mRNA_P-littoralis_Contig651.4.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig651.4.2
Unique NamemRNA_P-littoralis_Contig651.4.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A6H5JXT8_9PHAE (Nudix hydrolase domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JXT8_9PHAE)

HSP 1 Score: 920 bits (2377), Expect = 0.000e+0
Identity = 480/623 (77.05%), Postives = 509/623 (81.70%), Query Frame = 2
Query:  335 QPDRDVESQAYESTEVE-WRLKYHDIKTRRDAADARAKA--------------------YKGPPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQDVPCKVVDCSTSDLETFAEVCDFVEETGAKKAERLGPEGMRAILDMGDARMSDVQGLTVEEQRVFEEGPTLLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELNLCVGGAAVSLRANVPGAGPLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIHFGVPSFGAHLNGYVKASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLRTAHTASSF 2140
            +P RDVESQ Y+S   + W+LKYHDIKTRRD ADAR+KA                    Y GPPLKI+V GKPSSGKGSI PM+SRAYRGVYIASGNLLRSEAQAET LG+ AN +MSRGEMLPS VVLSL+ KRLAQRDCAQNGWILDGFPRS+EQA DL  E IVPDLIVMLERPD LVKEF LGRCTD +TGVIYHPK                             YA+T+ GIR+AY+DVP KVVD S SDL+TFAEVCDFVEE    KAERLGP GMR IL+MGD RMSDVQ LT EEQR FEE PTLLAAAQRCNRYVASD+ PVYVEDVKVGAVSSQFASELNL   G AV  RA+VPGAGP+G EGPAY LAPYA SVEERTR V GLVQGLVD GAIP  A+RNELQDVRS TGKLSV+GDVL RLERAAMIHFGVPS+G HLNGYVKA+D +PMRVWIGVRSVSKATYPG WDQMVAGGQPAGMGFKENM KECEEEASLP SLS KIK  GQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEF+L+PVEEAL TIKTDLARWKPNCALVMIDFALRHGFLDPDH DYLELVHQLRT HTAS+F
Sbjct:   34 EPYRDVESQEYKSKSKQPWQLKYHDIKTRRDVADARSKARLEISLRSNKLVNSLVPLKAYDGPPLKIIVTGKPSSGKGSISPMLSRAYRGVYIASGNLLRSEAQAETSLGKIANEFMSRGEMLPSEVVLSLVTKRLAQRDCAQNGWILDGFPRSREQAADLGEEDIVPDLIVMLERPDGLVKEFILGRCTDPTTGVIYHPK-----------------------------YAETSEGIREAYKDVPSKVVDSSKSDLDTFAEVCDFVEEVAKAKAERLGPGGMREILEMGDIRMSDVQQLTKEEQRAFEEQPTLLAAAQRCNRYVASDFIPVYVEDVKVGAVSSQFASELNLFSSGDAVMFRASVPGAGPMGMEGPAYVLAPYAASVEERTRVVSGLVQGLVDTGAIPKGALRNELQDVRSATGKLSVTGDVLFRLERAAMIHFGVPSYGVHLNGYVKATDTQPMRVWIGVRSVSKATYPGMWDQMVAGGQPAGMGFKENMQKECEEEASLPSSLSCKIKPTGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFLLMPVEEALKTIKTDLARWKPNCALVMIDFALRHGFLDPDHPDYLELVHQLRTGHTASTF 627          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A836CMM1_9STRA (Adenylate kinase family protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CMM1_9STRA)

HSP 1 Score: 551 bits (1419), Expect = 1.020e-183
Identity = 301/604 (49.83%), Postives = 384/604 (63.58%), Query Frame = 2
Query:  344 RDVESQAYESTEVEWRLKYHDIKTRRDAADARAKAYKGPPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQDVPCKVVDCSTSDLETFAEVCDFVEETGAKKAERLGPEGMRAILDMGDARMSDVQGLTVEEQRVFEEGPTLLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELNLCVGGAAVSLRANVPGAGPLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIHFGV-----PSFGAHLNGY--VKASDD---KPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLRTAH 2125
            RDV + AY S    +  +Y   + RR  ++AR + YKGPP+KIL+ GKP SGKG+I PM+SRAYR V +++GNLLR+E +AE+ LG  A   M++G++LPS ++LSL++ RL  RDC  NGWILDGFPRS EQA  L    +VPD IV+LERPDELV+EF+LGR  D +TG IYHPKF+PPP +  HRL WRTDDT EVIE RL+Q+  T       ++ VP   +D + SDL+TFA+VCDFVE   A+K E LG EG+R +    D+R+ DV+     E+    +  TL+AA +RCNR+    Y PVY+ D                                                   +ERTR +EGLVQ LV  G I   ++R+ELQ               L R+ERAAMIHFGV     PS G H+NGY  +K +     +P +VW+GVRS+SKATYPG  DQ+ AGG  +G+  KEN+++EC EEAS+P S S  I  AGQVSYRY TRKGLSTK L VFDL++PEDFVP+NGDGEVEEF L+P++EAL++I+      +PNCALVMIDFALRHGF+  D ADYLEL H LR  H
Sbjct:   10 RDVVTPAYTSETDTYVFQYSPPEHRRVVSEARHQNYKGPPMKILLLGKPCSGKGTIAPMLSRAYRAVVVSTGNLLRAEVKAESVLGAIAEEQMAKGKLLPSRLLLSLIQARLTHRDCGANGWILDGFPRSPEQARLLAEAELVPDCIVVLERPDELVREFALGRMQDSATGTIYHPKFNPPPPDAVHRLVWRTDDTPEVIESRLRQHHATMQRTLAEFKGVPTAQIDSARSDLDTFADVCDFVEAVAARKLEALGEEGLRRVSTEVDSRLKDVE--VAPEEGEGPDAGTLVAAVRRCNRHDIRHYLPVYMGDS--------------------------------------------------QERTRTLEGLVQSLVSAGVIDGTSVRDELQTP-------------LARMERAAMIHFGVTLLQVPSHGVHVNGYTAIKVNGGDWWRPHKVWLGVRSMSKATYPGLLDQLAAGGLSSGVSLKENVVRECMEEASVPLSFSKNILPAGQVSYRYSTRKGLSTKILTVFDLQLPEDFVPFNGDGEVEEFRLVPIKEALDSIR------QPNCALVMIDFALRHGFVKADDADYLELCHSLRAGH 542          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A7S4DLT4_9EUKA (Hypothetical protein n=2 Tax=Lotharella globosa TaxID=91324 RepID=A0A7S4DLT4_9EUKA)

HSP 1 Score: 477 bits (1228), Expect = 2.020e-152
Identity = 273/683 (39.97%), Postives = 396/683 (57.98%), Query Frame = 2
Query:  251 AVRTRAGMVPRRLSMTSSAAIGSSSSAYQPDRDVES--QAYESTEVEWRLKYHDIKTRRDAADARAKAYKG-PPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQDVPC-----------KVVDCSTSDLETFAEVCDFVEETGAKKAERLGPEGMRAI--------------------------------LDMGDARMSDVQ---GLTVEEQR------VFEEGPT-LLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELNLCVGGAAVSLRANV--PGAGPLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIHFGVPSFGAHLNGYVK-ASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLRTA 2122
            AVR RA  V  R   T++A +       Q  R  ES     E    +W   Y ++K RR  A+   +     PPLKI + GKP+SGKG+I PMV+ A+R   I +GNLLR+E +  ++LGR A A M +GE++P  ++  L+  R++Q D   NGW+LDGFPRS+ QA  ++  G+ PD++++L+RPDEL +   LGR TD +TG IYHP FSPPP+++ HRL WR DD +  + +RL  +  +   I  A+    C           K++D + S++ TF +V  F++E   +KA+RL  +  +A+                                LD   A   DV+   GL  +++       + +  PT LL A QRCN +  S+Y PV+VE+ +VG  S     +L     G  ++   N+             A  LAP  +++ ERT  +E L+  L+  G IP   +RNELQD+  +      +G+ L+++ERAAM +FG+PS+ AH+NGYV  A   +P  +W+G R++SK TYPG  DQ+ AGGQPAGM F EN+ KEC EEASL   +   ++ AG VSYRY TR+GLSTK + V+DL++P+D  P NGDGEV+EFIL+P++E + ++K +L +WKPN ALV +DF +RHGF+ PD ADY+E+ H LR A
Sbjct:   62 AVRLRA--VRTRAEKTAAAGVVGLPKVPQDKRYTESLGDLLEDAAGKWNFSYANVKDRRAKAEHFMRTNPQLPPLKICILGKPASGKGTIAPMVATAFRVANIGAGNLLRAEVRTGSRLGRVARAVMEKGELVPDDIMGQLIANRISQPDAQANGWLLDGFPRSEAQAKFMIEYGLEPDVVIVLDRPDELCQAMLLGRMTDTATGAIYHPVFSPPPSDVEHRLVWRLDDHQPTLIRRLLDHQRSIDSILAAFDHPLCSVKNQDYCARTKIIDNARSEISTFDDVSSFLKEVAHQKAKRLEQQAKQALEKEWVPLDARDYAREKTEVAKRIEWQRFDPLLLDAAGAGGEDVEALCGLGEDDEACEIRLDMLDIRPTSLLDAVQRCNEFDPSEYAPVFVENQQVGFASEDLVRKLRGFTTGVEIAPNPNMYYTKGDQTVLSSNAIFLAPEVSNLRERTGVMEALIDELIIDGTIPPEKVRNELQDIYPLDS--GWTGEPLLKIERAAMTYFGIPSYAAHVNGYVADAKTGRPSALWLGRRALSKPTYPGLLDQIAAGGQPAGMSFDENVRKECLEEASLSADVLEGLRPAGMVSYRYSTRRGLSTKTIAVYDLQLPDDVFPSNGDGEVDEFILMPMDEVMRSLKDELPKWKPNSALVAVDFLVRHGFVGPDDADYIEITHLLRAA 740          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A4D9CV51_9STRA (Nudix hydrolase domain-containing protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9CV51_9STRA)

HSP 1 Score: 470 bits (1209), Expect = 1.380e-150
Identity = 273/638 (42.79%), Postives = 367/638 (57.52%), Query Frame = 2
Query:  398 YHDIKTRRDAADARAKAYKGPPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQDVPCKVVDCSTSDLETFAEVCDFVEETGA-----KKAERLGPEGMRAILDMGDARMSDVQGLTVEEQRVFEEGPTLLAAAQRCNRYVASDYTPVYV-------------EDVKVGAVSSQFASELNLCV--GGAAVSLRANVPGAGPLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIHFGVPSFGAHLNGYVK------------ASDDKP------MRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLRTAHTASSF*RCGKSRGPPRIGDREFFY 2197
            Y   + RR A++      +G  LK+L+ GKP SGKG+  PM+ R Y+ V+IA+GNLLR+E QAET+LG  A   + +GE+LP  ++++L+KKR++  DC +NGWILDGFPR+  QA  +    I+PD ++ L+RPDELV+E+ LGR  D +TGVIYHPKF+PPP EI  RL WRTDDT E + +RL+ Y +    I   Y D    VV+ + ++LE  A++C+ +   G      K A R  P     I D+      +      EE+   E    LL   +RCN+Y   DY PVYV             EDV VG    +FASEL L    GG  V L   V              LAP A +  +RTRA+  L+Q L     I    IRNEL DVR +          L ++ER AMI FGVP+ G H+NGYV+            +S   P      + +W+G+RS SKATYPG  D + AGGQP+G+ F EN +KE EEEAS+P  L   ++  G +SYRY T+ GLSTK L VFDLE+P  F+PYNGDGEVE F L+P+ EAL++++ +L+ WKPN AL ++DFA+RHG +D DH  Y+E+ H LR A          K   P R     F++
Sbjct:   57 YSTAEERRAASEPVGDEPQG--LKVLLMGKPCSGKGTQAPMMGRKYKMVHIATGNLLRAEIQAETELGLIAREQIEKGELLPDELMIALVKKRVSADDCRRNGWILDGFPRTVRQAKLMQKADIIPDAVIELDRPDELVEEWCLGRYHDAATGVIYHPKFNPPPPEIVSRLIWRTDDTPETLRRRLQIYREQTQPIYGLYADRH-HVVNSAKNELEVLADICEVLTTAGLARDPHKVAPRHEPNAEDLIPDVPPPSKEE------EEKSKAEGRGGLLEVVRRCNQYNLGDYLPVYVSLPREAAGKDGKEEDVLVGYAHREFASELTLLQQGGGVEVELDRYVE-------------LAPLARTSSQRTRAIADLIQALTAAKVIHKGKIRNELMDVRPMLSP-HFQEPPLFQIERGAMIKFGVPTHGVHINGYVRLPAPSSPSSSPSSSTSAPPFPASSLHIWVGIRSPSKATYPGLRDVLAAGGQPSGLTFLENAVKEAEEEASIPRGLLQNLRPGGMISYRYQTKHGLSTKLLNVFDLELPPSFIPYNGDGEVESFHLMPLSEALHSLEHELSLWKPNAALTVLDFAVRHGAVDADHEHYIEICHLLRGAFIDK------KMAEPSRESKGGFYF 665          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A7S4B5L7_CHRCT (Hypothetical protein n=1 Tax=Chrysotila carterae TaxID=13221 RepID=A0A7S4B5L7_CHRCT)

