mRNA_P-littoralis_Contig206.52.9 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig206.52.9
Unique NamemRNA_P-littoralis_Contig206.52.9
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: D7FXC2_ECTSI (Peptidylprolyl isomerase domain and WD repeat containing 1 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FXC2_ECTSI)

HSP 1 Score: 967 bits (2501), Expect = 0.000e+0
Identity = 521/626 (83.23%), Postives = 537/626 (85.78%), Query Frame = 1 
Query:  202 MAKPGSAEKEASAKXXXXXXXXXXXXXXXXXXXAGPQPAAPGQLGEDSXXXXXXXXXXXXXXXXXXXXKLAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAADAVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAAVTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDESRRAKASDALDMQNAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENVRFLHATLFQGTAKIDTQMLMARETKSRTAEEINKAKIPDPVVIATAFDKNRFYLFSKREPVEEDEGENGRDVFNEKPSAEEMHVVAETNTVVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDIS 2079
            MAKPG  + EAS       XXXXXXXXXXXXX AGPQPAAPGQLGEDS  XXXXXXXXXXX       KLAHEK YLEALPAAPMYERSYMHRDVV+HA+MTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVS+DGQRLCTTSADKSIKFYDVVSFDMSHMIAL YTPTRATWIHERGRK    GRVAVADADSPAIRVYVSDG+ DAVGQFDGHSSPVL+LAFNEPAKTVVSADRSGVLEYW AE+ GRP A AV FKFKMDTDLYD+AK                                               ASDALD QNA+FDESGHFLIYCTMLGIKVVNLVTN VSRVLGRHENVRFL ATLFQGTAKIDTQML+ARETKSRTAEEINK KIPDP+VIAT FDKNRFY+FSKR+PVE+D+GENGRDVFNEKPSAEEMHVVAETNTVVGREAVIRTSMGDIR KLFPDECPKT ENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGP TNGSQFFITTVPTPWLDNKHTVFGRV +GMDVVQ IEASKVDKTDKPFSEMKIISIDIS
Sbjct:    1 MAKPG--DDEASIAKRKKAXXXXXXXXXXXXXEAGPQPAAPGQLGEDSDTXXXXXXXXXXXVKQKKKRKLAHEKVYLEALPAAPMYERSYMHRDVVSHALMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSRDGQRLCTTSADKSIKFYDVVSFDMSHMIALGYTPTRATWIHERGRK----GRVAVADADSPAIRVYVSDGSTDAVGQFDGHSSPVLSLAFNEPAKTVVSADRSGVLEYWSAEDCGRPPAGAVKFKFKMDTDLYDMAK-----------------------------------------------ASDALDRQNAIFDESGHFLIYCTMLGIKVVNLVTNRVSRVLGRHENVRFLQATLFQGTAKIDTQMLLARETKSRTAEEINKTKIPDPIVIATGFDKNRFYMFSKRDPVEDDDGENGRDVFNEKPSAEEMHVVAETNTVVGREAVIRTSMGDIRTKLFPDECPKTIENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPATNGSQFFITTVPTPWLDNKHTVFGRVTAGMDVVQTIEASKVDKTDKPFSEMKIISIDIS 573
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: A0A836CG09_9STRA (PPIase cyclophilin-type domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CG09_9STRA)

HSP 1 Score: 656 bits (1692), Expect = 5.450e-225
Identity = 341/595 (57.31%), Postives = 408/595 (68.57%), Query Frame = 1 
Query:  409 LAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTT-SADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAADAVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAAVTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES---------------------------RRAKASDALDMQNAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHEN-VRFLHATLFQGTAKIDTQMLMARE----------TKSRTAEEINKAKIPDPVVIATAFDKNRFYLFSKREPVEEDEGENGRDVFNEKPSAEEMHVVAETNTVVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            L HEK YL  LP A MYERSYMHRD VTHAV+TPCGTDFLVTAS DGH+KFW+KMPEGVEFVKHY +HL  I  LA S DG R+ T  +AD+++KF+DV  FDM+ M AL+YTP  A W                                                     P  TVVSAD  G LEYWGAE+ G P   AV F +K++TDLY LAKA T+ C I  SPDG SMAV ARDK VRVFDFR GKLRR +DES                           R  +AS ALD+Q   FDESGHFL+Y T+LG+KVVNL TN ++ VLGR E+  RFL  +LFQG AK+DTQ L+AR+           K  T+E++ KA++PDP +  TAF++ RFYLFS+REP   DEG  GRDVFNEKP+A+++ +  E    +GREA++RT++GD+R KLF +ECP+T ENFC H+R+GYYD V+FHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHR+LRHDRPFT+SMAN GP TNGSQFFITTVPTPWLDNKHTVFGRV +GM+VVQAIE +KVDK D+P +E+KI+S+++
Sbjct:   60 LQHEKEYLRNLPCAAMYERSYMHRDTVTHAVLTPCGTDFLVTASADGHVKFWRKMPEGVEFVKHYRAHLGAIVALAASADGARVLTAGAADRALKFFDVAGFDMTSMRALEYTPGCAAW-----------------------------------------------------PLGTVVSADARGGLEYWGAEDCGAPPKGAVAFSYKVETDLYALAKAGTQPCHIALSPDGASMAVLARDKVVRVFDFRRGKLRRAFDESLKVFERAHEDGRLKLDAHDFGRRRATERELEASPALDLQRCAFDESGHFLLYPTLLGVKVVNLETNRLAAVLGRAESGERFLGISLFQGVAKVDTQFLLARDKQRGASGGAAAKPMTSEDLMKAQVPDPTLCCTAFNRKRFYLFSRREPAP-DEGAEGRDVFNEKPTADDVGMEMEAAAALGREAILRTTLGDVRVKLFGEECPRTVENFCGHARSGYYDNVVFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRDLRHDRPFTVSMANAGPTTNGSQFFITTVPTPWLDNKHTVFGRVTAGMEVVQAIENAKVDKLDRPHTEIKILSVEV 600
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: G4ZVH8_PHYSP (PPIase cyclophilin-type domain-containing protein n=9 Tax=Phytophthora TaxID=4783 RepID=G4ZVH8_PHYSP)

HSP 1 Score: 640 bits (1650), Expect = 1.680e-218
Identity = 343/602 (56.98%), Postives = 428/602 (71.10%), Query Frame = 1 
Query:  406 KLAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAAD----AVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAAVT-FKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKAS-----DALD----------------MQNAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQM---LMARETKSRTAEEI----NKAKIPDPVVIATAFDKNRFYLFSKREPVEEDEGENG-----RDVFNEKPSAEEMHVVAETNT--VVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            KL  E AYL  LP+A MYERS+MHR  V+H ++ P  T F++TAS+DGH+KFWKKM +G+EFVKHY +HL+ +H LAVS DG RLC+TSAD+SIKFYDV++FDM +M+++ +TP    WI  +G   +   +V VAD +SPA+R+Y ++ AA      + Q   H++PV  LAFN  A  V+SAD+ G++EYW A+ Y  P+  ++  FKFK +TDLY+LAK KT A +I  S DGKS  VTA+D Q+RVF F +GK+RRKYDES      A+A      DALD                + N VFDESGHF++Y T+ GIKV+N+ TN V +VLG+ E+  RFL  +LFQG  K++TQ    L A       AE +    N+    DP +  T+F +NRF+LFS REP EEDEGE+G     RDVFNEKP+ EE  V  E++T  V+G  AV+ T+MGDI  KLF  ECPKT ENFCTH+RNGYYD +IFHRVIK FMVQTGDPLGDGTGGESIWGGEFEDEFHR+LRHDRPFTLSMAN GPGTNGSQFFITTVPTPWLDNKHTVFGRV  G D V  IE+++VDK+DKP  ++KII+IDI
Sbjct:   16 KLPFEAAYLRNLPSAAMYERSFMHRAAVSHVLVAP-ETQFVITASVDGHVKFWKKMAKGIEFVKHYKAHLKEVHGLAVSADGLRLCSTSADRSIKFYDVLAFDMVNMLSVAFTPAECGWISAKG---AIEPKVVVADKNSPALRIYTAESAASEPVHTISQL--HAAPVTVLAFNPVANCVISADQKGIIEYWDADTYKFPKDKSLAKFKFKGETDLYELAKCKTYATAIDVSADGKSFVVTAKDNQIRVFRFATGKMRRKYDESLPVFEDAQADGTLHLDALDFGRRAAVERELANSDVVSNCVFDESGHFILYPTLAGIKVLNIETNKVVKVLGKVESSDRFLRLSLFQGKPKVNTQFEKHLKAASGLKHEAEVMSDSANERDNIDPTLFCTSFKRNRFFLFSSREP-EEDEGEDGSAGAGRDVFNEKPTLEEAQVATESSTSKVLGETAVMHTTMGDITLKLFGKECPKTVENFCTHARNGYYDNLIFHRVIKNFMVQTGDPLGDGTGGESIWGGEFEDEFHRSLRHDRPFTLSMANAGPGTNGSQFFITTVPTPWLDNKHTVFGRVEQGKDTVSNIESARVDKSDKPLKDIKIINIDI 610
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: H3G5V5_PHYRM (PPIase cyclophilin-type domain-containing protein n=1 Tax=Phytophthora ramorum TaxID=164328 RepID=H3G5V5_PHYRM)

HSP 1 Score: 636 bits (1641), Expect = 3.560e-217
Identity = 336/598 (56.19%), Postives = 429/598 (71.74%), Query Frame = 1 
Query:  409 LAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAA-DAVGQFDG-HSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAAVT-FKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKAS-----DALD----------------MQNAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQM---LMARETKSRTAEEINKAK---IPDPVVIATAFDKNRFYLFSKREPVEEDEGENG-----RDVFNEKPSAEEMHVVAETNT--VVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            L  E AYL+ LP A MYERS+MHR VV+H ++ P  T F++TAS+DGHIKFWKKM +G+EFVKHY +HL+ +H LAVS DG RLC+TSAD+SIKFYDV++FDM +M+++ +TP   +W+  +G   +   +V VAD +S A+R+Y ++ AA + +    G H++PV+ LAFN  A  V+SAD+ G++EYW A+ Y  P+  +V  F+FK +TDL++LAK KT A +I  SPDG S  V A+D Q+RVF F +GK+RRKYDES      A+A      D++D                + N VFDESGHF++Y T+ GIKV+N+ TN + +V+G+ E+  RFL  +LFQG  K++TQ    L A       AE ++ AK     DP +  T+F +NRF+LFS REP EEDE E G     RDVFNEKP+ EE  V  E++T  ++G  AV+ T+MGDI  KLF  ECPKT ENFCTH+RNGYYD +IFHRVIK FMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMAN GPGTNGSQFF+TTVPTPWLDNKHTVFGRV  G D V +IE ++VDK+DKPF ++KII+IDI
Sbjct:   17 LPFEAAYLDNLPGAAMYERSFMHRAVVSHVLVAP-ETQFVITASVDGHIKFWKKMAKGIEFVKHYKAHLKEVHGLAVSADGLRLCSTSADRSIKFYDVLAFDMVNMLSVAFTPGECSWVSAKG---AIEPKVVVADRNSAALRIYTAESAANEPIHTISGLHAAPVMALAFNPVANCVISADQKGIIEYWDADTYKFPKDKSVAKFRFKGETDLFELAKCKTHATAIDVSPDGGSFVVAAKDNQIRVFRFSTGKMRRKYDESLTVFEDAQADGTLHLDSIDFGRRAAVEREVANSDVVSNCVFDESGHFILYPTLAGIKVLNVETNKIVKVIGKVESSDRFLRVSLFQGKPKVNTQFEKHLKAASGLKHEAEIMSDAKDHDTIDPTLFCTSFKRNRFFLFSSREP-EEDESEEGIASTGRDVFNEKPTLEEAQVATESSTAKILGETAVMHTTMGDITLKLFGKECPKTVENFCTHARNGYYDNLIFHRVIKNFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANAGPGTNGSQFFLTTVPTPWLDNKHTVFGRVEHGKDTVSSIENTRVDKSDKPFKDIKIINIDI 609
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: A0A3M6VRV4_9STRA (PPIase cyclophilin-type domain-containing protein n=2 Tax=Peronospora effusa TaxID=542832 RepID=A0A3M6VRV4_9STRA)

HSP 1 Score: 628 bits (1620), Expect = 9.390e-214
Identity = 336/599 (56.09%), Postives = 419/599 (69.95%), Query Frame = 1 
Query:  406 KLAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVS-DGAADAVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAAVT-FKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKASDALDMQ---------------------NAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQM---LMARETKSRTAEEI----NKAKIPDPVVIATAFDKNRFYLFSKREPVEEDEGEN-----GRDVFNEKPSAEEMHVVAETNT--VVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            KL  E AY+  LP A MYERS+MHR  V+H V+ P  T F++TAS+DGH+KFWKKM  G+EFVKHY +HLE +HDLAVS DG RLC+TSAD+SIK YDV+SFDM +M+A+ +TP   +WI  +G   S   +VAVAD +S A+R+Y + +     + Q   H++PV  L FN     V+SAD+ G++EYW A+ Y  P    V  F+FK +T+LY+LAK KT A +I  SPDGKS  VTA+D Q+RVF F +GK+RRKYDES      A+A D L +                      N +FDESG+F++Y T+ GIKVVN+ TN V +VLG+ E+  RFL  +LFQG  KI+TQ    L A       AE +    N+    DP +  T+F +NRF+LFS REP E+DEGE      GRDVFNEKP+ EE  V  E++T  V+G  A++ T+MGDI  KLF  ECP+T ENFCTH+RN YYD +IFHRVIK FMVQTGDPLGDGTGGESIWGGEFEDEFHR+LRHDRPFTLSMAN GPGTNGSQFFITTVPTPWLDNKHTVFGRV  G D V +IE ++VDK+DKP +++KI++IDI
Sbjct:   34 KLPFEAAYVANLPCAAMYERSFMHRATVSHVVVAP-ETQFIITASVDGHVKFWKKMTRGIEFVKHYKAHLEEVHDLAVSADGLRLCSTSADRSIKLYDVLSFDMVNMLAVTFTPGNCSWISAKG---SIEPKVAVADRNSSAVRIYTTANEPVHTISQL--HAAPVTALTFNPVTNCVISADQKGIIEYWDADSYRFPTDRKVAKFRFKGETNLYELAKNKTYATAIDVSPDGKSFVVTAKDNQIRVFRFDTGKMRRKYDESLAVFEDAQADDTLHLDAIDFGRRAAVERELANSDVVSNCIFDESGYFILYATLAGIKVVNVETNKVVKVLGKVESSDRFLRLSLFQGKPKINTQYEKHLKAASGLKHEAEVMSDSNNERDNIDPTLFCTSFKRNRFFLFSSREP-EDDEGEGASAGTGRDVFNEKPTLEEAQVATESSTAKVLGETAIMHTTMGDITLKLFGKECPRTVENFCTHARNRYYDNLIFHRVIKNFMVQTGDPLGDGTGGESIWGGEFEDEFHRSLRHDRPFTLSMANAGPGTNGSQFFITTVPTPWLDNKHTVFGRVEHGKDTVSSIENARVDKSDKPLTDIKIVNIDI 625
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: W2Q5U2_PHYPN (PPIase cyclophilin-type domain-containing protein n=11 Tax=Phytophthora TaxID=4783 RepID=W2Q5U2_PHYPN)

