mRNA_P-littoralis_Contig202.55.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig202.55.1
Unique NamemRNA_P-littoralis_Contig202.55.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A6H5KLL7_9PHAE (Electron transfer flavoprotein-ubiquinone oxidoreductase n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KLL7_9PHAE)

HSP 1 Score: 1093 bits (2828), Expect = 0.000e+0
Identity = 531/588 (90.31%), Postives = 556/588 (94.56%), Query Frame = 2 
Query:  254 RDFGTTAEAAAAARVQEEPREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALESDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            R FG+TA        ++EPRE MEYDVAMVGAGPAGLA+AIRLKQLSKERG DLSVCVLEKG EVGSHILSGNVFEPRGLDELIPDWKE+GAPVASPVTEDSFS LTETKAFKIPNFLLPPQL+NHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLY+D+GGV GVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSE V+SKFDLR+GKDEQTYGLGLKEVWR+PKDKCKPGLVQHTLGWPLQSGPMSK YGGSFLYHQDPDL+LVGLVVGLDYENPHLNPYKEFQRYKHHP+VA QLEGGECI+YGARTLNEGGYHSLP+LTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQ SK  PVSESG+VD SEGALESDFQKRMDESWVM+ELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRN K+DA+ TLP   P C  I+YPKPDGVLSFDLLSNLALSGVKHEHDQPAHLR+K GME VASEVSYPKY GPEQRFCPAAVYEYNVPEGD+GG+P+LVINAQNCIHCKCCSIKMP+EYIDWTVPEGGGGPGYTVM
Sbjct:   42 RGFGSTA-------AKDEPRETMEYDVAMVGAGPAGLAAAIRLKQLSKERGLDLSVCVLEKGEEVGSHILSGNVFEPRGLDELIPDWKEKGAPVASPVTEDSFSLLTETKAFKIPNFLLPPQLSNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYNDEGGVVGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEEVMSKFDLRQGKDEQTYGLGLKEVWRVPKDKCKPGLVQHTLGWPLQSGPMSKTYGGSFLYHQDPDLILVGLVVGLDYENPHLNPYKEFQRYKHHPRVAAQLEGGECISYGARTLNEGGYHSLPRLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQESKLDPVSESGAVDSSEGALESDFQKRMDESWVMKELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNGKKDADTTLPADDPRCAPIEYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRVKAGMEDVASEVSYPKYAGPEQRFCPAAVYEYNVPEGDEGGKPELVINAQNCIHCKCCSIKMPQEYIDWTVPEGGGGPGYTVM 622
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A8K1FIH3_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1FIH3_PYTOL)

HSP 1 Score: 806 bits (2083), Expect = 6.080e-280
Identity = 381/571 (66.73%), Postives = 460/571 (80.56%), Query Frame = 2 
Query:  311 REVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLT-ETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            RE M+YDV +VGAGPA LA+AIRLKQLS E+G DLSVC++EKG EVGSHI+SGNVFEPR L+EL+P+WKE  AP+ +PV ED+F  LT E K+F++PN LLPP+ +N GNY+VSLS+LVRW+G QAEE GVE+YPGF+A+EVLY D G V G+AT DVGI KDG  KGTF RG+E+RAR TLF EG RGSCSE V+ KF+LR+G   QTYGLG+KEVWR+PKDK +PG VQHTLGWPLQ+  M K +GGSFLYH + DLV VG+VVGLDYENP++NPY+EFQR+K HP+V EQLEGGEC+AYGAR LNEGGYH++PKLTFPGG L+GC+AGFLNAVKIKG HTA+KSGMLAAEAA+D L AS   PV+ +G +D  E  ++ S ++  ++ SW+ EELK VRNCH +F  G+LPG+ Y+GL  HV+KG+EPW+  N K D+ +T P    E K IDYPKPDG L+FDLL+NL  SG  H HDQPAHLRIK    SV S+ S+P++ GPEQRFCPA VYEY     +  GEP+LVINAQNC+HCKCCSIKMPEEYI WTVPEGGGGP Y ++
Sbjct:   43 REAMDYDVLLVGAGPASLAAAIRLKQLSAEKGTDLSVCIVEKGAEVGSHIISGNVFEPRALNELLPNWKELDAPLTTPVKEDAFYVLTSEEKSFRLPNVLLPPEQHNEGNYIVSLSKLVRWLGAQAEEAGVEIYPGFSASEVLYRDDGSVGGIATRDVGIGKDGKPKGTFARGMELRARVTLFGEGCRGSCSEEVMKKFNLRDGVQPQTYGLGIKEVWRVPKDKHRPGFVQHTLGWPLQTNLMEKTFGGSFLYHMEDDLVQVGVVVGLDYENPYINPYEEFQRFKTHPEVREQLEGGECVAYGARCLNEGGYHAIPKLTFPGGGLIGCSAGFLNAVKIKGTHTAMKSGMLAAEAAYDALTASDKEPVASTGEIDQEEKGVDISSYEAAVESSWIAEELKRVRNCHNAFHYGVLPGVLYSGLETHVMKGKEPWTLPNTKPDSAKTRPAK--EFKPIDYPKPDGKLTFDLLTNLQRSGTNHNHDQPAHLRIKPEHASVPSKKSFPEFAGPEQRFCPAKVYEY-TDGSESNGEPQLVINAQNCVHCKCCSIKMPEEYIQWTVPEGGGGPAYELL 610
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: K3X6L4_GLOUD (Electron transfer flavoprotein-ubiquinone oxidoreductase n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3X6L4_GLOUD)

HSP 1 Score: 801 bits (2070), Expect = 6.680e-278
Identity = 381/572 (66.61%), Postives = 457/572 (79.90%), Query Frame = 2 
Query:  305 EPREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            EPRE M+YDV +VGAGPA LA+AIRLKQLS ERG DLSVCV+EKG EVGSHI+SGNVFEPR LDEL+P+WKE  AP+ +PVT+D+F FL++ K+ K+PNFLLPP+ +NHGNY++SLSQLVRW+G QAEE GVE+Y GF+A+EVLY + G V G+AT DVGI KDG  K TF RG+E+R R TLF EG RGSCSE ++ KF+LREG   QTYGLG+KEVWR+PK++ +PG VQHTLGWPLQ+  M K +GGSFLYH + DLV +G+VVGLDYENP+LNPY+EFQR+K HP + + LEGGEC++YGAR LNEGGYH++PKL+FPGGAL+GC+AGFLN VKIKG HTA+KSGMLAAEAA++ L A+ A PVS +G ++P E A + S ++  ++ SW+ EELK VRN HASF  GMLPGL Y GL A VLKG+EPW+  N   D+ +T P    E   IDYPKPDG L+FDLLSNL  SG  H HDQPAHLRIK     V SE SYP Y GPEQRFCPA VYEY     +  G P+LVINAQNC+HCKCCSIKMP+EYI+WTVPEGGGGP Y +M
Sbjct:   47 EPREGMDYDVLLVGAGPASLAAAIRLKQLSAERGTDLSVCVVEKGAEVGSHIVSGNVFEPRALDELLPNWKELEAPIHTPVTDDAFMFLSKDKSIKLPNFLLPPEQHNHGNYIISLSQLVRWLGGQAEEAGVEIYAGFSASEVLYGEDGAVRGIATRDVGIGKDGKPKSTFARGMELRGRVTLFGEGCRGSCSEEIMKKFNLREGVQPQTYGLGIKEVWRVPKEQHRPGHVQHTLGWPLQTTSMEKTFGGSFLYHMEDDLVQIGIVVGLDYENPYLNPYEEFQRFKTHPDIKKVLEGGECVSYGARCLNEGGYHAIPKLSFPGGALIGCSAGFLNGVKIKGTHTAMKSGMLAAEAAYEALTATGAEPVSSTGEINPEEPAADVSSYESAVENSWIAEELKRVRNTHASFHWGMLPGLLYAGLNAFVLKGKEPWTIPNTVPDSAKTRPAK--EFTPIDYPKPDGKLTFDLLSNLQRSGTNHNHDQPAHLRIKVEHAEVPSEESYPVYAGPEQRFCPAKVYEY-TDGSEANGVPQLVINAQNCVHCKCCSIKMPKEYINWTVPEGGGGPAYELM 615
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A0P1ATH9_PLAHL (Electron transfer flavoprotein-ubiquinone oxidoreductase n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1ATH9_PLAHL)

HSP 1 Score: 785 bits (2026), Expect = 2.240e-271
Identity = 374/572 (65.38%), Postives = 455/572 (79.55%), Query Frame = 2 
Query:  308 PREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEG-DKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            PRE M+YDV MVGAGPA LA+AIRLKQLS ERG DLSVCV+EKG EVGSHI+SGNV EPR L+EL+P+WKE GAP+ +PV++D F  LTE  +F +P+F+LP + +N GNYV+SLS+ VRWMG+QAEE GVE+YPGF+A+EVLY D G V+G+AT DVGI KDG  K TF RG+E+RAR TLF EG RGSCSE V+ KF+LREG   QTYG+G+KEVWRIPK+  + GLVQHTLGWPLQ   M K +GGSF+YH + DLV +GLVVGLDYENP++NPY+E Q++K HP + + LEGGECI YGAR LNEGGYH++PKLTFPGGAL+GC+AGFLN VKIKG HTA+KSGMLAAEAA++ L  + A PV+ES +++ SE A++ S ++  +++SWV EELK VRN HA F KG LPGL Y G+A HVL+G+EPW+  N + DA +T P ++     I YPKPDG L+FDLLSNL  SG  H HDQP+HLRIK  +  V S+ SYP Y GPEQRFCPA VYEY   +G +  G P+LVINAQNC+HCKCCSIKMP+EYI WTVPEGGGGP Y +M
Sbjct:   41 PREAMDYDVLMVGAGPASLAAAIRLKQLSAERGTDLSVCVVEKGAEVGSHIVSGNVLEPRALNELLPNWKELGAPLDTPVSKDKFLLLTEQNSFSLPHFILPREEHNDGNYVISLSKFVRWMGEQAEEAGVEIYPGFSASEVLYRDDGSVSGIATRDVGIGKDGKPKNTFARGMELRARVTLFGEGCRGSCSEEVMEKFNLREGVQPQTYGIGVKEVWRIPKENHQAGLVQHTLGWPLQRSVMDKTFGGSFMYHMEDDLVQIGLVVGLDYENPYINPYEELQQFKTHPAIRKFLEGGECIQYGARCLNEGGYHAIPKLTFPGGALIGCSAGFLNGVKIKGTHTAMKSGMLAAEAAYEALTINGATPVAESAAINSSEEAVDISSYEAAVEKSWVAEELKAVRNVHAGFHKGFLPGLLYAGVATHVLRGKEPWTIANTETDANKTRPANN--FTPIQYPKPDGQLTFDLLSNLQRSGTNHNHDQPSHLRIKSELSEVPSKESYPVYAGPEQRFCPARVYEYT--DGTEANGVPQLVINAQNCVHCKCCSIKMPKEYIKWTVPEGGGGPAYELM 608
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: H3G8B1_PHYRM (Electron transfer flavoprotein-ubiquinone oxidoreductase n=2 Tax=Peronosporaceae TaxID=4777 RepID=H3G8B1_PHYRM)

HSP 1 Score: 782 bits (2020), Expect = 4.190e-271
Identity = 369/567 (65.08%), Postives = 449/567 (79.19%), Query Frame = 2 
Query:  305 EPREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGP 2002
            EPRE M+YDV +VGAGPA LA+AIR+KQLS E+G DLSVCV+EKG EVGSHI+SGNVFEPR L+EL+PDWKE GAP+ +PVT+D F  L+E K+  +P+FLLP + +N GNY++SLS+ VRWMG+QAEE GVE+YPGF+A+EVLY + G V G+AT DVGI KDG  KGTF RG+E+RAR TLF EG RGSCSE V+ K++LREG   QTYG+G+KEVWRIPK+K + GLVQHTLGWPLQ   M K +GGSF+YH + DLV +G+VVGLDYENP++NPY+EFQR+K HP + + LEGGEC+ YGAR LNEGGYH++PKLTFPGG L+GC+AGFLN VKIKG HTA+KSGMLAAEAA++ L A+ A PV+E+  ++P E A++ S ++  ++ SW+ EELK VRN HA F  G LPGL Y G+A HVLKG+EPW+  N   D+ +T P    E   I+YPKPDG L+FDLLSNL  SG  H HDQPAHLRIK     V S+ S+P Y GPEQRFCPA VYEY       G  P+LVINAQNC+HCKCCSIKMP+EYI+WTVPEGGGGP
