EMLSAG00000006985, EMLSAG00000006985-689751 (gene) Lepeophtheirus salmonis

Overview
NameEMLSAG00000006985
Unique NameEMLSAG00000006985-689751
Typegene
OrganismLepeophtheirus salmonis (salmon louse)
Associated RNAi Experiments

Nothing found

Homology
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:CALM1 "Calmodulin" species:9606 "Homo sapiens" [GO:0005509 "calcium ion binding" evidence=IEA] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 KO:K02183 OMA:YQEFVKM CTD:801 UniGene:Hs.282410 GeneID:801 KEGG:hsa:801 HGNC:HGNC:1442 ChiTaRS:CALM1 EMBL:AL512791 RefSeq:XP_005268147.1 RefSeq:XP_005268148.1 ProteinModelPortal:E7ETZ0 SMR:E7ETZ0 IntAct:E7ETZ0 PRIDE:E7ETZ0 Ensembl:ENST00000447653 UCSC:uc010atq.2 NextBio:35500416 ArrayExpress:E7ETZ0 Bgee:E7ETZ0 Uniprot:E7ETZ0)

HSP 1 Score: 231.876 bits (590), Expect = 1.045e-76
Identity = 112/150 (74.67%), Postives = 130/150 (86.67%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            M  ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    1 MQADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 150          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:CALM1 "Uncharacterized protein" species:9913 "Bos taurus" [GO:0005509 "calcium ion binding" evidence=IEA] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 OrthoDB:EOG7F7WBV TreeFam:TF300912 OMA:NEVDEMI GeneTree:ENSGT00690000101867 EMBL:DAAA02030739 Ensembl:ENSBTAT00000002055 Uniprot:F1N6C0)

HSP 1 Score: 231.876 bits (590), Expect = 1.045e-76
Identity = 112/150 (74.67%), Postives = 130/150 (86.67%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            M  ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    1 MKADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 150          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:Cam "Calmodulin" species:7227 "Drosophila melanogaster" [GO:0016028 "rhabdomere" evidence=IDA;TAS] [GO:0005737 "cytoplasm" evidence=IDA] [GO:0016056 "rhodopsin mediated signaling pathway" evidence=IMP] [GO:0016060 "metarhodopsin inactivation" evidence=IGI] [GO:0006468 "protein phosphorylation" evidence=IMP] [GO:0016061 "regulation of light-activated channel activity" evidence=IMP] [GO:0005515 "protein binding" evidence=IPI] [GO:0005513 "detection of calcium ion" evidence=ISS] [GO:0016059 "deactivation of rhodopsin mediated signaling" evidence=TAS] [GO:0016062 "adaptation of rhodopsin mediated signaling" evidence=TAS] [GO:0005509 "calcium ion binding" evidence=IDA;NAS] [GO:0031475 "myosin V complex" evidence=IPI] [GO:0031489 "myosin V binding" evidence=IPI] [GO:0030048 "actin filament-based movement" evidence=IDA] [GO:0032036 "myosin heavy chain binding" evidence=IPI] [GO:0070855 "myosin VI head/neck binding" evidence=IPI] [GO:0031476 "myosin VI complex" evidence=IPI] [GO:0007052 "mitotic spindle organization" evidence=IMP] [GO:0000922 "spindle pole" evidence=IDA] [GO:0051533 "positive regulation of NFAT protein import into nucleus" evidence=IMP] [GO:0051383 "kinetochore organization" evidence=IMP] [GO:0005875 "microtubule associated complex" evidence=IDA] [GO:0005819 "spindle" evidence=IDA] [GO:0030496 "midbody" evidence=IDA] [GO:0007099 "centriole replication" evidence=IMP] [GO:0005814 "centriole" evidence=IDA] [GO:2001020 "regulation of response to DNA damage stimulus" evidence=IGI] [GO:0005516 "calmodulin binding" evidence=IDA] [GO:0046716 "muscle cell cellular homeostasis" evidence=IGI] [GO:0046331 "lateral inhibition" evidence=IMP] [GO:0072499 "photoreceptor cell axon guidance" evidence=IMP] [GO:0042052 "rhabdomere development" evidence=IMP] [GO:0007605 "sensory perception of sound" evidence=IMP] InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 EMBL:AE013599 GO:GO:0005875 GO:GO:0005814 GO:GO:0007099 GO:GO:0007052 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0006468 GO:GO:2001020 GO:GO:0072499 GO:GO:0005516 GO:GO:0007605 GO:GO:0046716 GO:GO:0051533 GO:GO:0046331 GO:GO:0030496 GO:GO:0000922 GO:GO:0030048 GO:GO:0016028 GO:GO:0016060 GO:GO:0016062 GO:GO:0051383 eggNOG:COG5126 GO:GO:0042052 KO:K02183 OrthoDB:EOG7F7WBV GO:GO:0031476 OMA:NEVDEMI GeneTree:ENSGT00690000101867 EMBL:Y00133 EMBL:X05948 EMBL:X05949 EMBL:X05950 EMBL:X05951 EMBL:AY118890 EMBL:BT003282 PIR:S01173 RefSeq:NP_001246276.1 RefSeq:NP_001246277.1 RefSeq:NP_523710.1 RefSeq:NP_725120.1 UniGene:Dm.577 PDB:1MXE PDB:2BBM PDB:2BBN PDB:2BKH PDB:2VAS PDB:2X51 PDB:3GN4 PDB:3L9I PDB:4ANJ PDB:4CLN PDB:4DBP PDB:4DBQ PDBsum:1MXE PDBsum:2BBM PDBsum:2BBN PDBsum:2BKH PDBsum:2VAS PDBsum:2X51 PDBsum:3GN4 PDBsum:3L9I PDBsum:4ANJ PDBsum:4CLN PDBsum:4DBP PDBsum:4DBQ DisProt:DP00344 ProteinModelPortal:P62152 SMR:P62152 BioGrid:62106 DIP:DIP-42091N IntAct:P62152 MINT:MINT-279657 PaxDb:P62152 PRIDE:P62152 EnsemblMetazoa:FBtr0088001 EnsemblMetazoa:FBtr0088002 EnsemblMetazoa:FBtr0304963 EnsemblMetazoa:FBtr0304964 GeneID:36329 KEGG:dme:Dmel_CG8472 UCSC:CG8472-RA CTD:36329 FlyBase:FBgn0000253 InParanoid:P62152 PhylomeDB:P62152 ChiTaRS:Cam EvolutionaryTrace:P62152 GenomeRNAi:36329 NextBio:797939 Bgee:P62152 GO:GO:0031475 GO:GO:0016061 Uniprot:P62152)

HSP 1 Score: 230.72 bits (587), Expect = 2.668e-76
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:cmd-1 species:6239 "Caenorhabditis elegans" [GO:0000003 "reproduction" evidence=IMP] [GO:0009792 "embryo development ending in birth or egg hatching" evidence=IMP] [GO:0016477 "cell migration" evidence=IMP] [GO:0006915 "apoptotic process" evidence=IMP] [GO:0006898 "receptor-mediated endocytosis" evidence=IMP] [GO:0007052 "mitotic spindle organization" evidence=IMP] InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 GO:GO:0005813 GO:GO:0072686 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0031965 GO:GO:0032880 GO:GO:0016477 GO:GO:0009790 GO:GO:0051726 GO:GO:0071944 GO:GO:0042981 eggNOG:COG5126 HOGENOM:HOG000233018 KO:K02183 UCSC:T21H3.3.1 OMA:NEVDEMI GeneTree:ENSGT00690000101867 EMBL:AJ132193 EMBL:FO081216 PIR:T31737 RefSeq:NP_503386.1 UniGene:Cel.17969 PDB:1OOJ PDBsum:1OOJ ProteinModelPortal:O16305 SMR:O16305 BioGrid:43683 DIP:DIP-25019N IntAct:O16305 MINT:MINT-1114185 STRING:6239.T21H3.3.1 PaxDb:O16305 PRIDE:O16305 EnsemblMetazoa:T21H3.3.1 EnsemblMetazoa:T21H3.3.2 GeneID:178614 KEGG:cel:CELE_T21H3.3 CTD:178614 WormBase:T21H3.3 InParanoid:O16305 EvolutionaryTrace:O16305 NextBio:901848 GO:GO:0043277 GO:GO:0051296 Uniprot:O16305)

HSP 1 Score: 230.72 bits (587), Expect = 3.142e-76
