EMLSAG00000000212, EMLSAG00000000212-682978 (gene) Lepeophtheirus salmonis

Overview
NameEMLSAG00000000212
Unique NameEMLSAG00000000212-682978
Typegene
OrganismLepeophtheirus salmonis (salmon louse)
Associated RNAi Experiments

Nothing found

Homology
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:PHGPx "PHGPx" species:7227 "Drosophila melanogaster" [GO:0004602 "glutathione peroxidase activity" evidence=ISS] [GO:0005794 "Golgi apparatus" evidence=IDA] [GO:0006979 "response to oxidative stress" evidence=IMP] [GO:0004601 "peroxidase activity" evidence=IDA] [GO:0006982 "response to lipid hydroperoxide" evidence=ISS] [GO:0005739 "mitochondrion" evidence=ISS] [GO:0005737 "cytoplasm" evidence=ISS] [GO:0055114 "oxidation-reduction process" evidence=IEA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS51355 GO:GO:0005794 EMBL:AE014296 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 GO:GO:0004601 KO:K00432 GO:GO:0004602 PANTHER:PTHR11592 GeneTree:ENSGT00740000115371 OrthoDB:EOG7B5WZH EMBL:BT099660 RefSeq:NP_728869.1 UniGene:Dm.835 SMR:Q8IRD3 PeroxiBase:5640 EnsemblMetazoa:FBtr0073068 GeneID:38413 KEGG:dme:Dmel_CG12013 UCSC:CG12013-RA CTD:38413 FlyBase:FBgn0035438 InParanoid:Q8IRD3 OMA:CFEILAF GenomeRNAi:38413 NextBio:808531 PRO:PR:Q8IRD3 Uniprot:Q8IRD3)

HSP 1 Score: 54.6842 bits (130), Expect = 2.031e-8
Identity = 25/46 (54.35%), Postives = 35/46 (76.09%), Query Frame = 0
Query:   64 AIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            A + G LG+ IKWNFTKF+VNKE VP+ R+APT D  + + ++I+K
Sbjct:  192 AKQTGTLGSGIKWNFTKFLVNKEGVPINRYAPTTDP-MDIAKDIEK 236          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:GPX6 "AT4G11600" species:3702 "Arabidopsis thaliana" [GO:0004602 "glutathione peroxidase activity" evidence=ISS] [GO:0005739 "mitochondrion" evidence=ISM;IDA;TAS] [GO:0005829 "cytosol" evidence=IDA;TAS] [GO:0005886 "plasma membrane" evidence=IDA] [GO:0046686 "response to cadmium ion" evidence=IEP] [GO:0009651 "response to salt stress" evidence=IEP] [GO:0009507 "chloroplast" evidence=IDA] [GO:0048046 "apoplast" evidence=IDA] [GO:0006333 "chromatin assembly or disassembly" evidence=RCA] [GO:0007623 "circadian rhythm" evidence=RCA] [GO:0009407 "toxin catabolic process" evidence=RCA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 GO:GO:0005829 GO:GO:0005739 GO:GO:0005886 GO:GO:0009507 GO:GO:0046686 GO:GO:0048046 EMBL:CP002687 GO:GO:0006979 GO:GO:0009651 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 EMBL:AL161532 eggNOG:COG0386 KO:K00432 GO:GO:0004602 PANTHER:PTHR11592 EMBL:AL049500 UniGene:At.23184 HOGENOM:HOG000277054 GO:GO:0047066 EMBL:AF030132 EMBL:AY039863 EMBL:AY077655 EMBL:AY088647 EMBL:AB001568 PIR:T04207 RefSeq:NP_192897.2 ProteinModelPortal:O48646 SMR:O48646 BioGrid:12064 IntAct:O48646 STRING:3702.AT4G11600.1-P PeroxiBase:2502 PaxDb:O48646 PRIDE:O48646 EnsemblPlants:AT4G11600.1 GeneID:826765 KEGG:ath:AT4G11600 GeneFarm:2055 TAIR:AT4G11600 InParanoid:O48646 OMA:PGNEGAI PhylomeDB:O48646 ProtClustDB:CLSN2918064 Genevestigator:O48646 Uniprot:O48646)

HSP 1 Score: 48.1358 bits (113), Expect = 3.866e-6
Identity = 23/44 (52.27%), Postives = 33/44 (75.00%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            +GG+ G+ IKWNF KF+V+K+   V RFAPT  S L +E+++KK
Sbjct:  184 KGGLFGDGIKWNFAKFLVDKDGNVVDRFAPTT-SPLSIEKDVKK 226          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:gpx-1 species:6239 "Caenorhabditis elegans" [GO:0009792 "embryo development ending in birth or egg hatching" evidence=IMP] [GO:0002119 "nematode larval development" evidence=IMP] [GO:0007276 "gamete generation" evidence=IMP] [GO:0006629 "lipid metabolic process" evidence=IMP] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 GO:GO:0005737 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 eggNOG:COG0386 KO:K00432 GO:GO:0004602 PANTHER:PTHR11592 HOGENOM:HOG000277054 GO:GO:0047066 EMBL:Z81070 PIR:T21418 RefSeq:NP_492598.1 UniGene:Cel.18867 ProteinModelPortal:O02621 SMR:O02621 STRING:6239.F26E4.12 PeroxiBase:3746 PaxDb:O02621 PRIDE:O02621 EnsemblMetazoa:F26E4.12 GeneID:184981 KEGG:cel:CELE_F26E4.12 UCSC:F26E4.12 CTD:184981 WormBase:F26E4.12 GeneTree:ENSGT00740000115371 InParanoid:O02621 OMA:HAGDILW OrthoDB:EOG7B5WZH NextBio:926638 GO:GO:0090087 Uniprot:O02621)

HSP 1 Score: 44.2838 bits (103), Expect = 4.360e-5
Identity = 23/50 (46.00%), Postives = 34/50 (68.00%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEKL 115
            +GG + + IKWNFTKF+V ++   + RF PT D    +E++IK+A  EKL
Sbjct:  115 KGGFMFDAIKWNFTKFLVGRDGKIIKRFGPTTDP-KDMEKDIKEALGEKL 163          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:gpx-1 "Glutathione peroxidase 1" species:6239 "Caenorhabditis elegans" [GO:0004601 "peroxidase activity" evidence=IEA] [GO:0004602 "glutathione peroxidase activity" evidence=IEA] [GO:0005737 "cytoplasm" evidence=IEA] [GO:0006979 "response to oxidative stress" evidence=IEA] [GO:0016491 "oxidoreductase activity" evidence=IEA] [GO:0047066 "phospholipid-hydroperoxide glutathione peroxidase activity" evidence=IMP] [GO:0055114 "oxidation-reduction process" evidence=IEA;IMP] [GO:0090087 "regulation of peptide transport" evidence=IMP] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 GO:GO:0005737 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 eggNOG:COG0386 KO:K00432 GO:GO:0004602 PANTHER:PTHR11592 HOGENOM:HOG000277054 GO:GO:0047066 EMBL:Z81070 PIR:T21418 RefSeq:NP_492598.1 UniGene:Cel.18867 ProteinModelPortal:O02621 SMR:O02621 STRING:6239.F26E4.12 PeroxiBase:3746 PaxDb:O02621 PRIDE:O02621 EnsemblMetazoa:F26E4.12 GeneID:184981 KEGG:cel:CELE_F26E4.12 UCSC:F26E4.12 CTD:184981 WormBase:F26E4.12 GeneTree:ENSGT00740000115371 InParanoid:O02621 OMA:HAGDILW OrthoDB:EOG7B5WZH NextBio:926638 GO:GO:0090087 Uniprot:O02621)

HSP 1 Score: 44.2838 bits (103), Expect = 4.360e-5
Identity = 23/50 (46.00%), Postives = 34/50 (68.00%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEKL 115
            +GG + + IKWNFTKF+V ++   + RF PT D    +E++IK+A  EKL
Sbjct:  115 KGGFMFDAIKWNFTKFLVGRDGKIIKRFGPTTDP-KDMEKDIKEALGEKL 163          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:gpx4a "glutathione peroxidase 4a" species:7955 "Danio rerio" [GO:0004602 "glutathione peroxidase activity" evidence=IEA] [GO:0006979 "response to oxidative stress" evidence=IEA] [GO:0055114 "oxidation-reduction process" evidence=IEA] [GO:0004601 "peroxidase activity" evidence=IEA] [GO:0016491 "oxidoreductase activity" evidence=IEA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 ZFIN:ZDB-GENE-030410-2 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 GO:GO:0004602 PANTHER:PTHR11592 EMBL:EU090067 UniGene:Dr.158885 UniGene:Dr.76793 ProteinModelPortal:D2CKK9 Uniprot:D2CKK9)

HSP 1 Score: 43.5134 bits (101), Expect = 1.472e-4
Identity = 21/42 (50.00%), Postives = 29/42 (69.05%), Query Frame = 0
Query:   68 GILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            G LGN IKWNFTKF++N+E   V R++P  D  + VE ++ K
Sbjct:  144 GFLGNGIKWNFTKFLINREGQVVKRYSPLQDPSV-VENDLSK 184          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:GPX3 "AT2G43350" species:3702 "Arabidopsis thaliana" [GO:0004602 "glutathione peroxidase activity" evidence=ISS] [GO:0005737 "cytoplasm" evidence=ISM] [GO:0005739 "mitochondrion" evidence=ISS] [GO:0009738 "abscisic acid-activated signaling pathway" evidence=IMP] [GO:0042542 "response to hydrogen peroxide" evidence=IMP] [GO:0042631 "cellular response to water deprivation" evidence=IMP] [GO:0009407 "toxin catabolic process" evidence=RCA] [GO:0005768 "endosome" evidence=IDA] [GO:0005794 "Golgi apparatus" evidence=IDA] [GO:0005802 "trans-Golgi network" evidence=IDA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 GO:GO:0005739 GO:GO:0005794 EMBL:CP002685 GO:GO:0009738 GO:GO:0005768 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 GO:GO:0005802 GO:GO:0042542 GO:GO:0042631 EMBL:AC002335 eggNOG:COG0386 GO:GO:0004602 PANTHER:PTHR11592 HOGENOM:HOG000277054 EMBL:AY065372 EMBL:AY096479 EMBL:AY087030 PIR:A84865 RefSeq:NP_001189742.1 RefSeq:NP_181863.1 UniGene:At.28611 UniGene:At.66417 ProteinModelPortal:O22850 SMR:O22850 BioGrid:4273 STRING:3702.AT2G43350.1-P PeroxiBase:2501 PaxDb:O22850 PRIDE:O22850 EnsemblPlants:AT2G43350.1 EnsemblPlants:AT2G43350.2 GeneID:818936 KEGG:ath:AT2G43350 GeneFarm:2051 TAIR:AT2G43350 InParanoid:O22850 OMA:NQTEPAG PhylomeDB:O22850 ProtClustDB:CLSN2912894 BioCyc:ARA:AT2G43350-MONOMER BioCyc:ARA:GQT-2179-MONOMER BRENDA:1.11.1.9 Genevestigator:O22850 Uniprot:O22850)

HSP 1 Score: 43.5134 bits (101), Expect = 1.482e-4
Identity = 21/44 (47.73%), Postives = 33/44 (75.00%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            +GG+ G+ IKWNF KF+V+++   V R+APT  S L++E++I K
Sbjct:  159 KGGLFGDAIKWNFAKFLVDRQGNVVDRYAPT-TSPLEIEKDIVK 201          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:GPX4 "AT2G48150" species:3702 "Arabidopsis thaliana" [GO:0004602 "glutathione peroxidase activity" evidence=ISS] [GO:0005739 "mitochondrion" evidence=ISM] [GO:0005829 "cytosol" evidence=NAS] [GO:0009407 "toxin catabolic process" evidence=RCA] [GO:0009688 "abscisic acid biosynthetic process" evidence=RCA] [GO:0009827 "plant-type cell wall modification" evidence=RCA] [GO:0009860 "pollen tube growth" evidence=RCA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 GO:GO:0005829 EMBL:CP002685 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 EMBL:AC006072 eggNOG:COG0386 KO:K00432 GO:GO:0004602 PANTHER:PTHR11592 HOGENOM:HOG000277054 EMBL:AK118448 EMBL:BT003735 EMBL:AY088692 RefSeq:NP_566128.1 UniGene:At.36287 ProteinModelPortal:Q8L910 SMR:Q8L910 STRING:3702.AT2G48150.1-P PeroxiBase:2474 PaxDb:Q8L910 PRIDE:Q8L910 EnsemblPlants:AT2G48150.1 GeneID:819427 KEGG:ath:AT2G48150 GeneFarm:2052 TAIR:AT2G48150 InParanoid:Q8L910 OMA:VNGENTQ PhylomeDB:Q8L910 ProtClustDB:CLSN2684302 BioCyc:ARA:AT2G48150-MONOMER Genevestigator:Q8L910 Uniprot:Q8L910)

