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Homology
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: D7G6K8_ECTSI (DNA helicase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G6K8_ECTSI) HSP 1 Score: 1192 bits (3084), Expect = 0.000e+0 Identity = 798/1489 (53.59%), Postives = 878/1489 (58.97%), Query Frame = 1
Query: 193 SSWGSLGRGGSGGVGSCGGSTVGGRRSH--------APRNTGSDRMIKLSLHVVGLQFRESDNSQPSSXXXXXXXXXXXXXXXXXXXXLDXXXXXXXXXXXXXXXXXXXXXXXXDISSNTALDLEREPDNSHDRNAIKVLLPPRPPEAQPPAA-ARRSSAPSRFIGYIPGRIAILLAPVLDASP-VVARVALKTVEEEGEGGYARGPRNTLPALLGVQPLNGARREPFLGLIAKLREAAQKEDKRQQKRRSESKAHKERLKSKQKTLLLDFGRSSSASSKSGGGATPVSASGSDRGGEMLESMPWEVLWQVFCSPGISSRELFGPIRGACGNWMRAVDAMPCAAARREVAKVCAGEQPDDDDEEGNSDTDGDGSKLEGEPAASHGSSSFSRGGASEGGGSGDARHGRPWEGKGKRRVAAGLGSGGDGRREGRGCWWDKVRARLVRGGGFTECAAADVLARLEWAAGQADDDADXXXEVGEGLLEDEAGAAXXXXXXXXXXXXXXRGXXXXXXXXXXXXXXXSGGKRRRMLRHLDATRVLCREWRLVREGGVASSSRRDASXXXXXXXXXXXXXXXXXXXXXXXXXXXXGWEAFALAVATSASRDRLSLCCWAVRPLMGGDSASAPSTCSGGVGXXXXXXXXXXXXXXXXXXXSCLGLPRGEVIELLCLMLCALRSLGGGG-----------GRRSGSEGSVRLKADLLVCARVLENWDIRFRKPGQPGXXXXXXXXXXVGG-ASGLIANLTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKLAPDLRESDVQAFLKDRLGGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFG--------ESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLKRVEGGEVRHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRVKRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQRKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSLRGFLAATGAGNSVCLRGVSS--DPGGTSSRHPPVREDRSAVVSSPAKTPACSLCGGSADVGGGGARLQGISR 4563
SSWGSLGR G+ GGR+ PR GS ++I L LHVVGLQFR++ S DI SNT L+LEREP NSHDRNAIKVLLP +P PP + SAPSRF+GYIPGRIA+LLAPV+DASP VARV LKTVEEEG G RNTLPALL V PL+GA REPF L+ KLR+AA+KEDKRQ KRR+E+KA+K+RL+SKQKTLLLDFGRSS A++ GG+ S SGS RGG MLESMPWEVLWQVFCSPGISSRELFGPIRG CGNWMRAVD MPCAAARREVAKVCAGE + GDG + + EGGG G A A G XXXXXXXXXXXXXXX M RHLDA +VLC EW L+ GG +++ XXXXXXXXXX GWEAF LA+ATSASRDRLSLCCWAVRPLMG D+A + S GGV SC GLPRGEVIELLCLMLCALRSL GG G + ++GS RLKADLLVCARVLENWD+RF+KPG PGXXXXXXXXXX ASGLI+NLTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHL+ILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRR+QSKL PDLRESDVQAFL DRLG DGG XXXXXX SPVEDAT+LEWA+MAW EMQSTGP G G SLGMTH GYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIAS+VLRET CARILVGDSHQAIYGFIGAEDHLKRVEGG+++HLTQVFRF QSIAHVANS++GPLK ETRPLLGCAGK+G+VVL+GGTGLEVW DQ VKRP+AFLAR+VSTLVHAAMWA+SRGEKVAWVGGAQAYSLEAIED+CLM +GR EVKH LLKKLKT K+L+RFI ESGDRQWA+RLR+LDGK P LL+EL+E+QRKQV PREADT+LST HKAKGLEFD VVLADDFI++++IRWTTGPCP+PV S AE+EEVNILYVA+TRAKR LVVNSSLR FL TGA NSV LRGV+ PG SS P+ E RS+ C+LCG AD GGGG R+ +SR
Sbjct: 76 SSWGSLGR----------GAGRGGRQQRFLLSDNGRPPR--GSTKIIALPLHVVGLQFRQNQTDDAWSSPRKS----------------SATTAASSPSPHGEQPAAPAACTNDDIGSNTVLELEREPYNSHDRNAIKVLLPAKPQTPPPPLLPGSQPSAPSRFLGYIPGRIAVLLAPVVDASPDPVARVTLKTVEEEGGEAAGGGTRNTLPALLEVHPLDGAGREPFSSLMEKLRDAARKEDKRQHKRRNEAKANKDRLRSKQKTLLLDFGRSSGATTSKSGGSXXXSTSGSARGGTMLESMPWEVLWQVFCSPGISSRELFGPIRGVCGNWMRAVDVMPCAAARREVAKVCAGEPTEA----------GDGGREQ----------------EDEGGGEGXXXX----------------------------XXXXXXXXXXXXXXXXXXXXXXXXXAVSAMATGXX--------------------------------------XXXXXXXXXXXXXXXXXXXXXXMRRHLDAVKVLCEEWGLLGAGGACAAAXXXXXXXXXXXXXXXVGSWS-------------GWEAFGLAIATSASRDRLSLCCWAVRPLMGEDTADSSS---GGV------HGSGGVRERQRQAPSCPGLPRGEVIELLCLMLCALRSLEGGXXXXXXXXXXXDGLMAQADGSTRLKADLLVCARVLENWDVRFQKPGHPGXXXXXXXXXXXXXXASGLISNLTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLKILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRFQSKLKPDLRESDVQAFLNDRLG-------------------------------------------------------------------KDGGAS-------------------------------------------------------------------------------------------------------------TQPPXXXXXXXXXXXAPSPVEDATVLEWAAMAWTEMQSTGPPGGAGWXXXXXXXXXXASLGMTHAGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASIVLRETRCARILVGDSHQAIYGFIGAEDHLKRVEGGKIQHLTQVFRFDQSIAHVANSLVGPLKRETRPLLGCAGKQGKVVLSGGTGLEVWQDQERTVKRPIAFLARTVSTLVHAAMWARSRGEKVAWVGGAQAYSLEAIEDMCLMAMGRSSEVKHALLKKLKTIKKLVRFIQESGDRQWANRLRMLDGKDPQALLSELREIQRKQVHPREADTLLSTVHKAKGLEFDTVVLADDFIEVDDIRWTTGPCPQPVWDSEAEKEEVNILYVAVTRAKRRLVVNSSLRAFLLVTGAWNSVSLRGVAGRRTPGDGSSSSSPMDEARSSSSH-------CNLCGRHADAGGGGNRVDLLSR 1239
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: A0A7S4TAX2_9DINO (DNA helicase n=1 Tax=Alexandrium monilatum TaxID=311494 RepID=A0A7S4TAX2_9DINO) HSP 1 Score: 286 bits (733), Expect = 1.260e-76 Identity = 250/782 (31.97%), Postives = 337/782 (43.09%), Query Frame = 1
Query: 2143 EVIELLCLMLCALRSLGGGGGR---RSGSEGSVRLKADLLVCARVLENWDIRFRKPGQ--PGXXXXXXXXXXVGGASGLIANLTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKLAPDLRESDVQA-------FLKDR-----LGGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLKRV-EGGEV--------------RHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSR--VKRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQRK-QVPPREADTI-----------------LSTAHKAKGLEFDNVVLADDFIDLEEIRWT-TGPCPRPVLRSAAEQEEVNILYVALTRAKR 4329
++ EL+ L+ L LGG GR +SGS G+ RL ADLLVC RVLE+ ++ G PG LT EQ IV DV P VL + AFAGTGKT+ LR YA RPHL+ LY+ FNVSVREEA++TFP +V C+ HQLAF G +Y+SKL DLR D+ A L+ R G E+ +L A LATL F S +P++S H+ +P R R E+A + E + WA MQ E V MTH GYLKL+ LS+P L YDV++LDEAQD NP IA +V+ ++ CAR+LVGD HQAIYGF+GA+D L GG+ R LT+ FRFG +IA VAN V+ LKGETRPL+GC EG+++ Q + P A++AR+ + ++ A+ A + G +AWVGG + Y L + D+CL+ LG E V+ ++ ++ + L F DR+ +R+ ++ P LL L+ LQR + R A T L+T HKAKGLE+D VV+ +DF E++ G P++ +E+N LYVALTRAKR
Sbjct: 277 DLRELVALLAAEL--LGGAWGRAGSQSGSVGARRLLADLLVCNRVLEDAGLKVPLRGLHVPGL------------------KLTEEQLGIVARDVGPAEVLVISAFAGTGKTSTLRMYATLRPHLQFLYICFNVSVREEAQRTFPSNVTCRNAHQLAFSAFGFKYRSKLKDDLRAEDLLASTALDELLLRRREKRGEAGEEAAQRLEVAEVCLATLQNFLNSAAPTVSEEHMPSPLP-----------------------------------------------------------------------------------------------------------------------------------------------------------RMIREGLLTEEA-LCEAVGVLWARMQD------LREDVVK--MTHGGYLKLYSLSKPKLA--YDVVLLDEAQDCNPAIADIVMSQS-CARLLVGDKHQAIYGFLGAQDALSAGGRGGDCSDGGAPSAKDKVFRRQLTRCFRFGSNIADVANFVLSSLKGETRPLIGCGKHEGRLLPEPEPEESPARPQPIQGCPAPPFAYVARTNAAVIDMALRADAVGLDLAWVGGVKGYGLGLLRDLCLLALGERERVESARVRNFRSLEALRAFARRVDDREALARIEIVRRHQPDALLDRLERLQRAAERRERSAGTSAAAAATVTSFRGTAAISLATVHKAKGLEWDTVVVGEDFASPEDLAQEGPGGLSLPLV------QEINALYVALTRAKR 865
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: A0A813DDB3_POLGL (DNA helicase n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813DDB3_POLGL) HSP 1 Score: 271 bits (694), Expect = 7.940e-73 Identity = 231/755 (30.60%), Postives = 316/755 (41.85%), Query Frame = 1
Query: 2233 RLKADLLVCARVLENWDIRFRKPG--QPGXXXXXXXXXXVGGASGLIANLTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKL-APDLRESD-VQAFLKDRL---------------------GGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLK--RVEG----GEV--RHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRV-KRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQ------RKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAA---EQEEVNILYVALTRAKRCLVVNSSLRGFLA 4368
RL+ DLL C R+LE + + G PG LT EQ IVL ++ P +L + AFAGTGKT+ LR Y+ RPHL+ILYL FNVSVREEA++ FP +V CK VHQLA+ G R+ KL + DLR D V L D L GG + +L LATL F S +S H+ +P R + + + + A W RR + MTH GYLKL+ LS+P L YD+++LDEAQD NP IAS+V ++ CARILVGD HQAIYGF+GA+D LK RV+ G V R LT+ FRFG +A +AN V+ GE RP+LGC EG ++ GG D G V +RP AF+AR+ ++++ A+ G + WVGG + Y L + D+CL+++G+ + V+ +K + + F DR+ +R ++ + +DLL L+ ++ K + AD LST HKAKGLE+D VV+ADDF+DL G + S + +E+N+LYVALTR KR L + SL G A
Sbjct: 154 RLQRDLLACNRLLEEAGPKLQVLGLHMPG------------------VRLTEEQAQIVLKNLAPNELLLISAFAGTGKTSTLRMYSLMRPHLQILYLCFNVSVREEAQRGFPKNVTCKSVHQLAYASCGYRFGHKLCSDDLRAEDMVSKSLFDPLASTAAAGAHSGRKGTSRRQEGGGTAMQRLEGVEACLATLRGFLNSADGEVSEKHLPSP------------------------------------------------------------------------------------------------------------------------------------------------------------RPGILVEGSISEDLVCDLAKELW--------RRMCDPKDSEVRMTHGGYLKLYSLSKPRL--KYDLVLLDEAQDCNPAIASVVTSQS-CARILVGDEHQAIYGFLGAQDMLKDQRVQAQGSCGAVIRRQLTRSFRFGPHVADLANFVLRSFVGEARPVLGCGSHEGDILPPGG-------DTGEGVPQRPFAFIARTNTSILKQALRCDEMGWSLEWVGGVKGYKLGLLRDLCLLSMGQRDRVESGRIKAFPSLAAVQNFARRVEDRELVARTELVLRSNAADLLQRLERIEAAAERREKACVAQAADVALSTVHKAKGLEWDTVVVADDFLDLTAEASRVGLSGSGLTESPTWPGDVQELNMLYVALTRCKRRLQLPGSLAGLYA 716