HSP 1 Score: 454 bits (1169), Expect = 1.190e-143
Identity = 264/569 (46.40%), Postives = 344/569 (60.46%), Query Frame = 2
Query:  461 PLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEG---IVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQD--VPCKVVDCSTSDLETFAEVCDFVEETGAKKAERLGPEGMRAILDMGDARMSDVQGL--TVEEQRVFE----EGPTLLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELNLCVGGAAVSLRANVPGAGPLGAEGPAYA--LAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIHFGVPSFGAHLNGYVK----ASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLR 2116
            PL+IL+ G PSSGKG+I PM+S A+R   ++ G LLR EA+A T+ GR A+  M+RGE+L   +V SL+  RL + D    GW++DGFPRS  QA  L+S+    + PD++V+L RP ELVKEF LGR TD +TG  YHP ++PPPAE+  RL WR DD  EV+E+R+KQ   +   I   + +  VP    D + S+LETFAE+  FVE   + + ER          D G A   DV+ L    +E+ V      + P LL A  RCN Y A+D+ PV V   +VG VS +  + L   +          +     LG E P YA  LAP   S   RT  V  LV GLV  G I S  +R+ELQDVR+           L+R+ERAA+++FGVPS+G H+NGYV+      D  P  VW+GVR++ KATYPG +DQM AGGQP+GM    N  KE  EEASLPP   ++++  G VSYRY TRKGLSTK L  FDLE+P    P   DGEVE F L+ V+E L++++T LA WKPN ALV +DFA+RHG + PD   Y E+V  LR
Sbjct:  191 PLRILLIGGPSSGKGTIAPMLSHAFRARALSVGQLLRGEARARTQRGRFASEAMARGELLSDALVFSLLLDRLGE-DAWHQGWLIDGFPRSAAQARALLSDAYPELRPDVVVLLNRPRELVKEFMLGRMTDTATGQTYHPTYAPPPAEVGCRLVWRVDDVPEVVERRIKQAEASLDSIARIFSEAGVPVCAFDNARSELETFAEIAAFVEGVASARGERR---------DAGAAEEVDVEALCDADDEECVAAYAPPQTPALLYAVARCNEYDAADFLPVLVGGEQVGWVSREMHAHLTPYLAQGRACELVTLNSREMLGHE-PRYAVSLAPDEVSERGRTETVAALVAGLVADGVINSRTLRHELQDVRAADSDFG--SPPLLRIERAAVVYFGVPSYGVHVNGYVRDPKRPDDPTPHAVWVGVRAMCKATYPGLYDQMAAGGQPSGMSLLLNAQKEVGEEASLPPDAVARMRPTGAVSYRYATRKGLSTKRLATFDLELPSGLSPLCSDGEVEHFELVQVDELLHSLRTRLAAWKPNSALVAVDFAVRHGLVSPDEPGYFEIVRMLR 746          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A8J6C9F3_DIALT (Nudix hydrolase domain-containing protein n=1 Tax=Diacronema lutheri TaxID=2081491 RepID=A0A8J6C9F3_DIALT)

HSP 1 Score: 433 bits (1113), Expect = 1.570e-135
Identity = 266/624 (42.63%), Postives = 352/624 (56.41%), Query Frame = 2
Query:  458 PPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLA-QRDCAQNGWILDGFPRSKEQALDLVSE---GIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQ--DVPCKVVDCSTSDLETFAEVCDFVEETG-AKKAERLGPEGMRAILDMGDARM-------SDVQGLTVEEQRVFEEG----------------------------PT------------LLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASEL--NLCVGGAAVSL----------RANVPGAG---PLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSV-SGDVLIRLERAAMIHFGVPSFGAHLNGYV-KASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLR 2116
            PP+++ + G PSSGKG++ PM+S A+R   +  G LLR E +A +     A   M+ G +LP  +V+ L++ R+A   D    GW+LDGFPR+  QA   +S     + PD +++++RPDELVKEF+LGR  D +TG  YHP ++P P +I  RL WR DDT  V+E RL+ + ++   I  AY+   +P   +D + S+L TFAE   FVE  G AK A+  G E  RA +  G           + +    VE   + +EG                            PT            LL A +RCN    S Y PV V+D+ VG  S  F  ++  +   GG    L          R + PG     PLG  G A  LAP    ++ERT AV  LV  LV  GAI   ++R ELQDV  V G+ +  +G  ++R+ER AM+HFGVPS+G H+NGYV  A   +P  VW+  RS+SKATYPG  DQMVAGGQPA + F ENM KEC EEASLPP      + AG VSY Y TRKGLSTK L V+DL +P D  P N DGEV+EF+LL V++AL +++  L  WKPN ALVM+DFA+RHGF+ PD A Y +LV  LR
Sbjct:  111 PPVRLALLGGPSSGKGTLAPMISAAFRTRVLGVGQLLRGEIRARSPRASLAAEAMAAGALLPDWLVIELLEGRIACSDDGLALGWLLDGFPRTLSQARATLSAEHASLRPDCVLVVDRPDELVKEFALGRMADAATGATYHPTYAPAPRDIEQRLVWRVDDTPAVVEARLRDHRESIEPIVGAYECAGIPVLRLDNARSELRTFAEAAAFVERVGDAKLAQMGGREAFRARVFGGXXXXXXXXXXGASIADADVEPICLLDEGEDECMRRYASMRASSAASAAVRARSGGAPTAGPMGASRGLEPLLEAVRRCNLADRSQYMPVLVDDITVGYASVAFVEQICAHFASGGRGFELVPRSAADAAGRGSSPGGAGGAPLG--GVALRLAPGVVGLDERTAAVGALVAELVADGAIAPSSVRAELQDVWPVGGRQTAPAGQPVLRIERGAMVHFGVPSYGVHVNGYVLDAHSGRPAAVWLARRSMSKATYPGLLDQMVAGGQPAELSFDENMRKECAEEASLPPDAVGAARGAGVVSYCYSTRKGLSTKALAVYDLCMPADLEPVNADGEVDEFVLLSVDDALQSVRERLPLWKPNAALVMVDFAVRHGFVTPDEAGYEQLVRGLR 732          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A8J2WZ39_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2WZ39_9STRA)

HSP 1 Score: 426 bits (1095), Expect = 2.000e-133
Identity = 259/668 (38.77%), Postives = 378/668 (56.59%), Query Frame = 2
Query:  374 TEVEWRLKYHDIKTRRDAADARAKAYK-------GPPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQD--VPCKVVDCSTSDLETFAEVCDFVEETGA-------------KKAERLGP-----EGMRAI-------------LDMGDARMSDVQGLTVEEQRVF------EEGPTLLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELNLCVGGAAVSLRANVPGAGPL-------------------GAEGPAYALAPYATSVEERTRAVEGLVQGLV----------DMGA----IPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIHFGVPSFGAHLNGYVKASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPS-LSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLRTAHTASS 2137
            T+  +   Y     RR AA+A+ ++         GP  KI++ GKP+SGKG++ PM+S AYR   +  G+LLR+  +AE+    +  A +  G++L     + ++++RL + D  + GW+LDGFPR+  QA  L+   + PD +V+L+RPD+L   F LGRC D +TG +YHP+F+PPP ++ HRL WRTDDT+EV++KRL ++A     +   +++  VP KVVD + S+LETFA+ C FV+E  A             K+ ++L       E  R +                G A   DV+ L   ++         EE   L A  +RCN Y  + + PV VE  +VG V++Q  ++L     G  +S    V G  PL                        A  LAP+A SV ERTR V+ LV  LV          D G     +P   +R+ELQDVR++   L+     L+R+ERAA++ FGVPS+G H+NG+ + + D  + +W+  R++SK TYPG  DQ+ AGG PA     EN  +E  EEAS+P   L   +++AG VSYRY  R+GLSTK L VFDLE+PED VP NGDGEV+ F+L+  E+A+ ++++ L  WKPN ALVM+DFA+R G++ PD  DY+ + H LR+ ++ASS
Sbjct:   34 TKETYEFSYSGASERRAAAEAQMRSRMRRLGRAAGP--KIVLLGKPASGKGTLAPMLSCAYRSARVGLGSLLRARLRAESD--GQVRAALQSGKLLSDEDAMDIVQERLEREDAVEGGWLLDGFPRTAGQARLLLEGPLKPDAVVVLDRPDDLAVAFCLGRCEDSATGAVYHPRFAPPPDDVRHRLVWRTDDTEEVVKKRLAKHAQECNAVLATFEEAGVPVKVVDNARSELETFADCCSFVDEVEASMRGLKARRERKQKRRDKLAAPWRLMEATRRVETAAVEQRPEPKPASGGSATEEDVEALCYVDETAEQCAARNEELRGLRAVVRRCNTYDPARFAPVLVEGEQVGFVAAQLLNKLR----GPGLSAAVEV-GPNPLPHVVRRRDDELDEEVIEDDDVSALAATLAPHAHSVAERTRVVQALVDALVADSELLLARPDQGTEVAFVPRSKLRDELQDVRALGAPLN--SPPLLRIERAAVVSFGVPSYGCHVNGFTRKNGD--VYIWLAKRALSKPTYPGLLDQIAAGGLPAKTSLLENAKREAAEEASIPRDILDGNLRAAGCVSYRYAARRGLSTKTLAVFDLELPEDLVPINGDGEVDAFMLMKAEDAVESLRSRLYEWKPNSALVMLDFAMRWGYIPPDDPDYISVSHDLRS-YSASS 687          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A0M0JLU6_9EUKA (Ntp pyrophosphohydrolase including oxidative damage repair enzyme n=1 Tax=Chrysochromulina tobinii TaxID=1460289 RepID=A0A0M0JLU6_9EUKA)

HSP 1 Score: 384 bits (987), Expect = 8.350e-118
Identity = 241/592 (40.71%), Postives = 326/592 (55.07%), Query Frame = 2
Query:  458 PPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQR-DCAQNGWILDGFPRSKEQALDLVS---EGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQD--VPCKVVDCSTSDLETFAEVCDFVEETGAKK-----------------AERLGPEGMRAIL-----------------------------DMGDARMSDVQGLTV--EEQ-----RVFEEGPT--------LLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASEL--NLCVGGAA-------VSLRANVPGAGPLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDV--LIRLERAAMIHFGVPSFGAHLNGYVK----ASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEAL 1987
            PPL++L+ G  +SGKG++ PM+S A+    +  G LLR E +A T+ G E    M+ G +L   +VL ++  RLA   D A++GW+LDGFPR++EQA  ++S     + PD +V+LERPDELVKEF+LGRC D +TG  YHP ++PPP  +  RL WR DDT EV+ +RL  +  +   I   ++   VP + +D + S+L+ F EV  F+E     K                 AE  G EG R +                               + D R  DV+ L    EE+     R +EE  T        LLAA +RCN YV   + PV     +VG V +     L   L  G A         S  ++V G+ P   EG A  LAP ATS  ERT  V  LV+ LV  G IP+  +R+ELQ+V  +      SG     ++LERAAMI+ GVP++  H+NG+V+      D +P  +W+  RS+SKATY G  DQMVAGGQPAGM F +N+ KEC EEASLP  +  ++   G VSYRY TRKGLSTK L +FDLE+P+  +P  GDGEVEEF LLP++E +
Sbjct:   75 PPLRVLLIGGVASGKGTLAPMISHAFSCRVVGIGQLLRGETRAGTRRGLEVADLMAAGALLDDRLVLKILNDRLAGAPDSARSGWLLDGFPRTQEQAEAILSPEWSALRPDAVVLLERPDELVKEFALGRCVDSTTGQTYHPVYAPPPEGLHERLVWRVDDTPEVLSRRLADHRHSCADIVRTFEGARVPFRRIDTARSELDCFREVATFLEGVALGKVSQYRDYLVRQRRLEDAAEGWGEEGARVLYRGYGGRRLQEGKLPTSADTWQEAMAALAGGVSDFREGDVEALCEPGEEEGTCIVRYYEEAATRESDVVGTLLAAVRRCNEYVPGAFVPVVAAGEQVGWVDAATREALAPQLAAGYACRYVDWPPTSSDSSVSGSSP---EGIALELAPVATSSSERTEVVATLVEELVADGHIPAAKVRHELQEVHPIARGFVASGSAEPSLQLERAAMIYLGVPAYAVHVNGWVRHPERPQDPRPWGMWVAQRSLSKATYAGLLDQMVAGGQPAGMSFADNVAKECMEEASLPRDVLERLVPTGLVSYRYATRKGLSTKHLAIFDLEMPKGMLPMCGDGEVEEFRLLPIDEVI 663          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A7S0E8E5_9CRYP (Hypothetical protein n=1 Tax=Hanusia phi TaxID=3032 RepID=A0A7S0E8E5_9CRYP)