HSP 1 Score: 43.1282 bits (100), Expect = 1.718e-4
Identity = 21/44 (47.73%), Postives = 33/44 (75.00%), Query Frame = 0
Query:   70 LGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEE 113
            LG+ IKWNFTKF+V K+ + + R+  T+ + L +E++IKKA E+
Sbjct:  127 LGSRIKWNFTKFLVGKDGLVIDRYG-TMVTPLSIEKDIKKALED 169          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:gpx4b "glutathione peroxidase 4b" species:7955 "Danio rerio" [GO:0004602 "glutathione peroxidase activity" evidence=IEA] [GO:0006979 "response to oxidative stress" evidence=IEA] [GO:0055114 "oxidation-reduction process" evidence=IEA] [GO:0004601 "peroxidase activity" evidence=IEA] [GO:0016491 "oxidoreductase activity" evidence=IEA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 ZFIN:ZDB-GENE-030410-3 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 eggNOG:COG0386 GO:GO:0004602 PANTHER:PTHR11592 EMBL:EU665237 UniGene:Dr.24921 ProteinModelPortal:C3S171 Uniprot:C3S171)

HSP 1 Score: 43.1282 bits (100), Expect = 1.791e-4
Identity = 22/52 (42.31%), Postives = 30/52 (57.69%), Query Frame = 0
Query:   68 GILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEKLPKFL 119
            G LGN IKWNFTKF++++E   V R+ P  D  +          E+ LPK+L
Sbjct:  128 GTLGNNIKWNFTKFLIDREGQVVKRYGPMDDPSV---------VEKDLPKYL 170          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:GPX4 "Phospholipid hydroperoxide glutathione peroxidase, mitochondrial" species:9606 "Homo sapiens" [GO:0004602 "glutathione peroxidase activity" evidence=TAS] [GO:0005635 "nuclear envelope" evidence=IEA] [GO:0005739 "mitochondrion" evidence=TAS] [GO:0005743 "mitochondrial inner membrane" evidence=IEA] [GO:0005829 "cytosol" evidence=TAS] [GO:0006325 "chromatin organization" evidence=IEA] [GO:0006644 "phospholipid metabolic process" evidence=TAS] [GO:0006749 "glutathione metabolic process" evidence=IEA] [GO:0007275 "multicellular organismal development" evidence=IEA] [GO:0007283 "spermatogenesis" evidence=IEA] [GO:0007568 "aging" evidence=IEA] [GO:0008430 "selenium binding" evidence=IEA] [GO:0019369 "arachidonic acid metabolic process" evidence=TAS] [GO:0019372 "lipoxygenase pathway" evidence=TAS] [GO:0032355 "response to estradiol" evidence=IEA] [GO:0042744 "hydrogen peroxide catabolic process" evidence=IEA] [GO:0043295 "glutathione binding" evidence=IEA] [GO:0044281 "small molecule metabolic process" evidence=TAS] [GO:0047066 "phospholipid-hydroperoxide glutathione peroxidase activity" evidence=IEA] [GO:0050727 "regulation of inflammatory response" evidence=IEA] [GO:0055114 "oxidation-reduction process" evidence=TAS] [GO:0070062 "extracellular vesicular exosome" evidence=IDA] Reactome:REACT_111217 InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PROSITE:PS00460 PROSITE:PS00763 PROSITE:PS51355 GO:GO:0007275 GO:GO:0005829 GO:GO:0005739 GO:GO:0070062 GO:GO:0005635 GO:GO:0005743 GO:GO:0032355 GO:GO:0007568 GO:GO:0006644 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 GO:GO:0007283 GO:GO:0050727 GO:GO:0019369 GO:GO:0019372 GO:GO:0042744 GO:GO:0006325 GO:GO:0008430 eggNOG:COG0386 GO:GO:0004602 PANTHER:PTHR11592 GO:GO:0006749 DrugBank:DB00143 GO:GO:0043295 HOGENOM:HOG000277054 GO:GO:0047066 HOVERGEN:HBG004333 OrthoDB:EOG7B5WZH CTD:2879 KO:K05361 ChiTaRS:GPX4 EMBL:X71973 EMBL:AF060972 EMBL:AY324108 EMBL:AC004151 EMBL:AC005390 EMBL:BC011836 EMBL:BC021567 EMBL:BC022071 EMBL:BC032695 EMBL:BC039849 PIR:T02747 RefSeq:NP_001034936.1 RefSeq:NP_001034937.1 RefSeq:NP_002076.2 UniGene:Hs.433951 PDB:2GS3 PDB:2OBI PDBsum:2GS3 PDBsum:2OBI ProteinModelPortal:P36969 SMR:P36969 BioGrid:109137 IntAct:P36969 STRING:9606.ENSP00000346103 PeroxiBase:3603 PeroxiBase:3632 PeroxiBase:3633 PhosphoSite:P36969 DMDM:172045844 REPRODUCTION-2DPAGE:IPI00304814 UCD-2DPAGE:P36969 PaxDb:P36969 PRIDE:P36969 DNASU:2879 Ensembl:ENST00000354171 GeneID:2879 KEGG:hsa:2879 UCSC:uc021umf.1 GeneCards:GC19P001103 HGNC:HGNC:4556 HPA:CAB008630 MIM:138322 neXtProt:NX_P36969 PharmGKB:PA28952 InParanoid:P36969 PhylomeDB:P36969 TreeFam:TF338735 BioCyc:MetaCyc:HS09562-MONOMER SABIO-RK:P36969 EvolutionaryTrace:P36969 GeneWiki:GPX4 GenomeRNAi:2879 NextBio:11367 PRO:PR:P36969 ArrayExpress:P36969 Bgee:P36969 CleanEx:HS_GPX4 Genevestigator:P36969 Uniprot:P36969)

HSP 1 Score: 42.743 bits (99), Expect = 2.613e-4
Identity = 20/44 (45.45%), Postives = 30/44 (68.18%), Query Frame = 0
Query:   68 GILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            GILGN IKWNFTKF+++K    V R+ P ++  L +E+++   F
Sbjct:  155 GILGNAIKWNFTKFLIDKNGCVVKRYGP-MEEPLVIEKDLPHYF 197          
BLAST of EMLSAG00000000212 vs. GO
Match: - (symbol:gpx-7 "Glutathione peroxidase" species:6239 "Caenorhabditis elegans" [GO:0004601 "peroxidase activity" evidence=IEA] [GO:0004602 "glutathione peroxidase activity" evidence=IEA] [GO:0006979 "response to oxidative stress" evidence=IEA] [GO:0016491 "oxidoreductase activity" evidence=IEA] [GO:0055114 "oxidation-reduction process" evidence=IEA] InterPro:IPR000889 Pfam:PF00255 PIRSF:PIRSF000303 PRINTS:PR01011 PROSITE:PS51355 GO:GO:0006979 Gene3D:3.40.30.10 InterPro:IPR012336 SUPFAM:SSF52833 eggNOG:COG0386 KO:K00432 GO:GO:0004602 PANTHER:PTHR11592 EMBL:FO080948 HOGENOM:HOG000277054 GeneTree:ENSGT00740000115371 RefSeq:NP_001123171.1 UniGene:Cel.23816 ProteinModelPortal:A8WFK6 SMR:A8WFK6 STRING:6239.R03G5.5a PaxDb:A8WFK6 EnsemblMetazoa:R03G5.5a GeneID:187542 KEGG:cel:CELE_R03G5.5 UCSC:R03G5.5a CTD:187542 WormBase:R03G5.5a InParanoid:A8WFK6 OMA:EPDLYGK NextBio:935638 ArrayExpress:A8WFK6 Uniprot:A8WFK6)

HSP 1 Score: 42.743 bits (99), Expect = 2.919e-4
Identity = 23/48 (47.92%), Postives = 31/48 (64.58%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEE 113
            +GG L + IKWNFTKF+VN++   V RF P+ +     EEEI K  +E
Sbjct:  148 QGGTLFDAIKWNFTKFLVNRQGKVVARFGPSTNP-KSFEEEIVKLLDE 194          
BLAST of EMLSAG00000000212 vs. C. finmarchicus
Match: gi|592788208|gb|GAXK01166360.1| (TSA: Calanus finmarchicus comp1874_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 60.077 bits (144), Expect = 7.486e-11
Identity = 30/46 (65.22%), Postives = 33/46 (71.74%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            +GG L N IKWNFTKFVV+K   PV RF PT D I KVE+E KK F
Sbjct:  406 QGGFLMNAIKWNFTKFVVDKNGQPVARFGPTDDPIPKVEDECKKYF 543          
BLAST of EMLSAG00000000212 vs. C. finmarchicus
Match: gi|592767108|gb|GAXK01187460.1| (TSA: Calanus finmarchicus comp10997_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 60.077 bits (144), Expect = 1.082e-10
Identity = 29/42 (69.05%), Postives = 33/42 (78.57%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEI 107
            EGG+LG+ IKWNFTKFVV+KE  PV RF P  D I KVE+EI
Sbjct:  502 EGGLLGSAIKWNFTKFVVDKEGKPVARFGPMDDPIPKVEKEI 627          
BLAST of EMLSAG00000000212 vs. C. finmarchicus
Match: gi|592776079|gb|GAXK01178489.1| (TSA: Calanus finmarchicus comp14152_c1_seq1 transcribed RNA sequence)

HSP 1 Score: 53.5286 bits (127), Expect = 6.800e-9
Identity = 29/48 (60.42%), Postives = 31/48 (64.58%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEE 113
            + G L N IKWNFTKFVV+K   PV RF P  D I  VE EIKK F E
Sbjct:  148 QSGFLINAIKWNFTKFVVDKTGRPVARFGPMDDPIPAVENEIKKHF*E 291          
BLAST of EMLSAG00000000212 vs. C. finmarchicus
Match: gi|592840363|gb|GAXK01117181.1| (TSA: Calanus finmarchicus comp303918_c3_seq1 transcribed RNA sequence)

HSP 1 Score: 35.039 bits (79), Expect = 5.470e-2
Identity = 21/51 (41.18%), Postives = 29/51 (56.86%), Query Frame = 0
Query:   68 GILGN-FIKWNFTKFVVNKEEVPVFRFAP------TLDSILKVEEEIKKAF 111
            GI G  +IKW+FTKF+V+++     R AP       L     VE+E+KK F
Sbjct:  415 GIFGTKYIKWSFTKFIVDRKGKVQVRLAPFVYPQQPLSGFPSVEDELKKYF 567          
BLAST of EMLSAG00000000212 vs. C. finmarchicus
Match: gi|592922064|gb|GAXK01036325.1| (TSA: Calanus finmarchicus comp3639924_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 30.4166 bits (67), Expect = 1.665e+0
Identity = 26/87 (29.89%), Postives = 43/87 (49.43%), Query Frame = 0
Query:    1 MTYIAIKNKQEICYHVSGFSKCCDISKYWKLNEIGLTLKIPLSIEDQCTQRI-FEFSLRRPENGA-------IEGGILG-NFIKWNF 78
            M+ I++ +   + + +  FS   DIS +  +    LTL++ LS+E  C   I F F + +  NG        I+  +L   FIK+NF
Sbjct:  288 MSTISVFSSNSLFFTLLRFSNWLDISSFCLVTSSILTLRLSLSLEMDCMSFISFLFLIVQILNGVFKYLICLIQTFMLTFYFIKFNF 548          
BLAST of EMLSAG00000000212 vs. L. salmonis peptides
Match: EMLSAP00000000212 (pep:novel supercontig:LSalAtl2s:LSalAtl2s102:916783:945859:-1 gene:EMLSAG00000000212 transcript:EMLSAT00000000212 description:"snap_masked-LSalAtl2s102-processed-gene-9.2")

HSP 1 Score: 301.597 bits (771), Expect = 7.414e-106
Identity = 147/147 (100.00%), Postives = 147/147 (100.00%), Query Frame = 0
Query:    1 MTYIAIKNKQEICYHVSGFSKCCDISKYWKLNEIGLTLKIPLSIEDQCTQRIFEFSLRRPENGAIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEKLPKFLMTSSTTSFVFKVVANGTTQWYIKRWTLL 147
            MTYIAIKNKQEICYHVSGFSKCCDISKYWKLNEIGLTLKIPLSIEDQCTQRIFEFSLRRPENGAIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEKLPKFLMTSSTTSFVFKVVANGTTQWYIKRWTLL
Sbjct:    1 MTYIAIKNKQEICYHVSGFSKCCDISKYWKLNEIGLTLKIPLSIEDQCTQRIFEFSLRRPENGAIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEKLPKFLMTSSTTSFVFKVVANGTTQWYIKRWTLL 147          
BLAST of EMLSAG00000000212 vs. L. salmonis peptides
Match: EMLSAP00000012945 (pep:novel supercontig:LSalAtl2s:LSalAtl2s988:134097:136027:1 gene:EMLSAG00000012945 transcript:EMLSAT00000012945 description:"snap-LSalAtl2s988-processed-gene-1.74")

HSP 1 Score: 69.3218 bits (168), Expect = 3.513e-16
Identity = 32/43 (74.42%), Postives = 37/43 (86.05%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIK 108
            +GG LGNFIKWNFTKFVV+K+ VPV RFAPT D + KVEEEI+
Sbjct:   23 QGGTLGNFIKWNFTKFVVDKKGVPVARFAPTQDPLPKVEEEIR 65          
BLAST of EMLSAG00000000212 vs. SwissProt
Match: gi|544437|sp|Q06652.1|GPX4_CITSI (RecName: Full=Probable phospholipid hydroperoxide glutathione peroxidase; Short=PHGPx; AltName: Full=Salt-associated protein)

