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Homology
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: F0YG13_AURAN (alpha-1,2-Mannosidase (Fragment) n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0YG13_AURAN) HSP 1 Score: 492 bits (1266), Expect = 3.080e-154 Identity = 260/447 (58.17%), Postives = 322/447 (72.04%), Query Frame = 1
Query: 1450 RLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGL-DVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGFLTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSLKA-CRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAH 2784
+ E RE+ R MF YD YM HAFP GELLP SC LVK+P+VTLVD++D LAI+GN +EF+ VR ++ L D + DV+VSVFE+NIR+LGGLLSAHL ATD L L P D + G YD ELL LA LG RLLPAF+T TGIPYGTVNL GVP GETTVSSLAGAGSLS+EFSVLSAL+G+ F A + +AL+ RS LGLLGKHI+ ++G W E SGIG+N DSFYEYLLK+Y+++GD+++WDMF++ Y I VR+GDWYAD DM G + F+NL AFWPG+Q L GDV+LA+R+LNAF+ VW DWG LPE++D+ L YPLRPEL+ES L+HR++ D SWL A K LDS+ A T+CGYA V + +LD++MPSFFL+ET KYLYL+FD+DNF+H +YVFSTEAH
Sbjct: 18 KAEYREKARRMFYKGYDAYMAHAFPKGELLPRSCVGAHFDLVKLPVVTLVDAVDTLAILGNRSEFQGAVRRITEVLPDFDVDVNVSVFETNIRVLGGLLSAHLFATDERLDLME-PHGDLA------TGGYDDELLKLAVDLGWRLLPAFDTATGIPYGTVNLAYGVPRGETTVSSLAGAGSLSLEFSVLSALSGNPDFGRKARASARALYDRRSV-LGLLGKHINIRSGKWVEALSGIGSNSDSFYEYLLKVYLVFGDVDHWDMFLETYARIGDHVRQGDWYADVDMFAGKPRRQHFENLQAFWPGLQVLAGDVALAARSLNAFWGVWADWGVLPEEYDYGTSHLVATTSALRYPLRPELIESTYLMHRASRDDSWLHAAKLALDSIDAYSATDCGYASVLNAATHALDDEMPSFFLAETTKYLYLIFDDDNFVHAEDYVFSTEAH 456
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: H3G758_PHYRM (alpha-1,2-Mannosidase n=1 Tax=Phytophthora ramorum TaxID=164328 RepID=H3G758_PHYRM) HSP 1 Score: 474 bits (1221), Expect = 5.010e-148 Identity = 248/458 (54.15%), Postives = 318/458 (69.43%), Query Frame = 1
Query: 1447 KRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGF-----LTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKW--TLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSL-KACRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
+R L + +R+MF H+Y+GY+ HAFP +LLPLSC GE L ++P++TLVD+LD LA++ +ATEFRR V+LV D + D +VS+FE+ IRLLGGLLSAHL A + DL L+P DD YDG LL LA LG RL+PAF+T TGIPYGTVNL GVP GET ++S AGAGSLS+EF++LS LTG+ ++ + GAV+AL++ RS +GLLGKHI++KTG WTETSSG G+N DSFYEYLLKMY L+GD E +MF Q Y ++ + + GDWY D M G + F++L AFWPGMQ GD++ A+R++NAFY VWRD+GFL EQF+ W G G YPLRPEL+ES +H +T D SWL AG + SL K +T CGYA + DVE+ ++ MPSFFLSET KYLYLLF+ +F KG+YV +TEAHP I
Sbjct: 2 ERHALTKTVRDMFYHAYNGYLTHAFPQDDLLPLSCRGGEFELGRLPMLTLVDTLDTLAVLEDATEFRRAVKLVVENADFDLDTEVSLFETTIRLLGGLLSAHLFAVNTDLKLFP------EDD-------YDGALLRLAIDLGDRLMPAFDTVTGIPYGTVNLKHGVPKGETPIASTAGAGSLSIEFTMLSVLTGEPKYAAASRGAVRALYQRRSK-IGLLGKHINTKTGDWTETSSGPGSNSDSFYEYLLKMYELFGDRESLEMFAQVYPAVLEYNKHGDWYTDVSMYTGCHHHSGSSAVVFESLAAFWPGMQIAAGDLNSAARSMNAFYRVWRDYGFLSEQFNVGDWKPVKSRGGGGARYPLRPELIESTFYMHEATNDSSWLRAGAHVVHSLQKYAKTPCGYASIADVENKKQEDYMPSFFLSETCKYLYLLFNTTHFFRKGSYVMTTEAHPLPI 445
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: A0A6A5AAH9_9STRA (alpha-1,2-Mannosidase n=1 Tax=Aphanomyces astaci TaxID=112090 RepID=A0A6A5AAH9_9STRA) HSP 1 Score: 474 bits (1219), Expect = 5.050e-144 Identity = 250/460 (54.35%), Postives = 317/460 (68.91%), Query Frame = 1
Query: 1435 MSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGFLTLR-----TFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSLKA-CRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
M+ + EL ++ MF H+YD YM HAFP L P++C L K+P++TL+D+LD L + G+ EFRR V LV+ + D +VSVFE+ IR+LGGLLSAHL A DP L LY S+ S+ + Y G LL LA LG RLLPAF TPTGIP+GTVNL RGVP GET+V+S AGAGSLS+EF++LS LT + ++++ A AV+ LF RS LGL+GKHID+ TG WTETSSG G+N DSFYEYLLKMYVL+GD E DMF Y ++ + GDWY D M G L+ + FDNL+AFWPGMQ+L+GD + ++R+LNAFY VW+ + FLPEQFD +W K+ YPLRPEL+ES VH +T D SWL AG + SL+ +T CGYA + DVE ++++ MPS+FLSET KYLYLLFDE NFL K NYVF+TEAHPF +
Sbjct: 136 MTLKTKEELAATVKSMFYHAYDSYMTHAFPLDNLKPITCQGESFELGKIPMLTLIDTLDTLVVFGDKDEFRRAVALVTTHATFDLDTEVSVFETTIRVLGGLLSAHLFAVDPTLQLY----SNTSEPA------YSGGLLALAADLGDRLLPAFVTPTGIPFGTVNLRRGVPKGETSVASTAGAGSLSIEFTMLSILTKNPIYAQAARQAVRGLFFRRSA-LGLVGKHIDTATGEWTETSSGPGSNSDSFYEYLLKMYVLYGDSEALDMFEPVYSAVMEHNKHGDWYTDVSMWDGCLSNQHHQSFIFDNLVAFWPGMQSLLGDFASSTRSLNAFYQVWQQYSFLPEQFDVGRWRPKKQNRN-GYPLRPELLESTYYVHVATNDSSWLTAGALAVQSLERYAKTTCGYAAISDVETRTVEDTMPSYFLSETCKYLYLLFDETNFLRKANYVFTTEAHPFPV 583
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: A0A7S3ZNW7_9STRA (alpha-1,2-Mannosidase n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S3ZNW7_9STRA) HSP 1 Score: 479 bits (1232), Expect = 1.420e-141 Identity = 251/466 (53.86%), Postives = 312/466 (66.95%), Query Frame = 1
Query: 1426 RQPMSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLD--VEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGFLTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSLK--ACRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSIEVVRR 2811
R PMS R ++ + +F YD Y++HA P GEL P SC G LVK+PLVTLVDSLDALAIMGN+TEF+ + + G DV+VSVFE+ IR+LGGLLS HLLA D L L YDGELL LA LG RL PAFETPT IPYGTVNL G+P GET V+SLAGAGSLS+EF VLSALTGDG FS A A +AL+ RS L GKHI+ ++G W E+ SG+G+N DSFYEYLLK YVL+ D + + MF +AY +I R+GDW+AD DM+GG + F+NL AFWPG+Q L GD+ LASR+LNAF+ +W DWG LPE++D + L G YPLRPEL+E+ +HR+T D SWLWA ++L+ A CG A + +L+++MPSF+L+ET+KYLYLLFDEDNF+ K YVFSTEAHPF E ++R
Sbjct: 179 RGPMSLELRQSYKQRAKALFERGYDAYVRHAEPEGELRPRSCSGGPFDLVKLPLVTLVDSLDALAIMGNSTEFQSATQRIWQGFPDKFNFDVNVSVFETTIRVLGGLLSGHLLAVDASLNLTT---------------EYDGELLALALDLGERLAPAFETPTSIPYGTVNLRYGIPRGETPVASLAGAGSLSIEFGVLSALTGDGSFSAKASAASRALYERRSP-QNLFGKHINVRSGKWVESLSGVGSNSDSFYEYLLKSYVLFQDHDSYRMFEEAYSAIDSTTRQGDWFADVDMHGGKPRRQHFENLQAFWPGLQVLSGDLELASRSLNAFWTIWSDWGALPEEYDFARRRLVATRTGLRYPLRPELIEATYFMHRATQDDSWLWAASRVFEALEDVAEGARCGAASFANAATHALEDEMPSFYLAETVKYLYLLFDEDNFISKRPYVFSTEAHPFDAEQIKR 628
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: G4YQL8_PHYSP (alpha-1,2-Mannosidase n=3 Tax=Phytophthora TaxID=4783 RepID=G4YQL8_PHYSP) HSP 1 Score: 479 bits (1232), Expect = 3.810e-141 Identity = 252/462 (54.55%), Postives = 312/462 (67.53%), Query Frame = 1
Query: 1435 MSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGF-----LTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKW--TLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSL-KACRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
M +R L + +R+MF H+Y+GY+ HAFP +LLPLSC GE L ++P++TLVD+LD LA++ +ATEFRR V LV D D +VSVFE+ IRLLGGLLSAHL A + DL LYP G YDG LL LA LG RL+PAF+T TGIPYGTVNL GVP GET ++S AGAGSLS+EF++LS LTGD ++ + GAV+ALF+ RS LGLLGKHI++KTG WTETSSG G+N DSFYEYLLKMY L+GD E +MF Q Y ++ + GDWY D M G + F++L AFWPGMQ GD+ A+ ++NAFY VWRD+GFL EQF+ W G G YPLRPEL+ES +H +T D SWL AG + SL K +T CGYA + DVE ++ MPSFFLSET KYLYLLF+ +F +GNYV +TEAHP I
Sbjct: 152 MEEEERQALTKTVRDMFYHAYNGYLTHAFPQDDLLPLSCRGGEFELGRLPMLTLVDTLDTLAVLEDATEFRRAVALVVENADFALDTEVSVFETTIRLLGGLLSAHLFAVNTDLKLYPE-------------GGYDGSLLQLAVDLGDRLMPAFDTVTGIPYGTVNLKHGVPKGETPIASTAGAGSLSIEFTMLSVLTGDPKYAAASRGAVRALFQRRSK-LGLLGKHINTKTGDWTETSSGPGSNSDSFYEYLLKMYELYGDRESLEMFAQVYPAVLAHNKHGDWYTDVSMYTGCHHHSGSSAVVFESLAAFWPGMQIAAGDLKTAAESMNAFYRVWRDYGFLSEQFNVGDWKPVKSRGGGGARYPLRPELIESTFYMHEATNDSSWLRAGAHVVHSLQKYAKTPCGYASIADVESKKQEDYMPSFFLSETCKYLYLLFNTTHFFRQGNYVMTTEAHPLPI 599
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: A0A418DDL0_9STRA (alpha-1,2-Mannosidase n=8 Tax=Aphanomyces astaci TaxID=112090 RepID=A0A418DDL0_9STRA) HSP 1 Score: 470 bits (1210), Expect = 6.040e-140 Identity = 247/445 (55.51%), Postives = 310/445 (69.66%), Query Frame = 1
Query: 1480 MFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGFLTLR-----TFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSLKA-CRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
MF H+YD YM HAFP L P++C L K+P++TL+D+LD L + G+ EFRR V LV+ + D +VSVFE+ IR+LGGLLSAHL A DP L LY S+ S+ + Y G LL LA LG RLLPAF TPTGIP+GTVNL RGVP GET+V+S AGAGSLS+EF++LS LT + ++++ A AV+ LF RS LGL+GKHID+ TG WTETSSG G+N DSFYEYLLKMYVL+GD E DMF Y ++ + GDWY D M G L+ + FDNL+AFWPGMQ+L+GD + ++R+LNAFY VW+ + FLPEQFD +W K+ YPLRPEL+ES VH +T D SWL AG + SL+ +T CGYA + DVE ++++ MPS+FLSET KYLYLLFDE NFL K NYVF+TEAHPF +
