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Homology
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A7S4D568_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4D568_HETAK) HSP 1 Score: 645 bits (1663), Expect = 6.010e-224 Identity = 386/660 (58.48%), Postives = 407/660 (61.67%), Query Frame = 1
Query: 1 MNRSSPKVSQNAKKEPLIDEDSMRYSNMRDEEVPDVNNGDAAVPPVGPGRVRSRKYVKKTHACFHIFWYWTKHILFSLGFLAWAGASLGVLGTLYIIDVLFNSFAWISNYVLLTYLRPISNPERYRKWYQRVRKSAIYWDWSKIDTRKLAFPRDFLWGTSTASHQIEAAAALSTTGPPSGGRSSEPPSNEGTGR--RRLDHWN---------------------QWTRTWA*CRSWG*TPTGSRSSGXXXXXXXXXXXXXPSTTTTARSTCTWPTTSCPL*R----------CTTSRSRCGSWRKTASSGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRTPTWPRASP*TCAGRTWPFTRSSSSSRWSTAGPARSGW*RTSSSSTC*TGGTRWTTTWPGS*TTPSTTASWTSSARGSSTTG-----RPSSATSTTTTLNATSCNDFIGLNYYSHYCVSVWRTFFQGVPDEEKLAAMPREIYTDMPHVMYPEGFYRALRELQTLNLPIIVTENGIADKDDSCRQMYIARYMYAMSKAIHNGCDVRGYFYWSLLDNFEWSLGYGPKFGLYEVDFKTQERRLRDGAKIFRKIVQKHRAGDYLLDPEDIEFGASGDRWPP-LSSDANEPVQEEHLHGMHRRPTL 1863
MNRSSPKVSQNAKKEPLIDEDSMRYSNMRDEEVPDVNNGDAAVPPVGPGRVRSRKYVKKTHACFHIFWYWTKHILFSLGFLAWAGASLGVLGTLYIIDVLFNSFAWISNYVLLTYLRPISNPERYRKWYQRVRKSAIYWDWSKIDTRKLAFPRDFLWGTSTASHQIE + + P+ + R DHWN +W++ W + P T + W R C + G+ + ++ WP G + + W+ + W + + C R TG P + NATSCNDFIGLNYYSHYCVSVWRTFFQGVPDEEKLAAMPREIYTDMPHVMYPEGFYRALRELQTLNLPIIVTENGIADKDDSCRQMYIARYMYAMSKAIHNGCDVRGYFYWSLLDNFEWSLGYGPKFGLYEVDFKTQERRLRDGAKIFRKIVQKHRAGDYLLDPEDIEFGAS LSSDANEPVQEEHLHGMHRRPTL
Sbjct: 1 MNRSSPKVSQNAKKEPLIDEDSMRYSNMRDEEVPDVNNGDAAVPPVGPGRVRSRKYVKKTHACFHIFWYWTKHILFSLGFLAWAGASLGVLGTLYIIDVLFNSFAWISNYVLLTYLRPISNPERYRKWYQRVRKSAIYWDWSKIDTRKLAFPRDFLWGTSTASHQIEGGCDNNNWSAFERRQVKGEPAIKNGDRVGAACDHWNRVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWD---QKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQ-----IGLVKDIFQFDVLNWWNPLDHYLA-WQLNHTFNDCILDFFR---------------------------TGFFHHWAPFFSNIHYHDANATSCNDFIGLNYYSHYCVSVWRTFFQGVPDEEKLAAMPREIYTDMPHVMYPEGFYRALRELQTLNLPIIVTENGIADKDDSCRQMYIARYMYAMSKAIHNGCDVRGYFYWSLLDNFEWSLGYGPKFGLYEVDFKTQERRLRDGAKIFRKIVQKHRAGDYLLDPEDIEFGASRRSMASALSSDANEPVQEEHLHGMHRRPTL 624
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A7C2TT33_9BACT (Glycosyl hydrolase family protein n=1 Tax=bacterium TaxID=1869227 RepID=A0A7C2TT33_9BACT) HSP 1 Score: 231 bits (588), Expect = 3.130e-65 Identity = 127/262 (48.47%), Postives = 153/262 (58.40%), Query Frame = 3
Query: 438 AQVGLPKGFLVGHLDREPPDRGGCGAFN--NWSAERRQIKRAAIKRGDRSAPPRP-LEPVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFF 1214
+++ P GFL G GGC N W R + + IK G ++ ED+ LMQELGV AYRFS+EWSKIEP+EG +D A+ HY D+ LA I P VTLHHFT PLW + FE EENI F+ FC V+ E KV +W TINE EVY G+ G FPPGKKDP L V NL AH VYQ LK++ G +QIGLVK++FQ D W+ LD L+ QLNH FNDCIL FF+TG F
Sbjct: 38 SKIHFPAGFLWGVATAAHQVEGGCDNNNWSEWETARDENGKPRIKNGQKAGLACDHWNRYKEDIALMQELGVKAYRFSVEWSKIEPQEGLFDLAALQHYRDVCDVLLAAGIKPVVTLHHFTNPLWLERRGAFECEENIPFFVRFCEFVFHELHGKVHLWCTINEPEVYATQGYFRGEFPPGKKDPLLTGMVLKNLLEAHTQVYQALKKMP--DGDKAQIGLVKNVFQLDPYRRWHWLDWALSRQLNHVFNDCILQFFKTGHF 297
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A2E6AW54_9BACT (Beta-glucosidase n=1 Tax=Candidatus Marinimicrobia bacterium TaxID=2026760 RepID=A0A2E6AW54_9BACT) HSP 1 Score: 219 bits (559), Expect = 4.990e-61 Identity = 105/214 (49.07%), Postives = 145/214 (67.76%), Query Frame = 3
Query: 609 DEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWAPFFSNIHY 1250
+ED+ ++ ELGV+ YRFS+EWSK+EP++G +D+K I+HY ID L NNI P +TLHHFT P WF GFERE+NI F+ FC K++ EY ++V +W TINE EVY G+ +G+FPPG+K+PN A V NL AH AVY +LK S+++G S+IG+VK++ QFD WN LD + N+ +N L + +TG + PFF NI+Y
Sbjct: 98 EEDIKMILELGVSHYRFSIEWSKVEPKKGYFDRKVINHYSNVIDKLLENNITPVITLHHFTNPTWFDNLGGFEREQNISIFVQFCEKIFDEYSSRVNLWCTINEPEVYSMMGYFVGVFPPGQKNPNQAVNVLKNLLVAHTAVYTKLK--SLKNGEKSKIGIVKNVMQFDPYRRWNLLDWIVCILTNNIYNGIALSYLKTGKINIRIPFFININY 309
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: UPI000689421E (glycoside hydrolase family 1 protein n=1 Tax=Flavobacterium hydatis TaxID=991 RepID=UPI000689421E) HSP 1 Score: 219 bits (559), Expect = 5.360e-61 Identity = 126/277 (45.49%), Postives = 163/277 (58.84%), Query Frame = 3
Query: 444 VGLPKGFLVGHLDREPPDRGGCGAFNNWS---AERRQIKRAAIKRGDRSAPPRP---LEPVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWAPFFSNIHYHD 1256
+ PK F G GG +NWS ++ + + I GD++ L P +D+ LMQELGVN+YRFSL WSKI P EG++D+KAI HY ID L+ I+P +TLHHF EPLWF+ K GFE+EENI +FL F V+ Y +V WTT NEI VY N + IFPPGKK+ +A +V N+ AH Y+ LK L +G SQIG+VKDIF F+ N WN LD A N FN+ L+FF TG +H PF +N++Y D
Sbjct: 41 LNFPKNFHWGTATAAHQVEGGH-TNSNWSWWENQKNKDGKPRIDNGDKAGLATDHWNLYP--KDIELMQELGVNSYRFSLSWSKINPEEGKFDEKAIQHYSDVIDNLLSRKIIPNITLHHFEEPLWFMNKGGFEKEENILYFLLFAQIVFKRYSNRVTFWTTFNEINVYTNLAFMSDIFPPGKKNSKIAGQVLKNILIAHTQAYKILKALP--NGKESQIGIVKDIFFFEPKNRWNLLDWIGALVANDNFNNSSLNFFETGKYHFGVPFEANVNYID 312
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: UPI001E5CB559 (glycoside hydrolase family 1 protein n=1 Tax=Flavobacterium sp. F-65 TaxID=2893755 RepID=UPI001E5CB559) HSP 1 Score: 219 bits (557), Expect = 1.040e-60 Identity = 127/279 (45.52%), Postives = 162/279 (58.06%), Query Frame = 3
Query: 438 AQVGLPKGFLVGHLDREPPDRGGCGAFNNWS---AERRQIKRAAIKRGDRSAPPRP---LEPVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWAPFFSNIHYHD 1256
+ + PK F G GG NNWS ++ Q + I D++ L P +D+ LM+ELGVNAYRFSL WSKI P EG++D AI HY ID LA I P +TLHHF EPLWF+ KDGFE+EENI +FL F V+ +Y +V WTT NEI VY N + IFPPGKK+ +A RV N+ AH Y+ +K+L +G SQIG+VKDIF F+ N W+ LD A N FN+ L+FF TG +H PF +N +Y D
Sbjct: 39 SNLNFPKNFHWGTATAAHQVEGGH-TNNNWSWWENQKDQNGKPRIDNHDKAGLATDHWNLYP--KDIELMEELGVNAYRFSLSWSKINPEEGKFDSDAIQHYSNVIDSLLAKKITPNITLHHFEEPLWFMNKDGFEKEENIAYFLLFVKIVFKKYSNRVTYWTTFNEINVYTNLAFMSDIFPPGKKNSKIAGRVLKNILIAHTQAYKMMKKLP--NGKESQIGIVKDIFFFEPKNRWSLLDWMGALVANDNFNNSSLNFFETGKYHFGVPFQANENYFD 312
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A7Y5KC02_9BACT (Family 1 glycosylhydrolase n=1 Tax=candidate division KSB1 bacterium TaxID=2172550 RepID=A0A7Y5KC02_9BACT) HSP 1 Score: 218 bits (556), Expect = 1.450e-60 Identity = 126/277 (45.49%), Postives = 159/277 (57.40%), Query Frame = 3