HSP 1 Score: 50.447 bits (119), Expect = 2.496e-7
Identity = 25/47 (53.19%), Postives = 35/47 (74.47%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFE 112
            +GG+ G+ IKWNF+KF+V+KE   V R+APT  S L +E++IKK  E
Sbjct:  120 KGGLFGDSIKWNFSKFLVDKEGNVVERYAPTT-SPLSIEKDIKKLLE 165          
BLAST of EMLSAG00000000212 vs. SwissProt
Match: gi|3913793|sp|O23968.1|GPX4_HELAN (RecName: Full=Probable phospholipid hydroperoxide glutathione peroxidase; Short=PHGPx; AltName: Full=Glutathione peroxidase 2)

HSP 1 Score: 49.6766 bits (117), Expect = 5.930e-7
Identity = 25/44 (56.82%), Postives = 34/44 (77.27%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            +GG LG+ IKWNFTKF+V++E   V R+APT  S L +E++IKK
Sbjct:  133 KGGFLGDSIKWNFTKFLVDREGKVVDRYAPTT-SPLSIEKDIKK 175          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: AAN11562.1 (PHGPx, isoform D [Drosophila melanogaster])

HSP 1 Score: 54.6842 bits (130), Expect = 7.608e-9
Identity = 25/46 (54.35%), Postives = 35/46 (76.09%), Query Frame = 0
Query:   64 AIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            A + G LG+ IKWNFTKF+VNKE VP+ R+APT D  + + ++I+K
Sbjct:  192 AKQTGTLGSGIKWNFTKFLVNKEGVPINRYAPTTDP-MDIAKDIEK 236          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: AAF47761.1 (PHGPx, isoform A [Drosophila melanogaster])

HSP 1 Score: 53.5286 bits (127), Expect = 9.924e-9
Identity = 25/46 (54.35%), Postives = 35/46 (76.09%), Query Frame = 0
Query:   64 AIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            A + G LG+ IKWNFTKF+VNKE VP+ R+APT D  + + ++I+K
Sbjct:  123 AKQTGTLGSGIKWNFTKFLVNKEGVPINRYAPTTDP-MDIAKDIEK 167          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: AAN11561.1 (PHGPx, isoform C [Drosophila melanogaster])

HSP 1 Score: 53.5286 bits (127), Expect = 1.349e-8
Identity = 25/46 (54.35%), Postives = 35/46 (76.09%), Query Frame = 0
Query:   64 AIEGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            A + G LG+ IKWNFTKF+VNKE VP+ R+APT D  + + ++I+K
Sbjct:  152 AKQTGTLGSGIKWNFTKFLVNKEGVPINRYAPTTDP-MDIAKDIEK 196          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: EAA08535.3 (AGAP004247-PB [Anopheles gambiae str. PEST])

HSP 1 Score: 52.373 bits (124), Expect = 2.472e-8
Identity = 21/31 (67.74%), Postives = 27/31 (87.10%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPT 96
            +GGILG+ IKWNF+KF+VNK+  PV R+APT
Sbjct:  122 QGGILGDSIKWNFSKFLVNKDGQPVDRYAPT 152          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: gb|EFA01370.1| (Phospholipid hydroperoxide glutathione peroxidase, mitochondrial-like Protein [Tribolium castaneum])

HSP 1 Score: 50.447 bits (119), Expect = 1.073e-7
Identity = 21/33 (63.64%), Postives = 26/33 (78.79%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLD 98
            +GG LGNFIKWNFTKF+V+KE  PV R  P+ +
Sbjct:  124 QGGTLGNFIKWNFTKFIVDKEGQPVERHGPSTN 156          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: EAA44749.3 (AGAP004247-PA [Anopheles gambiae str. PEST])

HSP 1 Score: 50.0618 bits (118), Expect = 1.998e-7
Identity = 20/31 (64.52%), Postives = 25/31 (80.65%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPT 96
            +GG LG+ IKWNF KF+VNK+  PV R+APT
Sbjct:  122 QGGTLGDSIKWNFAKFLVNKDGQPVDRYAPT 152          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: EGK97029.1 (AGAP004247-PC [Anopheles gambiae str. PEST])

HSP 1 Score: 49.6766 bits (117), Expect = 3.216e-7
Identity = 20/31 (64.52%), Postives = 25/31 (80.65%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPT 96
            +GG LG+ IKWNF KF+VNK+  PV R+APT
Sbjct:  157 QGGTLGDSIKWNFAKFLVNKDGQPVDRYAPT 187          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: NP_001171493.1 (glutathione peroxidase-like 1 [Apis mellifera])

HSP 1 Score: 48.1358 bits (113), Expect = 8.272e-7
Identity = 21/32 (65.62%), Postives = 25/32 (78.12%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTL 97
            +GGILG+FIKWNFTKF+VNKE   V R  P +
Sbjct:  124 QGGILGDFIKWNFTKFIVNKEGKVVERHGPNV 155          
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Match: NP_001171492.1 (glutathione peroxidase-like 1 [Apis mellifera])

HSP 1 Score: 48.1358 bits (113), Expect = 8.272e-7
Identity = 21/32 (65.62%), Postives = 25/32 (78.12%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTL 97
            +GGILG+FIKWNFTKF+VNKE   V R  P +
Sbjct:  124 QGGILGDFIKWNFTKFIVNKEGKVVERHGPNV 155          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|669193605|gb|AII16508.1| (phospholipid-hydroperoxide glutathione peroxidase, partial [Paracyclopina nana])

HSP 1 Score: 70.4774 bits (171), Expect = 6.098e-13
Identity = 35/46 (76.09%), Postives = 37/46 (80.43%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            +GG LGNFIKWNFTKFVV+KE  PV RFAPT D I KVEE IKK F
Sbjct:   81 QGGTLGNFIKWNFTKFVVDKEGKPVGRFAPTDDPIPKVEEAIKKLF 126          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|319738717|gb|ADV59549.1| (phospholipid-hydroperoxide glutathione peroxidase [Paracyclopina nana])

HSP 1 Score: 72.0182 bits (175), Expect = 8.355e-13
Identity = 35/46 (76.09%), Postives = 37/46 (80.43%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            +GG LGNFIKWNFTKFVV+KE  PV RFAPT D I KVEE IKK F
Sbjct:  155 QGGTLGNFIKWNFTKFVVDKEGKPVGRFAPTDDPIPKVEEAIKKLF 200          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|961375902|gb|ALS04695.1| (phospholipid-hydroperoxide glutathione peroxidase [Pseudodiaptomus poplesia])

HSP 1 Score: 62.3882 bits (150), Expect = 1.961e-9
Identity = 32/46 (69.57%), Postives = 34/46 (73.91%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            + G L N IKWNFTKFV+NKE   V RFAPT D I KVEEEIKK F
Sbjct:  116 QAGFLVNAIKWNFTKFVINKEGQAVARFAPTDDPIPKVEEEIKKHF 161          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|1067068062|ref|XP_018024412.1| (PREDICTED: phospholipid hydroperoxide glutathione peroxidase, mitochondrial-like isoform X2 [Hyalella azteca] >gi|1067068064|ref|XP_018024420.1| PREDICTED: phospholipid hydroperoxide glutathione peroxidase, mitochondrial-like isoform X2 [Hyalella azteca] >gi|1067068066|ref|XP_018024428.1| PREDICTED: phospholipid hydroperoxide glutathione peroxidase, mitochondrial-like isoform X2 [Hyalella azteca])

HSP 1 Score: 60.4622 bits (145), Expect = 1.025e-8
Identity = 27/44 (61.36%), Postives = 35/44 (79.55%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            +GG+LG+FIKWNFTKFVV+K  VPV R +P  + I  VE++IKK
Sbjct:  117 QGGLLGDFIKWNFTKFVVDKNGVPVSRHSPKTNPIPDVEKDIKK 160          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|1067068060|ref|XP_018024407.1| (PREDICTED: probable phospholipid hydroperoxide glutathione peroxidase isoform X1 [Hyalella azteca])

HSP 1 Score: 60.4622 bits (145), Expect = 1.388e-8
Identity = 27/44 (61.36%), Postives = 35/44 (79.55%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            +GG+LG+FIKWNFTKFVV+K  VPV R +P  + I  VE++IKK
Sbjct:  146 QGGLLGDFIKWNFTKFVVDKNGVPVSRHSPKTNPIPDVEKDIKK 189          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|155966312|gb|ABU41109.1| (phospholipid-hydroperoxide glutathione peroxidase [Lepeophtheirus salmonis])

HSP 1 Score: 60.077 bits (144), Expect = 1.963e-8
Identity = 28/46 (60.87%), Postives = 35/46 (76.09%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            +GG  G+FIKW+FTKFV++K+ VPV RF+   D I  VEEEIKK F
Sbjct:  139 QGGTFGDFIKWSFTKFVIDKDGVPVARFSTAQDPIPIVEEEIKKYF 184          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|155966240|gb|ABU41074.1| (phospholipid-hydroperoxide glutathione peroxidase, partial [Lepeophtheirus salmonis])

HSP 1 Score: 58.5362 bits (140), Expect = 8.825e-8
Identity = 27/46 (58.70%), Postives = 35/46 (76.09%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            +GG  G+FIKW+FTKFV++K+ VPV RF+   D I  VE+EIKK F
Sbjct:  150 QGGTFGDFIKWSFTKFVIDKDGVPVARFSTAQDPIPIVEKEIKKYF 195          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|1121791156|gb|APP91324.1| (phospholipid-hydroperoxide glutathione peroxidase [Penaeus monodon])

HSP 1 Score: 57.7658 bits (138), Expect = 9.252e-8
Identity = 24/44 (54.55%), Postives = 35/44 (79.55%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKK 109
            +GG LGNFIKWNFTKF+V+KE  PV R++P  + I  +E++++K
Sbjct:  117 QGGTLGNFIKWNFTKFLVDKEGNPVARYSPQTNPIPAIEKDLQK 160          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|1005952894|ref|XP_015784829.1| (PREDICTED: glutathione peroxidase 1-like [Tetranychus urticae])

HSP 1 Score: 56.6102 bits (135), Expect = 3.395e-7
Identity = 27/49 (55.10%), Postives = 38/49 (77.55%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAFEEK 114
            +GG+LG+FIKWNFTKF+ NKE VPV R++PT +   ++E++I    EEK
Sbjct:  127 QGGMLGDFIKWNFTKFLCNKEGVPVKRYSPTTEPN-QIEKDIVGLLEEK 174          
BLAST of EMLSAG00000000212 vs. nr
Match: gi|239938981|gb|ACS36133.1| (PH glutathione peroxidase, partial [Tigriopus japonicus])

HSP 1 Score: 53.9138 bits (128), Expect = 4.356e-7
Identity = 26/46 (56.52%), Postives = 34/46 (73.91%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            + G + N IKWNF+KFV+NKE   V RF+PT D I KVEE++K+ F
Sbjct:   24 QSGFMINAIKWNFSKFVINKEGKAVARFSPTDDPIPKVEEKVKELF 69          
BLAST of EMLSAG00000000212 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold375_size191602-snap-gene-0.36 (protein:Tk05044 transcript:maker-scaffold375_size191602-snap-gene-0.36-mRNA-1 annotation:"glutathione peroxidase")

HSP 1 Score: 53.9138 bits (128), Expect = 1.655e-10
Identity = 26/46 (56.52%), Postives = 33/46 (71.74%), Query Frame = 0
Query:   66 EGGILGNFIKWNFTKFVVNKEEVPVFRFAPTLDSILKVEEEIKKAF 111
            + G + N IKWNFTKFV+NKE   V RF PT D I KVE+++K+ F
Sbjct:   69 QSGFMINAIKWNFTKFVINKEGKAVVRFGPTDDPIPKVEDKVKELF 114          
The following BLAST results are available for this feature:
BLAST of EMLSAG00000000212 vs. GO
Analysis Date: 2014-04-02 (Blast vs. GO)
Total hits: 13
Match NameE-valueIdentityDescription
-2.031e-854.35symbol:PHGPx "PHGPx" species:7227 "Drosophila mela... [more]
-3.866e-652.27symbol:GPX6 "AT4G11600" species:3702 "Arabidopsis ... [more]
-4.360e-546.00symbol:gpx-1 species:6239 "Caenorhabditis elegans"... [more]
-4.360e-546.00symbol:gpx-1 "Glutathione peroxidase 1" species:62... [more]
-1.472e-450.00symbol:gpx4a "glutathione peroxidase 4a" species:7... [more]
-1.482e-447.73symbol:GPX3 "AT2G43350" species:3702 "Arabidopsis ... [more]
-1.718e-447.73symbol:GPX4 "AT2G48150" species:3702 "Arabidopsis ... [more]
-1.791e-442.31symbol:gpx4b "glutathione peroxidase 4b" species:7... [more]
-2.613e-445.45symbol:GPX4 "Phospholipid hydroperoxide glutathion... [more]
-2.919e-447.92symbol:gpx-7 "Glutathione peroxidase" species:6239... [more]