Sbjct:    4 EPREAMDYDVLLVGAGPASLAAAIRMKQLSAEKGTDLSVCVVEKGAEVGSHIVSGNVFEPRALEELLPDWKELGAPLDTPVTKDQFLLLSENKSLGLPHFLLPKEEHNDGNYIISLSKFVRWMGEQAEEAGVEIYPGFSASEVLYREDGSVGGIATRDVGIGKDGKPKGTFARGMELRARVTLFGEGCRGSCSEEVMEKYNLREGVQPQTYGIGVKEVWRIPKEKHQAGLVQHTLGWPLQQTLMDKTFGGSFMYHMEDDLVQIGVVVGLDYENPYINPYEEFQRFKTHPAIRKYLEGGECVQYGARCLNEGGYHAIPKLTFPGGGLIGCSAGFLNGVKIKGTHTAMKSGMLAAEAAYEALTATGAEPVAETAEINPEEPAIDISSYEAAVESSWIAEELKAVRNVHAGFHNGFLPGLLYAGVATHVLKGKEPWTIPNTVADSAKTRPAK--EFTPIEYPKPDGKLTFDLLSNLQRSGTNHNHDQPAHLRIKPEHSEVPSKESFPVYAGPEQRFCPARVYEYTDGSASNG-VPQLVINAQNCVHCKCCSIKMPKEYINWTVPEGGGGP 567
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A1W0A0S0_9STRA (Electron transfer flavoprotein-ubiquinone oxidoreductase n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1W0A0S0_9STRA)

HSP 1 Score: 781 bits (2016), Expect = 5.600e-270
Identity = 370/571 (64.80%), Postives = 455/571 (79.68%), Query Frame = 2 
Query:  311 REVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEY-NVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            RE M+YDV +VGAGPA L++AIRLKQL  E+G DLSVCV+EKG EVGSHI+SGNVFEP  L+ELIPDWKE+GAP+ +PVT DSF  ++E  + K+PN LLPPQ++N GNYV+SL +L RW+G QAEE GVE+YPGF+A+EVLY + G V G+AT DVG+ KDG+ K TF RG+E+R R TLF EG RGSCSE V+ KF+LR+    QTYGLG+KEVWRIPK+K  PGLVQHTLGWPLQ+    K +GGSFLYH + DLV +G+VVGLDYENP+LNPY+EFQR+K HP V+  LEGGEC+AYGAR LNEGGYH++PKL+FPGGAL+GC+AGFLN+VKIKG HTA+KSGMLAAEA F+ L A+ A PV+ +G +D +E A + S ++  ++ SW+  ELK+VRNCH +F  G LPG+ Y+GL+A +L G+EPW+  +   D+ +T P    EC  I+YPKPDGVL+FDLLSNL  SG  H  DQPAHLRIKE +  V ++VSYP Y GPEQRFCPA VYEY +  E    G+P+LVINAQNCIHCKCCSIKMP+EYI+WTVPEGGGGP Y V+
Sbjct:   34 REGMDYDVVLVGAGPASLSAAIRLKQLGLEKGTDLSVCVVEKGAEVGSHIVSGNVFEPHALNELIPDWKEKGAPLDTPVTSDSFLIISEKSSIKLPNILLPPQVHNEGNYVISLGKLTRWLGAQAEELGVEIYPGFSASEVLYREDGSVRGIATRDVGLEKDGTPKETFARGMELRGRVTLFGEGCRGSCSEEVMKKFNLRKDAQPQTYGLGIKEVWRIPKEKHSPGLVQHTLGWPLQNSLFDKTFGGSFLYHMEEDLVQIGVVVGLDYENPYLNPYEEFQRFKTHPAVSSHLEGGECVAYGARVLNEGGYHAIPKLSFPGGALIGCSAGFLNSVKIKGTHTAMKSGMLAAEATFEALTANGAEPVATTGEIDANEAAADISSYESAIENSWITAELKKVRNCHQAFHWGALPGVIYSGLSAFLLNGKEPWTIPHTTPDSAKTKPAK--ECTPIEYPKPDGVLTFDLLSNLQRSGTNHA-DQPAHLRIKEDLNDVPTDVSYPIYAGPEQRFCPAKVYEYTDGTEEGANGKPQLVINAQNCIHCKCCSIKMPQEYINWTVPEGGGGPAYEVL 601
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A067CTG4_SAPPC (Electron transfer flavoprotein-ubiquinone oxidoreductase n=3 Tax=Saprolegniaceae TaxID=4764 RepID=A0A067CTG4_SAPPC)

HSP 1 Score: 781 bits (2016), Expect = 5.810e-270
Identity = 370/571 (64.80%), Postives = 455/571 (79.68%), Query Frame = 2 
Query:  311 REVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEY-NVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            RE M+YDV +VGAGPA L++AIRLKQLS E+G DLSVCV+EKG EVGSHI+SGNVFEP  L+ELIPDWKE+GAP+ +PVT DSF  +++ K+ ++PNFLLPPQ++N GNYV+SL +L RW+G QAEE GVE+YPGF+A+EVLY + G V G+AT DVG+ KDG+ K TF RG+E+R R TLF EG RGSCSE V+ KF+LR+    QTYGLG+KEVWRIPKDK  PGLVQHTLGWPLQS  M K +GGSFLYH + DLV +G+VVGLDYENP+LNPY+EFQR+K HP V   LEGGEC+AYGAR LNEGGYH++PKL+FPGGAL+GC+AGFLN++KIKG HTA+KSGMLAAEAA++ L    A PV+ +G +D +EGA + S ++  ++ SW+ +ELK+VRNCH +F  G LPGL Y+GL+  +L G+EPW+      D+ +T P    EC  I+YPKPDGVL+FDLLSNL  SG  H  DQPAHLRIK  ++ V +  S+P Y GPEQRFCPA VYEY +  E    G+P+LVINAQNCIHCKCCSIKMP+EYI+WTVPEGGGGP Y V+
Sbjct:   35 REGMDYDVVLVGAGPASLSAAIRLKQLSLEKGTDLSVCVVEKGAEVGSHIVSGNVFEPHALNELIPDWKEKGAPLDTPVTTDSFLIISKEKSIQLPNFLLPPQVHNEGNYVISLGKLTRWLGTQAEELGVEIYPGFSASEVLYREDGSVRGIATRDVGLEKDGTPKETFARGMELRGRVTLFGEGCRGSCSEEVMKKFELRKDAQPQTYGLGIKEVWRIPKDKHTPGLVQHTLGWPLQSSLMDKTFGGSFLYHMEEDLVQIGMVVGLDYENPYLNPYEEFQRFKTHPAVRSHLEGGECVAYGARVLNEGGYHAIPKLSFPGGALIGCSAGFLNSIKIKGTHTAMKSGMLAAEAAYEALTKDGAEPVATTGEIDATEGAADLSSYEGAVESSWIADELKKVRNCHQAFHWGTLPGLIYSGLSTFILNGKEPWTIPTTTVDSAKTKPAK--ECTPIEYPKPDGVLTFDLLSNLQRSGTNHA-DQPAHLRIKPELKDVPANESFPVYAGPEQRFCPAKVYEYTDGSEDGANGKPQLVINAQNCIHCKCCSIKMPKEYINWTVPEGGGGPAYEVL 602
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A024UM05_9STRA (Electron transfer flavoprotein-ubiquinone oxidoreductase n=1 Tax=Aphanomyces invadans TaxID=157072 RepID=A0A024UM05_9STRA)

HSP 1 Score: 780 bits (2014), Expect = 1.210e-269
Identity = 372/572 (65.03%), Postives = 456/572 (79.72%), Query Frame = 2 
Query:  308 PREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEY-NVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            PRE M+YDV +VGAGPA L++AIR+KQL  E+G DLSVCV+EKG EVGSHI+SGNVFEPR L+ELIPDWKERGAP+ +PVT+D F  +++  ++K+P+F+LPPQ +NHGNYV+SL +L RW+G QAEE GVE+YPGF+A+EVLY + GGV G+AT DVGI KDG+ K TF RG+E+R R TLF EG RGSCSE V+ KFDLR+    QTYGLG+KEVWRIPK+K   GLVQHTLGWPLQS    K +GGSFLYH D DLV +G+VVGLDYENP+LNPY+EFQR+K HP +   L+GGECIAYGAR LNEGGYH++PKLTFPGG L+GC+AGFLN++KIKG+HTA+KSGMLAAEAAF+ L +S   PV+ SG++D +E  ++ S ++ ++  SWV EELK+VRN H SF  G LPG+ Y+GL+A +L G EPW+  N K D+ +T P    +   I+YPKPDGVL+FDLLSNL  SG  H  DQPAHLRIK G E+V S+ S P + GPEQRFCPA VYEY +  E    G P+LVINAQNC+HCKCCSIKMP+EYI+WTVPEGGGGP Y V+
Sbjct:   35 PREGMDYDVLLVGAGPASLSAAIRIKQLGLEKGTDLSVCVVEKGAEVGSHIISGNVFEPRALNELIPDWKERGAPLDTPVTDDRFLVISKDSSWKLPSFMLPPQQHNHGNYVISLGKLTRWLGAQAEELGVEIYPGFSASEVLYREDGGVRGIATRDVGINKDGTPKETFARGMELRGRVTLFGEGCRGSCSEEVMGKFDLRKDAQPQTYGLGIKEVWRIPKEKHSAGLVQHTLGWPLQSSLFDKTFGGSFLYHMDEDLVQIGVVVGLDYENPYLNPYEEFQRFKTHPAIRSHLDGGECIAYGARVLNEGGYHAIPKLTFPGGGLIGCSAGFLNSIKIKGSHTAMKSGMLAAEAAFEALTSSGLEPVAVSGAIDENEPVIDISSYETKIQGSWVYEELKKVRNTHQSFHWGALPGVLYSGLSAFILNGHEPWTLGNDKSDSAKTKPAK--DFSPIEYPKPDGVLTFDLLSNLQRSGTNHA-DQPAHLRIKPGKENVPSKESLPVFAGPEQRFCPAKVYEYTDGSEDGANGVPQLVINAQNCVHCKCCSIKMPQEYINWTVPEGGGGPAYEVL 603
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BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: D0MVG3_PHYIT (Electron transfer flavoprotein-ubiquinone oxidoreductase n=19 Tax=Peronosporaceae TaxID=4777 RepID=D0MVG3_PHYIT)

HSP 1 Score: 779 bits (2011), Expect = 4.400e-269
Identity = 366/572 (63.99%), Postives = 453/572 (79.20%), Query Frame = 2 
Query:  305 EPREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM 2017
            EPRE M+YDV +VGAGPA LA+AIR++QLS E+G DLSVCV+EKG EVGSHI+SGNVFEPR LDEL+PDWK+ GAP+ +PVT+D F  LTE K+  +P+FLLP + +N GNY++SLS+ VRWMG+QAEE GVE+YPGF+A+EVLY + G V G+AT DVG+ KDG  KGTF RG+E+RAR TLF EG RGSCSE V+ K++LREG   QTYGLG+KEVWRIPK+K + GLVQHTLGWPLQ   M K +GGSF+YH + DLV +G+VVGLDYENP++NPY+EFQR+K HP + + LEGGEC+ YGAR LNEGGYH++PKLTFPGG L+GC+AGFLN VKIKG HTA+KSGMLAAEAA++ L A+ A  V+E+  ++  E A++ S ++  +++SW+ EELK VRN HA F KG LPGL + G+A HVL+G+EPW+  N + D+ +T P    +   I+YPKPDG L+FDLLSNL  SG  H HDQPAHLRIK     V S+ S+P Y G EQRFCPA VYEY     +  G P+LVINAQNC+HCKCCSIKMP+EYI+WTVPEGGGGP Y +M
Sbjct:   42 EPREAMDYDVLLVGAGPASLAAAIRMRQLSAEKGTDLSVCVVEKGAEVGSHIVSGNVFEPRALDELLPDWKDLGAPLDTPVTKDKFLLLTEDKSLGLPHFLLPREEHNEGNYIISLSKFVRWMGEQAEEAGVEIYPGFSASEVLYREDGSVGGIATRDVGVGKDGKPKGTFARGMELRARVTLFGEGCRGSCSEEVMEKYNLREGVQPQTYGLGVKEVWRIPKEKHQAGLVQHTLGWPLQQSVMDKTFGGSFMYHMEDDLVQIGVVVGLDYENPYINPYEEFQRFKTHPAIRKYLEGGECVQYGARCLNEGGYHAIPKLTFPGGGLIGCSAGFLNGVKIKGTHTAMKSGMLAAEAAYEALTATGADTVAETAEINAEEPAIDISSYEAAVEDSWIAEELKAVRNVHAGFHKGFLPGLLHAGVATHVLRGKEPWTLPNTEPDSAKTRPAK--DFTPIEYPKPDGELTFDLLSNLQRSGTNHNHDQPAHLRIKPEHTEVPSKESFPVYAGLEQRFCPARVYEY-TDGSEANGVPQLVINAQNCVHCKCCSIKMPKEYINWTVPEGGGGPAYELM 610
[Close]
BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Match: A0A485LL27_9STRA (Electron transfer flavoprotein-ubiquinone oxidoreductase n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485LL27_9STRA)

HSP 1 Score: 776 bits (2004), Expect = 5.780e-268
Identity = 373/582 (64.09%), Postives = 456/582 (78.35%), Query Frame = 2 
