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Homology
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: D7FZ64_ECTSI (Long chain acyl-CoA synthetase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FZ64_ECTSI) HSP 1 Score: 1215 bits (3143), Expect = 0.000e+0 Identity = 610/693 (88.02%), Postives = 650/693 (93.80%), Query Frame = 3
Query: 336 TGSNYRMLDTKKASASWKSLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVGAVVETPKLLELLMGEDGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVLDP-PTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEERPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALYASKR 2411
TG +R+ + ASW SLPEMWDFL GECG+LTAIVDP+HPPDMPDGKRPPKG+ETRLTYSEMR SIG++A+AL+GLG++K+DCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIY DSESVGAVVETPKLL+LL+ E GKGLEGADGA PRFLMVLFP GK+GKELQESLNIPESIKVVTF+ECL G VLD P +ERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTM YSNVRNFKSDLK FKPHFLIVVPRLLETIWKGVQTQL AKSKGAQKAAGALT VSS RMKAARR SG VIRD++PK PEKALSAV+MG+TLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAG+RVLVGYGLTETSPVIANRVA +NTKGTTGKP+PGSEVK+AD E+GQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDK+GYFDTGD+GRFNPITGDL+VTGRAKDTIVLSNGENVEPQPLEDAISG CSLIDQVMLFGQDERFLGAIVCLNP+N+GAAGIISQ DASRYS LLGPTPLTTGP GTP+EL DAEKEIL APGL++AVM+QLK AGEERPWEQVG VIMKFEPFTTSNGLITQTLKTKRNVV ++F +EIDALYA+KR
Sbjct: 33 TGLRHRLRNYITVGASWNSLPEMWDFLAGECGDLTAIVDPVHPPDMPDGKRPPKGSETRLTYSEMRTSIGSMAAALIGLGLEKQDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYGDSESVGAVVETPKLLKLLVEEGGKGLEGADGAEPRFLMVLFPGGKNGKELQESLNIPESIKVVTFSECLDKGGVLDAAPVVERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMGYSNVRNFKSDLKKFKPHFLIVVPRLLETIWKGVQTQLEAKSKGAQKAAGALTRVSSLRMKAARRFSGTVIRDSKPKGPEKALSAVLMGVTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGVRVLVGYGLTETSPVIANRVATENTKGTTGKPVPGSEVKIADQETGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKDGYFDTGDLGRFNPITGDLIVTGRAKDTIVLSNGENVEPQPLEDAISGACSLIDQVMLFGQDERFLGAIVCLNPLNMGAAGIISQEDASRYSGLLGPTPLTTGPAGTPKELADAEKEILGAPGLERAVMDQLKAVAGEERPWEQVGSVIMKFEPFTTSNGLITQTLKTKRNVVAERFSKEIDALYAAKR 725
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: A0A836C922_9STRA (Long-chain acyl-CoA synthetase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C922_9STRA) HSP 1 Score: 721 bits (1862), Expect = 5.770e-245 Identity = 367/687 (53.42%), Postives = 473/687 (68.85%), Query Frame = 3
Query: 339 GSNYRMLDTKKASASWKSLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVGAVVETPKLLELLMGEDGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVLDPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEERPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALY 2399
G YR L + K +P++W F++ +C AIVD +H G TY+E+R I +A A LG+ CVSVFSENS RWL AEQGIM AGGCNAVRG APV EL+YIY +S SVG VVE +LL+ L+ GKGL G G PRF MVL+ GKSG +++E L +P ++V+TF E + + L P I ATLVYTSGTT KPKG +L H+N++HQ+ +NSF+R+ G +PWVGD FVSILPCWHIFERTAEYF L RGV MVYSN+RNFK+DL ++PHFL+ VPRL ETI+KG QT A++ K QK TA+S+ +MK ++G V+ D P + ++AV + L P A+KLVW K+R G+GGR+K +VSGGSSL +LEDFF+M G RV+VGYGLTETSPVI NR+ N KG+ G P G+ +K+ + E+ + V G+ G + +GPQ+M+GY N EAT V+D EG+FDTGD+GR NP TGDL++TGRAKDTIVLSNGENVEP+PLE+A+ G+ +DQVML GQDERFLG IV +NP L A G++ +A R S LLGPTPLTTG GTPQ+++DA+ +++A P +K AV+ LK RPWEQ+ ++++ EPFT SNGL+TQTLK KRNVV D+F EI A+Y
Sbjct: 72 GRGYRKLTATEKDI--KVVPDLWTFMEKQCPSQIAIVDALH-----------GGITVVYTYAELRERIVRLAGAFQALGLAPGQCVSVFSENSNRWLTAEQGIMLAGGCNAVRGVAAPVEELQYIYENSLSVGVVVEKAELLKKLVFS-GKGLNGDQGP-PRFAMVLYAAGKSGAQIREELGLPVDMQVMTFQEAITARKPLAPVRITADQPATLVYTSGTTSKPKGVILRHSNMVHQILENSFNRANGGKYDPWVGDTFVSILPCWHIFERTAEYFMLARGVEMVYSNIRNFKNDLVKYRPHFLVAVPRLYETIYKGAQTNFASQPKSKQKLVAIFTAISTLQMKLRSVVTGMVVGDKPPSPLRQLMAAVALALVSPFHKVADKLVWSKVRAGMGGRIKCLVSGGSSLAGYLEDFFDMIGHRVVVGYGLTETSPVILNRLVEHNLKGSVGLPPGGTTIKLVNPETREPVPAGEIGVVCAKGPQIMAGYNRNEEATRQVMDSEGFFDTGDLGRINPATGDLILTGRAKDTIVLSNGENVEPEPLENAVVGKSDFVDQVMLVGQDERFLGGIVVVNPAGLAAGGLLPASEARRLSGLLGPTPLTTGVKGTPQDMDDAQ-QLVANPQIKAAVLADLKRIGKGGRPWEQIQDIVVRLEPFTISNGLMTQTLKVKRNVVTDRFAAEIKAMY 742
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: A0A7S2Y0I5_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2Y0I5_9STRA) HSP 1 Score: 593 bits (1529), Expect = 1.220e-197 Identity = 301/567 (53.09%), Postives = 400/567 (70.55%), Query Frame = 3
Query: 705 RYIYADSESVGAVVETPKLLELLMGEDGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVLDPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEE--RPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALY 2399
+YIY +S SVG VVE P LL+ + + G A GA+P+F +VLF +GKSG+E++ + +P +KVVT+ E L L ++ A LVYTSGTT PKG VL H+NLLHQV NSF+R+ +PWVGDVFVSILPCWHIFERTAEY+TL+RG +VYSN+RNFK+DL +KPHFLI VPRL ETI+KGVQ +++ +K TA MKA R ++ VIR P EKA +A+ + +T PL + A+K+VW K+R+G+GGR+KV+VSGGSSL LEDF+EM G RV+VGYGLTETSPVIANRVA N G+ GKP P +++KV D+E+ +++ +G+ G IL RGPQ+M Y +NPEAT ID EG+F+TGD+G NP TGD+V+TGRAKDTIVLSNGEN+ PQP+ED + G C+ +DQ+ML GQDERFL A+ ++P L + G+I++ A+R + LLG TPLTTG GT +E+E K + P ++KAV+ ++K + + RPWE V V + EPFT +NGL+TQTLK K+NV D+F+ I +Y
Sbjct: 1 QYIYENSNSVGVVVEKPALLKSIAADPGLKSAKA-GAMPKFAIVLFAKGKSGEEIKAEMGLPAEMKVVTYKELLAMKRPLKEAAVDPDDPAALVYTSGTTSYPKGVVLRHSNLLHQVHNNSFNRANNRKYDPWVGDVFVSILPCWHIFERTAEYYTLSRGAKLVYSNIRNFKTDLVKYKPHFLIAVPRLFETIYKGVQQNFSSQKGIKKKLVTFFTASCMLYMKAKRVVTNMVIRQKAPDILEKAWAALTLAVTWPLAMLADKMVWSKVREGLGGRMKVMVSGGSSLSPVLEDFYEMIGGRVIVGYGLTETSPVIANRVAEHNLVGSVGKPPPNTQIKVVDVETRKELPIGEKGLILARGPQIMREYMSNPEATREAIDDEGFFNTGDLGMVNPPTGDIVITGRAKDTIVLSNGENIAPQPIEDLLIGNCATVDQMMLVGQDERFLSALAIVSPSGLESQGLITKDHATRLNNLLGATPLTTGIAGTAEEMEKETKILQEDPAIQKAVLNEIKKESKKAKLRPWENVQDVRVLLEPFTMTNGLLTQTLKVKKNVATDRFEPLITDMY 566
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: A0A4D9CQD3_9STRA (AMP-binding domain-containing protein n=2 Tax=Monodopsidaceae TaxID=425072 RepID=A0A4D9CQD3_9STRA) HSP 1 Score: 572 bits (1475), Expect = 1.260e-186 Identity = 321/698 (45.99%), Postives = 439/698 (62.89%), Query Frame = 3
Query: 336 TGSNYRMLDTKKASASWKSLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVGAVVETPKLLELLMGEDGKGLEGADGAL--PRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVLDPPTIERSMK-----ATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSP--MNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEE-RPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALY 2399
TG+ R +D K W++LP++++ + E A+ D +H P ++TY E+ R IG +A+ G++ CVSVF+ENS+RWLIA+Q I+KAG CNAVRG APV EL+YIY +SESV +VVE+ + +E G L P + P S EL N+P +V+TF E L S + P T K ATLVYTSGTT KPKG VL H+NLLHQV+ NSF S NP +GDV VS+LPCWHIFERTAEY+ ++G+ +VYSNV+NFK+DL +P F++ VPRLLETI++GV + AA+ +K T S +KA R G V+R P E+ L+ V+ + PL +KLVW K+R G+GGR+KV+V+GGSS+P LEDFFE+ V+VGYG+TETSPVI NRVA N G+ G+ + VK+ D ESG ++ GQ G +L+RGPQ+M+GY++N EA+ AV+D+EG+ DTGD+GR +P+T L++TGRAKDTIVLSNGENVEPQP+ED + +L+DQV+ GQDE+ LG +V N L AG++ + A R + +LG LT G G+ ELE+ E + +KKA++ + A G+ R E+VGVV + EPF +NG +TQTLK KRNVV ++ +EI+ +Y
