mRNA_P-littoralis_Contig62.82.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig62.82.2
Unique NamemRNA_P-littoralis_Contig62.82.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A6H5JC22_9PHAE (Endo-1,3(4)-beta-glucanase n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JC22_9PHAE)

HSP 1 Score: 1472 bits (3811), Expect = 0.000e+0
Identity = 773/1069 (72.31%), Postives = 843/1069 (78.86%), Query Frame = 3 
Query:   21 MFQPSNEAAGLVSGLHPVTQRINENRAILKFPENEPRSAEREPLSASSSYGAVDPEGXXXXXXXXXXXXXXXXXXRQEHVRGQRKDETSQNLGWGGRLYLCVLLVVGLSALVALSGVVRDTPGSVSLESDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRPKGGPYNETMFPVEVKVEAECSANSACHARGLTQEKLCCPTADGNWLGCCPSGGGVPEGPSACSSNPECVAASLTDGXXXXXXXXXXXXXXEHEGNGKDSNNDDDDETESHGGNEDKAEVVDPQALCSANEGCAALEGSCCPTQQGFYLSCCGSVHVSTTXXXXXXXXXXXXXXXXXPSPLTAIDTNPTASTSXXXXXXXXXXXXXXXXXXXXXXXXXEDGSAGV------GGDDARDCAKHPGCVALDLQGVCCPASNGVMLSCCS 3209
            MFQP+ +A+ L SG HP+TQRINEN+A+L+FP++                       XXXXXXXXXXX       R+E   G R+   + NLGWG RLYLCVLLVVG+S LVALSGV R+TPGSVSLE+DAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAI  GDFPVAPLPY IK SDAGVGVSYSAMRRVES+ RV D YAADLSVSAKEGVT RHIVKYDNLTVTLQHD  N GNFRTLLARGSPYMTFEFAGATPRIK NG+ILE NG+KA+VG S F   FKLALSNWETW+V+TSESVTWK++S QE+EMK PFSGIVRVAVLP PWD + E TLS+HA AYPRGG+VAF VDGD+MEMRYEW KDGFGDLLMMALPHHMD MD  G ++AVV+   SYQ IKGPMTGIVGSVW MRDNLTDIAW +RTPL+EA L+IDDPLLSLSWE R+RDAL+ADL S LP+APDVYSFGKE++RMARLAL+ADELGDIP REAALATV VYL  WMKNDNEDLLVYDKTWGGIVTKNGLN+QNAD+GNAWYNDHTYHYGYLLYAAAVL+KFRP FHRTYKKQL+FLVAD+AA GGG MAK+FP ARQKD YDGHSWTSGIF Q NGKSQESVSESINAYYGVYL GLATGDD  KDWGRVLLAME+R ARKYWQMP  +GVYDS+FSS RMVGMVASLEAVQLTWFGDNVEYVHC+NM+PFTPITE+LLHRDFMEQEWPVL  A+D R+PDPQW+GFIYLAA+VVLPVEAWAN+TAL  FD+GNSKTNS YWIATRP G  YNE+MFPVEVKVEAECSANSAC AR LTQEKLCCPT D  WLGCCPSG GVPEGPSACSSNP CVAA L  G                 G G D + DD  E ++       A  VDPQALCSAN+GCA LEG+CCPTQQG YL CCGSVH+S                               +++S XXXXXXXXXX              ED           G  D RDCA HPGC AL  QG CCP+ +G MLSCCS
Sbjct:    1 MFQPT-DASALASGPHPLTQRINENQAVLEFPDD----------XXXXXXXXXXXXXXXXXXXXXXXXGEGLEDGRRE---GGRQHPAALNLGWGARLYLCVLLVVGVSGLVALSGVFRNTPGSVSLETDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIGEGDFPVAPLPYTIKSSDAGVGVSYSAMRRVESLERVTDAYAADLSVSAKEGVTGRHIVKYDNLTVTLQHDAANAGNFRTLLARGSPYMTFEFAGATPRIKANGDILEINGKKAEVGASLFATTFKLALSNWETWVVFTSESVTWKVTSLQEVEMKAPFSGIVRVAVLPRPWDSEGEMTLSEHAYAYPRGGRVAFDVDGDRMEMRYEWDKDGFGDLLMMALPHHMDTMDA-GADIAVVMA-DSYQCIKGPMTGIVGSVWIMRDNLTDIAWTARTPLQEATLSIDDPLLSLSWERRMRDALAADLNSVLPSAPDVYSFGKEISRMARLALVADELGDIPGREAALATVGVYLTPWMKNDNEDLLVYDKTWGGIVTKNGLNNQNADYGNAWYNDHTYHYGYLLYAAAVLSKFRPVFHRTYKKQLDFLVADVAAMGGGRMAKYFPTARQKDLYDGHSWTSGIFPQGNGKSQESVSESINAYYGVYLFGLATGDDATKDWGRVLLAMEVRAARKYWQMPRHNGVYDSYFSSHRMVGMVASLEAVQLTWFGDNVEYVHCVNMMPFTPITEDLLHRDFMEQEWPVLEAAFDGREPDPQWAGFIYLAASVVLPVEAWANLTALDIFDNGNSKTNSLYWIATRPSGEAYNESMFPVEVKVEAECSANSACQARSLTQEKLCCPTKDDGWLGCCPSGDGVPEGPSACSSNPNCVAAGLATGLCCPGLSGEMLACC---GQGGDDSEDDKKEHKA-------AVAVDPQALCSANQGCAMLEGACCPTQQGVYLGCCGSVHISGRKH---------------------------SNSSAXXXXXXXXXXSKPAGGEVKVDGGMEDXXXXXXXXXXXGPGDDRDCANHPGCSAL--QGACCPSPDGTMLSCCS 1014
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BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: D8LU99_ECTSI (Endo-1,3(4)-beta-glucanase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LU99_ECTSI)

HSP 1 Score: 1259 bits (3257), Expect = 0.000e+0
Identity = 638/806 (79.16%), Postives = 697/806 (86.48%), Query Frame = 3 
Query:   21 MFQPSNEAAGLVSGLHPVTQRINENRAILKFPENEPRSAEREPLSASSSYGAVDPEGXXXXXXXXXXXXXXXXXXRQEHVRGQRKDETSQNLGWGGRLYLCVLLVVGLSALVALSGVVRDTPGSVSLESDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRPKGG 2438
            MFQP+ +A+ L SG HP+TQRINE +A+L+F +                        XXXXXXXXXXXXXX    R+E   G R+   + NLGWG RLYLCVLLVVG+S LVALSGV R++PGSVSLE+DAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAI  GDFPVAPLPY IK SDAGVGVSYSAMRRVES+ RV D YAADLSVSAKEGVT RHIVKYDNLTVTLQHD  N+GNFRTLLARGSPYMTFEFAGATPRIK NG+ILE NG+KA+ G S F   FKLALSNWETW+V+TSESVTWK++S QE+EMK PFSGIVRVAVLPHPWD + E TLS+HA AYPRGG+VAF VDGD MEMRYEW KDGFGDLLMMALPHHMD M   G ++AVV+   SYQ IKGPMTGIVGSVWTM DNLTDIAW +RTPL+EAAL+IDDPLLSLSWE R+RDAL+ADL S LP+APDVYSFGKE++RMARLAL+ADELGDIP+REAAL TV VYL  WMKNDNEDLLVYDKTWGGIVTK+GLN+QNAD+GNAWYNDHTYHYGYLLYAAAVLTKFRP FHRTYKKQL+FLVAD+A  GGG+MAK+FP ARQKDFYDGHSWTSG+F Q NGKSQESVSESINAYYGVYLLGLATGDD MKDWGRVLLAME+R ARKYWQMP  +GVYDS+FSS RMVGMVASLEAVQLTWFGDNVEYVHCINM+PFTPITE+LLHRDFMEQEWPVL  A+D R+PDPQW+GFIYLAA+VVLPVEAWAN+TAL  FDSGNSKTNS YWIATRP  G
Sbjct:    1 MFQPT-DASALASGPHPLTQRINEEQAVLEFHD----------XXXXXXXXXXXXXXXXXXXXXXXXXXXXLADGRRE---GGRQHPAALNLGWGARLYLCVLLVVGVSGLVALSGVFRNSPGSVSLETDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIGEGDFPVAPLPYTIKSSDAGVGVSYSAMRRVESLERVADAYAADLSVSAKEGVTGRHIVKYDNLTVTLQHDAANEGNFRTLLARGSPYMTFEFAGATPRIKANGDILEINGKKAEAGASLFATTFKLALSNWETWVVFTSESVTWKVTSLQEVEMKAPFSGIVRVAVLPHPWDSEGEMTLSEHAYAYPRGGRVAFDVDGDGMEMRYEWDKDGFGDLLMMALPHHMDTMGA-GADIAVVMA-DSYQCIKGPMTGIVGSVWTMWDNLTDIAWTARTPLQEAALSIDDPLLSLSWERRMRDALAADLNSVLPSAPDVYSFGKEISRMARLALVADELGDIPAREAALTTVGVYLTPWMKNDNEDLLVYDKTWGGIVTKDGLNNQNADYGNAWYNDHTYHYGYLLYAAAVLTKFRPVFHRTYKKQLDFLVADVATMGGGKMAKYFPTARQKDFYDGHSWTSGMFPQGNGKSQESVSESINAYYGVYLLGLATGDDAMKDWGRVLLAMEVRAARKYWQMPRHNGVYDSYFSSHRMVGMVASLEAVQLTWFGDNVEYVHCINMMPFTPITEDLLHRDFMEQEWPVLEAAFDGREPDPQWAGFIYLAASVVLPVEAWANLTALDIFDSGNSKTNSLYWIATRPSAG 790
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BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A836CER9_9STRA (Endo-1,3(4)-beta-glucanase n=2 Tax=Tribonema minus TaxID=303371 RepID=A0A836CER9_9STRA)

HSP 1 Score: 590 bits (1521), Expect = 1.420e-189
Identity = 364/954 (38.16%), Postives = 479/954 (50.21%), Query Frame = 3 
Query:  399 LESDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTF--------------------------------------EFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQ------------------------------------VAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIK--------------------------------------------------GPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWET----RVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREA-ALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHT--------------------YHYGYLLY------------AAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHS-------------------------------------------------WTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAME---------------------------------LRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPD--PQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRPKGGP-YNETMFP-----VEVKVEAECSANSAC 2507
            L   A  PF T   H LRP  LWGAV  PYPTGAW+ NL I  GD PV PLPYA++    G+ VS+SA+RR  S  R+ DV+ ADL+V A EG     + +YDNL+ ++ H++     F T L RGSPYMTF                                      ++  ATP + T   IL  +G+  K G +  G+ FKL LSNWETWMVYTSESV++K+ +     +  P SG++R A+LP   D ++E  L++HA AY +GG+                                    + F VDGD +  ++ W K GFGDLLM+ALPHH+DMMD +  EVA+     +YQ++K                                                  G MTG+VG+ W MR+ LT + W +               L+  W       +R  L  D+++  PTA D+Y F K+ ARMARLALIA+ELG++  R+  A++ +   +A+W++NDN DLLVYDKTWGG+VT +GLND  ADFGN W                         +HYGY L             AAAV+ K RP F+  Y++QL+F+V+DIA      +A  FP AR KDF+DGH                                                  W SG+FSQ NGKSQES SE++NAYY VYLLG+ATG+  ++DWGR+LLA E                                 LR   KYW M ++S VYDS F+S RMVG+V  L+AV +TWFGDNVEYVH INM+PFTPI+ ELL   +M +EWP+LATA    DP    QW G+I+LA A++ P  AW+ ++ LT FD+ NSKTNS +W+A+RP   P YNET++        V V   C  NSAC
Sbjct:  123 LPQRAGVPFVTAA-HPLRPTALWGAVKPPYPTGAWFTNLVIGAGDQPVVPLPYAVRAGAHGIDVSFSAVRRQASRRRITDVFDADLTVGAAEGYLGHALTRYDNLSASVSHELRGGAAFATHLVRGSPYMTFAAEREPAAALLAXXXXXXXXXXXXXAPAMSFGPLIRAAQYKDATPTLATATSILALDGKPLKEGATVRGKTFKLGLSNWETWMVYTSESVSFKVEARSFTALM-PMSGMLRAALLPRAGDGEAEFELNEHAYAYAKGGEXXXXXXXXXXXXXXXXXXXXXXXXXXTQLGFDRDTLIQFDVDGDTLVTKFVWEKYGFGDLLMLALPHHIDMMDMETTEVAMP---KAYQTLKPXXXXXXXXXHQTLEASAAVLIEVEALPRHIKPXXXXXXXXXXXXXXXRKGRMTGVVGTSWEMREALTAVGWGTGG-------------LAGGWGADRADEIRAELVKDISTEHPTAADIYGFSKQSARMARLALIAEELGEMGYRDQQAVSVIEDAMAAWLRNDNSDLLVYDKTWGGVVTYDGLNDAAADFGNGWIAXXXXXXXXXXXXXXXXXXXXXXHFHYGYFLXXXXXXXXXXXXXAAAVVAKNRPGFYPAYRRQLDFMVSDIACHRA--LADRFPTARHKDFFDGHRPQCPRSALRLPHAASAAHRFEVLCLYRAVRAVQLSVQPTVTGPTTVDDLWASGLFSQGNGKSQESSSEAVNAYYAVYLLGMATGNRELRDWGRILLAGEMAAVKPAARLYKHFASXXXXXXXXXXXXXXXXXLRSTDKYWHMRNDSDVYDSIFASNRMVGVVGGLDAVDVTWFGDNVEYVHGINMMPFTPISAELLPYGYMREEWPMLATALTREDPPLVAQWEGYIHLAHAILDPEAAWSGISDLTVFDAANSKTNSLHWVASRPAPPPGYNETLYAEMNAAAAVTVPVSCLENSAC 1056