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTTK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:cmd-1 "Calmodulin" species:6239 "Caenorhabditis elegans" [GO:0005509 "calcium ion binding" evidence=IEA] [GO:0005515 "protein binding" evidence=IPI] [GO:0005813 "centrosome" evidence=IDA] [GO:0009790 "embryo development" evidence=IMP] [GO:0016477 "cell migration" evidence=IMP] [GO:0031965 "nuclear membrane" evidence=IDA] [GO:0032880 "regulation of protein localization" evidence=IMP] [GO:0042981 "regulation of apoptotic process" evidence=IMP] [GO:0043277 "apoptotic cell clearance" evidence=IMP] [GO:0046872 "metal ion binding" evidence=IEA] [GO:0051296 "establishment of meiotic spindle orientation" evidence=IGI;IMP] [GO:0051726 "regulation of cell cycle" evidence=IMP] [GO:0071944 "cell periphery" evidence=IDA] [GO:0072686 "mitotic spindle" evidence=IDA] InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 GO:GO:0005813 GO:GO:0072686 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0031965 GO:GO:0032880 GO:GO:0016477 GO:GO:0009790 GO:GO:0051726 GO:GO:0071944 GO:GO:0042981 eggNOG:COG5126 HOGENOM:HOG000233018 KO:K02183 UCSC:T21H3.3.1 OMA:NEVDEMI GeneTree:ENSGT00690000101867 EMBL:AJ132193 EMBL:FO081216 PIR:T31737 RefSeq:NP_503386.1 UniGene:Cel.17969 PDB:1OOJ PDBsum:1OOJ ProteinModelPortal:O16305 SMR:O16305 BioGrid:43683 DIP:DIP-25019N IntAct:O16305 MINT:MINT-1114185 STRING:6239.T21H3.3.1 PaxDb:O16305 PRIDE:O16305 EnsemblMetazoa:T21H3.3.1 EnsemblMetazoa:T21H3.3.2 GeneID:178614 KEGG:cel:CELE_T21H3.3 CTD:178614 WormBase:T21H3.3 InParanoid:O16305 EvolutionaryTrace:O16305 NextBio:901848 GO:GO:0043277 GO:GO:0051296 Uniprot:O16305)

HSP 1 Score: 230.72 bits (587), Expect = 3.142e-76
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTTK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:Calm1 "Calmodulin" species:10116 "Rattus norvegicus" [GO:0000922 "spindle pole" evidence=IEA] [GO:0002027 "regulation of heart rate" evidence=IEA] [GO:0005513 "detection of calcium ion" evidence=IEA] [GO:0005515 "protein binding" evidence=IPI] [GO:0005654 "nucleoplasm" evidence=TAS] [GO:0005813 "centrosome" evidence=IEA] [GO:0005829 "cytosol" evidence=TAS] [GO:0005876 "spindle microtubule" evidence=IEA] [GO:0010880 "regulation of release of sequestered calcium ion into cytosol by sarcoplasmic reticulum" evidence=IEA] [GO:0030017 "sarcomere" evidence=IEA] [GO:0031432 "titin binding" evidence=IEA] [GO:0031996 "thioesterase binding" evidence=IEA] [GO:0031997 "N-terminal myristoylation domain binding" evidence=IEA] [GO:0032465 "regulation of cytokinesis" evidence=IEA] [GO:0032516 "positive regulation of phosphoprotein phosphatase activity" evidence=IEA] [GO:0034704 "calcium channel complex" evidence=IEA] [GO:0035307 "positive regulation of protein dephosphorylation" evidence=IEA] [GO:0043274 "phospholipase binding" evidence=IEA] [GO:0051343 "positive regulation of cyclic-nucleotide phosphodiesterase activity" evidence=IEA] [GO:0055117 "regulation of cardiac muscle contraction" evidence=IEA] [GO:0060316 "positive regulation of ryanodine-sensitive calcium-release channel activity" evidence=IEA] [GO:0072542 "protein phosphatase activator activity" evidence=IEA] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 RGD:2257 RGD:2259 RGD:2258 GO:GO:0005829 GO:GO:0005886 GO:GO:0005654 