Query: 444 VGLPKGFLVGHLDREPPDRGGCGAFNNWSA-ERRQIKRAAIKRGDRSAPPRPLEPVD---EDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWAPFFSNIHYHDAQ 1262
V P FL G G C NNWS ER + ++ + + + E ED+ LMQ LGV AYRFS+EWSKIEPR G+ D A+ HYH + LA I P VT +HFT PLWF EK FE ENI F+ FC ++ E+ +VE+W TINE EV G+ G+FPPGKKDP L A V NL AHV VY+ LKQL G +QIG+VK+I QFD W+ LD +A QL FN+ IL+FFRTG F P +++ + D +
Sbjct: 42 VQFPHDFLWGVATAAHQVEGDC-INNNWSEWERARDEQGRPRIKNAQVAGKACEHWSRFREDIRLMQTLGVKAYRFSMEWSKIEPRAGEIDSTALQHYHEVCEALLAAGIQPVVTFYHFTHPLWFEEKGAFEAAENIADFVRFCELLFREFHEQVEIWCTINEAEVVAAQGYFTGMFPPGKKDPQLTALVLKNLLSAHVQVYERLKQLP--GGAQAQIGIVKNIMQFDPSRRWHLLDWAVAHQLEALFNESILNFFRTGHFDFNLPGMASVQHKDGR 315
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A3G2GFD1_9FLAO (Glycoside hydrolase family 1 protein n=5 Tax=unclassified Flavobacterium TaxID=196869 RepID=A0A3G2GFD1_9FLAO) HSP 1 Score: 217 bits (553), Expect = 4.020e-60 Identity = 125/277 (45.13%), Postives = 161/277 (58.12%), Query Frame = 3
Query: 444 VGLPKGFLVGHLDREPPDRGGCGAFNNWS---AERRQIKRAAIKRGDRSAPPRP---LEPVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWAPFFSNIHYHD 1256
+ PK F G GG +NWS ++ + + I GD++ L P +D+ LMQELGVN+YRFSL WSKI P EG+++ AI HY ID LA I+P +TLHHF EPLWF+ K GFE+EENI +FL F V+ +Y +V WTT NEI VY N + IFPPGKK+ +A RV N+ H Y+ +K LS +G SQIG+VKDIF F+ N WN LD A N FN+ L+FF TG +H PF +N +Y D
Sbjct: 41 LNFPKDFHWGTATAAHQVEGGH-TNSNWSWWENQKNEKGKPRIDNGDKAGLATDHWNLYP--KDIELMQELGVNSYRFSLSWSKINPEEGKFNSDAIQHYSDVIDSLLAKQIIPNITLHHFEEPLWFMNKGGFEKEENISYFLLFVKTVFEKYSDRVTYWTTFNEINVYTNLAFMSDIFPPGKKNSKIAGRVLKNILITHTQAYKIIKNLS--NGKESQIGIVKDIFFFEPKNRWNLLDWIGALVANDNFNNSSLNFFETGKYHFGVPFQANENYFD 312
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: UPI001906470E (glycoside hydrolase family 1 protein n=1 Tax=Flavobacterium agrisoli TaxID=2793066 RepID=UPI001906470E) HSP 1 Score: 215 bits (548), Expect = 2.370e-59 Identity = 121/277 (43.68%), Postives = 165/277 (59.57%), Query Frame = 3
Query: 438 AQVGLPKGFLVGHLDREPPDRGGCGAFNNWSAERRQIKRAA---IKRGDRSA-PPRPLEPVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWAPFFSNIHYHD 1256
+++ PK FL G GG +NWS Q K++ I +++ + +D+ LMQELGVN+YRFSL WSKI P+EG +DQ +I+HY ID LA NIVP +TLHHF EPLWF++K GFE+ EN+++F F K+ YG +V++WTT NEI VY + + IFPPGK + LA +V N+ AH VYQ +K+L G ++IG+VKDIF F+ N WN LD A + FN L FF TG + + PF +N+ Y D
Sbjct: 40 SEMHFPKTFLWGTATAAHQVEGGH-TNSNWSWWENQKKKSGQPTIANQEKAGIATNHWQLYPKDITLMQELGVNSYRFSLSWSKINPKEGHFDQASIEHYSNVIDSLLAKNIVPNITLHHFEEPLWFMQKGGFEKMENLRYFELFVKKMIQSYGNRVQLWTTFNEINVYTSLAYMSDIFPPGKDNTLLAGQVLRNILIAHTRVYQMIKKLP--EGKNAKIGIVKDIFFFEPKNRWNVLDWLGAEIADSNFNSSSLAFFETGKYQFYVPFEANLQYED 313
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A814UWV4_9BILA (Hypothetical protein n=1 Tax=Didymodactylos carnosus TaxID=1234261 RepID=A0A814UWV4_9BILA) HSP 1 Score: 214 bits (546), Expect = 5.410e-59 Identity = 102/202 (50.50%), Postives = 138/202 (68.32%), Query Frame = 3
Query: 606 VDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKD-PNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTG 1208
++ED+GLM+ELG N+YRFSL W KIE +G++++K I HYH E+D L NIVP +T HHFT PLWF + F E N+ F+ F + ++ EY K +W TINE EVYV+ G+ G+FPPG K P+ A+ V +L AHV +Y +K++S QIG+VKDIFQF+ N NPLDHYLA L+++ N CIL+FF+TG
Sbjct: 109 IEEDIGLMKELGCNSYRFSLAWDKIESYQGKYNEKVIQHYHHELDQLLNQNIVPMITFHHFTHPLWFEQNGAFLNESNVAIFVKFALDMFQEYQTKCYLWCTINEPEVYVSGGYFQGMFPPGHKSKPDEASLVMKHLLEAHVRIYDNIKKISSSSS-KHQIGIVKDIFQFEPYNPLNPLDHYLASILDNSMNSCILNFFKTG 309
BLAST of mRNA_H-akashiwo_Contig95.10.1 vs. uniprot
Match: A0A2D7N884_9BACT (Beta-glucosidase n=1 Tax=Candidatus Marinimicrobia bacterium TaxID=2026760 RepID=A0A2D7N884_9BACT) HSP 1 Score: 213 bits (543), Expect = 9.990e-59 Identity = 114/257 (44.36%), Postives = 155/257 (60.31%), Query Frame = 3
Query: 450 LPKGFLVGHLDREPPDRGGCGAFNNWSAERRQIKRAA---IKRGDRSAPP-RPLEPVDEDLGLMQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVTLHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIEVYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWPSQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTG 1208
PK F+ G G C NNWS + IK IK +S DED+ LM+ELGV+ YRFS+EWSKI+P+E D+ AI+HYH+ I+ + NNI+P +TL+HFT P+WF +K FE++ NI F DFC ++ +Y +KV W TINE V + G+ G FPPGK++P L+A V NL AHV VY LK+L+ +G SQIG+VK+I FD WN LD + W +N FN+ + +F+TG
Sbjct: 44 FPKNFIWGTATAAHQIEGNC--TNNWSEFEKGIKGNGDPNIKGSQKSGLACDSWNRYDEDIKLMKELGVSHYRFSIEWSKIQPKENIIDKSAINHYHKMINSLIKNNIIPVITLYHFTHPIWFEKKGAFEKKSNILFFRDFCELIFNQYSSKVNFWCTINEPAVMTSMGYFNGEFPPGKRNPQLSAIVLNNLLDAHVEVYHALKKLN--NGSESQIGIVKNINHFDPWRRWNILDWVVTWAVNTFFNNSTIQYFKTG 296
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 | 0 |
| Start | 1 |
| Seed ortholog | 1306947.ARQD01000001_gene825 |
| Preferred name | bglB |
| PFAMs | Glyco_hydro_1 |
| Model size | 1891 |
| Max annot lvl | 2|Bacteria |
| KEGG rclass | RC00049,RC00059,RC00171,RC00262,RC00397,RC00451,RC00714,RC00746,RC01248 |
| KEGG ko | ko:K05350 |
| KEGG Reaction | R00026,R02558,R02887,R02985,R03527,R04949,R04998,R10035,R10039,R10040 |
| KEGG Pathway | ko00460,ko00500,ko00940,ko01100,ko01110,map00460,map00500,map00940,map01100,map01110 |
| Hectar predicted targeting category | other localisation |
| Exons | 12 |
| Evalue | 1.36e-48 |
| EggNOG OGs | COG2723@1|root,COG2723@2|Bacteria,2NPRZ@2323|unclassified Bacteria |
| EC | 3.2.1.21 |
| Description | Glycosyl hydrolase family 1 |
| Cds size | 1263 |
| COG category | G |
| BRITE | ko00000,ko00001,ko01000 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1681388055.5608358-CDS-H-akashiwo_Contig95:278105..278230 | 1681388055.5608358-CDS-H-akashiwo_Contig95:278105..278230 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 278106..278230 - |
| 1681388055.5734134-CDS-H-akashiwo_Contig95:294949..295060 | 1681388055.5734134-CDS-H-akashiwo_Contig95:294949..295060 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 294950..295060 - |
| 1681388055.5839913-CDS-H-akashiwo_Contig95:298884..299008 | 1681388055.5839913-CDS-H-akashiwo_Contig95:298884..299008 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 298885..299008 - |
