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Homology
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A6H5JA44_9PHAE (SAC domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JA44_9PHAE) HSP 1 Score: 1678 bits (4346), Expect = 0.000e+0 Identity = 911/1203 (75.73%), Postives = 948/1203 (78.80%), Query Frame = 3
Query: 45 MREPRKPSATEATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPTSLADICQEDPVVYTPIDMIEMLDMINEGNRTVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFC-------------------------------------------------SAPRRELEQLPKHQGNTGRGELPSLRQAQN-----TGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAGLQSMREYKKDQYYLDQDEEPASESSESGAGAFSAATTLSGMIDEDRIAEMQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPKQGQLPERFVRIHEPERLTSFEKWFSHEFAVPVPSHPGKTSNGGSAIEKVPSRPVVQKTVVSRGPRRGDQNVTIGRYVRDISVKARSMLGRPQRGVLSLSRPTESVLADREPDPREDPMWGARDVPYIGSPIAEEDADAEVASYAAFSNDMNLLVDPANETELASYLADFTLATDTAAGALALQNLAEEHHCGATLTVEPYEGLRKDISARWVEAAVVRQVQQLGWAAERNLDFQEGWEITEEHLQHSGINVDGVVNQIRRRLEHEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYFSKDGA----KERARGTHPNSGSAANGFQDDGHRDGSEHFIMVDEDIFSSKEYQY 3479
MREPRK S +ATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPTSLADICQEDPVVYTPIDMIEMLDMI+EGNRTVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPAD ASG LSSTAAHG+DSNAFVSTLAKVNRRL+PT RETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGA++QRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEG+KEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMP H IRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFC SAPRREL LPK +G TG GELPSLR+AQ+ RTR+AP A+ LNE + + +M H +G PKR +PPPWG GLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVS +GPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVP ST KPLWELDTDYYLHNFHAENAGLQSMREYKKDQY+LDQDEEP +S+ESGA A SAATTLSGMIDEDRIAEMQLKRRRVRRMCARQRAATSQWWRDALQRYAQ+RMWMHLGPPKQGQLPERF+RIHE E PRRGDQ+VTIGRYVRDISVKARSMLGRPQRGVL+ SRPTESV ADREPD RE PMWG RDV YIGSP+AEEDAD E+ASYAAFSNDM+LLVDP NETELASYLADFTLATDTAAGALALQ LAEEHHCGATLTVEPYEGLRK EEQE+ HLE+VLG EALQ R ST T+ESMDLYCSYFSKDGA R+R P+S A DD +F MV+ED+FS KEYQ+
Sbjct: 1 MREPRKQSTAKATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPTSLADICQEDPVVYTPIDMIEMLDMIHEGNRTVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADTASGALSSTAAHGNDSNAFVSTLAKVNRRLHPTQRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAYLQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGIKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPSEHKIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCRQARSRYCCCYFAVHWIPGSASDESEARTRLLASTSVLSPHFSVSSWSQSAPRREL--LPKDEGTTGGGELPSLRRAQSYSQGGLARTRNAPEAQQNLNEVNGQGAAMLHAKSG---------EPKRPSGDPSGLLPPPWGHGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSRGNGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPTSTGKPLWELDTDYYLHNFHAENAGLQSMREYKKDQYFLDQDEEPTGDSNESGANALSAATTLSGMIDEDRIAEMQLKRRRVRRMCARQRAATSQWWRDALQRYAQQRMWMHLGPPKQGQLPERFIRIHEKE------------------------------------------------PRRGDQSVTIGRYVRDISVKARSMLGRPQRGVLTSSRPTESVHADREPDTREGPMWGVRDVAYIGSPLAEEDADTELASYAAFSNDMSLLVDPENETELASYLADFTLATDTAAGALALQKLAEEHHCGATLTVEPYEGLRK-----------------------------------------------------------EEQEQAHLEEVLGLEALQSRTSTFATDESMDLYCSYFSKDGAVRSAPSRSREKQPSSSGAVKKRMDD-----RSNFTMVEEDVFSPKEYQF 1080
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A835YSI4_9STRA (SacI homology domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YSI4_9STRA) HSP 1 Score: 947 bits (2447), Expect = 0.000e+0 Identity = 619/1463 (42.31%), Postives = 759/1463 (51.88%), Query Frame = 3
Query: 66 SATEATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPTSLADICQEDPVVYTPIDMIEMLDMINEGNRTVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIK-----------------------------------------------------------------------------------------PADAASGGLSSTAAHGS-DSNAFVS----TLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAP------RRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWG----------------------------------------------------QGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAGLQSMREYKKDQYYLDQDE-------------------EPASESSESGAG----------------------------------------------------------------------------AFSAATTLSGMIDEDRIAEMQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPKQGQLPERFVRIHEPERLTSFEKWFSHEFAVPV-------PSHPG---------------KTSNGGSAIEKVPSRPVVQKTVVSRGPRRGDQNVTIGRYVRDISVKARSMLGRPQ----------------------RGVLSLSRPTESVLADREPDPREDPMWGARDVPYIGSPIAEEDADAEVASYAAFSNDMNLLVDPANETELAS-------------YLADFTLATDTAAGALALQNLAEEHHCGATLTVEPYEGLRKDISARWVEAAVVRQVQQLGWAAERNLDFQEGWEITEEHLQHSGINVDGVVNQIRRRLEHEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYFS------KDGAKERARGTHPNSGSAANGFQDDGHRDGSEHFIMVDEDIFSSKEYQYMLFNEAGKKTALRIL 3524
+A E TLEPVVSKLERFVLYET H+YL D+ ++ YRVLK+DR V +PT+L+DI EDP Y M+EMLDMI+EGNR GGL+ A YGIVGFVRFLDCYYL +TQRR VGAIGGNLVYA+KATE F I+ P DA S G++ S DS A V+ L VNRRLNPT E AEA+YL LFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNF+ TRELE+ GHLNSSFWV P+VHGAF+QR+C L GR+L +TV+ARRSRHFAGTRYLKRGVSD G VANDVEVEQ+ H EGVKEG+FSSF+QMRGSIPT+WTQESS++IPKPPIV SRVDP Y+ATQ HFADLL RY SP+LVLDLVKQTERR+REVIVG EYR+A+EH+NSTMPP H IRYCALDFSHLSKHR MNVLKALE+VA W + QVGFFCS P R R P+ XXXXXX +G + EQQGVLRTNCIDCLDRTNV QFSIGVHAL QLY MG+++ LES SQV LV MELYSELGD+IALQYGGSEAHKKVS GP KQVGSMNKH+ELLTSIRRYYSNAFTDR KQDA+NLFLG ++P D PLWEL++DYYLHN H + QSMREYK++ YY D D A ++ GAG A +A T +G + EM +KR RVR M Q AA QWWR+ALQRY Q RMWMHLGPPKQGQLP RF RIHEP +LT F+ +F+ +FA+P+ P P + K + VV + G++ +TIG YV+++S +ARSML P R S S + S + DP ++G ++ + A + YA+ + L+ A++ + S YL+DFT+ T++ A +L+ +A+E C L ++GL + + A+ AA + Q++QL +AA+R LD L L EQ ++ ++L +++ +S LTT +++LY S+F +D E + A + +D S+ F+ ++ED+++S+ Q+MLFN G +A +L
Sbjct: 61 AAAETTLEPVVSKLERFVLYETQPHMYLVGCDKLQSQYRVLKMDRSVTHPTALSDIVTEDPTPYGARAMVEMLDMIHEGNRASGGLAKVAVAYGIVGFVRFLDCYYLCLVTQRRRVGAIGGNLVYAVKATETFPIRLDPAAXXXXXXXXXXXXXXXXXXXXXXXGASTHAADPAQPQHNAFFNIWSKARAAALVPIGSDTAVDTWCTLTAAPMQGAPPAARPRHCPEDATSSGVACQGGVFSMDSAAGVTGETRPLRHVNRRLNPTPSEVAEARYLSLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFYLTRELESLTGHLNSSFWVQPVVHGAFLQRRCSLFGRVLTLTVMARRSRHFAGTRYLKRGVSDCGAVANDVEVEQVVHVEGVKEGMFSSFVQMRGSIPTYWTQESSMTIPKPPIVLSRVDPTYTATQSHFADLLTRYSSPLLVLDLVKQTERRKREVIVGTEYRKAIEHINSTMPPEHKIRYCALDFSHLSKHRSMNVLKALEDVAEWAIDQVGFFCSGPTVKTRCRASTSSTASTPXXXXXXXXXXXXXXXXXXXXRPHARPPPLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRGRGMRAREQQGVLRTNCIDCLDRTNVAQFSIGVHALGCQLYEMGIASSHLLESSSQVVLVLMELYSELGDHIALQYGGSEAHKKVSSGGGPSKQVGSMNKHKELLTSIRRYYSNAFTDRVKQDAMNLFLGVFIPAEHDLPLWELESDYYLHNAHVHSGPPQSMREYKREVYYPDLDALDDSTRGTALATAPAHRRWSLAIRATPQGAGWGTPLARPRPSLQRRHTAGTMPHRSRSGGALTXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMAETAMTVYNGSRKNE---EMHVKRERVRLMVIAQAAAAGQWWREALQRYGQARMWMHLGPPKQGQLPPRFDRIHEPHKLTYFDHYFALDFAMPISVVRDATPKLPAPXXXXXXXXXXXXQTQPDRASPKHHKHSRKKVVDFALDDSAATMGERGITIGTYVKELSERARSMLQLPMGAGXXXXXXXXXXXXXXRARNMRHATSASLLSVSSAGGSQRGSL-DPGGCFLQTGFVGDDVSPDAAPPQFVQYASVARCPEQLLQAADDEDALSEFQVRIASAGPGAYLSDFTVDTESVASVDSLKRMAQEGSCTQILAQGSFKGLPQTVVAKKAAAAALEQMEQLSFAADRGLDMAAQHAQVVRALXXXXXXXXXXXXXXEEGLARREQAQMEFAQMLSDDSVTAALSPLTTLPTVELYASFFDTRSCYREDYKTEETKVLETQPPDAGSALAPALAQDVSDVFVHLEEDLYASRYNQFMLFNAPGCSSAKNML 1519
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A7S2RBY7_9STRA (Hypothetical protein (Fragment) n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2RBY7_9STRA) HSP 1 Score: 706 bits (1821), Expect = 3.030e-233 Identity = 439/1000 (43.90%), Postives = 591/1000 (59.10%), Query Frame = 3
Query: 558 VNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMP-MEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAGLQSMREYKK--DQYYLDQDEEPASE--------------SSESGAGAFSAATTLSG--MIDEDRIA-----EMQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPKQGQLPERFVRIHEPERLTSFEKWFSHEFAVPVP------------------SHPGKTSNGGSAIEKVPSRPVVQKTVVS--------------RGPRRGDQN-----VTIGRYVRDISVKARSML--GRPQRGVLS--LSRPTE-SVLADREPDPREDPMWGARDVPYIGSPIAE-EDADAEVASYAAFSNDMNLLVD----PANETELASYLADFTLATDTAAGALALQNLAEEHHCGATLTVEPYEGLRKDISARWVEAAVVRQVQQLGWA---AERNLDFQEGWEITEEHLQHSGINVDGVVNQIRRRLEHEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYFSK 3335
VNRRLNPT +E AE +YLGLFQFIDL+KDFF+SYTYDLT SLQHNMTAATSKTFP PP KDMYAWN + TRE E+ +G L++SFWV+P++HGAF+Q+KC L GR L++ +IARRSRHFAGTRYLKRGVSD GKVANDVE+EQI H E EG FSSFLQ+RGSIPTFWTQE+S+++PKPPIV +R+DP YSA+Q HFADLLERY SP++VLDL K E+RERE+IV EYR A+E++NS +P I+YCALDF+ LSK+R +NVLKAL+ VA W++ Q G +CSAP+ ++ + G L S+ Q APA P G + G + P +PP PV +EQ+GVLRTNCIDCLDRTNV QF++G+HAL +QL VMG+ N ++ES SQ+ +V M+LYS +GD +ALQYGGSEAHKKV+ SG + GS K +E+LTSIRRYYSNAFTDR KQDA+N+FLG +V + + PLW+L+ DYYLHN + L +M+ + LD+DE +E S+E+ G + + G M D+D+ A + Q +R RVRR C +Q A WW ++L RY QRRMWM LGPPK+G++PERF+RI++P +LT F+K F+ EF VP+ + PG S +A E S P D++ VTIGR VRD+ + + GR + S RPT R+ D + + R+ ++GS A +D + + ++ F+ + + D P E + L + L D G L+ A + H G + V PY GL + SA++V A V ++ +L A Q+ + L+ GI +GV Q+ ++ + ++L E+L R S+L+ +ES+ +YCS F +
Sbjct: 1 VNRRLNPTQQEIAEQRYLGLFQFIDLSKDFFFSYTYDLTQSLQHNMTAATSKTFPLPPCKDMYAWNCNLTREFESCIGQLSASFWVLPVIHGAFLQKKCTLFGRNLHLMLIARRSRHFAGTRYLKRGVSDQGKVANDVELEQIVHEESKGEGTFSSFLQVRGSIPTFWTQETSVTMPKPPIVLNRIDPTYSASQLHFADLLERYSSPIMVLDLTKHEEKREREIIVASEYRCAIEYLNSLLPSSSQIQYCALDFNQLSKNRQINVLKALDRVARWSIAQTGIYCSAPKSQVTS------DGGVEPLASVGQQ--------APATPPRA--------------AGSAQGGEEGVEP----------LPPSLA---PVQQTVEQRGVLRTNCIDCLDRTNVAQFAVGMHALGQQLAVMGMRNTATIESNSQIVMVLMDLYSAVGDQVALQYGGSEAHKKVARDSGDARPGGSSGKGKEILTSIRRYYSNAFTDRVKQDAMNVFLGNFVADDHEVPLWDLENDYYLHNLEVQKGSLMTMQGTAPAWETESLDKDEGAEAEEHVGGDPGTGRVEGSAEAVEGMGVSGRRIGGKQMADKDQAAATKTIQQQRQRVRVRRWCLQQSEAAMAWWFESLHRYDQRRMWMRLGPPKEGRMPERFLRIYKPHKLTQFDKVFNCEFMVPIALAQTQVESAGGLGRAGNQARPGTRSPPQAAEEXXXXXXXXXXXRTSLDEAGLPGFHGASDADPDDRDEDGPERVVTIGRLVRDLIPRVGRTINFGRRFSDMPSHLQDRPTSLPTRKKRDIDAQREAWESFRNHKFVGSLTAPTKDQLKDFSKFSEFAQNPPMHEDHSLHPDAEAQFQHALWEVNLDADDVVG---LRTAAVQAHLGKCIEVGPYAGLDQKHSAKFVAAQVEEELNKLTGANLWTPLERPGQQKYREAIHVLEGMGIGSEGVRGQVSHGIDSALSNQSKYAELLNLESLSQRQSSLSDQESLSVYCSQFQR 956
