTMAQSYGYNYIVREDRPRLKKAGNLRWAFARTEGDFFTIFDADFCPRPDFLLETLPIHLSKPNTAIVQTPQFFRTSTNQSWVEQGAGAVQELFYRVVQVNRNRFGASICVGSNAVYRRAALEEVGGTAEIGFSEDVHTGFYAVDRGWKVRYLPLCLACGICPDTPRAFFSQQMRWCMGSTTLLTNLDFWRSGLTPIQKICYLSGMMYYSAISLSIFMNPLPGILMLWCRPQYVRYYNLAFAVPSIVYSIIAIRCWSKARYGFNVQFVMVIQSYAYLTAIKDRVFGRALAWVPSGDTKAHKNHKYRNMRILAW-GWMMTVMGAVIAGTTYQILKGLPWYDCLPLIVLDVFNLFL 507
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: N1PUK9_DOTSN (Glycosyltransferase family 2 protein (Fragment) n=1 Tax=Dothistroma septosporum (strain NZE10 / CBS 128990) TaxID=675120 RepID=N1PUK9_DOTSN)

HSP 1 Score: 458 bits (1179), Expect = 9.720e-142
Identity = 240/498 (48.19%), Postives = 332/498 (66.67%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPP--PTVDVFLPVCREDIALLRNTWKYVTALDYPS--FEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTP-YLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMME-FTWYQYVPAIILAFGNLCL 3530
            +++P  P + EK LY KT R  L S G  SFL  + GMWLF IS   FYWFGA   FL  YL   Y  V++ GKD++   H +I+   E P NP   P+VD++LP C+E I +L NT+KY+  L YP+   +V+VLDDGA D V+ +AE +G+ Y+ R++RP +KKAGNLR+ FART G+   IFDADFCPR DFL+E  P +LA P   I+QTPQ+FR   EQ+WVE+GAGA QE FYR+VQ+N+++F  S+CVGS  VYRR A+E  GG A I  SED++TG+     G+KV+YLPLCLA G CPD PR+FF QQ RWCMGS +LL++  FW++ L+ I KIC+L+G++YY A ++ +F+ P+P IL+++ +   V +Y   FA+PSIL   +A+  WSK  YG  +  V +IQSYA+L+A+ D L G A AWVPSG   +   +K  ++ + +   W I+    +I G+ +++M    WY  +P I+L   NL L
Sbjct:   15 LILPSGPTDFEKTLYLKTNRLGLYSFGVFSFLSLSAGMWLFVISFDAFYWFGAVVFFLQIYLFISY-TVSICGKDYDISKHRKILE--ENPINPLTCPSVDIYLPCCKEPIEVLENTYKYIQQLQYPAAKLKVYVLDDGASDAVKAVAEGYGYDYICREDRPRLKKAGNLRWAFARTGGDFFAIFDADFCPRPDFLQEIIPVHLAKPDTAIVQTPQFFRTSTEQSWVEQGAGAVQEVFYRVVQINRNRFGASICVGSNAVYRRVALEEVGGTAEIGFSEDVHTGFYAVNRGWKVRYLPLCLACGICPDTPRAFFSQQMRWCMGSTTLLTNMDFWRSKLNPIQKICYLSGMMYYSAISLSIFMNPIPGILMLWCRPHYVRYYNLAFAVPSILYSIIAIRCWSKARYGFNVQFVMIIQSYAYLTAIKDRLFGRALAWVPSGDSKAHKNNKYRNMRI-LGSCWMISVMGAVIAGTTYQIMRGLLWYDCLPLILLNCFNLFL 508
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: A0A8E2E4K1_9PEZI (Glycosyltransferase family 2 protein n=1 Tax=Lepidopterella palustris CBS 459.81 TaxID=1314670 RepID=A0A8E2E4K1_9PEZI)

HSP 1 Score: 459 bits (1180), Expect = 1.230e-141
Identity = 242/504 (48.02%), Postives = 337/504 (66.87%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRA-AEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPS--FEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTP-YLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSL--------WRMMEFTWYQYVPAIILAFGNLCL 3530
            I++P  P + EK  Y +T R  L   G  +FL  + GMWLFT+ +  F WFG   V L FYL+  YFV  + GKD++ + H +++++ A  P N P TVD+FLP C E + +L NT+K+V ALDYP+   +VHV+DDG +  V+++AE +GF+Y  RD+RP +KKAGNLR+ FART  E  VI+DADFCPR DFL E  P +LADP   IIQTPQ+FR  ++QTWVE+GAGA+QE FYR+VQ+N++++  S+CVGS  VYRR+A+E  GG A I  SED++TG+     G+K+KY+P+CLA G CPD PRSFF QQ RWCMGS +LLS+  FWK++LS I KIC++ G++YY A A+ +F++P+P ILL++ +     +Y   FA+PSIL   +    W+K  YG+ +  + VIQSYA+L+A+ D + G A  WVP+G   +   +K  ++ V   L W    T+LI+GG +        +R ME  WY  +P IIL   NL L
Sbjct:   33 IILPVCPTDEEKYCYLRTNRIPLYVLGIFAFLSLSAGMWLFTVCAYIFAWFGLFVVLLQFYLMVSYFVGVV-GKDYDYDSHKQVLQSHAVTPANAP-TVDIFLPCCMEPLVILENTYKHVRALDYPTGKLQVHVMDDGNQASVKELAERYGFNYSVRDDRPRLKKAGNLRWHFARTSAEFFVIYDADFCPRPDFLHELIPEHLADPKTAIIQTPQFFRVSDDQTWVEQGAGATQELFYRVVQVNRNRWGASICVGSNAVYRRAALEEVGGTAEIGFSEDVHTGFGAVNRGWKLKYIPICLATGVCPDTPRSFFSQQMRWCMGSTTLLSNPAFWKSDLSFIQKICYMCGMMYYSAVALSIFISPIPGILLLWFRPIYFKYYNLSFAVPSILYGLLLFYFWAKAKYGLNVQHIMVIQSYAYLTAIKDKIFGRALMWVPTGDAKAHKSNKYRNMRV---LCWC--WTLLILGGLVSAVIYRVGFRGME--WYNTLPLIILNVYNLYL 527
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: A0A2T3ARM2_AMORE (Glycosyltransferase family 2 protein n=1 Tax=Amorphotheca resinae ATCC 22711 TaxID=857342 RepID=A0A2T3ARM2_AMORE)

HSP 1 Score: 457 bits (1177), Expect = 2.050e-140
Identity = 231/496 (46.57%), Postives = 330/496 (66.53%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPS--FEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTP-YLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMM---EFTWYQYVPAIILAFGNL 3524
            +++P  PN+ EK  Y K  R FL   G  SFL  + GMWLF I+SP FYWFG     L  YLI  Y  + + GKD++ E H +I+          PTVD+FLP C+E + +L NT+KYV AL++P    +V+V+DDGA D+V+ +AE FGF+Y  RD+RP +KKAGNLR+TFAR++G+   IFDADFCPRSDFLKE  P +LAD    I+Q+PQ+FR  ++QTWVE+GAG  QE FYR+V++N++++  S+CVGS  VYRR+A+   GG A I  SED++TG+     G+KVKY+PLCLA G CPD P++FF QQ RWCMGS +LL++  FW++ LS++ K+C+++G++YY A ++ +F+ PLP ILL++++     +Y   FA+PSI    +A+  W+K  Y + +  + VIQSYA+L+A+ D L G A AWVPSG   S   +K  ++ + +   W  T   L+ G   +R +   +F  Y  VP ++L   NL
Sbjct:   86 LILPSGPNDEEKYSYLKMNRVFLYVIGVFSFLSLSAGMWLFVITSPAFYWFGFFVGLLEIYLIISY-TITIVGKDYDFEGHKKILEDHPITDENAPTVDIFLPCCKEPLEILANTYKYVKALEWPEGKIKVYVMDDGAMDEVKVLAESFGFNYSVRDDRPRLKKAGNLRWTFARSYGDFFAIFDADFCPRSDFLKELVPQHLADDKTAIVQSPQFFRVSDDQTWVEQGAGGIQELFYRVVEVNRNRWGASICVGSNAVYRRAALVEVGGTAEIGFSEDVHTGFYAVNRGWKVKYVPLCLACGVCPDTPQAFFSQQMRWCMGSTTLLTNPDFWRSKLSIVQKLCYMSGMMYYSAISLSIFINPLPGILLLWVRPEFFKYYNLAFAIPSIFYSLLALRFWAKASYSLNVQFIMVIQSYAYLTAIKDRLFGRALAWVPSGDNKSHRNTKYRNMRI-LAFCWIFTYLGLLAGALAYRSVTDSDFHVYNAVPLLVLDSMNL 579