| 1681388055.594664-CDS-H-akashiwo_Contig95:300221..300357 | 1681388055.594664-CDS-H-akashiwo_Contig95:300221..300357 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 300222..300357 - |
| 1681388055.607319-CDS-H-akashiwo_Contig95:300951..301085 | 1681388055.607319-CDS-H-akashiwo_Contig95:300951..301085 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 300952..301085 - |
| 1681388055.6181097-CDS-H-akashiwo_Contig95:301966..302139 | 1681388055.6181097-CDS-H-akashiwo_Contig95:301966..302139 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 301967..302139 - |
| 1681388055.629084-CDS-H-akashiwo_Contig95:302965..303182 | 1681388055.629084-CDS-H-akashiwo_Contig95:302965..303182 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 302966..303182 - |
| 1681388055.64-CDS-H-akashiwo_Contig95:303688..303850 | 1681388055.64-CDS-H-akashiwo_Contig95:303688..303850 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 303689..303850 - |
| 1681388055.6513212-CDS-H-akashiwo_Contig95:306750..306831 | 1681388055.6513212-CDS-H-akashiwo_Contig95:306750..306831 | Heterosigma akashiwo CCMP452 | CDS | H-akashiwo_Contig95 306751..306831 - |
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1681388055.66181-UTR-H-akashiwo_Contig95:306831..306853 | 1681388055.66181-UTR-H-akashiwo_Contig95:306831..306853 | Heterosigma akashiwo CCMP452 | UTR | H-akashiwo_Contig95 306832..306853 - |
| 1681388055.6729412-UTR-H-akashiwo_Contig95:307543..307675 | 1681388055.6729412-UTR-H-akashiwo_Contig95:307543..307675 | Heterosigma akashiwo CCMP452 | UTR | H-akashiwo_Contig95 307544..307675 - |
| 1681388055.68432-UTR-H-akashiwo_Contig95:308018..308098 | 1681388055.68432-UTR-H-akashiwo_Contig95:308018..308098 | Heterosigma akashiwo CCMP452 | UTR | H-akashiwo_Contig95 308019..308098 - |
| 1681388055.6932158-UTR-H-akashiwo_Contig95:308318..308710 | 1681388055.6932158-UTR-H-akashiwo_Contig95:308318..308710 | Heterosigma akashiwo CCMP452 | UTR | H-akashiwo_Contig95 308319..308710 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_H-akashiwo_Contig95.10.1 >prot_H-akashiwo_Contig95.10.1 ID=prot_H-akashiwo_Contig95.10.1|Name=mRNA_H-akashiwo_Contig95.10.1|organism=Heterosigma akashiwo CCMP452|type=polypeptide|length=421bp
MQELGVNAYRFSLEWSKIEPREGQWDQKAIDHYHREIDLYLANNIVPFVT
LHHFTEPLWFVEKDGFEREENIQHFLDFCVKVYTEYGAKVEMWTTINEIE
VYVNNGWNLGIFPPGKKDPNLAARVTLNLCRAHVAVYQELKQLSVEHGWP
SQIGLVKDIFQFDVLNWWNPLDHYLAWQLNHTFNDCILDFFRTGFFHHWA
PFFSNIHYHDAQRDLVQRLHRAELLQPLLRERVAHVLPGRARRGEAGRHA
ARDLHRHAARHVPRGLLPGAQRAADPEPAHHCDRERHRRQGRLLPPDVHR
AVHVRHVEGHPQRLRRARVLLLEPAGQLRVEPGVRAQVRPLRGGLQDPRA
AAAGRGQDLPQDCAEAPRGRLPSGPGGHRVRRLRRSMASALLRRERARAG
GAPAWHAPPPHALRRGGGGTR back to topmRNA from alignment at H-akashiwo_Contig95:278106..308710- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_H-akashiwo_Contig95.10.1 ID=mRNA_H-akashiwo_Contig95.10.1|Name=mRNA_H-akashiwo_Contig95.10.1|organism=Heterosigma akashiwo CCMP452|type=mRNA|length=30605bp|location=Sequence derived from alignment at H-akashiwo_Contig95:278106..308710- (Heterosigma akashiwo CCMP452)
ATGAACAGAAGCTCGCCTAAGGTGTCTCAAAACGCAAAAAAAGAGCCCCT
GATTGATGAGGATTCGATGCGTTACAGTAATATGAGAGACGAAGAAGTGC
CAGATGTGAATAATGGGGATGCAGCTGTCCCGCCAGTCGGTCCCGGCCGT
GTAAGATCAAGGAAATATGTCAAAAAGACGCATGCATGTTTCCATATTTT
CTGGTACTGGACCAAGCATATTCTGTTCTCACTGGGGTTCCTTGCGTGGG
CAGGAGCCTCGTTGGGTGTGCTTGGTACTCTGTACATTATAGATGTTCTT
TTCAATAGTTTTGCCTGGATCAGCAATTATGTTCTTCTGACATACTTGAG
GCCCATCTCCAATCCGGAGAGGTACAGAAAATGGTATCAAAGGTAAGCAG
CTTCCATAACTCGCCCTGTGCAAGGCATTTCCCACCCCCGTGCACCTCAC
AGTGATACACGAAGAAGGGGGAAAAGTAAAACCATCAAATGTGTATTCTT
ATAAAGGGGGAGGGGGGACGTTGGAGTTAACAGTGGGTGATTTCCATTCT
GCCTCATCAGAAGGATTTGATTCTCCATGTTTGATTGGAAAATGTTCCCA
ACGAAAACTCAGGGTTCGGAAGTCTGCCATTTACTGGGACTGGTCCAAGA
TTGACACGCGCAAGTTGGCCTTCCCAAGGGATTTCTTGTGGGGTGAGAAC
CTACCACTCTCCACTTCACTGATTCTTTAGTCAAAATGCATACATCATCC
AGAGAGCAAGAAACTGAAGACACACACCCGCGTCAGGATACCCTGGAGAT
ACCGTGTGCTCAGCAGCATTTATTTCCCTTTCACACATTGTGTTTGAGCG
ATAGTTTTGAGTTTGCTCAAGGTGGGCAGAGTACAAGCAAGCGCTTACAA
CCTTGAAGACATGTGTACCTCTTCTTGCCGTTCCTAACGCCCGGCCGTCC
CACCACCGTCCCCCGCCCGGGCCCCAGACCTTGCCCGCCCGCCCCAGCGC
CTGCTCTCCGCCCCTCTGCCTCCTCCCCGCCCCAGGCACCTCGACCGCGA
GCCACCAGATCGAGGCGGCTGCGGCGCTTTCAACAACTGGTCCGCCGAGC
GGCGGCAGATCAAGCGAGCCGCCATCAAACGAGGGGACCGGTCGGCGCCG
CCTCGACCACTGGAACCGTGATAAGAGGCGGGCGGGCGGAGGGCGGAGCG
CTCCGGTCTGGGGTGGCGCCGCTGCGTGCTGTTGGACGGCGAACCGTGCG
CCCGGGGTTTTGTTGCACGCACACCCAGTCGGATGAATGAAGCGCTGCGT
GCCCAGAGTTGTGTCGCACGCACACCCCCATGGCTGGTCGGCGGTGTAAA
ACGATAGTTGTGTATGCATATAGGCTAGGTGTGGAAACCTCGTCGGAGTG
CTTTCGTTGGCGCCTTTGGTCTTGGAGCGACCTCGGCTGCCTCTGTATAC
AGTCCCAGTGGTCCAGGGACCCGTGCCCCCGGCCCTGCTTCCAGCACTCC
GGACTTTTGACATATGAGACGCAGCCTCCCCGGGTGCAGGACCTCCAGGC
CTACACCTTGCACCCAGGGCCAGAAGGAGCACGCACCCACTGTCACCTCA
GGAAAACGACCGCGCCCTCATCCATCTAACAGCGCAGGTCGTCCGCTGCC
ACCTCTCTCCTGCGTCGGGCGCGCCTTCGTTGTGGGTCCGCAAGCCAGCG
AAGGGTAGTTCCCCCCCCCGGGCCACCTGGGTATAGGCGAGCTCGTCGCT
GCTGAGCTCCACAGGGGGGGGGCTTGCCCAGCCCGGCAGCTGCAGGGTTG
CATCCGAAGCGCCTTTCCCTATAAGCGTGGCGTGTGGGGTTGTGTGGGGG
GGGGCAGAGTGGACGAGGACCTGGGCCTGATGCAGGAGCTGGGGGTGAAC
GCCTACCGGTTCTCGCTCGAGTGGTCGAAGATCGAGCCCCGCGAGGGCCA
GTGGGACCAGGCGCGTGCACCCCCCCACCCCACCCACCCACCCCTGCCCC
CTGCCCCCCGCCCCTGCACCGCGCGCCCGAGCGATGAGGCGCCCGTGTGG
GGTGGGTGGGTGGGTGTTGTGTGTGTGTGTGTCGTTCTTCCTTCCACAGC
AGGTTTTCTTATGAAAATTAGAAAAGGTTTGTTATGTGCGTGTGTGTCAT
TCTTCCTTCCACAGCAGTTTTTTTTTTTTTAATTAGAAAAGATTGTGTGT
GTGTGTGTGTGTCGTTCTTCCTTCCACAAGCAGCAGTTTTTTTATAATTA
GAAAAGGTTGGTTTTGTGTGTCAGTGTCGTTCTTCCTTCCACGGCAGGTT
TTCTTAAAAATTAGAAAAGGTTTGTTATGTGCGTGTGTGTCATTCTTCCT
TCCACAGACAGCAGTTTTTTTTTTTTTAGATTAGGTTGTTGTGTATTTGT
GCGTCGTTATTCCTTCCACAGCAGCAGGTTTTTCTGAATTAGAAAAGGTT
GGTTTTGTGTGTCAGTGCCATCCTTCCTTACACAGGGGGTCATACATTAA
TGACATCATCGAAGGGGGGGGAGGGGGGGGTATGTGACTTGATGACTTCG
GGGAAAAAGAGGGAGAGGTGTAAAGGGGTTTCGAGGGGAAGAGGGGGAGG
TTATGATGACTTGGGGGGGGGAGGGGGGCCAGAATCAGGAAATTTTTGAT
GATGTCATTAATGTATAGGTTTTTCATAATAATAATTAATTACATTAGAA
AAGGTTTTGGGTATGGTATGGTGTGAGTCATTCTTCCTTCCACAGCAGGT
TTTTCTTGTATAATTATTAGAAAAAGTTTTGGGTGTGTGTGTCATTCTTC
CTTCCACAGCAGTTTTTTCTTAATTAGAATAAGGTTTTGTGTGTCATTGC
CGTTCTTCCTTCTTAATTAGAAAAGGTTTTGTGTGTATGTGTGTCATTCC
TCCTTCCACAGCAGGCTTTTCTTGATTTTAAAAGATTGTGTGGGTGTGTG