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A448ZH39_9STRA (SAC domain-containing protein n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448ZH39_9STRA) HSP 1 Score: 706 bits (1823), Expect = 2.050e-229 Identity = 480/1223 (39.25%), Postives = 648/1223 (52.98%), Query Frame = 3
Query: 27 SSGSTGMREPRKPSATEATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVN---------------------------------------------------------------PT--SLADICQEDPVVYTPIDMIEMLDMINEGNRTV-------------GGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSS--TAAHGSDSNAFVSTLAKVNRR--LNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEG--VKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVN-STMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAGLQSMREYKKDQYYLDQDEEPASESSESGAGAFSAATTLSGMIDEDRIAEMQ-LKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGP-PKQGQLPERFVRIHEPERLTSFEKWFSHEFAVPV-----PSHPGK---------------------TSNGGSAIEKVPSRPVVQKTVVSRGPRRGDQNVTIGRYVRDISVKARSMLGRPQRGVLSLSRPTESVLADREPDPRE--DPMWG---ARDVPYIGSPIAEEDADAEVASYAAFSNDMNLLVDPANETELASYLADFTLATDTAAGALALQNLAEEHHCGATLTVEPYEGLRKDISARWVEAAVVRQVQQLGWAAERNLDFQEGWEITEEHLQHSGINVDGVVNQIRRRLE-HEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYFSKD 3338
+ GS+ ++ RK + +L+P + KLER+ L+ T+ YL ++ + YRV+K+DR ++ PT +L + EDP VY+ ++ +MLDMI++GNR GGL AK YGIVGF++FLDCYYL IT+R VG+IGGN +Y IK+TE F IKPA++ +GG + H S+ ++ + R L T RE AE +Y GL+Q +DLTK+FF+SYTYDLT SLQ N+ + TSK FPPPPFKDM+AWN+ TRELE L+S W +PI+HGAF+QRK + GR LN+ ++ARRSRHFAGTRYLKRGVS+ GKVANDVE EQI H E V GVFSS+LQ+RGSIPTFWTQESS+++PKPPI +RVDP Y+AT+ HF DLL+RYGSP++VLDLVKQ+E++EREV VG EYR A++H+N S H IRYCALD+SH+SKHR ++V +L EV+ W V Q GFFCS P+ ++ + + EP +D + + G+P MEQ GVLRTNCIDCLDRTNV QFS GV A+ +QL VMG+ + L+ S + V +++Y ++GD+IALQYGGSEAHKKV+ G + KH+ELLTSIRRYYSNAFTDR KQDA+NLFLGYYVP PLWE++TDYYLHN E + M+ Y+K L+ + + S+ SE + S + + + Q LK ++VR C Q A S WW+ ALQ Q+RMWMHLG P + LP RF R+++PE++ F+++F+ +A PV H G+ SN + +K + P + + S G + T+ R+V+ + G S RPT S D P R D W RD Y+ + E + ++ AF E S L +L + G + NLAE H G + Y+GL +D SA V V Q+ + R + QE + L+ G DGV I + H E EK + E G + + R S LTT S+ LY S++S D
Sbjct: 29 NKGSSEVKSVRKDGSP--SLDPYIGKLERYELFCTNQSYYLVGCNKQNSQYRVIKMDRTLIERRVAVDQNKGGQHQQQHXXXXXXXXXXXXXXXXXXXXXXXXXXXXSSTAVNQAVLNDAAHNCKPTLRNLKEFIYEDPNVYSQSEIQDMLDMIHDGNRLRREDRRAVPVESGGGGLKPIAKAYGIVGFIKFLDCYYLTLITRRAKVGSIGGNGIYTIKSTETFPIKPAESVNGGTGNGDIDIHADPSSVLLNMWNRGKRSVGLGLTNREIAELRYQGLYQVVDLTKNFFFSYTYDLTRSLQENVLSNTSKPFPPPPFKDMFAWNYFLTRELEECTDSLSSFHWQMPIIHGAFVQRKLNDYGRSLNVILLARRSRHFAGTRYLKRGVSEQGKVANDVEHEQIVHDESKAVSNGVFSSYLQVRGSIPTFWTQESSVTMPKPPIELNRVDPTYTATKLHFEDLLKRYGSPIVVLDLVKQSEKKEREVRVGNEYRHAIDHLNLSIESDAHKIRYCALDYSHISKHRHLDVSTSLNEVSTWAVNQTGFFCSNPQWKISK---------------------------GGSIEPFSEKDCQAASILTEK------------------------------VGVPTFAMEQTGVLRTNCIDCLDRTNVAQFSAGVEAMEQQLVVMGIRSNPRLDPSSNIVRVLIDMYVDIGDHIALQYGGSEAHKKVTAERSE-SIAGPIGKHKELLTSIRRYYSNAFTDRLKQDAMNLFLGYYVPYRHKIPLWEMETDYYLHNLDVEIG--KEMKGYQKSFGVLEWNNDFDSDGSERISVRRSRIASKKHPNGTNLLVPNQSLKIQKVRERCRTQNKALSAWWKIALQINIQQRMWMHLGKSPSESMLPPRFERLYQPEKMAQFDRFFARSWATPVRRSHSAQHGGEIDEQVSEFRRNMYGRSITPLANSNLKTNQDKWQNPPSLDDFISSHGFE-AQERPTLSRFVQQHDIF--------DDGTKSF-RPTLSH--DGSPSYRYVGDTNWQNERTRDE-YVRCVKSSEKLQSSNYNHMAFD-------------EFKSALNAMSLNANDVRG---IYNLAESGHVGRQIKSGLYKGLDRDFSAIDVSTVVFEQLNAYDNISSRG-ELQECIPLMNAELKQRGFYTDGVKETIADGWKRHLEAEKQYREICFGGSS-KFRRSDLTTPNSLKLYASFYSPD 1158
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A1Z5J8N5_FISSO (SAC domain-containing protein n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5J8N5_FISSO) HSP 1 Score: 702 bits (1811), Expect = 4.600e-228 Identity = 474/1190 (39.83%), Postives = 643/1190 (54.03%), Query Frame = 3
Query: 30 SGSTGMREPRK--PSATEATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVN------------------------------PT--SLADICQEDPVVYTPIDMIEMLDMINEGNRTV--------------GGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVST--LAKVNRR-----LNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEG-VKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAGL---QSMREYKKDQYYLDQDEEP---ASESSESGAGAFSAATTLSGMIDEDRIAE---MQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPK-QGQLPERFVRIHEPERLTSFEKWFSHEFAVPVP-SHPGKTSNGGSAIEKVPS--RPVVQKTVVSRGPR------RGDQNVTIGRYVRDISVKARSMLGRPQRGVLSLSRPTESVLADREPDPREDPMWGARDVPYIGSPIAEEDADAEVASYAAFSNDMNLLVDPANET--------ELASYLADFTLATDTAAGALALQNLAEEHHCGATLTVEPYEGLRKDISARWVEAAVVRQVQQLGWAAERNLDFQEGWEITEEHLQHSGINVDGVVNQIRRRLEHEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYFSKDGAKE 3350
S TG R P + E +L+P KLERF L+ T+ YL +++ + +RVLK+DR +++ PT L+D ED Y+ ++ +MLDM+++GNR + GGL K YGIVGFVRFLDCYYL IT+R VG+IGGN +Y IK TE +KPA+ +A H D NA S+ L+ NR L T RE AE +Y GL+Q +D +K FF+SYTYDLT SLQ N T+K PPPP K+M+ WNF TRE EA + + S +WV P++HGAF+QR+ + GR+L+IT++ARRSRHFAGTRYLKRGVS+ GKVANDVE EQI H + + G FSS++Q+RGSIPTFW+QESS+++PKPPI +RVDP Y++T+ HF DLL RY SPV+VLDLVKQ+E+R+REV VG EYRRAV+++N+T+ RH I+YCA D+SH+SKHR ++V +L EV+ W V Q GFFCSAP+ ++ T+D P EDS+ S+ G+ V PMEQ GVLRTNCIDCLDRTNV QFS GV A+++QL VMG+ ++ L S + V +++Y E+GDNIALQYGGSEAHKKV+ G M KH+ELLTSIRRYYSNAFTDR KQDA+NLFLGYY+P PLWE++TDYYLHN H G SM Y++ +DE S + +G A+T L + +E E +QL R+R+ Q A S WW+ ALQ Q+RMWM ++ RF R+++PE + ++++FS ++ PV SH + GG+ E+ R V + ++ P + Q+VT V S L R +R V+ D ++GSP+ +ED D + + + ++ VD E L DF+L++D G + L E+ H G + YEGL K SA V + Q A + + G + E L+ G+ GV + I R LEH + ++L + R S LTTE+S+ LY S F DGA +
Sbjct: 22 SQETGNRAPSELPEIIKEPSLDPYFEKLERFELFSTNQCYYLIGGNKANSIFRVLKMDRTLIDRPQTQPTVHPPLDPNGDTETASADNSHLPKPTLRPLSDFLSEDSQTYSQEEIRDMLDMVDDGNRMMSHGDRRPGEDAANTGGLKPVVKAYGIVGFVRFLDCYYLTLITRRAKVGSIGGNNIYTIKNTETIPLKPAE-------KSAFHREDDNADPSSVLLSMWNRGKRSVGLGLTNREIAELRYQGLYQVMDFSKHFFFSYTYDLTRSLQENFLLTTTKPLPPPPSKEMFMWNFFLTREFEACLDVMTSFYWVNPMIHGAFVQRRVNDYGRILDITLLARRSRHFAGTRYLKRGVSEHGKVANDVEHEQIIHDDSRMPSGTFSSYIQVRGSIPTFWSQESSVTMPKPPIEVNRVDPTYTSTRLHFEDLLVRYSSPVIVLDLVKQSEKRQREVRVGDEYRRAVDYINATIDDRHKIQYCACDYSHISKHRHLDVSSSLNEVSTWAVNQTGFFCSAPKWKI--------------------------TKDG-VLRPFTKEDSKYSTSLAEQ------------------------------FGIVVFPMEQTGVLRTNCIDCLDRTNVAQFSAGVEAISQQLVVMGIRSRAKLSPSSNIVRVLIDMYVEIGDNIALQYGGSEAHKKVTADRPELSISGPMGKHKELLTSIRRYYSNAFTDRLKQDAMNLFLGYYLPYRHAVPLWEMETDYYLHN-HDSKVGFGSWSSMGTYQRTYGVAWRDECSDGITSPLASTGRDKIDASTGLQFLPEEKEDGEAKTVQLVRKRLES----QNEALSLWWKHALQSNIQQRMWMRSTHQDFHTEVRPRFDRLYQPETFSQYDRYFSKAWSTPVRRSHSLQHGEGGNEEEEGGELLRAVSRTPELNNSPNSSSKDIKARQSVTEFLNVHGYGPCFDSTLKRFSNYHAKQTR----VIVDST---------------FVGSPL-QEDTDLLIQRKKQYQHYLSSDVDACKPAYFDEDKVREFERCLHDFSLSSDDVYG---MHKLDEDSHLGEIICSGNYEGLSKMHSAIEVATTIQEQFN----AHDSAMVSSGGPRVVETELRRRGVYATGVRDTINRGLEHLTAAEKQYNEILDYSRKECRRSDLTTEDSLKLYASDF--DGASD 1113
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: F0Y2V1_AURAN (SAC domain-containing protein (Fragment) n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0Y2V1_AURAN) HSP 1 Score: 672 bits (1734), Expect = 2.970e-225 Identity = 371/699 (53.08%), Postives = 460/699 (65.81%), Query Frame = 3
Query: 87 EPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVN-PTSLADICQEDPVVYTPIDMIEMLDMINEGNRTVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPP------PFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMN------------KHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLH 2126
EP S LE+FVLY+T SHLY+ D+ + +YRVLK+ R L D+ ED Y+ +++ EML+MI+EGNRT GGLS A GYG++GF RFLDCYY+ +TQRR VG IGGN VY IKATEM AIKP A SG ++ L +LR Y+GLFQFIDLTKDFF+SYTYDLT +LQHNMT+A P K MYAWN H TREL + +++ W + + HGAF+QRKC L GR++N+T++ARRSRHFAGTRYLKRGVSD GKVANDVE+EQIAH EGV+EGVFSSF+Q+RGSIPTFWTQE+S+++PKPPIV +RVDP Y+A++ HF DL+ RYG+PV+VLDL KQ+E+RERE+IV E+RRA+EHVN+ +P +RYCALDFS +SKHR MN+LKALE+VA WT+ + FFCS PR E+ G+ R ++ G G AG D R+P P+EQ+GV+RTNCIDCLDRTNV QF++G AL + L MGV +LESGSQV LV MELYS +GD I+LQYGGSEAHKK+ G+ GP G + KH+ELLTSIRRYYSNAFTDR KQDAIN+FLG +VP+ + PLWEL++DYYLH
Sbjct: 7 EPTCSGLEKFVLYQTMSHLYIVGCDKRQASYRVLKILRAAAGGDCKLGDVATEDSCAYSKVELKEMLEMIHEGNRTHGGLSRVATGYGLLGFARFLDCYYVILVTQRRKVGQIGGNAVYGIKATEMIAIKPESARSG----------------------DQSLIKSLR------YVGLFQFIDLTKDFFFSYTYDLTRTLQHNMTSALPAAGAGEGGPRNAPRKAMYAWNDHLTRELGDALDARSAARWTLALTHGAFVQRKCTLFGRVVNVTLVARRSRHFAGTRYLKRGVSDGGKVANDVELEQIAHEEGVREGVFSSFVQVRGSIPTFWTQETSVTMPKPPIVLNRVDPTYAASRAHFGDLIGRYGAPVMVLDLTKQSEKREREMIVSHEFRRAIEHVNAHVPAPRRVRYCALDFSQVSKHRQMNILKALEDVARWTLYETRFFCSRPRAEVSPG----GDVSRLDV-----------------------------------GVG-DHAGRDDPDRARAP------------------PLEQRGVMRTNCIDCLDRTNVAQFTVG--ALGRMLATMGVFKSATLESGSQVVLVLMELYSTVGDLISLQYGGSEAHKKMGGT-GPSASAGGGDDAARADFGAVAPKHQELLTSIRRYYSNAFTDRLKQDAINVFLGNFVPSDAEPPLWELESDYYLH 616
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: B8CEM3_THAPS (Phosphatidylinositol phosphatase (Fragment) n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CEM3_THAPS) HSP 1 Score: 651 bits (1680), Expect = 2.020e-217 Identity = 350/692 (50.58%), Postives = 443/692 (64.02%), Query Frame = 3
Query: 90 PVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVV-----NPTS---LADICQEDPVVYTPIDMIEMLDMINEGNR-----TVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLH 2126