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BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: W7TQI2_9STRA (Endo-1,3(4)-beta-glucanase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TQI2_9STRA)

HSP 1 Score: 514 bits (1324), Expect = 2.400e-163
Identity = 306/780 (39.23%), Postives = 443/780 (56.79%), Query Frame = 3 
Query:  264 GQRKDETSQNLGWGGRLYLC-VLLVVGLSALVALSGVVRDTPGSVSLESDAAF---PFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDA-GVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHD--MENQGN----FRTLLARGSPYMTFEFAGATPRIKTNGEILEFNG----EKAKVGVSGF-GQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDG------------DKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSS--YQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAAL----AIDDPLLSLSWETRVRD---------ALSADLAS---------TLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDP---QWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRPKGG 2438
            G    E ++  G G R++L     +VG++ +VAL        G ++L         PF   + H L+P  LWGAV  PYPTGAWW NL +  GD  VA LPYA+K +D  G+ VSYSA R + +   + D++A D+S++  E  T  ++  YD L+V L     +  QGN    +RT L RG PY+T E+ G  PR+K    I   NG    E A    +   G +F + + + + WM++    +T   + +  +   EP++G +RVAV P    E  +  L KH + YP GG+V+    G              + + Y W + G G LLM+ALPHH++++       A  +T ++  +Q++KG MTG+VG  W M++ L     AS    K+  +    A  + +        ++D         A+S DLA+               D Y  GK +A  ARLAL+A+E+G    R+ A+A     L  W+K  N++ LVYD TWGG+V ++GL+D   +FGN +YNDH + YGY  Y AAVL +F PAF + +K  L  LVADIA     + +  FP+AR KDF+DGHSW SG+F Q+NGKSQES SE+INAYYG +L G ATGD  ++++ ++LLAME+R  R YW M + + +YD  F++ RM G+V  L+A   TWFG ++EYVH INM+PFTP+TE +L   F+ +E+PVLA+   +R  DP   +W GFIY+  AV+ P  AW  V +L  +D+GNSK+N+ +W+ATRP  G
Sbjct:   61 GHGSGEIARTNGVGWRVHLKGTAWLVGVAVVVALGLF-----GVLALRRSRGHDPVPFAHVS-HPLQPTALWGAVRKPYPTGAWWTNLVLNKGDNNVAVLPYAVKATDTEGLQVSYSAFRHLSTAMVIADLFAPDMSLATVENATTHYVESYDPLSVGLVFPTVLHLQGNRPSYYRTHLVRGCPYVTVEYYGCRPRVKAPNMITVINGLLFRENATFQAAALTGSVFDITVISGQHWMLFAEPPITLVWTIDGSLTAVEPYTGFLRVAVAPV---EKVKPVLVKHWHTYPTGGEVSLEYPGRGGVTGGRGSSDSDLMITYRWRRRGEGQLLMLALPHHVEILQD-----AAFLTNATDVFQTLKGSMTGVVGDRWYMKEGLPRPLDASDPTKKKKKVTRSHAGREHMYGFHAPRGIQDEKALKAVQGAVSEDLAAIKKGGTERWNKTDKSDAYWAGKRMAMYARLALVAEEVGMEKERKEAVALAAAALEPWLKGSNKNPLVYDTTWGGLVLQSGLSDPYVNFGNTYYNDHHFQYGYFCYCAAVLARFDPAFVKRHKGALRALVADIA--NDDDTSPSFPLARHKDFFDGHSWASGLFEQNNGKSQESSSEAINAYYGAHLYGRATGDVKLENFAKLLLAMEIRSTRWYWHMQNNTKIYDPIFAANRMAGVVGGLDATCHTWFGASLEYVHGINMMPFTPVTEAVLDASFVREEYPVLASVL-SRSDDPVEEEWKGFIYMDHAVIDPAAAWTEVESLKRYDTGNSKSNTLWWVATRPGAG 823
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BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: UPI000C784AC5 (probable endo-1,3(4)-beta-glucanase ARB_01444 n=1 Tax=Eurytemora affinis TaxID=88015 RepID=UPI000C784AC5)

HSP 1 Score: 493 bits (1270), Expect = 1.770e-157
Identity = 272/663 (41.03%), Postives = 384/663 (57.92%), Query Frame = 3 
Query:  441 HLLRPGPLWGAV-TGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATR 2426
            H ++P   WGA    PYPT AWW NL    G+    P+PY +K  D GV VS+S   +V     +   +  ++ ++A EG+  R +  +D L+VT+ +D            RGSPY+T +++G TP + +   ++  NGE   VG    G  F + L+N + WMVYTS  V++ ++S+  +    PF+G +RVA +P     ++   L  HA + P GG+V     GD   + + W  +G G+ L+MALPHHMD++ +          G  Y +IKG MTGI+GSVW M + LT I W +  P   A   +D           VRDAL AD+   +  A D Y  GKE+  +ARLALIADELG+          +   +  W+   N D   YD+TWGG++T N +ND  ADFG   YNDH +HYGY +YAA V+ K  PA+   ++  L  ++ DIA   G +   H+ +AR KD+Y GHSW SGI    +G +QES SES+N +YGVYL GL  GD  +KD GR+L+A E+R   KYWQM S   +Y   F+S ++VG+V S +    TWFG NVE++HCI MLPFTPI+EE+L ++++ +E+ VL+ A  +      W GFIY+A AV+    AWA V +LT FD GNSKTN+ +W+ATR
Sbjct:   38 HNVQPDERWGAAGQRPYPTNAWWTNLVFGSGENLANPMPYQVKTLDDGVHVSFS--NKVVEAKYIFMAFVPNIIITAMEGMGSRVLSAWDPLSVTMAYD-----KVEFPFVRGSPYITAKYSGKTPILASTHAVISVNGEA--VGSQITGNKFDVDLNNGQHWMVYTSSDVSFYVNSDS-LSASGPFTGTLRVACVP---PGENSADLDAHAGSIPIGGEVTAESAGDTATITFTWKLEGSGEPLIMALPHHMDILQSPQ------TGGIRYNTIKGDMTGIIGSVWKMTERLTSIQWDA--PRGVAPKYLD----------AVRDALKADIGIQV-VAGDPYFGGKEMGTLARLALIADELGETELAATYRENIKKAMEPWLAGTNSDHFTYDQTWGGLITINAMNDGGADFGQGLYNDHHFHYGYFMYAAGVVAKADPAWAEKWRIPLFHILRDIADPSGAD--PHYTLARCKDWYMGHSWASGITEFGDGHNQESTSESVNGWYGVYLFGLGIGDQRIKDLGRLLMATEIRSTHKYWQMTSSDSIYPEPFASNKVVGIVWSTKVDYGTWFGANVEFIHCIQMLPFTPISEEVLRKEWINEEYSVLSPAISSSGEG--WKGFIYMAHAVIDTAAAWAEVNSLTGFDDGNSKTNALHWVATR 664
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BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A850BQD1_9DELT (Endo-1,3(4)-beta-glucanase n=1 Tax=Polyangiaceae bacterium TaxID=2268199 RepID=A0A850BQD1_9DELT)

HSP 1 Score: 459 bits (1181), Expect = 1.250e-144
Identity = 260/672 (38.69%), Postives = 380/672 (56.55%), Query Frame = 3 
Query:  414 AFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRP 2429
            A P   ++ H L P   WG ++ PYPT A W++  +  G  PV   PY IK    G+ VS  +     +   +  V+  D+S    E + DR  V YD L+VT++    + G+    + RG PY T  +   TPRI++   I   N   A   +   G  F++AL+N +TW++Y S  +T   S    M    PF+G++R A +          TL  H  AYP+GG V  +V GD   + + W K+G G LLMMALPHH+D++ +        ++   Y +++G M G+VG  WT+ + L  I+W++  P+  AA  +D           V+ AL AD AS +P A D Y FGK++A++ RL LIADELG+  +  A    +   L  W+   N + L YD  WGGI + NGL  Q ADFGN +YNDH +HYGY LYAAA L K   A+  + K  +  L  DIA     + +  F   R  D+Y+GH+W +G+F   +G++QES SE++NA+YG+YLLGLA GD  M++ GRVLLA E+R A+KYWQ+ + S +Y   F++ ++VG++   +    T+FG   E +H I M+PFTPI+E LL  D++ +E+PV++ A      +  W GFIY+  A++    AW  V  LT +D GN+KTN+ YW+ATRP
Sbjct:    8 AAPVFASSPHPLAPTERWGDLSAPYPTNAAWMDFVLGSGVNPVNVFPYEIKALANGLQVSLPSKDVKANF--ILSVFNHDISFETVEALKDRTAVDYDLLSVTMRWQGVSAGSMTAPIVRGMPYATMVYDNLTPRIESAHAITSVNKGAASPVM---GDRFEIALNNGQTWLLYASSPLTLSWSPSG-MAASAPFTGVLRTAAVS---SATFTATLDAHRGAYPKGGDVLVSVQGDGARIDFSWEKEGDGALLMMALPHHLDVLSSPD------LSDVKYPTLRGEMVGVVGGSWTLAETLHTISWSAPRPV--AADKVD----------AVKAALMAD-ASEVPVATDPYFFGKQIAKLGRLVLIADELGEAATAAALREQMRNSLNPWLDGTNGNPLKYDPVWGGICSANGLASQAADFGNGYYNDHHFHYGYFLYAAAALGKGDKAWLDSKKAAITDLARDIANPSDKDTS--FTRFRSMDWYEGHAWAAGLFEFGDGRNQESTSEAVNAWYGLYLLGLAMGDVNMENVGRVLLATEIRSAQKYWQIKAGSSIYPEPFAANKVVGVLWGTKVDYATFFGSGPELIHGIQMIPFTPISEALLPADWVAEEYPVVSQALGGAIGEG-WKGFIYMDHAIIDAPAAWGEVATLTGYDDGNTKTNTLYWVATRP 648
[Close]
BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A3S5JUA0_9FLAO (Endo-1,3(4)-beta-glucanase n=1 Tax=Crocinitomicaceae bacterium TMED114 TaxID=1986720 RepID=A0A3S5JUA0_9FLAO)

HSP 1 Score: 464 bits (1194), Expect = 1.750e-142
Identity = 266/703 (37.84%), Postives = 385/703 (54.77%), Query Frame = 3 
Query:  321 CVLLVVGLSALVALSGVVRDTPGSVSLESDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRP 2429
            C  L+  +  L   +G   +  G V L + A  P   +  H L+P  LW     P PT AWW N+ + GG + +  LPY ++    G+   +    +V     +   +  +LS  A EG   + +  +  L V++       G+ RT L RG PYMT  + G TPRI T   I   NG  A   V+     F++ L+N +TW++Y S S+T  L++   ++    F+G +R A      D  SE  L  HA   P GG V+     D   + ++W   G G LLMMALPHHMD++ +         T   + +IKG MTGI G  WTM + LT I + +  P+               +E  VR+AL+ D+   + TA D Y  GK+ + +ARLALIADEL +          +   L   +   N D LVYD+TWGG+V  +GLN+  A FG  +YNDH +HYGY +YAAA + K  P +   +  ++  L+ D+A   G +   H+   R KD++ GHSW +G+F   + ++QES SE++NA+YGVYL GLA GDD ++D GRV+LA ELR   KYWQ+ +  GVY   F+S ++VG++   +    T+FG N+E++H I MLPFTPITEELL  +++E+E+PV+  A  + D    W GFIY+A AV+ P  AW+    L  +D GN+KTN+ YW+ATRP
Sbjct:    3 CFFLLCCVVLLSVEAGAQTELLGGVPLSTSA--PNFPSQSHSLQPSGLWANDAAPLPTNAWWQNVVLGGGGYTINTLPYLVQVHADGLRFGFPG--KVVDANFIFTSHTENLSFRAAEGAASQAVTDHGPLHVSVDWG-SGSGSMRTDLVRGQPYMTMHYTGLTPRIGTVHAITGLNGGSASEAVTDTR--FEVQLNNGQTWILYASSSITLSLNNGA-LQASNVFTGSLRAAFS----DXTSEAVLDAHAGRIPTGGTVSATAQNDIGTITFDWTTQGSGPLLMMALPHHMDVLSSPS------TTSVVHNTIKGDMTGISGLSWTMEEPLTTIGFEAAQPIHP------------DYEQDVRNALAEDVGFAV-TAGDPYFGGKQFSALARLALIADELNEPALASQYRTALGSGLEERLAGQNGDPLVYDQTWGGLVISSGLNNAAAAFGQGYYNDHHFHYGYWIYAAAAMAKDNPTWVAQWGDEVMDLIRDVAEPSGND--PHYGFMRNKDWFVGHSWAAGLFEFGDARNQESSSEAVNAWYGVYLYGLAIGDDRIRDLGRVMLATELRSTWKYWQINTGEGVYPEPFASNKVVGILWGTKVDHATFFGANLEFIHGIQMLPFTPITEELLRAEWIEEEYPVIQPATLSPDIGEGWKGFIYMAHAVIDPDAAWSECQTLNGYDDGNTKTNTLYWLATRP 672
[Close]
BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A3D6DEQ1_9FLAO (Endo-1,3(4)-beta-glucanase (Fragment) n=1 Tax=Flavobacteriales bacterium TaxID=2021391 RepID=A0A3D6DEQ1_9FLAO)

HSP 1 Score: 456 bits (1172), Expect = 1.000e-140
Identity = 258/684 (37.72%), Postives = 376/684 (54.97%), Query Frame = 3 
Query:  387 GSVSLESDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRPKGG 2438