HSP 1 Score: 357 bits (917), Expect = 2.290e-106
Identity = 229/670 (34.18%), Postives = 349/670 (52.09%), Query Frame = 2
Query:  407 IKTRRDAADARAKAYKGPPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQNGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQDVPCKVVDCSTSDLETFAEVCDFVEETGAKKAERLGP---EGMRA------ILDM-GDARMSDVQG------------------LTVEE-------------------------------------QRVFEEGP--------TLLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELNLCVGGAAV---SLRANVPGAGPLGAEGPAYALAPYATSVEERTRAVEGLVQGLVDMGAIP-----SHAIRNELQDVRSVTGKL------SVSGDVLIRLERAAMIHFGVPSFGAHLNGYVKASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPA----------GMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDFALRHGFLDPDHADYLELVHQLRTAH 2125
            ++ RR  +   ++AY    ++IL+AGKP SGKG+  P++SR YR V+I++G+LLR+E +  ++LG  A  ++  G++LP  +V+S++KKR+AQ DC  +GWILDGFPR+ EQA  L+ E I+PD +++L+RPD++V+E+  GR  D +TGVIYHPKF+P P E+   L  R DDT E I +RLK + +T   + + ++D    V+D +  +L+ F E+   +++    +   + P   EG+        +LDM  D+ M+D +                   LT +E                                     +R   E          T L     CN Y  + Y PV+V   ++G +    A+E+ L  G   +   SL       G +  +    +LAP A S  ERT  V+ +++ +   G I      S   R  L D +     +            L+++ER ++ +FGVP +G H+NG+V+  D   + +W+  RS SK  YPG WDQ+V+  Q +             F+EN I     EAS+   L  K+KS   VSYRY T  GL TK L ++DL +P D+ P+NGDGE++EF L PVEE L +I++    WKPN  L +IDFA+R GFL P   DY+E+V +LR  +
Sbjct:   94 VEERRQESHPTSRAYG---IRILLAGKPCSGKGTQAPLISRKYRCVHISTGDLLRAEMKIGSELGARAYEFIREGKLLPDQLVISIVKKRIAQDDCIYHGWILDGFPRTVEQAKMLIEEKIIPDHVIILDRPDDVVREWCSGRAFDPTTGVIYHPKFNPAPPEVESNLIRRIDDTVEAINRRLKVHHETFDKVMELFKD-RTTVIDSTKHELDVFKEITQVIDKQLPPRTADVAPFRPEGLTTTLIRQNMLDMWSDSLMTDDEVDEILQETFLRWDSSDKGMLTAQEVRQVLKDLSFTLSLSLSDQIVGSMDVDRDGFVSFQEFRRCLRENSLGNGQIPITYLDIINYCNAYNPTGYIPVFVGSRQIGYIGESIAAEMLLLPGNEKLFTCSLGTCDVNTGAM--QSGFLSLAPSARSSSERTLQVQQVIEEMQKFGIIKPDEQLSERERELLDDDQPTFYNVWSMHNPCFQEPALLQIERQSIPYFGVPLYGIHINGFVEMPDGS-LYMWMAKRSESKIAYPGLWDQLVSHHQGSRRRGESVWNSNNSFRENAISAAMREASISSELLGKLKSTSMVSYRYETSFGLETKVLFIYDLPLPSDWRPFNGDGEIQEFRLFPVEEVLKSIRSSPFLWKPNAMLTVIDFAVRRGFLTPQDFDYVEIVSRLRVVN 756          
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Match: A0A7S3RJC5_EMIHU (Hypothetical protein (Fragment) n=2 Tax=Emiliania huxleyi TaxID=2903 RepID=A0A7S3RJC5_EMIHU)

HSP 1 Score: 350 bits (899), Expect = 1.980e-104
Identity = 223/558 (39.96%), Postives = 311/558 (55.73%), Query Frame = 2
Query:  458 PPLKILVAGKPSSGKGSICPMVSRAYRGVYIASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQ-RDCAQNGWILDGFPRSKEQALDLVSEG---IVPDLIVMLERPDELVKEFSLGRCTDLSTGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQD--VPCKVVDCSTSDLETFAEVCDFVEETG-----AKKAERLGPEGMRAILDMGDARM-------SDVQG---LTVEEQRVFEE--------GPT---------------------------LLAAAQRCNRYVASDYTPVYVEDVKVGAVSSQFASELN--LCVGGA-----AVSLRANVPGAGPLGAE-GPAYALAPYATSVEERTRAVEGLVQGLVDMGAIPSHAIRNELQDVRSVT-GKLSVSGDV--LIRLERAAMIHFGVPSFGAHLNGYVK----ASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPAGMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVFDLEVPE 1918
            PPL++++ G  ++GKG+I PM+S+A+R   I  G LLR E +A    G EA+  M+ G +LP  +VL L+ +RL    D ++NGW+LDGFPR+  QA  LV      + PD +V++ERPDEL +EF+LGRC D +TG  YHP ++P PAEI  RL WR DDT + + +RL  +  +   I   ++   +P +  D + S+LETF EV DF+         A +++  G  G +  LD   A M       +DV     L  +E+              P                            LLAA QRCN Y   ++TP+ V D +VG ++      L   L VG A     A  LR+    A     E G A  +AP A+  +ER+     LV+ LV+ G IP   +R+ELQDV   + G ++  G V  ++R+ERA+MI+FGVPS+G H+NG+V+     S  +P  +W+  RS+SKATYPG  DQMVAGGQP  + F EN+ KECEEEASLPP + + I+ AG VSYRY T KGLSTK L   D+E+P+
Sbjct:  134 PPLRVVLMGGVAAGKGTIAPMLSQAFRVRCIGVGELLRGETRARRARGVEASHVMAAGVLLPDELVLQLLGERLGGGTDASRNGWLLDGFPRTTSQAEALVGGSWAELRPDAVVLVERPDELAREFALGRCCDSATGQTYHPVYAPAPAEICERLVWRVDDTSDALNRRLSDHKRSVEAIVGVFESAGIPLRRFDNARSELETFGEVADFLRSVAMGKLEAARSDLAGGRGRKMSLDEVGAAMQPSPADPADVAPYCFLDEDEEECLSRFQRERRRSAPXXXXXXXXXXXXXXXXXXXXXXXAGRGELLAAVQRCNSYALREFTPLLVGDEQVGWLNPTVLEALTTQLAVGRACEHVEASMLRSEAAAAAAGQCENGFAVRIAPGASGAKERSEFAAALVEELVEDGVIPRSKLRHELQDVHPFSAGFVAAGGGVAPVLRMERASMIYFGVPSYGVHVNGWVRDPRRPSSREPSAMWVATRSMSKATYPGLLDQMVAGGQPTALTFDENVRKECEEEASLPPEVIAAIEPAGSVSYRYATPKGLSTKVLMTHDVEMPQ 691          
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig651.4.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JXT8_9PHAE0.000e+077.05Nudix hydrolase domain-containing protein n=2 Tax=... [more]
A0A836CMM1_9STRA1.020e-18349.83Adenylate kinase family protein n=1 Tax=Tribonema ... [more]
A0A7S4DLT4_9EUKA2.020e-15239.97Hypothetical protein n=2 Tax=Lotharella globosa Ta... [more]
A0A4D9CV51_9STRA1.380e-15042.79Nudix hydrolase domain-containing protein n=1 Tax=... [more]
A0A7S4B5L7_CHRCT1.190e-14346.40Hypothetical protein n=1 Tax=Chrysotila carterae T... [more]
A0A8J6C9F3_DIALT1.570e-13542.63Nudix hydrolase domain-containing protein n=1 Tax=... [more]
A0A8J2WZ39_9STRA2.000e-13338.77Hypothetical protein n=1 Tax=Pelagomonas calceolat... [more]
A0A0M0JLU6_9EUKA8.350e-11840.71Ntp pyrophosphohydrolase including oxidative damag... [more]
A0A7S0E8E5_9CRYP2.290e-10634.18Hypothetical protein n=1 Tax=Hanusia phi TaxID=303... [more]
A0A7S3RJC5_EMIHU1.980e-10439.96Hypothetical protein (Fragment) n=2 Tax=Emiliania ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig651contigP-littoralis_Contig651:8376..31660 +
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.D8LDL6
PFAMsADK,DUF4743,Dpy-30,NUDIX
Model size2855
Max annot lvl2759|Eukaryota
KEGG rclassRC00002,RC00017
KEGG koko:K00939,ko:K00949,ko:K06672,ko:K14787
KEGG ReactionR00127,R00619,R01547,R11319
KEGG Pathwayko00230,ko00730,ko01100,ko01110,ko01130,ko04111,map00230,map00730,map01100,map01110,map01130,map04111
KEGG ModuleM00049
Hectar predicted targeting categoryother localisation
GOsGO:0003674,GO:0003824,GO:0004788,GO:0006139,GO:0006725,GO:0006732,GO:0006766,GO:0006767,GO:0006772,GO:0006790,GO:0006793,GO:0006796,GO:0006807,GO:0008150,GO:0008152,GO:0008655,GO:0009058,GO:0009108,GO:0009110,GO:0009228,GO:0009229,GO:0009987,GO:0016462,GO:0016740,GO:0016772,GO:0016778,GO:0016787,GO:0016817,GO:0016818,GO:0017110,GO:0017144,GO:0018130,GO:0019438,GO:0019637,GO:0034641,GO:0034654,GO:0036172,GO:0042357,GO:0042364,GO:0042723,GO:0042724,GO:0043094,GO:0044237,GO:0044238,GO:0044249,GO:0044271,GO:0044272,GO:0044281,GO:0044283,GO:0044715,GO:0046483,GO:0051186,GO:0051188,GO:0071704,GO:0072527,GO:0072528,GO:0090407,GO:1901360,GO:1901362,GO:1901564,GO:1901566,GO:1901576
Exons14
Evalue0.0
EggNOG OGsCOG0494@1|root,COG0563@1|root,KOG3078@2759|Eukaryota,KOG4313@2759|Eukaryota
Ec32 ortholog descriptionAdenylate kinase family protein
Ec32 orthologEc-15_000120.1
EC2.7.4.3,2.7.6.2
Description8-oxo-dGDP phosphatase activity
Cds size2043
COG categoryL
BRITEko00000,ko00001,ko00002,ko01000,ko03009,ko03036,ko04147
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig651.4.2prot_P-littoralis_Contig651.4.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig651 8476..30948 +


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

Feature NameUnique NameSpeciesTypePosition
1680791362.374264-UTR-P-littoralis_Contig651:8375..84751680791362.374264-UTR-P-littoralis_Contig651:8375..8475Pylaiella littoralis U1_48UTRP-littoralis_Contig651 8376..8475 +
1680791362.559346-UTR-P-littoralis_Contig651:30948..316601680791362.559346-UTR-P-littoralis_Contig651:30948..31660Pylaiella littoralis U1_48UTRP-littoralis_Contig651 30949..31660 +