GO:GO:0035307 GO:GO:0005813 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0051412 GO:GO:0019722 GO:GO:0051000 GO:GO:0030017 GO:GO:0001975 GO:GO:0007190 GO:GO:0030426 GO:GO:0055117 GO:GO:0008179 GO:GO:0047485 GO:GO:0032516 GO:GO:0034704 GO:GO:0060316 GO:GO:0010880 GO:GO:0030235 GO:GO:0002027 GO:GO:0000922 GO:GO:0044325 GO:GO:0032465 GO:GO:0005876 GO:GO:0005513 GO:GO:0005246 eggNOG:COG5126 HOGENOM:HOG000233018 HOVERGEN:HBG012180 PDB:3BXK PDBsum:3BXK PDB:3BXL PDBsum:3BXL KO:K02183 OrthoDB:EOG7F7WBV TreeFam:TF300912 OMA:NEVDEMI CTD:801 CTD:805 CTD:808 GeneTree:ENSGT00690000101867 GO:GO:0072542 GO:GO:0051343 GO:GO:1901841 EMBL:M16659 EMBL:X13817 EMBL:M19312 EMBL:M17069 EMBL:X13933 EMBL:X13931 EMBL:X13932 EMBL:X05117 EMBL:X13833 EMBL:X13834 EMBL:X13835 EMBL:X14265 EMBL:AF178845 EMBL:BC058485 EMBL:BC063187 PIR:S03206 RefSeq:NP_036650.1 RefSeq:NP_059022.1 RefSeq:NP_114175.1 UniGene:Rn.216430 UniGene:Rn.2892 UniGene:Rn.4166 UniGene:Rn.5968 PDB:1G4Y PDB:1NIW PDB:1QX5 PDB:1QX7 PDB:2HQW PDB:2PQ3 PDB:2YGG PDB:3B32 PDB:3CLN PDB:3EK4 PDB:3EK7 PDB:3EK8 PDB:3EKH PDB:3EKJ PDB:3EVR PDB:3EVU PDB:3EVV PDB:3IFK PDB:3SG2 PDB:3SG3 PDB:3SG4 PDB:3SG5 PDB:3SG6 PDB:3SG7 PDB:3SJQ PDB:4EHQ PDB:4G27 PDB:4G28 PDB:4I2Y PDB:4IL1 PDB:4J9Y PDB:4J9Z PDBsum:1G4Y PDBsum:1NIW PDBsum:1QX5 PDBsum:1QX7 PDBsum:2HQW PDBsum:2PQ3 PDBsum:2YGG PDBsum:3B32 PDBsum:3CLN PDBsum:3EK4 PDBsum:3EK7 PDBsum:3EK8 PDBsum:3EKH PDBsum:3EKJ PDBsum:3EVR PDBsum:3EVU PDBsum:3EVV PDBsum:3IFK PDBsum:3SG2 PDBsum:3SG3 PDBsum:3SG4 PDBsum:3SG5 PDBsum:3SG6 PDBsum:3SG7 PDBsum:3SJQ PDBsum:4EHQ PDBsum:4G27 PDBsum:4G28 PDBsum:4I2Y PDBsum:4IL1 PDBsum:4J9Y PDBsum:4J9Z ProteinModelPortal:P62161 SMR:P62161 BioGrid:246428 DIP:DIP-29528N IntAct:P62161 MINT:MINT-268601 STRING:10116.ENSRNOP00000022603 BindingDB:P62161 PhosphoSite:P62161 PaxDb:P62161 PRIDE:P62161 Ensembl:ENSRNOT00000022603 Ensembl:ENSRNOT00000064679 GeneID:24242 GeneID:24244 GeneID:50663 KEGG:rno:24242 KEGG:rno:24244 KEGG:rno:50663 UCSC:RGD:2257 InParanoid:P62161 EvolutionaryTrace:P62161 NextBio:602729 PRO:PR:P62161 Genevestigator:P62161 GO:GO:0050998 GO:GO:0060314 GO:GO:1901339 Uniprot:P62161)

HSP 1 Score: 229.95 bits (585), Expect = 4.964e-76
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:Calm3 "calmodulin 3" species:10116 "Rattus norvegicus" [GO:0000086 "G2/M transition of mitotic cell cycle" evidence=ISO] [GO:0000922 "spindle pole" evidence=IEA;ISO] [GO:0001975 "response to amphetamine" evidence=IEP] [GO:0002027 "regulation of heart rate" evidence=IEA;ISO] [GO:0005509 "calcium ion binding" evidence=ISO;IDA] [GO:0005513 "detection of calcium ion" evidence=IEA;ISO] [GO:0005515 "protein binding" evidence=IPI] [GO:0005634 "nucleus" evidence=IDA] [GO:0005654 "nucleoplasm" evidence=TAS] [GO:0005737 "cytoplasm" evidence=IDA] [GO:0005813 "centrosome" evidence=IEA;ISO] [GO:0005829 "cytosol" evidence=TAS] [GO:0005876 "spindle microtubule" evidence=IEA;ISO] [GO:0005886 "plasma membrane" evidence=IDA] [GO:0007190 "activation of adenylate cyclase activity" evidence=IDA] [GO:0008179 "adenylate cyclase binding" evidence=IDA] [GO:0010880 "regulation of release of sequestered calcium ion into cytosol by sarcoplasmic reticulum" evidence=IEA;ISO] [GO:0019722 "calcium-mediated