Pages

back to top
BLAST of EMLSAG00000000212 vs. C. finmarchicus
Analysis Date: 2014-05-09 (TblastN vs C. finmarchicus TSA)
Total hits: 5
Match NameE-valueIdentityDescription
gi|592788208|gb|GAXK01166360.1|7.486e-1165.22TSA: Calanus finmarchicus comp1874_c0_seq1 transcr... [more]
gi|592767108|gb|GAXK01187460.1|1.082e-1069.05TSA: Calanus finmarchicus comp10997_c0_seq1 transc... [more]
gi|592776079|gb|GAXK01178489.1|6.800e-960.42TSA: Calanus finmarchicus comp14152_c1_seq1 transc... [more]
gi|592840363|gb|GAXK01117181.1|5.470e-241.18TSA: Calanus finmarchicus comp303918_c3_seq1 trans... [more]
gi|592922064|gb|GAXK01036325.1|1.665e+029.89TSA: Calanus finmarchicus comp3639924_c0_seq1 tran... [more]
back to top
BLAST of EMLSAG00000000212 vs. L. salmonis peptides
Analysis Date: 2014-05-10 (Blastp vs. self)
Total hits: 2
Match NameE-valueIdentityDescription
EMLSAP000000002127.414e-106100.00pep:novel supercontig:LSalAtl2s:LSalAtl2s102:91678... [more]
EMLSAP000000129453.513e-1674.42pep:novel supercontig:LSalAtl2s:LSalAtl2s988:13409... [more]
back to top
BLAST of EMLSAG00000000212 vs. SwissProt
Analysis Date: 2017-02-10 (Blastp vs. SwissProt)
Total hits: 2
Match NameE-valueIdentityDescription
gi|544437|sp|Q06652.1|GPX4_CITSI2.496e-753.19RecName: Full=Probable phospholipid hydroperoxide ... [more]
gi|3913793|sp|O23968.1|GPX4_HELAN5.930e-756.82RecName: Full=Probable phospholipid hydroperoxide ... [more]
back to top
BLAST of EMLSAG00000000212 vs. Select Arthropod Genomes
Analysis Date: 2017-02-20 (Blastp vs. Selected Arthropods)
Total hits: 9
Match NameE-valueIdentityDescription
AAN11562.17.608e-954.35PHGPx, isoform D [Drosophila melanogaster][more]
AAF47761.19.924e-954.35PHGPx, isoform A [Drosophila melanogaster][more]
AAN11561.11.349e-854.35PHGPx, isoform C [Drosophila melanogaster][more]
EAA08535.32.472e-867.74AGAP004247-PB [Anopheles gambiae str. PEST][more]
gb|EFA01370.1|1.073e-763.64Phospholipid hydroperoxide glutathione peroxidase,... [more]
EAA44749.31.998e-764.52AGAP004247-PA [Anopheles gambiae str. PEST][more]
EGK97029.13.216e-764.52AGAP004247-PC [Anopheles gambiae str. PEST][more]
NP_001171493.18.272e-765.63glutathione peroxidase-like 1 [Apis mellifera][more]
NP_001171492.18.272e-765.63glutathione peroxidase-like 1 [Apis mellifera][more]
back to top
BLAST of EMLSAG00000000212 vs. nr
Analysis Date: 2017-02-20 (Blastp vs. NR (2/2017))
Total hits: 14
Match NameE-valueIdentityDescription
gi|669193605|gb|AII16508.1|6.098e-1376.09phospholipid-hydroperoxide glutathione peroxidase,... [more]
gi|319738717|gb|ADV59549.1|8.355e-1376.09phospholipid-hydroperoxide glutathione peroxidase ... [more]
gi|961375902|gb|ALS04695.1|1.961e-969.57phospholipid-hydroperoxide glutathione peroxidase ... [more]
gi|1067068062|ref|XP_018024412.1|1.025e-861.36PREDICTED: phospholipid hydroperoxide glutathione ... [more]
gi|1067068060|ref|XP_018024407.1|1.388e-861.36PREDICTED: probable phospholipid hydroperoxide glu... [more]
gi|155966312|gb|ABU41109.1|1.963e-860.87phospholipid-hydroperoxide glutathione peroxidase ... [more]
gi|155966240|gb|ABU41074.1|8.825e-858.70phospholipid-hydroperoxide glutathione peroxidase,... [more]
gi|1121791156|gb|APP91324.1|9.252e-854.55phospholipid-hydroperoxide glutathione peroxidase ... [more]
gi|1005952894|ref|XP_015784829.1|3.395e-755.10PREDICTED: glutathione peroxidase 1-like [Tetranyc... [more]
gi|239938981|gb|ACS36133.1|4.356e-756.52PH glutathione peroxidase, partial [Tigriopus japo... [more]

Pages

back to top
BLAST of EMLSAG00000000212 vs. Tigriopus kingsejongenis genes
Analysis Date: 2018-04-18 (Blastp vs. Tigriopus kingsejongensis proteins)
Total hits: 1
Match NameE-valueIdentityDescription
maker-scaffold375_size191602-snap-gene-0.361.655e-1056.52protein:Tk05044 transcript:maker-scaffold375_size1... [more]
back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
LSalAtl2s102supercontigLSalAtl2s102:916783..945859 -
Analyses
This gene is derived from or has results from the following analyses
Analysis NameDate Performed
ensembl2013-09-26 .965016
Blast vs. GO2014-04-02
TblastN vs C. finmarchicus TSA2014-05-09
Blastp vs. self2014-05-10
Blastp vs. SwissProt2017-02-10
Blastp vs. Selected Arthropods2017-02-20
Blastp vs. NR (2/2017)2017-02-20
Blastp vs. Tigriopus kingsejongensis proteins2018-04-18
Properties
Property NameValue
Logic nameensemblgenomes
Descriptionsnap_masked-LSalAtl2s102-processed-gene-9.2
Biotypeprotein_coding
EvidenceIEA
NoteProbable phospholipid hydroperoxide glutathione peroxidase
Cross References
External references for this gene
DatabaseAccession
Ensembl Metazoa (gene)EMLSAG00000000212 (primary cross-reference)
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameSpeciesType
EMLSAT00000000212EMLSAT00000000212-696059Lepeophtheirus salmonismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at LSalAtl2s102:916783..945859-