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

Feature NameUnique NameSpeciesTypePosition
1680791362.3875315-CDS-P-littoralis_Contig651:8475..88201680791362.3875315-CDS-P-littoralis_Contig651:8475..8820Pylaiella littoralis U1_48CDSP-littoralis_Contig651 8476..8820 +
1680791362.3973067-CDS-P-littoralis_Contig651:15703..158351680791362.3973067-CDS-P-littoralis_Contig651:15703..15835Pylaiella littoralis U1_48CDSP-littoralis_Contig651 15704..15835 +
1680791362.4120202-CDS-P-littoralis_Contig651:16713..168551680791362.4120202-CDS-P-littoralis_Contig651:16713..16855Pylaiella littoralis U1_48CDSP-littoralis_Contig651 16714..16855 +
1680791362.4248726-CDS-P-littoralis_Contig651:17340..174951680791362.4248726-CDS-P-littoralis_Contig651:17340..17495Pylaiella littoralis U1_48CDSP-littoralis_Contig651 17341..17495 +
1680791362.434199-CDS-P-littoralis_Contig651:19602..196891680791362.434199-CDS-P-littoralis_Contig651:19602..19689Pylaiella littoralis U1_48CDSP-littoralis_Contig651 19603..19689 +
1680791362.446585-CDS-P-littoralis_Contig651:20257..204341680791362.446585-CDS-P-littoralis_Contig651:20257..20434Pylaiella littoralis U1_48CDSP-littoralis_Contig651 20258..20434 +
1680791362.4591038-CDS-P-littoralis_Contig651:21300..214471680791362.4591038-CDS-P-littoralis_Contig651:21300..21447Pylaiella littoralis U1_48CDSP-littoralis_Contig651 21301..21447 +
1680791362.473528-CDS-P-littoralis_Contig651:22454..226911680791362.473528-CDS-P-littoralis_Contig651:22454..22691Pylaiella littoralis U1_48CDSP-littoralis_Contig651 22455..22691 +
1680791362.4859405-CDS-P-littoralis_Contig651:23532..236621680791362.4859405-CDS-P-littoralis_Contig651:23532..23662Pylaiella littoralis U1_48CDSP-littoralis_Contig651 23533..23662 +
1680791362.49509-CDS-P-littoralis_Contig651:26680..267861680791362.49509-CDS-P-littoralis_Contig651:26680..26786Pylaiella littoralis U1_48CDSP-littoralis_Contig651 26681..26786 +
1680791362.508862-CDS-P-littoralis_Contig651:27666..277511680791362.508862-CDS-P-littoralis_Contig651:27666..27751Pylaiella littoralis U1_48CDSP-littoralis_Contig651 27667..27751 +
1680791362.5215747-CDS-P-littoralis_Contig651:28462..285671680791362.5215747-CDS-P-littoralis_Contig651:28462..28567Pylaiella littoralis U1_48CDSP-littoralis_Contig651 28463..28567 +
1680791362.5357478-CDS-P-littoralis_Contig651:29167..293051680791362.5357478-CDS-P-littoralis_Contig651:29167..29305Pylaiella littoralis U1_48CDSP-littoralis_Contig651 29168..29305 +
1680791362.548668-CDS-P-littoralis_Contig651:30891..309481680791362.548668-CDS-P-littoralis_Contig651:30891..30948Pylaiella littoralis U1_48CDSP-littoralis_Contig651 30892..30948 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig651.4.2