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BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Match: A0A5J5F1X0_9PEZI (Nucleotide-diphospho-sugar transferase n=1 Tax=Sphaerosporella brunnea TaxID=1250544 RepID=A0A5J5F1X0_9PEZI)

HSP 1 Score: 462 bits (1190), Expect = 3.310e-140
Identity = 235/494 (47.57%), Postives = 328/494 (66.40%), Query Frame = 3 
Query: 2055 IVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFTISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPGNPPPTVDVFLPVCREDIALLRNTWKYVTALDYPS--FEVHVLDDGAKDDVRDMAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFLKETTP-YLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQDKFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYLPLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFLNGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAMPMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPSKSYDISVAVMLTWTITTTVLIIGGSLWRMME-FTWYQYVPAIILAFGNL 3524
            +++P  P + EK  Y  T RA L   G  SFL  + GMWLF ISS  FYWFG     L  YLI  Y +V + GKD++ E H + +          PTVD++LP C+E + +L NT+K++TAL YP    +V+VLDDGA D VR +AE +GF+Y+ RD+RP +KKAGNLR+ FART G+  VI+DADFCPRSDFL E  P  LA+P + I+QTPQ+FR ++EQTWVE+GAG+ QE FYR+VQ N+D++  S+CVGS  VYRR A+   GG A I  SED++TG+     G+++ Y+PLCLA G CPD PR+FF QQ RWCMGS +LL++  FW +NL +I KIC+L+G++YY ATA+ +F+ PLP ILL++ +   + +Y   FALPS+L   +A+ +W+K  Y + +  +  IQ YA+L+A+ D + GTA AWVPSG   +   +K  ++ +     W IT    +I G ++ ++  + WY +VP I L   NL
Sbjct:  246 LILPSAPTDEEKYCYLNTRRAPLYIFGVFSFLSLSAGMWLFAISSYIFYWFGFFVGLLQIYLIISY-IVGLCGKDYDIEKHKKALEDHPVIPETAPTVDIYLPCCKEPMEILENTYKHITALQYPEGKLKVYVLDDGAMDSVRQLAESYGFNYICRDDRPRLKKAGNLRWAFARTDGDFFVIYDADFCPRSDFLLELIPKMLANPKLAIVQTPQFFRTKDEQTWVEQGAGSVQELFYRIVQQNRDRWGASICVGSNAVYRREALVETGGTAEIGFSEDVHTGFYAVNRGWQLNYVPLCLACGICPDTPRAFFSQQMRWCMGSTTLLTNPDFWSSNLGIIQKICYLSGMMYYSATALGIFINPLPGILLMWFRPEFLKYYNLAFALPSLLYSLIAIRLWAKAKYSIHVQYIMAIQQYAYLTAIKDRIFGTALAWVPSGDTKAHKNNKYRNMRILAWC-WLITYDGFLISGIVYCILGGWAWYNFVPIICLNLFNL 737
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig1053.15.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7G9A2_ECTSI1.370e-20961.85Cellulose synthase (UDP-forming), family GT2 n=1 T... [more]
A0A6H5K7X7_9PHAE2.980e-19957.36GT2 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 Ta... [more]
D7FQH7_ECTSI1.240e-19662.08Cellulose synthase (UDP-forming), family GT2 n=2 T... [more]
D7FP53_ECTSI9.070e-19356.34Cellulose synthase (UDP-forming), family GT2 n=1 T... [more]
D7G9A6_ECTSI1.760e-19052.71Cellulose synthase (UDP-forming), family GT2 n=2 T... [more]
M3A7Q6_PSEFD3.540e-14247.79Glycosyltransferase family 2 protein (Fragment) n=... [more]
N1PUK9_DOTSN9.720e-14248.19Glycosyltransferase family 2 protein (Fragment) n=... [more]
A0A8E2E4K1_9PEZI1.230e-14148.02Glycosyltransferase family 2 protein n=1 Tax=Lepid... [more]
A0A2T3ARM2_AMORE2.050e-14046.57Glycosyltransferase family 2 protein n=1 Tax=Amorp... [more]
A0A5J5F1X0_9PEZI3.310e-14047.57Nucleotide-diphospho-sugar transferase n=1 Tax=Sph... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig1053contigP-littoralis_Contig1053:49400..70910 +
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.D7G9A2
PFAMsGlyco_tranf_2_3,Glyco_trans_2_3,Glycos_transf_2
Model size5274
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons13
Evalue7.27e-220
EggNOG OGs2C0MJ@1|root,2S2MV@2759|Eukaryota
DescriptionGlycosyl transferase family 21
Cds size2871
COG categoryM
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789388.1263752-UTR-P-littoralis_Contig1053:49399..500791680789388.1263752-UTR-P-littoralis_Contig1053:49399..50079Pylaiella littoralis U1_48UTRP-littoralis_Contig1053 49400..50079 +
1680789388.2668288-UTR-P-littoralis_Contig1053:69187..709101680789388.2668288-UTR-P-littoralis_Contig1053:69187..70910Pylaiella littoralis U1_48UTRP-littoralis_Contig1053 69188..70910 +


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

Feature NameUnique NameSpeciesTypePosition
1680789388.1375165-CDS-P-littoralis_Contig1053:50079..503041680789388.1375165-CDS-P-littoralis_Contig1053:50079..50304Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 50080..50304 +
1680789388.1472962-CDS-P-littoralis_Contig1053:56833..580181680789388.1472962-CDS-P-littoralis_Contig1053:56833..58018Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 56834..58018 +
1680789388.155485-CDS-P-littoralis_Contig1053:58354..585141680789388.155485-CDS-P-littoralis_Contig1053:58354..58514Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 58355..58514 +
1680789388.164086-CDS-P-littoralis_Contig1053:59368..596231680789388.164086-CDS-P-littoralis_Contig1053:59368..59623Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 59369..59623 +