GCTGTGGCGTGGGCCTGCGGGCAAGCCTCAGACCAATGATGCGGGGCTCC
CTCTGCGCGTAGGACTCCATGCCGAACATCGGGCCCCTTCTCGGAAAGGT
GTTTGGTTTGCTCAACCTAATACCTGGCTGTTGTAATTCGCATCGGGCAT
TTACCCATCACTTCGCACGCTGTCTGTGGCAAGCTTTGAGTCCAAATGGA
ATGGCCCATCCATGAATGACGATGATGATATTAAATTTAGTTTAAGGTCT
AAGCCTTTCAAATTGCTTTTGGGGCTGAGCCCCTAACTTCTATACGCAGA
GCCTTCCACCTCACTCTACCACTTCCCGCCGTAACCCTTCTCTTCTATCA
TGTACACAAGAAAAAAATATTCTCCGAGCCTTCCAACAACTACCAATATA
CCTAGGACCTTCAGAAAACCCTCCCTCAGACTATAAATTCCAACTTGCCA
GCAGTGCGCAACTTCCGCCGCCAAACGCTTGCGGTCCACTCTCTTGCCCG
CCAACGCATCTGCCCACTGCTTGGCCACCCACCCACCGCTCCTTCTCCTC
TCTGAGCAGCTTCTCCCTCTCCTGCCGACCCCAGTATTCCTGCTCTACCT
CAGCGCTCTCAAAGCCCCCATGCACCTAGCTGTGGACGTGTGTATACATG
CTACATGTATATATATACACAGTTTTATGTCGCCAAGGCGCAGTTCCTGC
GCCAGTATAGGCTTTGATTTCACCCCTCCAACTAGATGGGAGGATAAGGA
AAACTACAGACGTAGACAGAAGGAGACGGTCCGTTTGCTTTTTGGTAAAG
CTAACTAGTCCCAAAAAACAGGTTTTATTTCCCGCAGGCTTAGTATGAAT
TGTCCCGGGCCTCGTATTCCTACAAATATAAAAAACTGCCTTGGATATTT
TATGTCCTGTCCGAATAAACGGAAGGGACACGATGAAAATAGCCCTGGGT
TACCCGAAACAACACGAAGAATCCTCCAAAAATGGTCGCTGTCCAATCAA
ATGAACACACCAATCAGAATCAAAAAATTTCTTCTTCTTCAGCGCTTTGC
CAATCAACATCATCGCAATCCCAAAAAAACAGAATTCATTTTGCTTCGCC
AATCGCTGTCCAATCAAATGAACACACCAATCAGAATCAAAAATGTTCTT
CTTCTTCAGCGCTTTGCCAATCAACATCATCGCAATCCCAAAAAAACAGA
ATTCATTTTACTTATCGCCAATCAACATCATCGCTCAAATCTTCTATTGG
CAAAGCAGATTTTGTCACGATAGCCTTGTTGGCTAACGTCTTTGAATCCG
AGCGCTTCGATTCTAGCATGTGGTGGTGAAGAAAAAGTTGGTCTCTGTCT
GGGGTTGTGAGAGAAATCGTGTCGCCAAGGCGCAGTTCCTGCGCCAGTAG
GCTTTGATTTCACCCCTCGAAAACCCCGGAGGTTGTTGTAACCTGTAGTA
GTGCTGGATGGGCTGGCAGTAGTGCAGCAAACCACCCTGTGATTTATAGG
CGTAGACGGCTTGACGAGGTCCATTGCCTCAAAGCCTTTTGATATCTTGT
AAAAAAAAAAAAAAAAAAAAAAAGGAGGAGTAGGAGGAAACCCTGAAGAG
GCTCGCCCTGCTTTTTGATAAAGCTAACTAGTCCCAATAATTAGGATTGA
GAAGAAAAAAAAAGACTGCGCCTTGGTTTGGGAGCTCAGCTCAGGGTTGT
TTTTTTTTACGCTCCGCTACAGCAGTATAGCGCTGCTCCGCTGCTCCGAT
GCCCCCGAGTGAAGTTTCCAGTCATTCATTGCCTGACCTTCTGAACTATA
CACGCTGCACGTTCTTCCCTGTTGACCCCCCATTCATTTTGTTGACCTAG
ACGCATGCGCTCGCTCTTCCCGCCGCACCCGGCACCCCCCCCCCCCCAAT
CCCGCACCAGAAAGCCATCGACCACTACCACCGCGAGATCGACCTGTACT
TGGCCAACAACATCGTGCCCTTTGTGACGCTGCACCACTTCACGGAGCCG
CTGTGGTTCGTGGAGAAAGACGGCTTCGAGCGGGAGGAGAACATCCAGCA
CTTCCTCGACTTCTGCGTGAAGGTGAGCAGGGGAGGGGGCGCCGCCGCCG
CCGCCACCGCCGCCGCCGCCCCGCTGTCGGCCGCACTGCTTGTTACTTTT
ATAAATGCAGTCTGTCCTGAAAAAGAGTCCAGAAAGTGAGCTCAATTACT
TCATTAGTCAAACCGAACGTCAAACTGCCGGCCATATCTTATACTGATAC
CCCCGACTCAAGTTGTCCAATGCTCACCCGTTGTGCATGTCTTATTTTGG
GGGAAAACTAACTGCTAGTATGTAATAATATACATACAGTATAGTAGCTG
GATGGATACATAATCATGAAAATTGTGCATGCTTTGCTCATCGGCTTTTG
GTTTCTCTGTGACAATGCTATAGTATTCATATTCAGTACTTGTAACAAAC
ATTTTGTTCGTTGGATTATATTCATGCTCAAGCTCAATGGGCAGTGTTCA
TATGTGTATGATACTTTTTCAATCTACATGTATGGAAAAAGAAAAGCCCG
CGCGCCTCCCCTTCGGCCGGCGCCGCAGGTGTACACGGAGTACGGGGCCA
AGGTGGAGATGTGGACCACGATCAACGAGATCGAGGTGTACGTCAACAAC
GGCTGGAACCTGGGCATCTTCCCCCCGGGGAAGAAGGACCCCAACCTGGC
CGCGCGCGTCACCCTGAACCTGTGCAGGGCGCACGTGGCCGTTTACCAGG
AGCTCAAGCAGCTCTCGGTGGAGCACGGCTGGCCCAGCCAGATCGGTGGG
TGAGGCCGGCGCGGGGCGCAGCTTTTGCCCAAGACCCGGGCCGAACCAAC
ACGCTTTGCCGCGCGTCTGTCGTTGAGAACACACGCTTGGAAAAGAAAAA
GTTCACAAAGGTGCACTTCTTCAGGAAGAGAGCGTGTGGGGAAAGTTCAC
AAAGACGCACTTCTTCAGGAAGAAAGCGTGTGGGAAAAGTTCACAAAGAC
GCACTTCTTCAGGAAGAGAGCGTGTGGGGAAAGTTTGCAAAGACGCACTT
CGGCAACGATGTGGGACTGCCGGCGTCCCTGACGATGAAGCCGGGCGCGC
TCGCTGTTTTGGCGCACTGCCTCGCTGCTTTGTTGTTTTCTGGAGGATAG
CGTTGCTGTACACACCGCTGCTGTGGTGCAGTCGTATATATATATAGGCT
GGTTTGACCGCCTTCTCAACCGTTTCACCATAATGACCCTCTGACGAAGG
CACGGTAAATGGCTCATGCCGCAACTCAGGATCTTCTCGTCAGGCTTGAT
GATGAATAATGATGATGATTTTTTTTTTGTCGTATTATTTTATTGAAAGT
CCAGCCCGCTTGGTAAAAACCTGAAGACCGAAGCCCCGGGCACCATATGC
TGACCTTCCCACTGTCTATAGATACTACTGCTCTCCCAGTATGCATCCTC
TTTGCTTTGGACTGCTGACCATAGTGACTTTACTACTACTTGTTCCGTTC
ACATGTACACCATCATCGAACGTCGCCCACTTTCATGCCCCAATGCCGTG
TGCCACAACCCCGGCGGCGCTTTCCGCCCTTCCCCTTGTCTTTGCTCCAA
CCCGCCGCTGTTGTCGGGCAGGGCTGGTGAAGGACATCTTCCAGTTCGAC
GTGCTGAACTGGTGGAACCCGCTGGACCACTACCTGGCCTGGCAGCTGAA
CCACACCTTCAACGACTGCATCCTGGACTTCTTCCGCACGGGGTTCTTCC
ACCACTGGGCGCCCTTCTTCAGCAACATCCACTACCACGACGCTGCGAGC
GGGCAGGGGCCGACACCCGCCCAGCCCGCTCCCGCCGAACCCCTTGCCCC
CAACCGCCTTGCCCTCCAACCCCTTGCCCCCAACCTTCCCCTCAACCAAT
GCCGCCCTCTGTGACTTGCTGCTGCTGCGGACGCGGGCGGCGGGCGGCGC
CCAGCAGCCTATGTTCATACGGCAGTCTATCTAGTCAGACGTCAAAATCG
TCCAAGTAAGCTTTATTAGATAATAATGTTCGTTTCCCCTCCAGGGAGTG
AGATTGTATAGTTTGGGGGGGCGAAACCACCTGCTCGGGCACCTCTTTCA
AGGGCCAAAGCCGGGATGTCAAGAGCGAAAGTATTGGACCTGTAGGGAAA
GAAGACTGACTTTGTTGATAACCTCCCTGATGGCGTTACTCAAGGTGTGA
AAGTGTCGCTGCTGACCTTGGTGCTAAGTTGGATTATTTCTACGTGAATT
CCACACCTGCTGAGAAGAAAGAACATGCTCTACCGGACGGAGATTAAGAC
TGGTGCAACAACAGAAGAGTAAAATCAATCAAGAAGAATGAAGGGAATGA
ACTGAGGTTGATACATATGTAGGTTCGTATACTACTTTGGTCGTTCAGTG
GCTTACTATGTATAGGTGATCAGTATGGAAGCAGTTGTTTGTACTCTATG
TATGACCACAAATCACAAGAACAGCTACTCAGTTCAGGGTCCTCACAAAA
TGGGATGCTTTGCCCACAAATAATGCTGTCTTTTGCTACCTGTATGTAGA
AAAAAAAAAGAGAGAGAACTATGCACCCTCTTTGAGGGCACAACAAGCAA
CCGGTTGGGCACATTCAGTCCGTCCCCTGCCTTCACGCCCCAACGCCCGC
CCCCTCGCGGCCGGGCGGACTGCAGCAACGCGACCTCGTGCAACGACTTC
ATCGGGCTGAACTACTACAGCCACTACTGCGTGAGCGTGTGGCGCACGTT
CTTCCAGGGCGTGCCCGACGAGGAGAAGCTGGCCGCCATGCCGCGCGAGA
TCTACACCGGTGGGCCAGCTGATCACGCCCAGCTTCTCGCGCAGTCCAGG
GGGGGGGGGGGTGATAAGCTTTGTGGCGCTGATTACGCCTAGCATGTTCT
TGGCTTGCTCGTCGCTGCCGCAAAGTGATCACACAACAGAAAGAGTGCAG
TACACTGTGTGTACTGGCACTGTTTTTGTCATCATCAAGTTTGTATAACA
GCTGAGTTATAAAAAGCTTTCTCATCTGTTATATATTATACTCACTAGAT
GCAAAACAAAACTAGGATTTGATCCATAGAAATCAAAAACTGGTGGGGTA
GAAATCACAAACTGGGGGGTGAGGAGTTATAGTTGCCGTCAGGTGCAACA
GGGACACTCGTGTGAGCCATGATGTAGAGATGAGCAAGGGCGGCCTGAGT
TTGTCTTGTGACATGTGCATGCATGAAGATTTTGACGTTGGTGGTAGTGG
TGGCAGCTTTCAGACGTTGAAGGTCCAGGCATTTGAATTGCACCAATAAA
GCCGAAACGCGGACGCCACGGCCATCGTCATGACAGCAAGCCCCTCCCCC
AACCAGCTCCTCCCGATCCGGCGACGTCCCCTGGTTGTTTTCTTTCCCCG
CAGACATGCCGCACGTCATGTACCCCGAGGGCTTCTACCGGGCGCTCAGA
GAGCTGCAGACCCTGAACCTGCCCATCATTGTGACCGAGAACGGCATCGC
CGACAAGGACGACTCCTGCCGCCAGATGTACATCGCGCGGTGAGCGGGGC
GGCGGGGGCCGAACGGGGCTGCTGGGAAGAGCTGGGGGGGGGGGGCGGGA
GGCGGCTTCTGGTTCAAACAAACGCCACAAGTTGATATTTTGTGTAGGAT
AGTCTCTGTCTTCCACCACGAAAGTCTAGTGCTGGATCTTGCTCGTCGTA
CGTTTCTGCTGGTATTGTGGTCAAGAAAGAGCGCAAAGGCTGCGGACGGA
CACAGCAACTCAAGCATTGAGACCGGCCCGAACTTCCCCTTGCCCGCCCG
CTGCCCTTCGTTCCCCACCTCCGTCCGCGCTTTCCATTGCCCGCGCGCCT