            G + L + A  P  ++  H L P  LW     P PT AWW NL + GG   V  LPY ++  ++ +   +    +V S   +   +  +L+  A  G+  R I  Y  L V +       G+    L RG PYMT  + G TPR+ T   I+  NG  A   V+G    F + L+N +TW+VY S +VT  +S    +     F+G +R A+         E  L  HA   P GG+V+    GD  E+ ++W  +G G LLM+ALPHHMD++ +          G    ++KG MTGI G  WTM + LT I + S   ++ A             E  VR+AL+ D+   + TAPD Y  GK+ + +ARLALIADELG+          +   L   +   N D L+YD TWGG+V  +G+++  A FG  +YNDH +HYGY +YAAA + K  PA+   +  ++  L+ DIA   G +   H+   R KD++ GHSW +G+F   + ++QES SE++NA+Y VYL GLA  DD ++D GR++LA ELR   KYWQ+ +  G+Y   F+S ++VG++   +    T+FG N+E++H I MLP+TPITEELL  +++E+E+PV++T          W GFIY+A AV+ P  AW+    L  +D GN+KTN+ YW+ATRP  G
Sbjct:   24 GDIPLSTSA--PTFSSQSHSLSPTGLWDNTASPLPTNAWWQNLVLGGGGLTVNTLPYLVQVDNSALRFGFPG--KVVSQNYILTTFTDNLNFGAVGGLPARQITDYGPLHVRVDWG-SGTGSMHANLVRGQPYMTAHYNGLTPRVGTVHAIIGLNGGSASGSVTGTK--FVMQLNNGQTWIVYASSTVTMSVSGGA-LVASGSFTGTLRAALS----QGGDEAVLDAHAGRIPVGGEVSATATGDMGELVFDWETEGSGPLLMLALPHHMDVLSSP------TTPGLVRNTLKGDMTGISGLAWTMEEPLTTIGFESPNGIEPAL------------EQDVRNALAQDIGFAV-TAPDPYFGGKQFSALARLALIADELGETTLANGYRNALGSALEERLAGQNGDPLLYDNTWGGLVVSSGISNPGAAFGQGYYNDHHFHYGYWIYAAAAMAKDNPAWVSQWGDEVMDLIRDIAEPSGAD--PHYGYMRNKDWFVGHSWAAGLFEFGDARNQESSSEAVNAWYAVYLYGLAIEDDRIRDLGRMMLATELRATWKYWQINAGEGIYPEPFASNKVVGILWGTKVDHGTFFGANLEFIHGIQMLPYTPITEELLRAEWIEEEYPVVSTVLGNPALGEGWKGFIYMAHAVIDPAAAWSEAATLNGYDDGNTKTNTLYWLATRPGVG 674
[Close]
BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A2D5DZD2_9FLAO (Endo-1,3(4)-beta-glucanase n=1 Tax=Flavobacteriales bacterium TaxID=2021391 RepID=A0A2D5DZD2_9FLAO)

HSP 1 Score: 459 bits (1180), Expect = 1.750e-140
Identity = 271/707 (38.33%), Postives = 389/707 (55.02%), Query Frame = 3 
Query:  309 RLYLCVLLVVGLSALVALSGVVRDTPGSVSLESDAAFPFTTTTKHLLRPGPLWGAVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVESMARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLARGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWETWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKHANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAYDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRP 2429
            R +L  LL+  + A  A + ++    G   L +D   PF+T + H L P  LW    GP PT AWW NLA+ GG   V  LPY ++ S  G  + + A  +V     +      +LS  A +G   +       L V+L       G+  T L RG PYMT  +   TPRI T   I   NG  A    +G    F++ L+N +TW++Y S  ++  L++   +    PF+G +R A+L    D  SE TL  HA   P GG V+    GD   + ++W   G G LLMMALPHHMD++      V+   T     ++KG M GI G  WTM + LT I + +  P+               +E  VR+AL++D+   + TA D Y  GK+ + +ARLALIADEL +          +   L   +   N D LVYD+TWGG+V  +GLN+  A FG  +YNDH +HYGY +YAAA + K  PA+   +  ++  L+ D+A   G +   H+   R KD++ GHSW +G+F   + ++QES SE++NA+YGVYL GLA GDD ++D GRV+LA ELR   KYWQ+ +  G Y   F+S ++VG++   +    T+FG N+E++H I MLP+TPITEELL  +++E+ +PV+  A  +      W GFIY+A AV+ P  AW+    L  +D GN+KTN+ YW+ATRP
Sbjct:    2 RFFLLSLLLAAVVATPAQTPLL----GGAPLSTDTP-PFSTQS-HGLNPTGLWENANGPLPTNAWWQNLALGGGGLTVNTLPYLVQVS--GEALKFGAPNKVVDPNFIFSSMTENLSFRAVQGTPGQQXTDXGPLHVSLAWG-SGSGSMHTDLVRGQPYMTMHYDALTPRIGTVHAITSVNGGSASATTTGTR--FEVTLNNGQTWVIYASSVLSLSLNNGG-LVASAPFTGSLRAALL----DASSEATLDAHAARIPTGGAVSATAMGDVGTISFDWQTQGAGPLLMMALPHHMDVL------VSPSTTSVVRNTMKGDMIGISGLSWTMEEPLTTIGFEAAQPIHP------------DYEQDVRNALASDVGFGV-TAGDPYFGGKQFSALARLALIADELNEPVLASQYRTALGSALEERLAGQNGDPLVYDQTWGGLVISSGLNNAGAAFGQGYYNDHHFHYGYWIYAAAAMAKDNPAWVNQWGDKVMHLIRDVAEPSGAD--PHYGYMRNKDWFVGHSWAAGLFEFGDARNQESSSEAVNAWYGVYLYGLAIGDDRIRDLGRVMLATELRSTWKYWQINTGEGXYPEPFASNKVVGILWGTKVDHATFFGANLEFIHGIQMLPYTPITEELLRAEWIEEAYPVIQPATMSPSIGEGWKGFIYMAHAVIDPDAAWSECQTLNGYDDGNTKTNTLYWLATRP 671
[Close]
BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Match: A0A835ZFG2_9STRA (Endo-1,3(4)-beta-glucanase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZFG2_9STRA)

HSP 1 Score: 440 bits (1132), Expect = 4.430e-139
Identity = 247/532 (46.43%), Postives = 320/532 (60.15%), Query Frame = 3 
Query: 1065 KHANAYPRGGQVAFAVDGD----------KMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGGEVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAIDDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADELGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNADFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATGGGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYLLGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGMVASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATAY---------------DARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIATRPKGGPYNETMF---PVEVKVEAECSANSACHARGLTQEKLCCPTADGNWLGCC 2576
            KHA A P     A  V+G           +ME+  + AK     LLM+ALPHHMD+   K  +V   + G  ++ IKG MT I+G+ W M+D L  I W S       A A  D LL+     + R     D+ S  P APD Y+FGK + R+AR+ALI D+LGD  + + A   +  YLA W+  +N D L+YD  WGG+V+K GL D+  DFGN WYNDH +HYGY +Y AAV  K+ P+F+  Y++QLE LVADIA T     +  FP AR KD YD HSW SG+F QSNGKSQES+SE+INAYY V+L G+AT +D ++DWGRVL  MELR    YWQMPS + +YDS F+S +M G+V +L+ +  TWFGD  EY+H INM+PFTPITE LL   F+ +E+PVLA A                       +W GF+Y+  A+V P ++WA++ +L  FDSGNS TN  YW ATRPK    ++  F   P      A+CSAN+AC A  L  E  CCPT+ G  L CC
Sbjct:   21 KHAGAKPSA--AAADVEGQSADTPAATLGEMELASK-AKATQDQLLMLALPHHMDVFAGKP-QVEEGLAGK-FKCIKGAMTPIIGTTWQMQDKLPGIEWHS------TAGADLDELLTADILEQAR----LDVKSVPPVAPDPYAFGKALGRLARIALITDQLGDKETSKEAADALGPYLAPWLDGENPDALLYDTAWGGVVSKRGLEDEMEDFGNGWYNDHHFHYGYFIYGAAVAIKYDPSFYTQYRRQLELLVADIANTQTN--SDLFPFARHKDMYDFHSWASGLFPQSNGKSQESISEAINAYYAVHLYGVATKNDALRDWGRVLAQMELRAGHTYWQMPSGTPIYDSNFASNKMAGVVGALDVICNTWFGDKFEYIHAINMMPFTPITEALLRPPFVAEEYPVLARALAHAINFHLTLARALAHGDGVAQEWLGFVYMDQAIVDPNQSWADLLSLRIFDSGNSLTNGLYWSATRPK----HDIAFAKAPAASSNGAKCSANAACAAHALVGE--CCPTSQGVMLNCC 529
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig62.82.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JC22_9PHAE0.000e+072.31Endo-1,3(4)-beta-glucanase n=1 Tax=Ectocarpus sp. ... [more]
D8LU99_ECTSI0.000e+079.16Endo-1,3(4)-beta-glucanase n=1 Tax=Ectocarpus sili... [more]
A0A836CER9_9STRA1.420e-18938.16Endo-1,3(4)-beta-glucanase n=2 Tax=Tribonema minus... [more]
W7TQI2_9STRA2.400e-16339.23Endo-1,3(4)-beta-glucanase n=2 Tax=Monodopsidaceae... [more]
UPI000C784AC51.770e-15741.03probable endo-1,3(4)-beta-glucanase ARB_01444 n=1 ... [more]
A0A850BQD1_9DELT1.250e-14438.69Endo-1,3(4)-beta-glucanase n=1 Tax=Polyangiaceae b... [more]
A0A3S5JUA0_9FLAO1.750e-14237.84Endo-1,3(4)-beta-glucanase n=1 Tax=Crocinitomicace... [more]
A0A3D6DEQ1_9FLAO1.000e-14037.72Endo-1,3(4)-beta-glucanase (Fragment) n=1 Tax=Flav... [more]
A0A2D5DZD2_9FLAO1.750e-14038.33Endo-1,3(4)-beta-glucanase n=1 Tax=Flavobacteriale... [more]
A0A835ZFG2_9STRA4.430e-13946.43Endo-1,3(4)-beta-glucanase n=1 Tax=Tribonema minus... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig62contigP-littoralis_Contig62:337239..369876 +
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.D8LU99
PFAMsAA_permease_2,Glyco_hydro_81
Model size3443
Max annot lvl2759|Eukaryota
KEGG koko:K01180
Hectar predicted targeting categoryother localisation
Exons20
Evalue0.0
EggNOG OGsCOG5498@1|root,KOG2254@2759|Eukaryota
EC3.2.1.6
Descriptionglucan endo-1,4-beta-glucanase activity, C-3 substituted reducing group
Cds size3204
COG categoryM
BRITEko00000,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680791292.4298036-UTR-P-littoralis_Contig62:337238..3372581680791292.4298036-UTR-P-littoralis_Contig62:337238..337258Pylaiella littoralis U1_48UTRP-littoralis_Contig62 337239..337258 +
1680791292.7285395-UTR-P-littoralis_Contig62:369657..3698761680791292.7285395-UTR-P-littoralis_Contig62:369657..369876Pylaiella littoralis U1_48UTRP-littoralis_Contig62 369658..369876 +


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

Feature NameUnique NameSpeciesTypePosition
1680791292.4478986-CDS-P-littoralis_Contig62:337258..3373551680791292.4478986-CDS-P-littoralis_Contig62:337258..337355Pylaiella littoralis U1_48CDSP-littoralis_Contig62 337259..337355 +
1680791292.4582448-CDS-P-littoralis_Contig62:339589..3398251680791292.4582448-CDS-P-littoralis_Contig62:339589..339825Pylaiella littoralis U1_48CDSP-littoralis_Contig62 339590..339825 +
1680791292.4713216-CDS-P-littoralis_Contig62:340212..3404121680791292.4713216-CDS-P-littoralis_Contig62:340212..340412Pylaiella littoralis U1_48CDSP-littoralis_Contig62 340213..340412 +
1680791292.4866216-CDS-P-littoralis_Contig62:341342..3414891680791292.4866216-CDS-P-littoralis_Contig62:341342..341489Pylaiella littoralis U1_48CDSP-littoralis_Contig62 341343..341489 +
