Homology
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
D7G750_ECTSI (Alanine transaminase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G750_ECTSI)
HSP 1 Score: 796 bits (2057), Expect = 2.980e-281
Identity = 377/484 (77.89%), Postives = 431/484 (89.05%), Query Frame = 3
Query: 219 RVLNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREGGGGGRSSWRARL 1670
+VL Y+ +A CVK CQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTF+RQVMALVMAPFLL+DPRV DMFPGDAI RAR YL VKGG GAYSDSKGN Y+RQEVCDFI+RRDG+ + PDN+FLTNGASEAVRL+LR IR SDGV+VPVPQYPLYSASVALY+GTFVGYNLCE+KGWGLD S+ NA+ AR+ G+ LRALVFINPGNPTGNCLTV DL+ ++RFAY+ +++MADEVYQENIYQS+TPF S KKVL +MG P++ SVEL SFHTVSKGVYGECGLRGGYMELTNID RVS+E+YKLCS+NLSPNVTGQ+A+G+MCNPP+PGSES+ LHM+EK++LLQSLIRRARSI +AFN ++GVTCEETEGALY+FPKIDLPRAAI+AA+AAGK PDVFYCLELLKETG+SCVPGSGFGQ EGT+HFRTTILP ED + +++GF +FH GFMAKY G S+WRARL
Sbjct: 7 KVLTYDTIAECVKDCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFLRQVMALVMAPFLLEDPRVSDMFPGDAIARAREYLVHVKGGFGAYSDSKGNPYVRQEVCDFIERRDGHRTSPDNIFLTNGASEAVRLVLRTAIRGPSDGVMVPVPQYPLYSASVALYSGTFVGYNLCEAKGWGLDTASLNNALNEARRNGITLRALVFINPGNPTGNCLTVEDLRQLVRFAYDNRLVLMADEVYQENIYQSKTPFTSCKKVLAEMGYPYSSSVELVSFHTVSKGVYGECGLRGGYMELTNIDQRVSDEMYKLCSINLSPNVTGQVAMGIMCNPPKPGSESYALHMREKEVLLQSLIRRARSIVDAFNGLDGVTCEETEGALYAFPKIDLPRAAIDAAKAAGKAPDVFYCLELLKETGLSCVPGSGFGQAEGTYHFRTTILPAEDTFQSVVDGFTSFHRGFMAKYGGXXXXGHSTWRARL 490
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A0A835Z6X1_9STRA (Alanine transaminase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z6X1_9STRA)
HSP 1 Score: 665 bits (1715), Expect = 1.350e-229
Identity = 317/469 (67.59%), Postives = 381/469 (81.24%), Query Frame = 3
Query: 219 RVLNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKY 1625
+VL+YE +A VK+ QYAVRGEIYLAA+ERIK G++VIFTNVGNPHGLGQKPLTF RQVMAL+ APFLLDDPR MFP DAI RA+TYL +KGG+GAYSDS GN Y+R EV FIQ RDG+ +DP+ +FLTNGASEAVR +LR LIR DGV+VPVPQYPLYSAS+ALY+G FVGY L ES GWGLD+ + ++ AR GL +R LVFINPGNPTG CL+ +D++ ++RF ++ +++MADEVYQEN+Y+SR PF SAKKV+ ++G P+ +EL SFHTVSKGVYGECGLRGGYME+ N DPR EEIYK+CS+NLSPNV GQ+A+G+MCNPPR G SF+ M EK LL SL RRAR +T+AFNS+EGV+C+ETEGALYSFP+I LP AA+ AA AAGK PDVFYCL LL ETG+S VPGSGFGQ EGTFHFRTTILP E + E++ FK FH+GF+ +Y
Sbjct: 9 KVLSYEKVAESVKRAQYAVRGEIYLAASERIKKGEKVIFTNVGNPHGLGQKPLTFPRQVMALLTAPFLLDDPRTATMFPADAITRAKTYLANIKGGVGAYSDSVGNPYIRDEVAQFIQARDGHAADPERIFLTNGASEAVRTLLRTLIRGHMDGVMVPVPQYPLYSASIALYDGCFVGYELDESTGWGLDLVKTKASLDAARARGLCVRGLVFINPGNPTGQCLSRADVEALVRFCFDNRLVLMADEVYQENVYRSRHPFTSAKKVMCELGEPYTSGLELVSFHTVSKGVYGECGLRGGYMEMCNFDPRTVEEIYKICSINLSPNVPGQVAVGLMCNPPRRGDPSFDSFMAEKAELLASLKRRARLLTDAFNSLEGVSCQETEGALYSFPQITLPPAAVAAARAAGKAPDVFYCLALLSETGLSTVPGSGFGQAEGTFHFRTTILPAEADMGEVVELFKRFHKGFVQRY 477
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
W7TAZ1_9STRA (Alanine transaminase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TAZ1_9STRA)
HSP 1 Score: 630 bits (1624), Expect = 3.490e-214
Identity = 301/479 (62.84%), Postives = 372/479 (77.66%), Query Frame = 3
Query: 219 RVLNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREGGGGGRSS 1655
RVLNY+++ VK C+YAVRGE+Y AATER+ AGKEVIFTNVGNPHGLGQKP+TFIRQV ALV APFLL+ P V+ +FP D I RA+ Y++ GGIGAYSDSKG +RQE DF+QRRDG+ SD D +FLTNGASEAVRL L ++R DG+LVP+PQYPLYSA++ L +G+ VGY L E GW LD +E AV A+++G+ +R +VFINPGNPTG CL+ DL+ +++FAY +++MADEVYQ+NIYQ+ PFVSA+ V + MG P+A +ELA+FHT SKGVYGECG RGG MEL N D RV++E+YKL S+NLSPNV GQ+ LG+M N PRPG ES+ + +EK LL SL RRAR+IT+AFNS EG+ C+ETEGA+YSFPKI LP AA+ AA+AAGK PDVFYCL+LL+ TGIS VPGSGF Q +GTFHFRTTILP E K +++I F FH FMA+Y+ G G S
Sbjct: 50 RVLNYDSLPDHVKHCEYAVRGELYRAATERVAAGKEVIFTNVGNPHGLGQKPITFIRQVFALVSAPFLLEHPDVHRIFPRDVIARAKAYMKAAPGGIGAYSDSKGLPIVRQEFADFLQRRDGFGSDIDKIFLTNGASEAVRLGLTAMLRGPQDGILVPIPQYPLYSAAIELLSGSMVGYYLHEESGWSLDFEELERAVRDAKRQGVRVRGMVFINPGNPTGQCLSRQDLEGLVKFAYKHKLVLMADEVYQDNIYQTVRPFVSARHVALSMGSPYAQGLELATFHTASKGVYGECGFRGGVMELLNFDERVADELYKLASINLSPNVPGQVILGLMVNGPRPGDESYAQYAREKQDLLDSLRRRARAITDAFNSCEGIVCQETEGAMYSFPKITLPPAAMAAAKAAGKSPDVFYCLKLLETTGISTVPGSGFKQRDGTFHFRTTILPPESKFQDIIQRFLAFHSAFMAEYKGSTGRGTDS 528
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A0A7S2XZX4_9STRA (Alanine transaminase n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XZX4_9STRA)
HSP 1 Score: 618 bits (1593), Expect = 3.590e-211
Identity = 291/471 (61.78%), Postives = 370/471 (78.56%), Query Frame = 3
Query: 225 LNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPF-LLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREG 1634
L + +AP V+ QYAVRGE+YLA R+KAGK VIF N GNPH +GQ+PLTFIRQVMAL+ AP +++P + FP DAI RA+ Y+ V GG+GAYSDSKG +R E+ DFI RRDGY ++P+N+FLTNGASE VRL LR +IR SDG++VP+PQYPLYSAS+ LY G+ VGY L E KGW +++ +M +A+ AR +G+ +RALVFINPGNPTG CLT + ++RF +N+++MADEVYQENIY+S F+SA+K +MDMG P+++ +EL SFHTVSKGVYGECGLRGGY ELTNIDP V+ +YK+ S+NLSPNV GQ+ALG+M NPP+PGS S++L +EK LLQSL RA+ ++ AFNS+ G++CE+ + +LY+FP+I LP+ A+EAA AAGK PDVFYCLELL ETGIS VPGSGFGQEEGTFHFRTTILP ED+ EE++ FK FH FMA+Y +G
Sbjct: 8 LTIDTIAPMVRDLQYAVRGELYLAGQARMKAGKRVIFCNTGNPHAIGQQPLTFIRQVMALITAPKDFIENPAISQFFPPDAIARAKEYIAAVPGGVGAYSDSKGLDIVRNEIADFIARRDGYSTNPENIFLTNGASEGVRLCLRTIIRGPSDGIMVPIPQYPLYSASIGLYEGSLVGYYLDEKKGWAVNLDAMYSALNKARSQGITVRALVFINPGNPTGKCLTQQGVSELVRFCVEENIVLMADEVYQENIYESSAVFISARKTMMDMGSPYSEKLELISFHTVSKGVYGECGLRGGYFELTNIDPEVAGMLYKIASINLSPNVPGQIALGLMVNPPQPGSPSYDLLQEEKAALLQSLKNRAQMMSEAFNSLPGISCEQVDSSLYAFPQITLPQKALEAAAAAGKSPDVFYCLELLNETGISGVPGSGFGQEEGTFHFRTTILPPEDEFEEVVQMFKDFHSKFMAQYSDG 478
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A0A7R9U3R8_9STRA (Alanine transaminase (Fragment) n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U3R8_9STRA)
HSP 1 Score: 600 bits (1547), Expect = 6.960e-204
Identity = 290/473 (61.31%), Postives = 358/473 (75.69%), Query Frame = 3
Query: 240 MAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGG-IGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREGGGGGRSS 1655
M+ VK +YAVRGE+Y AA R AG EVI TNVGNP L QKPLTFIRQV+ALV APFLLD P V +MFP DAIERAR Y+ + GG IGAYSDS+GN+++RQ++ DFI RRDG SDP +FLTNGASE VRL L +IR DG+LVP+PQYPLYSAS+ LYNGT +GY L E GW LD+ + + AR+ + +RA+VFINPGNPTGNCL+ + L + A+ + ++MADEVYQEN+Y SR PFVS KKVL MG P++ VEL SFHTVSKG YGECG RGGY E TNIDP + +++YK+ S+NLSPNV GQ+ALG M PP PG S+ + +E D ++QSL RRAR IT+AFN +EGV C+E +GALYSFPKI LPR A+EAA AAGK PD FYCL++L++TG+S VPGSGFGQ++GTFHFRTTILP E + + ++N F +FHE FM +YR+G +SS
Sbjct: 15 MSERVKNTEYAVRGELYTAAMARKAAGGEVILTNVGNPQALQQKPLTFIRQVVALVSAPFLLDQPGVENMFPADAIERAREYVAHLPGGSIGAYSDSQGNMFVRQQIADFIMRRDGVASDPMMIFLTNGASEGVRLHLEAIIRGPQDGILVPIPQYPLYSASIGLYNGTLLGYQLDEDTGWSLDLDEVRRVIKNARRRNIQVRAMVFINPGNPTGNCLSDTQLADLCTLAHQERFVLMADEVYQENVYGSR-PFVSCKKVLASMGEPWSSQVELVSFHTVSKGAYGECGFRGGYFECTNIDPAIVQQVYKITSINLSPNVPGQIALGCMVTPPTPGMPSYAQYWREHDNVVQSLRRRARMITDAFNKLEGVECQECDGALYSFPKITLPRRALEAARAAGKAPDTFYCLKMLEDTGLSVVPGSGFGQKDGTFHFRTTILPPESQFDRIVNLFTSFHEKFMDEYRDGPKPSKSS 486
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
GGT1_ARATH (Glutamate--glyoxylate aminotransferase 1 n=59 Tax=cellular organisms TaxID=131567 RepID=GGT1_ARATH)
HSP 1 Score: 598 bits (1541), Expect = 2.130e-203
Identity = 281/474 (59.28%), Postives = 367/474 (77.43%), Query Frame = 3
Query: 219 RVLNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREGGG 1640