1680789388.1824753-CDS-P-littoralis_Contig1053:61281..613931680789388.1824753-CDS-P-littoralis_Contig1053:61281..61393Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 61282..61393 +
1680789388.1926477-CDS-P-littoralis_Contig1053:62041..621921680789388.1926477-CDS-P-littoralis_Contig1053:62041..62192Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 62042..62192 +
1680789388.2026367-CDS-P-littoralis_Contig1053:63295..634451680789388.2026367-CDS-P-littoralis_Contig1053:63295..63445Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 63296..63445 +
1680789388.2131205-CDS-P-littoralis_Contig1053:63981..640581680789388.2131205-CDS-P-littoralis_Contig1053:63981..64058Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 63982..64058 +
1680789388.2216237-CDS-P-littoralis_Contig1053:64568..646861680789388.2216237-CDS-P-littoralis_Contig1053:64568..64686Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 64569..64686 +
1680789388.2302163-CDS-P-littoralis_Contig1053:65498..656741680789388.2302163-CDS-P-littoralis_Contig1053:65498..65674Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 65499..65674 +
1680789388.2389164-CDS-P-littoralis_Contig1053:66355..664361680789388.2389164-CDS-P-littoralis_Contig1053:66355..66436Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 66356..66436 +
1680789388.2485552-CDS-P-littoralis_Contig1053:67745..678381680789388.2485552-CDS-P-littoralis_Contig1053:67745..67838Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 67746..67838 +
1680789388.2588375-CDS-P-littoralis_Contig1053:69099..691871680789388.2588375-CDS-P-littoralis_Contig1053:69099..69187Pylaiella littoralis U1_48CDSP-littoralis_Contig1053 69100..69187 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig1053.15.1prot_P-littoralis_Contig1053.15.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig1053 50080..69187 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig1053.15.1

>prot_P-littoralis_Contig1053.15.1 ID=prot_P-littoralis_Contig1053.15.1|Name=mRNA_P-littoralis_Contig1053.15.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=957bp
MSMVHRLLEWEEGGLHQAKKLAAASSGGTSKAGAGLDKLTVPPSATDTVP
KWNEGNANSSANRPRSVGLSRSKSKAMYFSKHRSHRSMEEGPSLPETTTL
PVTFEDTSGFPGSTAASDPGVKMFVFPKQREARGDATNSHGPRRSTTASP
TEQPAPMSGSEDDLESATTPIQFWSPVPAERSTPPFEPASTVEIPGGNRR
PPPAAAPGSPSGSGGRANRMMSFFRRRSRSVQVAPEPPTSPEATREASAA
VGDVPPAVVVVAEGGEGEDAAPLDDPATPPTPLSMASIERSRSAVMSVAA
PLSRASVRSRSSMASPIHERPGDGDGDSSGGGGGGLPRAPFAGALDLLPP
TPPSVYGGGNNGSEYGGYCSSEGYDEASVSTPSAQVATNRGVLSEADVEE
GGFRAVMVSAAVGSKDAGTRRAEPSSVVADATTTAAPAVTVAKPLTYKTA
EPAVIENGIVMPCPPNEREKILYHKTGRAFLVSTGTSSFLVATVGMWLFT
ISSPYFYWFGAPTVFLMFYLIFHYFVVAMWGKDFEPEDHAEIVRAAEEPG
NPPPTVDVFLPVCREDIALLRNTWKYVTALDYPSFEVHVLDDGAKDDVRD
MAEEFGFHYVRRDNRPEMKKAGNLRYTFARTFGEAIVIFDADFCPRSDFL
KETTPYLADPTIGIIQTPQYFRYREEQTWVEKGAGASQEFFYRMVQMNQD
KFHGSVCVGSCGVYRRSAVEPFGGVAAISHSEDMYTGYMMTELGYKVKYL
PLCLAMGTCPDEPRSFFMQQYRWCMGSASLLSDKGFWKANLSVIHKICFL
NGLLYYIATAMLLFVAPLPIILLIYLKAASVLWYYSGFALPSILMVTVAM
PMWSKQPYGMPIHRVRVIQSYAHLSALMDNLMGTAAAWVPSGGGASRSPS
KSYDISVAVMLTWTITTTVLIIGGSLWRMMEFTWYQYVPAIILAFGNLCL
NLSSLR*
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mRNA from alignment at P-littoralis_Contig1053:49400..70910+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig1053.15.1 ID=mRNA_P-littoralis_Contig1053.15.1|Name=mRNA_P-littoralis_Contig1053.15.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=21511bp|location=Sequence derived from alignment at P-littoralis_Contig1053:49400..70910+ (Pylaiella littoralis U1_48)
CAGTCATTTGCGCTAGATTTGCGTGAGCAGTGGACCGTGGTGCAGCAAGT
GTCTGATTCGTTTGGCTCGATTTGCCACAGCAGTATCTAATCCCAGCTCA
AAATCCTTCACTGTGAGGAGTCATTTGCCGTGCTGTTGTTTGTTCCATTT
TACTTCCGCGCTTTGTTTCTTTTTGTTCGAAAATCGAAGGTTGTCCTTCG
CGTGCGTTAGCTTTTCGTCCAACTACTGCTGTGGTCTTTTTACGAAAAAT
ATTTGTAACCATATAGTGAGAGCTTCTTCTTCGTGTTCTGAGGATCCTCA
CACCTGGTGCACTTACTTGTTCAATGCCGACCCCATTCAGTTAATTCCTC
TCTGGTGTTGTTGTCGATTGATTGGACACGGCTCCACACGTGCGCATCAC
CCATCAACTCTCAGGGCAAATCACAGTAGTAACGTGGCCCACCCAAGATT
TTTCGTCGCTCACATTGACCGCGACGTTGAAAATCTGGGCAGAGTTAACT
AGCGACGCATGTTGTCATCTGCGTGCGATTTGATTTACGAGGGCACCTCT
CGCCTTGTCTCTTTTTGAATATTTTTGAAAATTCTTGATCGAGCAACAGG
ACCTGAGAGAGGGCTAGAAGTGTACGCCGAGACCCCACCGGTGTTGTCAT
ACACACGACAGCATCTACTGACCAGGAGATATGAGCATGGTTCACCGACT
CCTGGAATGGGAGGAAGGGGGGCTACATCAAGCGAAAAAGCTTGCAGCGG
CGAGCTCAGGCGGAACCAGTAAGGCTGGGGCGGGGCTGGATAAGCTGACT
GTCCCTCCATCAGCGACGGACACAGTCCCGAAGTGGAATGAGGGCAACGC
CAACAGCAGTGCGAATCGACCTCGGTCGGTTGGTCTGTCCCGGAGTAAAA
GCAAGGTGAGGGAAGGAGCTTTTTATGCTGCTGACTACTGTACGTTTTGG
AAACCTTACAGACAGTCCTGGTTGATTGCACGCAAGGGCACGGCGGTGTG
GAATCGAGTGCTGCTTTCCCGCCCTTGCACGATGGTTCATGAAGATCATC
TCTAGATGGACCCAATAAACCTTCATCTTCCACAACAGAGGATCATGTCA
TGTAATTCAAGAACTATAGGTGAATTTTTGAGGGCGTCAGTTGTCCAATC
ACGTGGGCAACAGACTGGTGCAGGACTGGTGGTCCAAATCGAAGTATCCT
CTCTCAAGAACCCGAAAGATGGCCAATCGGAGGGCATTGCAAGTGTTCGA