P ++LE+F L+ T YL A D+ + YR++K+DR ++ N +S L+D EDP VYT ++ ++LDMIN+GNR GL K YG++GF++FLDCYYL IT+R VG+IG N +Y IK+TE F +KPA+ RL T RE AE +Y GL+Q +DLTK+FF+SYTYDLT SLQ N A TS+ FPP FKDMYAWNF TRELE + S WV+P+VHGAF+QRK GR LN+ ++ARRSRHFAGTRYLKRGVSD GKVANDVE EQI H E EGVFSS+LQ+RGSIPTFWTQESS+++PKPPIV +RVDP Y ATQ HF DLL+RYGSP++V+DLVKQ+E+REREVIVG E+R A++++N + +H I YCALD+SH+SKHR++NV +L +VA W+V Q GFFCS+P+ ++ D + EP E + + G+P PMEQ G+LRTNCIDCLDRTNV QFS GV AL +QL VMG+ + L+ S + + +++Y E+GD IALQYGGSEAHKKV+ G+ + H+ELLTSIRRYYSNAFTDR KQDA+NLFLGYYVP+ PLWEL+ DYYLH
Sbjct: 2 PYQTRLEKFELFSTHQCYYLVACDKFGSGYRIMKMDRTLIERRGMNSSSFRPLSDFIFEDPAVYTQSEIKDILDMINDGNRGDQDHLYRGLKAICKAYGVLGFIKFLDCYYLTLITKRAKVGSIGENSIYTIKSTETFPLKPAE----------------------------RLGLTNREIAELRYQGLYQVVDLTKNFFFSYTYDLTRSLQENFLAMTSQPFPPAKFKDMYAWNFFLTRELEECTNSMTSFNWVLPVVHGAFIQRKLHDYGRSLNLMLLARRSRHFAGTRYLKRGVSDRGKVANDVEHEQIIHDESTSEGVFSSYLQIRGSIPTFWTQESSVTMPKPPIVLNRVDPTYQATQAHFEDLLKRYGSPIIVVDLVKQSEKREREVIVGNEFRNAIDYINCHIDDQHKILYCALDYSHISKHRNLNVSSSLNDVATWSVNQTGFFCSSPQWKIV---------------------------DGGSIEPFDEECCRGAEYLSQR------------------------------LGVPFFPMEQLGILRTNCIDCLDRTNVAQFSAGVEALGQQLVVMGIRSSPKLDPSSIIVRMLIDMYVEIGDQIALQYGGSEAHKKVA-------SAGANSTHKELLTSIRRYYSNAFTDRLKQDAMNLFLGYYVPSCNTLPLWELENDYYLH 601
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A1E7FKZ4_9STRA (Syja_N-domain-containing protein (Fragment) n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7FKZ4_9STRA) HSP 1 Score: 632 bits (1630), Expect = 1.570e-209 Identity = 350/713 (49.09%), Postives = 444/713 (62.27%), Query Frame = 3
Query: 87 EPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPT--------SLADICQEDPVVYTPIDMIEMLDMINEGNRT----------------------VGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEG--VKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPR-HNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLH 2126
+P + KLER+ L+ T+ YL ++ + YRV+K+DR ++ +L++ EDP VY+ ++ EMLDMI++GNR L AK YGIVGF++FLDCYYL IT+R VG+IGGN +Y IK TE F IKPA + G L T RE AE +Y GL+Q +DLTK+FF+SYTYDLT SLQ N + TS+ FPPPPFKDM+AWN+ TRELE L+S W +P++HGAF+Q+K + GR LN+ ++ARRSRHFAGTRYLKRGV++ GKVANDVE EQI H E V GVFSS+LQ+RGSIPTFWTQESS+++PKPPI +RVDP Y+ATQ HF DLL+RYGSP++VLDLVKQ+E+REREV VG EYR A++H+N ++ H IRYCALD+SH+SKHR ++V +L EV+ W V Q GFFCSAP+ ++ T G + EP E T K G+P MEQ GVLRTNCIDCLDRTNV QFS GV A+ +QL VMG+ + L+ S + V +++Y ++GD+IALQYGGSEAHKKV+ G + KH+ELLTSIRRYYSNAFTDR KQDA+NLFLGYY+P PLWE++TDYYLH
Sbjct: 1 DPYIGKLERYELFCTNQSYYLVGCNKQNSQYRVIKMDRTLIERPGLNSNLHKNLSEFLTEDPNVYSQTEIQEMLDMIHDGNRLRREDHRPVSVEDGXXXXXXXXXXXXLKPIAKAYGIVGFIKFLDCYYLTLITRRAKVGSIGGNGIYTIKNTETFPIKPATRSVG-------------------------LGLTNREIAELRYQGLYQVVDLTKNFFFSYTYDLTRSLQENFLSNTSQPFPPPPFKDMFAWNYFLTRELEECTNSLSSYHWQLPVIHGAFVQKKLNDYGRSLNVILLARRSRHFAGTRYLKRGVNEQGKVANDVEHEQIVHDESKAVSNGVFSSYLQVRGSIPTFWTQESSVTMPKPPIELNRVDPTYTATQLHFEDLLKRYGSPIVVLDLVKQSEKREREVRVGNEYRHAIDHLNLSIESESHKIRYCALDYSHISKHRHLDVSTSLNEVSTWAVNQTGFFCSAPQWKI---------TKGGNI------------------EPF------NEMDYQAASTFSAKI------------------------GIPTFAMEQTGVLRTNCIDCLDRTNVAQFSAGVEAMEQQLVVMGIRSNPKLDPSSNIVRVLIDMYVDIGDHIALQYGGSEAHKKVTAERSE-SIAGPIGKHKELLTSIRRYYSNAFTDRLKQDAMNLFLGYYIPYRHKIPLWEMETDYYLH 630
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A8J2SN27_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2SN27_9STRA) HSP 1 Score: 642 bits (1656), Expect = 6.010e-207 Identity = 461/1232 (37.42%), Postives = 623/1232 (50.57%), Query Frame = 3
Query: 87 EPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPTSLADICQEDPVVYTPIDMIEMLDMINEGNRTVGGLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAAT-------SKTFPP--PPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFF-CSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAGLQSMREYKKDQYYLDQDEEPASESSESGAGAFSAATTLSGMIDEDRIAEMQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPKQGQLPE----RFVRIHEPERLTSFEKWFSHEFAVPVP--------------------------SHPGKTSNGGSAIE---KVPSRPVV-------QKTVVSRGPRRGDQN---VTIGRYVR------DISVKARSMLGRPQRGVLSLSRPTESVLADR---EPDPREDPMWG-----ARDVPYIGSPIAEEDADAEVASYAAFSNDMNLLVDPANETELASYLADFTLATDTAAGALALQNLAEEHHCGATLTVEP--YEGLRKDISARWVEAAVVRQVQQLGW--------------AAERNLDFQEGWEITEEHLQHSGINVDGVVNQIRRRLEHEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYF-SKDGAKERARGTHPNSGSAANGFQDDGHRDGSEHFIMVDE--DIFSSKEYQYMLFNEAGKKTALRIL 3524
EP + LE+FV+YET HLY+ DR + YRVLK+ RR + SL D+ QED Y+ ++ ++L+M +EGN+ GGL A GYGI+GFVRFLDCYY ITQRR VG IGG +Y IKATE+ I+PA A D + S +A+ NRRLNPT RETAE +Y+ LFQF+DL+KDF++SY YDLT +LQH M A + PP P + YAWN +EL +G ++ W + +VHGAF+QR C L GR L +T+IARRSRHFAGTRYLKRG SDTG VANDVE+EQI HA G G F+S++Q+RGSIP FWTQ +S+++PKPPI+ RVDP Y+A+Q HFADLLERYG P +VLDL K ERR RE +V E+RRA+E VN+++P +RYCALDFS S+ + VL AL +VAAWT+ + FF C + +L Q+GVLR+NCIDCLDRTNV QF++G ALA+ + +G SLE GS++ LV MELYS +GD ++LQYGGSEAHK+ G+ V + KH+ELLTSIRRYYSNAFTDR KQDAIN+FLG + P+ D PLW+LD+DYYLHN + L +M KKD + D +E+ + R RV R C R+ S+WWRDAL+ Y L + L E RF R+H+P +LT F+K + + PVP + P + G AIE KVP P + + VS+ D + R VR ++V+ + L S ++S R + D R + +G A D + P + D DAE S A + A+E + L + L AG L + A G + +E YEGL + SAR V AAV+ +V+ L A + L + + + ++ GVV+Q+ +RLE + + L E L + S+L+T+ S+ LYC++ SKD ++ A S + R+ + DE ++ ++ +YMLFNEAG + AL L
Sbjct: 6 EPTCAGLEKFVIYETQQHLYVVGCDRQQLKYRVLKVLRR--SAPSLIDLAQEDASSYSKDELRDVLEMAHEGNKQGGGLRRVATGYGILGFVRFLDCYYCVLITQRRKVGRIGGAPIYGIKATELIPIRPA----------ATKSDDRSLIRSFVAETNRRLNPTQRETAEQRYVSLFQFVDLSKDFYFSYAYDLTQTLQHVMHAQAPLSSQDPASDIPPLEPSRRSSYAWNHKLVKELRDALGS-SAGRWCVTLVHGAFVQRTCALFGRSLVVTLIARRSRHFAGTRYLKRGASDTGNVANDVELEQITHAPGYGAGGFASYVQVRGSIPIFWTQATSVTLPKPPIIVDRVDPTYTASQKHFADLLERYGGPCMVLDLTKHVERRARETVVSAEFRRAIECVNTSLPSETKVRYCALDFSAASRSKKPTVLDALSDVAAWTLDETRFFQCQGTKVQL-----------------------------------------------------------------------------------------QRGVLRSNCIDCLDRTNVAQFAVGAVALARCVDALGFVRGSSLEPGSRLLLVLMELYSAVGDALSLQYGGSEAHKRA--GIRRGESVTVVPKHQELLTSIRRYYSNAFTDRLKQDAINVFLGTFTPSEEDIPLWDLDSDYYLHNVKVQEGCLLTMA-VKKDAWLSDSEEDDKGD-----------------------------VRARVVRRCHRRDDLLSKWWRDALEAYD-----ASLQSTESSNLEEASKHRFERVHQPSKLTQFDKILQADSSTPVPLAADLDASGTVEKRFLALGSSNVAALAIPEDDDDEGIAIEEEVKVPETPPKLDDDLRERASPVSQIEEESDDDDPCQKAERLVRVLFGATPVTVEGLEAQAAASKAALDASIKSDSTFVGRLQFDVDARGERQYGEYARVAADPGLLERP-SRGDVDAEARSRRA---------ERAHE-DFTEALKERDLTPSDCAGVLEVARAA-----GVSKILESGKYEGLPQSCSARDVCAAVLGEVEVLAGPVKGDRPRDDVDRDALRKRLSLRPCASLKTDA---PSLDAPGVVHQVEQRLEELREAHAFYARALDPELLARQRSSLSTDASVALYCTHARSKDWLRDGALAHCLRSERGRVPARPRNRREDALDAFDRDEASGLYQRRDNRYMLFNEAGARAALPAL 1079
BLAST of mRNA_P-littoralis_Contig18.59.4 vs. uniprot
Match: A0A8K1CNQ5_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CNQ5_PYTOL) HSP 1 Score: 605 bits (1559), Expect = 4.150e-190 Identity = 380/903 (42.08%), Postives = 509/903 (56.37%), Query Frame = 3
Query: 75 EATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKLDRRVVNPTSLADICQEDPVVYTPIDMIEMLDMINEGNRTVG-GLSMTAKGYGIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASGGLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKDFFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGHLNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVSDTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKPPIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGREYRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQVGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILNEDSEEEKSMPHTGTGPTKAGGDSSTPKRSPXXXXXXIPPPWGQGLPVMPMEQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQVALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTSIRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAENAG---------LQSMREYKKDQYYLDQDEEPAS-------ESSESGAGAFSAATTLSGMIDEDRIAEMQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPKQ-----------------------GQLPER-------------FVRIHEPERLTSFEKWFSHEFAVPVP-----SHPGKT---SNGGSAIEKVPSRPVVQKT 2600
+ +LE V+K ER+ +YET + Y+ SDR T +R L+R V P LA++ +EDP +YT +M L + E + VG S IVG +RFL YY F TQRR +G IGGN +Y I AT+ ++ S S + +NR LNP+ E AEA+YLGLF FIDLTKDFFYSY+YD+T++LQHNMT S+ +M+ WN + TRE ++ + S +IP+V G + QRKC + GR+++IT++ARRSRHFAGTRYLKRGV+DTGK ANDVE EQI E + G FSSF+Q RGSIP FWTQE+S ++PKPPIV +R+DP Y+A++ HFADL RYGSP + L+LVKQ+E++EREVIVG E+ AVE++NS +P H IRY ALD+S LSK + +NVL +L++VA W + Q GFFCSAP+R + + Q + P R+ +G T D + D + P + T P K+G W +EQ+GVLRTNCIDCLDRTNV QFS+G+ AL +QLY MG+ N LES SQ+ V M LYS +GD I++QYGGSEAHK V S+G G RELLTSIRRYYSN+FTD AKQDAIN+FLG++VP + PLWEL++DYYLHNF N L+ E K+ LD D P+S S+E + F TL + D+ KR R C R WW++ L + + + + PK+ G + R F++++ PE +TSF K ++F + ++ KT SN S+I+ P V+Q T
Sbjct: 153 QPSLEATVTKFERYTIYETVTKFYVVCSDRHYTRFRKFSLERAVDPPRCLAEVLKEDPELYTWEEMEAQLQTLAEEAKAVGCKFSRAFTAVAIVGCIRFLRGYYFIFATQRRKIGCIGGNHIYGISATQQLSV-----------------SRSTEESTAWTWLNRWLNPSPEEEAEARYLGLFHFIDLTKDFFYSYSYDVTHTLQHNMTTDASEPC------EMFTWNEYLTREFKSCLSVGASEDLIIPLVLGCYEQRKCSVFGRLVSITLVARRSRHFAGTRYLKRGVADTGKAANDVETEQIIEDENMGTGKFSSFVQYRGSIPVFWTQETSATLPKPPIVLNRIDPTYTASRKHFADLFSRYGSPTVALNLVKQSEKKEREVIVGNEFMNAVEYLNSFIPGEHRIRYVALDYSRLSKQKGLNVLHSLDKVAVWALTQTGFFCSAPKRHIGRQDSKQSSYVSFAPPLSREV--SGATSDGDGTQ---ENDEVSDAGPPESPTIPRKSGD-------------------W--------LEQKGVLRTNCIDCLDRTNVSQFSVGMRALGQQLYAMGIRNTPLLESRSQLVRVLMLLYSLVGDAISMQYGGSEAHKNVKNSAGRENVKG-----RELLTSIRRYYSNSFTDMAKQDAINIFLGHFVPKEGEPPLWELESDYYLHNFEVRNGTAACDLVRHTLEVQAENKR--RALDGDVSPSSLAEAVTARSNERTSDLFDDHITLMSLTIRDK-----QKREAYVRECRR---LLEDWWKEPLDEFERPKFCIPRDRPKRRPRSTKQGDGGIDSTLTDSMGPDGYIGSRNRLTKSLSVSSDTFLQMYHPEEMTSFTKTLGYKFMNIMDLSNESTNEEKTRSRSNTSSSIDASPKVGVLQTT 985
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.D8LRT7 |
| Preferred name | FIG4 |
| PFAMs | Syja_N,WW |
| Model size | 3967 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00078 |
| KEGG ko | ko:K20279 |
| KEGG Reaction | R04404,R09827 |
