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Homology
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: A0A6H5K923_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K923_9PHAE) HSP 1 Score: 818 bits (2114), Expect = 1.590e-268 Identity = 474/819 (57.88%), Postives = 525/819 (64.10%), Query Frame = 1
Query: 973 MADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTLINSNTRQAKGFTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQRQFGMSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADYRRRGGSMINVNSMTLSGTTTDATNNRQLPVDGSGDRFRRQVVAGTDGSPYTAASATVYTGDGDRFEWEEEDSQGEEDGGGGLGGSGWPGLAGVAEAVRKRVGWFPWNRTAETSLLQALDKKRADTFD----------------EEQNDTTSGGGGRGRDSEDLPLSPLGEGIPLGSSPWTGSLAIGSGAGADGGASGNESLPLLENSRSGGKSSFSSTSTQPLGDSTADISSGTDEALWTRNGSAAPVGRDKNTAGGSAIAGGDGGAERTHFRREGGSAQAPLSATEKAKRAPLRFYLVREGHKFVAVGRPRTKGAWKELPEM-MPAPGDGIPIVLDPSPYQVTHTTELSKVDMAFRLLRLDNAYVCNAGRLVGVITRDSLAEFVDERGVAPMDDCLRFCGAFACCLPGTA-AEASVAGT 3375
MADILM +PWFKKVRLN +RL ILACACAAGVAATFGSVFGGTLFSVEVTATAYMV TLPATF CAVVVAVVFWV+G +LF LI NT QA+GFT DL AWAVLGAVCGLVGAWFVAVLD LS RRN FTR+ L+P+TR R+F VVALATL+VIPAS+TE VAFS TG KYHPLID +YDQ QFGMSW L+ LL+LK WATIFSVVQPLPVGLFSPIF+IGGLMGRIFGE ANWVD DSV+I FQPWEFALIGSAAFSAGVTRAVSTAVIVFELSG+NHLRLPLGVALMISYFIANRFTKGIYDALMDTN TPHLEEV ED+NVPAEDVMI V +IPCLSL+CTG++A+EV S CQPG IPVVQSM+DKVLVG+VLWNDLAIALADYR+RG S+ ++S P LA V AV +R+GWFP RTAE SLLQ LD++RA+T E G G G DS L PLGEGIPLG GT + EKAKRAP+RFYLVREGH+FV VGR KGAWKELPE+ +P + IP+VLDPSPYQV+HTTELSKVD+AFRLLRLDNAYVCNAGRLVGVITR++LA+FVD+R V+PMDDC+R CGA ACCLPG A A+ + GT
Sbjct: 1 MADILMSTPWFKKVRLNNKQRLGILACACAAGVAATFGSVFGGTLFSVEVTATAYMVDTLPATFLCAVVVAVVFWVSGQGELFALIGDNTEQAQGFTATDLLAWAVLGAVCGLVGAWFVAVLDALSLRRNFFTRKDLDPSTRTKRMFVVVALATLLVIPASFTEDVAFSNVDRTGRSKYHPLIDSIYDQTQFGMSWRLISLLLLKFWATIFSVVQPLPVGLFSPIFVIGGLMGRIFGEVANWVDHCFDSVNIKFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGENHLRLPLGVALMISYFIANRFTKGIYDALMDTNKTPHLEEVPPEDQNVPAEDVMIKVDEIPCLSLDCTGRDASEVASRCQPGHFIPVVQSMSDKVLVGIVLWNDLAIALADYRKRGSSITAISSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX---------------PRLAEVGGAVGRRMGWFPMVRTAEVSLLQELDRRRAETXXXXXXXXXXXXXXXXXGEGAGKREDGCGDDGSDS----LPPLGEGIPLGG--------------------------------------------------------GTXXXXXXXXXXXXXXXXXXXXX--------------XXXXXXXXXXXXXVVGIEKAKRAPVRFYLVREGHRFVPVGRNPKKGAWKELPEVAIPTARESIPVVLDPSPYQVSHTTELSKVDIAFRLLRLDNAYVCNAGRLVGVITREALADFVDDREVSPMDDCVRLCGALACCLPGRAPADDNAGGT 730
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: D8LJI7_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LJI7_ECTSI) HSP 1 Score: 565 bits (1456), Expect = 1.210e-176 Identity = 349/666 (52.40%), Postives = 400/666 (60.06%), Query Frame = 1
Query: 1408 LFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQRQFGMSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADYRRRGGSMINVNSMTLSGTTTDATNNRQLPVDGSG----DRFRRQVVAGTDGSPYTAASATVYTGDGDRFE-------------WEEEDSQGEEDGGGGLGGSGWPGLAGVAEAVRKRVGWFPWNRTAETSLLQALDKKRADTFDEEQNDTTSGGGGRGRDSEDLPLSPLGEGIPLGSSPWTGSLAIGSGAGADGGASGNESLPLLENSRSGGKSSFSSTSTQPLGDSTADISSGTDEALWTRNGSAAPVGRDKNTAGGSAIAGGDGGAERTHFRREGGSAQAPLSATEKAKRAPLRFYLVREGHKFVAVGRPRTKGAWKELPEM-MPAPGDGIPIVLDPSPYQVTHTTELSKVDMAFRLLRLDNAYVCNAGRLVGVITRDSLAEFVDERGVAPMDDCLRFCGAFACCLPGTA 3351
+F VVALATL+VIPAS+TE VAFS+ G KYHPLID +YDQ QFGMSW L+ LL++K W TIFSVVQPLPVGLFSPIF+IGGLMGRIFGE ANWVD DSV+INFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSG+NHLRLPLGVALMISYFIANRFTKG+YDALMDTN TPHLEE D+MI +IPC SL CT ++++E PGQ PV +SM+DKVLVGVVLWNDLAIALADYRRRG S+ ++S T + + +++ LP S D R QVV W WP LA V A+ +R+GWFP RTAE SLL+ L KR D GG D+ L SPLGEGIPLG G A +SS + S P PV P++ EKAKRAP+RFYLVREGH+FV VGR KGAWKELPE+ +PA + IP+VLDPSPYQV+HTTELSKVD+AFRLLRLDNAYVCNAGRLVGVITR++LA+FVD+R V+PMDDC+R CGA ACCLPG A
Sbjct: 1 MFVVVALATLLVIPASFTEDVAFSVDR-AGRAKYHPLIDSIYDQTQFGMSWRLISLLLIKFWTTIFSVVQPLPVGLFSPIFVIGGLMGRIFGEIANWVDHCLDSVNINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGENHLRLPLGVALMISYFIANRFTKGVYDALMDTNKTPHLEE-----------DLMIKAEEIPCPSLECTWRDSSEEALRYLPGQFKPVGESMSDKVLVGVVLWNDLAIALADYRRRGSSITAISSTTTAPASINSSRGAPLPAFASTTTMIDGRRFQVVGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXW-------------------WPRLAEVGGAIGRRIGWFPMVRTAEASLLRELAGKRED------------GGXXXXDAGSL--SPLGEGIPLG-----GGTAAXXXXXXXXXXXXXXXXXXXXXXXRRTRSSRKALSPAP------------------------PV-------------------------------PVPVAGIEKAKRAPIRFYLVREGHRFVPVGRNPKKGAWKELPEVAIPAARESIPVVLDPSPYQVSHTTELSKVDIAFRLLRLDNAYVCNAGRLVGVITREALADFVDDREVSPMDDCVRLCGALACCLPGRA 561
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: A0A835YU91_9STRA (Chloride channel n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YU91_9STRA) HSP 1 Score: 450 bits (1158), Expect = 1.060e-133 Identity = 260/572 (45.45%), Postives = 363/572 (63.46%), Query Frame = 1
Query: 487 EWAHLDAFQACAMGSMFQQELY-----HEKASGLVDVLVDRIRVPLLIILVGVSAAIAGMTVDYLCSSARLWRIN-VTAIRMDVPFGWGLYALTSLSLTLGMCAITIFVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTLINSNTRQAKGFTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQRQFGMSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQ--VIPVVQSMNDKVLVGVVLWNDLAIALADYRRR 2178
EW +LD FQ+ + ++ QQ+LY HE A L ++ P+L+ +V AA AG +D+ ++R V + ++D YA S + +T F+CP A+GGGVPEMK VLSG+ P LLS LVVVK++G+V+A AAGLSVGKEGPLIH++CA+A+++M P F+ +R+N RLEIL CACAAGVAA+FGS FG TLFSVE+T+T Y+V L F A VVA+++W G + L + N Q F DL WA+LG +CGLVG FV+ + +S+ RN TR +L P ++ R + AL T +VIP SY E F + TG L+D ++ R G+S+ L + +K A + SV QPLPVGLF+P+F++G GR+FGE A + + + + FQPWEFA+IG+AA S +TRAVSTA+IVFE+SG+N LRLPLG+A++I++ IA+RFTKG YD+L+DTN P+L + + V E +M+P ++P LSL+ T A+ ++ P VIPVVQ++ D VLVG VL DL +A+ADY R
Sbjct: 28 EWVNLDLFQSHS--ALAQQDLYVLEGEHEGAYLAFRRLWRMMQTPVLLCVVACLAACAGYLLDWATRMFIVFRETLVPSNQLDEARPLA-YACVCFSFVMASAMLTQFLCPLAAGGGVPEMKTVLSGSINPALLSPLLVVVKLSGLVLAVAAGLSVGKEGPLIHVSCALAELVMAMPAFRYIRVNAPHRLEILTCACAAGVAASFGSAFGATLFSVEITSTCYIVSGLARAFATATVVALIYWCWGTEVISGLFSDNVSQGMPFAPTDLLLWALLGVLCGLVGWAFVSAISGVSQWRNRITRSALGPKVQRGRRLMICALFTTLVIPLSYWELRYFERWSTTGQ---KALVDHLFAPRVLGVSYELALFVPIKALAILLSVTQPLPVGLFAPVFLLGAAFGRLFGEVARYANLSMGLMHLTFQPWEFAVIGAAALSGSITRAVSTAIIVFEMSGENCLRLPLGLAVLIAHTIASRFTKGAYDSLVDTNSAPYLPTLPPQAYLVEVESIMVPAANLPFLSLSTTYSAASRLLRQHTPTTCAVIPVVQTVTDMVLVGAVLRRDLELAVADYEER 593
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: W7UA92_9STRA (Chloride channel protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7UA92_9STRA) HSP 1 Score: 386 bits (991), Expect = 1.940e-109 Identity = 318/966 (32.92%), Postives = 443/966 (45.86%), Query Frame = 1
Query: 478 PSDEWAHLDAFQACA---MGSMFQQELYHEKASGLVDVLVDRIRVPLLIILVGVSAAIAGMTVD---YLCSSARLWRINVTAIRMDVPFGWGLYALTSLSLTLGMCAITIFVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTLINSNTRQAKGFTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLE-PATRKLRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQRQFGMSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQ-VIPVVQSMNDKVLVGVVLWNDLAIALADYRRRGGSMINVNSMTLSGTTTDATNNRQLPVDGSGDRFRRQVVAGTDGSPYTAASATVYTGDGDRFEWEEEDSQGEEDGGGGLGGSGWPGLAGVAEAVRKRVGWFPWNRTAETSLLQALDKKRADTFDEEQNDTTSGGGGRGRDSEDLPLSPLGEGIPLGSSPWTGSLAIGSGAGADGGASGNESLPLLENSRSGGKSSFSSTSTQPLGDSTADISSGTDEALWTRNGSAAPVGRDKNTAGGSAIAGGDGGAERTHFRREGGSAQAPLSATEKAKRAPLRFYLVREGHKFVAVGRPRTKGAWKELPEMMPAPGDGIPIVLDPSPYQVTHTTELSKVDMAFRLLRLDNAYVCNAGRLVGVITRDSLAEFVDERGVAPMDDCLRFCGA----FACCL 3339
PS +W LD +Q+ A E Y+ + + +L + +L+ L G+ A+ + V+ + + AR +N + + ++ L L++ +T +CP + GGG+P++K VLSG +LS +L+ K+ G++ A AGLSVGKEGP +H+ A++D LM F+ R NT KRLEIL CA AAGVA+TFG+ FGG LFS+EVTAT YMV+ LP FFCA+ A+V+ +AGL D F L + + +G+ DL LG +CGL GA FV V+ L RN + SL P + R++ V+A A L+V P Y + V+ G + PL D ++ G+S L V K T V PLPVGLF+P F+ GG +GR+FGE ++ Y + +PWEFA+IG+AAFS+GVTRAVSTAVIVFELSGQNHLRLP+ VAL+++YF+ANRFTK +YD L+DTNGTP L E+ AE V A VM PV P L+L+ T A +V+ C + +IPVV + L G VL DL +A+ G + ++++ DG + R Q PG +G + + + G + R T + +KR T R SED P E LG +G G +G E L N SA A PL ++R+ V P + L P+++DPSPYQV T LSKVD +FR+L++ AYV +GRL+GV+TRDSL EFV R PM CL+ G+ CC
Sbjct: 139 PSQKWQSLDVYQSLAGVTRHPTLAHEGYYNRGANCFFMLWRMMEASILLALTGLLTAVVTLIVNISVFYFAPARYLIVNAMDWKENHLVAASIFTLYVAILSVISALVTNRICPESVGGGIPDVKTVLSGLISTPVLSIRLIWAKMLGLIFALIAGLSVGKEGPFVHVAVAISDSLMRLHCFRHCRRNTSKRLEILGCASAAGVASTFGTPFGGVLFSIEVTATYYMVRNLPRAFFCAICAALVYEIAGLRDTFALFTDDHDRVQGYLVFDLLLCCGLGLLCGLFGALFVGVISALCSLRNRYLSFSLGWPVVARRRVWMVLATA-LVVAPLIYLDMVSGL---PQGGPRPKPLTDYMFRSGIIGVSGPLALYAVFKFLVTALCVSLPLPVGLFTPTFVTGGAVGRLFGEIVHFF--YPTDRITSLEPWEFAVIGAAAFSSGVTRAVSTAVIVFELSGQNHLRLPISVALLLAYFVANRFTKNVYDELLDTNGTPSLPELPAELYMVTAAQVMRPVDQGPYLTLSSTFAEAEKVLLRCGGSEWLIPVVDTDESMHLQGAVLAEDLKVAV------NGLYVQLHALE----------------DGEEECVRTQ-----------------------------------------------PGGSGASHRLGRETG-KEFLRRKVTFSDDSEQEKRGSTLQ--------------RGSEDEKKGPA-EAPDLG--------VVGGGKDEEG----REDHIDLSN-----------------------------------------------------------------------------SAKSVAMGMPLHIVVLRD-RDTVDTLTPSRRRRLSSLSSSKATYLTPPPLIMDPSPYQVGDRTLLSKVDFSFRMLKVTQAYVVRSGRLLGVLTRDSLTEFVGTREKKPMHRCLQLLGSCWDSLCCCF 923