Query:  308 PREVMEYDVAMVGAGPAGLASAIRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKERGAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWMGQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFERGIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPKDKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYENPHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPGGALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGSVDPSEGALE-SDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAAHVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLALSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVPEGD----------------KGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGP 2002
            PRE M+YDV +VGAGPA L++AIRLKQLS E+G DLSVC++EKG EVGSHI+SGNVFEPR L+ELIPDWKE+GAP+ +PVT DSF  L++T +F +P+FLLPPQ +N GNY++SL QL RW+G QAEE GVE+YPGF+A+EVLY D G V G+AT D+GI KDG+ K TF RG+E+R R TLF EG RGSCSE ++ KFDLR+    QTYGLG+KEVWRIPKDK K GLVQHTLGWPLQ     K +GGSFLYH + DLV +G+VVGLDYENP+LNPY+EFQR+K HP++A+ LEGGEC+AYGAR LNEGGYH++PKLTFPGGAL+GC+AGFLN++KIKG HTA+KSGMLAAEAA++ L +S   PV+ +G+++ SE  ++ S ++  ++ SWV +ELK+VRN H SF  G LPG+ Y+GL+A +L G EPW+  N K D+ +T P    + K IDYPKPDGVL+FDLLSNL  SG  H  DQPAHLRIK G E VA++ S+P Y GPEQRFCPA VYEY     D                  G P+LVINAQNC+HCKCCSIKMP+EYI+WTVPEGGGGP
Sbjct:   35 PREGMDYDVLLVGAGPASLSAAIRLKQLSLEKGTDLSVCIVEKGAEVGSHIISGNVFEPRALNELIPDWKEKGAPLNTPVTHDSFHVLSKTGSFHLPHFLLPPQQHNEGNYIISLGQLTRWLGAQAEELGVEIYPGFSASEVLYRDDGAVRGIATRDMGINKDGTPKETFARGMELRGRVTLFGEGCRGSCSEEIMGKFDLRKDAQPQTYGLGIKEVWRIPKDKHKAGLVQHTLGWPLQESLFEKTFGGSFLYHMEDDLVQIGIVVGLDYENPYLNPYEEFQRFKTHPEIAKHLEGGECVAYGARCLNEGGYHAIPKLTFPGGALIGCSAGFLNSIKIKGTHTAMKSGMLAAEAAYEALTSSGLEPVATTGAIEDSEPVVDVSSYETSIEASWVYQELKKVRNTHQSFHWGALPGVLYSGLSAFLLNGHEPWTLPNDKPDSAKTKPAK--DFKPIDYPKPDGVLTFDLLSNLQRSGTNHV-DQPAHLRIKPGHEDVAAKESFPVYAGPEQRFCPARVYEYTDGSEDGQCVSSSAGDLTHPLGANGVPQLVINAQNCVHCKCCSIKMPKEYINWTVPEGGGGP 613
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig202.55.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KLL7_9PHAE0.000e+090.31Electron transfer flavoprotein-ubiquinone oxidored... [more]
A0A8K1FIH3_PYTOL6.080e-28066.73Uncharacterized protein n=1 Tax=Pythium oligandrum... [more]
K3X6L4_GLOUD6.680e-27866.61Electron transfer flavoprotein-ubiquinone oxidored... [more]
A0A0P1ATH9_PLAHL2.240e-27165.38Electron transfer flavoprotein-ubiquinone oxidored... [more]
H3G8B1_PHYRM4.190e-27165.08Electron transfer flavoprotein-ubiquinone oxidored... [more]
A0A1W0A0S0_9STRA5.600e-27064.80Electron transfer flavoprotein-ubiquinone oxidored... [more]
A0A067CTG4_SAPPC5.810e-27064.80Electron transfer flavoprotein-ubiquinone oxidored... [more]
A0A024UM05_9STRA1.210e-26965.03Electron transfer flavoprotein-ubiquinone oxidored... [more]
D0MVG3_PHYIT4.400e-26963.99Electron transfer flavoprotein-ubiquinone oxidored... [more]
A0A485LL27_9STRA5.780e-26864.09Electron transfer flavoprotein-ubiquinone oxidored... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig202contigP-littoralis_Contig202:289707..323312 +
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.D7G0V9
Preferred nameETFDH
PFAMsETF_QO,FAD_binding_2,NAD_binding_8
Model size3460
Max annot lvl2759|Eukaryota
KEGG koko:K00311
Hectar predicted targeting categorymitochondrion
GOsGO:0000166,GO:0003674,GO:0003824,GO:0004174,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0005740,GO:0005743,GO:0005759,GO:0006082,GO:0006091,GO:0006116,GO:0006119,GO:0006139,GO:0006163,GO:0006520,GO:0006551,GO:0006552,GO:0006629,GO:0006631,GO:0006635,GO:0006725,GO:0006732,GO:0006733,GO:0006734,GO:0006753,GO:0006793,GO:0006796,GO:0006807,GO:0006950,GO:0006979,GO:0008150,GO:0008152,GO:0009055,GO:0009056,GO:0009062,GO:0009063,GO:0009081,GO:0009083,GO:0009117,GO:0009123,GO:0009126,GO:0009141,GO:0009144,GO:0009150,GO:0009161,GO:0009167,GO:0009199,GO:0009205,GO:0009259,GO:0009314,GO:0009416,GO:0009628,GO:0009642,GO:0009646,GO:0009987,GO:0015980,GO:0016020,GO:0016021,GO:0016042,GO:0016054,GO:0016310,GO:0016491,GO:0016645,GO:0016649,GO:0016722,GO:0017133,GO:0017144,GO:0019362,GO:0019395,GO:0019637,GO:0019674,GO:0019693,GO:0019752,GO:0019866,GO:0022900,GO:0022904,GO:0030258,GO:0031090,GO:0031224,GO:0031300,GO:0031301,GO:0031304,GO:0031305,GO:0031966,GO:0031967,GO:0031974,GO:0031975,GO:0032592,GO:0032787,GO:0032991,GO:0033539,GO:0034440,GO:0034641,GO:0036094,GO:0043167,GO:0043168,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043233,GO:0043436,GO:0043783,GO:0044237,GO:0044238,GO:0044242,GO:0044248,GO:0044255,GO:0044281,GO:0044282,GO:0044422,GO:0044424,GO:0044425,GO:0044429,GO:0044444,GO:0044446,GO:0044455,GO:0044464,GO:0045251,GO:0045333,GO:0046034,GO:0046395,GO:0046483,GO:0046496,GO:0048037,GO:0048038,GO:0048039,GO:0050660,GO:0050662,GO:0050896,GO:0051186,GO:0051536,GO:0051539,GO:0051540,GO:0055086,GO:0055114,GO:0070013,GO:0071704,GO:0072329,GO:0072521,GO:0072524,GO:0097159,GO:0098573,GO:0098798,GO:1901135,GO:1901265,GO:1901360,GO:1901363,GO:1901564,GO:1901565,GO:1901575,GO:1901605,GO:1901606,GO:1902494,GO:1990204
Exons13
Evalue0.0
EggNOG OGsCOG2440@1|root,KOG2415@2759|Eukaryota
EC1.5.5.1
Descriptionoxidoreductase activity, oxidizing metal ions with flavin as acceptor
Cds size1947
COG categoryC
BRITEko00000,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680789992.0504546-UTR-P-littoralis_Contig202:289706..2897791680789992.0504546-UTR-P-littoralis_Contig202:289706..289779Pylaiella littoralis U1_48UTRP-littoralis_Contig202 289707..289779 +
1680789992.216094-UTR-P-littoralis_Contig202:321872..3233121680789992.216094-UTR-P-littoralis_Contig202:321872..323312Pylaiella littoralis U1_48UTRP-littoralis_Contig202 321873..323312 +


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

Feature NameUnique NameSpeciesTypePosition
1680789992.0653033-CDS-P-littoralis_Contig202:289779..2900181680789992.0653033-CDS-P-littoralis_Contig202:289779..290018Pylaiella littoralis U1_48CDSP-littoralis_Contig202 289780..290018 +
1680789992.0750492-CDS-P-littoralis_Contig202:292363..2925181680789992.0750492-CDS-P-littoralis_Contig202:292363..292518Pylaiella littoralis U1_48CDSP-littoralis_Contig202 292364..292518 +
1680789992.085021-CDS-P-littoralis_Contig202:293480..2936351680789992.085021-CDS-P-littoralis_Contig202:293480..293635Pylaiella littoralis U1_48CDSP-littoralis_Contig202 293481..293635 +
1680789992.0975144-CDS-P-littoralis_Contig202:294356..2944821680789992.0975144-CDS-P-littoralis_Contig202:294356..294482Pylaiella littoralis U1_48CDSP-littoralis_Contig202 294357..294482 +
1680789992.1084387-CDS-P-littoralis_Contig202:294812..2949501680789992.1084387-CDS-P-littoralis_Contig202:294812..294950Pylaiella littoralis U1_48CDSP-littoralis_Contig202 294813..294950 +
1680789992.1186028-CDS-P-littoralis_Contig202:295432..2955361680789992.1186028-CDS-P-littoralis_Contig202:295432..295536Pylaiella littoralis U1_48CDSP-littoralis_Contig202 295433..295536 +
1680789992.1310043-CDS-P-littoralis_Contig202:296338..2964851680789992.1310043-CDS-P-littoralis_Contig202:296338..296485Pylaiella littoralis U1_48CDSP-littoralis_Contig202 296339..296485 +
1680789992.1408486-CDS-P-littoralis_Contig202:297073..2973231680789992.1408486-CDS-P-littoralis_Contig202:297073..297323Pylaiella littoralis U1_48CDSP-littoralis_Contig202 297074..297323 +
1680789992.1541612-CDS-P-littoralis_Contig202:298375..2984711680789992.1541612-CDS-P-littoralis_Contig202:298375..298471Pylaiella littoralis U1_48CDSP-littoralis_Contig202 298376..298471 +
1680789992.1668-CDS-P-littoralis_Contig202:299035..2991141680789992.1668-CDS-P-littoralis_Contig202:299035..299114Pylaiella littoralis U1_48CDSP-littoralis_Contig202 299036..299114 +
1680789992.1790798-CDS-P-littoralis_Contig202:300151..3003901680789992.1790798-CDS-P-littoralis_Contig202:300151..300390Pylaiella littoralis U1_48CDSP-littoralis_Contig202 300152..300390 +
1680789992.18972-CDS-P-littoralis_Contig202:321013..3211151680789992.18972-CDS-P-littoralis_Contig202:321013..321115Pylaiella littoralis U1_48CDSP-littoralis_Contig202 321014..321115 +