TATACTTGCACTTCATGTTTACTTTGAGGTTGGGAATGCCCCGGTGATCA
AGTTGTGTGGGTTGGCCTGCCACCGCGAGGACCCGTTGATGTGTCCAAAG
CTGCAACGAGCGTGCAATAAATGCCCTAGTCGATCCATCGACTATTGAGA
TTCATACCTTCCTCTCTTGCTGGTGATCTCCGCTGGGCTCATCGGCACTG
TCTCTTCTATCTGAAACGCTGGACTTTTTTTCTGTTCCTTGTTGTGTGTT
CGTCCTCTTCTCTTTCCGGGAGAGCTAAGGGACGCATGGATGATTCGTTT
CATCGCTTCTCTTAAAGCCCGACCCCTTCATTCGTAGAAGAACGCAGATT
TGCACGCAAGTGGTGCCGCCATTGCAGCGTTTGCACGGGATGTTACCCAA
CAGCACATCCTTTGTGTCGAGTATTGTAGTACGAGTATTGTTCGGTTGGA
CCTCAACCCTATCATACGGATTGAACGACTATGCACTGACGTATGATACT
TTCTCGAGCATCACCCAGCAGCACAGAAAGTTACCGCCACCATCCTTCAC
AGCGGTGTCACATGCATCGCTCGAAATTGACGCCACCGCTAGACGGGGTG
TGTTGTTCCGTTCTTTTCGGATTCTCCAATGTACAATAATGTCGGTCCAT
TGCTTTCGGCTGTGAGCAGAAAAAGGTTGCCGTTGAACCCAGCGATGTAG
ACATTTCTTGCGGAGCTACAGCAGTACACCGGTACTTTGTACACATCTAA
GTGTGAGAAGTGTCACACGATATGAGGTCACGCCGTAAAATATCATCAAC
AAGTGTTCCTTTGTATGGTACATTTCATATGTAATTTTTTTTAATAATAA
TACGCAAATGCACCCACACAGACACACTTGTAAGTACACAAGTAGTTCAT
GAGATGCTCTGTGTTCGTTGCTAGTCTCTCTGGTTTCTGATCTAGAGAGA
GGCGAACACATTGACTTCTGTCGTACGCGAGAAAAATGGAAAAATAATGT
TCTGTTACGAGGATGAGCGAAGTATTTACCGCCGTAACATCATGCTGCCT
TAATCCTCCTACCCCTAGGTAGCAGATGTCGCCATTTCGGGCCGCCATTT
GGTCATTGGTCACTTGGAAGATCACGTGACTCCCAATGGCTAAACTTTTG
CCTCGCTAACCGCTCAATTCTCAAACGCATTCTAGAAGCAAGAGAACGCG
TCGCCATTTTTTTGGCGACGCGTTCGCTTGCTTATGTGAGCTTTAGTTAA
AAAAATTGTTCCGTGATTTTTCACGGGGGGTGAAAGGGTTAAGAGCGAGG
AGGGTCAGATGGGGATCAGCAGTCTGTAGGCTCTTGCCCTTTTGAATGGA
CGACGGGGTGGAAAATCCACTTAGCGGGTGGCGTGATTCGGCAGTGATTC
GGCAGTAGACTTACCGTTGGCCTCTGGATTCAGGCGTTGCCGAGCCAAAC
GTTGCGGCACACATTATTTACCGAGACGTGTTGAGACATTTTTCACCTGC
TGTACGAGCACGGTCGGCCCAGAATGTTTTGCTCCTGAATCTTGGACCAC
TTGCCCAAATAACCAGCGAACTCGCCCCCCGTGATCCTGTTGAGAACGGA
GTATACCATACGAGACGACAGCACCAACAGGAATCGGCCCCTGAAAGGCA
CCGATCGCCATCAAACCGGCTGCAGCGTACCCTCCAGTTACACATCAGAT
GATAGAACTAACAAAACTCGGTCGGCTCGCCCTGGGGCACCGATCGCGAT
CAAACCTCTGTTCCAGTTTACACCCCAGCTTGTTCTTGAGGCTGGCCACC
GCAAGCGTTTGTGGTGTGGGCTTTGGCTGCAGGCGAGATTTTGGCTGCAA
TATGGGTCGCGTGGCACATGAAAATCCTTTAAGGGAAATATACTTTTTTT
ACCTTCATCGAGAGCATTTTTCTGCCGCAACCCACACCTTGGCAAATATG
TCGCCACAGCCGAAGCCCACACACAAACTGCCTGTGACCAACATAGAAAC
ACTGGAGCGCACGCCCCAGTAGGTCCGGTCTCAATTGTCCCCTCATCGCT
AGATCTGCGTCATGCTTTCTCCGTTTGGCCATTTGTCCGTTTTGCCGAAA
GTAGCCTTTTCAGCCGTTCGGGGTTTCCGGATTTTGGGGGGGGGGTATCG
TGCCTTTGAAAAAAAATTCACCGTGAACAAAAGCGAGCGCGAGCCGTGGG
AAACGGCCTCACATCATTAGGCCGGTTGGCTTGGATGGTAACCAGGGCGT
CGAAATGTGAACGTTCATGCGTCTATCCCAGTTTGATTTTTGGTCCGTTG
CTGTGGTACCCTCAACCAAGACTGCGTGCTGCTGTAGTATATGCATACAA
AACAGTACCAGATACCTCGGGGTAATATACAAGTACTTCCTTTTTTGTAA
GGCGATCACAGTTTAGTAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTC
CTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGTTTGCAGACTAGCG
TGCCAGAGAATATGGGATGACAACAACAACTCCGTATGTATTATATACCT
CTCTATATGTGTAGGACCTGCGTCGTCCCTCCCCTCCTGCTCGGATGCCC
GCTCGTCACTCGGTTCACACGCACGCACGAACGTTTTTTGGGTCGACCGA
TGTGCGCGTGTTGAAGCAGTTCGAGTCGTAGGAAGCGGAAGAAGCCGTGT
GCGCGTGGGCAACTCATACCTTCCCTCTTCTAACGCTTCGCGTGCTTCTA
CTACTATTGATCATATAGTTACTGGACCATCGTCCTGGTTTGCCTTTGCC
TTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACGACGTACTTCGAA
GTATTTGGTTATGGTTGAGATTTGTCTTGGTTATTTCGTGTTCGTTGTAC
TGCGTCCAATTTCTGTTTTTTCTTTCGAACCTGTTATTTTTTTCTGTATT
TTGTTGGGTACTTTGGCCACCACAGATGGTACCCCAACGGTACCATATAT
CCGATTTGACTTGGGTGATAATAGTCCATATACGAAGTATATAGACATAT
ATACTTTCATACTTGCGGGTCGCGCGCTCAGCCCTCGAGAGCTGTTTTTT
CGCGAATTCTCCGCGTGTGGGCCTCGTTTCGCCGCGAGCCTTGCGCCTGC
CGGTAGCCCGTAGTTGCGAGGGCCCTGCCCGTGCGTGCCTCGCGCTCGGG
ACGGCCGTGGCGCAGCGCTAGCGAGGGTAGAAAGTCGCGTCTCCGAGATC
TACTACGACTCCCCCAATCACAGCCCGTTTTATTACGAACGACCAGGCCA
TTCACGGCGAGGGTCTCCCCGTGCATCGGCGCTGCGCCGCTCAGTAGCTC
AGGCCCACCCCCAAAGCGCAGCAACCAAGTTTCCGCGTGACACGAGACAA
ACCACACTACTGCTGTAGTGAGTCTCCCTGTCGATTCCGACGAAAAACGG
GGGCGTTTGCGGCCAGTGTCGCGCGCTCAGCAGTCCAAAGTTTACATCCG
CCCGAAAAACAGAGCCCGATTTGCCGCCAATTAGTGGTGCCATAATGTAT
AAATCAATATTTTGCCTTCGGCGTATACCTCCGGTAGGATGACGGTGATA
TACCACCCCACGTGCTCTTTTTGGCCGGTTCGATTCGCACTACTCCAATT
TTTTTTCTCTTTTTTTTTTTATTGCGTGCGTGTATGTATGCTCTCGGTAT
CATACGAATTTCATCATTTATGTACGTGTATTCCAGCCGGGGTTCTTTTG
TTTCTTTCTTTTTCCCTATTATTATACCTAGCAAGCGTGTTTGGGGCCAT
GAATCCTTCGGGAACGAGTGATTGGAGATTCGACTGCTGTTTGTTGTTGC
TGCTGTCGTTGCCCTTGCTTGAGCCTACCCCAACTTATTATTATTTTTGT
GCGTGAACCCTATAGCACAGGGTATTCCGGTGAGTCCCTCGAATGTCTCT
GCATGTATGATACGATATGTGGGTACTGAGAGACAAAACGCCGAACACTC
CTGTTTCAAGGCTGCTGCTGTATGTACCGTTCGTTGTCAGCACCCCCCCG
AAACAACAAATATGTTTTCAGGGCTCAGGGCCTTCGTCTGTCTCTGCGGT
ATTATTCGTTTTAGAACAAGATCAGGTAGGATTGACGTGAAACGCCAGAC
AGACTGCTTTGTCTTTTTCGCTGGTTCGATTCGCACTACGAATACTCCAA
TTTTTTTTTAACTTGAACTTTTTTTTTCTCTCTTTTATGTTTGTATTTGC
GTGCATGTATGTATGCTCTCTGTACGAATATCAAATATCATCATCTATCT
ATGTAGGTGTCTTCCAGCCGGGGTTCTTTTGTTTCTTTCTTTTTCCCTAT
CATACCTTGCTCCTCTGCGATGTCAAGCGCGCTATCTGCTGATGTAAATA
TATACGGATTGAATTGCCCGTTGGAAGCAAGCAAGCGTGTTTGGAGCCAT
GAACCCTTCGGGAACGAGTGATTGGAGATTCGACTGCTTTTTGTTGTTGC
GGCTGCTGTCGTTGCCCTTGCTTAGCCTACCCCAACCTCTTATCATTTAT
GTGCGTGAACCCTGTAGCACAGGGTGTTCCGGTGAGTCCCTCGAGTGTCT
CTGCATGTATGACATGATATGATATGATATGTGGGTCCTGAGTGACAAAA