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: M4BDD4_HYAAE (Uncharacterized protein n=1 Tax=Hyaloperonospora arabidopsidis (strain Emoy2) TaxID=559515 RepID=M4BDD4_HYAAE) HSP 1 Score: 306 bits (784), Expect = 4.430e-84 Identity = 205/563 (36.41%), Postives = 317/563 (56.31%), Query Frame = 1
Query: 604 PLLIILVGVSAAIAGMTVDYLCSSARLWRINVTAIRMDV-PFGWGLYALTSLSLTLGMCAITIFVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTL-------INSNTRQAKG---FTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKL-------RLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVY--DQRQFG--------------MSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADYRRRGGSM 2190
PLL++ +G+ A G+ VD +W + + V G+GL+ ++L +T VCP A+G G+P MK +SG + LS + V KI G++ A AAGLS+GKEGPL+ I+C A +LM F ++R + KRLE+LACACAAGV+ATFGS FGG LF VEVT+ Y+V+TLP +FF A+V A++ + + L IN++T KG ADL +A++G VCGL GA+F L L R R+ F + SL + R RL V+A+ L Y ++ F ++ I +D ++ D+R F +S L+ L LKC T+ S++ P+P GLF+P F+IGG+ GR+ GE + D +S +++P+EFA+IG+ AFS+GVT A+STAV++ E+S + L LP+ VA + +YF A RFT+ +YD L+ T+ P L+++ ++ A +VM V ++ LS + T ++A ++ V PVV S+ ++ L+ V + LA A++ +R+ ++
Sbjct: 90 PLLLVAIGIFAGSVGLVVD-------MWSVEIARYYEWVGDHGFGLFVASALFAGGFSALLTQCVCPQAAGSGLPFMKVAISGINMSVYLSFRCVATKIVGLMAALAAGLSIGKEGPLVMISCGFASVLMSWSPFHRIRDDDAKRLEMLACACAAGVSATFGSPFGGVLFGVEVTSHFYLVRTLPRSFFAAIVGALIVGFGAANSRYGLFGNRSIAINADTNAVKGSGDLVCADLCLFALMGMVCGLAGAFFNYTLSILVRARDRFFQPSLSSSPRVTWWNALGKRLGLVLAVTLLSCWLEFYGDSAWFMLHGSPRRI-----LDELFSKDKRIFASDSARKSTTEESLLLSRSLLTFLPLKCVLTLISILLPVPAGLFTPTFVIGGIFGRLVGETV----RAFDFMSTSYEPFEFAIIGAGAFSSGVTHAISTAVMIMEISHTDGLNLPVSVATLAAYFTAKRFTENVYDVLIVTSNLPRLKKLPKAAYDISAWEVMKDVVEMGVLSADSTYEDALVLLQRSDMELVFPVVDSLENRFLLATVTRSWLADAVSLCQRQSSTL 636
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: A0A662WI73_9STRA (Uncharacterized protein n=1 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662WI73_9STRA) HSP 1 Score: 305 bits (780), Expect = 1.730e-83 Identity = 206/561 (36.72%), Postives = 312/561 (55.61%), Query Frame = 1
Query: 604 PLLIILVGVSAAIAGMTVDYLCSSARLWRINVTAI-RMDVPFGWGLYALTSLSLTLGMCAITIFVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTL-------INSNTRQAKGFTGA---DLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLRLFAVVALATLMVIPASYTEAVAF-SIYHDTGTIKYHPLIDRVY------DQRQFG-------------MSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADYRRRGGSMI 2193
PLL++ +G+ + G+ +D +W + + R G+ L+ ++L A+ FVCP A+G G+P M+ +SG LS + VV KI G++ A AAGLS+GKEGP I I+C +A +LMCS F+++R + KRLE+LACA AAGVAATFGS FGG LF VEVT+ Y+V+TLP +FF A+V A++ + + L I+S+T G G DL +A++G +CGL GA F L L R R F +P++ LR +L +V+ + T + Y D+ +H R+ D++ F +S L+ L LK T+ S+V P+P GLF+P FIIGG+ GR+ GE D H ++P+EFA+IG+ AFS+GVT AVSTAVI+ E+S + L LP+ VA++ +YF A RFT+ +YD L+ T+ P L+++ ++PA +VM V D+ L+ + T K+A ++ + V P+V S+ ++ L+ V LA A+ +R+G + I
Sbjct: 100 PLLLLAIGLFSGCMGLAID-------MWSVELARYHRWLGEQGFVLFVASALLAGGFSAALVHFVCPQAAGSGLPFMRVAISGIDMSPYLSLRCVVTKIVGLMAALAAGLSIGKEGPFIMISCGVASVLMCSRPFRRIRDDETKRLEMLACASAAGVAATFGSPFGGVLFGVEVTSHFYLVRTLPRSFFAAIVGALLVDFGAANTQYGLFGSRSLGISSDTAAVNGSGGPTLIDLTIFALMGIICGLGGALFNYSLSMLVRARERF----FQPSSLALRASCWDSLGKRLVLVLAVTLLSCYLEFYGDSAWFLHHGSPRRIIAALFSKDKQVFSGVGTPEEGDDSLLLSRSLLTFLPLKYVLTLVSIVLPVPAGLFTPTFIIGGIFGRLVGEAVRAFDLLHT----RYEPFEFAIIGAGAFSSGVTHAVSTAVIIMEISHTDGLNLPVSVAILAAYFTAKRFTENVYDVLIVTSNLPRLKKLPKAAYDIPAWEVMKDVADMGVLTADSTYKDALILLERAEMEPVFPIVDSLENRFLLATVTRTRLADAVGYCQRQGAAPI 645
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: A0A485K740_9STRA (Aste57867_178 protein n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485K740_9STRA) HSP 1 Score: 298 bits (762), Expect = 1.570e-81 Identity = 196/536 (36.57%), Postives = 307/536 (57.28%), Query Frame = 1
Query: 604 PLLIILVGVSAAIAGMTVDYLCSSARLWRINVTAIRMDVPFGWGLYALTSLSLTLGMCAITI--FVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTLIN-------SNTRQAKGFTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQ---RQFG--MSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADY 2169
PLL++ +G+ AA G+ +D + + VT ++ G +A SL +G + FVCP A+G G+P+MK +SG LS+ +VVK+AG+V AAGLS+GKEGP I ++C ++ILM +F+++ ++ KRLE+LACACAAGVAATFG+ FGG LFSVEVT++ YMV+ LP +FF A+ AV + + L + ++T K FT D + +G V G++GA F+ ++ L R R+ + + P RL VV + + + + Y + A+ ++H + +ID ++ Q R+ G ++ L+ L LK + TI VV PLP GLF+P F+IGG+ GR+ GE VS F+P+EFA+IG+AAFS GVTRA+STAVI+ E+S +L +P+ +A++ +YF RF + +YD L+ T P L+++ ++P +VM V + L+ + T K A +++ + V P+V ++ L+G V + L A+ DY
Sbjct: 127 PLLLMSIGIFAAFMGLWMDAII-------LRVTRFHQELA-ALGFFAFLVFSLAVGSLGTVLVHFVCPQAAGSGLPQMKVAISGVDMRDYLSSTCLVVKMAGLVTGYAAGLSIGKEGPFIMMSCCFSEILMQLKYFRRIYEDSSKRLEMLACACAAGVAATFGTPFGGVLFSVEVTSSFYMVRNLPRSFFAALAGAVTISFLVTNGQYGLFDRSAGLGLTDTNFTKVFTYIDACIFIFIGTVSGVLGAVFIFIVSMLVRLRDSWFLSTRGPPLLYKRLIVVVFVTIIANVSSFYGDP-AWFLHHGSP----QKIIDTLFTQSATREDGAILARSLLTFLPLKYFLTIICVVVPLPAGLFTPTFVIGGIFGRMVGE----AIVVTQCVSTKFEPFEFAIIGAAAFSTGVTRAISTAVIIMEISHNGYLTIPVSIAILAAYFTGGRFIENVYDVLISTARLPRLKKLPKAAYDIPTWEVMRTVDAMDILAADFTYKMAQDIL-LSSKEPVFPIVDNVQSLHLIGAVTRSRLEQAI-DY 643
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: W4H8X4_9STRA (Chloride channel protein n=7 Tax=Aphanomyces astaci TaxID=112090 RepID=W4H8X4_9STRA) HSP 1 Score: 297 bits (761), Expect = 2.030e-81 Identity = 212/581 (36.49%), Postives = 326/581 (56.11%), Query Frame = 1
Query: 472 YGPSDEWAHLDAFQACAMGSMFQQELYHEKA-SGLVDVLVDRIRVPLLIILVGVSAAIAGMTVDYLCSSARLWRINVTAIRMDVPFGWGLYALTSLSLTLGMCAITI--FVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVV--VAVVFWVA----GLSDLFTLIN-SNTRQAKGFTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQ---RQFG--MSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADY 2169
YG S E LDA + + +Y A G +LV ++ P+L++ +G+ AA G+ +D + ++ + ++ G +A SL +G + FVCP A+G G+P+MK LSG LS ++VK+AG+V A AAGLS+GKEGP I ++C ADILM +F++V ++ KRLE+L+CACAAGVAATFG+ FGG LFSVEVT++ YMV+ LP +FF A+ V + F V GL D + ++T K FT D + +G V G++GA F++++ L R R+ + P RL V+ + + + Y + F H K +ID ++ Q R+ G ++ L+ L LK + TI VV PLP G+F+P F+IGG+ GR+ GE A V ++ V F+P+EFA+IG+AAFSAGVTRA+STAVI+ E+S +L +P+ ++++ +YF RF + +YD L+ T P L ++ ++P +VM V I LS + + + A ++++ Q V P+V + L+G V + L A+ DY
Sbjct: 83 YGTSGESGDLDASKDITLFDGEYHSIYVSPAPKGWRGILV-LLQSPILLVCIGIFAAFLGLWMDAMILRVTMFHQELASL--------GFFAFLIFSLAMGGVGTVLVHFVCPQAAGSGLPQMKVALSGVDMREYLSPTCLMVKMAGLVTAYAAGLSIGKEGPFIMMSCCFADILMQMGYFRRVYEDSSKRLEMLSCACAAGVAATFGTPFGGVLFSVEVTSSFYMVRNLPRSFFAALAGAVTIAFLVTDGQYGLFDRSAGLGITDTNFTKVFTYVDAGIFVFIGVVSGVLGAVFISIISVLVRVRDSWFLSLGGPPLLYKRLIVVLVVTIIANVSNFYGDPAWF--LHRGSPQK---IIDTLFTQSPTREDGALLARSLLTFLPLKYFLTIVCVVVPLPAGIFTPTFVIGGIFGRLVGE-AIVVTQF---VPTKFEPYEFAIIGAAAFSAGVTRAISTAVIIMEISHNGYLTIPVSISILAAYFTGGRFVENVYDVLISTARLPRLLKLPKAAYDIPTWEVMKTVDKIDFLSADVSYRKAQDMLTSSQE-PVFPIVDNTEFMHLIGAVTRSRLKEAI-DY 643
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: A0A024UTU7_9STRA (Chloride channel protein n=3 Tax=Aphanomyces invadans TaxID=157072 RepID=A0A024UTU7_9STRA) HSP 1 Score: 297 bits (761), Expect = 2.080e-81 Identity = 203/536 (37.87%), Postives = 311/536 (58.02%), Query Frame = 1
Query: 604 PLLIILVGVSAAIAGMTVDYLCSSARLWRINVTAIRMDVPFGWGLYALTSLSLTLGMCAITI--FVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVV--VAVVFWVA----GLSDLFTLIN-SNTRQAKGFTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQ---RQFG--MSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADY 2169
P+L++ +G+ AA+ G+ +D + + VT ++ G G A SL +G + FVCP A+G G+P+MK LSG LS ++VK+AG+V A AAGLS+GKEGP I ++C ADILM +F+++ ++ KRLE+L+CACAAGVAATFG+ FGG LFSVEVTA+ YMV+ LP +FF A+ V + F V GL D + + T K FT D + +G V G++GA F+ ++ L R R+ + P R+ V+ + + I Y + A+ ++H + +ID ++ Q R+ G ++ L+ L LK + TI VV PLP G+F+P F+IGG+ GR+ GE A V + V F+P+EFA+IG+AAFS+GVTRA+STAVI+ E+S +L +P+ +A++ +YF RF + +YD L+ T+ P L+++ ++P +VM V I LS + T + A ++++ V P+V ++ LVG V + L A+ DY
Sbjct: 127 PVLLVSIGIFAALMGLWLDAII-------LRVTMFHQELA-GLGFIAFLLFSLVVGGMGTVLVHFVCPQAAGSGLPQMKVALSGVDMREFLSPTCLLVKMAGLVSAYAAGLSIGKEGPFIMMSCCFADILMQMGYFRRIYEDSSKRLEMLSCACAAGVAATFGTPFGGVLFSVEVTASFYMVRNLPRSFFAALAGAVTIAFLVTNGQYGLFDRSAGLGLTETNFTKVFTYIDGGIFVFIGVVSGVLGAVFIWIISVLVRVRDTWFLSLSGPPLLYKRIIVVLVVTVIANISYFYGDP-AWFLHHGSP----QKIIDTLFTQSPTREDGAMLARSLLTFLPLKYFMTIVCVVVPLPAGIFTPTFVIGGIFGRLVGE-AIVVTQV---VPTKFEPYEFAIIGAAAFSSGVTRAISTAVIIMEISHNGYLTIPVSIAILSAYFTGGRFIENVYDVLITTSRLPRLKKLPKAAYDIPTWEVMKTVDRIDYLSADITYRQAHDMLTASHE-PVFPIVDNIESMQLVGAVTRSRLQEAV-DY 643
BLAST of mRNA_P-littoralis_Contig106.55.2 vs. uniprot
Match: G5ACT7_PHYSP (Uncharacterized protein n=4 Tax=Phytophthora TaxID=4783 RepID=G5ACT7_PHYSP) HSP 1 Score: 298 bits (764), Expect = 5.810e-81 Identity = 212/580 (36.55%), Postives = 320/580 (55.17%), Query Frame = 1
