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Homology
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: D7FVY1_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FVY1_ECTSI) HSP 1 Score: 888 bits (2295), Expect = 6.300e-303 Identity = 450/605 (74.38%), Postives = 513/605 (84.79%), Query Frame = 2
Query: 479 MSFDYGGQGQNRKVGKWTATATISRVKPNGAEVVDCYSIPYEIVDTDECELEEGHPMRHRCHRSTVCVNTVGSYECGCANGYWGEEDSGSPSLDKPIKSEDGECGGENSTETCCGQFELMKEKRVACLEDFKCTNDPCKGHACDEN-AWCSAGEGYKNYECTCKDGFKKDDXXXXXXXXXXXXXXXXXXXXXYHCRCNVEGDAYRCEPRHGFKAFIDGETLPGDYYETTPGGKRLDKITRCVDKRTPDFTIKGPNPLVYRQASFGDTYEELGVTVDDRNDDESERKIRMEYSKPPGAYLKTTGEFSVRYVLENRLL-GDGKISKMRRVQVLDVDECTYTGRHAEFRHDCALEAACHNTDGSYECHCAEGYAGDGRTTGEGCIDVTPPTITCRGPGCQTSKFRACNCVGMVSEDGSKSMLPAALDDATIEANIKMLKGDICGEG-EASDDQGEDDD----------REWKPEACFTAVDMEYGGKVVDLTRNMTRGSIEKIPGEEMMWRVPHYVQDAAGNSATVFYYNIVVEEVDVLDTIHDSEESLKRDIFERNILRGAVVALLVLLLSPLAVRVLLLIKMVLAAAKVVFFPYSMVGSREDFKLG 2254
M FDY G+GQNRKVGK+TA AT++RV+P+G ++ CY IPYEI DTDEC LEEGHPMRH+CHRSTVC+NTVGSYECGCA GYWGEE+SGSPSLDKPIKSEDG CGGENSTE+CCG F MKE+R AC+EDFKCTNDPCKG+ CD++ + CSAG+GYK YEC CKD XXXXXXXXXXXXXXXXXXXX YHCRC+VEGDAY+CEPRHG+KA+IDGET+P DYYET GGKRLDKITRCVDKRTPDFTI+GPNP VYRQ GD+YEELGVT+DDRNDDESERKI ++YS PPGAYLK TGEF+VRYVLENRLL GDG ISK+R+V+VLDVDECTYTGRHAEFRH C+ EA CHNTDG YEC CAEGYAGDG TTG+GC+DVTPPTITCRGPGC T+ FRACN VGM+SEDGSK L AALDDA IE+ IK+LKGD+CG G EA+ +DDD REWKPE CFTA D+EYGG+VVDLT N+TRG++EKIPG E MWRVPH V+DA+GNSA VFYYNI VEEVDVL+++ S E L++++ E +R AV ALLVLLL PL RVL+ +++VLAAAKVVFFPYSM+ SREDFKLG
Sbjct: 1 MFFDYTGEGQNRKVGKFTAKATVTRVRPSGEDLTQCYYIPYEIKDTDECRLEEGHPMRHKCHRSTVCINTVGSYECGCAAGYWGEEESGSPSLDKPIKSEDGACGGENSTESCCGTFGYMKERRAACVEDFKCTNDPCKGNTCDDSTSLCSAGQGYKGYECRCKDXXXXXXXXXXXXXXXXXXXXXXXXXXPYHCRCSVEGDAYKCEPRHGYKAYIDGETVPSDYYETIAGGKRLDKITRCVDKRTPDFTIRGPNPSVYRQ---GDSYEELGVTIDDRNDDESERKIGIQYSTPPGAYLKKTGEFTVRYVLENRLLEGDGTISKIRKVEVLDVDECTYTGRHAEFRHACSPEAECHNTDGGYECLCAEGYAGDGLTTGQGCVDVTPPTITCRGPGCHTANFRACNSVGMMSEDGSKKTLTAALDDAAIESYIKLLKGDLCGHGDEAAPGAADDDDFEGEGDASDSREWKPEVCFTASDVEYGGRVVDLTANITRGALEKIPGRERMWRVPHNVKDASGNSAKVFYYNIAVEEVDVLESLQGSAEILQQEMSELFFMRIAVAALLVLLLFPLVWRVLMFVRVVLAAAKVVFFPYSMISSREDFKLG 602
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: A0A6H5L5P6_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L5P6_9PHAE) HSP 1 Score: 270 bits (690), Expect = 7.250e-79 Identity = 140/215 (65.12%), Postives = 168/215 (78.14%), Query Frame = 2
Query: 1766 IKMLKGDICGEGEASDDQGEDDD-----------REWKPEACFTAVDMEYGGKVVDLTRNMTRGSIEKIPGEEMMWRVPHYVQDAAGNSATVFYYNIVVEEVDVLDTIHDSEESLKRDIFERNILRGAVVALLVLLLSPLAVRVLLLIKMVLAAAKVVFFPYSMVGSREDFKLGYGFLLRVKAMGMGSSIDRERKIATYWASLMDEANCYDDALG 2377
I+ LKGD+CG G A+ DDD REWKPE CFTA D+EYGG+VVDLT N+TRG++EKIPG E MWRVPH V+DA+GNSA VFYY I VEEVDVL+++ S E L +++ E ++R AV ALLVLLL PL RVL+ +++VLAAAKVVFFPYSM+ SREDFKLGYGFLLRVK+MGMGS+IDRERKIATYWA L+DEA+ YD+ G
Sbjct: 7 IQQLKGDLCGHGYAAGPGAADDDDFEGEGDASDSREWKPEVCFTATDVEYGGRVVDLTANITRGALEKIPGREGMWRVPHNVKDASGNSAKVFYYKIAVEEVDVLESLQGSAEILHQEMSELFLMRIAVAALLVLLLFPLVWRVLMFVRVVLAAAKVVFFPYSMISSREDFKLGYGFLLRVKSMGMGSAIDRERKIATYWARLIDEADAYDENGG 221
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: A0A835ZFQ6_9STRA (EGF_3 domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZFQ6_9STRA) HSP 1 Score: 256 bits (655), Expect = 3.040e-66 Identity = 213/724 (29.42%), Postives = 300/724 (41.44%), Query Frame = 2
Query: 383 LVYSQLEAEDSNNDLLSKAYGIINSKLEGVTSMSFDYGGQGQNRKVGKWTATATISRVKPNGAEVVDCYSIPYEIVDTDECELEEGHPMRHRCHRSTVCVNTVGSYECGCANGYWGEEDSGSPSLDKPIKSEDGECGGENSTETCCGQFELMKEKRVACLEDFKCTNDPCKGHACDENAWC------SAGEG---------YKNYECTCKDGFKKDDXXXXXXXXXXXXXXXXXXXXXYHCRCNVEGDAYRCEPRHGFKAFIDGETLPGDYYETTPGGKRLDKITRCVDKRTPDFTIKGPNPLVYRQASFGDTYEELGVTVDDRNDDESERKIRMEYSKPPGAYLKTTGEFSVRYVLENRLL--GDGK--------ISKMRRVQVLDVDECTYTGRHAEFRHDCA--------------------------------------------LEAACHNTDGSYECHCAEGYAGDGRTTGEGCIDVTPPTITCRGPGCQTSKFRACNCVGMVSEDGSKSMLPAALDDATIEANIKMLKGDICGEGEASDDQGEDDDREWKPEACFTAVDMEYGGKVVDLTRNMTRGSIEKIPGEEMMWRVPHYVQDAAGNSATVFYYNIVVEEVDVLDTIHDSEESLKRDIFERNILRGAVVALLVLLLSPLAVRVLLLIKMVLAAAKVVFFPYSMVGSREDFKLGYGFLLRVKAMGMGSSIDRERKIATYWASLMD 2347
LV+ Q EA SNN LL + +IN L+GVTS+ + KVG++TA ISR+ P+G + +CY+IPYE+ D DEC + P G+CGG ST CC K + C CT+D C G C +A C S+GE Y Y C C+ G+ + C VE CE + P + TT G + +C K + G NPL Q GDTY ELGVTV+D N+ + +R ++++YS+P GA+ K G++ V Y LE L GDG ++ R V V D+DECTY G + F H C L+A C NTDGSYECHC+ GY GDG +TG GC+DV P + + + ++C G S Q CFTA+D G V DLT ++ +G +E+ P WR+PH V DA GN A YY I V +VD+L T+ + ++ +++R +L G V+A + L LA +L ++ ++ A K PYS+V S+EDF +G+ +LRV +MGM +R R+ A WA L++
Sbjct: 397 LVFGQPEAPSSNNMLLMRVMALINEHLDGVTSVDVNLRVDSLRAKVGRFTAQTNISRLGPSGETIQECYNIPYEVQDVDECR--DNLP---------------------------------------------GKCGGRRSTADCC--------KELRC-----CTDDSCYGITCPAHASCQALDVRSSGEEAAVSDIAPEYTAYVCMCQQGYVMTEANV--------------------CIKKVEPVNMACE--------AGNNSCPVNCKCTTVG----ESSYKCSAK----ILVNGQNPLRLHQ---GDTYSELGVTVNDENEQDGDRTVKIQYSEPFGAFFKKAGKYQVVYSLEVPWLPTGDGANTIGEPATVTAQRDVYVADIDECTYEGPNDYFMHQCVRGHDDLLQQVCSNYIPVVWSLRGFICLLLHAQIRLKVRVLVALVLQATCVNTDGSYECHCSTGYKGDGLSTGTGCVDVMQPVMF-----------------------------------------LLKMGDNLCNAGRDSGLQ-----------PCFTAIDNTLDGPV-DLTTDIQQGGLERDPARNYTWRIPHNVADAEGNVAETVYYVIQVTQVDMLSTL--TGVTVDPVMYQRVLLGGTVLAAIAAL--ALAWWLLQWVQPLIQACKYWLNPYSLVNSKEDFDMGHDLVLRVVSMGMLPQKERRRRTAARWAELLE 964
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: A0A7S1ZAU1_9STRA (Hypothetical protein n=2 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S1ZAU1_9STRA) HSP 1 Score: 144 bits (363), Expect = 6.840e-31 Identity = 170/655 (25.95%), Postives = 248/655 (37.86%), Query Frame = 2
Query: 383 LVYSQLEAEDSNNDLLSKAYGIINSKLEGVTSMSFDYGGQGQNRKVG----KWTATATISRVKP-------------NGAEV-VDCYSIPYEIVDTDECELEEGHPMRHRCHRSTVCVNTVGSYECGCA----------------NGYWGE--EDSGSPSLDKPIKSEDGECGGENSTETCCGQFELMKEKRVACLEDFKCTNDPC--KGHA-----CDENAWCSAGEG---YKNYECTCKDGF--------KKDDXXXXXXXXXXXXXXXXXXXXXYHCRCN---VEGDAY--RCEPRHGFKAFIDGETLPGDYYETTPGGKRLDKITRCVDKRTPDFTIK-GPNPLVYRQASFGDTYEELGVTVDDRNDDESERKIRMEYSKP-PGAYLKTTGEFSVRYVLENRLLGDGKISKMRRVQVLDVDECT-----YTGRHAEFRHDCALEAA--CHNTDGSYECHCAEGYAGDG--------RTTGEGCIDVTPPTITCRGPGCQTSKFRACNCVG-------MVSEDGSKSMLPAALDDAT------IEANIKMLKGDICGEGEASDDQGEDDDREWKPEACFTAVDME-YGGKVVDLTRNMTRGSIEKIP----GEE-----MMWRVPHYVQDAAGNSATVFYYNIVVEEVDVLD 2050