Sbjct: 109 TGTYLRGMDRYK----WRTLPDVFETVASLAPEAVAVEDMVHTP------------TAKMTYGELNRQIGALAAFFQHEGLKPGQCVSVFAENSHRWLIADQAILKAGACNAVRGVKAPVDELQYIYQNSESVASVVESVEQIE-----------GTSTLLSFPPTQPLCEPTAASRAELA---NLPPPTQVLTFDEAL-SASLARPLTFRPVPKDVRSVATLVYTSGTTNKPKGVVLRHSNLLHQVNYNSFTDSPSKEPAYNPVLGDVLVSVLPCWHIFERTAEYWMFSKGIHVVYSNVKNFKADLAKHRPQFIVAVPRLLETIYRGVLQKFAAEKGAKKKIIDFFTRTGSAWVKAWRVARGLVLRSRAPNPIERLLALVLALVLSPLAAVGDKLVWSKVRAGLGGRIKVLVAGGSSMPLVLEDFFELLRTPVIVGYGMTETSPVITNRVAEKNLAGSVGRTARDTVVKIVDPESGARLPEGQPGLVLMRGPQMMAGYKSNAEASKAVLDQEGFLDTGDLGRIHPLTKQLIITGRAKDTIVLSNGENVEPQPIEDVVCANSALVDQVVCVGQDEKALGMLVVPNVRALARAGLVDRSLAERVAEILGGQVLTNGIAGSRAELEEVEASLREKKEVKKALLADIARAMGKSFRETERVGVVEVVLEPFNMANGFLTQTLKVKRNVVSGRYAQEIEQMY 775
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: W7T8D8_9STRA (Amp-dependent synthetase and ligase (Fragment) n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7T8D8_9STRA) HSP 1 Score: 480 bits (1235), Expect = 1.910e-154 Identity = 259/519 (49.90%), Postives = 345/519 (66.47%), Query Frame = 3
Query: 867 LQESLNIPESIKVVTFAECLGSGDVLDPPTIERSMK-----ATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSP--MNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEE-RPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALY 2399
L E N+P +V+TF E L S + P T K ATLVYTSGTT KPKG VL H+NLLHQV+ NSF S NP +GDV VS+LPCWHIFERTAEY+ ++G+ +VYSNV+NFK+DL +P F++ VPRLLETI++GV + AA+ +K T V S +KA R G V+R P E+ L+ V+ + PL +KLVW K+R G+GGR+KV+V+GGSS+P LEDFFE+ V+VGYG+TETSPVI NRVA N G+ G+ +EVK+ D ESG ++ GQ G +L+RGPQ+M+GY++N EA+ AV+D+EG+ DTGD+GR +P+T L++TGRAKDTIVLSNGENVEPQP+ED + +L+DQVM GQDE+ LG +V N L AG++ +G A R + LLG LT G G+ ELE+ E + +KKA++ + A G+ R E+VG V + EPF +NG +TQTLK KRNVV + +EI+ +Y
Sbjct: 14 LAELANLPPPTQVLTFDEAL-SASLARPLTFRPVPKDVRSVATLVYTSGTTNKPKGVVLRHSNLLHQVNYNSFTDSPSKEPAYNPVLGDVLVSVLPCWHIFERTAEYWMFSKGIHVVYSNVKNFKADLAKHQPQFIVAVPRLLETIYRGVLQKFAAEKGAKKKIIEFFTRVGSAWVKAWRVARGLVLRSRAPNPIERLLALVLALVLSPLAAVGDKLVWSKVRAGLGGRIKVLVAGGSSMPLVLEDFFELLRTPVIVGYGMTETSPVITNRVAEKNLAGSVGRTARDTEVKIVDPESGARLPEGQPGLVLMRGPQMMAGYKSNAEASKAVLDQEGFLDTGDLGRIHPLTKHLIITGRAKDTIVLSNGENVEPQPIEDVVCANSALVDQVMCVGQDEKVLGMLVVPNVRALARAGLVDRGLAERVAELLGGQVLTNGIAGSRAELEEVEASLREKKEVKKALLADIARAMGKSFRETERVGAVEVVLEPFNMANGFLTQTLKVKRNVVSGHYAQEIEQMY 531
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: A0A7S2UNN2_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2UNN2_9STRA) HSP 1 Score: 476 bits (1226), Expect = 1.470e-149 Identity = 284/696 (40.80%), Postives = 408/696 (58.62%), Query Frame = 3
Query: 390 SLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVG-AVVETPKLLELLM------GEDGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVL---DPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDN--TKGTTGKPIPGSEVKVADLESG------QQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQ-ELEDAEK--EILAAPGLK--------KAVMEQLKLAAGEERPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEID 2390
S P +W L C AI+D M D K LT+ EM ++I A+A LGV+K V++ ENS +WLIA+ GI GG ++VRGA AP ELRYIY SES AV++ PKLL+ L G G GL+ + +++L S ++QE + P I+V ++ L + + D P I +T+VYTSGTTG+PKG +LTH NLLHQ+ P G++ +S+LP WHI ERT E + +RG +VYS++R+FK+DL KP ++++VPR+LE + GVQ + A+ S + TA + + + + SG ++ D +P + ++ ++ +++ L PL +KLVW K++DG GGR K ++SGGS+L LE F+E+ GI ++VGYGLTE SP+IA+R N T G GK + +E++V D ES + V +G+ G ++ RGPQVM GY NPEATA +DK G+FDTGD+GR NP TGD+++TGR KDTIVLSNGEN+EP P+EDAI E SL++QVML GQD R L AIV LNP L AG +++ + A + V P+ ED K +ILA +K KA++ +K A + R WEQVG V + EPF +NG +TQ+ K KR+ V++++ + ++
Sbjct: 119 SCPGLWKDLAKNCPNKRAILDEH----MCDEK-------VDLTFKEMEKTIRASAAAFASLGVKKGMNVAILGENSAKWLIADHGIQLLGGASSVRGADAPSEELRYIYEHSESAKVAVIQGPKLLKRLAKDAKTKGLSGLGLQNEKYGSVKTIVLLHREKMSNDKIQE-IAAPLDIQVFVLSDLLETVKPISANDVPKIGLDDLSTIVYTSGTTGQPKGVMLTHGNLLHQLGHRLAPTKPYDETEPLPGEIMLSLLPVWHITERTFELWMFSRGCNVVYSSIRSFKNDLAKHKPQWMVLVPRVLEKVALGVQGKFASGSAVVKTLVKLFTATGTMKHENLKIASGVIVGDEKPSSFKRLIARLIVALLAPLNAVGDKLVWSKVKDGFGGRQKCIISGGSALAGSLESFYELCGIDIIVGYGLTECSPLIAHRRLDANLITGGCVGKAVLDTELRVVDPESKADSGERKSVPIGEVGVVIARGPQVMKGYFKNPEATAKAVDKFGWFDTGDLGRVNPATGDIILTGRCKDTIVLSNGENIEPSPIEDAILSESSLVEQVMLTGQDGRKLVAIVVLNPSELVGAGFLNKKEGKALQA-------ESERVNDPKCSEEDCAKGCDILAEASVKLRSDKELGKALLVDMKSATKDFRKWEQVGDVYITLEPFAMANGQLTQSYKVKRDSVLERYGDSLE 795
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: UPI001686FE36 (AMP-binding protein n=1 Tax=Microcoleus sp. FACHB-831 TaxID=2692827 RepID=UPI001686FE36) HSP 1 Score: 464 bits (1195), Expect = 7.410e-147 Identity = 282/690 (40.87%), Postives = 408/690 (59.13%), Query Frame = 3
Query: 351 RMLDTKKASASWKSLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVGAVVETPKLLELLMGEDGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAEC--LGSGDVLDPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKA-PEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEERPW----EQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALY 2399
R++D A +SLPE+W G+ A++DP P E LTY+++ + I A+ L LGVQ ED V++FS+N RW IA+ GIM G + VR + A EL +I A+S S VVE K L+ L E D LP L++L + ++ S+K++ FA+ +G+ + L P + R ATL+YTSGTTGKPKG +LTH NLLHQV + G+ + P +GD ++ILP WH F RT EYF L++G T VY+N+R K DLK F+P +L+ VPRL E+I++GVQ Q + Q+ L ++S R +RR+S A+ QP + P++ ++ + PL AEKLV+ K+R+ GG++K V+SGG SL LE+FFE+ G+ VLVGYGLTETSPV R N +G++GKP+PG+E K+ D E+ + + VG+ G +L+RGPQ+M GY NP+ATA ID EG+FD+GD+G D+V+TGRAKDTIVL+NGEN+EPQP+EDA + IDQ+ML GQDER LGA++ N +L S+++AL P + TPQE + +++ + + Q + RP ++VG + EPF+T NGL+TQTLK +RNVV++++++ I ++
Sbjct: 20 RLVDYSSA----QSLPEVWSIARERFGDAIALLDPHSQP------------EVSLTYTQVYQQIQQFAAGLQALGVQPEDRVALFSDNCPRWFIADAGIMTVGAADVVRSSQAEREELLFILANSGSTALVVEDRKTLKKLR-------ERLDD-LPIQLVILLSNEEPERD--------SSLKMLNFAQVTEVGAKNTLKPVSRNRENLATLLYTSGTTGKPKGVMLTHGNLLHQVI------TIGAVIQPQLGDRALTILPTWHTFGRTGEYFLLSQGCTQVYTNIRYIKKDLKEFQPQYLVGVPRLWESIYEGVQKQFREQPPSKQRLVNNLLSLSQ-RYIESRRVSQALSLSPQPASLPQRVVAGIQTAALAPLHAVAEKLVYKKVREATGGKLKYVISGGGSLAMHLENFFEIVGLEVLVGYGLTETSPVTHARRYWSNMRGSSGKPLPGTEAKIVDPETRKPLPVGKVGLVLLRGPQIMQGYYQNPQATAKAIDAEGWFDSGDLGWITA-ENDVVLTGRAKDTIVLTNGENIEPQPIEDACL-RSAYIDQIMLVGQDERSLGALIVPNLESL-----------SKWAALQNPPLHIPDKLTTPQEASALDSKVI------QDLFRQELNREVQNRPGYRADDRVGPFKLILEPFSTENGLMTQTLKIRRNVVMERYRDMISGMF 651
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: A0A0G4EEM4_VITBC (AMP-binding domain-containing protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4EEM4_VITBC) HSP 1 Score: 470 bits (1210), Expect = 3.860e-146 Identity = 288/697 (41.32%), Postives = 402/697 (57.68%), Query Frame = 3