Query: 604 PLLIILVGVSAAIAGMTVDYLCSSARLWRINVTAIRMDV-PFGWGLYALTSLSLTLGMCAI-TIFVCPCASGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLIHITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTLFSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTL-------INSNTRQAKGFTG---ADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRK-------LRLFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVY--DQRQFG--------------MSWHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDKYHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLGVALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVGDIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIALADYRRRGGSMINVNSMTLSGTTTDAT 2238
PLL+I +G+ A G+ +D +W + + + G+ L+ L++L L G AI T VCP A+G G+P MK +SG LS + + KI G++ A AGLS+GKEGP I I+C A +LM F+++R + KRLE+LACACAAGVAATFGS FGG LF VEVT+ Y+V+TLP +FF A+V A++ + + L I+S+T G G DL +A +G VCGL GA+F L L R R+ F S R RL V+A+ L Y ++ A+ + H + ++D ++ D++ F +S LV L LK T+ S+V P+P GLF+P F+IGG+ GR+ GE + D +S ++P+EFA+IG+ AFS+GVT AVSTAVI+ E+S + L LP+ VA++ +YF A RFT+ +YD L+ T+ P L+++ ++PA +VM V ++ L+ + T +A ++ V P+V S+ ++ L+ V + LA A++ +R+G + I + M L T T
Sbjct: 150 PLLLIAIGIFAGSVGLAMD-------VWSVEIARYHQWLGDQGFMLFVLSAL-LAGGFSAILTQCVCPQAAGSGLPFMKVAISGIDMSAYLSFRCIATKIVGLMAALGAGLSIGKEGPFIMISCGFASVLMNWRPFRRIRDDDTKRLEMLACACAAGVAATFGSPFGGVLFGVEVTSHFYLVRTLPRSFFAAIVGALLVDFGAANTRYGLFGNRSMGISSDTDAVNGSGGPSFVDLSVFATMGIVCGLGGAFFNHTLSILVRARDRFFEPSPSRTPRAGWWKALGKRLGLVLAVTLLSCWLEFYGDS-AWFLRHGSP----RKILDALFSKDKQVFVADGTPENVEEDSLLLSRSLVTFLPLKYVLTLISIVLPVPAGLFTPTFVIGGIFGRLVGEAV----RAFDLLSTRYEPFEFAIIGAGAFSSGVTHAVSTAVIIMEISHTDGLNLPVSVAILAAYFTAKRFTENVYDVLIVTSNLPRLKKLPKAAYDIPAWEVMKDVAEMGVLTADSTYADALALLKRSDMEPVFPIVDSLENRFLLATVTRSRLAYAVSRCQRQGATPIALTPMNLRQPTNVET 712
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D8LJI7 |
| PFAMs | Voltage_CLC |
| Model size | 6682 |
| Max annot lvl | 2759|Eukaryota |
| Hectar predicted targeting category | mitochondrion |
| GOs | GO:0003674,GO:0005215,GO:0005216,GO:0005244,GO:0005247,GO:0005253,GO:0005254,GO:0006810,GO:0006811,GO:0006820,GO:0006821,GO:0008150,GO:0008308,GO:0008509,GO:0015075,GO:0015103,GO:0015108,GO:0015267,GO:0015318,GO:0015698,GO:0022803,GO:0022832,GO:0022836,GO:0022838,GO:0022839,GO:0022857,GO:0034220,GO:0051179,GO:0051234,GO:0055085,GO:0098656,GO:0098660,GO:0098661,GO:1902476 |
| Exons | 22 |
| Evalue | 6.03e-185 |
| EggNOG OGs | COG0038@1|root,KOG0476@2759|Eukaryota |
| Description | voltage-gated chloride channel activity |
| Cds size | 3708 |
| COG category | P |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789392.5630393-UTR-P-littoralis_Contig106:253264..253321 | 1680789392.5630393-UTR-P-littoralis_Contig106:253264..253321 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig106 253265..253321 + |
| 1680789392.7728233-UTR-P-littoralis_Contig106:285921..288453 | 1680789392.7728233-UTR-P-littoralis_Contig106:285921..288453 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig106 285922..288453 + |
| 1680789392.7853167-UTR-P-littoralis_Contig106:288482..288529 | 1680789392.7853167-UTR-P-littoralis_Contig106:288482..288529 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig106 288483..288529 + |
| 1680789392.7941747-UTR-P-littoralis_Contig106:290312..290411 | 1680789392.7941747-UTR-P-littoralis_Contig106:290312..290411 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig106 290313..290411 + |
| 1680789392.802655-UTR-P-littoralis_Contig106:291051..291290 | 1680789392.802655-UTR-P-littoralis_Contig106:291051..291290 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig106 291052..291290 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789392.574259-CDS-P-littoralis_Contig106:253321..253453 | 1680789392.574259-CDS-P-littoralis_Contig106:253321..253453 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 253322..253453 + |
| 1680789392.5823143-CDS-P-littoralis_Contig106:258728..259058 | 1680789392.5823143-CDS-P-littoralis_Contig106:258728..259058 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 258729..259058 + |
| 1680789392.593598-CDS-P-littoralis_Contig106:259643..259724 | 1680789392.593598-CDS-P-littoralis_Contig106:259643..259724 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 259644..259724 + |
| 1680789392.6019318-CDS-P-littoralis_Contig106:260196..260315 | 1680789392.6019318-CDS-P-littoralis_Contig106:260196..260315 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 260197..260315 + |
| 1680789392.6115544-CDS-P-littoralis_Contig106:261593..261708 | 1680789392.6115544-CDS-P-littoralis_Contig106:261593..261708 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 261594..261708 + |
| 1680789392.621935-CDS-P-littoralis_Contig106:262102..262170 | 1680789392.621935-CDS-P-littoralis_Contig106:262102..262170 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 262103..262170 + |
| 1680789392.6366582-CDS-P-littoralis_Contig106:264976..265085 | 1680789392.6366582-CDS-P-littoralis_Contig106:264976..265085 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 264977..265085 + |
| 1680789392.6461496-CDS-P-littoralis_Contig106:265807..265863 | 1680789392.6461496-CDS-P-littoralis_Contig106:265807..265863 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 265808..265863 + |
| 1680789392.654354-CDS-P-littoralis_Contig106:266768..266954 | 1680789392.654354-CDS-P-littoralis_Contig106:266768..266954 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 266769..266954 + |
| 1680789392.6650832-CDS-P-littoralis_Contig106:271227..271388 | 1680789392.6650832-CDS-P-littoralis_Contig106:271227..271388 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 271228..271388 + |
| 1680789392.676288-CDS-P-littoralis_Contig106:274808..274935 | 1680789392.676288-CDS-P-littoralis_Contig106:274808..274935 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 274809..274935 + |
| 1680789392.6857247-CDS-P-littoralis_Contig106:275724..275809 | 1680789392.6857247-CDS-P-littoralis_Contig106:275724..275809 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 275725..275809 + |
| 1680789392.6937797-CDS-P-littoralis_Contig106:277656..277767 | 1680789392.6937797-CDS-P-littoralis_Contig106:277656..277767 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 277657..277767 + |
| 1680789392.711269-CDS-P-littoralis_Contig106:278187..278403 | 1680789392.711269-CDS-P-littoralis_Contig106:278187..278403 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 278188..278403 + |
| 1680789392.7219224-CDS-P-littoralis_Contig106:279604..279756 | 1680789392.7219224-CDS-P-littoralis_Contig106:279604..279756 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 279605..279756 + |
| 1680789392.7311652-CDS-P-littoralis_Contig106:282672..283083 | 1680789392.7311652-CDS-P-littoralis_Contig106:282672..283083 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 282673..283083 + |
| 1680789392.7453072-CDS-P-littoralis_Contig106:283397..284025 | 1680789392.7453072-CDS-P-littoralis_Contig106:283397..284025 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 283398..284025 + |
| 1680789392.7565038-CDS-P-littoralis_Contig106:284687..284854 | 1680789392.7565038-CDS-P-littoralis_Contig106:284687..284854 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 284688..284854 + |
| 1680789392.7653248-CDS-P-littoralis_Contig106:285467..285921 | 1680789392.7653248-CDS-P-littoralis_Contig106:285467..285921 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig106 285468..285921 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig106.55.2 >prot_P-littoralis_Contig106.55.2 ID=prot_P-littoralis_Contig106.55.2|Name=mRNA_P-littoralis_Contig106.55.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1236bp
MSPALHRRRVSAGLASVKERMMGGSRKALLGPTKASSRCETVAVTSYEKF
SDAADSRRGGGGGGGGTDGGGSSDGDMRLTRQRSSTWDEHGIAKQQEERK
MRTMVRASNASGGGGGNGGGRARTWSHDGAFDQHGAMGYGPSDEWAHLDA
FQACAMGSMFQQELYHEKASGLVDVLVDRIRVPLLIILVGVSAAIAGMTV
DYLCSSARLWRINVTAIRMDVPFGWGLYALTSLSLTLGMCAITIFVCPCA
SGGGVPEMKAVLSGASRPGLLSAQLVVVKIAGVVVANAAGLSVGKEGPLI
HITCAMADILMCSPWFKKVRLNTMKRLEILACACAAGVAATFGSVFGGTL
FSVEVTATAYMVQTLPATFFCAVVVAVVFWVAGLSDLFTLINSNTRQAKG
FTGADLFAWAVLGAVCGLVGAWFVAVLDTLSRRRNIFTRRSLEPATRKLR
LFAVVALATLMVIPASYTEAVAFSIYHDTGTIKYHPLIDRVYDQRQFGMS
WHLVQLLVLKCWATIFSVVQPLPVGLFSPIFIIGGLMGRIFGEFANWVDK
YHDSVSINFQPWEFALIGSAAFSAGVTRAVSTAVIVFELSGQNHLRLPLG
VALMISYFIANRFTKGIYDALMDTNGTPHLEEVHAEDKNVPAEDVMIPVG
DIPCLSLNCTGKNATEVVSVCQPGQVIPVVQSMNDKVLVGVVLWNDLAIA
LADYRRRGGSMINVNSMTLSGTTTDATNNRQLPVDGSGDRFRRQVVAGTD
GSPYTAASATVYTGDGDRFEWEEEDSQGEEDGGGGLGGSGWPGLAGVAEA
VRKRVGWFPWNRTAETSLLQALDKKRADTFDEEQNDTTSGGGGRGRDSED
LPLSPLGEGIPLGSSPWTGSLAIGSGAGADGGASGNESLPLLENSRSGGK
SSFSSTSTQPLGDSTADISSGTDEALWTRNGSAAPVGRDKNTAGGSAIAG
GDGGAERTHFRREGGSAQAPLSATEKAKRAPLRFYLVREGHKFVAVGRPR
TKGAWKELPEMMPAPGDGIPIVLDPSPYQVTHTTELSKVDMAFRLLRLDN
AYVCNAGRLVGVITRDSLAEFVDERGVAPMDDCLRFCGAFACCLPGTAAE
ASVAGTAKVTGNGGFGSLRTKSSGASIVSSAGGMRRSSSGATGGGGRGSE
SRVASGSSSSKLRLRNAANKRVNAAARTSPQAGGTAVSARSGLLSGAKQG