Sbjct: 1 MFYHAYDSYMTHAFPLDNLKPITCQGESFELGKIPMLTLIDTLDTLVVFGDKDEFRRAVALVTTHATFDLDTEVSVFETTIRVLGGLLSAHLFAVDPTLQLY----SNTSEPA------YSGGLLALAADLGDRLLPAFVTPTGIPFGTVNLRRGVPKGETSVASTAGAGSLSIEFTMLSILTKNPIYAQAARQAVRGLFFRRSA-LGLVGKHIDTATGEWTETSSGPGSNSDSFYEYLLKMYVLYGDSEALDMFEPVYSAVMEHNKHGDWYTDVSMWDGCLSNQHHQSFIFDNLVAFWPGMQSLLGDFASSTRSLNAFYQVWQQYSFLPEQFDVGRWRPKKQ-TRNGYPLRPELLESTYYVHVATNDSSWLTAGALAVQSLERYAKTTCGYAAISDVETRTVEDTMPSYFLSETCKYLYLLFDETNFLRKANYVFTTEAHPFPV 433
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: A0A225X2I4_9STRA (alpha-1,2-Mannosidase n=1 Tax=Phytophthora megakarya TaxID=4795 RepID=A0A225X2I4_9STRA) HSP 1 Score: 473 bits (1218), Expect = 3.270e-139 Identity = 247/462 (53.46%), Postives = 315/462 (68.18%), Query Frame = 1
Query: 1435 MSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGF-----LTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKW--TLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSL-KACRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
M +R L + +R+MF H+Y+GY+ HAFP +LLPLSC GE L ++P++TL+D+LD LA++ +ATEFRR V LV D + D +VSVFE+ IRLLGGLLSAHL A + DL L+P G YD LL LA LG RL+PAF+T TGIPYGTVNL GVP GET ++S AGAGSLSVEF++LS LT + ++ + GAV+ALF+ RS LGLLGKHI++KTG WTETSSG+G+N DSFYEYL+KMY L+GD E +MF Q Y ++ + GDWY D M G + F++L +FWPGMQ G++S A+ ++NAFY VWRD+GFL EQF+ +W G G YPLRPEL+ES L +H +T D SWL AG + SL K +T CGYA + DVE ++ MPSFFLSET KYLYLLF+ +F +GNYV +TEAHP I
Sbjct: 149 MEEDERNALTKTVRDMFYHAYNGYLTHAFPQDDLLPLSCRGGEFELGRLPMLTLIDTLDTLALLEDATEFRRAVGLVVENADFDLDTEVSVFETTIRLLGGLLSAHLFAVNTDLNLFPE-------------GDYDNGLLRLAVDLGERLMPAFDTATGIPYGTVNLKNGVPKGETPIASTAGAGSLSVEFTMLSVLTEEPKYAIASRGAVRALFKRRSK-LGLLGKHINTKTGDWTETSSGVGSNSDSFYEYLMKMYELFGDREALEMFAQVYPAVLAHNKHGDWYTDVSMYTGCHHHSGSSAIVFESLASFWPGMQVAAGELSTAAESMNAFYRVWRDYGFLSEQFNVGEWKPVKSRGGGGARYPLRPELIESTLYMHAATNDSSWLRAGAHVVHSLQKHAKTSCGYASIADVESKKQEDYMPSFFLSETCKYLYLLFNTTHFFRQGNYVMTTEAHPLPI 596
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: W4FH29_9STRA (alpha-1,2-Mannosidase n=3 Tax=Aphanomyces astaci TaxID=112090 RepID=W4FH29_9STRA) HSP 1 Score: 474 bits (1219), Expect = 3.930e-139 Identity = 250/460 (54.35%), Postives = 317/460 (68.91%), Query Frame = 1
Query: 1435 MSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGFLTLR-----TFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSLKA-CRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
M+ + EL ++ MF H+YD YM HAFP L P++C L K+P++TL+D+LD L + G+ EFRR V LV+ + D +VSVFE+ IR+LGGLLSAHL A DP L LY S+ S+ + Y G LL LA LG RLLPAF TPTGIP+GTVNL RGVP GET+V+S AGAGSLS+EF++LS LT + ++++ A AV+ LF RS LGL+GKHID+ TG WTETSSG G+N DSFYEYLLKMYVL+GD E DMF Y ++ + GDWY D M G L+ + FDNL+AFWPGMQ+L+GD + ++R+LNAFY VW+ + FLPEQFD +W K+ YPLRPEL+ES VH +T D SWL AG + SL+ +T CGYA + DVE ++++ MPS+FLSET KYLYLLFDE NFL K NYVF+TEAHPF +
Sbjct: 191 MTLKTKEELAATVKSMFYHAYDSYMTHAFPLDNLKPITCQGESFELGKIPMLTLIDTLDTLVVFGDKDEFRRAVALVTTHATFDLDTEVSVFETTIRVLGGLLSAHLFAVDPTLQLY----SNTSEPA------YSGGLLALAADLGDRLLPAFVTPTGIPFGTVNLRRGVPKGETSVASTAGAGSLSIEFTMLSILTKNPIYAQAARQAVRGLFFRRSA-LGLVGKHIDTATGEWTETSSGPGSNSDSFYEYLLKMYVLYGDSEALDMFEPVYSAVMEHNKHGDWYTDVSMWDGCLSNQHHQSFIFDNLVAFWPGMQSLLGDFASSTRSLNAFYQVWQQYSFLPEQFDVGRWRPKKQNRN-GYPLRPELLESTYYVHVATNDSSWLTAGALAVQSLERYAKTTCGYAAISDVETRTVEDTMPSYFLSETCKYLYLLFDETNFLRKANYVFTTEAHPFPV 638
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: A0A484E270_BRELC (alpha-1,2-Mannosidase n=1 Tax=Bremia lactucae TaxID=4779 RepID=A0A484E270_BRELC) HSP 1 Score: 476 bits (1224), Expect = 4.290e-139 Identity = 246/462 (53.25%), Postives = 318/462 (68.83%), Query Frame = 1
Query: 1435 MSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADMNGGF-----LTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEA--GVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSL-KACRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI 2796
M +R L ++EMF H+Y+GY+ HAFP G+LLPLSC GE L ++P++TL+D+LD LA++ +ATEFRR V++V LD + D +VSVFE+ IR+LGGLLSAHL A + DL L+P G YDG LL+LA LG RL+PAF+T TGIPYGTVNL GVP+GET V+S AGAGSLS+EF++LSALTG+ ++ + GAV+ALF+ RS GLLGKHI+++TG WTET+SG G N DSFYEYL+KMY L+GDLE +MF Q Y ++ + + DWY D M G T ++L AFWPGMQ GD+ A+ ++N+FY +WRD+GFLPEQF+ W + GVG YPLRPEL+ES +H +T D SWL AG + SL K +T CGYA + DVE + ++ MPSFFLSET KYLYLLF+ +F G YV +TEAHP I
Sbjct: 241 MGEDEREALTVTVKEMFYHAYNGYLAHAFPQGDLLPLSCTGGEFMLGRLPMLTLIDTLDTLALLEDATEFRRAVKIVVDTLDFDLDTEVSVFETTIRVLGGLLSAHLFAMNTDLKLFPD-------------GDYDGALLLLATDLGNRLMPAFDTVTGIPYGTVNLKNGVPNGETPVASTAGAGSLSIEFTMLSALTGEPKYATASRGAVRALFQRRSK-RGLLGKHINTRTGEWTETTSGPGANSDSFYEYLMKMYELYGDLEALEMFAQVYPAVMTYNKHEDWYTDVSMFTGCHDQKDSTAVVVESLAAFWPGMQIAAGDLKFAAESMNSFYHIWRDYGFLPEQFNVGLWKPNKPRRGVGARYPLRPELIESTFYMHEATNDSSWLRAGAHVVYSLQKYTKTSCGYASIADVESKTKEDHMPSFFLSETCKYLYLLFNTSHFFRLGKYVMTTEAHPLPI 688
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Match: A0A0N7L3K7_PLAHL (alpha-1,2-Mannosidase n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0N7L3K7_PLAHL) HSP 1 Score: 473 bits (1216), Expect = 3.860e-138 Identity = 254/471 (53.93%), Postives = 317/471 (67.30%), Query Frame = 1
Query: 1435 MSRSKRLELREEIREMFVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGNATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGLYPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVNLNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFRGRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEYWDMFMQAYVSIQRFVREGDWYADADM------NGGFLTLRTFDNLMAFWPGMQTLMGDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWT-LK-EAGVGRAYPLRPELVESALLVHRSTGDPSWLWAGKDFLDSL-KACRTECGYAGVRDVEDCSLDEQMPSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSI---EVVRR 2811
M +R+ L + ++EMF H+Y+GYM +AFP +LLPLSC GE L ++P++TL+D+LD LA++ +ATEFRR V LV D D +VSVFE+ IR+LGGLLSAHL A DP+L L+P G YDG LL+LA LG RLLPAF+T TGIP GTVNL GVP GET ++S AGAGSLS+EF++LS LTGD ++ A GAV+ALF RS LGLLGKHI++ G WTE SSG GTN DSFYEYL+KMY L+GD E DMF Q Y ++ + GDWY D M G T+ F+NL AFWPGMQ GD+ A+ ++NAFY VWRD+GFL E F+ W LK G G YPLRPEL+ES +H +T D SWL AG + SL K +T CGYA + DVE ++ MPSFFLSET KYLYLLF+ +F +GNYV +TEAHP I ++V+R
Sbjct: 233 MDEEERMALTQTVKEMFYHAYNGYMANAFPQDDLLPLSCKGGEFELGRLPMLTLIDTLDTLALLEDATEFRRAVELVVKNADFNMDTEVSVFETTIRILGGLLSAHLFAIDPELQLFPN-------------GGYDGTLLLLAVDLGDRLLPAFDTATGIPIGTVNLRHGVPKGETPIASTAGAGSLSIEFTMLSVLTGDPKYAVAARGAVRALFIRRSK-LGLLGKHINTTNGEWTEFSSGPGTNSDSFYEYLMKMYELFGDQEALDMFTQVYPAVLFHNKHGDWYTDVSMYTGCHGRSGSATV-FFENLAAFWPGMQVAAGDIKAAADSMNAFYHVWRDYGFLSEHFNVRDWKPLKLRNGNGARYPLRPELIESTFYMHEATNDSSWLRAGAHVVHSLQKYTKTSCGYASIADVETKKQEDYMPSFFLSETCKYLYLLFNTTHFFRQGNYVMTTEAHPLPILPTKLVKR 688
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig78.119.39 vs. uniprot
Analysis Date: 2022-09-19 ( Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
| Match Name | E-value | Identity | Description | |
|---|
| F0YG13_AURAN | 3.080e-154 | 58.17 | alpha-1,2-Mannosidase (Fragment) n=1 Tax=Aureococc... | [more] |
| H3G758_PHYRM | 5.010e-148 | 54.15 | alpha-1,2-Mannosidase n=1 Tax=Phytophthora ramorum... | [more] |
| A0A6A5AAH9_9STRA | 5.050e-144 | 54.35 | alpha-1,2-Mannosidase n=1 Tax=Aphanomyces astaci T... | [more] |
| A0A7S3ZNW7_9STRA | 1.420e-141 | 53.86 | alpha-1,2-Mannosidase n=1 Tax=Pelagomonas calceola... | [more] |
| G4YQL8_PHYSP | 3.810e-141 | 54.55 | alpha-1,2-Mannosidase n=3 Tax=Phytophthora TaxID=4... | [more] |
| A0A418DDL0_9STRA | 6.040e-140 | 55.51 | alpha-1,2-Mannosidase n=8 Tax=Aphanomyces astaci T... | [more] |
| A0A225X2I4_9STRA | 3.270e-139 | 53.46 | alpha-1,2-Mannosidase n=1 Tax=Phytophthora megakar... | [more] |
| W4FH29_9STRA | 3.930e-139 | 54.35 | alpha-1,2-Mannosidase n=3 Tax=Aphanomyces astaci T... | [more] |
| A0A484E270_BRELC | 4.290e-139 | 53.25 | alpha-1,2-Mannosidase n=1 Tax=Bremia lactucae TaxI... | [more] |
| A0A0N7L3K7_PLAHL | 3.860e-138 | 53.93 | alpha-1,2-Mannosidase n=1 Tax=Plasmopara halstedii... | [more] |