1680791292.5031958-CDS-P-littoralis_Contig62:342588..3427331680791292.5031958-CDS-P-littoralis_Contig62:342588..342733Pylaiella littoralis U1_48CDSP-littoralis_Contig62 342589..342733 +
1680791292.5191286-CDS-P-littoralis_Contig62:343504..3436421680791292.5191286-CDS-P-littoralis_Contig62:343504..343642Pylaiella littoralis U1_48CDSP-littoralis_Contig62 343505..343642 +
1680791292.5344894-CDS-P-littoralis_Contig62:344534..3446861680791292.5344894-CDS-P-littoralis_Contig62:344534..344686Pylaiella littoralis U1_48CDSP-littoralis_Contig62 344535..344686 +
1680791292.5466626-CDS-P-littoralis_Contig62:345424..3455541680791292.5466626-CDS-P-littoralis_Contig62:345424..345554Pylaiella littoralis U1_48CDSP-littoralis_Contig62 345425..345554 +
1680791292.5571942-CDS-P-littoralis_Contig62:353325..3535841680791292.5571942-CDS-P-littoralis_Contig62:353325..353584Pylaiella littoralis U1_48CDSP-littoralis_Contig62 353326..353584 +
1680791292.568588-CDS-P-littoralis_Contig62:355319..3553961680791292.568588-CDS-P-littoralis_Contig62:355319..355396Pylaiella littoralis U1_48CDSP-littoralis_Contig62 355320..355396 +
1680791292.5798833-CDS-P-littoralis_Contig62:357567..3576801680791292.5798833-CDS-P-littoralis_Contig62:357567..357680Pylaiella littoralis U1_48CDSP-littoralis_Contig62 357568..357680 +
1680791292.599278-CDS-P-littoralis_Contig62:361907..3620551680791292.599278-CDS-P-littoralis_Contig62:361907..362055Pylaiella littoralis U1_48CDSP-littoralis_Contig62 361908..362055 +
1680791292.6101763-CDS-P-littoralis_Contig62:363646..3638621680791292.6101763-CDS-P-littoralis_Contig62:363646..363862Pylaiella littoralis U1_48CDSP-littoralis_Contig62 363647..363862 +
1680791292.6229079-CDS-P-littoralis_Contig62:364374..3644481680791292.6229079-CDS-P-littoralis_Contig62:364374..364448Pylaiella littoralis U1_48CDSP-littoralis_Contig62 364375..364448 +
1680791292.6374764-CDS-P-littoralis_Contig62:365476..3656131680791292.6374764-CDS-P-littoralis_Contig62:365476..365613Pylaiella littoralis U1_48CDSP-littoralis_Contig62 365477..365613 +
1680791292.6503568-CDS-P-littoralis_Contig62:366516..3666631680791292.6503568-CDS-P-littoralis_Contig62:366516..366663Pylaiella littoralis U1_48CDSP-littoralis_Contig62 366517..366663 +
1680791292.6627069-CDS-P-littoralis_Contig62:367056..3671361680791292.6627069-CDS-P-littoralis_Contig62:367056..367136Pylaiella littoralis U1_48CDSP-littoralis_Contig62 367057..367136 +
1680791292.678068-CDS-P-littoralis_Contig62:367572..3676561680791292.678068-CDS-P-littoralis_Contig62:367572..367656Pylaiella littoralis U1_48CDSP-littoralis_Contig62 367573..367656 +
1680791292.6925924-CDS-P-littoralis_Contig62:368473..3686941680791292.6925924-CDS-P-littoralis_Contig62:368473..368694Pylaiella littoralis U1_48CDSP-littoralis_Contig62 368474..368694 +
1680791292.713072-CDS-P-littoralis_Contig62:369254..3696571680791292.713072-CDS-P-littoralis_Contig62:369254..369657Pylaiella littoralis U1_48CDSP-littoralis_Contig62 369255..369657 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig62.82.2prot_P-littoralis_Contig62.82.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig62 337259..369657 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig62.82.2

>prot_P-littoralis_Contig62.82.2 ID=prot_P-littoralis_Contig62.82.2|Name=mRNA_P-littoralis_Contig62.82.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1068bp
MFQPSNEAAGLVSGLHPVTQRINENRAILKFPENEPRSAEREPLSASSSY
GAVDPEGGGGIAAAAPDDAADPDDDRQEHVRGQRKDETSQNLGWGGRLYL
CVLLVVGLSALVALSGVVRDTPGSVSLESDAAFPFTTTTKHLLRPGPLWG
AVTGPYPTGAWWLNLAIEGGDFPVAPLPYAIKWSDAGVGVSYSAMRRVES
MARVQDVYAADLSVSAKEGVTDRHIVKYDNLTVTLQHDMENQGNFRTLLA
RGSPYMTFEFAGATPRIKTNGEILEFNGEKAKVGVSGFGQIFKLALSNWE
TWMVYTSESVTWKLSSEQEMEMKEPFSGIVRVAVLPHPWDEDSEGTLSKH
ANAYPRGGQVAFAVDGDKMEMRYEWAKDGFGDLLMMALPHHMDMMDTKGG
EVAVVVTGSSYQSIKGPMTGIVGSVWTMRDNLTDIAWASRTPLKEAALAI
DDPLLSLSWETRVRDALSADLASTLPTAPDVYSFGKEVARMARLALIADE
LGDIPSREAALATVNVYLASWMKNDNEDLLVYDKTWGGIVTKNGLNDQNA
DFGNAWYNDHTYHYGYLLYAAAVLTKFRPAFHRTYKKQLEFLVADIAATG
GGEMAKHFPIARQKDFYDGHSWTSGIFSQSNGKSQESVSESINAYYGVYL
LGLATGDDGMKDWGRVLLAMELRGARKYWQMPSESGVYDSFFSSRRMVGM
VASLEAVQLTWFGDNVEYVHCINMLPFTPITEELLHRDFMEQEWPVLATA
YDARDPDPQWSGFIYLAAAVVLPVEAWANVTALTAFDSGNSKTNSFYWIA
TRPKGGPYNETMFPVEVKVEAECSANSACHARGLTQEKLCCPTADGNWLG
CCPSGGGVPEGPSACSSNPECVAASLTDGLCCPALSGEMLACCEHEGNGK
DSNNDDDDETESHGGNEDKAEVVDPQALCSANEGCAALEGSCCPTQQGFY
LSCCGSVHVSTTTGTGTGPKNNSTSSSSTPSPLTAIDTNPTASTSGTTPT
SKPKVSGAAGAGGAGGAGGAEDGSAGVGGDDARDCAKHPGCVALDLQGVC
CPASNGVMLSCCSRGSR*
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mRNA from alignment at P-littoralis_Contig62:337239..369876+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig62.82.2 ID=mRNA_P-littoralis_Contig62.82.2|Name=mRNA_P-littoralis_Contig62.82.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=32638bp|location=Sequence derived from alignment at P-littoralis_Contig62:337239..369876+ (Pylaiella littoralis U1_48)
GAGCGCACCCTTGCAAGCAAATGTTTCAACCTTCCAATGAGGCTGCTGGT
TTGGTGTCAGGCTTGCACCCGGTGACCCAACGGATTAACGAGAATCGAGC
GATTCTCAAGTTTCCTGGTGAGAGATGATCATCAACAAATGACATTGCTC
TGCGCGAGCCGTTATCATACGGAAGCAGCAACGGCAAGAATGAAAATAGA
GTCAAAGTGAGATGCTCTATGTCTGTCTGTCTGAACATGTGCCTGGCAAC
TGCTCTTGCGTAAAGGCGTGGGCCGTTCGGTACTTGAAGGTGGCTTGTGT
GCTTATAGCAAGACTTCGTGTACACATAATCCAAATTGGTCGTGAGTACG
TAGTACAGCACAGCAGTGCTCCTATATTATATACTCCGGAGTATGATCGT
CCGAAATATGCGGCCTAACTTCGAAGCAATTCGACCCATCTCATGCGTAC
CATGTCGTATCATACAAAACGAAACATCGATGAAAGTCGGCAAGTCTGTA
CCCAAACGAGAATCACCCTGCTTCTCTGCTGCTGCTTGTGATGTGATTAT
GTTAAGCCACGCGTTCTGCAGAACGTCAATGTGGTGAATCGCCTCGTGCT
ATTCATACATTCAAGTTGTGGTGGGGCGGGTACCAAAACTGCTGAAAACA
CCCCCCCCAACCCCCCTTCACTCAACTCCGTTGTGCATTGATTCCTCATG
ATGCTTGATGACCTACAGATAGCACTGCTTGCAGTTCGTTCAGCATGCAG
CAGTATTTCATATCACATCATATCTGCCGGGTAAGCTGGTACTTCGTACA
TTACATGACGGTATCATCGTACCTGTGGAGGTAACCTGCTGTTCTAATAG
TCAAATCTCCCCAACGCCTGTCGAGGGCTATTCCCCCCTTTTCTCTTTTG
GCACTTGGCGGTCACCTTCTCATTACCCCCCCCCCCTCCCCTCCTTGTGA
GCACTTTTCCTTTTTGCTATCATAGCCAGGAAGAAGGCTAGAAAACACAA
GTAGTGACCGGAACTCCACCGACTAGCGGCGAGTACCGCCTAGCGGCGAG
TCAAATATTTTCATCTACACACTCTCTTACCTTGCCCGACTACGGTAAGC
ATCGCTCGGCCATCCGCTTGGCATTCCTCGTCACATGCTGCTGCAGCGAC
CAGATAAGACGCTTCTTACCTACGGTATCATAAGCGGGTTACAAAGGATA
CCACCGGATCCTACTTTGGCAGGTAGAGGTCTTCCGGAGTGGCGTGGCGT
CGACGAAGAGTGGATGTTGTGCCTTTTATTTTGCCGCAAGCGTCACGAAT
GCTGAATAAAAAAAATACAGATGACCTCCTTCTCCAAATTATCGACGAAG
AAATACAAGCAAGGGGCAGGCATCCACCACCGACCATCCGAATAATGAGC
AGCCGGGGCCTGCCGATCATCGTAAGATGGAGGTGGTGGAGCTGCACCGC
AGGGGGCGTTGGCATGACCAGTAACCATGAACAAACTCACCAGCAGCCTA
GCTCACGCTCGCCATGCCAGCGACCCCCTCCGGCAGCTCCACCACCGCCA
TCTTGCGATGACAGGAGGGGCCGGCTGCTTATTTGTTCGGAGAGGTCGGT
GGGGGTGCATGCCTGCCCCTTGCTTGTGTTCATTCTCCGCTCTTTTGGAA
GAAGAAATAATGATGTACGTAAAGGGTATAGGCCGAAGTACACATATACT
CCGTATATTTTTGTATTTGTGTTCACCGGTCGTGACGCTTGACGCTTGCC
GCAAAAAAAAAAAAAAGCTATTTGTCGACGCCACTCTGGAAGGCCTCTGC
TTGGTTGAGTAACGTCCCGTGATGTGGTTCCCTTGATAAGTCGTTGCCGT
AGTTTAAGGGCATGTTTCCGCAATAGGGAAACGGGGGTCGCGATGGAATG
TCAGCTTTCGGTGGCAAAAGATCCGGGTTAGGATTCCACCACCCACCAAG
TTTCACCGATTCTGTAGAAGGAAAAAAATGAAAGTAAAAGATAGCGAAGA
TGCGGGACCAATACCAGATTTTGAACGTGTGTAACTCGTGAAGCTGACGT
GGCGGAATTGGGGCACCCGCCTTCATGAAAACCACGAACCGAAGATGGCG
AACAAGATCGTTTGACTCGCCGCCAGCCGGTCGGGTTCCGGTTATACCGC
TAACAGCCTTCTTCTTTTCCTTGTTTCACACACTGCTGTACTGCTGTACA
CGACGCTGTACTACTGCTGTACACGACGTATCTGCCGTATCTGTACTCCT
ACTTACTGTAGCGTCGAAGAATAACTACACGTCCTACGCAAAAACATCAC
ACAGCAGTATCTGTTGAGTGAGTTTCTGCCGCACGACGCTCGCTTGTGCA
GAGAACGAGCCTCGGTCGGCGGAACGGGAACCGCTGTCCGCCTCTTCCAG
CTACGGCGCGGTGGACCCGGAAGGAGGCGGAGGAATAGCCGCAGCAGCAC
CGGACGACGCGGCAGATCCCGATGATGACCGGCAGGAACACGTGCGCGGT
CAGCGAAAAGACGAGACGTCGCAAAACCTGGGGTGGGGAGGGCGCCTCTA
CCTCTGCGTCCTGCTGGTCGTCGGCTTGTCGGCGCTGGTGAGCTATGCCT
CTTGCTTGCTTGGTGTTGCGGTACTCTTAAAATCGTTCCTTCGCGTGTGT
AGGTGTTCGAGTTCGGAGGGGAAGAGGAGGAGAACGGGGGTGAAGGGGGG
GGGGTGGGGGGGGGGGAGGAGGAGACCACAAATTAGTCACTTACCCTGTG
CGCTTGTGCAATATCGATGGAACACAGCTGTTGATGGGTGGCGTATTTAG
ATTCACAACACGCGCGGTGGTTTCCACACACACGCACGCACGCATGCACA
CGCAGACGAATGTGTGCGTCATATAATAAATGCGCATGAAACGAAATACT
TCGTACTTTGTACGCACACATAAAATCCGTTGCTTCTCAAACCTGTTTGT
ATTTTTTGTTGAAATCACTTCCAGGTGGCTCTCTCCGGAGTCGTCCGCGA
CACCCCCGGGAGCGTGTCCCTGGAGAGCGATGCCGCTTTTCCGTTCACGA
CGACGACCAAGCACCTCCTGCGGCCGGGGCCGCTGTGGGGGGCCGTGACG
GGGCCCTACCCCACCGGCGCGTGGTGGCTCAACTTGGCGATCGAGGGCGG
AGATTTTCCGGTCGCGCCCTTGCCGTGAGTCGGTCCATGTTAGTCCCGAG
TCGAAGAAGAAGAAGAATTAATTACGAGGAAATGTTATTTTTTTGCTCTC
CTGGCTTGCTGCTTTCCTGTCCGGGGTCGTATACTGCTGGAGGGAGGGGG
GGAGTCGTCAAGTTAATACAATGCGTGGGGGAGGACGACCGCGCAAAAAC
GGAGGGGTTATGTGGTGTGCGTGCGTCCGGTTGTGAATCGTGATCGTACC
GCACACACACGACTCGATTGGGCCTTGTGCTTGGCTCGTGCCTCGATTTT