TCTCCACCAGGCAAGGAAGAAGGGCGCAAGGGCCGCCGTAAGACGCACCA
GGCGCGGGCACCGAGACCGACCCGCCCTCCTTCTTTTCCGCCCACCGCTG
TCCTCCCACCGCCGCCCCACGTCTGCCTCCCACCGCTGCCTCTTATTATA
TTTGCATGTCCTTGGATGATGAATGGTGGTAGGTTCTTCCACAGTTGAAG
GACCACTTTCTGTGGTAAGCTACATCTTTCTTTTTGGGGTGCTTGAAGTG
GCAGTTGAAGAAAAGCTGTGGCTATCCAGATTGAATGCAGTGGATGTTGC
AGTAATGCATCGTGGCAGACTGGTGGTTCTTCTCTTGTACGGTGGTTTGG
TTATTTGTCAACAGCACCCTGCTATATGTCTCGCGGCCATGATACTATTC
CATTCTCCTGTATTCAATTGGTTGAAGTCGGTGTCAGGCTAAAGGGTACA
AGGATTTGGCCAAATCCCCCGGAAAAAAAAAACGTGTTTCTGACTCGGAA
CATCCGGGAAAATAGCTCAAAATGTAGCCTGCTGCATTTTCAGCTATTTT
CCCGGATGTTCCAAGGCAAACTTGTTGCGATATATATCTTAGATGAGGAG
GCAGTTTAGGATTTTTGCTTGAAGGTCATATATGTTTTAAATCTTTTACG
GATATCACAGCGCAAATTGCGCAATGGGTAGAGCGCACGACTTGTGCGAT
TTGGGTCTGGTCCGGATTCGAACCCCGGCGCGTGCCCGCGACAACGATTT
GGCCGAATTTCCCAAAGAAGAGGGATGTCCCCTTAAGCCTGACACCAACT
TTGACCAAAAAGTTTATGGAAGAAGAATAAAAGTTAAGCTTTTCTTCTCT
TGTGGTACTAGGGAAGAAGAAGAAACGTCCACGCCCCCGCCCCCGCCCGC
AGGTACATGTACGCCATGTCGAAGGCCATCCACAACGGCTGCGACGTGCG
CGGGTACTTCTACTGGAGCCTGCTGGACAACTTCGAGTGGAGCCTGGGGT
ACGGGCCCAAGTTCGGCCTCTACGAGGTACGGGGGCGCGCGGCGGAGGCG
GTGCCCGTCCCCCCCTGCACCGACAAATACGATGATACAAATGCCAACAA
CATATGTGCGCGTGTGCGTGGGGGGGGGGGGGTTATTTCTTGGTGCTGGG
CCCCCGTCCTTTTCTCTTAGTCGGCAATTGTATATCATCATGTGTTGTTG
CGGGGGGCAGAGTGGGTGGCCTGATCGAGCCGTCTGATTTTTGTTTGTGT
TATCTTTCATTGGGTGGTCGTGTTTGGGAATGGGAATAGCTTGCCAGCCA
GCTTTTGAGGCTGCTGCTGCTATATAAACAGCACACAAACAGACACATGT
ATTTCCTGCATCATCAGCAGATGCCGAAACATATGCGGAGGAGCACGAGA
GAGAAATGATATATAGACAAGAAGAAGAAATAGACAAATATCATCAGGAG
AACCACAAGAAGAATTGAACAACAAACAGTCGTTGAACTAGAAAAGAATT
CTTCTCGTTGTTGCATCAACTTTCAATCTTGATAGAGACCAAGAAACAGA
TGAAGAGAAGAACCACAGAAAGACTACATGTTGAGCTTGAAGTAGTCTCA
TGAATATATATTCAAGAGACACGTCCTCAAGAATCATCATCACATTGCAG
TTGAACCAGAAGGTAGCAGTAGCACATCAGTAAACTTGTCTTGACCGTGA
TGAGGGTCGGTAACTGATAAGAGGATATTGAACTTGAATACATATTAAGC
TGTGAGTCTCGGGTATGAATTTGTGAACATCGAAGTCATATTGAGATATA
TGTCATCGAAGTCATATTGAGCATATTATCCCACCAGAACCAGAGAATGT
TACCATCATCATAAGAGTACTGCACGCAAAAACACATATCAGGGTAGAAG
CCAAATCAGCAAGTGTTGTTGTTTTTTTTTTTTTTTTTTTTGTCATCCAT
CACTTGTAAAAGTTGGTGCCTAAGTCAATGAAAACTATGTCAGAGTAGAG
TAATCATCAGCAGAAGTATAGTGCCTTTCAGAAGAAGAGTCTGTCATCGC
CCTTCACAGTAGAAGTCAGAACAGTAGAAAAACTATACTTCAGGAGCTGG
AATCACTTGTAGTTCAGAGTCACCAATATCAACAGAGCGTTTGTCAGGGG
GAATCAGTGCTTCTCACATGCAACTGAAAGAGGGCGATGAGGCCAAAGGG
CAATAAAGCATGTAGGGTTAAGGGCAGCTGGAACTTCCCAAGTTAGTCAG
TAGCCATACTTGATCCGAAGAAGTGCTCAGATGTCGAAGAAGTGCTCAGA
TGTCAAGGCGATGGTTGTGTGGCTCAGGATGTGAAGGGGCGCATTGTAAG
TATCCACAAATGGACAGCAAAAATCAGTAGTAGGTGTTGCCATCGCCTGT
CATGCAGAAATTCAGAAGAAAGGTTGGGTATGTTGAAATCATCTGAACTA
CCATATACCAGTGCTATCAGAGAAGGGTAATGCCATGACCGTGGGTTTTA
AGATGGCCTCGTCAAGCAAAGGCTCCCTGCATGAGCAAGGAGTGAATTTG
AACTAGCAAATAAAGCAATATGCCCCTTGGGCCAAACCAGTCAGCGTCAT
CAAAGGAGTAAACATCCGTCTCCCGAAATCACAGAAGAGCTTGTCATCAT
AGAATCTCAAAGTAGAAAACCAGTAATCAGTGTGTACCAAAAAGACATAT
GTAGACCAGTAATCAGTGTGTACCCTGGGGAGTAGGGTCGTTGTGAAACA
AAGCTTCGATGTCCACTAGCAGTTTCCAAGCTGTACTTGAATCGAAACTC
CTCTGTATTATACACAAACCTGGAAACAGTGTCGCTGGGTCAGCAGACAG
TCAATTTCAAGCAGAGGAATCTTGAGGGCGTATAACCAAGCTAACAAGGT
GCAGTTTTCACCACTTCTTGCTTTGTATGCAGAGCAGACAATTTGAAAAA
CAAATACAATTTCTATGCTACACCCTGAGCGGAGTTCATCAGAGTAAGAA
GAAGACAGATCAGAATACACTATAGGTATACCACTAGAGAACCAGCAGAG
CACCAGCAGCATAAGGCAGTCTTGAATGACTCCAGAATAAAAACTAATAA
AGGCAAATGGCAGAATTCCAGTTGCACTTTCCAGATTCTTATGGCTATAT
TTCCTAACACAAATTGTCCATTGTTTTTAAATGAACCAAACAGTCCTGAA
TAAAACCAGCATTACAGCCAATCAAGATCCAGTAGGCCAAAGAGCGTAGG
TATGCCAAATTCAAATATTAAACGGATTATTGCGCCAAACGGGTTTTTCC
CACTATACCTATGTTTCCTTTTTGAGTTTTCCCACTATACCCAGAGTCAT
CATCAACACCTCCATCAGGTCTCCACCAGAGTTGACAATCAACTCAAAAG
AATGAAAAATCCACCGTATTTATCGGGACAAGAATTCTCAACCCGAAACA
CGAAGCAGCACGAAACGAGAACGATCGCCAGGCACTATCACTCGAATGTA
TGTTATATATATATATATACATATTTTTTTTTTTTTTTTTGTATACGTTC
TACTTGCAATGCGTTCCTTCACATCCTGAACCACACAACCACCGCCTATT
TGCAGGCTGCCTTGACATCTGATGCATTTCTTCGAGCCAAGTGTGATTAC
TGACCAACCGGGTTCCAGCTATCCTTAACCCTACATGCTCTATTGTCCTT
GGCCTCATCTCCCTCTTTCAGTTGTCTCTACCGTGGGCGCTTCCTCTGAC
AACTCACATCCATCGACGAGTGCATCTTCTCCTTCCCGCTAGTCAAGGGG
GTTTCATCTAGACAGACGCAGTCCCCCTCTCGTTTCGGAGCACGAGTGTG
CTCCTTCCTAGCCCATTTTTCAAGCTTATGTAATGTAACTTCCACAAACC
GCCCTCATGAACAGTAGGTAGTGCTCATGTTTCAACAACCGCCACTTGCG
TGGATCATCGATCGTCTACAGCTAACGCGAGGACATATGTATAAAGTAGT
AAGTATCTAGAAGTAATATCAAGAGAGTCTGAATTCCTGAAATCAATCGT
AGACAATTAAATATGTACATTAGCATTCAAATATATAATCCACCCTTCAC
CACACGGTGGCTCACTTTGCTGCCACTGTACACATGATAGCCAAGATTGA
GTATGGCAGCCTGGCCTAGTGGGGAGCTGCAGAAAGTCATTTGAAGAAGC
TTGATAGAATTCAAGAGAGTGATGTGGCCCTACTCCGCAACCCTGACCCT
CTCTACTACCCCCTTCACTGGAAAGTAGAAGAGAACAAGCCGCCATTGGG
TTCACCTGCAAGCTGCTGGACGGACGAGGGCGTGGTATGGCTCGCACCTT
GATACCAGAGTTTGATGACCCCTCCGCCCCCAAACCTCGGAGATCAGCTC
GGCTGGCTGCAGCACGCCCACAGCACCTTCATCAACTGAGACCAGTTCGT
CTTCCGTCCAACTCCCTGGCAACTTTCAAAAGATGCTACAGAGCTAGAAT
TCCGGGCATATGAAATGATCTAAGGCACCCCGCTCTCCAACAGCAGCATG
TATACAAGAATACTTTCCTCTTAGAAGACAACTGTACACAAAGCAATTTT
TGTCACTTAAATGCTAAAACGTAGGAAAAAAAAAAGAAAAAAAATCTGGT
AACCTCATCAGAGCAGTTCCTTGGTGTTGGAGTGATAGGCTTCACTGCCC
CTGCAGACTCGGATTGTTTGTGGATGTCACAGTAGGGATTCACGGCGCTG
TTTTGTTGTATATACTCGCAGCACTCCAGCAGACTTTTCTTCCGCGAGGC
CCTCTTTGCTCCGGCCTCCCCCCCTCCGTCTTTCTCCGCCCCCCTACCAG
GTGGACTTCAAGACCCAAGAGCGGCGGCTGCGGGACGGGGCCAAGATCTT
CCGCAAGATTGTGCAGAAGCACCGCGCGGGCGACTACCTTCTGGACCCGG
AGGACATCGAGGTATATGGTGTACATACAGTCAGTGTTTTTTACGACAAT
GAAGACGATTGCTTGATCGCTAAATAAGTCGCTGGTGCTTTTTGACAACA
ATGATAAAAACGATTGGTCGATGGCTAAATGAGCGGTACTTCTGTTGCCG
GGTAGGCATGCACGCTGCTAGATTCACTGTTTCGTTGTCACCGTGGCGCA
GCTGAGCTGCGCCGTAAGGTCTTGTCATCACCCGTCCATCTAGCCGGAGA
GTTAAAAAAAAAAAAACCGGAGGTAGCGAGAAGATCAAGCTCCGTTTGCT
TTTTGATAAAGCTTACTAGTCCCAGGGAAGCATTCATACCCCCACCAGAC
CCCCTTTCCCATGGCGGGACCCCGCCGGGGCCCCGCGGGGAAGGTGGGTT
TTCGAACTATGCCCCTACACCCGGAAGAAGTTGGGCCATATTGCACTCCA
TTTAGCACCAATGCATCCATTTAGTGCTTTACTTGGCCAGGCAAGCCCCC
CTGAGTCGCCCCAGGGAGGCATTCATACCCCCAACAGGCCCCCCCTCCGT
GCGGACATACCGTGCGGGCCTTGATGTCCGCCAAGGCGGATCCCAGATAT
ACCGTGCGGACTACCGGTATCCGGGGCAGCGTTGAAGTAGACTATATTTT
TACACCAATAAAATTGCCATAAATGGACCAATTATTCGTATAAAATCCCA
TAATTTTATATATTACGCGACACATTACTGAACAGTCTATCAGTATTTTG
ATTGTATCGTTTACAAAATGAATATTATGATGAAATGTCATGCGCTAGTT
CATTGTTGAAAAACAAAACTTTATGAAAGAAAAGTCGATGCTTAATTTTT
TTGGCGCGATCTATTCCACGTCGTAACCTTTAAGAGACTGTGTTAATGCT
CCTTTGTTTTATTCACTGATTCGTCCGCATGATTTCACTATCTATTCCCG