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: A0A813FWF8_POLGL (DNA helicase n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813FWF8_POLGL) HSP 1 Score: 262 bits (670), Expect = 1.480e-71 Identity = 219/706 (31.02%), Postives = 301/706 (42.63%), Query Frame = 1
Query: 2374 LTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKL-APDLRESD-VQAFLKDRL---------------------GGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLK--RVEG----GEV--RHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRV-KRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQ------RKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAA---EQEEVNILYVALTRAKRCLVVNSSLRGFLA 4368
LT EQ IVL ++ P +L + AFAGTGKT+ LR Y+ RPHL+ILYL FNVSVREEA++ FP +V CK VHQLA+ G R+ KL + DLR D V L D L GG + +L LATL F S +S H+ + +R G + + + + A W RR + MTH GYLKL+ LS+P L YD+++LDEAQD NP IAS+V ++ CARILVGD HQAIYGF+GA+D LK RV+ G V R LT+ FRFG +A +AN V+ GE RP+LGC EG ++ GG D G V +RP AF+AR+ ++++ A+ G + WVGG + Y L + D+CL+++G+ + V+ +K + + F DR+ +R ++ + +DLL L+ ++ K + AD LST HKAKGLE+D VV+ADDF+DL G + S + +E+N+LYVALTR KR L + SL G A
Sbjct: 6 LTEEQAQIVLKNLAPNELLLISAFAGTGKTSTLRMYSLMRPHLQILYLCFNVSVREEAQRGFPKNVTCKSVHQLAYASCGYRFGHKLCSDDLRAEDMVSKSLFDPLASTAAAGAHSGRKGTSRRQEGGGTAMQRLEGVEACLATLRGFLNSADGEVSEKHLPS-----------------------------------------------------------------------------------SRPGIL-------------------------------------------------------------------------VEGSISEDLVCDLAKELW--------RRMCDPKDSEVRMTHGGYLKLYSLSKPRL--KYDLVLLDEAQDCNPAIASVVTSQS-CARILVGDEHQAIYGFLGAQDMLKDQRVQAQGSCGAVIRRQLTRSFRFGPHVADLANFVLRSFVGEARPVLGCGSHEGDILPPGG-------DTGEGVPQRPFAFIARTNTSILKQALRCDEMGWSLEWVGGVKGYKLGLLRDLCLLSMGQRDRVESGRIKAFPSLAAVQNFARRVEDRELVARTELVLRSNAADLLQRLERIEAAAERREKACVAQAADVALSTVHKAKGLEWDTVVVADDFLDLTAEASRVGLSGSGLTESPTWPGDVQELNMLYVALTRCKRRLQLPGSLAGLYA 537
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: A0A813J487_POLGL (DNA helicase n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813J487_POLGL) HSP 1 Score: 268 bits (686), Expect = 1.800e-69 Identity = 231/755 (30.60%), Postives = 317/755 (41.99%), Query Frame = 1
Query: 2233 RLKADLLVCARVLENWDIRFRKPG--QPGXXXXXXXXXXVGGASGLIANLTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKL-APDLRESD-VQAFLKDRL---------------------GGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLK--RVEG----GEV--RHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRV-KRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQ------RKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAA---EQEEVNILYVALTRAKRCLVVNSSLRGFLA 4368
RL+ DLL C R+LE + + G PG LT EQ IVL ++ P +L + AFAGTGKT+ LR Y+ RPHL+ILYL FNVSVREEA++ FP +V CK VHQLA+ G R+ KL + DLR D V L D L GG + +L LATL F S +S H+ + +R G + + + + A W RR + MTH GYLKL+ LS+P L YD+++LDEAQD NP IAS+V ++ CARILVGD HQAIYGF+GA+D LK RV+ G V R LT+ FRFG +A +AN V+ GE RP+LGC EG ++ GG D G V +RP AF+AR+ ++++ A+ G + WVGG + Y L + D+CL+++G+ + V+ +K + + F DR+ +R ++ + +DLL L+ ++ K + AD LST HKAKGLE+D VV+ADDF+DL G + S + +E+N+LYVALTR KR L + SL G A
Sbjct: 575 RLQRDLLACNRLLEEAGPKLQVLGLHMPG------------------VRLTEEQAQIVLKNLAPNELLLISAFAGTGKTSTLRMYSLMRPHLQILYLCFNVSVREEAQRGFPKNVTCKSVHQLAYASCGYRFGHKLCSDDLRAEDMVSKSLFDPLASTAAAGAHSGRKGTSRRQEGGGTAMQRLEGVEACLATLRGFLNSADGEVSEKHLPS-----------------------------------------------------------------------------------SRPGIL-------------------------------------------------------------------------VEGSISEDLVCDLAKELW--------RRMCDPKDSEVRMTHGGYLKLYSLSKPRL--KYDLVLLDEAQDCNPAIASVVTSQS-CARILVGDEHQAIYGFLGAQDMLKDQRVQAQGSCGAVIRRQLTRSFRFGPHVADLANFVLRSFVGEARPVLGCGSHEGDILPPGG-------DTGEGVPQRPFAFIARTNTSILKQALRCDEMGWSLEWVGGVKGYKLGLLRDLCLLSMGQRDRVESGRIKAFPSLAAVQNFARRVEDRELVARTELVLRSNAADLLQRLERIEAAAERREKACVAQAADVALSTVHKAKGLEWDTVVVADDFLDLTAEASRVGLSGSGLTESPTWPGDVQELNMLYVALTRCKRRLQLPGSLAGLYA 1137
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: A0A3V2Y5L7_SALNE (DNA helicase n=8 Tax=Salmonella enterica TaxID=28901 RepID=A0A3V2Y5L7_SALNE) HSP 1 Score: 196 bits (498), Expect = 6.680e-50 Identity = 183/668 (27.40%), Postives = 274/668 (41.02%), Query Frame = 1
Query: 2377 TAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKLAPDLRESDVQAFLKDRLGGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLK--RVEGGEVRHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRVKRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHP-LLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHP-SDLLAELKELQRKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSLRGFLA 4368
T EQ +++ G L V+AFAGTGKT+ LR YA+ P R+LY+ +N ++R+EAE+ FP +V CK HQLA+ VG+ Y +L LR +DV L R +S++ VL LN F S SP +SA H AP D G +E A IL A W M + R+G +TH YLKL+QLS+P L Y ++ DEAQD+NP +++VL + C +LVGD+HQ IY F GA++ ++ ++E + LT FRFG +A VAN ++ LKGET + G G + + R A L RSV ++ A+ G+KV WVGG ++Y +E + D+ ++ E ++H L ++ + ++ ++GD + + +L+ P D L L+E QR V +AD + TAH++KGLE+D V L DDF D+ + P + + +E+N+LYVA TRA++ L+ + L LA
Sbjct: 6 TPEQAAVI---AWKGERLVVVAFAGTGKTSTLRRYAEENPTERMLYVAYNRAIRDEAEQKFPYNVTCKTSHQLAWPTVGKHYSHRLVNSLRLTDVARALNSRNWLQSRL-------VLDVLNRFMCSSSPQISAEHAPAPD-------------------------------------------------------------DCKG---------------------------------------------------------------------------------------------------LEPAQILLSARNIWDMMSA---RQG------DFPVTHDTYLKLYQLSKPNLSSRYTTLLFDEAQDANPVTSAIVLNQA-CRVVLVGDTHQQIYRFRGADNAMQSPQLEKADRLWLTHSFRFGPEVAQVANRLLA-LKGETHQVTGKGGSDRVLQTV------------PRTFGHHAVLHRSVCGVIRTALHWSLAGKKVFWVGGMESYKIEDLLDLYWFSIDMAERMQHDRLTREYRDYNEYLQIAEDTGDVEMKQAIFILEQFFPLPDRLNTLRE-QRVGVES-DADITVCTAHRSKGLEWDRVSLHDDFADILD----------PEMSESKRHDEINLLYVAATRARQTLITDPILSELLA 468
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: D3SGN1_THISK (DNA helicase n=1 Tax=Thioalkalivibrio sp. (strain K90mix) TaxID=396595 RepID=D3SGN1_THISK) HSP 1 Score: 192 bits (488), Expect = 2.370e-48 Identity = 137/372 (36.83%), Postives = 196/372 (52.69%), Query Frame = 1
Query: 3280 TRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLKRVEGGEVRHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRVKRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLD--GKHPSDLLAELKELQRKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDL------------EEIRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSL 4353
T DA L W +M W + L M+H GYLKL+QLS+P L +D I+LDEAQD+N + L++ + G ++VGD++Q+IY F + D + RV GG LTQ FRFG IA VAN+++G L+G AG G V+ G W QGS P L+R+ + + +A+ A G +VAW GG ++Y L + ++ L+ GR +++ PL+++ T L F DR+ +R+R+ GK DL+ L+E + V AD I+STAH+AKG EF VVL DDF L E + T G RP + E E+ +LYVALTRAK+ LV++ L
Sbjct: 151 TGEVARDARFL-WEAMRWL--------------NNPLPMSHDGYLKLYQLSQPDLTGRFDCIILDEAQDTNAAVFDLLVSQ-GLPLVVVGDTYQSIYAFRRSVDVMNRVPGGCRYSLTQSFRFGPEIAEVANTLLGVFLDPKHLLIG-AGPRGAVLTQG-----QWEYQGSNAGAPPCHLSRTRAGVFQSAVEAHEAGLRVAWWGGVKSYELWVLREVQLLADGRHRKIRDPLMQRFATVDALEEFAQSVQDRELLARIRIQRRFGKRLYDLVERLQEAAVRDV--WRADRIVSTAHRAKGAEFPVVVLGDDFPALTIQQRLEQTGKGERVPRTEGWIDRPGC-AIPEDPEIYLLYVALTRAKKVLVMSKEL 497
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: UPI000FA9D78C (UvrD-helicase domain-containing protein n=1 Tax=Salmonella enterica TaxID=28901 RepID=UPI000FA9D78C) HSP 1 Score: 191 bits (486), Expect = 2.660e-48 Identity = 184/675 (27.26%), Postives = 270/675 (40.00%), Query Frame = 1
Query: 2377 TAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKLAPDLRESDVQAFLKDRLGGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLK--RVEGGEVRHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRVKRPM-------AFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHP-LLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHP-SDLLAELKELQRKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSLRGFLA 4368
T EQ +++ G L V AFAGTGKT+ LR YA+ P R+LY+ +N ++R+EAE+ FP +V CK HQLA+ VG+ Y +L LR +DV L R S++ VL +N F S +P +S+ HV DA +G +E IL A W M + +TH YLKLFQLS P L Y ++ DEAQD+NP I+++VL + C +LVGD+HQ IY F GA++ + ++E + LT FRFG +A VAN ++ LKGET + G G + RV + M A L RSV ++ A+ G+KV WVGG ++Y E + D+ ++ PE ++H L ++ + ++ ++GD + + +LD P D L+ L+E QR V EAD + TAH++KGLE+D V L DDF D+ + P + + +E+N+LYVA TRA+ L+ + L LA
Sbjct: 6 TPEQVAVI---AWKGERLVVTAFAGTGKTSTLRRYAEENPTERMLYVAYNRAIRDEAEQKFPFNVTCKTSHQLAWPTVGKHYSHRLVNTLRLTDVARALNTRNWQLSRL-------VLDVINRFMCSAAPQISSDHVP----------------------------------------------------------------DADDCKG------------------------------------------------------------------------------------------------IEHGQILLSAQKVWGLMTA---------QQGDFPVTHDTYLKLFQLSHPDLSSRYSTVLFDEAQDANPVISAIVLNQA-CRVVLVGDNHQQIYRFRGADNAMSAPQLEHADRLWLTHSFRFGPEVAMVANRLLA-LKGETHQVTGKGGAD-------------------RVLQTMPRNFGHHAVLHRSVCGVIRTALHWSLAGKKVFWVGGMESYKTEELLDLYWFSIDMPERMRHDRLAREYRDYDEYLQIAEDTGDVEMKQAIFILDQFFPLPDRLSTLQE-QRVTVEA-EADVTVCTAHRSKGLEWDRVRLHDDFADILD----------PDIPESKRNDEINLLYVAATRARHTLITDPVLSELLA 468