HSP 1 Score: 627 bits (1617), Expect = 3.050e-213
Identity = 333/602 (55.32%), Postives = 424/602 (70.43%), Query Frame = 1 
Query:  406 KLAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAAD----AVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAA--AVTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKASDALDMQ---------------------NAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQM---LMARETKSRTAEEINKAKIP----DPVVIATAFDKNRFYLFSKREPVEEDEGENG----RDVFNEKPSAEEMHVVAETNT--VVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            KL  E  YL+ LP+A MYERS+MHR  V+H ++ P  T F++TAS DGH+KFWKKM +G+EFVKHY +HL+ +H LAVS DG RLC+TSAD+SIKFYDV++FDM +M+++ YTP    WI  +G   +   +V VAD +S A+R+Y ++ AA      + +   H++PV  +A+N  A  V+SAD+ G++EYW A+ Y  P  A   V FKFK +TDL++LAK KT A +I  SPDG+S  V+A+D Q+RVF F +GK+RRKYDES      A+A D L +                      N VFDESGHF++Y T+ GIKV+N+ TN V+RV+G+ E+  RFL  +LFQG  K++TQ    L A       AE +  ++      DP +  T+F +NRF+LFS REP +E EGE+G    RDVFNEKP+ EE  V  E++   V+G  AVI T+MGDI  KLF  ECPKT ENFCTH+RNGYYD +IFHRVIK FMVQTGDPLGDGTGG+SIWGGEFEDEFHR+LRHDRPFTLSMAN GPGTNGSQFFITTVPTPWLDNKHTVFGRV  G D V +IE+ +VDK+DKP +++KII+IDI
Sbjct:   35 KLPFEATYLKNLPSAAMYERSFMHRATVSHVLVAP-ETQFIITASEDGHVKFWKKMAKGIEFVKHYKAHLKEVHGLAVSADGLRLCSTSADRSIKFYDVLAFDMVNMLSVAYTPAECCWISAKG---AIDPKVVVADENSSALRIYTAESAASEPVYTISKL--HAAPVTAVAYNPVANCVISADQKGIIEYWDADTYKLPTKAKGVVKFKFKGETDLFELAKCKTFAMAIDVSPDGQSFVVSAKDSQIRVFRFATGKMRRKYDESLTVFEDAQADDTLHLDALDFGRRAAVERELAHSDAVSNCVFDESGHFILYATLAGIKVLNIETNKVARVVGKVESSDRFLRLSLFQGKPKVNTQFEKHLKAASGLKHEAEVMADSEKERDTIDPTLFCTSFKRNRFFLFSSREP-DEGEGEDGTATGRDVFNEKPTLEEAQVATESSNAKVLGDTAVIHTTMGDITLKLFGKECPKTVENFCTHARNGYYDNLIFHRVIKNFMVQTGDPLGDGTGGKSIWGGEFEDEFHRSLRHDRPFTLSMANAGPGTNGSQFFITTVPTPWLDNKHTVFGRVEQGKDTVSSIESVRVDKSDKPLNDIKIINIDI 629
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: A0A3F2RPH4_9STRA (PPIase cyclophilin-type domain-containing protein n=2 Tax=Phytophthora kernoviae TaxID=325452 RepID=A0A3F2RPH4_9STRA)

HSP 1 Score: 626 bits (1615), Expect = 4.190e-211
Identity = 334/600 (55.67%), Postives = 420/600 (70.00%), Query Frame = 1 
Query:  406 KLAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAAD----AVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAA--VTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKAS-----DALD----------------MQNAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQM---LMARETKSRTAEEI----NKAKIPDPVVIATAFDKNRFYLFSKREPVEED--EGENGRDVFNEKPSAEEMHVVAETNT--VVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            KL  E +Y+  LP A MYERS+MHR  V+H ++ P  T F+VTAS+DGH+KFWKKM +G+EFVKHY +HL  IH LAVS DG RLC+TSAD+SIKFYDV++FDM +M+++ +TP    W+  +G   +   +V VAD +SPA+R+Y ++ A +     + +   H++PV  LAFN  A  V+S D+ G +EYW  E Y  P A +  V FKFK +TDLY+LAK KT A ++  S DGKS  VTA+D Q+RVF F +GK+RRKYDES      A+A      DA+D                + N VFDESG+F++Y T+LGIKVVN+ TN + +VLG+ E+  RFL  +LFQG  K++TQ    L A       AE +    N+    DP +  T+F +NRF+LFS REP EED  +  +GRDVFNEKP+ EE  V  E+++  V+G  A+I T+MGDI  KLF  ECPKT ENFCTH+RNGYYD +IFHR IK FMVQTGDPLGDGTGGESIWGGEFEDEFHR+LRHDRPFTLSMAN GPGTNGSQFFITTVPTPWLDNKHTVFGRV  G D V  IE ++VDK+DKP  ++KII+IDI
Sbjct:  162 KLPFESSYVNNLPTAAMYERSFMHRAPVSHVLVAP-ETQFVVTASVDGHVKFWKKMTKGIEFVKHYKAHLGEIHGLAVSIDGLRLCSTSADRSIKFYDVLAFDMVNMLSITFTPGECCWVSAKG---AIEQKVVVADQNSPALRIYKAESAGNEPCYTISKL--HTAPVTVLAFNHVADCVISTDQRGHVEYWNTETYKFPTATSGVVKFKFKGETDLYELAKCKTHAMAVDVSKDGKSFVVTAKDNQIRVFRFATGKMRRKYDESLTVFEDAQADGTMHLDAIDFGRRAAVERELANSDIVSNCVFDESGYFILYTTLLGIKVVNVETNRLVKVLGKVESSDRFLRLSLFQGKPKVNTQFEKHLKASSGLKHEAEVMSDSANERDTTDPTLFCTSFKRNRFFLFSSREPDEEDGEDSNSGRDVFNEKPTLEEAQVATESSSAKVLGETAIIHTTMGDITLKLFGKECPKTVENFCTHARNGYYDNIIFHRTIKNFMVQTGDPLGDGTGGESIWGGEFEDEFHRSLRHDRPFTLSMANAGPGTNGSQFFITTVPTPWLDNKHTVFGRVEHGKDTVSNIENARVDKSDKPVKDIKIINIDI 755
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: A0A4D9CR11_9STRA (PPIase cyclophilin-type domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9CR11_9STRA)

HSP 1 Score: 621 bits (1602), Expect = 1.830e-210
Identity = 330/604 (54.64%), Postives = 414/604 (68.54%), Query Frame = 1 
Query:  406 KLAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAADAVGQFDG-HSSPVLTLAFNEPAKTVVSADRSGVLEYWGAE-------EYGRPRAAAVTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES---------------------RRA--------KASDALDMQNAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHEN-VRFLHATLFQGTAKIDTQMLMARETKSRTAEEINKAKI---PDPVVIATAFDKNRFYLFSKREPVE-EDEG---ENGRDVFNEKPSAEEMHVVAETNTV---VGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISID 2073
            KL HE+A+L ALP A MYE+SYMHRD VT    TP  TDFL+TAS DGH+KFWKKMPEG+EFVKHYH+HL  I  LAVS DG RL TT ADK+IKFYDV++FD+++M+ + ++P+ A W+H  G      GR+AVADAD+P +R+Y SDG+   +      H++PV  LAF+      +SAD  G+LEYW  E        Y  PR   V F+ K+D+DL+++ K KT   ++  S DG  +A   +D+ +RVFD R GKL R Y+E                      RR+         A D +   NAVFDE+GHFLIY T+LGIK VN+ TN V +VLG+ E+  RFL   +FQG  K+D+QM+ A   K +TA  + + +    PDP V+ATAF+K RFYLF++R P + E EG   + GRDV NEKP+AEE  V + T+     +G+ A++RT+MGDI  KLF +ECP+T ENF TH+RNGYYD V+FHRVIKGFMVQTGDP GDGTGGESIWGGEFEDE HRNLRHDRPFTLSMAN GP TNGSQFFITTVPTPWLD KHTVFGRV+ GMDVV  I   KVD  D+PF+++KII++D
Sbjct:   66 KLEHEEAFLAALPNADMYEKSYMHRDTVTQCAFTP-RTDFLITASEDGHVKFWKKMPEGLEFVKHYHAHLGSIRGLAVSGDGLRLATTGADKAIKFYDVLTFDLTYMLDVDFSPSHAVWVHRPGEAH---GRLAVADADTPCLRIYRSDGSQAPIHTLPTMHAAPVTALAFSPSDALAISADVKGMLEYWSTELEGGDGEAYTFPRKK-VFFRSKLDSDLFEMLKRKTYITAMDVSRDGSKLATVGKDRHIRVFDLRRGKLLRVYNEGLEVAEAAMATGTLGLDTIDFGRRSAVEHELEGSAPDVMARNNAVFDETGHFLIYATLLGIKTVNVETNRVVKVLGKIESGERFLRVCVFQGVPKVDSQMVKALN-KGKTASSVEEMRAQLRPDPTVVATAFNKRRFYLFTRRMPSDVEGEGLGEDGGRDVLNEKPTAEEATVASATDKAQQELGKAAILRTTMGDIHLKLFKEECPRTIENFVTHARNGYYDNVLFHRVIKGFMVQTGDPQGDGTGGESIWGGEFEDEIHRNLRHDRPFTLSMANAGPNTNGSQFFITTVPTPWLDGKHTVFGRVVQGMDVVSQISQVKVDPQDRPFADIKIINVD 663
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: A0A484EIC0_BRELC (PPIase cyclophilin-type domain-containing protein n=1 Tax=Bremia lactucae TaxID=4779 RepID=A0A484EIC0_BRELC)

HSP 1 Score: 614 bits (1584), Expect = 2.670e-208
Identity = 328/598 (54.85%), Postives = 415/598 (69.40%), Query Frame = 1 
Query:  409 LAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAADAVGQFDG--HSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAA--AVTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKASDALDMQ---------------------NAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQMLMARETKSRTAEE-------INKAKIPDPVVIATAFDKNRFYLFSKREPVEEDEGE---NGRDVFNEKPSAEEMHVVAETNTVV-GREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDIS 2079
            L  E  YL  LP+A MYERS+MHR  V+H ++ P  T F++TAS+DGH+KFWKKM +G+EFVKHY +HL  I  LAVS DG RLC+TSAD+SIKFYDV++FDM +M+++ YTP    WI  +G   +   +V VAD  S  +R+Y ++ +++         H++ V  L +N  A  V+SAD +G+LEYW A+ Y  PR    A+ FKFK +TDL++LAK KT A +I  S +G+S  V+A+D Q+RVF F +GKLRRKYDES      A+A +AL +                      N VFDESG F++Y T++GIKVVN+ TNTV+RVLG+ EN  RFL   LFQG  K+ TQ     +  S    E       IN+  + DP +  T+F +NRF+LFS REP E+DE +    GRDV NEKP+ EE  V  E+++V+ G  AV+ T+MGDI  KLF  ECP+T ENFCTH+RNGYYD +IFHRVIK FMVQTGDP GDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMAN GP TNGSQFFITTVPTPWLDNKHTVFGRV +G DVV +IE ++VDK+DKP  ++KII+IDI+
Sbjct:   36 LPFESMYLNNLPSAAMYERSFMHRTTVSHVLVAP-ETQFIITASVDGHVKFWKKMGKGIEFVKHYKAHLSEICGLAVSADGLRLCSTSADRSIKFYDVLAFDMVNMLSVTYTPAECCWISAKG---AIDPKVVVADKASSVLRIYTAESSSNEPVHVISKLHAASVTALCYNAMANCVISADHNGLLEYWDADTYVFPRKEPRAIQFKFKSETDLFELAKCKTFATAIDVSLNGQSFVVSAKDNQIRVFRFATGKLRRKYDESLTVFEDAQADEALHLDALDFGRRAAVERELANSDVVSNCVFDESGFFILYATLVGIKVVNIETNTVARVLGKVENSDRFLRLNLFQGKPKVSTQFEKHLKATSGLKYEAQVMTDAINERDLIDPTLFCTSFKRNRFFLFSSREP-EDDEQQATGTGRDVLNEKPTLEEAQVATESSSVISGHTAVMHTTMGDITLKLFGKECPRTVENFCTHARNGYYDNLIFHRVIKNFMVQTGDPQGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANAGPSTNGSQFFITTVPTPWLDNKHTVFGRVENGKDVVSSIENTRVDKSDKPVEDIKIINIDIA 628
[Close]
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Match: A0A662X388_9STRA (PPIase cyclophilin-type domain-containing protein n=2 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662X388_9STRA)