YSTQGETAYEDISDGRGRGGEGSGASLGKGEWDPV* back to topmRNA from alignment at P-littoralis_Contig106:253265..291290+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig106.55.2 ID=mRNA_P-littoralis_Contig106.55.2|Name=mRNA_P-littoralis_Contig106.55.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=38026bp|location=Sequence derived from alignment at P-littoralis_Contig106:253265..291290+ (Pylaiella littoralis U1_48)
AGAGCACGCATCAACTCCGGCGACCTGCTTCTCCAACAGGGCGCCGACGG
TCTCATCATGTCCCCAGCGCTGCATCGGAGGAGAGTTAGCGCCGGCCTTG
CCTCGGTGAAAGAGAGGATGATGGGAGGCAGCCGTAAGGCGCTCTTGGGG
CCGACCAAGGCATCTAGCAGGTGTGAAACTGTTGCTGTTGTTGTTTCTGT
TGGTGGTGGTGGTGGTGGTTTTAGCGGTGGTGGTGGTGGTGGTGGTGGTG
GTGGTGGTGGTGGTGGTGGTGGTGGTGGTGGCGACAGTGTTGCTGTTGCT
GTTGCTGTTGCTGTTGCGGTCGCTGTTGCTGCTGCTGCTGCTGATGATGA
TGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATGATG
ATGATGATGATGGTAGTGATCGTGGGGTGATGACGCCGTCGCTGCTGCTC
CTGTCATAGCCTGTCGTCGTCCTTACAGAGGTAGACATGGAGTACTACGA
CACATATTGGTCGGTGTAATGTAACTTCCTGCACTGCCTGTGTGAAGCAA
GCGTTAGCACGAGATGCCCCAGACCCACCTCGGGGTGAATGCGTCCTTTT
TTTCTTTCTTTTTTTACGGGGCCCTGCCCGGGTAATTGTCTGTGCGCGCT
GTGCAGTACGAGAGTAATAGAGGTGGAGAGGATTGCTCACACCAAACGGC
TCGACTATGATTGGTTCATGGACGATGTCGATGTTTAGAAGCCTATAGAG
CTGGATATGTGTGTGTGTGTGGATCAGTACCGCCTTCGACGATTGGGCTG
CAGTTTTATTCCCTGCTGCAAGGCTGTAGGGGTTACTTTCCGGGGTACAT
AAACTTGTACTCGAAGTAAAATTACTTCAGGTTGTGGGGTGCAATTCTCT
CGCTCTCGCTGTGGGAATGATCAGAGCGCAGCAGGAATACTTCATGTATC
GAAACCAACTACATACGGAGTACATTCCACCACCGTTCAAAAACACGCTC
ACAAAGAGAGGAGGAGGAGGAGGAGGAAGAGGAGGAGGAGGAGGAGGAGG
AGGAGGAAGATGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAG
GAGGAGGAGGAGGAGGAGGAGGAGGAGGACGAGGACGAGGCTGTCCAACC
ATAACAAAACGACGAGCCACCTACACATTCGAAATACTTCTCTGCACGGT
GATTTTTACATAGAAACCAGTTGTTACCATCACGTTTTCCGCCACTGCCA
TGCGCGTGTTTGTCCAACGGTTCGAATCACACGTACAAGCATCTTTGTCG
TGCCTTTACGTCTTTATATGCGAGTACCGTGGAATGGCTTGTGTCTTTTC
GAATCGGCCGGAGCGTTGTTCCTGGATATTTCCCTTTGTAAACAAACGAT
GCGTTGATATTGCCATTTGGCACACAGTTTGTCTTTCATTTGTACTGGTA
CGATTTGGCGCGAAGAGTGTACTGGTATGATTTGGCACAAATAAACAATT
TTTGCTGTTGCTGTCGCTGTTGCTGTTGGTGTCGGTGGTGGTGGCGATGT
TGGTGGCGGTGGTGGCGGTGGCGGTGTTGGTGTTGGTGATTCTCGCATTA
GCTTCATTATCAACACCGATCTGGCCCTGGGTCATAAAGGTGCTAAGCCT
TTCGTGAGAAGGTGAAAAAATCAAACAGTAGAGGGAAGGGTACACAGAAG
GTCGAAGAAGGCATCATACGCCTTCCACCATACTACGTGGTGATGTGCAA
TAAACTGAACTCACACAACACACGTCCACCCAGCAGGTATCCATTTGATA
ACAACACCCCCCCCCGAGTCGATCAACTGCTGCTCCCATCTATCTCTTCC
TGCTATGATACAATAGTACAGACAAACGTTGACCCAATTGCCCTCACCCA
AATATATCTTTCCACGACCTTTTCGCGCAGATTTGTATCCACTATCCAAC
GCAGGCGAACCACCCAAGTAGTGCTTGCCTCACTGTTGGTCCATACATAC
ATACATACATATGTACATACAAGGATCGGACGGGGCCGCCGTTCAGGCGG
CCCCGTCCTGAAGTAGAGGCGCCCTGGTCTGAGTGCGAGGATGGGAGATA
TATGAAAGTAGAGATGGTTGTTGCAACGTATTGAACAGTTTCGGGGGATA
CCAAGAGGGTGACGCTGTGGTGGTTCATGGTGACGTACAGGGACGTCATC
ACGACCGAATTTAGTGTGATCGCTGAAGAGGAAATATATTATTAGTAGGC
AACAACATGGATTAAATCCACAATGTTGCAAATGTCATTCAGAATTTAAC
TGCACCGAACACGAAGGCAAGCAGACGTGAAAAAATGAACGGAACTCCTA
CTACAGCAGTTGACACCAGGGAAAGCTTGACTGCGCAACACGAAGAAGAT
GCCCTCTCCTTTCCCTTTTTCTCTCCGTCTCTGATGTGTCCGTCGCAAGC
CGGAGACGGGCAAGGCCAGTCGGGGTTGCCTGGCTCAATGATCGCCCGAG
GCTTCACCGAGCTTGCGTTCGTCCTTGACTGATCGGACTTGCGCTTGTTC
GGTGAAGCCTTGGACAGTTCAGAGAGAGAAAGACGTCCCTTCATGATCGA
GCGTTTTTTTTTGTATGTGTGGGTGGGCGGTGCGGTACTTTGCCGCCCTG
ACGTGTCTCACTGACGTGTCCGACCTTTCCAGTGTGCAATCACTCAATCG
AATCTAACATTCACAATGACGGGTCAATCGAATCTAACGTTCGCGAAGTT
CACCTATATTTCGCCGCCTCAGAGGATGGACACAACATGCCGTCTCAAAC
AGTCAATCTTCCATATGTATGTCATTTTCTGAACACTGATTGAAATATTG
AAATGATGCCCCTCGTGAGGGACTGTGACATGCCACACTTGCGATGGTGA
ATGACACCGTGTCCAGTGTCCAAACACCCGATCGAACGTTGGCGGAGATT
CACCTATATTCGCCGCCTCAGAGGATCTTTCATGTGTCACTTTCTGATGT
CAAGCATCGCTGATGCCAATTGTCAGGGGCTGTCAGATGATGCTGCGTTC
CGATGGTGAAAACCAACACTACTTTAGGCCGATGTAACTTGCTTGTAGAC
CGACTTTTCGCGTGCCTGAACACCGTGCCGTGATGGAAAAACTTTGTAGA
GCACGCTCAGCCTTTTCAAGGCCTTTTAACTTGTAAGGGCGCGTAGAGGT
GAAGGGTTCCTCGTATTGTGCTGTTTTCAGACTAGGGTAAGTTGCGCCGC
TTCGCTCTCGTTGGCCGCGTTCTGCTCTCTCGTCAGCCCTCAGCGCAAAA
CGTCATCCTAGGTACCCATATACACACAATACACACATTTTCTTTTCTCG
AAGTACATATCATGATGCATGCATACATATGAAAGCAATACATACATGCA
TACACACATACGTACGAGCATACATATATTGCGACGAGAGCATTGAGGCC
ACACTGCGCAAGCGGCGACTGTGATTCGCAGGATTCGTTGCGCGCATGAG
AGACGAGAGACTCCCGAAATTGCTCTTTTGGGAGAATTGCAGGGGGGAGC
GAGGTATTTGGGGGGGCAAGAGTTTGACTGGCTGAGGCGAATGCAGGAGG
ACCTCGAAGCGTTCGACATCGTTGTCGACAAAAACGAGGGGTGGGAGGCA
AGTGCCAAGAGAGCTGACGAGTGGTACGACAGGATCGACGAGGGTGCGCG
GCGGTTCACGGACGAGTGGCTCAAGAAAGAGGGAGACTTATCAGAGACAC
GTCGACGGAAAAGGGAGAGGGACGCGGCTGAGGGGCAGGCCTTGGCCAAA
AGAGGGAGAACGGATGGCGGGGATAAACGAGAGGAGGAGTACAGGGGGGC
ACAAGGGCAGCGGGGTAGTGGGGTTGGAGTTGCACAGCACAAGAAGAAGC
AGCCCAAAGCCAAGCTACGGGGTGGCCGGAGTGGAAAACCTGTAGGGCGG
AATGGTGGTGTAGCTGCTGCCAAAGATGTGGGGCAGAAACAACTGGGTAC
GGTGGTGCCAGTAACAGGAGGCATGAGTACGACTGAGGAGAGCAAGCGTG
AACAGGCAGACCTCGTGGCAAGACATGTTTGCGATTGATTGCATGCCTTT
TGTTTTATCTGTATCAACCCCCCCCCCCCCCCGTCTTCCGGTACTTCCGG
TCTTCCCTCTGCACTCTCCATGTATGTATTTTATTCCTCTTTGTCTCTTT
TTTTTCTTTTCCCTTTTCGTTCCCCTGCTTCCTCTTTGTTTGGCGGCCTG
TTTGTTGTGTTTGTGAACGAGTGCACTCCCTCAGTCTTTGTGCCCTCCCT
GTATCTTCTTCTTTTTTATTTTTTTGTCTTTCGTCTATTGATCATATAGT
TAGTTGACCATCGCCCCGGTTTACCTTTGCCTTGGTCTGTCACGGCCCTG
GGCCCTGGTTCGATGTACGAAGTACTTCGAAGTATATGGTTATGGTTGAG
GTTTGTCTTGTTTATTTTTTGTTCGTCGTACTGTTTCCAATTTTTGTTTT
TTCTTTCGAACCTGTTATTTTTTTTCTGTATTTTGTTTGGTACTTTGGCC
ACCACAGATGGTACCCCAACGGTACCATATCTGATTTGATTGTGGGTGAT
CATAGTCCATTTATTTTATTTATTTATTTTTTCCTCCTAGCACCATATGT
GCCTGGTTAGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGA
GAATCAACAACAACATTACATAAACATGCATAAGAAATATGCATATGGGC
ATTCGCAAATGAATCCATACACACGCATACATAAATACATACGTGTGCCC
TATCCGTCATCGTTTTACCATGGGCCAAGAAAAAGAGCAGGAGCTGTTGG
ACGACAAAGCAATTTCCTAGTTCATAATTTTATTGTTGGCCAAGGAAAAG
AGCAGGAGCTGTTGGACGACAAAACCATTCACTAGTTCGTCATTGTACTG
TCGGCCAAGGAAAAGAGCACGAGCTGTTGTACGAAGAAAACCATTCACTG
GTTTCCCTTATTTTCGGCCAAAAGGAAAGAGCAGGAGCCGTTGGACGACG
AACCACCTCCTGTCTGTTGGTCCGTCCACACGTATCACCCAAACGCCATC
GCTCATTTAGGGAGGCGAGGAAGAGCAGGAGCTTTCTTGACGATAAAAGA
AGATGGCTCCCGAACCCAACCCTCAAGTGATGGCGTGAAACGTTACTGTT
TCTCCCGCCGTTTTTTTTTTTTTTTTGAAACCAAGTATTTACGTCACTGC
CGTCATCTATGCATGCCCTGCCTCTGGGTCCGTGCAGCAGCACAGTCTAC
ATGCCACCACATTATTCATTATTCGTCATTCATTAATTCATCCATCCATC
CATCCATCCATCCATCCATTCATCCATTCATTCATTCATTCATTCAATCA
ATCAATCGGTCATTGGTGCAGGGGGGGGCAAGAGATCCCCCACGACGACA
ACAAAACTCTGGAGACGAGCTACGAAAAGTTCTCCGATGCTGCAGATTCG
CGGAGAGGAGGAGGAGGAGGAGGAGGAGGCACCGATGGCGGCGGCAGCAG
CGACGGCGACATGCGTCTGACGAGACAGCGGTCCTCCACCTGGGACGAGC
ACGGCATCGCCAAGCAGCAGGAGGAGCGGAAGATGAGGACAATGGTGCGC
GCGAGCAACGCCAGCGGCGGCGGCGGCGGGAACGGAGGGGGGCGGGCCAG
AACCTGGAGCCACGACGGGGCATTCGACCAGCACGGCGCAATGGGCTACG
GGCCTAGCGACGAGTGGGCTCACCTCGATGCATTTCAGGCATGCGTGTGT
GTTGTTGTTGTTGTTGTTGTCGGTGGTGGCGGTGGTGGTGGTGTTGGTGG
TGGTGGTCCTCACACTAGCTCACCACCACCATAACCCAGCCCGTGGTCAC
AAACCAGGCACATATCGTGCTGAGATAAAACTTTATAAATTTACGTAGCG
TGTGTTGAACTGGACACGCACAAACTACCCGGCAGGTAACCCATTCGACG
CTGTGTGCTTGCGTGCGTGCGTGTGCGTGTGCGTGTGCGTGTGTGTGTGT
GTGTTAGAGTTTGTGTATCGAATAGAAAGCATCAAACCAGCAGCACTCCC
GGGGTTGTATCCAATGTTTTCGTCCGAAGTTGCGGCGTTTCGTGCCTCGT
TTTTCCTCCGGTCGATGGTGGCGATGTTTTCCAAGGTTTTCTGTGTCATG
TGATACCTACCAGGTACCAGGTACGTGGAATGACAAAAAAAACGTTTTTC
AACTCCCCCCCCCCCACCCCCCCAACCCCCACCCCCCCCCCCACCTCACA
TTTTTCTTGTTGCGTACGTATGTATGTGTGATGCACGCGCAAACCCTCGC
ACATCGTTTTGCGCATGCACAACAAACAGGCGATGGGCTCCATGTTCCAG
CAGGAGCTATACCATGAAAAGGCGAGCGGGCTTGTGGATGTCCTCGTCGA
TCGGATTCGGGTGAGCCCGAGACGAAAACGAAACGAGAGTGGTGCGACGT
GGGGGGAGGGGGGGGACGGGGGACGGGGGGTTGGCGGTAAGGGGTGGACA
AGGGGTTTGGGCTTTGGATTGGGGTTGATTGAGTCTGCAGAACGATAACT
TGGGGACTCGGTCGTACGAACTTTGCTTTAGGGCCCGGTGCAGTCCGAAA
GGTCGTTCGTTTGTTTGTTTGCATGTTAGCATGTACGAAAGTATGTATGT
ATGTATGTATCGTAGTAAATGAGTCTTACAATGGAAGTGCTTCGGCGGTC
TGGTCTATCCATCCTGTACTGAACTCACACGTCAAACTCAGCATTACCAC
CCATCCGGCCCTCTCCCCTTTTTCCCGCTACCCGCCACCCCCGCCGTGCG
TGCATGTGCGTGTGTGTGCGTGCGTGTGCATGTGTGTGCGTGTTTTCTTT
TGCTGTCTCTGCCGATCCGGTGGCGACAAAAGGTTCCTCTGTTGATTATT
TTGGTGGGCGTGTCAGCAGCCATCGCGGGGATGACGGTGGACTACCTCTG
CAGCTCGGCTAGGCTGTGGAGAATCAACGTCACGGCTATCCGTATGGACG
TGTGAGAGACTATTCTGCAGGGGGGGCTGGGGGCTGGGGGCTGGGGGCTG
GGGGCTGGGGGCTGGGCCGGGGTCACTTTTTTCTCCGCTTCGCGGAGCAA
GCATCTCGAAATTCGCTTTGTGGTACACAGGCTATGAAATACTTCGTATT
CACTCAAATGGATCCACTGAAGAAGACCAGTTTTTGGTGTCGTGTTCGTG
TGTTGCCTCGCATGCTCTGGACGCTGGACGCCGGTCTACACCATTCAGGA
TCCATTACGCTAGCGTAGGCGCACCAGCCGGGGTCAACACAGACTCGCGA
AACAATCGTTGCTGCTGTCCTCATGAATTTCGTGCGAGATACGAATGATG
TGATATGGATATCATATGCTTGTACGTTCCCGGCTCATTTGCTGTTTTAG
GAAGGGGCGGGGAGGTTGGATACGTGCGCTCGCGCAGCTCGAATCTATAT
GTATTACACAGTACTTCCAAGTATAATATATCGCCTCCGACCCCCGAAGG
GTATGTGCACGCAGCAAAGTTCCAGGAACGGTTTATCATATGTACGCACG
AAAAGCGCCGCCGAAGGCCGTCGGCCTTTACAAGCGTTTGCCTCGCACCG
GTGGTGTAATAAAGAAAAAAATGAGGCAGAGTGAAGAACGTTTTTTTTCT
CTTTATGTGGAGATTGTATGATCCGCGAAGTGAGTATAGACAGCCAGCCA
GCCAGCAGCTAGACAGATAGACAGACAGACGAACAGTCGACCAGCCTTGT
TTGAGACTGACTCGCTGAGCGAACAGGACTCGTCAAGAACAATTAGCGCC
TTGCCCTGGCTTGTCGGTGACACCCGATCCGATCGATGTTTTCAGTCCGT
CTCGGTGTTTTCACGCCGGGGATTACAAGACTACTTCGACCGGGTATGTA
TAACGATGGTGATGGTGATGATGACGATGAGATGATGATGAGATGATGAT
GATGATGATGATCATGATCATCATGATCATCATGACTGTACCGGTATTGT
ACAAAACGGTGCGCGGTACTCGTATCAGGGATACGGGATGCGAGGAATCT
CTACTGTTTCCTCCTTTTTCGAGACCGGTATATTCGACCGTGAATGATCA