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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 | 44056.XP_009039355.1 |
| PFAMs | Glyco_hydro_47,PA |
| Model size | 5744 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K01191,ko:K01230,ko:K10084,ko:K10085,ko:K10086 |
| KEGG Reaction | R05982,R06722 |
| KEGG Pathway | ko00510,ko00511,ko00513,ko01100,ko04141,map00510,map00511,map00513,map01100,map04141 |
| KEGG Module | M00073,M00074 |
| Hectar predicted targeting category | signal anchor |
| GOs | GO:0000139,GO:0003674,GO:0003824,GO:0004553,GO:0004559,GO:0004571,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005783,GO:0005788,GO:0005794,GO:0006464,GO:0006491,GO:0006508,GO:0006511,GO:0006516,GO:0006517,GO:0006807,GO:0006950,GO:0008150,GO:0008152,GO:0009056,GO:0009057,GO:0009100,GO:0009987,GO:0010033,GO:0010243,GO:0010498,GO:0012505,GO:0015923,GO:0015924,GO:0016020,GO:0016787,GO:0016798,GO:0019538,GO:0019941,GO:0030163,GO:0030246,GO:0030433,GO:0031090,GO:0031974,GO:0031984,GO:0033554,GO:0034976,GO:0035977,GO:0036211,GO:0036503,GO:0036507,GO:0036508,GO:0042221,GO:0043161,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043233,GO:0043412,GO:0043632,GO:0044237,GO:0044238,GO:0044248,GO:0044257,GO:0044260,GO:0044265,GO:0044267,GO:0044422,GO:0044424,GO:0044431,GO:0044432,GO:0044444,GO:0044446,GO:0044464,GO:0050896,GO:0051603,GO:0051716,GO:0070013,GO:0071704,GO:0097466,GO:0098588,GO:0098791,GO:1901135,GO:1901136,GO:1901564,GO:1901565,GO:1901575,GO:1901698,GO:1901700,GO:1904380,GO:1904382,GO:1904587 |
| Exons | 26 |
| Evalue | 1.16e-156 |
| EggNOG OGs | KOG2429@1|root,KOG2429@2759|Eukaryota |
| Ec32 ortholog description | Mannosyl-oligosaccharide 1,2-alpha-mannosidase, family GH47 |
| Ec32 ortholog | Ec-08_004510.1 |
| EC | 3.2.1.113,3.2.1.24 |
| Description | mannosyl-oligosaccharide 1,2-alpha-mannosidase activity |
| Cds size | 4866 |
| COG category | G |
| CAZy | GH38,GH47 |
| BRITE | ko00000,ko00001,ko00002,ko01000,ko04091,ko04131 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791606.7981014-UTR-P-littoralis_Contig78:493738..494020 | 1680791606.7981014-UTR-P-littoralis_Contig78:493738..494020 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig78 493739..494020 + |
| 1680791607.149816-UTR-P-littoralis_Contig78:524027..524623 | 1680791607.149816-UTR-P-littoralis_Contig78:524027..524623 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig78 524028..524623 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791606.8106391-CDS-P-littoralis_Contig78:494020..494023 | 1680791606.8106391-CDS-P-littoralis_Contig78:494020..494023 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 494021..494023 + |
| 1680791606.8332725-CDS-P-littoralis_Contig78:499694..500024 | 1680791606.8332725-CDS-P-littoralis_Contig78:499694..500024 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 499695..500024 + |
| 1680791606.845733-CDS-P-littoralis_Contig78:501018..501192 | 1680791606.845733-CDS-P-littoralis_Contig78:501018..501192 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 501019..501192 + |
| 1680791606.8566556-CDS-P-littoralis_Contig78:502304..502592 | 1680791606.8566556-CDS-P-littoralis_Contig78:502304..502592 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 502305..502592 + |
| 1680791606.8714557-CDS-P-littoralis_Contig78:503709..503886 | 1680791606.8714557-CDS-P-littoralis_Contig78:503709..503886 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 503710..503886 + |
| 1680791606.8829732-CDS-P-littoralis_Contig78:504096..504273 | 1680791606.8829732-CDS-P-littoralis_Contig78:504096..504273 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 504097..504273 + |
| 1680791606.893972-CDS-P-littoralis_Contig78:504923..505070 | 1680791606.893972-CDS-P-littoralis_Contig78:504923..505070 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 504924..505070 + |
| 1680791606.9049766-CDS-P-littoralis_Contig78:505834..505914 | 1680791606.9049766-CDS-P-littoralis_Contig78:505834..505914 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 505835..505914 + |
| 1680791606.9204164-CDS-P-littoralis_Contig78:506221..506358 | 1680791606.9204164-CDS-P-littoralis_Contig78:506221..506358 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 506222..506358 + |
| 1680791606.9311416-CDS-P-littoralis_Contig78:506951..507065 | 1680791606.9311416-CDS-P-littoralis_Contig78:506951..507065 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 506952..507065 + |
| 1680791606.9411616-CDS-P-littoralis_Contig78:507649..507789 | 1680791606.9411616-CDS-P-littoralis_Contig78:507649..507789 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 507650..507789 + |
| 1680791606.954968-CDS-P-littoralis_Contig78:508264..508380 | 1680791606.954968-CDS-P-littoralis_Contig78:508264..508380 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 508265..508380 + |
| 1680791606.9714096-CDS-P-littoralis_Contig78:508956..509059 | 1680791606.9714096-CDS-P-littoralis_Contig78:508956..509059 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 508957..509059 + |
| 1680791606.9813938-CDS-P-littoralis_Contig78:509206..509321 | 1680791606.9813938-CDS-P-littoralis_Contig78:509206..509321 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 509207..509321 + |
| 1680791606.9929714-CDS-P-littoralis_Contig78:510185..510307 | 1680791606.9929714-CDS-P-littoralis_Contig78:510185..510307 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 510186..510307 + |
| 1680791607.0047674-CDS-P-littoralis_Contig78:510589..510697 | 1680791607.0047674-CDS-P-littoralis_Contig78:510589..510697 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 510590..510697 + |
| 1680791607.026783-CDS-P-littoralis_Contig78:511019..511142 | 1680791607.026783-CDS-P-littoralis_Contig78:511019..511142 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 511020..511142 + |
| 1680791607.039799-CDS-P-littoralis_Contig78:511600..512137 | 1680791607.039799-CDS-P-littoralis_Contig78:511600..512137 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 511601..512137 + |
| 1680791607.0498228-CDS-P-littoralis_Contig78:513317..513507 | 1680791607.0498228-CDS-P-littoralis_Contig78:513317..513507 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 513318..513507 + |
| 1680791607.0617206-CDS-P-littoralis_Contig78:513788..513913 | 1680791607.0617206-CDS-P-littoralis_Contig78:513788..513913 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 513789..513913 + |
| 1680791607.0735133-CDS-P-littoralis_Contig78:518211..518703 | 1680791607.0735133-CDS-P-littoralis_Contig78:518211..518703 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 518212..518703 + |
| 1680791607.084861-CDS-P-littoralis_Contig78:519219..519366 | 1680791607.084861-CDS-P-littoralis_Contig78:519219..519366 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 519220..519366 + |
| 1680791607.0977063-CDS-P-littoralis_Contig78:521144..521282 | 1680791607.0977063-CDS-P-littoralis_Contig78:521144..521282 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 521145..521282 + |
| 1680791607.113406-CDS-P-littoralis_Contig78:522100..522187 | 1680791607.113406-CDS-P-littoralis_Contig78:522100..522187 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 522101..522187 + |
| 1680791607.1271913-CDS-P-littoralis_Contig78:522723..523206 | 1680791607.1271913-CDS-P-littoralis_Contig78:522723..523206 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 522724..523206 + |
| 1680791607.1392713-CDS-P-littoralis_Contig78:523814..524027 | 1680791607.1392713-CDS-P-littoralis_Contig78:523814..524027 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 523815..524027 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig78.119.39 >prot_P-littoralis_Contig78.119.39 ID=prot_P-littoralis_Contig78.119.39|Name=mRNA_P-littoralis_Contig78.119.39|organism=Pylaiella littoralis U1_48|type=polypeptide|length=1622bp
MALESRKERLTRLRSDQRRRRQEEGGFVPDPASVSREKLRKEREVLRSLE