CCGTCCAATGAAATCCGTCTCTGTCTCTTGTATCACATGCATCCGATCAA
GTCGCACCAGGTAAAAATGCAGCTACTGTTGGGTTTCGTGCGTGGACTAC
AATGCGACACAGTTGATTGGTCAAACAGCGGTTTCGGAAGACGTCGTCAT
CGCCGTACCTGTGAACTTTCCCTCGGTCCAGACGTGATGCTGTAATGCCG
CGCGCGATAGATGATTGTAGCACGATATAAAAGAAAGACAAACGAGCTTC
CAGCTCGTTCAAACATCTGTGTAAAAAATAAAGAAAACGCATATAGTGTA
TTCCACGCTACGCAAAAAGCAGGATTGTGACTTACAAAGGTGCTACGTGC
ACGCATACCAGACATCACTTGCTGTCGTCGTGTATCTCACAAATGATCTC
ACATGGATGGTTGTATGAGAATGTAGTGCAAAAATGTGATGCACTTTTGA
GTGTGCTACAAACACGCATAAGGGTTAGGGTTAATTGATATCACACCAAA
TGATATGGTATGAAAATGTGCTACAAATACGTGCTACACTTCAAGTGTGA
TACATACATGCATACCACACACCACTCGCTGTTGCGTATCTCACGAATGA
TGTCACATGAAATGATATGTTATGGTATGATATCTACGTTCTGCAAAACA
AAAGATACGCAATCAAGTGGTCGGACGCAGGCGTCGGCGTTTCCTACTCG
GCGATGCGGCGCGTGGAATCCATGGCGCGAGTGCAGGACGTCTACGCGGC
GGATCTCAGCGTGTCCGCCAAGGAAGGGGTAACTGACCGACACATCGTCA
AGTGAGTTTTACGGCCCGGCCCAATAACATCTATGTGATGCCGTGCAATG
CACATCTACATACTCGTCGCGGTGTCGACGGCGCTGCTGGAATGGGGGCT
GAGAGTGTGTCCCACGTGAGCGAATCTTCTTCTTCTTCTTCTTCTTCGTC
TGAGTTACGGTCCGGTCCGACACTGCTTCAACTTTTCATTCATCCAACAG
CACGTTATGTGATGTTATGCCGCCGCCGCCTCCCCCCCCCCACCCACCCC
CTCTGCTCGCAGAATTTGCAACAGAGTACAACCAGGTACCTGGTATGTTT
TTTTCTTCTTTTCAGGAAATTTGCTTCGGCAGGCTTTGATGTATCGTGGT
CCCGGCTAGAGAGACGAGACGGAGTGTGACCCGCTCGCCCCCTTGTCGGC
CTTTATCTGTGTATCTTGTCTGTTTTTGTTACGCCCGGCCGACCTCCCAG
GGGGAGGTAGAATCAAGTGCATCCTTCGATGAGACATGACAAATTTGTAC
AGCATGGCTGCTGCATATCATGGGTGGCTTTGGTACATATGTTCATATGA
GGCCGCCGCCGAGCTCGTACAATTTGTTGTTGCTGTTGTTGCTGTTGTTG
CTGTTGCTGTTGGTGTTGCTGTTGCAGCCAACCACACACGCGTGTATTGC
ATGGCTATTTCCGGTGTTCATCATACTATGTAGCTCGCGGCTGCACTGCT
GAGGTCGTTCGAAGTGCAGCCCAAAATAAAGTCGTGCGTGCATACTGCAC
TTCCATGCTAGTCCTATGTATGTGCGGTCGGGAGCACTTTCCGTGTTGTC
GCAAATTTGTCTTGGGCATTCTCTCACGCTGCCTCTGTGTAAGAGCAGTC
TTGAATCTGCCATGTTGGTGACATTCAAATTGTACCGCCTACACGCCTGA
GCTCTCACGTATGTGCAGCAACAAACCAAGCGTTCCTCCGGGTTCTCTTG
TCTCTGCTGCCGCTGCTGCTGCTGCTGCTGCTGTTGCAGCTGTGACAGGC
AAAGCCCCCGCGCTGGTGGCAAAGCCCCCTTGTGATTGGCACGTATCATA
CAAGAGATGTGCGTCTTTTTCTTTTGTTGTATTTTATTTTGCGTACGCAG
ATACGACAACCTTACGGTAACCCTCCAGCACGACATGGAGAACCAGGGAA
ATTTCCGCACGCTGCTGGCTCGCGGTTCACCGTACATGACCTTCGAGTTC
GCCGGAGCTACTCCTCGGATCAAGACCAATGGGGAAATTCTCGAGGTGAT
TTTTGACGGAGACACACGGAGAAGTAACGAACGGGACTGAACGAAGAAAG
GGAGCAGAACGTACCGGTGGCAGGGTCGTTGTGGTATGCTTTGCTCGGGA
CGGTACAGCTGTATATAGTTCGGCAAATCATGTACTAAGTATCATACCTT
CAGAAGCAACGTCATATCACAGGCACGACACTTTCGGTGCCTGTTGACTC
CTCCTCAAATCTCGTTGGACTCGGTCTTAAAAAGTCTTGTCGCATTGTCT
CTCTTATCTTGTTGGCCCATTCTTGAAATCTGACAGCACGTCGTTCGGGC
AGTGTTTATACCTGTATATGGGGCAACGGTTAGTGGAGTTTGTGTTTTTG
TTTACATTTTTTTTTTCTCTTTTTAGTTTTTTATATGCATGCACAAACAA
ATCGTAAAAGTAAGGGTATTTTGTCAAAACGAAATTCGAAATAATTATCG
CACGATTGTGAAAAGTAGAAAGAAAAAAAAATTGTCACGGTGTGTGCGGT
CTCCAGATCATCACCAGTCACGTCGCCGGTCCTCCAGCCCACCGTGCCTG
TAAGCAAGCAAGTGTCTCTACCTCTCTGCTACCTTCCTTCACCCCCCCAC
CACCTTCACCCCCGAACCCTGATTTTTCGCAGACACCACCCCTGTGTATG
TACGCCTGTCCCCTTCCAAATCTTCTGCCCTTCCCCCCCCCCTGCCTCCC
CTCAACCCGTCCTTGTCACACACATACACACACCTTTCCCACACGAAACG
AAATGGGAAAAACAAGTTTAATGGCGAGAAGGCCAAGGTTGGCGTCTCTG
GCTTCGGCCAGATCTTCAAGCTGGCGCTCTCAAACTGGGAGACGTGGATG
GTCTATACCTCGGAGTCGGTGACGTGGAAGCTTTCTTCGGAGCAAGAGAT
GGAGGTGCGGTGCGGGTTGTTGGGGAGCTTGTTTTTCGGTGTGGTGCGGT
GCGGTAACGAATGTGTTGTGTAGGAAAGTGCTGCTGCTGCTGCTGCTGCT
GCTGCTGTTGTTGTTGGTTATGGTTATGGTTTTAGCTGCGGTCGCCCGCC
AGGCACGAAAACACTTTTTTGTCTTGTGTGTGCTTCTCGTTGTGTTTCCG
TGTGTTGGCGTGCGAGGAAGGGCGTTTCGTGGGCAAACAACGCGTTTTTC
TCTATTTCCATGTTTCCTTGTTTTGAGGGGAGGCTCAGCTTGAGCGCGTG
AGCATGTGCAGCATGTTTACCCCCACTGTTTTGCGTTATGTACCTTCAGC
GTGTGTGTTTGCGTGGTTCATCTGCGTGGTTGTGCGTGTGCGTGTGCGTG
TGCGTGTGCGTGTGCGTGTACGTGTGCGTGTCCTTGTGCTTGTGTTCGTG
TGTTCGTGTGTTGACCGCTTTCACGTACAGGGGCGGGACACACTTCACCG
TTCGCGCTGTTCGTGTGTGCGTGCGTGTGTGTTTTTTTTTTTAGCTGGGT
TTGTGTTTCGTCGTCGTTTTACGCGTGATGATTGTCGTTGACGTCATCAT
CGTAGTTAACACGACAAGCCTCGATTTCAACGACAGGGCAAGGCAAGGCA
AGGCGAGGCAAGGCAGCCGGTCGTTGCACGGGTGTCCTCTAAAATGCTTG
TCTATTGCCATTCGGCGGGGGCATTTTAGTTTTTTGTTTTCCGATTTTCG
CCGGCGTTTTTTTCCCCACGCCGCCCCACCGCCCCATCGCCTGCTGCTCA
ACTTGGTGGTCGGTTGGTTGGTTTGCTCGTCGCTTTTTTTTTTCTCTTTT
CTGTTATTTTCTTTACATTTTCTTTGCTTTTTTCTCGACGACACAGATGA
AGGAGCCGTTTTCGGGCATCGTGCGCGTCGCCGTTCTGCCGCACCCTTGG
GACGAGGACAGCGAGGGCACGCTGTCGAAACACGCCAATGCTTACCCCCG
AGGGGGTCAGGTGGCCTTCGCGGTGGACGGAGATAAAATGGAGATGAGGT
GAGCGTGTTCGTGTGTTTTTCATTTTGTTTCGTCGTGCACGGGTATCATG
TGTTCGTAACGCCGGTGTGGAGCGGAAACTGCTGCGTAGAGAACAAAAAA
CCGAGTACTACAGCAGTACAGCGTCACAAAAAAAGGGTGGTCCTTCGTGG
CGTGCTTAGTAAATTACGAAAAGGTACTACTGCTGTATATTTCGGAGTAC
ATAATTATGTCACCTGAGCATACGAATGAAGTCGATGACTGCTGTTAATA
TTCCGGGGAATGAATTTGCGGTGTTTGTGTGTGTATGAAACATGGAATGT
GTGAAGTCAGAACCAAAAGACGCACACACGAAACAAAACCGAGATATAGA
AAGGAAACAAAACGGATATAAGGCAAATAAGCAGAACGGAGACAAGGAAA
GGAAACAAAACGGATATAAGGAAAATAAGCAGAACGGAGACAAGGAAAGG
AAACAAAACGGAGGCGAGGAAAGAAAAAAAAAACGGAGATGAGGAAAGGA
ACACGCACACACACAAGAGAGCGACAGAGAAAGAGAGGGGGGGGGGGGGT
GGGAGGAGAGAGAGTCCGCTACACTGATGTATTTATGTCGTTACCCGTGA
CCTCCTGTTTTCAACTCGTCGATCACTGACCGAGGGCAGTTCTCGGTCGT
TTATATTCGCTTCGCTTCTCTCCGTACCCCCGGGCGTTTTTTCACGTGTG
GGGTTGGGTGGGGCTGGACCGATTGTCCGGTGACAGATACGAGTGGGCCA
AGGATGGTTTCGGCGACCTGCTGATGATGGCGCTGCCCCATCACATGGAC
ATGATGGACACCAAAGGGGGGGAGGTAGCGGTCGTTGTGACGGGCAGCAG
CTATCAGAGCATCAAGGTCAGGGAGCGTTGGTTGTCGGCGTTTATTTTTG
TGTTTGTTTTTTTAGTTCGCGTCACCCACCACACACAGATCTCTTGCTGT
CTCTCATCGAGACTTTTCATGTCATCATGCCTGATTGCTATCACCATTGA
CTACTTCGAAGACAACTTCACAGACTGCTGTGTACCAATGGCTACTGCTA
CCGGGTTATCTGCTTCTATTGCAACTGCTGCGGTGTCTATCTCCATGGGC
GAGGGGACCCGAGCAGGGCCCCGTCGTTCCCTGGTAGCCACTGGTACACA
GCAGTCTGTGAAAAAGTTGGAATAGCTAGTGGTAGCAAGAGGGATACCAA
ACACCACGTACAGAGCGTTCGTCCTTGGGCAGACAAGAGTCATGCACAGC
AGTCGAAGGACCAGGTTATTGTCCGTAGCCGAGTACAGAGACCAGGAGTT
GAGAAGCAGGATAAGGGTCGGAATGCAAAACGCGCACGCGCGTCGAGTTG
TTTGACTGTAGCCCCACAGGCCAAACACGTGTCCCGCGTTAAAAACACGC
CATTACCATTGTTTGCGTACTCCTATCATGCACACCACCTTCGTTGCATT
GTTCCAGACAATACGCAGCCTTCCATGCGTCCGCGTCAAGCAGGTATCCA
CAATATCTCTGCGCGATAAACGCATCATCCAAACGAGTTCATATTCCTGC
CCGCGTACACAACCGCCCTCGGTCCGATTTGACGGTTGAGACAGCAGCCG
ACGTGCCTTGCACATCATATCGGCAGAATTTTTGAAAACACACCCAGCAC
TAAAAAATAAACCGTTCACACCGGTTCCACCAGGAGCTCTTAAACTCAAC
AGCGCCGATGAGTCACCTCTGAAAAACAAATTAGGGCGCATACGTTTTGC
TTTGACACTTGGCGAAACTACACCACCTGTAGAAGCGCTTGTGTTGCCAA
ATGTAGGACCAGACAACATGCTAAGTACTTCAAGTATTAGATAACAGCGT
TTTGGACGCGTTTGAGCGAGGACCGAGGAAACTTCTGAGAAAAATTCCGT
TCGGAAAGTACGAGCCAAACACCGACAATCCAGCACCGTCAGACAACCCG
CAGCTGATGTGACCTCACGGCAGTGCTCTGTCGTCACCTTGGATCCTTCT
TCGGTCGGTGCGGTGCGGTACCTGGATGATGTACCTGAGTAAGAAATGCT
GCATCCCTCCAGGGCATGAAATTGCAGCAGAAGAAGCACGGCAGGAGACC
ACCCCTGCGTTGATAGAACCACGATCATTACTGCTCACGATACTGAGTCA
GAATTTGAATCGGGCAACGAATCTTCTGAGCATGTCAGCAATAACGATAG
ATGTGCAATCTGCTCAGCGCGTACCCAACGCGTTCCACCACATGGTTGTT
GCCAGGACTGCTGTTCGCAACTGGTCAGCAGAAGATTATGCTGCTGCAGT
ACAACTTGCGAACCCATCGAAACACCACGTACATACCGAACGCGATACAA
TTTTGGGTTACATCTCACGAATTGAAACCGTGGCTGCACAAAGCATCAGC
GCGGTGAACAGGGATCACCACCCCTTGAGGCAGAAACGAGATGAACGGAA
ACACGCAATGGGGAAAGCTTTCAAAGGCACTACCTTCTCCCCTGAACAAT
GCTCACAAGTTCTTGATCTCTGCCCGAAGTACCCGTATTGTATTTTCATT
TTATCTCCTGAAGAGCTGGGTGAATGCACGAATATCCACTTTCAGCCCAA
CACCAAACCAGTCGATCGTGCGGCTTACAGAATCCATCTTCGAGCACAGC
AAGTAATCGACCAGTGCGTTGAACAAACGGTACAAGACGGTATCATCGAA
CAAAGTACCCAGCCCATACTTGTAGGGATCTGCTGTACCTTTAGTAGCCA
GAGCTGACGGAACCCCGCGTTTCTGCGTGGATTTGCGTTCGACGGTGAGC
AAAAACTTGATTCGAAAATCCTGGCCGATGCCAGATATCGAAGCGCATAC
CACCACATCCCTGGAAAATCAGCAGAACAAGACGAAACCGCTTTTGTAAC
ACACAACGGGAAGTGGGTATTCGAACGCCTACATTTCGGGATTGCAAATG
CACCTTTTTTTCTGTTGGCTCGCATGATGTCGTTGGCGTTTGCTCACTCC
GGACCCCGGAGTGGCTCACTCGTGTAGATGGACGATATCACCTGCTGTTC
CTGCACTTGGGAGAGTCATTTTTCACTGCTCGAAAATGTGTTTCAAGCAA
TAGAAGCAGCAGGACTTGCACCAAAACCCTACAAGATCACTTCGGTCACA
TTCTGTCATCAGAAAGGCACCCGCCGCATCGGAAAGGATCGCATCAAAGC
CATCGCAGACCTTCCAACACCTACCACCGTCAAAGAACTGCGCTCTGTTT
TGTAAGAAAATTCATTACAGACCTACCTACTGTAACAGCACCTCTGGTCG
AAGTTGCAGGGAAGGAGGCCGTTCAATAAGTTGCGAAGCGTGGAAGCCTG
GAACATGATGAAGCATCCGCACAAGTGAAACGACTACTCACTGATCTCAC
TGATGCACCCACCTTACACTCTTTCCAGACTTTACCAAATAATTCGTTGT
ACGTGTTGATGCTACTGTAGCGAAGTTGGTGCTGGAGCATTCCTTGCCCA
ACCAAACGGCGAAGACTTGTCCATCGAGGCATACTTTAGCCAACGTTCTA
ACGCGGCACAATGCCATTATTCGGCTACATTCAAGGGGTGTTATGGTGTC
GTCCTCGCAATACAACACTCTGTAGATGCCACCTTTGGGGAAAACACTTT
TATGTTGTGACCGATCACGCTGTGACCGATCACGCTGCACTTAGATATCT
GTATACTTGCAGGACGCTTCGAACATGTTGACCCGGTGGGCTATTGCATT
GCAGTTTGACTTTACTGTCACATACAAAACCGACAAGTTGGACGTTGTCC
CGGACACCCGATCTCGATTGTTTGCTTTTGAACATCAGCAACACCTAGAT
GCCCCGAAGCTGGCACCTATTCGTAGGAACTTACCAGACGACCCTGCTTT
GCGCACACATATATACCCCACCCAGACCACACCATGTGCCAGCCGATCGC
CTGGACAATTTACAACCTGTTCGAAGCGATCGTGAACTTTTCACTGATGA
CTCCGTCTACATTTTCGCAACTAACGTTTTCGAAACAATCAACCAGGATA
TCTCACGTGAAAAACAAGCAGCCGGGTATGGCAAATGCATCCATTACCGT
ATATCGTGAACACAGATGCGCACCCATCCCTGTCAACGAGACACCAACTA
CAATGTCTAACTTTTTGGTACAGGACGGTCTGCGGAAGCGAAACATGTTT
GTCAACGAACTCGTGTTACCACAAGCCCTCACAGTTTGGTATTACACGCT