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>EMLSAG00000000212-682978 ID=EMLSAG00000000212-682978|Name=EMLSAG00000000212|organism=Lepeophtheirus salmonis|type=gene|length=29077bp|location=Sequence derived from alignment at LSalAtl2s102:916783..945859- (Lepeophtheirus salmonis)
ATGACATACATTGCGATCAAAAACAAGCAAGAAATTTGTTACCATGTTTC AGGATTTAGTAAATGCTGTGATATTTCAAAATACTGGAAGTTAAATGAAA TAGGTCTTACTTTGAAAATTCCACTGTCGATTGAAGATCAGTGTACTCAA AGGATATTTGAGTTTAGTCTTAGAAGACCTGAAAATGGTGCAATAGAGGT TCCTCCTCCATTAAAGGAGAGTAGAAGTATAAGAAATGTTGCATTAAAAC AGTTTCTTATTTTGGAATTGAAATTGAGTAATATCCTAGCTATAAAGATA TGCATGTAATGGAGAATACGTTACGGGATAGATATGCGGAATTTATGCAT GTTGAATAACTTAAATTGGCATATAAGTCCAAAGATAATAACATGCCTTA CCATGGAGTATTGAAAGAAAGCTCAATGTCTATGAGGTTTTTGAAATGTA TTTGATGGGTCAATACTCTCATAGACGAAGAATTCGCATAACTTTTCCTT GATGGTATGTCCTAAACTTCAATAAGATCTTTTAAATCTTTCATACCGTT TGGATTTTTTAAGATAGCTCTTGTTGCCCACATTTCGAAAATGTAATTAA AATTTGTGTTTCTGTGGATCAGAGGAATATTTTGTAATTTTTTTTAAAAG AGAAGAAGGAAATTGTGATCTGAAAGAATACAGACCCAAAGACTTTGTAC CATTTAGTGCTCCACATTCTTCTATTGAAGTAGTTCTGTGGAATGCCAAA AATTTGTCTTTACAATTTCTTCGTGACTCCACAGTTACTGTTGAGGACAT GTATGTCGACGACATTTTTACATAGGCAAATAATGAAAGGGAGGTTGATC AACTTGTTGATGATTTAATTAGACCATTTGGTTAAGTAGGGCCCTTCTCG ATGGAAGATCTACATTGACAATAGGGTTCAAAATATTGGAAAAAGCTATG ATGAAAACTGTGGGGAACATGTTTCTATACATGGAAATACAGCTGATATT GCTTGTCGAGGTGTACTGCTCGAAGAGTTTGTCAAATCAAATATGGGGAT GAAGCGKCCCCCGTTGTTATATCTGCCGTCATATAAACGGGAGATTTCTG GGGGAGTGGTAAACCAGGATGACAAGATTGAATTAGATAGAGAGAAAAAG ATGGTGGTGTTAAATAATGTTAAAAGAATTAACTGTTTTGTCTCAAAAAC TAATTAGTTGGGTTTGTAATTGGAATAAAATGGTAAGATACACTGTTTAG ATTATACATTTTATTTTTTGGTTAAAAGGAAGAAATAACATTTTTAATGA AGTATTTTCTTTAGATTGAAAATTAATTTCTTATAGATGTTCGATACGTC TTGAACAGATACGTTATATGGAAGATATTATTAAGAAGATCCAATCAGAT GAAGAGTTGGATATTAAATGTAAACTTGTTTCTCTGAGCCCTTATTGGGA TATGTACGACTTAATCATCAATTTTGTGGAAGATTGGGGAAAGTTGGGTT TTTCTCAAATGATAAAAAACTTCTAATAGTTATCCAAAAGAATCATTGCT TACTTCTAGGATTATAGCTTTTGAGCATATTTAATTATTAATTGCCGTAC TGTAGTGTGTTTGAATGGATGCTAGTTGTCACAATATCCATTTCGGAAAT GTATAACTTGCCAGATAACTTTTGTTGAAAACGAGAGCTCAGAAAATGAG AGAAATTCCAAATGTTTGAGCTTAGATTGGCCCTCCTTTCCATATTACAT CAGTAGATTATGCTGGTCCCATAATGATCCGAGCTAACAAGAAGAAGCAT ATATCTGCCTTTTTGGAGATATAGTTACCCATGCTGTTCATTTGGAGCTG GTTAACAGTCTTTCCACTAAGAACTTCTTCTTTACATAAAGGCGATTTAC TTTTAAACGTGGGATTTCATATACGATATGGTCCGACCATGGAAAACACA TCTTTGATCATCCAGAAAAGTTAGATGAGATGTCGTATGGACCCTATACT AGATGGATAAAGTTGGGTGGTGTTCTTCAGAGAGTTAAGGATCGATGGAA GAGAGAATATTGAAAGTTCAGCAAGGGATATCTAAATGGAAAATTAAATA AATAAATCTGTCTCCTTATTTAAAAAGATAAGGCATTTCATGATTGGCCT ATCGTTTCTATTCAGAAGACAATATTGGGATCGGATGGMTCGATGAGAAG MGAGAACTTCAGATAGATTAACACTACATCGTCCATCTAATAAACTAACA ATACTTATATTTTTTTGTGATGAAAACAAGTAGTTTGTCATTGGGGGGGG GGGGGGAAGGAGTATGTTAGAGATAGTGTTRTTAGAACCTTCAAGGGGGT TTGTGCTTGCTTATATATTAATTGTTCGATGTTCTGCATTCCTTGTTTTG TTTATAGTCATGCAATACTTTTGTAATTTGTAGTTTTTTGTTTTTTTCTC ATTTATTAGTAATGTTAATAAAAACTTCATGGTGAAAGCCCAGCCACAAA TTTGGAAGAGGGCATTCGGTTCTTTTCTTACCCATAAATAAAATTAAGAG TATAACGAAAGTGTTCTATAAATTTTTTTCTATTAAAATCTATTTGTTGA CAGATCTCTGATAAATATTCCAATTATCTTCATCAAAATCACTGCATTTC CCGGTTATACCTTAGTTTTTTACTCTTCTTCTAACCTTACAGCTACTTAC TTGATGCTCATCTTCAGGCTTTCAAGAGTAATTTGATCAAATATAATTAT TATTGCTTTTGACGATTTATTCTATTTTTCTTAAAACTTCCGAAAATAAT TCAGTAGAACTTTCATTCTTGGAATGAACCAAGACTCAGAATTACCATTT AAAGTAACATAACAGTCAAAAAAGTCAAATATATGTTGAGATCCCGGGAA AAGTTCAAAAAATTGAAGGTAGCTAAGGAGATAAATCAATGTTAGGGGCG TCTTTATCGACAACACTTGATTGGATTGGATCAAAAATAACTATTGGATT GCTCTTTAGTCCATCCCATAAGTTGAATGGCTGCTAATGTACACACAGTT TTAGAAAATGTATCTTTATAAATTATTTGACATCTCTTAGAATTTGTCTA TGGGAAATATAAACAAAACCTTTTTCGAGGTATATAGCTACTATCGCTGC AAACCTATTTCTTCATTCAAATGTATCAATCGAAGCTTAAATATTGTTTA GGAAAACTTCAAAGGTAATTCCGTATCAATTAAAAACTCTATTTGATTAA TAGAAAACGGTAATTGGTCTCTAATGGTTTTAATTAATCCCATATCCATT CATTAAAATTTGTTCTCCCATTTGTCAGTAATTCATATAGTAGTCCAAAA AATTATTTAAGCGTGTAAATTTGATAATACAGAATACCTTTAACAATAAA GTTCAAATATACTATCCCAAGCTATGGCTACAAGCTTTACAGGGTTATAA ATACCTTTTCATACAGTTCAAAATACTTTTTTGAAAATTTATAATTATTT TGATAAATAAAATTAACCAACTTTTTGGAAAGTGAAGACACAAAAACATT TTTAAGATTGGCACTTAAGACTAGGGAATTGGAGCTTAATCAGAATGCTG TGAATTTGCCAGATATATGGAATATAGCAAGTATCTACCATTATTTTACG ACATCGTCATAATCCTTCCATCAAAGGAAAATTAATACATAGAAATTCGA ATTTAAAATCAGAGTTTAGGTGCATTAACTCTGCATCACTAAAAATGCAA TTCTTTTTTTTAAGAATGTTAAGCTATAATTTTTTAAAACGCTTTCATCA AAGGTTTATCAAGTGACTCATCAAAAGACTACAAAAGATAAAAACTGGAT ACAGAAATGAGAAAGCAGCCCTGAAATTATATGAATTTAGTATTTATCCC TCATCGTTATTGTTTGTGTCCCATAACAAATAAAATATGATCAACAAATT TATAATCTTTTTTATAACATCAAAGTCGACAATAAACCATCCATGAAACT GTCCAAATTCTGAAAGAATTCCAACCTTGGCTATCGAACATAAGACATAT CAAATCCACAAAGAAAATATATAAATACAATTAAATTTTCATGGTGAAGA AAATAAAAAGTCTGAACAATCAGCACATTACTCAAAAACTGAAAAACAAA TTATTACTAAATTTTCACAGTTGCCTTTTCAAGGTTGCTTCAAACTAAAA AGGAGGTGAATTAAATAAAGGCCATTTATACACTATTAAGCCTATTTGTA ATGAATATATAAATATAAAATGTAATTGAAATATGTATTATTTCTTCAAA TAAGGAAATATGAAATGGGCGTTGCTGTTTTTTTAGTAGTTCGCTTTTAT AACCACGGATAGCTTCTTTGTTTTCATGTAATATTGTTTTTTTTTTTTTA TAATACTCTTTAGAATCACAATTTTATACAATCAACAAAATTAATATAAT TAGGAAATGATACATAGAATGCGTTGTAACAATTAGGTACTGTGGAGGTG AAAATCCCTCCAAAAATGAATAAAGAAAAATACTCTCCACGCTTAACTAA AGTAGTCTATGAGCAACATGAAACGCCTAGAGGCGTAAAACTGAAAGAGG GTCACTCCAAAGAGACTCCTCTTTCGAAGAGACCTCAAAACACTCGAGAA CCTGAAAAAGGGATACAGGACAATCAAAAAACAAAAATTTTATATGCAAA TATTGCAAAAGTCTCGAGTGAAGTCATTATCGTTCGAAGGTACTGAGACC ACATGTTCCTCATAGAATGCATAAGGTAATAAAAGTTCTTGACACGGGCT ACGTTCGCCGTTTATCTATTCCAGGAGAGGAAATTGTCCCTAACTACGAA GGTCGTAGATATACTAACACTAGAGGATTTATCTATGTTAAAGATGATTT TTCAGGTACGTTCAAAAAAGCATTTCATCCTGCACATCTCTCTTGCCAAC CTCATGGGCAGAGGCAGGGAGGATAAGATAAGAAAAGCAAAAAGAAGACA AGAGGCTCAAAGGATTTATCTGCGGAGTCACAGGTGACATCAGGAGAAGG AAATACTTGATAAAATAAAAACACATCAATGCAGCCCCCTTGGTATAGGG GGGAAAGTTGAGACAGTAAGATCCGAGCTAACCAAATTAGGCAAAAAACG AGACATCTGTGTTGATCCTTTGACCTTAAAAAATATGCAACCGTCAATTT CACTTATCGAATTGTCTCAGCTGGCAAGGTACAGTTCCAAGATCCTCGAA GAGCACCTATTATTGAGCAAGAGGAAGAAGAAGCGGAAGAAGACATGCAG CAAGAGACAAAAAGTAAAGAACAACTACAGCTAATTCGAAACAACAATGA TTGTGCCCCTGGGGAGGATGATGTCATCAATAATGAAAATACTACTAATG AAAATTCTGATGAGGTCGACAGGTTTACTTGTGGAATCAGTAGAGACAAA GAGGACAAACTAGATCCTAATAGAACTTAAATAACCAAAGAATACAATCC AAAATATACGGAAAGAGAAACAAAAATAAAACATCAAATCTTACAACTGG GACATCAAGCCTGGCTGAAATAACGCTTAACAGAAGAAAACTTCCAGAAA TCAGACAAGAATAGATACGTTCTTTGAAACGGCGGMTGAAGMTATGATTG GCTCACCACAAAAWCCTAAAAAATCAACWGCACCRACATCAATATACAGC ACTTCAGAGCATCCAACTCTAAACTTAATTTGAGAACATCTCAAATAGCC ATGATAACAGAACCTTATCTCATCAAAGGCACTACAAATCCTACACTTAA GGGGAGGTACAATTCACAGTAAATTGGGGTCAAACCCAAGAGCTTGCATA CAAACGGCCGACCACTTAAATGTGTGGTTTGTTCCTTAATTCTCCGATAG GGATGTTTGCATAGTTTGCTTAAAGGTTGATGAGKCCATCCTCTATCTTT GTGTAGCATATCTTGATCAACTCCTATCAGTTGACAACAAGATGTTGTTG AGCAATATTAAATACTGTAATTGCCATCATAAACCAATTCTCRTAGCCAT GAACTCCAACTCTCACAATCCTATCTGAGGGTATAAAAACGTTGACTCAT GGGGTCTTGAGAACATCATTGAAGAAAATATCCTTATTAATTAAAAAAAA ATTGCAATGAACCGACTTATGTAACTCAGCGAGCCTGCTCTATAAAGAAC ATTACTATCATGAATCAGCATGCCTATGATATATAAGATATTAATTGTTG GCATGTAGATCTTTGCCATCAATGTCGGKCCACCGATTTATCGTTTTCAA TTTTGGCAAATACAAGCTACTAACCGATCAACCAAGGAACCTTAGGAAAA CCGACTGAACAGCTGTAAGGGTTTATACAGATCCTGCATCCCTACCTTCA ATACGTCCCTGCGCCAGCAGTATTGACCATTGTACTGAATCAATCTACAT GATTATAAAGAATGCGATAGATATTGCCTGGTTAATTACAATAACTTTAA AAGCTAAAGCAGTGGGAATAATGGTGGAATAAACGTCTTGCTAGATTGAG CCATAAGTTTAGAAAACTTTAGCAAAGCAAAATCGATCTTCTCACTGAGA AGAGTATCTGATCGCCAAAAATGAATATTGCACAGTAATCAGAAAAGAGC AAAAATACTCCTTAAGGTAATTATTGTAGTAGCACAGGAGGCCCAAAAGA CATTGCAAGTCTTATTAGAATTCAAAAACCAATCTCTGAATCAATTGGCT TGTCAATAGAGCAGGATACACTCAATCGCCAACCGAATATCTTGAAATAC ACTTGGAGACCCATTTCCCATTATGCAAAATCAGTTCAAAATGTAAACCC ATTGCAATTCACCGCCTTTGATATTGTTTTCATGGACAACGACAAAGTAC GAGAATCATTGAGGTTCTTCGGGCTTACAAAAGCTGACGATCAGATGAAC TAATGACAACTATCCTACATCAGGTAGGAGATAACACTATTCAGTAAATT TGGAAACATTATACAGCGATTCTTAGTACAAGCTACATACCCCACAACTG