Query: 390 SLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVGAVVETPKLLELLMGE---DGKGLEGAD-GALPR---FLMVLF--PRGKSGK--------ELQESLNIPESIKVVTFAECLGSGDVLDPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSE----------GSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKGTTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEERPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALY 2399
S+PEMW L G+ TA+ DP H G+ +G LTY ++ I ++ S L G+ K D V+ +ENS+RW+I +Q IM AGG + RGA A + EL +I SES V ETP +L+ L+ + L D AL + F +VL+ P K G + Q++L + +VT S P + AT++YTSGTTG+PKGAVL NLLHQ++ N+F E G MNP+ GD F+SILP WHIFER AEY+ L+RG M+Y+ +FK+DL F PH+LI VPRL ET+ KGV+ + S + L +VS +KA R + + D P + S + M PL A L+W KIRDG+GG +KV++SGG++LP +EDFFEMA + ++VGYGLTETSPVI NR DNT+GT G + G+++++AD E+G+ + G+ G I +GPQVMSGY NN EAT AV+ +G+F+TGD+G P TG L +TGRAKDTIVLSNGEN+EP+P+E I L+DQ ML GQDER LG ++ N + GI++ +Y L+ + + L A E+ + P + A+ L+ + RP E V + + +PF+ NG +TQT K KR+VV+ KF + ID++Y
Sbjct: 81 SIPEMWPLLTERFGDRTALKDPYH-----GGEGDGEGGRA-LTYRQLDEEIRSLGSGLATAGLLKGDKVTFIAENSHRWIITDQAIMLAGGISIPRGAAADLKELLFILGHSESSVIVAETPAVLDKLLHYVYVEAPALPDVDLTALKKRLKFAVVLYDDPSAKGGHLSLQGVATKYQKNLTVYGYDALVTHGSTYSSA--FRPVALGPDDVATIMYTSGTTGRPKGAVLRQRNLLHQINTNTFSGQEIVDKDKDGLLGYNMNPFPGDRFLSILPTWHIFERAAEYWGLSRGTEMIYTTKLHFKTDLSKFSPHYLIAVPRLYETVVKGVEKKFQEGSPVKRGLVRLLRSVSRKYVKARRIVRNRNLFDFNPGFITRLKSRLAMVFLWPLYKVASVLLWKKIRDGLGGSMKVLISGGAALPMKVEDFFEMADVPLVVGYGLTETSPVITNRNVDDNTRGTAGTVVTGTQIRIADQETGEVLPAGRVGVIEAKGPQVMSGYYNNEEATDAVLTPDGWFNTGDLGMITP-TGQLTLTGRAKDTIVLSNGENIEPEPIEVDIMNS-PLVDQAMLVGQDERQLGGLLVPNLDAMWEEGIVTTEARDKYKKLVEES-------SDERALRKAADELQSIPEVDAALRRLLREKSQSRRPDEAVRMYRLILQPFSQENGCLTQTFKVKRHVVLSKFGDVIDSIY 760
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: B8C658_THAPS (AMP-binding domain-containing protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8C658_THAPS) HSP 1 Score: 466 bits (1199), Expect = 1.190e-145 Identity = 288/694 (41.50%), Postives = 397/694 (57.20%), Query Frame = 3
Query: 390 SLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVG-AVVETPKLLELLM------GEDGKGLEG-ADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVL---DPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDN--TKGTTGKPIPGSEVKVADLES----GQQVAV--GQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPLTTGPVGTPQE-------LEDAEKEILAAPGLKKAVMEQLKLA--AGEERPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEI 2387
S P +W L C + A+VD + D LT+ +M + A+A LGV+K V+V ENS WLI + GI AGG +AVRGA AP+ ELRYIY S+S G AV++ LL+ L G D GL + GA+ +VL +GK + ++L ++V +E L S L + P I+RS +T+VYTSGTTG+PKG +LTH NLLHQ P G++ +S+LP WHI ERT E F L RG +VYS +R FK+DL ++P ++++VPR+LE + GVQ + A+ + TA S+ + K + G V+ D P + +S +++ PL KLVW K++DG GGR +V++SGGS+L LE F+E GI +LVGYGLTE SP+++ R N T G G +E++V D E+ G++ A+ G G +L RGPQVM GY NPEAT +DK G+FDTGD+GR NP TGDL++TGRAKDTIVLSNGEN+EPQP+EDAI E L++QVML GQD R L AI L+P L AG++ + SR +L + P + +E L A EI A + K V ++K A +G R WEQV V + EPF +NGL+TQ+ K KR+ V ++Q+E+
Sbjct: 114 SCPAIWKELAINCPDNRALVDDHLCDEKMD-----------LTFKQMEDKVRRSAAAFKNLGVKKGVNVAVLGENSAMWLIVDHGIQLAGGASAVRGADAPLDELRYIYEHSDSAGIAVLQDVNLLQKLAKDAKAKGLDSLGLRNDSSGAVKT--IVLMHKGKKTDDEIKALGDANGVEVRVLSELLDSTTPLRDKELPAIDRSDLSTIVYTSGTTGRPKGVMLTHGNLLHQTGHRMAPTRPYDETEPLPGELMLSLLPVWHITERTFELFMLVRGCHVVYSGIRWFKNDLAKYQPQWMVLVPRVLEKVAFGVQDKFASGGAAVKALVKLFTATSTLKNKHQKIRKGLVVGDEPPTPMDGIISTIIVKALAPLNFLGNKLVWKKVQDGFGGRQRVIISGGSALAGSLETFYENCGIDILVGYGLTECSPLLSYRRTDSNLVTAGCVGFAATDTELRVVDPEANPENGERKALPDGLAGVVLGRGPQVMKGYYKNPEATGKAVDKWGWFDTGDLGRINPATGDLILTGRAKDTIVLSNGENIEPQPIEDAIMSESDLVEQVMLSGQDGRSLIAITVLSPNELVNAGLLEE---SRAKQILKDHDIVNDPKCSEEECAEACERLAKASAEIRAKGAVTKQVASEVKRATSSGSFRKWEQVSDVYVTLEPFAMANGLLTQSYKVKRDFVAKRYQDEL 791
BLAST of mRNA_P-littoralis_Contig650.21.4 vs. uniprot
Match: A0A7S1VYX9_9STRA (Hypothetical protein n=2 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S1VYX9_9STRA) HSP 1 Score: 466 bits (1198), Expect = 2.940e-145 Identity = 275/690 (39.86%), Postives = 395/690 (57.25%), Query Frame = 3
Query: 387 KSLPEMWDFLDGECGELTAIVDPIHPPDMPDGKRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLIAEQGIMKAGGCNAVRGATAPVAELRYIYADSESVG-AVVETPKLLELLMGE------DGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGSGDVLDP---PTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSEGSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLKNFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAARRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGRVKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDN--TKGTTGKPIPGSEVKV-------ADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAAVIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAISGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLGPTPL---TTGPVGTPQEL-EDAEKEILAAPGLKKAVMEQLKLAAGEERPWEQVGVVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEI 2387
+S P +W L +C L A+ D H D + T+ +M + A LGV K V++ ENS +WL+A+ GI AGG +AVRGA AP ELRYIY S+S AV++ P+LL+ L + G GL+ G++ L L R K + +++ + + A+ + + L+ PT+ R AT+VYTSGTTG+PKG +LTH NLLHQ++ + + P GDV +S+LP WHI ERT E + L+RG ++VY+++R+FK+DL +P ++++VPR+LE + GVQ + A+ S A+ T + R + G V+ D +P + K S +++ P+ KLVW K+++G GG+ K ++SGGS+L LE F+E+ I+++VGYGLTE SP+IA R +N T G GK +E++V +D + + G+ G ++ RGPQVM GY NPEATA ID+ G+FDTGD+GR NP TGDL++TGR KDTIVLSNGEN+EP P+EDAI E SLI+QVML GQD R L AI L P L AG I G+ R L + G +L +A K++ L KAV+ +K A R WEQV V + EPF +NGL+TQ+ K KR+ VV ++++E+
Sbjct: 136 QSCPAIWSQLAKDCPNLRALYD-AHLCDE----------KVDYTFKQMNEIVQKSARVFHDLGVTKGVNVAILGENSAQWLVADHGIQLAGGASAVRGADAPAEELRYIYEHSDSKNIAVLQGPRLLQKLAKDAEANSLTGLGLKNEYGSVKTIL--LMHREKKSDDDLAAMSSDLGVTIRVLADVINAASPLEGDSLPTLTRDDLATIVYTSGTTGRPKGVMLTHGNLLHQINHRIYPTVQFEDAEPIPGDVMLSLLPVWHITERTFELWILSRGSSVVYTSIRHFKNDLAKHQPQWMVLVPRVLEKVAMGVQDKFASGSAVAKTLVKLFTKTGTIRDVHRKVSQGLVVSDKKPSSLSKLKSKLIVTALAPINAVGNKLVWSKVQNGFGGKQKAIISGGSALAGALESFYELCSIKIMVGYGLTECSPLIAFRRGDENLVTAGCVGKATSDTELRVVNPEIQASDESDRKALPDGEVGVVIARGPQVMKGYYKNPEATAKAIDQYGWFDTGDLGRINPATGDLILTGRCKDTIVLSNGENIEPSPIEDAILSESSLIEQVMLIGQDGRSLTAIAVLTPNELVNAGYIDAGEGKRLQKANEKVNLPNCSEEECGVASDLLNEAAKKLRNNASLNKAVLADMKEATKPFRAWEQVSNVYLTLEPFAMANGLLTQSYKVKRDFVVKRYEDEL 812
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.D7FZ64 |
| Preferred name | AAE15 |
| PFAMs | AMP-binding |
| Model size | 3381 |
| Max annot lvl | 2759|Eukaryota |
| KEGG rclass | RC00004,RC00014 |
| KEGG ko | ko:K01897 |
| KEGG TC | 4.C.1.1 |
| KEGG Reaction | R01280 |
| KEGG Pathway | ko00061,ko00071,ko01100,ko01212,ko02024,ko03320,ko04146,ko04216,ko04714,ko04920,map00061,map00071,map01100,map01212,map02024,map03320,map04146,map04216,map04714,map04920 |
| KEGG Module | M00086 |