L Y+Q A + +L +N +EGV + + G +R VG + + T +S VK +G +V + C+ +P+ I+DTDEC LE+GHPM+H+C + CVNTVGSYEC C + YW + SP P + + C + ST CC + + V C F+C DPC KG A C +NA C + +Y C C G K D +C C V+ A +C +H T PG ++ CVD+ P ++ P+ + GD YEE V + D N ++ R +++ YS P P L GEF V Y + + R V + D++EC Y + C +A C NT+GSY C C + GDG R T ID P G GC+ + +G + G K ++ DD +E + DI ++S +G E C T V T + +G + GE + WRVP+ V D AGN A + N+ VEEV + D
Sbjct: 59 LTYTQEAAPRDISAVLRVVVEKVNRDVEGVVDVEVGWTGGELHRVVGDHLVQCSVTRLLSSVKTERLIPEEDVQTDEHGRDVTIQCFHVPFTILDTDECALEKGHPMQHKCQEPSFCVNTVGSYECVCPTDDDDGTGGVEGAAAESDYWVKLLSQKRSPWELSPNSTTETSCPNQPSTHNCCAKNAHTSDG-VTCRAAFRCPVDPCGAKGSAEGLNDCAQNAHCRRTKSPLSLPSYNCQCPSGLMGNGHKCKKGIDTKPEPKVRYDGITPTAETLKNNYCGCTKPVVDACAGFPKCAGKHEVCTVTSANTPECG---CKPGFVKISGYG-CVDETPPVLKLRHDPDGNGVNRLKQGDRYEEHAVDIIDDNAEDYLRSLKITYSHPLPPGCLSKMGEFHVNYTVATPWTSPPYVRVTRNVIIEDINECELDVDKYETACPKLLPMCDTDAGAVCRNTEGSYTCQCPQYTTGDGFKQIDLVQRDTAGKFIDA--PKGYSGGKGCKDTSKPVIEVLGPNPKVLKVCRAGGLKGIMGGGTDDEDPEIQELVEDQRRRYTNDIKSMIKSS--RG--------AELCATHTQPNPRPADCVRATDHTYKGPVNLSSRVTVGEPEQKGVLEWRVPYTVSDDAGNDAKTVWRNVAVEEVCLSD 696
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: A0A7S2S2K8_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2S2K8_9STRA) HSP 1 Score: 140 bits (353), Expect = 7.860e-30 Identity = 150/589 (25.47%), Postives = 221/589 (37.52%), Query Frame = 2
Query: 470 VTSMSFDYGGQGQNRKVGKWTATATISRVKPNGAEVVDCYSIPYEIVDTDECE------------LEEGHPMRHRCHRSTVCVNTVGSYECGCANGYWGEEDSGSPSLDK--PIKSEDGECGGENSTETCCGQFELMK---EKRVACLEDFKCTNDPCKGHACDENAWCSAGEGYKNYECTCKDGFKK--------DDXXXXXXXXXXXXXXXXXXXXXYHCRCNVEGDAYRCEPRHGFKAFIDGETLPGDYYETTPG------GKRLDK-ITRCVDKRTPDFTIKG------PNPLVYRQASFGDTYEELGVTVDDRNDDESERKIR--MEYSKPPGAYLKTTGEFSVRYVLENRLLGDGKISKMRRVQVLDVDECTYTGRHAEFRH------DCALE--AACHNTDGSYECHC----------------AEGYAGDGRTTGEGCIDVTPPTITCRGPGCQTSKFRACNCVGMVSEDGSKSMLPAALDDATIEANIKMLKGDICGEGEASDDQGEDDDREWKPEACFTAVDMEYGGKVVDLTRNMTRGSIEKIP--GEEMMWRVPHYVQDAAGNSATVFYYNIVVEEV 2038
V + ++ G+ + KVG+W A + + Y+I D DEC L HRCH ST CVNT GSYEC C S PS+ + K C G +S+ CC K K + C E+F+C D C CD A C+ + C C +G++ + YH + ++ E + DG T + G G D+ + RCVD P +K P S + E G ++D N +E+E +R PPG K F++ Y+ N S + V+V+D DEC R +H CA + ++C NT GSY C C A G +G G GC D PP IT G + FR C C G + + + A + I A ++ +C + + + C AVD GG VD++ ++ G+ E + G+ ++WR+P+ V D AGN AT Y I V+E+
Sbjct: 74 VRDVEVEWPGEVLHAKVGEWIVKAQVEG---------RLWCFVYDITDVDECRGQGASDGFHQTSLPASPEWFHRCHPSTECVNTYGSYECRC---------SFIPSVGRRSSAKVTKWPCQGLSSSSECCSGERSKKGDSSKSLTCREEFECYVDECGHSDCDRLATCTPLFDADRFTCQCPEGYRGNGRKCTGGEKFRVFHRGDEDDTLFLETTTDEYHRDEDSVCGCHKPEINNCPTKCCDGRTPCNEQCNPRTGQCECMRGFTFDEGLNRCVDPTPPKVWLKDQHGRRVPGSKSVVVVSQCHEFVEFGFDIEDDNAEETEDFLRHFKTIGSPPGGCFKQMQNFTITYMTWNAWTEPH--SAYKDVRVVDADECGLD-RQIMAQHCPSCVTRCAFDQGSSCKNTFGSYTCECPLCGGRGDGFEVISDLAPGEFPEGYVNGSGCQDSCPPHITLLGAN--PAVFRVCKCEGPLCPEHPP--VQRAEWEEKIRALVRTSPNTLCDQKKGN---------------CVQAVDRVVGGGEVDVSASVVIGNPEWVGQRGQLLVWRLPYDVVDQAGNKATTKYREIHVQEL 622
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: A0A7S4MS12_9STRA (Hypothetical protein (Fragment) n=2 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4MS12_9STRA) HSP 1 Score: 117 bits (294), Expect = 1.090e-22 Identity = 134/519 (25.82%), Postives = 183/519 (35.26%), Query Frame = 2
Query: 383 LVYSQLEAEDSNNDLLSKAYGIINSKLEGVTSMSFDY-GGQGQNRKVGKWTATATISRVK--------PNGAE------------------VVDCYSIPYEIVDTDECELEEGHPMRHRCHRSTVCVNTVGSYECGCANGYWG-------------------------EEDSGSPSLDKPIKSEDGECGGENSTETCCGQFELMKEKRVACLEDFKCTNDPCKGHACDENAWCSAGE------GYKNYECTCKDGFKKDDXXXXXXXXXXXXXXXXXXXXXYHCRCNVEGDAYRCEPRHGFKAFIDG-----ETLPGDYY--------------ETTPGGKRLDKITR-------------------CVDKRTPDFTIK-----GPNPLVYRQASFGDTYEELGVTVDDRNDDESERKIRMEYSKP-PGAYLKTTGEFSVRYVLENRLLGDGKISKMRRVQVLDVDECT-----YTGRHAEFRHDCALEAA--CHNTDGSYECHCAEGYAGDGRTTGEG 1612
L Y+Q +A + +L +N +L GV + + GG+ + +VG T +++R+ P+G V C+ +P+ I+DTDEC L GH MRH+C +VCVNT+GSYEC C + G E G P S C G+ ST C E +C F+C DPC + ++EC C G CR V+ +PR + DG ETL DYY T G + +T CVD+ P ++ G RQ GD Y E V + D N +E R +++ YS+P P L TG F V Y + + R V + DVDEC+ Y R E C +EA C NT GSY C C E GDG EG
Sbjct: 114 LKYAQDKAPRDISAVLPVIVEKVNRELSGVVDVEVGWTGGESFHSRVGDHTVRCSVTRLVSAIGSGDGPDGGASSSPQDDQVSVDEEGRRIVTQCFDVPFVILDTDECTLPVGHHMRHKCADPSVCVNTIGSYECVCPSASSGGGGLLPALEDGKAAAAGENFFARLEESRKGDPWSTSLNSSSASSCPGKASTYGGCDSSGHSPEGS-SCRSSFRCAVDPCSSSGGNXXXXXXXXVRKPSPLSRPDHECRCPQGL---------------------LGNGRKCRKGVD-----VKPRPAVE--FDGVTPTKETLRNDYYCGCTKPVVDACAGFPTCEGKHEVCAVTPSGAPACRCKVGFVRAPGYGCVDESPPVLKLRNDPSDGDGITALRQ---GDVYREHAVEIADDNAEEYLRSLKITYSRPLPPGCLAKTGRFYVNYTVATPWTSPPYVRVTRTVIIEDVDECSLDPAEYESRCPELVPRCDVEAGAQCVNTRGSYSCRCPEYTTGDGFLPMEG 600
BLAST of mRNA_P-littoralis_Contig175.24.2 vs. uniprot
Match: B8BSL1_THAPS (Uncharacterized protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8BSL1_THAPS) HSP 1 Score: 105 bits (261), Expect = 8.520e-19 Identity = 117/461 (25.38%), Postives = 165/461 (35.79%), Query Frame = 2
Query: 383 LVYSQLEAEDSNNDLLSKAYGIINSKLEGVTSMSFDYGGQGQNRKVGKWTATATISR-------------------------------VKPNGAEVV-DCYSIPYEIVDTDECELEEGHPMRHRCHRSTVCVNTVGSYECGCAN--------------------GYWGE--EDSGSPSLDKPIKSEDGECGGENSTETCCGQFELMKEKRVACLEDFKCTNDPCK----------------------GHACDENAWC---SAGEGYKNYECTCKDGFKKDDXXXXXXXXXXXXXXXXXXXXX---YHCRCNVEGDAYRC-EPR----HGF-KAFIDGETLPGDYYETTPGGKRLDKITRCVDKRTPDFTIK------GPNPLVYRQASFGDTYEELGVTVDDRNDDESERKIRMEYSKP-PGAYLKTTGEFSVRYVLENRLLGDGKISKMRRVQVLDVDEC 1480
L Y+Q A + +L Y IN + GV + ++ G +++VG+ T++R + G EV C+ +P+ I+D +EC +E HPM HRCH ++CVNT+GSYEC C + +W E ++ SP S + CGG ST CC + E C F+C DPC C NA C S+ NY C C G + R G C EP GF K + P PG R D+ CVD+ P I+ P + R G+ YEE GV V D N +E R +++ YS+P P L GEF V Y + + R V + +V+EC