+ L+Y+ + VKKCQYAVRGE+YL A+E K GK++IFTNVGNPH LGQKPLTF RQV+AL APFLLDDP V +FP DAI RA+ YL GG+GAYSDS+G +R+EV +FIQRRDGYPSDP+ +FLT+GAS+ V IL C+IR DG+LVPVPQYPLYSA+++L GT V Y L ES+ WGLD+ ++ +VA AR +G+ +RA+V INPGNPTG CL+ ++++ I++F YN+ ++++ DEVYQ+NIYQ PF+S+KKVLM+MG PF+ V+L SFHTVSKG +GECG RGGY E+TN+ PRV EEIYK+ S+ LSPNV+ Q+ +G+M NPP+PG S++ +E +L+SL RRAR +T+ FNS + V C TEGA+YSFP+I LP A++AA+ AGK PDVFYCL+LL+ TGIS VPGSGFGQ+EG FH RTTILP ED++ E+++ FK F++ FM +Y G
Sbjct: 4 KALDYDTLNENVKKCQYAVRGELYLRASELQKEGKKIIFTNVGNPHALGQKPLTFPRQVVALCQAPFLLDDPNVGMLFPADAIARAKHYLSLTSGGLGAYSDSRGLPGVRKEVAEFIQRRDGYPSDPELIFLTDGASKGVMQILNCVIRGNGDGILVPVPQYPLYSATISLLGGTLVPYYLDESENWGLDVANLRQSVAQARSQGITVRAMVIINPGNPTGQCLSEANIREILKFCYNEKLVLLGDEVYQQNIYQDERPFISSKKVLMEMGSPFSKEVQLVSFHTVSKGYWGECGQRGGYFEMTNLPPRVVEEIYKVASIALSPNVSAQIFMGLMVNPPKPGDISYDQFARESKGILESLRRRARLMTDGFNSCKNVVCNFTEGAMYSFPQIRLPTGALQAAKQAGKVPDVFYCLKLLEATGISTVPGSGFGQKEGVFHLRTTILPAEDEMPEIMDSFKKFNDEFMTQYDNNFG 477
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A8HZZ4_CHLRE (Alanine transaminase n=7 Tax=Chlamydomonadales TaxID=3042 RepID=A8HZZ4_CHLRE)
HSP 1 Score: 592 bits (1525), Expect = 2.260e-200
Identity = 283/458 (61.79%), Postives = 351/458 (76.64%), Query Frame = 3
Query: 252 VKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKY 1625
V K QYAVRGE+YL A + K GKE+IFTNVGNPH LG KPLTF RQV+AL APFLLD P+V DMFP DAI RA+ L KGG+GAY+DS+GN +R+EV FI++RDG PS+PD++FLT+GAS AVRL L +IR+ D VLVP+PQYPLYSAS+ LY GT VGY L E +GWGL + ++ A+ AR+EG +R LVFINPGNPTG CL+ +LQ +I+FAY + +++MADEVYQEN+YQ PFVSAKKV+ +MG P+ VEL SFHTVSKG GECGLRGGY+E+TNI P EE+YK S+NLSPN GQ+AL ++ NPP+PG S++ + KEK L SL RRA +T+ FN+++GVTC TEGA+YSFP+I LP A+EAA+AAGK DVFYCL+LL+ TGIS VPGSGFGQEEGTFH RTTILP+E+ + + F FH+ FM +Y
Sbjct: 63 VVKTQYAVRGELYLRAEQLRKEGKEIIFTNVGNPHALGAKPLTFTRQVLALCAAPFLLDHPKVEDMFPADAIARAKKILASFKGGVGAYTDSRGNPLVREEVARFIEKRDGVPSNPDHIFLTDGASVAVRLCLNAMIRHDRDSVLVPIPQYPLYSASIRLYGGTLVGYFLDERRGWGLSVEELQRALQEAREEGKLVRGLVFINPGNPTGQCLSKENLQELIKFAYQEKIVLMADEVYQENVYQDERPFVSAKKVMWEMGEPYRSHVELLSFHTVSKGTAGECGLRGGYVEMTNIHPGAIEEVYKCASINLSPNTMGQIALSVLVNPPKPGDPSYDQYTKEKASELVSLRRRAHMVTDGFNALDGVTCNFTEGAMYSFPQIKLPAKALEAAKAAGKAGDVFYCLKLLEATGISTVPGSGFGQEEGTFHLRTTILPREEVMTHFVEKFDKFHKDFMKQY 520
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A0A328DFB6_9ASTE (Alanine transaminase n=3 Tax=Cuscuta sect. Cleistogrammica TaxID=1824901 RepID=A0A328DFB6_9ASTE)
HSP 1 Score: 588 bits (1517), Expect = 8.770e-200
Identity = 281/471 (59.66%), Postives = 362/471 (76.86%), Query Frame = 3
Query: 225 LNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREGG 1637
L+YEN+ VKKCQYAVRGE+YL A+E K GK++IFTNVGNPH LGQKPLTF RQV+AL APFLLDDP V +FP DAI RA+ YL GG+GAYSDS+G +R+EV +FI+RRDG+PSD + +FLT+GAS+ V IL +IR +DG+LVPVPQYPLYSA+++L G+ V Y L E+ WGLDI+ + +VA AR +GL +RA+V INPGNPTG CL+ ++L+ I+RF Y +N++++ DEVYQ+NIYQ PF+SA+KVL+DMG P + V+L SFHTVSKG +GECG RGGY E+TNI P+ EEIYK+ S++LSPNV Q+ LG+M NPP+PG S++ ++E +L SL RRA +TN FNS V C TEGA+YSFP+I LP+ AIEAA++ GK PDVFYCL+LL+ TGIS VPGSGFGQ+EG FH RTTILP ED++ ++ FK F++GFM +Y + G
Sbjct: 6 LDYENLNENVKKCQYAVRGELYLRASELQKQGKKIIFTNVGNPHALGQKPLTFPRQVIALCQAPFLLDDPNVEHIFPADAIARAKQYLAMTSGGLGAYSDSRGIPGVRKEVAEFIERRDGHPSDAELIFLTDGASKGVAQILNAIIRGPNDGILVPVPQYPLYSATISLLGGSLVPYYLEETANWGLDIKDLHRSVAEARSKGLMIRAMVIINPGNPTGQCLSETNLKEIMRFCYRENLVLLGDEVYQQNIYQDVRPFISARKVLLDMGTPISREVQLLSFHTVSKGYWGECGQRGGYFEMTNIPPKTVEEIYKISSISLSPNVPAQIFLGLMANPPKPGDISYDQFIRESKGILDSLRRRAHIMTNGFNSCINVVCNFTEGAMYSFPQIRLPQRAIEAAKSLGKAPDVFYCLKLLEATGISTVPGSGFGQKEGVFHLRTTILPAEDEMPAIMASFKEFNDGFMDQYEDHG 476
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A0A7J8X5K3_GOSAI (Alanine transaminase n=2 Tax=Gossypium TaxID=3633 RepID=A0A7J8X5K3_GOSAI)
HSP 1 Score: 585 bits (1509), Expect = 1.360e-198
Identity = 279/476 (58.61%), Postives = 367/476 (77.10%), Query Frame = 3
Query: 204 IGIRARVLNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYRE 1631
+G++A L+YE M VKK QYAVRGE+YL A+E K GK++IFTNVGNPH LGQKPLTF RQV+AL APFLLDDP V +FP DAI RA+ YL GG+GAYSDS+G +R+EV +FI+RRDGYPSDP+ +FLT+GAS+ V IL C+IR DGVLVPVPQYPLYSA+++L+ G+ V Y L E+ WGLD+ ++ +VA AR +G+ +RA+V INPGNPTG CL+ ++L+ I+ F Y +N++++ DEVYQ+NIYQ PF+S++KVLMDMG P + V+L SFHTVSKG +GECG RGGY E+TNI P+ +EIYK+ S++LSPNV Q+ +G+M NP +PG S++ +++E +L+SL RRAR +T FNS + V C TEGA+YSFP++ LP AIEAA+ AGK PDVFYCL+LL+ TGIS VPGSGFGQ+EG FH RTTILP E+ + E+++ FK F++ FMA+Y +
Sbjct: 1 MGLKA--LDYETMNENVKKVQYAVRGELYLRASELQKEGKKIIFTNVGNPHALGQKPLTFPRQVVALCQAPFLLDDPNVGLIFPADAIARAKHYLSLTSGGLGAYSDSRGIPGVRKEVAEFIERRDGYPSDPELIFLTDGASKGVMQILNCIIRGQGDGVLVPVPQYPLYSATISLFGGSLVPYYLEETANWGLDVNNLRESVAQARFKGITVRAMVIINPGNPTGQCLSEANLREILNFCYQENLVLLGDEVYQQNIYQDERPFISSRKVLMDMGPPISKEVQLVSFHTVSKGYWGECGQRGGYFEMTNIPPKTVDEIYKIASISLSPNVPAQIFMGLMVNPLKPGDVSYDQYVRESKGILESLRRRARIMTEGFNSCKNVVCNFTEGAMYSFPQLRLPPKAIEAAKQAGKVPDVFYCLKLLEATGISTVPGSGFGQKEGVFHLRTTILPAEEDMPEIMSSFKKFNDEFMAQYED 474
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Match:
A0A0D6R2C2_ARACU (Alanine transaminase n=2 Tax=Araucariaceae TaxID=25664 RepID=A0A0D6R2C2_ARACU)
HSP 1 Score: 585 bits (1509), Expect = 1.360e-198
Identity = 282/467 (60.39%), Postives = 355/467 (76.02%), Query Frame = 3
Query: 225 LNYENMAPCVKKCQYAVRGEIYLAATERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDMFPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDPDNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFVGYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVSDLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADSVELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVTGQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGVTCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVPGSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKY 1625
L+YEN+ VKKC YAVRGE+YL A+E K GK +IFTNVGNPH LGQKPLTF RQV+AL APFL++DP V +FP DAI RA+ Y+ GG+GAYSDS+G +R+EV +FI+RRDGYPS+PD +FLT+GAS+ V IL +IRN DG+LVPVPQYPLYSA+++LY GT V Y L ES WGLDI + +V AR++G+ +RA+VFINPGNPTG CL+ S+L+ ++ F Y +N+ ++ADEVYQ+NIYQ PFVSAKKVLMDMG P + V+L S+HTVSKG +GECG RGGY E+TNI P+ EEIYK+ S++LSPNV GQ+ LG+M NPP PG S + E +L+SL +RA +TN FNS V C TEGA+YSFP+I LP AI AA+ AGK DVFYCL+LL+ TGIS VPGSGFGQ+EG FH RTTILP E+++ E++ FK F++ FMA+Y
Sbjct: 6 LDYENINENVKKCAYAVRGELYLRASELQKEGKRIIFTNVGNPHALGQKPLTFPRQVVALCQAPFLMEDPNVELLFPADAIARAKHYIAMTTGGLGAYSDSRGLPGIRKEVAEFIERRDGYPSNPDLIFLTDGASKGVMQILNTIIRNDKDGILVPVPQYPLYSATISLYGGTLVPYYLEESANWGLDINDVRRSVWEARRKGITVRAMVFINPGNPTGQCLSRSNLEELLEFCYVENLALLADEVYQQNIYQDERPFVSAKKVLMDMGLPISKEVQLVSYHTVSKGYWGECGQRGGYFEMTNISPKTVEEIYKVASISLSPNVPGQIFLGLMVNPPNPGDISHTQFVLESKAILESLRKRAHIMTNGFNSCRNVVCNFTEGAMYSFPQIKLPPKAIAAAKEAGKAADVFYCLKLLEATGISTVPGSGFGQKEGVFHLRTTILPSEEEMPEIMASFKKFNDEFMAEY 472
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1020.8.2 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 2.98e-281 / Id = 77.89 Expect = 1.35e-229 / Id = 67.59 Expect = 3.49e-214 / Id = 62.84 Expect = 3.59e-211 / Id = 61.78 Expect = 6.96e-204 / Id = 61.31 Expect = 2.13e-203 / Id = 59.28 Expect = 2.26e-200 / Id = 61.79 Expect = 8.77e-200 / Id = 59.66 Expect = 1.36e-198 / Id = 58.61 Expect = 1.36e-198 / Id = 60.39 Sequence D7G750_ECTSI A0A835Z6X1_9STRA W7TAZ1_9STRA A0A7S2XZX4_9STRA A0A7R9U3R8_9STRA GGT1_ARATH A8HZZ4_CHLRE A0A328DFB6_9ASTE A0A7J8X5K3_GOSAI A0A0D6R2C2_ARACU
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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 2880.D7G750
Preferred name ALAT