CGCCGAACACTCCTGTTTCAAGGCTGCTGCTGTACCGTTCGTTGTCAGCA
CCCCCCCGAAACAACAAATACGTTTTCAGGGCTCAGGGCCTTCGTCTGTC
TCTGCGGTATTATTCGTTTTAGAACAAGATACGGAGTACATTACATCGAG
GTCCGGCCTTTCTGCTTTCCAGTCAATCATAAAAGTACGAACAGCAGTGC
CAACCAAAAGAAAGCATAACGGCCAGGTTTGTTTACACATTGCACCACTT
GACATCGCATTCAGCCTACCGCGGAGCGGCGGACCGCCCCAGCGGGCCCG
CCGCGAAGCCCCTTGTATATATATATTTTTTCCTCCTAGCACGATATGTG
CCTGGTTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAG
AATCAACAACAACCGCAGCAGTGCTGCACAACACTGCTTCACTCCATGTC
ATACGTATGATACCCTGTTGTAGTCCTGCTGAATCGTTTCACGTGTGTAC
CGCATCAGCTGTGCCGTGTACTTCTACGGCAGTGCTGTTCTGTACTCCTG
CTGTATCCTGCATCATATGATCTCTTATTCTAGTCAATGTGCAGTAAGCT
TTGACGGATAGTGCTACTGTGTCATTTTTGACGTTCGCTTTCAAATTAAA
TCAAAACATACAGTCTGGTTCACACCACAAGAAACAAATGTTTTCAACAT
TGTTTGCTCACGCGGTTTTCTCGAGTTGAAGTCTGCAATTCGGCATGCAT
GTCCTGTGGCCTTCAGCCCAACTTTTTAAGACCAGAGTTTCTCGATTGTT
TTTTGTTCTTTGTTCTTTTAAGTATGTAGAATATTGGTATACTCTAAAGG
ATTTTTTGCCTGCATGGATCGCCTGGGCCCCTAAAAATCGGGTGAAAAAA
ACGAACCACTCCCGTCTTCCGAAGTTTCGGGGTGGCCCAACGAATGTGCG
TGCAAAGTTATTTTCAGGGTCAAGCTCGAAAAAACCGCGTGAGAAGACTC
ACTTAATTGGAGTTGTAAACCCCTAAATCTAGCCCTCTTCACTTGGGTGT
AGCACAAAATCGGTGCTTTGGGGGTACTTTTTTGGCTATTTCTAGCCAAC
CGTGACCTTCCTCAGTTTTCGTGGGATTTCGAAAACAAAAATCGTCAACA
CTTTCCTCGGAACCTAGAGAGACCACGCGTCTCCGAAAAAAGTACACACC
TCGAATTGATTTTATATTTTCTTCGTAGCATTTAGTGGTGAAAACCTGAC
TTCACAAAACTGAGAGGGGTGTTGTACAACGTTTTCCCGTGAAAACGACG
CGTTTTTTTATCCGCACGAGCCGTGGGATACAGCCTTACAGCATTAGGCC
AGTGTGGCTTTGATGGTAACCAGTGATGGGATGGCCTTTTGCTGTGTCGG
AGCCGAGCTTTTGTTGCACTCGGGACAGTCTGGTGACTAAAGTTGGGGTA
TTACGCGTGAACCAGCCTGTAGCAGGTAATCAACCTGTCTTCCATTCCCG
GCGCTTGTCCACCGTACTCAACCCGTGCGCTCAGGCGATGTATTTCTCGA
AACACCGATCACACCGGTCGATGGAGGAAGGCCCCTCCCTTCCGGAGACG
ACCACGCTCCCGGTTACATTCGAGGACACGTCGGGTTTCCCTGGCAGCAC
TGCCGCCTCCGACCCGGGCGTCAAGATGTTCGTGTTTCCGAAGCAGAGAG
AAGCACGAGGTGATGCGACGAACAGTCACGGCCCCCGCCGCTCCACCACC
GCCTCTCCGACAGAGCAGCCTGCGCCGATGTCCGGCAGCGAAGACGATCT
CGAGTCCGCCACGACGCCGATCCAGTTTTGGTCCCCCGTCCCGGCGGAGC
GCTCGACGCCGCCGTTTGAACCGGCGTCTACCGTTGAAATCCCGGGCGGT
AACCGTCGGCCCCCCCCTGCGGCCGCCCCAGGTAGCCCTAGCGGTAGCGG
TGGCAGGGCCAACCGGATGATGAGTTTCTTCCGCCGGCGGTCGAGATCGG
TGCAGGTCGCTCCAGAGCCTCCAACGAGTCCCGAGGCGACGCGCGAGGCG
AGCGCCGCTGTCGGCGACGTTCCCCCCGCAGTTGTGGTCGTTGCGGAGGG
TGGGGAGGGGGAAGATGCGGCGCCCCTCGACGACCCAGCAACCCCTCCAA
CCCCCTTGTCAATGGCGTCGATAGAACGATCTCGGTCGGCAGTGATGTCA
GTGGCAGCCCCTCTGTCGAGGGCGTCGGTACGATCTCGGTCGTCGATGGC
GAGCCCGATCCATGAGAGGCCAGGTGATGGCGATGGCGACAGCAGCGGCG
GCGGCGGCGGCGGGCTGCCGCGGGCGCCATTTGCCGGCGCCCTAGACCTG
CTGCCGCCCACGCCGCCTAGCGTTTACGGCGGCGGCAACAACGGCAGCGA
ATACGGCGGATATTGCAGCAGTGAGGGCTACGATGAAGCCTCGGTTTCCA
CCCCGTCGGCGCAGGTTGCCACCAACAGAGGTGTCTTATCGGAAGCCGAT
GTGGAGGAAGGAGGGTTTCGCGCGGTGATGGTGTCGGCTGCTGTGGGGAG
CAAGGATGCAGGGACGAGAAGAGCGGAGCCGTCGTCGGTGGTGGCGGACG
CGACGACGACGGCCGCACCCGCCGTCACCGTCGCCAAGCCGCTGACCTAC
AAAACGGCTGAGCCCGCGGTGATCGAGAACGGGATTGTGATGCCTTGCCC
ACCAAACGAGCGCGAGAAGGTGAGACGCAAGAGGCGGCGCTGGCGGTCGC
GGTAGGGTGGAACCTTGACGCGTTGCGTGACGTACAGCAGTACCGCAAAT
CTCGTTTTCCCGCGTGAGACTTGTTCGGCGCTTGACAAGCGGGATGTATC
ACGACAAGGAAGTTTCGAGAAGAAAGTAAAAGAAAGCTTCACGCTCTTTT
ACCGTCACGATGCTGTACAGTAGCTTGATCTTGTGAGAGCTCTAGGTTAC
GCACCTATTTTTACCCGCCGTTCGGTTTTGTCGTTAACCTTTGTCGTGCG
TACAACTCCTGCCGCTGCTGCTGCTGCTGCTGCCGCTGCAATCGCTGTGC
ATTAGATCTTGTACCATAAGACCGGCCGCGCCTTTTTGGTGAGCACCGGG
ACGTCATCCTTCCTGGTTGCGACGGTGGGAATGTGGCTCTTCACCATCTC
GTCCCCGTACTTTTATTGGTTCGGAGCGCCCACCGTTTTCCTCATGTTTT
ACCTGATTTTCCACTGTGAGTAAAGCCTAATTTTTTATCTCTCTTGCGAA
AAAAGTTGTCAGCAATAAGGACTCGAATTGAAGGCGGCATGTACTGAGCA
CAAATTGGAACGGTTTCGAACGTGTGTAGACATCACACACACGCACGCAT
GTGACTTGCGCTGGACATGAAGTTTTTTTTCTGTTCGTGCGCCGCTCGGG
GAGCTGCTTTCTTGTTTACTCCCGAGGATGTACCGCACTATCTTGCCGTC
TGCCTCGCCTCTGAGTGCATCTGAGTGCATGCAACACGTTCCTGACGGTC
CCCTCTCTGAAACAAAAAATTGCAAAGAATACGCGTGTCGTAAAATAGTT
CATTTCTGCTGCCGCTGCCCTGGACTTTTTGTACCCCCGCCCCACTCCTC
AATATTCCCCAGCTCGCGAGTGTAGGGACTCGAGCCCCCGCCCCTAGTTT
CTCTCCTGTTTGGCCAGCGACAATTCGAGAGTACGCTCCGTCTTTCGGCT
GGTGTAAAAAGGGATGCAAACAGCCAAGGACAACGTCATTTTATTTATTT
ATTTATTTCAGTTCATTTCTTGCCTTTCGAAACTTTTTTTCCGCATTTGC
TTTTATCTCAGCATGCCCTTGCTAGAGCATATGTTTCCTCGAGACCTCGA
GCCTCATACATACGTCATACATGTCATATGTAAAGTTTCATCAAAACAAT
TTCCCCGTGCGACGTCTTGAGCTTGCATGACTTGTCGAGCGGAACGCGCG
GCCATTCGACCCCCCCCCCCCAACGGCCGGCCGGCCCCATGCCCCCCCCA
CACACTTGATATAACCGAAATACGACACTCCTTGTGCTTTCTCGCTTCAC
TTCTTCCGCTTTCGAAAAGATTTCGTCGTGGCCATGTGGGGGAAAGACTT
CGAGCCGGAGGACCACGCGGAGATCGTCCGGGCGGCGGAGGAACCCGGGA
ACCCGCCGCCGACGGTTGACGTGTTCCTCCCCGTGTGCCGGGAGGACATC
GCGCTGCTGAGGAACACGTGGAAGTACGTGACCGCCCTGGACTACCCGAG
TTTCGAGGTGCACGTGCTCGACGACGGCGCTAAGGACGACGTCCGGGACA
TGGCGGAGGAGTTTGGGTTTCACTGTGAGTTTTGATGGGATGGGGAGCCC
GGGGCGAAACTCATTTTTTTGTTGTTGCTCTGCTTGCCTTAGGGTTCGTT
GGATGGACCAACCATTGTGACAACACACGCCATCCCTCTTGATGCAGATG
CGGTGGGGGGCAGAAGAGGGGAACTCATTTGTTGCGTCCCTTATAGTAGC
CATGTGACCATCGTGACGACGCTTGTGTACCTTTCGAGGCAGATATGTGG
GGGGGGGCGAGAAACGCCTCGGGCTGTGTGTCAggGGGGGGGGTCCGTAT
GTTGCGTTCCTCGCATAAATCGTATGACCATTGTGACCACGCTTGCTTGC
TTGCCTTTTTCTAGACGGAGCACCGAACCTACTGCTGGTAGAGTCACCAC
CAACCCGGGTGTACTTGAAAGGATTGCGGTCATTGATGACATGTGGCCAA