Sbjct: 36 LTYTQATAPHDVSAILRSVYEKINRDVTGVVDVEVEWSGTEIHKRVGERIVKCTVTRLWESVVGALDKEGRGGSXXXXXXXXXXENKSIDEQGREVATQCFEVPFTILDVNECTVESTHPMAHRCHPPSICVNTLGSYECMCPSEDDNAISSNAIKSFNFVANTDFWKEMNDEQRSPWELSFGSSTESSCGGLASTFACCEEDGHSAEGSF-CRSSFRCPVDPCNESKQXXXXXXXXXXXXXXXGASSAQCANNALCQRSSSPLSQPNYNCICPTGLLGNGRRCRPNVDGMPQPKVRYDGKTPTEETARALASGLICGCTEPVVDACSGFPKCPVTSSNTPT--CACKPGFFR-DERFGCVDENPPVLHIRPDPSHTDPKTGITRLVQ-GEKYEEHGVDVIDDNAEEYLRSLKIAYSRPLPQGCLLEMGEFHVNYTVATPWTDPEFVRAKRTVVIENVNEC 491
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D7FVY1 |
| PFAMs | EGF_CA |
| Model size | 5610 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K05120 |
| Hectar predicted targeting category | signal peptide |
| Exons | 16 |
| Evalue | 0.0 |
| EggNOG OGs | KOG1217@1|root,KOG1217@2759|Eukaryota |
| Ec32 ortholog description | EGF-like calcium-binding domain |
| Ec32 ortholog | Ec-01_002580.1 |
| EC | 2.7.10.1 |
| Description | calcium ion binding |
| Cds size | 2349 |
| COG category | O |
| BRITE | ko00000,ko01000,ko01001,ko01020,ko04050 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789842.4553719-UTR-P-littoralis_Contig175:138210..138565 | 1680789842.4553719-UTR-P-littoralis_Contig175:138210..138565 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig175 138211..138565 - |
| 1680789842.468795-UTR-P-littoralis_Contig175:139856..142722 | 1680789842.468795-UTR-P-littoralis_Contig175:139856..142722 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig175 139857..142722 - |
| 1680789842.6572032-UTR-P-littoralis_Contig175:163820..163860 | 1680789842.6572032-UTR-P-littoralis_Contig175:163820..163860 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig175 163821..163860 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789842.4838176-CDS-P-littoralis_Contig175:142722..142858 | 1680789842.4838176-CDS-P-littoralis_Contig175:142722..142858 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 142723..142858 - |
| 1680789842.495054-CDS-P-littoralis_Contig175:143258..143402 | 1680789842.495054-CDS-P-littoralis_Contig175:143258..143402 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 143259..143402 - |
| 1680789842.5079024-CDS-P-littoralis_Contig175:144534..144662 | 1680789842.5079024-CDS-P-littoralis_Contig175:144534..144662 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 144535..144662 - |
| 1680789842.5161495-CDS-P-littoralis_Contig175:145217..145424 | 1680789842.5161495-CDS-P-littoralis_Contig175:145217..145424 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 145218..145424 - |
| 1680789842.5270905-CDS-P-littoralis_Contig175:146190..146325 | 1680789842.5270905-CDS-P-littoralis_Contig175:146190..146325 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 146191..146325 - |
| 1680789842.5405438-CDS-P-littoralis_Contig175:147822..147957 | 1680789842.5405438-CDS-P-littoralis_Contig175:147822..147957 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 147823..147957 - |
| 1680789842.552592-CDS-P-littoralis_Contig175:148995..149138 | 1680789842.552592-CDS-P-littoralis_Contig175:148995..149138 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 148996..149138 - |
| 1680789842.5610013-CDS-P-littoralis_Contig175:150965..151059 | 1680789842.5610013-CDS-P-littoralis_Contig175:150965..151059 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 150966..151059 - |
| 1680789842.5714753-CDS-P-littoralis_Contig175:151464..151669 | 1680789842.5714753-CDS-P-littoralis_Contig175:151464..151669 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 151465..151669 - |
| 1680789842.588798-CDS-P-littoralis_Contig175:153285..153452 | 1680789842.588798-CDS-P-littoralis_Contig175:153285..153452 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 153286..153452 - |
| 1680789842.6022165-CDS-P-littoralis_Contig175:156270..156457 | 1680789842.6022165-CDS-P-littoralis_Contig175:156270..156457 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 156271..156457 - |
| 1680789842.611312-CDS-P-littoralis_Contig175:157671..157875 | 1680789842.611312-CDS-P-littoralis_Contig175:157671..157875 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 157672..157875 - |
| 1680789842.6197762-CDS-P-littoralis_Contig175:158291..158410 | 1680789842.6197762-CDS-P-littoralis_Contig175:158291..158410 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 158292..158410 - |
| 1680789842.6357448-CDS-P-littoralis_Contig175:158671..158914 | 1680789842.6357448-CDS-P-littoralis_Contig175:158671..158914 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 158672..158914 - |
| 1680789842.647058-CDS-P-littoralis_Contig175:163718..163820 | 1680789842.647058-CDS-P-littoralis_Contig175:163718..163820 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig175 163719..163820 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig175.24.2 >prot_P-littoralis_Contig175.24.2 ID=prot_P-littoralis_Contig175.24.2|Name=mRNA_P-littoralis_Contig175.24.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=783bp
MKLKPLSCALLALVGLAALTDHGLSSAQEQEDPQTRQVPDHEQQTEQQQL
ERQQQEWELLEEQERQQEQQQRERQQREEQEEQAELLRREQQQRELQQQE
QERVCQLLDVAEDELVYSQLEAEDSNNDLLSKAYGIINSKLEGVTSMSFD
YGGQGQNRKVGKWTATATISRVKPNGAEVVDCYSIPYEIVDTDECELEEG
HPMRHRCHRSTVCVNTVGSYECGCANGYWGEEDSGSPSLDKPIKSEDGEC
GGENSTETCCGQFELMKEKRVACLEDFKCTNDPCKGHACDENAWCSAGEG
YKNYECTCKDGFKKDDRGDCVRDIKVAVNPCKNNTCPYHCRCNVEGDAYR
CEPRHGFKAFIDGETLPGDYYETTPGGKRLDKITRCVDKRTPDFTIKGPN
PLVYRQASFGDTYEELGVTVDDRNDDESERKIRMEYSKPPGAYLKTTGEF
SVRYVLENRLLGDGKISKMRRVQVLDVDECTYTGRHAEFRHDCALEAACH
NTDGSYECHCAEGYAGDGRTTGEGCIDVTPPTITCRGPGCQTSKFRACNC
VGMVSEDGSKSMLPAALDDATIEANIKMLKGDICGEGEASDDQGEDDDRE
WKPEACFTAVDMEYGGKVVDLTRNMTRGSIEKIPGEEMMWRVPHYVQDAA
GNSATVFYYNIVVEEVDVLDTIHDSEESLKRDIFERNILRGAVVALLVLL
LSPLAVRVLLLIKMVLAAAKVVFFPYSMVGSREDFKLGYGFLLRVKAMGM