ATTTCAAATTTCTTATTTTCTTTGCATCGTCATCGTCATCGACATCACAT
GAAAAAAACCACCGTGTCAAATATTTACAATTCCAACGTTTAATATGCAT
TTTGAACATAAAAGATTTCCCTCAAAATTCGTACGAAATAGAAGTGAGCA
CAGTAAACGATTATATGTAACCGTTCCAGGGAGAATAGGCATATAACTGT
GTTTTGGGTGATGATGGACTACACAGACATCTAGGGTTGCCATCCACTGA
CATGTTTGACCTTTCAAGAAATTCCAGACGTCAAATTTACAGAGGCGGTC
ATTTTTTAAGCAGTCTATTTCAAAACTGTTTAAATCTCATTTTCATACGA
TCATCTCTCACTGATTTCTGGGGAGACTTTTTGTCCCGGATGTAGGACTG
AGACAATCTCTATGGGTGTGAGACATGGACTTTTAAGTAAATTCTTGCAT
TTGGGACTAGTTGTCTTTACTACTATTTTAAAACTATTTAAATCTCATTT
TCATAAGATCATCTCCCACTGATTTCCGGGGAGACTTTTTGTCCCGGATG
TAGGACTGAGACAATCTCCACGGGTGTTAGACATCGATTTTTAAGTAAAC
CCTTGCATTTGGGACCAGTTGACTTTTCAAGTCAATTCTTGCATTTGGGA
CTCGGTCTGAGACTTAAATGTTTAGAAAAAGTACTGCAATATTTTTATCG
TGGTCCAAAAATACGGAAGAAGCGACGATCACCACCGTTACCGTCACCCG
TCATAGATGATCCCTCTTCCTCTGCGCCGTATATTAGGTGGCTCGACGAA
GCTCTACTAGCACTCCTCTCCACCACCAGCCACCAGCAGAAGAAGAAGGC
AAAAAAAAAAAAAAAAAAAAGTTTGAGGTATACTACCAACCAACAATGGT
ATGTAATTCTCGACACTAGACGACCACGGCAAAGCAATAATACACTCAAG
GTGTGCATTCACCAGGTGCGCCTTGATGCTAGTTGGTCTCAACCAGTAGT
TTGATCTTAGATATCAGCACCTGTTCGAGCTCGAACTCGGTTGCCACCAT
GGCTTTACTTATCGAAGAGATGCGGAGAAAGTGAACTCTTTCCTCCCCTG
TATGATCGTACGCACAATATGTAGTAGCGATTACTGCTCCCTCCTCTTGT
TGCTCAATTCTAACAACGCCTCCATCCAATGCAACACTCAAGCAAGAGAT
ATGTTTCTGCTTTCTTTCCCAGCTGTCATGATGAAACCAAGAGAGTAGTA
TGCTCTCTCTATTGCATGGCGCATGCCACATCATCTAACGTTATGTCCCT
AGCTCTTACTTCAACTTTTACAATGCTCGCTTCAGAAACAAGTATGTCCT
CCTAATATTTCGCTCCCTCGTGCAATATATAAACCATTGCAATCAATATT
CCAAGGTCTGCTCCCACTTACAACCTTCTTCATAAGGACTAATTAGCTAA
AAGTCCATACCAGATTGATACATACATTTGTATTGCACCCTATAGCTCTT
CATATTTCCTCCTGAACTTCATAAACAACAGGCCTTTCATTATCTAGCAA
TCCTCTCAATCTTGGTAGACCCTAATGTGTTTGGCCACGTTCCTAAAAAT
ATGTTGTAAGGGCCAATTTTACAGTATATACTTTACAACCTTAGAGTAAT
GAGTATCAAAACAACTGAAAGGACGCCCCTGACTATACTGGGAGCAAGCC
ACAATTAGAGTTTAGAGTACCATTGTGAGACTACCCCCATCCTGTCTTGA
CTACTGGAGGTGGGCGTTTATTCATGAAAGCGATGAGATGAGCACTTCCT
GGGCAGTTTTGCCTGCTCTGTGCCCCACCGCCTTCCTTTGTGTCTGCTGA
TCTGAGGATATGACCCACCTCAAAGAAGAAGGTGTTTGCTGCAACACTGT
TTAAAAGTGTTAAAAAAATGTTAAAATGCTTAAATGAAATATTTTTGCAT
GATATTGAAAATTTTGCTTGATGACGTAAAACCAATCATGGAGGCTTGGT
GACTCGCTCGATGCTTATAATGGAGGAACATGAAAGATCTTTTCCTTTCT
TTTCCTTTTTTTCAAAAAATTAACCCTGTAATTAAATGTTATGTACAATT
TTATTTGCAGTGAAAAACCAAAAATCCATTTATTTGCAGGAACTCAATAC
AGCTGATAATTTTTGAATGTGAATACAAAAAAAATGATGTAACCAGCAAA
GTCATGATATCAGGACAAATTGGGATCAAACCATCCATGAACAATGAATA
CAGTTTTTAGACTTGAAACATATAATCAAAAAATAGGTTTAAAATAAACT
TTACAGCAAATAAAATAACTTTTGGTGAAATACAAGGAGATCGGTATGGT
GGGTATTTGATTCAACTGCTGATCGAATGATGAAGATGGGTCTTGCGACT
AAACAGTTCCGACTTTGGTCTAGAAACCAAATGAAGTGTAGACCAAAATG
CGTATGATACAATGAAACACAGTCAAATCTGAAGCACGAGCGATCATAAC
GCCCGGTTACATCTCGAATCAAAAAAAATAAGCTCAGAGTGCACTAAAAA
TAAAAAAAAAAAATAAAAAAAAAACACTCTAGAAGTGTGAGTTTTTCTGG
GTGGGTCAATTTGTATAACTTCCCAAACCATGAATTGCCAAAAACCCGTT
CTAAAAATAAAAACTTATGCTTTTAGGTATAATTTTGAAATCCAACATTT
CTTTGCAGAGATAAGGCGCGCTGCTTCAGATTTAAATTATAATTCATCAC
ATCATATTACCATCTCATTACAAGGACAAGCAGTACAAGCGTTCTCAATC
ATTATGAACTGCCCGAAGAAATAGACAAAAACCTCCGGTCATCCGGGAGA
GCATGGACGGGTGAACGCGGCCCTCCCTGCCCGATCGATTGCCGCCCCCC
AGGTAGGAGTTACGGCTTACGGCCCCGCAGGGTAGATGTCGGGCCGCCCG
CCGGGTCCTCGAGGTTGGGGCTGCTCAAGCCGCAGTTTTTGCATTTGTTT
ACGATCATGATAGTAAATTGATCAAAATGGAGACCAAGCGATCACGTTAA
TGTATGAAAAAGAGTTTTAACAAGAAATTGTTTTTTCACACGGATACCTT
TCAAAAATACAAATCCGAGCAAAATACAAGTCCGAGCCAAGATTGAGAAT
TTGCCCAGCAGATAGGAAACACAGAATTCCAGGCAAGCCTAGAGCGTTTG
TTGATCACCAAGGGATGAAGGATCGCCCAGAGGAAGAAACGCAGAGCACT
TCCATTGAGGATCATGCGAGCCAGGAGCGTTTGTTAGACCACCAGGATCT
TGAGCAATGGCAACCGAATAAATCTGCTTTTCTCTTAGCGTTCATTGCGA
TATCTCCATATCTCTCATTTATTTGCTATAAAATGAGGGTTATCGCTGTG
CCATACCTTGCGATGCACCTCCTATCCATTCCATGGGCCTTCCATGTGCA
GGACCGAAAGTTTTGGATCCGATGGCTATCTGCCTTTTTTATTGTGGCTA
TCATGGGGCAGATCAAAACTTTCACAATCATATCGTCCTTCAAGGATGAT
TCTCTTGCAATGAAAGGTATTTTTTACGCCTTTACAGCTTTGTGGGAGTG
CAGTAATGCGGTTCATGTTTTCGGCGGAAGAGCTTTACTAGACCGTTATG
GAATCACATCTTTTCGCAAGGCATTTTTTGCAGTAACTTGTCCTGTTCAA
ATCAAATTCATCGATCGGCCCTATCCAGGAGATAAATTTTTACTGAGGTC
GCTTCATATTGGATGCTATCTTGCAGCATTTTTTTTGCTGAGACTCCTTT
TCCGATTTGTTGTGGAAGTCGAAGTCCTTGAACACTATGCAGTTTTGGAA
GCAGAAGCATTGGTCATTTTGTTCTCTTGCATTGTCAACGTTTGGAATGT
ACCACCGCATCTATATCAATTGGTTTTGTTGGAGTACCCTGTTCAAATAG
TGTATCCATACGGATCCATTTATTTTTCCACCTCTTCGAGAGAATTCTGG
TCAAAATGGAGCCGTTCAGCAAGTTCTATAATTCGTCACATGTTTTATTA
TCCACTCGGAGCGAGCAGAAGGGCTTGGTTGTCTATTCCACTTATGTTTT
GGTTGAATGCATCAAGTCACTACAGTGTAAGTGAGGCTCTGATAGGTGAT
AAGGCTGAGATTGGATGGAATGTGGTCTTTGGGGTATTGTGTTTAGTTGC
AACACTAGAAGTATTTGGCAATCAGTTTTTGAAAGGATTGATCCAGAAAG
TGGTCGGACGGGCAGTACCAAAATGGTGGCGAAGGATTCGCTGTATTGTA
GCATTGGTTTCATTGCGTTTTGCTGCATACACACTCCTTCACAAGTGCTT
GAACTTATCCTTGTCTGGTTTAGTCGGTAATTAGGAGGTAACATTTCACG
AAACAGCACGGCATTCCTGGACTCAATCAAAAATATGATAACGGCATGTA
TCTAGTGAGTGCAAAAAAGATGTTGTTCTTCAAGATCCATCTTCTTCCTC
TTCAGTTTGGAAATGAAGATGAAACATATATGACCGCATTGGTTTCATTG
CGTTTTGCTGCGTACACACTCCTTTACAAGTGTTTGAACTTATCCTTTGT
CTAATTTAGTCCGTAATTAGTAGGTAACATTCCACGTAACAGTACTGCGT
TGATAAGAGTTTGCTTAGTTCTCCTCAAACAAATATTATTTCTTTATACA
AGAGATTGAATGACAGGCTTGTGGAAAATAAATGTTGGTGTAAAAAGAAA
TCTTATCTAGAATGCGTAGTAAATTGATTTCCATATTTTATTTTATCACT
CAGATAAGATTTTGACGATCCATAGGAACACCTAAATAGATATAGGTTTA
GGCCTTACAGGTTTACACCAAGTGCCAAGGCTTAGTCCAGCAACACTATC
TGGAAACAACAACAATATTTAATGGAAAACCATCATAACATGTTATTCAT
GACTCAGACAACATCAACAACAAACTGGCATAATAACCTAAATGCTCTTG
AAAATATCTGAATTTCCTTTCAAACATCAGCTTTGTGAAGACCAATGGAA
ATATTACGATCGTGCTCTGCACAGTCGATGGAAAAATTTGTATGAAGTAG
CTCCCAGGAGGACGCGCGGAAGAAGGCGGATATGATCCCTTCCCATAGAG
TTTCATCTGCCCATATCTCCGCCAATTCCGATCAGATGAGGACAAAAATA
GCTCGTTGAAAAGCCCTGAGCGGTCCACGTCGGGACTGAGGCCTCCGGTT
ACATTTGGAGACAGGTTTAGGATTTTTGATTGAAGGTCTTGTGTCTGAAA
TCGTTGGTTGTACTACAAGAGCATATTGCCGCATGGCTTGCGCGCTAGAC
TTGCTTTTTACCTCTGATCCGGGTTCGAGCCTGTCTTCGAGCCCGCGATG
GTCACTCGACTCCGCCCGGCAAGCACTCACCGTGCGGAGATTCTAGACGT
CCATACCTCGTACAGTCATTTCCATACACCGTGCTGCTATTTAATTTTAT
TTATGGTTAAAAAAGCAAGCTTAACATCTCGAACAGTCATCACGGCACAT
GAAAAGTTTCGTATCGGGGGTACAAGCGGGCCCCAATACCTGTCGAGCCT
TGTCCTCTGGGAGGTTTTCAAGCCATAACTTCTGCTTTTTGCCATGGATT
TTGCTTTCGAATAGACCATTCTGCAGCTTTTTTCATTCTGCGTGTGGCAG
TTGTTGCCCGAAAGCAGCACAAACTATAGAGGAGGAGGAAGTTGTTTAGA
AAGTTGTCTTCCAGCCTGTGCTCTTGCTACTCTTTCTGCTGGTTTATGTT
CTGGCTCCCTACACCATAGCTATACCAGCAGAAAATGTGCGACGAACAAG