HSP 1 Score: 610 bits (1573), Expect = 2.230e-206
Identity = 332/600 (55.33%), Postives = 406/600 (67.67%), Query Frame = 1 
Query:  409 LAHEKAYLEALPAAPMYERSYMHRDVVTHAVMTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDGQRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGRVAVADADSPAIRVYVSDGAAD----AVGQFDGHSSPVLTLAFNEPAKTVVSADRSGVLEYWGAEEYGRPRAAA--VTFKFKMDTDLYDLAKAKTRACSICFSPDGKSMAVTARDKQVRVFDFRSGKLRRKYDES----RRAKASDALDMQ---------------------NAVFDESGHFLIYCTMLGIKVVNLVTNTVSRVLGRHENV-RFLHATLFQGTAKIDTQM---LMARETKSRTAEEINKAKIP----DPVVIATAFDKNRFYLFSKREPVEEDEGEN---GRDVFNEKPSAEEMHVVAETNT--VVGREAVIRTSMGDIRAKLFPDECPKTAENFCTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRNLRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVVQAIEASKVDKTDKPFSEMKIISIDI 2076
            L  E  Y+  LP A MYERSYMHRDVVTH ++ P  T FLVTAS DGH+KFWKKM  GVEFVKHY +HL  IH LAVS DG RLC+T+AD+++KFYDV++FDM +M+ + + P    WI  +G   +    V VAD + PA+RVY ++ A       + +   H++PV  LAFN     V+S D+ G +EYW  E +  P AA+  V+FKFK +TDLY+LAK KT A ++  SPDG+S  VTA+D Q+RVF F +GKLRRKYDES      A+A + L +                      N VFDESGHF++Y T+LGIKVVN+ TN + +VLG+ E+  RFL  +LFQG  K+ +Q    L A       A  +  A I     DP +  T+F +NRF+LFS REP       N   GRDVFNEKP+ EE  V  E++   V+G  AV+ T+MGD+  KLF  ECPKT ENFCTH+RNGYYD +IFHRVIK FMVQTGDPLGDGTGGESIWGGEFEDEFHR+LRHDRPFTLSMAN GPGTNGSQFFITTVPTPWLDNKHTVFGRV  G D V  IE  +VDK+DKP  ++KII+IDI
Sbjct:   52 LPFEAVYVRNLPTAAMYERSYMHRDVVTHVLVAP-ETQFLVTASRDGHVKFWKKMARGVEFVKHYKAHLGEIHGLAVSPDGLRLCSTAADQTVKFYDVLAFDMVNMLQVGFVPGACCWISPKG---AIEANVVVADRNGPALRVYNAEKAGSEPLYTIAKL--HTAPVTVLAFNLRVNCVISGDQRGHIEYWNTETHKLPTAASGVVSFKFKGETDLYELAKCKTFATALDVSPDGQSFVVTAKDSQIRVFRFATGKLRRKYDESLTVFEDAQADETLHLDAIDFGRRAAVERELASSDAVANCVFDESGHFILYPTLLGIKVVNVETNKLVKVLGKVESSDRFLRLSLFQGKPKVSSQFEKHLKASSGLKHDAVVMADAAIERDATDPTLFCTSFKRNRFFLFSSREPDXXXXXGNAGTGRDVFNEKPTLEEAQVATESSAAKVLGETAVMHTTMGDLTLKLFGKECPKTVENFCTHARNGYYDNLIFHRVIKNFMVQTGDPLGDGTGGESIWGGEFEDEFHRSLRHDRPFTLSMANAGPGTNGSQFFITTVPTPWLDNKHTVFGRVEHGKDTVSGIENVRVDKSDKPVKDIKIINIDI 645
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig206.52.9 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FXC2_ECTSI0.000e+083.23Peptidylprolyl isomerase domain and WD repeat cont... [more]
A0A836CG09_9STRA5.450e-22557.31PPIase cyclophilin-type domain-containing protein ... [more]
G4ZVH8_PHYSP1.680e-21856.98PPIase cyclophilin-type domain-containing protein ... [more]
H3G5V5_PHYRM3.560e-21756.19PPIase cyclophilin-type domain-containing protein ... [more]
A0A3M6VRV4_9STRA9.390e-21456.09PPIase cyclophilin-type domain-containing protein ... [more]
W2Q5U2_PHYPN3.050e-21355.32PPIase cyclophilin-type domain-containing protein ... [more]
A0A3F2RPH4_9STRA4.190e-21155.67PPIase cyclophilin-type domain-containing protein ... [more]
A0A4D9CR11_9STRA1.830e-21054.64PPIase cyclophilin-type domain-containing protein ... [more]
A0A484EIC0_BRELC2.670e-20854.85PPIase cyclophilin-type domain-containing protein ... [more]
A0A662X388_9STRA2.230e-20655.33PPIase cyclophilin-type domain-containing protein ... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig206contigP-littoralis_Contig206:330756..364892 -
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.D7FXC2
Preferred namePPWD1
PFAMsPro_isomerase,WD40
Model size2627
Max annot lvl2759|Eukaryota
KEGG koko:K12736,ko:K14569
KEGG Pathwayko03008,map03008
Hectar predicted targeting categoryother localisation
GOsGO:0000003,GO:0000228,GO:0000375,GO:0000377,GO:0000398,GO:0000413,GO:0000785,GO:0000790,GO:0003002,GO:0003006,GO:0003674,GO:0003682,GO:0003755,GO:0003824,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005681,GO:0005694,GO:0006139,GO:0006325,GO:0006342,GO:0006355,GO:0006396,GO:0006397,GO:0006464,GO:0006725,GO:0006807,GO:0006996,GO:0007275,GO:0007389,GO:0008144,GO:0008150,GO:0008152,GO:0008380,GO:0009653,GO:0009791,GO:0009888,GO:0009889,GO:0009890,GO:0009892,GO:0009908,GO:0009909,GO:0009933,GO:0009965,GO:0009987,GO:0010015,GO:0010016,GO:0010051,GO:0010073,GO:0010075,GO:0010082,GO:0010305,GO:0010338,GO:0010358,GO:0010467,GO:0010468,GO:0010556,GO:0010558,GO:0010605,GO:0010629,GO:0016018,GO:0016043,GO:0016070,GO:0016071,GO:0016458,GO:0016604,GO:0016853,GO:0016859,GO:0018193,GO:0018208,GO:0019219,GO:0019222,GO:0019538,GO:0022414,GO:0022622,GO:0031056,GO:0031060,GO:0031323,GO:0031324,GO:0031326,GO:0031327,GO:0031399,GO:0031974,GO:0031981,GO:0032268,GO:0032501,GO:0032502,GO:0032991,GO:0033043,GO:0033044,GO:0033218,GO:0034641,GO:0036211,GO:0040008,GO:0040029,GO:0042277,GO:0042393,GO:0043170,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043412,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044422,GO:0044424,GO:0044427,GO:0044428,GO:0044446,GO:0044451,GO:0044454,GO:0044464,GO:0045814,GO:0045892,GO:0045934,GO:0046483,GO:0048364,GO:0048366,GO:0048367,GO:0048437,GO:0048438,GO:0048440,GO:0048442,GO:0048443,GO:0048444,GO:0048447,GO:0048449,GO:0048453,GO:0048464,GO:0048466,GO:0048467,GO:0048507,GO:0048509,GO:0048519,GO:0048523,GO:0048532,GO:0048580,GO:0048608,GO:0048638,GO:0048646,GO:0048731,GO:0048827,GO:0048831,GO:0048856,GO:0050789,GO:0050793,GO:0050794,GO:0051128,GO:0051171,GO:0051172,GO:0051239,GO:0051246,GO:0051252,GO:0051253,GO:0051276,GO:0060255,GO:0061458,GO:0065007,GO:0070013,GO:0071013,GO:0071704,GO:0071840,GO:0080090,GO:0090304,GO:0090567,GO:0090696,GO:0090697,GO:0090698,GO:0099402,GO:0140096,GO:1901360,GO:1901564,GO:1902275,GO:1902494,GO:1902679,GO:1903506,GO:1903507,GO:1905392,GO:1905393,GO:1990904,GO:2000026,GO:2000112,GO:2000113,GO:2000241,GO:2000280,GO:2001141
Exons15
Evalue0.0
EggNOG OGsKOG0882@1|root,KOG0882@2759|Eukaryota
EC5.2.1.8
Descriptionpeptidyl-prolyl cis-trans isomerase activity
Cds size1881
COG categoryO
BRITEko00000,ko00001,ko01000,ko03009,ko03041,ko03110
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig206.52.9prot_P-littoralis_Contig206.52.9Pylaiella littoralis U1_48polypeptideP-littoralis_Contig206 331301..360549 -


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

Feature NameUnique NameSpeciesTypePosition
1680790004.8547988-UTR-P-littoralis_Contig206:330755..3313001680790004.8547988-UTR-P-littoralis_Contig206:330755..331300Pylaiella littoralis U1_48UTRP-littoralis_Contig206 330756..331300 -
1680790005.0296416-UTR-P-littoralis_Contig206:360549..3606041680790005.0296416-UTR-P-littoralis_Contig206:360549..360604Pylaiella littoralis U1_48UTRP-littoralis_Contig206 360550..360604 -
1680790005.0396073-UTR-P-littoralis_Contig206:364746..3648921680790005.0396073-UTR-P-littoralis_Contig206:364746..364892Pylaiella littoralis U1_48UTRP-littoralis_Contig206 364747..364892 -


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

Feature NameUnique NameSpeciesTypePosition
1680790004.869616-CDS-P-littoralis_Contig206:331300..3313781680790004.869616-CDS-P-littoralis_Contig206:331300..331378Pylaiella littoralis U1_48CDSP-littoralis_Contig206 331301..331378 -
1680790004.8827612-CDS-P-littoralis_Contig206:331624..3317341680790004.8827612-CDS-P-littoralis_Contig206:331624..331734Pylaiella littoralis U1_48CDSP-littoralis_Contig206 331625..331734 -
1680790004.8947048-CDS-P-littoralis_Contig206:333179..3332971680790004.8947048-CDS-P-littoralis_Contig206:333179..333297Pylaiella littoralis U1_48CDSP-littoralis_Contig206 333180..333297 -
1680790004.9084191-CDS-P-littoralis_Contig206:334879..3349691680790004.9084191-CDS-P-littoralis_Contig206:334879..334969Pylaiella littoralis U1_48CDSP-littoralis_Contig206 334880..334969 -
1680790004.92075-CDS-P-littoralis_Contig206:336156..3362611680790004.92075-CDS-P-littoralis_Contig206:336156..336261Pylaiella littoralis U1_48CDSP-littoralis_Contig206 336157..336261 -
1680790004.9302297-CDS-P-littoralis_Contig206:336719..3368101680790004.9302297-CDS-P-littoralis_Contig206:336719..336810Pylaiella littoralis U1_48CDSP-littoralis_Contig206 336720..336810 -
1680790004.9400084-CDS-P-littoralis_Contig206:339268..3393931680790004.9400084-CDS-P-littoralis_Contig206:339268..339393Pylaiella littoralis U1_48CDSP-littoralis_Contig206 339269..339393 -
1680790004.9514716-CDS-P-littoralis_Contig206:340664..3408341680790004.9514716-CDS-P-littoralis_Contig206:340664..340834Pylaiella littoralis U1_48CDSP-littoralis_Contig206 340665..340834 -
1680790004.9679804-CDS-P-littoralis_Contig206:347729..3477931680790004.9679804-CDS-P-littoralis_Contig206:347729..347793Pylaiella littoralis U1_48CDSP-littoralis_Contig206 347730..347793 -
1680790004.9771297-CDS-P-littoralis_Contig206:349290..3494711680790004.9771297-CDS-P-littoralis_Contig206:349290..349471Pylaiella littoralis U1_48CDSP-littoralis_Contig206 349291..349471 -
1680790004.987189-CDS-P-littoralis_Contig206:354943..3550981680790004.987189-CDS-P-littoralis_Contig206:354943..355098Pylaiella littoralis U1_48CDSP-littoralis_Contig206 354944..355098 -
1680790004.999571-CDS-P-littoralis_Contig206:356006..3561651680790004.999571-CDS-P-littoralis_Contig206:356006..356165Pylaiella littoralis U1_48CDSP-littoralis_Contig206 356007..356165 -
1680790005.008852-CDS-P-littoralis_Contig206:357680..3578931680790005.008852-CDS-P-littoralis_Contig206:357680..357893Pylaiella littoralis U1_48CDSP-littoralis_Contig206 357681..357893 -
1680790005.0183704-CDS-P-littoralis_Contig206:360327..3605491680790005.0183704-CDS-P-littoralis_Contig206:360327..360549Pylaiella littoralis U1_48CDSP-littoralis_Contig206 360328..360549 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig206.52.9

>prot_P-littoralis_Contig206.52.9 ID=prot_P-littoralis_Contig206.52.9|Name=mRNA_P-littoralis_Contig206.52.9|organism=Pylaiella littoralis U1_48|type=polypeptide|length=627bp
MAKPGSAEKEASAKRKKAQEQEEPEEPSSSDDDAGPQPAAPGQLGEDSDT
DGEAGPPAPAPVKKKKKRKLAHEKAYLEALPAAPMYERSYMHRDVVTHAV
MTPCGTDFLVTASLDGHIKFWKKMPEGVEFVKHYHSHLEPIHDLAVSKDG
QRLCTTSADKSIKFYDVVSFDMSHMIALKYTPTRATWIHERGRKASFPGR
VAVADADSPAIRVYVSDGAADAVGQFDGHSSPVLTLAFNEPAKTVVSADR
SGVLEYWGAEEYGRPRAAAVTFKFKMDTDLYDLAKAKTRACSICFSPDGK
SMAVTARDKQVRVFDFRSGKLRRKYDESRRAKASDALDMQNAVFDESGHF
LIYCTMLGIKVVNLVTNTVSRVLGRHENVRFLHATLFQGTAKIDTQMLMA
RETKSRTAEEINKAKIPDPVVIATAFDKNRFYLFSKREPVEEDEGENGRD
VFNEKPSAEEMHVVAETNTVVGREAVIRTSMGDIRAKLFPDECPKTAENF
CTHSRNGYYDGVIFHRVIKGFMVQTGDPLGDGTGGESIWGGEFEDEFHRN
LRHDRPFTLSMANGGPGTNGSQFFITTVPTPWLDNKHTVFGRVISGMDVV
QAIEASKVDKTDKPFSEMKIISIDIS*
back to top