1680789992.201894-CDS-P-littoralis_Contig202:321755..3218721680789992.201894-CDS-P-littoralis_Contig202:321755..321872Pylaiella littoralis U1_48CDSP-littoralis_Contig202 321756..321872 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig202.55.1prot_P-littoralis_Contig202.55.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig202 289780..321872 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig202.55.1

>prot_P-littoralis_Contig202.55.1 ID=prot_P-littoralis_Contig202.55.1|Name=mRNA_P-littoralis_Contig202.55.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=649bp
MHQHFGAAMKARSRLLLSSRRLAMISRSRSAIKERAVQQHPIGGTTGSTA
TASAGLTPISRDFGTTAEAAAAARVQEEPREVMEYDVAMVGAGPAGLASA
IRLKQLSKERGEDLSVCVLEKGVEVGSHILSGNVFEPRGLDELIPDWKER
GAPVASPVTEDSFSFLTETKAFKIPNFLLPPQLNNHGNYVVSLSQLVRWM
GQQAEEEGVEVYPGFAAAEVLYDDKGGVAGVATGDVGIAKDGSRKGTFER
GIEIRARQTLFAEGARGSCSEAVISKFDLREGKDEQTYGLGLKEVWRIPK
DKCKPGLVQHTLGWPLQSGPMSKIYGGSFLYHQDPDLVLVGLVVGLDYEN
PHLNPYKEFQRYKHHPQVAEQLEGGECIAYGARTLNEGGYHSLPKLTFPG
GALLGCAAGFLNAVKIKGAHTAIKSGMLAAEAAFDLLQASKAAPVSESGS
VDPSEGALESDFQKRMDESWVMEELKEVRNCHASFAKGMLPGLAYTGLAA
HVLKGREPWSFRNPKRDAERTLPESHPECKRIDYPKPDGVLSFDLLSNLA
LSGVKHEHDQPAHLRIKEGMESVASEVSYPKYGGPEQRFCPAAVYEYNVP
EGDKGGEPKLVINAQNCIHCKCCSIKMPEEYIDWTVPEGGGGPGYTVM*
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mRNA from alignment at P-littoralis_Contig202:289707..323312+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig202.55.1 ID=mRNA_P-littoralis_Contig202.55.1|Name=mRNA_P-littoralis_Contig202.55.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=33606bp|location=Sequence derived from alignment at P-littoralis_Contig202:289707..323312+ (Pylaiella littoralis U1_48)
GTACTCCTCGATCTACACTACTACTGTTCCCGACGCGCATTGAGCTGTTA
CAGCTTTCAATAAGAGCTAAGCGATGCATCAACATTTTGGCGCGGCCATG
AAAGCGCGGAGCAGATTGCTGCTGTCTTCTCGACGCCTGGCGATGATATC
GAGGAGTCGATCCGCCATCAAGGAGAGAGCGGTGCAACAACACCCTATCG
GTGGAACAACGGGTTCAACAGCAACAGCATCAGCAGGGCTTACGCCGATC
TCGAGAGACTTCGGAACGACAGCAGAAGCAGCAGCAGCAGCAAGAGTGCA
GGAAGAGCCCAGGCGAGCGGTAGAAGCAGTTAGGCATGGTCTCGATATTG
CTACACAATTAACGGCTTGTTTTGTATTCACGTAGTCACGCTGTGAACAG
CAGGATCTCAAAAGTACTTCAACTGCTGTGCGACGTTCCTCCGTCGCACT
TCAAGCATCGCAAGCGTGTACCTTTAGTGTATCATAGGAACCCCACGAAC
TGCAGACACTTTACCGTCGTGGTGATTGGCATATACTCCCCGTACAGGGT
GGACTCGAGTAACACGTACGGTACGAGCAATGGCATGACATCCCTCGATT
GTTAGCCTTAGTATATCGACCTTGAAACTACCGCTTGTATTTGTGGATCT
CTTTTGGAAAATTGATAGATTTGATACTCGTATGTATGAACAAGCATCAG
TCACATCGTACGAACGGGTATGATAACGGTGTAAAGCGCCGTTCAGCAAA
AAAAATAACGTTTCACGAAAACACAGAAAAAAACGGGTACATACTGCGAG
AATCAGCCACGTCCAATACCAAACATGATCAACCATCATTATGCACGTCT
GTCCAACTTAGTAGTTCTGTTAGCCCGTAGTGGAGGCGCCTCGAGACTAC
CCTCCACGCGTCTTGAAGGCGTCTGGTGAGCCCGCGATGGACCGACCACG
CACTGGGGACCGACCAAGTCCGAGATCATTCCCGCCGACATCAATCATAT
GAAATCTATCTACTCTACTGCTGTTGCAGCTGTCTACTTTGCTTCTCCTG
TACAAGCGTTAGATGTGGAGATATGTACTGCTTGTAGCCTTTCGCTACTA
CTGCTGCTGCTGCTGGGCCGACCTCTCACTGGGACCGACCAAGTCCGAGA
CCATTCCTGCCAACATCCATCATATGATATGATATCTATCTGCTGCTGCT
GCTGCTGTCTACTTTGCTTCTCCTTTGAAAGCGTTAGCTGTGAAGGTACT
GCTGTAGCGTTTCGCTGCTGCAGCTGCAGCAGCAGCAGCACCTACAGCAG
CAACAACTGATCTCGCTCTCGTTCTTGCTGCTGCTTCCGCTGTCCCTAGC
GATCAGTGCTTTTGGCTTTCTGCATTCGATCGACGCCGCGCTTCGACGCT
TGCTTCGCTCTCCGTGTGGGCGAAGCTGGTTCATCTCCGGCACCACGGTT
CAGCTCCAGGTAGTCCACGATGCTGCCGCATGTGACACGATCTGTTGTCA
GGTCGACCAGGCTGGTCGCCGCAGCGGCAGTTACCCGAGAAGCATCCCCA
TCACACGCCTGGTGCTTGGTGCTGACAGCACATAGATATTGACGTTGAAC
CCTCGCCCATGCTTGCATCGTCCGAGAGGAGGTACGGAAATCTTTTATCT
GCCTGGGAGTATTTCAAATTGTTCTAAAGGACTATTAAACATAAACGAAT
ATAAAGCAAAAGTATATACTTTTTAAAATAACTTGTATAAATATTTAATT
TAGAGGCTAGATAAAGCTCCCCTCCGTAGACTCCCGCTCCTCTTTGGCGG
CATTGCTCTATCGTAAGCCTACCAGTCACGACGGGTTACGGTTGTGCGTT
GTGGCCTTGTTTCTTGAAACCGAAATCCACCACCCCCCCCGCTTGCGGTG
GAATTGTGAAACGGTGAAACGGTGAAACCGTAAAAACATTTAGATGAACA
GGGCGTAACGGTGAACATTCACATACAGCCAGCCGTGGGCTTCCGCCGGC
TTTTTGTCACACAGCTTGTGGCCAGTGCACTGCAAAGCACTGCTTGTGAA
AAGTAGCAAACTCGTGTTGTCTGTCCCATATCAGCACCCTGACAATTTTG
CTCCTCCTCGACATAACTCCTAGGGCTTACACAGCATTATCTCGTATGAT
ATGCAGCATCAGATAGCAGTAGCAATGAAAATGCTAGCAGAGCAGCCGAG
TCGTGGATGCGAGCAGAGACGAGAAACTCGGTGGGCCTGCCATGATAGCG
GTTGCACGGTCTCTGTGGTTACCTTCAACATTCCTTCTTTTTTTTGTTCG
GGGGGAGATTGGAAGCGGTATCAAACGAGGAAATAAATGACAACGGGGTA
CAGCAGTGTGCATGTACGCGTATATTGCGTGAAATGGTGCCTTGCAAGCA
GGTGTATCACCGGATGCGCGCACGTCACAACAGGTGTGCTTTCAATACGC
TTGTTCGTGGAATGCAGTCTAAAGTAGCGATCTTATCAGTCACTGCTTGA
GAGCGGACTCGCTGACTCGCTTACTCGTGATCGTTGTCCATCCCGCGTCT
GAGGCGACTGTTTTCGGCGAGAAGAAAAAGCTCGCCCAGGCCCCTCAAGC
CTTGCTGTGTTTAATGTGTGCGGATCATCGCTGCTGCGCGTCGCTGCTTT
GCTGCAGAGAGGTGATGGAGTACGACGTGGCAATGGTCGGGGCCGGTCCC
GCAGGACTAGCATCAGCGATCCGCTTGAAGCAGCTCTCGAAGGAGAGAGG
GGAGGACCTCAGCGTGTGCGTCTTGGAGAAGGGCGTGGAGGTTGGATCGC
ACATTCTCTCAGGTGGGGCGGCACATGGTATTTCTTATGGGGTCTTGGTG
TCAGAAACGATGGCGTACCGAGCACCAGATCTCCGCGGTCTGCGAGAACC
GTCTCTTCGGGTATTCGCTGCTGTTGCACACGTGGTGCCGAACATATTTT
GCTGCCATTTCAGTAAGTTCCAGAGTTGCAGGCCTTGTTAAGGTTGGTAC
GATACGAGTACTTGACGAGCCGAAGCACCATGAAAGGTGATGGATCGGGG
CCGCCAGGTTTTCGAACACGTGGGGTACACGCGTTGCCTCAGGCGTGGCA
TGTTGTTCAAAGTATTAAGAGGGCGTTCGATGCGAGACGCTGAGTACATT
TTTGCTTTCTTTACCCGAACTCTGTCCATTAGGTCCGCCAGATCGGGCCA
GAGGTCTGTTTGCATGTTGCATGCGGTGCGGCTTGTGAGCTTTAGGTGAT
CAAACGTGTCTACAGGAAACAGTTGTCTTTTATCAACACAACAGCAGCGT
GTCCAAACTTGTATCCGGATCATCAGTTCAAATAATTTTTCGTGTACAAG
TACGCACTCGGATAACATTGCGTACGAACACACTCGCAAATTGCTGCCCG
AAATTTAATCTTGTGCCGGTTGGACGGGAGCAGAAAGTAAGTTTGACTAG
AGCCGCCGGGTTCGAACGAGATGATTCTCGACCGGACAGATACGGCATCG
CGGATAGCATTTTATGGAATACCCAGCCTTTAGTCCGCCCTGAACTTGAA
TAATATCACTCGTGACATGATTTCGATAATAGCTTTATCTACGACTGGGA
AAAGCAGAACAGATACGTAGAACATGTTACTTGGTATACATGAGGGTCCG
GGGTGACGTGGAGAACAAAGTATTTAATTATGAGATCGGACTTGAGACCA
ATTGCGGTAGACATCAAATTAACACTTTGTTAAACTCGTTTTTTGTTGCT
GTCCGGACATGGGGGTGGACGCAGGAAACGTCTTCGAGCCGCGAGGTTTG
GACGAGCTCATACCGGACTGGAAGGAGAGGGGAGCTCCCGTAGCGTCCCC
GGTTACCGAAGACTCGTTCAGTTTTCTCACCGAGACGAAGGCTTTCAAGA
TCCCGAACTTCTTGCTGCCACCTCAACTGGTGAGATGGTTAACGCTTGGT
GCTCGACGAACAAGACACTGGCGAGTTGCATGACGCTGGTAGCAAGGTGT
GCGTTGGATTGATCCTCAGCAAAAAACACACGCAGCAGATAAGTGTCAAA
TTGGCAATAGAGAGGTGTTTTCTTCAAAAGCCACCGGCAGCGGCACAACG
CGACGGAAACGCCGACAATTTACAACGGATGTTGTTGCAGGACAGCACCT
CGACCACGGGCTAGACTTTGGTGGTGAGCTAATGTGAGAATCAAAAATCA
ATCATCAACAACCTAGCGACACGATGCTGCTGTGCCGCCCATCCCGACGA
GATGTGCAGGCGACTAAGATTATTATTTGATGACGCGGTGACAATGCAGC
ACTACATTTCCATGTGTAAGCGCGCAGTCGCTACCAGCGGTACTGAGTTG
GCGTCGGACCAGTCACGGTAGGAGGTCAAGCATCGTTTTTTTTTTGCGCA
GCGCTGTCTCTTTCTGGGGTAGTAATATCTGACGTTCAGGTTTCCGCACA
AGGTAAAAGGAGGTCGTTTTGACCTCCTTTGGAGAGAAGCATCCCGGGCG
TCTGTCGTTGAAGCCGAGGCCGTACCTGAAAACGTCTCGTGACCTGATCC
TGATGCTATTTCGCGGTTCATCGCAAAAACATCCGTGGCCTCGCGTCTCG
AACCGTTCCCTTGTGATCGTACTTGCGGTGTTTCTCCATCCCCACGGCAG
AACAACCACGGTAACTACGTGGTTTCGTTGTCTCAGCTGGTGAGGTGGAT
GGGGCAGCAGGCGGAGGAGGAAGGCGTGGAAGTTTATCCGGGATTCGCGG
CCGCAGAGGTTCTGTACGATGACAAGGTACACAGTAGATGTTCGCTGCAC
CAAGAATTTCCGTGTTCCTAACACAGACTCCGCATGCACACAGGCTAGCG
TCTCTTCGCGCGCAGGCACTGCGCTTTCATCAGGAGAGGGGGGGGAGTCA
CACATCGCTGAAGGAGTTCACTGGGGGAGAGGTGTATCACATACAAACAA
CTTTTATTGCCGCGCTTAGTCGGTCAAAGAAGAACTTTCCACTTTCCAAC
CAAACTCCAAACGGCATACGGTGAACCGGCTGGAAGTCGCCGCCGAACAT
GTAACTGGAGAGCTCTATCATTCGCGGAATACCTCGACCTCGACGTCCAT
GAACAGGGAGGCGTGGCTGGTGTGGCAACGGGGGACGTCGGTATCGCCAA
GGACGGCAGCCGGAAGGGAACCTTCGAGCGCGGCATAGAGATTCGGGCCA
GGCAAACGCTCTTCGCGGAGGGGGCGCGGGGTTCCTGCTCGGAGGTGTGT
GTCCGTGGTCGACCTGACGGCGCACGGGGTACCGGTATACAGCAGCCCGC
AACCTCTCCATGAACCCCCTCCCCCCCGGGGGGTATCCTCGATAGTTGCT
TGACTGAGTCGTGTGGAAACTTGTTCATGCATACCTCTCGATGCGGAGCC
CCGCTCCTGCTCCCTGTTGAGTCAACCGCTGATGTTTCGATATTTTTTTC
CGGTTCTGGCAAGAAAATGTAACAAAGAAGTAAATTGCTTGCCCTGTTCC
CGTCCTGTTTTGGCCCCTTGTGACCAATATTCGCCAAATATGACTTGATA
GGGGTGTTATCTGAGGTTTCACTCTTTTTCACGCCAAATCCGTCACTTGT
TGCTCATCCCGCTCACACCACGGCGTATATTTTCTCCCACTACTCCACTA
CTGGGAACCGCAGTAGACCGGGATAATTGTAAACGGTTGTTTTTTTACAA
CGCCGATTTTTTGCCACGGCGTGCAGGCTGTGATTTCAAAGTTCGATCTC
CGCGAAGGCAAGGACGAGCAGACTTACGGCCTCGGGTTGAAGGAAGTATG
GCGAATACCGAAGGACAAGTGCAAGCCGGGGTGAGAGAAAGCCTGAAATT
AAGCGTACAGGGTTGGGAGTTTTGGAATGACCGATCCGTTGATCCTGTGC
ACCGAAATCACTGATTTCGGTGCACAGGACGAACGAAATCACACGTCTCC