PFAMs Aminotran_1_2
Model size 2773
Max annot lvl 2759|Eukaryota
KEGG rclass RC00006,RC00008,RC00018
KEGG ko ko:K00814,ko:K14272
KEGG Reaction R00258,R00369,R00372
KEGG Pathway ko00220,ko00250,ko00260,ko00630,ko00710,ko01100,ko01110,ko01120,ko01130,ko01200,ko01210,ko01230,map00220,map00250,map00260,map00630,map00710,map01100,map01110,map01120,map01130,map01200,map01210,map01230
KEGG Module M00171,M00532
Hectar predicted targeting category mitochondrion
GOs GO:0001666,GO:0003674,GO:0003824,GO:0004021,GO:0005575,GO:0005576,GO:0005622,GO:0005623,GO:0005737,GO:0005773,GO:0005777,GO:0006950,GO:0008150,GO:0008152,GO:0008453,GO:0008483,GO:0009507,GO:0009532,GO:0009536,GO:0009570,GO:0009628,GO:0009853,GO:0009987,GO:0016020,GO:0016740,GO:0016769,GO:0036293,GO:0042579,GO:0043094,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044237,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464,GO:0047635,GO:0047958,GO:0048046,GO:0050896,GO:0070482
Exons 12
Evalue 3.24e-288
EggNOG OGs COG0436@1|root,KOG0258@2759|Eukaryota
Ec32 ortholog description Glutamate:glyoxylate aminotransferase
Ec32 ortholog Ec-01_011040.1
EC 2.6.1.2,2.6.1.4,2.6.1.44
Description alanine aminotransferase
Cds size 1524
COG category E
BRITE ko00000,ko00001,ko00002,ko01000,ko01007
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
1680866385.3427832-UTR-A-nodosum_M_contig1020:129994..130073 1680866385.3427832-UTR-A-nodosum_M_contig1020:129994..130073 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1020 129995..130073 +
1680866385.35935-UTR-A-nodosum_M_contig1020:130304..130374 1680866385.35935-UTR-A-nodosum_M_contig1020:130304..130374 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1020 130305..130374 +
1680866385.4794667-UTR-A-nodosum_M_contig1020:163698..164798 1680866385.4794667-UTR-A-nodosum_M_contig1020:163698..164798 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig1020 163699..164798 +
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866385.3688686-CDS-A-nodosum_M_contig1020:130374..130439 1680866385.3688686-CDS-A-nodosum_M_contig1020:130374..130439 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 130375..130439 +
1680866385.3805404-CDS-A-nodosum_M_contig1020:141974..142152 1680866385.3805404-CDS-A-nodosum_M_contig1020:141974..142152 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 141975..142152 +
1680866385.390762-CDS-A-nodosum_M_contig1020:142543..142705 1680866385.390762-CDS-A-nodosum_M_contig1020:142543..142705 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 142544..142705 +
1680866385.3998985-CDS-A-nodosum_M_contig1020:152684..152831 1680866385.3998985-CDS-A-nodosum_M_contig1020:152684..152831 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 152685..152831 +
1680866385.4085228-CDS-A-nodosum_M_contig1020:153387..153459 1680866385.4085228-CDS-A-nodosum_M_contig1020:153387..153459 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 153388..153459 +
1680866385.4210029-CDS-A-nodosum_M_contig1020:154017..154181 1680866385.4210029-CDS-A-nodosum_M_contig1020:154017..154181 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 154018..154181 +
1680866385.4301565-CDS-A-nodosum_M_contig1020:154698..154774 1680866385.4301565-CDS-A-nodosum_M_contig1020:154698..154774 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 154699..154774 +
1680866385.4381173-CDS-A-nodosum_M_contig1020:155256..155387 1680866385.4381173-CDS-A-nodosum_M_contig1020:155256..155387 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 155257..155387 +
1680866385.4479184-CDS-A-nodosum_M_contig1020:162344..162536 1680866385.4479184-CDS-A-nodosum_M_contig1020:162344..162536 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 162345..162536 +
1680866385.4559972-CDS-A-nodosum_M_contig1020:162965..163169 1680866385.4559972-CDS-A-nodosum_M_contig1020:162965..163169 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 162966..163169 +
1680866385.464971-CDS-A-nodosum_M_contig1020:163565..163698 1680866385.464971-CDS-A-nodosum_M_contig1020:163565..163698 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig1020 163566..163698 +
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig1020.8.2
>prot_A-nodosum_M_contig1020.8.2 ID=prot_A-nodosum_M_contig1020.8.2|Name=mRNA_A-nodosum_M_contig1020.8.2|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=508bp
MARRRTGMNATLRIRRSLIGIRARVLNYENMAPCVKKCQYAVRGEIYLAA TERIKAGKEVIFTNVGNPHGLGQKPLTFIRQVMALVMAPFLLDDPRVYDM FPGDAIERARTYLEKVKGGIGAYSDSKGNLYLRQEVCDFIQRRDGYPSDP DNVFLTNGASEAVRLILRCLIRNLSDGVLVPVPQYPLYSASVALYNGTFV GYNLCESKGWGLDIRSMENAVAGARKEGLNLRALVFINPGNPTGNCLTVS DLQTIIRFAYNKNMLVMADEVYQENIYQSRTPFVSAKKVLMDMGRPFADS VELASFHTVSKGVYGECGLRGGYMELTNIDPRVSEEIYKLCSVNLSPNVT GQLALGMMCNPPRPGSESFELHMKEKDLLLQSLIRRARSITNAFNSMEGV TCEETEGALYSFPKIDLPRAAIEAAEAAGKPPDVFYCLELLKETGISCVP GSGFGQEEGTFHFRTTILPQEDKIEELINGFKTFHEGFMAKYREGGGGGR SSWRARL* back to top mRNA from alignment at A-nodosum_M_contig1020:129995..164798+
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1020.8.2 ID=mRNA_A-nodosum_M_contig1020.8.2|Name=mRNA_A-nodosum_M_contig1020.8.2|organism=Ascophyllum nodosum dioecious|type=mRNA|length=34804bp|location=Sequence derived from alignment at A-nodosum_M_contig1020:129995..164798+ (Ascophyllum nodosum dioecious)ATTGGCGTTTCTCTCCTTGAGGTTCGACTGTTCGTCCCGCGTCCCCGAGA
TAACATATTGCACAAGGAAACGTTTAGAG GTAAGAGTCGCTTGGAGAACG
TAGACTAAACACCTACCGATATTCCGAGGTGCACCCATCGACACATAAAA
ACTTCTCTATAGCCTGATTCTTCGCTCATCCATCGACGTGCACGAAGCTT
GCGTCTCGAACAGCGAACAGTGGCGCGAAAAAGACAAATTTGCGGCATTA
TTACCTCCAACATCAAAACTAATCTTTGCGCGGATCGCGTCTACGCGCGG
CTTCGCGGAGGATCATCCGTTGGATTGTCTTCCTGTTCAAGGGGTCCGGT
CGCTACCGCAAAATATGTCTCACCAGCAGT ATGGCAAGGCGTCGTACTGG
GATGAACGCTACACTAAGGATCCGGAGATCTTTGATTGGTATCAG GTGAA
CGTACAAACTAAATTCTTTCAACTTGTAACCGCCTTACCCTTGGTACTTG
GTACCGGTACTCCTGCAGTACCCCCCACAGTACCCCCCCTACTACAGGTA
CTGTAAGGTCTAGGTGTGGTCTGATTTTCTTGTGTAGTTGAAATCCTCGT
ACACGAATGTTGCGTTTTTGCTACGATTTCTGTAACTTATCGTGCCCATA
CGTAGTGGACAGCATAATGTAGGCATAATGTATAGTGATGAGGGTAAGCA
CTTGTTTGTACCCCAGGGTACAGGTATAATCTGTTGTAGTGTCATTACGA
TTATTACTATAATACTGTATACAGTAGGAAGAGTTATTTCCGTACAAGCA
CGGTATAAGTTGTAGTTGCACAGTTACTGTATACGAGTGCGTATTGATAC
GGATTCATGTCATGTACAGCATGCACTGCTTTCGAAACGAAGTCATGCGA
ACGTCTTGTTGAAAAATTCGTTGGAATGCACGAGAGCAACTACTATTCAT
ACTGTATACACACCAGATTCAGCCTGAGTAAGCCGGTCGTTCCGGTAGCT
CAGAGGTAACCATGTAACCTTCTGACACGTTGGGACGTGAGTTCGATCCC
GGCGAACGGGATTTTTCTCACTAAAAAACTAAAAACTAAAACTAAAAATG
CCCAACGGGTGGAGAACGATTAAATCGTTAGTGCACAAAATTCGACTTCA
CGGTCGACGAGAGAAAATAATGGCTGAATCCTTCTCGCGAGAAAATTAAG
GCACGCACCGCAGAAAAAAGGTGGATGAGAAATCCTGTGTGATCTTCCTC
CTGTGTGATCCCGGCTGGTACGTCCAACGAACTTGATGTTCAGAATGAAT
GGGAAGAAAACACACACACAACACATGGAAGAAAACACACACGCAACACA
TGGAGAATGAGCAGACTGACGCGGGACGGGACGGCTGAACCCGTCTCGCG
AGACCAAGTTCTCTGGAACGTACGGGGACAGGGGAATATTCATTTTCCCT
GTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCGGTTGATCCATAC
TCTGCGATGTGTGATGACCATACATACATACATACATACATGCTGTAAAA
TAAGGATGGAACAGGGAATGTAAATCGTTTACTGGTACAGTATTGATTGA
TTTGATTGGTTGATTTGCACTTTCAGCGTAATGCCCTCGCAACTGGAGAC
TACGGCAAGATAAATAGTCAGCCCTAACCGATCAGATGTCAATCCCGCTT
ATGGTTACAAATAGGGACGGGGGTCAACGGGTCAAGTCATGGTGGCACCT
TGATACTCAAACCAGAAAGGATCCGAAATCGCGACAAAAACTTCGTTAGG
CATGATTCAAATACAGCTGAAACATCATGCCCGCGTCACGACAACGTTCT