mRNA from alignment at P-littoralis_Contig206:330756..364892-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig206.52.9 ID=mRNA_P-littoralis_Contig206.52.9|Name=mRNA_P-littoralis_Contig206.52.9|organism=Pylaiella littoralis U1_48|type=mRNA|length=34137bp|location=Sequence derived from alignment at P-littoralis_Contig206:330756..364892- (Pylaiella littoralis U1_48)
CACGGTGCACGGGCTCCCTATGTAGCCGGGGATTTAAGCTGTCAACAAGC
AAGTGAGACGGGACTTGGTTCACAGCAACGGCAGATCTTATCGGTGGTTT
GTCGAGCATTGCGACTCCTGCATCTTGACTGTGGCAGGAGACATCTGTGA
GTGTGGTGTACCGGATGCTCTGGTACGAATACCGCAGGTGACGTAAGATA
CCCCGCACCCTGGACTGCTCCTGAGAGCTTGATCTCTTCGCAGCAAAACG
AATGGCAGTGCCGGCAATGGTGGCATTTGGAAGACTTCGTGGAGAACTTG
TCGAAAATTTGCCGTTTGGTGCATTGGCACTCTCTTGGTTATGGAGTATT
CGATCGACCTTGCAAACCTTGGTCCAGGGGATGTGGTATCTTGTGTCACC
AATGGTACATGGGCAGGGGAAGAGGGTTACACAAGGCTCGTTTACCGTTT
GCTCCACAACAGAAATTTCGGTGCGTTACCAACAAGGAGTCAGCGTTGGA
GGTTTCTTGTCGAGAGTCGAGTCCAGAGTGAGCTTCCTGAACACGGACGC
AAACCCCGTTTAATGTTGGCACCCTTGTCGCCAGGGAGTACCCTGGTACA
CAGCAGACAGTGAGGTTTGAGATGTCGGTCAGGGGGCGTGGTATCTTATG
CGACGTACATGACAATCAAGCAGTCCACCTCCACCCCGAATGATATCACC
CATACCACCTGACCTATACTACTTGTACGGCAGCACCCATACGTGCCTGC
GCTCTATCATATACTGATGTAGTTGCAAATTTTGAGATCTGGGTGGGGAG
AATTTTCCAGTCTCGGTAAGGACTTTTGATGTCGGGACTATATTCCGCGG
TATTCAGCAACCGCGGTCATTCACGGTAATTATTTTACCGTAAAGCGACT
GCCTCGGTAACTGCTGCCGCGGTACTCAACGACCGCCGTAATTTGCGGTA
ATTTTCCACAGTAATTGGAAGTTGTCTTTTTGTGTTCTCTGTTTCTCTGC
CCTTCTGCCTTTTTGCCCCCCTTCACGTCTGCGTATTTGCGCTGCCTGAA
ACTGTTACTGGGCCGGTGAAGAAAGTAGCACGCCCGATGTCCATTTTTAT
CGACACCTTGGCAACTAAATTCGGTCTCTTTTTGTCTTTTTGTCACTCCT
CTGTGACTTTTTGTTTTATTTTTGACCTATTATTTCATTTTGTGACTTGG
CCCTGGACCAGGCTCCCTTCTCTTGTTTTCTTGTTTCTTGTTCTATTTTT
GTACAGCGTTGTGTGATTTCTCGGGGTCCGTTTTTGTTTTTGCCAGAGTT
TCCTTGTCGTGCCTTTATTTGGTGGACTGAGGGGATCTCCCGAGTACTAT
ATACCTCTTCTGGGGCAAGCAGCCTATGACCACAGAAATCGTACCTGATC
GGTGGAGTACGGACATTAGAAGGTACTGAGGAGAGATCGGAATGGTTTCG
AATGTGAAGACAACAACAACAACAATTGGCCACCGCGGTAATTGTTACCG
CGGTACTCAGCCACCGCGGTAGTTTTGCGATATTTTTCCCACGGTAATTG
ACCACCACGGTAATTTTTCCACCGCGATGTTGTACAGCAGTAGTACTTTT
TGTTTTTTTGTACCAGCGTATGGTGTACTGTATGGTGTGGCGAAGCGAGT
ACGGTTATAGTTCAGCTCCTAGCAATAACATGGCAGTCCCCCCCTATCAC
GGGACTGTCATGCTCACCGCCACCACCAGCTACGGCTGCAGCATGCAGCA
GCAGCAGCAGCACTCTCCGCGGAAGGATCGGTGACAACGGGTGATGCTCC
TTTACCCACGTCATTGTTGACACCACCAACATTGGCGCCTCCTGGGCGTG
TTGTTATGTGGTGTATTGCTCTGAAGCGTGGTTGTGAGCCACCAACACAA
CACAACAAAAATTGAAGAAAAAATTGAAGAAAAGAGAAAAGAGAAAAAAA
ATTGAAGAAAAAGTAGAGAGAAATCAACTGGACAAAATGACTGAGGTGGG
GTTCTAGCCTGCTGGCTAGTTTATCACCTACACCTGATACCCTACTCGAA
ACTTCTTCTGCAATTTGCTTGTGGGAATGAAACTTGTGTTTCTTTGCGGT
AATTGAGACTTTCATCTTGCGGTTAATACCAATGAATGGCGCGATTTGCG
TAATTTTTACGGTAATTTGTTCCGCGGGAATGGGACAACTATTTCGTTGC
GGTGCTTTGATTGTACGGGAATGGAACAATTTCGATTTTCTTGTAACACA
CATTTCACTGGCATGTTGCTTCGAGGTACTTATGTTGCACCGGCTGTGGC
GCTGATCCCGAAATCGTGAAAATTGTTTTGGGCAGCACGTCCAACAAGCT
ACAGACCCTCCGAGTTTCAGCCGATTCTGGTACTTATTCGAGCGCTCAGA
CGCGGCCTGAAAGCATTTTTTGTAGTATATGACCAGGTCTAGTAAATTGG
TAACATTTTCGGAGGTAGACATATAATTGTTCCTAGTTCAAAAAATGTAA
ACCCGGCACCTCGACTTTGGACTACCGTAGATCCCATGAGGTACCACATC
CCCTGGATCGGTTTTCAAAGCACAACTACTCCACAACGGAGCGAGTGTTG
TCGACTTTAGGCTACATTTGCAGGCCATCCGTCAGTACTTTAGTGCTGAT
CCCGAAAGCGTCAACTCTTTTTGGGTAGTTCAACTTGGAAGTATCAGACC
TGCAAACCATTGCGAGTCTCAGCCGACTTGGTCAATTCTACATGAGAGTG
CGCAAAATTGACCTGAAGTTTGTCCAAAAATGAGGAAGCGTGTGGCATCC
TACGTCGCACTCCGGAATTCCACTTCCGTGCTAAGCTCTGCCGCATCAAG
CCTGGCGTTGTTTGTGGTATAGAGTACGTCATATCAGCTCATCGCCACAA
TCTAGCCCGCGGTCACAAATCAGACACGACATCGTGGAGATACATGAATC
GAGGAACCAATAAAAAACAAGATTACACACGAGAGGATCTATGGCGCTAT
TAGGGGCATCCCAAATATCCAAAGCACCTGCAATGGTTTCATCTGGAGCG
GTGCACCATAATGTCCCTGCTGCACGAAGGTCTTGCGTGTGGTTGGAAAC
CGCTTGGCACGGCCCTCGGTGTGCTGGTACGCACACTGCTCCTCACAATC
CCCGAGCGTCTTTGTGTTATCGTTAGTGGTGGTGGTGGTGGTGGTGGTGT
TGTTGGTCTTGGTCTTGGTCTTGTTATTGTCGATGTTGGTGTTCTTGTTG
TTCTTGTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTATTGCTTCTCAC
ATAAGCGTGTACCGCCGAAGTCTCTGCAGCCCGCCGTCATAAACCAGAGA
GCCAAACGCGTCGCGTTATGACAGGAGGAAACGTCACCAGAATGATAGAT
GAAATACGAAGTATACGAAGGCCATACACAAAAGAGGAAGAAAAAAAAAC
ACACGCGTTTGTGTGTGTATCTGCTTGTTCGTGTTTCGTGTGCGGGTTGT
GTTCTCGTTAAAAACCGTTTCGATCTCTGCATAGTGCAACCTAATGCCCG
TGCTACGAACTCATCCGACCTGGGGAGAGGGGGCGAGAGCGCTTTTCGTG
TTCACAGGCTATCATATCTACCCGACACGGACGGATACAGGGAGGAAAGG
TCTTTCCTTTACACGACACCCGAGAATATCTCTTCAACAGCGGTGACAAC
GAGCCAAGCGTCAAAAAGGTCCCCGTTGTAGCACACCAGGAGTATCATAA
ACGTGTCGTGCACATGCCGGTATCTACTGGCTGGCACGTACATATTCATT
TTACACCGCAAGACGCCGAAAATGGCGAATAATGGCTGAACCTGGGTCAA
AGGACTAGGCTACCAGCGCTCTCCATTTCGAAGATTGGGTAACAACAGCA
TTTCATGTGTGTATTTGATCATTTGTTCTTTGAGTGGACCCTCTTGAATG
CAAGCACTGGTACTGATGTGTCCATTCCTCTTATTGTAGTTTTATGTCAC
AGGAAATGTGCCAAACACGGAAAAACAAGCATCGCTGTGATTTGGCCGGG
GTCATGGGACTATAGGCTGCGACGTAGCGCTTTAATGCGAAAATATTTCT
TCGTTATAAATATTTTTAATCCGTGACTACACTTATCCAATTCTGACCCG
CTCTGTCTCCCTCTCTCCCTCTCTCCCTCTCTCCCTCTCCCCCTCCCTCT
CTCTCTCCCTCTCTCTCTCCCTCTCCCTCTCTATCTCTCTCCCTCTCCCT
CCCTCCCAACACATAAACACTATAAACATGCTTTGCAGGTGAGGTCAGAA
GGGAGAAGCAACATCCACCCCTTTCCGTGCGGCAGAAAGCAACATGGCTA
AGCCGGGGTCAGCCGAGAAGGAGGCCAGCGCGAAGCGAAAGAAGGCGCAA
GAGCAAGAAGAACCCGAAGAACCTTCTTCGTCGGACGACGATGCGGGGCC
TCAGCCCGCAGCCCCGGGACAGCTCGGGGAAGACTCGGACACCGATGGGG
AGGCTGGACCGCCGGCACCGGCTCCCGTCAAGAAGAAAAAGAAGCGCAAG
CTGGCGCACGAGAAGGTCGGGGAAAACGGGCGAAATCTGCGATGTGTTGT
TGGTGTTGTTGTTGTTGTTGTTCTTGTTGTTGTTCTTGTTGTTGTTGTTG
TTGTCGTTGTTGCTATTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTT
CTTGTTGTTCTTGTTGTTCTTGTTCTTGTTGTTCTTCTTGTTCTTGTTCT
TGTTGTTGTTGTTGTTGTTGTTGTTCTTGTCGTTCTTGTTGTTCTTGTCC
TTGTTGATGATCCTCACATCAGCTCACCACCAGAGTCTAGCCCGTGGTCG
CTGGTCATCAACCAGACACATATCGTGCTATGGAGGAGGACAATAAAAAT
GAAAATGGGATAAACGATGGTCGCCCAAACAGAATCAGACATAGTACCCC
GTCGAGGTATATTTTGTGGTTACCAAAGTACAAAAATACAGAAATACAGG
CTCGATAAGCAAAAGTAGGAAACAAACAAAACCAAGGAAACTATGTTTTA
ACAAACCAGAGAGTGTATGATACGATGTTGTGCAACCGCGAGACCCGAAC
CGTCTCTCGTGGTGTGGTTGGTGTCCCCGTGTCCCGTCCCGTCGAACATA
GTGTATGTATCATATCGAACCATGTGAAGGAAAGGAAGAAAGTGACAGAA
TCAAGCGTAAGCTGGTTGACAGATGATAATTTATTTATTTTACATTTACC
AGGTACATGCTTTTTTATTTCTCATAAAACTACGAACACATCAATAGTCC
GTCTCACTCTAGACGAGGATCTGAGTAGATTAGCAACGAACACAAAGCGA
AGGATACATCTACCTGTGTTTCTATAACTCATCAGATAGTATACCGTTGC
AACTCCCTTGAGGTTGTCAAGCTCAACAAGACAATTTGGTAGTCGTCTTG
TGTGACACACGTTTCATCATGTGGTGAGTATTAATAGCCTATATTGTGCT
GTTAGCATCTTCCTGGTCGTTAATTGTGTTCGGTTGGATAATACAAAATG
GACATAATATATCAAATTGAACTGCTGTGGGACCGTCACGATTGGTTTTG
TCTAACCTAATTTCTTCTGCCCCTCCTCCCATCTCTCTGTAGTTGTCACT
TATTTATGCGTTGTTGACAATTTGTTGTTTGAACTTTCGGACTTGGGAGG
ACAAAATTCCAGATTCCTCGCCGTATCATACCCAGTCCACTGCTGACGAA
CGAAGAGTAGCAGAAGACGCGGTCGTTGATGTCGTGTCCTGCTGAGGGGG
AGTTGATGTAAACACATGCTTGTACGTAAGCATGCTATACTTCGTACCTG
GTATGACTGAAAGGTCGCACCGGTCGGCGACCTCGGCGCACACCTCACCC
CGCTTACTTCACTCTCGGACTCGATCGAGCTGCTCCCGCACAAATAGTTT
ACTATCGGCGTCGGTTGCCGGCGTTATAATGAGAGCCGCATGGTCATGAG
TACCACGGGTACTTCTGCCCCAAGTGTGGATGCGGTCACACGACCGTGGC
GGCGTATGCCGCCGAAATCCTTGTATATACTACCCGTGAGTCAACTTGTG
CTAGCCCTATGCACGAATACTGCTGACTCAGAAGTCCACGGGCAATCGGT
TTCCGAGATATGCTGCTGTGAATGTGTGAATCCACATACAAGAACTAGAG
GAGATCAAAACCATCACCAGCAACAACAGCGGGAGTGTCAGCGGAACTTT
CAGCGGGACTGTCAAAATCGGTAGCACGCTCTTCCTTCTTCCTGAGCCAG
GACGGCAGAGTTCACGACAGTGGCTGACATTTTCCTCGCTGAACCGCTTC
TCCGCCTCAATTCTCTGTGCACCATACTTTCAATTCTGGTGACGAGAAGA
AACCCTAATCTGCGAATGAGATAAAATAAATTATGTCTAAAGTAAAAGAT
AGAAAACCCCCTTCTAATCGTGAGGAATTAGAAAACGAAGTTATATACAT
ACTTCGTATTCTTTTGCTAATTAATGTAAGACTGTAGATAACAAGCAAGC
CGACAGCTTGTTTTCTGTATAAGACGAATCTTTAGATTCTATGTGCACGA
CGTTCTCCTTGAGGCGCTTTACCCTGGTCGTCAGCTGTAGCCACCGAATA
CGCATCGCTCAAACGGGCTATCATTGATTTTGTACAAAAGCTAAATTGGG
AAGAAACAAACACTGCTGTTGTTATTATTTCTGCTCACGACCTAGATATA
TTTCATGACCCAATAATGTAACAATCACCACCACCACCACCAACAACAAC
AACCAAAAGCAACAACAACAACAACAACAGCTGCTCTCTCTTATCTCTCT
CGATGCCCATCAACTTCATTTTTTATATCACATGAGCTAATTTGACAATC
AATCACGACCACCACCAACACCACACCAATAAGAGTATCTACTACCTCTC
TTGTTTCTGTCTCTTGACCACGAACGCTCACGTCATGTGAAACCAACAGG
CGTACCTCGAGGCGCTACCGGCGGCCCCCATGTACGAGCGCAGCTACATG
CACCGCGACGTCGTGACCCACGCCGTCATGACCCCCTGCGGGACGGACTT
CCTGGTGACGGCAAGCCTCGACGGGCACATCAAGTTCTGGAAAAAGATGC
CCGAGGGAGTGGAATTCGTCAAGCACTACCACTCCCATTTAGAGCCGATT
CATGACCTTGCGGTGAGAGTCTTAAAGGGATAACACGAGTCCGTGACACA
GGTGGACGAACGCCCCCCACTGACCAGTGTGCCTGACCCCGACCAGCCTT
GTGCAGATCTCCCGGTTTCAAGCCGCCTTGACAAGGTAGAGCTCGGCCCC
GTCTAGATTTTTCGGGAACCGGGTACCCGGGGTACCCGTCTGGGCTCGAT
CAGGCGGTACCGACCGGGTACCCGGGTAATTGGGAAGTGGAAAACGGTGA
CTCCTTCCCCCCGGAATAGTGAAATACGGTGCCCCAAAAAATTAAGGGGG
CGCCGTGGGTGATCTTCGTGGGGGTACCCCGTTACCAAAGGGGCACCGTA
TTGCGATTTCAAATATACCCGGGTAGCAAATATGTTACCCAGAACCGACC
GGGCAGTGCTACCCGGGCCGGTTACTCGGGAAACGTTTAGACGGGGCCGA