ACHRRRARRWRGSKVLLLLVLLLLLAGWWPRLRHQVEDFLFLNNNLPPWF
SSAARGVFLPTERQVEQLLEPLESSCFTYAPTTWAAEGSNETAASEPFVF
QWCHKGRATVRTKGVRTPRQVDFGTSEETTIALGPPVLEWEEREEREDED
EEQRVQRFFPAVTQHFTGGAPCPQPAADSCGNEEEKDRGGAWAAAGGGDA
NGGACSGSDRREREVTVNIWCCEPQGGGEGDVQAAATIVNLVHEEGGGGM
GRGGNFGCPRLVASVCSHLLCPVYPKADEPRHHSSSSSSSTGGRKAGKST
RGIYLKTGAYEVPPPKTFAWRPHRGFLEYDRRQPMSRSKRLELREEIREM
FVHSYDGYMKHAFPGGELLPLSCGSGELHLVKVPLVTLVDSLDALAIMGN
ATEFRRGVRLVSYGLDVEADVDVSVFESNIRLLGGLLSAHLLATDPDLGL
YPGPESDESDDSCSTCGRYDGELLVLAESLGRRLLPAFETPTGIPYGTVN
LNRGVPDGETTVSSLAGAGSLSVEFSVLSALTGDGVFSEVAEGAVKALFR
GRSTGLGLLGKHIDSKTGAWTETSSGIGTNGDSFYEYLLKMYVLWGDLEY
WDMFMQAYVSIQRFVREGDWYADADMNGGFLTLRTFDNLMAFWPGMQTLM
GDVSLASRTLNAFYLVWRDWGFLPEQFDHEKWTLKEAGVGRAYPLRPELV
ESALLVHRSTGDPSWLWAGKDFLDSLKACRTECGYAGVRDVEDCSLDEQM
PSFFLSETLKYLYLLFDEDNFLHKGNYVFSTEAHPFSIEVVRRGGHSSAS
GGTTGNGSGGMSNDVELGTLALAETTLEKTKGRQKEQQQHREQDKGQQEQ
TPQRNKVEGEKHRPQKKKRHGWWRKIWRSLGRPRPRSYPSSADSRDDEDS
RDSGVSGGFDGGDDYATWAAWRASAGERRHRLGPKNWRDPDIDFWAQGIY
PEELTKALEEAEERVRLIVLEELRYMGVLWGMYMDRTCPVLPPELAPFPY
NPGTFSDSLLDGGRAAWLAIVGQGGNQEDQDGASSEQVERQLLLMDGVGL
IEVVTDNKNNFVLHHRRTGETLEVSHVQVPGGGIGVPGGVDAGAMQVTSF
IQPRRQQLQQQQQQQQQQQQQQQQQQQQQQHREQQQHTFQESEEMAEEAE
AGLGKWLQEKETERKISRDRISEEDNGRKRRDAAIPAPADASAVSLTLST
AVAAEAEAAAAEMELASENEAGSVGGGGGGGGGGGGLGSRHGEGGREGRA
ALGSTSKKNMFITREAVVAQAAGAVGLVIVNTEPGGGTFAMGRGHEEGGA
STDGLNIPVAMVGMEDGAKILRALAAAAASEEFDGRFPLQGVLDARTHHQ
SVFSRLFREQEEGLRDARGSLLEEHRRSAHLSPLSDTGNSRDVGGITIGE
EFRERDSDFVGETSAAKPADDGAARWEEEGEEQDEEVEEQEEQESGMGIS
STSSSEEHSGSSNRDNQFSFLTSGFDETTLGGMRPPPFLLPKVVINDGFV
QVMGRGHWGVLVFEHKGSWALSLTPNTFNPPPPPQPPRLPQQNREEDRGA
HAGMPPEADSADRGGHDRDGE* back to topmRNA from alignment at P-littoralis_Contig78:493739..524623+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig78.119.39 ID=mRNA_P-littoralis_Contig78.119.39|Name=mRNA_P-littoralis_Contig78.119.39|organism=Pylaiella littoralis U1_48|type=mRNA|length=30885bp|location=Sequence derived from alignment at P-littoralis_Contig78:493739..524623+ (Pylaiella littoralis U1_48)
GCTCTGTGCGTGCTCTCTCCTCAGTCTGTCTGCTGTCTGCTACGCCCGAA
GGCAGTTGCCTTCTTTTGGTGACCCTAACGCGTCGAATCGAGCGGATTGG
TATGTTTAATGGTGACCATACAGCACGAACAGAGATAACTGGTCGTCGTG
TCGTCGTGTGTACGGCGCTGGCTTCAACAGGTATCGCCGCACGCTGTGAT
CAACCAAATCAACTTCACGAAACGAACGTAACGACGAGAGAGACGGAGGA
GGAGTAGAGGGTGGCAGCTACTGCTGCTGTACATGGTAAGCATGTTTGTG
TCTACGAACTGCTGTTGTAACAGAACAGAGACCACTTGCCAGTGGCCACT
TCGAAGCAGTTATTGTGTGTCAGATTTATCCTGCAAGAGTAATTGCCTTC
ACAACAGAACAACCACCGCATGTAGAGTTCCGCTTTGGCTTGTCGTCTCC
TGTTCGGTTCAGCTGTTGAGCGGACATTTTTGTCGCCCTACACATGTCAT
ATCATATCAATCAATTATACATGTACGTACTCCTGTGCCTGGCATGATAT
ATCACCTCCCTAACACCAAATACTACTGTACTAATTACCCAAAGGCCAAC
GATCACCCGTGTGTCTAGTGTGCTGCCTACGTAACCTCCTGTGCGTAATC
CAGTGCGTTCAATTGTTGTCCAGACGTATTATATGATACTTCGAGGTATC
AGGGTATTTCGGCGGGGCAACCCGAATTGCCCGGGGGTTCTAAAATAACT
GAACCAGCCGGTATTCCACCGCCCGAGAACCAGGCGCATAGAAAGCCAGC
TCTTGGCTCCGCGTGCACAAATCATGAGAAAATTGACATGTGAGCACCTC
ACAGTTGTTCAGCCAGGGTCACTAACAAGGTCTCGCAACAGGCTGGTAGC
CTCCCGGGAGACACTAGTAGAGTTTTCCGATGATGGCGATGCCGCCTCCT
GCTCTCAAATATCTCGAAATCATGACTGGTCATCACAGGCTTCCCTCTCC
CGTACCCAAATGAAACCAAGACAATTCAGGGATGGCGCTTTTTCTTCGCG
CATTTTTGTCCACTACTGTAGCCCTCAACCTACATTTTGTCAATCTGGGG
CACAGCAGGATGCATGTAGCAGGCCCTGCGGTGGAAGAGACTGCTGCCTG
TGTGTTTTGCTCGTGTTGGATACTGCTGTGCGGTGTTTTATTTTAAAATT
AATGCTGTGCAACAAACTCCATCGCGTTCTCTGGCTCGGGATTTGTTGTT
TTCGTCCTCATCCCGGACTCCATCCCCATTTCCCCGACGAGCCCGCCCCA
AGAAAAAAAATAAAATAAAATGAACACTTTTCAGTGAACAAAAAATGCAC
TGAAGACGCAGAAGGGTTAAATATACTTCGAAGGAAGAAAAAAAGAACTC
TTGTCTTGACGTGTTGACTTCCTACTGTATGACCCCGGTTGGGGCGTCTA
CCTACCCGAAAGGTGTAGAGTGGCGTCCAATTAAAGGGATGACAACACAC
ACACACACACACACACACACACACACACACACACACACACACACACACAC
ACACACACACACACACACACACACACACTCCGTACCGAAGTACTTCGAAT
TACTTCGTACCAGGTACATGTATGATACTGCTGCTTATGCGAAGTACCTG
AGTACATGTATATCACATGAAATGTCGTATCGCATCCCATCATCTGTGTT
GGATATACTCGCAGCAGCATGTGATAGGTTCTTTCCGGCTGTAGTTCTAC
GGAGATCCTGGAATATTCTGGAACGTTGCTGGGGGTTACGTGTATGGTTA
TGCGTATCGTGGGATACCATTGGCGGCCTTTTCTGGAAGCTACGTGTTTG
TGTGCGTCAGTCCACAACAGCAGTCGTCGTCTTGATTGCTTCTCCTGATC
GACTTGGCCTTGCGTTCCTTCCAGCCTTTGGGCCTACCAGGCCTCCGGGC
GTGGCTAATCAATTATGTCAGTTCTATCATCTATATCTCCAGCACACTGC
CCTGCGCCACGGCCTAGCACCACTACCGTCCAGGTGACCCCACAATCCTC
CCACACACGGGGGGACTGCACCTTGCACCAAGCATCCAACAATCTGAACA
TTGTACTTCACTGTACGTACAGCACACGGTTCTCCATGCGTTTTCCGTTT
TACACCGACATACTCCCCCATTTTTCGTAGGTTACTTCCGATAAGGGCCT
TTTTTAAGTTTCGGTCTCCTGGGTACGTACTATCATCACGTAGTTTTACC
TATATCGAGGAAACCAAAATTTATGGACCTTATTTACTTGCAAATATGAG
GGCCTGAGGCCAACTGGCTCAATTACTGTAACACGAATAATGTCCTGTTT
GGTGGTAAATGATTTCGTCTAATATTTTCCTGCCTTGCGTATTTGGACGC
AACAAATTTCAAATTTCAAATTTTTCAGAAATTTCTGAACACCTTCTTCA
GTGTTGGATATCGTAACGACTCAAACGACTTACCATTTCGACTTATCGAA
CCGGCATCGTGTATGAAAGATATTGATTTAGCGTATTACGATAAAACCGA
TTCGTCGTATCTCATTCGAAGTACGATATCGACTGATCGATAAAAAGACA
CGGAACCCCCGAAGTTGCATGACACACGACCGCGACGCCACGACTGCCGT
CACAACATTGTGTCTGCTGTTGGTTGTAGATTCTGTGTGTGACCCGGTGA
CAATGTTTGTGGTCAGCCTGCAGCACTGCAGCAGAAGTTGCGAGGTCTAT
ACATGTACGTGTTCGTGTTTGGAATATCATGGTTTCTTTTTTTTTCTTTG
TTTTGCCACCTTCATGTTTTATTGTGGGTTGTGTTTCAGTCTTCAAGGCC
GTCAAGTAGCTCACAAATCGCGTGCTTTTTGTGTTGCGCAAAGGCGCGTA
ATAAATGGTCAAGCGAGAAGCAACTCTCAGTCACCAGGTGTTACCTTGAA
AGCTGGGAGCATGTGCTACAAGTTGCAGTTTCATATTTTCATTCCACCTA
CATAAATAACGCTTGGTACTTGAAACGCTGTTCAACCCAAAACGTTGGCT
GCGCACAGCCAGTTAAGGCGGGCTATTTGAAGGCAGTCATGAAGGGAAAT
GAAGCGAAAGTGAGCCAAATTTTTCGCCTCCGGCAAAGGCGCCATCGAAT
CGTTATATTTTCGATTCCATTATTGAATCGATATCCAACGCCATTACCGT
ATTCTACACAAGATACCACACCCCGTGTTAAGCTTTTTGCATTCCGTATA
GCTCCACAACCAGGAGGGTGCCACTGCCGAAAAGGGTGGTTTTGGAAAGA
TCTCGTCGAGAGCTTTCGTATGACGGGCTGTTTGGTGTTCGCACCCTCCT
GGTTGTGGAGCAATACGGAATGCAAAAAACCTAACACGGGGTGTGGTATC
TTGTGTAGAATACGGTATTCACTTGGGTTGACACCACCAGACCCTCTAGC
TTCCTCGGAGAGGTCAAATATGAAGTAACTTTGTTTTGTGTCTTCTTTCT
GACGAGACACTCAAACTTCCCCACTGCAGCGTGTGTTTAGGAGAGAAAGT
GAGCGCGATCCAGCACAAGTCTGGACTCTGGTCTCTGCTTCATTGTTTGA
ACCCGATCTGCAAGTAGGAAAGCACTAGCAGGGAGGAAGTGCCGCAGGGT
ACTCTGACCGATTGCTGAATCGACGGCTGCGCGGTGCCTTTGTTTGGCGT
GGACCCAGAAAATTGTTGGCTTACACCGGATATAACGGAGCTAGTAGTTC
GTCAACATGCCACTCTTTGATATTTCCAAAGATACTTGTATTATTCTACT
TTGAATGAGGGGAAATGCTTCGAACAATGCGGCATAAGATTTCCCAAACG
GGCGATTCCGGCCTTTGTTGGGAAAAATATTGGATGAACATTCCCAAACC
GAGCGGTCTTGAAAATCCTGACGCGGCGGAAACTTAAAGTCGGGCCGCGC
ATTTGCTCCGATGCATGCAAACACACGACTCTCCCAACGGCACTTGCGGC
TGAGAGGCCGATACACGCTACCCACACCACCCACGGTCACACACGCGTGT
ACGCACGACACGAAGGGCTTCGAGCAACCTTAGAATCACAGTGACTATCA
CTTTGGCTGTGTTGGTGGGTGGCGGACACCCGCCAGGCATGCAAAAAAAG
CATAGTAATGGCTCTCCATGTATGTCACGTGGTACGTACGGGTTTCCGTT
GTTTCAACCGCCGAGGCGCACGCAACAGTCAAGAGAAGGCCAGACTACGA
GACACACAGTAGTCGCGTACTCACCCCCTACCCCACCAATCGACCTGAAC
TCTTCCTGGCTGTCACTCTCATTTACTGCTCTCCGTTGGTGGGGCGTTGG
GTTGGAGGAGGGCCCATTCACTCTGCAGAGAGAGGTGTCGTTCGCTCTTT
GAACTTTCAACTGACATAAAATACTGTCTTTTTTTTTTGCTGATTGGAAA
AATAATTCCGAAGTACTTGTTCTGTCGCCTGAAAATATCTGGAAAGTATG
GCTCCGCATCACTGCAGCAAGCAGTAGTCAGCCAGCTGCTCTCTGTCGAT
TGAATGATCCTGCCTCCAACCCGACGCTCCATCGATGGAGGGAGGTGAAT
GGTGTGGTGTAGGCAACGAGATGGTGACTGTGGCGTGTGATGTATCTGCC
GTCTCTAGCTCGTGAACCTCTCCATGAACGGCTGCAGTGTCGGTTGGGAA
CACAGGCCACACGCACACGTCTCTCATTCAAGCAACGAGCCGCTGCTCAT
TTTTTTGCATGTCTGGCGGACAAAGTATTCACACGGTGACTAGAGGTCTG
CGGCGAGCCCTCTGTGACCTCCCTACCGACAGATTTCATGGCGCAGTGGT
CATGTCTTTCCATAACATTCGTTGACACAACCAGCCGGATACCGATCCCA
CCCGAAAGAGAAAAGTAAAGACAGGAAAAATAGAAACACAACATTCTGCG
ACCATCAGCGGCGGTACGAAATCTTTGGGAAACGAAGATTCGGCTCCAAA
ATGCTGTTGAGGGTTTTGCGAAACTTTCCCGTTTTTGAATTTTGCTGTCT
CCATTAAATCCGGTTTAAGGCGATTGTTTCTAAGGTTAAAAACGCCGATC
GGTTTTCCGACTTTCTGATGGAGCAGCGAACCCCCGAATGCCCGATATTT
TACATCTTGCTCTTGGACCACACCACGTGACAACGTCAATCGCTGCTGAG
TCTGTAGGACACCAATCACGAGCAAACAAATTGGGGCGTACGTTCCTGTA
TTCTGAGGTTGGGCACACCAAGTGTTTTAGTTGTGGGCTCTGTGTATCGC
GAGGACGGTGGCGGAGTGGTTCGAGCTTCATCTTTCGATCACAATTTTCG
GTCAGTGCTCCAGCCGGAAATCGCAGGGAAAAACGATCAGGTCGCCAGCC
AAAAATTGTGGTATAAAGTTGAAGCCCGGACCACTCCGGCACCGAAACCT
CTCGATACACAGAGCCCACAAATAACACACTTTGGTGTGCCCAACCTCAG
GATACCGGAACGTACGCCCCCATTTTTTTGCTCGTGATTGGTGTCCTACA
GACTGAGCAGCTATTCACGTTGTCACGTGTTGTGTGTTCCAAAAGCAAAA
TATCGGGCTATTTGGGGGTTCGGTGCTCGATCGGAAACGACGGAAAATCG
ATCGTCATTTTCAACCTCACAAGAAACGATCCAAGTAGCTCGATAGAAGA