AGCGTGCACTAGACTTACGTGGTGGGAAGAGGAAGGAGGAAGACAGAGAT
TGGTTTAATGTTGTTGTGGTGCGAATAAATTCAGGAGTAGGGAAGATGAA
GAAGCTTTGGATGATTTCTGCGAATCAGAAAAAAAAAAGAAACAATCAAC
TACTTCTTCTTCTTCAAGGGCACACAGAGCGGCTCAAACCTGGATCAGAA
AGTAAAAAGGAAGTGTTAAGCTCCCTTGTAAGCCTGCTTTATAGTGAACT
AAAGAAGGCCCACTAGGATCTATAGAAGGCATGCATTCGGGCAAGTTTTA
TTATTGGGTTGTTAGGCAAAGAGCCAAAAAAAGGTGATGATGATGAGCCC
CTCTTCTACTCCTGCCTTTTCTTCTACATATTACCACCATGATGTTCGAG
GTCTTCGATCATGCCACGTGGGTGAGCACATTCAAAAACCACCAAAAACT
ACCTGGTGAAACTCTACTAGGGGTTTGAAAAGCGGCGCCCAAAGCCCGAT
CTGGCGCCCGAGGGCCCGATACAGCGCCAGCACCGATTCCACGGCCCCCC
ACGTGCCAGCCCACATCCACACGGCAGGGCAGGCACGGCGAAGAACGCGA
GTGCAGAACTGGCGCAGAACTAGCTCTGCTCCGGGTCAGGAGGGTGACCA
TAGCCGCGCTTGAGCAGCCAAAGAAGCTGGGCCAACGCGCTATCCGTCCG
GTGCTCCAGCTCGAGCCCAGCTGCATCACCTGGCCACCTGGCAGCTGCCT
CTGGACGTGCTGCAGCTCGGCCCGCTCCTGCTTTCCCAGCTCCACTGGCT
GCTCCAGCTGCACGGTCTGCATCTCCTGGCCACCTGGCAGCTGTCTCTGG
ATGTGCTGCAGGTCAGCTTGTTGGGCCTGGAGCTGCTCCATTGCTCCACT
ATACTGCTTCAGCACCAGCTTCGCATTCTTCTCCCGCTCCAGCTTCAGGG
CCTCCTTACGAACGTGTAACTCCTCTTCGAGTCTCTGGTACCTTTCACAC
CAGGCGTCCACATTTTCATTAGTCCTCGCAGTATGTTCATTAAGCCCTGC
CGCGGCCTTTGTGAAGCTAATCTTGAGGTCTTTGTAGTCCTTTTCTCTCA
GGTCTGCCCTCCGTGTTTCGCGCTTCAGTCGAGCTTGTAGCTCAGTCAGT
TGGCGTCCACATTCCTGGTGCTCGTCCTTCTTCTCTTCCTTAAGCTCCAG
TTGGGTTTCCAGCTCTTTGATCTTCACCAGGGAAGCCTTCGCTTCGGCCA
TCAGCACCTTTCGCTTCTCACGGCGGGCGCTTGTTGCGTGCGTTTTGCTT
GCCTGGCTTCTTGGCAGTCCTGATGCTGTTTACTCTAGGAGTGATTCCAT
GTGAGTTCCAGCACCGGGGGCCAAACCAGCAATCATTTCCATAGCGGCAG
AGAGGCCTATGGTGAGAAAACTCGCACCATTTGCCCTTCTTGCGCCGCCC
ATGGATAAAATAGCGGCAGATCTCCTTTTCCTTCTTCGCTTCAGAACAGC
TTTCGTTGTACATTCTGGAAAGAAGGGCAACCAAACTAAATCTTCACTCT
AATGCTGCCTCCCCCAATGTCTTTGCTACCACCTTGTAAGCCTGCTTTAG
TGAACTAAAGAAGGCCCACTAGGATCTATAGAAGGCATGCATTCGGGCAA
GTTTTATTATTGGGTTGTTAGGCAAAGAGCCAAAAAAGGTGATGATGATG
ACCCCCTCTTCTACTCCTGCCTCTTCTTCTACATATTACCACCACGATGT
TCGAGGTCTTCGATCATGCCACGTGGGTGAGCACATTCAAAAACCACCAA
AAACTACCTGGTGAAACTCTACTAGGGGTTTGAAAAGCGGCGCCCGAAAG
CCCCGATACAGCGCCCGGAAGCACCGATTCCACGCTCCAACGACTCTGCA
ATTTGCGCTTGTAGCTCAGCCAGAGATTTAAGACATATAAGACGCCTGTA
GTACTGTAAAAATTGTGGTAGGCAGCAGGTGGGAAGGAAGAAGATATCTT
CTTCATCTTCCCAACCTGCTGCCTACCACGAATGAATAATTATCCTCAGA
GATGACTATAGGGGTATTTAGCGCTGAGCTCCCGGAGAATTTGATCGGCG
CATCAGTGACCCTGGAACGTCTATGGTGCGAAACGAAAAAATAATCGCCT
GGGGTGCATTATTTGAAAAAATTATTTTAAATTAAAATGATTTCTAAAAT
TAGATTTGAAATTATTTTAAAAATAGAAAAGATTTGAGCTAAAGGGTATC
CATTTCCCATAGAGCGTTGGACAAAAATGGTTATCGGCCACCCTCAGCTG
CACTAACAAGAGAAACTATAGGAATGGTAAGGAATAAATGGGACCAATGT
GTATAATAGGAAGAAGAAGAAGAAATAGAAGATGAACATTACAATTGTCA
TCTTCTCCTTCTTCCTCCTCCTCTATTACCTACTACAAAGGGGACCAGTG
TAGCAGAGGAAGAAGAATTGATGGACACTGGTACGAGCTGCAATTATCAG
TAGTAGGAATAAATAACAAATGAGAAACTATTAAAATACATGTGTATTTT
TAATTATTATTGTTCAAGCAGCATCCATGTTTGCTAAGATTATTTGTTGT
TCTTCGGGCTGCAACCGGTACCTGACTGCTGCTCCAGCCTGCTCCAGCAC
GAAGTCTTGCATCAATTGGCTGCAGAGCAACTCGAAATCCGATGATGTCC
CTGATGTCTACAGGGTAGACGGGGCCATCCACAAGGCTAAACACCAAGCT
ACCTGGCTGCACTGCCCGCATCTGCTTAAACAATAATACTTCAGTCCCAC
CCTGAACATTCCCACCCAGGGTGTTGGTGGTGTGGTCAAGAACAGCCAGC
CCAGAGTCAACCTTTTATCATACTTTCTAAGAGTGTAAGAAATGTTAACA
TCCCCTGGCACCTGGAAGGCAATGAAGTCTCCTACAACTGCTTCTGTAGC
AAAGTCACGGGCTTGCTGTTCAAGTTGAGCACGGGCCATCCGCGGAACGT
ACTCGCCTTTGTAGTATATGTGATGCTCACCAGATCACCGCAGATGTGGG
CATTGGCACACTGCCTTGGTCCGCGGCGCCCAGCTGTGCAGGCAGCACAG
CTGTGGCAGGACCCTGACCGTGCCCAAACAAAGTTGTCGCCCCGCTCATG
GGCTTCACGGTCGTCATCCCACTGAAACTCTCGGAACTTAGTAATACCAT
CCAGTGTTTCAGCACGGCGGAAGTTTCGGTCCACCTTCCCCGGGCCACTC
GCACCCACAAAATGGTAAACATATTGATATATCAGTCTACCCTTCGTTGC
TTCAACGTCCTTCTTTTCGACTCCATCTTGGCGTCATTTCGGACCAAAGC
TTCATACATCTCAAGAGCATTAGTGAAAGCACCAGCCTGGCTGTCCTTGG
CCCTCTTCTGTAGGTTCCTGCAGGTTGTCTTCACTGCTGCACCCAAAGCA
TCCGATGCCGCCTTCCCATGAGCAGCAACGCTGTGGTTCCATGACCTGCG
GATATTTTGAACAAATTTAAACTTAGCACACCACATTATCATATCGGTAT
TTTTATACTGAGAGTTGGGGCCACCAGAGTAACCCATTTGATGAGCGAAA
GTTGCCTCTAACCCATGGAAGCAGAAGTTTGTCACCAAAGTGGCGAACAA
AGGAGAAGTCATGGTTGAAATCTGAGCTGAGCACAACGTGCGCAACTTTG
ATTATTGGATCTTGATTGAGGTTTTCATCTTTTAGGAACTGGAAGACCCT
TTCTTTTCCCCTTCTCCCCATCAAAATCAGCACAAAGGTCCTGAACCAAG
AAGCTAATAACTACAGGGTAAAGGGCGGCTTGAACTTGATGGAAAAACTT
AGATTTATGCTCTTGGTTGAGCGCAATGGTGTAATTCATCAAAAAGTCTT
CCAAGCTTTCGAAGTTACCCTGTGGTAGAAACTTTTCTGTGTACTTTTCG
GACTCCCTGTGCTTTCTTTTACCCCCTCTGCCTTTCATTGGGCTGCTCAA
TGCATCGCCGCTTTCGAGGAGCTCTGCTTCTAGAACACGTACACGTTTCC
CCTTCAACTTTGGATTTGCACAGCTCTTGCAGTATTCGGCCAAGGGAACC
ATAGTCGACTTCTTGCAAGTGGAAAAACGAGCTTTGCGGGCCATGTTCTG
CTGCTGATTGTGTATGTATGTGATGGTATAATTGTTTTTTTCTTGAATGT
GAATGTGCTGCCTCCGCCTTCTCATTTCTCTTTTTCCTTTTTCTTTTTTC
GTTGCTTCATCAGAAGAAAAAAATGTGTATATGAAAAGTGAATTGAAATT
ATTCTTCTGCAGAAGAGGAAGATGTGTCTGTATATGTATAACATGTCACC
CACCCTCTCACTCTCTTCACGCGGCACCGGGCCGCATTTTTTTTTTACCG
GGATTTTGACCAAAATTTTTGAGCAGATCGGGCGCCCGGAAAGCTGTCGA
TTGGCACCACTTTGGTCAAAATCGCGGCGAGGGAAGGCCGCCAACAGAAC
ACCCCTGTTTTGTCCATTTTCGGACCCCCTTTAGCTTGAATTTTCTCAAT
AACATAATTGTTTTTGAAGAAATACCCCATTCTTGTACTACCTCAAAAAT
AAATTGGAAGCTGGGGTACCGCCACCTTGCCCACTAGACCATTACTTCAG
GGGGATGTGCCCTTGGGTATAAACCCTTTTCTAGCCAGGTGGTACCCCAC
GTTCCTGGACCTCTCAGGTACTCTTTTGGGCCTGCAGGGGCCAAGATTCA
ACCCCTTTTCTGGCCGTGGGACACTGGCTCCCGCACAACAACAATTCAAA
CAAATAAACAATCCAAAATTTCAAATTTAAAAAAATGAAATAACAACAGA
AAAATATGGCTTTTGGATAATTTTTTTTTTATAATAATGTTGCTATAGTA
GTACGAAAATCAACTTCCGCATAATCTTCAAAAATTATCCGGAGCTGGCC
GTATATCTCTTGAGCGCAAAAATGATATTGTTCTTCAAGGTCCGTCTTCT
TCCTCTTCAGTTTAGAAATGAAGATGAAATACATATTGATAGAAGGACTA
TGTGCGTGGAGGGGGGTGCTCTTCTTGCTGTTCTCCCCGTGGAGGGAGGG
CGCTGCTGCTGCGCGCACGTGTTCCCCGTGGGTGCGTTGTGCTCTGCGTG
GTCCATCCGGCCATCGCGTACTACACAATGTTGTCCCATCGTAATAAGAT
ATAAATCCATTATTATTATTATCACTTCATTTCATCATTTCATTATTACA
TCATTTACTTGTCCAAAACTCATTAACGATATACCATCAAACACCTCCAC
TTTTGTAGAGAATGGTGAGATGAGAGGGCATTTAGTGCCAGATTGAGATT
TGTCTGAACAGCCAATACACTGCACCTCAATTTCATCCGCGAAACAACGG
CACGTAGTGTGCTCATTTCTTGTTGCTTTGTCTCTTATATGGCTTTTATC
CGTGAAACGGTGCGAAGTGTGCCCATTTCTTCTTGTCACTTTATCTCGTC
TGTGGCTTTGCTAAAGTATAACTCTGTGTACGCAATGAATTACATGCTGA
ATAGGGGACCACACATTATAATGGCGTCATTGATAGACCGACCACCCACT
TTTAAAATCAATATGACGCTTGACCACCCACTTTTATTTTCCGTATGATG
TCACATTGCAGGGGAACTTTGGGGCAAGAGTGACGATGGGGGGTGGGGAT
GTGAGTTTGGCCATTGATCGCCCCAATGCATGTAGAAACGATATGGAAAT
GTCAAACGTTGATGAGAATGTTATTGTTGAGGTGTTGGGTTTGAACAGTG
AGGCCGCTTCCATCATCAGCGAGTATAGCTCTACATTGCCCAAAAGGCGA