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: A0A355QDF8_9DELT (DNA helicase n=5 Tax=Deltaproteobacteria bacterium TaxID=2026735 RepID=A0A355QDF8_9DELT) HSP 1 Score: 189 bits (480), Expect = 8.800e-48 Identity = 135/325 (41.54%), Postives = 180/325 (55.38%), Query Frame = 1
Query: 3394 MTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLKRVEGGEVRHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRVKRPMAFLARSVSTLV-HAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQRKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSLRGFL 4365
M H GYLKLFQLS+P L Y +I+LDEAQD+NP A L+L++T CA+I+VGD HQAIY F GA D L +V R+LTQ FRFG +IA A SV+ K E+ + G A K Q+ QGS P A+LAR+ + L A + R K +VGG Q Y L I + + GR +EV+ LK + + L + + D +W R R+++ KH + ++E+ + V EA+ + ST HKAKGLEF V LADDF + G RP+ R EEVN++YVA TRA L NS L+ FL
Sbjct: 169 MLHDGYLKLFQLSKPEL--PYHIILLDEAQDTNPVTAQLLLQQT-CAKIMVGDPHQAIYQFRGAIDVLSKVPVNATRYLTQSFRFGPTIAQAATSVLRQFKAESNAIRG-AEKTDQLGRV----------QGS----PFAYLARTNAALFDQATQYLGLR--KFGFVGGVQGYQLPVITETWKLFEGRKKEVRDSYLKTFSSYEALRNYATQVEDFEWLGRCRLVE-KHQGMIPELVEEMLEQSVAQEEAEVLFSTVHKAKGLEFAQVFLADDF----PVLVREG---RPLPREELATEEVNMIYVAATRAIDRLQPNSRLQSFL 465
BLAST of mRNA_P-littoralis_Contig883.1.2 vs. uniprot
Match: UPI00096A8533 (UvrD-helicase domain-containing protein n=1 Tax=Halomonas massiliensis TaxID=1816686 RepID=UPI00096A8533) HSP 1 Score: 189 bits (481), Expect = 1.030e-47 Identity = 175/665 (26.32%), Postives = 278/665 (41.80%), Query Frame = 1
Query: 2374 LTAEQRSIVLADVKPGGVLTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVACKGVHQLAFRFVGRRYQSKLAPDLRESDVQAFLKDRLGGESKIKLASATRVLATLNAFFASESPSLSASHVKAPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSDGGVDGVDXXXXXXXXXXXXXEYSXXXXXXDAVGSRGAVGTGGVGTGGGCTRSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRQSRTRSPVEDATILEWASMAWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDEAQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLK--RVEGGEVRHLTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVWNDQGSRVKRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIEDICLMTLGRPEEVKHP-LLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKHPSDLLAELKELQRK-QVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEEIRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSLR 4356
LT EQ+ + A+ K G L V A+AGTGKTT L A+A+A P RILY+ +N ++RE+A+ FP +V CK HQLA+ +G+ Y+ KL+P+LR L+D + + A + AT++AF S ++ H DA +++ A ++ A W M R + MTH GY KL+QLS+P L YD+++LDEAQDSNPC ++V+ + C +L GD +QAIY + GA+D + RV+ +V + FRFG+ I+ AN+++ L+GE PL G + ++ V+ + L+ S V + + FLAR++ ++ A+ R V VGG +Y L +ED+ ++ + + +++ LL+ + E+ D + ++VLD D E+K L+++ P +AD +++TAH+AKGLE++ V L DDF DL + L A E+N++YVA TRAK L +N+ L+
Sbjct: 5 LTEEQQPV--ANFK-GQKLVVKAYAGTGKTTTLVAFAKANPDARILYVAYNRAIREDAQARFPSNVTCKTTHQLAYAAIGKDYRHKLSPNLR-------LRDITDAVNTFDWSLAQDIRATIHAFAISADKTIDRHH-------------------------------------------------------------WPISLDAT------------------------------------------------------------------------------------------------SKAKDRQAIVIHHAKRLWKAMCDVENRE--------VSMTHDGYFKLYQLSQPDLSSRYDIVLLDEAQDSNPCAEAIVIDQPRCRVLLAGDPYQAIYQWRGAQDAMASHRVKDAKVMRIATSFRFGERISATANALLA-LRGEKVPLRGLSQRQDCVIPSNQFQLKQ-----SPVPQ-VTFLARTMMGVMQTALHFSRRKLSVHLVGGGDSYPLADMEDLFWLSRNKRDHIRNKQLLRDFNDFTQYKAIAEETKDPEMLRAIKVLDTYPHFD--QEMKMLEKRLSASPDDADIVVTTAHRAKGLEWECVYLVDDFPDLFDD-----------LDPAERDAEINLMYVAATRAKTLLAINTQLQ 474
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.D7G6K8 |
| Preferred name | FBXO18 |
| PFAMs | AAA_19,F-box,F-box-like,UvrD-helicase,UvrD_C |
| Model size | 5907 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K10300 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000018,GO:0000151,GO:0000152,GO:0000724,GO:0000725,GO:0000737,GO:0000785,GO:0001932,GO:0001934,GO:0003674,GO:0003676,GO:0003677,GO:0003678,GO:0003690,GO:0003697,GO:0003824,GO:0004003,GO:0004386,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005694,GO:0005737,GO:0006139,GO:0006259,GO:0006260,GO:0006261,GO:0006275,GO:0006281,GO:0006282,GO:0006302,GO:0006308,GO:0006310,GO:0006464,GO:0006508,GO:0006511,GO:0006725,GO:0006807,GO:0006950,GO:0006974,GO:0006996,GO:0008026,GO:0008094,GO:0008150,GO:0008152,GO:0008156,GO:0008219,GO:0009056,GO:0009057,GO:0009058,GO:0009059,GO:0009607,GO:0009719,GO:0009889,GO:0009890,GO:0009892,GO:0009893,GO:0009966,GO:0009967,GO:0009987,GO:0010498,GO:0010556,GO:0010558,GO:0010562,GO:0010569,GO:0010604,GO:0010605,GO:0010646,GO:0010647,GO:0010941,GO:0010942,GO:0015616,GO:0016043,GO:0016462,GO:0016567,GO:0016787,GO:0016817,GO:0016818,GO:0016887,GO:0017111,GO:0017116,GO:0017117,GO:0019005,GO:0019219,GO:0019220,GO:0019222,GO:0019439,GO:0019538,GO:0019941,GO:0023051,GO:0023056,GO:0030163,GO:0030674,GO:0031146,GO:0031297,GO:0031323,GO:0031324,GO:0031325,GO:0031326,GO:0031327,GO:0031399,GO:0031401,GO:0031461,GO:0032268,GO:0032270,GO:0032392,GO:0032446,GO:0032508,GO:0032991,GO:0033202,GO:0033554,GO:0034641,GO:0034645,GO:0034655,GO:0035561,GO:0035562,GO:0036211,GO:0042325,GO:0042327,GO:0042623,GO:0042981,GO:0043065,GO:0043067,GO:0043068,GO:0043138,GO:0043140,GO:0043142,GO:0043161,GO:0043170,GO:0043224,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043412,GO:0043632,GO:0044092,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044257,GO:0044260,GO:0044265,GO:0044267,GO:0044270,GO:0044422,GO:0044424,GO:0044427,GO:0044428,GO:0044446,GO:0044464,GO:0045005,GO:0045738,GO:0045910,GO:0045934,GO:0045937,GO:0046483,GO:0046700,GO:0048478,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048584,GO:0048585,GO:0050789,GO:0050794,GO:0050896,GO:0051052,GO:0051053,GO:0051098,GO:0051100,GO:0051171,GO:0051172,GO:0051173,GO:0051174,GO:0051246,GO:0051247,GO:0051276,GO:0051603,GO:0051716,GO:0060090,GO:0060255,GO:0060542,GO:0065007,GO:0065009,GO:0070035,GO:0070647,GO:0071103,GO:0071216,GO:0071495,GO:0071704,GO:0071840,GO:0072396,GO:0072402,GO:0072423,GO:0072429,GO:0080090,GO:0080134,GO:0080135,GO:0090304,GO:0090305,GO:0090329,GO:0097159,GO:0140097,GO:1901360,GO:1901361,GO:1901363,GO:1901564,GO:1901565,GO:1901575,GO:1901576,GO:1902229,GO:1902231,GO:1902494,GO:1902531,GO:1902533,GO:1904949,GO:1990234,GO:1990518,GO:2000042,GO:2000104,GO:2000112,GO:2000113,GO:2000779,GO:2000780,GO:2001020,GO:2001021,GO:2001022,GO:2001233,GO:2001235,GO:2001242,GO:2001244 |
| Exons | 17 |
| Evalue | 0.0 |
| EggNOG OGs | COG0210@1|root,KOG2108@2759|Eukaryota |
| EC | 3.6.4.12 |
| Description | ATP-dependent DNA helicase activity |
| Cds size | 4965 |
| COG category | L |
| BRITE | ko00000,ko01000,ko04121 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791771.1368642-UTR-P-littoralis_Contig883:15140..15905 | 1680791771.1368642-UTR-P-littoralis_Contig883:15140..15905 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig883 15141..15905 - |
| 1680791771.3925037-UTR-P-littoralis_Contig883:45447..45624 | 1680791771.3925037-UTR-P-littoralis_Contig883:45447..45624 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig883 45448..45624 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791771.1513152-CDS-P-littoralis_Contig883:15905..16190 | 1680791771.1513152-CDS-P-littoralis_Contig883:15905..16190 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 15906..16190 - |
| 1680791771.1638765-CDS-P-littoralis_Contig883:28283..28519 | 1680791771.1638765-CDS-P-littoralis_Contig883:28283..28519 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 28284..28519 - |
| 1680791771.1867325-CDS-P-littoralis_Contig883:28757..28815 | 1680791771.1867325-CDS-P-littoralis_Contig883:28757..28815 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 28758..28815 - |
| 1680791771.20904-CDS-P-littoralis_Contig883:29077..29350 | 1680791771.20904-CDS-P-littoralis_Contig883:29077..29350 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 29078..29350 - |
| 1680791771.2205663-CDS-P-littoralis_Contig883:31339..31456 | 1680791771.2205663-CDS-P-littoralis_Contig883:31339..31456 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 31340..31456 - |
| 1680791771.2328827-CDS-P-littoralis_Contig883:32360..32480 | 1680791771.2328827-CDS-P-littoralis_Contig883:32360..32480 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 32361..32480 - |