TGGGGTGTGAACTAAGGTTACGAAGAAACTGTATGATGTGCTCTTCATTT
CACCAAGTCATCATCGTGAAGGAACTGTTGTACTACCACACAGCAGCAAT
CAATATTTAGAGTAAGTTTCTGTGGTATCGCTAAGTAACACACAGACAAA
TTCTGCGGCACACTCTACAAAAAAAGACACCGAACAATGGTAAATCAGTT
AAACAATCTTCCTTTTCCACAATGAGCATAACCCCGATCAACTGTTAAAA
GGGCTGCTTGTTGCCCTACCCACGTCATTAGGGGTGTCTTTTTACGCTCC
TGTTTTTGTTGCTGTCTTTACACATGGCGATTGTTGTAAGTGGACAGTAT
GTATGTATGTATGGTCATCACATATAGCAGAGTATGGATCAACCGGGTAA
GGTTGCCAATCCTGCTCGTAGTCAGCTGAACAGGGAAAATGAACATTCCC
CTGTCCCCGTGCGTGCCTGAAAATTTGGTCTCGCGAGACGGGTTCAGCCG
TCCCAACCCGCGTCAGCCTGTTCATTCTCCATACTCAGGCTGAATCTGGT
GCTTACTTACGGGATTCCTCCCGAGTTCCGCGGCGGCGTCCATTTATTTA
TATAAAAACCGCCATACGCCATCGGGTCAGTCCCGAGTTTATCGGGTCAC
GCAATTGCGTACCGATGGCGTTCACTGCCGAGAGTCCACCGGCACAGGGC
CAGTAAACCTCAAGGTAGTTCCGAACGAGTGTACCGGTATGTTTCCCCCG
GTATTATGCTGTTGACTCGCTGCGGCGATCACTGAGCAACCCGACCGAAT
CCCGTGTTTATAGCCGATGATGATGTTCCCAAACCAAACGTTTCGACGCA
ATCCTCCCTCACGTCGGGGGCCTACGAGGTAGGTCGAATAGTTGGCTGGG
TAGAATGGAGACTTGACACGATCAATATGATAAAAGGTACCATACAGTCC
ATGGTATGCTACCTACCTTACAGTCCATGGTATGCTACCTACCTGGTTTT
GGCGTTGGTCACGTAGAGCCTATGCGTTTTGCTAATCCCTGTTTGTCGGT
CTCGATCTCTTGTGATCTCGGGTGAAATTTATGTGTCCTTGCGCCCCTCT
TGCCTGGTACTGTGTTGATATTATTAGGAACATAGTAACAGCGGATGTAC
TTGGATCATATGCTACGTAGTGGTCTTTACGTATTCACGGATACTGTATC
ATCTGCTTGACTTTTCTCTCTGCTTCTACTTTGATAGACATATTTTATAT
GGTATTAGTCAACGACTCTATAAGTACGATAAACGACGAAGTTCACTCGG
GACTTCGTATTCTCGGTACGTCGCTACATCTTCTGCACTGTACTGTACTG
TACTGTACTGTACTGTACCAGAACTACCGTATTAACATTATTTCAAGACC
TCTCAAATTCGCGAGCATGTATGATCGAGTATCGAGCCGAGGTCTGGACG
TATCGCGGCCGAGAAAGCGCATCGGGCTCTACAGTATAGGCCAAGGTTCG
ATTTTTCTTAAAAGCCCGCGGAAAATCATATGTATGTATGTATGTATGTA
TCGTATCACATATACGAAGGATAAGGATCGTAAGGTTGCCAATCCTGCTC
GTGATTAGCTGAATAAAGAAAATGTTTTTTTCCCTGTCCTTGTTCGGGCC
TGAGAATTTGGTCTCGCGAGACGGGTTCGGCAGTCGCATCCCGCGTCAGC
CTGTTCATCTCCATACTCAGGCTGAATCTGGTGCTTACTTACGGAATTCT
TCCCAATTTTCACGCCGGCGTCCATTTATTTAATTTAAACCGCCATACGC
CATCGGGTCAGTCCCGAGTTTATCGGGTCACGCAATTGCGTACCGATGAC
GTTCACTGCCTAGAGTCCGCTGGCACAGGGCCAGTAAACCTCAAGGCAGT
TCCAAATGAGTGCTGCCTTGGCAGGTCACCATGGACCAATTAATATGCTC
CTCTCTTTCCCACACCCACTATTGGTATGAAATGGGCATGTTGAAAATGC
CGGCGGTGGCAGAGGTCGAGCTGACCGATTCCCCCCTCTTTAGATAAAAA
AATATATGTGAAGGTATTCCGGGTGCGTACAACAGACGGTAAGCGTCAAA
GGAAGCTTCAGTTCCTGAAACCGCGGCGAAGTGTCCCCAGTACAACTACA
GCGTCCTACATACAACGAGCTTTTCTCTTGTAATCATAGAGCACCAGGCA
CCGGATCGGATGTCTCAACCTTTCCGCCCGGCTCTATATTTTCGCCCTGG
GAACTTTTTTTTCGTGAGGTACTAATAACAGTACTTTTGAATACTGGGCA
ACACTCGGCTACGTGCGCTATTTGTGTTGGAATCAACTCGCCGCCTCCCA
CACACAGCGCTACTCTGGCCTGAAGGACACAATTACCCAGTACATACGTA
AGGATGACAACATCCTCATGGTGGGATGTGGTAACTCGAGGTTGAGCGAG
GACATGTTCGACGAGGGATACACCACGATCACCAACATCGATGTGTCGAG
GGTGGTCATTGAACAGATGATCGCGAGATACAGGTGAGTCGCTGCTCCTA
ATGTTTTGTGGTCCGCATTTCAGCTCCAAGTACTGGTGTACCAGTGCTCG
CCTGGGGCTCGATGCAACGCTAGATTTGATGGATGACAGGAAGATTTTGC
TTGAAAACTCTGTGGAGATTCTCGCGCCCCTCGAGAACTCGGCCATTGTG
TCATCCATTCGTGATGGATACGGCTTTCTTTAAAACTGTGAAAGTCTGCG
AAGTCTACGTCTTCAAGCATCTACGCCTCGTTTTCAGAAAGAAATGATGT
TCCGAGCCTCACGTGTTGAGTTGTTTACAGCAGTACATGTCGCCCGTGGT
GGAAATATTTTTGTTCACATTTTACGATTGAACGAGGCATGATGCTCGAG
GGGACGCTGGCCCCGGTGTGGCCCCACCAAAAACATGACTGGTTACCGCT
GCAGCGTTCCTTTATGTGTTGCGGTTGTTTCAGGGACAAACCGGCTCTGA
TGTGGCAGGCGATGAACGTGTGCACGCTCGAGTACCCCGATGAATCTTTC
AACTCAGTCATCGATAAGGGTACCCTAGACTCTGTCCTTTGCGGCGAGGG
CTCGACGGCAAACGTTGCCAAGATGTGCATGGAGATCTCACGGGTGCTCA
AGCCCAACGGCGTGTATTTCGTCTGCTCTTACGGGGTGCCTGATAACCGT
CTTCAGGTGCGCACGAGAGAAGTGACATCGATAACATAGTCCTTTGTCCT
CCATGTCGGTTGCGGTAACGTATAGACGGGCGTGTGTAAGGCCGAGCCCT
GAGGTATCTGACTGCTTCCATCTCACCGCAAATGTATTGTGATGCTCGCG
ACGAGGTCAGCCGAAAACCTTCTTCAGCCGCGAGCAATTGAGAAGCGGTC
AGGTTCCCGTCCGAAATAATATGCTTAAGGCGCGGGGACGTTGTCCTTCT
CTGCGAGCGATGCACGTGTAGTACATCGCAATCAGTGCAGCATCCTCGCA
CACTCCGTGGCCACAAATAATGACCTGCCATGCCTACATGCAGAGGTCCC
TCGCTCCAAACGTCTCCTGCCACACGACAGTACCTGGAAAACGACGACTA
CAGCTGGACGGTGACGGTCCACACCATCCCTAAGCCTACGATTTCCGCAG
CGGCAGTGCCGGACACTCGGGACGCCGAGAGCGTGCATTACATCTACGTC
TGCAGGAAGGGCGGGACGGCGGACGAGGGGGCATGACCCCGAACTCTCTC
TCTCAACGGACATTTTCAAAGCGCTTTGCTGTTCCGCTGCGCCTGAAATG
AGCGTGTACTTTGAACGCGGGAAGCACGCCGCGCGGAGCGAAGCCTTGTC
CCTCACTCTTTGTCGTTACTACTGAGCTTTTTTACTGTCTGTGGTGCGCG
ACATGAACGGGGACAGACGTTCGTTGACAGCAGCGCACGCGGCAAAAATA
AACTGCAAGCGTGGACAATTCCACGCACTTGACCATCTCTGTGACAAAAG
GCCTCGCTGTGGCAACCGCGATTTTTCGATTTTTGTCTAGTTCGTACGTT
ACGTTTGGGTAGGGTCGAAAGTAAAAATGATAACGGTCTGTACATGTGCA
TGCAGAGTTTTCTGTCCGGGGCTGGTGTTGATTGTTCTCTTGCGAACAAG
GGGGTGGGCGGAGGATGCATACTGCTGTGGGGGTGCTGCAAAACTATTTT
AACTTGTGGTAGTGTTCGTTACAGTGTTTCTGTTGACATTTGCGCAGGAG
AAATTTTGCTCAAAGGACCAGAAGGAACACACTCAGTTCATTCTGTAAAA
CCGGTGCGCAAATTCAATCTTGCAAAAAAATGGAGACGAATGAAAGCCCT
CTAGCGAAGGAAACAATGATGGGCTGGCTATCATCGAGCGATGAAGACAA
GAGGTATCGAACCGGAAGAGCGTTGACCGAAACCCCGCCTATGCCCTCAT
CGTGTTGGTCCATTTTTAGTTTTTTCCGTTGCTCAGCGTAAGTCTTTGCT
TTTAACCTACGCTAGCGAAGTCCCATCGCTTTTCATCCATGGGGTGCTGC
ACTTGTAGACTTTATATGAAAAGATGATAAGGTTCGATTGCAGGGTGCTA
CAGTAGTACAGTACAGTAGTCAGTAGTTTGTATTTTACAAGATTTGGAGG
GGGGGTTCAGAACTAGTAGAAGGTCGTCAGTGCCCTCTTGTGTTCAAATA
GACAGAAGGATGAGGTAAATATGCAAAGATTCAAACATACATCACCAAGA
AGACGGGGGCGCCTCGATCTCGAGGACCACGATCTCCACTCACTGCCAAG
CGCATGGACACATCGCGCGGGGTATCCAGATAGATATGTATCTTTCCGGA
TGAAACGTGTGTGTTGTGTGTTTAAAGAAAAATCTGAAAGCACCTAGACC
TTCTGAACATCCCCCAGTCAGGGGCAAAAAATGTCAAAACGTTTAGGTGG
GATCAATAGCTGAAAATACAAAACCTCTTCATGGCATTTAAACGAGTTCC
CCGATGGTAATAACATTGGGTCAACAGTATAATGTCGGGGAGAAACCCAC
CGTCATACTGTACACTTACATTAATCGCCATGCAGGGACACCAACAAACG
GGAAGACAAACCAACACATCTGTTTTCTTCCCATTCATTCTGGACATCAA
GTTCGTTGGACGTACCAGCCGGGGTTACACAGGAGGAAGGTCACACAGGA
TTTTTCTCCCACCTGTGTGCTAATGATTAAGCCATTCTCGCGAGAAGGAT
TCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCAATTTTTTGTGTACTA
ATGATTAAATCGTTCTCCGCTCGTTGGACATTTTTTTATTTATTTTTTAG
TGAGAAAAATCCCGTTTGCCGGGATCAAACTCACGTTCCAACAACGTGTC
AGAGGTTACGAGGTTACCTCTGAGCTACCGGGGCGACCGGCAGACAGCGT
GTATATTGGAAAAAGGTAAGATAAATGGAGAGAAAATGTTTAGCAATGGG
GTAGGTACTTGTCTCTAATAAAAGTTTTATAGAAAAATCTGACCGCATTT
GATCCCTCCGAGCATCCACGCCGTCCGGGGGAACTGCTGTGTCGAACATT
GACTATTAGACGGGAATAATGTTGGCTGTTATTGAAGGGCAAAAACTTCA
CATCATTCGATTTAGTCGGGTTCCCCAATATTATGGTGGTCGCGTAGAGT
CAACGACAAAAAAATAGAGGAGAAACCTATCGTAATACTTACACCAAGGC
CATGTACTCTAGCTGTATTGATAGTTGTAGTAGTAGGTAAAGGACACCAA
AACCGAAGGCCAACACATACACAAGTTGTATCAGCCCTATGATTCTTTAT
GTAGGTTACTACCATCGGAGAACCCTTTTAAATAATGGCATGAAGAGGTT
TTTGTCTTTGCAGCCTATGATCCCACCTAAACGTTTTGACATTTTCCCCC
CTGACCGGGGGATGCTCAGAAGGTCTAGATGCGTTCAGATTTTTCTTTAA
AAAACACTCGGAAAAAGCGACCTACTGTTGTAGTACAGTAGTAGCAAATA
GGTTGACCTGATAATTATTAAAAAAAACTAAACTTTGTGTCTGTCCTTGT
CAAATTCATTGGTGTGATTCATAATTATTATGGTCATAAAATAGTGTTGA
CACCTAAACTACAAGTAAGTAGGCGACTATTATTAGTATTTCCTACAGTA
GTAGTAACATTCAGCCTGACCGAGTATGGAGAATGAGCAGGCTGCCGCGG
GAGGGGGCGGCTGAGCCCATCGCGAGAGACCAAATTCTTAGGCGCGAACG
GTTGACAGGGAAATATTCATTTTCACCTGTTCAGCTGACCACGAGCAGGG
TTGGCGACCTTACCCAGTCGATCCGTACTCTGCTACGTAGGCATAGAGCT
ATGCGATGACCTATACAACATACTCTCTAACTCCCCGATTCCAAATCCAA
AATACCTGTGTGTGTGTGTGTGTGTGTATTTATTAAATTGCACATAACCA
CGCAATCCGGCCCTGTCATCCTAGTCATTCTATGCCACTCGCATGTGTGT
GTGTGTGTGTTTTCTTCCCATTCATTCTGGACATCAAGTTCGTTGGACGT
ACCAGCCGGGGTCACACAGGAAGGTCACATAGGATTTTTCATCCACCTTC
TTTCTGCGGTGCGTGCCTTAATTTTTCTCGCGAGAAGGATTCAGCCGTTG
TTGTTGCTTTCCCTCGTCGACCGTGAAGTCGTATTTTGTGTACTTATGAT
GTATGTAATCGTTCTCCACCCGTTGGGCATTTTTAGTTTTAGTTTTTTTG
TTTTTTAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCCAAC
GTGTCAGAGGGTTACGAGGTACCTCTGAGCTACCGGGGCGACCGGCTTAC
AGTATGATAATAACCGACTTATATCCAGATTCTCGTGTTCTTTTGCCTGG
GTGTTGGTATACCTGCATAGCGATTAGTGTAGCTCTAAGTGTACAGTATA