| Hectar predicted targeting category | chloroplast |
| GOs | GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006082,GO:0006629,GO:0006631,GO:0006633,GO:0008150,GO:0008152,GO:0008610,GO:0008922,GO:0009058,GO:0009507,GO:0009526,GO:0009536,GO:0009941,GO:0009987,GO:0015645,GO:0016053,GO:0016874,GO:0016877,GO:0016878,GO:0019752,GO:0030497,GO:0031967,GO:0031975,GO:0032787,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043436,GO:0044237,GO:0044238,GO:0044249,GO:0044255,GO:0044281,GO:0044283,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464,GO:0046394,GO:0071704,GO:0072330,GO:1901576 |
| Exons | 19 |
| Evalue | 0.0 |
| EggNOG OGs | COG1022@1|root,KOG1256@2759|Eukaryota |
| Ec32 ortholog description | long chain acyl-CoA synthetase |
| Ec32 ortholog | Ec-02_006430.1 |
| EC | 6.2.1.3 |
| Description | decanoate-CoA ligase activity |
| Cds size | 2382 |
| COG category | I |
| BRITE | ko00000,ko00001,ko00002,ko01000,ko01004,ko04147 |
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 |
|---|
| 1680791361.8285618-UTR-P-littoralis_Contig650:97447..98414 | 1680791361.8285618-UTR-P-littoralis_Contig650:97447..98414 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig650 97448..98414 - |
| 1680791362.0886757-UTR-P-littoralis_Contig650:119986..120018 | 1680791362.0886757-UTR-P-littoralis_Contig650:119986..120018 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig650 119987..120018 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791361.845764-CDS-P-littoralis_Contig650:98414..98552 | 1680791361.845764-CDS-P-littoralis_Contig650:98414..98552 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 98415..98552 - |
| 1680791361.8553693-CDS-P-littoralis_Contig650:98876..98960 | 1680791361.8553693-CDS-P-littoralis_Contig650:98876..98960 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 98877..98960 - |
| 1680791361.8645682-CDS-P-littoralis_Contig650:99833..99926 | 1680791361.8645682-CDS-P-littoralis_Contig650:99833..99926 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 99834..99926 - |
| 1680791361.881007-CDS-P-littoralis_Contig650:102018..102144 | 1680791361.881007-CDS-P-littoralis_Contig650:102018..102144 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 102019..102144 - |
| 1680791361.8969433-CDS-P-littoralis_Contig650:102954..103064 | 1680791361.8969433-CDS-P-littoralis_Contig650:102954..103064 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 102955..103064 - |
| 1680791361.9125977-CDS-P-littoralis_Contig650:107109..107227 | 1680791361.9125977-CDS-P-littoralis_Contig650:107109..107227 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 107110..107227 - |
| 1680791361.9233532-CDS-P-littoralis_Contig650:107703..107842 | 1680791361.9233532-CDS-P-littoralis_Contig650:107703..107842 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 107704..107842 - |
| 1680791361.9326878-CDS-P-littoralis_Contig650:108606..108776 | 1680791361.9326878-CDS-P-littoralis_Contig650:108606..108776 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 108607..108776 - |
| 1680791361.9435403-CDS-P-littoralis_Contig650:109586..109733 | 1680791361.9435403-CDS-P-littoralis_Contig650:109586..109733 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 109587..109733 - |
| 1680791361.9604425-CDS-P-littoralis_Contig650:110122..110218 | 1680791361.9604425-CDS-P-littoralis_Contig650:110122..110218 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 110123..110218 - |
| 1680791361.975266-CDS-P-littoralis_Contig650:110935..111076 | 1680791361.975266-CDS-P-littoralis_Contig650:110935..111076 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 110936..111076 - |
| 1680791361.9885197-CDS-P-littoralis_Contig650:112243..112393 | 1680791361.9885197-CDS-P-littoralis_Contig650:112243..112393 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 112244..112393 - |
| 1680791361.9978728-CDS-P-littoralis_Contig650:113159..113249 | 1680791361.9978728-CDS-P-littoralis_Contig650:113159..113249 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 113160..113249 - |
| 1680791362.0103674-CDS-P-littoralis_Contig650:113637..113743 | 1680791362.0103674-CDS-P-littoralis_Contig650:113637..113743 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 113638..113743 - |
| 1680791362.0270321-CDS-P-littoralis_Contig650:114512..114631 | 1680791362.0270321-CDS-P-littoralis_Contig650:114512..114631 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 114513..114631 - |
| 1680791362.0370939-CDS-P-littoralis_Contig650:115344..115555 | 1680791362.0370939-CDS-P-littoralis_Contig650:115344..115555 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 115345..115555 - |
| 1680791362.0466347-CDS-P-littoralis_Contig650:115938..116093 | 1680791362.0466347-CDS-P-littoralis_Contig650:115938..116093 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 115939..116093 - |
| 1680791362.0647247-CDS-P-littoralis_Contig650:116620..116752 | 1680791362.0647247-CDS-P-littoralis_Contig650:116620..116752 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 116621..116752 - |
| 1680791362.0764623-CDS-P-littoralis_Contig650:119929..119986 | 1680791362.0764623-CDS-P-littoralis_Contig650:119929..119986 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig650 119930..119986 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig650.21.4 >prot_P-littoralis_Contig650.21.4 ID=prot_P-littoralis_Contig650.21.4|Name=mRNA_P-littoralis_Contig650.21.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=794bp
MNKLTFVLAAHAAGAGAFVPTSGPSLRPGEREGGRTSYAHGGGRTIAVSS
PRLAATARSTSCRARGNTVAMMVAASRPVDMLETSTSTSTTAPPAAASAP
DTGSNYRMLDTKKASASWKSLPEMWDFLDGECGELTAIVDPIHPPDMPDG
KRPPKGAETRLTYSEMRRSIGTIASALMGLGVQKEDCVSVFSENSYRWLI
AEQGIMKAGGCNAVRGATAPVAELRYIYADSESVGAVVETPKLLELLMGE
DGKGLEGADGALPRFLMVLFPRGKSGKELQESLNIPESIKVVTFAECLGS
GDVLDPPTIERSMKATLVYTSGTTGKPKGAVLTHANLLHQVSQNSFDRSE
GSPMNPWVGDVFVSILPCWHIFERTAEYFTLTRGVTMVYSNVRNFKSDLK
NFKPHFLIVVPRLLETIWKGVQTQLAAKSKGAQKAAGALTAVSSFRMKAA
RRLSGAVIRDAQPKAPEKALSAVVMGLTLPLKLAAEKLVWGKIRDGVGGR
VKVVVSGGSSLPSFLEDFFEMAGIRVLVGYGLTETSPVIANRVAGDNTKG
TTGKPIPGSEVKVADLESGQQVAVGQTGKILIRGPQVMSGYQNNPEATAA
VIDKEGYFDTGDVGRFNPITGDLVVTGRAKDTIVLSNGENVEPQPLEDAI
SGECSLIDQVMLFGQDERFLGAIVCLNPINLGAAGIISQGDASRYSALLG
PTPLTTGPVGTPQELEDAEKEILAAPGLKKAVMEQLKLAAGEERPWEQVG
VVIMKFEPFTTSNGLITQTLKTKRNVVVDKFQEEIDALYASKR* back to topmRNA from alignment at P-littoralis_Contig650:97448..120018- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig650.21.4 ID=mRNA_P-littoralis_Contig650.21.4|Name=mRNA_P-littoralis_Contig650.21.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=22571bp|location=Sequence derived from alignment at P-littoralis_Contig650:97448..120018- (Pylaiella littoralis U1_48)