| 1680791771.2436063-CDS-P-littoralis_Contig883:32952..33087 | 1680791771.2436063-CDS-P-littoralis_Contig883:32952..33087 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 32953..33087 - |
| 1680791771.2597136-CDS-P-littoralis_Contig883:33859..33953 | 1680791771.2597136-CDS-P-littoralis_Contig883:33859..33953 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 33860..33953 - |
| 1680791771.2709022-CDS-P-littoralis_Contig883:34798..34881 | 1680791771.2709022-CDS-P-littoralis_Contig883:34798..34881 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 34799..34881 - |
| 1680791771.2842984-CDS-P-littoralis_Contig883:36038..36143 | 1680791771.2842984-CDS-P-littoralis_Contig883:36038..36143 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 36039..36143 - |
| 1680791771.298629-CDS-P-littoralis_Contig883:37006..37081 | 1680791771.298629-CDS-P-littoralis_Contig883:37006..37081 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 37007..37081 - |
| 1680791771.3095503-CDS-P-littoralis_Contig883:37646..38513 | 1680791771.3095503-CDS-P-littoralis_Contig883:37646..38513 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 37647..38513 - |
| 1680791771.3219259-CDS-P-littoralis_Contig883:39906..40080 | 1680791771.3219259-CDS-P-littoralis_Contig883:39906..40080 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 39907..40080 - |
| 1680791771.333366-CDS-P-littoralis_Contig883:40757..40989 | 1680791771.333366-CDS-P-littoralis_Contig883:40757..40989 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 40758..40989 - |
| 1680791771.3480294-CDS-P-littoralis_Contig883:41631..42827 | 1680791771.3480294-CDS-P-littoralis_Contig883:41631..42827 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 41632..42827 - |
| 1680791771.3613076-CDS-P-littoralis_Contig883:43876..44104 | 1680791771.3613076-CDS-P-littoralis_Contig883:43876..44104 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 43877..44104 - |
| 1680791771.3760622-CDS-P-littoralis_Contig883:44760..45447 | 1680791771.3760622-CDS-P-littoralis_Contig883:44760..45447 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig883 44761..45447 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig883.1.2 >prot_P-littoralis_Contig883.1.2 ID=prot_P-littoralis_Contig883.1.2|Name=mRNA_P-littoralis_Contig883.1.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1655bp
MASASSSWGSLGRGGSGGVGSCGGSTVGGRRSHAPRNTGSDRMIKLSLHV
VGLQFRESDNSQPSSASTTTTTTTTASTSPNSPSGLDQQRQQPTTPTVSE
NNNSSSSSSSSDISSNTALDLEREPDNSHDRNAIKVLLPPRPPEAQPPAA
ARRSSAPSRFIGYIPGRIAILLAPVLDASPVVARVALKTVEEEGEGGYAR
GPRNTLPALLGVQPLNGARREPFLGLIAKLREAAQKEDKRQQKRRSESKA
HKERLKSKQKTLLLDFGRSSSASSKSGGGATPVSASGSDRGGEMLESMPW
EVLWQVFCSPGISSRELFGPIRGACGNWMRAVDAMPCAAARREVAKVCAG
EQPDDDDEEGNSDTDGDGSKLEGEPAASHGSSSFSRGGASEGGGSGDARH
GRPWEGKGKRRVAAGLGSGGDGRREGRGCWWDKVRARLVRGGGFTECAAA
DVLARLEWAAGQADDDADDDDEVGEGLLEDEAGAAASAGGWGEGGGGGGR
GGGAGRGAGGEEGRGASGGKRRRMLRHLDATRVLCREWRLVREGGVASSS
RRDASASATGSGGGGGGRGSGGGHGGRGGGSWSGWEAFALAVATSASRDR
LSLCCWAVRPLMGGDSASAPSTCSGGVGGKEEEGQRQRRPRAPPPPPSCL
GLPRGEVIELLCLMLCALRSLGGGGGRRSGSEGSVRLKADLLVCARVLEN
WDIRFRKPGQPGGGGNNSGGGGVGGASGLIANLTAEQRSIVLADVKPGGV
LTVLAFAGTGKTTCLRAYAQARPHLRILYLTFNVSVREEAEKTFPPHVAC
KGVHQLAFRFVGRRYQSKLAPDLRESDVQAFLKDRLGGESKIKLASATRV
LATLNAFFASESPSLSASHVKAPPPDLLFQQQQQQRQREQQQQRWRRREE
EGGDSDGGVDGVDDDGNGDGYGSEGEEYSGSEDGDDAVGSRGAVGTGGVG
TGGGCTRSGGGGGSGDGGGGGGGGGGGSFRGGGSSSSSSLPSEAPRSSPS
PLAATEAGAAAASTVPATPPPGAARKQSSRRQSRTRSPVEDATILEWASM
AWAEMQSTGPRRGFGESSVSLGMTHQGYLKLFQLSRPCLGRTYDVIMLDE
AQDSNPCIASLVLRETGCARILVGDSHQAIYGFIGAEDHLKRVEGGEVRH
LTQVFRFGQSIAHVANSVIGPLKGETRPLLGCAGKEGQVVLAGGTGLEVW
NDQGSRVKRPMAFLARSVSTLVHAAMWAKSRGEKVAWVGGAQAYSLEAIE
DICLMTLGRPEEVKHPLLKKLKTTKRLIRFIIESGDRQWASRLRVLDGKH
PSDLLAELKELQRKQVPPREADTILSTAHKAKGLEFDNVVLADDFIDLEE
IRWTTGPCPRPVLRSAAEQEEVNILYVALTRAKRCLVVNSSLRGFLAATG
AGNSVCLRGVSSDPGGTSSRHPPVREDRSAVVSSPAKTPACSLCGGSADV
GGGGARLQGISRGRPRLNPYFGGRQVGGGRSGSRRERIFRLWAQKGSRGR
AAVRRVWIATAAVLLVRGGRRRPCARCCCRSCGYCCRCWFRRRWGQRHWR
THREGANKFEVSVRKSSDARPGRSCRMMLRRLRVGHSERERGKEGCYFVL
LRQTEPVYRREPPARRLLLACAVYTSTSACDLPERHFGVYVACLLVPLSV
QGPV* back to topmRNA from alignment at P-littoralis_Contig883:15141..45624- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig883.1.2 ID=mRNA_P-littoralis_Contig883.1.2|Name=mRNA_P-littoralis_Contig883.1.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=30484bp|location=Sequence derived from alignment at P-littoralis_Contig883:15141..45624- (Pylaiella littoralis U1_48)
AGCACACTGACACCACAGGGAGGGCAATCCCCGGCACCATCGACGAAAAC
AACGGCCGATGATTTCACCACGGCGGCTGCTTCGTCTGCTGCTGCTGCTG
CTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCCATTGGTACTGCT
GCAGTGCGGAGTGCACCAGCAGGGGGTATGGCGTCAGCATCATCGTCGTG
GGGCAGCCTCGGGCGCGGCGGAAGCGGCGGCGTCGGCAGCTGCGGCGGAA
GCACGGTAGGCGGACGGAGGTCACACGCCCCACGCAACACCGGCAGCGAC
AGGATGATCAAGCTGTCGCTACATGTCGTTGGCCTTCAGTTCCGGGAAAG
CGACAACTCTCAACCATCGTCCGCGTCAACAACAACAACAACAACAACAA
CAGCGAGCACCTCGCCGAACTCACCGTCAGGGTTGGACCAGCAGCGTCAA
CAACCGACGACTCCGACCGTATCCGAGAACAACAACAGCAGCAGCAGCAG
CAGCAGCAGCGACATTAGCAGCAACACAGCCTTAGACCTAGAGCGCGAGC
CCGACAACAGCCACGACCGCAACGCGATTAAGGTCCTCCTACCCCCTCGT
CCTCCTGAAGCACAACCACCGGCGGCGGCTCGCCGGTCCTCGGCCCCCTC
CCGCTTCATCGGTTACATTCCTGGAAGGATCGCCATCCTGTTGGCCCCGG
TATTGGACGCCTCACCTGTCGTCGCGCGCGTGGCCCTCAAGACCGTCGAA
GAGGAGGGGGAGGGAGGATATGCACGGGGTCCTCGTAATACGCTGCCCGC
TCTGTTGGGGGTCCAGCCTCTGAATGGTGCTCGCAGGGAGCCGTTTTTGG
GGTTGATAGCGAAGGTAAGACTGCTCGGTCGGCGTTGCTGTTGTGGTAGT
GTTTCTGTTTGTTGTTGCTGTTGGTGGTTGTGTCGTTGTTGTTGTTGTTG
TTGTTGCTATTGGTGGTTGTGTCGTTGTTGTTGTTGTTGTTGTTGCTGTT
GTTGTTGTTGTTGTTGTTGTTATTCACTTCGTATGTTGTTGTTGTTGTTG
CTGTTGTTGTTGTTTGTTGTTGTTGTTATTCACTTCGTATGTTGTTGCTG
TTGCTGTTGCTGTTGTTCGTATGTTGTTGCTGTTTCTTTTTTGGGTACGG
GGATAAAGAAATAAAGTGCTGGTGTGCATTTTTTCGGCGCGGCTGGAGGC
CAAAACCACCTGGAAAAGAATCGGGTTTCTTGGATGGAAGAGTGTGGGTG
CGTCTTGGATCTACGTCACGGATGGACGGCGTTCCTGTAGCGTCGAGGTT
TTTTCTTCTCTTGTTTTCGGCGATGACCAGTTCTGGTGTCGCGCCCACAG
CAATACTGCCGTCACGCCCATCGAGGCACTCTCAGCGATGAACGAATTCC
CGGCCATCTATGTACAGCAGCAGCCCGTGTTATTTGTTGCCTTTTGCGAT
ATAAAACTTACCTCGCAGCTGGCAGTTACGCATCTTGAAGCACCCCCACA
CCTCCCCCTTTTCTGACCAGCTAAGGGAGGCTGCCCAAAAGGAGGACAAG
CGGCAACAGAAGAGGCGCAGCGAATCCAAAGCCCACAAGGAACGCTTGAA
GTCGAAGCAGAAAACACTTCTCCTGGACTTTGGTCGATCCTCCAGCGCTT
CTTCGAAGAGTGGCGGGGGCGCTACCCCCGTGTCCGCGTCCGGCTCTGAC
CGGGGGGGAGAGATGCTGGAGAGCATGCCCTGGGAGGTCCTGTGGCAGGT
GAACTACGGTTGCCTCGTCTGTCCGTTCGTTCGCTCTCTGTGGGAAACCA
GTCATTGAGTAACGCGTACCAGGACATGAAAATCATGTCGGTCTACCCAT
GACAGTTTTTCCAGTGAAATGTTTTTACGCACGGCAGTAGGCCTATGATA
TGAACCATGTGGACCAATTCCACGAGAAGTCTGAAAAATAAATAAATGTT
TTTCTTCTATGGATTTTTGTTGGAAGATGACAAGCTTGTCAATATTCTAC
ATATGTATGTTAGCGGAAAACTGCGTATGAACGAAGAATTCGCGTCGTTG
GGGTTTGCAAGGTAGATGTGCGTCGTTGTGATGCCCGCCTTCAGAGAATG
TAGACAGACATCAGAGGAGATCGACGTGTGATGCTGGAGAGCATGGATCC
CTTGCGAGTACTTCATCTCGTCGTGTTGTTCTTGTTGTCATTGTGTTGAT
TATCTCCGCATTCTATGCTTGCACCCCGCTGACTGCTAATTATTCATCGT
GCAGCAGACCCGCAGCTCGAAACAAATGTTTTGCACTCGTCCCGAACTGC
TCGAAATGGTCGGTACGGTTGAGACAGCAGAAACACAAAAACACACCAAA
TCCAACACGCCTGACTGGCCCGCCCACACCTGAGTCGAGCTATCGTAGGA
AAATCGGTCGGTGAGTCACCAACCAAGTACACCATCCTCGTCCTTAGCCT
CCTCCCTTGCTTTTATTTCACTCCCAACAATCACGTTATTTCCTGACAAG
AATCTATTTTTTTGCTGGTCACACGTCCCCCTACGCGCTCGTGTCCTTCC
TCGCTGCTGCTGATCTCGTTCTCGTGAGTTTTCACCGTGTGGGTTCGAGT
CCCTCTGTGATGTTTTTTATATTATTTAACATGGCCGTTTGTGGGTCAAC
TCGCGCCGTGTTTTCGTGGAAATAATATTGTATTTTTTCGTTACTTGTGT
ACATGCCGTCGTCCGTGCTCTTCATTGGTCAAGAACGCTTTGCCTCCTCT
GTTCCTTTCGTCCGCACTTTTTTTTTTTTTTCACTTTTTTGGCACAGGTG
TTTTGCAGCCCCGGGATATCGTCGCGAGAGCTCTTCGGTCCCATCCGCGG
GGCCTGCGGCAACTGGATGCGAGCGGTGGACGCCATGCCCTGCGCCGCGG
CCCGGAGAGAGGTTGCCAAGGTCTGCGCCGGAGAGCAGCCTGACGACGAC
GACGAAGAAGGCAACAGCGACACTGACGGTGATGGCTCGAAGCTGGAGGG
GGAGCCTGCGGCGTCGCACGGCTCGTCGTCGTTCTCGCGTGGAGGAGCGA
GCGAGGGTGGCGGTAGCGGGGATGCTCGCCACGGTCGGCCATGGGAAGGA
AAGGGGAAGCGGAGAGTCGCCGCGGGGCTCGGCAGCGGCGGTGATGGCAG
AAGGGAGGGGAGGGGGTGCTGGTGGGACAAGGTGCGCGCGCGGCTCGTGC
GGGGCGGCGGCTTCACGGAGTGCGCCGCGGCGGACGTCCTGGCGAGGCTT
GAGTGGGCGGCTGGACAAGCGGACGACGACGCCGACGACGATGACGAAGT
TGGCGAGGGTTTGCTGGAGGACGAGGCGGGCGCTGCAGCATCAGCTGGCG
GTTGGGGTGAAGGAGGGGGAGGAGGAGGAAGAGGAGGAGGTGCGGGAAGA
GGTGCGGGAGGGGAAGAAGGACGAGGGGCTAGCGGTGGTAAGAGGCGCAG
GATGCTTCGGCACCTCGACGCGACGCGGGTCCTCTGCCGGGAGTGGAGGC
TCGTACGAGAAGGGGGCGTGGCCTCTTCCTCTCGTCGCGATGCAAGCGCA
AGCGCCACCGGTAGCGGCGGCGGCGGAGGCGGACGCGGCAGCGGCGGCGG
TCACGGCGGTCGTGGCGGTGGGAGTTGGAGCGGGTGGGAAGCGTTCGCGT