TATCATACATTTTCGTTTTTACTGTATGATGTGGGGGGTGGCGTTCGAAC
TAGTAGGATAGACATATAAAAACTATTGCGAAAAATGGGATAAATAGTGA
AAGATACGTGGAAAACAATCTCGACGAAGATTGATGCGTAAAAGTAATTG
CGCTCTTCGCGACTGGTCACCTTGCCGAGGCTGCGGACCTTTGTTGCCGT
TGCCCACGCTTGGGATTTCCGTGACAAACAACCATGGACGAGGTCAGGAG
GGTGTTACGCTTCTCATTTACGGTGAGAGTGGGCGCATTCCTAGTCAACG
CCAACATTTGCGGCAACCCCAGCAGTACTATCCTACCCCCGTACTCTTTA
ACGCACAAGGAGCGGCCGGCCACAATAGCAACCGAATGAAGCTGCGCCCC
ACCCCGCTGCTCCCCCACGTACTTTCCCATGCTAGCTTAGACGCCAGACC
TAATCCTAACCCCGGCCGCAGCGCGCGGCACCACACCATACCCTGTCATA
ATTCCGAGAAGTTCGTAGACACTGTTATTCTGCCGCTGCCCTTCGGGCGC
GACACGCTTTCGCTGCACGATACCGGCTCGCTTCCCTTCGATTGCCTCAC
TCATTTACGTATCATCACCTCCCCGCCCGCGTTGTTATATGTGGTGCGCT
TGATGCGTGTGCTCGGTGGGTGAAACGGAAAGGCTTGTTCAGCACACGCT
AGGGTGGCCTCTCCAGTCAGGGCCGATGTCGAAGATCTACGGAGGATCTT
TCCTGTACCATCAAGATCCGGATCTCGTTTTGGTCGGTCTCGTCGTGGGA
CTCGACTACGAGAACCCACACCTCAACCCGTGAGTCACCGACGAAGGGTG
CCCGCATCGCCGCGACCGCACCACCATACTTACGGACTCCAAGCACATTG
TTTAGGAATGACGATGCGAGGAGGAACACTCCTTTCTCAGGACCTGGGTC
TCATTTTTGCTTGGTATCGTGGGAATGAAAGGGTAGAGCCGCAACTAGCG
ACATGTTTGAGCACGTGGGCTCAGCCGGTTATTATCGTGCTCGTCCCCCC
GGCCATGCGTTACCCCCCCCCCCTTTTTTTATTTCGGGCAACGGCCTGCA
AAACCACATTGATGAAGAAACCGAGGGGGTAGCGAATAGCACAAGCAGCA
GCAGTAGCAGTCAGCAATAGCCTCAACACCAACAAAACTCCGGGGAAGGG
AGGGCTAGCACTACAGTTTTGAGGAAACACAAAACGAAAATAAATGCCGT
AAAACAACAGACTGATGCAGTGGCGGTTTCTTCATTTCAACCCCCCCTCC
AAATCGTAGTCTTGGCAGAGCAGGACGGTTTCGTCTTGAAAGGTCGTAAC
CAAGGTGGCCGTAAGAGCCTTCACAACAGACTCTCTTGTTCTCACTCACT
ACCTACCGTTTCACCAGGTACAAGGAGTTCCAGCGGTACAAGCACCACCC
CCAGGTAGCCGAGCAGCTGGAGGGCGGCGAGTGCATCGCCTATGGCGCGC
GAACGCTCAACGAGGGCGGTTACCACTCCTTGCCCAAGCTGACTTTTCCC
GGAGGGGCACTGCTGGGCTGTGCGGCGGGGTTCCTGAACGCCGTCAAGAT
CAAGGGGGCGCACACGGCGATAAAGTCGGGGATGCTGGCGGCGGAGGCTG
CTTTCGATCTACTTCAGGTAATGGAAATGCGGTTGCCTTTCGTTCTGCTG
TTCTGAAGTGGTACACACAACACAGAGAATACGAACGTGATTTGGGTTTG
ACCAGCGACATACCGGCAGTCGCTTCCGAGATTCAGCCCAAAGGCGATAC
TGCTGTAGTACTACCGTTGGGGGTGCTACAGGGGTAGAGGCTGATTGCGA
TCTCCTGCAGGCGGGTGGCAGCTGCACAAGCCGCAGCAGCAGTAGCAGCA
GCAGTAGCAGCAGCAGTAGCAGCAGCAGCAGCAGTAGTAGCAGCAACGAT
ATCACCTGCGTTGTCTGGTGTTAAAGTGCGTACTGGGTGTCGGACTTTCA
TGTTCGCTGCGCTGAACGTTTTGATCTCTCGACAGCCGTGGTCCATCGTA
CTACCCTTCTTGGCTGCTGAAGCACTCCAGCGGCTTCAAATACCCGTTCT
TCTTGGGAAGGGAGGCACAATCGTCCATAGCTCAGTAGTTTTCGGTCTGC
CTTTCTACTGCGCGGCTCGGTCGCTGGCGTAATCGTGCAGTTCCGGTGTA
CATACGCAGCGGTTGCCGCATTTCTCTACACCATGGTCGACATACATGGT
GACATACATGGTACAGGGACAATTTTGTTGAAAGGCGTAATGCGTAAGAT
TTCTGGTGTACGCAGCTGCATTTTCCCCACCAAAGTCGAAATTATCGTGC
GGGACGGTTTTGTTCGGTTGTTCGCGAACTCAAATAGGTTAGGCTGTTGT
GGACGTTCTTCAAGAGGAAACACGCGGGTTTTTTTTACATAGTTTCGTGC
TTTAGAGCTATCCCCGTAAAGCGCACGGTGCATCCTCCATCAACGATTTC
TGTGCCGACGGTAGCACCGTGACAACTAAACAGCAGAGGCGATCCATTTG
CTTGCTGCAACCGGGTGTTTGTGAACAGCTGAAGGGATGAGCGTTGACAT
GCATTGCGATACATTTCCGCTTTTTCGGTCGTCCTCCTTGTGGTACCAAT
ACGTTGCTTCGATGTAGAAAACAATAATTATTGTAACCGTAGCGCCTGTT
TGGTTGTGTTGGACTGCAGGCGAGCAAAGCGGCTCCTGTTTCCGAAAGTG
GCAGCGTGGACCCCTCTGAAGGGGCCTTGGAATCGGACTTTCAAAAGCGC
ATGGACGAGTCATGGGTAAGGATGCATCGAAGCTGTCGACGTTGCGGTTG
ATACGATACATGCTATCATATAGTACACGGAATGCAGTTGTTTCTCGGCA
TGAAATATGGCACTGCATGCAGAATTTCGACGACAAGGCGTTGTTGCGAA
AACGAAGGCGCTTTTGCAGCTCGGGAAAAATCAGGCGCCTTAAAGTCGGA
CATTTCAGTAGCGCATGGACGTGCCTCGGGAGGAAGGTAAGGCTGCTCCC
AATTTTTCTTGCTACCAAAGTCTCCGCTGTGCTACGACCATCGTACGGCG
TGGAAAAACTGGGACCAAATCAAGCTGCGTCAAATTTTGGTCTATCCCCA
TTCTTCTCTATACACGGACAGGGGGAAACCCGCGGAAATTGATGGCCGTG
ATCCCTCTTAATTGTGGGCGCAGTTTCCTTTGCTGTTTTGTCGACTAATG
CATCTCTTTTAGGCCGGATCAAATGCCATTATTATTTTTATTTCTTATTT
TGTTTTGCGCGTACGTATGTGCTCCATGATGCATGTACTCGCCGCCTTCT
TCTCCTTCTATTCCTTGACTGCTCTGAAGGTGATGGAAGAGCTCAAGGAG
GTGCGAAACTGCCACGCGTCGTTTGCGAAGGGGATGCTACCGGGTCTCGC
CTACACAGGTGATTTCACTACTGTTTGGTTATTTAGCATATGAGTACATC
GTTGAAACTTTGTACACGTATTTTTTTGTTTTTATCTGTGAACCAACACA
GGCAGGAGATAGGACCTGACGATGACTACTTGTTCACCCTACGAACACGC
ACCTAGGGAGCACCTTACACGATCATATACTCCTGTTGGGGTGTGCACCA
GTCCACCCTGCAAACGCGTACGCATAGAGGCCACCTTCCACGATCATACG
TACCTATCGGTGTGCACCGCACACACCGCACCTTGGCCCTACCGTACATA
CCCGGTTCACTTGACGACATGGTCTTCATGAACGTTATCTTTGAACGGGT
TGTTCGCTCGTGCGGTCGTTGTCGCCCTCACCTTGTGTGTCTGAAGCTCT
CCTTGTGCGGGTAAGCAGCTAGTCTGGACCTCGCGTACTTGGTTTACTTG
GTTCTTTTGCGTCCGGACTCGGCAGTTTGGTGGCGAGTTCGAATCTCGGG
GCGGACTCAGATGAACCGTTTTTTTTACTTTTCACACCGTACCCTTACAG
TGGTGTAAAGCGCGTGTTTCGTGAGGAAAGTAGTGCTTTCGTTTATAAAA
TGCGACTCGAATGTCGACGAGAGAAATGGACGGCCGAACGTTTCTCGCGA
TCAAAGTTCAGGTAAGCACCCCAGAAGGTAAGCACCCCGCAAGGAAGGTG
GGAAGGAAAAACAAAATTCGGCGTGTGACCTTCCTCCTGAGTGACCTCAT
CCGATGCGCCCGCACAGACCGGAAAGCGTAGACAAGTGTACAGAACAGTT
GGGAACAACACTCGCATGTGATACGCATACAAGGCGCTCGCCCACAACCG
GTGACGTACACCGCCGACGACTGATGACAGATACCTGGTATATTTTTCTG
CCGTTGTGACAGAGTTTCCTGTTATTATTTACTCGAAGTACTACATTTGC
ATTGCATATTCCCCACCGACGCGACTATCTGCGCCATCAAGCAACCAACC
CAGCAGAGGAAACCCTGCCAACAACCCACGTAATCACTCTCTCAGGCCTG
GCGGCGCACGTGCTGAAGGGACGGGAGCCGTGGTCTTTCCGGAACCCCAA
GAGAGACGCCGAAAGAACTCTGCCAGAAAGTCACCCGGAATGCAAGCGGA
TAGACTACCCCAAGCCCGACGGGGTCTTGAGCTTCGATCTGCTCAGCAAC
CTGGCCCTGTCGGGAGTTAAGCACGAGCACGACCAGCCGGCGCACCTCAG
AATCAAGGAGGGTATGGAATCCGTCGCGTCAGAGGTGTGTGTGTATGTGT
GTGTGAGTGTGCACTGTAGTCCACGTTAGATACCACCCCCCCCTACACCC
TTCTCCCCGAGACCAGTTTTCAATTTTCGACGCTCGATGATGAGACAGCA
GAAATAGATTGATTGGTTGATTGACTATAGATCTTGACCATCTCGTCGAG
AGCTTTCCGAATCTGGAGACATCGCTTGATGATGTTCGAGCCCTGCTCTT
GGCGGAGTAATCGATTATTGAAAGTCATCGGTTTATTGAAAATCGTATTG
GGGGTCCCGTATGATTTTTTCTTGTCCCAGGTTTTGTTTCACCACACGAA
TGGAGCCCCTAAATGCATACCGGGTGTGCAAACGTATTTGTGCATACCAA
ATAACGCCTCACCCGGAACCGACCAAAATACCAAAATATGCGCAGTCTGT
TCAATTGGCGCAGGCAAAAGCAGTAGGTGTTCGAACTTCACCGTATAGAC
GTAAGTACAGAACGGCGGGGCCAAGCAGCAGCACTTGTCACAACTAACTG
CTTTATACAGAGAGCAAAAAGCAGGAAAATAAGAGAGATACTCTGCTGTA
GACTGCTGCTGTAGCCAATACTTCTACATCATAGCCAATCCGCCAAGTTC
AGCATCCTAGCGAATCCACCAAGACATCCTAGCCTATCCGCCAAGGTTCG
GCATCCTAACCAACCCGCCAAGCTACAGCATCATAGCTGTTCTTCGGGCT
TGGGGTTAGGATTAGGGTTAGGATCAGGGTTATGGCCGACTGGACGACAG
CTTGTTCGTCTTGTGTGTTGGAAGGTGCTGCATGTGTGATGTGATATTAT
TATGTTCATATTGGTTGTGTCCCTTGTGCTGTGGCCCTTGTGTGGTAATG
TATCGATGAGTTCTGGGAGGCGTTCTTTGGTATGCACAACTGACAAATGC
GCTTGCCCAGCTGGTATGCATTTAGGGGCTCAGGCAGAAAACAAGGAGTC
CATAGAGTCAGGGCTGCGTGTTTCCGTGTTTACTGCTGCATCACAATCCC
CAAAAGTCCCTGCGGTTTTCGGTTGACCTCTCGATTGTTGCCAAACATAC
ATATCATACGCGTACAAGTACAGTAGTGCAGGCTGCTTCACGCAAGAAAC
CCCAAATTCATTCAACATCATTTTCTCACGCGTTTTTTTCGAGTAAGACC
CTGAAACTTTGCACACGTGTTCGTTGTGTCACTGCGAAAAATCGACCGAC
CGGGGTGCAACGATTTTTTTTCCAATAGATACATCAGTATGAAGGCATGT
TGGGTCTGCATAGCTCGATTGGGACCCCAGAAATCCGGTCAAAAAAAAAA
TAATCGATGCACCCCGGTCGGTCTATTGTTCGTAGTAACCCAAGGAACAC
GCGTGCAAAGTTTCAGGGTCCAACTCGAAAAAACCGCGTGAGAAAACGCA
CTTCAGTGTGGTAAAGTACGAAAACACCCGAGTTACCAGGATAAAGGGTA
GAATCGGCCGATTTTAAGCGTTATTGGCCAAACTACGTCAGTTTTTTTGG
AATTTCGAAAAATAAAACCGCAAATGTCCTCCTTAGGCTACATCTTATGT
GTCAAAAAACGTCACCATTCCTTTCGGGCCGTTCGAATAATGACGTTTCC
AACAGGCTCTGTTGAAGGACCCGATATTATGTGTCAAAACCGAACAGCAG
GTGGTTTTATTTTTTTTAATAACTTCCGAAAAAAAAAGGTTCTCCTGTTC
GGCTGGGGCGGTTGATGGTAGCCAACTCGACTCTCATTTTGCACTGCTGT
AACCGCTCCGCTCTTTCGTCCACCACTCTCGAACGAATGAAGCCACAGTA
GTGGTAAGGACATGCCTTGCGAGCTGGGTATGTGGTCCTTCTTCTCCCGT
AGTTATATAAGACCGTGAGGTATCGATAGACTAGCGAAAAAAGGTTGCAG
GTATCACCGATGACGTGTGAAGAAACGAAAAAAAAACGACCACAGCACAC
CACCAGGAGGCGGTGTGGTGATTTCTTCTTTTATCCACTGGCCATCAATT
CATGCAATCCTTCTACGCCAGCCTATCGATGCCTCGCTGCTTCAGAGGAC
CACCGGAGGAGAGAGACCATGTTCACAGCTCGCGAGGCATGGCTTTATCA
TTGCTGTGGCTTCATTCGTTCGAGAGCAATCGACAAAAACCAAACTGGTG
TGGCGGCAAAAAAACTGCTGCTGGTTGAAGAGTTCAGAGGACAGCAGCAG
CAGCAGCAGCAGCTAGCTGCCAGCTTTCGTCCGATCCATTAGTTTTTTGT
CCATCGCTCTCGAACGAAAGAACCCACAGCAATACTAAAGCCATCGGCCG
TGAGGTGTATGTATGGTCATTCTCCTGCGTCGGTCATCACAGGCCGCGAG
GAATCGATGGGCTACCAAAACAAAGTTTTCAGGTCATCTCATCATGTAAG
GCTGACGGTAACTTGGGTTGTTTAAACTCCTTGACCAAAATATATAACAG
GTTTCCGATAGCTGCAGGCTATCAGAAAAAAATACTTTTTCTGGCCGTTT
GGGGCTATCGGAAAAATGTATTCGAAAAGTCGCTGTCTAAAATGGCTGTT
TCTGATCACATAAGATGCTCCGTTTTGTGCCAATGTTCAAAACAGCCAAA
TAAAATAAAAAGATATGAACGGTTCTGACACATAAGATGTAGCCTTAGGA
CACAGAGACCGTACGGGTTACAAAAAATAGTATATTTCGAACTGATTTTA
TATAGCACCTAGCGTGGAAAGCCTGACCTTGGAGGGGTGTTCTACCACGT