TGCCATGATCACGTGTTGTCTGGAGGTCATCTAGCGTCTAGACCAAGAGA
TGCGATAAAATTCGCCATAAATACTGGTGGCCAGACGTGAATCGCGACGT
TCGAAACTGGTGTGAGGAATGCCAAGCGTGTCAACGCCGCAAAACCCCTC
ACAGCCGAGAGAAAATACCAACTGGATACGTACCAGTAACACGACCGTTC
GAACGCACACCAGCAGACTGGGGTTGAATATAAAGCGGACTCAAGCGTAG
ATACGTTATTTCCATGATGGACCACCTGACCCGGTTTACTGTGCTGACGC
CTATCCCCAATAAATCAGCCACTACGGTTGCGCATACGATTCTTGTCGGA
ATCTTTTGGATCAACCGAAATGTTACATTCTGACCAAGGTAATCGATCAG
TTGCATAGTATTCTCAAGTAAAAGAAAACTCGAACGACACCATACCGCCT
ACAACGCAACTCTGTGTCCGAACATGTACATTCAACCATGCACGCAATGC
TTGCCATGCATAGTTCGATGAACCGTGATAACTGGGCTTCCTTCCTTCCA
TTTATACAACTGGCATACGACATACCGGTATCTTTTAGCGCTACGATGCA
CGATACACCATTTTTTCTCATGTTCGGCAGACAACCAAGATCCCCTGTTG
ACATCATCCTTGGCATCACTCACGTGGGAAACACAGCAGGTACAGAGGAC
TTAATCAAGAGATACACATGAAAAATTGTAGATTGCTTCTGAGCTTGCGA
TGCGTAATCCCAACGAACGTGCACAAAAACAAGCAGATACTGTAGCAATG
CCAAACTCCGTTCCTACCCCGTGTTCAAACCTGGTACACAAGTGCTAGTG
TATCGGCCATACCAGGACTCGGACGGACCCAACCCCAAACTTCTGTTACC
TTGGCGAGGACCTTACGTGGTGTGCTCACAGCTCTCACCCGTAGTATACA
GGGTACGGCGTCTCAACGAAACTAGAGAAGTGTCAGTACATCTCGCCCAC
ATAAAACTATACCACGCGCGGAGCAAACTCCCGGCACCTGATTTTGACAA
ATTGTCCGAAATTTTCTTAGGCCGACAAATACGGTTACCCACGGTAGACC
ATCCTGATGAGACTCCACCCAAAAGCGAGTCATATCTTATGGACAACATC
ATCGACCACACGCGTGGACAGGGTCCGAAAGCTCCGTTCAACTACCAATA
CCCCATACGTCTGAAGGGATATGGACCCGAATCAGATCTCATGTACCGTG
CTGATGAAATCCCACAATGTCACGAAATGATGGCTGCGTACCGAATCCGC
TGTGTTTTGAAAGTCGCGCCTCCTAAACGGCCCTTGACTCGCAACTCCAA
CTGATGCTTCATCACCTCTTCCAGGTAGCAAGCGACAACCGAACGCAAGA
TAGGAGATGGGTGGAAAACAGATGGAGCGCTTTGTTAAACATCTGTAGCT
CAGCAGCTCACTGATATGCCTCACCAGGCATCATGCAATTGCACACAAGA
GATAAAAATCCTGTTTTATGCGATGTTTGTATTTACCCAAACAATTGAAA
TCGCGACGGTGAAGAGGATTATCACACACGATGACCCTATCAGCTTTTTC
TCGGAAAATGCTGGCAAGGAGAAAACCAATACCATTGGACGAAATTTTCA
GCGCTTGGGACGTCACGCGCACAACACGACCCAACGACCTACCCCATAGC
AAGATTTACTCGTCCAACCACCTTTCTCTACCACCACATGATTGACCCTC
CACACGAAGTTTCTTTTCGAATCCTTCGACGGAGCCACCCAATCACTCCA
ACTCAGTATCGGCCACGCGACCGACCCCGATTACCACATCTCAACGAGAT
GCAAACCACCATCGTCATGCTGCGATACAGACATACCATGGCACATTGCA
ATTAGCAACCACATTTCATTTGACATATGATATATATACATTATGCCACA
ATACCGGTACATCCCTAGAAAAGATGGATTTGTGACACATCAAATGGGGA
GGGATGTGGATGACGGCTGTAGTGACATCACAACCATGGTAGGCACACAC
AAAAAATATAGGAAGAACCGAATCCTCTCGGACCATTAGGATCGAGGTCC
GTTGACCATCTGACGATCCGATGGATATCTGGTTCTTCCTGTTGGTAAGC
AACAGGCCGGACTTCCCTCCGGTCACCCCGTTCCCACTCTACCTTTTGGA
CCCTCCTTGCCAGATTTACGGAAGAAAACCTTGACCCTGCCTCTGGTCGT
GGGCTTACACGACCACTCCTTGGGACCAACTACGGCTGCGCCCACTCACG
GTAGCCTAGGTTCATAGAAGCATCATCTTTTTTACTGTTGTTATCATTGC
GATATCGTTATCATGTCGTGATTATAATATCATTGCTTGGTATGGAGGAT
CCGTGTCTGTACTATTCGTACGTGCTGTGCACTGTTTATTCGATGTCCTG
GCATCCACAGAAGTATTGCCACTTAGTTGTTCTCTATTTTCATGACTGCT
GCTGTGTATCCCTGCTTCATGCAACCAACACACCTGCTACCTGTGTCTGT
CCGCAGGACGGTTCTCGCGTTAGGAACGTTCCTCGCGTCATCTGCCCGAA
CGGTCTCGACTTCCTCTCGTCTCTCGCGCAGTCATCCTCATCCTCACACG
CACTCCGTCCCAGATCACTTGTCGCGCTTTCCCCCACTTTTTTTTTTTTT
TTTGTTAATTCCGCGGATGAGCCCGAACTTTCGGACGTGGCCGTGTCACA
CACATAGGCTTGCCTTTCCCGAGCCGTCACTACAAGTGTGTACCTTACCG
TGTACGATTCGAGGGAGAGAAGCGCGCTCATCGAAGCGGCTTCTTCCGAG
AAAACTCACAAAACACAAACGACAGAGATGAGACGTCATGCGGCTTCTAC
TGCCGTATCGTATCATATGTACGTCAAGGATAGAAAGACGAAGAGTCTTG
GTTCAAAAAGAAATCTCTCCGAGCCCCGGTCGGAGGTGAAACACGAAAAA
ATAAAAATAATTATCAGATCCTGGCCTGGTGGCGCATGTGCTCACGGTAC
TTGCGCCTTTGTATGATACGGTTTTCGGCTCTCAAGAGAGACAAGAGCCA
CGGGGGTGTGCAGTCGTTGATTTGTCTTGTCCAGCGACACACGTTACGAC
AGCACACGTGACTTCAGTCTGGTCCTGCACATTGCACACGTTTTTGCCTC
GGAGTACAGTTATTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAG
TCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAATAAA
ATAAAGTAAAATAAATGGACTATGATCACCCACAGTCAAATCAGATAGGG
TACCGTTGGGGTACCATCTGTGGTGGCCAAAGTACCAAACAAAATACAGA
AAAAAAAAGAACAGGTTCGAAAGAAAAAACAAAAATTGGAAACAGTACGA
AAAAAAAAAAGAGATAAGCCTCAACCGTAACCATATACTTTGAAGTACTT
CGTACATCGAACTAGGGCCCAGGGCCATGACAGACCAAGGCAAAGGCAAA
CCAGGGCGCATGGTCCAGTAACTACATGATCAACAGACGAAAGACAAAAT
AAAAAAGATACAGGGAGGGCACAAAGACTGAGGGAGTGCACTCGTACACA
AGTATCTGTTCATGACTCCGCGCGGCGCGACGCAAAAAGGGGGTAAAAAA
AAAAGACGCAAGCAGCACAATGCGCGATGCACGGCACGCATATATTTCGC
GGGGGGTGCGAAGCGTGTGCTCGCTGTGTCGAGTGGGAAAGGGGAAGGGG
AAAATCGAATCAAATAGTTCCGATTTTACTTTATTTCAGAAATTCGCCCC
TCCCTCCCCCCCCCCTCCTCTAGGTCATGTTTTTTTCTGTTGATTATGCA
GAGACATTCTTCCCCCCCCCCTCTTTTTATTTGTTTTCCGAACGGCTGGT
GGGCGGTGCCCAGGGGGGCCATTCGTCCTCGAGGACATTTTCTGCGCCAA
AACAAATAATCTACAGCAGTGGCAGGGGTGGAGATGCTTTGAGCGGTATG
GTAATTAGTGATCATGATGTGATGAGAATCGTTGAGGAACACCCTCTGCA
GACTGCAACGCCATTCACCTAAAGCACGGGGACGATCTACACGTATTGAA
CCCCTGTCAGAGAAGATTGATTCCGCGGGCATTCCGGCCGAGACATGAGA
TATATTAAAAAAAAAAAAATTAAAAAAACGTGTTTGTTGATTTTTATCTG
TTAGTCGACGCCAATGTGAAAAGAGGGAATTCGTCCTCGATAGACGTTGT
GGGAATGTACCCCTTATGAAGGGGTCCTGTTCCGCATGTTTTCTTTTTTC
TCTTTTCTTTTTCTCATTTACTCTTCTAACTTTGCAGGGACCGATGACCG
GGATCGTCGGGAGCGTCTGGACCATGCGCGACAACCTCACGGACATCGCT
TGGGCCTCGAGAACGCCGCTCAAGGAGGCGGCGCTGGCCATAGACGATCC
CCTGCTGTCGCTGTCGTGGGAGACGCGGGTGCGGGACGCCCTTTCCGCCG
ATCTGGCGTCGACGCTGCCCACCGCGCCGGACGTTTACTCTTTCGGGAAG
GAGGTCGCGAGGATGGCGAGGCTGGCGCTCATCGCTGACGAACTGGGTGA
GCTTTCGTACAGTATGTATGACGTGTAGTGTTGTTGTCTGTCTGTCTGTC
TGTCTGTCTGTCGGTCGTTGGGCGGAGGGAGGGCCTGTGTGTTGGTGGTG
GTGGTGGTGGTGGCGAGGCTCGAGAGGGCGGTGGTGCGGTGGTGCTATTG
TATGTTGTCGTTGTCGTTGTTGCTGTTGCTGTTGCTGTTGTTGTTTTTGT
TGTTGTTGATTTTTTTGTTCTTGTTCTTGCTGTTCTTGCTGTTCTTGCTG
TTGCTGATGTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTT
CTTGTTCTTGTTCTTGCTGTTGTTCTTGTTGTTGTTTTATTGTTGTTCAT
GTTCTTCCTCTTGTGAGTTGTTGAGGTGGTGCTGGTTTATTCAAGACGCG
AGCTTTCCTTGCCGTTTCCTTTGTTCTCCTTCTCTTTTTCTCCTTTTTTA
CGATAGACTTTGTCGAAGAGATTGATGCACTGCAGTGAAATTGCCCGCCC
CCGCCCCGTGTGGCGATCGCTTTTTACCAAGCCAACGCGACCGACTGACT
CAAAGCACAGTACAGCAAAGCACGGCATAAAACATGATGGCGGCAGGAGC
AATCGTGCTCTCGCCCTGGGTGTCAGCGCCCTCCGTAGCTACATGGCGTC
GACTTGTGTACGGGGCCTTACCCGTTTTGTCGCGCCTACTTTTTATTCTT
ATTTTTCTCTTTTTAGTCTTTCACTCATCCGGAGGGGGGTATTGTACGGT
AGATATTGTCACATGTAGCAGTAGATCTGTCATTGAAAATGGCGGTGCGG
CTCGTTTTTTGTGTTTCGCCGGTGCCAGGTGACACTCTTTTTTTTCTTTT
TTTTTTGGCTCACAGTCACTCGGAGGGGAAGGCGATCGACGACCCTTCCC
GGGAAACGGTCCCGGCCACTTCGGGCGCCTCTGCCCGCCTCTATGGCCAA
CACAACGACGGGCATCTCCCCCGTCTTGTGATACCCGTATCACAGAAACT
ACACCCCGGTGGTGACTTTTTTTAGTTTCTGAGTTTCAAAAAAGTAACAC
CCTGGGGTGGTTTCTCGCATCGTAGGGGGGTGTGGGGGCTATATGGTGTC
TAAGGCACCACGACTACGTACGGGATCTGAAAGCTCTTCTCCTATTCGGG
TGCATTTCGTGCCATCTTAAAAAAAGCACCACCCGGTGTGGTTTTTCTGC
AGAGGGGCGTTAAGGGGGTGTGGCATCTAAAAGGGGGGGTTGATTTTTTA
TACTTCGTACGATCTACGGTACAGTATACCGGTAAGTTTCATTTCTGATT
CCCACCGTCTTTTGAGTCATGAAAAATAAATGATTACACCCGTTTTCGCT
CGACAGTTGGGGAGGCTCCTTTGCCTATGACATTACTAGTCGAAAGAAAA
GGAACGACGGGGTTCAAATGCATGTGATACCTCCTTGGAACAGCGCTTAT
TGCTTCGTGCGTATCATACCACTCCACTGTATGGTACAACTGTACTTAAC
CCATCCTCTCAGGCACCAAGATGATAGTATCATGCTTGTCGTCCTCCCAC
AAACCTCGAAACCAAAACTAAATCACATGTTTCGCGATCAAATGTGGATG
GTCAATGTGTGTGTGTCTGTTTCGGTTCATCATCGTCGTATCATATGACA
TTTTTTTTTTTTTTTCGTCTTTCCTCGCCGTTTTTTGTCACTTTTTTTTT
TGGTTCACGGGGCGGGGGTGGGCACACACAGGGGACATTCCTTCAAGAGA
GGCAGCCCTGGCCACCGTGAACGTCTACCTCGCCTCCTGGATGAAGAACG
ACAACGAGGTACAGACAGTAGTATTGGATTTGCACGATGCGTACGATCGC
TGGGGTAAAGAAAAGGGGGAACGACACAACAGGGTGCGCGCCCTGGTCAT
TCTGCGACTCAGCAGGGTGCACACTCTTTCCGAGCGTGAAACGAACCAAG
CTGATTGGTCAAACCTCGAAACCACCCTCTTGAGCCGGAAAAGTGCCCGG
GTGCGCACCCCGCGGAGGCTACTTTTCTTCAGAACTACACCCTGATTTTT
GAAAAGCACCCTGTTGTGTCGGTAAATGAGACCCCCTCCACCGGATGTTC
CTCCCGCAGGAATCACTTTCCGCACCCGCCAAAAGGCACCAAATATGAGA
TCTTCCACTGCCAAACATACAATGGTGAACACTTTGACCGGCACGACGGA
CCTGCCGCATACCCCTCCACATCGACTCTTCAGGCTCTAAACATACAAAG
GCACGCTGCTGTACCAACAGATCAGAGTGCCGTTGCCAGCACACAAACTG
CAGATCCGCCGACAGCAAACAGAGACACCAGCCCGAAACAGAACACATTT
GTTGGCCCTGCTGCAAACACTCGCAGAGCACACAACAAAAAGAACGCAGA
AGAAAGACAAAGTAGCCACACAACTGCCAGACAGTCAGTGCAACAGACGG
ACACATGTAACGGCGGGACGCGCGACTCACAGCAGTGCAGACACAAGTAG
ACGTTGGAAGCAGAGAGCAAACAGTGCTGGCATGGGGAGGCACACACAAC
AGGGGGCATAAAAAAGTCGACTGCTGTGAGACCCATTCAGTATTGATGCA
CTGAACAGAGAGGGAACCACACACCCACCTTTGACCCACATTGCCCCCTT
AACTGTACTTTATACAACGACACACAGAAGTCACAACACCCGAACGTCGG
AATTGAGTTTTACCCCGACCAAGTATGTCAGCCATTCCGCTTACTGTCCC
GGTTCGGTAGAGAACACAACAACAGGTACAGTGCTGAAGAGTCGATGTGG
AGGGGTATGCGGTAGGTCCGTCGTGCCGGTCAAAACGTTCGCCATTGTAT
GTTTAGCGGTGGAAGATCTCATATTTGGTGCCCTTTGGCGGGTGCGGAAA
GCGATTCCTGCGGGAGAAATATCCGGTGGAGGGGTCTCATTTACCGACAC
AACAGGGTGCTTTTCAAAAATCAGGGTGTAGTTCTGAGGAAAGGTAGCCT
CCGCGGGGTGCGCACCCGGGCACTTTTCCGGCTCAACAGGGTGGTTTCGA
GGTTGGACCAATCAGCTTGGTTCGTTTCACGCTCGGAAAAAGTATGCACC
CTGCTGAGTCGCAGAATGACCAGGGTGCACCCGGTTGTGCCGTTCCCCCT
AAAAAAAATCAAAATTTAGGCTTCCTAGCTTCGAAGCTCTGACGAAGTAA
ATAAATAATACGATTATTCAATTCGCCTGTGAAACTGTTTTTTTTTTTAA
CGTGTGGATGCCGGCTGTACGTAGTGACATCACAACCATTATACCGGTAT
GCACATGAGCCCATCGTCAGTCAGAGGCCCGAACGGGGTTGGACGCGACC
GCTGGATTGCCTTTGTCCTTGTCGCATACGTATGTGGGTTTTTTTCTTCA
GGCCCTCTTCGCGGCACAAGGGGTCGCAAAAATTCGCCGTGCCGTTGTCG
TAGGTGTATTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCGCCATGGT
GACGTACGCGAGAGTTCGGGTCTTCGTCGGGACCCCAATGCATAGGTGCT