TGCGTAAACCTCACAAGTAGACGCACATACGCACGCACACACGCACACCT
TTGTGACCATGGGCTTGACTTTGGTGGTGAGCTAATGTGAGAATCAACAA
CAACAACAACAACCCACGCATACACCTTCCGCTTTCGCGACTCTTTTGAC
CCCACGTCTACCTTCCCCCCCTTTCCCAGCCCGTTCGGGTGGGGATTGTA
CGCCTTGACGTCCCTCTCGCTGACGCTCGGCATGTGTGCGATCACGATCT
TCGTTTGCCCTTGCGCTTCCGGAGGAGGGGTTCCAGAAATGAAGGTAGGC
TTTCCTCATTTCCAGAAATAAAGGTAGGCGTTCCTCGTTTCCAGAAATAA
AGGTACGCGTTCCTCACTGCCAGAAGTGAAGGTAGGCGTTCCTCACTTCC
AGAAACGAAGGTAGGCGTTCCTCACTTCCAGAAATGAAGGTAGGCGTCCC
TCATTTCTAGAAATGAAGGTAGGCGTTCCTCGTTTCCAGAAATGAAGGCA
GGCGTTCCTCGTTTCTCTGCTGTAAATTTTCTGTCTGTCTTCCTGTCTGT
CTGTCTGTCTTCCTGTCTGTCTATCTGTCTTCCTGTCTGTCTGCCTGTCT
TCCTGTCTGTCTGTCTGTCTTCCTGTCTGTCTGCCTGTCTGTTGTCTGCT
TCTCTTAACCTCAACCACGACCAAAACCACCCTCACAGGCGGTTCTGTCT
GGCGCGAGCCGGCCGGGCCTACTGTCGGCACAGCTGGTGGTCGTCAAGAT
TGCTGGGTGAGTGGCGGAGGCGTTTTTCCATGAGATGCGACCAGCCGTAC
CGAGATACCTCGGTCGTATACACGATATGAGCACCACGGTAAGAGGTGGC
ATCAGTGAAAGGGATTCCCCGGAGGCGTTTCTCTGCTTTTCACTTCTCAC
CTGTGTATACAAGTGTGCAAATGATGTCGCCCTGGGGGGAGCGTCCTGAC
TTTTCCCTTTTTGGGACAAAAGGGTCGTTACATAATGTACACGTACTCAA
ATGTCCTGGGGAGCGTCCTGACTTTTTTCCTTTTGGCACCAAAGGGTGCG
TTACGTATGTTGAAATGCGAAAATGATCAGACTAGGCTTAAGAGCCGAGT
ATCCAACAGCAGCAGCACCAGAGTGAAAGTCTTGGGCAAAAGATAGGCCG
ACGCCAGCTACAAAAGTAGCGGCAACAGCACCACCACCACCACCACCACC
GACAAAAACAACAGCAGCAGCAACAACTGCCTCTCCCGCTCCATGAAATA
CGAGGTACGAGGTAAGATTTGTTTTGCGATCATTGTACTGTATTTCTTTT
CGTGCCATCAAATATCCAAAAGGGACTTTCGCCGAAGCGGCAACAATCGC
AACAACGAAGACAACCGAGGGCAAGCGCCCCGTCCCGTTAAGAAACGGCA
CAGAGCAGAATGGAATGGAGTAAAATCGGCGAAATGATATGTCGTTTGTG
AAATGGGAGGGAACGAAATGGTATGATACATATACTTCGAAGTATAGGTG
GAATGGAATGGAACGAAATAGTATGATACAGGTGGAATGAAATGGAACGA
AAACGTATTTTTTAAATGGAAATTAAACTAGAGGATGAAATGGAATGGGA
TACAAGAGAAATTCTGCCGGAGCAACGTCAACCACAAACAGTATCGACGA
CGACAGCAGATTGCTCCCCCCGCATGAAAAAAAAGTCACATCATTGAACG
AAGTAGAGTGGAAGGGCATGGAACAAGTTGAAATGAAGCGGGAGGAAATG
GAAGTGAATGGAATGGAACTGAACACAAATGGGTTTTCAACGAAGCAGCG
GCATTCGCAGCGATAACGACAACGCCAGCCGCGACGTCAACAGCACCGCC
GCCGACGGCGACAGCACTTCCACCACCTTCAGCAACAAGAGCGTCCCCCC
CCTTTGTACCCAAGTGTAATGAGGGATGTTTTTCCGGTACTGTCGTTCTG
TTGATGATGACAGTGGGGTTTTCGCCGAAGCAACGGCAATCGCAGCAACG
ATGACGACGACGGCAATCGCATAATTCTCTGATATAATGTCGTACAGCAT
TAGACTGGAATACATGGCGTGCCTAGGAACTGAAATCCATTGAGAAACAA
TTGAAGGTGCAAGTATTGAAATGATGCGGAACGGACCGAAAGACATGTCG
ATTGAAATTGAAACCACTCCTTTGCAGTGCTTTTCTTGTGATAACGACAG
TGTGACTAACCCCTACAAAATAAGATCGACAAACACGGTCAATGGATCCC
TTCCAAACGACATTAATAGGAATAAAACGAATTGCATTGGAATGAAACGA
ACGGCATTGGAATGATACTAAATGCATGCATTGGAATGAAACGGAATGCA
CTTAAATGGATCTAATTCCATTCCAATGAAACGAAATGCATTATCAAGGA
AAATATTGCATTGAAATGAAACCGTAATGCATTGGAATGAAATGAAATGA
ATTGGGATGATACGATGTGCATTGGAATTTAACGGAACGTATTGGGAAAC
AACAAATTGCATTGGAATGAATTGCATCGAATAAAACGAAATCCATGCAT
TGGAATGAAACGAAATGCATTGGGATGAAACAGATGGCATTGGAATATAA
TAAAATGCATTGAAATTACACGAGATGCACTGGAATCAAACGAAATGCAT
GAATTGGACTGAAACGAAATGAATCGGAATCAGACGACACGCATTGGAAT
GAAACAAATTTCATTGGAATGAAACAAATTTCATTGGAATGAGACGAGAT
GCATTGGAATTAGACGCAATAGGAATTAGACGAAAAGCATTGGAATGAAA
CGAAATGCATTGGAATGGAATTAAACGAAATAGGAACGAAACGGGACGCA
TTGGAATGAAACGAAATGCATCGAAATGAAACGAAACCGAATTATGTGTC
ATGTTATGTCATTACGGCATTATTTTTTTCATGACAACAACAACAATGGT
TGTCGCTGCAATATTCGACATAAGTGGCAGAGGTCTCCCCCTTCGAAATA
AATGAAACTAAATGGAATATAATGATATGGAATCGAATGCAGCAAAGCAG
AACGAACTGGAATAAACGGCATGGACCAAAACCTGCACTGGTATCGAGCA
GCATGCTATGGGAGTGAAATTAAACGGTGGCATCCACATATAAATGGAGA
GAAATGGAAAGGACGTGTCCAAATGAAATGGAATGAAATAGGTTGGTATC
GAACAACATGGCAAGGGAGTGAAAGTGCATGATGACGTCAAAATTGACAT
GAAAAGAAACGAAGTTGACACGTAGTGAAGTTTCAACGGAAAGAAACGAT
CCTCGACGAAATACTTCTGTATGTAGAATTGAAACGAAGTGAGATAACGT
AGAGTCGGGCGGAGCGAAAACGGAATGAAACGAAAAGGAAAGGAGAACCA
TACGACGGAATGTTTTCAGCACGTTGTGATGTATACCTGGTGCTTGGCAC
GAAGCGAGGAGCCGAGTGAAGTGCTGCTCTTGTAAGCATGCTATTGACGC
GCCTGGTACTGCTGTATGCGCTTAAAGTTCGTGCTGCTTAATTTTTGGTC
TGATGACAACAGGGTTGTCGTTGCGAACGCCGCCGGGCTCTCTGTGGGAA
AGGAGGGCCCCCTCATCCACATCACCTGCGCGATGGCGGACATCCTTATG
TGCAGCCCTTGGTTCAAGAAGGTTCGGGTCTTCTTCTCTTTTATTTGTTC
TCCTCTTTTTCCTTGTCATCTGAGGACAAACATGCGAACTAATATTCATG
GAAATTCAATGACCGGACGTCCTCGTTCGTGTCCGCGTTGTGTAGGATCA
AGTACACTCGTATTTTTTATTTGCAACGAGGTTTGACTTTTTTGATATTA
TCCCGGAAGGGGCGCAGAGTGTCGTCACAGAATAGATGGGACAACAACAC
GCGCACAACACACACACGTTATAATCCTTTTTTACCTCCCCGTGAAAATT
CATGAAATTATTTTTTTTCACCCAAAGCTTCTGTAAAAACAAAAGTGGAG
CATCGCCATTTTTTATTCTATAGCGACGCGTTCACTTGCTTGTATTATAG
AGAACGCGTTTTGAAATTGAGCGGTCGTGGCATGATAGCGAGGTAAACGT
TTGGCTACTGGGAGTCGCGTGATATTCCAAGTGAAGAATAACAACAAAAC
GGGGGCCCACGATGGCGGCATTTAGCTACCCAGGGGTATGTCAAGAGGGT
CAACATGAAAAGGTTAAGGTTTCACGTTGCCGTGTTGTGGGAACAAGCGT
CACCATCATAGCCGTGATCGGCGGATTTGCTTGACCCCCAGCCCCATATG
ATACTTGCCTAATTCCAAGTCATCCCATTGTCGTGCCCGCTCGTCATCAT
GATTTCCCCCACACGGCCGGCGGCGGACATGCGTTCGCGAAAGGTGCGGC
TGAACACCATGAAACGGCTGGAAATATTGGCCTGCGCGTGCGCTGCGGGG
TGAGCACGGCTTTCGTCGTTCGCTGGCTGTCTTGATTTGATCCTCGCCTT
GGCGGCCTCACTGCTCTTCCAAGCTGTATACGAGTATGATACGAAGTTCT
TCGTAAAGATGTCTCTGGGTCTGTGCAAAAAAATAATTTCTTCGAAAAGC
GTGCTGGTGCTGCTGTGATGCGTACTGTACGCATGCGCTGGTATAATGTA
CTGCTGTAGAGCATCTTGTTTTTTTTGCCGGGAGGACGGTTTGTTTCATT
CAGCGTGTTGGGCGTAGCAAATTTTTTTCTGGAGCTTTGCTTTGATTATC
TGGTATGCTTTGCTCGGGTTCTGGGTTCGCTATGAGATATGAATGTCTGT
TTGCGGAACGGGAAGGCACACCGGGTTCGTTCGTAAAAGGACAGTACGAA
ACTATCTGTTTCAAAGAATGGAGGAAATCACAGCAGCAGCAGCAGCAGCA
GCAGCAGCAGCAGCAAACAGGCGCCACAGCACGGAGGCGTGGGGGACGTT
TTTTCACTCACAGCGAAATACATGTATTGATGAAATGTATTCTTCGTATG
TTTCTTAATGTAGTCCGCATATTCTATTGACGTTGCCGTCCGATATAATA
TCGTTGGCAAGACTGTTCTGCAATAAATAAAGTCCGCTCGTTTAACTTTT
CAGTGTTTTCAGCTCTCCTTCGTTTTGTGCGTACTAACGATGTAGGGTTC
AGTTCGGTCTGCACAGATGATGTGGTTGCAGTTCTCCTCCGCCGTTTGCT
TTGATGCACGTGGATCATCCGAAAGGCTACTGTAGACTTTTTTCTTGATT
CCAGAAGCCCTTCGGTGTTTGTTGTTGCACATCCGCTCGGTAATTCTCAG
GGTATTTTTGTTGCTGCTGTGAAAGTCTGTCCGCCGTTCTTCTTCTTCGT
ACAGGGTGGCCGCGACATTCGGGTCTGTCTTCGGCGGCACCCTGTTCAGC
GTGGAGGTTACGGCTACCGCCTACATGGTGCAAACCCTGCCGGCGACGTT
CTTCTGCGCCGTGGTGGTGGCGGTCGTGTTCTGGGTCGCCGGGTTGTCCG
ACCTGTTCACTCTCATTAACTCAAACACACGTCAGGCAAAGTGAGTTCAC
CTCCATCATACTATACCTTGGTGTTTTTTTTTTTTATGTCGTTCTTTTTT
GTCGGCAAGCTTTGACGCTTTTCGCGGCGAAGCAAAGTTACACGGTGACG
CTCTCATTTCATGTATAATTGCCCTCTGCAAGGGCGCTTCCAGTTTTTAA
TTTTTGGACGAAGCGAAATCGCGAGACCATAGACACGTGATGTGTGAGTC
CGTGAAAGGCGCAAGAAAAAAAATTAGACAGGAAGAGAAGAAGGACAGCA
GTCATCACATGAAATAAAAAACAAGAAGACCCCCCGTTCCAAACAAGACA
AAGAAGACAAGGAAAGAAGAACAGGACAGGTAGGAGAAGAAATAATAAAC
AATCGAGGGAATCGAAGCCGTTGGCGATCGATGGAAATCCTGAAGTGTAC
TAATTCGAACGGCGTTTGCGAACAACAGCTGCGAGGGTTTTTAGGAAGGC
CGGGCTGAGACCTGAATCGCACATAAAGATATAAGTCTACCGTATTCTAC
ACAAGATACCACACCCCGGTGGTAACATTTTGGGCTTCAAAAATATTATC
ACCGGGTGTGGTATTGTGGGGGGGGTGTGGTATCTTGTGTAGCCCGGTGA
TAAAGCCTAGCTCACAGGAGCTCCTCAGGGGGTGTGATAAATCAGGGGGT
GTGGTAGCACATGCGATAAAAATGGGGTGTGATAACACGTCGGAACACCC
AAAGAGTGTGTTCGGGGGTGTGATAAAAATGGGGTGTGATAACACGTGGG
AGCACTCAAAGAAAGTGTTCGGGGGTGTGATGAAAATGGGGTGTGATAAT
ACGTCGGAACACCCAAAGAAGTGTGTTCGGGGGTGTGATAAAAAGGGGGT
GTGATACACTGCTTGTGGAGTTGAATCGCTGCTGCCGCACCCTGAAGGGG
TGTGGTATTGCGGGGGGGTGATGGCAATGCCTGTACGACACTTCCGCTGC
TTTGCATTACCACAAAAAGGGGCTCATGGGGGTTGACGAAACTCCTGGGC
ACATGACCTCGGCGAGGACTCAACCCCCTCAACGCCGAAGAAAGTTCATA
CACTGTACGTCAGCAATCATGCCGGCGTGATGGAGCTCGAAGCAGTCGTG
GGAGAAGCGGATGTACTTGCGGCGGCATTCTGCTCTTCCAGCACGTTCAT
GTTCTCTGAGGTCTCCATGTTTCCCCCCGTACGGTACAGGGTGTGCGTAT
GTGATGCTGTATCACCCCCGGTGACAAGTGTGCGTGTGGTGCTGTTTCAT
CCCCGGTGATGAGAAAGGGGCTCCGTGAATGTATGCGGCGTGATCTGTTA
CCACCGGGGTGTGGTATCTTATGTACCCCCGGTGATAAATCATGGTCTGA
AAAATACGCCCAAAAATACCACCGGGGTGTGGTATTGTGGGGGGGGTGTG
GTATCTTATGAGGGTGTGGTATCTTGTGTAGAATACGGTAATAGAATAGA
ACGCAGTACAAAATGCCGCAAAACTGCCTAACCAGTAAGCAAAATGTGAC
AATTTACATTTGAATAAGCTGAATAACCAACTTCAAGAATAACATCTTTA
TAAAAACATTTTCAATAATCATTTTTGATCCAGCACCAGCTCAGAAATGA
GCCTCATTTCTGATCTACTCCGCATATCAAAAATGATTATTGAAAACGTT
TGAGCCTCCGGCGCAAGCCATCACACAACACAAGCACCCACAGCAGCAGC
AGCAGGACTGCCACATCACTACTGCTGCTGCTGCTGCTACATTATCGCGG
GCAGTCGGCGTGTTTCTTCCTCGTCGTCGCCCGCCAGCAGCGTGGCCCTT
CGTCCCATGGCGGCAGCAGCAGAGAGCGACTGATTGCGTTTCACCTACAA
GCACTCGTACTCTGCTGTGCAGATAGATGCCCTGCATATGAATCATCAGC
TGTAGTCTATACTTGTTCTTGCTACGAATAGCCTCCCAAAAAAAGCTTGA
AATATATAGGTCTGGGTGTACTCCGAGTAGTTGAGCGGGAGGGACAACAC
CTTGTTGTCTAGATGTATGGTTTACGCGCGGTGCTGCTCTGTTCTGGCTG
TGACCCAGCGCGTCGTGCTCCATCCCGAGAGGGTGCTGCGCTCGCTCCAA
AATTTTGAAATGTGCTACTGCTGTATACTACCCAAACGGCTCTTCTTTAC
ACGATATTGTACTGCTGTACGAAAAATACGTTTTCGATTTTGATAACTTG
TTTACACATAAGATCTGATATTGATACCACCCTGTGGGAAATGAGTCATC
AAAATACGGATCCGACCAGAGCCCCGGAAAAGATACAATATCGACAGGAG
AGTCTATTCCGAGGACCCTGTGAGCCGAACATATCGGTTGGAACAGAGTT
GGAACAGAGAACGGACGATGAGAACAAAGCGCCGCATACACAGCAGCAGT
CTATATATTGTACAGAGAACGGACGAGGAGAAGAAAGTGCTGCACACACA
GCAGTCTATATACTACATACACTTGGGAACGGCGTAGTACGTCGTTAAAT
GCTCGAGAGTTGGACGACTCAGGGTTCGATTTGGTGGCCAAGACTTGGCA
GGTACCACGACAGCTGTATTTCCGGGCACTTCTTCTTCAGCAGACAGAAT
TTCATTTGAGCCAAACAATATCGGTTGGAACAGAGAACGGACGAGAAGAA
GAAAGCGCCGCACACACAGCAGTCTATATCATCGTTGGCGCTGGCTCACA
TACTTTAATGCGTATCAAAAACACCCGAAAAAAATGCTCGAGAGTTGGAC
GACTCAGGGTTCGATTTGGGGGCCAAGACTTGGCAGGTACCACGACAGCT
GTATATCCGGGAACTTCAGCAGACAGAATTTCATTTGGTTGAGGATGGGC
GTAGCAGTCGCCGAAGGCACACACAAACGAGGGAGATTGTACCACTCTTT
GAGAGGTACCAAACAAGATCCAAAAATGACAAAAACCTATACTGTAGGCC