GAAATAAATTAAGTCTTCTTTGTCCGGTTGCTAAATCCGCGTAAAGATGA CTACAGCTTGGCAAAATCATTCAGACCATTACTTTGTTTAGCTTCTTTCT TAAAGGTCTTGAGATAATCGTTCAATGGAGAGTTGAAGAACTAATTCCAA TATTCTCCTCACAACATCCCTATACAAAGGGATTATCAACATAAACGGCT TTTTCACAGGTTACAGATATAATTGAGAAATCAAGGTAGTAAAATCAACG TACACTCACGGTCCGCTTTGATTGTACTGGGACATTTAACTGTATTCAAT TCAACTCAGCGAAATGAGCAATGGGAAAAATGGGAATACCAGATAGTATC AGATCTTGGTACAAAGAACTCCTTAAAAGGTAAACAGTGACACCTGAACT TAAGGTAGAAAAAGTTAGCATAAACCCAACACGGGGTAGTCCTGAAAGAG GTGTGCTTTCACCTATGATATGGAACATGATCATAGACACACATTGGAAT ATTTTATAATAACGCAGTCAAAACTGTTGGCTATGCTGATGACATCCTTC GACTAATGAGTAGAAAGCATCCGCATACCTTCGTTAGCAAAATGCAAGAA GCGATCAATACTGTTTGAAAATGGGAAAGAATGAATGGTTTTATTTTTAA CCCAGACAAAACTAAATCAGTTATTTACTCAAAGACATATAAACTGTGAT CTAAATACTTCCCATGACTAGAAATGGGCGGGGAACTCATAAATTTTTCA TCACAAACGAAATAACTTGGTGTTTTATTTGATCAAGGACTAACTTGGAC GGAACACCTCAAAGAAAAAACTGCTAAATGCAGTCGTCTGTGGAACATGG CCAAAGTAGCGATTTGTCAAAAGTGGGGTTAGACCTCAGACAAAGTTTTA TGGCTCAATGAAGCGATGATTAAACCCATAATTTCCTACAAAAGCCTTAA ATCGGGCCATGCTATTATAGCAAACAAAAAGAGAAAGAAATATTCATTGA ATGGTGCAGAGGTCACAATGACATCACAAGTAATGAATTGGCGGGTTACC TTGCAAAGGAGGAATCTCTTTTACTGTAGTGACACCCGTTGTGTGGTGGT GTTCTTCACTTTTATGTTTATTATTATTTTTTTTATGGCAATTGCAGACA GTAAATAAAATTTTTCCTTAAAAATATTGCCCCGATGAATACAGCTTCTA TCTGACCACTTTTTAAATAAACTATTCCTCATATGTCTCATTTTTAATTA AGTTTCGAGAAATACTTAACACCTGCAGATATTATTAATACGATATTATT TTATATTTAGAACGCCTTATATGTACGTATTTATAGATGATTGTCGTAAT ATAGTTATAATGAAAAGTTATGACCGATTTATTGTTTTTTGATAGAATAC TTAATGAGTTTATATGAATAAAGGAAATGTCATGCTATGCTATTTCTAAT AATATATGCAATTTTCATTACAATAATGAAAGAATAATTAAATACTTGTG TCTATCAAAAGCAAACATTTATTGCTTTCAAACAAATGTTAAAGCTGGAA AATTATTCAATATTTTTTATCGTAATTTTGTGGCCAGTTGGTAGTTGGTT GAACTCGCAAACAAGGCTAATAATATTCTGTAATTGTATTTATCTACTGT ACATACCTATAAAGAGCTACCCAGGCTACCCAGAATTGCTCAGACAATGG AGGGAGCTGGAATTCGTTTGTCTATCCTCATTATTATTTCTAAAAACTTA AACCCTCTCAGTCTGGGCAAGCATTATAATATAGCGCTTGTGTATTATTT ACAATGTATTATTATAACTTTAAAAAAAAGTTTTCTGAACTTCAAGTAAC ATACCAACATATATGTAATAAAAAATTTGTCGAAATGATAAGGATGTTTT CAATATTTTTGTCAAAAAATTGCCAAATCAAAATTTGCGAAGAAGATTAA GAAAAAAATATTTTGCACTAATTTTTTTAATAAAAATAGATATAAGAATT TATGGAATTAGAAAGAGAAACACAAACCTTTCAAGTTTTCTTTGATACGC ACAAAAAACAAAAGAATTATGATGAATAATGTGACCCAAAAAATAATCCT TGATAACTGGTTTATTTTTGAAAATATTACGAAAAATAAAGTTCTGAAAA TTAAAAAAGAAGTATTATCCTATTAAAAAAGGTAGCTTGCTTTGTATTTC TTCTTAAAAAGAGAAAAGTGACAATTGATAAAAAAAGATAAAAAAATAAA GATTTATTTAGAAAATGACAGATATTTAACTAAAAATCAATATTTATGTG TCAAATTTATATTGAAATGAATCTATAGACCAATTTCTACAATCTTTATT TATTCTACAAATTGAATATTTCACTAAAATCTATTTTTTTGCACATGAAA AAAAAAACTTAAACGAACTGCTAAATTTACCGATTCTTTATTTTGCGAAT AACTTTTTAATTTAGATTAAATTTAAAAAACTGGTTTTTTTTGTGTATTT GTATTTGAAATGCACGTCATTTTTGATTTCTAATTCAACCACTTACCTAG TCTCCTAGAAACGCTAAAAACAATTTTGTTTTTTTAAATACAGAATAAGT CCCCTTATTCCCATTGAAAATAGAGAATCCAATCTTATCCAGACTAAGTT AATTAGAAAAACCCATGCAAAGTTTTTGTCTTCTTAGCCCAACCGTGTGG GAACCTATAAAGAACAAACATAACCCCTAAATATAACACATATTTAGATA TTCAAATTACATATCAACAGTTATCAAGTATTTTTTGTACATATATTAAT ATTTTAATATATGATTGTATGCTCGGTGGAATACTTTTTTTAATATGTGG TACTCGGGCCTTTACAAGACTTAGTATATGAAATTAAAGTACCCAAGTAT ACATCTCTTCGATTGAGAACGTAAGACAATTTTTTGAGAAAMCAGACTAC TCACCCTTCGATAATTGTGTTTCAAAATCATCTTGNNNNNNATAAGTTTG TTAGGTAACAGTGAAGACAAACAATATAGATCAATATTTCAAGACAATTT GGGATCCAGTCTTCAATCAAAGGGAAAATTACCTGAAATATTGCATATCA CTGGAAGTTTTCTTTACTGGGAGACATTTTAATGACTCTCAGGCGCATTG GGTGGATTGCAAAAAGTGAAGACAATCTGTCATATATTCCAGGACTGTGT GACTCTGTTAAGCATCATAGGGAACGTTGGGAAAGGTGTAGGAGAGAAAA TAGGAAGAAACCCTGTTCTACATTAGCTTTTGTTCAGCTTGGAAGGAACC AACGAGGGACTCACTTTGGCATCGAAGGTGATATGCAAGCTCCGATCTCT TATCTCTATGGTACGATTAGTGGTATCTGCCCTTCACTAAGAAGAATAAA GGTGGCTTAAGACGAGTTTAAATTAACCAAAATAAAAACAGACTTTTAAT TTCTTTAATATGATGAGAATGAGATCGGGGAAGCAAGTAGAGGTTTGAAA TTTTATTTACAAGTTAAATAATACAGATGAGAAAATCTTACATCTGAGCA AATAATTTGCTCAAAACAAGCCTAAAAGTATTTGTAGCCTTTACCACGTC TAAGTGGGATACTTTGTTTCAATAATTTATGATGGAGGTCTTTACCAAGT CGATGCAGTAGTGTAAATTGGCAGAGTCCTTCCTTCTTAACTCCTCCTTA AAGAAATAATCCGTCGGATTCATATTGGCAGAGTAAGAGGGTTAGGTTTT AGTGTCCCAAAAAGGCACCTTCCCTTCTTTCAACAAGTGGGGGGTGTCTT GCAGGGCANNNNNNNNNCAAGTCTTAATGAAACAGGAACTCGAAAACATT GGCCTGAGCTTTCAAGGTATCATTTGAATGGACTGGAGTTCAATGTACCT GTCGGCACCAATCCTCACTTTTGGTTCAAAGAAGATGGGGGAATTACACT GCTATTGCTTTAAAAGAAACCAAAGGTTATGATGCTGGCGGAAAACTTGG ATTTTTAAATAAGTTGGAGACATTAACTCGCGGTGCCCCCCCCCCCCCGG CAYCTGTCCTTGCGGATGTTGTAAGACTGTCAACAATTCATTATTTCTTA TCCGATTAAAAGATAATTCGGTTACTGTGGGACTTCAAATCATTCCGTAA TTTTCTTCCGCGGGTAGCACGGTAGGCCTTTACTTTGTAAGTAAGGATAT TTATTTTGTAAAGGGCGTATGAATTTATAGTTAGGCCATTGTTTATGGTC ACGCAGACTCCGAGGAGATGCCCTCACAGAACGTTATAGGCCTATGAATA ATCAGAGATTTTGTTTTTTATCAATCTGGGACTTCTTTCTTTTTCTGATA TTCCCTACACCTTCCAGCTGTTTTAAACGTCGTAGACTGAGCTTTTTGAA TACCCAAGGATATTTTTAATGTACTGGCTCTTTCCCTTGYTAGCCAATAA GATTATGGTGTACCTCCGGGTGTCCTCTATCCCGAATACTTGTTTTGAAT TAAAAGTTGCACAAGTAACTTAAAGACAATACTCAACCTCTTACTTTAAA ACTAAAGCAACCTAGTTAAATGCTTTCCATATTGTCTAGATTAAACATGT TTTGGATTTACCTAAACGACCTTATAAAACTTCACAAATAATCCTCATTG TTATTCTTTCATACACCATTTTATTACTTAATACTTATTAAATTTTCATA ATAACTAATATTATTTGCCAACAGGGGCATTGCCCAATTGTTCCCTTCAG AATGAGGATTATAATGCTACTGGTGTTCTTATTTAGAACATACTTTTAAA CTATGTAACTTTGGCCACTTTTTAGAACTATCTAAATTGGTAGAGAATTG AAAGATACATTTGTATGTAGGTCTATAAATACTTGTAATATTTTTTTGTT AACCTCTTGAGAAAAATTGCTCATATATAAAAACTTACGGGAACTCTAGA AATGGGAGCCAACTTTTATAGAGACTAACGAAGAAAATACCTTGTATAGG AAATATTTGGAGATGACATACCATTTTTGAGGGGATTATTTAAAGATAAT GTGGCTTATATAGAAGGTAAAACTTTATTGGAGAGTACCTTCTGATGTAA ACTCGATAAGGATGATTTGTTATTTTTTTTAATAGCACTAGTAATGAGAA GATCAATGCTATGTTAGCAAAAACTCAGTATGTCTAATATTTGATGAAAA AAACAGGGGAAAATGGCAAGTTATTGATTCGTAAATATTGTAGAACATTA AATAAGTTTTTTTTTTGTATATAAATGTATTTCATTTTAGGATATTTTAT TAACTTTTTGTATAAATAATGTTTTTATGTTGTAACATTGGAGCTTATAT ATTTTTTTATATGCTTGTCAAAAAATGACATTTTGATGTAGTTATAGTTT GATAGATTCATTATGTATTTTTACTTTAAATGAATGCAAGAAATAAAAAA AAACTAAAACATGGTTTATTCAAATTTTGATTAACCAGATTAACAAAGAC TCAGTTAAATATCCAATTTCAGGTTCATCGGTTTCACTGTTTGCTAGTAT TCCTTAAATATCAAAATTGTTATACATGTGTACATACACGTTTTCTACAG ATATAAAGATATAGAAACTAAAGTAATTATTAAAAGTGTAAACCTACAAC ATGCATACTTTTGATCACATTATACTAAACCAAGAATATTTTTAAAATCT AAATAAAAAAACAATTAATAACAATATATGTAATTTATGATTTCGAGGAA TAAAATTAATTAATATTTTAAACCATATATGTTAGGGTGAAGTTAGTTCC CAAAAAATTCTTAAATTTTGACAGATAATTTTTAACTTATTTGGCATTGC ATAAGGACCTAAGATCCATGCAATTTTATTGACTTGTATTAATATTTGCC TTGACAGAAGGATAATAAAATTTTTGAAAAAGTTTAAAAAAAAACTATGC AACAAAAATGTCAAACAGCATGATTAAATTAGGGAGAACGTGATTTGTAG AATAAAGAAATTACAGTTCAAAACCAACTTGTGATATGCTTCAATACTAT AACTAGCTCTATTTTTATTCAGTATGTCCTCCTTTAGAAGTATTAACAGT CTTGGCACGTCGGCGAACAGATTGGGAGCCCTAGACTACAGAACCAATGG CGTATCACGCTGGCATGATGTAACTTGGAGAAATCGATTTTTAGATAGAT GTACGGCAGACATTTTTCTTCAAAAGAACCCAACTGCAAAGTCTACGTGG TTAAATTCAAGTCTGGAGGAGGGGCACATAAAGGCAGACCAAGAGCCAGC CACATATTTGTTGCAATAGTTTTTGGGGTTTCTTGGTTGTATGGGGTTTG ATGAACTTACTGATGTTGTAAGCAGTCCAGATGGAGATGCCAACAGTCTA TACAGCTTTCGTGGCACTCACATGAGGGCGGAGAAGATTGAAGAAGCGTT TACTTTGATGTTGGTCTTTCATTTTTTTTACATTAACAGACAAGGGATAA TAATATAGCCAGTTATGTATTTACCCCTGTTTATCTCTTAGTCAAACGGA TTATGGCAAAAGTTAAGGATCGATTTTGATGAAACTTGGTACAAAGTTTA TATATGTTCACAGTAAATTTTGTGATGTCAAAATTATACAAAATGTTAAC ATTGCATAATTAGACATAATTTTGGAACAAATTGATTTATGTCACTCAAT TTGATCTTAGACGCAGATTTTGTAGTGTACCAAGTGTCCATTCTAGTTTG TTTTCGTTTCAGCTGTCGTTTGATATAGTAACTAAGCAATACGTTGTAAA ATTGTAATTTAATGCTAATGGATATTTTAAGGTTTTTTTAAAAACTCTAA TAGTTTAGTTCATGAACCATACATTTTAGAATAATATGTAATAATAATAA ATTATTCATACTAATTATACAAAGAATTTTCCTTTTTTTCAAAATCTCAA AGGGAGTTTCAAAACAAGTTAATATTTCCTTCCTTAGCAATGAACAATAG GCTATTATAATTTATATAATCAAAACACTATTTAGAGGGTGGATTAACAA TGTTAAAATCAATTCTTTTAAATATTTCTCCATCTACTTTAAAATTTAAT GTTGCACAACATGGATGTAAAAAAAATACATTATTGGCTTTAAAATGACA AAATGTATGATTTGAAATATTGGTATGTTTCAATAAAAAAGCACAAATGT GTTCATTTGACCTAGATACAAAGCCAATAAAGGTCATTTTTCCTTATACA AACTTGAGAAATTATACTCACCCTAATATGTATATGTACGTACATCCATT AAAATGGAAATTAAAGTTAAGTCAATAGTTATAATTACTAAGTAGGACAA