| KEGG Pathway | ko00562,ko01100,ko04070,map00562,map01100,map04070 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000139,GO:0000322,GO:0000323,GO:0000324,GO:0000329,GO:0003674,GO:0003824,GO:0004438,GO:0004672,GO:0005102,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005737,GO:0005768,GO:0005769,GO:0005770,GO:0005773,GO:0005774,GO:0005794,GO:0005811,GO:0005886,GO:0005911,GO:0005942,GO:0006464,GO:0006468,GO:0006629,GO:0006644,GO:0006650,GO:0006661,GO:0006793,GO:0006796,GO:0006807,GO:0006950,GO:0006952,GO:0006996,GO:0007033,GO:0007272,GO:0007275,GO:0007399,GO:0007610,GO:0007626,GO:0008150,GO:0008152,GO:0008366,GO:0008610,GO:0008654,GO:0009058,GO:0009506,GO:0009605,GO:0009607,GO:0009617,GO:0009653,GO:0009987,GO:0010008,GO:0010720,GO:0010927,GO:0010941,GO:0010975,GO:0010976,GO:0012505,GO:0016020,GO:0016043,GO:0016301,GO:0016310,GO:0016311,GO:0016740,GO:0016772,GO:0016773,GO:0016787,GO:0016788,GO:0016791,GO:0019538,GO:0019637,GO:0019898,GO:0022008,GO:0022607,GO:0023052,GO:0030054,GO:0030154,GO:0030182,GO:0030258,GO:0031090,GO:0031344,GO:0031346,GO:0031347,GO:0031348,GO:0031410,GO:0031641,GO:0031642,GO:0031644,GO:0031645,GO:0031901,GO:0031902,GO:0031974,GO:0031981,GO:0031982,GO:0031984,GO:0032288,GO:0032501,GO:0032502,GO:0032989,GO:0032991,GO:0033612,GO:0034399,GO:0034593,GO:0034595,GO:0034596,GO:0035032,GO:0036092,GO:0036211,GO:0042552,GO:0042578,GO:0042742,GO:0043170,GO:0043207,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043412,GO:0043473,GO:0043812,GO:0043813,GO:0044057,GO:0044085,GO:0044237,GO:0044238,GO:0044249,GO:0044255,GO:0044260,GO:0044267,GO:0044422,GO:0044424,GO:0044425,GO:0044428,GO:0044431,GO:0044433,GO:0044437,GO:0044440,GO:0044444,GO:0044446,GO:0044464,GO:0045017,GO:0045595,GO:0045597,GO:0045664,GO:0045666,GO:0046474,GO:0046486,GO:0046488,GO:0046839,GO:0046856,GO:0048468,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048585,GO:0048646,GO:0048666,GO:0048699,GO:0048731,GO:0048856,GO:0048869,GO:0050767,GO:0050769,GO:0050789,GO:0050793,GO:0050794,GO:0050896,GO:0051093,GO:0051094,GO:0051128,GO:0051130,GO:0051239,GO:0051240,GO:0051241,GO:0051704,GO:0051707,GO:0051960,GO:0051961,GO:0051962,GO:0052744,GO:0052866,GO:0055044,GO:0060284,GO:0060548,GO:0061695,GO:0065007,GO:0070013,GO:0070772,GO:0071704,GO:0071840,GO:0071944,GO:0080134,GO:0090407,GO:0097708,GO:0098542,GO:0098588,GO:0098791,GO:0098796,GO:0098805,GO:0098852,GO:0106018,GO:0120035,GO:0140096,GO:1901564,GO:1901576,GO:1902494,GO:1990234,GO:2000026 |
| Exons | 22 |
| Evalue | 0.0 |
| EggNOG OGs | COG5329@1|root,KOG1888@2759|Eukaryota |
| Ec32 ortholog description | SAC domain |
| Ec32 ortholog | Ec-08_002390.1 |
| EC | 3.1.3.36 |
| Description | phosphatidylinositol-3-phosphate biosynthetic process |
| Cds size | 3501 |
| COG category | T |
| BRITE | ko00000,ko00001,ko01000,ko04131 |
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 |
|---|
| 1680789862.2820303-UTR-P-littoralis_Contig18:269871..270293 | 1680789862.2820303-UTR-P-littoralis_Contig18:269871..270293 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig18 269872..270293 - |
| 1680789862.5263588-UTR-P-littoralis_Contig18:302458..302502 | 1680789862.5263588-UTR-P-littoralis_Contig18:302458..302502 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig18 302459..302502 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789862.2948897-CDS-P-littoralis_Contig18:270293..270362 | 1680789862.2948897-CDS-P-littoralis_Contig18:270293..270362 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 270294..270362 - |
| 1680789862.3056803-CDS-P-littoralis_Contig18:270848..270989 | 1680789862.3056803-CDS-P-littoralis_Contig18:270848..270989 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 270849..270989 - |
| 1680789862.315958-CDS-P-littoralis_Contig18:271114..271231 | 1680789862.315958-CDS-P-littoralis_Contig18:271114..271231 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 271115..271231 - |
| 1680789862.327273-CDS-P-littoralis_Contig18:272637..272814 | 1680789862.327273-CDS-P-littoralis_Contig18:272637..272814 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 272638..272814 - |
| 1680789862.335567-CDS-P-littoralis_Contig18:275333..275471 | 1680789862.335567-CDS-P-littoralis_Contig18:275333..275471 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 275334..275471 - |
| 1680789862.3473992-CDS-P-littoralis_Contig18:275790..275895 | 1680789862.3473992-CDS-P-littoralis_Contig18:275790..275895 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 275791..275895 - |
| 1680789862.356402-CDS-P-littoralis_Contig18:276110..276296 | 1680789862.356402-CDS-P-littoralis_Contig18:276110..276296 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 276111..276296 - |
| 1680789862.3645551-CDS-P-littoralis_Contig18:277605..277752 | 1680789862.3645551-CDS-P-littoralis_Contig18:277605..277752 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 277606..277752 - |
| 1680789862.3765776-CDS-P-littoralis_Contig18:277890..278151 | 1680789862.3765776-CDS-P-littoralis_Contig18:277890..278151 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 277891..278151 - |
| 1680789862.390032-CDS-P-littoralis_Contig18:283156..283405 | 1680789862.390032-CDS-P-littoralis_Contig18:283156..283405 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 283157..283405 - |
| 1680789862.4025462-CDS-P-littoralis_Contig18:283705..283819 | 1680789862.4025462-CDS-P-littoralis_Contig18:283705..283819 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 283706..283819 - |
| 1680789862.411909-CDS-P-littoralis_Contig18:284022..284452 | 1680789862.411909-CDS-P-littoralis_Contig18:284022..284452 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 284023..284452 - |
| 1680789862.422417-CDS-P-littoralis_Contig18:284706..284831 | 1680789862.422417-CDS-P-littoralis_Contig18:284706..284831 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 284707..284831 - |
| 1680789862.4312327-CDS-P-littoralis_Contig18:286025..286172 | 1680789862.4312327-CDS-P-littoralis_Contig18:286025..286172 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 286026..286172 - |
| 1680789862.4409106-CDS-P-littoralis_Contig18:286553..286709 | 1680789862.4409106-CDS-P-littoralis_Contig18:286553..286709 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 286554..286709 - |
| 1680789862.4523416-CDS-P-littoralis_Contig18:287283..287344 | 1680789862.4523416-CDS-P-littoralis_Contig18:287283..287344 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 287284..287344 - |
| 1680789862.4618723-CDS-P-littoralis_Contig18:287685..287870 | 1680789862.4618723-CDS-P-littoralis_Contig18:287685..287870 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 287686..287870 - |
| 1680789862.47578-CDS-P-littoralis_Contig18:288029..288180 | 1680789862.47578-CDS-P-littoralis_Contig18:288029..288180 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 288030..288180 - |
| 1680789862.4853396-CDS-P-littoralis_Contig18:290622..290798 | 1680789862.4853396-CDS-P-littoralis_Contig18:290622..290798 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 290623..290798 - |
| 1680789862.4942992-CDS-P-littoralis_Contig18:290953..291182 | 1680789862.4942992-CDS-P-littoralis_Contig18:290953..291182 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 290954..291182 - |
| 1680789862.5069757-CDS-P-littoralis_Contig18:302012..302081 | 1680789862.5069757-CDS-P-littoralis_Contig18:302012..302081 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 302013..302081 - |
| 1680789862.5154214-CDS-P-littoralis_Contig18:302390..302458 | 1680789862.5154214-CDS-P-littoralis_Contig18:302390..302458 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig18 302391..302458 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig18.59.4 >prot_P-littoralis_Contig18.59.4 ID=prot_P-littoralis_Contig18.59.4|Name=mRNA_P-littoralis_Contig18.59.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1167bp
MREPRKPSATEATLEPVVSKLERFVLYETSSHLYLTASDRSETTYRVLKL
DRRVVNPTSLADICQEDPVVYTPIDMIEMLDMINEGNRTVGGLSMTAKGY
GIVGFVRFLDCYYLNFITQRRLVGAIGGNLVYAIKATEMFAIKPADAASG
GLSSTAAHGSDSNAFVSTLAKVNRRLNPTLRETAEAKYLGLFQFIDLTKD
FFYSYTYDLTNSLQHNMTAATSKTFPPPPFKDMYAWNFHQTRELEAQVGH
LNSSFWVIPIVHGAFMQRKCDLSGRMLNITVIARRSRHFAGTRYLKRGVS
DTGKVANDVEVEQIAHAEGVKEGVFSSFLQMRGSIPTFWTQESSISIPKP
PIVNSRVDPMYSATQDHFADLLERYGSPVLVLDLVKQTERREREVIVGRE
YRRAVEHVNSTMPPRHNIRYCALDFSHLSKHRDMNVLKALEEVAAWTVGQ
VGFFCSAPRRELEQLPKHQGNTGRGELPSLRQAQNTGRTRDAPAAEPILN
EDSEEEKSMPHTGTGPTKAGGDSSTPKRSPGDTAGPIPPPWGQGLPVMPM
EQQGVLRTNCIDCLDRTNVGQFSIGVHALAKQLYVMGVSNQVSLESGSQV
ALVFMELYSELGDNIALQYGGSEAHKKVSGSSGPGKQVGSMNKHRELLTS
IRRYYSNAFTDRAKQDAINLFLGYYVPNSTDKPLWELDTDYYLHNFHAEN
AGLQSMREYKKDQYYLDQDEEPASESSESGAGAFSAATTLSGMIDEDRIA
EMQLKRRRVRRMCARQRAATSQWWRDALQRYAQRRMWMHLGPPKQGQLPE
RFVRIHEPERLTSFEKWFSHEFAVPVPSHPGKTSNGGSAIEKVPSRPVVQ
KTVVSRGPRRGDQNVTIGRYVRDISVKARSMLGRPQRGVLSLSRPTESVL
ADREPDPREDPMWGARDVPYIGSPIAEEDADAEVASYAAFSNDMNLLVDP
ANETELASYLADFTLATDTAAGALALQNLAEEHHCGATLTVEPYEGLRKD
ISARWVEAAVVRQVQQLGWAAERNLDFQEGWEITEEHLQHSGINVDGVVN
QIRRRLEHEEQEKIHLEKVLGSEALQDRISTLTTEESMDLYCSYFSKDGA
KERARGTHPNSGSAANGFQDDGHRDGSEHFIMVDEDIFSSKEYQYMLFNE
AGKKTALRILFGGSSE* back to topmRNA from alignment at P-littoralis_Contig18:269872..302502- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig18.59.4 ID=mRNA_P-littoralis_Contig18.59.4|Name=mRNA_P-littoralis_Contig18.59.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=32631bp|location=Sequence derived from alignment at P-littoralis_Contig18:269872..302502- (Pylaiella littoralis U1_48)