CATTCCGTGAAATGACACATTTTCTCCCCTAGCGCCACCGGGAGTGCCTT
AAACAAAAATCCGAGAACGTCACGGTCTTTCTCTATTGACGGCGGTCAGT
TTGGTATCATATTTGTCGTCATCGGGTTTTTATTGCGTTCGGAAACATGT
GTTGAAATATTTTTGGGTTTCTTTCGTGAACTGGCCTGTACTTCTCCGTT
CCCTCGCTGCCTAGGCAAGGTCTGCTATAAGCATGACCCAAAGCGAGTTG
GGGGGGTCTTTCTGGCGGGTGTAAGGCCCGACTCACCCTCAAGGAGTGAT
ACCTTCTTGCTGCTGCGCTGTGGTCGAACGCCACGGGCGTGGCGGTAGAG
TCGGGTCGCAGTTGGTGTGCCAGGTGCAAATGTGCGGATTCGCGGGCCTT
TTGGTTACAGCGGTAGTACAGCAATGTACATCACAAGCATTTGTGCGCAG
AGGCAGGCGACACCACAGGTGAAAAGACGGTACGATCTAGGATGCGCAGA
GGGATTGTGCCGTCCAGTAACCAGTTTCGCAGCCAAGGACGGAGGTAGAC
GAGCAGCGACGAACGGGGAAGAGCTTGGTCGATCTCACTCCGAGCGTGAA
CTTTTTTTTCAGAAGACTTGTACCTCAAGTGCACAGCAGTGGAGTTTTTT
AGGGAATTGATCGGAAAGGAACAACAAGAAAGAGCTGTTATGTGAGAGAG
CGGCGGTGATGGAGGTGACCTAAGGCAACGCCGGCAGTGAAGAAGCATTA
CGAGAGCATGGTGCTGGTGATGTGGCCTTGGGCAACGCCAACAGCGACGT
GGACCGAGACAAGGAGGACATGTTTAGGACGACATCATCACCAGCGTCGC
AAGGACGGCATGGAGACACCATCCTCGACAACATCTGATGATACGTGTGT
TTTTGTGCTTTTTCTTTTACTGTCTTCTCCGATTGCCGGGGCTACTTGTA
CGTTGCAGCCAGCACTCCACAGCAACTAACTGCTGTAGACTGCAGCTACC
TACTGACTTGCTTGTGACAGCAGGTTATTAGTTAAAAGTGGGGCGGGAGG
AGACTGGACACGATGTTGTAGTCAAATGAACGACGCTGGAGGTAGTTCGA
TGTTGGTACTGCTGTGACTGCTGTAGTTCAGTGATGCACACCGCGTAGGA
AGGCGTATCTTCTTCGGTCTTTCTTGGGTATTCCCTCTGGTAGTTTCTTT
CTGTTTTTTGGATCTTCCTAGGCAGCACTTTTTGTGACCACGGGCAAGAT
TTTTGGCGATGAGCCTATGCGAGAGTCAACAGCATATCTGTAGCACATCC
AAGGATGCACGAGAAGGGTAAAAGTCTGAACGTCGACGGCAGGACTCGAA
CCTGCGCGTGAGATCACAATAGGTTTCTAATCTATCTCCTTAACCACTCG
GACACGTCGACCATTTGATGGAGTATTCTGAACTGTTGGTGCCTTTGATC
TTGTGGCCAACTCTTCCATCTGTGTGTTAGGCCCTGTATTGACACTGTTC
AGGAAATCAAAATTGGAAAGAATCAAAATCAATATTGGTCTCTGATTGGT
CGAGGCTCTCAAGACCTACCGACGACAATTTTGATTTCTTGGACATCACC
GGCAGACCAAAGAAGTCCAAAAAGAGTTAATTGCCAGAAAATCAAAATCA
AAACTGGGGGTCTTAACCCGATCGAAGGCTTTCTGAACGATGTGGCTCGC
GCACCACACCAGAGACAAGCAGACAGAGCCACAGGGCACGCCGACGCAAC
CCCTAGAACACAGAGAGAGAGGTGTGCCGTCGCACCAGGCATGCATGTCA
AAACCAGCACCACGCCTAGAGCAGAATAAAGAACGACAGACAGACTCGCA
TGATGAGGCACCAGGCAACACCTGGAGCAGGACAGCGACAGCCAAACAAC
AGCAGACAGACAAACGCGTACAGCAGTCTTGAGTCCCTGATGAGCCAACA
CACACAAACAAACCGACAGACACACAAACAAACGCGGTGTCTCTTAGCGA
CGTAGCATCATCAGCGTGCAGTGCTGCTCTGATACCAACAGCATACTGTC
TTGTCCCTCCCTCGGCTGCTCCCCGGCCGGGGTCACCCAACCTAGTGGGT
CCCTCGTGGACACACCGGGCTCTACCAGAGTAGACAGGGTAGTGTGGGAG
TGGTGTGGTCAGACCCTACTCGGCGCACGCCGAGGCTGGGTAGGTTATGG
AGGTGACGAATGGCACTACAGCAGTCCGGACCAACTATGGTCTGGTCTCC
GCGACAGTCAAACAGTCTGCGGCAGCTGTGTCGACACATCACCGCGGAAA
CCGTGGAACTCGTAGCCTGAGGAGCAGAAAGACTAGAAGGCACCACTTTA
GTAAGCACCCTCGTCGACCTTCACGTCGGCGCTGGCCGGGAGTGTCGTCC
CCAGCCCGCCTGAACGTAGACGAGTCGCGAGCTTGGCAAAGATGGATGGA
GCGGAGGAAAATTGCAGCTCGAAAGAAACGGAAGTAAAACCGACCTTTAC
GCAAGGCTGACCGAAAGAGATGGGCAGAGATGAGATCAAAGGCACGCGCA
GGCGAGCTGGTAGTGGGCTCCTTCAACGTCCGCACCCTTGCTTGCAAGGG
CGCCAACGGTGTCGGTCACAACTCCAACACCGTACTACAGCTCTGTGGTA
GCTCCGATTGCGATGCGGATGTCCTCCAGGAAACCCGGCGTGCTAATGAT
GGTGCCTTCACACACGCGGGATATGTTGTGATCTGGAGTGGAGCACATGC
CGGGACCACCGAGAAGAAAGGAGTGCACGGGGTCGGGTTGGCTATCAAGC
AGTCCATCGTGGATGGGATGGACAAAGGAGGTATGACGGTGGAGTGCATT
AGCGCAAGACTGATGAAGGTACGCCTGCAACTCACTGGCTCGAACTGTAT
ATTCTTTGTGGTTGCCTATGCACCCACCGAGACGGATGGGACTAGTGAGA
AAGATAGATTCTGGCTATCAGTGAGAGACAGTCAATGCAGTACCTAGCAG
GGAACACGTCGTGGTTATGATGGATGCGAACGCTCGAACTGGTAGAAGAG
AGGATGAGAGGACCCCTGATAAGGTGATTGGCATGTACGGGCGTGACAAG
CGGAACGACAACGGGCGGAGACTGGTGGAATTTGCAGCAAGCTGTAGGCT
TTCCATCCTGGACACCTTTTTCTGCACACCCAAACGCGGGATATCACACT
CTTTCGAAAGCTCCAACCGCGGGAAGGGAGAATACCGACTCGATTACATC
CTGACCCGCCAGGCAGACCTTCGGTTGGTGCGCAACGTCTCTGTACGGCG
CATCGATCGTAAGGACTCCGACCACAACCTCATCCTTGCCAATATCCGCT
TGCTTGGCCGAGTGGCACCGAATCGACGTGTGAGGGATACCAGCAGTAGC
AGTACCTCCGCTAGCATCGATCTACAACGGTTGATGGCGAACCCCAGCTT
CGGAAAGACTTTAGAGAGAGAATTTCCCCCATCATGGAAGGTGCGAATGT
GGATGAGCTCGCTTCGGCCTTGACGACTGCTGTGACGTCCACCGCCGGTG
ACGTTGCCCCCCGGGCCAAGGGCAAGAGATTGCCAAATGGCTGGTGCGCC
AGTGAGGAAGTGCAGCAGGAGATCCACGTGGCATGGCTCGAGAGGGAGGA
CGCCCGGAAGCAGCTTCGCGGTGCGCCGAAAGACCCCACCCTCAGAAGCA
ACCTCAAGGCGGCCGGGAAGCACCTTGATCGACTTAGAGCCAGTGCTGTG
AATGAGTTCTTCGATGGATTTGTGTGTCAGCTCGAGAAGAAAAGCCGCGA
AGGGGACCAGGCCGGTTTCTACAAGTACATGAAGAGATTGGATGTGGAGG
GGAAGAGGGCCTTCACCTCACAGAACATCAAGGACGAGGATGGAAATCTC
CTTCGGGACCCCGCACTTATCCTCGAGCGGTGGGCCAGGTGGTTCCATGC
TCTGCTCAACACCAAGTCACCGACCCTTGATCCGAGAGCGGTGGACAAGG
TCGAGCCCTGGCCTCAGTGCGTACCGCTTGATGACGTCCCTTCGCTATTT
GAGGTTGAGGAAGCAATCCGGGGAATGGCCAACAGGAAAGCTGTGGGCCC
GGACGAGCTACCGGCGGAGCTTATCAAGCTCTTCCTGGAAGGAGACCAAG
TCCTCCTACGGCAGTTCTACAGTATCATCATCAACATCTGGCAATCGGGA
AGGGTGCCACAACAGTGGAAGGATACTTCGATCAAGGTGCTGCACAAGAA
GAAAGACAAGACAGAGTGCGGCAATTACCGGGGCATCTCCCTTGTGGCAC
ACGCTGGCAATGGTACTCCTGAAGCTGGTCGTCACCCGGCTAAGCGATTA
CTGCGAAAGAGAGGACATTCTGCCGGAGGAACAGAGCGGTTTCCGACCAA
ACCGCTCAACGGTTGACATGATGTTCGTGGTTCGACGCCTACACGAGCTT
GCGCGGAAGAAGTCAACCCCACTGTACGCCTGCTTTATCGATCTCACGAA
AGCCTACGACTCCGCAGACCGGGAACTACTGTGGTCGGTGCTCAAGCGGC
TCGGAGTGCCCCCCAAGATGCTTGCGGTCATTCGCCAATTCCACGACGGA
ATGAGAGCATGCGTACCGATGGACGACAGGAGGTGCTCCGACTGGTTTGA
TGTGGGACAGGGACTCCGACAGGGATGCAATCTGGCACCCCTGCTGTTCA
ACCTTTTCTTTGCTGCGATGCTCATGGTGGCCTTTGCCGAGATCAGCAAG
GACGAGGAGGTGAAGGCGGACATGGCCAAGGTCAAGAAGAAGATGATGAA
GGGGAAAGAGAGAAACGCTCGACTGGTGGAGGCAGTGGAGTCCATCTGGA
GTATGCTCTACGCCGACGACGCATGTATTGTCTCTCACTCACCTGGAAGC
CTCGAGAGATTATCCCGATCATCTTACGTGGGCCGGGCGGTTTCGACTGT
TGGTGTCAAAACCCAAGACGGAGACATGTGTATGCTCGCGAAAGGGATGG
AGGCGTGCTCGTTCACGATCGAGGCTGCCGGGATGGTCTTCAAGCAGAAG
AAAGACTTTGTGTATCTCGGGGGTAAGATTTGTGAGGACGGTAGCACTGA
GGGCGAGATTAACCACCGAGTGCAGCGAGCGCACGCCTGCTTCCGGCGCA
ACAACCAGGCAATGTACGACCGCCCGGGAGCCCCTCTTCGACTAAAAGTA
CGACTCCTCCAAGCCGATGTCGTGGAGACCCTACTCTACGGGTGTTGTCA
CATGGAATCTGAAGCCAGCGGAGTACCGCAAGCTTCGGTCAGCCCACCAC
TTCTTCCTCCTTCGCTGCATCGGATGGAAAAAGAGGGAGAGAACAGACCG
ACCCCTCTCCTACGCCAAAGCCCTGGTCACCGCGGGTGGCGACGAGAGCA
TTGAGGCCACCGTGCGCAAGCGGCGACTGTGCTTCGCAGGATTCGTTGCG
CGCATGAGAGACGAGAGACTCCCGAAAATTGCTCTTTTGGTAGAATTGCA
GGGGGGAGCGAGGTATCTGGGGGGGCAAGAGTTTGACTGGCTGAGGCGAA
TGCAGGAGGACCGCGAAGCGTTCGACATCGCTATCGACAAAAAAGAGGGG
TGGGAGGCAAGTGCCAAGAGAGCTGGCGAGTGGTACGACAGGATCGACGA
GGGTGCGCGGCGGTTCACGGACGAGTGGCTCAAGAAAGAGGGAGACTTTT
CAGAGACACGTCGACTGAAAAGGGAGAGGGACGCGGCTGAGGGGCAGGCC
TTGGCCAAAAGAGGGAGAACGGATGGCGGGGATAAACGAGAGGAGGAGTA
CGGGGGGGCACAAGGGCAGCGGGGTAGTGGGATTTGAGTTGCACGGCAGA
AGAAGCAGCCCAAAGCCAAGCTACGGGGTGGCCGGAGTGGAAAACCTGTA
GGGCGGAATTCTCGGAGCGGTGGTGTAGCTGCTGCCAAAGATGTGGGGCA
GAAACAACTGGGTACGGTGGTGCCAGTAGCAGGAGGTATGAGTGCGACTG
AGGAGAGCAAGCGTGAACAGGCAGACCTCGTGGCAAGACATGTTTGCGAT
TGATTGCATGCCTTTTATTTGATTTTTATCACCAACCCCCCCCCCCCCGA
CTGCCGGTACTTCCAGTCTTCCCTCTGCTCTCTCCATGTATGTATTTTGT
CCCTGTTTGTCTCTTCTTTTCTTTTCCCTTTTCGTTCCTCTGCTTCGTCT
TTGTTTGGCGGCCTGTTTGGCGTGTTTGTGCACAGTGCACTCCCTCAGTC
TTTGTGCCCTCCCTGTATCTTCTTTTTTATTTTGTCTTTTGTCTCTTGAT
CATGTAGTTACTGGACCATGCGCCCTGGTTTGCCTTTGCCTTGGCCTGTC
ATGGCCCTGGGCCCTGGTTCGATGTACGAAATACTTCCAACTATATGATT
ATGGTTGAGGTTTGTCTTGTTTTTTTTTTGTTTGTACTGTTTCCAATTTT
TATTTTTTATTTCAAACCTGTTACTTGTTTTCTGTATTTTGTGTGGTACT
TTGGCCACCACAGATGGTACCCCAACGGTACCCTATCTGATTTGACTGTG
GGTGATCACAGTCCATTTGTTTTCTTTTTCTTTTTCCTCCTAGCACGATG
TGTGCCTGGTTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATC
TGAGAATCAACAACAACAACAACAACAACCTCTGTACTGCTGCTGCTGTT
GTTGTTGTTGTTGTTATGTTTACAGCAGTGTCGATCGATGGTGACATCAT
CATCAATCAGAGGTTTTGGATCTCGGCGACGTTTACAGGCCTTCACCAAG
CCGGTCCGTTCATATGGCTCGCAGTGTTTTTCGTTAAATCAAACTTTGAT
TTTGCTATTTTGATTTTTCAATTTTAATTTCCTGATTGTCGTAAACACAG
GGAAACTCCAGCGAAACAAAACATCCAAGGATCCACGAGAAGGGAAAAAT
TATGGTCGTCGACGGCAGGACTCGAACCTGCGCGTGAAATCCCAAAAGGT
TTCTAATCTATCTCCTTAACCACTCGGACACGTCTACCGATAGTTTCGTA
CAGGTCGGGGGACTGTTGGTGTTTCTACTGCCTGTGGCCAACTCTTCCAT
GTTTGTGTAGTGTGTGGAACTTTCAGCGAAACAAAACGGACACCGAAATA
TCACACAACGCTTCAAAAATTAGAACAAAAAAAGGGAGCATGAGGCTACA
TCTTATGTGTCAGTACCGTTCAATTATTTTATTTTATTTGGCTGTTTTGA
ACGTTGGCCCAAAACGGAGCATCTTATGTGATCAGAAACAGCCATTTTAG
ACAGCGACTTTTCGAATACATTTTTGCGAAAGCCCCAAACGATATACTGT
ACCGGTAGCCTGCAGCTATCGGAAACCTGTTATTGTTTTTGGGTGAAGAA
GTTTGAACAACCCAAGTTACAGCCAGCCTTGCATGATGAGATGACCTGAA
AACTTTGTTTTGGTAGCCCATCGATTCCTCGCGGCCTGTGATGACCGACG