CATATCAAAGGTTTTTAAATCATTACAAGATCTGACGTGAGAATGATAGT
GTTGTGGTTGATGCAGGTTGCCGTTGCAGGCAGCAGCAGCATCAGGATAA
GTAGAAGAGCAGCAGTAGTAGTCGCAGTTCGCACTCTTCTGTAGTTTTTT
TTTTTTTTTTTTCCGTTGAAATCAAACAAAGAAGCGTAGTAGAGGGGTTT
TTGAAACAGAAACATAAAACTTTTTATGAGAACTGGCCAAAATTTTCAAG
TCCTCTTGGGAAAAAAACACTAAGGGGGTGCGATTTTATTAGAAAATTCC
AAATTCCGGGTTTTTCGCGGGGAAAAAACTTTTTGACCCCGTCGGAACAC
AAACGCAGACGTAAAACGCGTACCTACCGACACCCGAGGTTGAGCGTATC
TCAAAAAATGAAATAAAAATGTGAATTCCTTAAATAAGTTCCCGAAAACT
CGCATTTCCCCTCTGAAAAGCTTCTATTTGGGGTAATTCGGGATCAAGAA
GATATCGAATTTTGGGATAGTTGTCATTCTTCCCTCTTCTTCCTCTACTT
CCTTGTTCACCTCATCATTTGATTTGCGCGCAATTCTCCTGCTCCTCCTT
CTCCTGCTGCTGGTGCTGCTGCTATCCTCCTTCAAGACAACAGCTTTCCT
TTTGACAAATTGGTTCGGCGAAGGTAGTTACGTCTTGTGCTGTGCCAAGT
CCAAAGTAAAATGCCAGCACATACCCCCAAAAAGACGATTTCAGCTAAAA
TATAGTGTTAGACAAGCAAGAGCAGCCTGTTTGGGTGGAGAGGAAACGAA
AAATTCAGCAACCTTCGATATTTGTACCGGAGGAAATCAAGTGGGAGCAT
GCTATAGTGTGTCCCCAAAATGCAAAGCGTCGTCAGATTGAGAAGCGATA
CACAATTGACGAAGTCAAAGTCATGCTTGAACGAGGAGTTGAGGAGATGA
CGGTAAATCTCAAAGAGAAACTGCAAGCTAAGCAGAAGGAGCTTTCGCTC
TGCACAGGGGAAAAGAGTATTTGGGTGAGTGAAATTGTGATGGAAATATC
AGAGCAGAGAATAATGAGCCGGATTTTGCGCCAACTTCAATGAACAATGA
TCTAGTAAGAGCGTTCATCACTGCAAATGCTTTGATAACTTGTGAATATT
AAATGGTTCAAGGACACGTACTTACATCTCTTCCATCTCCTCAAATACTA
ACTATATTCCTCATTAAATGTGCGTTAAAAAAAAAAAAAAAAAAAATCCC
AAAAATGGCTCCCTTTTGACCCCTCTTTAGCTTTTTTACCCCTCTTCATC
ATTACTGCAGTATTGTGTGATCAGTTTGCAGATCTGATTCTGCTTTTTGT
GCTGACGGTAAATGATCTATCCACCAGGCGATGACTATCCACCAGTGTCA
ACAATGTCATAGCATGCCTAGATGTGCTGCCTCGCCCGTCATATATATAC
ACCCCGACCGCTCTTCTTGGCATGACATGTATGAGCTCAAAACGCAAAAA
AAAAAAAAAAAAAAAAAAAAAAATTAACCTCAGTATAGGGTGGAAAAAAG
GAGTTGCTGGAGTTCTTGGTCAATATACATTCTTCTTGGGGCCACCGACA
GCGACGGAGCCGCTGAGGCTGCTGCCTTCTTTTCCACTGAATCTGAAACC
GATGACTCCCTGGACTCTGTGCTAGGATGCAGTCATTTGATTGGCTAGCC
CTTCGGCTACTGTGCGTCTCAGCAGGAGCAGGCCTTTCAAGGAGGCCGTG
GCGCTGTGCTTGTTTCTATTCTAGTGCTGGTACTACCGAGAGTACACGCT
AATAAGATTAGGTGTTGAGTTTGTTTTGGTACCCCTTTCCCGTATGTCGA
GGTTGTGAAATGGTTATATATTTGCACTTCTTTGTTCATTTTTCTTGAGG
TCACTTTTTGGATGCCAGATTGGATGTATCAAGCAGCGACATTTCCTCTC
TGTTTTTCGATGGTCCCAGATTCAGTTTTCAACCAATCGTAATGAATAAT
CACTGCGGTCCCCGGGCAACAATGATATTGCATCACATAAGCGCCACGCC
TGACGGAATTATCCCGCAAGTATCGACCGGTGCGATCTCGGCACAGCCGC
GAAAGTAACACCGGTCAAAGATATGGGGACTGACCGGCACCATGAAGAGC
ATGAAGCATGGTGTGTACTACGTGAACAAAAAAAAAAAAAAAAAAAAAAA
AAAGTTTGGTCTTCATCGCAAGTGGCCTATCAAGTTCCAGTATTTTCATT
TCATGTGGTGGTGAAAATTGTTTTTAGTAACAGTGGACTGTTGTTGGAAT
TATCGCTTGGCTCGTATTTTTCTCCAAATATACTGCATGTTTTGGCCCTC
CTGCTTCTTCTCTTTTTAGAAGGAGCTACAAAAATAATGTCTTATCCCCG
ATACGTTAATCATTGCCTATTCTCTTCTTCTACAACATTCAGAATAACTG
CCCCAAGATGAATGAATGCCTCCTCCCCTGCTTTTGCTAAAAGTCAAGAA
TAAGTACAAGGAGAAAAAGTAGTAGAAAAGTTTTTGTACATGATAATACT
ATATGTTTAATATGCCAAACATTGTAGACCATTACTTCTACTCGAAGCTG
CTGCTGCTTCTTGTAGCAGATCTGATTTTGTCTTCTGCTCCTTTGCAAAG
CAGCAGTAGCAAGGCAGACCGAAAAAGGCAACCCCTGGGCTTGATTCATC
TTGCGGAACTATGTTCACGACGAGATTGACCTCTATTAGTTTTTGGCAGT
CTCTGTCACAGGGGTTATAATCGATTGGGGCGTTGTAGGATAGCTTTTTT
TCTAATCAATAAGAAAAAAAAATGAATGCATCTGCCTACAGTAGTTTGTG
ATTTGAGAGAGCCTGGACCAGATCCGCTCCACGTCACACACATTAATGTT
AAAGTAGAAGAAAAATTGAATGAGATTGATCTCAGTCGTCTAGCGCTTGC
CGGCCTCGATCACTTGCCACCGCGAGGGCATTTTGATGCACGGTTGAATG
TCATCTGGAAGTAGATTTTCAGGGAGTGCGTGCGCGCTGCCGTCGCGAGG
AAGGGGTTCTGAACCTTCTTCGCCCTCCATGATGATCAAATCATGGACAA
CTTAGTGAAATGAATCAAAGGAGTATTTTCCCTCCCTGGCAAAGGTTTCG
ACGTTTTGGCGTTTGCCTTGATCAAGTGTATCAAAAGCTCCATCTCGAAA
GAGATGAAAGTAGGACTTGTCCACATAAAAACAACAGTACTGCAGTCCCC
CTCCCCCTTACGATAAGAAAATATATGGGAATATCTGAAAAACAACATAC
AAATCATATATATGGCACAAAATTAAAATGAATCAAAAACACACACAGAG
ACAGAAACCACCAATCAGAAAATAGCAACAGCCATCATGCAGAAAATGAA
GAGAGAAAGAATGAATGAAATAAAAGGGAAAAGACGTGGTGTGATTGCCA
ACATCACACGATCTCAGAAAACAAAAACCAAAAACTACACAGCATGTCCC
TGGACTGAAAAAGGTCATTTGTGAAAACTGCCAAAGCAGAGGAAGCCAGA
TGGTGTTCAAATAACTGCCCTTAAATGACTTTTGCAAGTGTTCTCCACCA
TATAGCAAAATATACGGTCTACCTCTCCAACATCTTACCCCAGTGGGTCT
CTCTGCACACCACCTCAGCATTGCAAAGTAAAACTGAAGTGAAACATGTG
TTTCCGAGCAATGGGCGGGTAAGCCAGTGTCACTCTTTTCACTGAGTGAA
GAAGAAGCCTTGGCTGCATTCACTGAGTGGCTATATATGCTCCTTCACCC
AAGCGGCTCATGATCTTTTGGTCTGGCCAACATGATCAAACTCACAGTGC
TCATAAGGAGATTTTGTACATCATCTTCTTGTTCTTCTGCCGCGTTCTGC
TTCCAGCGGTCGGTCTCCCAGGAGCCTAGAGAAGAAGTTGCTCAAGTTGG
TCCTTCTTGTGTAGACAAGGAGGAGCTTCTTCCGTTTCAGTTCGGTACAC
AGCGCCCCAAGAGCCGGGTTGTAACTCCTCTTTCCACCCCCCCACCCCCG
TGCCGCCGCCGCCGCCGCGCCCCCCGCCAGTTCGGCGCCTCCGGCGATCG
ATGGCCTCCGCTCTCCTCCGACGCGAACGAGCCCGTGCAGGAGGAGCACC
TGCATGGCATGCACCGCCGCCCCACGCTCTGAGACGGGGCGGCGGCGGGA
CGAGA back to topCoding sequence (CDS) from alignment at H-akashiwo_Contig95:278106..308710- >mRNA_H-akashiwo_Contig95.10.1 ID=mRNA_H-akashiwo_Contig95.10.1|Name=mRNA_H-akashiwo_Contig95.10.1|organism=Heterosigma akashiwo CCMP452|type=CDS|length=1263bp|location=Sequence derived from alignment at H-akashiwo_Contig95:278106..308710- (Heterosigma akashiwo CCMP452)
ATGCAGGAGCTGGGGGTGAACGCCTACCGGTTCTCGCTCGAGTGGTCGAA
GATCGAGCCCCGCGAGGGCCAGTGGGACCAGAAAGCCATCGACCACTACC
ACCGCGAGATCGACCTGTACTTGGCCAACAACATCGTGCCCTTTGTGACG
CTGCACCACTTCACGGAGCCGCTGTGGTTCGTGGAGAAAGACGGCTTCGA
GCGGGAGGAGAACATCCAGCACTTCCTCGACTTCTGCGTGAAGGTGTACA
CGGAGTACGGGGCCAAGGTGGAGATGTGGACCACGATCAACGAGATCGAG
GTGTACGTCAACAACGGCTGGAACCTGGGCATCTTCCCCCCGGGGAAGAA
GGACCCCAACCTGGCCGCGCGCGTCACCCTGAACCTGTGCAGGGCGCACG
TGGCCGTTTACCAGGAGCTCAAGCAGCTCTCGGTGGAGCACGGCTGGCCC
AGCCAGATCGGGCTGGTGAAGGACATCTTCCAGTTCGACGTGCTGAACTG
GTGGAACCCGCTGGACCACTACCTGGCCTGGCAGCTGAACCACACCTTCA
ACGACTGCATCCTGGACTTCTTCCGCACGGGGTTCTTCCACCACTGGGCG
CCCTTCTTCAGCAACATCCACTACCACGACGCTCAACGCGACCTCGTGCA
ACGACTTCATCGGGCTGAACTACTACAGCCACTACTGCGTGAGCGTGTGG
CGCACGTTCTTCCAGGGCGTGCCCGACGAGGAGAAGCTGGCCGCCATGCC
GCGCGAGATCTACACCGACATGCCGCACGTCATGTACCCCGAGGGCTTCT
ACCGGGCGCTCAGAGAGCTGCAGACCCTGAACCTGCCCATCATTGTGACC
GAGAACGGCATCGCCGACAAGGACGACTCCTGCCGCCAGATGTACATCGC
GCGGTACATGTACGCCATGTCGAAGGCCATCCACAACGGCTGCGACGTGC
GCGGGTACTTCTACTGGAGCCTGCTGGACAACTTCGAGTGGAGCCTGGGG
TACGGGCCCAAGTTCGGCCTCTACGAGGTGGACTTCAAGACCCAAGAGCG
GCGGCTGCGGGACGGGGCCAAGATCTTCCGCAAGATTGTGCAGAAGCACC
GCGCGGGCGACTACCTTCTGGACCCGGAGGACATCGAGTTCGGCGCCTCC
GGCGATCGATGGCCTCCGCTCTCCTCCGACGCGAACGAGCCCGTGCAGGA
GGAGCACCTGCATGGCATGCACCGCCGCCCCACGCTCTGAGACGGGGCGG
CGGCGGGACGAGA back to top
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