GTGCACGTACGTAGTAAGTACCTCGGTCGTCAGGCTCCACCGGCATGAGG
GAACCACGAAAACCATCCGCCACAGAGGCTACACTGGAGCCTGTTGTCAG
CAAACTTGAGCGGTAAGGCTGCTCAACGGTAGTATAGCGAGCTGATAGCA
CACAGCACGATGATTTGATTATTTGTTTACCCTTGTTCGGTGTGCAATCC
CGCCGCCACACTAGCCCCCGTATGATGTAACAGAGAGAACGAGTACATCG
CTTTAGCATAACTGATGAAAGAAGAGCTGTGGAAACACCCCCGTGATAAA
TGACAAATTTGAAGGAGGAAAGGGGTTGTACTGTCCTTTATGCTTACAGT
CGCGGTGTTCCTGAAGCCCACCTTGCTCCCCAGCTTGAACTCCCCTCCCC
ATTCCCTATGCCTCGTATCAGGTTCGTCCTGTATGAGACCTCCAGCCACC
TATACCTGACGGCGAGTGATCGGTCCGAGACAACCTACAGGTACGTGCAG
CCGTGTTGCTGGTACAGCGCTAGTTGCGGGAGACGAGGATGAATAGCGTT
CAAAACTTGTCGCACAGCAGGGTAGAGCACGTGACGCTTTGTTTGATATG
GACAAGCCAAACTCCCTCTAAAGGCCATGTTCCTGCTGTCTTGTCAACGT
TGCAAATGCACCGGCCAAGGGACGCATGAAATGGAGGTCTTTCCCACACC
AGGCTTGTCGCGTGATGTGGCCCGAAAGTGCCGACGGGTCTATTAACCCT
CTTGGAATACGGGCTGGTCTGTGCAGAGCGAAACTTTTGAGTACATTTCG
GTCTTCTTCTTTCTTGACCGCGGGCTACAGCAGTAGTCATCCGGGGGCGA
CAGAAGTCATGTCCTTCCTTCACTACCTGGTACGCCGGGAACTGCACCCA
GCTGGAGTCAAGCAGTCTTATTACCATCGAAAGTTTACCCAGCGATCCGT
TCTAATGCATTGGTCGCTTTCGTCTCCGCTGGTGTTTCAGTTGTTTCACC
GCTGACATCGTCACGCTCACATGTAGCCCGTTTGAAGCCCGACTAGAACT
GTGTCAGTTGGAAACACGATTGCGAATCGTTGCGGCATTCCTACGTGCTC
GGCATTCATTTATTTCGATGTTTGTTCTCTGCGAATCGTTGCGAGTCATT
ACGGCACTCTCACATTGTTGACCAATGGTGGAGCCCTCCTGCACGCGTCA
TTTCTCTAGAGTGTGCTACATTTATCCCATTATTTGGTGCTCTCCGGTTT
GTTACTCTGCAAGCTCCTTATTGCTTCCCGGCGATCGAAGCGCCGTCCGA
GCGGAGCGTCGTACGTTAATGGCGTTTCTTGCTCTCCCCGCTGTTCCCTA
GTGGCGAGATGGTTACTCTGCGCCGCGATTTCCTTTGTATCTGGGGCTTC
CCGGTGGTAAATTGTTGCGATATGTTTCGTGTGTACTTGGTAGTTTTCGG
GGTTGAATTGGGTGCGGCGCTTTCAGTTTATTTACACTCAAAGCTCCTCA
TTGGCTCTCTTTAGTCGACGTGAGCGGGTCCACATGCGGTTCGTCCGCCC
TTCCTCCCACTCCTCGAGGTCTCACTCTTGTTTCTTTTTGTCACTCCAAG
CTCCAGACTGCTCCCTGGCTGGTGCGACGCCTTCTGTCTCTCGCTTCGAC
ACGTGCAAAACTGTTCGCGTCCTTCAAGAACATAGTTTGATTGCCGTCAA
GAGCGCTCACAAAATCAAACGGACCTCGAGGACTCTGGCCGCGAAGTGGG
TCTCGAACGAGGCTGAACGTGAGCTCTTGACTCATTCTGGCTGGCCAAGT
CCAGGATTGATTGTTTCCGTTGGAGCTCCAGGTACACCTACTTCCTTTCT
TCGGTGGGGAAGTCCATTCAATCATAATGCAAGGCGGGCGGGGACACCCA
AGCCAAAAACCTCTGCTGTGAAGGTTGCGCTATATTTTCGGCGTGTTATA
TCTATATATTTTTTGGCTCTTTGTATGGTCATATCTTCTCCAGTGACGAC
AAGCCCAATAAACACGCGACTTCACGGAAATTGTTGCTGGGGGTGTCCCC
GCCCGCCTTGCATGAGTACGTAGTAGATCGACTTACCCACACAGGCTGGT
GTGTGCTGGAGCACTGGGCTGGAATGAGTGTGGTCAAGAATTCACCTTCC
GCCTTGTTCGCGACCCAAATCGCGCCGAAAGTCCTCACGAACCCTCGATT
ATGAGTTGCATTATTTTGCTCTTGTAGAACCGGTCGCCCCGCTGGTTCAG
TTGGTAATCCACGCAACCTCCTGACATTCACGCGTGAGTTCGAATCCCAG
TGCAGTAACACGATCTTGGGCTTTTTCTCACATTGCGCGTGAAAGTGGAA
AACGATTAATTCGTGAGTAAACAAAACTCGATCGTACCATCGACAAGGGA
CAGAGATTGCTGTCCCCTTTCTCGCGATAAAAGCTCAACCAAAAAGGCAA
GCACCGCAGAGGGAAGTGGAGAAAAAAAAAAAACTCCTGTGTTGACTTCC
CCCTGTGTGACCCCGGTTGGAGCGTCTACCTACCCGAAAGGTGTAGAGTG
GCGTCCAATGAAAGGGATGACAACACACACACACACACTCGAGTATCTAT
TTTGCTGGTGTCCAAGGAAGAGGCAGTGGGCGTCTCATCAGCAAGGTGAA
TTGTTGCCAGAGCAGCTTAATATTATACCGCCCTTGTTTTTGTTGTGACC
CTCCACCTCCAGCTCAACTAAATAATATTTTTAGCTTAAAATCATATGTG
TGTCTCGTATTGAAGTTTTGAAATTCATCTTGTTTTGTGAACCCCCAATC
AATATTTCCAACACCAAAAAAACAAAGACCTGCTTCCATTTATCGACCTC
CTCACGCGACCACACACCCCCTTGTAATTTGTTGTACCTCGCACACACCC
ATACTGCATGGCACACATATTACCAGGCAACACGCACGCGCATGTATCAT
ATCTGCTACTTCAGTCTACGGAGCTCGCACGCAGTATAGCGCCAACTGGC
GGCCAACCAGACGCCATCCTGGTGCTGACCAGGCGGAGTAGCTCGTTCAT
GTTGTTGCTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAG
CCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAAAAATAAAA
AAAATAAAATATATGGACTATGATCACCCACAGTCAGATCAGACATGGTA
CCGTTGGGGTACCATCTGTGGTGGCCAGAATACCAAACAAATACAGAAAA
AAATAACAGGCTCGAAAGAAAAACAAAAATTGGAAACAGTCCGACAAACA
AAAAATAACCAAGACAAACCTCAACCATAACCATATACTTCGAAGTACTT
CGTACATCGAACCAGGGCCCAGGGCCATGACAGGCCAAGGCAAACACAAA
CCAGGGCGATGGTCCAGTAACTACATGATCAACAGACAAAAGACAAAAAA
TAAAATAAAAAAGAAGAAGATACAGGGAGGGCACAAAGACTGAGGTAGTG
CATTCGTAGACAAACACAACAAACAGGCCGCCAAACAAAGACGTATGGAA
GTGGCAGTCAGGCTCGGTAGGAGGAGCGGTAGTGAGGCCGAGGGCATGCG
GGCAAGCGGGGCTCGGGATTTCCTGAATCCTTCAGCTCAGTCTTTGTAGC
CTCCTTCTTCCCCTTCCCCCGCCTTAAATATTCGTGCGACGCACGCGCAT
ACGATGCCGGGCTTGAGGATGAGGATGCCCTCTTCGCCCTCACTCATCGA
TTGGGCTTTGTCCGTTGGAGCCAAGGCACCTGAGAAATAACCACCCAACA
AAGAACCCTTTGTTTTGGCACGAAATTGACGTCTTCCAAACTGCTGTTAC
TTTCTACTGTTTTTGTGTGCATGAAAATCTTCCACTTTCTGTGATCACAT
TACATTTTAGAGTTCATTTGCTTGCTTGGGCTGTTCACGACATCATCCAA
AGAGAGATATAGCATACCCCCGCCCCGTCCATTTCTTACGCCGGAATGAT
TTAAGGGGTGGGGTTCAGATGAGCCTGGGACTACCCTCAGGCTATAATAC
AGAGTTTTAAGTCTGACTCTAAGGTGTTCTACGGAGCGTTTGGTATTGTA
CTGGAAATAGTCTAGTAACAAGGTGTGAACACACGTGAACATCGCCCAGC
GAGGGCTGCCGGCCACAGCGCGGTGGGTGCGCAAACCTTCTTGTACCCTT
GGCAACGTCGCCAGCCTGTTGTGGTCCGTCGTCAGTCCTTTAGCTCTGTT
GACATCAGCTGTGTACCAGTTACTGCTTTCGACACAAGTGCACTTCGCTG
AATTGTTTAGCTAGTTTTGTGAAGGGTAATGTGTTTAAGTCCCGACAACT
TGGCCACCGCGGAGCCGACTGGTTAACCACAAGGAGTAGAACGACCAGTA
CCAATACCTGGCATACATGGGCGTTTCTTTGACAGGTTTCCACTACTAAC
GATTGTCCAGCAAATACGTCGCAGACTTCAAGATTGCATCCATTCTCTTT
TTTTTAACAATGTCAAAACGAGTGTTCAACGCACTTGACAAACCTCAGAC
AAACCTCAGGACCCACTGATAGCTACGGTAGCGTTTACGAAAGGGGGGGT
TTCACATAGTCAGGATCATGACTAGCATAGATACAGTAGCTGTAAAACTG
CAGTTCGCTACAGCAGAAATGGAACGGACGCAAAATCAGATCTGCGACGC
CTCTTACCAACTTATTTTTGAAGTGTGACCCCGAGTCACCCCAAGGAACG
CGAGAGTGTGACGAAAACAGTGGCATACTCATGTTGCTCAGAGAACAACG
TTCCGGTTTGTCGGGCGATCTCATAGCTCAACTCCGTTTTCTCGTCTCTG
TGCATACGATTTCCCTTCAACAGGGAGGGTTGTGACGGCTCTGCCAATAC
GCGTTGCTCGGTGATGTCCACCAATCTATGTCCACCGGGTATTTTATCTC
GATCCTTCGATGCAACCTCCCAACTACCATTTTGGATGTGTTGCTTTTGT
ATATCGCACTGAACGCCTATTCTTCCTCCGCACCTCTACAACACTGCTGC
AAGAGTTCTCTCGCTCTATTGCCTTCTCGCTTTTTCTACCAAACTGCTTG
AATGCACATTTTTTTTTCTTCTGGCCGTCCCTTCATCTCTCTCTGCAATC
AGTGTGTCACTTCCTCTTGCGAGAGTTCCATTTCTTTTTAGGCTTCGTAT
TTTATATCGGCTTGAGAAGCGGTCATTTCTGAATTGCATCACGTGGTGAA
ACACTGATGGAATACTTCTTTCCCTATGCTGGCTTTTCGAAACCTTATAT
TGTGGTCCGCACCAAACGGGCAAATCTGTGCCAAAACAAATTTCACGATT
TCACGTAGACAAAGAATGCCGTTGTCTCTTCTCCGCTGTTCTGAGCCATC
AATCTTGCGTGTATGTGTATTGAGGACAAGGGCGCCGGCTCGTCGCGGGC
GATGTGCACGGATCCATCGAGGCGATGGTATGGCCTCGAGATATGAAAAG
TTTGGCTTAATATCATGCCAAAGGGTTGAGGTGTATGAAAGGGGACAAAA
TCTGTGTTGGGTATAATAATGGAATGAAGGCTGGCGTGCCGTAATGAATA
ACCTGAAGTGAGGTTGTACAGGATTGATAGGTCGCGCAGCCGAAGATCGC
ATGGGCAAGGCAACAACCAAATGAAACAGACTGCAGAATAGTTTGGACAT
GTTATGGATATGCTGGCAGCGAGGAAAGCAGAAAGAAGCCAATTTTTCAA
AGCAGACGGAAGAATCATGTCTTATGCGCGCATCACGGACCGCGCCATCA
CGAGAGAATTGGCAATCAAATCGCGACCGGACTGTATTTGACTGTTCGAT
GTCAAGGAATAGCTGGTAACAAAGCAAACGGGCAGAAGGACAAAGCAATA
TTACACAGAATCATCTCGTAATATACACGAAGTAGTCAGAAAAAAAAAAC
AAAAGAGAAAAGCGAGTAGTACGTGCACGGCTGTTTCTTACGGTCCAGGT
TATTTTGGTCTAGCGGCTTGACCCCCGTCCTCAAATAGAGGCAGAGAAAC
CCCATACCCCCCCCACCCGCAAACGGCACTGTCGAAAAAATGATACGACA
GCACCAACCAGAACTCGACCCCTTGGACACAGATACCGATCAAACCTGAC
GGAGCTTGTGCTCCAATATTCTCAAGTCGGCCACAGAAAATTTGGTGGCA
GTGAGCTTGGGCTGTGACAAGATTTTGGCGGCGGTTTGTGATTTAAGAGT
AGGAAAAATAGACGAAACAAAATAACAGACTTTGCTCTTGTTTTGGGCCA
AATAACAGGCTCGGACAGCGTTCTTTTTTCACCGGATTTTCCTGCCTCAA
CCCACACCGTCGCCGTGTCCTCACCACAGCCAAAGCGCACACGCACCGAA
TTTCCTGTGGCGAACCTGAGAACACTGGAGCGTACCCTCCAACATTTTTG
TCTCGATTGGTGTCCCAGAGGTCGAGTTCTTCTTGGTGCTGTCTCCTGTT
GTGCTCAAGAATTAGCTTTTCCAACCGTTTGGGCTTTCTGTTATTTGGGT
GGGGGTTACCTCAGGAAACGAAACGGTCTGAAGGAATCTGTTAAACGAAT
CGCAAGGAGATTCGCCCAACCGATGACACGTACTCCTTACAGGACGTAAA
GCTAATCTAAAACGTAGAGGGCGTACGAGCCACGCGAAGGAGATGCGAAC
ACGAGGACGCATACCAAAGAAGAGTCATAAAACTGAAGATTCACCGCAAC
CCGCAAACCAAATACGTAAAAAGTAAGTGAATAACTATGACTTGTTGAAC
GCTAACCCCAGACGCAAGAATGTCCCAACAACTAATTACTGCGTGAACGA
AGAAATTAAACGGCGAGATGTTGCACAACTAAGTGCAGAATTTAGTATAG
AACTTATGGATATTTTGGCAGCGATTGAAAGGATGGGTGAAGGAAACATT
ATAACAACGCGGAACCCAGGTTACACTCTGCTATGACAGCAGTTTCTACT
TCTTGAACTGATGAGCTGACCAGCTTTCGCGCCGTCGCAGAGACTGCGGG
CAATCGCAACTGTGGATGACGTACCTTTATATTCCATGTCGAGAAATTCT
TGAAATAAAGCATACGGGGAGAAGAAAAAAACAAAATGAATTCAGGCTAC
TGCTCAGCGAAAAAAAGCGCGTGAACACAAATAAACCTCAAGATTACCTT
TCTGCAGGTTACCTCCGCGAAGCAGTGGTTACGGCGCTTATTGACGCCCG
ACCCATCCCCGCGATAGGGGGGGTACTCCCCCGATCCCAACCTGCTCGGC
CGAGCTGCTACCCATAATTGCCCATAATTCTCATTTCGAGCACTGTTAAC
AAAAAAGGGTTCCTGACAGGCAGCGCGCTTCACGTGCGTCTGGTAGTGTT
TCTAACAAATGTTGAGTTGAGCGAAAGGAGTTTTGAAAAAGTGTAGGTAG
CCGCTCGACCGAGCGGGTTGCGATCCAGGATCCGAAAAGCGACCCCCCTC
AGTGGGATCGGTCGCCCCCGAGGCAGCTGTTTTGCCGCGCATCCTGTTGG
CGATCGTCGCTGTTTTTGGCCAATCACCGGTCGAGTATTTGTTCTTGATC
TACAGTCAGGCCCCGGCTGTTCACTGTGAGTGAGTGGACTGAGATGGATT
CAGCGGACAGTTTCTTGATATATTTATTTTCACAAGGGGCATTTCCCCCC
CAAAACAGTATGCCGCTGCGTGTCGGTTAGTAGCCGGTCGTTGCGTCTCT
TTTTCTTTTTCAGTCACGACCTCGTTCCTGCTGCTTGCTGCTGCTGCTTG
CTGCTGTCGCTGCTGCTGCTGCTGCTGTGATATGGCGACGTTGCTTGGTG
TAGCAGCCGACATTGCATATAGTTATCATGCTCTGCGGCTTGTAGAGGGG
CTGTGAAAGGTGCTTTGGCGCCTATAATGCTGCACAGTGGACACAAGTTT
TGCCGACCGTGCAGCAGCACAGCAAAAGAAGTGGACCCGAGTTTGCCGTC
ATATAATATCTCCTTCTGCCGAAGCCTGTAAGTCTTCGTGGTGGGCTGAT
CGCAGGGACAGGCTAGGGCTGTGGGTCAAAATAAATAAGTCGACCGGGGA
TTAGACAAATGAAGCCGCGAACTGTCGATCAAAAGCAAAACATCGACCGG
TATTTGGCCAATGCGGCGATTGTCAGCAGGATGTCGCGAAACAGCGGCCT
CGAGGAGCGAAAGTGCGGCACGTCCAATGCCTCGGGGCGGCTGTGTCGAG
GCTGCAGCTCGAGACTCACGGCACGCCAGAGCGCGAAACTCGGCGGGGCA
GCGCATAGATTGACGCCTCGCCATGATCTAAGAAACGGAAAAAAATGAAA
CGGCGCTGGCCTCTTTCCGATTTTAGGGTTCGAGACGCACGAGAGAGTAG
CGAGGGCCAACCGGCAGGAAGGAAGCTCAAATAGGTTTATGTGCGTGGTG
GACGCCTACTTCATCTTGTTGCAAGAGCTCTCTCTCTCTGTTTCTCTCTA
TTTCTCGCTCTGCTGCGCCCCGCGGTCTCGCAGTCTCCCGCCATGCTTTC
TTGTCTATCGCTCTGCATAGGCATACGACTTTCCTTACCTACGTCGGTGC
CATATGATTCCGAACCACATGATTCCGACGGCCATGTTTTCGCTGAGATT
TCCATGTTATCCATGCACACACGGGGTGGATGACCGCTCGGTATATTTTT
CTCATTTATCGTGGAAGTGCTCCTCCATTTGGCGTGAAGCCGCCGTACCC
GTGAGATTGCGTGCTGTACATTTTTCCTTAGCAGTCGGCGTGCATGATTT
TTGGGCTGCTGACACCGGACGTAATGGAGACAGCAAAGTCCGTCAAAATG
CAATTTTTGGCCAGGATTTGGCGAAGAGGATTTTGTTTCATTTTTATGCA
GAAAATCCTTCTGAATTTGTTTCACTTTTTATGGAGAAAAATCCTTCTGA
AAATGCGGTGGAAGATTCCAAATCGGCCGATTCCGGCCCTTTTCGGGAAA
TGTTTGGTGAAGATTTCCCAAACTCGGCAGTCTTGAAAATCCTTCCGCGG