TGGCGGTTGCAACGTCGGCTTCCCGGGACCGGCTGTCGCTGTGCTGCTGG
GCGGTGCGGCCCCTGATGGGCGGAGACTCCGCCTCTGCCCCATCCACCTG
CAGCGGCGGTGTTGGCGGCAAGGAGGAGGAGGGTCAGCGGCAACGGCGCC
CACGAGCACCGCCGCCGCCGCCCTCGTGCCTCGGCCTTCCGAGGGGCGAG
GTGATCGAGCTCCTGTGCCTCATGTTGTGCGCGCTGAGATCTCTGGGGGG
TGGCGGCGGCAGGAGGAGCGGAAGCGAGGGATCGGTGAGGCTTAAGGCGG
ACCTGCTGGTGTGCGCGAGGGTGCTCGAGAACTGGGATATCAGGTGGACA
GAGGCGGGTAGGGAAGGGGGTGTACTCCTCAACGATTACTTTTGTTAAAG
TAGTCGTTAGATCATTGACCACTACATACGCGTCCCCACAATGCCAGGCA
GCAGCATGATTGGGTTCTCAACCATTTGGCGCGGGCATGCGGGGGAGCTT
AGCCGAAAATAGTCCTTCGTACATGGGAGAAAGATGGGGTTGAAACCGGT
GGGTACTCGACGGCGCAGGGCAGAGCTTGAGAAGGATCGATGAGCCGTTG
GCTGATCGAACAATTGATCAATCGGTCGATCTATTGGTTGGGTTTGGTTG
ATTGATTGATGGAGTGGTTGGTTGATTGATTGATTGATTGGTTGGTTGGT
TGGTTGATTGATTGATTGGTGGGTTGATTCGATGATTGATTGGTTGTTTG
GTTGGTTGTTTGATTGGTCGATTGATGCCAAAACCACGTATGATCGATAC
TCCAATTCCAATCACCTTCTGTATCTCTTCGTCTGTGCGCAACACCCCGT
GGCGGTCGGTCCTTCCAAGTGTCGTGGTGGTGGCAATCAATGAGGTCTTC
AAGTGCTTGACATCCCACCTCATTACCTCTGGTGTTCCGTTTTTTTTGTC
TCCGGATCTTTCTTTCGGGCCGAACGCCTCCCTAGGTTTCGTAAACCCGG
ACAACCAGGTGGCGGCGGGAACAATAGTGGCGGCGGGGGGGTTGGGGGGG
CTAGCGGGCTCATCGCAAACTTGACGGCGGAGCAGCGCAGCATCGTCTTA
GCGGACGTCAAACCGGGGGGAGTTCTAACGGTGCTGGCGTTTGCAGGGAC
GGGAAAGACGACGTGTCTCCGAGCGTACGCTCAGGCGCGGCCCCACTTGA
GGATTCTCTACCTCACGGTGAGTGTGTGTGATGCAGGATGCATGGCTGGC
TTCGGAGGCGAAAGGGAGGCTTGACGTGTACACACCTTGAGTAATACTTT
GCCTCTACGATTTTTCTCACGAGGTGCTTCTAGTATTTCTTGATCACGAA
GGTGCGTCACAGTGCATGTGCGATCGAAAATATTCATTTCGTTTGCAGTC
TTGCATAGCTGTGCTGCAGCTGCGGGTGCGGCAGTGAAGCAACAGTGCTG
CTGCTCCTGCTGCTCCTGCTCCTGCTCCTGCTGCTGCTCCTGCTGCTGCT
GCTCCTGCTGCTGCTGCTGCTGTTCGTGTGGGTGTGGCATCACAGTGCGA
TCGTTATATTTTTCAACGGCATGTGGCGGGCTCTTCTTTATTTTTTAGGG
CAAAATCGAGAAGCAGTCCAAGTCGTGTACAAGCGCTGGGCGATAAAATG
ACCGGAACATTTGTTCCCACACCTGCATCGAACCCTTCGATCCACCGTAA
AGTGGAACTGCCGTCGTTCGCCCTGCACGCTTCCACGCCCTACATTACCA
ACCCCGTTTTTTTTTTTTGGGATGCGGAATGCTAGCATCAAGCCTGCTTC
TGCCACCGCCTCCCGGCCTATCACCAAACCAATTGTGGCACAAGAGAACA
GAAACGTGCTTCTGCCTCCGCTGCCGCCGCTACGGCTGCCGCAGTTCAAC
GTGAGTGTTCGGGAGGAGGCCGAGAAGACTTTTCCGCCCCACGTGGCCTG
CAAGGGGGTTCACCAGCTCGCCTTCCGGTTTGTGGGGAGGCGTTATCAGT
CCAAGCTGGCGCCGGACCTGAGGGAGTCAGACGTGCAGGCGTTCTTGAAG
GACAGGCTCGGCGGAGAGGTGAGTGGCTGCGCCGGTGCAGCGCAGGGCAG
CAAAGTAAACCCCATCAAGGCAATGTGAAGTAGACCAAACGAAACGGGAC
CGAACCGAACCGAATCTAACAAAAAGGCAAACCTAGACAAAGCTATCTCG
ACCCCCCTCCCCCCCCCCCTTCAGGGTCACATACATTTTTCAAGATTGAG
GTTACAATTGGTTAATGTTAAAGTAAGGAAAAGGGTTAGGGTCAGCCGTT
CTTTTTTTTTTGCGCGAGGGTATTTACTTCTGCACCGCCGCGGTGCTTTT
GAGTTGTTTTATGATGGAAGGTAAGGAGCTTTCTGCTGTCACGCGTAGCT
CTCGCTGCTCCTCCTTGTGCCGCACCGCCCGCCTCGCGTGTCTCTCCCGT
TTCGGATCATGAACGCTGTGCTTTTGCTGGCGTCGGGCGTATCTCTGATT
ATTTTCGGCCATCCTATGCTGTGTAAGCAGTATGTTTTTGCCATTTTTTT
ATTGTTTTTTCGTTGCGAACCAGAAGCAGGCTGTGAGCTTTGCTAACGTC
AGGCGTGACTCTCGTTGCGCCTGCTTCTGCGGTAACAATATCTTGCACCC
TGATTCATTTGTTTTTTTTGGGCGAAAAGAGACAGTTGAGCTTCGTTTTC
GTCCGCAAGTCTCGTTGTACCTGCTCCCACGCTACTCACGGCTTACCGCT
CTCTCTATTTAGTTTGTTTTCATTGTATTATACGAGACGCCAAAGATTTT
CCCGTATCAAACGAGTGTCAGTATCATATCGTACAGCTCTCGTTGTTCCT
GCTTTGCTACGTAAACCTCAACCTCCTCCTCCTCCTCCTCCTGCTCCTCC
TCTTCCTCCTCCTCCTTTTTTTTTTTTATGCCTACCTCTGTTTTTCGTTT
TTCGTTTTTTATTTCTGTTTGCTGCTTGTTTTTTTTTTTTTTTCATGCGT
ACTTCTGTTTTCTGCTTTTTCATTCTGTTTTCTGTTTTCTGTTTTCTGTT
TTGCTGCTTGTTTGTTTCCTTTTAAGGAAGAGCAAGCTGGCCGATCCTCC
TCCTCCTCCTCCTCCTCCTCCTTATTTTTTTCTGTATTCTGTTTTCTGCT
CTCTGTTTTCTGTTTCTGTTTTCTGTTTTGCTGCTTGTTTGTTTCCTTTT
AAGGAAGAGCAACCTGGCCGATCCTCCTCCTCCTCCTCCTCCTCCTTATT
TTTTTCTGTACTCTGTTTTCTGCTCTCTGTTTTCTGTTTTCTGTTTTCTG
TTTTGCTGCTTGTTTGTTTCCTTTTAAGGAAGAGCAAGCTGGCCGATCCT
CCTCCTCCTCCTCCTCCTCCTCCTCCTCCTTATTTTTTTCTGTATTCTGT
TTTCTGCTCTCTGTTTTTTTGCTTCTGTTTTCTATTTTTGCTGCTTTTTT
GTTTACTGCAGAGCAAGATCAAGCTCGCCTCGGCGACGAGGGTGCTGGCC
ACCCTTAACGCCTTCTTCGCGTCAGAGTCCCCCTCGCTGTCTGCATCCCA
CGTCAAGGCGCCCCCGCCCGACCTGCTCTTCCAACAGCAGCAGCAGCAGC
GACAGCGAGAGCAGCAGCAGCAGCGGTGGCGGCGGCGGGAGGAGGAGGGC
GGTGATAGTGATGGTGGCGTGGATGGTGTGGATGACGATGGTAATGGAGA
CGGTTACGGCAGCGAGGGAGAGGAGTACAGCGGCAGCGAGGACGGGGACG
ACGCTGTCGGAAGCCGTGGTGCTGTTGGTACCGGAGGTGTCGGCACCGGC
GGTGGCTGCACACGTAGTGGTGGTGGTGGTGGTAGTGGTGATGGCGGCGG
CGGCGGCGGCGGCGGCGGCGGTGGTAGTTTCCGCGGTGGCGGTAGCAGCA
GTAGTAGTAGTTTGCCTTCGGAAGCACCGCGATCGTCACCATCACCACTA
GCTGCTACTGAAGCCGGTGCTGCCGCAGCTAGCACCGTGCCAGCAACGCC
GCCCCCCGGCGCCGCACGGAAACAAAGCTCCCGGCGGCAGTCCCGTACCC
GCAGCCCCGTCGAAGATGCCACCATTCTGGAGTGGGCGTCGATGGCTTGG
GCCGAGATGCAGTCCACCGGCCCTCGACGGGGGTTCGGTGAATCGAGCGT
GTCTCTCGGGATGACCCACCAGGGATACCTCAAGCTGTTCCAGCTCTCGC
GGCCGTGCCTCGGGCGGACGTACGACGTGATCATGCTGGACGAGGCGCAA
GACTCCAACCCCTGCATCGCCAGCCTCGTGCTCAGGGAGACCGGGTGCGC
TAGGATCCTCGTGGGGGATAGCCACCAGGCAAGACAGAGAATGCCAAGTG
GGGCTCCGTGGTCAAGGGGGTCCTGTGGAACATTATGCGACCTATGGACT
ACAAGTATGACGGTGCCCCCCCCAGATATACTATCATGTGTCGCCGCTCC
CTCAAAATGTAATTTTGGTGTTGGGGCATCAACCGGGCATGGCGGGGATC
TAGATGGCGAAAAACGATGCAAGTTGTGCGTTAAGACTACTTCGGAGTAC
TTTGTTCTTCGAAGTATTAATTGATTGACCAGAGCCTGGAATACGGTTGG
AGTCAGGTGTGTTGTTTGTGTGTGAGTGTGTGTGTCTTTGAGTATTGTGC
GGGAGCCTGTGAACCAAAGCCCTGAACGGGCGTTCGCCTGCTTTTCCCCT
GTCCTCCCGGTTGCCACATGTGGGTTGTGTGTCTGTGTGCGTGTGCGCCT
GTCCGTGTGTCTGTGTGTGTGCCTGTCCGTGTGTCTGCGTGTGTGATGTG
TGTGTCTATGAGTTTTGCGTGGAGCCTGTGAACCAAAGCCCTCTACGGGC
GTTCGCCTGCTTTCCCCCTGTCCTCTTGATTCCCTCAACGCAGGCCATTT
ACGGCTTCATTGGAGCCGAGGACCACCTGAAGCGGGTGGAAGGCGGTGAA
GTCAGACACCTCACGCAGGTGCAAGCGAAACCGTCAGATGCCGTATCGTT
TTTGGTGTTGCGTGGTTGCAGCTGGCGATGAAAAAAAGATGCCTCATCGG
CACTCGAAAACACTGAAAACGCTCGATACCCTCCATAAAACGTTGTCCTG
TGAAAATATTGCTAGCTGAGCGTTTGTCGCAAACGGCTGAGGTCGCCGAG
CTTCGAAGAGCTTCGAAGGCCCTGGAACATTTGAGCTTTTGGCGTCAAGG
TTTATGTTCTAACCTTGGGAAACGCGGATGTAGGACGCAGCGCGAGCAAG
AACAGAAGGAGAAATAGCTTCGAAATCGCCTCCTCAAGCCCTTGCTCGAA
TTGAAATACTTCGAAGTAATTATCACCGACCTGTCGGGTCGGGTCGTCTT
GGGAGATAGCATAAAAACAACAAAAATAACAACAGCACGAGAGTACACCT
CCAAATCCGATACCGCGATGTTAGCGCCGAAGCATTTCATTGTGTCCCGT
CCCGCCCCGCCTAACCCGGCCCCGCCCCAGCGCCCGCCAGTAAGGCTGTC
CACCACCAACAACGGCCTAGAACTTTCACCACGCACAGCAACCAAGCTAC
CGGTATCCCACTTTTCCTGATGGTTTGGGTACCGGTAAGGGTTAGTCTTG
TTGTTTGTTTTAGGGTCGTGGTTGCGTGCGCCCATGCTTTTTTGGGTGTG
CAAGCTGAAGGGCGGCAACCGCCTGTGCATGTCTTAAGGGCGTGCATTGC
CCTCCAAGCAGAACGAAATGATCTGTTGCTGGCACACGCTTTTCTCTGTG
CCCGCATTAACGGGCGCTTGCCCTGTCCTGTCCTGTCCTGTCCCCTCGTG
TTTTGGTCTGCTCCCCTTTTCCACGGTGCAGGTGTTTCGATTCGGCCAGT
CGATCGCCCACGTGGCCAACAGCGTGATCGGGCCTTTGAAGGGTGAGACC
AGGCCTCTGCTGGGCTGCGCCGGAAAGGAGGGTCAGGTAAGAGGGCAGCA
GGACAGAACCCAGCATTGTTGTGTGACATACGTATGTATGTGTGGTGTGG
TATTGTCTTCTCGGCGTGTGCTTCCCGGTAATACCTTTCAGGTTTAATTT
TAATCCCACATGTCTTGCCGTAGAGAGGCTCAGGCAGTGCACTGTCTCGG
GGTTCCTGTAAGAACGCGGTACGGGTGTATGACAGCGGGCGATGACAATT
GATGGAACGATGAGACTGACTATATAATAGCCCCGGACGATGACGATTCA
TGGAACCATGGATTCAACAATTAGCCCCAAACTATGACGATTGATGAAGT
GATTAACCCACAAGAGCACCGGACGATGGTAATTCATGGAACCATGCAAA
CAATAGCCCTGGAAAGCGACTTGCTGGCACGCGCGCAAGATTCGTCAGGA
CCTGTCTTGAAACCGCTACTGTCAACCACTGTTTATGTCATCTGGCAGCT
CTTGTTATTCCCACACCTTAGGGTTTTGGAATATTCTCGTCGCATGCAGA
ACCCTGCATTGTGATGTTCCACTCTTCTTGTGTACATGGATGTATGGTGT
GTTCTTTGGCCCAAGGGTAGGTGGCCATTGTGAGCAACTCCACTCTTTGT
TCAATTTAGTATCACTCTTTCGTACAGAAGTCCGTGGTTTGTGTCTTCTT
TCTCGATAGGTAGGTGGTCATTGCAAGCAAACCTAAACTTTCTGTTGTTT
TTGTTTCACTCTTGTGTACAGAAGTCTATGGTGTGTTGTCTCGAGGGTAG
GTGTTGGTGGTAAGCAAACCCACTTTTTTTGTCAAACTTGTACCGGTACG
TGCCAGGGGTTTCCATCCTGTCGTTTTGTGTTTTTTTGCGATGTTTCTTT
GGCCCGTTCACGATTTTCGCGACTTGGTGTTGTGTCGCCTGTATGTCATG
TTCCTTTTGCGACAAGTGTGTTCGTCGGCAGGTGTGGTGTGGTGTGGTGT
GGTGTGGTGTGGGTGTGGCGTGGTATCCTATGGTGGGGTGTGGCGTGGTG
TGGGCTGGGTTGTCGTCGCAGGCGGTGTACCGGTTCTGTTTAATTAAACA
CCCATTTTCTCATTGTGTTCGACATGCCTCCTGCCATGGTTGCCGGTGTT
TTGTTGCCGGTGTTGTCGGCGCGCGTGTGTGTCGTGGCCGCAGGTGGTGC
TCGCCGGAGGCACCGGACTCGAAGTGTGGAACGACCAGGGGAGCAGAGTG
AAACGGCCGATGGCGTTCCTGGCAAGGTGCGGCGCGATGGTTCTGTGTGA
AAGGTTAAGGTTTATATACGTGTTGTCTCCGTAGCGACACACACCCTAGT
CCAAGCATCGGAGTGACAAGACGTGCATATGATATGATTCGCGCGCATAT
AGATAGGCAAAATATCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCGCATC
AACCTAATCCTCAATTCCACCATGATTTGTTTTGAACCCGCCTTTTTTTC
AGATGCACCTCGAAGGACATACATCAATCAACCGATCGACAACAACAATC
AGGCGCACACTTTCTGAACCCCGGACCGGCCAACGGTCCACGCTGCCATG
ATATTTTTGTCTGAACCCCCGACCGACCAACGGTCCACGCTGCCATGACA
CTCGAGTATTGTTTTTTTATCCCTTGCGATGCTACTGCTGTATCCCCCTT
TTGTCATGCGTGCACTCTACCCGTCGCCCCGGTGGTTCAGTTGGCAATCC
ACGCAACCTTCTGACATTCACGCGTGAGTTCGAATCCCAGTGCAGTAACA
CGAACTGGGTTTTTTTTTCACATTGCGCGTGAAAGTGGAAAGCGATCAAT
TCGTGAGTAGACAAAAATTCGATCGTACCATCGACGAGGGAAAGGGATTG
CTGTCCCCTTTCTCGCGATAAAAGCTCAACCAAAAAGGCAAGCACCGCAG
AGGGAAGTGGGAAAAAAAAAAAGAAACTCCTGTGTTGACTTCCCCCTGTG
TGACCCCGGTTGGAGCGTCTACCTACCCGAAAGGTGTAGAGTGGCGTCCA
ATTAAAGGGATGATGACACACACACATATTCTCTCTCGCCGCAATTGTTT
CTTCTACCCCCCGGCACGTAGGTCCGTGTCTACCCTGGTGCACGCCGCCA