GSSIDRERKIATYWASLMDEANCYDDALGNGE* back to topmRNA from alignment at P-littoralis_Contig175:138211..163860- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig175.24.2 ID=mRNA_P-littoralis_Contig175.24.2|Name=mRNA_P-littoralis_Contig175.24.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=25650bp|location=Sequence derived from alignment at P-littoralis_Contig175:138211..163860- (Pylaiella littoralis U1_48)
GCAGAGGGAGCGGAGTGGAGATCGACAACAAAGCGGCAGCATGAAGCTGA
AACCCCTCTCGTGCGCACTACTCGCGCTGGTAGGGCTAGCAGCGCTGACA
GATCATGGCTTGTCTTCAGCTCAAGAGCAGGAAGACCCTCAGGTATGCAA
AGCTTCGCCCGCCACAGAGATAATGAAATGTGTCCTACAAACTGCAGATG
TCGTTCCATGCTGCAAATATATCATGGAGGCTGGTAAACAATTCCCAACG
GAGGTTGGCACGCGCGTCTGGAATTTGCATAGACGCAAAGACTACAACAC
AGCTGTGTGGGGTCGACTGGTGCACAAGGCTTAATGCACGAGAGGGTTGA
TGTCTTGCGCCACTCGTTGCAGTGCCTTCCCATGTTTTTTCACTCGGCGC
ATACAGCAGTAGTACGGATTACAGGACTAGGAGAGGAGGCACGACGATTC
AAAAAAATTCCAAAAAAATGCTCGAGACAACAACACCACCGTTCTGTTTA
CAAGTAGCGACAGCGCGACAGCACTGACTCCTGGACTTCACTGCTTCAAT
CAGGAGTACACTCTCCGTTCCCTCGCTGCCTTGGCAAGGTCTGCTGTAAG
CATGACCCAAAGCGAGTTGGGGGGGTCTTTCTGGCGGGTGTAAGGCCGGA
CTCACCTTCAAGGAGTGATACCTTCTTGCCGCTGCTGCTCTGGTAGAGTT
GGGTCGCAGTTGGTGTGCCAGGTGCAAATATGCGGATTCGCGGGCCTTTT
GGTTACAGCGGCAGTACAGCATTGTACATCACAAGCATTTGTGCGCGGAG
GCAGGCGACACCACGGGTGAAAAGACGGTACGATCTAGGATGCACAGAGG
GATTGTGCCGTCCAGTAACCAGTTTCGCAGCCAAGGACGGAGGTAGACGA
GCGGCGACGAACGGGGAAGAGCTTGGTCGATCTCACTCCGAGCGTGAACG
TTTTTTTCACAAGACTTGTACCTCAAGTGCACAGCAGTGGAGTTTTTTAG
GGAACTGATTGAAAAGGAAGAAAAAGAAAGAGCTGTTATGTGAGAGAGCG
GCGGTGATGGAGGTGACCTAAGGCAACGCCGGCAGTGAAGAAGCGTTACG
AGAGCATGGTGCTGGTGATGTGGCCTTGGGCAACGCCAACAGCAACGTGG
ACCCAGACAAGGAGGATGTGTTCAGGGCGACACCATCACCAGCGTCGCAA
GGACGGCGTGGAGATACCATCCTCGACAACATCTGATGATACGTGTGTGT
ATTTGTGTTTTTTTTTTTTGTCTTCTCCGATTGCTGGGGCTACTTGTACG
TTGCAGGCAGAACTCCAGACAGCAACTAAGTGCTGTAGTCTGCACCAGTA
GTGGTTATTGGTTATAAGTGGGACGGGAGGAGACTGAACACGATGCTGTA
GTCAAGTGAACGACGCTGGAAGTACGTTTGATGTTGGTACTGCTGAGACT
GCTGTAGTTCAGTGATGCACACTGCGTAGGAAGGTGTATCTTCTTCGGTC
TTTCTTGGGTATTCTGTGATGTACCGGTCGCCACGGTGGTTCAGTTGGTT
TTACACGCAGCCTTCTGACATTCACGCGTGAGTTCGAATCCCAGTGCAGT
AACACGATCTGGGGCTTTTTCTCACATTGCGCGTGAAAGTGGAAAGCGAT
CAATTCGTGAGTAAACAAATTTCGATCATACCATCGACGAGGGAAAGGGA
TTGCTGTCCCCTTTCTCGCGATAAATGCTCAACCAAAAAGGCAAGCACCG
CAGAGGGAAGTGGAGCAAAAAAAAAAAAATCCTGTGTTGACTTCCCCCTG
TGTGACCCCGGTTGGAGCGTGTACCTACCCGAAAGGTGTAGAGTGGCGTC
CAATGAAAGGGATGAAAACACACACACACTCGGAGTTTATGATATCGTTT
TGCTCCCACACCTTGGAACGATTTTTTTCACTCGGTTCAACACAGGTTTC
AGGCGCACAGGTTCGTCGTTTGACTCGTTGCTATCATAATAATAATCGAG
ATCCTCGTCCCCCAAGGGTACGTATATGAGACGGACACAGCTAACTGGCG
ATGCATTCTTCAATTTCAATGGAAAAAAAAAAACTGCTTTGTTCCTCTCT
GTGATATGATATCCGTCGAACGAACCGCGAAGACGAGGAAGAAGCAGAGG
ATGCCGACACCAAACGGCGTGCATGCACATGTCCGGACGGCTGTTTGACG
ACACACCTCCCACGTGACCCTCGTACATTGGCCTCGTCAGCGGTATTCGT
GTTGCTGCTGTACCGACGTATGTTTGTTGGATGTACTATGACACTACGGT
ATTTTTCACCGTACATCCGTACATACAACCCCCGACGTGTTGAAATCCAT
CGGCTAAAAATCCGTGGCCCGTAAGATCCGGCGTTCGTTTCACCTACTCG
TAGTTTTACCAAAATCCAAGCTTTATAATTCCGTCGGCCAAAAGTCCGGG
ATGTACTGCTGTATGTATATACAACATTCATGGGTGCAACGCCGGATCTT
TTGGGCCACAACAGCAGCAGCGGCAGCACACAGCATTTCTCGTACAGCAT
TGACGGATGTACGAAAGTATGATTGTAGGTGTCGCTCCGGATCTCACGGG
CCGCGGATTTGTGGCCGACGGATACGTATCCAACACGTCGGGGGTACTCG
GTTCCTCACAGGATTGAAAATGTCGATCGGTTTTCCCCTGTTGTTTCCGA
TCGAGCAGCGAAGCCCTAAATAGCTCGAAATTTTGCCCTTGGAGCAAACA
CAACAAACAGTTGAACATCAAAATCGGCCCCTAGGACAGGGACACCAATC
GCGACCAAACCTCGTGGGGCGTACGCTCCTCCTGTGTCCTGCGCTTGGGC
ACACCAAAAATGTGTGTTGTGGGCTCTGTCTGTCTGTGTACCGCGAGGTT
TCAGTGGCGGAGTTGGTCCGAGCTTCAATTTTCGATCGCAATTTTCGGTC
GGTGCTCATCACAAGGAAAAAACGATCAAGTCGCCAACCGAAACCTCGCG
ATACACAGACAGACAGAGCCCACAACACACACACTTTTGTGTGCCCAAGC
TTAGAATACAGGAGCGTACGCCCGAAGAGGTTTGGTCGCGATCGGTGTCC
TAGGGGCTGAGCACAGATGGATGCTGTTACGTGTTGTGTTCCAAAAGCAA
AAAATGTGGCCGTTTGGGGGTTCGCTGCCCGATCGGAAATGGGGGGAAAT
CGGTCGGCATTTACTTTTTGTTGTCGACATCGTAAAAGACCCCTATCAAA
TGATACGATAAATGAAAAAATATGCAGAGTATAATCTGACAAAACCCTCT
CATTTTCTCGCTTTCCCCCCAAAAAAAACAATTTTATTGCTGTCAAGACC
ACTCTCTCTTTTTCCTGGTCTGACAGGCGATCGCCACCAAACACACCAAC
GGGGGTGCACGCCTCACATCTTTGGGCTTTGACGTGGGCTTCGTGTGTGT
GTGTGTGTGTGTCGATGTCAGGCATAATCGATATCATACATACCTACATG
CTTGAGGTAACAACAGTCCGTTACGACATGATTATAGCAAAAATCCCTTG
TTGAAGGATCTCACTCGTTTCGGGAGATGCGCACATCAATCCGTGAGGTG
AGCAGAATCCGCGCGATATCAATCTCGCGCGGATTGTGCTCGCGTTATGT
CGGTCTCGGGCCAGTTTTTTATCGACCTGATCGCACTCAGCGACAAGATG
TAGGTACCAGCAGAAATTTTTTCGAACACCAGCACCCACACACATCCACA
CACCAGGTACCCTTGGCGCATACCATGCTGTAGGTTTCTTCTAATGTTTT
CCAGAACAAAAGGGGCGCGAGCGGCTGTTGTACAGCGTTAGTGCTTGCTT
TCATTTTTTTCTCATCGCGAGAGGGGGTTTCGCCGTTGCCTGTTTCCCTC
ATGGACCTCTCGTTCAAGTTGAGTTTTTGTTATTCTCTCACTCAGCTTAT
TTCGAGTCGAATTTTGTTTTATCTCACGAAGTACGTACTCGCTTTCAATC
CACCATCACAACTACTCTGTACCATAAATACTGCTGTGTATGAAAAAAAA
AAAATCCCAGCTCACCGAGCCCTGAACCTGCGACCTCCCGCTGAAGTAGC
TGTCACAGGGTTTCGAGTTCACCCGGCCGACAAACCGGCTTTCTTCATCA
TGTAATACGTTGCACTACTACACGTTCGCACCCTGTAATAAGTGGCCGAC
GGTATGCGAAAACAGCAGAACAACTAACAGCAGTCAGTATGATGTGTCTG
TGGGTGTTTTCAATCCCATTTATTCTGGACGCCAGTCTTCAGCCTTCGGC
ATGTTCATGGATGTATGTGCGTTAGAGCTCGGCTCCGTCTAAACATTTCC
CGGGTACCCGGTACCGGGCACTACCCGGTCGGTTCCGGGTAGCATATTTG
CTACCCTTGTAATTGAAATCGCAATACGGTGTCCCTTTTCGGTCATGGGG
TACCCCTTGAACATCACACACGACGCCCCCTTAAATTTTTTGGGGGCACC
GGATTTCATTATTCCGGGGGGCAAGGGGGCACCGTATTCCACTTCCCAAG
TACCCGGGTACCCGGTCGGTACCACCTCCTCGAGCTTTGACGGGTACCCG
GTTCCCGAAAATCTAGATGGGGCCGAGCTCGAATGTGCGTGGCCGCATCA
TCAGCCGGGGTTGGTCACACGCACGAGAGGAAGGTCAACATTTCACAGGA
GTTTTATTTTTATTTTTCCTCCACGTTCTTCTGCAGCGTGTGAGTGTGTG
AAGTGCTCCTCCGAAAGTTAGACTTTCATACCGTATCATAGAGGTTACAA
CACACATTTTCGTTTTTTGTGTTCTACAGCAGCCTGCACACCGCTTGTAG
CCCCGCTCCCACACACACGACAGCACGTGAGTGAGAGCGTGGAAACGTGA
ACGTTGAGAGCGACCTCGCGCGTATTTGGTTGATGCTTTCCCACAGACAC
GGCAGGTCCCAGACCATGAGCAACAGACGGAACAGCAACAGCTGGAACGG
CAGCAACAAGAATGGGAGCTGCTGGAAGAGCAGGAGCGGCAGCAGGAACA
ACAGCAGCGGGAGCGACAGCAGCGGGAAGAACAGGAGGAGCAGGCGGAGC
TGCTGAGGCGGGAACAGCAGCAGCGGGAACTGCAGCAGCAGGAACAAGAG
CGGGTGTGCCAGCTTCTCGATGTAGCGGAAGATGAGCTGGTGAGAGACGA
GACTCGATGTTATAAGTCTTCCTAGTCCCCAACTTAGTCACGGAGGGCGT
AGCAATGTTATACCGCACTACTCCGGACGGCAGAGAGCAGAGAGTGAGTG
TGATATACGCTCCCATAATCTCATTCTACAGATAGTGTAGCACCGCGAAT
GGATATACGCTCCCATCACCTCATTCTTCTGTTCCATGTTGATTTTCTCT
CTGTTTTCGCGTTTTATGTGCGGTCCGCACGTGACATTTTTTTGTGACAG
GTGTACTCTCAACTAGAGGCGGAAGACAGCAACAACGACCTCCTCTCCAA