GGGCTGTGATGTATCTGCGCATGATTCATGACGGATCTGAAGTTCTCTGC
CACGACTTCTGCTGCTGTAGATGTGAAAGTTGATGCCTCGACGCGGGCGT
GTTGCTTTGACTCGTTGCCACTTTTGGGGTACCGAAAGACGAGGGTATGC
TTGTGCTCGCCTATCGCTATTTCTATTGTATGATACGATATGGTATGATT
TGATATTATACTTACTGTAAACGCTAGCTCAGCTGTATGTGCACGAAAAA
TGACAGGCGCTAGAGTCGCGAAAGGAGCGGCTGACGCGGCTCCGCTCCGA
CCAACGGCGCCGACGCCAAGAGGAAGGCGGTTTCGTCCCCGATCCTGCGT
CCGTCTCGCGCGAGAAATTGCGCAAGGAGCGAGAGGTGCTCCGCAGCTTG
GAGGCCTGTCACCGCCGCCGCGCCCGCCGATGGCGGGGCTCGAAGGTTCT
CCTCCTTCTTGTGCTGCTGCTGCTGCTCGCGGGATGGTGGCCGCGGTTGC
GGCACCAGGTGGAAGATTTCTTGTTCTTGAACAATAACTTGCCACCGTGG
TTCAGCTCAGCAGCGAGAGGCGTGTTTTTGCCCACGGTGAGTTGAATCGT
TTTTGTGTCCTCGCCGGTATTTCGAAAGCAAAGAGGTTCAAGTTGATGCT
CTTGATCGTGGTGGTGGAGGTGGTGGAGGAGGTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGCTGTTCTTGTTCTTGTTCTTGTCCTTG
TCCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTACTGTTTTTGTTTGTTAT
TGTTCTTGTTCTTGTTGTCGTTGCTGTTGTTGTTTTTGTTGCTGCTGCTG
CTGCTGCTGCTGCTGCTGCTGTTGTTCTTGTTCTTGTTCTTGTTCTTGTT
CTTGTTGTTGATGTTGATGATGCTGCTGCTGTTGTTGTCGTCGTCGTCTT
CGTGGTTTTGAACTTCAAGAAGTATTTTTTTGTTTTTTGCTGCTGTTGCG
ATCCACTGTCGTTGTCAATTTGCTGTTATTCGTTGTTGATTTATGTTACT
GCCGTCGTTGTTGTTTTGCTCCGTCGCTGCTGTTTGTTGCCATTGCTGTT
TACTTCCGGGTGTGGGTGTAGATTTTCGTGTTATTCGTTGCGGTGGAGTC
GAGGTTACGTGTCTCTCTTCTGGGTGGTGCCGTAGCGGCCAGTGCAGCGT
GCTTTTCTCGTTTCTGCCTCTCGTTGCCCCCTTCATTCTACAGGCGCTGT
CTGCGGTGTCTCCGAGGCCCAAGTACCCAATGCGTATCCCGTACCGTACG
CAGAACCTTGAGCGTGCATACTCTCTCCTGGTTGGGCAGGAACGAGTGGA
AGGTATAGGCTCGTTCATGCATGTTCCGTCGAGGCACGTACCAGGTACAG
CCTACTGGTATCTCCCAAGACATTGAATGACCTCGATACTCACTTTTGTC
CTCAACAGGTTGACACACCCTCAACCCCTGTCGCATGCTCCCTCCCTCCC
TCCCTCTCCCCCTCCCCCCCTCCCCCCCTCCCGCCCTCCCTTCCCCGCCT
CGTCTCTCGCGCGCTTGCTCGTCGCACCAGGAGAGACAAGTGGAGCAATT
GCTCGAGCCCCTGGAGTCCTCGTGTTTCACCTACGCGCCGACCACGTGGG
CGGCGGAGGGTAGCAACGAGACCGCCGCATCCGAGCCGTTCGTGTTCCAG
TGGTGCCACAAGGGACGGGCGACCGTACGGACGAAGGGAGTCCGCACGCC
CCGGGTACGTTTGCACGCCGGCGCAGGTGTTGTGAGTGTGTGGTTTTTTT
TTAAACTGGTATACGATAGGGGTGCACTACCGGTTTTGCCATGCTCAAAA
GAGAGGGAAAAGTGGGTTTCTCGTGCGTCGAGCATGATCGATTTTACACG
TCAGCAAGAGAAGCAGTCCGTGTGCAAAATCCGTCGTCGAAGTCGAAATC
ACGCAGATGAGTGGCCTAGTGTTCGTGCGACCTCCCCTGCTTGACATGCA
TCGATCATGCTCGACCCCCAAAAAGCCCGCGACAATGCGAAGAGGGGCCC
AGAGATGAGAGGCTTCCAGCATTGCCTCGGTGGTTTGGTGGCGATGCGGT
GACCATTGGGGAAGGACGGTATGGTTGGTGTGCGCGGTTAGTCATTTTTG
TCACGGAGAAGGCACGGCCTACGCATAAACGTGGCATACGAAGAAGCAGA
TGATTAAGTCCGTTGGACAAAAATCGGTATCCCATGACATCCGGCCTTGT
CTCCAAACACACACCCAGAAGCCTGTCGACGCTGATGAAAAGGGTGGCGT
TGGAAAAATGATCTCGCTGAAAGCTACAGTATCAGACAAGGCTTTGTTTG
TTAAACGTGTTTTCGGGCATTCCGTTTGGGTATTGATTTGATTCGGCACA
TGACGCAGGGTACGTCGCAAAAGAAACATGCTTGTGCGCGTGTGTGCGTG
TATGAATGTTTGAGCATGCGCGCTTAATAAAGTACGAGTAGCACCAAGGT
AGAGAGGGAGTACCCCCTGCTCTAGAACAGTTCGTCCTGCTCTTTCTCCT
CCCCCTCCTCCTGGTCCTGCCTCCCCTCCGACTAAACCTTACTCCTGTTT
TTCAGATCTCCGCCGCCGACGCCGAAACATGCGACACGTACTCATGCATA
CTGTACGAGGCAATATCAAAAAGCCCGTGTTTTAAAAAATAAAGAAAAGT
GTTGACCTTCCTCGTGCGTGCGTGAGCGACCCCGGCTGATGGGCCTACAC
GTACCGAATTTTTAGACTGCCGTACAGCACAGACGGGATGGCAACAAATC
ACACTCCCTCACTCACAAACACACTCACACAGACGCACACACCTTACCCT
TCGCTCCTCAAAACAGCAAGTCGATTTCGGCACGAGCGAGGAGACGACGA
TAGCCCTCGGGCCACCCGTTCTCGAGTGGGAGGAGCGAGAGGAGAGGGAG
GACGAGGACGAGGAACAACGCGTGCAGCGCTTTTTTCCGGCCGTGACGCA
GCACTTCACGGGCGGCGCCCCCTGCCCTCAGCCCGCCGCCGACAGCTGCG
GCAATGAAGAGGAGAAGGATCGGGGCGGGGCGTGGGCGGCAGCAGGAGGA
GGAGACGCGAATGGTGGTGCGTGTAGCGGCAGTGACCGGCGAGAGCGGGA
GGTGGTGAGTCGCGAAAGTCAGTGCTGCATGTTGTTGTGCAGCAATTGAT
AGTATTTCAAGTACGCCGCGAGTGGACGAAGACTCTAGCGAAAGCGCAGC
AGAAGAAGCACTGAATGTTGTGCTCCAGAGTGTGTAGGTTGCTCTTTCTG
ACAGATACGAGCTGGGCCGGCCAAGAGCTCAGTTTTTGGAATTTGGACCT
GAAATTTTGACACGTGATTTCACAGAGGCTCACCAAGACATTCAAGAAAA
CCCGTCTGAAAAAAAAGAAAAATTCGCCGACCTATTCCCGATTTTCATTC
ACAGAAATCTTTCGGCTGCTCGAAAGTCGGCTTAAAAAAAAACATGAAAA
GGGGTTTTCTTGAATCTCTTTGGAATCCCCTTTGAAATCGCGTGTCAAAT
TTTCAGGTCCTAAGTCGAAAAACTGAGTACAGCAAAACGATATTGGCACC
GAAATAGCTCTGTACTCAATACTAAGTACTTCATGACTTTCGAACGACGA
TGACCCAAACAATGAGACGCCTATGTTTTTGCTCCCCTTCTCAGGATAAG
CACGCTCATAAAATTTGGGCGGATTCCACCTACTTTTTATAGAATAGAGT
TTTTGAACAAGCAACATAAAAAACGATACAAAAAATTGTTCAGAAACGAC
ACACCGGTGGCACGAAACTTTTTTCGGTACCGAGATGGCGGATTCCAAAG
CTAGTTTGCTGCGCATGACGGCCTTGTCTAGCTGATGACGAGGATATGCT
CAGCTTTCAGTGAGTCAGTGTCGTTCAAAAGATATGACCGCCTGACTGAA
AATGGGGTTCTTGCCCGGCCCAGCTCGTATAAGGTAAGTATTTATACTTT
GGTGGTTGTGTAAAACAACACGCGTCAAACGTTGGTCATGGTTGGCTCTC
TCTCACATACTTCGTACATGAAAGCCGTGCTCCATCCGCCACCACGGAGA
ACGCAGAGTAAAAAAACGGCCCGAGAGATCACAAAGGCGAAGCAACAAGA
CAACATGTAACGCTCTCGCCCCCCGAACCTACTCCTGTCCACCTCTCAAA
CTTTTGAATTCTCCAAACCTCCCATCCCCCCTGACCTACCCACCCGGCAC
GTGCGTTCCATATCACCGCAGACGGTGAACATTTGGTGCTGTGAGCCTCA
AGGGGGTGGTGAAGGAGACGTCCAGGCGGCGGCAACGATCGTTAACTTGG
TCCACGAAGAGGGGGGGGGGGGCATGGGAAGAGGAGGAAATTTTGGCTGT
CCGAGGTTGGTGGCCTCTGTCTGCTCCCACCTTCTCTGCCCTGTGTACGT
GAGTCAGTCTCCCTTGTTGCCTACCTGCCTGCTTGGTGTCGTTGCGCGCG
CGCGTGTGTATGTTTGTTTGCGGCTTAGCGTAACGATTATTCCTCCCCCT
TCCAAAAAGAAAGGGAAGCAAGAAATGAGCTCCCTCCCCCCAATTCTTTG
TTGCCGTTGTCCTTTTTTCGTTTGATCTTGTTCGGCGTGTAATATGATAT
GCGCGTAGCCAAAAGCTGATGAACCTCGCCACCACAGCAGCAGCAGCAGC
AGCAGCACTGGTGGACGAAAAGCGGGGAAAAGTACTCGCGGCATTTACCT
CAAAACCGGAGCCTACGAGGTTCCTCCACCGAAGACCTTCGCGTGGCGAC
CGCATCGGGGGTTCCTTGAGTACGACAGGCGTCAGGTGACTACGGGGGCG
TACTGGGGCTGGGTATGGGATAGTCAGGGTACCAGAAGGGATATGGGCGG
ATAGCGGTAGCAATCTGAAAACTGAGGTACGCCACGGAGGTGGATAGATT
CTCTCACCACGAAATGAAGCCGATACTCAAGAAAGAAGGCCTACACGTGA
GTGAACACGTGAGACAAGCGAGCGAGACGGCAGACGTATGAGTGTAAGGC
TGTGCAAAAAGATGGAGATGCCTTCGATAGACGTTCATGGGAGTGTGCCC
TTTGTGAAGGTCACCCCCCCCCCCCCCCCCCCCCCTTTTGCAATTTCTTG
TTCATATGGTCTTCATGAGAAGAAGCCATCTGGGGGTAATCGGAACCCGA
CCGGTTGGCGACGACTACTTTCCTGTTTCTTGACAATCTTTTTAGTTGTG
CGTGACTGCACGGGTTCGCCTCGTCCGCCACATACAAACGAACACAACCG
AAGTTTTTTACGAGTACGAGTTGTATGTTCTTGGTCACCCACCGTTTACT
TTTTTCTTCTCTTTTTCCTTTTTCGAAAATTTCAAAGCAACGAATGGGTG
CTTCTTAGCTTTTGTGCTGCTCTTCCTCCTCTTCCTCCTCCTCTTGGACC
TCGTCCCCCGGTTTTTCCCTTTTCCACCCCCGAAGCCTATGAGCCGATCG
AAACGCCTCGAGCTTAGAGAGGAAATTCGTGAGATGTTCGTCCACTCGTA
CGACGGTTACATGAAACACGCCTTCCCAGGGGGGGAACTCCTGCCCCTGT
CGTGCGGATCGGGCGAGCTGCACCTCGTGAAGGTGAGATGACGTCCATGG
TTTGCCATGTCATTGTTAACGACATTTTCTGTTGTTGTTGGTGTTGAATC
ACTTCTTTGCTTAGATTTGTTGTTGCCTTTCGTCGTCGTCATTTTCGTTG
GATTGCACCTTTTTTTCCGACCCAGGAAATTTCCCCTCCGTACTAGTCTG
ACCAACTTACCTATTGGAGACGCCCCCCAAAAGAGACCCGAAGCAGCAGT
TTTGATCGCCAGCTACATAGCAGTATTGATCGTCAGCGCACATCTTTCGA
AATTTTTCCAGAGTTTCGAAATTACGGAGCGATTCGGTGAACATCAATCA
GTTCAAAACCATTTCGAAAAGCTCCAGAATTTCGCATTGATATCCTTCGG
AATGGTTTCGAAGGATTCAAATGCGAAATTTCGGAATTTCGAAACAGAGC
GAACCACAAGCCCCATTTCGAGATTTCGAAGGTCCGAAATTTCCAGTTCG
AAATTGAGCGCTCTGATTACAACACCCCTATCGAGGAAGAGCTTGAAGTG
CGTTGTTCGGCCTTTTGTGCGAATTGTGAGGAGGATAAGAAGTTGGCCCC
AAAGAGGCGAGTTGAATTCCAAACCGATGTCACAAACTGTCAACCGACGC
AAACAAAGGCTTCAATCGTTTTAGAAACGATTGGACGATTGAAAAGAAAA
AGTAGTTGAGAACTCGAACGCCCAGGAGAAGTTTCATCATTTTGAAATGA
AGCGAGTCGAGAATGATAAAAAAAAAAAAAACGCCCACATATCAAGGTGC
CGCTCGTAACCCTGGTGGACAGCCTGGACGCCCTGGCCATCATGGGAAAC
GCGACGGAGTTCAGGAGAGGCGTGAGGTGCGCGGCTAAGTCCACCGTAGG
AGGTTGAGCACACCCTTGCCCGGGAGGTTGGAAATCCATACTGTACATGC
GTTCCTTCGACTCATTATTAGTGCGAACTTTGGGGGAGCGGGCGGGGGGA
GTGATAGGTATACTGGAGTATAAAACTTAAAGATCATTTTCGTCTATATG
TTTTGCGCTGAAGGCCGACCTTACTGCCTACCCGTCTGCTTCCCTCCCTT
GCCTCCCTGTCCATTCCGTGCACTTTCCTTGGCCCCCCGCCCGCCCTTTC
GCCACGTGGTCTTCCCCCCGTTCCACCAACCAGGCTCGTTTCGTACGGCC
TAGACGTGGAGGCAGACGTGGATGTTTCGGTGTTCGAGAGCAACATCCGC
CTCCTCGGGGGACTTCTGTCGGCGCATCTGCTCGCCACCGACCCTGACCT
GGGGCTCTACCCCGGTCCTGGTGAGTGGCGGCTGGTCGGTACTCGTGTCG
TTTCGTCGATTTGCTGTTTATTGTTTGGTGTTTGGCGTTCGACGTTTCTT
TGACTGTTGCGTGCTTTGCTGTTGTTGGGTGTTGCTCTTCGTTGCGGGCG
TTGCGCATGCACACCGTCGTTTTGCCTACCTCTTCCCGGTGGTTTCGACC
GTAGGCCGCAGTCACAAGTGGAGACGGAACACCAATGTCTACTCTCACGT
GCGGCACTCGTGTGAAAGGCGGTGAAGAGTTGAGAGGAACCGGCTCGAGA
CGCGGTAGGAAAGCGTGCCCTCGTCGCGATAACCAAAGAGTGATGGTGCT
CGGTCTCCGCTTCGACGCGTGGTCAATGGTCCAGAAGAACAAGCCGGACA
GCCCCTGAGTGCAGCACACCCCTCCTCTGCCTCCCGTTGAGACTTTTTTT
TTCTAGCGTTTGAACGAATGGGGGCTAAATAACAATTGATGTCATTTTTT
ACAACAAGGGCGACATTCATACCTCACCCCTCTTCAAAACATCAATTGCC
GTGGATGGAATCTTCCGTCTGGTGCCGTCTCCTACCACCCTCCCTCCTAC
CCCACCCCTGCAGAGAGTGACGAATCTGACGACTCATGTAGTACGTGTGG
CCGGTACGATGGCGAGCTTCTGGTACTGGCAGAAAGCCTCGGGCGACGCC