ATGAGGGCTTGGTCCTATCCCACCATGCGGGCGGCGTCTTCTTTCTTCCT
TTCTTTGCTGAGATGTGGCGAGGAATGCCAAGCGTCTCCGAGCGAATTCG
GATAGACTAGGGTAAGGTTGAGAGAGTTGAGGTCAAACCATCGTGGCTGT
TTTTCTCCGACCCTGAAAGGTTCGTGTCAGCGTTTTCGCAGCAACTGAGG
AACCACCTGTGTGCAGATATGGATGCCGTTAGGATCACGTTGTCCCCGAT
TTGAATGTGCGTGTGTACTGCCAAGAAGATTCAATATCTTGGCATCCACA
TCATATTTATGTACTGTACTTACTTTTGTTATTTTTTTACCATTTACTAT
TATTATCAGTATCATCAATGTTCTTATTAATAGCATCATTTCTTATACTA
TTGTCGTTTTCTTTTTTTGTGAATACAAGGACCTGCTGGTGTACGACAAG
ACGTGGGGAGGCATTGTGACGAAGAACGGCCTGAACGATCAGAACGCCGA
CTTCGGGAACGCCTGGTACAACGACCACACCTACCACTACGGGTGAGAGA
CGGACGACACTAACACAACACTAACACTTACACTAACACTCACACTGACA
TGAGACGAAGCGAAAGGAAAACCCGTGATCAAATCATGCCTGTGGCAAAG
CAACGAATGGTGGGTCACATAGACACAAAAACACAGGACAAACACTAACA
CTAGCACTAACACTAACACTAACACTAACACTAACGTGACATAGCGAACA
AAAACCCCATAATCAAATCATGGCTGTAGCAAGAGAAACGATTGATGGAT
CACCCAACAGCCTCACCTCTGTCTTTGTTGGCCACATCTCATGTGTCAAA
AACCGTTTATCTTGAAGAGGAGTGTTTTTGAATATTGAATATTGGTCAAA
GATCGCGCATCTTCTATGATCGGAAACAGCCTTTTCAGATGACAACTTTC
TGAATGACTTTTTCCGATAGCCACAAACGATCAGATTTCTTGTTTTTCTG
ATGGCCGGCTCCTATCAAAAACGTCTATTTTTTTGGGGAGTCAAGTAGTT
TGAACACCCCACGTCAGAGTCAGCCTTGCTTGATGAGATGACCTGTAAGC
TTTGTTTATGTAGCCCATCGATTCCTCGCGGCTTCTGGTGACCGCAACAG
GAGAAGGAACATACTCACAGATCACGGCTGATGGCTTTGGTATTGCTGTG
GTGGGTAATTCCCTTCGAGAGCGATGGACCAAAAACCAAAATGGATCGGA
TTGAGTGCTGGCAGCTAGCCGCTGCTGCTGCTGTGGTCTGAACTCTTCTT
CGACAGCCAGCAAGAATATTTGTCGCCACAGTTTGGCATGTTGTTGATCA
CTCTCGAATGAATGAAGCCACAGTAATTGCAAAGGCATACCTCGCGAGCT
GTGTACATGGTTCTTCTCCTGCGGTGGTAATCTGAACAAGCGAGGAATCG
ATAGGCTGGCATAAAAGGATTGCAGGAATCGATCACATGCGGAAAACAGA
AGAGATCACAACCACCTGCTGGGAGCTGTATTTTTTTTTTTTTTTTTCAA
AAGTCATCGATGATGCCTGCAAACTTTTTCGCTAGCCTATCGATACATCG
CGTCCTCTGTACGTGTCTCGGCGTGTACCTAGTGGGGAAGGCACACGTAT
TCATAATTTCATCGGTATACTTCATACACAGCACTATCCCAACATGGGGC
CCCCTTTTTAGATTTTTTTGGATAAGAAAAACGGATCTGGCGCGTACATT
AAGCTCCGGTCGATCCACACACGCGCTTTTTATCTCCACCTCTGTGTGCA
GGCATTTCCTTTCGCTCCTCACGCCCTGCACAAAAGAAAATTGTACCGCT
GCTGTACGCGCGTAGGCCACCAAGCAGTCAGCTTGTGAAGTATCGTGTCT
CTGCTGTTGAAAATGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
CTTGCTGTTATTCTTGCTGTTGTTCTCGTCGTTTCTTCTTATCTGCCCGT
ATGTATTCCACCCCCCCCCCCCCCCCCCGTATCCGTACTTGTAGCTCTCA
TGGTAGCGCGCCCCAAGCTGTGCTCACAGTACACTAGTACCGGTACAGCA
GTGCTGACCCACCTCCAACAAATACCCATGAATCTTGAGCAAGGCTCAAA
ACATCGTCTTGTCCCCACCACCAAGCACGAGCTGTTTTTGTATAGCTCAT
AGCTCATCCTGTCCCCCACCAAGCATAGGCCACTACTGTTTTATACCTTG
ACGTGTCGCCACTATAATACCAATCAATCGCAGGCTGTTTTTGTTTACCT
TACTCTGTCCCCACCACAAAGCACAAATCGTTATTCATACCCTATCTTGT
CCCCGGTGCGGGCTAGTACTTGGAAGAATTTAGTTCGGCGATGGTCCTTT
AGCCCAATTTCTTGGATCGATTTTATGAAGTTTACATGTCGAAAAAATCA
GGGAGCCTAGGTTGTACCAGGTATGTTACGGAGGTATTGGTTACCAGCGC
TCCGGACGCGTGGGTCTGACGGCCCACCCGTCCTCTGTGCAGGGCGAGAA
GAGGAGATAGATGGATGAAAACCGAAGAAAGGTGTAAAACTAATTTTGCA
CGCCAAGAGTGCAGGATGCGCAGACGTTTTTGTTTGCTTGTAATTTATAC
AGATGGAGGGCGGGAAGAGGATATCAGGTGGGTTCGAAGGCGACAAGTTG
TTGAAAACGGCGTATACCACCAAGACTGACTGCTGTGTGTGCGTGTTCAT
CCCATGTTTTCTGGGCACCGGTCTGCACCTGCCTTTCGGTGTGAAGCGGG
TGCACCGGCCGGAGTCACACACGAGCTTTTTCGTTTTCCATTTGGCGAAA
GGTTGAGGTTTTAATCGGCATAATATATACTACCAAGACTGCCTGCTGTG
TGTGCGTGTTCATCCCATCTTTTCGTGGCACTGGTCTACACCTACCTTTC
GGTATGAAGCGGGTGCACCAGCCGAAGTCACACACGAGGAGGGTCACACA
CGAGCTTTTTCGTTTTTCATGTGGCGAAAGGTTGAGGTTTAAAACGGCAT
AATATATACTACGGGCCGGTGAAGAGAGTAGCACGCCCGATGTCCACAAA
ATAAATTTCGGTCTCCTTTTGTCGTTTTATTTTTATTTTTGACCTTTTAT
TTCATTTTGTGACTTGGCTCTGGACCAGGCTCCCTTTTCTTGTTTTCTTG
TATCTTGTTCTATTTTTGTACAGCATTGTGTGATTTCTCGGGGCCCGTTT
TTGTTTTTGCCGGAGTCTCCTTGTCGTGCCTTTATTTGGTGGACTGAGAG
GATCTCCCGAGTACTATATACCTCTTCCGGGGCAAGCAGCCTGTGACCAC
GGAAATCGTACCTGATCGGTGGAGTACGGACATTAGGAGGTACTGAGGAG
AGATCGGAATGGTTTTTAATGTGAAGACGACAACAACAACAACAACAACA
ACAACAACAACAATATATACGACCAAAGACTGACTGCTGTGTGTGCGTGT
TCATCCCATCTTTTCTGGGCAACGGTCTGCACGTTTCGGTACGAAGTGGG
TGCACCATTCGGGGTCACACACAGGAGGAGGGTCACACACGAGCTTTTTC
GTTTTATGTTTTTGCTTCATTGCGCACACCTTTCCTCCTGCGGTACTTGG
CCTATTTTTTTTTTGTGCGAGTGGGGTTCAGCAATCCCTCCCCTCTGTTT
TATTTCGCTTCCCGCAACGACGGCAGCAAAGTTGCAAGAAAACGCTCCCA
AAGAGAATCGAACCCGTAGCCTTACAGGACTAATAGTAGGTTGACGAGGG
AAGCACTAGAAGACCACCGTCATGTCTTATCATATCATATGTTCAGACGT
TTTTTTTCTTGGAACTATACACATTCTTCCAAGTACAGCAGTGTATGATA
CATGGCGATACATGCCCTCCCTGTATCTTCTTCTTCTTTATTTTATTTTT
TGTCTTTCGTCTATTGATCATATAGTTACTGGACCATCGCCCTGGTTTGC
CTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACGAAGTA
CTTCGAAGTATATGGTTATGGTTGAGGTTTGTCTTGGTCATTTTTTTTTT
GTCGGACTGTTTCCAATTTTTGTTTTTTCTTTCGAACCTGTTATTTTTTT
TCTGAATTTTGTTTGGTACTCTCCGACCACCACAGATGGTACCCCAACGC
ACGGTACCATATCTGATTTGACTGTGGGTGATCATAGTCCATATATTATT
ATTTTATTTTATTTTTCCTCCTAGCACGATATGTGCCTGGTTTGTGACCA
CGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAACCAACAACAACAA
CAACAACAACAACAACAACAACAACAACATAGTGCCGCTGTAGCTTTTCT
GTCTTTCATCGCGGGCCGCCGCAGCATTTTTACGTTTTACTTACAGCAGC
AGTACTCGCAGTTTGCACGCCACTTCAGAGGAGGGGATCCATTCTGCGGG
GACCCTCTTTCTCATCACTTACTTGCGAGGCGAGTTGCGGACCATTTTTT
GACCCTTTTTGTGCAAGAGGACCTTTTTACTTTTATCTTGAAATTCTGCA
GACTTTCTTTCTCTCTCTCACTAGTTATTACCATCACACGGATGGACCCG
CGTGCCATTATCCTGTTTGTGGGGCCCCGCCACAGGGTAACAAACAAATA
AACAAACAGACATACAAACAAACAAACGATTCAACATGCGATGCGCCGCC
ACCGACGCGCGTGTTTCAGGTATCTGCTGTACGCGGCGGCCGTGCTGACC
AAGTTTCGGCCGGCCTTCCACCGGACGTACAAGAAACAGCTGGAGTTCCT
GGTGGCTGACATCGCCGCCACGGGGGGCGGGGAGATGGCGAAACACTTCC
CAATCGCAAGACAGAAGGTGCACCATCCCTCATTCATCCATCGAGGTCTA
ATTGCCACGAAGTACTCCCTCTGATCGGAAATATTAGGGCGATTTGGTCG
TAAGGTAAAATACAACACGGAAGCGAGTTGTGCAGTGGCCGGGAGTTCGA
TCCTACGCTGGAATACCTTTTTTTCCCCGAAAAATGCATTTTTTTTTTCA
TTTTTTCAACGCCTTCCCTTCGTTTTGGCTCATCGAAGTTGCTGATTTTT
GCCACCCTGGAACTTTTGCTCCGGTCAACGTCAAAGACGTATCAAAAATT
CTTCGAAATTTTTCGTACAGGTAGCTCAAGTACCCAAAAATACAAAGAAA
AAACCCCGAGAAAAAAACACTTTTTTTTGCTCAGTGCACGAGAGAAAAAT
GACACCCCTTTTTTCCCTACTGAGCTCAGTGGAGGGAAATCAATTTTTCT
CCAGGGAGGGGATGAAACGTTTTTATCCCCTGTTATTATTGTTTATTCTT
GGCCGCTTATCATACCCGAGCATAATGCAAAAAATCGGGAGTAAAACGGT
TTGTAAAACACGTCAAAACACCTGTCACAGAAACCGCCCTTATATTACCG
GATTTCCAAATCGCCCTTATATTTCCGGGCAGAGGGAGTACTTAATATTT
ATCTGCGCGCGTGAAGAATTGTGTTGTTTTTTCACATTATCATAGCCCAG
CTCAACAACCCAGGGGCCAAACAAACCCACAGTCCAAATACTTCGAAGCA
CAAAATACCCGTCCACATCGAAAGAAAAAAAGGAGAAACAAAATTCAAAA
TTCTCTTATCGAGGATCGACTAAGCCTTCGTCTCCAAGCCTGGGTTGAAA
ACCTCCCAAGACAAAAAAAAACAAACACTGTCTTCATTTTTCTTTCGTAC
AATACTTCGAAGCGAATTTTTTTTGTATTTTGAGAAAAGTCGAATCGAAT
CTCATTAGCAACCACAATCGCTCGCCGCCTCTCGGACGATTTTGAGACGA
GCTACGTAGATCGACCCCCAAAAAAAAAAGCAAGGCCAAATGTAGTGTGT
ACCCTGCTGCTGTGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGC
ACCTTGCGGCTCAAACTACAGGCTAGGCCCATCGACGGGGTCACACAGGA
GGAAGGTCAACACAGGAGGAGTTACCGCCACCTTCCTTCTGCGGTACATG
CGTGAGATTTTTTCTCGCGAGCAGGGATCCGCGGTCCCTACCCTCGTCGG
CGAAGCCGAATTTGCTTTTTTTACTAACAGCATAGCCGCTTTCAAAGTAG
CAGAGGAACACATTCACCGGGAATCGAATCTCCGTTCCTCTGCATCTAGT
GGTCAACGAGGGGACCACTAGTCCACCGGGGCGACCGGTACTGTACTGCT
GTCGGCGTTTTTTTTTTTATACTCTCTTTACTTCGTACTTTTCTTCGTTC
GTCTCCCTAAAAAAGAAAAAAAGTAATACTCTACAATTTACCTCACACGC
CCAACTACTTCGGTGTTATCGGTGTTATTTATCTACGTTAGTATGTATTA
CACCAGAAAGGAAAAATCACCCCACCCCCCCCCCCCTCAAAAAACAAATA
CCCGCAAGGATTTCTACGACGGCCACAGCTGGACCTCGGGCATATTCTCC
CAGAGCAACGGAAAGTCCCAGGAATCTGTGTCCGAGAGCATAAACGCCTA
CTACGGTGTGTACCTCCTCGGCTTGGCCACCGGGGATGATGGGATGAAGG
ACTGGGGTCGAGTGCTGCTTGCGATGGAGCTTCGGGGCGCTCGGAAGTAC
TGGCAGATGCCCAGCGAAAGCGGGGTAAGAGCTGCGAAGTTTTTTTCGGC
ATTCCGTAAAAAATATTTCAAGCACAAAAGTATGTACTCGTTCTTACCTG
TTTGGTACGGAGTGCGGAGTTTATTTACTCGGTATCATGGGTACACCTTC
GTATGATATGTGGGTACCATGTTTGTACCATATTGTTTTCGCATATCATA
GATTGTGAAGGTGTTGACGAGATTCGTTCGTGTTGTGGTTGTCCTCGCAT
GGTGGCTGTGGTCGTCCTCTTGTTGTTGTTGTTGTTGTTGTTGTTTCGTT
GTTGTTATTGTTGTTTCGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGCTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGCTGTTGTTGTTGTGATGCTCACTCGTGAGGTGTGTTGTTCTCGTCCG
TGTTTCTGTCGTCATTGTCTGTCTCTCTGCCGTCAGGTGTACGACTCGTT
CTTCTCTTCCCGCCGCATGGTCGGGATGGTGGCGTCGCTCGAGGCAGTGC
AGCTCACATGGCGAGTCACAAACTCTCAACAAGCGGGGCGGGGCGGGGCG
GGGCGGGGCGGGGCGGGGCGGGGGGGAGCTATTCGGGGAGCAAAGGGGGG
GGGAATGCATTATTTGTCTCATGATCGCGCATGTTGTACATCGTCGCTAG
ACCACCGATCGACCTCGCATCTCTATATACAAAGACCAGGAGGGAACACG
CCGGAATACCATTGACGGGTTGCGGATACGATAAGACTGTTCCGAAATAC
CTCCTCGAATAACCGCTTTAGCTGCTGCAAGGCCGTGAGCGTGAAACGAT
CAAGCGTTAGAAGTGACTTCGAACGACGTTCGTAAGACGGGTACACTTCT
AGCACACTACTTGAGTGTTCAGTACTTGAAGTACGATCTACGGCCCGTGT
GGTGTGTATGATATGCGGCTACAGCAGAGTAGAGGGATAGGACCCACACT
TTTTTGTTTTTTTTCTGCCGAAAAGGAGCGTCCGTCGCCGACTTGTGTAG
AAAACCCCCCTTACAATTACCATCTACACACACGCGAGAGGAGGCTGATT
TTCGTGCCAGCCCGGCGTGCGTTTGTTCGTGCGCGCGTTTTCGTGTGTGT
GTGGTGGGGTGGTTCATAAACGTTGCTCCTGTTCTCTCCTTTTTTTTTCT
CTCTTTCGCCGTTGGCGGGGAGACACTCGAAAAAAAAAAAAACGAAGGGA
AAGCAAAGCACGAAGAGAGAAAGAGGGTGGTGTGTGTGTCTCTGTGACCT
ACTCGTACAGCAGTAGAAGCCGTGTTTCGGCAGGTGCTGGTTAAAGAGCG
ACAGCAGCGGGGAGGCAACCCGGCACGCAGATATCTGTGGCACACCAACA
TGACTGATGGGTGTATTCAATGGGTGCACACTTATGATAGGTGCACGCCA