CAGGAGAATGACCATACATACACCTCACGGCCGATGGCTTCAGTATTGCT
GTGGGTTCTTTCGTTCGAGAGAGATGGACATAAAACCAAAATGAATCGGA
CGAAAGCTGGCAGGTAGCTGATGCTGCTGCTGCTGTCGTCTGAACTCTTC
AACCAGCAGCAGTTTTTGTGCCGCCACACCAGTTTGGTTTTTTGTTGATT
GCTCTCGAACGAATCAAGCCACAGCAATGATAAAAGCCATGCCTCGCGAG
CTGTGAACATGGTCTCTCTCCTCCGGTGGTCCTCTGAAGCAGCGAGGCAT
CGGTAGGCTGGCGTAGAAGGATTGCAGGAATTGATGGCCAGTGGATAAAA
GAAGAAATCACCACACCGCCTCCTGGTGGTGAGCTGTGGATCGATTCTTT
TTCGTTTCTTCACACACACGTCATCGGTGATACCTGCAACTTTTTTTCGC
TAGTCTATCGATACCTCACGGTCTTATATAACTACGGGAGAAGAAGGACC
ACATACCCAGCTCGCGAGGCATGTCCTCATCATAACTGTGGCTTCATTCG
TTCGAGAGTGGTGGATGAAAGAGGCATCGGTGACAGCAGTGCAAAATGAG
AGTCAGGTTGGCTACCATCCAACCGCCCCAGCCGAACAGGAGAGACTTTT
TTTTTCGGAAGTTATTAAAAAAATAAAACCACCTGCTGTTCGGTTTTGAC
ACATAATATCGGGTCCTTCAACAGAGCCTGTTGGAAACGTTATTATTCGA
ACGGCCCAAAAGGAATAATGACGTTTTTGACACATAAGATGTACAGCAGT
AGCCTGATCCAGAGCAACGTCAAAAAAATAAATAAAAAGTGACGAAGGAA
AACGATTTCAGGTGCCACAGATGCCGAGAAAAATAGCCATCGAGCTTGTA
ACTGTCTCCGCCGACCCAGCGAACAATTTCAGGAATCTCAAACACATGTG
AAAGGGCAAAAGGCACACGGGCAACAAGCGCAGAAATAATACGTGGTAAC
TCAGGCCACGGTAACACAACAGGGGGGGCGTACTGATGCGGGGGATAGGA
TCAAAATGGTAAGTGCTAACACAGCAGTGTCAGTGAATCTGGTGCATATG
CGGTGCTACTCTTTCCATCAATTCCCTCTTCTTGCTCTCCTCTGCCGCCG
TCGTCTCATCCTTCCGGGTCTTTGTGCGCTTACTTCCTCGAGCTTTCCCC
TCCCTCTTTTCCTCCTCGGTTCTCACACTACGCCCCAAGACCAAAGTTCG
ACGCTCGATGATGAGACAGCAGGAATAGATTGATGGGTGGATTGACCATC
TCGTCGAGAGCTTTCCGAATCTGGAGACATCGCTTGATGATGTTCGAGCC
CTGCTCTTGGCGGAGTAACTAATTATTGAAAGTCATCGTTTTTTTTTCAT
ATCGTTCTGAGGGTCCCGTGTGATTTTTTCTGGTCCCACGTTTTGTTTCA
CCACACAAATGGAGTCCCTAAAGGCATACCGTGTACATTGTATGCAAGCG
TATTTGTGCATACCGAAAAACGCCTCGCCCAGAACCGACCAAAATACCAA
AATATGGGCAGTTTGTCCAATTGGCGCAGACAAAAGCAGTAGGTCTTCGA
AACTTGACCGTATAGATCTAACAGAACGACAGGGCCGAGCAGCAGCACTT
GTCACAGCTAACTGCTGTATACAAAGCAAATAGCAGGAAAATATGTAGAG
AGGTACTCGTGGCAAGACACGTTTGCGATTGATTGCATGCCTTTCATTTA
TTTTTATCACCTCCCCCTCCCCCCCCCCGACTTCCGGTACTTCCGATCTT
CTTTTCCCTTTTCGTTCCCCTGCTTCCTCTTTGTTCGGCGGCGGCCTGTT
TGTTGTGTTTGTCTACGAATGCACTCCCTCAGTCTTTGTGCCCTCCCTGT
ATCTTCTTCTTTTTTATTTTATTTTTTTGTCCTTCGTCTGTTGATCATAT
AGTTACTGGGCCATCGCCCTGGTTTGCGTCTGCCTTGGTCTGTCATGGCC
CTGGGCCCTGGTTCGATGCACGAAGTACTTCGAAGTATACGGTTATGGTT
GAGGTTTGTCTTGGTTATTTTTTGTTTGTCGGACTGTTTCCAATTTTTGT
TTTTCTTTCGAGCCTGTTATTATTTTTTCTGTATTTGTTTGGTATCCTGG
CCACCACAGATGGTACCCCAACGGTACCACGTCTGATCTGACTGTGGGTG
ATCATGGTCCATATATTTATTTTTTTATTTTTTTCCTCCTAGCATGATAT
GTGCCTGGTTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGT
GAGAATCAACAACAACACTCGCTGTAGACTGCTGCTGTAGCCAATACTTC
TACATCATAGCCAATCCGCCAAGTTCAGCATCCTAGCCAATCCACCAAGG
TACGACATCCTAGCCTTTCCGCCAAGGTTCGGCATCCTAGCCTATCCGCT
AAGGTACAATATCCTAACCAACCCGCCAAGGTACAGCATCATAGACAATA
CGCCAAGGTACATCATCATCCGAGCCAACCCGCCAAGGCTCAGCATGATA
GATGTTCTTCGGGCTTAAGGCCACGCTGGGTTCAGTACAAAAAAGAAAGG
ATGAGAACGGGAAGAAATAAGGGTTTAGAAACGAACGGCGTTTGGCTAAA
AAATAAATGTTACTGAAACATAGACTAGGGGATTCGCATAAATGCAGCTT
TCTTTCCGGGGGACAAAACGATCAGCAGGAAATAATATTTTTTAGGAGCA
TTTTGCGCGGTAGATCGAACTTTTAACCTCTTCTGCACTCTCAAAAACCT
CCGGATGTTTTTATTGCTTCTTGTGCTAGCTCGGTAAGCCAGCTACACTC
GCGTCGAATCCGTCTGTGAATCGGGGATGCACACGCGGAGAACAACAGTT
TCGCATCATCGCACCCAGCAGATCTCACAGTGCAGTGCCAATTCGGGCCG
CTGCATGCATCTAGATACAAAATCACAAGCTCCGAAGAACATCTCTAGAA
TCGGTTCTGGCTGCATGTTGCTGCTGTAAAGGCACGGCACTCCTCTCGTC
CACCATATCTGTGGGCTGTGGCACTTTCGAGCAGTGTTGTTGCTTGTGAT
GAGCTTGCGCTGCAGTGAATTTACGCACAGTCTTCTGGGATTTTTCACCA
ATTTGTACCAGGGGAAATGGTGCTCAAACCGTTAGTTTCGATCGTCTCGA
TCTCGTGCTACAAGGCCTCAGGATGACAAGCCAAGGTGCTTCCTGCAAAA
ACATCCGGAGGTTTTTGTCTCCTAACGCAAACAGGGGAGGGGAGGGGATG
GGATGTGGAGTATACAGCAGTCAGGGGGGGGCACGCCAAAGAATCTTTTA
TCTAGAAGTTGAGAGAAAAAATGATACCGTTGGATGGAGCAAAAATGCGA
CAACGGAACCCCGGGATATCGGGACGGCGTCTTCCCTATTCTTGTTGTAC
TGAACCCAGCGGATCCTTAAGGGTTGGGGTTAGGGTTAGGGTAGGGTTAT
GACCAACTGGAAGATAACTTGTTCGTCTTGTGTTGGGGGGTGATGCATGT
ATGATGTGATATTATTTAGGGGAAACGACACACGGTCATTTTGCGACACA
GCAAGGTGCACACTTTTTCCGGCGTGAAACGTGCTGAGCTGATTGGTCGA
CGCTCCTTTTCACCCTGCTGAGACGGAAAATAGGCTGGGTGCACCCTGCG
GGGGCTACTTTTCTGCAGAACTGCATCCTCATTTCGACATCCACCCTGTG
TTGTCGTAAAATGAGGCCCTCCCACGGGCCATTCCTTCCGCAGGAATCAC
TTCTTGCTCCCGCCAAAGGGCACCAAAATACAGATCTTCCCAACCTAAAC
ACACCATGAAAACCGGCACCGCAACAGACAGCGGAGAGGCACCGCAACAG
ACAGCGGAGAGGCGGTGGCAGGCAATTTGCAAAAAATCAACCAACCAACA
GCAGCAGCAACAGCAACAGACCAGTCCAAATCAGAATACGAGAAGCACAC
GTTGTTATTGGTACTGTAGAGCACCAGAGCTATACTGAACTTAGACGTCA
AAGGAGCCCATACATGATGAGCAGGGTACCCGATACTCAGAGACGATAGA
CGATGGCATGCAGAAAACACAGCGATGTTGGAGTAGAGATAAATGCAAAG
GGAGGAAGCATGCAAGACGCGACCAAGTCGCGGGGCTTGGGAGGGAGACA
CATTAATTATCATGTAAGAGCTGTCAGAGGGAGACTCACACAGCATCTAT
CTGTACGGTATGAATAGATAATGATGGTATATCCGTTCCCACGGTATACT
TCCTCTGTATCATAAGTCTGGGCTGTTAGGTGCGTGTAATTGTTTGCGCA
TCCATACTGTTTCGATCATCCTATAGTTAGGTTCGTTCGAAAGATGAAGT
CTCAAAGAAGCTGATGCAAAAAAAAGCAGAAAAAAAAGCCCGTTGTTTAT
ACTAAAATGAAGTCAAAATATGCCCATTTTGGCCCATTTAAAGAATTTTG
ATTCCGCCAGATGTCTTGGTTTTAGAGCATGAGTCCCAAGTATCTTCGTT
TTAGTGTGGCAAACCTAAGTGTCTTGGTTTTAGGGTCGCGTCACTAATAT
ACTGATTTTAGTAAGGAGGGACTCGACATGAATCTTTGAGGTAGGGGGGC
TAGGTTCAGGGTTAGGGATAATTTTGGGGGGGATTGCATTGGTTTTTTTT
GTTGCCCCCGCCCCCCACTCCACCTCTTGAAAGGGTTAAATACGGCCATT
TTTGGCCTGACTACTTTTTTGTTAGCCGCTAGCCCATGCGCAGGGTAGTG
CGCAAGAAAAACATATATATGTGTTTCAAGCCAAAAAACTCCGAAGATTG
CGAAAAAATTATCGCCGAAGACATCGGACACCGTTGAGGGGGCGTAAAAA
CATAACTGCACAGACTTATGATACAGAGGAAGTATATGTTTAGCTTGAAG
ATCTGTATTTTGGTGACCTATGGCGGGAGCAAGAAGTGATTCCTGCGGAA
GGAATGGCCGGTGGGAGGGCCTCATTTTACGACAAGACAGGATCAATGTC
GAAAATCAGGGTGCGGTTTTGCAGAAATGTAGCCCCCGCAGGGTGCACCC
AGCCCATTTTCCGTCTCAGCAGGGTGAAAAGGAGCATCGACCAATCAGCT
CAGCACGTTTCACTCTGGAAAAAAGTGTGCACCCAGTTGTGACGCAAAAT
GACCAGGGTGCCCCCTGTTGTGTCGTTCCCCCTCTTATTTATGTTCATAT
CGGTTGTGTCCCTTGTGTTGTGGCACCCCTGTAGTATGTCGATGGGTTCT
AGGGGTCTTTATTTGGTATGCACAACTGACATATGCGCTTGCATAGCTGG
TATGCATTTAGGGGCTCCCGCAGAAAACAAGGGTTCATAGAGTCAGGGTT
ACGTGTTTCCGTGTTTACTACTGCTGCATCACAATCCCTAAAAGTCCCTG
TGGTTTTCGGTTGACCCTTGTTCCGAAACATACATATCATACCATGTGTT
GTTCTTGTTGATTCTCACATTAGCTCATCGCCAAAATCTAGCCCGTGGTC
ACAAAAAGTGCTGAGCCCTAGGAAGATCCAAAAAACAGAAAGAAACTACC
AAAGGGAATACCCAAGAAAGACCGAAGAAGATACACCTTCCTACGCGGTG
TGCATCACAAAATGAACTACAGCAGTCACAGCAGTACCAACATCAAACTA
CTTCCAGCGTCGTTCATTTGACTACAACATCGTGTTCAGTCTCCTCCCGC
CCCACTTTTAACTAATAACCTGATGTTACAAGCAGTCAGTAGGTAGCTGC
AGACTACAGCAGTTAGTTGCTGTCTGGAGTGCTGCCTGCAACGTACAAGT
AGCCCCGGCAATCGGAGAAGACAGTAAAAGAAAAAGCACAAAACACACAC
ACGTATTATCAGATGTTGTCGAGGATGGTGTCTCCATTCCGTCCTTGCGA
CGCTGGTGATGATGTCGTCCTAAACATGTCCTCCTTGTCTCGGTCCACGT
CGCTGTTGGCGTTGCCCAAGGCCACATCACCAGCACCATGCTCTTGTAAC
GCTTCTTCACTACCGGCGTTGCCTTAGGTCACCTCCATCACCGCCGCTCT
CTCACATAAGGGTCTGTCTAATCATTGCGGATTTTTGCCGGGAAACAGAG
AACCATTCCTGGAAACCTGAAATCTCCGACAATATGCAGGCGTTCTTCTC
GGTTTCCCTGAAATGAGCACTGCCCAAAAAATCCCGAAATACTCATTTCA
GGGTTCCCGGAAATTTGAACCCGCTTTTCGGGCAGACGTGCCTCCAAGTT
CGGGCACGCCTGCATAGGTGTTCAGTTCACACGAGCTGTCGTATGCACGC
CATCCCCAGGCCACACAACCACACAGTGAGTTCACAGGGTCGCCCTGAGG
CCATGGCTGATGGAAGGAAGCGCCTTCGGATGCTTCGCTTGGCGTCTAGA
GTTCGGATGCGGCGTGACTGCTGTGGGCGGGAAGAAGCTCGGGCTTCAGG
ATAAAAAACAGAGAAAAGGCATTTTGAAAACAAATACTCGCCGAATCGTT
TAGAACAGAGCGAAACTCAGTTCATGTTCCCGGGAATGGTTCTCTGTTTC
CCGGCAAAAATCCGGAATGATTAGACAGGGCCTAACAGCTCTTTCTTGTT
GATCCTTTCCAATCAGTTCCATAAAAAACTCCACCGTGCACTTGAGGTAC
AAGTTTTGTGAAAAAAAAGTTCACGCTCGGAGTGAGATCGACCAAGCAAG
CTCTTCCCCGTTCGTCGCTGCTCGTCTACCTTCGTCCTTGGCTGCGAAAC
TGGTTACTGGACGGCACAATCCCTCTGCGCATCCTAGATCGTACCGTCTT
TTCACCTGTGGTGTCGCCTGCCTCTGCGCACAAATGCTTGTGATGTAGAG
TCAATACAGATGAAATTTCCCACCATGGGTCCCCCCCTTTTTCTCCTTCA
ATTTTGAGAGTTGAAACGTGAAACAAAGTTGGCGTGAACCGCTTCCTAAA
TCCGGTGTCAAAAAAATAATCGGACGAAAATGGCCGTTTTCGAAGAATTT
TACCCCCCGAATAACCACGGGGCCCCCGAAGTACGTCCACGGGGCCCCCA
AAGGGCGTCCACGGCCCCCCCCTATTTGCCCTGTTGTGCGTGGCCAAAAC
TTTGAGAGGCCATATCTCCTTCAATAAAAAAATTTTCGGAAAAAAAAAAA
AATGGTCCTGGGCGCAGGTCCAATTTGTCCGAATCCGTTGAGTTTTTCGA
ATTCTATTGGTTCAATCTTCACTTAAAAACCACCCCGTGAAAATCGCCGA
AAACACGGTTTATCGACGATTTCTCCGCCAAAATCCAGCGGATTTTTTGC
TGAGTTGGCCCGCCGTGAGCCTCATGGTGTGAGCTGTTCAAATCCGGTGT
AAAAAAAAAATATGCGTTCACACTCGGCCAAATAAAACCACGCAAAATCT
TCAAAAATCTCGACGGAATCTCGATTTTCTCGCCAACAAAGATAAAAATA
AAAAATCTGATCCGATCAAACGATTTGCCTGAAACAGGGCTTTCTTACGG