GCTCTTTATGACAATGTCTACACAAGGTCATCCGGGGTCAGGCACCTTCA
TCGGTGGGGGCTATTGTCCACCTGTGGAGTGAAGAACCACGTATCGAGTT
GAGACGCCATGATGCACACTGGAATTCCGAGCGGGGTGGAGTTCGTGAAG
CTCTGAAGTACCACCTCCAATCCGGAGCCGATGAGTTTCCGTGGTTGCGT
GAGAGATCTCACCACGTGAACCGTTCTCCTTTGTTCCTTCCCAATACATC
AGTGTGTTCGCCCCTCGTTAGACGAGGGATTGCAGTACTGTAGATGTCGA
AAGCTCGATCGCTCCACAGTAGAAAGGGCGCTGGAAAGGCTCACAACCTG
TTAGAGCTGTATCGAAAAGTGGATCGTAACCTGTCAGGGTGCACTGAAAA
GCGTGACGGATCAGTCGGTGTTGGAACTATCTCGTCGAGGGTTGTGTGAG
AGCAGCGTAGTCGTCGTTTCATGTTGGAACTCTATTCGTTATGGGTGATG
TCAATAACTACCTAAGGTGCTTCATGAGCACTTCAAGAGTATGCAGGAGG
ACCTCCATGGCGTTGATGTACCACCTGGGGTGCCACATTCCGTGAGTACA
CAGGAGTACCGTCATGGCTTCGATGTACTACCTGGGAGGCCACCTTCTCT
GAGAATGCGGTACTCGCCACTGCGGATACACCACCTCGGATACCACCTTC
TCTGAGAACACCGTACTTTATCGTGGATGTACTTCCTGGGATACCACCTT
TTTTTAAGTTTGCAGCAGTACTGCTGTACCTCCATGGCGTCGATGTACTA
CATACCGTAATCATGCGAGTCATCGCACCCCCGTGTTAGCTTGTTTGCAT
TCCGTATTGCTCCACAACCAGGAGAGTACCACTGCCGAAGAGGGTGGTTT
TGGAAAGATCTCGTCGAGAGCTTTCGTATGACGGGTCGTTTGGTGTTCGC
ACTCTCGTGGTTATGGAGCAATACAGAATGCAAAGAAGCTAACACGGGGG
TGCGATGACTCGCATGATTACGGTACCTGGGACACCGCCTTCTCTGATAA
AATACTTTATTCCCTGTCCTGTTGCAGGTGTCCAAGGACGGGCAGCGGCT
CTGCACCACCTCCGCTGACAAGAGCATCAAGTTCTACGACGTGGTGTCCT
TCGACATGAGTCACATGATCGCGCTCAAGTACACGCCCACACGGGCGACG
TGGATCCACGAGCGGGGACGCAAGGCAAGTTTTCCAGTATGCAGGGACTG
TTCTCCCGAACGTTTCCCGGCAAGCAAATCGAAGTTCCTCACAAACCGGC
CGAAACTCTGAGAGTCCAGTCCAGTCCAGTCCACGAGCGGTATATGATGA
CAGTGTGCAGTGGATAAGTCTATCTAACAAACAGTCAGCACTCCCCGCAT
GGTGGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTTTTTTTTTTTTT
TTTTTTTACTTTTTTCTATTCTCCTCAGTATCGCATAAAAAAAAACTGTA
GGTCACACAGGAGGCTTTCCCCTTCCACAAGAACTCCCACCTTCTCAAAA
AACACACTTCGCGTTACATACCAGGGATAGGCCGGAAAATATTAAATATG
AAGCATTTCTTTGTCATTTTCTTCGTTGTATTTTTTTGTCGTTTCTCATG
TCGTGCAGAACGCGCATGATAGCGAAGCCATGCTTGGAGTACTGTTCTCA
GGCTAGGTTGGGGGTCAGGGTTGGAGTTAGGGCTGGGATTGCGATGGGTT
GGGTCGACGTTTCCCACTGGTTTCTTTTTTAAACCTGCACCAAATAAGCA
TGCAAAATATGAAAACGACTCCGATGTTTTTCAGGATCCTAATGTGGTGT
GAAAGTTAAGGGGGGTGTGCCAACAACGACTTGAAGCCCTCTCCTTCGAC
GTGCGCGGTGTCAAGAGGCTTTGGTTTTGTGGACCAACATGAAGCTTCAC
CTACAAAAGCAGCGTTTCGAGATAAGAGACTCCTCTTATTTTTATTTGAA
ATCCCGCACCACTATGAATGCAAAACCCCATGCCTGATAATATGAAACTT
CATTATATTCTTTCGTGGTGCACATGGAAGACATACACATTGAAGTCTCT
GTGACTCAAAAACATCTTGCCGTGGTTAACGGTATGATCTACAGGGGCGA
GTAGCTGTGGCGGACGCAGACTCTCCCGCAATAAGAGTGTACGTGTCCGA
CGGAGCTGCCGACGCCGTCGGGCAGTTCGACGGGCACAGCAGCCCCGTGC
TGACCCTGGCGTTCAACGAGCCTGCTAAGACTGTGGTTTCGGCAGACAGG
TGGGTTTTGCCTGTGTTTCTTTTTACTTTGTTTTTTGTTGTTGTTATTGT
TGCTGTTGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCT
GTTGGTGTTGGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTT
GCTGTTGTTGCTGTTGCTGTTGCTGTTGGTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGC
TGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCTGTTGCTGTTGCTG
TTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTT
GCTGTTGCTGTTGGTGTTGGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGCTGTTGCTGTTGCTGTTGT
TGTTGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTG
TTGTTGTTGTTGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCTG
TTGTTGTTGCTGTTGCTGTTGTTGTTGTTGTTGTTGTTGCTGTTGCTTGT
TGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGGTGTTGCTGTGT
TGTTGTTGTGGTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGCTGTTGCTGTTGCTGTTGTTGTTGATGGTGG
TGGTGGTGTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTC
TTGTTCTTGTTGATGTACGTGACTCATGAACACAATCCAAGAAACTTGGC
CACCCAGGCACGTCTGATTCTTCGGCTTAAAAGGTCCAGCGGCTAGGGCG
GCAAAAAATTCCTTACTGTAAAACCATTTTTTTTATCTGAAAGATCATTT
TGAGCCTTTAATCAAGTCAAAGCTCATTTTGACAAGGCTCAAGCATAGGC
TGTCGTGCACGCTAACCAGATAGCCTCGAACTAATCAGGAGAGAACGTCA
TGTAGTAGCTACATCTGCGTCGGCGCATTCAGATCTGCTGCTGGGGCTTA
GATATCGAAGTTCGCAGCAGTGGCACAAGAACTCCGCAAGATCTCTGAAA
AACTCCGCAATCCGGACTGACACTTAACGTTTGACGCAGCTGCATTCGCC
GCCATCGGCACCAACCGTCTGAACTGCGGTTGGTCCGAGGAAGCTAGTGG
CATTAGCTACTGTTTTTGACCGGTAGTTCAGGAGGTGAGGGCATGTGGCG
GCGAGTACAGCAGTGGGAGATAGCACAGCAGCAGTGGAAGATGATTTTTG
GAATCTGTCCATTTTGCGGAGTTTTTGATCCTCTACTGCGACCATCGATA
TCTAAGCCCCAGCAGCAGATCTGAATGCGCCGACGCAGACGTAGCTACTA
CATGACGTTCCTCCTGATTGGTGCGACCTTATCTGGTTAGCGTGCACGAC
AGCCCATGTTTGACCCTTATCAAAATAAGCTATTTTGACTTGGTTTTAGA
CTCGTTCAAAAATTTATCTTGATATTTATCTGAGAGATTGGAGGTAGACA
TGTGATACGCATGTAAAGAGAAGCCCCCGCCGCCGCTGTGTGCGATAACC
AACAGTTTTCCTCTTTTCCGACACCTCCCTTCTGGTGTGAGGTACCCAGT
GTGTGATTGTGAGGGCCCGTTCGCTGTTTTTCAAAATTCGTGCCTCTCAA
CGATCGGTTGTCCCGGGATCCTTAACTGTGTGAGGACAATAGAGGCCGAA
AAATGTCGACGATGCTTTTCGAGTCCAAGATATTGCAAATGCTTGAAAGT
TTTGTTAGCGGAAAACACCTCAAAACCCGTTTGTACCAGGATTCGTACCA
GGAATGGCGTGTTGGAGTACCATCACAACGCCAATAGCAACACACCAAAA
CGGGACTGTTCGCGGGACTGTCAACAGCGTTGCGAACCGGTGTACACGAG
GGAGACGCTTCAAAAATCGTGTGCACGAGTGACCCCGGGGGCCTTAACCC
TAACCTTAACCGTGAGCTGAACGTCAAGGATACTACCAAAAGGTTTTTAG
ACTGGCGTCAGAACACCGTACAGTATACGGGACGAACGCAAACAAACACA
CCCACACACGTCTCCTACGCAGGAGTGTAGGACTACACGAGAAAAACAAA
CGCTCCAAAAACCGTGCGTACATATTTCCTCAGCGTAACTTGACTGGAAA
GCAAGGACTTCCCCGCGTTCTGCTGTATCCCCTCTCTGTGGGTAGATATG
ATCGCCTGCTATCACGGAAAACGTCCCCTATCGGACGAGTCAGCTGTACG
CACATTAGGAGCTACCATGTACCCTTTTCTGGGTAGTTATGATAGCCTGC
TACCACGAATGGCGCCCCCTATCGGACGAGTTAGCTTTACGGACATAAGT
ATCCCACCGGTATCCTGCGCAGGAGCGGCGTGCTCGAGTACTTGGGAGGC
GGAGGACTGTGATACATGCACGGGAAAAACGCCTCAAAATCCGGGGGTAG
TTTATTCCTGAGTGTACCTTGATTGGACGGCAAGCATTTCCCCGTGTGCT
GTAACCTCTCTGCGTGGGTAGGTTATTGCCTGTGACCACGGAAAGCGTCC
CCCATCGGATGAGTCAGCAGTACGGTATGTATGGACATTAGGAGGTACCA
TGTACCCTTTTCTGGGTAGTTGTAGCCTGCGACCACGGAAAACGTCCCCT
ATCGGATGAGTCAGCAGTACGGACATTACAAGGTACTGAGCAAAGATTTG
GAAGGGTTCATTATGTGAAGAAAACACACGTATGATATGCATATCATATC
ATTCCGGTATCCTACGCGCAGGAGTGGCGTGTTGGAGTACTGGGGGGCGG
AGGAGTACGGACGTCCACGGGCAGCGGCCGTGACCTTCAAGTTCAAGATG
GACACGGACCTGTACGATCTGGCCAAGGCTAAGACCAGGGCCTGCAGCAT
CTGCTTCAGCCCCGACGGGAAGAGCATGGCCGTCACCGCCAGGGATAAGC
AGGTGCGATCCATCCATCCATCCATCCGAGCGAGCTCTTCCTTTCCCTTC
TTTGACACAAAAGTAAAAAACGTCCAAGAAAGAGCGCCCCCATCTGAGAC
GGGACTTCACCAATGGGATGTGTTGGAGTTCTTTACAGAGAGGGTTTCTT
GCGTTTTTTTCTTTTCTTTTTTGTGCGTTTTTCGTTCCGGTGTGAGAAAA
GAAATGAATGTGAATATGATGCCATTATTATTTTTCATTTGACTCACAGC
AGGATCGGTTGCTGAAAATAATGAGTGAATCGCCGGTACGGTAATGCTTT
TCGCTTTTTATATTTTTGTTTTTACGGCAGCAAGTAGGGTATCTGGTTTC
CGTTTTTTTTTGTAGATTTCCGGTCATACTTTACGACCTTTTGGCTTTTT
ACTTTATAGCAGTATCGATTTCCGAAAATAGCTGGTGAATTTCCGGTCAT
ACCTGGTTTTTTCGGCAGTACAGCATGTATAGGTAGGTTCGGAAAATAAT
TTCTAAATTACCGGTCATGCTTTACCCTATTTTTAAGTATCGATTTCCCC
CAAAAATCCGGAGTTGCCGGTCACACTTTGTCCTCTTTCGGTTTTTTTGC
GCACAGCGTCGATTTGCGAAAAAAATCTGTAATTGCCGGCCACACGTCAT
CCTCTTCGATTATTTCAGCACAGCACAACCGGTTTCTCTTATTGAACATG
TTTGTGGAAGTATGTGTGTAAAATGAGAAGAGGCGTTTGTGTTGGCGTGT
CTCCCTCTCTCTCTCTTTCTCTCTCTTTCTCTCTCTTTCTCTCTCTTTCT
CTCTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCT
CTGTGCTTGAGTCTCCTGCACATACAGTTGCTCATACCGTGGTCATTCGT
GTCGCAAAAGCCCCGCCCACGAACGATACCCTCCCCATGATACAAGTATC
CTGTTTTGGGGGGTTTCGGTGTTTTTTTTGGGGGTTCGGGAGTGCGCGGA
AAAAATGTCTTGAACTTTTTCATGAAGATATCCTGAGATTCTGGAGCGTT
TTGGTGAATGCCCGTCGGTCATTTCGTACCATTGACCGGATTCCGAAAAA
CTGTAGACGGGGGACAAACTCTGTTCGATTGAGAATCGACGACAAGGAAA
CACCGCTGTTTTTTGTTTGGGCCGATATTGTCCTGTTTGTGTAGGTGTAC
GACTGTCTATCAGGTTTTGGTTTTGGTTTTGGGGGGGGGGGGGTTCCATC
AGGTTTTGCTGTTTGAAAGGGAGGGCGTTGTCCTGGTCTTGCAGGTAGGG
TGTATTACCTTGTTTTCTATTTTCGGGCCGCCTTTGTCCTTGCTGCGCAG
GTGATGGTGTTCGACTTTCGATCAGGGAAGCTGCGGCTCGATAGATATTC
CATCCAGGAAGATCCGGTCACTTTTTGGAAAAGAATATCCTCTACGAGTA
CAATAAAATCTCGCGATCGACACCACTCATTGTTGTCCTGTTTGTGCAGG
TGAGGGTGTTCGACTTCCGATCAGGGAAGCTGCGGCGCAAGTACGACGAG
AGCAGAAGAGCGATGGAGGACATGATCGCCTCCGGACAGCTCAAGATGGA
CGCCATGGACCTCGGCAAGAAGTCCGCCGTCGAGAAGGAGCTGGAGGTAT
CGTACTTGGTCGTACTTGAATATGCCGGTATCAACGATCGGATGATGAAA
TCTACTTGATTGAAATAAAGAAAAACCCTATGTAGGCTAAAAATTCAAGA
TTCGATTGAATTATCGACAAGGGAAAGGGACGGCTGTACCCTTTCTCGCG
ATAAAAAAACAAGGCAAGCACCGCAGTGGGAAGTGGAGAAAAAAAAAAAC
TCCTGTGTTGAGCGTCTACCTACCCGAAAGGAGTTGAATGGCGTCCAATT
AAAGGGATGACAACACACACAGGCTGAAATGAAGACTGCTCTACCTGACA
GCAAGGAAAGCTTTTCAAAAGTACTGGTGGATGAAAATTACTTGATTGTA
CTCGAGAAATGCGGCGTGTAGACTGAAATGAAGTACTCTACTTGACAATG
CTCTTGCATGAAAACTATGCTTCGAGTACTTGATTGCACTACACAAATAC
TGCGTGTACAAGTAGCTGTAGCGAAAGCTGAGTTGAAATTGAAATCTACT
TCAATACGTATTCACATGGTCAACAAATATAGGAGAATACTGCTGTTGTA
CCGCTATGAGCTGAAAGCCACTTTAAAACGAAAAGCGGGTATGACAGAGG
GTTTCCTGTGTGTGTGAAATGAAACGAGGCGTTTGTGTGTGTTATCCCAT
CTTTTCTGGACGCGAGGGTTCACCTTTTCTGGTAGAACTTGGGCGCACCA
GCCGCGGTTGGTCACAACGGAGGAAGGTCAACACATGAGTTCGTTTTTTG
TAACTGTACGGCAGTGCACGATTCTTTTGTGATGAAGAGTTCGGCCACCC
GGGTTCGTCGTCGACTTTCAGGATGCAGCTATCATATGCATTGTATGGTG
TACGATTGTGCTTAGATTTGGACTCACACGCACAAGTACCTAGGTATAGA