AATGTATCGCGAATAGTATCACATTCCATTGCCATGTTGTTTTTATTATC
ATTTTTCATATTCTGAACAGGGAGTTTTAGTTTTTGTTCGATACTTCTGG
GTAAGGCCCTGTGTTAACGAAAGTCGGAAAATCATTATTGAAATCGTTAT
CATACTATGATTTTCCGAAAAACCCTTCGAGCAATACTAACGGAAAGAGC
TGAAAAGGCTCTTTGAAGGCCTGCAAACGCCAGCAGAATGCAAACCTCTG
ACGATGACGACACGACGGGTAAAACAGAACAAAAAATATATTGCTGTACA
CAGTACTCCGTACAGCAGTACTTGGACGCATCATGTGCGTCCTCTCTCGC
ATGCAAGGCAAGGTCGTTGGCTCTGTGCACTAAGCCTTGATGCTGACAGA
CACCCCGTTTGTATACGTGTGCGGTGTGTGTATGTGTGTTGGCTCATGCA
CTCAAGACTGCTGCTGTGTGATGTGTCTGTCTGCCATGGGCTGTGAGAGG
CGACTTCGTGCTCGTGACCTGTGACCTGCCTGTCTGCGTCGTGTGTACTG
ATGGCGCGTTGTGCAAAATGAAATGTGGGTCGTCATCATATTATGCAAAC
TGGTGTGTTTGTTGTGCTGTCATGTGTGGTGCTAACGTTGGCTTGCCTGG
TGCAACGGCAAATCTCTATGCTATGATCTGTGGCACTGCTGTTGGTTGCC
TCGGTAGTATTTGGTCTGGCCAGCGTTGTGCGCGAGGCACATCGTTCACT
AAAAACCTTCGATCGGGTTAAGACCTCCAATAATGATTAATGATTTTCTT
CTTATGAAGTGTTTTTGGACTTCTTTGGTCTCGAAGGGTCTTTCGGAAAA
TCCTTGGCGTCGTCGGAAAGTAATAAAAGCTTGGCCAATCAGAGACCTCC
TATGATGATGATTCTTTCCAATAATGATTTTCCCACTATCGTTAATACAG
GGCCTAACTTCCGATGGCACGACGGAGGGAATGTGACTTTTCGGTCTTGT
TTTTTTTATATATTTTCGGCCAACCTCGCCTTTCACACCAAAGATCCGAA
AAAGTAATCCGCTCTTGATCGACGACCTGTATAATACGTACATCTCATAG
TTGCGGGAGCTACAGATGGCCGCCAGCTACAGCTTAACAGCCGCATCATG
GTGTGGTGGCATGCGGCGTACCTCCCCCCTCTTCCCGAATGACTGATCGA
TATCCTTTTCATCTCAACACCTGCTGATGCAGACGTTCGACGAGACAACC
GGCCCGAGATGAAGAAAGCGGGAAATTTGCGCTACACCTTCGCAAGGACC
TTCGGAGAGGCCATAGTCATCTTCGACGCCGACTTTTGCCCGAGGTCAGT
CAAGCACGAACGTTGAAGACAAGCAGAGAAAAAATGGAATGAATGCGTGC
TGAGGACAACCACGGTGGGAGAATTCCGTTTCAAGGATGTGAAATAATAC
TCTGCTGCGAACATAACTCTCGTTTAGCTGATGTTGTTCTTGGTGAAGGA
AGTCAGTGTCTGCTGCTGTTATTACACAACAAAGTCGGGAAATAGTGACG
GCAGTGTGGCGAAAACAAATGTTTCTTTGAGAGGCTTACTTGAGGGCACG
CCTTGCTGAGAACCCCCCCCATGTCATCATGTCGTGCCGTACTTTCGACG
AACAGCTCCCTGACGAATGTTTGGGTTTCCTTGGCTCTCATCTTGCTCAC
CTGAAACACATCGTGACGTTTCGCCGAGTACATACTTTTGCCTTTTCTGC
GACCCCGAAAAACATCGAGTCATCTTAAATTAGCGCTGCCTGGTGCGTGT
CTGCTCCAGATGACAGAGCTTGTGGTGAATCTTTAGGCACAAAGTGTTGC
TTCGAACATTACTGCTATCATACACTAGATGCGTTTGCTTCAGACCCGAG
TGCTATGAAGCCGATTGTCAGGCACCACGGATACCCCTTTACGGCCTGTA
CCGCGGTACTCCTCTCCCTCTCCCTCCCCTCGCGCCACACAGGTCCGACT
TCCTGAAGGAGACCACGCCATACCTGGCGGATCCCACGATCGGCATCATA
CAAACCCCGCAGTACTTCCGCTACCGAGAGGAGCAGACGTGGGTGGAGAA
AGGGGCGGGGGCCAGCCAGGAGTTCTTCTACCGCATGGTTCAGGTGAGAG
AGCGAGCGAACCCGGGGCAGTCCAACGCAACCTGCCTTGAAAAGCATTCG
GCGAACCGCACAACAAGGAGGTATCGCATCACCCGCGCGTGTGCTTATTA
TGGGTGCACGAGGAAGGATCTCGGGAGAGGTGGAAGGGGTGCGTCCCGCT
CCCGATGATGATGGATGCGCTTTTTTTAGCTGTGACACGTGTGTATCATG
ACTCAATGACACGTTGTTGTTGTTGTTGTTGTTGGTTCTCACATTGGCTC
ACTACCCCCGCAGTCTAGCCCGTGGTCAAAAACCAGGAAAATATCGTTTT
ATGTAGGAGAAACATGAAAAAAAAATAAGAAAATGTGTTATTGCGTATAT
TCCGTGGAGGATTTTTTTTTTTGTGTGTGTACAGTGTTCCGCTTTGTGCG
ATGGGGGCCGGGTTTCATCTCCAAGGTTTTTTGTTCCTCTTTCATCTACC
ACCATGCTCGAGAATATCCTAATGACACTCGAGGAACTCCACCTTGTGCC
CAATCTCCACCATCATGCTATAGTGTCTCTTAACGTAAGACTACTCTTAT
GTAAGACTAAGACAGAAGAGCGCACGTTAAGGAGCGACGTCGGGACAGCG
TGTGGCGATACAAATCGATGGCAGGTCTCGCCGGTGGCTTTTTGTGGCGT
TTGGTTGGAGCACCTGTCTTCGTCCAGCAGCGGAGCACTCAAACAATCGT
TGGGCTGGGGGGGTACAGAGGGTAGGTGGGCGGCGGGGGGTTAAATCTTG
ATGGCCCCACGAATCGAGCAGCTTTCCCTCGCTTCCAGGAAGGCGCATAT
TCATCTAGGAGTGGCCCTACCCACCATCACTTAGGAGGCGGTATGGCACA
CCTGTCATACTGCACAACAAGAAACGGCAGAAACCGCCGTGCCGCGTGAA
CCGACAGTCATCGGGGTGCACTGTCTTACCTTTCAACGCCGTAATCGCTA
CCCTTCCTCCTCCCCCCTCCCCCGCCCCCCGCCGCCGCCCCGCTGCCACC
ACCACCTCCACCGCCGGCGTTTCTTTGTCTTGATCACGCGGGCACATGCA
TACATACAAACATACACGGCGCGTGCGCTGCCGCCGCCGCTATCAGATGA
ACCAAGACAAGTTTCACGGCTCGGTGTGCGTGGGTTCGTGCGGCGTGTAT
CGGCGGTCGGCCGTGGAACCGTTCGGGGGAGTGGCCGCCATCAGCCACTC
CGAGGACATGTACACGGGCTACATGATGACAGAGCTCGGCTACAAGGTTT
GTAACACGTAGGACATCGTCACGGCCATCATGATCATCATGTAGCTGCGT
GGGTATGTCTCCTTTTTGGTTTCGTTTCGTTTTCTTTTTTTCTCTCTTTT
GTCTGGTTGCGCACCGGGTGCTTGATGCTCATCCTCCCTCCTTTCAGGAA
GTAGACATCAATACCTCGACACGGATCCGTTCGCCCTGCTCGTCGTGCGC
CCACATGACGACAAGGACCTGGCCTTTTATCTTTTTTTTTTCTGAACAGA
ATGCTACTTTAATTCGACTCCACTTATGCTCATCATGCTCGGAAAACAGG
CGAATTTTGCCCGTTTCCTGCGATCACAACAGTTCGCAATTATATTGCTG
TACGCTTCGTATTAAAAGAGAGGGCCGTCTATGCTGAAAGGAAAGCCAGG
ATAAAGTTCAGGCCCTGACGATTTATCCATGATACCTTGCGGTTTGTGTT
GGGGGTCACTGCTGTGATGGGCACAACTTTTTGCATCTTTCTTTGATTCC
CGCCCTCCCCCGTCCTTGGCTTCCGCTATCAGGTCAAGTACCTGCCGCTT
TGTCTGGCCATGGGCACGTGCCCCGATGAACCTCGCAGCTTCTTCATGCA
GCAGTACCGGTGAGGGACGACACGAGAAGCCGGGGTTGTTGTTGTTGCTG
GTGGTGGTGGTGGTGCTAATGCTTTGTTTTGCGTTGTGTTACTGATGTGT
TGATGTTGACTCCTGGACGCTGTATGTATGACACTGATTCCTCTCTCTTG
TAAAAAGCTGAACACCCGCGCTGACCAGTACCCGGCACCTCCCACATTTC
ACGCACGGATCGAAGACGCACCGACGGCGTTGACACCGTCGATCGCGCTT
TGTAGTGCATGCACGTGCAAATTTCCTGCCATGGGAATGGCCGAGGCACT
TATTCCGTACTCTGTTGTTTCGTTCCTTGGCCTGCGCGGTCAACCCGACT
TACCCAAACGTCGTGTTCCTCGTTATCCACTTATTTTCCATACAACCAAT
TGATTGGCCAATCGGATCGTATGTTTGGATGGTGCCCTTCGTTTGTTTTT
TCTCATCCGGTCAACCAATTGACCAATCGGATGGTCGGGTGATGCGCGCA
CCATCGTATTTCTCATCAGCTGGTGCATGGGCAGCGCCAGCCTGCTTTCC
GACAAGGGCTTCTGGAAGGCCAACTTGTCCGTCATCCACAAGATCTGCTT
CCTCAACGGACTGCTCTACTACATCGCCACGGCAATGGTGAGAGAGGAGC
TCGCATCGAAAATTCTCCGGTATTTTTGGCTTGTTCCGGATTTCGTGAAA
TCTAAAAAGTACGTGCAAAAGATTTGAAAGACAACTAACGTTGAACGGAC