CTATTGATTTGTCACAAAAATCCATACTGTAAACGCTATCGAAAAAGTCG
CAAAAATCCATACTGTAAACGCTATCGAAAAAGTCGCAAAAATCAAGTCT
TTATTCCCTATTGATTTGTCACAAAAATCCATACTGTAAACGCTATCGAA
AAAGTCGCAAAAATGAACTCTTTATTCCCTATTGATTTGTCACAAAAATC
CATACTGTAAACGCTATCGAAAAAGTCGCAAAAAGAACTCTTTATTCCCT
ATTGATTTGGTCGCACGTTTTGTATAGTCGATTTGGAGATACCCGGAGAC
AGAACCCAGTTTCAAAAACTGGAATGATAACGTGAAGGGACTGAACGATT
CCAGCGTGCTTCTTGTCCGGCCCGTCTTTTTAGGAATGCGGGGTCGATGG
TCTAACGACGGTGATCATGATCTGGAAACACCCCGTTTTCTCCCCCTCCC
CTCTAGACCAGGATCAAGAGTAAACTAGCGATGAAGACAAAGAGTGGTAC
GTCTACTTGTGTTTCCAAAACGTTATGGTATCGGATAGCGCACCTGTTCC
GACGACAACGTGCGGCGTGGTGCGTGATCCTCATGACCATACCCCGCCCT
CTCCCTCTCCCTCTCCACCACCCCTCCTCTTGTGGTCTGGCAGCTACAAT
ACGTCATGCGTGACCATGACAACACCCCGTCTTTCTCCCGCCGTCGTCTC
CTCCCTCTCCCGTGCCCACCATCATTAGGTTGCAACATTTTCGGCAGCAT
GTTGTGATCATGACTGCACCCCCGCCTTCCTCCACCCCCCCATGAAATCG
TGAAATGACTTGCCGTACGGCGCCCATGACCATTTCCTAACTTCCCTCTA
GCCCCTGTCTCGTTGAAGTCCTCCCTCTCTCAGCGCACCACCCTGTACTG
ACTGCGGTGTATGGCATGCAAGGTCACGACTGTACCTCCCTCCTCCCCCT
CTCTCCTTCAACTCCTCCGTCTCTCTGCCCGCCACCCCATAAGGACTGCC
GTGTAAATATGGCGTGCATGGTCATGACTACACCTCTTCCCCCCTCACTT
TGATCCTCCACCTCTCTGCCCACCACCCTACCCTCCCCCTTGAGGCACAC
CGTGCTTGCTACTGACTGACCGTGCGCGGATGACTGACGACCATGACTAC
CGGTACCCCCTCCCCCGCCATAACCCCCCTCCTCCTCCTCCTCCTCCTCC
TCCTCCTTCCTTTCCTCCTCCTCCACCTCGTTTTCCTTCGTTTCCCCCGT
CGCCGTCTCGTTCACCCCAAAAAACTCTTCCTACCGTGACCGCGACCGTT
CGTACACCCCCAGGGGCTTCACGGGAGCCGACCTCTTCGCGTGGGCCGTG
CTGGGAGCCGTCTGCGGTCTCGTCGGCGCCTGGTTCGTGGCGGTGCTGGA
CACTCTGTCGCGCCGGAGAAATATCTTCACCAGGAGGAGCCTCGAACCCG
CCACTAGGAAGCTCCGACTGTTCGGTAAGTTTCGTTTCGTTTTGCTTTTT
TGTTTTGGTCCCGACTTTTTTTTTTCTCGAGATTTGCGAGACATCATTTT
CCTTGTTTTCATTCACCACAGCACTAGGAGTACGAATAGAAAGTATGAGT
TGTTGGAGTTGGCTAGTGGTGACCTTTCGGTGAGTGTCGTTTTTTTTTTT
TCGTGTGAGCGGGTTGGGTTGCTTGTCGTGGCAAAAACTATTTTGCCCTG
TGTTGTGTTTCTTTGTTTTGCTTGGCTTGGCTTGGCTTGGCTACGCTTTG
CTTTGCCTTGCTTTGCATTGCATTTCTTTCTTTTCCTTTCGTTTGCTTTG
CTTTGCTTCCCATTGCTTTGCTTCCTATTGCTTTGCTTCCTATTGCTTTG
CTTTGCTTTGTTTGATTTTGTTCATTCACGAGAAAAAGCCATCATGCATA
CACAAATGTAGCTTCTGCTGCGTTACCCGCCCCTCACGACTCACTGCAGC
AGGATACGAAACATGGGAAGATAATTCGAGTGAAACGAAGTGTTTTTTTC
TTGTGAGAGCGCAGTTCTCATGAACATTATTCTTCGCTTAACCCCAGAAC
CTTCTCGTGGATAAACGATACGTACGTACTTTCTCCCCCACACCATAAAG
AACTGCAAGAGGTGTCGATGGTAATCGTCTGGGTGACCCTAGGTTCGTGT
GTCTTTCATTTATCACACATTCTCGTCGAAGATGAGAGTTTCCATCCATT
ATTGCAGTGAATTGTTAATTAGTTGGTGAGTTGGTGGGGGGTGCACAGAC
AGATTTTGTACAGATTTGTTTTACACGTTCTGCAGTTATTTGTGACAACC
ATACGGAAGGAATATGCGAAGGTTGGGTTGCTGTGAGTCAGCTGTCTCGG
GGTGGTTTTCATGGGACGCGTGATAGACGCTTTTTACATTTTTGCGTCAC
TCGATTCCCTCTTCTCTCTCACACAGCTCAGCTCACCACTTTGAACGGAA
TCTAGCACCCCAAAAGCACCTGCAGCGGGTAGAGAGGCGAACGTCTGGCG
TGTTACCCCTCCGTCTCGTTCTGGCGGGGTTAGACGTGAAGTTGAGTTGA
TCCCCAGTCGAGCGCTTAATCAGGGGTACGAACCGGTCGCCGGGGCGGTT
GGTTTAGTCGGTGATTTCATACCCTCAAATACTGTTTTTGACTTTGGCAA
GTCGTGAGTTCGAGTCTCGGTCGAGCCACACGAACGAGGACTGCTGCGAG
TTTTTCCCACGAAATACCGTATCATACCTATGATTGGCACCCAACAGAAG
GTGGGGATCAATTATCGTTTCGTCGGAGCAAACAAAAAGTCGACTCGACC
CAATGTGCCAAGGACCGAAAAGATGCGGAGCAGTATCTTTTGTCGCGATA
GAAACTCATGGTAACAGAAAGCACCTTTTTTCGCGAGAGGAAAGGTGGAA
AGAAAAACAAAAAGGGAAAAAAAAAGGGGACTCGTGTGTGTGTCTCACGT
GACGTTCCTCCTGTGCGACCTCGGCTGCTGCGCGGCCAGACTCATAATAC
AGAAAGGTGTGGCCTGTCGCCCAGAGTGTAAGAGTATATGGCAGAGACCT
CGCAAACACGAGTGGATGCAACAGTGGGGATTCGAGCTCGTGAGGTGACG
CTTCTTTTCGTCAGTGTGGCATTTTTTAGTGCTATAACAGCAGTGTCAGA
CGATCTGGTGCATATGCCGTGCTACTTTCCCCATCAATCCCCTCTTGATC
TCCTCTGCCACCGCCGTCTCATCTTTCCGCGTCTTTCTGCGCTTGCTTTC
TCGAGCTTTCCCCTCCCCCTTCTCCTCCTCCACTATCTCCTCAGCGCTTT
GTTCTTTCCTAGCTCCTTTTCCTGCACGTTTCAAACTTGTGCGTATTTTA
CTTGCGCTTTGGACGCGTTTTTGTTTTTATTTTACAGCAGAGCTTTTATC
CTGTCCCTGGTACCAGTGCTGCTGTGGTTGTTGTTGGTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGCTGCTGTTGTTCGTGTTTTACGTGAAACAAACAC
CGCGCTTCTGCGTGTGTTGTGTCTCCTCCGTGCTGCGTTATGTTCTCGTT
GGCAACCACGATCGACCGCCGGTCGATGATCCACAAATCAACCTACGCTT
CAACGATGATGCCTCCTGAAAGCCGCCCTCCCCCCCTCCCTCGCCCGTGC
TATCATACTAAAAAAAAAACTTTACAATCAGAATGCCAAATTTCATATTT
CTGTTTTTTTTTCTTGTTTTTCCCTAATCGTAAAAGCCACCGACAACATA
AAGGCGTTCTTCCCCCGTTCGGGTTTTTTGAACGAGGGAAACAAAGTCGC
GAATATTATATTTAACGTCTAGTGGGGGGGGGGGTTCCAGACGACCCTCC
CAGCACACACGAAACCAGCCCGAGCGAAGCAACGGTAGTGCAGCAGACGG
TAAAATAAAGAACAAGGTGCCCGAGGCAAACACTCTGGCAAGCGAGCCCC
CCCCCCCTCCCCCCTGTTCTGCACTTTCCAGCAGGTGTGGCGATAGCTTG
GCGACAACTTTACAGCAGATACCGTAGATGAGAGGGAATCGGAATCCTCT
CTTTCGCCGCTTGTCTTGCCACGTTTTTTTTTTGTTTTTCACGAAGACAC
ACCCTGCTGGCAACCTCTTTTGAGGCAGCGGAGAAGCTGTAGCAACCGCG
TAGCGCCAGCGCGGCCGAGAGCCCCCATCATGCAGACCTCTGTTCCGAAA
GAGTCAGGAGTTCGGAAGCCTTGCAGCTCTGATGCTGCTGTCTAGTGCCT
TGAGGTGGAGGTTGTGACAGCAATCAAGAAACTTCAGCGCGATTTGGAAG
CGCCTCGCACAGAACACACCCTCTATTTTCTACCGTCGTGTGAGGCTCAA
CGATACCGAGGGTCACCATCATGTAGACCTCTGTTTCGAAGGAATCAGGA
CCTGGGATGTCGTCAGTCTCTGCTGTTGCTGTCGCTGTTATGTAAGGTAC
CTTTTTTTTTCACCAGAAAACACCATCACCTGTTCGATAAAAACGGAGGT
ATTTTCGTGTCTTCAAGGTTTGTGTTCCATGAAATTATGCATGCATCCCC
AACAACTTTCTTTGCTGATTGTAGAGGCCCTGGGCCATGAGGTGTCAAAA
ATCTCAGATGATGATTGAATAAACAACCAGAAACACTTTTCAGCTCTTCA
AGATGCAACGCAGAGCGGATGCGGGCATGACAGCTGCTGCAAATGCAACG
TAGATGTGTGCGCTGTATGCGGAGAATTGTTGATGTTCATGTCGAAGTAC
GCGTTGATGATTTACCAGGGTATACATTCATTTAGACGTCTCATCTGCCC
TCTCTGCCCCGCCTCTCCCTCCTTGCTACTGCCCGTACGGGGCTACCGAA
CCACCGTCGTACCTTCTCTTTTTATTTTTTTTATTGCTCGAAAGCTGTAG
TGGCCTTGGCGACGCTCATGGTGATACCGGCTTCGTATACGGAGGCTGTC
GCGTTCAGCATCTATCACGATACGGGGACAATCAAGTACCACCCCCTGAT
CGACAGGGTCTACGATCAAAGGTAAGCCCCCAGGCAATGCACGCTCACAC
CTGAAAGGATAGAAGCGAGAGGAAACTTTCAAGTGAGTCGCCATCGCTCC
GGTCGATCGACCGAGCAGAAGGAGTCTAGCGACAAGTTTCCGTTGCAGTC
GCGCTTTCCAAACATTTCAGGTACCAAGTTTCGCGATGTCGGAGATGAAA
GAGACACACGAGCTCCGTGAAAACATGTTCACAGAGTGAAATTTGTCTTG
GGAATGATAAGTGCGCTGGTGCTTTATCTTTTCATTTAGTTTTCTTGGGT
GATCTGAAAGGCGAGGGCCAAGTACTTGCCCGCGGTCGACAAGATCCACG
ATCTCGGCCAACAGTTAAACTCCTACGCCAAGCTTCCGAGGTTCACACAC
ACCAGGAGACGAACAACTACGGATCTACGATCGTGGAAGGAATGTTTGGG
CGTCTGTTGCATGTGGTTCTAAGAGTCCGGTCTCAACCCTTTGACGTGCC
GGAGACTGTTGGCTGCAGTAAGTTCTTCGACGGAGCACAACTTCCTCGGA
ACAGGTGAACTGAACGACGATCGAAATAAACGGAATGATCCTGCGCAACC
GGGACCCGCCGGTGTCACGCAACCGAACCTGATTGATCTATATTGCAAGA
ACGAAATCTTGCTGGTGTTACGAAACCGAAGCTTCAGCAGATATTCCAAA
ACCGGAACGGATGCCCCCGATTGATGAGCTGCGATGCTTATCGCCGCATG
TACAAGTAGCCGAACCCCGTCCCCATTCCCGGCGTGTCTACGGTGGTTGC
GATCCCCCAGGCAATTCGGGATGTCCTGGCACCTGGTTCAGCTGCTGGTG
CTGAAATGCTGGGCAACCATCTTCTCCGTGGTTCAGCCGTTGCCGGTGAA
AACTTGGCGTGCCTTGCTTGCAGGCGTCACGCTTGATAGTGGCGTTGTGG
TGTTGATGTTGTTGAAGCTGTTTCGCTTGTTGGCGGTGATATGCTTGTCT
CGTCGCTACTGGTGACGAGTGCTGCCTTGGGCCCTTGTTCCTGTTCTTGA
TGTCATTTCACTCATCCTTCTTTGGAAAGAGCGATTTCAGCAAAAACAAT
AATAATAATAATAATAATAATAATAATAATAATAATAATGATAATGATAA
CATTTTTTCACGTGAATACAGAAAACCGAATGCACAAAATTGCGAGAATC
AACCACTCACCCCAATACCAAACCCAATCACCCATCGAGGCTACTCTCCG
TGCGTCTTCAAGGCGTCTGACGTGCCCGCGCTGGATCGACTACCCACTGG
GACCGACCAAGTCTGGGACCGTTCCCGCCAGCGTCTGATCTGCTGCTGCT
GCTGCTGTCTACTGTGCTTTTCCTGTGAAAGCGTAGCTGTGAAGATTCGA
TGTAGTCCTTCGCTGCTGCTGCTGCGGTCGCTCTCGTCCTTGCCGCTGCC
CACAGCGACCGGTGCTTTGGCTTTCGGCATTCGACGCTCGGAAAAAAGTT
CGACGCTTTTGCTTCGCTCCGCTCCTTGCGGGCGAAGCTGGTTGAGCTCC
GACCGGCCTCAAAAACCAATGGTGGTGTTGAATTTGAAAACATGGCGTGA
ACCATCATCAAAATGCCTCCGGTACAGTACCTCTTCTGTGAACTTGTTCA
AAATGTAGCAGTAAGTTTCAAACGAACACTCCAGCATCAAAAAGTCGTTC
GACTGCTGTTGCAATCGCCCCTTCCCGCCCCACGTCGGGCTGCCGCTCAT
CCACCCACATCCGTCTTCGTGTATCCTCTTACAACGCGAACTTGCACTTC
GAAGTATTTTAGGATACGGGGTCGAGCCGCCCACACTCCACCCCGAACGG
TCTTCTCAGGCTGTTGAAACGGCGCGGGCATCAACCCGCGGTGCCGCAAC
CGCAACAATGTTGTACGACCGCCTGACTGCCTGCGGCTGCTGCCCATCCC
GCCCTGCTCCGAAGGGTCTTTTTTGTCTTTTCGTCTCTTGTCTCATCGCA
CAAAAAAGAAAATAATAAAAAAGAAAATTGCGGAGAAATTACGCCGTCGA
ACCGCCCCCCGCCCGACCGGTCTCAGGTCGATGTAACGAACGGCGGGAGT
ATGTGCTTGCTGTGAGGGTTCTTTGACCGCTTTTGCATCCGCCCCCTGCT
GCTCGTCCGTCCGTTCACCTCCGGCGCGGCTGCCTGCGTTTCTCCTCATA
TCGTACCTACCGTGTACCACGGCTGTTCAGCCCGATCGCACCCTACCTTG
CGTAACGGAGAGTGGACAAAGATTGCCCCCCCTTCTGAACAAAAAACACA
CACACACACGCACGCAAGCACAGAGACATCCATGGAGTTTCATGTTCATT
TTTCCGTTGATCGTTTTCTCGAAAATAGAGGTTCAGTCATTAAATATTTT
TCAACCGGGCGATTGATTTCCCCCATAGCGTACTTCGTCCGCGAGCGATT
TATTTCCACCGAAGGACGTAGTTCGTATTCTGATAGGTTATCGAGCCACC
GCCGGCCGGTCAAGAATGTTGATGTGTGTGGCGTTTCATTCAACCAATCA
AAACATTGATTCGGTCAATTATTGCAATTTTCTCCGCGAGTTTGTTGAAA
TGGAGCGAATATCGTCAACTTGAGGTATGAATTACTGCTTTCGAAAAAAA
GTTGATCGACTGCTGGTGCTCATTCATTCACCTGCGGTGGACGCGTCTTC
TCGTCTACTCCTCCCGTTTATATGATATGAACAACAAACAAGGTGGGGTT
GTTCAGCCCCATCTTCATAATCGGCGGACTGATGGGGAGAATCTTCGGAG
AATTTGCAAATTGGGTGGACAAGTACCACGACAGCGTGAGCATCAACTTC
CAGGTAATTGCCGTATGGTAAAATTTTCGTAGTATCCACTGCTGCTGTGC
CGAATGATATGTTCTTTGTTTTTTCGCTCATTTTGTCCTCTGCCCCTGCA
CCTGCCCACTCGTTATATGTTACTTTCGCGGTTGTTCGATGCTACTGTTG
TCGGTAACGCACGGTGATCGACCGTGTCACGAAAAGTTGGTTCTCCGTGT
GCCTACCTATCTAAAATGTATTTCACGCGGAGGATTACTGTGTACACATC
TCTTTGTCCACTCAGATATGCCCGCGCGGGGTATCGCTAAATCACGACCC
TAATCGATGACTTATTTACCGCCGGCCCGATCCCTTATCCTTGCCTCCCG
CCCTCCAATCCCCCGGTCCTTGCCTTCTCCACCCCCCTACCCTTACCTCA
CCTCCAAATGATAATAAACGCAGCCCTGGGAGTTCGCACTTATCGGCTCT
GCAGCATTTTCGGCCGGGGTAACGCGGGCCGTGAGCACGGCAGTCATCGT
GTTCGAGCTATCGGGGCAGAATCACCTCCGGCTGCCCCTGGGCGTGGCTC
TGATGATCTCGTACTTCATCGCCAACCGCTTCACGAAGGGGATCTACGAC
GCACTCATGGATACCAACGGCACGCCGCACCTTGAAGAGGTTAGATGAGG