GGCGTACGGCATCATCAACAGCAAGCTCGAAGGCGTCACCTCCATGTCCT
TCGACTACGGTGGACAAGGGTAAGGGTGAGCTCAAACGGAGCACGTTGAA
AAAATCATGATAAGGCGCCGCCTTTTGACCTCCCTCGAGTCCCTTTTCTC
TTCGACGGAAGCATTTTCATTCGGGAATCATCATGTGATTTTGTTTTACA
GAGGAGTAATGGTACGATCCGTGTCTCTAGTTGGTCTCGTTTTTTTTTGT
TACGGCGAGGAAAGAATTGAACTTCTCTCACCGGGAAGTCCCTCCCTCCC
TCCCTTCCCCCCCCCCCTCCTTCCTACCTACCCCCTACCTCCTGCCCCCT
ACCCCCCCCCCCTTCTTCTGTAGACACAACAAAAAACATTCCATTTTTGT
TTTCGGCTGGCTGCTCAACTGCCCCCCCGTCCTCCTTGACGAAAAACACG
TGAACGATGACCAACTACTCTCTGATGGAGAGCAGGCAGAACCGCAAGGT
CGGCAAGTGGACGGCCACTGCGACCATCAGCAGGGTCAAGCCGAACGGGG
CGGAAGTGGTGGACTGCTACTCCATCCCGTACGAGATCGTGGACACGGAC
GAGTGCGAGCTCGAGGAGGGACACCCCATGCGGCACAGGTGCCACCGCAG
CACCGTGTGCGTCAACACCGTGGGGAGCTACGAGTGCGGGTGAGAAAATG
AATACGAAGAGAGAGCTGAGTGGTTGGGAGCCTGGGGCGGGGGGGGGGCC
CCGCGAAGATGAGAATGGAAATATCTCGCACAGACAGATAGACAGCGTGT
TTGTTGTTGTTGTTGTTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTT
GTTGTTGTTGTCGTGGCTGCAGACATGATCTGAGTGGGGATGAAAAGAAG
ATAATCCAGAAAGAATGAAGGTGGGTGGTGGTGGTGGTGGTGGTGGTTGG
GGGATCGGGGCCGCCGCCGCCGTAGGGTTTTTGTCCTCGAGCCAATGAAA
GCATTTCACCAAAAGGTTATGCGCGCGCCGGGGGTGTGTGATATCTAGTA
CAAGCACGTACGTGAAACGCGTGGTTTGAGGCGTGAGTATGAAATGAGAA
CACGGGGGAGGATAACAAGAGGGTGCACGTAATACAGCAAGGACAAAAAA
AAGGGTGCACGTAGTACAGCAGCAAAGGAGTGGGATCGGGCGTGCGCTGG
GCCACCACCAACCATATTTAATTTTTCCACGCCCGCATACGCACGTGCTT
GCATGACTTGAACAATGCATCACCATTCTGTTCGATATGGGTGTGCACGA
AATGGGTTCGGGTTTCCTCGTCTCTTCCTTCCTTCCCGATTTCCGTCCTT
CGATTCCCGCGCAACACTCGTGTTGGATGATGGCGACGCTACATGCGCAG
ATACACCTAGGTTTTCGAGTCGAAAAATGAACAGACATCCTTTCTATCCA
CTTGCTGTACATGATGCCTGGCAGTACAAAGTGGAACAGGTTCATTAGCA
ACACCATGTTTTCATACGGTGCATTGTGATTTGTTTCTAGCCGGGATTGA
AGTTGCAACATCGCCCGTCTGTATGAGGACGATTTTTCGGCACGAGGGAG
TATGTGCTACAAAGCAGCGCACAGATAGATGCCTGCGGAACCCGTTCTTA
TTCTTATTCTTCGTCTACTAGAGCGCTGTCTTTTGTAACGATCGATCCAT
ATAGTAACCAGCTCCTGCAGTTTTGTTCGCACACGTGTACGCTTCAGTAC
GATGTCACAGCATTAGGACTGTTCTCTAAGATCGGCACAGCCCTGTATGA
CAAACAACTGCTGGATGGCACGTGCCTACTGTATATGACGCGTGCACTGC
TGTACAGCATACCCGCACGCCAAGCCAGAACGAAACGCCCCCCTCGCCAC
CAGATGCGCCAACGGGTACTGGGGTGAGGAGGACAGCGGATCCCCGTCCC
TGGACAAGCCGATCAAGAGCGAGGACGGGGAGTGCGGAGGGGAAAACTCC
ACGGAGACATGCTGCGGACAGTTCGAGCTGATGAAAGAAAAGAGGGTGGC
CTGTCTGGAGGACTTCAAGTGCACCAACGATCCTTGCAAGGTGTGGCAAG
ACCGTCAGCTTTTTTTTTTTTTTCGTTGTTTGTTCTTGTGAATGATAAAT
CTGCCACCCGCTCGCAGCAATAATGCATGTTTTTTTGTTTTGCTTGCACA
CGCTGCTGCTGTTGAGGAAAAGGCGGTCTCTTCCGTCTGCGCTCACTCTC
GAGGTCTGCCCCGTCTAAAAATTACCAGGGTACCCGAGTCGAGTACCCGT
GTCCGGGCACTACCCGGTCGGGTCCGGGTAGCATATTTTCTTCCCGGGTA
ATTAGACAAACTGCAAACTCGAGATCCCGCATGATCGTGGCCCGATATTT
GGCTTTTTTCCGCCTAAACTGCCAAAACAGGGCTATATCGCGCTTTACGA
GTATGGAACAGAGGGGTTTTTTCTCCCGCTTCGGGGCATAATCGAGGCAG
GATTCGGAATAAAATGAAGCAGGATTTCCAAGTTGGTTGAATCCCGCTTG
ATAAGGCAAAAGGGCTTTTGTCCACCAAAGCTTGATCAAGCGGGGCATCC
GTGGACGGTCGTCGGGGGGTGCTCGCCTTGCTCACGGTTCACCACCTGAG
ATGGCAAATGAATGACAAAAAAACGTAAATCACAGACCACTGCTGTACAG
GCCGGCGCCCCTCATGGCAGACATCTCCAGAAATTTTGTGACACCCCTGA
ATACTTTATGCTCTGCAAGGCCAACGTCGAGAAGCTTCCGAAGGCTTGCG
TATACTCTATCTAGTAGCCAACCGCCGCGAGCTCAGAGTCAGTCAGGCAA
AGAGCGCTGGAGCACAATACGTTATGTTGTGTGATTTGTTTGGAACGAGG
TTGGTCGTGGTACAGTGTACAGCGGGTACAGCAGGCTGGCACACAACGAA
TTCCCACACTTCTATTCGTTGCTTCAAAAATACCCCACAACGGTTTTTGG
AGCCAATACATCGAGGACCGGCACGAACTCGAGCTCCGAAGAGCAGTGTC
AGTAGGTCTGTCGGCACATCTACATGGTACCGTCTGAATCAGCAGAAAAA
TCGCAGGACGTGTGTTTGAACGAGCGATGGATGAGTGTGGGATGCTGTTG
TTTTTGAGAGGCAGCTTGGTTCTTGAATCCGAAACAAAATGAAATCACAC
ACTTGTATTCTCGCTTCAGAAGAAGTACTTCGAAGTACTCAACGGCGGTT
TCTGGAGCAAAATGCAAAACGCGAGCTGCCACAAGCAAGCGTAAGAAGGG
CTGTCACGCCATGTGCCCATCATCTTAGCAGTAGCTCAGCGGCGACGGGA
GGTAAAGGGCAGCAGCAGTAGTCATGGTACGTGGAACAAATGTTGAATGT
TGTGTTGTGTTGTTCTCTCAGTTCTCATGTTCTCTGGCAGAGTCTGTTGG
TGATTTTGTTTCTTGTGCGGGTACTTCTAGTGACGTCAATCCCAAACCTT
TCGATTTTCCGAGTTTGAAACACGAGCGCTCGTTCCCGCTTTCTCCGCCC
AAAATATAGCGGGGTTGAAAGAGGAGGATAAGAAACACAAAAATAAATAT
TTTGACGATCATGCGGGATCTCGAGTTTGCAATTCGTCTATTGAAATCGC
AACATGGTGCCCCTTCGGTAATGGGGTATCCCCATGAACATCACACCCGG
CGCCCCCTTTGTTTTTTTGGAGCACCGTATTTCATTTTTTCGGGGGGGGG
GGGGAAGGGGGCACCCTATTCCACTTCCCAATTACTACCCGGGTACCCGG
TCGGGTCCACCCCCTCGAGCCCATTACTCATGTCCCAAGTAGCTTCCACC
CCGTGCTTCCCTTGTGTATTTGCACAGGAGTTGTTGTTGGTGCATTTATG
AATATTCTCCCATGTTATTTTTCAAAAGTTCGGAAACGTTTTGTGTTTCA
AACCCAAAACCGAGAGCCTGTTTTGCGCTTGAGAGACTAAGGTCTCGCAA
TTGACGAATTATGGCAAGGGTTTGGAGTCATTGTTGTTGTTGTTGGTGGT
GGTGTTTCTGTCTCCGCCGCTAACATGACGATCTAGCGCTAGGCTACGTT
TTTCTTGCATGTTCTGGTTGTTCTTCTCCGAAATGAATTGGTTTCCAACT
TCTACAGCAAAGACTAGGTCAAATGCATCCATTGCTCAACTCGACTCTGC
TTGGGCACCGGCATGTTGCATAGAAGTATACGAAGTATGTAAACATAGGT
TCGATGATAAGACGTCTCCTTGTTTCGTAGTCAGGTGTACCAGGTATCGG
TGTAGCAGTTTGCCACGTGTACATGATTCGAAGAAAGATGTGTTCCTGTT
TTGAGAAATGCTTCGTAGTCAAGTATCGGCATCTAATGTATGTATTGTAC
ACCGGTGTATGTGCGGAGGATACACGATTCGGAGGAGCGTGTCTCGTTGT
TCCAAGAATTTTTCAGCATGTATGTGTACATGGTTTGAATTTCGAAATAC
GATGTCTCATTGATTTGAGAAATACTCACTGGTGTATGTATGTATGATAC
ATAATTCGAAGCAGGGTGCATACAATTACGTCTCCTTCTTCAGAAATGTA
TATACGAAGTATCAAACGAAGTATGTATCTTGTCAAGAGAATTGTATATA
TGGTATGATTTTTGTTGTTTGTTTTTACTTGATAAAGATGTGCTTCGCAG
TTTGATATGGTATGATTTTTGTTGTTTGTTTTTACTTGATAAAGATGTGC
TTCGCAGTTTGTTTATACATGTAGATATCGTTTTGTCAAATACTGGTATG
ATATTTGTTGTTTGTTTTCTTGAAAAATACGTGTACATATCTAAAAACCT
TTATCTCTGTTCCTCCCGTCGCCATGTGCTGTTTGTCTCCCCCCCCAAAT
GGAACAAGGGGCACGCTTGCGACGAGAACGCCTGGTGCTCCGCCGGAGAG
GGCTACAAGAACTACGAGTGCACGTGCAAGGACGGTTTCAAGAAGGACGA
TCGCGGCGACTGCGTGAGGGACATCAAGGTCGCCGTGAACCCCTGCAAGA
ACAACACCTGCCCCTACCATTGCAGGTGGATTGTTGTTGTTTTATTCGTT
GCTGTTGTTTTTATTGTTGCTGTTGTTGCTGTTGCTGCTGTTGTTGCTCT
TGTTGCTCTTGTTGCATTTCAAGGATGCCGCGAGGCAGCAGGAGCAGCAG
CAGCTGCGCCCATGAACTATTGCGGCATGGCTCCGTCAGTCGAGACCTCT
CCACCTCTCCGAGTTTTGTTTCTTCTCGCGGTGCCGCCCAAGCGAGAAGA
AGAAAACCCAAGCAAGACGAAGAAAACCAGTGCCCCATCGACAAGCACCC
CCCCCCGCCCTTCCACTATATGCGGTACATATCATACATACACGTACCAT
CCACCCGTGGGTACTTCGAAGCGCAAACTCTTGAAGTGAAATACGTACAG
TCCCGCGAAATATGTACCGGGTATCTGATACCGGGGCACCACCGCAACGG
GGGGCCAATGGTTGCGATCCCCGAGAGATGCCAGCGTACATCGAAAGAGC
GGTATGATGTGTTCGTTTACCACGGGAAAACGGCCGAGGGGGTTGAAGGC
GTGCCGGCGTTCGCGGAAAACGACGTTTTGCCACCGCAGGGTGCGAGACA
CCCGCAAGCAAACCCTAGAGCAACTTTCGAGGCTTGTTTACTACGCAGCC