CGGGAATCAGAAGTCGGCCCGCCTCTGTCCCGATACACGACACACCAAAT
GCATATACGACCTTTACATTACACTCACGACTTAGAGCTCGACATACACC
AGCCACGCCAGCCACGGTGACACACACGTCCACGCACGACATAATGGGCT
CAGATAAACCCTAGAATCACCGTGGCCAACACTTTGTTTGGCTGTGTTGC
TTGGTGGCAGACACACGTAAACCAGCCAGGCACAGCTGGCCAGGCATGAA
TAAAAAAAACACTTGAGGAGCGGCTCTTCATGTATGTCACGTGGCACGTA
CGCGCGTTCGTTGTTTCAATCACCAAGACGCACGCAGCAGCTTAGTGAAG
ACCAGACTACACAACAAACAGCAGTCGCGTACTCACTCCCTCTACCCCAC
CGAACTCTTCCTGACTGTCACCCTCATTTACTGCTCCCCGTTAGTGGGGC
GTTGGGTGTGAGGTGGGCTCATTTAATCTGCAGAGAGAAGCGTCGCTCGT
TGTTTGAACTACCAGCCGAACGACAGATAATCTGGCCTTTTCTTTTTTAC
TTGGAAAAATATTACTTGTTCTGCCGTCTGAAAAAATAAATGGTTCCACA
TCACTGCATCAAGCAGCAGGTTGATTTGAACACGGCGATGCTGCTCTCTG
TCGATCGAATGACCCCACCTTCAACCCAACGCCCCATCGACGGAGGGAGG
TGAATTAAAGTGATATCCAAGAAAATTGCGCGTTTAGGGATGTGGTGTAG
GGAACGAGATGGTGACCGTGGTGTGTGGTGTATCTGATGTCTATCTCTCC
ATGAACGGCTGCTCTCAGTGGGTTGAAAATACAGAACACACGCACATGAC
TCGATCTCATACGATCAATGAGCCGCTGCTCATTTTTTTCTTTTTGCATG
TCTGACACGCTTCCACCACCAACCAACCAGCGACCAAGGTGCTGACACGA
TGACACGGGTTGCTACGAGCCCTCTGCGGCCTCTCGACGGTCAGGTTCTA
TGGCACAGTAGTTACTTTTGTCAATAACATCCGTTGACACAGCCAGTCGC
AGACCAATCTCACCGGAAATAAAGAAAGAAGACAGGAAAACTAAAAAAAA
TGGGAAAAAATATTCTGTAGCCATATGCGGCGGTGCGAAATGATTGAGAA
ACGAAGATTCGGCTCCAAAATGCTGATGAACATTTTGCGAAATTTATGCA
TTTTGACAAATTTTGCTGTCTCCATTAGATCCGGTGTGACAGATTTCCAA
ATCAGTCCTGTCGGTGTCTTACAGGAAATCTTGGGTTTACAGTCCTTGCC
ATGCTACTGTGATTCAGTTTATTGTGGCTACGTCTTTGCGGGTTATTGTC
GTCTGTCCATCTGTCTGTCTGTAACTCCCTCCAGTTTTCTGTTAACTCAT
TACACCTGGTAAAGTACACGATAGCAGCAGCAGCAGCAGCATACCAACAT
GCAGTGTTCTGTTTTCTTGCCAGCGTGCCTGTGCAACGTGTTTGTCGAGG
GGGCGGCTGCTGTAGTTAAATTTTCCCTTTCACCCGCATGTCATACTCCA
GAGTTCGATTACAGCGGCAGACTGTTGCTTTAGCATCCGCACCTCCACAC
AGCGGGTAGAGCTCATGTGAATACGGTTGATGGGTGACTTCGAGTGTATC
GATGGACGATATCATGTGTTGGTTTTCTCTCTGCCCTGTCTCTGGCTCTC
TCGCGGTGCCCCGCGTGCCGCGGGCGTGTTCTATTCATTCTGGCTGCTTA
CAGCTCATTTCCGTTGCCTCAAGACTGAACCTCGTTGAGGAATGTTTTGC
TTCCTTTCTTGTGACCATGTCCTCAGAAAAGTACGGAACGATGATGCCAT
CAGCTGCTAGTTTGAGACGTGAATGACGTGTGATACCTTGGAATCGTTCA
ATTGAGAGTGGCGGCGAAAGTCGTAATAATTCTGTACCTTGTGCGCAAGC
TTCCCTGTTGGGTGGCACACTCGTCGTTATTGATCATTTGAAGGCCTACT
CTAGACTCGCGGTGATACGGTCGCTTGCTTGCACAGCCGCAAATGTGACA
ATTGCCACTCCTGTAGGCGCGACGACTTGTTGATGAATTTGGTATGTCCA
TGTTGACGTAATTCTGTCCCTGCCGGTGGATGGGCCTGATTTTTTGCTAT
CACGTAGAGCAACACGGACAGCGCATGCGTGGTATGAACGGAGGCGGGCA
TACAAATGAATTGATGTCGTACCGCTGGCTGACCTAATCGCCGTACAATT
ATTCAAACTTCCTTTCACAGGGTGCTCAAGCTCGACCGTCGAGTTGTGAA
CCCGACATCGCTGGCAGACATCTGTCAGGAGGACCCGGTCGTGTACACTC
CAATCGACATGATAGAAATGTTGGACATGATCAATGAGGGAAACAGGACA
GTTGGAGGGCTAAGCATGACCGCCAAGGGCTACGGCATTGTAGGCTTCGT
CAGGTTCTTGGACTGCTACTACCTCAACTTTATCACGCAACGCAGGCTGG
TGAGCCGGGTCAAGAGCAAGCCCCCCTTGGTACCCATTGTTGGATTCCCT
GTCAGAGAAGCATCGCTCGGCCGTTATCGTTGTGCTCTATCCCGACGATT
GATAGGCCTCTCACGGCCGTTGCTACAAATCGTTCCGCAACTACCCCGAC
GCAGGTAGGTGCAATTGGGGGTAATCTTGTCTACGCCATTAAAGCGACAG
AGATGTTTGCCATTAAGCCCGCCGACGCCGCATCAGGTGGACTGAGCTCG
ACCGCAGCACACGGCAGTGACTCCAATGCATTTGTTAGCACCTTGGCGAA
AGTCAACAGGCGGCTTAATCCCACTCTGAGGTAAGTGACGAGAGGATGCT
TGTGTGTTGACAACTACGCCGATTTGGCGTCTGCTTCGCTGCACTACTTA
TGGCGTTTCGGGCTTTGCACAAATTGTCACATGCTCCTTAAGAACCACAT
CAGTACAAAGCGAGAGAGGGATTTGGTGCTGCTGTGCCTGCTGTGGGGTG
GTATGGATAGATTTCTCCTATCTGCTTGGGCGTCATCTGTGTCTGGCACA
AAGCCGTGTATGGAGTCATCATGCACAATGATGCCTCTGTCTGTCACCGG
CGTGCACCAGTGCCCGTCGGTGGATGCATGACTATTGTAGTTGAGGCGTT
TGAAGGGAAGCTTCGAGCAGCAGAATAAGTGCACCTTCTACCGAAAGCTT
TGGGTTCGTTCACTTACAAAACTCAAGTCAAGCGCAGAGCGAAGGTGGGG
TGGGGGGCATGCAGGATGCTCTTCGCGATGTGTGGAACTCACAGCAATGT
CTTGCTTCCACATTACTGTTCGACGTAGTGTTGTGCGGTTCTGTCTTGGT
TTGGGGCAATCTTGGTCGTGGACTGCATCACCCCTCTTGCGGCAGTCCAC
CGTCCTCTATGAAACAGAAGGTCGATACCGTTACACTTTTTGTATGATGC
TCACCGCAACTTTATTCTAGCAATGAACAGTGCTCGACAACGTACTACAC
GTATGATGCATCATATTGTCTAGATCACCTGTGGCGCACAGACCACGGTT
TGAAAACATGTACAAAATCATCCGTGGCGCACAGATCACTGTTTGAAAAC
ATGTGCAGATCATCTGCGGCGCACAGCACTGTTTGAAAACATTCACATAT
CGTCTGTGGCGCACAGGTCACTGTTTGGGCTTCATGTACAGATTGTTTGT
GCCGCACACGTCACAGTTTGAAGACATGCGCAGATCGTCTGTGACGCGCG
GCTGACAGTTTCAAAACATGCTCTGTACGGATCATCTGTGCCGCACAGGT
CATGTTTTTATATGGTGTGGGTGTAACTACTGCTTTCTACTGCTGTACTG
CTTGCTGTGTGTGCAATTTATTTCTTTACTTGCATGCGTGATAGTGAATG
TCGATTAAATGTGTGTATTGACTGCTCTCTGCTGCTTTGCTGTTTTGCTG
TGTGTGCATTATGAAATATGCAAGGTTAATATTTTCGATTTCTGAAGATG
CGTGACCAGTTTCTTCCTGCTACATGTAAAATTTACGAAGCGTATTTAAA
GGTTTTATCGTTATTTTAGGTATTATTATTGTTTGTACTGTAGTGAAGGA
TGAAGGATGTACTGGTGCGCACAACAACTACTGTGCTGATGTTGTATTGC
TGTATGCTTGACACCCACGCCCAAAACATAATTTTGTTTTGTGCGTTCAG
AGTAGAAAGCAGCACCACACACTCTTTGCTTAACACACATCACAAAACAT
GGAAAGTGATCTTGCACATACAGCAGTACAGCTGTAGAAAACAGGTCATC
ACACATTTGCTTGCCAACAAAGTGAGTGTGTGGAGCTGGGAGCGCTCTCG
GTTGGGAGCTGCTCCGGTCTCGCTGGTCAAAACGGATATTTTTTACAACC
GGATCTGCGAATATTCTCGGTGATGCGTCGCCCAAGAAATAAATCACCCG
CCCGCCCACCCGCCCGCAATCATGTTTAATTGATCAACGTGCCATAAATA
ATCCGTGAATGATCTATGTCGCACAGGTCACAGTTTCGAAATCTTTACAA
ATCATCTGCGGCGCACAGATCACGCTTTAAAAACATGTACTTCGAAGTAC
AGATCATTTGTGGCGCACACTTGACGATGACCTGCGACCGAAATGATCTA
GATTTGATCAATGCGATCTGATCTTTTTTACGTGTGCAACTTCTCGCGGT
GTCCCTTACTTTGTCGATGAGTTTCTTTCGTGCTGTCATTTCCTACCAAA
TGCGCGTCGACTGAGGTGTATTACCCTCTTCTTACCGTGGGGACGACGAG
GTGTGGCCCCTTCACTACTAGACGCTTCCTCACGGTGTAGACGTGTTGAT
GAAAAATTATGCGCGTGTCGAAAGAGAGGACGAAAGCAAGGACTTATTTT
GCTTTCCGCACACGAAATTACCGTCTGCTTTCCTTAGAAAGAAGGTGCAT
TTTTTTATTTTGTTGTTGCAGTCAGTTCCCAGGTTTCTGTGTTGAACAGC
AGCTCTGAGAGGACCGAAGCCGTGTTCAAGTAAGGTCAGAGTGGTTTTCT
GCATGTTGGGAGCTGCCCGTGAACAATTTCTCAAGAGCTTCACGAACCAC
CTCAGTGCTGGACTGGGCAGCGAAATCCTGCGTTCGACAGTTATTCCCAT
CGTGCAAGATCGAAGAACCAGTTCTACTCCCCTTGAACCTTCCATGTGCC
AGGGACGTCATTTTTGTCACAGAAGCTGAAACACAGACAACTCGCTTGCA
ATTTTCTTGCGCAACGGAACAGGGAGACGGCTGAGGCGAAGTACCTGGGG
CTATTTCAGTTCATCGACCTCACCAAAGACTTCTTCTACTCCTACACCTA
CGACCTCACCAACTCCTTACAGCACAACATGACAGCGGCAACAAGCAAAA
CGTTCCCCCCTCCACCGTTCAAGGTATGCAAGCCAAGTTCACGTTGAGTT
TTCTGTTTTGAGAGCGTTATCATGACTTCTCGTGTATGGCTGTCTGAGTG
ATGGTGCTTGGGCTCCTGGTTTGCTATCGAACGCTCTTAGCCTACCTTCG
TCGGACGTGGCTGTTTCCTTTGGCACCCTCAGGACATGTATGCATGGAAC
TTTCACCAGACTCGAGAGCTCGAGGCGCAGGTCGGACACCTCAACTCGTC
TTTCTGGGTGATTCCCATTGTGCACGGTGCTTTCATGCAACGCAAGTGTG
ACTTGTCCGGGCGCATGCTGAACATCACCGTCATCGCTCGCCGCTCGAGG
CATTTCGCAGGAACCCGGTATGTGCCGTGTGTGACTGTGTCCTTACCCCA
TAACAAGGCATTACCCGTATATGTTGGTCCGCGGTGTTATTCATGTTTGA
TGTTATGACCTCCATTTCGTCGTACTCCCATGTGCATTTCACACGACCAT
CTCTCAGCTTGCATATCGAGCATGGAAGCATGTACAATACACTTATTTCT
GGAGCACATCCTTGTGCGCTTCCAATGCTGCGTGATCTTTCACGTTGTCA
TCATTCATGCGATATACACAGTGGCTACTTGCGTCATTCATGAGTATCAC
AACCGGTTACTGCTGTGATGCCCATCAATCGAGTTTCGTGCGTGCTTTAC
TTTCGCAGGTATTTGAAGCGGGGTGTCAGTGATACGGGTAAGGTGGCAAA
CGACGTCGAAGTCGAACAGGTGAGGCTGGTTTCAGCTGCGCAGTTCATGA
CAAACTTGGTCACACATGAGGAATCTGCACAAGCTTTCCAGCGGAAACGA
CGGCCTAGCACCTTCCCAATGCACATCAACCAAGCTATCCTCTCCTGATG
GATAAGGGATCTGTCGTGTTAAGTCGCGTGGGGTCGGTCGTCGGTGATTC
GGCAAAGGGGGTGCTGCGCAGTATTCAGGGTGGGGGTGTTGATCAGCGTG
TCTACCTCCAGATTGCAGGTGCTTACTTGTTTTTCAAGAGGAATCTGTGC
GTGCGCCGTACAACTCGAAAGTGAAAAACACAAGCTACCATGTACTGCGG
GAGAACCCCCCCCTCCCCTGGTCCCCTGGACAGATTTTGAAAGCTTGATT
ACTCCGCAACGGAAGGGTTGGTACGATGGCACCGAACGACCCGCTCTCAT
AAGAATGTTTCAACGCCACCCCTTCGGCGCTGATACTCTGCTGACTTGAT
TCGAAAATTGAAACTCAGCCCGGGTGTGTGTTATCTTCCGATGACTTGCC
TCTTGTTGATTCGGGCATGCGCTCTCGATATCCCAATTGCCAGATCGCAC
ACGCGGAGGGCGTCAAGGAGGGCGTTTTCTCGTCGTTCTTGCAAATGCGA
GGATCAATTCCCACCTTCTGGACGCAAGAGAGCAGCATTTCAATTCCTAA
GCCTCCCATCGTCAACAGCCGGGTGGACCCCATGTATTCTGCCACGCAGG
TGAATCAGATGGTTTTCAACATTTTTCTGGTCGCGCTTGATCACCCCACC
CCCAAACCCTGGCCATACCCGACGAAAGATAGAGTCATCTCTCTCTGCAG
TTCGCAGGCAATCTTGTCCCTTTTCGAGATTTCAGTGAACAAGTGCTGTG
AAAAAGTCAACCGAAATGGTGATCCCATGTGTCCCGCTACTCATGTGAGT
TTTCTCGAAAGGGTTCGCTTCACGTACCCCAGATTATGCGGGCATTTGAC
TCGACTTCGAGTATCATGCAGTTTCGTCGTGGTGCCCGTCTGTCCTGTTG
CCATTATAATTTCACGAGGCGTAAACGCTTTCATACTCCATGTTTCGCAG
TCTTGAACATTGTGTTGAATTTCCTGGTAGGACCACTTCGCGGATCTTTT
GGAGCGATACGGGTCGCCTGTGCTGGTCCTTGATCTAGTCAAGCAGACGG
AGAGGAGGGAACGGGAGGTCATCGTGGGCAGGGAATACCGCCGGGCAGTT
GAACACGTGAATTCCACCATGCCGCCTGTGAGTGTATACCGCGAGGGGCA
AAAATACGGTTGTAGAAGAATGCTTGTGGAAGAATGTGCTCGGACTCCGG
CAAAATTGGCCAAAATGCAGCAAATGCAGCGCCCTTCTGTTTTACACGGC
TACGTTCACACGCAAGGAGAGGCCGCCACACATGATGTTCGGTAAGTTTA
TTTTCTGGGCGAATGACACTGAATGTACAAGCGCCGTTGATCCTTTTGTC
ACCACGCTATCCAATACTTCGAAGTATATCATCATCACCAGTGTAGAAGT
ATATCACAGCTTGATTTCAATGCCGCTGTTGAAGATATGTTTTTTTGTCT
TGGCATGAGACATAAGTCACGGAGGACACGTGATGGAAAGGTGGTCATGA
TCAAATCAGCACATTTTCATCACGTGGGCGATCTAGAAGCTGAGGATGCC
AACGTGCAGCACCAACAGGTGCACGGCATCACGAAGGTGGGTATTGCTCA
GGATCTGTATTTTCCTTGGCTTCGACATGCCTTGAGGTTTCACACGTAGT
TACCCACACGAGTTGACTGCTGCGGTGATGGTTGTGATGGTGGCATTCGG
AGGCCGAGGTGGCCTGAAGATTCAATAATGCTTACTCGAACCAGCCCGGT
AAAATACCGACTCGAAACCCGCGTAAATGCGGATGAGGGGCTGCAAACAA
AATGGCAAGCATAAATTTTATATCATACCACCTACGAAATGTTGCGCTTT
TTTCGATTCGAAAGAGGTTCTCCATAAAAACCGCAGGAGAAGCGCATATT
GATTCCACTACCGGGAAGGGTATCATTCTTCAGCTCCGTGGATTTGAAAG
CATTGCCAGATATTGTTGCGCTTTGCGCACCGTTGGTTTGATCGCGGACG
TCCGTGATGAAATGCAGCTATTCGTTAAAACCGTTTGGAAAAGAGGAAAT
AAGTACTTTCAGCGTCGTCGTTTCGCCAACGTGTCACTCGCACATCGAGG
GTCTCTGAGGAGAGTCCCTCAGTCGCTGGCCCTGACTCGGGTGGTTACCT
GCAACACTCGAACATTTCAGAGCCCTCACTCAGGTGGGGGTTTCACACTC
CGCGTGACTGATGGGAAATTCCACCTTGACGTACTGAACAACCTCGTTGG
GGCTGACAGCAGTTTGGATGCGCAAGTTTACGTTACACTTTGACGACACT
CCACGCGTACCTCCTTCTCAGAGGCACAATATCAGGTACTGCGCCCTGGA
CTTTTCTCACCTGAGCAAGCACCGCGACATGAACGTTTTGAAGGCCCTGG
AAGAAGTCGCGGCCTGGACTGTTGGACAAGTAGGATTTTTTTGCAGGCAA
GCGAATTTTCCGAGTGTAGCCATTGGTGCAGTAGGTGTTACAGCAATGTT
TAACCAGCATTGCCGTCGAAAAGTGTGTTTGGTTTCGGAGAATGTATTCG
CCGATACTCGAAACGAGAAAACCCGTGTTTGATGCGACAGCTGTGCAGGC
GGGTTATAATGCTAGGCACGGTAGTTGTTGTGCTGGCGATGGTCAGCACC
AAGAATCAGCCCCTCCGACTCTTTTGCTCATTCTTTTGGACGGTGTGCAG
TGCCCCTCGCCGAGAATTGGAGCAGCTGCCAAAGCACCAGGGCAACACTG
GAAGAGGCGAATTGCCGTCACTCAGGCAAGCCCAAAACACCGGAAGAACG
CGCGACGCGCCGGCAGCGGAGCCAATTCTCAACGAGGACAGCGAGGAAGA