TAGTATTCCGCTTTCACTGCAATATAGGGATTGGGCCGTCCTGGCATTAC
CTCGTCAACTTTCAGGATGAAAGCTATGATACATATCATATGATAAATGA
TGGGATTTAGATTTAGACTCACAAGCACAAGTACCTTGGTAAAGATAGTA
TGCTACGCGTTTTCACTGCAATATACGGATTGGGCCGTCCTGTTGCCTCG
TCAACTTTCAAGATGCAGCTACTTATATGTGTTATATCATACGACAGAAC
TTAAGATTTTAACTCACACCCGCAACTACTTGGGGATAGAGAAAATTCTT
CGTTTTTATCTGTAATTCAAGGATTCGGCCGTCCTCCTACCTCGTCGACT
TTCAGGATGAAGCTACTTGTATGTCTTAAACGATAAGGTTTTGATTTTGA
CTCACACGTAGGTCCATAAGTCCTACGTAGGTTTTTAAGTCCTTCGATAG
AACAATATGTGTCTGGTTTGTGACCACAAGCTAGACTCTGGTGGTGAGCT
AATGTGAGAATCAACAGCAACAATAGTATTTGTTTTCACTGCAGTAATTG
TGTTGGGTCTTCTTTTTCCCTGCGAAGATGAAACGACGTTCTGCATAACA
TTTGCGGGATACATAGAATCAACACTATTTTTTACAAGCAGTATCGTTGT
GCTTTGGGATGGAAGGACACTATTTAGATGGGACCGATGCTTCTTTTGAA
GTTTATTCGGGTGAAGGCTACAGTACTTGAAACAAGGAAACGACTAAAGG
AAGGGTGGCGGTTACTGAACTTTAAGGGTAAAGGCTGCTGAATATACGAT
GGTATATAAGACCGTTTCTTACGCCTCCGTTATTTGGTCCTGTGTTTTTT
CTCCCGAGGTACCCCCACCCCCCACATAACGTAGAGCCCAAATGGTTGGA
AAACCTACTTCTTGAGCACGACAGGAGACAACACCAAGCAGAACTCGACC
CCTGGGACACCAATCGAGACTAAAACTAATGGGCGGTACGCTCTAGTGTT
CTCAGGTTGGCCGCAGGAAACTTGGTGGACGTGGGCTTTAGCTGTGGCGA
GGTTTCGGCGGCGGAGGGGGTTGAGGAAGGAAAATCCGGTGGAAAAAAAA
ACGCTGTCCGAGCCTGTGTTTGGGCCGGAAAAACAGGAGCGAAGTCTGTT
ATTTCGTTTCATCTGTTTTTCCATCTCCAACACTCACCGCCGCCAAAATC
TCGCCACAGCCCGAACCCACTGCCACCAAACTTCCTGCGGCCAACTTGAG
TACATAGGAGCACACCCTCCATCAGGTTTCATCGGCATCTGTGTCCTAGG
GGTCGAGTTCTGGTTGGAGCTGTCGCATGATGTGTGCAACAGGGCTGTTT
GCGGGTGGCGGGGGGTAGGGGGGTCCTCCAGTTGGATTCTTGTAGGGGGG
TCGAAACACCAGGCCAAAATAACGTTGACTACCATTATCTCCGTTGGGTG
TTCTCGATTTGCTGGTAAAAATCGACGCCTCCTTCCCCAGCAACGAGTCC
GGCATGGAGAAGGGACTGGAAATGACAAAAAAAAACAATCGGGGTCCCAG
CAGATGGTACACGATCCGGCACGGGTCGTTGTTGTTGTTGTTGTTGATTC
TCACATTAGCTCATCGCCAAAATCTAGCCCGTGGTCACAAAAAGTGCTGA
GCCCTAGGAAGATCCAAAAAACAGAAAGAAACTACAGGGGAATACCCAAA
AAAGAGCGAAGAAGATACACCTTCCTACGCGGTGTGCATCACTGAACTAT
CATACAGCAGTCACAGCAGTACCAACATCAAACTACTTCCAGCGTCGTTC
ATTTGACTACAACATCGTGTTCAGTCTCCTCCCGCCCCACTATAACAAGC
AGTCAGTAGGTAGCCGCAGACTAAGCAGTTAGTTGCTGTCTGGAGTGCTG
CCTGCAACGCACAAGTAGCCCCGGCAATCGGAGAAGACAGGAAAAACACA
AAAACACACACGTATCATCAGATGTTGTCGAGGATGGTGTCTCCATGCCG
TCCTTGCGACGCTGGTGATGATGTCGCCCTGAACATGTCCTCCTTGTCTG
GGTCCACGTCGCTGTTGGCGTTGCCCAAGGCCACATCACCAGCACCATGC
TCTCGTAACGCTTCTTCACTGCCGGCGTTGCCTTAGGTCACCTCCATCAC
CGCCGCTCTCTCACATAACAGCTCTTTATTGTTGTTCATTTCCAATCAGT
AAATAAAAAACTCCGCTGTGCACTTGAGGTACAAGTCTTCTGAAAAAAAA
GTTGACGCTCGGAGTGAGATCGACCAAGTTCTTCCCCGTTCGTCGCTGCT
CGTCTTCCTCCGTCCTTGGCTGCGAAACTGGTTACTGGACGGCACAATCC
CTCTGTGCATCCTGGATCGTACCGTCTTATCACCTGTGGTGTCGCCTGCC
TCCGCGCACAAATGCTTGTGATGTACATTGCTGTACTGCCGCTGTAACCA
AAGGCCCGCGAATCCGCACATTCGCACCTGGCACACCAACTGCGACCCAA
CTCTACCGCCACGCCCGTGGCGTTCGACCACAGCGCAGCAGCAAGAAGGT
ATCACTTCTTGAGGGTGAGTCCGGCCTTACACCCGCCAGAAAGACCCCCC
CAACTCGCTTTGGGTCATGCTTACAGCAGACCTTGCCTAGGCAGCGAGGG
AACGGCCGTTCCCAACGGCAACCCCCCCCCCCCCCCTTTCACTGAAAATA
TGAAGGCCCACAGGGATCAGTGTTGGCTCTCTCTCCCAAATCACCCGAAA
AAGGAATTCCCTGAAACTAAGAGAAACCAGGAGGCGGTAGAAAACGACGA
ATACCATGTAGTCGCGGGTGCTTCGCTCGGCCCCCGCGGCCCCTGCGGCT
GCAGCGGCGCGTGGTGGTCGCGGGGCGGCCTCCTCGCGAGGTGGTCGCGG
AGGACGCGCGTGTGCAACCGCCTCTACCTCTGCCGAGTCTGCCCCAGCCT
CTGCTTCAGCCCCTGCTGTGCCAGGGCCCTCAGCGCCCGCGCCTGCCCCG
GCAGCTCCTGCGTCGGCACCCATCCGCCCCGATCTCTCCACCGCGACGGT
AGTGGACCCCACGACGCCTATCGACCAGCTGCCCTGTATATATGGCCTCT
TCGGGCCTCCGGGGATCCGAAGACAAGGTGGCACCCAGCTCGGGTGTTTC
CTGCGGACGGCACGGAATTCGCCTCGCTCGCGACTACTGAGACTCCGCTG
CGGTGCTATGACCTCGTCACCGAGCACAGGCCTCTACGTAGGTGGGTAGC
CCTCCACCAGGAGAGTCCACGCCCGTGACGAGGTCATGGCACTGCAGCGG
AATCTCCGCAGTCGCGAGGGAGGCGAATTCCGTGCCGTCCGCAAGAACAC
TTTCCGACCGGTTTTAAGTTGCGGGTTTTCCCGTGCGCTCTTCCAGACCA
TTCGGATAGTCTTCCACTTGTGTTAGTTTGCCGTACGGATCATTTGCCTG
GACATGCCGCCGCGAATATGCCGGAGCCATTCGCGCTGCGGGTGTCCAAT
GGGTGCGGCTCTCCTGCCTTCGGACAGCAGGCCTCGTCCAAAACCCAATA
CTTACTATAAGTGATCCCCGACGACAGAAATAATGTGTGCGTGTGTGTTG
TCATTCCTTTCATTGGACGCCACTCTACACCTTTCGGGTAGTAGGTAGAC
GCTCCAACCGGGGTCACACAGGGGGAAGTCAACGCAGGAGTTTTTTTTTT
TTTTCACTTCCCGCTGCGGTGCTTGCCTCTTTGGTTGAGCTTTTATCGCG
AGAAAAGGGACAGCAATCCCTTTCCCTCGTCGATGATACGATCGAATTTT
GTTTACTCACGAATTGATCGCTTTCCACTTTCACGCGCAATGTGAGAAAA
AGCCCCAGATCGTGTTAATACACCAGTAATTTTCCCGCGGTCATTGGTAC
TTGTATTTGGTGCCTAGAATACCGCTCCACTCTGTATAAGTCACAAAGTA
CACACCATTAAAAAAACTACGGTTTTTTTATCGATTCACCATTTAGAAAA
TTGAAAATACCGTTCATTATCGATTACCATTGTGGGGGCTGAGTACCACG
GTAATTGCATACCGAGAGGAACCCTGAGAAAAATGACTCTCTTGTTGTTG
GTTCTCACATCACGCTGGCGTTCATACAAGATCTAGCCTGTGGTGACAAG
TGCTGAGCCTTGTGAAAGAAAGGTCCGTCAATGCGGAGAGTACGCTGTTG
TTATCGGCCCTCACATCAGCTTTACCTAAGATTTAGCCCGTGGTCACGTA
AGTGCTGGGGAGCCCTATGTAGGAGGATCCGAAAAAACAGAAAGCACATC
AAAGTACGCTGTTGTTGTCGGCTCTGACACTAGCTTTATCCGAGATCTAG
CCCGTGTTCACAAGAAAGCGGAGCCTTATGATAAAAAAGTCCGAAAATAC
ACACAGAAAGTACAGTACGCTGTCGTTATCGGTTCTCGCATCAGCTTCAT
TTGAGATCTAGCCCGTGGTCACACACAAGTGCTGTGGAGCACTCTGGAGG
AGGATCCGAAAACACAGAAGGTATGTCATAGTCCCTTGTTGTTGTCGACT
CTCACATGAGCTTCATCTAAGACGCAGCCCGTGGTCACAGTAGTGCTGAG
CCTCATGACAGAATATCTGAAAATCAGACAGAAAGCACGTACAGGGAGGG
GACGCCACAGGCTGGTTCACACGGTAGAACCAGGAAATTTACTCCCCGGT
CATTTCTCACGCGGTTTTTACGAGTCAAGACCCTTAAATTTTGCACTCAT
ATACTATGGGTCACTGCGCAACTTTCGATGAGTTGACCTTTTTTGTTTTT
TTTCTTTCATCAGATATCTGGGGTCCCGGTCGACCAAGTTCACCAAAAAA
GACCCCATAAACCTAGGACCCCAGATATCTGGTGAAAGAAGAAAACCAAA
GTGTCGCAGAAGCCCACAGTAGCCCATAGTACATGTGTGCAAACTTTCAG
GGTCTAACTCGTAAAAACCGCGTGAGAAATTACCGGGGAGTACGGTGTAC
TATTATATAAACCCTATTTTTTTTTATTTAGTGTCAAATCGGCAATTTGA
AGGGTTTCGTAGCCAAACTACGTCGTTTTTGAGGAATCTCGAAAACAAAA
TCGTGAACGCCTCCCTCAAGACTCAAGAGAGGCCATACATGTTCGAATAT
AGTATATATCTCGAATCGATTTTACATACGAAGTAGCATCTAGTGTTGAA
AGCCTGATTTTGGGGGGGGGTGTTATATCACATCATTCTGTAAAATGACA
CATTTTTGCCCCTTGCGCCGTCACTAAAGCTTTAGACGAAAATCCAAGAA
TGTCACGGTCCTCTGCTGTTGTGGCGGGCAGTTTGATATCAAAGTTGTCC
AGATTGGGTAATCATTGCGTTCGGAATTGCATGGGGACAAAATATGGGGA
TTTCACCGTGAACCAGCTCGTAGAAGGTCGAAGAAGACACGCCTTTCTTA
TGCTGTCACAGGCGGTGTGCAATGAATGGAACTACAGTAGTACTCCATCG
GACTGTATTCAACATCGTGATCACTCTCTCCCCGACGCTGGACACGCATG
GATTGAAAACCTACTTTGTCAATACGATAGTACATACTTCGAAGTACTCC
TTATTATCCTGGCACGGTTGTATATATGTGTCTGGTTTGTGACCACGGGC
TAGACGTTGGTGAGCTAATGTGAGAATAAACAACTTCGAAGTCGTTTGTA
GCGTAATATCTGCTTGGAGACATTTCAGGTACACATGCCGAGGGAAATTC
CACGAAAACACTTTTGAGATAGAGGAACATACATACTTGAATAGAATTCA
AAGAATGGACTAGACGTACTATACAATCAGCCGCACGCCTTTTCCCCCAA
GCCCTCGAATTGTGGATCGTTCAATAATCTTGGAGTTTTGTCTACGTGGG
ATCAAATCAGGCTTCGGACGCCCTGGACATGCAGAACGCGGTGTTCGATG
AGAGCGGCCACTTCCTGATCTACTGCACCATGCTGGGCATCAAGGTGGTC
AACCTGGTGACCAACACCGTGTCGAGGGTGCTCGGGAGGCACGAGAATGT
CCGCTTCCTTCATGCGACTTTGTTCCAGGCGAGTACGTACGGGCTGTGGG
TGTGTGGGTGTGGGGGGGTATATACGGGTGTGTCGTCCTCACAGATGGAA
AACCGCTCAGACCTTCGTCCAGTATCTGGTACCTTTTTTAAGTCTAGCTC
TGTCCCAGGCGGGTACGGGGCTGTGTGTGTGGGGGGGGGCGTTTCGTGTT
TGTCCACACAACAAAGCAACCGTTCCGATATTCGTCCAGTACCTTTTTTA
AGTCCAGCTCTATCCCAGGCGGGCACGGGCTGTGTGTGGGTGTGGGTGTG
GGTGTGGGGGTTCGTGTTTGTTAACACAAAAAAGCAACCGTTCCGATCTT
CGTTCAGTACCTTTTGACGGCCAACTCTGTCCCAGGCGGGTACGGGCTGT
GTGTGGGTGTGGGGGGGCGTTTCGTGTTTGTCCACACAAAAAAGCAACCG
TTCCGATCTTCGTTCAGTACCTTTTTAAGGCCAACTCTGTCCCAGGCGAG
CACGGGCTGTGTTGTGGGTGTGGGTGTGTCGTCTCCACACAACAGTAAAC
AACCATTCCGATATTCGTTCAGTACCTTCTTAAGTCTACCTTTCTTCCAG
GCGAGCACGGCTGCTGTACGGAGATGCACCAGGATGGAGTTCATATTCAC
CGGTGTGCCCCCCTTACTCCCGTATTCATTCCGTAGGGCTCGCACCCGAC
TTGCTCCTGCTCGGGTACCCGACCTCGGTACCCGGAACCGAGTAACCACA
CCGGGTACCCGGTTCCAATTTTTTCAGTCGGGTGCGACCCTTTGTATCGC
ACCCGACTTGCTCCTCCCCGGATACCCGACCTCGGGTATCCGGTTTTAAT
TTTTTCAGTGGGGTGCGACCCTTTCTATCGCACTCGACTTGCTCCTCCCC
GGATACCCGACCTTGGGTACCCGGTTCCAGTTTTTTTGGTCGGGTGCGAC
CCTTTGTATCGCACCCGACTTGCTCCTCCCCGGATACCCGACCTCGGGTA
CCCGGTTCCAATTTTTTGAGTCGGGTACGAGCCCTATCATTCCGCCCCCC
CCCCCCCCCCACACACACAGCATCGGTCGCGCAGTGTAAGCTACAGGGTG
ATCTGATGCCCAAACATGGAAAAAACACGTGATACATCGACCTACGATAC
CTGATGAATTGGACGCAGCTGCCGCCGCCACAGTTCTTGGTGTTGGGTGT
TATCATACGAAATAGGTTATGAGCCTCAACCAAAACGCGTGCTTCCTAAT
ATCGGGATGCTGTCAACGTGCTATGTATGCCCCCCCTCGCGCCCCACAGG
GAACGGCCAAGATCGACACCCAGATGCTGATGGCGCGGGAGACCAAATCC
CGAACGGCTGAAGAGATCAACAAGGCGAAAATACCAGACCCTGTCGTCAT
CGCCACAGCCTTCGACAAAAACAGGTACGATACGATATGGGTCATTAGAG
AGGTGCTTCGTGCGTGTCATGGAAAATGCGTGTAGGTGTCACACAAAAGT
TTGAGTGTCGTGGAACATGTTTGCGTTAGGAAAGAGGCGCCATGGGTACT
CCGTTTGTGAAGACATATATCTAAGGTATGTGCTGTACGACTCGAAGCGG
TTTCTCTGATAACAAGGTACCTGATGTAGGCCATGAAAAATGTGTCTTGT
CATGTCAGAGGTATGATTTGTGTCATGAACAAGGTAAATGGCGTTTCAAA
GGTGTGTGTCATGGAAGAGGTATATGGCACATGAAAGGTTGTGTCATGAA
AGAGGAAATCGTCACGAAAAAGATCATGGCATACGCAATATTTTAAGAGC
ATGCATGTGTTTGTAAAACAGGTACTGGTACATGTTACATGAGAGGTATG
TGTCAAAAACAGTTCATTGTCATAGAATAGACATACGGAAGGTGTTCGCA
ACGACAGAAGTGTTTGTCATTAAAAAGGTACATTCCATAGTAAAGGCACG
TGTCATAAGACGTGTATCTGTCAGAGGACCAATGTGTGCTATAAATAATG