ATCACATCAACCAGCCAAGAAGCACAAAGGTCATGAACAAGCTTACCTTT
GTGCTTGCTGCACATGCAGCAGGAGCTGGCGCATTTGTGGTGAGAGAGAG
GGAGAAATTCCTACAGATCTTACGGCGCATTCGGTTGGTGTGACTGATTG
TGTATCCTAAAAATCTGCAAAACTTTCTCTCCGCTCTCGAGTCGTTTGTC
TTGTTGAAGATCTGTATCATACTCCCACGATCTGTCCTCCTTTACTACCT
TGGTATGTGTCTCTGTGGGGAACATTTCCCTCCCTCTATCTATCTGTGTC
TCTCTCTCCCGCCCTCTCCCTCTCTCTCTTCATCTCTCTTTCTGCCGTGT
TTTTGTGCGATGCCGATATTTGTCAGACGTCCCAAAGTGCATGAATAAGG
TGAAAGAAATGCTGGCTCACTTTGTTCAACATGCTTTCAGTATTGTATGA
TATCATATCATATGCATCAACGCCGATTCCTCTGGATCCCCGTACTGGGG
GTACATACCTCGTACCCTGGCACCACAAGCATACACTCATGATGGTACAT
GTTGTAGGGCTGCGCTCGGTAAGTACCCTCTGTGTGGTTCCTAGCTGCCC
ACCCACCGAGCTAGCATCACATAGTATAATTGGTTCTTGTTTTTCTTTCA
AGTACACGTTGCAAAACAGCGACGGAAAGCAGCAATCGATTCATTATTAC
TTACGAAGTGCTATTCGAAGTACGGAGTATATCATATTATATGACATGAT
CATTTCAAAGCAAAGATATCTGAGGACAGCATTCAGTATTTACATCCTGG
TGGGTGAACACTTCGTATATAGCACGTCTCTATATGCCATCATCCTACGA
AGCACTTTTCTGGACGCCAACCTGCGCGTAGGTTGAATCACCGACAGCAC
TTTGTCACTCCTGACTCAGCAGGACATACTTGTAGAGACCGTAGCGTATC
TTCGCTCTGTGTACTTTTGACGAAGTCTTCAAACAGATCTATAGAGTGTG
TGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGCAAACTACAGGCT
AGGCCCATCGACGGGGTCACACAGGAGAAAGGTCAACACAGGAGGAGTTA
CCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTCGCGAGCAG
GGGTCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATCTGCTTTTACTAA
CAGCATTGCCGCTTTCAAAGTAGCAAAGGGACACATTCACCGGGAATCGA
ACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGACTACTAGTCCACCG
GGGCGACCGGTCTGTTTAATTGGTACTGCTTCGTACCTGGTATCCATTAT
CCATGCATCATGGTATGCATGAAACACGCCTCACGATAAAAAATCTTATC
GATTCCGTCCCATTTCTCCCACGTAACCCTCCTGGGCAGTAAGTACAGGC
GAACGCACCCATGTGTAACCTTGTGTTGCAAGGCAAATGTTTGAAGATGA
CGCGTTTTCGAGACAAAAAGTACAGCCGTGCCCACCTCGACTTCGTTCCC
CGACCGAGCTGATCGCAACCAAGGAGATGCCCCCCCTCGAAACCAATGGC
CCGGAATCAACTCAAAACCATTGAGGGATCGCTCTCAAAGAATGTGTCTT
TATTTTCAACGATGAAATAGCCCACCCTCTATCCAAGAGTATAACGCAGA
ATGCTCAGAATAAGCGTTCCCGTGTACTTTTTCCCAGATGCATCCCTAAT
ATGAGCAGGATAAGCCATGTATCATAGCTGTGGCCTACGCTCAGATCTGC
TGCTGGAGCCAATATATTGAAGGTCAAAATATTTGTCGAGGCAGTCCAGA
AATCGTCCGCATCTCAGCCAGAAACCAGACACCTGCCGCTGCTGTACTCG
TCGCCATGAGCAGTAGCTAGTGGTTTTGTAGACCCACCGTTCCAGGTAAA
AGGCCCGTGGTGACGAGTACAGCAGTGATCACAGACAGGGAGATGTTTGG
GGTTTGGCGGAGATGCGGATGATTTTTGGACTGCCTGAAGCCTGAACCAG
AATTTCGACCTCCGATACCTTGGTCCCAGCAGCAGACCTGAGCGTATGCC
ATCACGAAGGTTACAGCTTCATGGTGTCTCGTGGTCATTCTAGGGGCGCG
TCCGGGATGAAGTACTCGTACAGGGGGGTGCTCAATCTGACCAATCCGCG
TTATCGTCTTGGATTGAGGCCGACCACTTTCGTTACTTAAATATACTCCA
AAACTTCGAAGCACGAAGTATTCATCTTCCAGAGCAATCCCTGAACATGG
GCTTGGCCGAGAGGATAGTGATTCAAACACACGGGAAAATGTATCCCAAT
CCATTTGGAGTCAGATTCTGGAGGGGGGGTGTTATACACCGTATGGTACC
ATATTGTAAGAGCTCCGCGTTTTTTTGCACTTGATGGAGCACAAAAGCAC
GGATATCGATTTCCAAGGTGTACAGGTTTTGACATCGCCATTTTCGATGC
CGCTGTCTTGCCTCGCCTTGCTCTATGATACGACTACTGAAACTAATGGT
ACACATACAAACGCCTCCGCCCCGTTGTGTTGCGATCGCTGCTCTGAAGC
GTGTTCGTGGTCTCTTCCGTGGCCGGTCGCGCCGGTAATTGAGTGGGTGC
CCATCGGAAGCTTCCGACAGTGCGGTCTTGATTTCGAATCTTGATGAACT
GGGGTTCTTGCTCACACAAATCATGACATTGGAAAACGGCCATATTGTGA
GTAAGTAAATTCCGACTCGAGAGGCGACGAAGTAGTGGGACGGCCGAACC
CTGTTGGAAAGAGTGTACAAAAAAAGGCAACCGCCGCAGATGTGTGATCT
TCCTCCTGTATGAACCTGGCTGGTGCACCCTACATACTCATACCCAAGGG
TGCGGGCTGGCGTCGAGAATGGATGGTACAACACACAAACACACACACTT
TTTCGACCCTGCCATTGAATTTGACGGCGTCCCAAAAGACGTATATACAG
TCCCGATTTCGTTTGGGAATCCCCCCCTGCCCTTGTCGAGTTGGGCAGGG
GCGGTTCAATCGTAGTACTCTGACAACCCTACGCCCCGGGCCAACCTTTC
GAGAGTTTCAACAAATTCCGCGTACAGGTATTTCTGCATGCCCCTGGCTG
ATGCGCCGGCATACACCGACAGGTGTATAGACTGGCGTCCATGATGGGCG
GGAGATAACTCACACCCACGCTTTTTGGCACCCGCCCCGCGGCACTGCAC
TTGGCTTCCCTCCCAGCCCACCTCAGGTCCATCATTACGGCCAGGAGAAA
GAGAAGGAGGGAGAACGAGCTATGCACACGGCGGGGGCAGAACCATCGCG
GTGTCATCACCGCGACTTGCTGCTACAGCTCGCAGCACTTCTTGCAGAGT
GAGCAGTGGTTCCAGCGTAAAGTCCACGTACTTTCTGCTTCGTGTCGGTT
TACGGTCGTGGTTTAGCGACCCCGGGTTGGCACTTCAGTACGGTTGAGTA
TTTTAGTCGCCATTGTTGGTGCAAAACGTTTACCATGGTGTTGATTGTGT
TCGCAGGTATGTATGTGCCTGTCATGGACCGATTTCATGATAGAACCCAA
GATGATACTGCAAGAGCTGTGGAGCTGGGCAGGCGTGCTTGACCCTCTGA
TAACGCTACGAATAACTCCAACGTTCTGCAGGTCTGGGGGGCCTTGCTGC
TGTACGCATTCATCTCGCCGCTTGTACCGTAACGTCGTCACAGATGTCGG
CAACGGGGTTGCTTACAGCGCATCTGTTGACGGACGGTAAGAGTGCTAAG
CGGGACGGCGTGTCTGTCCTATCGGCAAAGCTTCGCGAGAACCAACTGCA
CAAACATGTTCTTAATGTTTTTGCAAGTTCGAAGTTTTGTCCTCTTCCTC
ACCTTTATGTCTCCTATGTTTGCAGGCCCGAGGTAACACGGTGGCGATGA
TGGTGGCCGCATCAAGGCCCGTCGATATGCTCGAAACATCGACGTCGACA
TCGACGACGGCACCACCGGCGGCGGCATCAGCTCCAGATACCGGCTCTAA
TTACCGCATGCTAGATACCAAGAAGGCCAGGTCAGCACGCCGAGGAATTG
GAGAGGACAGCAGTATCATGTGTGCAGAACGAAAGTACAGCAGTAGCGGG
AATTTGGAGGCAAGTCTTCCCGACTCCTCGCTTTTTTTCGCTGTGAGTGT
CTCGGCTTCTCCCTCTCGTGTGTGTGCTAAGTATGTCTGTCCGTCTCTGC
TAAAAAGAGTGGCATGCTTTGTTCAAAGACCGCGGAAGAAGGACGCCCTC
TCCCTCCCGTCCCCCTGGTCGTTTTTCGCTTGCGCCCGACGTCCACCTTT
CCGTGCTACGTTCTTGTCGAACTATTGTTTTATTTGCGTTCCGCTCTGCT
GCGGCCGTGCTTGAAGTCCTGCTTGAAGTCCTGTTTCTTCTCGTCGAAAA
ACTTAATTTTCAGCGCGTCGTGGAAGTCTTTGCCAGAGATGTGGGACTTT
TTGGACGGTGAGTGCGGCGAACTTACGGCCATCGTGGACCCCATTCACCC
TCCCGACATGCCGGACGGAAAGCGGCCTCCCAAAGGAGCGGAAACCCGGC
TGACGTACTCGGAGATGCGACGGAGCATTGGGACCATAGCGTCCGCTCTG
ATGGGGCTTGGCGTGCAGAAGGAGGTACGGCAGTTAGGGTGGGAAAAGGG
GGGGGGGGTACATGTGATACAGAGAGCGAGAGATTACCGGCGAAAGGTCA
TCAAGCCAATTGTTTTGTTGGACGGACATGGGCCTGTCCCCTTAGTTGGG
CTTTTCTGGCAAACGAGGCGGCTGTCTGCAGACCCTTGCATCAACAACAA
TAACAACAGCAGCAGCAGCAGTAGCAGTAGCAGTAGCAGTAGCAGTAAAA
GGCAGTGTAGCATATCTCGCTTTGAAGTTGGGAGTAGGCTCCAACGATGT
TTTGTCATCTACCCTAACCCGAATTTCTGATGCTGGGTCAAGTCGCATAT
TGTTCGTGCACTCGTGGTTTCTGTTTGGGCATGCCATGCCATGCCATAAG
GAAAGGGTGGTTATACATAAATGAGACGGAAGGCGGGGAGCAGTGACCAG
GGAGGCTACGTCACACGCCATCTGCTGTGCCGTTTCGTCAGTAGCTGTCA
AGTGCCCTCGAGATGGCAAGCAACGCGCCACTTGTGTCCCTGTTGTTTCC
TCTCCCTTCCGATGCTGTTCCTATCAGCACCACTCGTGCATAGCGCGTGG
CACGTGCATGCAAGTTGCACTCATGTGTACTTCGGCCGGTGTCTGCGGTA
TCATATTTGCCGCACGTCTCGTCGATGTTGTTCTTCACTGCGGCAATCCT
TGATCGCATATCGCGTTGTCTTTTTTACCGTTTGCAGGATTGCGTGTCCG
TATTCTCGGAGAACAGCTACCGCTGGCTCATCGCGGAGCAAGGGATAATG
AAAGCGGGCGGGTGCAACGCTGTCAGGGGAGCGACAGCGCCGGTAGCGGA
GCTGAGGTGTGCATCAGCAGCAGCGGCATCACTTGGTTGTCTAGCAGCAG
GAAGATTTTTGTGGAAGGGATCTCTGAGACGTGGGCGTGGGCGGTCGAGA
GGGCTACTCCTGTAGCGAAAAATTACCCCACCATATGTAGCAGCACAGAC
ATTAAACGTTACACATCAACACGGGTGGTAAGTCCCTGCTGTGTGCGTAA
AGAGGGCGCTGTACCATGCTGTCCCTTGACAGTTTCAGGCCCCCCTTTGA
TAAGATATGGGTCAGAAGTCATTACATTTTGCTTGAGCACAGGAAAAAGG
AAGACTGGACGCCGTACTTCGTTGTGTCTACTGTATTTGAGTTAAGGGTC
AGGGTTACACAACCCTAACCCTAACCCTGAACCACACGTTGATAGGTCTA
CGGTACTTACCAGGAAAAAGTGCCGCTACCGATGCGAAACGGACAAGGTA
CGGTAGCTCGCAGATACGTGGTACGAAGGGGATGACGTACGGCGGTGTGT
AGTAAATACGTGCGTGCTTCTCCGTGTGTAGTTGAGAGGAAAATGCCTCC
ACAGCAGTAGTGTCACCAAGAGGAAACCCAATGTAGACTATCAATCGGGG
CTCCGGTCGCATCACCGGCAAATAGTCGACTTTACCCGTAAGATACAAGA
TACGTCGTACAAGATACACACGCACTCATTGGGCGTGTCAGCGAAAATGC