ACAGAAACGTTTGCAAGACCCGAAAGTGATGGTCTTCGAAAGACCCGAAG
AACGGAGACATGCACACAGACAGACAGCATGTGCGCGGAAACGTCACAAC
AACCAGCACGCACAAGAAGACTCGGGCATACACACACCGTGATCACACGA
TGATAACACAACAACACGCCCCATGCACAAAATATGTACCTTCATCGGGT
AAAAGGTTGACCATTTACCCAGCAAGGACTACACCTCTTTTTAACACTCT
CCGGCACTGACACCTGGATGGTAAGAGATCAGGACCGACTCCCCTGGAAG
GACCAGATGCCTTTTCCGCACAGTTTTTTTTTTATTCTGGCAGAGCCGGG
CCCGCACTGAGTGTTTCTTCGCACGCACAGGTTTTTGCGACAGGTAAAAA
ATATAAAATAAAGATGGACGGACGGGCAGCAAGAGGGGCCAGGCCACCAA
ACGCCGCCACCGCCTTACGGGTAGCAAAATCGTCGAGGCCATTCCCCCAA
GTCTTTCAACAAGAGGGCGTCGGACGACTTGGACGTAGACGTCGGGGGGG
GGGTTCATGGGGGCTCTAAAACGTTGGCGGTGTTTACGATTACAGCAATG
GTATAATGGTATTACACTCGTATCATTCACGAACGTTCGGTTACCACCAT
ACTGCTGTATGTATTATCCCCTGCTGTTATCGTGCATTCAAATCAGTCAG
TGTGATGGCAGCCTGAATAAATACTGCTGTAACATCGTCCCTTTGCTAGT
AGACAGCAGTGAGTTCAAATCGGATACAGGCGTAACCGACGAGGCACTTC
GAGTTTAGTAATAGTGCCGTATTAATATCACGGATACATACGACGATGTA
TGTATGCATGCATGTTCCTCGCAAAAACTCGAGAGAGAGAGACTAACGGG
CTGCTGTATATTACAGTATGTTTTTCACTCGGTGTTATCGATCATGTGCA
CACACGGCTCTTCACCGCATCGAACTGTTGTACCGAACCAGGTGTAACGT
GGAGGGGGACGCCTATCGGTGCGAGCCTCGTCACGGCTTCAAGGCCTTTA
TTGACGGGGAAACCCTTCCCGGCGACTACTACGAGACCACCCCGGGAGGG
AAGCGGCTCGACAAGATCACTCGCTGCGTCGACAAGAGGACTCCGGACTT
CACCATCAAAGGGCCCAACCCGCTCGTTTACCGCCAGGCTAGTTTTGTCT
TGTCGCGAGTACTGCTGCATGCATAGTTTTATCATGGTCACGACAATCAT
ACCGTTTTATTTTTACCAAAACTATTCCCTTTGTATGATGCACGCTATCA
TGGTAGTTTTGATCATATTAAACATAACCACCAAAAATGATGATGATAAT
GATACCATGACAATAACTACAAAAATGATGATAGTTGCAATACTAGTAAC
ATGCGTCGTGATAATGAAAGTGAATAGTAGCAAGGTGACAGGAGGGCAGT
GTTCCCATTGTACGACGACGGAGTTTTTGCGGCACACGGTCCTTTTTTTA
CACTGATTTTGAAAGGTCAATGTCGATGTGTGATGGCCATGTGGTTCATC
TCCGCAATCCAATCTATTGCAATGTAAATGCAATGTAATGCAATGTAACA
GGGGGACACCTACGAGGAGCTGGGAGTGACCGTCGACGACCGGAACGACG
ACGAAAGCGAGCGGAAGATCAGGATGGAGTACTCCAAGCCACCCGGTGAG
AGACATAGGCAGCAGAAGGCAAGAGATTGACCAACAGACAGACAGACAGA
CAGAAAGGCAGGCAGGCAAGCGTCTGGGAGAAAAGACGGGCAGATATTTG
GACAGATCTATCGCATTCATCATTCAGCAGTTCGTGGAAACTCGGGGTTA
TTTTTACTTTGTACTGCGACGTGATCGTGGGCGTTGCGTGAGTTGACCCC
CGGGGGGAGGGGGGGGGCGAGCGTTGAGCGACAACGGCAGGGACGGACGT
CCCTTTCTGCCATTTTCGTTTCAGCGTGATTGGGATTGGGTTCCGTGAGT
GGATTGATTGATCCTCGCGGCACCCATAGTGAACGGGTCGCTTTGGTTAC
TGCTCTCCTGGCACTCCTGAGTCGGCGACTGTGGTCTACATTCGTTCTCC
CGCGGGCTCATGCTTGTCCGTCGTTCCTGGGTGTCACGCCTTTCAAGGCA
GTAGAGCTTCTCGTTTCTGCGACAAAGTTTTCGTGAAGACACCGTTTCAT
AGATACTGTACCGCCTTGTCGCCTTCACTTGGTCCATGTCGCTTCACTTG
GTACAGGGCCTTACGATATGGTACTCTTCTTCGCTAATCCCACCCCCTCG
TTTGAAGCCATTCACTCTGGTTTTTCGTTCGATTTCGTTTCCCGTTACGT
GTTGTCTCGCCTTTGTCCCACCAAAGTATGCTCCACGTCTCACCTCCGCC
TTCCTGTCGTCTGGTCGTTTTCTCTTCTCACGCGTCATCTCATCTCAACA
ACTTTCACTTACAATAGTTCCACCTCGTTTCACTCAACTCGCTTTCTTAT
TTGTTCCACATTTCACTCATCCCCCCCCCCCCCCCTTCGTTTCACGTACG
TATTTCACTCTTTTTTTCTGTGCTCGATGGTCGCACTTGCTCCACCTTCC
TTGTTTTCGCTTATTTTGCTCCTGTTTCGCGTCTGTTCTTTCTCGTTGCA
CTTGTCGTGCTTGTATGTAACCTCACTCCGCTTGCTTCACGCCGTTTTGC
TCTTGATTATACGTCGCTTTTTCGCCGCGTCACCTTGATCGATCCTCACT
GCACGTACAGCAGTGACTCGCCTCTGGTTTCATTCAACTCGGTCTCGTCT
CCCATCGCACATCTCTCGTTTTTTTTTTGCTCTCGTGAGTCTTTCGCATT
TGACATCGTCCTATCAAGCACCCCGCGTTTTTCACTCTTTTCTGTTCACA
CTCTTCTTTTGCTTCCTCCCCTCTCGTTTCACTTTGGGTACACCAACCTC
GCTTCACTCCCAATTTTTTCCCCCCCTCATTGTTCACGCCGTTCTTCTTT
TCCTCACTCCTCACACCTCACTCGCTACACGCTCAGCAGGTCACCCCGTC
GTTTCATTGAACTCTTCAGTCTCGTCGCTTTTTTTGCTTCGTGATTCTCG
CCTCGCATCGTCGTACAGCAGTACACCCCTCTCGTTTTTCACTCTTGCTT
TTGGTATTCTGCTTCCTCCCCTCTTGTTTCACTTGGTGTGTTTTCTTCGT
AAAGGACGTCGCTATTTGTACTCGTAGTGTCCCTCTCGTGTGTGTGTGTG
TGTGTGTGTGTGTTTTTTTTTTTTCATCCACTCTCATTTCGCCCCCCTGG
TCCACAACTTCGCGGTTAGTTTCGTCCACCTCGTTATCGCTCTGGCACGA
TTCAGAGATACCGTAACACAGCAGCAGCAGCAGTCAACCAACCGTCCAAT
TCGTACTTCGAAGTATTTTGTACTATCCAATAAACGAGTGCTTTTTTTAC
CCTCGCGCACACACCGCGGGGTTGCACCTGCGCCCGCCCTCTGCCGACGA
CCTCCGGTCCGATCCCCTCTAGGCGCCTACCTTAAGACCACGGGTGAGTT
CTCCGTGAGGTACGTTCTTGAAAACCGCCTGCTGGGAGACGGCAAGATTT
CCAAGATGAGGAGGGTGCAGGTGCTGGATGTCGACGAGTGCACGTACACC
GGGAGGCACGCGGAGGTATGATGTGTGCGGGGTGGCGCGTGGGCTGCTGC
TATTCGCATGTTGCGGTGTTTGTTGCGTTGCTGTTGTTGTTGTCGTTTCA
GATATGTTATGGTTTATCTGGTGGTGGTGGTGGTGATGGTGTTGGCAGCG
GCGACGGCGTAGGTTGTGGGTGGTGCTGAGTAGGTCTTGAAACAAGTGGA
GGCATGAGGCGAGAGATCCGATTACTTCTTGCTGGAAAGGGAGTTTTTGG
CAGACTTCGTGATGGCGGAAGTCGACAAGTGATTTCGACCTGGTCGTGCG
TGTACCCTCTTTTGTACTCCTTGACATGATATGACAGCTTGTCGATTGAA
ACGGGGTGATCGCGCGTGCACCCTTTTTGGGTACTGCACCTTTTTTTGTA
CGACCTGACATGATATGACGGCTTGTCGATCGATACGAGGGTTGTCGCGC
GTGTATCCTTTTCGGGCACTGTATTTTTATTTTTTCACTACCTGACATGA
CATGATTGCACGTCGATCGAAGCGGGGTGGCCATGTGTACCCTTTTCGGG
TACCGTATCTTTTTTGTTTCGCTACCTGAAACGATATGATAGCATATCGA
TCGAAACGGGATGGTCGCGCGTGTACCCTTTTCGGGTACCGTGTATTTTT
TGTTTCACTACCTGACATGACATAATGGCCTGTCGATCGAAACGGGGTTG
TCGCGCGTGTACCCTTTTCGGGTACTGTATCTCGATTTTTCACAACCTGA
CATGACATGATAGCACGTCGATCGAAACGGAGTGGTCGCGCGTGTACCCT
TTTCGGGTACTGTACTCGCATCTCTTTTTTTTTTTCTCTCTACCTGACGT
GACATGATAGCACGTCGACCGGAAAAGCGAAAGCTTCTCTGCTGTCACAC
TTGACCTCATCGGCCGCATGTTCATAACGCGAAAACATCTCTCACATGAT
ACACCGGAATATTTTGTATCCTCTCCCTCCTCCCCCCTCCTTCTTTCTGC
TCTCACGTGACAAATATTTGATGTATAAACATTCCTATTTATCTTTCCCC
CAGTTCCGTCACGACTGCGCTCTGGAGGCGGCGTGCCACAACACCGACGG
CAGCTATGAGTGCCACTGCGCAGAGGGCTACGCCGGGGACGGCAGGACCA
CCGGGGAGGGGTGCATCGACGTAACTCCTCCTACGATCGTAAGTCAACCC
ACTGCTAAAAATCCCGCAGGAGGTCTAGTGCTGTCTTCAAGCAAGCGCTT
GGGGGACGAAACTACCGTGAAAAGTGCGTAGTGTGGGACGGTCCTCCCCC
GCTCACCTAGCCGAACCGATACGTAGCTGGACTGCGTAGGTGATTTATCG
CGGTTGCCCCCACCTAGCTGAAACGATAGCTGGATTGAGTGGGTGACTGT
TTATCGCGGTTGCCCCCACCTAGCTGAAACGATAGCTGGACTGCGTGGGT
GGATTTTTATCGCGGTTGCCCCCACCTAGCTGAAACGGTAGCTGGACTAC
GCGGGTGATTATTTATCGCGGTTGGCTACGAGCGGCGAAACAGGAACGAG
AAGAGGTTTTATACAATCGGGAAGGAGTGTGTACGATTGGGCATGAGAGC
GCCCAATTGTTCTGTTGGTGGTGACTCTATCTTATTGGGAGTTGGAGCGA
AGGCCGTTCGTTGAAAAGTTCGTTCGTTCCGTCAATGAAATATTTCCAAC
AACAGCGTCACATTTTGGTCGTTGCGGCCGTTCGGGTTGCCTAGAATTAC
TCCTACTGCTGTCTTCACTCAAACCCGACAGATGGGGTAGGGGGCGGGTA
TTCTGCTTGAAAAAACGATGGACGTTGCGTGTGCCGCTCGGAGTTTGGAC
TGCGGGGCTGATGTTGATATTAGACGGAGGTTAGGTAGGTGTGAAGAATG
AGACGGGTGCTTTACGACAGCGCATTTGTATCATACCGTAAAATAAAAAT
AAACATACAGCAACGTCATGAAAAGAGGGAATTCGTCCTCGATAGACGTT
CATGTTGAGCGTACCCAATATCAAGATCACTTCTACAACATCACCCCCCC
CCCTCTTTTTTTGTTTTTTTCCCGTCTTGCTAGAGGCAAGAAGAAGGCTC