TAGGTACCATAAGAGAAGAGCTTTTGGTTGCTACGGTGTGTGTGTCAAAG
ATTATACTCCCCCTGTATCATAAGTCTGTGCCGTTATGGGCGTGTAATTG
TTTGCGCATCCATACTGTTTCGATCATCCTATAGTTAGGTTCGTTCGAAA
GATGAAGTCTCAAAGAAGCTGATGCAAAAAAAAAACCAAAAAAAAAAGCC
AGTTGTTTATACTAAAATGAAGTCAAAATATGCCCATTTTGGCCCATATA
AAGAATTTTGATTCCGCCAGATGTCTTGGTTTTAGAGCATGAGTCCCAAG
TATCTTCGTTTTAGTGTGGCAAACCCAAGTGTCTTGGTTTTAGCGTCGCG
TCACTATTATACTGATTTTAGTAAGGAGGGACTCGACATGAATCTTTGAG
TTAGGGGGGCTAGGTTCAGGGTTAGGGATAATTTTGGGGGGGATTGCATT
TTTTTTTTTTTTGCCCCCGCCCCCCACTCCCTCTGGAAAGGGTTAAATAC
GGCCATTTTTGGCCTGACTACTTTTTTGTTAGCCACTAGCCCATGCGCAG
GGTAGTGCGCAAGAAAAAAATATATGTGTGTTTCAACCCAAAAAACTCCG
AAGATTTCGAAAAAATTATCGCCGAAGACATCGGACACCGTTGAGGGGGC
GTAAAAACATAACAGCACAGACTTATGATACAGAGGAAGTATGATATGGT
GTGTAGAAACTTAGCTTTACAAAAGAGGTGTGTATCATAGAAGAGGTATA
CGTTACATAAAAGGTACGTGTCACGTCAGATGTTTGTGTCACGGAAGAGG
TATATGTTACACAAAAAGCAAGAAAAGTTTCCGGCGCAAATATTCTGAAC
GAAAGGCTACATCTACCGCAGGACAAGGCCTACTCTCATGTTTACAATAC
CCCGGTCCCAATCAAGTCCTTTACGACGGGAAGGGTTTACCGCTCCCAGC
GATAGAAATTGTGGTCCGGCGTCAAGAAAGTGTGTCGATAGAAGCACGCC
CACTCTCTCGGATTCCTTGTGTGCTGTTCTAAATCCTACCAGTTTTTTCT
CACCTCGTTTGTGTCGTTGAAGCACAACTCGTACTTGCTTGCGGATTCCT
CGTGTACCGTCGTAGGTCCTTAATGTTGTCTAACCTGATATGTCTCGTCA
GAACCACGACCTGTTACTTCGAAAGAGTCCTTTGTGAGCTGTTGCAGGTT
GTACACGTTTTCTAAGCTGGTACATAAGTGTCGTTGGAAGCACAACTTGT
TCCTCGCGGAATCCTCGTGTGCCATCGTATATTCTGTTGTATGTTTTCTA
ACCTTATTCGTAGGTGCCGTCCGAAGCCCAACCAGTTACTCTCGCAGATT
TCTGGTGTGCTGTTGTAGATCCTACATGTTTTTTCAGACCTGGCATTTGT
CGTTGTGAGCAAGATCAGTACCTCAAGGACTCCTCGTGTGCCATCGTGTA
TTATGTTGTATGTTTTCTAAACTGGTATGTGTGGTGTGTCGTTGGAAGCA
CAACCAGTCACTCTCACAGATTCCTCGTGTGTTGTTGTAGATCTTGTGAC
ATGTTTTTTCCCGCCTGGTATGTGTCGTTATGAGCACAACCAGTTCCTCA
CAGATTCCTCGTGTGCTGTTGTAGATTCTTCATGTTTTTTCACCTGGTGC
GTGTCGTGAGAAGCACAACCATGTACTCCCACGGATTCCTCGTGTGCTGT
TGTAGATTCTATATCACATGCTTTCTAACCTTACGTTTTACGTGTCGTCA
GAAGCACAACTATTCACTCTGAAGGTTTCCTCGTGTACCGTCGTAGGTTC
TATATCACATGCTTTCTAACCTTGCATGTGTCATGAGAAGCACAACCATT
CACTCTGAAGGATTCCTCGTTCGCTGTCGTAGGTTCTATCTGTTTTCTAA
GAGGGAGCCGGTGGAGGAAGATGAGGGTGAGAACGGGCGGGACGTCTTCA
ACGAGAAACCCTCGGCAGAAGAGGTGTGTTCTTGTCATTATCCTTGTCCT
TAATGGTTGTAGCGGTGGTGTTGCAGTGGTAGTGGTACTGTTTTTTTATG
GGATTGTTGTTGGATTGGTTGTTAGCGTCTCCAACGAGGAACCCTCGGTA
CAAGAGGTGTGTTCTTGTTAATATCCTTGATGGCGGGGGTAGTGTTGTTG
ATGTTGTCGTTGTCATTGTTGTTGTCGTTGTTGTTGTTGTTCTTCTTCTT
CTTCTTCTTCTTCTTAGAGTTGGTGCATTGTATTGTCGTTGTTGCTATGC
CGCTGTTGCTGTTGGTGGTGAGTGGTAGTGGTAGTGGTGGCATTGGCATG
GCGTGGGGTCGGTTGTTGTGTCTGTTGTTGGTGATATTATCGTTGTTGCT
GCTGTTGCTGTTGCTTTCGGCGATGAACGATTATGAAAATCAACAGCAAC
AAATCACCCCCCACCCCCCCACCCCAATCAGATGCACGTGGTCGCCGAGA
CCAACACGGTGGTGGGAAGAGAGGCGGTCATCAGAACATCCATGGGGGAC
ATCCGTGCCAAGCTATTCCCCGACGAGTGTCCGAAGGTGTGTGTTTACAG
TTCTTTACTGAAAGGAGGTGGTATCCCACGTGCTGTACCGTGCTATCATA
CAGTACAAATACTCGGAGAAGGCGATATCCCAGGAAGGATATCAACTCTA
TGGAGGTACTTCTGCATACTTTTAGAGCAGGTTGCATCCCAAGTTGTACG
TCAACGTCATGGTTTCCGCACAGTCGGAGAAGGTGGCATCCGAGGCAACA
CCGTGCTACAGCAGTACTTGGGAGAAGGTGGTATCCCAGGTAGTTTATCA
ACGCCGTGCGGCAGTACTCAGCGAATATTGTATTCCAGGTAGAATATCGT
ACACTGCAGCTGCTGTATGCTGTACTCAAATGGTATCCCGCATAGTATAT
CACCCCCTCATTGATTATGAAGGTTTCGTCCCAAGTAGTACGCTGTCGGC
TACTTACTCCACGACAAAAGGGGTTCCGTCAACGACTTGTTTGATATCGG
CACCCTCTTGTTTGCAGCACCTCAGACCTTCCAGAATCGGCCTCGAAGGG
GAGTTTCGTGTCATATTTATCTCCCATGGGGTTGTAACGGTATCATGACA
GCTACTGGGTATCATGAGGCAAACTACGCACGAACCTCTCTACCGTTGTC
TTGTCAGCAGCGCCTCCTACCTTTTTACAACGTACGAACTCCCTGTCATC
GTGTGTGAAAAAGCATGCCTTCACGGCCATCTACTCTGGACGCCAAGCGT
ACTCGTACATGTTTCGGTATTTGCGGGCGCAAGCGCGTCCGGGGTAGGTC
GGTCACACAGGAGGAGGGTCAACACAGGACTTTGTTTTTTGAAGTGCATG
TAAAAAATAAAAAATAAAAACAAGCTTCTTCCCGTGTCACCCTGGCGGGT
GCGACAATACCTACCGAAATGCGCCGTGTCGGCGCCCAGAAAAGGCGGGA
TGGCAAAAGGGACACACACACGTATACACGCCTCTCCTCATTTTCGTTTT
GTGCGCACAAGCACACAAGCGTACGCGTTTATTTTATTGTTCCTTCTAGC
ACGATATGTGCACGCCTGGTTTTCGACCAAGGGCGAGAAGAAGCAGTGAG
CTAGTGTGACAATCAGCAATGTTACAACAACACACCCGCTCGTGATGGTT
TTCATCAACATCTGGCCTCATTTGCTTTCCACGGAACTCGTCTTCTGTTT
CGTGTGTGAAACAACTTCCTCAGACGGCCGAAAACTTCTGCACTCACTCG
CGCAACGGGTACTACGACGGGGTGATCTTCCACCGCGTCATCAAGGGGTT
CATGGTTCAGACGGTAAGTTGACAGTCCCATACACAACCCCTTCGTTGTT
GTTGTTGGTGGTGGTGTTGGTGTTGGTGTCGGTGTTCGTTGTTGTTGTTC
ATGGGGAGACTTTCTCGGCGACTGCACCGGCGGCGGATCTTTCACATTCA
TGTTGACACAACATACCACCTTTCTCTCTGGGTTCCTGTTTTTATTTTAA
TTATTTGCGTTTCGTACAAAATGATACTTCGAAGTGTGTCTTTTTATCTG
GTCTTCTTTTCCAGAACGTTCCATTAGAACGGCAACGTCAGAGGTTGTAA
GGCATGATTATGATTGTTTTGGTACGTAAGAAGTATACAGCATCCCTTTT
TTTGTATTGGGTTTCTTCATCAGAACGTGTTCAAGGGTGGGACTGATATC
AAACGCCCTGTACAGGCATATATGAAGGGCTGTGTGTTGTCATCCCTTTA
ATTGGACGCCACTCTACACCTTTCGGGTAGGTAGACGCTCCAACCGGGAT
CACGCAGTAGGAGGTCAATGCAGGAGTGCTTTTTTTTTTTCTCCTCGTCC
CACTGCGGTACTTGCCTTAAATTTTTTAGAAAAGGCACAGCGATCCCTTT
CCCTCGTCGACACTTCGAATTTTGTTTACTCACGAATTGATCGCTTTCCA
CCCTCACGCATGACATGAGAAAAATCTCGGATCGTGTTGCTGCACCGGGG
TTCGTACTCAAGCGTGAGTGTCAGAAGATCCCGGGGATAATCAACTGAAT
CACCGGGGCGACCGGTCAAGGACTGTGATTGTTTATTGTATCATACATAC
ACCATACATACACAGTACCTCCTTTTGGCCATACTTTTGCTGTATTGTTG
TGATACGGAGACCCCCTGGCTTCTCGGCAACTGCGCTTTATTATAGCATA
CAGCAATACCCCCTTTTGGCCATTTTTGGTATTGTTGTGATACGGAGACC
TCTTCGCTTCTCGGCGACAGCACTCTTTCGTAGCATACCATACAGCACCC
CTTTTTGGCCATTTTTTCTATTGTTGTGATACGGAGACCCTCCTCGCTTC
TCGGCGACAACACTCTTTCGTAGCATGTCATAAATCACCCCTTTTTGGCC
GTTTTTTGTATTGTTGTGATACGGAGACCTCTTCGCTTCTCGGCGACAGC
ACTCTTTCGTAGCATATCATAAAGCACCCCTTTTTGGCCATTTTTTGTAT
TGTGTGATACGGAGACCTCTTCGCTTCTCGGCGACAACACTCTTTCGTAG
CATGTCATAAAGCACCCCTTTTTGGCCATATTTTGTATTGTTGTGATACG
GAGACCTCCTCGCTTCTCGGCGACAGCACTCTTTCGTAGCATGTCATAAA
GCACCCCTTTTTGGCCGTTTTTTTTGTATTGTTGTGATACGGAGACCTCC
TCGCTTCTTGGCGACGGACGCAGCAGCAGACCAGCGCCCCATCAAATACC
CGCTGCTTCTTCTACAAGGTGCCGCCAATGACGGCAGTCTCCTCTGGTTG
GCTGCGGGTGCCCTAGACAGCAGCTCGCAAGTCTACGGAGGGCAACCTGG
GTCTCACAAACATGCCTCCTTTCATTTTGTTCTCGCTTTTCGCAGGGAGA
CCCTCTCGGCGACGGCACCGGCGGCGAGTCCATCTGGGGCGGAGAGTTCG
AGGACGAGTTCCACAGAAACCTCAGACACGACAGGCCCTTCACGCTGTCC
ATGGCGAACGGGGGTAAGTGCAAGCCGTGCTGCCCTTAAGTGTCCGCCTT
GCCGTCCAATCTTGCTGTGCACCACATTGTCTAAGCAATATCGCTCCGCG
TACATCCCGTTTGGGGATCAAACAATCGATGAAATCGTCCACCCTCCGAG
TGCGCATACCCCCCCCCCCCCCTTCCCCCTCGGCGCACGATCACGAGCGG
CAAAAAAACGCTTCCAAAACGCACTGCTGTACAAACCCGACCTCGAAAAG
CACAAAATATACCTATGATAGTTTCGCAGTTGGTAGTTTGTTCAATTGGC
GCTGACAAAAGCAGGTGGTTTTCGAAACTTGACAGGATAGAAAGAATTGC
GAAACCTCCGCCATGTGCACCGATCATTACATTCTTTCAGCTTGTGAGGT
AGCAAGTAGTTTAGCAGGAACATCTAGAGACTGCTGCAACAGTCGGCCAA
GGCACATCATCCTAGCCAATCCGCCAAGGTACAGCATCCTAGCCAATAAG
CCAAGGGTACATCACCCTAGCCAATTCGCCAAGCTACAGCATATGTAGGG
TTTTATGTTAGGGATAGGGCTACAAGTAGAAGAGGTGTTGGTGCGTGGTG
TGTATTGTGTGTCCCATCCATTGTACCCTTCTTTGAGTACTCTATGAGTC
ATGACTCATAGGTGGAGTACAAACACACTGCAACAGCAGTATTCTCACAG
ATATGGGTTTGTACAGTGGTTTCGGGAAGCATTTTTCTGCCGCCGGCCAT
CGTTCGCAAACTGCGCAGGGGGATTTACGGGCGTCGCACGCGCGCCTACG
ATCGAGGTTTAGAGCTCAGTTTTGCTCCGTAACGAAGAGGGTTACAAAAA
GAAGTTGAAGCTGGGACCGTTGTTTATTCGTTGGCTCTTCTTCATTCAAG
CTGTTTTTCCAACGGCGGTACAGGCAGTATGAGTGCTCGTCCCTTCGATC
TGTGTGGTCAAGTTGAAGCATACGTATCATATCACTTTGCATATTAATTT
TTTAGATATTTACTCATCCTTTTTTCCGCTGTGCTGTGCTGTGCTGTGCT
GTGCTGTGCTGTGTTCTGTGTGAGTGCGTATATTTCAAAAGATTCCGGGG
ACATCCGACCATGTTTCCACGTCCCCTTCTACTTCGTGTTATTTATGTAC
CCTCTCAGCACTGGTACCCTTTCGCACCACATCACATATTTATGAAAAAA
TGACCAGGGGGTGGGAGAGGTGCGAACCGCCCCCCCCTCCCACCCCAACC
ACCGCCCCCCCTTCCCCGTCTGATATCTCCGACACCTGTGCAGAAATCCA
ATTATATCGTATCACCAGGTTCTCGCTTTTTTCTTTATCCGCCATGAGAC
AACTCCGAACCTTCGTTTGTTGACTCCTTCTCTTTGACCGGAACGAAATT
TACACTTAATTGTTACTCCGTGCTTTATTCCGTAACAACCATTGTCGGTT
CGAAAAAGGACCGGGAACGAACGGGTCGCAGTTCTTCATCACCACGGTGC
CCACCCCTTGGCTGGACAACAAGCACACGGTGTTCGGTCGCGTCATCAGT
GGGATGGATGTCGTCCAGGTATGCACCTCGGACAACAGTGTATTTCACGG
AACCCCCTGTGCACCCAGATATTTCTGTTGTTGTTGTTGTTGTTGTTGTT
GGCAGTCCTACCGCCGGTCCTGCTGACAGTCCCGCTGACAGTCTCGTTGA
CGCATCCTGTAGGGACGTCGGGTCAATCATCTACAGGGATGTGTGTTCAT
GAGTGTCTCCGCTCCCCCCCCTTTCTCCCGTATTCTTCTGTCATTGCGGT
GGTGGAAATTTCAGGCGATCGAAGCTAGTAAGGTGGACAAGACGGACAAA
CCCTTCAGCGAGATGAAGATCATCAGCATCGACATTTCATAGACATGGTA
GTACGAAGGAGTAGAAAGGCTGATCAGTTCCTGGCGTAGTTTTGGGTTAA
AATTCGGACAGCAAAGGATGGATCGATCGGGGAACTCTGCGGAGAAGATG
TCTCGGCGAGAATGAATGAGCGGGGGGCCTGCGGACGATTGTCAGCGATA
TATGTTACGGGTTGATTATCACTTTTTCTACCGCCGTAGGAAATTACGTC
TTTTTTCTGAGGCTCGTTATCTTCAGTTCGGGGTTCTTCATCAACCAGGC
AGCACAACTTGTCAAAGTTCAAGCTCTTTTTGTGTTTTTAAAATTTTTGA
GTGAACCTCAAGCTCTTGTGACGACCATGTTCCCTTAAACGGTGACGCTA
TCTGTAGAGCGTTTCTTTCGGTATTACCGCAACGTCCTATTTTATGCTGT
TATGATACCGCCGCCGTATCCCCTGTGTTGCCTCCCCCCTCATATACATA
TACTCAAAGCTATGATATGTTGGCCGTAACGCAGGCCATGATATGTTGGC
CGTAACGAAGAAATTGTGAGCCAAAATGATACTTACA
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig206:330756..364892-