>prot_P-littoralis_Contig651.4.2 ID=prot_P-littoralis_Contig651.4.2|Name=mRNA_P-littoralis_Contig651.4.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=681bp
MWGASAITLLSTSCLYEFFDTQQHVLGFVSPAAVTPRCSSSSIAFDEATA
AVRTRAGMVPRRLSMTSSAAIGSSSSAYQPDRDVESQAYESTEVEWRLKY
HDIKTRRDAADARAKAYKGPPLKILVAGKPSSGKGSICPMVSRAYRGVYI
ASGNLLRSEAQAETKLGREANAYMSRGEMLPSGVVLSLMKKRLAQRDCAQ
NGWILDGFPRSKEQALDLVSEGIVPDLIVMLERPDELVKEFSLGRCTDLS
TGVIYHPKFSPPPAEIAHRLTWRTDDTKEVIEKRLKQYADTAGGIRDAYQ
DVPCKVVDCSTSDLETFAEVCDFVEETGAKKAERLGPEGMRAILDMGDAR
MSDVQGLTVEEQRVFEEGPTLLAAAQRCNRYVASDYTPVYVEDVKVGAVS
SQFASELNLCVGGAAVSLRANVPGAGPLGAEGPAYALAPYATSVEERTRA
VEGLVQGLVDMGAIPSHAIRNELQDVRSVTGKLSVSGDVLIRLERAAMIH
FGVPSFGAHLNGYVKASDDKPMRVWIGVRSVSKATYPGTWDQMVAGGQPA
GMGFKENMIKECEEEASLPPSLSSKIKSAGQVSYRYGTRKGLSTKFLCVF
DLEVPEDFVPYNGDGEVEEFILLPVEEALNTIKTDLARWKPNCALVMIDF
ALRHGFLDPDHADYLELVHQLRTAHTASSF*
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mRNA from alignment at P-littoralis_Contig651:8376..31660+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig651.4.2 ID=mRNA_P-littoralis_Contig651.4.2|Name=mRNA_P-littoralis_Contig651.4.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=23285bp|location=Sequence derived from alignment at P-littoralis_Contig651:8376..31660+ (Pylaiella littoralis U1_48)
GCACATCTCGACCTGGGTACGAATTTAGAACAGTGCGATCTCCCCGCTTC CCCCTTGCCGTATCTGATCAAGCAATATCACTGCGAGTTAGTTACCTTGC ATGTGGGGTGCTTCCGCAATAACGCTCCTCTCCACCTCCTGCCTGTACGA GTTTTTCGACACTCAACAACATGTGTTGGGGTTCGTGTCACCTGCCGCCG TTACTCCAAGATGCAGCAGCAGCAGCATCGCTTTCGATGAAGCAACAGCA GCAGTTCGCACAAGGGCCGGTATGGTGCCGAGACGATTGTCGATGACTAG CAGCGCAGCCATCGGTAGCAGCAGCAGCGCGTATCAACCAGACCGTGATG TCGAGAGCCAGGCTTACGAGTCTACAGAAGTCGAGTGGAGGCTCAAGTAT CATGACATCAAGACCAGGCGAGACGCCGCAGACGCTAGGGCCAAGGTTCG TGTCATAGTGCGTGTGTGTGCGTGTGTGTGTGAAGCTGCAGCAGCAGCAG CAACAGCAGCAGCAGCAACAGCAGCAGCAGCGGTGATCCTGTCGTGCAGT TTTGTCATTCGGCGATCATCGAATGTTGTGCCAAGATGTGCTCCTCTTGG CACAGGTACTTTTGAAATCCCTCCTTTTTCGTATGGTGCAATGCTCTGCA TACAGTACTGCTGCAGTGGAAATGTGAAATCTTCACGTGGAAATCTTATG TTGATCTTGGATGAAATCACAACAAAGCAGCACCTGCTGCTGCTGCTGAT GCTACTGCTATTTTCCGATGGCATTGCATCAGGACAGCTACAACTACAGG AGGTACCTCATGCGATTGGTAACATCCACATGGTTGGATGTCATGCTCGT ACATGGCCTACTCGTCTTCGTTAGCGATCACTATTGTCTAGATCAGAGGT GAATGCTGTACCGAAAACATTCAACTGTAAAATCCCTAATACACGTACGT ACTGGTATGTTATTTATCACATTAGCTCACTACCGCCGCAGTCTAGCCCG TGGTCACAAACCAGGCACATATCGTGCTAGGAGGaAAAAAAAAAAAATAG ACTATGATCACCCACAGTCAAATCAGATATGATACCGTTCGGGTACCATC TGTCGTGCCCATAGTACCAAACAAAATACAGAAAAAAAAAACAGGTTCGA AAGAAAAAACGAAAATTGGAAACAGTGTTGTGTGTGTGTGTTGTCATCCC TTTGATTGGACGCCACTCTGCACCTTTCGGGTAGGTCGACGCTCCAACTG GGGTCACACAGGGGGAAGTCAACACAGGAGTTTTTTTTTTTTTTCTCCAC TTCCCTCTGCGGTCCTTGCCTTGTTTGGTTGAGCTTTTATCGCGAGAAAG GGGACAGCAACCCCTTTCCCTCGTCGATGGTACGATCGAATTTTGTCTAC TCACGAAGTAATCGCTTTCCACTTTCACGCGCATTGTGAGAAGATAACCC AGATCGTGTCACTGCACTGGGATTCGAACTCGAACAGTACGACAAACAAA AAATAACCAAGACAAACCTCAACCATAACCATATACTTCAAAGTACTTCG TACATCGAACCAGGGCCCAGGTCCATGATAGACCAAGGCAAAGGCAAACC AGAGCGATGGTCCAGTAACTGTATGATCAATAGACGAAAGACAAAAAATA AAAAAGAAGAAGATACAGGGAGGGCACAAAAACTGAGGGAGTGCACTCGC ACACAAACACAACAAACAGGCCGCCAAATAAAGAGGAAGCAGGGGAACGA AAAGGGAAAAGAAAAAAGAGAGACAAAGAGGAATAAAATACATACGAAGT ACATGGAGAGTGCAGAGGGAAGACCGGAAGTACCGGAAGTCGGGGGGGTG ATAAAAAATACAGTAACATAAAAGGCATGCACTCAATCGCAAACGTGTCT TGCCACGGGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCGCACTCATGC CTCCTGCCACTGGCACCACCGTACCCAGTTGTTTCTGCCCCACATCTTCG GCAGCAGCTACACCACCATTCCGCCCTACAGGTTTTCCACTCCGGCCATC CCGTAGCTTGGCTTTGGGCTGCTTCTTCTTGTGCTGTGCAACTCCAACCC CACTATCCCGCTGCCCTTGTGCCCCCCCGTACTCCTCCTCTGGTTTATCC CCGCCATCCGTTCTCCCTCTTTTGGCCAAGGCCTGCCCCTCAGCCGCGTC CCTCTCCCTTTTCCGTCGACGTGTCTCTGATAAGTCTCCCTCTTTCTTGA GCCGCTCGTCCGTCAACCGCCGCGCACCATCGACGATCCTGTCGTACCAC TCGTCAGCTCTCTTGGCACTTGCCTCCCACCCCTCGTTTTTGTCGACCAC GATGTCGAACGCTTCGAGGTCCTCCTGCATTCGCCTCAGCCAGTCAAACT CTTGCCCCCCCAGATACCTCGCTCCCCCCTGCAATCCTCCCAAAAGAGCA ATTTTCGGGAGTCTCTCGTCTCTCATGCGCGCAACGAATCCTGCGAAGCA CAGTCGCCGCTTGCGCACGGTGGCCTCAACGCTCTCGTCGCAACCCGCGG TGATCAGGGCTTTGGCGTAGGAGAGAGGTCGGTCTGTTCTCTCCCTCTAT TTCCATCCGATGCAGCGAAGGAGGAAGAAGTGGTGGGCTGACCGAAGCTT GCGGTACTCCGCTGGCTTCAGATTCCATGTGACACACCCGCAGAGTAGGG TCTCCACGACTTCAGCTTGGAGGAGTCGTACTTTTAGTCGAAGAAGGGCC CCCGGGCGGTCGTACATTGCCTGGCTGTTGCGCCGGAAGCAGGCGTGCGC TCGCTGCACTCGGTGGTTAATCTCGCCCTCAATGCTACCGTCCTCACAAA TCTTACCCCCGAGATAGACAAAGTCTTTCTTTTGCTTGAAGACCATCCCG GCAGCGTCGATCGTGAACGAGCACGCCTCCATCCCTTTCGCGAGCATACA CATGGTCTCCGTCTTGGGTTCTGACACCAATAGCCCAGACCGCCCGGCCA CACGTACGATGATCGACATCATCTTCTCAAGGCTCTCAGGTGATTGAGAT ACGATACAGGCGTCGTCGGCGTAGAGCATACTCCAGACGGACTTCACTGC CTCCACCAGTCGGGCGTTCCTCCCCTTCCCCTTCGTCACCTTCCTCTTGA CCTTGGCCATGTCCGCCATCACCTCCGCGTCCTTGCTGATCTCGGCAAAG GCCACCATGAGCATCGCAGCGAAGAAAAGGTTAAACAGCAGGGGTGCCAG ATTGCATCCCTGTCGGAGTCCCTGCCCCACATCAAACCAGTCGGAGCACC TCCCGTCGTCCATCCGTACGCATGCTCTCATTCCGTCGTGGAATTTGCGA ATGACCGCAAGCATCTTGGGGGGCACTCCGAGCCGCTTGAGCACCGACCA CAGTAGTTCCCGGTCTACGGAGTCGTAGGCTTTCGTGAGATCGATAAAGC AGGCGTACGGTGGGGTTGACTTCTTCCGCGCAAGCTCGTGTAGGCGTCGA ACCACGAATATCATGTCAACCGTTAAGCTGTTTGGTCGGAAACCGCTCTG TTCCTCTGGCAGAATGCCCTCTCTTTCGCAGTAATCGCTTAGCCGTGTGG CGACCAGCTTCAAGAGCACCTTGCCAGCGTGGGCTACAAGGGAGATGCCT CGGTAATTGCCGCATTCCGTCTTGTCCTTCTTTTGCAGCACCTTGATCGA AGCATCTTTCCACTGTTGTGGCACGCTTCCCGATTGCCAGATGTTGATGA TGATACTGTAAAACTGCCGTAGGAGGACTTGGTCTCCGTCAAGGAAGAGC TTGATAATCTCCGCTGGTAGCTCGTCCGGGCCCACAGCTTTCCTGTTGGC CATTCCCCGGATTGGTTCCTCAACCTCAAATAGCGAAGGGATGTCATCAA GCGGTACGCACTGAGGCCAGGGCTCGATCTTGTCCACCACTCTCGGATCC AGGGTCGGTGACTTGGTGTTGAGCAGAGCGTGGAACCACCTGGCCCACCG CTCGAGGATAAGTGCGGGGTCCCGAAGAAGATTTCCATCCTCGTCCTTGA TCTGTGAGGTGAAGGCCCTCTTCCCCTCCACATCCAATCCCTTCATGTGC TTGTAGAAACCGGCCTGGTCCCCTTCGCGGCTTTGCTTCTCGAGCTGACT CACAAATCCATCGAAGAACTCGTTCACAGCACTGGCTCTAAGTTGATCAA GGTGCTTCCCGACCGCCTTGAGGTTGCTCCTGGGGGTGGGATCTTTCGGC GCACCGCGAAGGTGCTTCCGGGCGTCCCCCCTCTTGAGCCATGCCACGTG GATCTCCTGCTGCACTTCCTCACTGGCGCACCAGCCACTTGGCAATCTCT TGCCCTTGGCCCGGGGGTAACGTCAGCGGCGGTGGACATCACAGCAGTCG TCAAGGCCGACGGGAGCTCATCCACATTCGCACCTTCCATGATGGGGGAA ATTCTGTCTCTAAAGTCTTTCCGAAGTTGGGGGTCCGCCATCAAACGTTG TAGATCGATGCTAGCGGAGGAACTGCTGCTGCTACCCCTCACACGTAGAT TCGGTGCCACTCGGCCAAGCAAGCGGATGTTGGCAAGGATGAGGTTGTGG TCGGAGTCCTTACGATCGATGCGCCGTACAGAGACGTTGCGCACCAGCCG AAGGTCTACCTGGCGGGTCAGGATGTAATCGAGTCGGTATTCTCCCTTCC CGCGGTTGGAGCTCTTGGACGAGTGTGATATCCCGCGTTTGGGTGTGCAG AAAAAGGTGTCCAGGATGGAAAGCCTACAGCTTGCTGCAAATTCCACCAG TCTCCGCCCGTACATGCCCATCACCTTATCAGGGGTACTCTCATCCTCTT TTCTACCAGTTCGAGCGTTCGCATCCATCATAACCACGACGTGTTCCCTG CCAGGTACTGCATTGACTGTCTCTCACTGATAGCCAGAATCCATCTTTCT CACTAGTCCCATCTATCTCGCTAGGTGCATAGGCAACCACAAAGGATACA CCGTTCGAGTCAGTGAGTTGCAGGCGTACCTTCATCAGTCTTGCGCTAAT GCACTCCACCGTCATACCTCCTTTGTCCATGCCATCCACCATGGACTGCT TGATGGCCAACCCGACCCCGTGCACTCCTTTCTTTTCGGTGGTCCCGGCA CGTGCTCCATTCCAGATCACAACATATCCCGCGTGTGTGAAGGCACCATC ATTAGCACGCCGGGTTTCCTGGAGGCGTACCACATCGCAATGGGAGCTAC CACAGAGCTGTAGTTCGGTGTTGGATTTGCGACCGATACCGTTGGCGCCC TTGTAAGCAAGGGTGCGGACGTTGAAGGAGCCCACTATCAGTTCGCCTGC ACTTGCCTTTGATCTCATCTCTGCCCGTCTCTTTCGGTCGGCCTTGCGTA AAGGTCGGTTTCGCTTCCATTTCTTTGAAGCAGCAATTTTCCTCCGTTCC ATCCATCTTTGCCAAGCTCGGTACTTGTCTACGTTCAGGCGGGCTGGGGA CGACACTCCCGGCCAGCGTCGACGTGAAGGTCGACGAGGGTGCTTACTAA CGTGGTCCCTCCTAGTCTCTCTGCTCCTCAGGCTACGAGTTCCACGATTT CCGCGGTGATGTGTCGACACAGCTGCCGCAGACAGTTTGACTGTCGCGGA GACCAGACCATAGTTGGTCCGGACTGCTGTAGTGCCATTCGTCACCTCCA TCACCTACCCAGCCTCGGCGTGCGCCGGGTAGGGTCTGACCACATTACTC CCACACTACCCTGTCTACTCTGGTAGAGCCTGGTACGATATCATATACTC GGAGTAATACGAAAGTACCGCAGTGTAATGTCTTGGAGCATGTGTGTGTT GTGTGTGTGTTGTCATCCCTTTAATTGGACGCCACTCTACACCTTTCGGG TAGGTAGATGCTCCAACCGGAGTCACACAGTAGGAAGTCAACACAGGAGT TTTTTTCTTTTATTCATTGTCTTTTATTTCTCCACTTCCCACTGCGGTAC TTGCCTTCGTTTTTTCTCGCGAGAAAGGGTACAGCCATCCCTTTCCCTCG TCGACACTTCGACTTTTTTTTACTCACGAATTAATCGTTTTCCACCCTCA CGCATGACATTAGAAGAACTCTGGATCGTGTCACTGCACCGGGATTCGAA CTGGAGCATGAGAAAAAAAAAAATCTTGATTTTGCATCCTTGGGCAACGA AGTACTTACTGCTGCACGGGGTATCGGGCTGGGGCCCGGTGTGCCCATAG GTGTCACAGGTGTACATATGCTGGCAATCCATAATAGATACAGACCAGTT ATCAGCACACCTCGGGGGTGGTGTGCTCCTGTATTTTTAACTATAAAAAA AAACTTCAGTACTTCGCACGAAATACTGCTGTACGGCAGATCGGTCGTCG TGTTGTTGTCAATCGGTGTGGTATTGTAGGAAAGGATCTAGTGCATCCCA AGCACTTGCGCATGGTATCTCCAAGAGTAGTCCACCGTTTTTTTGTTTTT TTTTACACCTGAAACGTGCGAAGTTTTGAAGTTTTCTGTTTAGGCCCGCT CGTCATCTGCTGTGTGTGGTGTTTGATGTGTGATGTTTGATGCCTCGAGG GTGGAGGAAAGTATTCAGGGAAATTGTTTTTCTTCTTTCAAATACATCAA TGTGTTCGCCTCGAAGTTTGAAAGTTTGCTCCTGGTATGATGTGAAACGG TGTTACACCGGCGTGTTTACCACTGTCTACAATCCTCTCCATGGATCAAC CCGGTTCCAGTTTGGACACGGCGCGCAGTCTGTCTTCACCCCATGCCGGC GACAGGAGCTATCGTTTCCAAAAAAAAATTGGGGGGGGGGCGGGGAATAG GGTTCATGTAACACCGCCTCGCGCGATTTTTTGTTATTCATGCTTTCGAG GAACTAGGACATACCTTCTCCCAAAAGTGATGAACGTGGACTTTGGGCAT