TGCTGCCGGCTTTTGAAACCCCCACAGGTGTGTTTGTTATATGCTTGTAT
TATACTTCGTATTATACTTCGAAGTATGCATGTATGCATATGGGTAGATA
GATACTTTTTTGTCGGCCCGCTTTGTTGTGGTTTCCGTTTCGTCCTTTCG
AGGGCTCGAGACAACTCTAAACGTGCCTTCGCGATTCCAGAGAGGAAGTA
ACGAAGCATGGTTCTGTACCAGGTGCGTTACACTATCGAGAAAACGGTGT
ATCGAGCACCAAATACACCATGTTTTCAAGTCCCCTACCTCGCTGCATTC
CCGATCTCTTAAGATTCCAGGGTCGAAAATAGAAAATAGCTCAACCAGTC
AGAGTGCGTTTCAACATCCAAGAGAACAGGAAAATGGCGGAGGGCCCGGA
GGAACTTTATCGCAGAAGTATGTACCCGCCCTCTCCTCTCACGGACCGAG
GATGACGAATGGCGCTAGCTTGTTGAACACGGCGCTAGCTTTCTTTCTTC
AGTAGTACCTTGTGTATGTGGACAGCCACCCCTTGGCCGATCCCCGACCC
CGACTCGGCTCAGCTCGTTATATCATTTTTGTTTCGCGTTGTTTCGTTGT
TGTTTTTCCAGGCATTCCGTACGGCACGGTAAACCTCAACAGAGGCGTTC
CGGACGGGGAGACGACGGTTTCATCCCTGGCCGGAGCGGGCTCCCTGTCG
GTGGAATTTTCCGTCCTTTCTGCTCTCACAGGGGATGGTGTTTTCTCTGA
GGTGTGAAATAAGTAAGAAGAGCGGTTACATTGACTGGTTGACTCACTCG
ACACCTGCCAGTGCAAGGAATGGTACATTTAGTGCCCACAACGTCAGCCC
CACTCTGTGACCCTTGGGTTGACCCCCCTCCTTGGGTGTTTAGTGAAGGG
TAAAAATGTACTTATCCAACAAGGAGAGAACCACGGGAACCTACGTGCCT
TGCATGCAATCCATTTGAAAAGTTTGTGCTTTGTTTCGTGGTCGTGTTGC
TTTGCTTGGTTCATGAGGTGCTCTTTTTTACCTCACTCCTCTGCCCGGCC
GTTTTTCGTGGTCGAAGGTGGCAGGGGGCGCTGTTAAAGGCCGTGTTTCG
TGTCTTGCATACAATCCATTCGAAAAAGTTTAATTCTTCTTGCATCGTGG
TCGTGTTGTTTTCGTTGTTTCATGAGGTGCTCTTTTTAACCTCACTCCTC
TGCCCGGCCGTTTTTCGCGGTCGAAGGTGGCAGAGGGCGCCGTTAAGGCC
CTGTTTCGGGGCAGGAGCACCGGTCTTGGGCTCCTCGGCAAGCACATCGA
CTCCAAAACGGGGGCATGGACGGAGACAAGTAGTGGCATAGGGTGAGAGC
CCACTCACCAACAAAGCATTCCAAGGATGCACCCCATCTTATCCAAGTGA
AGACGTTGATTTGGAAATATTGTGGTATGGGTAATTATAAATTATTTTTC
CGGTTGTCACCCAGTCGACCTTGTGTATGGGGTTGCCCTTGGCCTCGACG
ACGCAACGAGAACGAAAACATGCTAGAAGAAATAGTTCAATGGAGTGCTT
TTCAACTCGCGAGGTGATCTTAACCGAATATGATCGGCCAGTCCACCGGG
CGGGGTCTTTCGGCATGTATTCTGTAAAGTGTGTTGTTGTTGCTGTTGTT
GTTGTTGTTGTTGTTGGTCGAGCTTTTTCAATATTCGATCCAACTTTTAT
TTAGCCTCCATGTTAAGTGCTTCGACCGGTGAGGAATAACTGCTGTCGTG
GTCACAGGCCAAACGTGTGTGGGCAATTGCGAGTTCGCGACTCTTTTTTC
TCTCTATATATATCAATTTCCCTTTCAGCTTTATCTCTCCCTCTCTCCTC
CTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCTCTCTC
TCGTGCTTCCGCGGGCAGGACCAACGGCGACAGCTTTTACGAGTACTTGC
TGAAGATGTACGTGCTCTGGGGCGATCTGGAGTACTGGGACATGTTTATG
CAAGCATACGTCAGCATTCAGGTAAAAAGGCTATGTGGTGTTTTTCTCAT
AGAGATTTACGGGTAACGCCACATTATATGCGAAGGTGTGAACAGTTTGC
ACGTTTGTTCAACGATATTCCTCCACCGTCACCGCCCCCGCTTTTGTCTG
CCTTGATTGCGACGCCAGCGGTTTGTTCGGGAGGGCGACTGGTACGCTGA
CGCCGACATGAACGGCGGGTTTTTGACTCTGCGGACGTTCGACAACCTCA
TGGCCTTCTGGCCGGGTATGCAGACACTCATGGGTAAGAGAGATAGGGAG
TCTCGCAGGGGGGAGACAGAGAGGAAGAGGGAGAGAGAGAGAGAGAGAGA
GAGAGAGAGAGAGCGCGAAGGGAGGCTGCAAGCGGGGGGCAGCGACAGAG
GGGCAAAAAGGGTCGTCCACGTTCGTTCATGCTGTTTTGCTTCATCGCCG
CTGCATGCACCCCCGAACTTGCGAAAAACTTGCGTTCTCGCTCTCGCGAT
CCCTTCGCCTGCCCGAGAGGTCATTGCTGCGAGATAAAAAAAAACATACT
GGTACGAAAAATACACCTTTCTTGGAAGCCACTTTTCTGGCGACAGACCT
CATCATCTTCGAGTTGGAGTTGGGTCACAAACAAAATGTCGACTATTGCA
TAAATTTTGTGGACGAGCTCCAATAACCCGGTGCTGCAATCTAAATAAGG
GCAGAGAAAAAAGCGCGATTTTTCGTGAACATGCCTTCTTTCTCTCTCCT
GTCAAACGGAAAGCCACTTGTTCGACAAGCTTGATAATAACAGCACAAGT
GATGCACGAGGCCGTACGAAGTATAAGCGGTAGGCGAACTTACCCACTGT
TATACACCTGCCCCACATTTGCTTGCACTGAAATGAGCGGGTTCGCGTTG
TATCACTCGATCATCGGAAACTTCTACCTGGTAGTGGTACACAGGCGTTT
CGCTGGCAAGCCGCACCCTGAAGTTCGTCAACGTGTGGTTGACCTGAAGA
AAATTGAGCTCGTTCCTTCGCTCTCTAGAAGGGTAGATACTGTAGATTGT
TTGACACGTATGTGCAATTACCGGTATTTCAGTGGGCATCAGGCCTCATT
CTCGTCGTCCTTCGTATCCGTATGTATTCGTGTGTCGTTGTTGCCAGGGG
ACGTGTCGCTGGCAAGCCGGACGCTGAACGCCTTCTATCTGGTGTGGAGG
GACTGGGGATTTCTTCCCGAGCAGTTCGACCACGAGAAATGGACGCTCAA
GGAGGCAGGGGTCGGACGGGTGGGTGTTGCTGGTGCTGTTGGTATTATTG
TTGGTGTTATTGTTATTGTTGGTGCTGTGCTGTTGTTGCTGTCGTTGTTG
TTGGTGCATTCTCGTTGCTTCGCTTTGCTTCGCTTTGCTTCGCTTTCTCA
GGAGGGAGAGGCAGGCGTATGCACCCCCTCCCCTCGGCTGGGTCGAAACG
AAAGCCCGCTGTTTTCGTCATGTCTTCTCGAGCTCTTTTTGTTGTTGTTG
TTGTTGTTGTTGTCACCGTGGCGTGTTTGTTTTTGGGCGTGCGTGCGCCA
GGCGTATCCTCTGAGGCCGGAGCTGGTCGAAAGTGCTCTGTTGGTACATC
GGTCCACCGGCGACCCTTCCTGGCTGTGGGCGGGCAAAGATTTTCTGGAC
TCGCTGAAGGTAGTCCAGGGGCCACATAAAGAGAAAGAGGAAGGGGTGTT
GGGGCGAGAGAGGGAAATGTGTACGTAGAGAGAGATAGTGGTCACGGTGC
TGTTGCTTGTCGGTGTCCGTTCACTACGCGCACCCAAGACAGAGAGAGGG
AGGAAGAGAAAGAAAGAGAGGCGAACAGACAGAGAGACGTCGAGAGACGC
AGAGAGAAACAGATGTACTCTCACACCGAAGCAAAGGGAGAACAAAGCGG
GGGGGGGGGGGGAGGGTGAACCGGGACGTGAAAGGTTGGGAAAACGAAAA
CTAATGACAGCATCGTTCGTACCCAGGACAGGCTTGCCGGACCGAGTGCG
GGTATGCCGGCGTGCGGGACGTGGAGGACTGCTCCCTGGACGAGCAAATG
CCGAGCTTTTTCCTCTCGGAGACCCTCAAGTACCTTTACCTGCTCTTCGA
CGAGGTACAGTAGCTGGTATACCTTTTCTTTGGCTGCTGGGATGTCTGTT
TCGTGGGGCATTTTACTGTACGGAAACGACTAGTTTCTGGTCGGGTCTTT
TTCGAGTTGGTGGTACAGGCAATATTGTTTTGCCTTTCTGTTGGGTATTT
TCTTTGTTGGTTTGCCTGTAGAGACCCTGAAGTGCCCCACGCCAGCTTTC
TGTGGACGAGTTAAGCGGTTCGGCAGCAGGGTACTCAGCGGCGTGTTGGG
ATAAGTTACGGCATCCGAAACAAGAAAGTCTCGTTCGGGCTGGAAACGAA
GCTGAACAGGTCTGAACATTACACTGATTCGTGTTCTCCTTATTGCTGAT
GTCGTCGTCATTGTTGTCCTTCAATTGTCTCGGATACGAAACCTGCGGAA
TCATCGCGATCGTGATGCATTTTCCTACGCTGCCTTTCAATGTTTGAAAC
ACTTTCTCGCAGGACAACTTCTTGCACAAGGGCAACTACGTGTTCTCTAC
CGAAGCGCACCCTTTCTCGATCGAAGTTGTCCGTCGCGGTGGGCATTCCT
CTGCCAGCGGCGGCACCACCGGTAACGGTAGCGGTGGAATGAGCAACGAT
GTCGAGCTTGGCACCCTAGCCCTCGCAGAGACGACCCTTGAGAAGACGAA
GGGCCGACAAAAAGAACAGCAGCAGCACCGAGAGCAGGACAAGGGCCAGC
AGGAGCAGACACCGCAACGTAATAAGGTGGAGGGGGAGAAACATAGGCCG
CAGAAGAAAAAACGGCACGGCTGGTGGCGAAAGATATGGCGCAGCCTCGG
ACGCCCCCGGCCCCGGTCGTACCCGAGCAGCGCCGACTCTCGTGACGACG
AAGACTCTCGTGACAGCGGTGTCAGCGGTGGCTTTGATGGCGGTGATGAC
TACGCAACTTGGGCGGCCTGGCGTGCATCTGCAGGAGAGAGACGTCATCG
GCTTGGCCCAAAGAACTGGCGGGACCCGGACATCGATTTTTGGGCTCAGG
TGAGAGGCACACGACAGTGTTTGGCTGGCTCCTTTTACCGTGTTGTTGCA
GTAGACTGTCCTCCGGTGAGTGGATGGAGAGGGGTGGGGGTGGGTTGTGG
GGGTAGGGGTGGGGGTGACGTAAACTGATATTTTCAATGCTCGTGCTATT
GCTGCAAAAAAACGCCCGCTCTCTCTCTCTCTCTCTCTCTGATATACCAT
CATGTTTTCGCACGCTTGATGTTCTGGGATACATGATGCAAGACGTCACC
CCCTGGGTACGAGTCAGGTACTGCGGAAATTGGGGGTGTTTTTTTCCTGT
CCGTGCAGGAGCAGAAAAAAGACTGTCCTCATGTTGTTTTTCGACTATCT
TTGACCCCTCAGCTACCTATTAAACCAATTCCTGTTCTATTTTATTTTTT
TCACTCAGTCAACAAGTGAAAAACCAAAACAAAAAATGGATATCTTGAGG
ATCGAAGACAGCACGAAGAAAAAAAAATGAGAAGTAGCCCAGCCAAGCGC
CCCGCGATCCACCGAAATCGCCACACGCTGCTCATTTTTGAGATTTAGGA
CCTGAAAAAAATGTTCAGACCAGGAGACACAAGCTTAATAAAACGTTTTT
CGGTACCACCGAGGCAAATTCCTGAGCGGGATGGCTCATGATGACCACCA
TTTCTAGCTGATTGCGAGGATATGCTCAGCTTGCAGTGGGTCGGTGTCGT
TCGAAAGATTATGCCCGACTGACGCGTTTGTAGGTTTCTTGGCCGGCCCA
GCTTGTAGATGTCGTGTGTTTCGTTTGTCTGCCACGCTGGAGACCGGCTA
TAATTTGGCCGATTTGCTGTCGTTCCCCTTCAGCTCGAGAAGCGCGGCTC
GGGTAAAGGGGGCGACGGCGGAAATGGGGTACAACATATATACAGGGAAC
GATAGGTCCGGATTCGAGGGCGGCTACATAGAAATCATCGGGTGACACGT
GTGACTGGTATGATGAAACAGCATGATAGACGCCACGGCGATATACACCC
GCAGGAATTTCCACCTTGCCAACCGAGTTTCTCCGAGTGTGTCGTGGAGG
ATGCGTATTGCATCACGCACGATGATTGATGTCGAACGATCGATCGAACG
ATCGATCGAACGAACGATCGAACGAACGAACGAACAAATTAACGAACAAA
CGTACGAACCGCCTGCTGGCGCGGCCCAGGGGATTTACCCAGAAGAATTA
ACGAAGGCATTGGAGGAGGCAGAGGAGCGCGTGCGCCTGATTGTTCTCGA
GGAGCTGCGTTACATGGGGGTCCTGTGGGGGATGTACATGGACAGGACAT
GTCCGGTGCTTCCCCCGGAGCTGGCCCCCTTTCCGTACAACCCAGGCACC
TTCTCGGACAGTCTTCTAGGTGGGTGCGGTGGCGGCACCGACACCTAGAT
TGCCAGCACGGGGAAGCGGTGACAAGTAGCTCACCTTTTGTTTCGTACCG
GTACACGATACAGTGAGTGCACCGGTCTTCGTCTGCGGGTTGGGCGTTGT
TGTTCTTGTCTGTGCGAAACAATTCTGCTCAATGTCATGCCGGTGCTAGT
CGCCCTTGGAGTCCACTGCACCTTTGAACGTGATACATGAAAATTACCTC
GGAACATCTTTTGGACTTTGCGTGTTTTGTGCTGTGATATGGCATGACAG
ACGGGGGCCGAGCGGCCTGGCTAGCGATCGTGGGGCAGGGGGGCAACCAG
GAGGACCAGGACGGCGCCTCAAGCGAGCAAGTGGAGAGGCAGCTGTTGCT
CATGGATGGCGTCGGCTTGATTGAGGTGCGGCTTTCTAGTTTGGTCAACT
ACAATTCTTCACATAGTAACTGAAACGTTTTGGATTTTATGGGATCTCTG
GTTCCTTCTGTGCAACCCCGCCTTCGACTCAGCTCGCTCCTGAATTTTGA
AGGAATGCTCACGCGCGTCCTTTGCGAATGCCACCAGCTTGAGCGGTGGA
CGGAGCAGGCAGTATGCGTAGAAGAAACCACGATCGCTCTCAAGCCTTCC
TACGCTACGGTAGCCGGCGCTGTGGTTTTTTTGACGTGATCAGGAACCGT
AGAGCAATGTCTAGAAAACGCATTTTGTTGCTCATCCAATAACTTGATAC
AGCCCCCGTTCGATGCAACACACACACTACATGTGCATCACAAAAGCTAT
TTCAACGGCAACTTGAAGAGAAGCTGATTTCCAGTTATTTGCACGTGTGG
TATGAACAAACCACCTAGCTGACACAGCGGTGTACCTTGCACGTTACGAC
TTACAGCTTGAAGGAATACGGTAATTTGCGCCTAGCCCCCTACCAGATGA
ACCTTCCTTGTCAAACACTCGTGCGCCTTATGAAGTAAGATCCAGGCTGG
TTTTAATTTCTGGATTTGCAGAAATCGAGCACATGCTTCCGTTGTACGAA
GTAATATTTAGCAGTATGGTGACTTATGGAAACCCCACACTCCCCTGTCT
AGTACGTGCAAACGATGGCTTTCTTTCGAAAGCTGCGCCGCGTAAAGACA
ACTACGATATGATGACTGACGGTTTACCTGCTGAAGTCTGAGACTTTTAG