ATTTTTAAATAAAATAAAAAATGGCCGGACACAGTAGTGCTGTTCAAGAC
ACGATTTTTTTTTATGGAGGCCGCTTGCTGTTTTATCTCTCTCCTTGACC
CCGATGTTTCTGCTTCCTGTGCTTAAAGGGGTGTCCTTGAGCTATTTGGT
ATTTTTATTGCATCCTTGACGTTGATTACTTTCCGACCGGCACGGTTGAC
TAGGTACCCTCGTGTCTATCGTGTATCTGTTGTGGGTGCCAAGGGGAACC
AAGGGAGGGCGTATTCGCAGGCGAGGGTTATGAAAGTGTGTGGGACGGGA
CGGAAGGGGGGGggcGGGGGCTGAACCCTTCGCGGCATTGCTTTTCGTGT
TTCGCATACTGTGTAGTGAACACTGCGCCCCAGCGGTCGCCAGGCTGGAG
AAACGAGGCAAACGAAAACCCAGATGAGCGAAATGCTTgGGGGGGGGGGG
TACGCGGCTGATATTTGCCCTTCCTCCCGCAATGATGTGGTCAACAGAAT
GAAGCACGTGGTGAACGTATGCATACGTCTGACGTTTCGGTTTTGTTTGT
CGCTAAATCTGGCCGCGTACCCGTCTCTGCCCTACCACCTGTGCGAGCTC
GTCCGTCCATTTTTCTGATGTCTGCTACCCGTTGTTACCCCCCCCGCGCG
CTGGCTGTGACGGCATCCGCGGCACGGCTCGCATTTCCTCCTCTCGCAGC
TGCTCTTCGTCGCACCTCTCCCCATCATCCTGCTCATCTACCTGAAGGCC
GCCTCGGTGCTCTGGTACTACAGCGGCTTCGCCTTGCCCTCGATACTGAT
GGTGACCGTGGCCATGCCGATGTGGTCCAAGCAACCCTACGGAATGCCTA
TTCACAGGGTTCGGGTCATTCAAAGGTGACTTGTCGTTGTTGTAGCCGCC
CGACATCGTTTCTGCGGTGCCCGTCTTGCAGGCTTCAACCCGTTCCGACC
CCCGCCCAGGCACTCTCTCAAATCGAGCTCCTTGTCGAATCTGACTCTAC
GTCCAGAGATGGGGGACTAACAAGCGTGCGTGACTTTTCACTCTCACAAG
GTGTCATTTTTTGTTTGTTTCTCAAAGCTTGCCTTGGGTAGGCCGCGGTG
TCAGCACGGGATAACATGTGCCCCGTTCAATGTATGTGGAGGCTCTAGTT
GCTGTTTGTGCTGGCGAACGTCGTTTCGTGTATAGTTTTGAACGACCCCA
CGGGTGCTTTACACTGTCGGCCCCCCCTCCCGTGGCTGGCTATCTAGTCA
AGTGTAAGGGTATGTGTTTCGATACAGCAGTGTCGCCCGCCCCTCTTGTC
GAATGGAACCGTGAGGATTTTTACCGTTGGGCCGTTGCTGGTCAAGTGCG
AGCCCACGCATCTCGACACAGCAGACGTGTCTGTCAACCCCCACGTGTCA
CACGGAGTTTTTTCTGCCGTTGTTAGTCTTGTGGGAACATGCCGATGTAC
CTGGTACTTGTAGCGTGGATGTCTCCTCCATTACACCGCTCTCGGTGGAC
TCCCGAGACCGCCTTCCCTCTTTTCTCACTTTTTTTTCACTCTGCTTGTT
CTGCAGCTACGCCCACCTTTCCGCGCTGATGGATAACCTCATGGGGACGG
CGGCGGCTTGGGTTCCGTCGGGCGGAGGAGCGTCAAGGTGCGTGTGTGTT
ACTGTGTATCTGTGTTGTTTTTAGGTGCGTGTGTGTGAGTGTTAGAGAGA
GTGTGTGTAGGTGTGTGATTGTGCCTGCGTTGTCCCGAGATTTTATAACG
GTGCCAACCTCTGCCCAATATACCTTCTCAAGAGTGGAACTACTGCCGCT
GTTGGTTCCACTGATGAAGGGGCGCTTTTGGTTGTCGCAAGCGTATCGTA
CGTACCATTATACAGCACCAACAAAGAGAAAAAACGGAAGACGAATCAAA
GAGGGGCGGCTTCCGAGTAAGATTATTTTGCTATTTTTCTGCGTTCCGGA
AAACCATACTTCTGAGAAGTAAAACAGTAGCGCTCCCTCTCCGTGCACAT
ACTCGGCATATTAGAAGTATCACGCGTTCTACCCTCTCCGGCGTGAAAGA
CAAAGGAAATGGCCACCGCGCTGTTGGTTGTCGGAGTGTTCACTCTGTGG
TCTTGAAACCCAGCGTTTGTAGCTGGCACGAGATACCGTACCCATTGGAC
CGATCTCTACATGTTTTCAGGTCGTTTTCTCTGTCACGAATAGGTTGCCA
GCGCTGAACGATACGATGCGATATGATGCGATATTTTCGAAGAGCTCCCG
ACGTCTTTTAGCCGTTATTTATCTTCAAGCACTCACAATTGTGTCTAGTT
GCGAGGTGTGTAGTCGAGCTTTTGAGAATCAGGCCAGGGGGGGGGGGGTG
TGGCATCATGTTTCACTGACGATATTATAGACGAGATCATTCCGCCGGTG
CTACAAGTATGATTGCTCAAGTCACAAAAGCGAACGCCTCCGAGACTGGT
GATGGAGTGAAATCATGGCCGGCCTTAACCCTATTTACTCCTCGGTAGCC
AAATGTCGCCATTTTGTTATCCTTCACGTGAAATTTTCACGCGACGCCCG
ATAGCTAAACTTTCACTTCGCTAACCGCTCAATTCCCAGACGCATTCTTG
AAGCTGGTGAATGCGTCGCCATTTTTTTCGCGACGCGTTCACTTGCTTTT
ATTGAGCTACCGTTGAAAAAAATAAAAAAATGACTTCCACGATTTTCTAC
AGTGGGGAAAAAGGGGTGAGCCCCCCCCCCCCGCTCGCGCGACCAGAATG
GTTGCCGAACGATGCCATCCGGAGCGCTCTGGTTGGCTGGCCCTCCCTGA
ACATCAGTCGACATTCGCCACTTGCATTCTCTAATTTGCGTGTATCATGT
GCGTGCTTGACGAAAGTGCCTTCTCATGCATGCGAATAGGTACACAATTA
ATTTTGTCGTCGTCTTTCGCATGCCGGCTTTCGCGCGCACGAGCAGGTCA
CCCTCCAAGTCCTACGACATCTCTGTCGCGGTTATGCTTACCTGGACCAT
CACCACGACTGTATTGATCATCGGAGGCTCTCTTTGGAGGTGCGCTGTCC
CTTACGATTAGTGGTTGCTGTTGTTGCTGTTCGTCTGTTTCACATGTCGA
ATCAATTCGCGGGGAGACAGGTAGCCGTATCCTCCAAACACGACTTTACG
TCATGGATGCCGTTTGGCGGCCCAACGTTTTTTTTTTCTTCAATTTTGTT
GCCGTTCGGTACGGGTGCTTGTTCAAGTTGCGCAATTTTTTTAAGTAGAT
GAGAGCAGGTTATGTCGGCCGAAGCTCCGTCGCTGCAGTCTCCACGGCTC
CTCACATTTACGCCGAAACTCGAAGCGACCCATGGCGGGTTCCGAGCTAA
AGCCGAATTGCCTCTCCGGGCACGAAAAAAGCAAATTTAAAAAAAACGAC
TCCGGGAATCGTTCTGGAACGCCTAAAAATGATGTTTAAAAATAAGTCCC
GAAAAAAAAAATCCCCTTCGGCTCGAATTTTTTTTTTCGCCGCCTTCCCG
ACCTTTTTTTTTTCGGACATCGCGGCAATCGCTTCCGCGTGGCCGATTTA
GGGGGGGTAGAGCCACTCAGAAAGTTGTTCAGACAAAAACTGGTGCCCGG
AAGCGGAGATCCCAAATCCTAGAAATTTTGAAAGTGCTCAGCTAAGGTCA
GCTCCTGAGCAGCTGTAGGTCGATTTCAAGGCAAAACTGGGACATTCCAA
TGATACAGTCGTGATCCCCACCCCAAAATTACCGAAGTTGAAGGCCTGGA
GAGCTTAATTCGACATGTGGATCGTTTCCCGGCAAAGGGGGGTATTTCAG
TGCAACTCCAAGATATTCCCACAATAATGCACATTCAATTGTGCAGCTGT
ATCGAAACCGCCTCGATCCCGATCACAATTCTGGCGACGGATTCGTGATC
CCCACCCCAAAATCACCTCAACCTGAAAATTTCATAATATTCGGGGGGAG
TTTGAATTTTCCTTGGGGGGGCCGCGGGTGCGATTTTCGCCCAATTTAAC
CCGAATTTGTGGATATTTCATCACTACGATGCCCAAATTGAAAAAGACAT
ATATTTTTGTAATCCCCGTGACCTAGTGGAGGTGTGATCAAAATTTCAGA
CACAGGAACGCATTCCTCGCCACGTTCTGAACAACCCGTGAAAACTATTC
GGCTTTAGCTCGGAACCCGCCCCATTTGTTTTTCTCGAACAAGAGCAGCG
TAGATTCGACAGGAGTTTCCCGCCAGGCTCTCCTAGAATTAATTCGTTTT
AACACGCGCATGTTCTCATCGTTCCCCGCATGCGCATCGCTCGCACTCAG
GATGATGGAGTTCACCTGGTACCAGTACGTCCCCGCCATCATCCTGGCGT
TTGGCAACCTCTGCCTCAACCTCAGCAGCCTCCGCTAACTGAACAGACGG
CCGACAGATCCAAGGATTCCTCCAGCCCAGCTGGTTCGCGTATCGAGCCA
ACTTCCCCTTTTGGTGGCTTCTGGATCGAATCTCTCTTTGGAGTGACAAT
TGAAAAGCACAATGGTGTGCCCCTCTCCCAAGGTCCTGTGCGAGGGGCCG
TGATTTATTTTTTCCTTGGGGTAAGAGGAGATGGGACGTGACAACTAAAC
ACAATTATTTTTATTCAGAAATCAATTATTTTTATTCATCAAGATCGGAG
CGGTTTCTGTGTCCTGGTCATCACCCTGCACGTGTGTCTACAAGGAACCT