GAAAAGCATGCCGCACACCGGTACTGGCCCTACTAAGGCGGGCGGGGACA
GTTCTACTCCGAAACGATCCCCCGGAGACACTGCCGGTCCGATACCACCA
CCTTGGGGTCAAGGCCTCCCTGTGATGCCGATGGAGCAGCAAGGCGTCCT
CCGCACCAACTGCATCGATTGCTTGGATAGGACAAACGTTGGTCAATTTA
GCATTGGTGTCCACGCACTCGCTAAGCAACTTTACGTTATGGGCGTCAGC
AACCAGGTGTCCTTGGAGTCTGGATCGCAGGTAAAATAAAGTTCTCTTCC
CTTTTGAAGTTCCTCTTAAGAGGTGCCGTTTTCCCCCTCGCAATCTACGG
TACTCCATAGTATTGAGTCCCAGATACTGACAGGCGGCATGCGATCGAAA
CATGGCGCATGGTCTTCTTTCACGCTCTATTTGAACGTGCTTCACAAGGC
TACAACCGTACATGAACGGCAATACGCGGACAGGTAGCGTTGGTCTTCAT
GGAGCTCTACAGCGAGCTCGGAGACAACATCGCTCTTCAGTATGGGGGCT
CAGAGGCGCATAAGAAGGTTTCGGGAAGCAGCGGGCCGGGCAAGCAGGTA
AGAATGCAACTTTACACATTCGACATGATGCGTATTTTTCGCTACAGCCA
CCCTCGAATCGATCAGACTTGGTACTTGTTTTGCACATTCCAATGTCAGC
CTAGTGCGTCAACCTAAACTACTTTACGGGATCTCCGCCTTCCCAAAGGT
TTAGCATCATGGCGTGCACTGTATCGCCAGCAGTGTCTTGGCTCTTACGT
GGGTCGCCGCTGTGTTCAAAATTGCACGGCTAGTTCCTGCAGCATGGCAA
CGGCGCGTACACACCGTTGGACCTTCGACGCCCTCGCGCTGTTGTAGGTG
GGGTCCATGAACAAGCACCGTGAGTTACTTACGTCCATTCGCCGGTACTA
CAGCAACGCCTTCACGGATCGTGCTAAGCAAGACGCCATCAACCTTTTCC
TGGGATACTACGTCCCAAACAGCACTGACAAGCCGTTGTGGGAGCTCGAT
ACGGACTACTATCTGCACAACTTCCACGCTGAGAATGCTGGCCTTCAAAG
TATGAGGGAGTACAAGAAGGACCAGTACTACTTGGATCAGGACGAGGTGA
GTGTCAAAGTCGTCACGTTCTTATACCAAAACTTGTTTCACAAGCTACGC
TGTCATTCGAATCGAAGCAGCAGATTGGTCTCTCCGCACGTCATATATCT
CCAAGAATGGGAAATGTTTCTCCGCATTCTCCCGTGCCCTCAAAGCGCAG
CATGTCCTCCTCTCGAGCCTTAACGGGCCAGCACCACAAGTAGATTTTAT
TTCTTTTTTTGCTGCTGCTGCCTCTGACTTCAGAATTATGTTCACATATT
TAGAGCGTTTGGGCTAGAGCGATCATGCACCTTTCTCGTCACTCTGTACA
CACAAAACGTATGTATGGTGCATGGTTGGTGCTACTGTACCGCACCGGCA
TGGCCCTCCTTATGTCCTTTTGCACTGTTCACTATTCCCTTGGGCTCTGA
GGCTCTATCATATACTTCGTACAAGGTTCTCCTTCGGCCCTTCGGGAGGT
TGGTACGTGTCTCCCGGGGAGACGCAAGACGACATGATGATCGAAATTTT
GTTCTGTTGATGTATGATACCTTGATATGATATTCGGTACAGCATTTATG
CTCGCCGCCGTACCAAACATCGCATACATTCTCTGCTGGTGGGTTCTGAC
ACGGATAACCGACCAGTTGTAGGATTTATTTTGTTGTACGAGGTACACAA
TCCGGCGGCCGCAATGTTGTTGTTGAGCACGGGTTGTGAAGAGGGGGGCG
CGCCTGCACTGCTTTGATTTGGGAATTCCATATTCCCAAATTCCCAAATT
CCCAAAATGATTTTCTCAAATTTGATAATTTGATAATTTCCCATTCTCAT
ACTTGTATTGTCACAATTTCTTGTATTTTTTCTCTGGCGTTTGTTGTCTT
GTGTTGATAATTTGATAATTTCTCATTCCTCATACTTGTATTGTCACATT
TTCTTGTCTTTTTCTCTGGCGTTTGTTGTCTTGATTCCACGTCCTCTCTA
GACCGACTTTTGTTGGCCTCTCTCTCTTCAGATGTCAACGTGATCCACCT
CGCATTACAAACGTGCATCTTGTGGATTCGCTCATGTTTGTGCCGAGGCA
TTTTGAGATAATCTTGAATGATGAATGGGTGGTCTGTTCCATTTGACGTG
TTCGTCTTGAAACGTTCATGTGCTGCTTGCTTCTTTGAGATATTTGAGCA
TGTGGTCGCAAAGGGTATGGAAAAAATGATACGGAGTACTTCGTAGGTAC
CGCACATTAAATTTTCAAGTGATTTTTTATTTTCCATCTCCTTGTAATTC
GGCAGCAGGCTTTCTTAGGGGAGGGTCAGGATCATTGGGAGGCGGAGACA
CACTGTTGACGACCCACCGCGGCACGAGCTCTACCGACATCAGGCGAGCA
AGTGCGGAATAGTGCGCTCCTGAAGCAGCTGCTGGGTCTCGCCCGGTTTG
AAGCCCTGGAAGACACGGTAGCAGGAGTGCATCATGATCATGTGGCCAAT
TTTTTGAGAAAAAATTCACCTGTTTCGGACAGTTTGTAACCGGTGCGCAC
GCCCAAACTCGGGAACGAAGGCGCGCTCTGATTGCGCTCCGCCGGAGGGT
GTTGGCAAGTCGTCCGTCCAACTTATCACAATTTACGGCTGGCAAATAGA
AGCAATACACGAGGAACGCTCGACACATGAGCTCTGAATTTGGCTCAAAA
TGAGTCTCTTTGGCTCAAAATGCGGTGTAGCTTGAATAAATCCGCACACA
CCTGTACTGCTGTACAAATACTTTGCACACCTGCTGTACTGCTGTAATAC
TGTACAGAGTACAGCAGTCAAGGTAGACCGCATTTTGAGCCAAATTTCAG
AGCTCATATTTCAAGCATTCCTTCTGTGTTGCTTCTATTTGCCAGCCGTT
GGACGGACGACTCGTGCACACCCTCCGGCGGAGCGCAATTAGAGCGTGCC
TTCGTTCCCGAGTTAGGGCGTGCGCGCCGATTACAACCTGTCCGAAACAG
GTAGATTTTTTCTCAATAATTTGGCCACAGGATCATGATGCGCTCCTGCT
ATAGTGTCTTCCAGGGCTTCAAACCCGGCGAGAACCAGCAGCTGCTTCAG
GAGCACAATATTCCGCACTTGCTCGCCTGATGTCGGTAGAGCTCGTACCG
CGGTTGGTCGTCATCAGTGTATCTGCGCCTCCCAAATGATCCCGAGCCTC
CCCCAAGAAAGCCTCCTGCCGAACTACAAGGAGATGGAATCGGCCGCATT
TGCTTATTTTCTTGAAATTTGTTTCATGTCCGGTACCTGTGATTTTTTCC
ATACCCTTTGTGTGGTCGCTTCTGTTACTGCCTCAGAATGCTGACGCACA
CGAGAGCGAAAGCGCGGAATTTGTCTGGTTTTCGACTTGATTCGGCGGGC
TTTCTCTGCGCGGAAAGCGACCCCGCGAAATAGAGCCAGTCCCGGCGACT
CTGGGCGTCGAGAACACGGGCCACTGATGCCGGGCGATCCCGGACCTGCA
CGGTAATGTACCGACAGGTCTCCTACGTTCCTCCAGAAAAAAGTGCGAGC
AAACAACCGCTGTCGCCGGAGAAATCTGTGCCTATGCTAAAGAACGAGGA
AATTATATATTTCAAGGGGCCTCTCGGTAATATTACCGTAATTACCTTGA
CATACACAAAATCCCATTTGTCAATTACCGCAGTAATACGAACACGGTAC
CGCGAGACCACATGCCTAATGTTATGCGCCCTCGTAGGTGATGTGCTGTG
CCCAATCAAACCCTGTTTGGATGAGCGTTTCGATTTCCTTTGTTTGGTTT
GTTTTTTGTTTTTTTCCTACTGGTTCTTACATGTTTACTGCTCAATTTTT
TTTTCATCCTTACCCCGAACCTCAAGCGGTTATCGCGCCGTACAAACTCG
TCAGTTTTTTCTGAGACGGTGGCGGGCTGTTTCCCGTCTTTAGGTCTGAT
GAAGTAAGTGGTACTTCGTAGTTGACATCGCGGGGCTCAGATTTTGTTTT
TGATCGTTGCCTTTGGCCGAAAAGGTCTGGCTTTGATCTGGCGAGTAGTG
GTGTGTTTTCATGGTGATTGCATCTCGGGCCCTTTATTTTCAATTGTTTA
TTTTTGATTTGACTGTATAGGCTGGAATGCATGAAAAACAACAACGGTAT
AAATTACCGCGGATGTCGATTACCGTTCAAAAAAACCGCGAAGTACCGCG
GTTGCTTAGTACTGCGGTAAATTGTCCCAACCTCAAAAACCGTTACCGAG
ACGACCCCTTGAATTTAAACATAGTCAGATATTTTTGTATATGTGTTCAT
CGCGAGCTACCGACACTTCAATTAACCTCTTCATGCCCCTGTCGAAGTAT
TACAAAAGCAGTATTAAGCGAGTGGTCATGTCTCTCAAAACGCAGGACAT
TGTTCTCCTCGCCTCATTTCGTGCTCTGAGAGCGCTCCATTTCCTCTGTT
CTCTCGTGATGAACGAACCACCATTTTGTTTTTTATCACGTACATATTGT
ATATGTTTTCTTCTCAGGGTTCTGTTTGCCTGTGATTGAACGTTTTTGTC
GTTTTGCGAGAAGAAAATGCATCACTTTACAATAGAAAAATGGTCAAATC
TGTCCATACCGTATACATCGTGCTCTCTACATACATAAAGGATCATTTAT
CTACAAGTCTTGATGTGGTCCTTTAATCGTGTCGGCGTTTGTCACCGAAC
TGCCGTGCGCCAAAGCTGCCATTGTTGATGCATATTTCGCTCCTTTTCGC
ATTTCTTTCCCTTTCTTTTCATTACATCATCGACTCGGACAGTATGCCAA
ATGATCCTCACAGTCACTCACAGTCACAAACGGAATTGGCAACAATGCAC
CGTCAATCTGCGCACCCACTCCTCCGAGTCACTCAGAGCTTACCACGCAC
GTGTACGTTTGTGTATATCCGTTGCGGCGATGAGATGGCTACGCAGCGAT
GAAGGATGACCAGTGTATGTGCGTTTGCGTGTGTGCCGGAAGCGGATTGA
TTGACAGACATAGCAGACAGGTGTAGACGATCACAAGTTTGCTAGTAATG
CTGTCGTAATTTGTATTGCTCTCTCTCTCTCTCTCTCCCTCTCTCTGCTG
TTTGTCCTGTGTGCGGCGAAAGGTTGCTGTGCTACTACTGGTAAGTTTGA
TCCCTTGTCTGCGATCAAACGACTATGTGCAAACCCGAAGTTCGATTTTC
ACAAGCGCTCCGAGACTTTCAAAGCTAAATATAGACACAACGAACTGCCC
ACTCGATGTCCCCATCGATGATACCCCAGATCCTCCGAGTCAGACAGAGC
GGCGGAGACACAACTATTTACTGTCAATCGTTGTGTACACCAGTACTGGT
CGGTCGTTTCTCCTGGCGCACTATATTTGTGAATCCTCCTGTGCTGTCTT
AAGTCCCCGTCGCACAAAGTGTCATAACTGGACTATCCCTTTGCTGTTCT
ACCCGAGGCCAATATCAGACATTTATTTGATTGTACGGATGCAAAGTTTT
GCTCGTTGCTTCCAATTTGCCTCTTAGTTCTGCGCCTGTCTGAATGATCG
TCGTTTCTGGTACAAATACACACAAGTTCACAATGTAAAACCGCCGGTGG
CTCTAACCATGTTTCCGTACCATATCCACCGCGTCCATAAATATTGCTGT
TTACACACGCAGGATTGTTTCAAGTTTTATGCTTGTGATCGAGACGGCGT
AGGCCGCCGAAATGTTGTATTGCTTGCTTTTATTTTTGGCGGATCTGCAA
GGCTCCATCTAGGGTGTTACTAGCGTGTCATATACCTCACAGGTCGTGAG
GCCTAATTAAGTTGCTGTATTTCATACGAAAACAGAGTTCAAAGTATGAT
TTGACGTCTGCAGCTCGCGACAATGAAGACACGGGTGCTGCAGAGCGATT
GCAACAGTGTTCGCAGTTTTTTCTTTGCCCACTTCTTATTGCGCGACCCC
TCCCCAAAAGCTGCAGCGCGAGCACAGAACTCCTCCACTACGATTGTTTA
TTTATTTTTTCTCGAGTCCAAATATGCCTGTCGTGATCGGTTTCGTTTCA
GGAACCCGCTTCTGAAAGCAGCGAGAGTGGGGCTGGAGCTTTTTCCGCAG
CGACGACTTTGAGTGGGATGATAGACGAAGACCGCATTGCAGAGATGCAG
CTGAAGCGCCGGCGCGTTCGCAGGATGTGCGCTCGGCAACGGGCGGCCAC
AAGTCAGTGGTGGCGAGATGCTTTGCAGCGGTACGCTCAACGACGAATGT
GGATGCACCTGGGCCCGCCGAAGCAAGGACAGCTTCCAGAACGCTTCGTG
CGGATTCACGAGGTGCTGATATTCTGTCACGAAAGCACGACCGTATTTTT
TGTTCCGCTCACCGCCTTTGTTTTGGTATCTCCAAAATCCTCCTCCCTGT
TGTCATCAATCACCCATACCGTTGTCCAATGACTCATCGAAAACGTGCAG
CCGGAGCGCCTCACGTCTTTCGAGAAGTGGTTTTCGCACGAATTTGCGGT
TCCCGTTCCGTCACACCCTGGAAAAACAAGTAATGGAGGGTCGGCCATTG
AAAAAGTTCCGAGCCGTCCCGTCGTCCAGAAAACTGTGGTGAGCCGGGTA
GATAGGCGCAACTTGACCTGTGTTCGTGTTCGTAGCACGTGTTGTTTCGC
CCGCCGAAGTAAATTTGATTTAATTTTGATAGCCCTAACGTCGTGCGGCG
ATGTGCTTGCATCCCCCGAACTCTGGCTAGGACTGAAGGCTAGAAGAAAC
CAGCAGCACGCGGCAAATTATGTTGCACATCATTGCAAGTAGCCACCACC
AGGAACAGTCTTCTTGTTTCATGCAGTGAGCGGCTTTCAGGGTGAGATGG
TTTTGATGCCCCCCAAGATAAAACGCTCATGCACTGCATGCCGCCCTGTG
CCATGTTAACAGAGTACCGTATATGACGGTGTATATCACCCGCACGCCGT
ATATCACCCCCCCCCAAAAATACACTGTTTGTCATCCCGGGTGATACTTT
TCCGAAATCGAAAAAAATAGCTGCTCTTATCACCGGGGGTACGCCGTATA
TCACCCCCCTATTTTTTGCGGGGCCCTTCCGGCTATCACCCCCCAATTTT
TTTTGGTTTGAGTTGCCCAACCCCTGGTGGCTCAAACCAGAGTCCTCACA
CGCGATACCGATAGCCAGCATGGAAGAGGGACACGGGCCTTCGGCAGGCG
CTGCGCAACCCACGCCACCGGTTACTGGTACCGGTAACCAACCCATTACG
TCGTTTTTGGGTCGTCCTCAAGTCCTGCTGCTGCTGCTGCTACTGCTGCT
GCTGCCGGTACTGGTGGTGGTGACAATAGTGGTGGTGGTGTTGCTGCTGC
TGCTACCAGTACTGCTGCTGCTGCCAGTACACCATGGGTCTTACGTCAGC
AAAGTGAATTTGTCAACACATTTTTTCGTTTTCAGTATGTGTGACCACAG
ATCAGAGCTCCTACCCTGCAAAAGCCGGAAAAGAAGCACTGATTGAAGTG
AAGAAAATAAAATGATTTTGTGTGTGGGTACGATATCACAGTACCGGTAC
CGGTAGCAGTATGATCGTAATATTAATACGGTAACCATACCAGTACCGGT
AAACACCGCAACGGGTATGGGAATAATACCAATATGTAATCACCCCCCCT
TCTTACCGTGCAGACAATCCCCGTTGACGACTTGGTCACCGCACCGGTAC
GGTACCGTAATTTATCACTCCCCGTTCATATCACCCCCCCCCACCCCTCA
AATACACTGTATATCACCCCGGGTGATACTTGTTAGGAATCGAAAAAAGT
TATCACCGGGGGGTGATAAACACCGTCATATACGGTAAGCCTCTGCATCG
GGGCATCTTGGCGTCGTAACGAAACTGCACAACCCGTACTCTTGAATACC
TAAAAGGGACCGCGGCGCGGAGACCAAAACGTGACCATCGGGCGATACGT
ACGAGATATATCTGTCAAGGCACGGAGTATGCTTGGCCGGCCACAGCGTG
GTGTTCTCAGCTTGAGCAGACCAACGGAGTCTGTTCTCGCAGATCGTGAA
CCAGATCCGCGGGAAGATCCAATGTGGGGCGCTAGAGACGTGGTGAGAAC
ACACAACGGTCTTTACTCCGCTTGTCACCGCCAGGACCCACAACGATGAT
TAGCGTGGTTGGTAGTCAAATTACGAAGACATGCTGCAGGTGAGAGAGCA
CATCCCTCATCGCCTTGGTTTGCGTTTCCCCGCCACTATGATACCAAGTG
GTTCGTCACAGCTCGCCAGCGTTGCGTTGGAACTGAAAAATCAATTTTCC
TTTGCAGCCCTACATTGGATCGCCGATTGCCGAAGAAGATGCCGACGCAG
AGGTGGCATCATACGCGGCCTTCTCGAACGACATGAACCTCCTTGTGGAC
CCTGCGAACGAGGTGCTTTGATCAGGATGTTGTTATACACCTTCTGTGAT
GTCGATGCTGTACTGGCTTTCGTCCTGCTTCGACATGAAGGTTGTAAACC
CAGTGTCTCCCCAGAGACAAAGGTAATTTTCGCAGCCTGTTGTTTAGGGT
ATTGTGCTGTATGGCTGCTTGGACGCTTAGTGGCCCATCGATTGACTGCA
CATGACGCGAGCAGCTACGAAGCCGTCGGACGCTGCAGTCACGTAGGGTT
GAGTTGTGGTCGTGCATTACCACGAAGCGTTTTCCAAATAGACAGTTCTC
CCTTTCGATTTGCTTGTGTGATACGCGTCAGACGGAGTTAGCGTCGTACC
TTGCAGATTTCACGCTAGCAACGGACACCGCCGCGGGCGCCCTGGCGTTA
CAGAATTTGGCCGAGGAGCACCATTGCGGAGCAACGCTAACTGTTGAACC
CTACGAGGGTCTCAGGAAGGTACGGACAGCGCTGACAGCGCGATGGTACA
CATGGATTTATCACTCTACGGCGTACTTAGTTGGTGCGTATTGTAAACAT
CATTGTGCTTGCGGGGTTCATTAATTGTGCGAAATATCTGCGTTTAGGAA
AGTACCTTTTCATGATGTGGCGACTGAGAAGGTGCTTTTTGTGAAAGCGC