>mRNA_P-littoralis_Contig206.52.9 ID=mRNA_P-littoralis_Contig206.52.9|Name=mRNA_P-littoralis_Contig206.52.9|organism=Pylaiella littoralis U1_48|type=CDS|length=1881bp|location=Sequence derived from alignment at P-littoralis_Contig206:330756..364892- (Pylaiella littoralis U1_48)
ATGGCTAAGCCGGGGTCAGCCGAGAAGGAGGCCAGCGCGAAGCGAAAGAA
GGCGCAAGAGCAAGAAGAACCCGAAGAACCTTCTTCGTCGGACGACGATG
CGGGGCCTCAGCCCGCAGCCCCGGGACAGCTCGGGGAAGACTCGGACACC
GATGGGGAGGCTGGACCGCCGGCACCGGCTCCCGTCAAGAAGAAAAAGAA
GCGCAAGCTGGCGCACGAGAAGGCGTACCTCGAGGCGCTACCGGCGGCCC
CCATGTACGAGCGCAGCTACATGCACCGCGACGTCGTGACCCACGCCGTC
ATGACCCCCTGCGGGACGGACTTCCTGGTGACGGCAAGCCTCGACGGGCA
CATCAAGTTCTGGAAAAAGATGCCCGAGGGAGTGGAATTCGTCAAGCACT
ACCACTCCCATTTAGAGCCGATTCATGACCTTGCGGTGTCCAAGGACGGG
CAGCGGCTCTGCACCACCTCCGCTGACAAGAGCATCAAGTTCTACGACGT
GGTGTCCTTCGACATGAGTCACATGATCGCGCTCAAGTACACGCCCACAC
GGGCGACGTGGATCCACGAGCGGGGACGCAAGGCAAGTTTTCCAGGGCGA
GTAGCTGTGGCGGACGCAGACTCTCCCGCAATAAGAGTGTACGTGTCCGA
CGGAGCTGCCGACGCCGTCGGGCAGTTCGACGGGCACAGCAGCCCCGTGC
TGACCCTGGCGTTCAACGAGCCTGCTAAGACTGTGGTTTCGGCAGACAGG
AGTGGCGTGTTGGAGTACTGGGGGGCGGAGGAGTACGGACGTCCACGGGC
AGCGGCCGTGACCTTCAAGTTCAAGATGGACACGGACCTGTACGATCTGG
CCAAGGCTAAGACCAGGGCCTGCAGCATCTGCTTCAGCCCCGACGGGAAG
AGCATGGCCGTCACCGCCAGGGATAAGCAGGTGAGGGTGTTCGACTTCCG
ATCAGGGAAGCTGCGGCGCAAGTACGACGAGAGCAGAAGAGCGAAGGCTT
CGGACGCCCTGGACATGCAGAACGCGGTGTTCGATGAGAGCGGCCACTTC
CTGATCTACTGCACCATGCTGGGCATCAAGGTGGTCAACCTGGTGACCAA
CACCGTGTCGAGGGTGCTCGGGAGGCACGAGAATGTCCGCTTCCTTCATG
CGACTTTGTTCCAGGGAACGGCCAAGATCGACACCCAGATGCTGATGGCG
CGGGAGACCAAATCCCGAACGGCTGAAGAGATCAACAAGGCGAAAATACC
AGACCCTGTCGTCATCGCCACAGCCTTCGACAAAAACAGGTTCTATCTGT
TTTCTAAGAGGGAGCCGGTGGAGGAAGATGAGGGTGAGAACGGGCGGGAC
GTCTTCAACGAGAAACCCTCGGCAGAAGAGATGCACGTGGTCGCCGAGAC
CAACACGGTGGTGGGAAGAGAGGCGGTCATCAGAACATCCATGGGGGACA
TCCGTGCCAAGCTATTCCCCGACGAGTGTCCGAAGACGGCCGAAAACTTC
TGCACTCACTCGCGCAACGGGTACTACGACGGGGTGATCTTCCACCGCGT
CATCAAGGGGTTCATGGTTCAGACGGGAGACCCTCTCGGCGACGGCACCG
GCGGCGAGTCCATCTGGGGCGGAGAGTTCGAGGACGAGTTCCACAGAAAC
CTCAGACACGACAGGCCCTTCACGCTGTCCATGGCGAACGGGGGACCGGG
AACGAACGGGTCGCAGTTCTTCATCACCACGGTGCCCACCCCTTGGCTGG
ACAACAAGCACACGGTGTTCGGTCGCGTCATCAGTGGGATGGATGTCGTC
CAGGCGATCGAAGCTAGTAAGGTGGACAAGACGGACAAACCCTTCAGCGA
GATGAAGATCATCAGCATCGACATTTCATAG
back to top