GTGTAACCGGCAGCCACATGCGCAGGCAGCAGCAATGCGTTGAGGGACTG CTGTAGGACACACCCAATACTTGATATGCCCCGTTTTTTGCGGCGTCCGC AAAAGGCGCCGAGACTCCAAATTTTCTCACAAAAAGGCTCGTTCACAGCA TGTAGTGCGCCACTTTGCTCCCCCAGTTGTATATATATGCAAAAAAAACA AAACAACGATTTTTCTCCCCGCTTGACGACTTCGAAATTCTAACGATACC CCCTGTCTACCCCCCCCCCCCGTCGCCCATTTTCGCCTTGCTGTGTTGTC CTGTCATGTTTTTCTTCGTTTTTTTAAATTTTCGTTGTCACCGTTTGATA CGTTTTTCTCAAATGTTTTTGTGCAAAGGCGTACAAGGGACCGCCGTTGA AGATCCTTGTTGCTGGGAAGCCGTCGAGCGGCAAGGGCAGCATTTGCCCG ATGGTTTCGAGAGCTTATCGAGGGGTGTACATTGCCTCCGGAAACTTGCT ACGATCGGAGGTGTGTGTATGTGTGTGTCTGTCTGTGTGTCTTGTCTGCT TGTGTGTGTGTCTCTCTCTCTCTCTGTTTGTGTGATGTGTGTATGACACA TGCGTACGTGTGTGGGAGAGGACCCCTTCATAAGGGATACATTCCCACAA CGCCTGCCGAGGACGGATTAATTCCCTCTTGTCACGTGTGTGGGTTTATG GTATCGTAGCGGGGACCGTGGTAGCATGCTGACCGCCGACAAAAAGGCGT CAGTTTTAGCAGATTGAAAACCGAGAAGGCTTCCATCAACAAGGTACTCC CAATGGGGGAGCCGCGGCCGAGAATGGGCGGTGTGTTGATGTTGTTGTTG ATTCCCACATTAGCTCACCACCACCGCAGTCTAGCCCGTGGTCACAAACC AGGCACATATCGTGTCAGGAGGAGAATAAGCGGGTATGTGCGTGTATACT TTGCGGGGAGATTTCGTCGTGGAGCAAAAAGCGTTGATGATCGAAGGTCA CGAGGGTTTGGCTGGTAGGAGGTGAATTTGATTCGTTTGATAATAGGTCA GGAGGGTACGTTTGACATTCGGTTGCGAGGATTTGTTTGGCAAGACATCA ATAGGACATGCTTGGCACTGTGGTCAAGAGAGCATCATTGACTGCTGTAG GTCAAGAGGATATGTTTGGTACACAGGCCAAGGGATATGTTTGATTTTTG GTCAAGAGAGTTTATTTGAAGTCAAGAGGACATAGTAAGTACCGTATCTT ACTACTTATGCTGTACATCACCATCCAATTCCGTCATCGTGACACCCAAA TCCAACGCAGCAATTAGTCGATCCTCTCGCATACCATCCAAAACATTATT CAACCAAGTGCAAACGCAAAAAAAAAAAAAACGAGCAGGCGCAAGCTGAA ACGAAGCTCGGCAGGGAGGCGAACGCGTATATGTCTAGGGGAGAGATGTT ACCGTCGGGAGTGGTGCTGTCCCTCATGAAGAAGAGGCTGGCGCAGAGGG ATTGCGCGCAGAACGGCTGGATTTTGGATGGTAAGAGGAGTTTTCAAGGA GTAATTTGCGTTTCCGACCCCTCGGGCATCCTCCTTGCTGATGTCGAACA TTTTTTTATCGCATGCTTTATTACTTCGGGTAAATTTAGTCCGTATTCGT TTAACCATGTGTTGTGCTGGTTTCGATTATCGTCCACGAACAAGCTTTGC TATGTCGTTTACCTGGGAATTGGTCAGCACAGCGACACGACGTCGTTGTT GCAGGTAGATAGGTCAGATGGTCCGGAGACTAGAAGAAGCTTCCAAGAAA TTTATCTCACTGCGTCGTTTCATTATCGCAGGTGCAGACATTTTACTTGT GTGTCCCTGCTGTGCTACCAGAGCGAGTATAGGATCCCAGGGGTGGCCGA ACAATCGTATTCTATGACAGTGTTTTCGAATATATTTGCTGTTCCCCGCT GTGATGTGCCTCTCTACTCTCCCCCCGCACCACCCCCATCATGAATATCG CCAACGCCGTATCAGGGTTTCCAAGATCCAAGGAACAGGCGTTGGATCTT GTTTCGGAAGGTATCGTCCCCGACTTGATTGTCATGCTTGAGCGGCCAGA CGAACTCGTCAAGGAGTTCAGCCTGGGGCGGTGCACCGACCTCTCCACCG GGGTTATTTACCACCCCAAGGTACAGATATATGTACAGCAGTAATGTATC TTTTTTACGGTGTTGAGACGGACGCCGATTGTTCGGCGTGATGCACGGAC CTCTTTACCGGGCTTATTTACCCAACAAATAAGTACAATATTTATACGGA GTACCTTTTTTTTGTTTTGAGACGGACTCCTATTGGTCGAAGTGATGCAG GGACCTCCCTACCGGGGTTGTTTGCCACCCGCACGGTATAGATGTACCTA TTTGTACCTTAGACGGACCTGTTGGTCGAAGTGATGCACGGACCTCTCTA CCGGAGTTGTTTACCACCCCAACGGTACAGATGTACCTTTTGTTTGTGTT GAGACGGACGCCGACTGGTGGAAGTGATGCACGGACCTCGCCAAAGGGGT CATCTGCCGCCCCAAGGTACAGATGTAGATGCATATTGTCCCGTAATTAG TTTTGAGACGAACGTTTATTGATCGAAGTGATGCACGGACCTCTCCACCG GGGTCATCTACCACCCCAAGGTATACATATAGATGTTTGCATAGTTTCAA TACTGCTGTACATGAAGTTGGCATTGGGACGAACGCTGATTGGTTGAAGT GATGCGCGGACGTTAACCCCCCGAAGGTGGTGTGGGTATAGAACAGTCAT GTACCTGAATTTGGTATTGAGAGGAACGCTGATTGGGCGAGGCTGAAGCT GAAGCGGGAATGGTGTATTGAAGCACTGTGTACTCTCGGCAACGAAGACT GCTGTCACCAGCATGCCTCGCTCTTTTGCCACCATGAAAGCAAGGCGTCC CATTGAAAGTTTACCTTTTGAAAGCCCCCGCGTCGATACCAGGGGTAGAT CGATCGAGTTGCACAGCCAACCTTTCTCCAATCGCCGGGGGCGTACACAT CGAAAGGCCGACTTAGCGTCGCATCAGAGCATATTCTTTGATATTGAATA TTGTAGGGAAAACTCATCTCCAGTGATGATATCATACCACATGGTTCATT TTTTTTTTTTTTCGTGCAGAAGTTTAACTTCGAATTTCCGATGTTTTTCC TTGTCTTTCCTGTTTTTTGCATCGCTTTTGTTCGTTTTTGTCCTTGTCTT GTTCGCTTGGTCGATGGATATTGCATCCTCTCGAAGCGTGAGCTCGGCAA TCGGCACTTGCCTGACTTTTTGCTATTTATTTATTTCGGGGTAGACTTTT TTTTTTTCTTGCTGCTGAACAAACTTTTTCTTAATTGTTGAAATGGTACA GCTGTAGCATTGTGTGATGTTTCGGGGTCCGCTTCATTTCGTAGGGTAGC CAGAATTACCCCGCAAAATATTTGCCCTCGTTGGCAGGTAAAAAACCTAT TACCGCGAAAAGCGTCCCCCATCATGGGGTATTTTTAAAATTGCACAGTA GCGCTGTGTGATACTTCGGGGTGTTTCATTTCGTCGGGTTGTCCGTGGTG TACCTTCATTGGGTAGGCAGGATGACCCCGCAAAATACTCACCTCTCTGG GTAGGTAGGTACAAGCCCATGGCCGCGAAAAGCGTCCCCCATCGCATGAT GCAACAGCATCGTATCATATGGACATCGTAAGGTACGGAGTAGTAGACAT CGGCATGATTTTTAACATGAAAACAACACGCACACATTCACACACGTTCA CACACAGAATATCCCCCAGTTTCAGAGCGGACGTGCGGGGGAGAGGGGAG GAGGGGAGGGCGGGGGGGGGCTCAAGAGTTGGTTCGGTGTCACGCTGGTG CCTTCACAGCACGACAACGCCGCCATCGCTCTCTCGCACGAGGAGGGACG GAGTGGAAGGGGGGGGGTGGGAGGGGGGCACCGTCACATCATGTAGCGTC ACCAATCTACCGTTGTTGTGTGTCGCGCGTGAACGCCAGCGTAATAGGTA TTTTCCATGTGCTCTATCTTCACGACCGCTGCTCCACCGCCGTCGCCGAC GAAACGTCCTTTTCCTTCCTCATCACCGGTGCCCTCCCTCCCTCCCTCCC TCGGCTTTCGATCCCCCACCTGCGTCTTTTTTTTTTTTCCTTTTTTTTCG CCTCTTTTTTCGCTGTTTTTTTCGTTTTTCTTCGGTGGGATGCTCGCGCG AAAAAATAACATGGAAAACGGTGGCAGTTTTCTCCACCGCCGGCTGAAAT CGCGCACAGGCTGACCTGGAGGACGGACGACACGAAAGAAGTCATCGAGA AACGCCTCAAACAGGTTTGTTGTTGTTGTTGATTCTCACATTAGCTCATC GCCAAAATGTAGCCCGTGGTCACAAAAAGTGCTGAGCCCTAGAAAGATCC AAAAAAGAGAAAGAAATTACAAGGTGAAATCCGGGGAAGAACAGGCCCCA AGGCGGGATTGGAAACCCACCCGCGTGTGGATTTGATTGGATTGGATGTT TCGATGAAACAAGAACGGGGAAAGTAGTGGAGGCGTCGTCAGAAAGTGCT CGACCTTGTCAACGCGGTTTCATTTGTTTGCCACACCGTCTTTTTACGAC CAAGGGGCGGCTTTGGGCGGTGACCAGCTTGATGTACCCTTCTGAGGCTT CTGCCACTCGAGTTTTGGGGAACCATCTGAACATTTATTTATTTTTTATC GTGCCGGGAAGAAAAAATAAAATAAAAACGAAACACGTGTGTATGATACG ATATCGTATGTGTGTGTACATTCATGGTTCTCCCTTGACCCTCCTAACCG TGTATGATATCATATTACATGTATGTGTACATTCAAGGTTCTCTTTTGAC CCTCCCAACCGCGGAACCCCCTCGGACGACAGTACGCGGACACCGCTGGC GGTATTCGGGACGCCTACCAGGACGTGCCCTGCAAGGTGGTCGACTGCTC CACCAGCGACCTCGAAACCTTCGCCGAGGTGTGCGACTTCGTCGAGGAGA CGGGGGCGAAGAAGGCGGAGCGCCTGGGTCCCGAGGGAATGCGGGCTATC TTGGATATGGTGCGTTTTGAGGCGGTTGTCGAGTCGATTGTCGTGTTTCA TCTTCTGTGCGTGTGTGCGTGTGTGTGTGTGTGTGTGTCTGTTGTTCGTT TGTGTGTGTGCTGGTTATTTTCGTCTGTTAGTTTGTCGCCCGCGCCTACA TAAACAAGTGCTGCGCCCTGCATGTTTACCACGAGAAAGAAACATCCGAA GAAAAAAAGTGCTGAGCTGAGCCCTGCATATGCATCATGACAAAGATCCG AAAACGGCACAGAAAAAAAAAAATAGGAAGGGTAAACAACCAATAAAGAA GGTCCGCCTTCTCGAGATACACAGCGGACCGCACAGAAAAAAAAAAAAGG ACGGGTGCACAAGGAAGGCGCGTCTTATCCTATTACAGCAGTGGTGTGCA GTCAATGCGTGTGCGTTTGAGTGTGTGTGTGGGTGGTTTGTGTGTCGGTG GGTGCATGTGTGTGCGTGTGTGCAGTGTTGTCAGGCTCGCGGGGTGGATC ATTCACATTTAGAAGTTGACTCGCACGTAGAGTAGGTCTTACTACCTACA GCACATGACCCGCCGCTGGTGTACGTACGCGTCTGTGATGGGTGCCGCTA AGGTTGTTTGTCGGATGTTCGAGGGCTGAGCGGGTCCTTCGTCGGCCCCT TGATCTGGAACGCAGAGTCCATGGGGAACTTGTCATCTTCCTTGATAAAC CAATGTTCTACAGCCGTACTCACTCATTCAGGGCCTCACAAGAATGTCGG ACGTACCGAAACGGGCCACCTGCTTCGTATTTTCACGTCACCGTAGGTAT ATGCAGCACGTCCTCATTTCGTGAAAATATTGTGTGCATGTATGTTTGTA CTATGATGCCGTGTGTGTCGTTCAGGGCGATGCAAGGATGTCGGACGTTC AAGGGCTCACGGTCGAAGAGCAGCGAGTGTTCGAGGAGGGACCGACTCTT CTCGCCGCCGCGCAGAGGTGTAACCGTTACGTCGCCTCGGACTACACGCC GGTCTACGTTGAGGACGTCAAGGTGCGCCATAATAAACATGTTGAATAAT TCGAAGTAGTATATTACACCCATATAAAGCACGTACATCGTTTATTTCCC TATTTATTTCTTAGTTTCCTCTTATGTAGCATGATATGCGTCTGGTTTGA CCCACGTACAAGTGCATACCTGGTACTCGTTTCTCTTTATTTTTCATTTT TTTTTTCTTTCTCCTAGCACGATATGTGTCTGGTTTGTGTACCACCGCGG GCTAGACTTTGCAAGTGAGCTGTGTGAAAGCAAGCTACAAACACTACCAG ATGCATTGCATGCATACACGCATGCTTACCCTCGAGTACTATCTGTACAT GCATTTACGTAAGGACTGTAGGACACACATACATACATACATACATACAT ACATACATACATACATACGTACATACATACAGTACAGACATACATACAGC AGACATGCACGCCATGCATAATACGAACGGTACGTACACGTACATTCAGG CATACGGGGGGCCAAATACATACGTCATACATACATACATGCGAATATAT AGTCGCGGTTCGGGGGAAGGCAGACGATGTAGTTGTGAAAACGGCGTACT TCTGCGCTGCGTGTGTCAGTCGCGCTCCAGGCGCAGTGGCGCATGGTAGG GGTAGGCACTGGGGCCTGCGTTTTGTGGGGGCACCTCCCGCAGGGTGGTG GTGGGGGGGTCGTTGGACTGGTATGTGACGGCTGGGTCGAGTTGTGCATG CCGTTGGGTGTACATGCTAAACGAATCCACTCGGCCTATCTGCCTCGGCC ACGCGAGCCGAAGCATATATCCGCTGGGCCAAAAGCAAAAGCCGGAGTGC AAAAAAAGAAAACCCGACGTACGATATACATCTCAAACTGAAACGATAGG ACACTGCCTGCTGCATCTCTGATTTGTCGTTCATACCATTTGCGTTTGTG CGTGTTTTGTGCGTGTTTTGTGCGTGTTTTGTGTGTGTTTCGTGTGTGTA TGTCTGTTGTCGGCGGAAAACCGAGAAAGGTAGGAGCAGTGTCCAGCCAG TTCGCCAGCGAGCTGAACCTATGCGTGGGAGGTGCTGCGGTTTCTCTGCG GGCGAATGTTCCCGGTGCGGGGCCCCTCGGGGCGGAGGGTCCCGCCTACG CGCTGGCCCCGTACGCCACCAGCGTGGAAGAGCGCACCCGCGCCGTAGAG GGCCTAGTTCAGGGGCTGGTCGACATGGGCGCCATCCCCAGTCATGCCAT AAGGAACGAGCTGCAGGTGACGAAATCTGTACAGCAGTACGCGACACATG TTTCACGAAACTCTCCTAACATATGATGTGATATTTCGGCTGCCACTACA TACCAGGTATTTTTTGGTGCAGGGTGCTAGACTGCGCACTGGCGCTCACC TGTAAATGCTAAATTTTCCAAAAATCCCAGGCTGGATTTCTCATCTATAA GCATATGTGTCGCGTACTGTTTTACTCCTGTATGGTATCAAAGCCCCCCC CCCTTTTTTTTGGAGTCTGTCTCCCCGTGTGCACGTATCATGCTGCTGTA CAGGGTGTTTGTTTTTAGCAACTGCTATTATTTCAAATCATAGCTGTGTT ACGCCGCGCCCATTTTTTGCCCCCACATGCGGAATGGCGGGGGGCTGTTG TTGCCAGGGGGCTGGTGTAGACCGACGACCGCGATTCATGACAAGGTTTC CTTTCAACCGACAGCGCATAGAAAGCAGTCACGCGTGTCCAACAAAAGTG GGCTGGTCTGGACGGGCTTTTTTATTATGCCTGGGGGGATTTTTCCGTTT TTTCGTTTTTTTTTTTTCCATTGTCGGGGATTTTTTTTTTTTTTGTCATA TGAGCCCGATCTGCTCGATCCGCGGTGGTTCCACAGTTAACGTGGCGTAG ATGTCATGTTTGTGTCGTATGATATCGTACGGTACCCATATAAGTAGCCT GAAAAAATGGCCGGGCCGGAAACATGAACAAAAACACGGACATGTGTACC GTAGGAGAATCGCACGCACACCAACCAAGTCGCGATCGAAGTTGCGGCCT GTGGCTTCTAATCGCCCCGAGTTTTCATTCCTGTACGAAACGTGACGTGC CGCGCAGGACGTGAGGTCGGTGACGGGAAAGCTGAGCGTCAGCGGGGACG