TGTGGGCGAAGTCGCGAGGAGAGAAGGTGGCGTGGGTGGGCGGTGCGCAG
GCCTACAGCCTCGAGGTACGGCATGGGTGACCCCACGAGTAGCATACGTT
GTTTTTTTGTCATTGCTGATGTAACTAGCAGCACCTACAGTACAGGTATG
AATGACATCACGTGATACGATTTACACGTTGTTATTTGTGGCGGCATGTG
TGTGTGTGTGTGTGTGTGTTTTTTTTTTTCTTCTCGCATTTAATGCAGTA
CCGAGAAAGAATCGATTCATTCGGATCACACTGCTGCTGTTCTGGCACTC
GGAACTGCCGGTCGGCGCATGCTCAGAGAGGACAGTGTCGCCAGATGTAC
TCACGAAAACTAAAAACACACGAACACACACACACACACACACCATTTGC
CTGTCAGGCAGATGTGTTAGTATTGGCTGGTCCTTTTTTGCGAACCAGTC
GCAGAACCGAACCACTGCAGACGTTTCACTCAAGCTTCGACTGAGCCGGG
GCGTGGTCGAGCCGTTAACGTCCCCTGAACGCTGCTGCGCCGGTGGTAAA
TGCTGTTATACATCAGCACAACAATTAAAAAAAAAAAAGATCCAGACATA
CGTTGACACCAAGACACACACCTGTGACAGGTTAATGACTTACGCCTTCG
CAATGCTGTGCGGCATACCAAAGGACGCTGCTGTTGTGTTGGGGGCTGTA
AGATTCCGCTCCTAGGATTTTGAGCCCCAGCATTCTACAAGCTATTTTCG
GTATGTACACACTGTCCTACACACGCCCTGCCACGACCTCCTTCGATGCA
TGCATACATGCACGCACGCATACATGCCCCTCTCAAGGCGATCGAGGACA
TTTGCCTCATGACCCTCGGCCGGCCCGAAGAGGTGAAGCACCCTTTGCTC
AAGAAGCTCAAGACCACCAAGAGGCTGATCCGGTTCATTATCGAGTCTGG
AGACCGGCAGTGGGCTAGTCGGGTGAGAGAGAGCGGGTCGGACTTTCTTT
TGATGTGATGGTACCGGTGACAGCAGTCGCTGTTGATGTTGTTGTTGTTG
TTGTTGTTGTTGTTGAGGTCGTACGTAGAAGGTGGTGATGGTGGCTTCGT
CGGTGTTGATGTTGTTGTTGTTGGTGTTGTTGTTGTTGTTCTTGTTCTTG
TTGTTGTTGTTCTTGTTGTTCTTCTTGTTGTTCTTGTTCTTGTTGTTGTT
GTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTGTTCT
TGTTCTTGTTGTTCTTGTTCTTGTTGTTCTTGTTGTTCTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGACAAGAAAACCCCCTCTTACACA
TCGCGCACCACTCCCGTTTTTCTCATCGCCATACGTCGGCCTCTTTCTTA
CCTCGGGGCATATTTACATATATATTTTTTTGCTGTTCTCCCAGCTACGG
GTGCTGGACGGGAAACACCCCAGCGACCTGTTAGCCGAGCTGAAGGAGCT
GCAGCGGAAGCAGGTCCCTCCCCGCGAGGCGGACACCATCCTCAGCACCG
CCCACAAGGCGAAGGTGATTGTTCCACCGCATTTCAGGTTTCGATTTACT
CTATAGCTCTTCCTGCGTGGCCTTCCTTCCTTGTGAACCCGCCGGCTGGC
TCACTCGCTCCATACCGAAAGGTGTAGACTGGTGCCTAGAAAAAAAGGAG
GCGAAAAAACGCCCTCTCACACACCCACGCGCGTACACGCTCCCTCAGAT
AGCAACGAGCTGTTGATCTCTGTCTCGCCGCATCTAGTCCACTCCGAGTA
TAATTCTTAAGGTGGCATGTTTGATTGGGCTTGTGGTTGTCACACTCTTA
CTCTCTGTTTGATATGACTGGGTGTAACGCTCACAATGCAATCAAAAGGT
GGCATGTTGCACGCCTATTTTTGCTGGGACGTTCTTTACTCTCCCACTCT
CTGGTTGATGGTATTGGTTTACAAGCCCTACGCTCACAGTGCAAAAACGT
GGCACCAAACGTCTTTTTTTTCCATGGGATTTGTTCTTCTCTCTCAGTAT
CTTCTGCTGTGCTGGCGGCATGTAGGGTTAAGTATAACTTCGGCAAATCG
TAAGAAGGTCGGGCTGCTGTGAGAACCAAACCGAACCGCTTACTTTTGAG
GCGGACGTCGGCATCTCTTGCGTGTACTTCTTGCACGCGGACGAACGATA
AACTGCAACCAACTTTCGAATGAATCGATCTGTGTTTTCTGTTGTCGCCA
CTTTCAGAGACGGCGCCATGAACATGCCGCACTATCATATACGGAGTACG
AAGTACACATCTCATCGGACGGTATCACGTGCAACTGCCGTGTGTGTTCC
TGACCATTTGACGAAAATCAAGACCGGGTACTGTAAGGGGACGTAGCGAA
CCCCCCGAGATGATTTCACAAACATCGTATCATACGATTGTTCATGCATG
CCCGCACGTCGACCGCAGGGGTTGGAGTTCGACAACGTGGTTCTGGCGGA
CGACTTCATCGATCTGGAAGAAATCCGATGGACTACCGGGCCTTGCCCGC
GGCCGGTCTTGAGGTCGGCGGCCGAGCAAGAAGAGGTGAAATGCTTTTCG
TTTTGTTCCATGTTTTGTTCCATGTTTGTTCCATGTTTTGTTTTATGTCT
AGTTTCATATTTGTTTTCATGTTTCTTCCCATGATTTGTTCCATGTTTTG
TTCCATGTTTTGTTCCACGATTTGTTCCATGTTTTGTTCCATGTTTTGTT
CCATGTTTTGTTCCATGTTTTGTTTTATGTCTAGTTCCATGTTTTGTTTT
ATGTCTAGTTTCATGTTTTTTTTCATGTCTCTTCCCATGATTTTGTTAGG
GCTTGTTAGACCATGAACTTTGTTCAAAATGGGTTTCGGTTGCTTATGTT
GTACTCCGGGACTGCGCTACCATAGGCCCAGTGCAAAAACAATAACGTTT
TGTTTCGAGGTGGTGGCTCGCGACAAAAACAATACTGTACAATAATAACA
AAATTTTGTTACTGCAGGCGTCAGAGGGCGCGTTTGGGCCTAGAAAACCG
CCCGATAAACAGCGAAATTCGCGGCCAATCCGTCGGTTCGTCGGGGGAAA
CACGCCCACGGAAAAAGGCAGCATAGGATATCGCAAAAACGTATTCAGCA
GATCCCTCTGTTTGGTGCGATTTTGGGTTGCGTCTAGATACAGATTCACG
AGTTCACAAAAATACTTCTTCTAGAACCGCTTCCGGCTGCGCGTCGCTGC
TTTCAAGCCATGAGTACAGTAGCCTGTGGCGGTTTCGTAGGGGTGCGGTC
GCTCGTGACGAGCGTGCGCCGCGGATTTCCACACTGATCGCCAATTTATA
CGCGGGAAAATGGTGCTCAAAACGTTATTTGTTTAGCACCTCGGTTGATC
TCGCGCTCCAAGGCCCCTCTATGTACTGACAAGCTGCCGAGAATATACCC
ATCGAGGAGTTCAAGCTGCTGTGACTTCGATAAGTCGGACCGTTTGCTTG
CTTGACAAGCTGCAGGGAAGACATCCATCGAGGAGTTGAAGCTGCTGCGA
CTGAGATCAGTCGGCCCCTTTGCAACTCGTCTCCCTTGAGACTTCGCCCG
GGGAGGGAGAGATGTGTAGCGTACGGCAGCAAACGGGGGCACCGCTATCT
TTTTATTTATTCAGGAGTTTGACACGTGGGAAACACACAAATTGCAACTT
TGGCGCCAAAAACACCACCACAGAGTCCCCGAGGACCTCCTTGTACCGGG
ACGGCTTCCGCCCAGCCTTGCGTTAAGGCTGTCTTGCACCGATACTGCGC
TTTGTACACTGTATTCCGTGCGCGATTTTTGCCTTTCACGCATGGCCTTT
TTGTGACTCGGACGAGGTTTCGGGTGGGTGAATGGGCTACGTATGATATA
GCGGGGCGCAACAACGATGAGAGAGAAACAGCAGCAGCCGCAGCACCAAC
ACCGATACCAACGTCGTCGACAACTGCAGCAACAGCTGCATCAACAGCAG
CAACTGCTGCACGCAGGCTCTATACGGTAGTCAAGAAGGGAGGTATTGCT
GTAGGGTACCAGTCCCCCGCCGATTTGCTGAACTTCGTTTCTCGCGCATC
TGTACAGCAGCAGCAGCGGCATTAACTCTAGCGAACGAACGGCCCTCGGC
ACATCGGTCGTTCCTTCTTTTCCGTTTGTAGCGATCTTACAAGTCGCGGG
CGAAATTATTCCGCGGCAACGCTCGACGGCGTTGAGTGTGCACGTCATCA
CTCCTGCCTCATTCAATACCACATCAAACCGTATCCGATACCGCCGTATG
TAGAATCAACGCAGGTGAACATCGTGCTGCTGTAACACCCCTCCCCTTGA
TCGGTCGATGAGCGGCCCGACGTGGGATGCAACGTCGTTGCTTTGTTCGA
CGACAATCCTCCTCGTCAGGTGACGCCCCTCCCCCCCCCCATCCTTTCCC
CTCCTGGCTGTCGGTCTCTTCTCTTCTCTCCGCGTCTCGTCTGTCCTACC
GCTGTGTATCTGTCTGCATTTCTGTGCCCCTCCACCCCCCACCCCTCAAA
ATATCCCCGATGTACGAAATGTAGGTGAACATCCTGTACGTGGCGCTCAC
TCGAGCGAAGCGTTGCCTCGTCGTCAACTCTTCTCTGCGCGGCTTTCTCG
CCGCCACCGGAGCGGGGAACAGCGTTTGCTTGCGAGGCGTTTCATCCGAC
CCCGGGGGCACATCTTCACGGCACCCCCCCGTCAGGGAAGACAGATCTGC
TGTCGTCTCTTCTCCCGCTAAGACACCTGCGTGCAGTCTCTGTGGGGGCT
CCGCCGACGTTGGGGGGGGGGGTGCGCGTCTCCAGGGTATTTCGAGAGCA
CAAGCGGCGGCCGCGGCCGAGCAGGTGGAAAAAGGATGTTTGTTGTTGTT
CATTTGCAAGAAACAACAAGAAAAAAACATGCAACAAAGAACACCTACCG
GTATTGTGTTTTTCATGTTGGTATAGTGCACCCCTCTTGCTGGACTGGTT
GGTTGGTTGGTTGGTTGGTTGGTTAGTTGGTTGGTTGGTTGGTTGGTTGG
TTAGTTGTTGGTTGGTTGATTGGTTTGCAGAGGTGCGTGGCACTACGCGC
TTTTTGTAGGGGCGGCCCCGATTGAACCCGTATTTCGGTGGGCGGCAGGT
CGGCGGTGGTCGATCGGGCCCATGCACGATGATGGGGCCTCTGTGGAAGG
GGTTGCGGAGGTCGAGGAGATCAATGTGTGGCGATATAGCCTGTGACACC
TGAAGCATACTGTCACAAGCGCCCCCAGACTGCAAACAGTCAATCCATAC
GAGTACAGTCGCGCCTCGTATGACATATCTGTCCGCTCTACCTCTCTGCC
CTCCTCTCGCCCCCCCGCAATGTATCCACGACTACCCCCAAATCGCTGCC
TCCAGGCAGCAGGCGGGAGAGGATTTTCCGGCTCTGGGCCCAGAAAGGTA
GCAGGGGGCGGGCTGCTGTACGCCGAGTCTGGATCGCTACGGCCGCTGTG
CTGCTGGTGCGTGGAGGGCGGCGGCGGCCGTGCGCCCGCTGTTGCTGCCG
CTCTTGCGGCTACTGCTGTCGATGCTGGTTTCGGCGCCGGTGGGGCCAGC
GCCATTGGCGTACTCATCGAGAGGGAGCAAACAAGTTCGAGGTGGGCCCG
ATGTTTTTTTTTTTTTTCTTCGTGTCGTGATTTTATTTTATGTGAAAGAG
GGATCTATCTTCGACAGACTTACGCTCGTGGGAGTGTACCCTTAATCAAG
GTCACCTCCATAACACGATGCCCCGCTATTTGAGGCTCTTAGTTTAAGTG
GTGTCCGTAACAATAAGTCATGGGGTGACCGGAACCCAACAGGTTGGGAA
CCAATCATCGTCTCTCTCCCTTCACAATCTTCTGTAAGCTTGTGCGTGAT
TGCGCGGTTGCGCTATGTACGTCTGCCACGTGCGTCAACGTTCCAGAAGT
TTCACGAGGTCAAATCACCTGTTGTTCGTCCCTCGCCATTTACGCTTTTC
TTTTATCTTCTATCTTCCTTCGAAAATGAAAACTCGCTTCAATGCTGCTA
GGCGGGCATTGAACCCGAGCCTTAGACCTATACCGCCGAAAAGCAAACTT
CTCAACAACGCCATGCCGATGTGAACGAAGTGCACCCGTCATCATGGTCA
CCTCCGCATTTGTTTCTCGCAAAATACAAGTGGATGCGTCGTTCTGTCCG
CTCGCCGACCTCTGCTTGTACCACGGTCGGTCGGTCTTGCTCGCGTGCTA
GTTACCGTAGTCTGGTCGTTGAGTGAGACCGACCAGGTAGAAATAGTAAA
GAAATAAAGAAAAATGCTCGGGGAGGTGCTGAATTTTTCCAGATATATGA
AGGTGTTTTTATTCCCGGCCGACATATGAAACCCTCCCTGTAAAGAACTC
AACACATCCCACGGAGCCCTTCCCGTCTCGGGTGGGTCTTATTTCTTTGA
TGTTATTTGATTTTTCTTAAAACAATCGAGGCTGAAAAATCGAAGTTTCT
TGTATGTTCTTCGAAGTGTCGTTTTTATTAAAATTTTCTACAACGTCTGG
AAGGTAAACGTACTGGCAAATAACGAGAGCGCGACACCTGCCGCAGCCCT
CTCTCATCCAGCAACCAAAGTTACCTTTCATGTCAACTGGCCAGGGCCCA
AGAAATGCTGCCTAGATAAACCTAGACCCCCAGTGGAAATATACCGCTGA
CATCACCAACACGAAGGAGGAATTGAGGCTGCAAGTTTGTTAGTCTCCTT
GCCATCATATCACAGCTATTTTTCTGCCTAAACTAGTTCACTTCCCTCTT
GCTAGCCTACGGGATACGAGATCTACATCTTCCAAGCTATTTCATGTTCA
CAGCTTGAACGTACTCGACCCTTCCTTCCATGTCCCTTCTCTCTGGATAA
TCCTGTCGGGGATCGTTCCCCCGGCGGCTAACGTAGTGGCCGCCCCGATC
CTCAGTGAATGCAACCCTAACCGCTTGGGATCGTCCTCTGCCTTCTGGAC
TATCTGACGCAAGGCTTTGAAAGCCTTGTGGTATCCCAACACCTTCACTT
CCTTACTTCTACTGCAACGAAATGAACACAGGGGGGCGCTCTCAGGCAAC
GAGAGATGACAAGTCATTAGCTTCACCGATACCGCAACGGCCCCGCCGCT
TGCGCCCACCGCAGAGCGTGTACCATGTGCTACGTCCCGGACCCGAACGA
CGTATGAACCCTGTTCGGCTTGGTCCCCTTTATGCCCTCGGAACCTCACC
CGCACCGTCGTGGCCTCGTGCCAGTTCAACGGTGGCAATGGTTTTTCCTC
GGCAAGGAACGTGACATCGTCTGTACGCAAGCAATGCATCGGATGAAACC
CCCCCGCCGCCGACGCGAAAGTCTCCTCTGAACGTGCCACTCTAAACAAG
GAGAGGGCGAGGCAGAACCATAAAATTCTCCCCCCCCTGCCCCCACAACG
GCACCAGAGACTGACCGCTCAGTACCACTTCCCACGCCACCGGCACGCGC
ACCCGCCTGGGTGTACCTTCTTGGTGTGTGCTCCCAAACCTTTGAGTTTG
CGGTTGATAAGTTGCGAATCAGTCGGAAGTTCTACCTGCACGTTAACCCG
ATGGAAATATTTAATCGCTGCAAGCTTTCCAGAAACGGTTTTGGTTAAGT
TGCCTTTCTGGGCTCGACACCATGCCACAAACTCCATCAGCGCCTGCACG
AAGTCTGACTGTGTCTGCCGGCGAAAAGCGCACCAAGACCTCCAACTCGG
CGCGTAAGCTCTCTGAGGCGACTCCGTATTTGATCCACGGACGTACTGGC
GTCCAAGACTCCGGAACCAAGATCGATGGCCGCTGGGCTCAAGACCTCCT
TACGCCATGCAACGTCTGGCCAGGACGCGCGAAGGCGAGCGTCAATAGTG
TCAGGTTTCCATCGTGAAATGCCATCTGCAATCGTATTATCAACTCCCTT
TCACGCGCAGTGCATCAAAGCACCATCCACTACCCATCTCTAAGAACCCA
AGTATATACATGAGTGCGCCTGCTCCAGGCTCCTTCCCTCCTCTACACTT