CTAGGGGTAAGCGTGGTAGGGCATGTTTATACCGTTTATGAAGGTCACTT
TCACAACTATGATGAGTCATTTTGAAACGGGGTGGTTTTATGAAAAAGTC
ATTGCTTGATGGTTACTTTTTTCGTGATTTCACGACTCGGGAAGGGGCCC
GGATACCGTTAGTACAGGGTCTGGATCGAGTCAGCCCGTTCGTTTGTCTC
AGGCTCGATGTCCTGTTTTGGGTCTGTCGAAGGCTTCAGCTGCATTTTTT
CTGTCGGTAGGGTGGCTGGTATCGAAAGAGAGAGACAGAGAGGTCATACA
GCAGTATCGGTGGTGCGCTGGAGGGGTGGAGTCGACTCAGGTCTGTGTTA
GCGTAACACGAGCTGTATAAAAAGGCATTTCTCGCAAAATGCCTTTCATC
TTCACGTTTATACCACAGTCACTCTCTCTCTCTCTCCCCCCCCCCCCCAT
AAACCATTCTGCGTGTGAAGAAATGGATTTCACCTCCACGTTTTTTCCAA
AGTCCCTGAACGTGTGGATAATTACATTTCATCTTCACGTGTATACTATA
GTCGCTCTCGCCCCCCCCCCTTTTTATCGTGCCAGACATGCAGAGGACCC
GGGTGCCAGACGTCCAAGTTCCGAGCGTGCAACTGCGTGGGAATGGTGTC
GGAGGACGGGTCGAAGAGCATGCTGCCAGCTGCGCTTGACGACGCCACCA
TTGAGGCCAACATCAAGATGGTGAGGGAGAGAGAGGGAGGGAGTCACGGC
AAGGAGGCCTGCTGTATGGCGAGCAGGGCAAATAAAGATAGGCAGACTGC
TGCTGTACGAGGGTGTGCGTGAAGGCACAGAATAAACAAGGCAGAAGGAC
GAAAACATACGTACAATCGCCGCCCGAGGAAACGTGACGGTAAGGAAAAG
ATAAAAGTAAAAAGGAGCACAGAAATGATGAAGAAAAGGAGGCAAGGCAA
GAGAAAAGCAACAGGAAGGAAATCGAAAGGAAGTGGAGTGCGGGGAAGGA
AAGACGGGAGAAGGGGGGGGGGTCGATGGGTGCACACGCACGAAGTTAGT
CAGTCGCGCACATGTCTCGCCTCAGGGTCGGCCTGCTCGCGCTCGCCCTC
CTCCCGCTCACGCATGCCTCCCGGCACTTGTATCACAGCGCACTGACTGT
TGCGCCTGTCCTACAGGATTAGCGGTAACACCACTCCGCCCCTTCTGCCC
TTTAAAGCTTGTGTAGCTCCTCCACCCCCGCTGCTCGGGGGGGCTTATCC
CCCACGAGGGGGGAGGGGGGGGGGGCATATACCCCCCGATCGTACCCCCC
GTGCTTATACTCTCGTTATCCCTCTTGAGTCGCTTGTCGCGTACGCTAAT
GACCGACTGGTTTTGTTCGTTTTTCCTCAGTACGAAGGACCTTCGCTTTT
TTTTTTTCTTCTCCTGTTTCACTCCTCATAACATGCCCCACCTGCCTTGC
TGCATATCGTTGTGCTCCACGGGCTCAACACAACAGCTGAAGGGCGACAT
CTGCGGAGAAGGCGAAGCAAGCGACGACCAAGGCGAGGACGACGATAGGG
AGTGGAAACCCGAGGCGTGTTTCACAGCCGTCGACATGGAGTACGGAGGC
AAGGTGGTGGACCTTACCAGGAACATGACGAGGGGATCCATCGAGAAAAT
ACCCGGAGAGGAAATGATGTGGCGGGTGCCTCACTACGTTCAGGTCTGTT
GCAGCTGGGGTGGATGGTAGGGGTGGGGGGGGTTAGGTTAGTGAAGAGCA
GGAGGGATATTGTTGTTGTCGTTGTTGTTGTTGTTGCCCGTGTTGCTTTT
GTGGCTGTTGCTGTTGTTGATATTGTTGCTGGTTTTCTCCTAGTTGTTGT
TGTTGTTGTTGTTGTTCTCATTCTCTTCCTATTACTTCTGTGTGGGAACC
GTTACCCGTCACTGCGTAAGTAGACTCCGAAGTCAAACGCTTGAAGCGGC
TCTGATCGCGCGTAGGCAGAAAAAGGAAGAAACGCCGAATGCCGCCTCTC
AACCGAAAAAAGGTTGAAATGGCCATGCGACTATGCATGCAGTAGCAGGT
GTGCAGCAGCGGTGAGAGACGAGCTACGACCAAGCGCCCCGCCCATGGTG
CTCCCCTTCGTAAGGGTTTCATGCGGGTAAATAACCAATATCCACGTCAG
GCGACGACAAGCAGCAATAAATACTCCGTAATCATTATCTACGTTGATAC
GACAGGCAGCAAATGGATATGAGCCCCTCTCTCCCCCCTTCCCTCCAGGA
TGCCGCCGGTAACTCCGCGACGGTGTTCTACTACAACATTGTCGTCGAAG
AAGTGGACGTCCTCGATACTATCCACGATTCGGAAGAGAGCCTCAAGCGG
GACATTTTCGAGCGCAACATTCTGAGGTGAGTGAGCCCCACAGGCGAGCC
GCCCCGTCTGATTGTAGTGTCGCTGTCTATTCTTAAAAATAAGTTTCTGG
TATCATAGAAAAGTTTTGTCCACGTTTCTTCCCGTATGATATGGTACACG
TTCTATGGTACACGTGCTGCGGGTAGACTGCTCTCGCGGGGGGCACCGGG
GAGGGTCGGTCAAGGGTTCGCGGAGCGTTGCGATCCTCTAGGAGACACCG
ACAGAAGTGCTAGTAGTGTAGACACACCAACCCCCCTCCTTCTTTTAAAG
GCGGTTAACGAGGATACTTATCCAAACTTTTAGTTTCATTCGGGGGGTGT
ATTTTTCTAATGACACGGTAGGGACGTCGCGTTTAAGCGGAGCTGACCGG
GAGAAGGTGTCGCCGCTCCCCCCCCCTCCCCCCCCCCCCACGCCCCCCTA
GCCTACTCGGCGAAACCCCGGCGCCCCCCGCCCGCGGCTGTGTCCGCTGT
GTCAGGAGGGGTCTAGATGGGTAATGGTCTAACAGCAGGGCCATGCAAGA
CAACGAGCAACCTTACCCCCCCCCCCCCGTTTTCTTCATGGCGTGCGAGG
GCCCTGGTAGTAAACTAGAGGTAATGATACGTTGTTTTGGTTGTTGATGA
TTATCACATTAGCTCACTCAAAGCCAAGCCCGTGGTCACGAACCAGGCAC
AGTGCTAGGAGGAACAAAGTAAAACAAAAAACAAAAACAGAAAGACAGCA
CAAAATTTGGGATAGCGACCGCCGAGAGGGGTACCTTTTTCTTCTGTGGT
GTCCAAAAATATAAAATACATATCATGTCATCCAAAACAAAATTCAGACA
AGACTCGAAAAAATTGAAAAAATAAGAAAAAAAGAAAGAGACAAAACAGA
CGGACCAGAACTAAGGAAAGGCCTCATTAGCGAGGAGACAGACAGCAGTT
GGTCCAAGGGGCAGGGCAGTCACTCACAAACGTACCGACACACGGTCTGC
CTGCTTGCTCTCCTCACTCGCACGCATCATTCCTACTGTTACTTGTACCA
TATGCACGGCAACGAGAACCCCCCCCCCCCTAGCTTCCTCTCATTATCCC
GACATCCCCTCACTTCGTCCGGGTGTCCGTATCTCTCTACCGTACTGCGC
TTTTCCAGGGGTGCCGTGGTTGCCCTGTTGGTGTTGCTGCTGTCACCTCT
GGCGGTGCGAGTGCTGCTGCTCATCAAGATGGTGCTCGCGGCCGCAAAGG
TGGTGTTCTTCCCGTACTCCATGGTCGGCTCCAGGGAGGACTTCAAGCTA
GGGTGAGAGGCAGAGAGAGAGAGAGAGAGAGACGGAGATGGAGCTCAAGT
ACCGGAGGAATGCGAGGCAGAGAGAACCGAAAGATATCAAAGGAGAAGAG
ATAGGAAAAAAAGGGAGGGGGGGCAGAAACGAAGTAAAAAATAAAAACGC
AAGGGGGGTAAAATACAGCACCCAGGCGAACAAAATGGAAGGAGAGGGAC
CAGCGGGAGGCAAGAGAGAAGAAGGGGTGGACGGAAAAAACACAACCCAG
AGAAAACTTAGACGGAGAAGGAGAGAGAAAGAGGGGGAGATATGGAAAAC
ACACGCAGTGCCACGGCGTATTGATGTAGATAGCCTCGAGGCCCCCTCCC
TCTCCCACCTCCATGTTGACTCGACCTTTTTGTTTTGTATCCCCCCTTCA
AGGTACGGGTTCTTGCTGCGCGTGAAGGCGATGGGAATGGGCAGCTCCAT
CGACAGGGAGCGAAAGATCGCGACGTACTGGGCGAGTCTGATGGACGAGG
CCAACTGTTACGACGATGCTCTAGGAAACGGCGAATAAGTCTTAGCAAGA
ACGAAGGCGCACACGAAGACGAGGAGGGTGGGACGGAAATGAGGGGCGGA
GGAAACGGACAAAAATGCGGAAAAGAAATACCCGGAACGAAGCGGAACGA
GAACGGAACCGAAAATTAAGCGAACTGGGCGGGATTGGATCTAGGAGTAA
AGGGAACGGAACAGTACCCGAACGAAACAGTGCGGGATGGTGTGGGACGG
AATGGTGGAGTGGAGCAAAGAGTGTAACCGTTTTTTTTTTTTCTTCAATG
CTTGGACGGATGTTTTATACTCCGCATTACTTTTAGTTTTACAAGTTGTT
ACTATTTGCGTGGATGCCGAAGGGGAACTTTGGACCATGTTAAAGTGCGC
TCAACGCAGCTCAGGGTAACAAAATACGCGCGCATCCTTTCTTTTCTTTT
ATTTTCTTTTCTTTTTGCCAGAAGGTGGTGCAACGATTGGTCCATGCACG
TCGGTTTATTTCCATGTGCAACGCGCTCTTGGTTGTAATACTAATATTTG
CGTATCGTACCGCTGTATTGTTGTAATGCACTTTTTTTTGCCCGTAGCAC
CAATAATAAATGACAGAAACGTGCATCGCGATTGGTGTGCCCTTGGTAAA
AACATGAGGGACTGCGGTAGGTAGACGTTTTGAGTTCCGACTGCCTGCGC
TGTGCTGCTGTGCCACCGCGGTCGGTTGCTTTCGCCTCTCGTCCGAGTCT
GTTACGGTACGAAGCAGATGAGCCCATGAGGAATGGCAAGGGGAGGAGAC
AGCACTCACCCCGCAATCGACAAAAACAGCGTTGAACGAATCCCCCCCCC
CCCTCGCGTGTTGTTGTGTGTTTATTCACAAGCTGGCGTGTTTTTGTGTG
TGGTCGGGGATAGGTGGTGGACTCTCGCATTTCCCTCGTTCTGTGTTTGT
TGTACTTTTTTGCGACTTTTTGCGTCATGGCATGAGAGCTGGCCGCTTTA
CTAAGCTTATTTGCAGGCAGCCTGCTGATATCATTCACGAAGTTCGACGT
CACACTACAGTAGTGCCGCCAATGGTCGAATGGCTCCGTTTTGGGCTGGT
GCTGCATCTGCCACAAGCTGGTAGACCCGTCCGATGGTCTTATCAGAAAA
CTTCGGGCACATTTTCTCTCTCTACCATCCGTCCCGATAATTTATAGGAG
GCACGAGACGACTACATATTTGGTGGCGATTGCCGTTGACAACCAGGATC
AGGATATATAAGGGTGGAGAATCCAGTGTGACGTTTCAGGTGTTTGGTGT
CGTTGTTAGCCTGCGCCGTCAAGTGGGTTGAGCGTGGCGTGGAGTCTTGA
TCGTTGACTGATTGAAGGGGTGCTGCGCTGTGGGTACCATAATTGGGCCG
TGTTTTGCAATGAGGGGAAGGAGAGCGCACGCGCGTGTGTGTGTTTCGTG
TGTTGACATGTGTTTACATGTGCGTGCGCGTGTTATGCCTATGTTACTCC
GAAACGGAGAGTTGATGGTGCCCCCCCCCCCCCCACCCTCCCCACCCCGC
CTCCCTTTATACGTGATCCTTGGCGTTTGCGACCCGTTCGAGTGTTTTTC