TTTCTTGGGCAGGTCATGGGGCATCTCAAGTGCAGAGTTTTGTCCCGCCA
CGACAGTTACCCGCGTAACTTGGAACCCCAAGAAACACCCACAACATCAA
TCTCCTGCCTGTTCTACCCTTGGGTCGAGAAATGGCATAACAAAACAATT
CTCCGGGTTCATCGCTGAAATACGTCAGACCTCATCTACGCTTGTCGAGT
AGAAAGCTGAAGTCGTCTTTGGGCACCTGATGGAGTAAACGAAGCGTTGG
CGCTGAAGCTCTCCTCGGCGTTGACGACGGATCGCCTTCCTGTTCCTGGA
TCGACTAGCCAGTCGCGAGTGATGTTGAACAAATTTAAGTCTGCTTAAGA
GAGAGAGAGAAAGAGTACAAGAACATAGCACCACCGCGGTCATTGTGACG
AAGGTGGGCCCTGAATGCAACGCTTCGAATGACTTGATCTGAACCGTCGA
ATTTGTACTGATCTTTCAGTTTTTTTAAAGAAAAGCCGGATTTGGAATGG
TTGCGCAAGCTTGCTTTGGTCAAAACCCGTCTGAATGCTGCAAGATTATT
GAAACGTGGTTGACGATGATGAGGCCTTCGATGTTCAACTTACCAAATAC
GTCGAAGTAGATGGTATTATGGAACTCGTTGGTGGTGCCCGATGTAAGGT
TGCAGATGATGTACATGCTGCGCGCTACACGTTTGTCAAAGTCGAAACCG
GAGTTTGTTTCGGCTTGAAAACAGAATGGGCCGTAGAAAGTCGGAAGGCC
GTGGAAATATTTTCGACAAGCTGAGCTTCGGAAGCTGTTTCTCGGACACC
CTCCCTCTTGGATACAATGCCCCAGACGTCCTCAGATGTCCGGATCTGTG
CCTGCTGTCAAGTTTGGTGTGATTGAGCTCTGTCACTAGAGCTCTGCGAT
GCTGCTCATGGTGAGATTGATACTGCGATTTCAACGCCGACCATACTCGC
AAATCGTCACCCTTAGCGCTAGAGTACGGCTTGATTTTTTCCAAAACTCA
AAGCCGTTCCTCTCGTGCAAAGGTACAGAACGTGGTACAGTACCGCGTGT
ACCTGTTATTTTTGTCCCAACTTCCTTGTTCGCGTTTGATCTATTGAACC
AACGTGCCCATGGTGGTCCCAGATCTGGAGGCAGTCGGTCGTCGTCCAGC
TACTGCTGAGGCCGTGCGTACACCGCTGTCTCGTGTGCGGCTCTCCTCGT
AGGGGTCGCCACCTCCCCCCGGGTCGCCGTCGCCGTCGCAGCCTTTCTCT
GCTGCTTCTGGTGCTTTTGCTGCTGCTGCTTTTACAAGCTTTATCGTAAT
AGCTTAAGCTGCGGGCTGAGCAGTGATAACGGGTACAGTAGAACCCGCTT
CTTGCTTCTCAGCTCTCCTTCTGTGGATGCCGTGATCGTGAAACGACCTC
GACAAAACTGATCTTGGTAGAAACAGGAAGTGAGCACACAGGGCATCAGT
CAGACATCAAGTGATGACATTTCACTATAGCACAACTATGCCCGCGCCGA
TTTTTTACGTACTGACACCGTCCAATATCTTATCTAGATGTCCTAACAGA
CCCATCCTATCCACCAAATACGCTACTCCATATTTTACATTGTTACGCTC
TTTCAATCGAGTCGCTTGTAAGCAAATATTCAAGTGTTGCGTAGACGCGG
AAAATACTACCTTACAGAAGTAGGATGGAAACCCGAAAACTCGCTGTTGC
GTAAGGACCCAGGCACGACAGATTGTTGAGAGGTGGTACACATTTTGAAA
AACAGCAAAGGGGCCCTGACAATCACACACTGGGTACCTCACACCAATAG
GATAACATCGGGAAAGAGAAAAAGTGGTGGTGATCGCACCCAGCGGCGGC
AGGGGCTTCTCGTTATATGCATATCACACGTCGACCTCCAATTTCCCAAA
TAAATACCAAGATACTTTTCAAATAGTCTAAAATGAAGTCAAAAGAGCTT
ATGTGGCTCAACCTTCACTTTGTCTGCTGTGGAAGGAGTAGTCTTCAAAG
TTTTTCTGCCAGTAGAGGACACCATGGAGCGGCTACGTGTGTGTCGGCTC
GTTCAGATATGCCGCTGGGGCTGAGATATCGAAAGCTGCAGCAGTGGCTC
GAAAAGTCCGCGAACTGCGGCCGAACTGGATCGACACCAAAGGTTTGCCA
CTCCTATGCTCGCCGCCACGGACTCCAACGTCCTGAACTGCAGGTCATTC
CAGGTAGCTAGTGGCACCAGCTATTGCTGTAGATCCACAGTTCAGGGGGT
TGGGGTCTGTGGCGGCGAGTACAGCAGTGAAAAATCTTTGGTGTCGGTCC
AGTTCCGGGGCAGTTTGCGGACTGTTTCAGCCACTGCTACAGCCTTCGAT
ATCTCAGTCCCAACAGCATATCTGAACGAGCCGACACACACGTAGCTGCT
CCATGGTGCCCTCTACTGCTTGAAAATCTTTGGATACTACTCCTTCCACA
GCAGACTAAATGGTACGTTGAACGCCAAAACAAGCTATTTTAACTTGATT
GAAGATTGAAATTTATCCTTTGGATCCGAAACAAGATTTTCCGTACGGAA
GTCTTGGTCTTTACCGCCCTTGTCAGTGAATCCCTAACAGTAGTAAGTGT
GTTTTGCCCCTCTCCTGTTGTACTAAAAAAAGAATTTGTCACATGAACTC
AAAACTACCTCACGTATTCAGAACACAACTCCGATACATGTCGTTGCTAG
TGTTCACCATCAACCATGAAAGCAGCTGGCACACATATTTCACCGTCACG
GCACACATAGGCATGACATGTTGTCATGTAACGCTTGCTGTCGAACGACA
TTGTCCGTCCAGTTCATGAGAAAATATCACCTTTAAATTTCCTTGTTGAG
AACTTGCTACGAGCCGGGAGGAGGATACTTTTTTCGAGCCCTGGAGCCTG
GAGTATTCAGGTATCTTCATTTCCTGAAGCGTAAGAATCCTTGTCTTGAT
ATTGATGTGAACGACGTCAAGTCCGTGCGAGGCTGCTATGCACAACGGCA
CAAGCTGACTGCTCATCCGTTCCGTGGATGCCAAAGTTCCCCAACAGACT
CCATGCCGTTGAGCGAACCCTTGAACAAACCGTACGAGCTTTGAGCGTGC
CATCGGGTGTTACTTTCAACCCCCAACGCGACCCGATCGGAGCAGGCCCA
ACAGGGAATAAACGAATAGCAGGTACCATGTCAGCAACATTGTATTCTGC
AGACTGTCTAGCTCGTAATCGCCGCCTTCCACTTTCCTGAAGACTCGGTT
TTCATCGCCGGCTGCTTCGAGGGGTGCGTGCTAGTGATAACGGTTAGTGC
GTGACGCTGATTGCGTTTGCTGGTGGGGTTGGAAGGCTCGACGCATTTTC
GTGACGCACATATTCCAGTATTGTGTTCTTGTTGCAAGGTACACAGGGTG
GGTCTTCGGAAGGCTTTGGACAGGATGAACTCATAGAATCGCGCGCTGCG
GCCAAGCATGATGACGAGTAACCCTTCCACACGCACACCGTGTCAATAAA
CCATTTGTTGTTTTTTTCTCAAGGTGGTCACAGATAACAAGAATAACTTC
GTGCTGCACCATAGGCGTACGGGCGAGACGCTCGAAGTTTCACACGTTCA
GGTACCTGGGGGAGGAATCGGTGTGCCTGGCGGCGTCGACGCCGGGGCGA
TGCAGGTGACCAGTTTTATACAGCCCCGACGACAGCAACTGCAGCAGCAG
CAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACAACAGCAACA
GCAGCAACATAGAGAGCAACAACAACATACCTTTCAAGAATCCGAAGAAA
TGGCGGAGGAGGCCGAAGCAGGCCTCGGCAAATGGCTCCAGGAGAAGGAG
ACAGAAAGAAAAATAAGCAGGGACAGAATAAGCGAGGAGGATAATGGGAG
GAAGAGAAGAGATGCGGCGATCCCGGCGCCTGCAGACGCAAGCGCGGTCT
CGCTGACGTTATCCACGGCGGTGGCTGCCGAGGCAGAGGCAGCTGCGGCG
GAGATGGAGCTTGCGGTGTTGGAGTTGGAAGCAAAGGACGCTGAGCTGGC
GCTGGCCATGGAAGAGGTAGAAGCTCGTGAATCTGCTGCTTTGTCTGTAT
TGGAAGAACACTGGCTGGGAGCGGCGGGCAAGGAGAGGCAAAGAAGACAC
GAAATGGCGTTGAGGGCAGTCATGTCGGCCGTTGCAGTCGCGAAGGCGGC
GGGGGCGGAGGCTAGGGTAGCCGTGGAGAACTTGGAAGCGAAGAGATCGA
TATCTACGCTGGCGGTTTCGCAGTCGCAAGCTAGGACGGCTGGTGGTGTT
GCTTCTCTGAATGCGATGCATGAAGAAGCGGAAGAAGGGGGTAAGGAGGC
AGCGGAGTCAAAAGCGTTGCTGCATGACGTCGAGGCGCGAAAGAAAGGAG
AGGCGGGCGAGGCGGGAAGAAACGGGGAGGCGCAGGAGGAAATGGAAGCG
TTCATGCCTTTTTCGGCCGTGGAAGGAGCAGCAGGTGGAGAGGGGGGAGG
AGAAGCGGAAGTAACACAACAGCAAAGGAAGTCTGAGAATGAGGCAGGTA
GCGTTGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGGGGCCTCGGTAGC
CGACACGGCGAAGGCGGGCGAGAAGGTCGTGCAGCCCTAGGATCAACCTC
CAAGAAAAATATGTTCATCACAAGAGAGGTACCGTATGCCGTGGGCTTAC
TCCATGAAGGCACCGAGCGGGTAGTCGAGATTTGGGGTGCGTTCACCGAT
TTTTGCTTGCATGTGAAAGAAAGTGAGTCGTTCTACTGCTGCTGCTGGCG
TGGTGTTGGCGCGGAAAGAAAGGAGGTCTTGCGCATACATGTACAACTTT
GCCTTCCTCGTTTCTTTCCTTTTTGCCCGCTCACGGTCACCTATTTTCTT
TCGCGCACGCGCAGGGTCTGGCTGTGTACTGCGCGGTTTCCGTGGTCGGC
ACCGACTACCCCTGCTCGCTCTCGACGTTCAGCGCCCCTGGAAACGGCAA
AGCCGTCATCGCCCCCGTCTATGCTCCGCTGCATGTCGTGGAAACCCGTC
AACAATCCGATGGCCAAATTTCGTTCGGATGCAACTTGGATCACGAACCT
GCCTCCGCACCACCTGAGCTTGGAGTTGTCGACCCCGAAGATGCTTCTGT
TGCCGGGAGTGACGGTGACAGTGTCAATGATGTCGACCCTGTCTCAATTG
CTCTTGACGTTGATGAGGTGGATGGCGGAGACCTCGGTTTCTTTGCTGCC
GGCGTGTTGTGGTGGCGGTATCGGCTACAACAGCTACAACGACGACGCCC
CAATTCTGCCGCCCCTATTTCTAGCAAATACGGTGGCAGTGCCGCGGGGT
ACTCGGGAGGCATCTTACTTGTATCGCGTGGGGAATGCACGTTTGAGCGA
AAGGTGAGAGCCAACTGTAGCAATAGAATAATAGCGACCATAGTATCGTC
AGTGTTGTTGCTGCTGTTGTTGTTGTTATTGTTATTGTTATTGTTATTGT
TATTGTTATTGTTATTGTTTTTGTTATTGTTACTGTTATTGTTATTGTTA
TTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATT
GTTATTGTTATGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTT
ATTGTTATTGTTATTGTTATTTTTATTGTTATTGTTATTGTTATTGTTAT
TGTTATTGTTATTGTTATTGTTATTGTTATTATTATTGTTATTGTTATTG
TTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTT
ATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTATTGTTAT
TGTTATTGTTATTGTTATTGTTATTGTTTTTGTTTTTGTTTTTGTTTTTG
TTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTTCTTGTT
CTTGTTCTTGTTTTTGTTTTTGTTCTTGTGCTTGTTGTGCTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTCGTTGTTGTCGTTGTTGCATTCTCGT
TGTTGTGTTGTGACAGGGTTTCTTGTGTGGTGTTTTGGTGCTGGTGTTAC
ATGTTGGTGCCGTTGGTGCTGATTAAGATTGTCCGCGTGTGACGTTGGTG
CTGATGTAGTGTGTACATATTGGTGGCGGTAAGCCGTGGAGGGAGAATGA
TGTGGGAGGTCTCTGTGAATGTGCCAGTGTTGTCGTTTCTGCTCTTGCTG
CTGCCCTTATTGCCGCTAACAATATTTACATGGCATACCACACGCAGAGA
GCGCTCAAGTGTTCGGCGCGATTTGTACCTAAGGATGGTGATGTGTCTCG
GTCGATACGCGCGACCGTCGATCGGCATACTAAGGAAAGCAAATTTGGGT
GCTTTCCCTCCCTCCCCGCTTCTCTCGACCACCCCCCCGCCCGAAATATG
CTGTAGGCGGTTGTTGCTCAGGCTGCCGGCGCGGTCGGACTTGTGATTGT
CAACACCGAGCCTGGCGGGGGAACGTTCGCGATGGGCAGAGGTCATGAGG
AGGGGGGCGCCAGCACCGACGGGTTGAACATCCCTGTCGCTATGGTGAGA
GTAAGGGAGGTAAAAATGTGGAAAATATTTTTGTGCTCCTGCGACATTTT
GATGCAGGATTGCTGTTTTAGAACACGTCATGTGCCAGTGGAATATCTAC
ACGAAACTATAACAGAAAATTTGCTCCCCCTCCCCAGACCAAATTTCAAT
GCTCGATATTTCCGCATCAAGTTGGTCACAGATACCAAAGAAAACTTTTT
GGAGAGCGTGCGATAAAATCTTTCCAGTGATAACCGTCGTGGTCTTGTCG
CTCGTCGTACTTCAAATCAGCGCTCATTAGTAGAACCAGGTTCGAATCCC
TCTGTTACCATTTGTGGCGCCTTTTTCAGAAAAAATCGGAAGCAGTCTGG
AATGCACGTCTTAAAATCATGACATACATTCCATTCGTCCAAATGAAGAC
ACATATCCCCGCCTGTAAGCCGATACACCGCATGGAGAAGCGCTGACTAC
CGGGATTACAACCCTGGGGAAAAATGCGTGGTCCACAGCTCTAACCGGCT
GTTCGAACCAGTTGTTGGTATGTACACATATCCACTGTACTACAAGTCAG
AGTTGACTCATATTACAGTGGATATGTGTACCTACCAACATCGTCTGCTA
GAAATATCTGCATAACTTTGCATAACTTTGAAAATAGACACAAGGGGACT
GGCATTCTGCGTCATGTGCTGTGTTTCCGACCCTCCCTGCCTCTCCGCCT
GCCCACCGGCCGGCCTGCAAGCCTACCCTCTCCCCCTACCATCTCATTGA
CCCGCCCTCCTTCTCGCGTGCATTCGAATTCGTGCCGGGTCGGCTGAATA
CACATGTTGCAGGTGGGAATGGAAGATGGGGCGAAGATTCTGCGCGCGTT
GGCGGCCGCGGCTGCCTCGGAGGAGTTCGACGGCCGGTTTCCCTTGCAGG
TAAAACGGACACACACGGTTTTCTTTTATTTTTGTGTCTTTTTTGAGGAA