AAATGTAATAATAATTCTTTCTTTATATATATCTTATTTTTCCATATTTT ACATATTCAGTTTCTTATAAAAAAAAATTCCGTCTATTTCTATTATAAGA AATCAATTTTGATTTCATTGGAGTAAAAGTGGAAAACATTATATGTGATA TAACAAAAAAAATATCATTTTCGTTTTTTTTCTTTATCGAAATACTATGT AAAATATAAATTTATAACCTATGTTAAAATTATAATGTATACATTTTATA AAAAACTAATTAGATTGCATCTTTGTTTATTAAGTTTTTTATAAGTTCCT ATTGAATCACAGTTTAATAATCTTTGTGTAATAAAAATTGTAACTGGTCA TGATAAATCCATTTACTGATTCAAGAAAGAGATGGCTAGTATATCGTCTC GCTATATCAGTAGTCTTTTCCAACAAGTCGAAAAAAGGTAAAAGAGGGAA GTAAACATTTTAAGCGTTCGATCCTTTCTAATTTTCAATGTTGAATTTAT TTATAAGGGAAAATTGGTTGAGGGGATATTTGAAATTGAGGGAGTTACAT CATAGTCAGTCAAACACAGGCGTCAAAGATGAAATCTACACCCTCTGAAG TCCACATGGAACAAAATTGGGTCGTTCTATCATTTTTTTTAATTCTACGT AATATACAGACAAAACACATTCATTAATTTTAATTTCGTTACAGCTATAA TCAAAACTGGTTGACATTCAAGTCACAGACGAGGAACAGTTTTGCACCGT AATTATGTAACTAATTAATAATTAAGGACAAAACAGAAAAACATTGGCAT TCCACTGGTGACCGAGGACCACCCCTGGGTATCTTATCTGGATTGACAGA ACTACTAAGGCCTCATAACCAAGGAGAATTGCCTCCCTCCTCCCATCCTT CAATAGCCCTAATCTTAATCCAGAGGATTATTTTGTCTAGAACCCTTGAG GAAAATACTAATTGACGTCCTCGCCAGACTAAGGCAAGTCCAGTATGCAC CATCAAGGAGCACTACACATCCATGCCCAGGGACCTCGTCATCAAAGCTT TCTTCTGCTTCAAAGGCTATATCGAGGGCGTTTTTGAGGCTGAGGGAAAT TATATCCTCTAAGCCTCAAAACAGATTCTTTTTTATTAATAATAAAACTA TCTAAATTATGGATTCTATGTCATTTTTCTAAATAAGAGATAGGGTGCTG ATTTCATTCCCTTTGTCTTTATNCTTTATAGTCATAGGCCATTTGTGGCA CCACAGGGACACAACACAACAACCAACAAAATTAGAGTCTTTTGTTTCTG TCTTTCATAGGAGAAAATGTCACGAGATATAAAATAAAATATCTTTTTGT CATACTTTAAAACTATTTTTCATTACTTATTCAGTTTGTTTTGATGGTTT TTACTTTAAATACAACAATAAAAAGTTTACACAGTATATAAAATATATAT ATACAGTCTTGTTAAACTGAATTTTTTGTTGAACACGTTCCCAAAACTTT CGAAAGCTACTAATTGATATTTATATTTTTTGATTTTACAAGTTTAAAAA AAGTTATCTGGTCGTTTTTGTGAAATCGATTTTCTATTTGGAATTTTCTA TCTTTTAAATAGCTCAGGAAAAATAAGTTTGAGCTGCAATAAACTCTCCA TAGTACAATGTTGGAGAAATGCCTATAAAATTTAAGACTGGGACTAAATT TGTATAAACTGATTCTTAAATTTTAAGGAAAAAATATTTAGTGAGCATTT TTGTAAGTATTTTCTAGTTAAAATTTTATTTTTACTTTTTTAAAAGTAAC TTTATCTATGATTTAAAACAAAGTAAAACAAACTTTAAAGAAAAGAGTTT TATAGAAATAACCATATTCCTTAAACGTGTCTCCTTCCTATTTAAAAAAG GATATTATATGTGTAGACTCTGTACACGTACTAGCATGCACTATTCTGAA GACTTCCATTGAAAACCATTTAATTATCGAGTTTGTGAACAATAAATAAA AGTTATTGTTCTTTATTTATATTATATTTTTTATTATTCACCCTCATATA TGGTAATACATACATTTACTGTCTTTAAAAATAAAAAATTGACATTGCAG TTAATTTAAATGGTAAATTACATTAATATAATTTTATTATAATAAAATAT AATCAGATTATATTTTCAACTAAATATGTGAAAAATATAAACTATTAAAA ATTTAACTTGGATAAGCCATTTTGTCTTAATAGCTTTGTTTTCATAAGGG AAGAAAACCAAGAAGGAGAGATCTGGTGATGAATTTTTTAAACGGACCTG AAAATAAATATATCTAAGTCTCAATTGATTACAAATATGTTCACAATATC TCATACCTTAAAATCTTTCAACCTAGCAGAGACAGCCATCGTGGTGGGAA ATCCAAACTCATTTAGAGATACAGTACTGAATATATTCAATGAAGATATA GATTGCTCAATTCAAGAAATATATAAACAAAACATAGACTCACCATTTTA GAGCAAATTAAATGTTTGAACACGGTAGAAATTCCAAGAGTGAACCATAT CCTAAGATGAATGACCTATAATGAAACACAGAGTCAAATATGGAGGTAGA AATCCAAAGGAAATGTATCAGAAATATAAAATATGGTTGGGGGTCTTCTT TACTTGGAGACAGCTTAATGACACTGTGGCACTCTGTGTGGATTGGAGTA ATTCAAGACAACCTCTCACTTTTTCTAGGACTGTGGGAATCTGAGTGGCA TCATAAAGAACGTTAGGAAGGGTGTAAGTGAGAAAATAAGGAGAAACCCT GATCCAGATGAGCTTTTGTACGGCTTCGAAGGAACCCATAAGGGACTCTG TTTGGCGTCGAAAGTGATATGTAGGCTCCAGACTCTTATCTCTACAGCAC ATTTCTGCGGTGTCCCCCTTCGCCAAGAATAGCGGAGTTGGCTCTCAACG AGTTTAGATTAACGGGACTGTAGCCACACATTGAATTCATTTAATGCGAT GGGAATGTGGTGATCGAGATTGCTAAACTAATAATGTTTTTATTGTGGGT TTTTTCCTTTTAAACATTATGTATTTGTTTTTATTATTGGATTCATATAT GATGTGAATTATGTTGTGTTTAGTTGAAATTGTTTTCGCTACAAGTAATT GCTTAGCGCAGCGGCGTTCTTTCTTTTGTATTTTTAAATTTTTGTGTTCT CTTCCGTTTTCTACTTTTGAGGTGTGGTGGGGAAAAATTAAATAACAACA GGGAAACTCTATCGTACGCACATAAAAAGTCAGGAAAATAGCTAACATTT TTTGTAAGTTTGTATAACGTTTAAGCAAGAGTTTAACTTCCTTTTCATTA CAGACTTTGCTTAATGAAATATTAGAATGTTGATGGTTCATCTTGATTAT TAGTCAGAGGTACGTATTATTTACTCAGTTTATTCAATATGTAATTCTTA ATTTATCTTTACATTNNNNNNNNGTTAAATTAATATAAATTGTACACGTT TTAATCAAAACTTATTGAATTTAATTGACTATTTTGCTTAAAAGTTGTTT CCATGTTTTTCCTTTTAATAGCTTGTATTCTTCTTTTTTTCTTTATATGG ACTATTGTGTAAAAAGGTGGCTACAAAAATATAATATTTTTACGATAATT CTATAATACACATATGGGTACTAATTTGATACCCAACATTTGCATATTTA ATAAAATTTCTTAAAATTTTTTATTGTTGATAAAAATGTAATGTTTTTAC GATTAGAATAAGAAATTATAGCTTGTTAAAACCTTAAACTTATGTTTTTA AGAATATTTGAAAATAAGATATTATTTTTCTTCATGTCTTATATCCATGC AAATACTTTTAGCACTTTAATTGATATTTTCTATATCGCATAATAACATA TATTATTCATTCAACAGTTTCACATGTAATTAAATACGGTTTTTGTTCTT GTATCTTCTTTACGTTGTTAACTAACCGTGTCATTAAGGAATATTGAAAA ATATTATTAATCACTATAATCGTTGTTATGAGTATATAGCTTTTTTTTCA ATTCATAATTATTTGATGTAACTTGGTTGAAGACTGAATTTGGATTTATT TCTTTTGATTCTGACCTTTTAAATGTTATTTTAATGTGTACTTACATTGA TGAAGAATGATCCTTTTATTTGGTAGGATTATAAAGTCATTTTATATTTC CTATATTACCAGTCTCCCTAATAAATTTTAATTTATTACAATTTAAAGAA AATGTATGAGTGTAGATAAAAATATGGTGCAATATCATAGAAAGCATGGA ATTAACAATATATTAGAGGGAAACCTGTTAGATTTGGCTTCAAACTTTGG TCTGCATGTACTTCTAACGGCACTTTGCTGCATGTTGAGCCTTATTATGG ATCATGTATAAACATACCTGATCATGGATTTGGCCACAGTACAAATGTTG AATTAGATATGGTGAATAAGAATGAAGCTAGATGAAGAAGAGCATGCCAT CTGTGACAATTATTTTGGAACTGTTCTTATGTTGAAAGAACTCCCACGGA TGAAAATTACTTCCACTACAACTCTTCGTGAAGATTGGTTGAGTGGAGTT CCAATCCTGTCAAGGTAACATATGAACTAAAAAGCTCAGGGATCAATGGA AGAGGCATTTCCAGATTATGTGTCATTACTGAAATGGAAGGATAACAAAT TTGTAAGTGCAGCTTCAAGAATGTAGAGGCCGCACACTTCATATATGTAA AAAGTGCAAAGTTAATTTGCCCTCAAAATGCACAGAACGTTACCACACTA AGGAGTAAATGCTCCGGTATCATCTTATATTCATTTATTATATTGATAGG ATTTATAAGATTCGATGGTCCTCCTTGGCCAAAAATTGATACGAAGGTAG GAATTATCTTCAAAAAATCATTGAAATGACGTATGAGTTCCTAAAGTATA CCATGGTCCATTCAAAGGAAATAAATTTTGCCTATTTATCACTCCAAATA TGGTAGGNAAACAAAAAGACTAATTTGGAAATATTTTAAGATATGACGGG AATTAAACAACACTTGATAAGTCTAACCTTCAAGCTTACATTGGGTTGTG GTCATTGGCAAGTGTACATCTATCTTATAGCTAGGGTACTTTTAGTCTTT TGGATGCCGAGATAAGTATACCAAATTTTAGGGCTACAATTCCAGAGTTA CACAATGATATCAATTTTTCATCTCCAAATAAGACAGTAAAACAAGTTCT TCATACATAAAGTGTTAAAAAACATCTACAACGCCAAAAATAAGATTGAT ATTTATTAAATTATATATGAAAGTACTTTATATTTTTTTTGTTTTTTTGT ATTCGTTTTTTTAATTTTATAAATTAAACTTTTTTTTATGTGAGTTAAAA TTATATTTACTTTTATAGTAATTATTAATATAGAACTAATTTATATTTAA ATTAAAAATTATTAATTATATTGTTAATTTATCTTGAACTTAAAACAAAT ACGGCGTTTTATAGTAAATATTTAAGAATGGGTCATTTTGACTTATATAG CAAACGGGTTGTAAAAAAGAAAAGACTACACGATGGTTAAATGAGTTTTA ACTGGAAATAAGAAATTATATCTTAACTTTAAAAAAAATTAAAAATATAT TAAAACAGTCTATCCCGTCGTTCAATGTAGGCATCTGCATTGAGCTACTT CTTCCTTTCCATAAAAATAGGGAAGGGGGGGGGGGGGGGCTTTTCTGTGC TGGTGTCTGAATTTTTTTGTTCTGTCAACATGTTTTATTGAAGTTGAAAC ATTGTCTGGATGTTCAGCTGTGATGTAGCGGATGMTCTACTTATTCAAAT TGGCATCCKCTGTGAAACTTTTTTCATCAGAAAATACCAACACTTTTCCG AAATTTTTGTTGGCCTTCAGAAAAGGTAAAATCTTATTTGTACATTCCAA CAGTCTCAGCTTGCTCGGTTTAGAGAAAAAATTGTCTTGCTATCCTCCTC CACGATTTTGCACCAATGTCATTCCGGATTGAAAATAATAAAATGTGTAC CACTAGATAATACCATAATTGTAATTGATTAAAACTAATACTGAACGACA ACGTCATTTCTATTGATGAAAATTTTAAATAATAGTTTAATATATTTCAT AAAGGTTACTGTAAAATAAAACAAAATATCAGTATAGAAATACATTATGC ATATTTAATTGCTTTGATCTAATTATTTATAGTTTTATAGCCATTATTCT CTAAACAAAATTGTACTATTATTATTATAATTGTTATTCTCAACATAATT TTCAAAACAATAAAAGTTGATAAAATTTTTCTAATAGGTTTAAAACATTT GAGAAGAAAAGATAACATAAATAATCATTCAAATCTAATATATGAAACAG ATTGAAGGTTGAGTTTGCGTATTATTTTAACTTTCTTGCCCTTATTTTTT TTAAATATTCAGAATGAATATTAATTTAACAAGAACTTATCCTACATTTT TTCAAAGTTATAATGATGAAATAAATTGATAACGACATCGGAGAAACGAA ACGTCAAATCAGGAATAAGAAAAAAAACCCGGTATATCTGATGGTTAGGC TACCACACGACTGAACACAGCTGAGAAGAAAGGATCTCCGTTAGATCTGA TAGGCAGGCTACCACACGACTGAACACAGCCCAGAAGAAAGGATCTCCAG TAGATCTGATAGGCAGGCTACCATACGACTGAACACAGCCAAAAAGAGAG GATCTCGACCCAGATCTCTAAATAATTATTTATAAGTACTATAATTTAAA TTAGTTGAAGAACCTTCCATTTTCCGTCGAGACTTCTTTATTAATGAGCC ATAATTTGGTTGAAGTATAAAATAAAGATAATTTTTTTGATGACTACGTC AGATTTTAGGTGAAAGAGTGTCATTGGTGGCATAGCCACCAGCCKGTCTT CTTCTTTTATATAATTTCTAATGCATCCCTGGTTTTATGTTCTACAATTT CCCTAAAGGTATCATTCTACTACATTTATAAAAAAGTTGGAAGGAGGACT ATTTGTAATCCTTTCAGAAAGAGAKCAGCCTCTTTCTTTTATCTTTCTTC ATCTTGTTGGTGAATACTTTTGATGTAGCGAGACGAATTGTCCTTTGTTT GTCACAAAACACAAAATTGAATGGGGAAAAATGATTCTGCGTTTTATGTA TACCTTGTTATAATAAATAAAAAATCTTACAGAGCTAGTGTATACTAAAT AAGCTTATTATCGTTCCATGGCAATTACTAATATATCAAGGTAATTAGAA GGGAAAGTAAACATAACACGTAAATTTTTTTGCATATTGAAATCAAACAG