GTTTTCGCGACTGCCGGCTCGACTTGAGGGAAAATCATACCGTAAGTGGT
GTGCGTTGTTCTGTTGTCCCTGTTTCCTCTTTGCGCTTCGTTGGGTCGAT
CTGTTTTTTCTTGCATGGATCTGTACCATATCACATGTATATTCGTGTTT
GGTTGTTCGGTTGACTTGGTCGTCGACAACATGTCGGGAAAAAGGGTGTC
TGTCCGTTGGGATTTTGTTTTGCTGCATGCCGAGCACGATCATGTGCCTT
GTTTTTGCGCCGATCGTGCGAGAGAAGGAAAAGCCGGCCAAGAACTTTCA
CGGTTTTCGCCGGCAGGGACAAATAAGGATTGACAGCGGGGTCGTTGCGT
GTTAATGCTACTGTAGATTGTTTACGTAGTATGCGTGTTTCGGGGTGTCT
CTTGTGGCAGCAGCCCCTTCTCTTTTTTTTTCTGCGTGTGTGTTGAAGCA
CGGCGGTAGTCGCTCGTTGATGTGTAACTTCGTGTTTCGTGGCGGTGTTG
GCGCGGGGGCTGTATATGACTGGAGATACACGAAATCGGAACGACTCGGC
TCGTCTTCCGGGGGTGACGATGTCGTCTATTTGTTGTTGTTGAAAAGGGT
TTCGTTTTTAATCGCGGTGTGCAAAAAAAATAAACTTCGAAAAACTGAAA
AGTTCTCCCCCGATGTACAATAATAATAGGTCGTGATGTTGCGAGTGAGA
GAATGAGTGAATGCTATCATAGCATGCTGTGAGCGCCACGGAATAAACGG
ATACGAAATGATGATGACTCCTGTGCCAGAGTACAAGATGTGAAAGTTTT
TTTGCTTCGTTTTCTTGTCTGATCCTGCGCAAAGTGTGATTTGTCCTCCC
TCAGACGAAAAGTCGTTCTTGAATAATACACTTTTCGTATATAGTGTGGT
GTAAATGGCAACCATTCACTTGAAATGTGGCGGCCGTTTATTTTTTTATC
CAACATTTTATACAGCAGGATATCATACGAGTGTACACAAGAGATGGAGT
TTGTTGCACAATATGAACCATCTCGACAGCAGCAGCAAGAAAATCAACAT
CCTCCTGCTGCTGCTGTCGAGGTGCTCCGGTTTTCACGATTTCACACACA
TACTTCGAGTATATGATATCGCGAAATTAACAAATCCCAACTAATGACCC
GAGCGCCGGACTCGTGGTCGGCATACAGCATGCATATGAACTTGGTTGTT
TGTTGTTGTTGTTGATTCTCACATTAGCTCACTATCGCCGCAGTCTAGCC
CGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGAAAATAAATAAATA
TATACTTCCTCTGTATCATAAGTCTGTGCCGTTATGGGCGTGTAATTGTT
TGCGCATCCATACTGTTTCGATCGTCCTATAGTTAGGTTCGTTCGAAAGA
TGAAGTCTCAAAGAAGCTGATGCAAAAAAAAAGCAAAAAAAAGCCAGTTG
TTTATACTAAAATGAAGTCAAAGTATGCGCATTTTGGCCCATTTAAAGAA
TTTTGATTCCGCCAGATGACTTGGTTTTAGAGCATGAGTCCCAAGTTTCT
TCGTTTTAGTGTGGCAAACCCAAGTGTCTTGGTTTTAGAGTCGCGTTACT
ATTATACTGATTTTAGTGAGGAGGGACTCGACATGAATCTTTGAGGTACA
AGTAGGGGGGCTAGGTTCAGGGTTAGGGATAATTTTGGGGGGGATTGCAT
TGGTTTTTTTTTTTGCCCCCGCCCCCCACTCTACCTCTGGAAAGGGTAAA
TACGGCCATTTTTGGCCTGACTACTTTTTTGTTAGCCGCTAGCCCATGCG
CAGGGTAGTCCGCAAGAAAAAAGTAAATATGTGTTTCAACCCAAAAAACT
CCGAAGATTTCGAAAAAATTATCGCCGAAGACATCGGACACCGTTGAGGG
GGCGTAAAAACATAACGGCGCAGACTTATGATACAGAGGAAGTATATATA
TACTTCCTCTGTATCATAAGTATAGTCCGTTATGGGCGCGTAGTCGTTAG
GGTACTTACACGTTGACGTTTAGCCTTTGGCCGGGTGCGTTGGAAAGGCA
AAGCACACGCAAAGCTGATTAAAAAAAAAAAAATCGAAGACCGTATTATA
CACTAATATTAGGTCAAAATAAGCCCAATTTGGCCCTTTATGAGAATATT
TTTTGAGAACTTTTTTGAGAATAGTCTTGGTTTTTAGTGTGGTACCCCCA
AGTGTCTTGGTTTTAGTGTGGGACCACCATATGTCTTGATTTTAGTGTGG
GGTCACTATTATACTGGTTTTAGTAAGGGGACGCGATATGGATGGTTGAG
TATAGCGAGGGTTAGCTTTAGGGTTGGGATAATTCTTGTGTTTTTTGGCG
GGGTTTCGGCTTGGTGCCCCACCCGCCCCTCCCGCTGAAAAGGGGCAAAA
TATGGCCGTTTTTGGGCCGACTCAATGTTTTCCGGTCGTTCGGCCGCATG
GTTCAAGCGCCCGCAAAAAAAAAAAAAAATCTTGCTACAAAAACGCCGGA
GAATTCAAGAAAAAAAACGGAAAACCGATCGGACACCGTTAACGGTCTCT
CCCAACATAACGGACTATACTTATGATACAGAGAAGTATATATATATATA
TGGACTATGATCACCCACAGTCAAATCAGATATGGTACCGTTGGGGTACC
ATCTGTGGTGGCCAGAGTACCAAACAGAATACAGAAAAAAATAACAGGCT
CGAAAGAAAAACAAAAATTGGAAACAGTCCGACAAACAAAAAATAACCAA
AGCAAATCTCAACCATAATAACCATATGGTACTTCGAAGTACTTCGTACA
TCGAACCAGGGCCCAGGGCCATGACAGACCAAGGCAGAGGCAAACCAGGG
CGATGATCCAGTAACTATATGATCAATAGTCGAAAGACAAAAATAAAATA
AAAAAGAAGATACAGGGAGGGCACAAAGACTGAGGGAGTGCACTCGTACA
back to topCoding sequence (CDS) from alignment at P-littoralis_Contig175:138211..163860- >mRNA_P-littoralis_Contig175.24.2 ID=mRNA_P-littoralis_Contig175.24.2|Name=mRNA_P-littoralis_Contig175.24.2|organism=Pylaiella littoralis U1_48|type=CDS|length=2349bp|location=Sequence derived from alignment at P-littoralis_Contig175:138211..163860- (Pylaiella littoralis U1_48)
ATGAAGCTGAAACCCCTCTCGTGCGCACTACTCGCGCTGGTAGGGCTAGC
AGCGCTGACAGATCATGGCTTGTCTTCAGCTCAAGAGCAGGAAGACCCTC
AGACACGGCAGGTCCCAGACCATGAGCAACAGACGGAACAGCAACAGCTG
GAACGGCAGCAACAAGAATGGGAGCTGCTGGAAGAGCAGGAGCGGCAGCA
GGAACAACAGCAGCGGGAGCGACAGCAGCGGGAAGAACAGGAGGAGCAGG
CGGAGCTGCTGAGGCGGGAACAGCAGCAGCGGGAACTGCAGCAGCAGGAA
CAAGAGCGGGTGTGCCAGCTTCTCGATGTAGCGGAAGATGAGCTGGTGTA
CTCTCAACTAGAGGCGGAAGACAGCAACAACGACCTCCTCTCCAAGGCGT
ACGGCATCATCAACAGCAAGCTCGAAGGCGTCACCTCCATGTCCTTCGAC
TACGGTGGACAAGGGCAGAACCGCAAGGTCGGCAAGTGGACGGCCACTGC
GACCATCAGCAGGGTCAAGCCGAACGGGGCGGAAGTGGTGGACTGCTACT
CCATCCCGTACGAGATCGTGGACACGGACGAGTGCGAGCTCGAGGAGGGA
CACCCCATGCGGCACAGGTGCCACCGCAGCACCGTGTGCGTCAACACCGT
GGGGAGCTACGAGTGCGGATGCGCCAACGGGTACTGGGGTGAGGAGGACA
GCGGATCCCCGTCCCTGGACAAGCCGATCAAGAGCGAGGACGGGGAGTGC
GGAGGGGAAAACTCCACGGAGACATGCTGCGGACAGTTCGAGCTGATGAA
AGAAAAGAGGGTGGCCTGTCTGGAGGACTTCAAGTGCACCAACGATCCTT
GCAAGGGGCACGCTTGCGACGAGAACGCCTGGTGCTCCGCCGGAGAGGGC
TACAAGAACTACGAGTGCACGTGCAAGGACGGTTTCAAGAAGGACGATCG
CGGCGACTGCGTGAGGGACATCAAGGTCGCCGTGAACCCCTGCAAGAACA
ACACCTGCCCCTACCATTGCAGGTGTAACGTGGAGGGGGACGCCTATCGG
TGCGAGCCTCGTCACGGCTTCAAGGCCTTTATTGACGGGGAAACCCTTCC
CGGCGACTACTACGAGACCACCCCGGGAGGGAAGCGGCTCGACAAGATCA
CTCGCTGCGTCGACAAGAGGACTCCGGACTTCACCATCAAAGGGCCCAAC
CCGCTCGTTTACCGCCAGGCTAGTTTTGGGGACACCTACGAGGAGCTGGG
AGTGACCGTCGACGACCGGAACGACGACGAAAGCGAGCGGAAGATCAGGA
TGGAGTACTCCAAGCCACCCGGCGCCTACCTTAAGACCACGGGTGAGTTC
TCCGTGAGGTACGTTCTTGAAAACCGCCTGCTGGGAGACGGCAAGATTTC
CAAGATGAGGAGGGTGCAGGTGCTGGATGTCGACGAGTGCACGTACACCG
GGAGGCACGCGGAGTTCCGTCACGACTGCGCTCTGGAGGCGGCGTGCCAC
AACACCGACGGCAGCTATGAGTGCCACTGCGCAGAGGGCTACGCCGGGGA
CGGCAGGACCACCGGGGAGGGGTGCATCGACGTAACTCCTCCTACGATCA
CATGCAGAGGACCCGGGTGCCAGACGTCCAAGTTCCGAGCGTGCAACTGC
GTGGGAATGGTGTCGGAGGACGGGTCGAAGAGCATGCTGCCAGCTGCGCT
TGACGACGCCACCATTGAGGCCAACATCAAGATGCTGAAGGGCGACATCT
GCGGAGAAGGCGAAGCAAGCGACGACCAAGGCGAGGACGACGATAGGGAG
TGGAAACCCGAGGCGTGTTTCACAGCCGTCGACATGGAGTACGGAGGCAA
GGTGGTGGACCTTACCAGGAACATGACGAGGGGATCCATCGAGAAAATAC
CCGGAGAGGAAATGATGTGGCGGGTGCCTCACTACGTTCAGGATGCCGCC
GGTAACTCCGCGACGGTGTTCTACTACAACATTGTCGTCGAAGAAGTGGA
CGTCCTCGATACTATCCACGATTCGGAAGAGAGCCTCAAGCGGGACATTT
TCGAGCGCAACATTCTGAGGGGTGCCGTGGTTGCCCTGTTGGTGTTGCTG
CTGTCACCTCTGGCGGTGCGAGTGCTGCTGCTCATCAAGATGGTGCTCGC
GGCCGCAAAGGTGGTGTTCTTCCCGTACTCCATGGTCGGCTCCAGGGAGG
ACTTCAAGCTAGGGTACGGGTTCTTGCTGCGCGTGAAGGCGATGGGAATG
GGCAGCTCCATCGACAGGGAGCGAAAGATCGCGACGTACTGGGCGAGTCT
GATGGACGAGGCCAACTGTTACGACGATGCTCTAGGAAACGGCGAATAA back to top
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