TCCGCGCCCTTACTAAGGGTAGAAATTCTCTCCGGGGGCTAAACCTTCCT
GCGCGGCCAAAACTGTCTTGTTGCGCATTGGAAAAAAGGGAGGTTGTGGA
TCGCGCTGATTTAACCTCGTACGTTCCGCTTGCGGAGCCTCCGGCAGCTT
TTAATTTAACTCTTCCTCACGTGCTTCGGAGTGAAGATATTCAGGACAAG
ACATGATACTTTGAGTGATTGGCATTTGCGCACTACTGCCGTGGCAGAGT
GTTGTCGGTTATAGAAAGCACAAAGCTTTACAAAAGTTCTTGAGTGGGTT
AGTTTACACACACGGGCCCGTCCTCGATTGCGTGGGTGCGCTTAGTGTCA
GGTTTTAGGCTTCTGATGTGGAGCGTGTGCGTCGTGAACAAGGTAGGCAA
AACATGCACGCCGAAAAAAGGTTGTGGTTCTCGTGGAAGAAAACGCCTCT
AACGTTCCGAAGGAAACACGCCCTCCGTGATTGCTCTCATGCGCTTCGTT
TGCTTCGGAACACCGCTTCGGAACACCGCTTAGAGTGTCATCGAAGGGTC
GGTTTAGTCGGTGGTGCGGACGGCTATTGCAATGTGATTTAAGTAAGTTT
TGACTTGCGGTTTTTGCACGTCTTGGTGGGGGTGCAATTGTGGCGAAATT
GTTTTGGTGGTCGCATATTTGTTGCGATAAAATGCTGCACCAGGAGCTCT
TGAAGGTCCTGGAGGTATAAAGTGAAAAAAATCGTGAGGGGGGGTCCGGG
CCTTGATTGACTGTTCCCCGTTTTGTTTGCGTGTTTGTGACTGTATCTTC
TTGCTTTTATACATTTGGTTTATATACTTGATAGTTGTCTGGTGAAAGGG
TGTCGCTGTTGAGCTCATGGATCCATGTTCTGCGACCCGGCGTGCCTTCT
TGTGGTTGTTCAAACGTACGTACGTGTAGAAACCCCAGCAACGAGGAACG
GGTCTGACAGTTTTTTGGATCCAGTGCGACGTAAAGATCCATCGATCCCA
ACACTCGCTGGGTGGACTAAAACTCTGCTGGTATGTAGACCGTCCTCAAA
GGCATGCTGTCCATATCCTGAGGAGCGATCCTCGCGCTCCGACCACAAAT
CGTGTCGTATCACAACCCAACGACACGCGCGTTTATTTTCGGGGTTTTGC
ATGTTCAGGTGCTCGTTTGCACATGATGGGGATCTAGACTGTGGTAATTA
ATTTATTTCTGTTGGATTCGACACATTTTTACATTATTTTTCATGGGATT
TTGGTGAGCTGGCATTTATTTTTATGACCCGACCGTGTTGTGCCATTTAT
GATGCACTGGGGGGGGGGTCTTAGACATAGCTGTGGTGCATTTGAGGAAA
AATGTGGTTGGATACCTGAATTTTTCATGTAAAGCTTTCATTTTGTTGTG
TGAGTGTGCTG
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Coding sequence (CDS) from alignment at P-littoralis_Contig1053:49400..70910+

>mRNA_P-littoralis_Contig1053.15.1 ID=mRNA_P-littoralis_Contig1053.15.1|Name=mRNA_P-littoralis_Contig1053.15.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2871bp|location=Sequence derived from alignment at P-littoralis_Contig1053:49400..70910+ (Pylaiella littoralis U1_48)
ATGAGCATGGTTCACCGACTCCTGGAATGGGAGGAAGGGGGGCTACATCA
AGCGAAAAAGCTTGCAGCGGCGAGCTCAGGCGGAACCAGTAAGGCTGGGG
CGGGGCTGGATAAGCTGACTGTCCCTCCATCAGCGACGGACACAGTCCCG
AAGTGGAATGAGGGCAACGCCAACAGCAGTGCGAATCGACCTCGGTCGGT
TGGTCTGTCCCGGAGTAAAAGCAAGGCGATGTATTTCTCGAAACACCGAT
CACACCGGTCGATGGAGGAAGGCCCCTCCCTTCCGGAGACGACCACGCTC
CCGGTTACATTCGAGGACACGTCGGGTTTCCCTGGCAGCACTGCCGCCTC
CGACCCGGGCGTCAAGATGTTCGTGTTTCCGAAGCAGAGAGAAGCACGAG
GTGATGCGACGAACAGTCACGGCCCCCGCCGCTCCACCACCGCCTCTCCG
ACAGAGCAGCCTGCGCCGATGTCCGGCAGCGAAGACGATCTCGAGTCCGC
CACGACGCCGATCCAGTTTTGGTCCCCCGTCCCGGCGGAGCGCTCGACGC
CGCCGTTTGAACCGGCGTCTACCGTTGAAATCCCGGGCGGTAACCGTCGG
CCCCCCCCTGCGGCCGCCCCAGGTAGCCCTAGCGGTAGCGGTGGCAGGGC
CAACCGGATGATGAGTTTCTTCCGCCGGCGGTCGAGATCGGTGCAGGTCG
CTCCAGAGCCTCCAACGAGTCCCGAGGCGACGCGCGAGGCGAGCGCCGCT
GTCGGCGACGTTCCCCCCGCAGTTGTGGTCGTTGCGGAGGGTGGGGAGGG
GGAAGATGCGGCGCCCCTCGACGACCCAGCAACCCCTCCAACCCCCTTGT
CAATGGCGTCGATAGAACGATCTCGGTCGGCAGTGATGTCAGTGGCAGCC
CCTCTGTCGAGGGCGTCGGTACGATCTCGGTCGTCGATGGCGAGCCCGAT
CCATGAGAGGCCAGGTGATGGCGATGGCGACAGCAGCGGCGGCGGCGGCG
GCGGGCTGCCGCGGGCGCCATTTGCCGGCGCCCTAGACCTGCTGCCGCCC
ACGCCGCCTAGCGTTTACGGCGGCGGCAACAACGGCAGCGAATACGGCGG
ATATTGCAGCAGTGAGGGCTACGATGAAGCCTCGGTTTCCACCCCGTCGG
CGCAGGTTGCCACCAACAGAGGTGTCTTATCGGAAGCCGATGTGGAGGAA
GGAGGGTTTCGCGCGGTGATGGTGTCGGCTGCTGTGGGGAGCAAGGATGC
AGGGACGAGAAGAGCGGAGCCGTCGTCGGTGGTGGCGGACGCGACGACGA
CGGCCGCACCCGCCGTCACCGTCGCCAAGCCGCTGACCTACAAAACGGCT
GAGCCCGCGGTGATCGAGAACGGGATTGTGATGCCTTGCCCACCAAACGA
GCGCGAGAAGATCTTGTACCATAAGACCGGCCGCGCCTTTTTGGTGAGCA
CCGGGACGTCATCCTTCCTGGTTGCGACGGTGGGAATGTGGCTCTTCACC
ATCTCGTCCCCGTACTTTTATTGGTTCGGAGCGCCCACCGTTTTCCTCAT
GTTTTACCTGATTTTCCACTATTTCGTCGTGGCCATGTGGGGGAAAGACT
TCGAGCCGGAGGACCACGCGGAGATCGTCCGGGCGGCGGAGGAACCCGGG
AACCCGCCGCCGACGGTTGACGTGTTCCTCCCCGTGTGCCGGGAGGACAT
CGCGCTGCTGAGGAACACGTGGAAGTACGTGACCGCCCTGGACTACCCGA
GTTTCGAGGTGCACGTGCTCGACGACGGCGCTAAGGACGACGTCCGGGAC
ATGGCGGAGGAGTTTGGGTTTCACTACGTTCGACGAGACAACCGGCCCGA
GATGAAGAAAGCGGGAAATTTGCGCTACACCTTCGCAAGGACCTTCGGAG
AGGCCATAGTCATCTTCGACGCCGACTTTTGCCCGAGGTCCGACTTCCTG
AAGGAGACCACGCCATACCTGGCGGATCCCACGATCGGCATCATACAAAC
CCCGCAGTACTTCCGCTACCGAGAGGAGCAGACGTGGGTGGAGAAAGGGG
CGGGGGCCAGCCAGGAGTTCTTCTACCGCATGGTTCAGATGAACCAAGAC
AAGTTTCACGGCTCGGTGTGCGTGGGTTCGTGCGGCGTGTATCGGCGGTC
GGCCGTGGAACCGTTCGGGGGAGTGGCCGCCATCAGCCACTCCGAGGACA
TGTACACGGGCTACATGATGACAGAGCTCGGCTACAAGGTCAAGTACCTG
CCGCTTTGTCTGGCCATGGGCACGTGCCCCGATGAACCTCGCAGCTTCTT
CATGCAGCAGTACCGCTGGTGCATGGGCAGCGCCAGCCTGCTTTCCGACA
AGGGCTTCTGGAAGGCCAACTTGTCCGTCATCCACAAGATCTGCTTCCTC
AACGGACTGCTCTACTACATCGCCACGGCAATGCTGCTCTTCGTCGCACC
TCTCCCCATCATCCTGCTCATCTACCTGAAGGCCGCCTCGGTGCTCTGGT
ACTACAGCGGCTTCGCCTTGCCCTCGATACTGATGGTGACCGTGGCCATG
CCGATGTGGTCCAAGCAACCCTACGGAATGCCTATTCACAGGGTTCGGGT
CATTCAAAGCTACGCCCACCTTTCCGCGCTGATGGATAACCTCATGGGGA
CGGCGGCGGCTTGGGTTCCGTCGGGCGGAGGAGCGTCAAGGTCACCCTCC
AAGTCCTACGACATCTCTGTCGCGGTTATGCTTACCTGGACCATCACCAC
GACTGTATTGATCATCGGAGGCTCTCTTTGGAGGATGATGGAGTTCACCT
GGTACCAGTACGTCCCCGCCATCATCCTGGCGTTTGGCAACCTCTGCCTC
AACCTCAGCAGCCTCCGCTAA
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