TCATAATTCTAAAAAATGTTAATCAAGATATTAGAAATTTAATTTAATAA ATTATAATATTAATTATAACTTACATCCTATCCTTCAATTACACTTCCTT CAAATGCCAACATGATTACTTTTGTTGTGTTTTTAAACGCCCACACACAA ACAATCATATTATAAAAAATGAAGCATAAAATTTCCTACAAATTTATTAA TGAACCATTTGTGGCCTCCTCAACTTTGTAGGTTATCTTTTTTTATATAT AATATTTTTTTAATTTCGAAAAATTATGAACATATTATTTAAAATGGTTT TGAATTTAATATTGTTGTAACTTTTTGATCTTGAAAATGTATTATTAAAG TTAGAGTGTCATACTTTAACTTTTATAAAGAAAAGAAAACAAAAATTGAT GATTCTATAAACGATTTATGAAATAGAAAAACATACATTTTACATACGTT AAGAAGTTGTGTGACTTCATTTGTCTATATTTGTCTTTTTTGTTCTTTTT TTTTTAAAGTTTTACCATTTAATGTTATAACACAATACTAAAATCTATGT TTGACAAAACATCGATCAGAAATAACCAAGTTAATAGTTTTTCTATTCAC CCCGGGAAAGTAAGTTTCATAGTTTTTTGACAATAAGAACTATAAATTGG ATTCTTTCTTTCTATTGTGATAATTTATTTTTATATAAATGCATTCACAA CTTGAAACAAAGCCACAATGTAAAAATGGAAATTATCTTTATATCCAAAA AGTTTCCCCATCTATTTTTTATTATTTTTGTTTAAATACGGAATGGTCCA AAAAATATAAACACTTTGAATTTTAAACTTTAACAAGATATAATTTATTA ATTTACAATAGAATTATAACAAAATTCATAGCATTAATAGATTTGAGTAT GAGCTCACTTAATTAATGTAGCTCCCTTAGTGTGAATGATGACTTCCAGG CTGTAGTGGAAGACCTGGCACGCACTGCAGATGTAGTCCTACATCATGGT GTACCAATACTGCCTGAGAATGGCATGGATGCCCTCGGTATTTGGATGAC GAACACTGCAGGMATTCCGCTCGACATGCAAACAAAATATGTAATCGAAG TAGTTTGCATCAGGGTCTATGTGCCAAAAATGAGTTCATGAACTCAAAAT ACTTTTATAAAAGAGTCTTGCTGCGGAGTAGATGGGTTTCTTTAATGGGT GTTGTCAAAAATTGGCCTTCACCAGGCTCTTTCCAACCACTTTTTTATAG TTATCTGGACAGTCTGGCGTGAAACGCTGAGATCTCTTGCATGGGCCTCA TGGACTTAAGAGAATTGGCCTGGGCTGTTTTCTTTCACTATTCCGGGTGC AGGTTTGCCTTTCTGACAGAGCCTTCTTCCTCTTCAACATTTCAGACGGC GTTAAAGGTAGTTCTGGTGACGCCAAACTACTTGGAGTGTGTAACTGGAA ATTCGTCGATCACGTTTTAATGTAATTTTCGAAAATAATTATGTTAGAGA GCTCAAATTTGTTTTGTTTGGTAATTACTTGATCATTAGAGTGTTGACTA TTTTTTAAAGTTGACCAAATTCAAAATTATCATGGATGATGAGATTAGTT TTAATGTTGGTAATGACCTCCTGATTTTTTTTTCTGTCCCATCAAAAACC GTTKCCCTCCATCCAATCAAATTTCCCGCGTCTCAGTAGTACTTCAAAAT GAGATCCAAATTGAAAAAAGAAACAAATCTTATTATAATAATGATATAAG AACTTTAAACTTATTTTATAATTTTTTTGAGCTTGTTGGTAACTTTTCTG ACTTTATTATGTAGTTTGTTTTGTAAGTAAAAATTCATGAAGTAAACTAT AGACGGCATACAAATATTTATAAATAATTATGGATTTTTATTTATTCAGC TATTTATATAATTAATTTTTTTTTACGAACAAGATAGAAATACCAATGAA TATTCATAGTTTTTAAATCTTTGAATAATTAGTAAATTAATTCATGAAAC CAGACTTTTGAAAGTTTTTCTTCAATTTTTATCTTGATTAATTTGTAACA ATTAAATTTTTGCGTCTTTTTTCTTGATCATATGTTTTTTGTGAGTCTTA CACTGTTGATGATATATGCAAAAACGAATGCAGAAATCAAGGAATTTGCC GCTATATAGGTTGTTAAGTTTAATATGTTTGCCAAAATTGATGTTAATGA AGGGAACCCACATCCTTTGTATAATTAGTTGAAGGAAAATAGGGTGGAAT TCTTGGAAATTTTATCAAATGGAATTTCACAAAGTTTGTTGTGAATAAAG AAGAAGTTCCCGTATTCCGATTCGCTCCTACACTAGACTCCATACTGAAA GTGGAAGAAGAAATTAAGAAGTATTTTTAAATTAAATATTATCTTACTAG GGCTTTTGAAGAAAAATTACCGAAGTTTCTTATGACAAGTTCCACCACCA GCTTTGTTTTCAAAGTGGTGGTAATGTGATGATTAAGTACATGTGATTTT TATTTATGTATCGCGCCTCAATGTTATTTCAAGGAGTTTATTGTCAGCCC AAAGTGTTTCCTATTTTCTTTTATTCCTTCAGTTTTTTTTAGTTTTTTTT CTATATCAATTATTTTTTCATCAATCAAAAATTAATCTAGAAATCATTTG ATTTAGTTCATTCATATGTATATATATTCATAATTCTTATTTTTTTTAAA TATGAGGACTGAGGTTTACAACGGCAGSTACAAAATTTTAACATTGTAGG MATTATTTTWTGTGTATACATAATTAAATAAGAAAATGGTATTCCCTTGT TTCCTGAAATTCAGAATAGTTAATAAATATTTTTTAGACATTTTATTGAA AAAAAAATGAAAGTATTTTTCATATAAATAGGTCATTATATCATTTTAAA ACATCCCGTCATGTTTCTAAAATTATTTGATAATAATTTTTTTTTATCAA AGTTTTTATCCTAATAAGTATTTTTACATGTAATTAACTACGTTTTAATT TATGGGGATTTTTTTTGTCTGTGTTTCTTTATAAAGGGTTAAACATTATT GTCAAAGTAATATTTAGATTTTAGTAAATACTAACAAGTATGAAAAATAT AAATAAAATTATTTTATATAAAACCTTATGGGTTTGACTAATAATATGGC ATGAAATGTTTAAGATAAGAAAGTACTAATCAGTGCCAGTCATAATTAAA TCCTTTTTAACTATTATTCTATGTAGTTCTTGTTTGTTCCTTTATCTTAG TTTATACCAAAAAAGTATAAACATGTTGGTAAATAATTGTGGCAAGAGTC GGTCCTGGACCTATTTTTATTTATTTTTTTCGATACGGCCTTAAGTTATT TTTATAAACTTATCTTATCCTTATTTTGCCAAAACGTAGCTTGCAACTGT TGACCAAAAATGCCCTTTTTATTAAAAAAGAGACATAACTTTGATCTTAC CTTTTTAAGCCCATCTATTTTTTTTTCTCGAATAAAAATACTTGAAACTA CGTTTTTGTGTCAGCGGTCTAGACCACAGTTAGATTTGTTTAAAATTTTA AAAGTGACATACAGGTCTTAAATTTTAAGACCAAAACCCTACACTTGTAA AAAAAGTCAAATGTTGATAAGATTTAAATTTTTTTGTATAGAAAAATAAT TTATTTTCAAATATGAAATACATTCATTTTGTATCGAATATATTAATTCC AAAATGAAATACTACAGTATATCTATGGTCGATTGCTTCTTGATTCTGGC ATTGAGCTCTTGCACATTTCTGTGTGATGTCTTCCCAAGCTTACTAATAA GACTCTCCACGCTTAAAAGTTGAGGGGATTAGGATCAGGACTGGAAGAGG GGCCGAAGGTCTTGTTCCAGAACTAGGCAAAGTGCTCCTTGTAGAATTTA TGTGACATCAAGGCTGTATAGCTGAGGGCACCGTCTTTGGTTTACACATA GTTATTCTCAGAATAGTTAGCCTTCAGCCTGGGCAATATTTTTCACTGGT ACCTGTTAGTAGGCCTCATCCCCAATTTCCTCATTGGGCTTAAAGAAGAA GGGATCCACTTTCTTCCCATCAGTACCCAAAACTACCAACACATAGTTTG GGGCAGATGTTTTGTCCTAAATGTGCCCTGGACTTCTAGGTGATGCTGCT ACAAATTTGTCGTTTCTAGGTTCAAAACCTCTTTTTGAATCAACATCGAG AAGATCCAAAACCTTTTGCCTTTTTGATTCCTGTTCACACATTTTTGTCT GATTTTGATCAAATCAAATCAATAGGCAAGAAAAACAACAGATGTATCAG AACATACCATGAAACCTTAACTAGCGAAAAAAGATTAATTTTAAAGATGC AAAAAATTTCTCTGTCATACTTTGCATATGTAGTTTCAAATAATTTACAA GTATTCAAATACCTATATCGACCCCAGTCAAAAGTTTTGCTACTCATATT TTAAAAGGCTATTCCTATCTTATTCGTACTTGACTATATATTGACGGTTC GGCAGAAAAACGAGGAAAAGAGATGTGGCTTTAGAAATATTTCCAAAAAA AAAAAAAAAGAATTGTCAATGATAACAATTTAAGAAAATCTTAAACTTGT AAACAAGGTGACACAATATGGTTATCTTCAGCATAAATCATAGCAATTAC ACGTCGCCAGAAGGTATTGAAGGAGTTGAAGAACAACTCAGAAGACAAGT TGTCCCACACAATCACTATAGTAGCCATCAGGGAGTCTACATTTGAGTGT AGTATTTTGTTATTGTCCCTTTGCAATATCTTTTGTTTCTTATGATTTTT TTGCACCTCTCGATACTGCTGGTCTTATAATCTCTGCCAATAGGTGGTGT AGGTTCCTCGTGTATGAGGAAAGGTTCAAGTGAKCCTTCACTRCCCTCCT AWTTTTTCTASCAGCCACAGAAAAGTCACAAGTGAAATAATTCATTGATT TCGTTTTGTCCTCCTTGATCTTGTTCTCCAAGCTGGAGAGGAACTCAAGG TCTCTCTTTAAATTGTGATCTCTACTTCTTGATTATGGAGGGGTCATCCA TATCATTCATTACCTTCAATTAAAAAAAGTGTATAATATTTTTGATATAC TTCAAAATTACATATTGTAATTTTTTTTTTGTATACTACAGAAATAATTG TAAGTATAACATATCTGAGATGGATGTATGTATGTTGGTAATTTTCATCA ATGATTTTAATTTATAGGCAATTTTTTTCATATCCTTCATTATTTAATGG ATTATAAATAATTTTGATTTAAAACTTATAATCCTTTTTGTTTAATACTG ATAATAAAAATAAGAGTTCAATATTTTCACAAAATACATTATTTAAAAGT TTTGTTCCTTGTATGAATATTAAATACTCTTTTTTAAATTTATTTTTAAA AGAAAAAGGCACATTTCATATACTTATACATGTCAAAAATTGTTAATAAT AAAATATTGACTATAATATTTTCAGAAATATTCTCCTGTAATGTTGATAT GTATCTTTGTACACTTGTAAAAAAAAATCATTATAAGGTTTTGAGAAGAA AAAAAGATGTAAAGAGAATAAGACAATGGAATTTTTACAGTAATATGAAA ATTGAGGGAACGACCGTTCAACAGTCAGCGTTTGAATATTTAATCTCCTC TAAACTTTGTGGCATTTATTTTTTGTTTATATAGAGCAGAAGAGTTCAGA AATAATTTTAAGGTGTTTGTGCATTGTTTGCTCAAAATTTATGTACAATT AAGTAAAAATTTCTGTTGTATTAGGAAATTAATTATTTAGAATAAAAATA TGCTTATTGTCTTTAAAAAAAAAAGAATATATGAATATATATTTAAAATG CATATAAATTACTTAATTTTTAACAAATTTTGAAATTAGAATTTATTAAC CCTTCTTAATACGTTAATATTTATATGCAATTGAATAAAAAATTTCATTT GATGTAGGAAATGTATTACTTAGAATAAAGGTATGTTTTTGTCTTTTAAG CAAATGTGCCAGTGTTTATATGCATTTCATAATTTTTATCTAATTTTGAA CTAAGGAATTAATAACTGTTTTGAAAAAATAATGGTCAATATTTATAAAA TATTTAATTGAGTATCAGTAACGCCTAATTATTTAACTCATTCAAGCCCA TAAACAATTTGAAATTATTTTTGTTAAATTTTTATTTTTATAGGTCCTTA GGATCATAATAACTTTATTCAAATGTATAAAAAAAGTTATAAATTATTCT GTCTTCTGAAAAAAAATTATGTGACATTGATACAGTTTCCTCCTTTGTAT CAAGGCAATTTTTGTATCTTTAACAAATTTAAATTTAATAATTCTTAATT TTTTATTATTACTATATATTTTAGTACTGTTATTTTTTATATGAGAAAAA AAATTATAAATGATACTATTTTATAGAATATAATTGTAGTTTTGCATAAC CAACCAAATATTTTAACTTTTTTCTCATATACATTATTAAAAAATTATAC ACGTGATATTTTCAAAAACTTTTTTGATCATTTAATAAATATTAAGGTAC ATTAGAAGCTAAAATACAACGTAACATATTTTTTATTGATGTTGTCTTGC ACAAGGTTCACAAGGTTTATTGTAAAATTATTGTAAGGTCATCATTTATA TACGAATTTATTTCATTGGTTTTGTTTTCTATAATCTTTATTTAATTCTA TTGAAAGTATTTATATATCATTAGCTCAACAAAATATTATGCTAAAAAAA TAATGAGTTTTTTTATGACAAAAATAATTTCCTTCCCACTCAGAGGGATA TAATTGTCCCAAATAGTTTAGTTTTTAATTGATTTGATTATCTCCTTGGC AATCAAAATGGTACTTAGAGGAAAATCAGACTCGACAATTTTCATTATTC TATCCATATTATCGACAATTAGTCTTCCAGAGCATTTACATTTTCAGTTA TTTCGCTTGCATTTTGAAGAAAAAGTGTAATAGATGACGTATTTTCTCCT CAAATATATCCCATACTCTGAAAAACTTTTGATAAAATATCTATGAGTAG ATATAACTTTGTCTGGAGGGCATGGACAAGCATATGTAAGTTACAAAGGA ACCAACGCCTTTATCCAAGACTGGGTTTTAGTGTCATTAAATGTAAAAAA GATGTACTTTACTCGTAATTATGCTTCTTTAAAAAAAAATCTTATAAGCA GAGTTTTAGCGGCTGAAAGGATCAAATCGATTTGTTTATAAAATCGTGAT TTATATTCAATAAAAGAATATTTATTTAGGCCAACGGAACTACTCAATGG TATATAAAGAGATGGACCTTATTGTAG
back to top
Add to Basket