signaling" evidence=IMP] [GO:0019904 "protein domain specific binding" evidence=ISO] [GO:0021762 "substantia nigra development" evidence=ISO] [GO:0030017 "sarcomere" evidence=IEA;ISO] [GO:0030234 "enzyme regulator activity" evidence=IMP] [GO:0030235 "nitric-oxide synthase regulator activity" evidence=IDA] [GO:0030426 "growth cone" evidence=IDA] [GO:0030801 "positive regulation of cyclic nucleotide metabolic process" evidence=ISO] [GO:0031432 "titin binding" evidence=IEA;ISO] [GO:0031996 "thioesterase binding" evidence=IEA;ISO] [GO:0031997 "N-terminal myristoylation domain binding" evidence=IEA;ISO] [GO:0032465 "regulation of cytokinesis" evidence=IEA;ISO] [GO:0032516 "positive regulation of phosphoprotein phosphatase activity" evidence=IEA;ISO] [GO:0034704 "calcium channel complex" evidence=IEA;ISO] [GO:0035307 "positive regulation of protein dephosphorylation" evidence=IEA;ISO] [GO:0043005 "neuron projection" evidence=IDA] [GO:0043274 "phospholipase binding" evidence=IEA;ISO] [GO:0044325 "ion channel binding" evidence=ISO;IDA] [GO:0047485 "protein N-terminus binding" evidence=IMP] [GO:0050998 "nitric-oxide synthase binding" evidence=IDA] [GO:0051000 "positive regulation of nitric-oxide synthase activity" evidence=IDA] [GO:0051343 "positive regulation of cyclic-nucleotide phosphodiesterase activity" evidence=IEA;ISO] [GO:0051592 "response to calcium ion" evidence=ISO] [GO:0055117 "regulation of cardiac muscle contraction" evidence=IEA;ISO] [GO:0060314 "regulation of ryanodine-sensitive calcium-release channel activity" evidence=IDA] [GO:0060316 "positive regulation of ryanodine-sensitive calcium-release channel activity" evidence=IEA;ISO] [GO:0070062 "extracellular vesicular exosome" evidence=ISO] [GO:0072542 "protein phosphatase activator activity" evidence=IEA;ISO] [GO:1901339 "regulation of store-operated calcium channel activity" evidence=IC] [GO:1901841 "regulation of high voltage-gated calcium channel activity" evidence=IMP] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 RGD:2257 RGD:2259 RGD:2258 GO:GO:0005829 GO:GO:0005886 GO:GO:0005654 GO:GO:0035307 GO:GO:0005813 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0051412 GO:GO:0019722 GO:GO:0051000 GO:GO:0030017 GO:GO:0001975 GO:GO:0007190 GO:GO:0030426 GO:GO:0055117 GO:GO:0008179 GO:GO:0047485 GO:GO:0032516 GO:GO:0034704 GO:GO:0060316 GO:GO:0010880 GO:GO:0030235 GO:GO:0002027 GO:GO:0000922 GO:GO:0044325 GO:GO:0032465 GO:GO:0005876 GO:GO:0005513 GO:GO:0005246 eggNOG:COG5126 HOGENOM:HOG000233018 HOVERGEN:HBG012180 PDB:3BXK PDBsum:3BXK PDB:3BXL PDBsum:3BXL KO:K02183 OrthoDB:EOG7F7WBV TreeFam:TF300912 OMA:NEVDEMI CTD:801 CTD:805 CTD:808 GeneTree:ENSGT00690000101867 GO:GO:0072542 GO:GO:0051343 GO:GO:1901841 EMBL:M16659 EMBL:X13817 EMBL:M19312 EMBL:M17069 EMBL:X13933 EMBL:X13931 EMBL:X13932 EMBL:X05117 EMBL:X13833 EMBL:X13834 EMBL:X13835 EMBL:X14265 EMBL:AF178845 EMBL:BC058485 EMBL:BC063187 PIR:S03206 RefSeq:NP_036650.1 RefSeq:NP_059022.1 RefSeq:NP_114175.1 UniGene:Rn.216430 UniGene:Rn.2892 UniGene:Rn.4166 UniGene:Rn.5968 PDB:1G4Y PDB:1NIW PDB:1QX5 PDB:1QX7 PDB:2HQW PDB:2PQ3 PDB:2YGG PDB:3B32 PDB:3CLN PDB:3EK4 PDB:3EK7 PDB:3EK8 PDB:3EKH PDB:3EKJ PDB:3EVR PDB:3EVU PDB:3EVV PDB:3IFK PDB:3SG2 PDB:3SG3 PDB:3SG4 PDB:3SG5 PDB:3SG6 PDB:3SG7 