CAGGGTTCTACCACAGGTCGCATGAGATACCACACACCCAATGCTGCACC
GATTTCGAAAAATAAAATAAAATATTGATTGATCGCGGTGCTCCACGACG
AAGAGGTGGAGGTGCCCATGGCAACGGGACGCGACTACTCGCGATTTTGG
ACGGGAAAGCTTGGTTCAGCTCTTTCGACTAGATACATGGTTCCAGCGTC
GATTGATCGATAGATTGCTGGATCGATCGAGCACTCATGTCTGGTCGAAC
CGATTGATCACAGATCTTCTCGACACAACATCGAACAGACAGTCGCGTTG
CCGGCCTCCTCGTCTGGAGTTGTTTTGCTCTTTTTATAAATTGGGTCCTG
GCGGTAGGTCCCGTACTGTATGGTTTTGTCTTCTGCGGCTACAGTCGACA
GGCTCGGTAAAAGAATGCTATCCGTGTATGCCCTCACCAAAAAAAGCGTC
TGATTAATACATAGAAACACACAAACATACGTAATTCATACGAACACATG
CAAACATACATACATACATACATACATACATACACACATACTGCCCCCGG
TGGAGGTTACAGAGCACGTGCTCGCCCGGTTGTAGACACCGGGGATGGCT
CCGGGTTGACCCCCGCCCATGTGTATACACACCACGCGCCGTTTATCATT
GGAAGCGGAAGGAGCGCGGAAGCACCACCAATGGTTGTAGCCGCACATGA
CAGCACAAAAACCTTGCGGACTGATTTTTCAAGAGCTCGATGTGGTGTGA
CGTCGTTCCGCAGCAAATAGAAGTAAGCGCGTGTGTGCCAAACGGCACGC
AGTGGTTTTTCGGAATTACTACGACGGAATATGGGCCACAACGCATGGCA
CCGCCCCCCTTCTTTCGCGGCGCTGACGTGACGGCGAGCGCAATTCGTGT
CGTTCGCTGTGGAGGAATAGGGTGTGTGTGTGACTGTGCTGCATGCACCG
CGCGCGGCTCATCGGACTCAGGGGTGTGTGTATGTCTTTTTGTGAAGCAC
GCGGTAATCGAGGGTTTTGAATCTGGTTTTGTCACCACAGCTTTGAGTTG
GTTCGGACCTCCCCGGCCCCCCCCGCCCCCCCGCCCTTTGTCAAACAATG
TTGATTCGACTTCAGCCAGAGCAACAAATGGGCGTACAACACCCCGCCCC
CCCTCCCCCTTTCTCTCTCTTTTATTTTGTTGGGCAGCAGGTGCATGCAG
AGGACAAGAACGTTCCCGCCGAGGACGTCATGATCCCGGTGGGTGACATC
CCGTGCCTGTCTCTCAACTGCACCGGGAAGAACGCTACCGAGGTCGTCTC
CGTCTGCCAGCCCGGTCAAGTCATCCCCGTGGTGCAATCCATGTGAGGAG
AGAGAGAGAGGCAGAGAGAGAGAAACAGAGAAAGAGACAAAAGAGAAGAG
AAGGTTATTCGTTATGGTTGTTCTTGCTCTTCTTTGATTTATTTTCTTTT
TTTGTTGGGAGGGAGAAATTTTTTGATGTACATACTCCACACTGTGTGCG
TGTGTACTTTTTCTGTGTGTTGGTTGGATCGATGCACCAGATTGACTGGC
TGCTGTGATAGCACGCACCTTTTTTCATAATGCCTGGTTGATAATCCACC
CGTCTCATTGCGCCCGCCCTCATGCCGTCTCGTCCTGAATTTTACTCTGT
GTTTATGTGCTGCGGTTTCGATTTTTATATTCACGAGTATTTTTCCTTTG
GCTTCTTGCTTTGAGAGATCGCAGCGGGTGTAGGTACTGTAGGCGTATAG
AGGCACACACACGAGCGAACTGAACAGCTCACAGCGATGAGAGTGTGTGT
GTTGGCTTCACATGTAATACCGTCCCGATCTCTGCTCAGCACCTTCTAAT
GTCCGCACAGCTTACTCATCCGATACCGGGGACGCTTTCCGTCGTCACAT
GCTATGATACCTACCCCCCATAAGAGGGGTTACAGCACGCGGGGGGCAAT
GAAGGTATGTTTCATCTCTTCCTCCGCCGTCGTCGTCAAATCATTTTGAA
TCTTCCTACAGTGCGCTTGCTTCCCCGGAATCCCTCCTCCCGCTTTCCCT
CCTCCTGGGTTTTCGATCTCCTCGGCTGTGCTGGATACTTTCTTGCTCGT
TAGCGACGTGGTCTGGTTGCGCGTCAAGGTTGTGTCGGAACCTTTCGATG
ACGCGGTGTCTGCACATTTCGTCCTGCTGTTGATGCCGGTTGTATTGCTT
CTGTTATTCGCGGTTGTTCGCTCGGGGCGGTTGTGGGCGAGCCGTCCCCT
CAGCTCGACCGTGGCAACTAACTACCATGTTGCGATCCGAGTCCGCCTTC
ACCGGTTGTGCAGGTCGCGGGTGTACAACGACGTTTGGCAACTCTACTCC
GGCGTGCTTGCCTCGTAAATATTGTCAGCGGGTTTGAGGTTGGCCGTGCT
GCTCCCTCTGACCCCGTCAAAGGTGTGAGAAACTCCGCCTTTGCGTGTGC
TGAAACATGTATTGGTGAGAGCGAACTCGTTGTTTTCTGCGAATTGTAGC
AAGAGGCTGCGGGTATCGCTCAACTCATGACGTCGAAATGCCCTCATTGC
ACCTTCCATCGGTTTCCTTCCATCGTCCCTTCTTCCGGTTCGCGCGTCGG
CGTCCATCAGCATACACACGCACTCCCTTTGTCGGGATACGCTCTGCCAG
TTGGCTCAGACTATCTCAGATCGCCTGTTTGGTCTCGGCTTTTTTACGTC
TGTGGGTGCATAAGCTGCCACGGCGTTAACGGCTTCGCTCTGACCGATCA
TTTCAAACCACATTGCCATGAGGCGTTCGTCCACGCACTCAGCGGTGTAG
ATGAAACTGCGGCAGATTGACTCTTGGACGGCTATATCCCCACCTCGTGC
TGCCCACCTGCATCAGACTGACAGCTGAAGACTCTGAAACCTGCTGCTGT
GAAGCGTGTTTGTCCTGCTCTTCTCGTCTCTTACATGCCGACAATGTCAG
CACCTAGTCTCTCTGCTTCACACAGGACGTTGTTGTCGTATCCCCAGCCA
TTGTCTCCCTGTACCGCCACTGAGTCCGCGCGCTACCCTGGTAATAAGTG
CCCTCTTCTGTCTCGCCCGGTGCACGCGTGCTGCTCCCCTTGCAAGCCTG
CGTCGAGCCCGGCCCCTCCTCCTGTTTTTCCTGCTTCTCTTTTTTCTTTG
TTATTGTATGGCATCGCGGGCTCTCGAGCTGTACTTGTGCAGCCCGATGC
TTGTCTTCGTTCATCGGAAGGTTCGACCGTCTTACTCCGTTCGGCTCTAC
TCGTTGCTCGCGAGATATGTGCGTACTCAAGCGTGTGTAGCCGCTCTCCT
CCTATCTGGGCTATCACCACTGCGTTCTCCGCTGCTGCGTAGCTCCGGGG
TCCATTCGGGAGCATCTCACGTGTGCAGCTGCCCAAGTTCGGTGGGTGTG
AGGTTCTACCCCGATCTCACGATCACGTGTCATAGGTTCCCAGCAACCAA
ACTCAGGATGATCCCCGTCAATACGAGGCTTGTGCTCATGGGTCCGTCGT
CGTTGGGTGGTCTTGACGTGGCACCAGGCCACTGACAGACCTCGGCCTAC
CCCAGCAGGTTAGAAATAAGAATCACAGACCGCGCTTCACGGCTTCCCCC
TCCTTCGCTGGAATTCCTTCGCTGGAATCGTTTTGACTGAGTTCTTCGGA
TGCATGCAGTACGGAAACTCACTCACGTGAGAAACGCTTTTGTTTGGCGG
AAGACTTCGTTTCTTGGCTTGGAGGACGTGTATGATCTGAATCGCGAGTT
ATGAAGTGTGGCGTGCCAGAGTGATGTACCCTTGTGATGCCTGGAATCAG
AAACAACATAAAATAAGAATCAATCATCCTTTCAGACAGGAGTCCGTGCG
ATACGCTAAGCTCCTTTCACAGCGAGCGTTTTCGTACAAATTCATCCCGA
GAAATCGCATGAAGTATTTTTTTTTTTTGTATCCTCCGACGGAGCTTTGT
GCTTCGATACGGCAAATACGCATGTACCAGGTTACACATATGCACAAGTA
GTAGGTTTATTTCCTTCATCCGTTTCTCACACTTCTCAAGGGTTTTCTCA
CCCGGAGTTCGTTCTGCACTCGCCGATATAAATTCTCGCCTATTCATCAT
GTCATGTTGTCGAGTTTTTTTAGTCTCAAAACCTATTTTTGCGTGCCCCC
CCCCTCTTCTTTTTTTTTCCATTCGAATCCTGTTCCGAAACATGTTGAGG
GGAGGGTTTCATCGTAATTTAACCATGCGCTTCGAACGGTGCTGTTGTCT
GTTTCCAGGAACGATAAGGTCCTGGTGGGCGTAGTCCTCTGGAACGACCT
CGCCATCGCCCTGGCCGACTACCGCAGACGCGGCGGCAGCATGATCAACG
TCAACAGCATGACGCTCTCCGGCACCACCACCGACGCTACCAACAACCGT
CAGCTTCCCGTCGACGGGAGCGGCGATCGCTTCCGCCGGCAGGTGGTTGC
CGGCACCGACGGTTCGCCGTACACGGCCGCCTCGGCCACGGTTTACACCG
GCGATGGCGATAGGTTCGAGTGGGAGGAAGAAGACTCCCAAGGGGAAGAA
GATGGAGGTGGAGGGCTGGGGGGCAGCGGTTGGCCGGGGTTGGCAGGGGT
TGCGGAGGCGGTTAGGAAGAGGGTGGGCTGGTTTCCTTGGAATCGGACGG
CGGAGACTTCCCTCTTGCAGTAAGTCGTGGCGGTTGGTTGGTCGTTGGTG
TTGATGCTATCGCTGTAGTCGTAGTCGCAGTCGTGGTCGTCGTTGTCGAT
GATGCTGCCGTCCCTGTTGCTATCGGTTTCGGTTTGAAGCTTCGATTGTG
ACTACAGTTTTTAGACGTTCTCGAGCAGAGGCTTTGGTGCTCCTTCCCCC
TCCGGCCCCGAGTTGGTGTGCAGCGCGACGCGAACGTAGCACGTTTTCTC
TGTACGGTTTTTTCTGCGGCATGTAGCACAAGCCCGGTACACTTCGAACC
CCAACCCGCTACCGCTGTCCCCTGTTTTGGCAGGGCACTGGACAAGAAGA
GGGCGGACACATTCGATGAAGAGCAAAACGACACAACAAGTGGAGGTGGC
GGCAGAGGAAGAGATAGTGAAGATTTGCCCCTTTCCCCTCTCGGCGAGGG
AATTCCCCTGGGTTCATCTCCATGGACGGGCAGCCTCGCCATCGGAAGCG
GCGCCGGTGCGGACGGTGGGGCTAGCGGCAACGAAAGCCTCCCCCTTCTC
GAGAACTCCCGTTCCGGAGGAAAGAGCAGCTTCTCCTCGACCTCCACTCA
GCCACTGGGAGACTCCACGGCTGATATTTCCTCCGGCACCGACGAAGCAC
TTTGGACCCGAAACGGAAGCGCGGCTCCAGTCGGACGAGACAAAAATACC
GCCGGTGGTTCAGCCATCGCAGGGGGTGACGGTGGCGCGGAGCGTACCCA
TTTCCGAAGGGAAGGTGGATCTGCGCAGGCACCGTTATCCGCGACCGAGA
AGGCGAAGCGGGCGCCTCTGCGGTTCTACCTCGTTCGCGAGGGGCACAAG
TTCGTGGCGGTCGGGAGGCCGCGGACGAAGGGCGCCTGGAAAGAGCTTCC
CGAGATGATGCCAGCCCCCGGTGACGGCATCCCCATCGTGCTTGACCCGT
CTCCGTATCAGGTGCGTGTCTATGTGTATGTGTTGTGTGTTTTTCGCGTT
GATTGTCACACTATGATAGCTCACCGCAGCATCTAGCCTAGCCCGTGTTC
ACAAGCCAGGCGCTAGAGCGGAATGAAGTAATCAAATGAGACAATTTACC
GTACGTACGAGGGAGTGCCGCCCAGTGAGTGTGTGCGAGAGATGCAAGAC
AAATATTTTGTTTCTTGTTACAAGAAGCCTGTTCTTCGTTTGGTGGTAGC
TTGGGGTTCTGGTTTGTTGTGTGTTCGGATGCGATGCCTTATTTGTCTGT
GCGGGGAGTGGATAGAGCAGATTAAGTAGATCAAGAATATGATGATATCC
ATGGCTGTGTCAAATCTGTGGCAATCGCATAGTAAAGAGCATTTACATGG
CGGTCTAGAATTGAGTACCCTCCCCGCCTCCCTTCTCCAGCGCTCGAAAA
ATTGCTCCCGATCCCTTCCCCCTGGTAGATACGAGTCGCCCCCCCGTCTG
CTCTCCCTAAATTACAACGTTCATTTAGAACGTGGCCCCTGTCCCGTAGT
AGACCTTGCCCTTGCCCGTACACGCAACGCTCGTTCAAGAGGTGACACCA
CCCCCTCCCTACCCCTTAGCAGACAGAAGTCACGCCCCCGCCCTCGTTTA
CCCCTCAACTCGCCTCTCATAAGGTGACCCATACGACAGAGCTGTCTAAG
GTCGACATGGCTTTCCGGCTGCTAAGGCTGGACAACGCGTACGTCTGTAA
CGCAGGCCGGTTGGTGGGGGTGATCACCCGGGATAGCCTGGCCGAGTTCG
TCGACGAGCGGGGGGTCGCGCCCATGGACGACTGTTTGCGGTGCGTTTTC
GCGCGAAGTACGTGCGTTTGTCCGGCGAAAACGACACAAGTCATCATTAA
CCTAATGTGACCCGACACACCCCCGGATTGTTTTCCCACAATTCTATTAC
TGCACTCTACAACAAAGAGGTATTGAGCCATCAAATCGTGTCCATGATGC
GCCTTCAGAACGCTATTCACAGGACAGAAAATAGTCCCAACGCTTGGTGG
CCTTTTTCGGTAAAAGCACCGACACTCGTTCTGGTGTGGGGTGATCGAGC
TTTAAGAATCGGCCGAGGAGGTCCGGTGGTATATAGCACCGGCACGATCT
ACGGTGCACCCACTCACGGGTTATAAGTTTATTTCGTTGGTGCATGCAGT
GTGATCATTCTTTTTCATGCTGGCCGCCTTTTTTGCCGACATATCGTGTT
CCCTTCCGCCGTGTGTCCGCTTTTTTTCGCGTTGTAGAGCCTGTGTGAAA
TATTTCATTCTTCCGTGTCCTCCCCCTCCCGCCAACGCACGTCAAACCAA
CCACCGTCCCCCCCGGACTGGACGTGATTGGTACCCCGACGGCCCACATT
CACCCTGGCGGGGCTATGATGATGGTGCCTGTTGCGTCTGTTGCCACGCA
CAGGTTTTGCGGCGCCTTCGCATGCTGTCTTCCCGGGACCGCTGCTGAGG
CCAGCGTCGCCGGCACCGCCAAAGTCACCGGCAACGGAGGGTTCGGAAGC
CTTCGAACAAAGTCATCCGGTGCCTCGATAGTATCATCAGCAGGGGGCAT
GCGCCGCAGCAGCAGTGGTGCAACAGGGGGGGGAGGAAGGGGATCGGAAA
GCCGCGTCGCCAGCGGCAGCAGCAGCAGCAAGCTGCGGCTGCGGAACGCT
GCCAACAAGAGAGTCAACGCTGCCGCACGCACGAGCCCTCAGGCTGGGGG
TACCGCCGTAAGCGCGAGAAGCGGACTGCTCTCGGGCGCCAAGCAGGGGT
ACTCCACCCAGGGCGAAACCGCCTACGAAGACATCTCGGATGGGCGGGGG
CGGGGAGGGGAAGGGAGCGGTGCTTCTTTGGGTAAGGGGGAGTGGGACCC
CGTGTGATTTATTTCTTGTTTTAGTTTTTTTTCGCGCATGTTTTCACATC
AAATAGTCAATGGTTTTGGTGATGTCGCGTTGGCTGTATGTCGCACGCTC
ACGTTAGTTCGTGTGCACAGCAGTGGGAGTCACAGCCGTGACTCGGTCAG
TGTCATCACAAGCATATTGGGAAGAAGAGCTAGCGCCGGTCCGAGTGGAT
TTAATCCGCCCCTGTTAGATTTCACGGCTGAAGAGTTTCCAGTTCACATT
TTTTCTTTTTTTTTTGTGGCAATACTCGAGATGTAACTCTTGCGGTGGGC
TAGTTCAAATTGGCATAAGCTCGGAGGCGTGGTGCCTTACCGCGACCTAT
CTTTGTCGCTTCTCGCTGTCGTTTCTGTTTTGCGGCCTAAATTTTCTAGT
TGAAGCCTTCAAGGCAAACAACTTCTAGTTGCTGTTTTCTCTTACTTTTT
TTGTTCATCCCGAGCGCATCGCGCATTGAGTACAAACAGCAGGTAGTTGG
ATGTTTTTGGCCCGTTTCCCAACCTGTGGTTACACACGTGTAGACCACAA
AGCTACGTGCTGCTTGGTCCTTTATTTTGTGCGTGTCCTTTCCCCCCCCC
TTCGTCTCAGCACGTACAAACCACAGCTGCTTGCTGTCTGGGGCATTATT
TTTCATTCTCTTCCTACACGTTTGTTTCGAAGCAGACGGTGTGTGTGTTG
TGTTTTTCGGGCGAAGGAGGCGACGGGGAGCGGGGTCAAGCGCACCATGA
TCATATCGATCTATTCCGTCTCAAGGCTTTCGGGCCTCCTTTTCATGTCG
CTTTGCTCGACACTGAAGCTGGGTAGCACGTGCAGCCATTTTCTTTTTTT
TCGCATGGGTGCCGTGAAGCGCGCGCGGACACGGTCGAGTTATCGGCAGT
GCGCTCTCCTTTTGTTGACAAATCCGGGGTTTGTGTGTGGGTGTGTTGTG
CGTGTTGTCATCCCTTCACTTGGACGCCACTCTACACCTTGGTACGATCT