ACGGTGGGTTTCTCCCCGACATTACACTTGATAAACGTTTTGACAATTTT
CTCCCCTGATTGGGTGGATGCTCAGAATCATAAAGGTTTAGATGCCTTCA
GATTTTTTAAAATAAAGCGCAAGGCGCGGCGCGTGGAGATACTGTATAGG
ACATACTATCTTGCCTGACGTGCGTGCGTGGTTAATTTTGTTTTTTTTTG
CGCTCTCACAGCTCCAAGGTGTTGAGTATGTATGTATGTACTGTATGAAT
GTATGGTCATCACATATATCAGAGTATGGATCAACCGGGTAAGGTTGCTA
ATCCTGCTCGTGGTCAGCTGAACAGGGAAAATTAACATTCCCCTGTTGTC
CCCGTGCGTGTCTGAGAATTTGGTCTCGCGAGACGGGTTCAGCCGTCCCG
TCCCGCGGCAGCCTGCTCATCTCCATACTCAGGCTGAATCTGGTGCTTAC
TTACGGGATTCCTCCCGAGTTCCGCGGCGGCGTCCAATGAAACCGCCATA
CGCCATCGGGTGAGTCCCGAGTTTATCGGGTCACGCAATTGTGTACCGAT
GGCGTTCACTGCCGAGAGTCCGCCGGCACAGGGCCTGTAAACGTCAAGGT
TGTTCCGAACGGGTGCTGCCTTGGCAGATCACCATGGACCAATTAATATT
CGCCTCTCTTTCCCGCACCCACTATTGGTATGAAGTGGGCATGCTGAAAG
TATCAGTGGGGATGGCCTGGTCGGCGGGAACCCGACGATGAACACTCCCC
GACTTCGTAGTCGGGGGGGGGGATAGCTTCCTCTTTATTTTTTTTGTTTT
TTTTACCTGTATTGATATTTTAAAGAATATATAGTATATTTTGTTTGTGA
CTCAGCTTCCGAGTCTGGAGCGATGGGCTCTACTTCCTTTTTGGGGTTTT
CCTACCCTAACCTGCTTCTTGTTTTTCTGAACCTGTTATTTTTAGGAACC
TGTATAATATTTTACTCGCAAGTGTTGGGACTTTCTCTGTTTTATTTTTT
ATTTTTATCGTTATTTTTCTGTACCTTATTTTGGGTTAGCTTGTGACCAC
GGAAATTCGTTTCTTTGCCTTGAAGAGTAAGAAAGAAAAGGGTACTGGAC
AGAGGTCAGAACGTTTTTTAATGTGAAGACAAAACAATGACAGACCTCGG
TTAAGGGGTGGCAtacTACTGGTAGATTGTGGTCAATGACCCTCTCAGCC
TCACTACGGACGGTGATTTTGTTCTTTGTTTTTTGTGTGTTTTCTTTATT
ATTACCCTATACCCCTTTCTAGATCTTGGAAAAAATATTATTGTCAAGTG
GCTGCTGAGACAATGTTTTTTACCTGAACTAGCTAACTAATAATATATCA
TTCTTACTGAACCCAAAGTACAATGATACAGTCCCGCTCTGCTAGAAGAT
TCGAGAAACGAAGGATGACAATAATCGAGCTGGTGATATATGGGGCACGA
CTGTTTAATGTAGTGACTTCGGCTTCACAACCTATGTAACAGTACCAGGT
ATATTATTACTGCCATGCGTTTGATGATAACCTATTTTGTCTTCGCTGTT
TTTCTGGTGTCTCTGCATGGCGATTATGGCATATGGGGATGTAAGTGCTG
AGTGTGGGTTAGACGGTCACGGAGGGTGGGCTTCTAGACATCGCCAGGAG
AAGAGAGAAGCAACGAGACTGGGAACCTTATTATCGCAGACGGGGGAGTG
TAGAATTTTGCGAAGCCACACCCATAGGCCTAGTCGAGCCGAAGGTATCC
TTGTACGGACGCGAGACCGACCACCTGCGTAGCGCCTGTAGATGCGTCGC
GTGATTTTATTTATTTTCTCCGAACGAGCAGTGTGGGGGTGGGGGGGAGT
ATGCTGCCATACTTTTTCTTTTGTTTTGTTTTCCCTGTTCAGCAGACCAC
GAGCGGGATTGGCCACCGTTGTTGTTGTTGTTTTCTCACATTAACTGATC
CGCTACGAATCCAGCCGTGGTCACAAGATAGACGGAACCAAACCAAATCA
ACCGGGAATCGGAGATGAGCATGGAAAGCATATAGAAAAGGACGGGCAAG
AAGTAGCCAGCAAAGGACATCGTCGCGATAAAATAGAGAACATAAACAAA
AACACACAGACAGTGAAACAAACTTAAAAACGCAGGGAAGAGTAGCCCTA
TAAGCGGTTACTACAATGGCAAGGGGGAACCCGTTTAAATGCCATGAAGT
CGGTTGTTTTTATCTCACATTATTTTGAATCCAGTCACTATGATCCCACC
TAAGCGTTTTGACATCTTTCAGGAGGGATTCCCCTCGGGTTGGCAACCAA
TACGCTGAATGTGAGAAACAACAACAACAACAACAACAACAATATGGGGC
ACGACTGTTTAATGTAGTGACTTCGGCTTCACAACCTATGTAACAGTACC
AGGTATATTATTACTGCCATGCGTTTGATGATGTACTATTTTTGTCTTCG
GATGCTCATAGGGGAACCCGTTTAAATGCCATGAAGGGGTCGAGGACCTA
AGGTGCGTTCTGATTTTTCGTTAAATACAACAAGGATTACAAAATATCGA
ACAGTTTAGAAAAAATCTGAACGCATCTAAACCTTCCAATTATTAGTTGT
ACTCGTACGTACCACAGAGCTATGGAAAACGGGACATCCTTAAACCCGAT
TCTCCCCCAGGCTCCCGCATGAAGGATGCCTCTTTCGACTAAATGCACGA
CGAAACAGGCCGCCTTCAACATCAATTGCGTCATCCCAAAAACGTTGCTG
TCTGTGTCGTCTATTGGTACGCTCCATTCCACTCCCTGTCCGATACTCGG
CACAAGTACGATACGTTCGCGACAATGGCTGACTCGGGGTAAGTTACAAA
ATCGTTTGCACGGTATGTACCGAGGGGCGATGCAGTGCCAGCCACAATGA
TCAAACTCCGTTTTACAGCAAGACTTCTTGATTTCGGCTTCCTCCCTTGT
TTTGTTTATATGTATAACAGACAATAGAGTAGTACGTGGTAAAAGTGCAC
CGGTATTGTATTCACACCGGCGATGCTCTCTTTTGAGCCGTGCGGTCTAA
ACATGTGTCATCTTGCTTTCACAAGACCTCATCTAGGAGCCTGGATGCAA
TCCTCGCCGCTCCTATGGATTCCTTGGCAGAGCTCGAGTGCTCAACTATG
AGAACATGGCACCCTGCGTCAAGAAGTGTCAGTACGCAGTCCGCGGGGAG
ATCTACCTTGCCGCGACCGAGCGTATCAAGGCTGGCAAGGAAGTCATTTT
CACGAACGTCGGCAATCCCCATGGTTTGGGGCAAAAGCCACTCACGTTTA
TAAGACAG GTGATTCAGTACAAGATTACTACTGCAGGTGCCGGGCTGAGA
ACCGTTCTCTTCAAAATCTTTTGATTGGGAGCAATAGATATGTGTACGTC
TGTGACGATAGCTTCTTTGCTGTGCCCGTCCTTTTGATTCTCTCGGGGAG
GGGGCACGATTGCGTAGGTCGACGAATGATATCTCGTGACTCCAACAAGA
ACAACACAACAGTCTTTCAACGGTACGTCTACAGCAGTTGGTCATGGAAA
CACGAAGCATCGCGCATGCGCGGGTATGCGAAGAGCACATGCATCGCTGC
ACCCCTTCCTTCCGACAGGCACCGAATCGTCCACAACCCATCCCTTAAGC
TCGGGGCGGGCCGAATTTTGCCCACTTGCTCCTCTGATTGCTTCGGTAGG
TCATGGCGCTCGTGATGGCTCCCTTCTTGCTGGACGACCCGCGGGTGTAT
GACATGTTCCCTGGAGATGCTATCGAAAGGGCGCGTACGTATCTCGAGAA
AGTCAAGGGAGGGATCGGGGCCTACAGCGACTCCAAGGGGAATCTTTACC
TTCGGCAGGAG GTGCGATGCTTTTTTACTTGTGTTGTATGGCTCTAGCAC
TTCGGCACGAAGTGTTTGGCCCCTGGATATATGATGGATACAACTTCCTC
GGTGCTCTTTGTACATCAAGCAGAACACCATAATTTATAATTTCGTTCCT
GGTTTCGTAACACAACAAACGACATTGTTCTCTCTATTTGAGTCTGCCAA
AAGTGATGATCCCACCTAAACGTTTTGATATTTTTTCCCCCGACTGGGGG
ATGCTCAGAAGGTCTATGCATAGGTGCGTTCAGATTTTTCTTTAAACAAT
CGGACGAGGGGGGGAGGTAATACGTAGCTCTTCTACCAGTAGAAGACTTT
TCATAATTTTTTCATTTTTTCCTTTCCTTTCAATCTACAAATAATATATA
CTGCATCTGGTGCGTCGACATCGCACGTGATGTCTGCGATGTCTCTGAAC
CTGGGTATATATTTTCAAGGCTTCGCTGTTTGTGCACGTTGTTCGTCGAT
CTCTCTCCTAAAAAACATGCCCCTTTAATACTTATAGCTCTATTACCCCG
TCCTTGATTTAACCCTCCTGTAATACAGTATTTACTCTTCCCAAATGTTG
TAACGATAAACTGAAGTGTTGGGGGGCGAGAGCGCTCAGATCACGATCAG
ATGTTTGAACATGCGGTTCGTCGGAAAGGTTCAGTTCACCTGGAACGAAC
CCGACTCTCGCACGGCAATTCGAACCAAGTAAGTGCCGATACCAGTATTA
ATAGCCCTTTAGTAGATTAGATTATTCGGTATAAGGCACGCCGGTACTTT
CAACATGCCCACTTCATACCAATAGTGGGTGTGGGCAAGAGGGGCGCATA
TTAATTGGTCCATGGTGACCTGCCAAGGCAGCACTCGTTCGGAACTACCT
TGAGGTTTACTGGCCCCGTGCCGGCGGACTCTCGGCAGTGAACGCCGTCG
GTACGCAATTGCGTGTGACCCGATAAACTCGGGACTGACCCGATGGCGTA
CGCCGCCGCGGAACTCGGGAGGAATCCCGTAAGTAAGCACCAGATTCAGC
CTGAGTTTGGAGATGAGCAGGCTGACGCAGGGCGGGACTGCCGAACCCGT
CTCGCGAGACCAAATTCTCAGGCACGAACGCGGACAGGGAAATATGTATT
TTTCCTGTTCAGCTGACCACGTGCAGGACTGGCAACCTTACCCGTTCGAA
TCCATACTCTTGCTATATGTGTGACCATACATACATACATGAAACATGAA
ACAATTATGGCATTTTCTATTTTCAGAAGACGCTTGTCGAGCTGGGGTCT
TTACTACTGTTAACTGTATGCTGTATATTGTACGACAAAACAGTACAGAA
CTACTTTAAAGTACAGAACTAGACATTTCCCCCCCCTGATTGGGTAGGTG
CTCAGAAGATTAGATTTAGATGCGTTCAGATTTTTCTTTACAAACAGCTC
AGAACTATTAATAGTCTACATGGGTTGGTAATCTCTCATATACACAAATG
GAGTGAGATTAACAAATGTACAGCGGCTCGAAGCCGGTCGACCCCGGTAG
CTCAGTCGGCACCTCGTAACCTTCTGACACGTTGGGACGTGAGTTCGATC
TCGGCAAACGGGATTTTTCTCACTAAAAACTAAAAAACCAAAATAAAAAT
GCCCAACGGGTGGAGAACGATTAATTCGTTAGTACACAAAATTCGACTTC
ACGCCGGTCGACCCCGGTAGCTCAGTTGGCACCTCGTAACCTTCTGACAC
GTTGGGACGTGAGTTCGATCCCGGCAAACGGGATTTTTCTCACTAAAAAA
AAAAAAAAAAAAAAAAAAATGCCCAACGGGTGGAGAACGATTTATTCGTT
AGTACACAAAATTCGACTTCACGGTCGACGAGGGAAAGGAATGGCTGAAT
CCTTCTCGCGACAAAAATCAAGGCACGCACCGCAGAAGGAAGGTGGATTA
AAAATCCTGTGTGACCTTCCTCCTGTGTGACCCCGGCTGGTACGTCCAAC
GAACTTGATGTCCAGAATGGATGGGAAGAAAACACACACACACACGGTCG
ACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGACAAAAATCAAGGCACG
CACCGCAGAAGGAAGGTGGATTAAAAATCCTGTGTGACCTTCCTCCTGTG
TGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGAATGGGAA
GAAAACACACAAACACACACACAGCGGCTCGAGGAAAAACATCATATTGT
AACCTGTAGCTGTGTTATCCCTCACAAATCGTTTTGACCTGTGACTGTTT
TATACCTTTTTAACCAGTAATATAATTTGCATGTATAGTCACACATATCG
CAAGAGTGTGGATCAACCGGAGAAGGTTGCCAATCCTGCTCGTGGTCAGC
TGAACAGGAAAATTGATATTTTCCTGTCCCCGTTCGCGCCTGAGAATTTG
GTCTCGCGAGACGGGTTCGGCAGTCCCGTCAACAGCCTGCTCATCTCCAT
ACCCAGGCTGAATCTGGTGTTTACTCGCGGGATTCCTCCCGAGTTCCGCG
GCGGCGTCCATATATTTATTTTAAACCGTCATACGCCATCGGGTCAGTCC
CGAGTTTATCGGGTCACGCAATTGCGTAGCGATGGCGTTCACTGCAGAGA
GTCCGCCGGCACAGGGCCAGTAAACCTCAAGGTAGTTCCGAACGAGTGCT
GTCTTGGCAGGTCACCATGGACCAATTAATATGCGCCTCTCTTCCCACGC
CCACTACTAAATTGGTATGAAGTGTTGAGAGTACCGACGTTGTTAGACGT
GTACTGACTGTACACACCTGCCCTGAAACAAGTATAGAGCTCTAAGTATC
AAATGCAAAATGTTATGTTTGGTACAGTATTATGTGTTCCCTTTTTTCTT
TAATCTCACTTATAGCCGATGGGCCTCATCATTACCATCCTGCCTGTGGT
CACTAAGGATCTTCCAATCTTTCCCCGGTTCACGCCTTACGATTTTTTAT
CACGATGCGAGTTCAGCACTCTTACAACTCGTCAACCAATGGTTGAATTT
TACTTACACACGTTCCCACGCTTTCCGTTACCAAAGAAAGAACACAAATC