GTTCACCCAAGTGACGCTCGACGACTTATCCCCCCTCATCACCGTGCTAT
ATTTCGTGTAAGTGGGAACCAAGTTGGACTCCTGGGTAAACACGAAGGCG
TCCATCGCCACCCCAAGCAATTCCAGCCCGTCAATGCTCAAGTAATCACG
TCCGCCGACTCTTTCACGAAACCTTGCGCGAACTTCTTCATTGGAATCGA
ACCGCCACCACACCCCGGTGTCGAGACCCGGCCCCAAAAAATATCCTCCG
ACCGCATCGCCTGATGCGTCGGACCACAAGATACAAGAGTACGGTTGAAA
GAACCTGCGTACCAGAAAGGTCGAAAGCACTTTCGAAGGTGAACCCAGTC
CCCCTGAAATCATCAAATTCCAGAACCCCACGTCGCGTGGAATTCCGATC
CTAGTCTAATTTGCTTCGGCCGGAACTGGTGATCATCGGTGCTTCGAGAG
CGTACCGGTGCCAGTCCCAACTGGTTAAGCATGCGGCGTGTAATGTACTT
CCCCGGCCTCACGACTTCACACAGGGGCAGTTATTTCTCAATCAGTTTTC
TCAGGTCAGATTCAGTGGCGAAGAGCCGCGAAGATGGCTACTCCCGCAGC
GTGGTGCGAAGTCGCTCTAACTTATCCTTCGGAACTAAAATGGTCATGCC
TACCGTATCGATATCCCAACCGAGAACACGCAGCCGTGTTAGCCACGGAG
ACAACTTGGGCTGAGACAAAAGGGGGGGGTCTATCTCTCCTCGCGAACCT
AATAAGCGAAAATGGTCAGACGCACACGACTCCGACGCTTTCTTACACCG
CTGCCCATCCTGTATCCACATGACCTCTACCAGAATCCGATCGTCAACGT
AAACTTGATGAAAAATGGGCTTGAAGGTGTGCTCCCGCTTCAAGGTGGAA
TGCGATAGTCGGGGGGAAAGGGGGGCGGTGCCTCCCGTCTACTCGGATCT
GGAACGTCAATGGGTTTCGTGGCGTTTCGTCCTTGCTCAGTTACTACGGC
GGCTTGAAATTATGTGTGCTGATGTAAGTGCTCTAGCGCTGCCGTAAGGG
CGCAGAAATTCCCGGGTGAGTTGGCCCACCCAAACTCCAATGTACGATCA
ACGACAACCAGGTCCCCGAACACATACCCGAAGGAAGGCGCGCCTGACCG
CTCGACCGACACCTGACGAAAGGCACGAGTCACATCAATCTTGCTCATCA
CGATGCGCGCAGAAGCACCAAACTTGGATCGCAACCAAAGAAAACGCCAG
ACAAAAGCACGCAATACTTTCCCGAGCTCGACTTCCGGGGCCGATGCAAA
ATCTGTATCGGCATTAACGCTACTTGCCGAAGAAGACTGGTATGTGAGAT
CGTGTATGATGCAATTTTGTTTTGGTGATACGACTACCCCCATCGGCGAA
ATCCGCAGGCCCTTGATTGATTCTGCCATGCTCCCTGGAAACACAAACGC
CCGACCGAAACGTACGTCGTCGAATCTTTTCTGCAAAATCTTTTGAGAGT
ACGGTTCTGCACTCCTGTGGTTACCGTACTGCAACGCCGCACTAATGTCA
CCTGCCCCTTCAACCGGAACTGCGGCACCCTGTTCGATAATTGCAACTAA
CTCCACGCGCGTGAGAATCCCTTTCATTCGCCCACACCAAAACCGAACAG
GCTCTGCCCGAACCCGCGGTACCCCGATGCCGTTTTCAGTGGCAAATATG
CACTCGAATCGTCCCTGATGCATATCTAAATAAATTGCGCATTCCTCGGT
CACCCGGCCAAGAACACCAACCCATGACGAACCGTTCTGAACGGATCGCG
ACAGATCATGTAACGAAGAAAGACAAGCATGTATATTACCAACCCCACCT
CGGGTCAACACCGTCACCGCCCTGGGCTGCAAAAGCGCCGCATCCCCTAT
CGGGATCGCAGCTCCGGCAGCAGCAAAAGACGGCCCTCCTCCTTCACGGG
GAAAGGGCCCGTGGCCCTTTTTGTCCCTTTCTCGGAAGCCGCGCCGCCGC
CGCCGCCACTTGCACCGCCGCTGGTGCCAACGCCTCCGCTGGCCGTGGCT
TCCTTCTTCTTCTTCTTGATGGCGGGTGCGGGGGAAGCCGCCTTGCTTTC
CGCCTGCCCGCTGCCGGAAGCACCGTCACCGCCGTCACCAGCTGCCTCCC
TCTTAGGCGAAGCCTTGTGCACGTGGGCGAAATTACACCGGTTGCCGAAT
CGGCAGTCACCAGAACGGGCGAAGTGGCGGCACGTTCCCCTACGCGCCCC
CGTCGCCCCGCCGGTGGTCCCCCGGCTCCCGCGGGTGGGTGAACGAGCCG
CGGGTGTCGGGGCCTGAACGGTGGAAGTGGTCAAGCCACCGGCTTAGATG
TAGGCCCGGATATGTGGGAACGTGGGGAGCGGCGTCGGCGGGAGCGACGC
TGGTGTCGGGGGGGAGGGGTTGGCGCGGTGGATCTGGTCCGCGAAGACGG
ACACGGCGCGCACGTACGCCTGCATGTCCTTCACGAGCAAGGACTCGACA
ATGTCACGATTGCGGTACAGCTCCATGGCTGCAAAATTCTCGCGGGTGTG
CCGCTCCACGAGGTAGCTGGCGTCGGCGAACGCGCGGGCGATCGTGTCAA
CGCGTCCTTGGCAAGTCTCGGTCGTCGGGGGGTCGTCTACCACCCCCCTT
CGCGCGCGATGGTGATGAATGCTTCCGCCATCAGGCGCAGGTGCGTTGCC
ATAGGAATCGTAGTACCGGCTGCCCCGCGCGGGGTGAAGGCGGTCGGGCG
GAAGTTGCGGCATTGCATGAGTGACTTGGCGACCTCGTGCGTGACTTCGA
TGGCGTCAAACATGTATCCCTGGAGCGACTGGCGCTCGATTGGTGGGGGA
AAGCACCCGGAGACCATCCACCATGTCCGAACGCACCCGGAGCTCCACCC
CGCGACGCACTGGTCAGTAAACAGCTTCTCTATCCGCCGCTGCGTTTGCG
ACTGTCCTGGTCCCCCCCCGTATGGGCCGAAGCCACGTTGCGGGGTGCCC
AATACCTGTCCCGCCCCGTGAGATGGGGAGGGAAGGGCACCGAAGGCGTT
GCCGGCGGCGATGCTGTGGCCCGCTGGACCGAACCCCGCCATGCCCCCGT
GAGCCAGCGGGACACCCCCGAGCGCACTGCTCGAGAGCATCCCCGGCGCT
CCCGCATCCCCACCGGCGGGACCGGCGACCTGGGAGCCGCCGTTGGCCCC
TCCCTGGCGGATGGCCGCCATGAGCTTGGCCATCTGGGAGTCGAGCTGAG
CAGTGAAGTCGTCGCGTAGATCCCCCACCGTGGCCGAGATGTGAGCACGC
TCGTTCGCGCTCTCCTGCGCCTGGATATCGAACTCGTCCCGTGTAACCCC
CGGATGTCTCAGTCGGAGTCGCCTGGATAGGCCATAGGAAACCGAAGTAC
CACCTGGTATTTGTTCGATGCATCCAATTGACGGTGCACAGGGGCGTGGG
GGTCGGGGCGAGGGTACAGCAGAGAGCCGAGTAAGCATAATGAGGGTGAA
ACATAGCGGCGGGTTTATTGACACGTGACACTATCGTGCGCCGGCACGTT
CGACGCATTAATCCGTGCGTGATATCGATTGCACCCTCGCCCCGCTAGCA
TATTTACTCGTGAGTGATATCGTACCACTCACGCCCTGCCGCTGCTTTGT
AGTTACTCCCGACGCCCGCCAGAATGCACTGGCATGTTCGACGCAATAAT
CTGTGGGTTTATGTCGTATGCACCCACTCCTTTCCGCGGTTTCACAAGGG
TAGTCTGTGGGTCATGTCGTATGCACCCACTCCCTTCCGCGGTATCACAT
GCTCCAGCAGTGCCTACGGCATAACTAAGTCCCGATGGGTGTATGTGGGA
CGAACACCATGTATGTGTGCACTCTGTCGTGGTTGCCTCTCACGGTTGCG
ACTCCCCTTATTCTGATTGCAAGATTAGCTCCGAAAAAAAAGCTCAAGGG
AAAATAAAATTCCTCGCCAAATTAAAATCGGAAAAGTGGGTTCGCGATCG
TGAGATAACGCGGAATTTTTCTGTCGCTTTGGAGTCACGAATAAAATGTC
TAAATTTGACAACTATCCTATCCCGCGTGTACGCTCCAGCGTACCGGGAC
AGGTTACCCCGAACCGGGTCGGTTCGTCCTGCCTATGTTGTCTCCACTCC
GGTGGGAACTCAATTGAGCGGTGTTGTCACTGCTCCGAGCAAGACCGTAA
ATTTCGATGAGATGTGTCATAAACTGGTTCACAGAATCTGACGACCGTAC
GCATTCCGGGAGGGTGAGGCCGTAATGTTGTGCCCGCCCTGCTGTTTATC
TTCCTCTCACTAATTATGTTGCGTCTGCCTATAATAGTTGCGTTGCCGTC
GACCTGTCGGTCAAGCCATGTCGCTCACTGACTGATACATCGAAAGTGCC
AACAGATTATGAGAGGCGAGACCGTATGGGTCGAACCTATTTTTCACACC
TGTGAGGAACACGACCTTGTTGGCCCCATTTTTATTTAAGCGCCAGCCTA
TGACAACACCACTGCGTGGTGTGAACTTGATAACTACGTGCGTTCTCCGT
ACTGCGAGACACCCGAAGTTGTTCGAGCCTCACTGTATAGGTTACTTCGG
ATAAGGGCTATTTTTTCGTTTCGGGCTCCTGGGCGCTTCCGATAATCAAG
TATGTTGACCATGAAAGAAACCAATATTTGACGTACCTTATTTACTTGTT
TAAAGACTGCGTGAGGGCAAATTAGCTGAAAAAACACCAATGCCCTGTTT
AATCAAGTGAAAATATATGGTATCTTCCTATCTGCTCGAAACCAAACTAC
TCAACGTAGCACGAGGTGGAGTGATCCAAGTAGTAGCTTGGGTCGGGTCC
GATAACGCATTGAACCCCTGCAGCACATTGGTCTGGTTCTAGTTCGACGT
GCGCAAGCACCCGTCCCTCGCGGTTAGGGTCCACCCGTTGCTGTGAGCTG
TCGCTTTGGTCGTGCCTCCGGCAGTAAGTGATTCTGCAGAGGACGTCACC
GTCATCGAACTTGCCACCCATGCGCACAAAACATGCATCATGAGTATGCT
CACAGCAGAAGGCACAGCCTCTGCATTCGACCTCAATTTCTTGTTCCTCT
TTCGGAATGCCTTTGCAATTTTCGATTGCGCAGATGAAGTGTGCTTCCTG
CCAAGCACCGCGGCTAACGGCAGCTTTATGAGTGCTCATGCTTGTGGTGT
CGTGGTACTGCTGTACGGCCCTAAGCGTTGATCGTGTGTGATGTGATACG
GTCTTCCACGCGGAGTTTACTCACCACGACCCGTGTTGTGACTGCTTTCG
TGTAGATATCAAGAAACAAAATAAAGTGACTCGGTTATTGACCGCTCCGA
GTAATTTAGGGGCCTTGTGGTGTTTAACCTAGTGTATTCTATGTTGAGTG
TTTCGTTTCGTGTAGATATCAAGAAACAAAATAAAGTGACTCGGTTATTG
ACCGCTCCGAGAAATTCAGGGGCCTTGCCGTGTTAAATCAAGTAATAATA
TGTTGAGTGTTTGGTTTCGTGTAGATATCAAGAAACAAAATAAAGTGACT
CGGTTATTGACCGCTCCGAGAAATCCAGGGGCCTTGTGATGTTTAACCAA
GTAAATAATACTCCGGAGTATGTTGAGTACTTTGGTTTCAAGCAGATAGG
AAGATACCATATATTTTCACTTGATTAAACAGGGCATTGGTGTTTTTTCA
GCCAATTTGCCCTCACGCAGTCTTTAAACAAGTAAATAAGGTACGTCAAA
TATTGGTTTCTTTCATGGTAAACATACTTGATTATGGTGAAGCGCCCAGG
AGCCCGAAACGAAAAATAGCCCTTATCGGAAGTAACCTATACCGCACGTG
TTACTTTACTCTCACGGTTACACATTTTCATGTTTTGTCCTTTGTGATTA
CCGTTTCCGTCGACGTGTTATTCAAGCCATTGGGCTCCGTGACCGACACG
TCGAACGTAGAAACAAACAACGAGACGCGAGGATATGGGCCGAACCTACT
TCTTGCACCTGCGAGGAACCCGGCCTTGTTGGCATACTTTGGAAGTTGTT
GTTGTTGATTCTCACATTAGCTCACTACCGCCGCCGTCTAGCCCGTGGTC
ACAAACCAGGCACATATCGTGCTAGGAGGAAAAATAAAAATAAAATATAT
GGACTATGATCACCCACAGTCAAATCAGATATGGTACCGTTGGGGTTCCA
TCTGTGGTGGCCAGAATACCAAATAAATACAGAAAAAAAAAATAACAGGC
TCGAAAGAATAACAAAAATTGGAAACAGTCCGACAAACAAAAAATAACCA
AGACAAACCTCAACCATAACCATATACTTCGAAGTACTTCATACATCGAA
CCAGGGCCCAGGGCCATGACAGACCAAGGCAGACGCAAACCAGGGCGATG
GTCCAGTAACTACATGATCAACAGACGAAAGACAAAAAAGTGCCATCGTC
TGATACCGAGTGTGTTTTGTAGACATGGCAATACGTGCGTCCTCCGTACC
GCGAAGACATCCGAAATTTTGAAGCCTCGCTGTATTTCGCCCGTGTTATC
GATCCCGCCGACTAAACCATTTTCATCGGCGTATCATATACGAAGTACTT
TGGCATATGTTTGCGACGTAGTCGCCCTCACGACCCCGACTGGTGAGTTG
TCGTGCATATTTGCGACTACTACTGCTGCTGTGTGGCCCCCTTGGCTGTT
GGTTGCGTGACCTCACAACACAAAAACCGCGTGGGGAAAAAAGTGATTCT
GGGTCATGCGACAAGCAGACAGTGGGGGCTCATTGTAGCAGGATAGTTGT
TCCTGCGTTGTATAACGCATACGACTGCTGTTCTCCGCCGCCGTACGGGC
GGTGACCATGTTCGCAATGCTCTTGAGTGGGCGTTGGGTGATCCTTTTAG
GCGGTCCGTATGGCCGTGTATATTACGTGCATGCTTGTGCATGGGCCTGT
CGCGGCATGTTTAAACTTGTACAGCGGCGATCAGTGTCGACCGGCCTTTG
TTTGATTCCATCATGTCCGGAGGACACCCGTATGACTGCTGCACTCTGAT
ACCTAGCACGCACGAAATTTGAGATGCGCGACAGTTGACTGCAGCACGGC
TGCCAGCCATGGCAGCAGTGTGCTGCTCTCACTGCTGTTGGTACACTGGA
TAAATGTCCCTGCCGCTACGCCTTTGTGATCTGAACTTGGGAGGTGTCGA
TGCGTCTTACACTCTTCTGCCCGGACCACATGGCCTCTGGCCTCATATGC
ACCGGCATGTGATGTCTATGACCGCTTAATATATCCGTAGCAACACACGT
ACGCACTGCGCGATCGCGCGTAGTGCACCTGCGCTGCGCCAGCAGCGCGT
GTATCGTTGTGCGCTGGTGTGTGGCCACCGAATGGTAACATGCACCAGCA
TGTCATGTCTCTCCGTGATGTGCGACAAAGTTTATGTAATGTGTATGATC
GCAGCATGTCAAGTCTCTGTCGAATGTGTGACGATTTGACAAATCCGTGG
TAACATACGCACGCGTTGCGCCATCGCCCGCAGTGTACCTACGCTGCGCC
AGCAGCGCGTGTATCGTTGTGCTCTGGTGTGTGTTCCACTAAGCGGTAAA
TGCATCGGCCTGTCGGGCCTCTCTAGGATGTGCGACAAAGTTCAGAGGCC
GCACAGCGGCGGCACTTCTCCGTATTCATCATGATCATCATTCGACGCGC
ACGTCCGCACGCGACCACACAATTTAACCGGCACGCCTAAACAATATTGA
ATGCGGTACTCGTACCGACTTGGGCGGGCCTGGTCCGTGGCTGGATGATG
TCGGGCCGCTCACACGTCGTAGCCTCGCGCAGGCTCGCCCTTGGCCGGCT
GAAGCGAAAAACGACAGCAACACTAGTTCCCGCAGAAGTAAAAGTTGAAC
GACAGACAGAGGTAGCAGTGCTGTCCGCTAACACGTGTAAGTGGCGCTTT
TTGTTCTCAGAGTGAGGCTCGTGGGTTGATCCCGATCCTTCCTCCCTTTG
CAAATAATGATAGTATTATGATGAAATCTCCGTCTCTCAATAAACTTTAC