PDB:3SJQ PDB:4EHQ PDB:4G27 PDB:4G28 PDB:4I2Y PDB:4IL1 PDB:4J9Y PDB:4J9Z PDBsum:1G4Y PDBsum:1NIW PDBsum:1QX5 PDBsum:1QX7 PDBsum:2HQW PDBsum:2PQ3 PDBsum:2YGG PDBsum:3B32 PDBsum:3CLN PDBsum:3EK4 PDBsum:3EK7 PDBsum:3EK8 PDBsum:3EKH PDBsum:3EKJ PDBsum:3EVR PDBsum:3EVU PDBsum:3EVV PDBsum:3IFK PDBsum:3SG2 PDBsum:3SG3 PDBsum:3SG4 PDBsum:3SG5 PDBsum:3SG6 PDBsum:3SG7 PDBsum:3SJQ PDBsum:4EHQ PDBsum:4G27 PDBsum:4G28 PDBsum:4I2Y PDBsum:4IL1 PDBsum:4J9Y PDBsum:4J9Z ProteinModelPortal:P62161 SMR:P62161 BioGrid:246428 DIP:DIP-29528N IntAct:P62161 MINT:MINT-268601 STRING:10116.ENSRNOP00000022603 BindingDB:P62161 PhosphoSite:P62161 PaxDb:P62161 PRIDE:P62161 Ensembl:ENSRNOT00000022603 Ensembl:ENSRNOT00000064679 GeneID:24242 GeneID:24244 GeneID:50663 KEGG:rno:24242 KEGG:rno:24244 KEGG:rno:50663 UCSC:RGD:2257 InParanoid:P62161 EvolutionaryTrace:P62161 NextBio:602729 PRO:PR:P62161 Genevestigator:P62161 GO:GO:0050998 GO:GO:0060314 GO:GO:1901339 Uniprot:P62161)

HSP 1 Score: 229.95 bits (585), Expect = 4.964e-76
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:Calm2 "calmodulin 2" species:10116 "Rattus norvegicus" [GO:0000922 "spindle pole" evidence=IEA] [GO:0001975 "response to amphetamine" evidence=IEP] [GO:0002027 "regulation of heart rate" evidence=IEA] [GO:0005509 "calcium ion binding" evidence=IEA;IDA] [GO:0005513 "detection of calcium ion" evidence=IEA] [GO:0005515 "protein binding" evidence=IPI] [GO:0005634 "nucleus" evidence=IDA] [GO:0005654 "nucleoplasm" evidence=TAS] [GO:0005737 "cytoplasm" evidence=IDA] [GO:0005813 "centrosome" evidence=IEA] [GO:0005829 "cytosol" evidence=TAS] [GO:0005876 "spindle microtubule" evidence=IEA] [GO:0005886 "plasma membrane" evidence=IDA] [GO:0007190 "activation of adenylate cyclase activity" evidence=IDA] [GO:0008179 "adenylate cyclase binding" evidence=IDA] [GO:0010880 "regulation of release of sequestered calcium ion into cytosol by sarcoplasmic reticulum" evidence=IEA] [GO:0019722 "calcium-mediated signaling" evidence=IMP] [GO:0030017 "sarcomere" evidence=IEA] [GO:0030234 "enzyme regulator activity" evidence=IMP] [GO:0030235 "nitric-oxide synthase regulator activity" evidence=IDA] [GO:0030426 "growth cone" evidence=IDA] [GO:0031432 "titin binding" evidence=IEA] [GO:0031996 "thioesterase binding" evidence=IEA] [GO:0031997 "N-terminal myristoylation domain binding" evidence=IEA] [GO:0032465 "regulation of cytokinesis" evidence=IEA] [GO:0032516 "positive regulation of phosphoprotein phosphatase activity" evidence=IEA] [GO:0034704 "calcium channel complex" evidence=IEA] [GO:0035307 "positive regulation of protein dephosphorylation" evidence=IEA] [GO:0043005 "neuron projection" evidence=IDA] [GO:0043274 "phospholipase binding" evidence=IEA] [GO:0044325 "ion channel binding" evidence=IDA] [GO:0047485 "protein N-terminus binding" evidence=IMP] [GO:0050998 "nitric-oxide synthase binding" evidence=IDA] [GO:0051000 "positive regulation of nitric-oxide synthase activity" evidence=IDA] [GO:0051343 "positive regulation of cyclic-nucleotide phosphodiesterase activity" evidence=IEA] [GO:0051412 "response to corticosterone" evidence=IEP] [GO:0055117 "regulation of cardiac muscle contraction" evidence=IEA] [GO:0060314 "regulation of ryanodine-sensitive calcium-release