CTACTTTGGTAAGAATCGAACTAGCGACTTCCGCACTAGCAGGTGTGCAG
TTTACCTACTAAGACCACTCGGGCGACGCACGTCTCTGCGTCCGACCCAT
CATTTTTTATATGATTTCTTGGATGATTTAATCCCATTTTATTTCCTTTC
TTTTTGTCGATTTTTGTGCTTTTTGTGTTTTTATGCTCTTGTTGGAGCTT
TGTAGATGTTCCTCTGACCTTTTTCTGCACAGTAAACCGCGTTCCTACAG
GATTGGCAACCACGTACAGGGTAAATTATTTTTAAAATCTGAAGGCATCT
AAACCTACTATTTAATGGTTATAATTTATAATTTGCAGCATCCACTCAGT
GAGGGAAAAATTGTCAGAACGTTTATACTGTAATATACGGGGTAGGTGGG
AGCATTGGCTGCAAGGACAAAAAAATCGGGTTCCCCAATGGTAGTAGCAT
ATTGTAAGGTCATTAGTATAATATCGGGGAGAAACCCACGGCTAAATTGT
ACACTTTTACATATGAATAGTCGCCATGCAGGTGCACCAAGTGGTTTAGT
ATAATGTAAGGTTTCTCCTGATTTCCCCTTTGGATCTGTTTTCACCCGTT
GTTAGTGTACATCAAACTCTAGGGCGAGGTTTTATAAGTCTCCCATAAAA
TAAATTTTGGAGTCTCTCTATGACCTCACTACTGCAATCCGGAAGTGCAA
ATATAATGTACACCACCTCACTAAAAACTAAAAAACCAAAATAAAAATGC
CCAACGGGTGGAGAACGATTAATTCGTTAGTACACAAAATTCGACTTCAC
GGTCGACGAGGGAAAGGAATGGCTGAATCCTTCTCGCGACAAAAATCAAG
GCACGCACCGCAGAAGGAAGGTGGATTAAAAATCCTGTGTGACCTTCCTC
CTGTGTGACCCCGGCTGGTACGTCCAACGAACTTGATGTCCAGAATGGAT
GGGAAGAAAACACACACACACACACACCACCTGTACTAATATAATCTTAC
CATACTTGCTTTATTACTGAATAATGATTAATGTAGTTGTAAAGTTCCCT
CTCTGACCCTATTGAATATCCCTATGTCGCCTCCCATCAATTTATATCAA
TAACTAAGAACCTCACCTATATTCTCATATTAATTTAATTTTACTTTAAT
TTCTCTAAGACCGTGTAAGACCATATTACTATACTGTAGTCCAGGACTCT
TAGATAAAAAGGATTGTGGTTTTGGTGTCCCTGCATGGAGATTAATGTAA
GTGTACAATATAACGGAGGGCTTCTCCCCGATATTAAACTGTCGACCCGA
TGTAGTTACATTGGGGAACCCTTTTGATACCATGAAGAGGTTTTGTCTCT
ACAGCCAATGTTCCCACCTAAACCTTTAGACACTCTTCCACTTGAGGTGG
ATGCTCAGAAGGTTTAGATGCGTTCAGATTTTTCTTAAAAACAATACATC
ATCAAACAATAAACATAAATACAAACCAGCGGGCTCAAGTATTGGTGAAT
CGGAGTCGATTGTAGAATAGGCTATCGATAGTCCCATAGGGTCAACACCA
TAATATGGTAAACTTTACAGAGAGCAATATCAGGGCCTAGCCTAGTTCTA
GGCGACTTTTATATTTAATACTGTAACTCTAGACTAATCTCATTGTTTCG
AAAAACAAAAAACAAGAGGGGGGGTGGTGCATATAGTATATATAGTATAT
ATCCCTTCCCTACCTTAAGATTGTACACGACTTCCAATATTTGTGACGTA
CTGTAAGTAAGTCCATCAGGACAAACATAAAAAATACATGACCAATGCTT
AATTTTACGCGCACGTTACATTCTACAAAGTATTAATTAAATACAAGTAC
AACAGTTACAGTAGTGGGGGAATCGTAACAAATGAACTACATACTGTAAG
TAAACAACGAGGACAGCACGTGTACAGAGCGTTTTGACTTGATTTCAACT
ATTAATAATAACATGAGAATACAAGTGACGCGGAACGGGACTGCCGAACG
CGGGACGGGACTGCCGAACCCGTCTCCCGAGACCAAATTTTCAGGCGCGA
ACGCGGATAGGGAAATATTAATTTCCCTGATCAGCCAACCACGTGCAGGA
TTGGCAACCTTACCCGGTTGATCCATACTCTTGCTACATGTGTGACCATA
CACATGAGTATCGCATGCATAACTTGTCTTCGTGTAACCCCCTGGAAGCT
AGAATAACGTTTCCAGTCACTTTCGTTGACTTTGGTAGATGCGCAGCACA
TCAGACAGTCTTCTCTGTAGCTTGTAATTCATTCAGGTTCTGAATTACTG
GCAGTACAGTACAGACCCACTCATAAGAAACACCTTTGTAAGAAATTAAG
CCTCAGATTTTTGAAAAAATGAGAAATGAGTCGTAAGAAATTGCGCTCAA
AAGAAGAACAATAAGAAACGGAGTAGCAAGAAAACGATCAATATCTTGCT
CCCGATGATAAGAAACAACAAGATATGGGGTTGGACGTGGGAACAAGAAA
TGGCCTCCTGTCTCTACGGACGGTACACACGAACCTGTACAGCTGACTGA
TTCTACACCTACCCGTTCCTCGAAAAGTGTCAACGTCGTCGGGGAGAGGG
GTACCACAGTGATTGGAGATTGACATTCACGGCATCGCCCTTTGTCATCG
GGTCGTGGGGGTGCACTACTGCTGCCGTGCAGCAGCAGGCGCTTACACAC
ATGTAACGACTACAGAATGGAGAAGAAAAAAACAATGACTGCCGTAAGAA
GTAAGAGGAAATTACTGCGCTGGAAACAATAAACGGGGAAGATAAGAAAT
AGGTGCAATATTCTTGGCTAGCAATAACAAATGATTGCGCTTGCATCCGC
GAGGGCAATAAGGTTTTAAGCCTTGCTCAAAATAGGTGTTTCTTGTGAGT
GGGCCGGTACTGTACTCCAGACAAAATGTATGTATGGTCACACATATAGC
AGAGTATGAATCAACCGGGTCAGGTTGCCAACCCTGCACGTGATCAGCTG
AAGAGGAAAAATAATATTTCCCTGTCCGCATTCGCGCCTGAGAGTTTGGT
CTCGCGAAGCGAGTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCATCTCC
ATACGCAGGCTGAATCGGGTTAGTAGAAACTGTAGTTTGTACGCAAATAG
TCTATATCATCTTGACGCCGATAATTTTCCGATGTTCTCGGGTGGTTGGA
CCCGGCAAGGGTTTTGTCGCGATTTGGACCCCTTTTGGTTTGAGAAGTGG
GTTGTTACCACGATGTGTGCCCCGTTGACCTTCGTCCCTCTGTGTGACCA
CTATTACACTATTACACTCTAGTACAGTATTAATAGCGACATTGGCATTA
TTATTTGATAGGTCTATGGCTGATTCGTTGTGTCACCGTAGTTGCTTCAG
TTGCAAGGACGATACAGGGAATGCGTGAATCAACGAGCAATGCCCACACA
GAGATGCGTCTACATTTCTTCACTAGACTATATATTTAATAAATGCAAGA
AGAGAAGATAGCCAAAACCAGTACTAATGTACGGTACTAATATAATGAAT
GTCTAATAGTAGGAGAAACATACAATTTTATTGTCCAGGAACATAGCAAT
TATAGCCACGAAGACAGATACGTACTGTTGGAGCTACTGTCGATGTACTG
TATAAGTCGCCCCGGTGGTTCAGTTGGTGACCTCGAAACCTTCTGGAGTT
GGGACGTGAGATCGAATCTCGGCGCAGTCACACAAACTGGGATTTTTCCT
CACATCATGCCCAACAAGTGGAGAACGATTATTTTGTGGGTACACAAAAT
TCGACTTCACGGCCGACGAGGGAAAGAGACGGCTGAGTCCTTTTCGCTAT
AAAAATTAAGGCAAGCACCGCAGAAAGAAGTTGGAGCAATCCTGTGTGAC
CTTCCTCCTATGTGACCCCGGCTGGTGCGTCCACAAGTCTGACGTCTAGA
ATAAATGGGGTGATTGTAGGTTTAGATGCGTTCAGAATTTTGAAATCGTC
CTTGCTGTCCTGTATTTATCTATGTATGTATGTGTGATCATCACATATAG
CACCGCCGGTACTTTCAACATGCTATACCACTTCATACCAATAGTGGGTT
TGAGAAAGAGAGGCGCATATTAATTGGTCCATGGTGACCCGCCAAGGCAG
CACCTGTTTGGAACTACCTTGAGGTTTACTGGCCCTGTGCCGGCGGACTC
TCTGCAGTGAACGCCATCGGTACGCAATTGCGTGACTCGATAAACTCGGG
ACTGACCCGATGGCGTATGCATGTATGGTCACACATATAGCAAGAGTATG
GATCAACCGGGTAAGGTTGCCAATCCTGATCGTGGTCAGCTGAACAGGGA
AAAATGATATTTTCCTGTCCGCGTTCGCGCCTGAGAATTCGGTTTCGCGA
GACGGGTTCGGCAGTCCCGTCCCGCGTCAGCCTGCTCATCTCTATACTCA
GGCTGAATCTGGTGCTTACTTACGGGATTCCTCCCGAGTTCCGCGACGGC
GTCCATTTATTCATTTTAAAACCGTCATACGCAATCGGGTCAGTCCCGAG
TTTATCGGGTCACGCAATTGCGTACCGATGGCATTCATTACCGAGAGTCC
CCCAGCAGAGGGCCAGTAAACCTCAAGGTAGTTCCGAACGAGTGCTGGCA
GGTCACCATGGACCAATTAATATGCGCCTCTCTTTCCCACACCCACTATT
GGTATGAAGTGGGCATGTTGAAAGTACCGGCGGAACGTATGACGGTTTAA
ATAAATAAATGGACGCCGCCGCGGAACTCGGGAGGAATCCCGTAAGTAAG
CACCAGATTCAGCCTGAATATGGAGATGAGCAGGCTGACGCGGGACGAGA
CTGCCGAACCTATCTCGCGAAACCAATTTCTTTGGCACGAACGAGCACAG
GGAAAAAAGTCCGTTTTCCCTGTTAAGTTGACTACGAGCAGGACTGGCAA
CCTTACCCGGTTGATCCATACTCTGCTTTGTATATATAGCAAGGGTAAGG
ATCAACCGGGTAATGTTGCCAATCCTGCTCGTGGTCAGCTGAACAGGGGG
AAAAAAAAATTCCCTGTCCTCGTTCACGCCTGAGAATTTGGTCTCGCGAG
ACGGATTCGGCCGTCCCGTCCCGCATCGTACACGACGACGGTTAGCCAAT
TAACCCTTCTGGTGCTCCGCTAAACAAAGGAAAACAGAAAAATGGGGAAC
AGAAAGAATTACGGTGCTATCCTGAACCAGTAATATTATACTGTACAACA
CAACAATCATCCACCGCTTCGCCAATAGAACTCAAACCGAACCCAATATA
AATGCCTTTAATTATGTAGTACTAGTAGATTAGGGCTCACAGCATGTTCT
GAATTTGGTGCACCCATATATCAGTTAGTTAGTGTATGTTGAGATGTTGA
CAGGCTTGTGTGCTGTTGCACTGACACGACTTCCTTCTCAGCCAATAGAT
TGGCTGGGTGAATCGGGGGAAGAAATAACTTTTAGCATTTTCACACGTAC
CGCGGACCTGATGGAATGTTTGGGAGTTTGGACGTTTTGGGAAGTGATCG
TTCCCTCTACAATGCAAGACAGCTGCCTACATGACCCTACTGGATCGCTT
GCAATGTAGTGGCTTTGTATTTATAGCCTTTGTAATGTATATTACTACTA
CCATGTGTGATGGTGTACTACATTGTCTCTGGTTTGCTTTTAATGTTTTT
CTGGTGTCCCTGCATTGCGATTAATGTAAATGTACAGTATAACGATGGGC
TTCTCCTCGACATTATACTGTTGACCCAATGTTATCTGCATCGGGGAACC
TGTTTAAATGCCATGAAGAGGTTTTGTATTTGCAGCCTTTGATCCCACCT
AAACGTTTTGACATTTTTCCCATAACCGGGGGATGCTCAGAAGGTCTAGG
TGTGCTATGATTTTTCGGCACTACTGTCTGTGGAACTCCCACTTTGCAAC
CGTCCGGTCAAAGGTCAAAGCTGGTCCCACCACTTATAACACACGAAATA
TTATAGCATGCTATATCCCGAACAGTGTAAGTGCACAGTATATCGTTGGG
TTTCTCCCCGACTATATATTGCTTGTTGACCCTATGGAGAACCCCACTAA
ATCCCAGGCGCACTTTTTGTTTTAACAGCCTGTGATGTTCCCAACTATTA
ATGAACGTTTTGACACAAATCCCCCGGACGATGTGGATGCTGTTATATTA
ATATTGATATCGAAATTGATGTTAATGTTAATAGGGAGGTTAATATTGAT
ATTAATAGGGAGGTTGAAGGTTTAGACGCGTTCATAATTTTCTACAGTAG
GTCGAGTTAACCGTCACGAATGCGTCTGTAAACGTTTTGACTTGACTATG
CCGACTAAAGCTAGAGCTAGAGCTAGAGCACCACTACTGTAAATTGTATA
CAGTATAGGTGCGTACGAAGCATTTCGTACACGAGGAAACATGAAACATG
GTGTTCGAGTATAGGCGTACCGCCATGTATTCATACTAATAATTCTAAAA
TAGAGCTGACTGTACGCTCTACTTCCGGCACTGGTGACCACTTGCACGAA
GCTCCTGCGTCATACGTAAATTACTTGAATCAAATAATTCACAACGTACC
GTGGAGACTCTGGACGACACCTGTTTCGATGATTTGGAAGCAACGACTTT
CCTCACACTCCCCTACTATACTCTACTCTACCCTAGTAACTATACCGGTG
GCGGTGACGTAATCAAATCTACTGTGCCGATTTAGCGTTCCAAATCCGCA
GCATCAATTACTTACCATGATCATCCTGCTTCTTTACCCGCTCCCGTCTA
TTAATATGTCTATCAATAATCCAATCCGATTGAATCCCAAGCTATTTCGT
GCTATGTCTTGCTGCTGCGCATGCGCGCTTGGATACCCAGGTGTGCGACT
TCATCCAGCGCCGCGATGGCTACCCCTCCGACCCGGACAACGTCTTCCTC
ACGAACGGAGCCAGCGAGGCTGTGCGGCTTATTCTGCGCTGCTTGATTCG