AGGATGCACAGAGGGATTGTGCCGTTCAGTGACCAGTTTCGCAGCCAAGG
ACGGAGGTGGACGAGCAGTGACGAACGGGGAAGAGCTTGGTCAATCTCAC
TCCGAGCGTGAACTTTTTTTTCAGAAGACTTGTACCCCAAGTGCACAGTG
GAGTTTTCTAGGGAACTGGAAAGCAACAACAAGAAAGAGCTGTTATGTGA
GAGAGCGGCGGTGATGGAGGTGACCTAAGGCAACGCCGGCAGTGAAGAAT
CGTTACGAGAGCATTGTGCTGGTGATGTGGCCTTGGGCAACGCCAAGCAG
CAACGTGGACCCAGCCAGACAAGGAGGACATGTTTAGGGCGACATCATCA
CCAGCGCCGCAAGGACGGCATGGAGACACCATCCTCGACAACATCATCTG
ATACGTGTGTGTTTTTGTGTTTTTTCTTTTTCTGTCTTCTCCTATTGCCG
GGGCTACTTGTACGTTGCAGGCAGCACTCCAGACAGCAACTAACTGCTGT
AGTCTGCAGCTACCTACTGGCTGCTTGTAGCAGCAGGTTACTAGTTATAA
GTGGGGAGGGAGGAGACTGAACACGATGTTGTAGTCAAATGAACGACGCT
GGAAGTACGTTTGATGTTGGTACTGATGCGACTGCTGTAGTTCAGCGATG
CACACCGCATAGGAAGGTGTATCTTCTTCGGTCTCTCTTGGGTGTTCCCT
TGTAGTTTCTTTCTGTCTTTTGGATCTTCCTAGGGCTCAGCACTTTTTGT
GACCACGGGCTAGATTTTGGAGATGAGCTAATGTGAGAATCAACAACCTT
TCGGGGAGGTGGACGCTCCAACCGGGGTCACACAGGGGAAAGTCAACACA
GGAGTTTTTTTTTCTTTCTTTCTTTCTCCACTTCCCTCTGCGGTGCTTGC
CTTGTTTTTGGTCGAGCTTTTTATCGCGAGAGAGGGGACAGCAATCCCTT
CCCCTCGTCGATGGTTCGATCGAATTTTGTTTACTCACGAGTTGATCGCT
TTCAAATGTCACGCGCCATGTGAGAAAAAAACCCAGATCGTGTTACTGCA
CTGGGGTTCGAACTCACGCGTGAATGTCAAAAGGTTGTGTTGGATACCAA
TTGAACCACCAGGGCGACCGGTATGTACACCCTCTTGCTTCAATTCAACT
TTTTTAACCACTATGCGTGTTGCCGAAGGCACCACGATGGGATGGTAATG
GTAAAAAGCCCGCCGCAGGCGGAAAATGTTTTGGGCTTACCATCACCGGT
GATGGTATGGTGTTCTACCGCTTGTTGATGGTAATGGGATGGGATGGTAA
AGATGACACAAAATTTGTGATGGTATGGGATGGTATCACAATTTCTCGTT
GATGGTATGGTATGGTTTTGGGATTTCGTGTTGATGGTATGGTATGGTAT
TAGGATTTCGTGTTGATGGTATGGTATGGTATTAGGATTTCGTGTTGATT
GTATGGGATGGTATTTGTGTATCGCTATTGGTGGTATGGTAAGGCTGGCG
CCGTCTCGATGGGTGATGGAGGAATGATGGGGAAGCCACGTCATCATCAT
CGTTTTTTAAGTAGCGAGCGTTCCACTCGTTGTGCAGCTTGCATATATAT
ACAGCAGTATATACAGCAGTATATATATATCATCGTACGTGTGGCCGGGC
GGTTTGGGCTGTTGGTGTCAGAACCCAAGACGGAGACCATGTGTATGCTC
GCGAAAGGGATGGAGGCGTGCTCGTTCACGATCGACGCTGCCGGGATGGT
CTTCAAGCAGAAGAAAGACTTTGTTTATCTCGGGGGTAAGATTTGTGAGG
ACGGTAGCATTGAGGGCGAGATTAACCACCGAGTGCAGCGAGCGCACGCC
TGCTTCCGGCGCAACAGCCAGGCAATGTACGACCGCCCGGGGGCCCCTCG
TCGACTAAAAGTACGACTCCTCCAAGCTGAAGTCGTTGAGACCCTACTCT
ACGGGTGTGTCACATGGAATCTGAAGCCAGCGGAGTACCGCAAGCTTCGG
TCAGCCCACCACTTCTTCCTCCTTCGCTGCATCGGATGGAAAAAGAGGGA
GAGAACAGACCGACCCCTCTCCTACGCCAAAGCCCTGATCACCGCGGGTT
GCAACGAGAGCGTTGAGGCCACCGTGCGCAAGCGGCGACTGTGCTTCGCA
GGATTCGTTGCGCGCATGAGAGACGAGAGACTCCCGAAAATTGCTCTTTT
GGGAGAATTGCAGGGGGGAGCGAGGTATCTGGGGGGGCAAGAGTTTGACT
GGCTGAGGCGACTGCAGAAGGACCTCGAAGCGTTCGACATCGTTGTCGAC
AAAAAGGAGGGGTGGGAGGCAAGTGCCAAGAGAGCTGATGAGTGGTACAA
CAGGATCGACGAGGGTGCGCGGCGGTTCACGGACGAGTGGCTCAAGAAAG
AGGGAGACCTTTCAGAGACACGTCGACGGAAAAGGGAGAGGGACGCGGCT
GAGAGGCAGGCCTTGACTAAAAGAGGGAGAACGGATGGCGGGGATAAACG
AGAGGAGGAATACGGGGGGGCACAAGGGCAGCGGGGTAGTGGGGTTGGAG
TTGCACAGCACAAGAAGAAGCAGTCCGATGCCAATCTACGGGGTGGCCGG
AGTGGAAAACCTGTAGGGCGGAGTGGTGGTGTAGCTGCTGCCAAAGATGT
GGGGCAGAAACATCTGGGTATGGTGGTGCCAGTAGCAGGAGGCATGAGTG
CGACTGAGGAGAGCAAGCGTGAACAGGCAGACCTCGTGGCAAGACACGTT
TGCGATTGATTGCATGCCTTTTATTTTATTTTTATCACCTCCCCCTCCCC
CCCCCCCCCCCCCGACTTCCGGTACTTCCGATCTTCTTTTCCCTTTTCGT
TCCCCTGCTTTCTCTTTGTTTGGCCCTGTTTGTTGTGTTTGTGTACGAGT
GCACTCCCTCAGTCTTTGTGCCCTCCCTGTATCTTCTTCTTTTTTATTTT
ATTTTTTGTCTTTCGTCTGTTGATCATATGGTTACTGGACCATCGCCCTG
GTTTGCGTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTAC
GAAGTACTTCGAAGTATATGGTTATGGTTGATGAGGTTTGTCTTGGTTAT
TTTTTTTTGTTTGTCGGACTGTTTCCAATTTTTGTTTTTCTTTCGAGCCT
GTTATTTTTTCTGTATTTGTTTGGTATTCTGGCCACCACAGATGGTACCC
CAACGGTACCATATCTGATCTGACTGTGGGAGATCATAGTCCATACTCGG
AGTATATATATATATATATTTTTTTTTCCTCCTAGCACGATATGTGCCTG
GTTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATC
AACAACAACATACATATAAATATATACACTCGTATCACGTCAATCTAGTA
CCAGGTACCAGGTATGTCACACGTCAATGTGTTACATACTTCATACACCT
GTGTATCATACGATCATGCATTTATTATACTCCGTTTTAGAGGAGAAAAT
GCCTACAAGTACGAAGTACTCCGTATTGTTCATCAAGGATGGGGGAATCC
GCAGAGATTCATGTTACCTACCGGTAATTACCCCAAATCAGGAATTGTTG
ATGTTACCTCCCGGTAATTACCGTTACCGCAAGGGGACGAAAAGATCCCA
TCCCTGGGGGTTCCGTGTGTAACTGTATTACCCCACCCCTGGGGGTTCTG
TACCCCATCCCAGGGGGTTCTGGGTCTAGCTTCGTGCTTTGCTCTTCGCG
TTCCTCGACGAAAATGCATGTGGTTGTCGAGTGCTGCCTTCTCCAAATCT
GCAGAGGTTCGGACGCATATTGTATTATGCGTTTATGAGAACGGCCCGGC
CCTCGAGACCATCGGGCTGGGAGGCGATGCTGCTGGTGGCGTCGATGGGA
TTCTGCCCGCTCATGTTGTGGTCTGCTGTATTGGTGTGGTCTGCTGTGTG
CTGTGTGCTGTGAGCTGTGTTTGTTGCGTTTTTGAATTTGAAAGGGGGCC
GTTGGTGGGGACAGGCGGGGTATGCCGGGGCACCGCAAAAATAACCGCGA
AATAACCCCGGAAAAACGAAGAAAAACCATGTTACCTACCCGCGCACTAT
GTTACCGGTAATTACCGGGACGCGGTCTCCCTCATCCGTGTTATTCATTG
CTTGCACTCTCAGCATGCGTTGTCATTTGACCCCGGAACAACATAAAACA
ACGACACTACTAGTTGACTAGTTGAAACCGTTTGCATTTCTTATTCTATT
CCATAGTTTCTTTACTTTGTCCCAACAACTAAGGCACGGAGAACAACCAA
ACAGGAAAAACGAATGAATCTCCACAACAGTACCCTCACGGGCGCTCTGG
GCGGCAACGGATACAGCCGCCTGTAC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig106:253265..291290+ >mRNA_P-littoralis_Contig106.55.2 ID=mRNA_P-littoralis_Contig106.55.2|Name=mRNA_P-littoralis_Contig106.55.2|organism=Pylaiella littoralis U1_48|type=CDS|length=3708bp|location=Sequence derived from alignment at P-littoralis_Contig106:253265..291290+ (Pylaiella littoralis U1_48)
ATGTCCCCAGCGCTGCATCGGAGGAGAGTTAGCGCCGGCCTTGCCTCGGT
GAAAGAGAGGATGATGGGAGGCAGCCGTAAGGCGCTCTTGGGGCCGACCA
AGGCATCTAGCAGGTGTGAAACTGTTGCTGTTACGAGCTACGAAAAGTTC
TCCGATGCTGCAGATTCGCGGAGAGGAGGAGGAGGAGGAGGAGGAGGCAC
CGATGGCGGCGGCAGCAGCGACGGCGACATGCGTCTGACGAGACAGCGGT
CCTCCACCTGGGACGAGCACGGCATCGCCAAGCAGCAGGAGGAGCGGAAG
ATGAGGACAATGGTGCGCGCGAGCAACGCCAGCGGCGGCGGCGGCGGGAA
CGGAGGGGGGCGGGCCAGAACCTGGAGCCACGACGGGGCATTCGACCAGC
ACGGCGCAATGGGCTACGGGCCTAGCGACGAGTGGGCTCACCTCGATGCA
TTTCAGGCATGCGCGATGGGCTCCATGTTCCAGCAGGAGCTATACCATGA
AAAGGCGAGCGGGCTTGTGGATGTCCTCGTCGATCGGATTCGGGTTCCTC
TGTTGATTATTTTGGTGGGCGTGTCAGCAGCCATCGCGGGGATGACGGTG
GACTACCTCTGCAGCTCGGCTAGGCTGTGGAGAATCAACGTCACGGCTAT
CCGTATGGACGTCCCGTTCGGGTGGGGATTGTACGCCTTGACGTCCCTCT
CGCTGACGCTCGGCATGTGTGCGATCACGATCTTCGTTTGCCCTTGCGCT
TCCGGAGGAGGGGTTCCAGAAATGAAGGCGGTTCTGTCTGGCGCGAGCCG
GCCGGGCCTACTGTCGGCACAGCTGGTGGTCGTCAAGATTGCTGGGGTTG
TCGTTGCGAACGCCGCCGGGCTCTCTGTGGGAAAGGAGGGCCCCCTCATC
CACATCACCTGCGCGATGGCGGACATCCTTATGTGCAGCCCTTGGTTCAA
GAAGGTGCGGCTGAACACCATGAAACGGCTGGAAATATTGGCCTGCGCGT
GCGCTGCGGGGGTGGCCGCGACATTCGGGTCTGTCTTCGGCGGCACCCTG
TTCAGCGTGGAGGTTACGGCTACCGCCTACATGGTGCAAACCCTGCCGGC
GACGTTCTTCTGCGCCGTGGTGGTGGCGGTCGTGTTCTGGGTCGCCGGGT
TGTCCGACCTGTTCACTCTCATTAACTCAAACACACGTCAGGCAAAGGGC
TTCACGGGAGCCGACCTCTTCGCGTGGGCCGTGCTGGGAGCCGTCTGCGG
TCTCGTCGGCGCCTGGTTCGTGGCGGTGCTGGACACTCTGTCGCGCCGGA
GAAATATCTTCACCAGGAGGAGCCTCGAACCCGCCACTAGGAAGCTCCGA
CTGTTCGCTGTAGTGGCCTTGGCGACGCTCATGGTGATACCGGCTTCGTA
TACGGAGGCTGTCGCGTTCAGCATCTATCACGATACGGGGACAATCAAGT
ACCACCCCCTGATCGACAGGGTCTACGATCAAAGGCAATTCGGGATGTCC
TGGCACCTGGTTCAGCTGCTGGTGCTGAAATGCTGGGCAACCATCTTCTC
CGTGGTTCAGCCGTTGCCGGTGGGGTTGTTCAGCCCCATCTTCATAATCG
GCGGACTGATGGGGAGAATCTTCGGAGAATTTGCAAATTGGGTGGACAAG
TACCACGACAGCGTGAGCATCAACTTCCAGCCCTGGGAGTTCGCACTTAT
CGGCTCTGCAGCATTTTCGGCCGGGGTAACGCGGGCCGTGAGCACGGCAG
TCATCGTGTTCGAGCTATCGGGGCAGAATCACCTCCGGCTGCCCCTGGGC
GTGGCTCTGATGATCTCGTACTTCATCGCCAACCGCTTCACGAAGGGGAT
CTACGACGCACTCATGGATACCAACGGCACGCCGCACCTTGAAGAGGTGC
ATGCAGAGGACAAGAACGTTCCCGCCGAGGACGTCATGATCCCGGTGGGT
GACATCCCGTGCCTGTCTCTCAACTGCACCGGGAAGAACGCTACCGAGGT
CGTCTCCGTCTGCCAGCCCGGTCAAGTCATCCCCGTGGTGCAATCCATGA
ACGATAAGGTCCTGGTGGGCGTAGTCCTCTGGAACGACCTCGCCATCGCC
CTGGCCGACTACCGCAGACGCGGCGGCAGCATGATCAACGTCAACAGCAT
GACGCTCTCCGGCACCACCACCGACGCTACCAACAACCGTCAGCTTCCCG
TCGACGGGAGCGGCGATCGCTTCCGCCGGCAGGTGGTTGCCGGCACCGAC
GGTTCGCCGTACACGGCCGCCTCGGCCACGGTTTACACCGGCGATGGCGA
TAGGTTCGAGTGGGAGGAAGAAGACTCCCAAGGGGAAGAAGATGGAGGTG
GAGGGCTGGGGGGCAGCGGTTGGCCGGGGTTGGCAGGGGTTGCGGAGGCG
GTTAGGAAGAGGGTGGGCTGGTTTCCTTGGAATCGGACGGCGGAGACTTC
CCTCTTGCAGGCACTGGACAAGAAGAGGGCGGACACATTCGATGAAGAGC
AAAACGACACAACAAGTGGAGGTGGCGGCAGAGGAAGAGATAGTGAAGAT
TTGCCCCTTTCCCCTCTCGGCGAGGGAATTCCCCTGGGTTCATCTCCATG
GACGGGCAGCCTCGCCATCGGAAGCGGCGCCGGTGCGGACGGTGGGGCTA
GCGGCAACGAAAGCCTCCCCCTTCTCGAGAACTCCCGTTCCGGAGGAAAG
AGCAGCTTCTCCTCGACCTCCACTCAGCCACTGGGAGACTCCACGGCTGA
TATTTCCTCCGGCACCGACGAAGCACTTTGGACCCGAAACGGAAGCGCGG
CTCCAGTCGGACGAGACAAAAATACCGCCGGTGGTTCAGCCATCGCAGGG
GGTGACGGTGGCGCGGAGCGTACCCATTTCCGAAGGGAAGGTGGATCTGC
GCAGGCACCGTTATCCGCGACCGAGAAGGCGAAGCGGGCGCCTCTGCGGT
TCTACCTCGTTCGCGAGGGGCACAAGTTCGTGGCGGTCGGGAGGCCGCGG
ACGAAGGGCGCCTGGAAAGAGCTTCCCGAGATGATGCCAGCCCCCGGTGA
CGGCATCCCCATCGTGCTTGACCCGTCTCCGTATCAGGTGACCCATACGA
CAGAGCTGTCTAAGGTCGACATGGCTTTCCGGCTGCTAAGGCTGGACAAC
GCGTACGTCTGTAACGCAGGCCGGTTGGTGGGGGTGATCACCCGGGATAG
CCTGGCCGAGTTCGTCGACGAGCGGGGGGTCGCGCCCATGGACGACTGTT
TGCGGTTTTGCGGCGCCTTCGCATGCTGTCTTCCCGGGACCGCTGCTGAG
GCCAGCGTCGCCGGCACCGCCAAAGTCACCGGCAACGGAGGGTTCGGAAG
CCTTCGAACAAAGTCATCCGGTGCCTCGATAGTATCATCAGCAGGGGGCA
TGCGCCGCAGCAGCAGTGGTGCAACAGGGGGGGGAGGAAGGGGATCGGAA
AGCCGCGTCGCCAGCGGCAGCAGCAGCAGCAAGCTGCGGCTGCGGAACGC
TGCCAACAAGAGAGTCAACGCTGCCGCACGCACGAGCCCTCAGGCTGGGG
GTACCGCCGTAAGCGCGAGAAGCGGACTGCTCTCGGGCGCCAAGCAGGGG
TACTCCACCCAGGGCGAAACCGCCTACGAAGACATCTCGGATGGGCGGGG
GCGGGGAGGGGAAGGGAGCGGTGCTTCTTTGGGTAAGGGGGAGTGGGACC
CCGTGTGA back to top
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