TGCTGATTCGGCTGGAACGAGCCGCCATGATCCACTTCGGCGTACCGTCC TTCGGGGCCCACCTCAACGGTTACGTCAAGGCCTCCGGTGAGCCGGTGGA AACCCCTCCCCCCGTGGATCCTGTTTTAGTTTTCAGTTTTCATGGCCCGT ACAGCAGTTCTGGTTTTGCTCCGGCTGTATGATATCAGTTCTATTATATG ACACGGGTGCGTTTATTAGACGTTCAATCAATAAGTGGATTGTGAGGTTG GTGGCGTGGGGCAAGTTGTGTTGCTTCTCTACTCTGCCCGCACGTTTTGT TCTCCTCTGTGGAATGCCATCCGTTGTTTTCATGCGATTTTTTTTCTACA GTATAATTGGGCGACGAAGTTTTTTTTTCTGACACCTTCCATGGGAAAAA AAAAAAACTCGTGTGGGATTCCTCCTTCTGTAGTGACCCCGGCTGGTGCA CCCACTTCATACCTAGAAGGTGTAGAATGGTGCTCAGAAAAAATGGGATG AAAACACACACACAATGTTTTTGTTTTCCTCCTAGCACGATATGTGCCTG GTTTTGTGACAACGGGCTATATGTATACTTAGTATAGACTACGCGGTGTT GGTAAGCTAATGTGAGAATCAACAACACACACAAAACACAAACACAAACA CAAACACAAACGCATATGCACCGTCGGCGGCATACAGAGTACGGTGTGAA ACTAAGCTTGTGTGTGGTGTCGTCTCCCATCTGTTGTGGACGACAGTCTG CATACACCTTTCGGTTTGGCATCACACGTGTTGGGGCATCAGCCAGGGCC GTAGAGAAGTGCAGCACTTTCCTGCCAGCGAGTGCACGGGTTTCGATCCT CCCCGCCCCTCGCAAGTTACCTTCTGCCTCCGGTGCCGGCTACATCCGCA TGTACCACACGTCTCTGAGTGTCCGCGCCAGCCGTGAAGCTGACCTATTC AATAGAGTAACTCCATGCGGAACCACTTGTGTGAATTTTTACGACACACG TGCGTACTTATGATATGATACCGTAGCACGATGTTTGGGGTAGATTCATG TTTTCGAACAAGCTGCATCAGTGGCTGCGTTCTTTGATCGTGGCCAGCAT TGATGGATTTTTTTTCTATCGAAGCTGAAAAATATCCATAATTTAGGGCG CCTCGCCCGACCTTTGAACCGGATTCACCCCCCTGATTGTGAAGTGATAC TGCGTCCGGGGGGTATAGTATTCATTAGTGTGAGGCGAAGCTTTAGTCTG GAAACCCCCTTGACAAACCGGGCTCATTTTTGGCGGGGGGGGGGGGGGAT TCATCTTACAAGAAGGCGAGGAGAAGACATTGTTGTGGAGTACTGTACGG AAAGTGTCGGGGGCGAGTTTTGCTTCCTATCGTAGGCCCCTCAGCATAGT ATGATGTGGCTGTCAAGGGCTACATACGTAAGGTACGCAGCAGTTGGTGT TGAATGTGCCGTTTTTTGTTGGGAGGAAAAATTTTTTGCGTTGGGTTGCA AACCCGAAAGTGGGAGTTCGAGTCCCTTTCCGGCGTTCTTCGACACAGGA GCTCACTTGGTAAATGTACGTGGTTGTAAACCATCAAATGACGTTGGTAG CGAGATAATGGAAACGCGCGCGACCCGTATGTACGACAATTCGTCCAGCG AAACAAAACAATACACAGAGCCCTGTGCTGAGAGAGTCTGCGTGCGTTGC TGCCATCATGCGCGCTGCATGCGTGCATGCATGCACCCTCGCTTCTCTTC CACGCCCAAAGCACGTGGTCCATGCCCTTTCCACCTCGGCGGGTATATTT CACCTCGGCCGTAGGTACCGTTAGCGTTGCCCCCTTCCGCCATGCAGCGC TCAAAACGACAGTTGATGGCTTACATTACGTGACACACCCTTCTTTATCA TGTACCTGGTATCGATTATTTTTCGATAATGAATCAGCAGTGCTCTTTTT GGGGGAAATTTTACGTTTCATACGTGGGAACTACCAGACCATGGAACCAC TAGACCACCGGGCGTAGGTGCGATTCTCTGTGAGAGCGTGTCTCGCGATT GTACAGTGGAAAGCGAATTGTCGTGAGAAAATAGAGGGTAGGGATTGCTG AACCCGACTCGCACTAAAAACCAAAGGCAAGTACCGCAGGAGGAAGGTGT GGGCAATAAAACGAAATAAAAATATAAAAGTTTTTGTGTGACCTTCCTTT GGCCCCGGCTGGTGCACCCACTTTATACCGAAAGGTGTAGACTGGTGCTC AGAAAAAATAGGAAGGCAGCACACACATACAGTACTTCGAAGTACATGTC GTAAATGTGCGGTGCGTACGGGATGGGATGACTCTGAACACTGACACGCA CGACACGTGCACTCTTTGTTGGCTAAGGGACCCCGGCTGTTGTTGTTGTT GTTGGAATTCGAGTCCGTTGAAGATGTCAGCCTTGAAAACGACGAAGGCA TGAAATCACTTGAAAATAGTGTGGCGTAGGTGATGACGATACCACGGGTG AGGGGACCACGAATTTGTTTGTTGCGTCAGTCAGTCCTTGCCTGGTGGAA ACATATTTTCCCGATTTTCGTTTCAATTTTATTTTTTCATTTTTCAATTT TTCCTTTTTTTTACCTTTCTTGGGAGGGCGTCCGTTCTGCGTCGTTTCTT TGTACTTTATTCGAGCGAAGCGAGGTTTCTATTCTTGCCTGAAGTCTCGC TGCAAATAAAAAAGTTTGTACGTGTGTTCGCTTAAACTAGGTTTTAGAGT ACAACCCTACATGACTTGGTATTAAAGGGGGGTACACGTCTGACGACAGT TACATCTATCAGCTGTCGCTCGTTTTAGCGACAGCTACTATATCTTTTAT AGCGACTTTTAATCCCCGAACTACCGCTTTCTCTGTGGATTTGTTTGATC TTCGTGCAATTATACGAAATTACACCCAAACCTCATCAACCTGAATAAAC GCTCGTTCTCTAGATCTGTTTGATCTCCGTGAGTGGGTTATGTCCAAACC CATCAAAATATGCTCGTCGTCCAGGAATCCCAGTGCATGTCACACGTGGG ATTTGCCTGAACCGTCAAATATTGCACCGCCTTTTGCTTTTTTTTTCGGC TCAAGATGACAAGCCCATGAGGGTCTGGATCGGCGTGAGGAGCGTCAGCA AAGCCACCTACCCCGGAACGTGGGACCAGATGGTCGCGGGGGGGCAGCCG GCAGGGATGGGGTGAGAAGACGCGCTGCTGCTTTGACGCCCTCTCTCTCT CTTAACGCACACACACACACACACTCACCTGCTACAGTACACCAGTACGG CCTCTGCGCCACCGATGGTTTGGATCACACTACGGACAAGTGCCTGGTGC AATCCACTCGCCCAGCACGCAGCGAAACGCCGTCCATGGCGAAAAGATAT CGTATGACCGCTGCCACTTGCCCGCGTTGCTGCCCCGTGTGATCCACCAC CCCACGTGTATTTGCACGCCCGAGCTTTTTTGTTTGGGCGCTTGAGCGAG GGTGCCCGTTCTCCTTTTTCCTTGCTGTTTTTTTTTTTCGTTTTTTCATA CTCGCAGCAACAAAATGGGGTGTCCGTCTCCTTTTGCCTGCTGTTTTATT TTGTTTTGTTTTTTCGTGTTTTCGCAGCAACTCTCCGCGAAGGCGAGTGA AATGTTATCATACTGTACTCGCCGCCATAGATTGCGTATTTTTTTATCTG GGCTGGCAGGCTCACGGCAAGCAGCTGATGTGCAGCGGTGTACCTGGTAT AGCAGCAGCGGTTTCGAAACCTCTACGGTCAATGTTTTGTCAAGACCGGA CGTCATACTGTACACAAATTCCAGGGGGATCACAGACAGCCGGTGCTGCT GCACGCGGTTTAGTTGCGGCTTTAAGTGACTCTCGGAGTACTTCGAAGTC TGAAGTAGTTTTTATTCCTGCTTTTTCAATGTTTTTCTTCAATGTTTTTT TTTTCGTTGGGTATTTTTTTTTTTGTGCATGTGTTGTATCTTGCGTTTAC AGGCTCAAAGAGAACAACGTTTTTCTTCAAGTTTTTTTTTCAATGTGTAT TTTGGTCTTTTTTGTGCATGTGTTCTGTCTTGCGTTTACAGGTTCAAAGA GAACATGATCAAAGAATGCGAAGAAGAGGCTAGCCTTCCTCCCAGTCTCT CCTCCAAGATCAAGTCTGCCGGGCAGGTACTGATGTAGCGAAATAGAGAA CACCAATCATACAAGTAACACACGCCCGTGGGAAGATGCGCACTGCGAAT GCAATTCTCACCGCGGTCTATCTTGATGCCGCGCGCTTTGAAAGGATGTA CATTTCCCCGTCTCGTCGAAAGTGAACGTCTCGGTTGAATGTTTACAGCG ACAAGAAATTAGTTTCTAACCCAGCTTTGTGTCAAAGAAGAAGGCGCATC TGGTCTTCTTCCGCATTGCTGCTGCTTATGCTGCTTATGCTGCTGCTGCT GCTGCTGCTACTAAATTGTCTAGTGATGGTTTCATCTGTCTCGTTTCGTG CTTTTTTATTTTTTCGCTCAAGGCAGTTTTCATGTTTTGACTCATTGGTA TCATTTTATTGATTTATTTATATATTTACTTATTTATCTGTTAAAAGCGG GTTTATTCTATGCTATTTTTGTCCTACTTTTTTTTAGGTTTCTTGCCGGT ACGGCACATAAGATGTAGCCTTGAGGTTTCTTTTTTTTTGCTCACGGCGC TTTTCATTTTTATTCCATTTTTTCATTTCTGTTCATTTTTTTTTTTTTTC CTTTCTTCGTTTTTATAAAGTTTTTTTTTTGCTCGAGGCGCTTTATTTAC GGATTTAGTTGTTCATTTTTTTATCTATTTTTTTGTTCAACGCGGGCTTA CTTTTATTTTGGACATTTTTCTGCCCTCGTTTTCAAGGTTTCTTACCGGT ACGGCACGCGGAAAGGACTCAGCACCAAGTTCTTGTGCGTTTTCGACCTC GAGGTTCCGGAGGACTTCGTGCCCTACAACGGGGATGGCGAGGTAGCGTC CCCTGAAAAAATGGCACCTACATGTACCGGACATACATCAGAAAGAATTG ACACGTATACTTGCGGACGTATATCAGAAGAAAATGACACGTATACCTGC GGGCATATACATATACTTCGAAGTATATAGAAAACCGCAGGTGGAACTTG TCTGCGGTTGATTGCTGCTCCAGTTGGCGACAGCTTCCGTGTAACTTTTG CCGGATGACCGACCCTCGTCCTGATGCGGAGATTCCGATCGGGCTTTCGA AACGGGTCGATGAGGCGTTTGTCTACTGTACACCTCGTATGACAGGCTGG CGTAGGGAGAAACCGGATGACGGATGACCGTGTGTGTCGAATCTGTCGTA CATCGAATCTGTCACCGAAACAATGTTTGAATTTTATAAATAAAACTCCA AGTATTATACTCCGTACGAATTATATAGTTGCACTTTATTTTAAGAGTTT ATTTTGATACCCCCAGTGGTTCCGGTGGAACAAGCATGCACTCAAGCCCA AGTCTGCCAGTAGAAAGAGAGCGAGAGAGAGAGAGAGGTCAAGAGCATAA ATAAAATCGACGGTGCACTAAAAACTGTTTTTTTTTTTTCAGGTTGAAGA GTTTATCCTGCTGCCGGTGGAAGAAGCTCTCAACACCATCAAGACGGACC TCGCGCGGTGGAAACCCAACTGCGCTCTCGTCATGATCGACTTCGCCCTG AGGCACGGCTTCCTCGACCCAGATCACGCGGTAAGAGAACAGGGACACGC CCCCCCCCCCCCCCCCCTGCCAGTGCTGTTCCGCCGTACTCATTTTCGAG CCTGTTTTTTCTGTCTCTATATACTTTTGGCCACCACAGATGGTACCCTA AAGGGTACCCTTTCTGATTTTGATTGGTTGGGTGACCATCGTTTGTTTCG TTTTTTTTTTTTTTCCCTCATAGCACGATATGTGCCTGGTTTGCGACCAC GGGCTAGACTACGGTGGTTGGTGAGCTAATGTGAGAATCAACAGCGACAA CTCAGAGGCTGACTACATTGTTGGGAGTGCTCATCAGATCGATGGAGTTC GCCCACAGTTTTTAGACGACTAGGTACATATAGGTTGATGCTGTTCGAAA AGTATTCCAAGCATACCAGTGGCAATCAGAATAAACGGTGTGTTCTGTAG GGTACCCACAGAATTATTGTATAGCGTTCGCCCTTTCAGTTCATAGCCTC GAAAACCTTGGGACAGGTTTACAAGTATATGGTGTGTTGGACAGGTCGTG GGTTCGAATCTCGGGTATGAAGTCGCACGACCAACTTTTTTTCTGGCATC ATACACTGTACAAATACTGAAGCCTCAATTTAGTAGTGGGAAAAGTGGAC CTCACTAGGTCGTGGATTCGATACTCGGTGTGAAGAAAAAATATATATTT TTCTCACATCATATATATGATACACAGCAGTCGGAAAATAGGACTACTTC GTGTGACCGCAACTATGAAGGCCGAAGGGATGGCCGAACCTTTCTCTCAC AAGAATAAAGGAAGGCGAGCACCGCAGAAAAACGGTTCAGAAATGAATAA TAAGTAAGAAATAAACTGCTGTATAACCTTCGTTCTTTGCCCTGTGTAAC CCCGACTGATGCGCCCGCAGAACCGTCGTATACGAGTATCGTATCATGGA AGTTGACCCCCAGAATAAACTGCACGGTACCGATGGCAATACTGCTGGCG TGTAACGGTTTCTTATTTTCTGTGCCCCCGATGCATGCACACGCCTTGCT TTGTTTGTTGGCTCCGCCGGGTCGATGAATCCGTCCACTGGGTACGATAA AACAGCATCGTTTGAACAAATCCACGTCATGAGAAAGACGTCATGAGATA GTTACCCGATCGATGGCAAAAAAAAAGTTTGTGTTTCTTTTATTTTCCCG ACGCATGCACACACGCCTTACTTGTGGTGCTTATCTATGCCGCCCACCGC TCGGCGGTTACAATCGGATCGACAAACAAAGGAGTCGAGCGTCATCATCC ACTGCCGCCGCCGGGCCCAAGCCGTTCGATTGTTCAATCTACGGTTATGA CATACCATGTCATATACGAAGTACCACATTTTTTGGGTGGGGGAGGCGAT GCATCATATCATATCATTTCACATCATACTTCGTATCATATCATGTCATA TCATATCATATGATCTGTTGAGAAAAAAATGAAATATCTGAAATATTGTA CCACACAGTGTGATACTTCGAGTATGTAATTGCGAGGCGCACATCTTACC CGTCTGTTGCCTCGCCAACCCCCGTACGCGTGCGACGATCCATCGGTCTT TTGCTGTTGCACGCAGGACTATCTGGAGCTGGTTCACCAGCTGAGGACCG CTCACACGGCGTCGAGTTTCTAGCGCTGCGGTAAATCACGGGGCCCACCA CGGATCGGGGATCGAGAGTTTTTTTACACCGTGCGCACGTTAGTTATGTA GTGCGGCTGCTGACCATAATGCTGCCACCCGCCTACTACTTGTATACCCG TACCCACTCCATGGCGTGTTGGCCTCTGCTGTTTGTTGCTCGCAGGGACC TGCCGATGTTGTCCCAACAAAATGGCGTGTCGCTAGGTTAGAGAGAAGGT GTTTGAAGCACAAATAGACCTCAGTCTAGACCGGTCTTTTTTGTGACTAT TTTCGGCTTGCGTTTGAAGCATCACTAGACCTCACTCTAGACTTGTCTCT TTTGTGGCTATTCTCGGCTTGTGGCGAGGACACAACCTTTTCTTCTCTAC ATGCCTCCGTGTATTTATTTAGGGTTGATAGATTGATTTGACGTGGATGA AGAATACCGCAGGTTGACCTTACCCCGCGACGACGCCAAACTGTAAGGAG CTATTGATGTGATTTTTCGTGATGAAGATGGTGTAGAGATTTGAGCGCTC CGCGAGGATGAGGTGTTGCGGCACGATTTCCTACCACTGTATTGTATTGC GGTACGAAACCGTATCTACCTGTCTGTGCAACAGGTATTTTTTGGTTACT CTTTTTTTTTAAACACTTTGCACCTTATCATGAATCAAAAAAGTTTATTG CCTGGCCCACCTTCTTCAAGAGAAAGGCCTCGTAC
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Coding sequence (CDS) from alignment at P-littoralis_Contig651:8376..31660+