AAACCTCAGCGACGGTGTCCTCGTGCCCGTCCCCCAG GTAGCCATCGCGG
TTCTTGTGACATGGGGAGAGCGCATTATATACGACTTATCAATGCTATCA
AAATTACAGCTGTTGCAGCAAACTAAAAACCATATATTGTACTGAAACAT
GGCTGATGATGGCCGCTGCTGGAGAATACTGAAAGAGTCAAAGACCTTGG
AAGGGTTTGCGCTATGAGGGGGGGGGGGCAGGTCGTTGGTGAATCGCGGC
AGAAGTTTTCGATATCTTGATTGAGGAGAGCTTGAACGACAACTGAGCCA
CGTTTTCACCGACGGTATCTTTTGTTCGTTGCATCTACTTTCCATTTTTT
TCAAAGAGAAAGACGCCATGCGCAAGACCACCCGCGACTATCTCTTAATG
AGCGATACTTTTGCCTGTGGTGTTAATGTTTTCTCCACGATCCAGTCCTT
ACCCCGCGAATGAGCTCCACGCCCACACCACCAGTCGCCTGTTCTTGACG
GAATCCCCCCCCCCTTCCCCCCTTTCCTTGGGAATTCCAACAACTTGTGT
CCGTTATTATTCGCCATCGTGTTCCCCGGGGAATGGCTGCCAGTACCCGC
TATATTCGGCATCGGTTGCGCTGTACAACGGCACCTTCGTCGGCTACAAC
CTTTGCGAGTCTAAG GTAGGACCTAAAGACTTGAGGATTGAAAAGCGTGC
CCCTTGACGTTGTACGTGTACAGAGAAGGAAGGAGGCAAGGGAAATGCAT
TCGACGAGTGTCATGTCGTGGTTCTTCACGAACCCAAGAGGATTATACTG
TTATAGAGAGGACGATGCACGGAATTTGGTATTAATAGCAGGAGAACGCG
AATGGTTTGGCGATTAATGACCCAAACACTACTGCATAGTAGGGCCATTA
TCCTGTGGAGAGCGCCGACCCTCGTGTCGGGTGAGTATGGGAGAATGTGG
AAGTTACAGGAGGCCACGAAGGTCCGCCGAATAGCACAGCCGAGAACAAA
CACTCAGGAGAATGGGACGGGGCATCCAGCGAGAGAGGACGAGGCATAGA
GCTTCGTACCCTGTATGAGACCACCTGGCGGCGCAAGACTCATGGTTCAC
ATTGCCAATATTCGCCTCGCGCGAGGCAGGCTCGAGCAGCCGTACCAGCG
AAGGAATTTTCTGCACGGCGCCGAATATTCTTGTAATTTTCATCTTGTGT
TGTGTTTTTGCTGTACGCTACAGGGATGGGGCCTTGACATCCGTTCCATG
GAGAACGCGGTCGCGGGGGCGAGGAAGGAGGGCCTTAACCTCCGTGCTCT
GGTGTTCATCAACCCCGGCAACCCGACGGGCAATTGCCTCACCGTGTCGG
ACCTTCAGACCATCATCCGATTCGCCTACAACAAGAA GTGAGGAACTGAA
CGTGGGATAGATTTATACGTCGTCGTTTGCCTATTTTGTGAAACGCAGTG
TGGTGGGTTGGCACTCTCCTGGCGTTGCTTTAAAAGGGGTTATATTAATA
GTTTGATTTGGCCGTAAGCCCTTTCGCTGACACGAGGTGACGCTTACGTA
TCATCATGCAGTCGTCTACTGCTGTAGTGGCGCCAAACACGTCAGGGTAA
TTTTATGTATCACTTCGCCGCCGAAATGTATGAGCTTTCACCCGTCTTCC
GGGCTACAAAGTATTTCGGAGTACTTGTATATGTCGGCGGTAATAATGTG
ATAAATGAATGATTGCAACGTGCGGTACTCCTCGGCGTTCTGGTAGTAAG
AGATGAAAAGGTGTTGCACAATCGACAACCCCGCGCATCCCCGAAGAAAA
ATCAGGGACGTCTGTGCTCATACGCCACTATTCTGCTACGACTTTCATCA
TTTTCTTTTCTGCCGTCTCGATTCGTCCGCCGGACGACGGTGACGCCCCT
GTAGCATGCTGGTGATGGCGGATGAGGTGTACCAGGAGAACATCTACCAG
AGCAGGACGCCCTTCGTCTCCGCAAAGAAG GTGCGATGGTGTAATGGTCC
AATGGGCTCACAAAACACACGTCCTGGCCTCTCTTAACGCAGACAGTATC
GATGCTATCGATGCTACCGGGTCTCATCGGCACCACAGTGTGCATGTTTG
TTGATTTCCTTAGTGCAGCCGCCGCGTTGACGCGGGTGTTGGACGGAGCA
TGCTCGGCCGTGGCAAGGACGTTCGATATAACTTTGGACCCTCTTTCATC
TGTTTTCTCGATTAATTTGGATGTTCAGGCTGTTGGCTCGGTTAGTAATT
TGGTTGTTGATTGGGCTACGGCGCGACGCGAGCTGCGAGAACTCTTCGAA
GCGGAATTAGCAGTGAACCAGAACTAGGTTGATTTTATCTCTCGCGTGAC
GGGCATCAATCCGACAAATCAGCAACTTCATGCTGAAAAGCACTTTTGTG
TTTGCACGCTGGTGCATCTTCGGGGAACTCCGCCGCGTCGTAATGCGCGC
GCGTCTAAGCAGGTGCTGATGGATATGGGACGGCCTTTCGCGGATAGTGT
GGAATTGGCGTCATTTCACACGGTTTCCAAGGGCGTTTACGGCGAGTGCG
GTCTGCGGGGAGGTTACATGGAGCTCACTAACATCGACCCCAG GTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTGTTAAATTGCACATAAC
CGCGCAATCCGGCCTTGTCATCCTAGTCATTCTATGCCCCTCGCATTGAT
CCTCCCAAGGGGGGATCAATGATACTTGTTACGAAAACCTCTGATCAAAC
GCGACAAATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTATTAAAT
TGCACATAACCACGCAATCCGGCCCTGTCATCCTAGTCATTCTATGCCAC
TCGCATTGATCCTCCCGAGGGGGGATCAATGATACTTATTACGAAAACCT
CGATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTATTTATTAAATT
GCACATAACCGCGCAATCCGGCCTTGTCATCCTAGTCATTCTATGCCACT
CGCGTTGATCCTCCCAAGGGGGGATCAATGATACTTGATACGAAAACCTC
TGATCAAACGCGACAGAGGGGTGTGTGTGTGTGTGTGTGTATTTATTAAA
TTGCACATAACCGCGCAATCCGGCCTTGTCATCCTAGTCATTCTATGCCA
CTCGCATTGATCTTCCCAAGGGGTGATCAATGATACTTGTTACGAAAACC
TCTCTGTGTGTGTGTTTGTCTGTCTGTGTGTGTGTGTATTTATTAAATTG
CACATAACCGCGCAATCCGGCCCTGTCATCCTAGTCATTCCATGCCACTC
GCATTGATCCTCCCAAGGGCGGATCAAGTGTGTGTGTGTGTGTGTGTGTG
TGTATTTATTAAATTGCACATAACCGCGCAATCCGGCCTTGTCATCCTAG
TCATTCTATGCCACTCGCATTGATCCTCCCATTGTGTGTGTGTGTGTGTG
TGTGTATTTATTAAATTGCACATAACCGCGCAATCCGGCCTTGTCATCCT
AGTCATTCTATGCCACTCGCGTTGATCCTCCCAAGGGGGGATCAATGATA
CTTGTTACGAAAACCTCTGATCAAACGCGACAAAGTGTGGGTGTGTTTGT
GTGTATTCGTCTAAGAGAACCCTAGGTTCTCCTAGAGGTTTCACTGTGCC
AAAAATAAAAATGTGGTTGTCCGGTTGTCCGTATGTCCGGTTCAGACACA
TCGAAGACCCGAACCACGATTTTTTTTTAGCCGAACCCCCGCGGCGCGAG
AAGCTGTCCCATCGCCCATCTCATACGATTGTACACGCCGTCAGCAAGTT
TGAGCTTCATCGGTGCTTGCTGCGTTGTGTACGGGAGTAAACGGGTGTGG
GGGATGTTGGGCCCAAATTGGAGACGCACGTGCTCGACCGAAACGCTCGG
GAATATTTCATTTTGCTCATTTCTCGAGCAATTGTCGCGTAAATTAGACG
GGAGTCGCACCACCGTCAAGATGTGCTGAAGCTTTTTCAGGTAGTGTGCC
CAATCCTAGCCGGGGGGGCGAGCGCCTCTACTTCTTTCGTCCGCAGAAGC
CACGGGGCGGAGCAGCACTCTCCGACGCTTTCTGACAGTCCTGACATTCT
AGAGCCTCTGGTAGATTGAAGCCCTAAGAAGGGCGTTGACGGTGGTTCGA
TTCCCACCTTCGACGGGTTTTTTTTTCCCCCATCTTTCGAAATCAGGGTA
TAGAAAAGGAACAATAAACACTTTATTGTTGATAGCTTTTTTGTTTTTTC
TAGACCCTCTGCTAGATTGAAACCCTAACAACGGCGGCGACGATGGTTGG
ATTCCCACCTTCGATGAAAAATTTTCTTTTTTCGGAGAATGTTGTTTTAA
GAAAAAATCAGAACGCGCCTAGACCTTCTGAGCGTCCCCCAGTCAGGGGG
AAAAACTGTCAAAACGTTTAGGTGGGATCATAGGCTGCAAATACAAAACC
TCTTTATGGCATTTAAACGGGTTCCCCTGTGTTGTTTAAAAAAAAAATCA
GAACGCGCCTAGACCTTCTGAGCATCCCCCCAAATTTTCTTTTTTCGGAG
AATGTTTAAAGAAAAATCTGAATGCACCTAGTTGTTTAAAGAAAAATTCG
AACGCGCCTAGACCTTCTGAGCATCCCCCAGTCAGGGGGAAAAAATGTCA
ACACGTTTAGATAGGATCACAGGCTGCAAATACAAAACCTCTTCATGGCA
TTTAAACGGGTTCCCCGATGGAAATAACATTGGGTCAACAGTATATAATG
TCGGGGAGAAGCCCACCGGTATACTGTACACTTACATTAATCGCCATGCA
GCATTTGTTTTTTTGTATTTTCTTCCCATTCATTCCGGACATCAAGCTCG
TTGGACGTACCAGCCGGGGTCACACAGGAGGAAGGTCCCACAGGATTTCT
CATCCACCTTCTTTCTGCGGTGCGTGCCTTAATTTTTCTCGCGAGAAGGA
TTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCGATTTTTTTGTGCAC
TACTTCGAAGTAATGATTAAATCGTTCTCCGCTCGTTGGACATTTTTATT
TTTATTTTTTAGTGAGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCC
CAACGTGTCAGAGGGTTACGAGGTACCTCTGAGCTACCGAGGCGACTGGG
ACACCAGAAAAACAGTAAAAATAAAACAGAGACAATGTAGTACACCATCA
CATATGACATGTTGTTGTTAACGAAAAATCTGGACGCATCTAAACCTTCT
GTGCATCCACTGTCAGCGGAAAAAATATCTACAGGCTTAGGTGGGAACAT
TGGCTGTAGAGACAAAACCTCTTCATGGTATCAAACGGGTTCCCCAATTT
AACCACATCGGGTCAACAGTATAATATCGGAGAGAAGCCCTCCGTTATAT
ACTGTACACTTACATTAATCTCCATGCAGGGACACCAAAACCACAATCCT
TTTTATCTGTCTAGGAGTTCCGGACTACAGTAGTAGTAATATGGTCTTCT
ATATAGTCTTCGAGAAGTTAAATAAATTTACTAATATTAGTGTATAGGTG
AGGTTCATCTTTGTTGATATAAAATGATGAGAGAGGCAACACAGGGGAAA
CTGAAATAGGGTCAGAGAGGGGACTGTACAAGTACATTAATAATCAAGCA
GGGACAACAAAAGCAAGTACTAGAATTATATTAGTACATATGTACAATAT
ATGTGTGTTGTGTTGTGTGTGTTTTCTTCCCATCCATTCTGGACATCAAG
TTCGTTGGACGTACCAGCCGGGGTCACACAGGAGGAAGGTCACACAGGAT
TTTTAATCCACCTTCCTTCTGCGgtgcGTGCCTTGAATTTTGTCGCGAGA
AGGATTCAGCCATTCCTTTCCCTCGTCGACCGTGAAGTCGAATTTTGTGT
ACTAACGAATTAATCGTTCTCCACCCGTTGGGCATTTTTATTTTGGTTTT
TTAGTTTTTAGTgaGAAAAATCCCGTTTGCCGGGATCGAACTCACGTCCC
AACGTGTCAGAAGGTTACGAGGTGCCAACTGAGCTACCGGGGTCGACCGG
CCATATATGTAGACTATTAATAGGAGTTCCGGATTACAGTAGTGAGTCAT
ATAGAGAAAAACAAAAATTGATAGGGTTCATATTTATTATTTCACAGAGG
GGTGTCTGTAAATCATAGGTTGAGGTGGAAGACTTATACACCTGGCCCTA
GAGGTTGATATACACTAACAAGGGGTGAAAATAGGGTCAAAGGGAAAATC
GGGAGAAACCGTACGTTAAACTAAATCATATTAATCCCTATGCAGGGATT
AAAAAGATCAAACAAGGAGCTCTCTTGAGTATAGATGCACGGTCAACAAA
CGTGGAATAAGGGATCAGGACAGGACTACAATAATATGATTCTAAAATGT
TGAAGTTCACTGTGATTATTACGATAAAGGGGGTCTATAACATGTGGAAA
ATGATGGACATGTAAATAAACAGCTATAAATTATATACAATATGCAGTGT
TGTTTATCTCACATTAACTGATCCGCTACGAATCCAGCCGTGGACACAAG
ATAGACGGAACCAAACCAAATCAAACCGGAAAAACGTTTGGAGATAAGCA
GGGAAAGCAGACAGAAGAGAACGGACAAGAAAGTAGCCAGCAAAGGACAT
CGTCACGATAGACAAAAAAAATAGAAAAGACAAACAGTAGAAACAAACTA
AAGACAATCGCATAAAAACGCAGGAAATGTAGCCCTATAAGCGGTGGAAT
ACAACCCAGGCATGAAGATAAGGGCATGGGCAACGGATGCAACACACAGC
GAACGCACGCTGCAGATCCTCGGCCTTTTCTGCCGCCATTTTTGGATGGC
GATGCGCCTCAGCTGTAAGTTCAGGTTCCACATAGGGATACTTAACCAGC