TTGCTGTGGTTGTTACCAAGTGCTTGGATAAATCACAACACAGACCACCA
ACTTTCTGATGCAACCACCATGAAGGTACATCTACGCGGACAGCGAGTCC
GTGGGTGCCGTGGTGGAAACGCCGAAGCTTCTGGAGCTGTTGATGGGGGA
GGACGGCAAGGGGCTGGAAGGAGCGGATGGGGTGAGTTAGACAGAGGCCA
AGAGGGAGAGAGAGAGAGCGAGAGAGAGAGAAGGACGGGGCGGGCGGAAA
GAGGAGGAAGAATGAGAGCTTGAGAAACAGTTACAAGGGGGAGAAAGAAG
AAAGTGGGGGGACAAAGTCAGGCAGAAACCAAGACAGGAAGCCGGGCAGG
ACTGTCATTTCCGTTTCGCGCTGAACCAACCGACATTTCACGAAAATGGT
ATTAGAGCTTGCGGTTGTTCGGGTGCCGTTGGCAATGATTTCACATGTGG
TATTTTTGAGCCGATATTTGGAATGCTCCACCAGGCCTCTCTTAGTCTTG
ACCTGTCGTTGTTCCTCGTGTTGAAAGTTACCCCTTGTATCCGCTGTCCG
TTTTTTCGTCCTCTGGCAGGCCCTACCGCGGTTTCTGATGGTGCTGTTTC
CTCGCGGCAAGAGCGGTAAGGAGCTGCAGGAAAGCCTTAATATCCCCGAA
TCAATCAAGGTGCGCCATAGTGCCAATCTGCTGCGGTGTTTCAGTGGCGA
ACAATCACCATCGACAGCCACCCCATGATCGCCAACATGAGATTTTTTTA
CCAAAAGTACTGGTGGGCGTGCACAATACGCAAAGTGTGCATACACATTT
TTGTTTTCAGGGCTCAGGGTAGGGTTACGGTTAAGACAGGATGGACCAAC
AAAGATGCCTTACTGTTTTTGTTGTTTTGTTGATTCTCGAATTGGCTCAC
CGCCTATAGTCTGGCCCGTGGGCAGAAACCAGGCACGTATCGTGCGAGGG
GGAAAATAAATAAAATGAAATAAAAGAAGGCCGTTCGTATAAAAGAGAAA
AATATAGAAAAGCGAAGGTACCGCCCTGACTCAGGGGTACCTTTATTTTC
TGTCACGGCAAAAATGCAGAAAAATACAGCAGCGATGCATACAGACTCGA
AAAAATCGAAAACAAAACAGCCAAAAACAGAAAAGACCCAGATTGAGTGC
TGTGGACCCTTTCGCCACCCGCCCCGGTTCCTCCCCTTCTGTTCTCGCAC
CGCCCATCCGAGGACATCCGACGTTTTCCGATGGCATCCGATTGCATCCG
ATGATTCCCATCCGGTTGTGGCCCTCCCCCTCTGTGTTGATGTTCCACCT
CAGGTAGTTACTTTCACGGGAGTGCCTACAAAGCGAGGGCGTTCTGGATT
CTCCTGCGATTGACCAATCGATGAAAGGCACATCTGTTTGTATCCCTTCC
CTCATGTGGTGATGTTCCACCTCAGGTGGTTACTTTCGCGGAGTGCCTGG
GGAGCGGAGACGTTCTGGATCCTCCCACGATTGAGCGATCGATGAAAGCC
ACCTTGGTTTACACGTCTGGAACGACCGGGAAACCGAAGGGGGCTGTCTT
GACGCACGCAAACTTGCTTCACCAGGTGTGTGTGTGTGTGTGTGTGTGTG
TGTGTTTTAAGTGCACCAGCAGTGCCGAAAGGGAGTGCCGTCCTCAATAG
CGCCATTGGTGTCCGCATGACAGTGTAGCTTGCAGCGTCTTGCACGCATC
ATCGCGTGTTCACTACTATTTTACCAATAGAACAGGTTGTGAAGCACGAA
CGTTAAAAACGAGGGACACTCCCTGCGTCCCAAGCACGCATGGCAATTCC
GTCACTCGCTTTGACCCCCGCCGTTTGTTCGTTTCTATATTGCATCTTAG
CTTATCCTCGCCGTTCCACCTGGCTCGAGCTCAGACTCGTGTGCCCAACT
TCGGTGTTGTCTCTTTCGTACATCTTGGGTATTCAACCCTTATCAGTCAG
CGTGGACTGCTTCCTACACGAATCTCCGTTGAGGGCGATCTCAACGGTAT
CGTATTCGCACAGGAGTTAACAGCATGTGGTACACGTGGGTTGCAGGCTT
AATGTGGTCATTTTTGTCGAGCAATGGCGTTCATGCTTCTTTCACTCAAG
GGGGAGGCTTTCAGTTCAAGCCAGGCGGTTTGTTGACGACGGAAGTGCCG
ACGTGAAGAGGCCGTTTCCTGGTGCCTCTTGGTCTCGGAGATGACGTCAT
CGTTACCGTCATCTCTTCGGCTCTGTTACACGACGAAAAGGGAAGCATCC
CACCGCCTCAGCCCTCGTCGGTTCGACCGCATACCCCTGCTACTGTAGTG
CCGCGGCAAGTACGAACGTTCACGAGTGTTTGGGCAGCCACGACACGATC
AAAGCACCAACGCCAATCTTTGTATAGCCGCCGCAACACGAGTGCGTACC
AGTTTACTTACTTCGAAGAAGTCTAGGGTCCTCGTTTGATGGCTGATCTG
GTTAATAGTAGCCTTGTTGCGTGGTGTTCAAAGTAGGTGTAGAAAACCTT
GAGTTTTTTTCGTGGGTTGAAGGCGCCGGTCTACAGAGTGGCACCTAGTC
AGGTGTGTGTGTGTATGTGTGTGTGGTCATCCCGTCTCATCTGGACTCCA
GTCTACACCTTGAGGTGCCTCAAGGTGGTGTATCTAGAAATACGGTATTG
GTTCGATGGCGAATACGGTGGTACAGTAGTTTCTGGAAGAAAGATGAAGA
TGGTGATGGCGATGGCGATGGCGACGATGTTAATGGCTGCAGGTCTCGCA
AAACTCTTTCGACCGATCAGAGGGGAGCCCGATGAACCCGTGGGTTGGTG
ACGTTTTCGTGTCGATCCTGCCCTGCTGGCACATCTTCGAGAGGACCGCC
GAGTACTTCACGCTCACCAGGGGCGTCACCATGGTAAGTATGCTACGTTT
ACATAGATAGGTCGATATCACACTGCCGTATTCGTGGGAGACGGGAGGTG
AAGCATGGCTTGTGTGGGCGGATATTAACGCCAAATGTAGTTTGTGTTGC
GATTCGACGGTATGCTGCGAGGGCGCCAATAACCCAAGGATTCGCCAGTT
CTGGGTGTGAAACAGAAACCTGAATTTCCCAGCAAAGGCACTACTGCTTT
GCAGAGGGGCAGAGAAACTCGGGCTGAAGGTGTAAGGTGAGGTGTCAGGA
CAACGCACCCAAGAGAGAAGTCTCACCGGTCCTGTCTTGGCTGCTGTGGT
GTGGTAGGCAGGCATGTCGTCTGTCATCTCCATGTAACTCCACAAAAATG
GTGTACTGCTTTCCTACTACTCTACTGTATATCGTGCACGGCAAGACGGT
GTAACAGGAGAAGCGTGGCGTTGATACTATATGGTGGAAATACGGCAGTG
TTGCAAGGCGAGGGTGTTTAGTAGACCACAGGCATGTCTCATGCCGTAGA
ACTTTGATCGATCATATCATCCCCTGGGCGACGAGCTCAGACTCTTGAGA
TGGAATCTCCACCTCGTATGATTCAATGCAACGCGCTGACACCGAATCGC
AAAAGGCCTCAGGGTTCAAACACCCGTGCTTCTGTCCCCTGACACCCGTG
TCTTCTGTCCCCTGTGCGATCGCCCCCTGATGCTGCTCATGGCCGAACAG
GTGTACTCCAACGTCCGCAACTTTAAGAGCGACCTCAAGAATTTCAAGCC
TCACTTCCTGATCGTTGTGCCCAGGCTGCTAGAGACCATCTGGAAGGTGG
ATGCGGGGTTGCTTTTTGGGTGCGGGAGCATATTTTATTAATCCGTCCAT
GCTTGAACGACTTTTCCGTTTCGACATCCTGGGTGCTTGGTCGGTGTTGC
TCTCCCGGACAAGTTGTGCCGCAATCGTCGCCAAACTCGCGACCGCGGGG
CTTAGAAATGGGGCGAAATGCGCTAAAGGTACCAAGCAGGGGGGGCGAAA
CCGAAGGGCCCTGCGTCCGCGCAGGCGATGCCTGGCGGTGCTTGTGAGGA
TGCCAGGCACAGGTTGAGAGAGGGCTACAATACTGCTGTCGATTATGACG
CTCCTCGTGAATCGTGAAATGTGTTTTTGAACCTATGGCACGGCACACCC
CCCCCCCCATGCGCGCTTACGAACGCCTTTCCCAGGGGGTACAAACCCAA
CTTGCGGCGAAGAGCAAGGGAGCACAGAAGGCGGCGGGAGCTTTGACAGC
GGTGTCCAGCTTTCGCATGAAGGCCGCCAGACGGTTGAGCGGGGCGGTGA
TTCGGGATGCACAGCCCAAGGCCCCGGAGAAGGTACGTGGTGTTGTAGAT
TATTATAGTACGCTTGGAAATACCAATCTCGTTGGGTTTGATACACGGCA
TTTACTGTAGTATGCATCATAGCATGAAACGAATGCCAGGGTACCTGTAC
TATTTGGCCGTTTTGTTGGCTTCGGATCGTGTTTTGTGTCGTACGATGTG
ATGATGATGGCGATAATGATGATGTCACGCCATGTCAACTCATGTCATGA
TATGGTATATGGTTGCGAAGTGACCTTTAGCAATAGCGCGCGCATGATTT
CACACTTTTTTCCCTCGGCAAACGGCTGTGGCAGGGCGGCTCTAGTGTAT
AGTGACATGGCAAGTGCCTCGGATTCGCGTGTCGCGTTTCGATCGATTGA
CTGGTGATCTCTCTTACTTGTTTCACTCGCCTCGTGCGTCGATATTTGTA
TACTTCGAAGTATGTTGCAGTATTTACTCAGAAGATAGCTGTCGTCCCAC
TGTGTAGTCTTGCTCGTGGCTTCCCTTTTTTTCTGTCTCCCCTCTGTTTT
TGTTTTGCTGTCGCTGGAAGTCGCTCGCTCTCTGAGTCGCAAATCGTTGG
AAACCCGGCGAGACCTCTTGACAGCCAAGATAGAATAGTAAACCCGTAGA
CTTCACTATTTTCTCTTTTCGTATGCATGTGGACCGGTATGTCGCATATC
TTGATTCTTTCGTTTTTCGCACGACTTCCGTACACCGGGTTGGACCAATG
CTGGACCAGTACGGTACCTAAACGAAATGCCTGTGTGGGTTTTTGTTGTT
GGCACATCTGCTGTCGCGCTGCCGTGTGGTTTGTCGCACCAGGCTCTCTC
GGCGGTCGTGATGGGCCTCACGCTGCCCCTCAAGCTTGCGGCGGAGAAGT
TGGTGTGGGGGAAGATCAGGGACGGGGTGGGTGGGCGTGTTAAGGTCGTG
GTGTCGGGGGGCAGCAGCCTTCCGTCCTTCCTGGAAGACTTCTTCGAGAT
GGCCGGCATCAGGTGTGGTGTTTCTTCATGTTTCGCTTCGCTTGTTTTGG
CGGACCTCGCTATCCGATTGGCAAGAACAAAAACACGTCGCTTTCCAGCC
GATCAACAACCAAAATGTCTCTTTACATTTATCTTGCCCTCCCAGGAGGG
GGGGGGGGGGGCGGTGTAAGGTGAATACCATAGTATTGCTCCTGCTACTG
GTTAGTGTCGCAAACCAGTGTGAATCGTTTCCTACTCTACTTTAAGCGTT
CCACCTGCGATGTCCACCAAAGATGTGGAGTGGAAAAACCCGGATGGCGC
CCGTTGGTGTAGGATTTCTTTGTGCTGGGTGGGAAAGGGTTCGGTCTAGG
ATTCGTACTGGTACTGGTTTGCATGCACAACGCGTGGATGCCTTGTGTCT
TTTGTATCCCTCTGAATATTCTGTCTCGTGCTGCAGCCCTTGCTCTCACC
GATGAACCCACAAACAACAGTAAGGTGGTACGGTGTCCAGGTTGAGGTGG
CTGTGAGCCGTAGTTGTGACCCCCACTTGCATCCCAGGATTGGCGTTTCA
AACAAATTTAAGGAGGGGGGGGGTCCGACTCCTCATGCCCAACTGCGAGC
GTGTGCGGGACCCCGAATCCCGAAAAATTTTCCAAATGCTGCCCACTTGG
AGCCAACTTTTCCTTGCGCCTCATGCAATTACTGACCCCCCACCCGCGTT
TGATGTGTCTCAGTTTATCTTAACAATCCATTCAATCTGAGTTTGTATTT
TCTTTGTTTTGCACTGCTATGTTTAGGGTGCTGGTGGGGTACGGCCTGAC
GGAGACGTCACCGGTGATCGCGAACCGCGTGGCGGGGGACAACACGAAGG
GCACCACCGGCAAGCCCATCCCTGGATCGGAGGTCAAGGTCGCCGATCTG
GAGAGCGGACAGCAGGTAGCCAAGCACCCCCTGCTGTCAACGATGGTGTG
CCACAGCTGCAGCAGCTGTGCAGATTGGTTCAGGAGTACGATACAGTTGA
AGAGGAATCCATCCATGATATGGTGTGTGTCAATCATGCTCGCCGACCTT
GTCTGGTGTTGACCCAAACAGGGCTGTCCACGTACTGCGCGGTTTGACGA
CAATCCATGGCCCCGAAAATTATTCAAGATACAATTGCTGCTGTCACTTG
TTGAATAGGATTCTACTTTTTTTTCGTTCGCGATACCAAATCCTGCATGA