>mRNA_P-littoralis_Contig651.4.2 ID=mRNA_P-littoralis_Contig651.4.2|Name=mRNA_P-littoralis_Contig651.4.2|organism=Pylaiella littoralis U1_48|type=CDS|length=2043bp|location=Sequence derived from alignment at P-littoralis_Contig651:8376..31660+ (Pylaiella littoralis U1_48)
ATGTGGGGTGCTTCCGCAATAACGCTCCTCTCCACCTCCTGCCTGTACGA
GTTTTTCGACACTCAACAACATGTGTTGGGGTTCGTGTCACCTGCCGCCG
TTACTCCAAGATGCAGCAGCAGCAGCATCGCTTTCGATGAAGCAACAGCA
GCAGTTCGCACAAGGGCCGGTATGGTGCCGAGACGATTGTCGATGACTAG
CAGCGCAGCCATCGGTAGCAGCAGCAGCGCGTATCAACCAGACCGTGATG
TCGAGAGCCAGGCTTACGAGTCTACAGAAGTCGAGTGGAGGCTCAAGTAT
CATGACATCAAGACCAGGCGAGACGCCGCAGACGCTAGGGCCAAGGCGTA
CAAGGGACCGCCGTTGAAGATCCTTGTTGCTGGGAAGCCGTCGAGCGGCA
AGGGCAGCATTTGCCCGATGGTTTCGAGAGCTTATCGAGGGGTGTACATT
GCCTCCGGAAACTTGCTACGATCGGAGGCGCAAGCTGAAACGAAGCTCGG
CAGGGAGGCGAACGCGTATATGTCTAGGGGAGAGATGTTACCGTCGGGAG
TGGTGCTGTCCCTCATGAAGAAGAGGCTGGCGCAGAGGGATTGCGCGCAG
AACGGCTGGATTTTGGATGGGTTTCCAAGATCCAAGGAACAGGCGTTGGA
TCTTGTTTCGGAAGGTATCGTCCCCGACTTGATTGTCATGCTTGAGCGGC
CAGACGAACTCGTCAAGGAGTTCAGCCTGGGGCGGTGCACCGACCTCTCC
ACCGGGGTTATTTACCACCCCAAGTTTTCTCCACCGCCGGCTGAAATCGC
GCACAGGCTGACCTGGAGGACGGACGACACGAAAGAAGTCATCGAGAAAC
GCCTCAAACAGTACGCGGACACCGCTGGCGGTATTCGGGACGCCTACCAG
GACGTGCCCTGCAAGGTGGTCGACTGCTCCACCAGCGACCTCGAAACCTT
CGCCGAGGTGTGCGACTTCGTCGAGGAGACGGGGGCGAAGAAGGCGGAGC
GCCTGGGTCCCGAGGGAATGCGGGCTATCTTGGATATGGGCGATGCAAGG
ATGTCGGACGTTCAAGGGCTCACGGTCGAAGAGCAGCGAGTGTTCGAGGA
GGGACCGACTCTTCTCGCCGCCGCGCAGAGGTGTAACCGTTACGTCGCCT
CGGACTACACGCCGGTCTACGTTGAGGACGTCAAGGTAGGAGCAGTGTCC
AGCCAGTTCGCCAGCGAGCTGAACCTATGCGTGGGAGGTGCTGCGGTTTC
TCTGCGGGCGAATGTTCCCGGTGCGGGGCCCCTCGGGGCGGAGGGTCCCG
CCTACGCGCTGGCCCCGTACGCCACCAGCGTGGAAGAGCGCACCCGCGCC
GTAGAGGGCCTAGTTCAGGGGCTGGTCGACATGGGCGCCATCCCCAGTCA
TGCCATAAGGAACGAGCTGCAGGACGTGAGGTCGGTGACGGGAAAGCTGA
GCGTCAGCGGGGACGTGCTGATTCGGCTGGAACGAGCCGCCATGATCCAC
TTCGGCGTACCGTCCTTCGGGGCCCACCTCAACGGTTACGTCAAGGCCTC
CGATGACAAGCCCATGAGGGTCTGGATCGGCGTGAGGAGCGTCAGCAAAG
CCACCTACCCCGGAACGTGGGACCAGATGGTCGCGGGGGGGCAGCCGGCA
GGGATGGGGTTCAAAGAGAACATGATCAAAGAATGCGAAGAAGAGGCTAG
CCTTCCTCCCAGTCTCTCCTCCAAGATCAAGTCTGCCGGGCAGGTTTCTT
ACCGGTACGGCACGCGGAAAGGACTCAGCACCAAGTTCTTGTGCGTTTTC
GACCTCGAGGTTCCGGAGGACTTCGTGCCCTACAACGGGGATGGCGAGGT
TGAAGAGTTTATCCTGCTGCCGGTGGAAGAAGCTCTCAACACCATCAAGA
CGGACCTCGCGCGGTGGAAACCCAACTGCGCTCTCGTCATGATCGACTTC
GCCCTGAGGCACGGCTTCCTCGACCCAGATCACGCGGACTATCTGGAGCT
GGTTCACCAGCTGAGGACCGCTCACACGGCGTCGAGTTTCTAG
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