ACTGGCTGGTAGAGCAGGGGCGGAGGCCCATGACTGGCTGGCCGGCAACG
GTTGCGCCAAAGTGGGCGATAGCGAGAAACCACGCTGCTACGGTCGAAGA
GGATGTCATCAGAGAGGCGCCGGTTGTGCCGACTGGAGGCAGGCGGGTAG
GTGGTGGCCATCAGGCCATCTTCTTTAGTTGACACCACAACTACAGGAGT
CGTTTCTTTAGTTGATTTGAAGGAGCCTTGGGGTGTCGGGGTAGGGCTGC
TGAACCACATAAGGACGGACGATTTTTGGAAACCCGGAGTTGTATAAAGA
GAACCACAGCAGCGTTTGTTGTTGTTGTTGGTGTCATCATATGCTGGGTA
GAAACACATTGTTAAAGAATCAGACACCCCACCTGCTGAACCTCCCCTAT
CCCTCGTCGATGTTGAGGTCGAATTTTGTGTAACGTCCTTCGCTGGCACA
TGTTGAACGGGCGCCAGGAGTCAATTCCCAGGTTCGATGGTTTCGGGGGA
TAGGTCGTTGTCGTCCTCCTTTGGAAACCCGGATGTCGTGAACAACGTAC
CCTATTGTTCCCACTATTCCAGTTCCAATACCGTTCCAATAATCCAGTTG
TATAAGGCCGCTTCAGCGCCATTAGCGGGTTCCGACTTCCATGGCAGAAG
CTGTCTAAATGGGCAAGAAGACAGGATCTGGAAGTGGGTGAGCGTTTCTC
GGAAGTGGCGTTTCTCGGAAgcGGGGTCAAGGGCGCACGCCCAGACGGGG
GACGGGTGACTGACGCGTTGTTTTTTTGTAGGATCACTTTTCTTTTTTTG
AAGCAACAATAGTACATTGTGCTAGTGACGCCGCCACGATGGTGGCATAT
GTGGGGTGCTGTGTTGGCAGTGGAACGGGCATCCATTTCCTAGAACATTG
GCGAACAAAATTACAGATGCTGGTGAAATATGCGGCGCGTCACGTGAAGC
ACATAAAATCAAACGTATGCGTGGGTGTATCTTATTAACCCTGCTATCAT
TGGATGCCCCGGGCATGTCGTCAAACTATCGAGGGCGACGCCCAGGTGCG
CGTCGCAGTGAAGACGCAAGGCGTCAGTCCGCGGGTGCAAGGCGTTCCTT
TTTCGCCAACAACAGCAGTGCCAGCCCCGCCGAGGACGTTTTAGGACTTG
TCCCATTGACAGGTGGTCGTCGTGCCGTCCTGCCCTCCATGCATGGCCGC
TCGTTTACCGCTCCTCTCACCCGTGAGGCATTGCATGCAGAACGAAGGGC
TGCTGCAGAAAGAGCCGCCCAAGGCGTTTTGAAAGTTGCATTTTCCTCAT
TTCTCGATCAATTGCCGCCACGCATACCGCCACGACCGTCTACCAACCCC
ACTTTCACATCCTTCCTCACGTCAACACCGAGCATGCTTACTAAGGAGCT
GCTGCAGCTCCCCGATGCGCCCTCACTTCTTGCACAACGATGCAAATTAT
GGCGTGAATTTCCTGAACACCACCACCTACGTTTCGTTACTGTCTGTGGG
TTGCGCGTGGTTTGTATCCCGACTATATCATACCTTCATTGCCAGAACAA
ACCCCAAAACTTTTAAGAGGACTAGCACGCGCACTGAGCGAGAGTGCTTT
ACAATTTAATACAGTGCACATAACCGTGCAATCCGGCCCTGTTATCCTAT
GCCACTCGCATTGATCCTCCCAAGGGGGGATCAATTATACCATTACTTAT
TACAAAAACCTCTGATCAGACGCGACAAAGGAGACACGCTCTCTCTACTT
GCACAGTTCTTATTAAGCTTTAGGTACCTTGTGCTCCCCCGCTTGCTTCC
TTGCTATTCTCTAGATTATCTGGGTTGGCTGCTTCTGAACCAACGCTTTC
TTGTCTACGTTTTTTCATCTTTCGACCCAAGTCTCTCCCGTTTCTACATG
ACGTCTTCAGGTCTTGTGCGGTTTCTTGCGCTTCTTCGCCTCTCTTCCGC
CCTCCTCGATCCCATCCTCATTCCCGTTCCCGTTCCATTCTCGTCCCCGA
TCCCATCTCCGCTACTGCTCTCGTTTCCGTCCCCGCTCACGTCACCGTTC
CCATCCTGTGTTCGTCCTCGGGTCTCCACTCCCTTCCCCGTTCCCGTTTC
CGCCCAGTCCGCGCGCGTGTGTGTATTTATTAAATTGCACATGACCGCGC
AATCCAGCCCTTTCATTGTAGTCATTGTATGCCACTCGCATTGCTCCTCC
CAAGGGAGTATCAATGAAAGTGTGTGTGTGTATGTGTGTGTGTGTGTGTT
TGTTTGTGTGCCTTCCCTCAGTCGCCTTTTATAGCATGATTGCTCTCGTA
GATCTGACCACGGGAGGCAGGATGTCGGAGAGAATCTCAAATTGTTCTGT
CGGTCTCACCGCGTGTTGAGGTTCGGTGCTTGTCGTATGTTTGCCAGGTA
CCCTCGTTTTGATTTCAAATCTCCATTACTCCCCCCCTCCCCGAGTGACT
GCAGGCGGAAACATTTCTACTTTGTTTAGACTAGCCATCTATGCCGAATT
GTGATGTTGCAACGATCGAGTCACCGATCTCGAGCCCCACAATATTTATC
TTACTTTCGATACAGAACCCAATAAACTTACAACCAAGCATGGTTGATGC
TCCGTTTCTGTGCTTGTAACTATCTCCCTTTGCCTTTTTTTCTTTTTCAG
GGTATCCGAAGAGATCTACAAGCTGTGTTCCGTGAACCTCTCCCCTAACG
TTACGGGCCAGCTCGCGTTGGGAATGATGTGCAACCCTCCGAGGCCGGGC
TCCGAATCGTTCGAGCTCCACATGAAGGAGAAGGACCTGCTCCTGCAGTC
TCTCATCAGGAGAGCGAGGAGCATCACGAATGCGTTTAACAG GTGCCGCA
TGGTCGTATGGCGCGCCGAAGTCATCGCGAGAGTTTGTTTCATTGGTACA
ATCTGATTGGCGCAAACGTTGCGCTTATACGACAGAAGTGTGTGTGCTAT
GCCGCCAGGCAGCAAAATGCAGTCGTAGTTCTGGTCGGCATTTGTGAAAT
GTGCATGAGGCATCAGCTCTTTTGCCAAGTAAGATTATGAAGAACTGGGA
TCTCCTTTGTCCTAGAAGACGGGGATTCGTCTTGATAAATGTAAAATATT
ATACAGAATTCCTCATATAGATTCATTTTCAAGTCCAGATCGATATAATA
AATGCAGTGCGTTCCTCAAATAGATCATTGCTCTTAAAAAATAAACCGAT
TAGTGCATTCAGGTTTGGTTTAAATTCCTCTTTTTGCTTTGATATGTTTT
ATCTTAATGACGTTATAATAGCATGGAAGGCGTGACGTGCGAGGAGACCG
AAGGTGCGCTGTACTCCTTCCCGAAGATCGACCTCCCCAGAGCAGCCATC
GAGGCCGCCGAGGCCGCTGGCAAGCCTCCCGACGTGTTCTACTGCCTCGA
GCTCCTCAAGGAGACGGGGATCTCCTGCGTGCCTGGTTCTGGTTTCGGAC
AAGAGGAGGGGACCTTCCACTTCCG GTGGGTTGACTTGCTGGGTTGCTAC
ATATGTTTGGTCGTCTCCCACGTGGCGTTACGGGCTCGTCTATGGTTGGG
TGTACAACTGTAGTAAATGATGATGCAATCTGAACCGCGCAGCGTATACT
TAGGGCGGTGTTTACTCCACTTGGTTTGGGTCTTGGGACCTTTGAATGGG
GCCTTTTTATCGGTACTTGAACGGCGTGCATGAATCGCGCAAGATCGGCA
GAGGGGTTCGAGAGATTTTCGCTTGAGGCCGTGAAGCGCGTTGATGTGTA
CGCTGCTGTGGTAGGCTTAGCACGGTATCAAGACCTGGCTTGATTAAAAA
CGTCGACGACCATCGTTTGTTCGCTGTCGCCATCGCCATCGCTTGCTTTC
CTTTGCGCGGCGTGCCTCCAGAACCACCATTCTTCCCCAGGAAGACAAGA
TCGAGGAACTGATCAATGGGTTTAAGACGTTCCACGAGGGCTTTATGGCC
AAGTACAGGGAAGGGGGAGGGGGAGGACGCTCGTCGTGGCGCGCTCGCCT
CTAA TATCTGAAGTAGATGGACATTTGAAACTCTAGCAGCGTCTACCGAC
ATGAATGCCTGACGTGCAATGCGATTTCCATGTCTGGTGCCTGCAGGAGA
GATACCGACCACATGGATTTCATGCTCGTGATGACTTGAGTTTGTGGTCT
GAGGGCGCTCGGACGAGATAGCTCGAGGCATGCGACGAGCACTTCAGAGT
CATTCATTCTTTTTCCTTTATCATAAAAAACATGTGCACCTTATTGCTCC
TGTTGGGGTATTCAGCGCCACCAAAATGCGGCCGTGGCCCTGTGCCGCAG
TCCGCTGCGCCTCAATGTAAATTACTTGTTGCAACGTACACATGACGGGG
TTAGAGCCCATTCGTACTGACTGACATTTGTACAGACTGTCCCTAAGCGT
TGTCCGCGTAGAAAAAGGGGAAGTGGGGGGCTTGGCCGATTACACGGAGA
AGTTACTCGTTGTCTTTTGCGCTTGCGTGTTTCGAGCAGAGAGAAATCTG
ATTGGAGGACAGGGTACATAACTTAGAGATCAAACAAAAGGTGGCGCAGA
GAAAATTACGGCCCCAAAGTTCCGTAAGCATGTCATGGAGACAAAACCCC
TGTCCCGAGTTATCTTGTGGGCGGGGGCTCATCGGCTGTTGGTATGAAGG
CCTGAGTCCACCGGTTATTGTTGTTGTGTGGTCTTCACATTAACCGATCG
GGCCTCAAACATACCCAGTAACATACGTGGTTGCCAATCCGGTACGTGGT
CTGCTGGACAGGAAAATATCAGAGGAACATATACAAAGGTCCAACAAGAG
GATGAAAACAGAACAAAACAAAAACAAGACTAAAACAAAAAGAAAGGAAC
AATTAACACAAAGCACATTATTTGGATATATAGCATATATTGAGCAGAGG
GAGAATCATAGAACTATGACTACGTGGAGTTTGTTACTCCGCCTATACAC
TTCGGTAGGGTCATACTAAACGTATGGAGTAGCCCCTTTCTAGTCAGTCT
TAAGACCTTTTTCTGGTCTTTTATGCGACGTGTGTCTTGGGTGTTAACGC
CTCCTGTGTTCTATAAATCATCTCTCACGACTCTTGACCGTCCCTCTGGC
GAGG back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig1020:129995..164798+
>mRNA_A-nodosum_M_contig1020.8.2 ID=mRNA_A-nodosum_M_contig1020.8.2|Name=mRNA_A-nodosum_M_contig1020.8.2|organism=Ascophyllum nodosum dioecious|type=CDS|length=1524bp|location=Sequence derived from alignment at A-nodosum_M_contig1020:129995..164798+ (Ascophyllum nodosum dioecious) ATGGCAAGGCGTCGTACTGGGATGAACGCTACACTAAGGATCCGGAGATC TTTGATTGGTATCAGAGCTCGAGTGCTCAACTATGAGAACATGGCACCCT GCGTCAAGAAGTGTCAGTACGCAGTCCGCGGGGAGATCTACCTTGCCGCG ACCGAGCGTATCAAGGCTGGCAAGGAAGTCATTTTCACGAACGTCGGCAA TCCCCATGGTTTGGGGCAAAAGCCACTCACGTTTATAAGACAGGTCATGG CGCTCGTGATGGCTCCCTTCTTGCTGGACGACCCGCGGGTGTATGACATG TTCCCTGGAGATGCTATCGAAAGGGCGCGTACGTATCTCGAGAAAGTCAA GGGAGGGATCGGGGCCTACAGCGACTCCAAGGGGAATCTTTACCTTCGGC AGGAGGTGTGCGACTTCATCCAGCGCCGCGATGGCTACCCCTCCGACCCG GACAACGTCTTCCTCACGAACGGAGCCAGCGAGGCTGTGCGGCTTATTCT GCGCTGCTTGATTCGAAACCTCAGCGACGGTGTCCTCGTGCCCGTCCCCC AGTACCCGCTATATTCGGCATCGGTTGCGCTGTACAACGGCACCTTCGTC GGCTACAACCTTTGCGAGTCTAAGGGATGGGGCCTTGACATCCGTTCCAT GGAGAACGCGGTCGCGGGGGCGAGGAAGGAGGGCCTTAACCTCCGTGCTC TGGTGTTCATCAACCCCGGCAACCCGACGGGCAATTGCCTCACCGTGTCG GACCTTCAGACCATCATCCGATTCGCCTACAACAAGAACATGCTGGTGAT GGCGGATGAGGTGTACCAGGAGAACATCTACCAGAGCAGGACGCCCTTCG TCTCCGCAAAGAAGGTGCTGATGGATATGGGACGGCCTTTCGCGGATAGT GTGGAATTGGCGTCATTTCACACGGTTTCCAAGGGCGTTTACGGCGAGTG CGGTCTGCGGGGAGGTTACATGGAGCTCACTAACATCGACCCCAGGGTAT CCGAAGAGATCTACAAGCTGTGTTCCGTGAACCTCTCCCCTAACGTTACG GGCCAGCTCGCGTTGGGAATGATGTGCAACCCTCCGAGGCCGGGCTCCGA ATCGTTCGAGCTCCACATGAAGGAGAAGGACCTGCTCCTGCAGTCTCTCA TCAGGAGAGCGAGGAGCATCACGAATGCGTTTAACAGCATGGAAGGCGTG ACGTGCGAGGAGACCGAAGGTGCGCTGTACTCCTTCCCGAAGATCGACCT CCCCAGAGCAGCCATCGAGGCCGCCGAGGCCGCTGGCAAGCCTCCCGACG TGTTCTACTGCCTCGAGCTCCTCAAGGAGACGGGGATCTCCTGCGTGCCT GGTTCTGGTTTCGGACAAGAGGAGGGGACCTTCCACTTCCGAACCACCAT TCTTCCCCAGGAAGACAAGATCGAGGAACTGATCAATGGGTTTAAGACGT TCCACGAGGGCTTTATGGCCAAGTACAGGGAAGGGGGAGGGGGAGGACGC TCGTCGTGGCGCGCTCGCCTCTAA back to top