CGTTTGTAGCGGTTCAAAATTGCCCGCGATCCTTCAAGGGTACTTATTTT
CAGCTCAACCCACACAGTCGTCCGTATGGCATGTTAGCGGATGATTGTAG
AGCTTACACGCGCCACACACAGCCTCCCAGCCCCTCTCTTATTCACACCC
AAGATGTCCAGGGCTATTTATTGCCGGATGTGCTGTTTGCCTTGGACCGC
TGCTGCTACCGTGCGCAGGAGATTCAAAACGAGGAGCTTTGGGGTAATTT
ATTTTTTATCTTAATAAGCAGAGCAAACAACAGTTGACCGCGACGCATGT
CTTGGTATTACCGGGCGACGTGTACAGCTTGGTGATCCCTTCATTGCTTC
ATCCAGGTACACAAATGCATGGTTTGCTTCTGCTATTGTCAGTATCGGGA
AGCCCCCCGCCCGAACCGATGTGTGTTGATGATGGATGTGCCAGCAAAGT
GGGCACCGCAGCTTCTAGAGAAAAATGATGGTGCTGGCGGGAAAGCTCTT
TCGCCACTGTGTGTATGCGAATAACGAACCTGTGTGGCCTTGTGGGGCTT
GGCGATTTTTTTTTCAGCAGGGATGGCGCGTAACGTAATATCCTCTGTTA
TACCCCCCCCCCCCCCCCCCCATGTGTTAACCCCCCCCCCCCCCTCTAAA
ATCGCTAGAGAGCTGAAATAACGATGTGAAATCGGTTAAATTATTTTGCG
ATTAAAAAGGAGGTACCCCCCTTTTAACCCCGTGGTTACTTTTTTCGCTT
CGTACATCGTCGACCCCCGGGGGCAAACGCATCAAATTCTACGGCATTTC
GTTTTGCATTTGACAATTGTCGTAGCTGTTGTGGTTGTGTTTTGTTGTCG
TCATATCGCTCTGTATTGGACATTGAACAGTGGTACAACCGGTACCGGTA
TTCGGCGAAGGACGTATTCTTCGCCAACTGCTGTTGTCCCGCCGCTGCTT
CTTGAGTGCTTGGGCGTAGATGCTGCCCAAGCCCGACATCCCGTGTGTGT
GTGCGTTTGTTTTTGTGTGTGCGGACGTTACCGGTATGTTTGTGCGTGTG
CGCATGGTTTTCTGATCCCTGACCCCGGTGGACTTTTGCCCCCGGGGTGT
TTATTTTGGAAATGATTAACCCCAAGTCTTGTTTACCCCCGGGACCATCG
TTTTTTGCAAAATATGTCCTTACCCTCCCCGGGGGTATAACAGAGGATAT
TACGGTGTTGTTGTTATTCTTTATTCCTACAATAGCTCATCGCCAAAATA
GAGTCCGTGGTCACAAAATTGCTGAGCCCTAGGAACATCGGAAAAACACA
AATTTTAAAGGAAGGGTACGCAAACGCCGAAGAAGGCACGCCTTTTTCCT
ACAGACACTATACTGCCCGTAGCTCTCCATTTGACTTCAACGCGATGATG
TACAGCAGTCTCTCTCCCTTCCCAGTTTTAAGCACTCGTGGCTGTAGACA
GCAGTAGATTGTCTGAAGTGCTGCCTGCAACGTACGATAGGTCCGGAAGG
TGGAAAAAGCACAGCAGCAGAAAAACATCGTGATGATGTCTGGAGTGCTG
TCAAAATGACGAGTCCCAGGCAATCAACGAAAGCCTTTTCGATACTCGCA
GCATAACAATCACGCTACGTGTTGATATTGCAAAGGAGTCGTTCCACAAT
TAAGGGCACAACGCAGGCACCAACGCCGCGGAATCGACGCAGGCATTTCT
GCCGCGTCTCTCTTCTCTCTACAAAAAAAAGTGACGTGGTTAGACGTAAT
CCATGAGTTAGTCCCCCCTGAAGATCCGAAACATGACCAGAAAACAATAT
TGCGAATTCTTGGTGAAGGTGTGTTGGCGATGGCGGTGAAGATATTGTCC
GTTTGTTGTGCTGGTGATGTTGCCCATGGTGACCTCCAGCTCCTCCGCCA
TTCCGGGCCCACTCCGCTATGTTGACGTAGTGTTGTCTGCAAGCCGCTGA
CTATGCTGGGGGTGGTGCAGTGGCGGGTGCAGTGGCAAAACATCGATTAG
AAACGTGATCAGCAACGACCACCTCAAGGTCTAAATTCTAAAAATCGGAG
GAAAGGAGTGGATACAAGAAAATCTGGTCGAAAAGTACTGCTCCAAAACA
TGTGGCAAAGAACGGCGATTTTGCTTAGTTCAGTAATTTTTTGGCGCAAC
TACCCCTTGGATAATCTGAATATTTCAGCTTTTGCTAGTTTGATCTGAAT
AAGTCGGCGGCTTTGCCAACAGTCGTCAGTAGTCACTCAGTGATGCCGTT
GATTCGCGAGTGTTTGGATTTTCGCGGGCGTGATCACAACTGCAGGCTTT
TGCCAAAATCGATATGTACCCAATGTTATGCTGTCTAGGATATTTCTGCA
CGATGGGTGGAGGCAGCAGTTGTTCGACAAGTGCAGCAGCTTGGATGGGC
AGCAGAGCGCAACCTTGATTTTCAGGAGGGTTGGGAAATAACCGAAGAGC
ACCTTCAACACTCGGGTATCAACGTCGACGGCGTCGTCAACCAGATCCGC
CGTCGCCTCGAGCATGTAAGGGGTACCACAGTCAGTGCTCTCCAATGTTT
CTTCGCAGTTTACTAAGTTCCTGCCAGTAAGTGTGCCGTTTTTACTTTTT
ATCTCCTCGACCCAGATATCTACCTTCCAGTCCAATGCCTTCCATTTGCA
TATCTGACTTGGGCAGCGCCAGAAAGACACTCCGCTTACCAAGACCGCTG
ATGCAAGCCATGACCATTCAACCTTCACGCATCTCTCCCGGTCTTTGATA
TAATGCAGATGAGAACGAGTTATCGATGGATGTAAACAACACTCCTAACA
CGCTCCCAGTGGGGAGCACCCTGGCGAATCTCGACTAGAAGAATCATACA
GGCTGGTTCACGGAATAACCCATAAATTTAGTCCCCAGCGATTTCTCACG
CGGTTTTTTGGAGTTAGACCATTAATTTTTGCACACGTGTAGATTGGGTC
ACTACCCAACTTGCTTTGAGTGGGTGTTTTTTCTTTTTATTTCACCAGAT
AACCGGGGCCCCAGGTTTTTGGGGTCTCCCTGGGTCGGTTTGAGTCGACT
GGGACCCCAGATATCAGGTAAAAAACAAACAAAAAACACCCACTCATGGC
AAGTTGCGTAGTGACCCGTAGTACATGTGTGCAACATTTCAGGCTCTAAC
TCCAAAAAACCGCGTGAGAAATCGCACTTGAGAAGTTGCACCACTTACGT
AAACCCTTAATTACTTGAATTTAGTACGAAATCGGCTCTTTTGGGGTTTC
GTAGCCATATTACTTCAGTTTGTGAGGAATTTTGAAAAACAAAATCATGA
ACGCCTTCGTTGAAACCCAAAGAGTCCATACACGTTCGAAAAATCTATAT
ATCTCGAATCGATTTTATATACTTCGAAGTAGCATTTGGGGTTGAAAGCC
TGATTTTGGCAGGATTTTGGCGGGGTGTTATATCACGTTATTGTATGAAA
TGACACATTGTCGCCCCTAGCGCCACCGCTAAAGCCTTACACGAAAACCC
AAGAATGTCACCGTCTTGGGCTGTTGATGGCGGTCAGTTTGATACCAAAG
TTGTCCAGATTAGGTAATTACTGCGTTCGGGATCGTATGGGGAGTGAATT
TCGGGTTTGAACCCTGAACCAGCCTGTACTTAGTTTCTTGGCGTTTCAAG
ATGCTCTGCGCAAGGAGTGAGGTCGTTGTCAGATGCTTAGCGAAAACAAG
ATTGGAATTCGATTATGTTATATGATCACAAGCAAGTATCGTTTACCTGG
CATAAGCTTGAGCCATCGGCTCGAATCCAACACCTCGGGTGCCGCCCAAT
TTTCCCGAGTGATGGTGTCGATCAAAGGTGCACGTTGGGCCCACCAGTTA
CAAGCCTACCTTCTGTTTTTTTGCCCAACTTCGACCGCGTTTGATTGATG
GGGCTTGATCGTCGTTTTCAGGAAGAGCAAGAGAAAATTCATCTTGAGAA
GGTACTGGGTTCGGAGGCACTGCAAGACAGGATCAGCACGTTAACCACAG
AGGAGAGCATGGATCTTTACTGCTCGTACTTTTCGAAGGTATGCAACTCA
GCGGTTGAAGATCCTCTCGTGTGTGAAGGCGTCCTTGTTGAAGTTGAGAC
TAGAGTCGCAAGCCAACCACCTTCCTTTTCTATCTTTTTCCTGCTGCTCC
GGCGCTGCTCTAGGATGGTGCGAAGGAAAGAGCTCGTGGAACACATCCTA
ACTCAGGTAGTGCCGCGAACGGGTTTCAAGACGACGGGCACCGAGATGGA
TCGGAACATTTTATCATGGTGGACGAAGACATTTTCTCCAGCAAGGAATA
CCAGGTACTGTGACGTCTCAAAAGCACACGGAGAAATACGTGTGTAAAAT
GATGAGAGCAGGCCAGGAATCTCCCGTCCACATCATTTCGTGTTAGTTTT
ATTCACTTTCGAGGGGAACACATGGGATAAATCGCCGGTTTTCCTCCTGC
ACACGCACTAGCTTCAATGTTCCTGGCTGACAATGGCTCGTACGGGGGGG
GGTTGAGTGTATCCTCTTTTGGTGCAATACACCATTATGCAACGCGCAAC
CTTATGGTTTTTGGAAAGTAGGATAATCTATCCGTGCTCTGTGCCGAACT
CTCGTAGTTCTCCTCCATCCGCGTACCTCCTTTCCTCTTCATGTTGGCAT
CTTTCTTGCAAGTAGCATGACTGGCCCTTCCTTGCAAGCTATCCTGCGGT
TGATCGAGCGAATCAAATCTAGACGAACCTTCGACCTCCAAACTAACTTG
ATGCTCAATCAACCCTACGCTCATTCGCCTCATCTCGCAGTACATGCTCT
TCAACGAGGCGGGAAAGAAGACCGCGTTACGTATTTTGTTCGGGGGAAGC
TCGGAATAAATGCGTGTCGTTTCATACCTGTTACCGGCTGGCGGTCTGAT
TCGGCTCAGCGGTGGATGCGGCAAAATTTGTATTCTTGAGGGCGGAACGT
TGTTGTTTTAGGTGCGCACATCAGAGTACGATGGGAAATACAATTTTGAT
TTCGTATGTATATGTCGACACAAGCAGAGCTGTCACTGGGGCCAAGAGCT
GTTGAACTCGGTTTTGTTCTAGATGGCGAGTCTGCTCCTGAAGGTTGGGA
TTTTCGCGACGAGAAACTTTCGGGGATAAACAGTGTCATCCAGGCTCTCG
AATGCCTTTGTTGCATGACGGGATCAATCAGAGAACGACAATATTTCTCA
GGAAGTTATCTGCCGTCTGTATGTCCGTAGTCCGCCCTCAATGAACACCC
AACCAACCACAAATGTATGAAGTACCTATCC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig18:269872..302502- >mRNA_P-littoralis_Contig18.59.4 ID=mRNA_P-littoralis_Contig18.59.4|Name=mRNA_P-littoralis_Contig18.59.4|organism=Pylaiella littoralis U1_48|type=CDS|length=3501bp|location=Sequence derived from alignment at P-littoralis_Contig18:269872..302502- (Pylaiella littoralis U1_48)
ATGAGGGAACCACGAAAACCATCCGCCACAGAGGCTACACTGGAGCCTGT
TGTCAGCAAACTTGAGCGGTTCGTCCTGTATGAGACCTCCAGCCACCTAT
ACCTGACGGCGAGTGATCGGTCCGAGACAACCTACAGGGTGCTCAAGCTC
GACCGTCGAGTTGTGAACCCGACATCGCTGGCAGACATCTGTCAGGAGGA
CCCGGTCGTGTACACTCCAATCGACATGATAGAAATGTTGGACATGATCA
ATGAGGGAAACAGGACAGTTGGAGGGCTAAGCATGACCGCCAAGGGCTAC
GGCATTGTAGGCTTCGTCAGGTTCTTGGACTGCTACTACCTCAACTTTAT
CACGCAACGCAGGCTGGTAGGTGCAATTGGGGGTAATCTTGTCTACGCCA
TTAAAGCGACAGAGATGTTTGCCATTAAGCCCGCCGACGCCGCATCAGGT
GGACTGAGCTCGACCGCAGCACACGGCAGTGACTCCAATGCATTTGTTAG
CACCTTGGCGAAAGTCAACAGGCGGCTTAATCCCACTCTGAGGGAGACGG
CTGAGGCGAAGTACCTGGGGCTATTTCAGTTCATCGACCTCACCAAAGAC
TTCTTCTACTCCTACACCTACGACCTCACCAACTCCTTACAGCACAACAT
GACAGCGGCAACAAGCAAAACGTTCCCCCCTCCACCGTTCAAGGACATGT
ATGCATGGAACTTTCACCAGACTCGAGAGCTCGAGGCGCAGGTCGGACAC
CTCAACTCGTCTTTCTGGGTGATTCCCATTGTGCACGGTGCTTTCATGCA
ACGCAAGTGTGACTTGTCCGGGCGCATGCTGAACATCACCGTCATCGCTC
GCCGCTCGAGGCATTTCGCAGGAACCCGGTATTTGAAGCGGGGTGTCAGT
GATACGGGTAAGGTGGCAAACGACGTCGAAGTCGAACAGATCGCACACGC
GGAGGGCGTCAAGGAGGGCGTTTTCTCGTCGTTCTTGCAAATGCGAGGAT
CAATTCCCACCTTCTGGACGCAAGAGAGCAGCATTTCAATTCCTAAGCCT
CCCATCGTCAACAGCCGGGTGGACCCCATGTATTCTGCCACGCAGGACCA
CTTCGCGGATCTTTTGGAGCGATACGGGTCGCCTGTGCTGGTCCTTGATC
TAGTCAAGCAGACGGAGAGGAGGGAACGGGAGGTCATCGTGGGCAGGGAA
TACCGCCGGGCAGTTGAACACGTGAATTCCACCATGCCGCCTAGGCACAA
TATCAGGTACTGCGCCCTGGACTTTTCTCACCTGAGCAAGCACCGCGACA
TGAACGTTTTGAAGGCCCTGGAAGAAGTCGCGGCCTGGACTGTTGGACAA
GTAGGATTTTTTTGCAGTGCCCCTCGCCGAGAATTGGAGCAGCTGCCAAA
GCACCAGGGCAACACTGGAAGAGGCGAATTGCCGTCACTCAGGCAAGCCC
AAAACACCGGAAGAACGCGCGACGCGCCGGCAGCGGAGCCAATTCTCAAC
GAGGACAGCGAGGAAGAGAAAAGCATGCCGCACACCGGTACTGGCCCTAC
TAAGGCGGGCGGGGACAGTTCTACTCCGAAACGATCCCCCGGAGACACTG
CCGGTCCGATACCACCACCTTGGGGTCAAGGCCTCCCTGTGATGCCGATG
GAGCAGCAAGGCGTCCTCCGCACCAACTGCATCGATTGCTTGGATAGGAC
AAACGTTGGTCAATTTAGCATTGGTGTCCACGCACTCGCTAAGCAACTTT
ACGTTATGGGCGTCAGCAACCAGGTGTCCTTGGAGTCTGGATCGCAGGTA
GCGTTGGTCTTCATGGAGCTCTACAGCGAGCTCGGAGACAACATCGCTCT
TCAGTATGGGGGCTCAGAGGCGCATAAGAAGGTTTCGGGAAGCAGCGGGC
CGGGCAAGCAGGTGGGGTCCATGAACAAGCACCGTGAGTTACTTACGTCC
ATTCGCCGGTACTACAGCAACGCCTTCACGGATCGTGCTAAGCAAGACGC
CATCAACCTTTTCCTGGGATACTACGTCCCAAACAGCACTGACAAGCCGT
TGTGGGAGCTCGATACGGACTACTATCTGCACAACTTCCACGCTGAGAAT
GCTGGCCTTCAAAGTATGAGGGAGTACAAGAAGGACCAGTACTACTTGGA
TCAGGACGAGGAACCCGCTTCTGAAAGCAGCGAGAGTGGGGCTGGAGCTT
TTTCCGCAGCGACGACTTTGAGTGGGATGATAGACGAAGACCGCATTGCA
GAGATGCAGCTGAAGCGCCGGCGCGTTCGCAGGATGTGCGCTCGGCAACG
GGCGGCCACAAGTCAGTGGTGGCGAGATGCTTTGCAGCGGTACGCTCAAC
GACGAATGTGGATGCACCTGGGCCCGCCGAAGCAAGGACAGCTTCCAGAA
CGCTTCGTGCGGATTCACGAGCCGGAGCGCCTCACGTCTTTCGAGAAGTG
GTTTTCGCACGAATTTGCGGTTCCCGTTCCGTCACACCCTGGAAAAACAA
GTAATGGAGGGTCGGCCATTGAAAAAGTTCCGAGCCGTCCCGTCGTCCAG
AAAACTGTGGTGAGCCGGGGACCGCGGCGCGGAGACCAAAACGTGACCAT
CGGGCGATACGTACGAGATATATCTGTCAAGGCACGGAGTATGCTTGGCC
GGCCACAGCGTGGTGTTCTCAGCTTGAGCAGACCAACGGAGTCTGTTCTC
GCAGATCGTGAACCAGATCCGCGGGAAGATCCAATGTGGGGCGCTAGAGA
CGTGCCCTACATTGGATCGCCGATTGCCGAAGAAGATGCCGACGCAGAGG
TGGCATCATACGCGGCCTTCTCGAACGACATGAACCTCCTTGTGGACCCT
GCGAACGAGACGGAGTTAGCGTCGTACCTTGCAGATTTCACGCTAGCAAC
GGACACCGCCGCGGGCGCCCTGGCGTTACAGAATTTGGCCGAGGAGCACC
ATTGCGGAGCAACGCTAACTGTTGAACCCTACGAGGGTCTCAGGAAGGAT
ATTTCTGCACGATGGGTGGAGGCAGCAGTTGTTCGACAAGTGCAGCAGCT
TGGATGGGCAGCAGAGCGCAACCTTGATTTTCAGGAGGGTTGGGAAATAA
CCGAAGAGCACCTTCAACACTCGGGTATCAACGTCGACGGCGTCGTCAAC
CAGATCCGCCGTCGCCTCGAGCATGAAGAGCAAGAGAAAATTCATCTTGA
GAAGGTACTGGGTTCGGAGGCACTGCAAGACAGGATCAGCACGTTAACCA
CAGAGGAGAGCATGGATCTTTACTGCTCGTACTTTTCGAAGGATGGTGCG
AAGGAAAGAGCTCGTGGAACACATCCTAACTCAGGTAGTGCCGCGAACGG
GTTTCAAGACGACGGGCACCGAGATGGATCGGAACATTTTATCATGGTGG
ACGAAGACATTTTCTCCAGCAAGGAATACCAGTACATGCTCTTCAACGAG
GCGGGAAAGAAGACCGCGTTACGTATTTTGTTCGGGGGAAGCTCGGAATA
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