TATGTCGTATGTTATCAGGGGGTACGTAGATCGCTCAGAAAAAAATCCGA
AGTATTTTTGGGGTTCGTGGAAAAATTTGACTGCCCTGACCATACATTGC
TGTACTGCCGCTGTAACTAAAAGGCCCGCGAATCCGCACATTTGCACCTG
TGGCACACAAACTGCGACCCGACTCTACCGCCACGCGCGTGGCGTTCGAC
CACAGCGCAGCAGCAAGAAGGTATCACTCCTTGAGGGTGAGTCGGGCCTT
ACACCCGCCAGAAAGACCCCCTCAACTCGCTTTGGGTCATGCTTACAGCA
GACCTTGCCTACGCTGTAGGCAGCGAGGGAACGGAGAAGAGTACACTCGT
ACGTGCGTGTTGTATAATAGGACGTCCACGGATCTTCGAGAAGGGAAAAA
GCGTGGACGTCGACGGCAGGACTCGAGCCTGCGCGTGAGATCACAATAGG
TTTCTAATCTATCTCCTTAACCACTCGGACACGTCGACCAATGGATGTGA
AAGTGAGGACTGTTGGTGCTTGTCTTTCCTGTGGCCAACTCTTCCATGTG
TGTGGAAACTTCAGCAAAACAAAACGGACCCCGACATATCACACAACGCT
ACGTACAATTAAAAAGAACAATAAAAGGGAGCATAATCCAGAGCAAAGTA
AAAAAATAAATAAAAAGTGACGAAGGAAAACGATTTCAGGTGCCACAGGT
GCCGAGAAAAATGGACATCGAGCTTGTAACTGTCTCCACCGACCCAGCGA
ACAATTTCAGGAAACTCAAACATATGTAAAAGGGCAAAAGGCACACGGGC
AGCAAGCGCAAACATAATACGTGGTAACTCAGGCCACGGTAACACAACAG
GGGGGGGCGTACTGGTGCGGGGGGATAGGATCAAAATGGTGAGGGCTAAC
ACAGCAGTGTCAGTGAATCTGGTGCATATGCGGTGCTACTCGTTGCATCA
ATTCCCTCTTGCTCTCCTCTGCCGCCGTCGTCTCATCCTTCCGGGTCTTT
GTGCGCTTACTTCCTCGAGCTTCCCCCCCCCTCTTTTCCTCCTCGGTTCT
CTCCTCGGTTGCGCTGAGTTCTTTCTCGGCACGTTTCCTGCACGTTTCCT
GCTTGCATCCTTCTCCTTGTGCCAGGCGGTCATAAACCGCGCAGCCCCCT
TCACCGCCCCCGCGTACCACGGCACTCTCTTCTCCTTCGCGGCCGTAAGC
CACAGCGCGGTCCCGATTCCAAACGAAGGGCGCCTGCCGTCCGTCGAACC
GCCCGTGGCTCCGAAATATTTGAAATCGTCTTCCAACGATTCTGAACAGA
TTTGCGCGGGACGGTCTCTGCCTAGGTCCTCACCCCAAAATTTCCGAACA
TGAGCCGCTTCGGAAGTCGCCCGTCGTTTTGTCTAGCCATACGGGTAAGG
TCAACACATGTGGTGAAAGAAAAGGGGACGAAAGTGTGTCGTCGACGGCA
GGACTCGAACCTGCGCGTGAAATCACAATGGGTTTCTAATCCATCTCCTT
AACCACTCGGACACGTCGACTTTGTACATGATAATCTGCCGGAGTCGGGG
GTCTGGAAGCCACATCATTTTTCACCTGACGACGATGTCCATCCCTCTTC
TACACAGGCCATGTGCAGAAACACTTCAGAATCTAGGCTTCCATTACAAC
ACCGTGCAGTACACACGAATTATTCTGTGGCATGTTTAAGTGAACGTGTA
CCGTACAAGGTCATAGAAAAACTGCAACAACCTCTGCTACTGCTGCTACT
ACTACTTCTGCTCCTGCTGGTGCTCTCTATGCTTGGACTGCGTGTCCGAG
AACCAGTTGTTCTCATATACGGGGGGCCATCTTGGTACGCAAACTGTTGT
GTAGCTGTTTGTCAGGTTCTCGGTGTTGTGGACAGAACACGTCTGCGCTA
CCGTGTACGAAACGTCGCTTAGATTATCTTGGAATCTACAGCAGTACACT
TTTTTCTTTCAATATCTGGGCTGGGTGGGTGATGCCACGAGCTGCTTGTG
TCTTGCCTTACGGCCTGGCGCTGACGAAATGTTTTACGCATTTCTTCAGA
AAACGGCTGTTACCGTAGGTTGCATAAGAAATCACACCGGTGTGAAAGCA
TTTTTGGGGGTTAAAAAAAGTATCACACCGATGTCGTATTGTGTGATTTT
GACTGGGGGTGTGGTACCTTCTGTCACCCTTTTACTGACTTGAGACAGGC
TAGCGCCGTTTTCGGGATAGAAAAAATAGCACACGGGTGTGGTATTGTGT
CACATTTCGGAGAGGGTGTGATATCGTGATATCTTATGCCACCTACGGTA
ATCGCGTTGCCCCCATTTGTTTATGTCTTGCTTACAAGGCATTTATTTGC
TACAGCCCGAGTAGGCCCCGCAGAGCGTCCCTCTACAAAGACATCTACAG
CAGCAGCTTCCACGGACACCTTTTTTGTGCGGGCATGGCCTCGGTTGTGC
TTTTTCGTGCAGTCCCGTGCACCTATCAACCCAACGCGTAAAACTCAAAA
CATCAAGTTTCGACCACCAGAATGTTTTGTCTCGTCGCAAAGGCGCCACC
CACCTTCGTGAACCGGTAGCCCGTGTACCTATCGTAGCTAAGTTGGCCGA
CGTTGACGGGCGACCGAAGGCACTCGCCCCATCCAAACCGCAAACCTCGA
CAGAGCCGCATCACGCTGTATCATTGTGATCGCAGCGTCGTGGCATTTCT
GCATGTTTTCGTCTCATCCGAAACGCGTATACCATGACCGCGTCCAAGCT
CATCACGATCGCAACGACATAAAGCACCAACTTCCCCTTTTTTTTCCGTT
CCCGCAGGTGTCTTATCCCAAATACGGCGGCCCGGAGCAAAGGTTCTGCC
CGGCGGCGGTGTACGAGTACAACGTGCCGGAGGGAGACAAGGGAGGGGAG
CCGAAACTGGTGAGGAGGCGTTCTCTGTTGGCCGCCTGCTGATGTAATAT
TGGAGACGGGGGGAGGCTTCAAAGCTTGTAAACGTTTGGAGCTTTTTTTA
TTGTATTGCACCCGACATGTGGAATTATGGTTTACGACCATCACCGCCGT
GTGCGCGCGTCATTGATTGTATCATTTGATTCTAGGGTTACGGTGCATGT
ACGTGAAAGGCATACCCCCCCCCGGCTCTCCTTCACGATAGTCCGCAGGC
TTTCGTTGTCTTAGGACGAGAGCATGCGGCATGGTGCTGATCAATCCCGT
AAATTGTGTCCAAACGTTCGTCTGGAAAACATGTAGAAACCGGGGGTATG
CTCCAAACTAACTTCATCGGGAGACAAACTATAAGAAGTCCATCTGTTTT
TGTTCAATCTACGGATGTCGCAGGGAGTCACTGCGTGTTTTGGGATTACT
GTTGACATGGTGCTTACGGGCTTGACCCCTGGATTTGGGTGTTCCCACAT
CAGCGGCGACGCAGCTCCTGGTTGCTGAAATTCGGATTGATTGATGCTTT
CACTTTGCTTGGTTTCATACGTTCCTCCTTCCGAGCTTTTGGGCATATTT
CGTTCATAGCCCCCCCCGTTCTCCACGCGCGTCATCCGCCCACTCGAAGG
TTATCAACGCACAAAACTGCATCCACTGCAAGTGCTGCTCGATCAAGATG
CCTGAGGAGTATATCGACTGGACAGTGCCCGAGGGCGGGGGTGGGCCTGG
ATACACCGTAATGTAGATTCATTTTATCTCTATTGCCTGGCGTATTAAAA
AATAGTGGCATACCGCCATGCGTACCTTTGCGCAGGTTGTAGGGTATGTT
CAGTGACGTATTTGTGTACATAGCTGCATTGTTTGTCGGTGAAAATCGCA
ATGATGCACAGCAAGTCGGGTGTATCACAAGTGTCGTGTCGTGTGTGTTG
AATACATAGCGAGCAGCCTTTTTGCTGCGTCTGTGCGAGTAGCGATCAGG
CGAGCACTGATGAACATCATGTGAGGGAAGCAGAGGCTGCCTGGTACTGG
AGGAGCCCTTCTGGACGGACTTGCTCCGACATCTCTACATGCTCCTGATC
TGTACGACCGAGCAAGACTCCATAGCTTTCGGCAAGAACTGACGTAACCC
CCGATGCGGTAGTGTTGTGTACCTGGTATGTATGGGCTGAAACGGTTAAT
CTCTCTGTGCACCAGGCCGAACCGCGAGTAGTATCACCCTCCTCTGAAGA
GTGACACAAAAGCATCCGGGGTCTGGCAGCTCCACGTCGACGACCGATTG
AGTAACAAAGGGACATATAAATTTCGTCTTTGAACGTCGGTGTGTGTGCC
CGACGAACCGGGCGTACTTTTGTTTCAACGAAGGTTGTGTGAGACATGGA
AAGGGTTATAGTAGTTGGCGTGGATACTTGGACGAGGTGGGTTGGTTTTT
TGCTGTGCTGTGAGTAATGATCTCGGGCAGATCGAGACGGGCAGGTACAT
TGCCTTCTTGTGTCGTGTTTAGGGGGACTTCAGCTCATGCTTTAGTGGTC
GGCGTAGCGGGCGATAAGCTTATGACGCCCGGGCAATATGCTGCCTTGCA
TCAATTATTGGTGGGGCGTTGGCGGCGTAAGGCGTAGGGTGTGGGTCGTG
GCAAAGCGTGTAATGGTCATGTGATGGTAGTAACAAAGGCGGTCCCGGGG
TACGTGCATGGTTTACGAGTGTAGCTCCACGAAATTACATACTTCACAAG
TTACGGTTGCCGGGCTCGGTCGCGTGCAACGGGGTTTGCAAAGTGCACCA
CATAGTATATATACGACGAGGGGATGGGTGCAGCAATAATCATCATTGCT
TCACATTGCTGTTCTTCTCTTGCTGTTGTTCTGCCAGCGGAGTCTCGTAA
CGTGCGTAAAGTTGTTGATCCCCACGGGTCTCATACACGGCTCGGAGCTA
GGATTCGTCGGGCGAATGTTGTCCCTGATGAACTGTGGTCCTCCAGCATT
TTCAGGGGTCCTCTCGGTAACGACTTTTGATGTCGTTAAGTTTTACCGCG
GTAGTTAGAAAACGCGGTAATCTACGGGTTTTTGTTCGGTAATCGTGTCC
CTCGGTAACTGCTACCGCGGTACTCAACGACCGCGGTAAATGCACGGTAT
TTTTTCCACGGTAATTGGCCAACGCGGTAATCATTACCGCGGCACTCAAC
CACCGC
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Coding sequence (CDS) from alignment at P-littoralis_Contig202:289707..323312+

>mRNA_P-littoralis_Contig202.55.1 ID=mRNA_P-littoralis_Contig202.55.1|Name=mRNA_P-littoralis_Contig202.55.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1947bp|location=Sequence derived from alignment at P-littoralis_Contig202:289707..323312+ (Pylaiella littoralis U1_48)
ATGCATCAACATTTTGGCGCGGCCATGAAAGCGCGGAGCAGATTGCTGCT
GTCTTCTCGACGCCTGGCGATGATATCGAGGAGTCGATCCGCCATCAAGG
AGAGAGCGGTGCAACAACACCCTATCGGTGGAACAACGGGTTCAACAGCA
ACAGCATCAGCAGGGCTTACGCCGATCTCGAGAGACTTCGGAACGACAGC
AGAAGCAGCAGCAGCAGCAAGAGTGCAGGAAGAGCCCAGAGAGGTGATGG
AGTACGACGTGGCAATGGTCGGGGCCGGTCCCGCAGGACTAGCATCAGCG
ATCCGCTTGAAGCAGCTCTCGAAGGAGAGAGGGGAGGACCTCAGCGTGTG
CGTCTTGGAGAAGGGCGTGGAGGTTGGATCGCACATTCTCTCAGGAAACG
TCTTCGAGCCGCGAGGTTTGGACGAGCTCATACCGGACTGGAAGGAGAGG
GGAGCTCCCGTAGCGTCCCCGGTTACCGAAGACTCGTTCAGTTTTCTCAC
CGAGACGAAGGCTTTCAAGATCCCGAACTTCTTGCTGCCACCTCAACTGA
ACAACCACGGTAACTACGTGGTTTCGTTGTCTCAGCTGGTGAGGTGGATG
GGGCAGCAGGCGGAGGAGGAAGGCGTGGAAGTTTATCCGGGATTCGCGGC
CGCAGAGGTTCTGTACGATGACAAGGGAGGCGTGGCTGGTGTGGCAACGG
GGGACGTCGGTATCGCCAAGGACGGCAGCCGGAAGGGAACCTTCGAGCGC
GGCATAGAGATTCGGGCCAGGCAAACGCTCTTCGCGGAGGGGGCGCGGGG
TTCCTGCTCGGAGGCTGTGATTTCAAAGTTCGATCTCCGCGAAGGCAAGG
ACGAGCAGACTTACGGCCTCGGGTTGAAGGAAGTATGGCGAATACCGAAG
GACAAGTGCAAGCCGGGGCTTGTTCAGCACACGCTAGGGTGGCCTCTCCA
GTCAGGGCCGATGTCGAAGATCTACGGAGGATCTTTCCTGTACCATCAAG
ATCCGGATCTCGTTTTGGTCGGTCTCGTCGTGGGACTCGACTACGAGAAC
CCACACCTCAACCCGTACAAGGAGTTCCAGCGGTACAAGCACCACCCCCA
GGTAGCCGAGCAGCTGGAGGGCGGCGAGTGCATCGCCTATGGCGCGCGAA
CGCTCAACGAGGGCGGTTACCACTCCTTGCCCAAGCTGACTTTTCCCGGA
GGGGCACTGCTGGGCTGTGCGGCGGGGTTCCTGAACGCCGTCAAGATCAA
GGGGGCGCACACGGCGATAAAGTCGGGGATGCTGGCGGCGGAGGCTGCTT
TCGATCTACTTCAGGCGAGCAAAGCGGCTCCTGTTTCCGAAAGTGGCAGC
GTGGACCCCTCTGAAGGGGCCTTGGAATCGGACTTTCAAAAGCGCATGGA
CGAGTCATGGGTGATGGAAGAGCTCAAGGAGGTGCGAAACTGCCACGCGT
CGTTTGCGAAGGGGATGCTACCGGGTCTCGCCTACACAGGCCTGGCGGCG
CACGTGCTGAAGGGACGGGAGCCGTGGTCTTTCCGGAACCCCAAGAGAGA
CGCCGAAAGAACTCTGCCAGAAAGTCACCCGGAATGCAAGCGGATAGACT
ACCCCAAGCCCGACGGGGTCTTGAGCTTCGATCTGCTCAGCAACCTGGCC
CTGTCGGGAGTTAAGCACGAGCACGACCAGCCGGCGCACCTCAGAATCAA
GGAGGGTATGGAATCCGTCGCGTCAGAGGTGTCTTATCCCAAATACGGCG
GCCCGGAGCAAAGGTTCTGCCCGGCGGCGGTGTACGAGTACAACGTGCCG
GAGGGAGACAAGGGAGGGGAGCCGAAACTGGTTATCAACGCACAAAACTG
CATCCACTGCAAGTGCTGCTCGATCAAGATGCCTGAGGAGTATATCGACT
GGACAGTGCCCGAGGGCGGGGGTGGGCCTGGATACACCGTAATGTAG
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