CATTTTGTTTTTCTGCCAATATGAGACAATATGTTCCATGCGCGCTAGTC
TAGTCTTTCGCGTCCAGCGACGTACGATGTCCCTGTCCCGTAACGGGGGG
TGGGCGGTCTTTGCGAACACTTTTTTTTCAGTCCACTTTGAACCTCGTTA
CCTATGACAGCAAGTTCCTCATTTTTGTTTTCTCGCCCTGAAACACCGAT
AAATCTACTGTGATACACAACACATGCAAAAAAGAGATGGTGTTGATTGA
ACACCAACGGTACGCCCGTGGCTTGGTTGGCCCAGTAGAGACGCCCTAAA
AACCAACATATCAACAGAACAATATACTTCTCTCTCTCTCAAGTATCACT
TTTGTCCCTCTTAATTGGTATGCAGGACTCCCAACCGACGCATGCATCCT
TCATGCTCAGCATACTTTGTTTCTTGCGTTCCGTCTGTTTTGTCTCTCGT
CGTGTTGTAATTGGTGGGACATGTTTTCGTTAAAGGGAGTGCTAGATGCC
AGAACACACCATCAGAGTGTGTTCTCCAGGCTGTTTCGAGAGCAGGAGGA
AGGGCTGAGAGACGCCCGGGGGTCGTTGCTCGAGGAGCACAGGAGATCTG
CCCATCTTTCTCCTTTGTCGGATACTGGCAATAGTAGAGATGTTGGTGGC
ATCACAATTGGAGAGGAATTTAGAGAACGAGACAGCGACTTCGTCGGTGA
AACGTCCGCTGCCAAGCCCGCGGACGACGGCGCGGCACGATGGGAGGAAG
AAGGGGAGGAGCAGGACGAGGAAGTGGAGGAACAGGAGGAACAGGAGAGC
GGGATGGGCATTAGCAGCACGAGCAGCAGCGAAGAGCACAGTGGCAGCAG
CAACCGTGACAACCAGTTTTCTTTCCTGACATCGGGTTTCGATGAAACCA
CCTTGGGAGGGATGCGACCGCCCCCATTTCTGCTGCCAAAGGTGGTCATC
AACGACGGTTTTGTGCAGGTATTTTTTCCTATCCACATTGACTGGCCTGT
TTCCACCGCTAGAAAATCAGCACCAACTGATATTGAAGCCAGCCACAAAG
TACTCAATACGGTAAAGTCAACTGTACGAGGAAGCAGTAGTGCGTGTTCG
CGCTTGTGTTTGCGCGTGCGGTGTGTTTTTGTATGTGTGTGTCTCTCGGG
CAGGAGCCATCGAAAGGTTATCAATATGTAGCGTTTTCACATCAATATGC
CCTGTCTATAGCTTTCGTTGTGAGTATCATGAAGATCGGAGGAAGGACAT
GCCGGTGAGAGAAAAACTACTGTTTGCGAAAACCGGGAAACCAAAGTGCC
CGAACCATCGAGCATGACAAACCGCTCGTTGTCTGTTTAGGGATCACCCG
CCGCAGCTTTCAAGTTTGTCAGTGGGTTTCCCCGTTCGGTGCGGGTCTGA
CAACTTTAGGAGCGATTTGTTCGTTCAACCTTGAATGGATTCTTCCGGTT
TTATACGAGACGGTTATGCAGCTTGTCGTGCCGATGGTATGTATGATACG
ATAGACCTGCGTGATGAACGAAAATTGCCCTTCGCCACGCTGTCTCACTT
TCTAAACCCCCTTATGAATGCGCCAGGTGATGGGTCGAGGCCATTGGGGC
GTTTTGGTGTTCGAGCACAAGGGTTCTTGGGCGCTGTCCCTTACACCCAA
TACCTTCAACCCGCCGCCGCCGCCACAACCCCCACGACTACCACAACAGA
ATAGAGAGGAGGACAGGGGGGCACATGCCGGGATGCCCCCCGAAGCAGAT
AGCGCAGATCGTGGAGGACACGATCGGGATGGAGAATGAGGAAAATGAAG
GAGACGACGACAATTCGATGACTGCCGTGGGCTTAGAAGCACTACTGGAA
ATTGCTCTAGATGCTGGAAACACTCTGAGCCATCCAAGGACTTCGAGTCT
ACAGTAATACATCAGCACCTTAAACGTTTCGAGGTCTCCCCATTGGCAGT
TCTAGTTACGTCACGGTCCCGGGCTGTCGAAACAACGCGAATGCTGCAAC
CGTGTGACAACATTGTAGCTCACTTCATCACATCGTGAACTGTACGCTTT
GGTTGCGGAAGTAGATTGAACGTACATGTCGCGAGGTCACGCTGCCGACA
GTATAGCCGGGGCTTTGCGATCAACTCCATGACCACAACAAGACGTTTGT
TGATAACACAAATACATTCGAATTTTCCGTGCAGTAGACACATGATCGTG
CAACCTTCCCCCGATGCGGAGCATTCTTCTGTTGAACTCTATGCCGAGAT
CCGTACATCTAATACGGTCGTTGCTGTGTCTCATATTAACTGGCGCTCTC
CATTACCCCATGGCCACTCTAAAATCGACTATGGCGACGGCGGACTCAGT
CCATATCAACCGTAGACTAATAACAAGATGTTCAG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig78:493739..524623+ >mRNA_P-littoralis_Contig78.119.39 ID=mRNA_P-littoralis_Contig78.119.39|Name=mRNA_P-littoralis_Contig78.119.39|organism=Pylaiella littoralis U1_48|type=CDS|length=4866bp|location=Sequence derived from alignment at P-littoralis_Contig78:493739..524623+ (Pylaiella littoralis U1_48)
ATGGCGCTAGAGTCGCGAAAGGAGCGGCTGACGCGGCTCCGCTCCGACCA
ACGGCGCCGACGCCAAGAGGAAGGCGGTTTCGTCCCCGATCCTGCGTCCG
TCTCGCGCGAGAAATTGCGCAAGGAGCGAGAGGTGCTCCGCAGCTTGGAG
GCCTGTCACCGCCGCCGCGCCCGCCGATGGCGGGGCTCGAAGGTTCTCCT
CCTTCTTGTGCTGCTGCTGCTGCTCGCGGGATGGTGGCCGCGGTTGCGGC
ACCAGGTGGAAGATTTCTTGTTCTTGAACAATAACTTGCCACCGTGGTTC
AGCTCAGCAGCGAGAGGCGTGTTTTTGCCCACGGAGAGACAAGTGGAGCA
ATTGCTCGAGCCCCTGGAGTCCTCGTGTTTCACCTACGCGCCGACCACGT
GGGCGGCGGAGGGTAGCAACGAGACCGCCGCATCCGAGCCGTTCGTGTTC
CAGTGGTGCCACAAGGGACGGGCGACCGTACGGACGAAGGGAGTCCGCAC
GCCCCGGCAAGTCGATTTCGGCACGAGCGAGGAGACGACGATAGCCCTCG
GGCCACCCGTTCTCGAGTGGGAGGAGCGAGAGGAGAGGGAGGACGAGGAC
GAGGAACAACGCGTGCAGCGCTTTTTTCCGGCCGTGACGCAGCACTTCAC
GGGCGGCGCCCCCTGCCCTCAGCCCGCCGCCGACAGCTGCGGCAATGAAG
AGGAGAAGGATCGGGGCGGGGCGTGGGCGGCAGCAGGAGGAGGAGACGCG
AATGGTGGTGCGTGTAGCGGCAGTGACCGGCGAGAGCGGGAGGTGACGGT
GAACATTTGGTGCTGTGAGCCTCAAGGGGGTGGTGAAGGAGACGTCCAGG
CGGCGGCAACGATCGTTAACTTGGTCCACGAAGAGGGGGGGGGGGGCATG
GGAAGAGGAGGAAATTTTGGCTGTCCGAGGTTGGTGGCCTCTGTCTGCTC
CCACCTTCTCTGCCCTGTGTACCCAAAAGCTGATGAACCTCGCCACCACA
GCAGCAGCAGCAGCAGCAGCACTGGTGGACGAAAAGCGGGGAAAAGTACT
CGCGGCATTTACCTCAAAACCGGAGCCTACGAGGTTCCTCCACCGAAGAC
CTTCGCGTGGCGACCGCATCGGGGGTTCCTTGAGTACGACAGGCGTCAGC
CTATGAGCCGATCGAAACGCCTCGAGCTTAGAGAGGAAATTCGTGAGATG
TTCGTCCACTCGTACGACGGTTACATGAAACACGCCTTCCCAGGGGGGGA
ACTCCTGCCCCTGTCGTGCGGATCGGGCGAGCTGCACCTCGTGAAGGTGC
CGCTCGTAACCCTGGTGGACAGCCTGGACGCCCTGGCCATCATGGGAAAC
GCGACGGAGTTCAGGAGAGGCGTGAGGCTCGTTTCGTACGGCCTAGACGT
GGAGGCAGACGTGGATGTTTCGGTGTTCGAGAGCAACATCCGCCTCCTCG
GGGGACTTCTGTCGGCGCATCTGCTCGCCACCGACCCTGACCTGGGGCTC
TACCCCGGTCCTGAGAGTGACGAATCTGACGACTCATGTAGTACGTGTGG
CCGGTACGATGGCGAGCTTCTGGTACTGGCAGAAAGCCTCGGGCGACGCC
TGCTGCCGGCTTTTGAAACCCCCACAGGCATTCCGTACGGCACGGTAAAC
CTCAACAGAGGCGTTCCGGACGGGGAGACGACGGTTTCATCCCTGGCCGG
AGCGGGCTCCCTGTCGGTGGAATTTTCCGTCCTTTCTGCTCTCACAGGGG
ATGGTGTTTTCTCTGAGGTGGCAGAGGGCGCCGTTAAGGCCCTGTTTCGG
GGCAGGAGCACCGGTCTTGGGCTCCTCGGCAAGCACATCGACTCCAAAAC
GGGGGCATGGACGGAGACAAGTAGTGGCATAGGGACCAACGGCGACAGCT
TTTACGAGTACTTGCTGAAGATGTACGTGCTCTGGGGCGATCTGGAGTAC
TGGGACATGTTTATGCAAGCATACGTCAGCATTCAGCGGTTTGTTCGGGA
GGGCGACTGGTACGCTGACGCCGACATGAACGGCGGGTTTTTGACTCTGC
GGACGTTCGACAACCTCATGGCCTTCTGGCCGGGTATGCAGACACTCATG
GGGGACGTGTCGCTGGCAAGCCGGACGCTGAACGCCTTCTATCTGGTGTG
GAGGGACTGGGGATTTCTTCCCGAGCAGTTCGACCACGAGAAATGGACGC
TCAAGGAGGCAGGGGTCGGACGGGCGTATCCTCTGAGGCCGGAGCTGGTC
GAAAGTGCTCTGTTGGTACATCGGTCCACCGGCGACCCTTCCTGGCTGTG
GGCGGGCAAAGATTTTCTGGACTCGCTGAAGGCTTGCCGGACCGAGTGCG
GGTATGCCGGCGTGCGGGACGTGGAGGACTGCTCCCTGGACGAGCAAATG
CCGAGCTTTTTCCTCTCGGAGACCCTCAAGTACCTTTACCTGCTCTTCGA
CGAGGACAACTTCTTGCACAAGGGCAACTACGTGTTCTCTACCGAAGCGC
ACCCTTTCTCGATCGAAGTTGTCCGTCGCGGTGGGCATTCCTCTGCCAGC
GGCGGCACCACCGGTAACGGTAGCGGTGGAATGAGCAACGATGTCGAGCT
TGGCACCCTAGCCCTCGCAGAGACGACCCTTGAGAAGACGAAGGGCCGAC
AAAAAGAACAGCAGCAGCACCGAGAGCAGGACAAGGGCCAGCAGGAGCAG
ACACCGCAACGTAATAAGGTGGAGGGGGAGAAACATAGGCCGCAGAAGAA
AAAACGGCACGGCTGGTGGCGAAAGATATGGCGCAGCCTCGGACGCCCCC
GGCCCCGGTCGTACCCGAGCAGCGCCGACTCTCGTGACGACGAAGACTCT
CGTGACAGCGGTGTCAGCGGTGGCTTTGATGGCGGTGATGACTACGCAAC
TTGGGCGGCCTGGCGTGCATCTGCAGGAGAGAGACGTCATCGGCTTGGCC
CAAAGAACTGGCGGGACCCGGACATCGATTTTTGGGCTCAGGGGATTTAC
CCAGAAGAATTAACGAAGGCATTGGAGGAGGCAGAGGAGCGCGTGCGCCT
GATTGTTCTCGAGGAGCTGCGTTACATGGGGGTCCTGTGGGGGATGTACA
TGGACAGGACATGTCCGGTGCTTCCCCCGGAGCTGGCCCCCTTTCCGTAC
AACCCAGGCACCTTCTCGGACAGTCTTCTAGACGGGGGCCGAGCGGCCTG
GCTAGCGATCGTGGGGCAGGGGGGCAACCAGGAGGACCAGGACGGCGCCT
CAAGCGAGCAAGTGGAGAGGCAGCTGTTGCTCATGGATGGCGTCGGCTTG
ATTGAGGTGGTCACAGATAACAAGAATAACTTCGTGCTGCACCATAGGCG
TACGGGCGAGACGCTCGAAGTTTCACACGTTCAGGTACCTGGGGGAGGAA
TCGGTGTGCCTGGCGGCGTCGACGCCGGGGCGATGCAGGTGACCAGTTTT
ATACAGCCCCGACGACAGCAACTGCAGCAGCAGCAGCAGCAGCAGCAGCA
GCAGCAGCAGCAGCAGCAGCAACAACAGCAACAGCAGCAACATAGAGAGC
AACAACAACATACCTTTCAAGAATCCGAAGAAATGGCGGAGGAGGCCGAA
GCAGGCCTCGGCAAATGGCTCCAGGAGAAGGAGACAGAAAGAAAAATAAG
CAGGGACAGAATAAGCGAGGAGGATAATGGGAGGAAGAGAAGAGATGCGG
CGATCCCGGCGCCTGCAGACGCAAGCGCGGTCTCGCTGACGTTATCCACG
GCGGTGGCTGCCGAGGCAGAGGCAGCTGCGGCGGAGATGGAGCTTGCGTC
TGAGAATGAGGCAGGTAGCGTTGGAGGAGGAGGAGGAGGAGGAGGAGGAG
GAGGGGGCCTCGGTAGCCGACACGGCGAAGGCGGGCGAGAAGGTCGTGCA
GCCCTAGGATCAACCTCCAAGAAAAATATGTTCATCACAAGAGAGGCGGT
TGTTGCTCAGGCTGCCGGCGCGGTCGGACTTGTGATTGTCAACACCGAGC
CTGGCGGGGGAACGTTCGCGATGGGCAGAGGTCATGAGGAGGGGGGCGCC
AGCACCGACGGGTTGAACATCCCTGTCGCTATGGTGGGAATGGAAGATGG
GGCGAAGATTCTGCGCGCGTTGGCGGCCGCGGCTGCCTCGGAGGAGTTCG
ACGGCCGGTTTCCCTTGCAGGGAGTGCTAGATGCCAGAACACACCATCAG
AGTGTGTTCTCCAGGCTGTTTCGAGAGCAGGAGGAAGGGCTGAGAGACGC
CCGGGGGTCGTTGCTCGAGGAGCACAGGAGATCTGCCCATCTTTCTCCTT
TGTCGGATACTGGCAATAGTAGAGATGTTGGTGGCATCACAATTGGAGAG
GAATTTAGAGAACGAGACAGCGACTTCGTCGGTGAAACGTCCGCTGCCAA
GCCCGCGGACGACGGCGCGGCACGATGGGAGGAAGAAGGGGAGGAGCAGG
ACGAGGAAGTGGAGGAACAGGAGGAACAGGAGAGCGGGATGGGCATTAGC
AGCACGAGCAGCAGCGAAGAGCACAGTGGCAGCAGCAACCGTGACAACCA
GTTTTCTTTCCTGACATCGGGTTTCGATGAAACCACCTTGGGAGGGATGC
GACCGCCCCCATTTCTGCTGCCAAAGGTGGTCATCAACGACGGTTTTGTG
CAGGTGATGGGTCGAGGCCATTGGGGCGTTTTGGTGTTCGAGCACAAGGG
TTCTTGGGCGCTGTCCCTTACACCCAATACCTTCAACCCGCCGCCGCCGC
CACAACCCCCACGACTACCACAACAGAATAGAGAGGAGGACAGGGGGGCA
CATGCCGGGATGCCCCCCGAAGCAGATAGCGCAGATCGTGGAGGACACGA
TCGGGATGGAGAATGA back to top
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