CCATTTCCCCCCCCGTTCACATTTTCACGTTTTTGCTTGCTGAAAGAAAC
TCCGGTGGTGTGTCGTCGGTCGGATCCGTCTTTTTTGTCTCTCTCTCTCG
CATTTTTTGTTTTGTTTCTTGGGGCGGGGGATAATTAGGTTCGGTGACAA
TGTTGAGTACGTCCACTGCATCAACATGCTCCCCTTCACGCCCATCACCG
AGGAACTCTTGCATCGCGATTTCATGGAGCAGGAGTGGCCCGTCCTCGCG
ACCGCCTACGACGCGAGAGATCCAGGTGCTTTGTAATATCATACGATAAA
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCTTATTGTTGTTGTTG
TTGCTTGTTCTGTTGTTGTTGGTGCTGGTGCTGGTGCCGGTGCTGGTGCT
GGTGGTGCTGTCGTAGTCGGTACTTTTTTGCTGGCCGCGGTACCGAATCC
TCCCCGTATCTGCTGTACGGTAGACCTTATCACTCGGGGCGTTTTGTTTT
CCATCGGCTGGAGCGTTTTCCTACCACTCTGTGTTTTTTGTTCTTGTTTT
GCTCGGTGTTTCAATGTGGAGCAGGAATCAGCCTTTTTTCGGACTGCTTT
CTCGACGGTACAGTAAATGTACAGGTGGAGGTACCCCCCCCCCCCCCACC
CCCTCGTGCTTTTCTGGACGCGGCATACCGTGCACCCTCGTTCTATCATT
TTATTTTATTTTATTTTATTTTTATTTCAATTTTGTTTGCCGCCTCTAGA
GGAGTCTTTCACGAACTTGTGATCTTTTGCGCAGAGAACCACCGCTGACC
GGCTGAAAATACGAAATGGCGTCAGCTTTAGTGGGCCGAAAAAAAGAATG
CAAGTACATTTTACCTCGAACTACTATAGCTATGTTTCGTTTCTCGTTCA
CCACTCCCCACCTCTCTCTCTCTCTCTCTCTCTCTCTCAATCTCAATCTC
AATCTCAATGTCTCTCATTGTCTCTCAATGTCAGTTTCTCTCAAATCTCT
CTCTCCCTCCCCCTCTCTCTCTCCTTTCATTCTCAATGTCAGTCTCAAAT
GTCTCTCTTTCTCAATCTTTCAATCTCTGAATCTCTCTCTCTCTCTCTCT
CTCTCTTCTCTCTCTCTTCTCCCTCCCCTTCTGTTCTCTCCGTTGTGCAC
GCCGCTCCTTTCGCTCTGCCGCGTTCAGACCCGCAGTGGTCCGGCTTCAT
CTACCTCGCGGCGGCTGTAGTGCTGCCTGTGGAAGCGTGGGCTAACGTTA
CAGCTCTCACCGCGTTCGATTCCGGCAATTCCAAGACGAACAGCTTCTAC
TGGATAGCCACGCGCCCAAAGGGAGGTGTGTTCCTGTTCCTGCAGTTGTT
GCGAGCACACGTACGTACGCTCGCAACAACTTGTTTCATTTCTCTCTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTTGCTGCTGCTGCTGCTGCTGCTG
TTGCTGCTGCCGGCGGTGTGGTGTGATGTTTAGTTTTTTACCTTTTCTTC
CTGTTGTGTTTATTCGTGGTTTCTTCGTATGTGTTTTTCCGACCTCGGAG
AGCTCAACGGGGCGGCAGTACACTTATAAGTGCCATCGCCCCTCCCCGCC
CCCCCCCCCTCCTATCTCGCTCTCCGTATCTCTTCCCCTCTGGCTCTCTG
CTGCTGTCACACGTGCAAATTTGATATGGTGTGTGCTGTGGTCGTCGTTC
CGTCACACCAACGACAAGGTCCATACAACGAAACAATGTTCCCGGTGGAG
GTGAAGGTGGAGGCCGAGTGCAGCGCCAACTCTGCTTGCCACGCAAGGGT
ATGTACGCACTTTTTTTTTGAAGAGTTTTCATCTCTCGAACAACACCATC
TTTTTACCAACATGGGACGAGAGAGAGATAGGTCGCCTCTATAGCTTTTG
CTGATAGGCCCCTGTCTATACTGCTGTTGTAAAGTATCCCTCGTTCCCTC
GCCTTTTTTTTTGTTCCAAGGGATAACGGTCCAGTCACAGGCCATCCAGC
ACCCAGCACTCGCTTTGCAGATTCCAGCATCGTCTCTGAGGATTGCAACG
GTTTGCGATTTTTTTTTCCATCATATATATCGCTGTCTTTTCGGTGTTTT
CGTTTGTAAATGGGTCAGGGTTCCGATCATCCCCGTCGCCACCCCCGTCG
CCACCCCCTGCCGCCGCCTGTGCCCGCTCTCTGTGTATCTTCTGCCACAC
GTTGTCCCTGGTTTTTGTGTTCCATCACACATAGGGCTTAACGCAAGAGA
AACTGTGCTGCCCGACGGCGGATGGTAACTGGCTGGGCTGCTGTCCGAGC
GGAGGGGGAGTTCCAGAGGTTTGGACGGCATGCACTCATCAGTTTTGATT
TTAATTTTACCACCTGCTCGTATGATGGCCATGTTGCCAATGAAGCAACT
TATGTTTCATGTATCATATGTTGTCGATCCCTATCACCACGGATGATTTC
CCTCCGGGGGTCCGTGTTCAGGCGGTCGCCGTTCATTCCGTGTTGCGCAT
GTCGGCTGCTGCTGCTGCTGCTGCGGGTGTATTTTCATCCCGCTTATTCT
GGTCAACAGTACCTGCACTTTTCGGTATGAAGTGGGTGCACCAGAGCCGG
CGTTACACAGAAGCAAGGTCACACAGGGGAGTTTTTTTCCTTTTTCTTTT
TCCTCCTCCATCCACCTTCTGCGGTGCTTTGCCCCGCAACCATTTTATCG
CGAGATGGGTCCGACCATCCCTTGCCCTCGTCGACCGTTAAGTCGAATGT
TGAATGTACATATACTCCCAACGTGTGCTACCTGTACGTCGTCGTTTTCC
ACTCCCAAAGAGCTGCTGTACTGCTGTGAGAAAGAGCCGAGATCGTGTTA
ACTTCACCGGGACTCGATCTCACGTCCCGGGTGTCATCAGCAGGACGTGA
GGTTGCCTACTGAACCAACGGGGCGGCCGGCTGCCGTAGACTGCTGGCGG
CGCCTTTGTCAAATACAGCATGAAGTACAACGTACCTTCTCCATATCAAG
GACAATTGTTTTCGACGCCCCAATTTTCGCATATATATATATTTTTTTTA
AACTCTCGTGTTCTTGCGCTGCTTTCTGCTTTCTGCTTTCTGCTTCTGCT
GCTGCTGCTGCTGCTGCTGCTGCGAAAAAACGAAGGGTCCATCGGCTTGC
TCTTCCAACCCGGAGTGCGTCGCGGCGAGCTTGACGGACGGTCTCTGCTG
CCCCGCCCTCTCGGGAGAGATGCTGGCGTGCTGCGAGCACGAAGGCAACG
GCAAGGACAGCAACAACGACGACGACGACGAGACAGAGTCGCACGGCGGG
AATGAAGACAAGGCCGAGGTGGTCGATCCCCAGGCCCTCTGCAGCGCAAA
CGAGGGGTAAGTGAGACAAAGGCGTGGGGGGGGGTCGGGTTTAGGGGGGG
GAGGCAGGGACCGATCGAGAAGAAACACAACATTATTCCCCTTGGTTCAC
CATCCATCAGTTCTGGTGTGTATGTCATTGTTATTCGACTCCCCCCCCCC
CCCCCCCCCCCCCATTCTTGGTTTGCGCATGACACCCTCAATCTCATGCG
TCTACAGCAGCATGCACAAGGTCTTTTAAACCAAGCTTTCAGCCCCGGGC
CACCTTCCTTTTTCCTTCTTCTTTTTTTTTTGGTGACAGTGGAACGGAGG
ATTTTCCAAGTACAGCTGTACACGGAGTGCATACCTGGTGTAGTAACCCT
AACCTAAAACCCTAACCCTGACCCTAAACCCTAACCCTACAGCAGCAGTT
GTATCATACATGCCGGTGCGTCGCGATAAACATTTTTTTGCTTTAACAGC
CTTGCGAAAATAATGCTTTGTAACACTTGGACCCTCCCCACCCCTGACTC
ACGGCTGGCTGGCGGGCCGAATCAAATGAACCCGCCGGACCCAACCTTTT
CTCCTAACAACAAAAGGTGCGCTGCTCTGGAGGGCTCGTGCTGCCCAACC
CAGCAGGGGTTCTACCTCTCCTGCTGCGGCTCTGTTCACGTCTCCACCAC
CACCGGCACCGGCACCGGCCCGAAGAACAACTCTACCTCGTCGTCATCCA
CGCCGTCGCCTCTGACGGCGATCGACACCAACCCTACCGCCTCGACATCG
GGGACAACGCCAACTTCAAAGCCAAAGGTGTCGGGTGCGGCGGGGGCCGG
GGGGGCCGGGGGGGCCGGGGGGGCGGAGGACGGGAGCGCGGGGGTGGGGG
GGGACGATGCCCGGGACTGCGCCAAACATCCCGGCTGCGTGGCCCTGGAC
CTTCAGGGAGTGTGCTGTCCCGCTTCGAATGGAGTGATGCTGAGTTGTTG
CAGCAGAGGCAGCCGCTAGCAGGAGAAGCAACAGCAGCAGCATTATCATA
GCAGAAGCAACAGCAGCAATGGCTAGTGAACACGTTGTCGGAACGGTGTT
AAGTTGCACCGGTAGCAGCCGCTTGCACAAGTTTAGTTGTTGCACAGTAG
CAGCATGTACTTGTAGCGTGTGCTGGGTGGGTGAGTGGCTGAGCGGGGGC
TAGGATAATGGCCTAGTAGGTCATAATCCATAGCGCGG
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Coding sequence (CDS) from alignment at P-littoralis_Contig62:337239..369876+

>mRNA_P-littoralis_Contig62.82.2 ID=mRNA_P-littoralis_Contig62.82.2|Name=mRNA_P-littoralis_Contig62.82.2|organism=Pylaiella littoralis U1_48|type=CDS|length=3204bp|location=Sequence derived from alignment at P-littoralis_Contig62:337239..369876+ (Pylaiella littoralis U1_48)
ATGTTTCAACCTTCCAATGAGGCTGCTGGTTTGGTGTCAGGCTTGCACCC
GGTGACCCAACGGATTAACGAGAATCGAGCGATTCTCAAGTTTCCTGAGA
ACGAGCCTCGGTCGGCGGAACGGGAACCGCTGTCCGCCTCTTCCAGCTAC
GGCGCGGTGGACCCGGAAGGAGGCGGAGGAATAGCCGCAGCAGCACCGGA
CGACGCGGCAGATCCCGATGATGACCGGCAGGAACACGTGCGCGGTCAGC
GAAAAGACGAGACGTCGCAAAACCTGGGGTGGGGAGGGCGCCTCTACCTC
TGCGTCCTGCTGGTCGTCGGCTTGTCGGCGCTGGTGGCTCTCTCCGGAGT
CGTCCGCGACACCCCCGGGAGCGTGTCCCTGGAGAGCGATGCCGCTTTTC
CGTTCACGACGACGACCAAGCACCTCCTGCGGCCGGGGCCGCTGTGGGGG
GCCGTGACGGGGCCCTACCCCACCGGCGCGTGGTGGCTCAACTTGGCGAT
CGAGGGCGGAGATTTTCCGGTCGCGCCCTTGCCATACGCAATCAAGTGGT
CGGACGCAGGCGTCGGCGTTTCCTACTCGGCGATGCGGCGCGTGGAATCC
ATGGCGCGAGTGCAGGACGTCTACGCGGCGGATCTCAGCGTGTCCGCCAA
GGAAGGGGTAACTGACCGACACATCGTCAAATACGACAACCTTACGGTAA
CCCTCCAGCACGACATGGAGAACCAGGGAAATTTCCGCACGCTGCTGGCT
CGCGGTTCACCGTACATGACCTTCGAGTTCGCCGGAGCTACTCCTCGGAT
CAAGACCAATGGGGAAATTCTCGAGTTTAATGGCGAGAAGGCCAAGGTTG
GCGTCTCTGGCTTCGGCCAGATCTTCAAGCTGGCGCTCTCAAACTGGGAG
ACGTGGATGGTCTATACCTCGGAGTCGGTGACGTGGAAGCTTTCTTCGGA
GCAAGAGATGGAGATGAAGGAGCCGTTTTCGGGCATCGTGCGCGTCGCCG
TTCTGCCGCACCCTTGGGACGAGGACAGCGAGGGCACGCTGTCGAAACAC
GCCAATGCTTACCCCCGAGGGGGTCAGGTGGCCTTCGCGGTGGACGGAGA
TAAAATGGAGATGAGATACGAGTGGGCCAAGGATGGTTTCGGCGACCTGC
TGATGATGGCGCTGCCCCATCACATGGACATGATGGACACCAAAGGGGGG
GAGGTAGCGGTCGTTGTGACGGGCAGCAGCTATCAGAGCATCAAGGGACC
GATGACCGGGATCGTCGGGAGCGTCTGGACCATGCGCGACAACCTCACGG
ACATCGCTTGGGCCTCGAGAACGCCGCTCAAGGAGGCGGCGCTGGCCATA
GACGATCCCCTGCTGTCGCTGTCGTGGGAGACGCGGGTGCGGGACGCCCT
TTCCGCCGATCTGGCGTCGACGCTGCCCACCGCGCCGGACGTTTACTCTT
TCGGGAAGGAGGTCGCGAGGATGGCGAGGCTGGCGCTCATCGCTGACGAA
CTGGGGGACATTCCTTCAAGAGAGGCAGCCCTGGCCACCGTGAACGTCTA
CCTCGCCTCCTGGATGAAGAACGACAACGAGGACCTGCTGGTGTACGACA
AGACGTGGGGAGGCATTGTGACGAAGAACGGCCTGAACGATCAGAACGCC
GACTTCGGGAACGCCTGGTACAACGACCACACCTACCACTACGGGTATCT
GCTGTACGCGGCGGCCGTGCTGACCAAGTTTCGGCCGGCCTTCCACCGGA
CGTACAAGAAACAGCTGGAGTTCCTGGTGGCTGACATCGCCGCCACGGGG
GGCGGGGAGATGGCGAAACACTTCCCAATCGCAAGACAGAAGGATTTCTA
CGACGGCCACAGCTGGACCTCGGGCATATTCTCCCAGAGCAACGGAAAGT
CCCAGGAATCTGTGTCCGAGAGCATAAACGCCTACTACGGTGTGTACCTC
CTCGGCTTGGCCACCGGGGATGATGGGATGAAGGACTGGGGTCGAGTGCT
GCTTGCGATGGAGCTTCGGGGCGCTCGGAAGTACTGGCAGATGCCCAGCG
AAAGCGGGGTGTACGACTCGTTCTTCTCTTCCCGCCGCATGGTCGGGATG
GTGGCGTCGCTCGAGGCAGTGCAGCTCACATGGTTCGGTGACAATGTTGA
GTACGTCCACTGCATCAACATGCTCCCCTTCACGCCCATCACCGAGGAAC
TCTTGCATCGCGATTTCATGGAGCAGGAGTGGCCCGTCCTCGCGACCGCC
TACGACGCGAGAGATCCAGACCCGCAGTGGTCCGGCTTCATCTACCTCGC
GGCGGCTGTAGTGCTGCCTGTGGAAGCGTGGGCTAACGTTACAGCTCTCA
CCGCGTTCGATTCCGGCAATTCCAAGACGAACAGCTTCTACTGGATAGCC
ACGCGCCCAAAGGGAGGTCCATACAACGAAACAATGTTCCCGGTGGAGGT
GAAGGTGGAGGCCGAGTGCAGCGCCAACTCTGCTTGCCACGCAAGGGGCT
TAACGCAAGAGAAACTGTGCTGCCCGACGGCGGATGGTAACTGGCTGGGC
TGCTGTCCGAGCGGAGGGGGAGTTCCAGAGGGTCCATCGGCTTGCTCTTC
CAACCCGGAGTGCGTCGCGGCGAGCTTGACGGACGGTCTCTGCTGCCCCG
CCCTCTCGGGAGAGATGCTGGCGTGCTGCGAGCACGAAGGCAACGGCAAG
GACAGCAACAACGACGACGACGACGAGACAGAGTCGCACGGCGGGAATGA
AGACAAGGCCGAGGTGGTCGATCCCCAGGCCCTCTGCAGCGCAAACGAGG
GGTGCGCTGCTCTGGAGGGCTCGTGCTGCCCAACCCAGCAGGGGTTCTAC
CTCTCCTGCTGCGGCTCTGTTCACGTCTCCACCACCACCGGCACCGGCAC
CGGCCCGAAGAACAACTCTACCTCGTCGTCATCCACGCCGTCGCCTCTGA
CGGCGATCGACACCAACCCTACCGCCTCGACATCGGGGACAACGCCAACT
TCAAAGCCAAAGGTGTCGGGTGCGGCGGGGGCCGGGGGGGCCGGGGGGGC
CGGGGGGGCGGAGGACGGGAGCGCGGGGGTGGGGGGGGACGATGCCCGGG
ACTGCGCCAAACATCCCGGCTGCGTGGCCCTGGACCTTCAGGGAGTGTGC
TGTCCCGCTTCGAATGGAGTGATGCTGAGTTGTTGCAGCAGAGGCAGCCG
CTAG
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