AGCGGAGCTTTCAAAACGCCGGTTTCCTTTCTTTTCCTTCCGCTGCCAAT
CCACCAGACCACCACTGCTGTTTTTGGGTCAATCCTGCCGTAGACCCGAT
CGCCCCCATTCACCCTAACCCTTGTGTTGGAATACTCAGAATTTTGATTC
GCGTTGTTCGCGCTGCCAACATGAAAACCCCTCCTCCTCAGGTGGCAGTG
GGGCAGACGGGGAAGATTCTTATCCGGGGGCCTCAGGTCATGTCCGGATA
TCAGAACAACCCAGAGGCTACTGCAGCCGTGATTGACAAGGAAGGGTATT
TCGACACCGGTGCGTTGAAGTTCATTCGACCTGAGTCCCATCGCCATTGT
CTTTGTTGTTGTTGTTTGCTTTCGGAGGGGGCTTTTGACTTCCATGTACA
AGTACTAGCATTGCGTGCCACATTGTTCGAGCTTGTAAACCCTAAAAAGT
TGAAAAGCGTACCGGTATGCATAGTTTGATGCTTCGTTTTTTGTGTGGTG
GGTGCATGCTTTCCAGTGTTGGCCGTTTCGTGTATTTGTGTGATTCGTGC
TGGCGCCCTGTCTCAAAATGCTCCAGATTTTTTGGAGCTGGTTCTCTGAC
GCTCTGGCGACCTAAAAGAGTTTCACGGCTCCCAGTTTCACAGCTCCCAG
TCATTTCGTGGTGTTTTGTTCATGAGAACAATCCGAACCTCGCTGATGTT
GAGCCATGTTTTTGTATCGATACTGTATACTCCGTATATTCTTCATCCCA
AGCACGCCACGTGAACCTTTCCAAAGCCCTTGGGCAAGGAAAGCGTCGCG
CACAACAACTCACCCATACCGTAAACTACGGAGTTTTCCCCCCCCCTTAG
AGTTTTCCCCCCCCCCCATCACCTTTTCGGCCTTGAAGCATGCATACTGA
GTTTTAGCCCCGGGGTAGATCGTTTTCGACAAAAAAAAAACAGCTCCCCC
GGGGTACGTCAATTTCCCCCCGGGGTACCAATTTTCCCATGACATCCCCC
CGGGGGGATGTATTTCCCGTGTTTTTTAAGGTCGGGTTTTTGGCTTCGCG
AAGCACAATGAACATGATAGGGTACGGAAAGTTCATCTGCAGATCTGCGC
TTCGAGCGAGATTTGTGTTATAACGTACGACAATTGGCCTTCGACCTTGT
TTTTAGGTTAAGCGCTTTGTGTTTTGTTGTGTCTTGTATTAATATTTTAG
TCTCTGGAGTCCATCTGCAAGTAAAACGTACCACAAAATGCCGACACACC
TAGCCCAGGAAGGGTGCAAAAATACTTCGTATTCATTTTTGGATCTCAAC
ACACACTAGGTAGAACCGAATCACAAACATATCGTACTTCCTGCGGACAA
ACACTACGAATGAACTCTTGTGCATGAGCTACAGCAACACCTCTCCTGCG
ACCCGACACAAACAACCCGACCCTGTGCCACACCCTCGCCACGGCTTGCT
TGTCTCCACCTAACCCAAACTACAACTCATCATTCTCTGAACCCTCTGAT
TCCTCCTCCGCCAAGTCAATGACGTCATCAGTGCTATCTTCCTCGTCCGA
GTCGTCCGGGCGCGTTAGAGAGCCTGCCAGCGTTGCCGCCGCCGCCGCCA
CCGTGTCCTCGACGCCGTCTCCGGTAGGGATGACCGGTAGCTGGAGCGGT
TCGAGCCCGATGCCGTGCGCTTGCTCCCACTCCTCGCGCTGCTCGCGAAG
AACCTCGCGGTAGTTGTCTCCGAACGTGTAGATGCACCACGCGTGGTCCT
CGCTTCCGTCGAGGTTGAGGGTGAGACCGCAGACCTTGAAGCACGAGCGG
ATGGTCCGCTCCGAGATGTTGTCCCACACCTCCTTTACCCACGTCGCGAC
CAGCCCCCTGCTCGGCGCGGTCACCTTCTGCCCCGAGCGCCCGTAGTTGT
CCCGGATCCAGCTGGTGTACCTGGCCCGAACACCTCGCTTGAACTCCTTG
TTGATGTTCCGGTCGAGCGGCTGGCACACCGGGGTCAGCCCTCCACCAAG
CATCACCACCAGCGTCTTGGCCAGGTCCATTAGCTTCTTTTGGAACCTCT
CTTCCCGGTGGCACCTGAAGTCGTCGAGCACGAGAACGCTGGGACGCTGA
TCTCTGGAGGTAGACCCTGGGCGGCGCATGAAGTCCTGGGTTACCCACTC
GTCGGACTGGGTGCCGTCGCACCACGACGACTTCTGCACCCCGAGGCTGA
TGCCGCCAGCCGGGTAGCCGAAGCTCGTCCGCTTGTCTGGGAGGTGCTCG
TACGACAGGCTGTTCTTGCCAGGCTTCTTGGCTGAGCCTGACTTGTTGGT
ACCCCCGACGAAAGGGTTCCCCTTGTAGATGATGCGCGGCCGCACCTTCT
GTCCATCACCCCGGACAGCTAGCACCACGGTGTACCGCAGCTTCTCCTTG
CCTGGTGCGAAAATTGGGGCGTATGCAAACAAAGGAAATCGTGTTAAAAG
AAAATACTCCGCAAAGCAGTACAATTATTAATCGTATTGCCTGCCACAAC
AAACAAAAAATAAATAATAATAAAAAACAAACACACACCTTTAACTCCTG
GGGTGTAATGCCTACCACAACATAAAAAGTAAAATAGAAACAAACTCCGG
TGTATACGGTAAAATATATATTGCCCCCCAAAACATATGTATATTAAAAA
AAATACTTCAGCGGAATACCATATGAATAATTTCATCGCTGTGTACCGGT
AGTTCGAAGGGACAGGCGATACAGCAGTACGTACCGTACTTGCAGGCAAT
AGAAGAACGAAAGCGTGCACGTGACGGCAGAAGCAATGCAAAATATTATA
ATTCCCCGTTTTTCCGCCGTCGGCAAATTTGTAATTCCCCGCTTGTTCCA
TCGTCAGAAAATCTCCACCATGTTGGTTTGAACTGAATTTCAACAATCGA
AATACCTTTAGTACACCGTCTCACCTCCTGTCGTGATGCAAGCGCTCTTC
GTACCAGTCTTCTCCACCGTGGTGTCCGGCGGCATCTCAGCCTGGATCGG
GGTCTGGTCCATGTTGTACAGAAGGGCGAAGATCTTGCCCTGAACAGCCA
GAAGTTCCTCCGCAGTTGCGATGACGTCCATCTCGATCTCAACGGTCCCT
CCGTCCTTCGCTGCCTGGGCTGCCCTCTCCAAGAGAACGGCTTCCTGCGC
GTGCTCACGCAGGCTTGAGCGAAGCTTCTGGATGAATGCCCACGCCTTGC
CCTCCCATCCTTCCGGCTTCTTCTGCCCCACGCTCGTCTTGCGTCGGATC
GAGAACCGGTGCCTCTTGAGGAACCTGTAGTACCAGGCGTTGAAACGCTT
CTGAAATTTTTCCATCTTCTCCGGCTCGTCTTGGGACGGCATGCCCCCTG
AAAAGGTTGGCATCTCGGAGAGAAGCTTGGCCATGACGAGGTCCCGGGTC
ACAGCAGCACCGTTTTTCCTGAGCGTGTTGATCTCGTCCACTATGGCCAC
CTCCACCTCCTTCGTGTCAGCCTCGCGTCCAGTGTGCAACGACCGCTGCT
TGCTTGCGTTCTCCTTCTTCGAAAACGCCACAAGCTCTGCCTCCTGGCTC
TCCCAGTCCCGGATCAGCTTCTTGTCGATGCCGAACACCTTCCGCGCACC
ACGCCTTCCGACTGGGTGCCCATCACCACACGTTAGCCGGCTGAACTTCA
GCACCTCGAGCTTCTGCGCGTTCTCGTATGCGCACCGCCCGCTCTTTCCA
GATACTCGCCGCAGTGTGAACGGAGCTGGCGGGTACTCTCTGGAAGGCGG
GCCCTTCTTCTTCTTGGCATCACCAGAGGGACGAAGCAAACTCCCCCAGC
TGCTGTCCTCCTTGCTTTCTTCTTTCTGTTCACATTCTGCGCTCTTTTTA
CGTTCCTCAACCCTCTGCTTCTTGAACGCTTGCTCGTAAATCTTTTCCAT
CGCGGGTCGCTACTCTGTGTGTGTGTGGACCACAAATATTTTGCACAACC
CCCGGGGGGGTACTTCCCCCGGGGTAGCACTGAGTCAAAAATAACTAACC
CCCCCCGGTACGTCAATTTCCCCCCGGGGGGTTTGATTTCAGAAAAAAAA
AAGATCCCCCCGGCGGGGGGAAAACTCCGTAGTTTACGGTATACGGCAGG
ATTCCCCCAATACTAACGGCATATGTGGACTCCAAGAGTCCGGGATAGCA
TGGTTTAGCATCGCGCCCATCCTTATCAGCCGGTTGAAAAACGGACCCGT
GTGGGGTGCCGACCCTCGCGCCAACTTATACGAAGTTCTTCGGAGTACAG
CAGTAGTTTAACATTTGTCTCCAACCCCCTTCTTTACTATGTACCCCATC
GCACCTTACCTACTTCGCTATCCTTTCCTTACTATCCTGCTCGTGGCCGG
CAAGGCGACGTGGGGCGGTTCAATCCTATCACGGGAGACCTGGTCGTTAC
GGGCCGGGCGAAGGACACGATCGTACTCAGCAATGGGGAGAATGTCGAGC
CTCAACCGTTAGAGGTGAGAGGCTTCCAAAGCTAAATGCCGCACAGTACC
ATGCATATATACAGATTCAAGCCAGTGCAGCACTCGTGTACTCGTATACC
TGTACGTGTTCGGGTCTTTTTTTTTTTTAGCTTTCGCCGTAATTGGCGCG
AACATCGTTCGATCGATGCACGATGGAAGTCGATACGTTTCTTTTTTTTT
AATTGTGTCATGAGATGGAGACGCTCTTCACAGTACAGTCGGGTGATGCG
AGGTGTGTTCAGATAGCTTTTTGTTGGAGCGATGTTCGATCGAGCAAACG
ATACTCTTTCCTTACCATCCCAAATCAATCAACTTGCGGCGTTGGCCTTA
AAGAAGAAGACATGGCCATCCCGAAAGGGAAGAGTAGGATGAGGGTTATC
AAGACCGGGGTCGGGACAACCTTAATCTTCTCGTGCATGAAATTTTGTAC
GAAACACTATCGCCTGCATCAGAACGCCGTTTGAGCGATGGGAGTTTCCA
GATACCCCGCTTGGATACTTGTAGTGTTCAATGGCTGGTGAAGTTGCCCT
TTCATCGGACGCAAAGTGCCTGTCTTGTCGTGCATAGGTTATCACCTCAA
ATGAACAAATAGACAATTGGACACATGCTCCACCTATACTCACAGAAACA
GCGTTCACATCCGCTCTCTCGAAGCACGTGTGAAATTCAGTGTGAATTCG
GTGTGAAATATACCCACGCATCTTGTATTGTTCTCTTGCCTATGAAGCCC
CCCCCCCCCTTTTTGTTTCGGCGTGTTTTTCTTTTCCACCGGGCTCTCCA
CATGAACTCGCCGCGTGGCTACAGGACGCGATATCGGGAGAGTGTTCTCT
GATTGACCAGGTGATGCTCTTCGGACAAGACGAGCGTTTCCTCGGAGCGA
TCGTCTGCCTGAACCCTATCAACTTGGGTGCGGCCGGCATTATTTCGCAG
GTGAGGCACTCCACTGTACCATAGCTCCTAATCTGGCAATCCCTCTCCCC
CCCCTGCCGCCGCATGCCGCCATTGAGGGTCTCATCAATCGCTTTGCCGC
ATGTACCTGTGGAGGCCCATGCTACCCCGTGTTTTAGTGGACCAAAAACC
ACGGCATGTTTGCATGTGTTCAGCCTACCTGCTGCGTGCGAAGTACCAAT
TACGCGCGCTTGTGTAGTGGTTTGGACTTGGGTCGGCTTGGGCCGCACGA
AAGACAAACGCAAAACGCCGTCCAGCTGTGCGCCCACCAAGCATACCTCT
CACTGCTCGAGAAGGAGTCAAGGCAGCTTATAACGGGGGTGCTAAAGAGA
GCAGGAAATACACAAAAATCACTATTCCGTGGCATGTGTCTCTGCGGATC
GACGACATTTCCAATGCTCTACGTTGCGTGTCGTGTGTGGTAAAAGGGTT
GAATATTCCATGCTTTGGGGGCTGGTTAGTCGGGCAGTGCGAAAGTCGCG
AATGAGGCAGCACCACACGTTTTGCCGCCCACTTCTCAGACGTGCTTGGA
ACGTATCATATCTGCTTCCTGCATTTACCGTTTACATCGCATGATTTCGT
AGCGGCGGCAGCACGTTGTACAACCCTAAAGCCCTCGGTTGTATCGCTGT
GCCCCCCCCCCCCCCCCCCCCCCCCACAAGCACACAAACACACACAAAGG
CGATGACCGGATTTAAAGTAGAAAGCCCTAGGGCAGTCGACAAAAAGGGG
TATACCTCCAGTTTCTAGGCTCAATAGGGGGGGTGTTTTTCGTACCGTCG
CGCCGGGATGTCGCTCCTTGGTAGCTTTTGTATTTCGGTCTTTTTAGCGG
AAACAAGGGGGGTTTTCACCGTCGGAAATCCTGAATCTGATACTTGAAAG
TACTGAATGAACGAGAAGAATGCCATGCCTTTTATTTGACACAGATTCTG
CTGGGCGTACCGTTCGCCACGTTTAAAATATCTCGGTGTGCTGCCTCTGA