TTTCGGTTTCTTCTCCCCCGTGGTTGCGAATCATACGAAAGACCCGCCTT
TTTCAGACAACTGAGGTTCGAAAAGAGAGCTCCTACAGCCCGACATTTTA
GTTAACAATGATTTGGCAAAAAAATAAACACGGATCCACGCCGAAGCGTC
GTTCTAATCATTGACTTTTGGCGTCAATTATTTCGACATGTCAAACATTT
CGGCACATGAAGGCAGCATTTGTCGACTTTTTTTTCAAAGAGTGTGATCT
GATCTGCAGCCCAAAAGTGTGAGCGACTTGGCTCACACGTTTTGACACTT
TCCTTGATATTTTCTTTGACATCCCCAAGCGAGGCCGAGACACTGCTGGC
AGACGGTCCGGCAGTGGTGGCTCACCCCAAAATATAGCCTCAGGTGTGGC
TGTGCCATGACCGACAGCAGAAAGCCATGATTCTCCCGGCTTCGTCCCTG
AATTCTCGACAGCAGCAGCAGCCAGCTGTGGTGACGGAGAGTAGATTTTT
TTGTTCTTTTTTTCAGGGGCATGACTGAAAAGTCTGCTTGATACGTGATA
GTAAAACCTTTTTTCCCGTCAGACCTGACGCCCCACAGTCCCAAACGTTG
GCCAAGCCTGACAGAGGATCGGCATATTTCGCTCGCCTTTTATTCGGCAA
GCATGGGGTGCAAAAGATAAGTGTTGTGCTGCTCTGAAAAAGGGGTCGAA
AAGTCATTACGTATTCTCTCCACAGCAGGAACCGGGGTGCGGGATACTTG
GCATCTCTTCCTCGCTGCGTACGGCACCCAACGGCCTCAAACCTTGGCCA
TTTCCGACGTCGAGGAGCCCACCTCTCTAGGGGTGAACTCGGCACCGAGT
CTCATCCCTTTTTGGGCGAGATACCATCACATGTTTGGAAATGATGTCTC
GGTGAGCAAATGAATCAAATGACCCACACGGACAGGCGGCGAAACAACAC
CAGAAAATGAGGCAAAAATATTGAGGTCTGCGCCGCCTGTTTAAAACGGA
CGATACGCATGTCATATAAAGTGACAAGCTTTGTGCCACTTTTTTTTACA
TGAAAGTTCATGATTAAAACGCCCCTTATCGAACAAAGGTAGTATTTCTT
CCCTTTTTCTTGGGGGGGGGTTCTGTCAAAACTGACCTGGCACCAGGGAA
GGGGAGGACAGGGGATGCATCGAGAGCGCCCCCGATTCGGCCCGATTCGG
GTTGGCCTTTTGCACCGATGACAGCAGTTGATGTGTGTCACCGACATGTC
GCGATAAAAGCGTGCGAGGTTTCCTGCAAACTACACTTCTGAAGGCGTGG
GTTTACCCTCCGTCGGAAACGGCCAAGGTTTGAGACCGTGTCGCGTAAAG
CGTGCCGGGGTGAAACGTGTTAAACCACCCCCCTCTGTCACACGAAAGAG
TCGAGACCTGGCGCTTGGTTGTTTAGTTGCATTTGTTCGGGTGGTTCAAG
ACGTTGATTGCGACGCCACCACTGCACCTTTTCCTGATCGCTGATTGGTT
GTAAATACATTAACTTGCGTCACGCAAGGGCCTGGCCACTGCAGGTGTAC
GCCGCCCCGCCCCCACCCGCCAAACCGACCCCACTACTGCTGTCGTCGTG
CCCGATCGCTGATTGGTCGATTGATCGAGCTCAGGTTTCCGTACGCAAGA
GTTCTGATGCAAGGCCTGGCCGTTCCTGCAGGATGATGCTTCGTCGTCTC
CGGGTAGGACACTCCGAGAGGGAGAGAGGAAAGGAAGGCTGTTACTTTGT
ACTCTTAAGACAAACTGAACCTGTTTACCGTCGTGAGCCGCCCGCCAGAA
GGTTGCTGCTGGCGTGTGCAGTTTACACCTCGACTTCTGCCTGCGATCTT
CCGGAGAGACATTTCGGGGTGTATGTTGCATGTCTGCTCGTACCTCTGAG
CGTGCAAGGACCGGTCTAGGATGAAACACATGGTTGTGCTGGGAGTGAGC
TGTGGGGTGTGCGCGAGCATTTGGTGGGCGGACGGAGCGTATCCTCAAAT
GTCGCTGTCATGGCGCGCGAGGGTACAATACTGCAGCAAGGATCCTGGGT
TCGGGATGTTTTTGATCTCTTGGCATGTTCGAGACAGAGTGCACACAGAG
CATGCCCAGATGGGTGATGGTATTCACACCCAAAACGAACGACAGCAGCA
GCCTTCGGCACACGGCAGTCTTGTGCGGATCGGGTTGAGTACATGGCTTG
ATCTGCGCAAGGTTTGCCCCCCCACCCCACCTTTGGTATTTCAACACTGA
GTGTGGCATCGGCGGTTCGACTTTCGGGGGCGTCGAAAAAATATCCCCCC
CCCTGTCGTCAAGTTTGCCCCGGGACGATCTTTTCCGCGAGGCGAGGGTA
TGTCTCTATTTCACTAGTATGTACAAAACGTTCGCGTGGAGAAATGTGTA
TGGGGATGTACCCAGAAGCGTGACGGTGTGCACCACCCGAAAAAAAAGTA
CTCCATCTGGGGTCAAGTAAAGGGCTGAACAAGGAAGGAAGCACATTCCC
CATACCAAAACACACCCACCCGGTGATGAAAAATTTTAACACCCAAAATG
TAAATACTTCGAAGTATTAGAAGATCACCGCGGTGTGCTGGTGTGCTTTG
TTCTTTCTTACAGAGTGTAGCTGTCAACGATTTGGCTTTGGTCCTGCTGT
GAGTTGACTTTTGCTTCTAGCTGTATCATACCAG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig883:15141..45624- >mRNA_P-littoralis_Contig883.1.2 ID=mRNA_P-littoralis_Contig883.1.2|Name=mRNA_P-littoralis_Contig883.1.2|organism=Pylaiella littoralis U1_48|type=CDS|length=4965bp|location=Sequence derived from alignment at P-littoralis_Contig883:15141..45624- (Pylaiella littoralis U1_48)
ATGGCGTCAGCATCATCGTCGTGGGGCAGCCTCGGGCGCGGCGGAAGCGG
CGGCGTCGGCAGCTGCGGCGGAAGCACGGTAGGCGGACGGAGGTCACACG
CCCCACGCAACACCGGCAGCGACAGGATGATCAAGCTGTCGCTACATGTC
GTTGGCCTTCAGTTCCGGGAAAGCGACAACTCTCAACCATCGTCCGCGTC
AACAACAACAACAACAACAACAACAGCGAGCACCTCGCCGAACTCACCGT
CAGGGTTGGACCAGCAGCGTCAACAACCGACGACTCCGACCGTATCCGAG
AACAACAACAGCAGCAGCAGCAGCAGCAGCAGCGACATTAGCAGCAACAC
AGCCTTAGACCTAGAGCGCGAGCCCGACAACAGCCACGACCGCAACGCGA
TTAAGGTCCTCCTACCCCCTCGTCCTCCTGAAGCACAACCACCGGCGGCG
GCTCGCCGGTCCTCGGCCCCCTCCCGCTTCATCGGTTACATTCCTGGAAG
GATCGCCATCCTGTTGGCCCCGGTATTGGACGCCTCACCTGTCGTCGCGC
GCGTGGCCCTCAAGACCGTCGAAGAGGAGGGGGAGGGAGGATATGCACGG
GGTCCTCGTAATACGCTGCCCGCTCTGTTGGGGGTCCAGCCTCTGAATGG
TGCTCGCAGGGAGCCGTTTTTGGGGTTGATAGCGAAGCTAAGGGAGGCTG
CCCAAAAGGAGGACAAGCGGCAACAGAAGAGGCGCAGCGAATCCAAAGCC
CACAAGGAACGCTTGAAGTCGAAGCAGAAAACACTTCTCCTGGACTTTGG
TCGATCCTCCAGCGCTTCTTCGAAGAGTGGCGGGGGCGCTACCCCCGTGT
CCGCGTCCGGCTCTGACCGGGGGGGAGAGATGCTGGAGAGCATGCCCTGG
GAGGTCCTGTGGCAGGTGTTTTGCAGCCCCGGGATATCGTCGCGAGAGCT
CTTCGGTCCCATCCGCGGGGCCTGCGGCAACTGGATGCGAGCGGTGGACG
CCATGCCCTGCGCCGCGGCCCGGAGAGAGGTTGCCAAGGTCTGCGCCGGA
GAGCAGCCTGACGACGACGACGAAGAAGGCAACAGCGACACTGACGGTGA
TGGCTCGAAGCTGGAGGGGGAGCCTGCGGCGTCGCACGGCTCGTCGTCGT
TCTCGCGTGGAGGAGCGAGCGAGGGTGGCGGTAGCGGGGATGCTCGCCAC
GGTCGGCCATGGGAAGGAAAGGGGAAGCGGAGAGTCGCCGCGGGGCTCGG
CAGCGGCGGTGATGGCAGAAGGGAGGGGAGGGGGTGCTGGTGGGACAAGG
TGCGCGCGCGGCTCGTGCGGGGCGGCGGCTTCACGGAGTGCGCCGCGGCG
GACGTCCTGGCGAGGCTTGAGTGGGCGGCTGGACAAGCGGACGACGACGC
CGACGACGATGACGAAGTTGGCGAGGGTTTGCTGGAGGACGAGGCGGGCG
CTGCAGCATCAGCTGGCGGTTGGGGTGAAGGAGGGGGAGGAGGAGGAAGA
GGAGGAGGTGCGGGAAGAGGTGCGGGAGGGGAAGAAGGACGAGGGGCTAG
CGGTGGTAAGAGGCGCAGGATGCTTCGGCACCTCGACGCGACGCGGGTCC
TCTGCCGGGAGTGGAGGCTCGTACGAGAAGGGGGCGTGGCCTCTTCCTCT
CGTCGCGATGCAAGCGCAAGCGCCACCGGTAGCGGCGGCGGCGGAGGCGG
ACGCGGCAGCGGCGGCGGTCACGGCGGTCGTGGCGGTGGGAGTTGGAGCG
GGTGGGAAGCGTTCGCGTTGGCGGTTGCAACGTCGGCTTCCCGGGACCGG
CTGTCGCTGTGCTGCTGGGCGGTGCGGCCCCTGATGGGCGGAGACTCCGC
CTCTGCCCCATCCACCTGCAGCGGCGGTGTTGGCGGCAAGGAGGAGGAGG
GTCAGCGGCAACGGCGCCCACGAGCACCGCCGCCGCCGCCCTCGTGCCTC
GGCCTTCCGAGGGGCGAGGTGATCGAGCTCCTGTGCCTCATGTTGTGCGC
GCTGAGATCTCTGGGGGGTGGCGGCGGCAGGAGGAGCGGAAGCGAGGGAT
CGGTGAGGCTTAAGGCGGACCTGCTGGTGTGCGCGAGGGTGCTCGAGAAC
TGGGATATCAGGTTTCGTAAACCCGGACAACCAGGTGGCGGCGGGAACAA
TAGTGGCGGCGGGGGGGTTGGGGGGGCTAGCGGGCTCATCGCAAACTTGA
CGGCGGAGCAGCGCAGCATCGTCTTAGCGGACGTCAAACCGGGGGGAGTT
CTAACGGTGCTGGCGTTTGCAGGGACGGGAAAGACGACGTGTCTCCGAGC
GTACGCTCAGGCGCGGCCCCACTTGAGGATTCTCTACCTCACGTTCAACG
TGAGTGTTCGGGAGGAGGCCGAGAAGACTTTTCCGCCCCACGTGGCCTGC
AAGGGGGTTCACCAGCTCGCCTTCCGGTTTGTGGGGAGGCGTTATCAGTC
CAAGCTGGCGCCGGACCTGAGGGAGTCAGACGTGCAGGCGTTCTTGAAGG
ACAGGCTCGGCGGAGAGAGCAAGATCAAGCTCGCCTCGGCGACGAGGGTG
CTGGCCACCCTTAACGCCTTCTTCGCGTCAGAGTCCCCCTCGCTGTCTGC
ATCCCACGTCAAGGCGCCCCCGCCCGACCTGCTCTTCCAACAGCAGCAGC
AGCAGCGACAGCGAGAGCAGCAGCAGCAGCGGTGGCGGCGGCGGGAGGAG
GAGGGCGGTGATAGTGATGGTGGCGTGGATGGTGTGGATGACGATGGTAA
TGGAGACGGTTACGGCAGCGAGGGAGAGGAGTACAGCGGCAGCGAGGACG
GGGACGACGCTGTCGGAAGCCGTGGTGCTGTTGGTACCGGAGGTGTCGGC
ACCGGCGGTGGCTGCACACGTAGTGGTGGTGGTGGTGGTAGTGGTGATGG
CGGCGGCGGCGGCGGCGGCGGCGGCGGTGGTAGTTTCCGCGGTGGCGGTA
GCAGCAGTAGTAGTAGTTTGCCTTCGGAAGCACCGCGATCGTCACCATCA
CCACTAGCTGCTACTGAAGCCGGTGCTGCCGCAGCTAGCACCGTGCCAGC
AACGCCGCCCCCCGGCGCCGCACGGAAACAAAGCTCCCGGCGGCAGTCCC
GTACCCGCAGCCCCGTCGAAGATGCCACCATTCTGGAGTGGGCGTCGATG
GCTTGGGCCGAGATGCAGTCCACCGGCCCTCGACGGGGGTTCGGTGAATC
GAGCGTGTCTCTCGGGATGACCCACCAGGGATACCTCAAGCTGTTCCAGC
TCTCGCGGCCGTGCCTCGGGCGGACGTACGACGTGATCATGCTGGACGAG
GCGCAAGACTCCAACCCCTGCATCGCCAGCCTCGTGCTCAGGGAGACCGG
GTGCGCTAGGATCCTCGTGGGGGATAGCCACCAGGCCATTTACGGCTTCA
TTGGAGCCGAGGACCACCTGAAGCGGGTGGAAGGCGGTGAAGTCAGACAC
CTCACGCAGGTGTTTCGATTCGGCCAGTCGATCGCCCACGTGGCCAACAG
CGTGATCGGGCCTTTGAAGGGTGAGACCAGGCCTCTGCTGGGCTGCGCCG
GAAAGGAGGGTCAGGTGGTGCTCGCCGGAGGCACCGGACTCGAAGTGTGG
AACGACCAGGGGAGCAGAGTGAAACGGCCGATGGCGTTCCTGGCAAGGTC
CGTGTCTACCCTGGTGCACGCCGCCATGTGGGCGAAGTCGCGAGGAGAGA
AGGTGGCGTGGGTGGGCGGTGCGCAGGCCTACAGCCTCGAGGCGATCGAG
GACATTTGCCTCATGACCCTCGGCCGGCCCGAAGAGGTGAAGCACCCTTT
GCTCAAGAAGCTCAAGACCACCAAGAGGCTGATCCGGTTCATTATCGAGT
CTGGAGACCGGCAGTGGGCTAGTCGGCTACGGGTGCTGGACGGGAAACAC
CCCAGCGACCTGTTAGCCGAGCTGAAGGAGCTGCAGCGGAAGCAGGTCCC
TCCCCGCGAGGCGGACACCATCCTCAGCACCGCCCACAAGGCGAAGGGGT
TGGAGTTCGACAACGTGGTTCTGGCGGACGACTTCATCGATCTGGAAGAA
ATCCGATGGACTACCGGGCCTTGCCCGCGGCCGGTCTTGAGGTCGGCGGC
CGAGCAAGAAGAGGTGAACATCCTGTACGTGGCGCTCACTCGAGCGAAGC
GTTGCCTCGTCGTCAACTCTTCTCTGCGCGGCTTTCTCGCCGCCACCGGA
GCGGGGAACAGCGTTTGCTTGCGAGGCGTTTCATCCGACCCCGGGGGCAC
ATCTTCACGGCACCCCCCCGTCAGGGAAGACAGATCTGCTGTCGTCTCTT
CTCCCGCTAAGACACCTGCGTGCAGTCTCTGTGGGGGCTCCGCCGACGTT
GGGGGGGGGGGTGCGCGTCTCCAGGGTATTTCGAGAGGGCGGCCCCGATT
GAACCCGTATTTCGGTGGGCGGCAGGTCGGCGGTGGTCGATCGGGCAGCA
GGCGGGAGAGGATTTTCCGGCTCTGGGCCCAGAAAGGTAGCAGGGGGCGG
GCTGCTGTACGCCGAGTCTGGATCGCTACGGCCGCTGTGCTGCTGGTGCG
TGGAGGGCGGCGGCGGCCGTGCGCCCGCTGTTGCTGCCGCTCTTGCGGCT
ACTGCTGTCGATGCTGGTTTCGGCGCCGGTGGGGCCAGCGCCATTGGCGT
ACTCATCGAGAGGGAGCAAACAAGTTCGAGGTTTCCGTACGCAAGAGTTC
TGATGCAAGGCCTGGCCGTTCCTGCAGGATGATGCTTCGTCGTCTCCGGG
TAGGACACTCCGAGAGGGAGAGAGGAAAGGAAGGCTGTTACTTTGTACTC
TTAAGACAAACTGAACCTGTTTACCGTCGTGAGCCGCCCGCCAGAAGGTT
GCTGCTGGCGTGTGCAGTTTACACCTCGACTTCTGCCTGCGATCTTCCGG
AGAGACATTTCGGGGTGTATGTTGCATGTCTGCTCGTACCTCTGAGCGTG
CAAGGACCGGTCTAG back to top
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