TATCTCGGTCTGCTGCCCTTGTGTATGCCGCGCGAACCACTATAGCAGTA
CCGCTGCAGTTGTACCATACCATTGGATGTATGGTTATTATTGTACGCAG
CAACAATCATTGACTCGTGAACGTATTTGGGACATCCCCACATGAGCCAG
AGTCGAGCATCGTTGTTCTGTTCAACGCGCACTGTAATATGCCTTCTTTA
GGATACTCAAGGTCGTGCAGCGTTGCCAACATCAAAATGAGTGCACGCAG
CAGAATGGCATGCATACCGCAGTAGAACACCATAAATGAAGAGGGCCAAA
CACACCCACACACAGCATTCGTACGATGAGAGTTGGGAGCTGGGCGGACA
GACGAAGCGGCGTAACATAACAAGCAGTGAGGCATTTGCCGTACATCTTT
CGTCTAGACAGCTACTGAATACGCAGCCGATTGGTGATTCCCCTGCGGAT
GGTTCCGCGCGTGGGAGGCGAACAAAAAGGGGTGAAATGTGTATGATATG
CTTTGAACAAGAAGATAATTTTGGGTGAACACAATGGGGTAGTGCATCAT
TTTTGAGCTGAGAAGGTCTACTCTCCGGATTCGTCAAACAAAAGGGGTAC
ACTGAGAAGTCGTACGTTTCCACGCCCCAGACAAAGCCATTCCCACTCGT
AAAAAGACAAAACAAGCGTTTGGCACGCTGCCTCCACTCCGTGTCTGTCG
GTCTGAGGCGCCAGATTCCTTTTCAGAGCACGTCGAACCGGCACGAAGAA
GAGCACTACCCCCTTTTTGTGCCTAAAAGCAAGGGGTATACCCCTTTTTG
TCGATTCCCCAAAAGCTCATCCCGATCGCGAGTGCAGAACCATAAAGCAG
CACACCTGACCGGTTCTGATGTCATAATAGAACGCGCGCTTCCACGGGAA
ACGAAATCACAGCGAGCCTCATCTCAAGACTCTCCTTATGACCAAACAGT
CCAGCAGCAACCAAGCATTAAGTATGACCGATTGTCGATGAAACTCGACC
CAGTGTCGATGAAACTCGACTCAGAATAGCTCATCCACGACATGCCTCGA
TGCTGCTTTTTTGTTTCTGGTTGTGCTTCGGGGTGGTTTCAGGGGGACGC
GAGTCGTTACTCTGCACTTCTTGGCCCGACGCCTCTCACAACGGGTCCGG
TGGGCACCCCTCAGGAGCTGGAAGACGCAGAAAAGGTCAGAAATACCAGT
AATCGACAAGGATAGTATTGCAGTGGTGGTGATGGCAGTAGTCGTTACCG
TGGTGGAGGTGGTGAATGGAAATTATGTTTGATTCAGAAGACTGCGAGGG
TATTGAAGACTTTATTGAAACTATCAACATGGTACATTGGTGGTTGACGT
GTCGTATATTGTTAACACGATCGCGTATTAATTATACCAATATGATATTT
ATGTACGGAGTATTTCTTTTATTTCGGCGAGAACTATACCTGTCTACGCC
AAGGAACAGTGCCGAGTCTCTTCCTTCGCAACTGGCCATCTTTGGCTTAG
TTTGGCCGCGATGGCCGCCTCCTGTCGCCCGTCTCTTAGCAAAATATGGA
GCTAAAAGAGGAAGTAGGACTTCTCTCCACACATGTACATCTGTGCCGTT
TGGCGATAAAGAAAAAAACGAGCGTTGTACAGCATGTTCTGCGTGCCGTT
GGTTGTGCCACGATCACCCCCGGGTCCACCAGAAAGACGCCAAACCGCAT
CGTGATGGAATACAGTATCCCTGCACGAAGAGAGCCCTACCGCACCACGC
ACAGGTTGCATACGGTACCGTACTGTAAGGCATGATACCCTCATAAGATA
CCACACCCCCTGAGAAATGCTTCGAAGTTTGAAACAATACCACACCCGTG
CGTTCATTTCTTAATCCCGACCTGGGTCATGTTAGTAAGGTACAATCAAT
TACAAGGAGGTTCGTTTCCGCAAGATTATTTGCGGGCTGTCATATGATAC
GTACTCAGATGCGAGCGCTCTCCTCCACCAATCTCCGGGTATACCGCCGC
CGACGCCACATTGAAACCCTTCAACCAACATTGTATTTTACTGTGTGGGG
TGGTACAGGAGATATTGGCCGCGCCTGGGCTAAAAAAAGCCGTGATGGAG
CAGCTCAAGTTAGCAGCGGGGGAGGAGCGGCCGTGGGAGCAGGTACGCCT
CTTTTGTCGCACCTGAGCGCGCCGAAGTGTGCGGTAGTGCCTGTGTACTT
TTTTAGGCGGGTCGGGAGCTTCATCGGGACTGCTGTAGCTGCAGCGGCAG
GTGCATGCAGTGGCGCGATAATTTCGAGTACAGCAGCACATTGATTTTGT
ATTCGTGGGTTTGCTTGTACTTCGAAGTAGCTGTTTTCGGCCTTGGTAGG
AAAGTTCGGGACAGTTGCTCACAGCCAAAATGGTGTCAAATACGAATTGC
GTGGTATTCCATTTTTGACGAAATCGCGCCGCTTTTGCATTTTCGCGTCT
GTCGGTGCTCCCACAGGTTGGCGTCGTCATCATGAAGTTTGAACCCTTCA
CAACTTCCAACGGGCTAATCACGCAGACACTCAAGACCAAGCGAAACGTG
GTGGTGGACAAATTCCAGGAGGAAATCGATGCTCTTTACGCCTCGAAACG
CTAATTGCTTCCTCGAAAATCCTGACGACTTGCTTGATTCGATTCCGTTG
CAGTTCGGATGAATCGACCGGATAGACTTGGTGCGGGAGGCGCAGCGACC
CAGAGAGAGACACACACAAAGAGAAAGATAACGAGCTAACGAGCTGTAGC
GGGAGAACCTAACCTCCCTTAGGTAGAGCAGTTCGCCCTCGATTCATGCA
TATCTGATTCGATCACCCGAACGGTAGACGAGGCATCCAGTGTCTCTCGG
CCAGATGGGCCTGACCTATCGGCCAGCCACACGGCTCGACTGTTGTTCGG
GTACGTGTGGTAGCACTGCCGTAATGTAGTCATCTGCAGAACGACCTTTT
CGTTTTGGCTTTTCATGCGCATGTCTTCAACTCTGAAGCCGGAGAGGGGG
GCGCTCTCTTTGCTGCTGCGTCGAGGGCTGCGCTTTTGTGAGCGTTTGGG
TTCGTGGGTGCTCGTTCTACCCAAGCAGAGGGTAAACCCCCGGTCCATTT
TATGTTTTGCTGGGTCGTGCCGCCATCCGTGGCCCATTTTAGATTGTCTC
GTTGCTCGTTTGTGTATACACACATCGATATGTGGCATCTTGTATTTTGT
TCAACTATATGTAATAGACTTTCTACGCAAAAGGCAGCTCGCTACTTGTG
TACCTATGTACTTTCTATTTTTGCACCGAGACTGAGGCGGTTGTTTGAAG
CGCTTGGCTTGGACTGGAGACCATGCGATCCATGGCACCTCCGCCCCACT
ACACGAACCTTGGACAAAAACTCGCCCATTACTGTATGATGTATGGGTAA
CCGCCTTGTCTATCTCCTCCCCGCCGGGCCCGCCGGAAGTGCCATGATGT
TCATAAAACGGTTGATGAATGTATTTGTGTTTTTTTGTGGATTGCTTTGG
TGGACGGATGACGGACGTGCAATTTACATGTTTGTTGAAACCGTGAAGTT
GGATAAGCTCCACACCGACAG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig650:97448..120018- >mRNA_P-littoralis_Contig650.21.4 ID=mRNA_P-littoralis_Contig650.21.4|Name=mRNA_P-littoralis_Contig650.21.4|organism=Pylaiella littoralis U1_48|type=CDS|length=2382bp|location=Sequence derived from alignment at P-littoralis_Contig650:97448..120018- (Pylaiella littoralis U1_48)
ATGAACAAGCTTACCTTTGTGCTTGCTGCACATGCAGCAGGAGCTGGCGC
ATTTGTGCCCACCTCAGGTCCATCATTACGGCCAGGAGAAAGAGAAGGAG
GGAGAACGAGCTATGCACACGGCGGGGGCAGAACCATCGCGGTGTCATCA
CCGCGACTTGCTGCTACAGCTCGCAGCACTTCTTGCAGAGCCCGAGGTAA
CACGGTGGCGATGATGGTGGCCGCATCAAGGCCCGTCGATATGCTCGAAA
CATCGACGTCGACATCGACGACGGCACCACCGGCGGCGGCATCAGCTCCA
GATACCGGCTCTAATTACCGCATGCTAGATACCAAGAAGGCCAGCGCGTC
GTGGAAGTCTTTGCCAGAGATGTGGGACTTTTTGGACGGTGAGTGCGGCG
AACTTACGGCCATCGTGGACCCCATTCACCCTCCCGACATGCCGGACGGA
AAGCGGCCTCCCAAAGGAGCGGAAACCCGGCTGACGTACTCGGAGATGCG
ACGGAGCATTGGGACCATAGCGTCCGCTCTGATGGGGCTTGGCGTGCAGA
AGGAGGATTGCGTGTCCGTATTCTCGGAGAACAGCTACCGCTGGCTCATC
GCGGAGCAAGGGATAATGAAAGCGGGCGGGTGCAACGCTGTCAGGGGAGC
GACAGCGCCGGTAGCGGAGCTGAGGTACATCTACGCGGACAGCGAGTCCG
TGGGTGCCGTGGTGGAAACGCCGAAGCTTCTGGAGCTGTTGATGGGGGAG
GACGGCAAGGGGCTGGAAGGAGCGGATGGGGCCCTACCGCGGTTTCTGAT
GGTGCTGTTTCCTCGCGGCAAGAGCGGTAAGGAGCTGCAGGAAAGCCTTA
ATATCCCCGAATCAATCAAGGTGGTTACTTTCGCGGAGTGCCTGGGGAGC
GGAGACGTTCTGGATCCTCCCACGATTGAGCGATCGATGAAAGCCACCTT
GGTTTACACGTCTGGAACGACCGGGAAACCGAAGGGGGCTGTCTTGACGC
ACGCAAACTTGCTTCACCAGGTCTCGCAAAACTCTTTCGACCGATCAGAG
GGGAGCCCGATGAACCCGTGGGTTGGTGACGTTTTCGTGTCGATCCTGCC
CTGCTGGCACATCTTCGAGAGGACCGCCGAGTACTTCACGCTCACCAGGG
GCGTCACCATGGTGTACTCCAACGTCCGCAACTTTAAGAGCGACCTCAAG
AATTTCAAGCCTCACTTCCTGATCGTTGTGCCCAGGCTGCTAGAGACCAT
CTGGAAGGGGGTACAAACCCAACTTGCGGCGAAGAGCAAGGGAGCACAGA
AGGCGGCGGGAGCTTTGACAGCGGTGTCCAGCTTTCGCATGAAGGCCGCC
AGACGGTTGAGCGGGGCGGTGATTCGGGATGCACAGCCCAAGGCCCCGGA
GAAGGCTCTCTCGGCGGTCGTGATGGGCCTCACGCTGCCCCTCAAGCTTG
CGGCGGAGAAGTTGGTGTGGGGGAAGATCAGGGACGGGGTGGGTGGGCGT
GTTAAGGTCGTGGTGTCGGGGGGCAGCAGCCTTCCGTCCTTCCTGGAAGA
CTTCTTCGAGATGGCCGGCATCAGGGTGCTGGTGGGGTACGGCCTGACGG
AGACGTCACCGGTGATCGCGAACCGCGTGGCGGGGGACAACACGAAGGGC
ACCACCGGCAAGCCCATCCCTGGATCGGAGGTCAAGGTCGCCGATCTGGA
GAGCGGACAGCAGGTGGCAGTGGGGCAGACGGGGAAGATTCTTATCCGGG
GGCCTCAGGTCATGTCCGGATATCAGAACAACCCAGAGGCTACTGCAGCC
GTGATTGACAAGGAAGGGTATTTCGACACCGGCGACGTGGGGCGGTTCAA
TCCTATCACGGGAGACCTGGTCGTTACGGGCCGGGCGAAGGACACGATCG
TACTCAGCAATGGGGAGAATGTCGAGCCTCAACCGTTAGAGGACGCGATA
TCGGGAGAGTGTTCTCTGATTGACCAGGTGATGCTCTTCGGACAAGACGA
GCGTTTCCTCGGAGCGATCGTCTGCCTGAACCCTATCAACTTGGGTGCGG
CCGGCATTATTTCGCAGGGGGACGCGAGTCGTTACTCTGCACTTCTTGGC
CCGACGCCTCTCACAACGGGTCCGGTGGGCACCCCTCAGGAGCTGGAAGA
CGCAGAAAAGGAGATATTGGCCGCGCCTGGGCTAAAAAAAGCCGTGATGG
AGCAGCTCAAGTTAGCAGCGGGGGAGGAGCGGCCGTGGGAGCAGGTTGGC
GTCGTCATCATGAAGTTTGAACCCTTCACAACTTCCAACGGGCTAATCAC
GCAGACACTCAAGACCAAGCGAAACGTGGTGGTGGACAAATTCCAGGAGG
AAATCGATGCTCTTTACGCCTCGAAACGCTAA back to top
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