channel activity" evidence=IDA] [GO:0060316 "positive regulation of ryanodine-sensitive calcium-release channel activity" evidence=IEA] [GO:0072542 "protein phosphatase activator activity" evidence=IEA] [GO:1901339 "regulation of store-operated calcium channel activity" evidence=IC] [GO:1901841 "regulation of high voltage-gated calcium channel activity" evidence=IMP] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 RGD:2257 RGD:2259 RGD:2258 GO:GO:0005829 GO:GO:0005886 GO:GO:0005654 GO:GO:0035307 GO:GO:0005813 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0051412 GO:GO:0019722 GO:GO:0051000 GO:GO:0030017 GO:GO:0001975 GO:GO:0007190 GO:GO:0030426 GO:GO:0055117 GO:GO:0008179 GO:GO:0047485 GO:GO:0032516 GO:GO:0034704 GO:GO:0060316 GO:GO:0010880 GO:GO:0030235 GO:GO:0002027 GO:GO:0000922 GO:GO:0044325 GO:GO:0032465 GO:GO:0005876 GO:GO:0005513 GO:GO:0005246 eggNOG:COG5126 HOGENOM:HOG000233018 HOVERGEN:HBG012180 PDB:3BXK PDBsum:3BXK PDB:3BXL PDBsum:3BXL KO:K02183 OrthoDB:EOG7F7WBV TreeFam:TF300912 OMA:NEVDEMI CTD:801 CTD:805 CTD:808 GeneTree:ENSGT00690000101867 GO:GO:0072542 GO:GO:0051343 GO:GO:1901841 EMBL:M16659 EMBL:X13817 EMBL:M19312 EMBL:M17069 EMBL:X13933 EMBL:X13931 EMBL:X13932 EMBL:X05117 EMBL:X13833 EMBL:X13834 EMBL:X13835 EMBL:X14265 EMBL:AF178845 EMBL:BC058485 EMBL:BC063187 PIR:S03206 RefSeq:NP_036650.1 RefSeq:NP_059022.1 RefSeq:NP_114175.1 UniGene:Rn.216430 UniGene:Rn.2892 UniGene:Rn.4166 UniGene:Rn.5968 PDB:1G4Y PDB:1NIW PDB:1QX5 PDB:1QX7 PDB:2HQW PDB:2PQ3 PDB:2YGG PDB:3B32 PDB:3CLN PDB:3EK4 PDB:3EK7 PDB:3EK8 PDB:3EKH PDB:3EKJ PDB:3EVR PDB:3EVU PDB:3EVV PDB:3IFK PDB:3SG2 PDB:3SG3 PDB:3SG4 PDB:3SG5 PDB:3SG6 PDB:3SG7 PDB:3SJQ PDB:4EHQ PDB:4G27 PDB:4G28 PDB:4I2Y PDB:4IL1 PDB:4J9Y PDB:4J9Z PDBsum:1G4Y PDBsum:1NIW PDBsum:1QX5 PDBsum:1QX7 PDBsum:2HQW PDBsum:2PQ3 PDBsum:2YGG PDBsum:3B32 PDBsum:3CLN PDBsum:3EK4 PDBsum:3EK7 PDBsum:3EK8 PDBsum:3EKH PDBsum:3EKJ PDBsum:3EVR PDBsum:3EVU PDBsum:3EVV PDBsum:3IFK PDBsum:3SG2 PDBsum:3SG3 PDBsum:3SG4 PDBsum:3SG5 PDBsum:3SG6 PDBsum:3SG7 PDBsum:3SJQ PDBsum:4EHQ PDBsum:4G27 PDBsum:4G28 PDBsum:4I2Y PDBsum:4IL1 PDBsum:4J9Y PDBsum:4J9Z ProteinModelPortal:P62161 SMR:P62161 BioGrid:246428 DIP:DIP-29528N IntAct:P62161 MINT:MINT-268601 STRING:10116.ENSRNOP00000022603 BindingDB:P62161 PhosphoSite:P62161 PaxDb:P62161 PRIDE:P62161 Ensembl:ENSRNOT00000022603 Ensembl:ENSRNOT00000064679 GeneID:24242 GeneID:24244 GeneID:50663 KEGG:rno:24242 KEGG:rno:24244 KEGG:rno:50663 UCSC:RGD:2257 InParanoid:P62161 EvolutionaryTrace:P62161 NextBio:602729 PRO:PR:P62161 Genevestigator:P62161 GO:GO:0050998 GO:GO:0060314 GO:GO:1901339 Uniprot:P62161)

HSP 1 Score: 229.95 bits (585), Expect = 4.964e-76
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:Calm1 "calmodulin 1" species:10116 "Rattus norvegicus" [GO:0000086 "G2/M transition of mitotic cell cycle" evidence=ISO] [GO:0000922 "spindle pole" evidence=IEA;ISO] [GO:0001975 "response to amphetamine" evidence=IEP] [GO:0002027 "regulation of heart rate" evidence=IEA;ISO] [GO:0005246 "calcium channel regulator activity" evidence=NAS] [GO:0005509 "calcium ion binding" evidence=ISO;IDA] [GO:0005513 "detection of calcium ion" evidence=IEA;ISO] [GO:0005515 "protein binding" evidence=IPI] [GO:0005634 "nucleus" evidence=IDA] [GO:0005654 "nucleoplasm" evidence=TAS] [GO:0005737 "cytoplasm" evidence=IDA] [GO:0005813 "centrosome" evidence=IEA;ISO] [GO:0005829 "cytosol" evidence=TAS] [GO:0005876 "spindle microtubule" evidence=IEA;ISO] [GO:0005886 "plasma membrane" evidence=IDA] [GO:0007190 "activation of adenylate cyclase activity" evidence=IDA] [GO:0008179 "adenylate cyclase binding" evidence=IDA] [GO:0010880 "regulation of release of sequestered calcium ion into cytosol by sarcoplasmic reticulum" evidence=IEA;ISO] [GO:0019722 "calcium-mediated signaling" evidence=IMP] [GO:0019904 "protein domain specific binding" evidence=ISO;IPI] [GO:0021762 "substantia nigra development" evidence=ISO] [GO:0030017 "sarcomere" evidence=IEA;ISO] [GO:0030234 "enzyme regulator activity" evidence=IMP] [GO:0030235 "nitric-oxide synthase regulator activity" evidence=IDA] [GO:0030426 "growth cone" evidence=IDA] [GO:0030801 "positive regulation of cyclic nucleotide metabolic process" evidence=ISO] [GO:0031432 "titin binding" evidence=IEA;ISO] [GO:0031800 "type 3 metabotropic glutamate receptor binding" evidence=IPI] [GO:0031996 "thioesterase binding" evidence=IEA;ISO] [GO:0031997 "N-terminal myristoylation domain binding" evidence=IEA;ISO] [GO:0032465 "regulation of cytokinesis" evidence=IEA;ISO] [GO:0032516 "positive regulation of phosphoprotein phosphatase activity" evidence=IEA;ISO] [GO:0034704 "calcium channel complex" evidence=IEA;ISO] [GO:0035307 "positive regulation of protein dephosphorylation" evidence=IEA;ISO] [GO:0043005 "neuron projection" evidence=IDA] [GO:0043274 "phospholipase binding" evidence=IEA;ISO] [GO:0043388 "positive regulation of DNA binding" evidence=ISO] [GO:0043548 "phosphatidylinositol 3-kinase binding" evidence=IPI] [GO:0044325 "ion channel binding" evidence=ISO;IDA] [GO:0047485 "protein N-terminus binding" evidence=IMP] [GO:0048306 "calcium-dependent protein binding" evidence=IPI] [GO:0050998 "nitric-oxide synthase binding" evidence=IDA] [GO:0051000 "positive regulation of nitric-oxide synthase activity" evidence=IDA] [GO:0051343 "positive regulation of cyclic-nucleotide phosphodiesterase activity" evidence=IEA;ISO] [GO:0051592 "response to calcium ion" evidence=ISO] [GO:0055117 "regulation of cardiac muscle contraction" evidence=IEA;ISO] [GO:0060314 "regulation of ryanodine-sensitive calcium-release channel activity" evidence=IDA] [GO:0060316 "positive regulation of ryanodine-sensitive calcium-release channel activity" evidence=IEA;ISO] [GO:0070062 "extracellular vesicular exosome" evidence=ISO] [GO:0072542 "protein phosphatase activator activity" evidence=IEA;ISO] [GO:1901339 "regulation of store-operated calcium channel activity" evidence=IC] [GO:1901841 "regulation of high voltage-gated calcium channel activity" evidence=IMP] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 RGD:2257 RGD:2259 RGD:2258 GO:GO:0005829 GO:GO:0005886 GO:GO:0005654 GO:GO:0035307 GO:GO:0005813 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 GO:GO:0051412 GO:GO:0019722 GO:GO:0051000 GO:GO:0030017 GO:GO:0001975 GO:GO:0007190 GO:GO:0030426 GO:GO:0055117 GO:GO:0008179 GO:GO:0047485 GO:GO:0032516 GO:GO:0034704 GO:GO:0060316 GO:GO:0010880 GO:GO:0030235 GO:GO:0002027 GO:GO:0000922 GO:GO:0044325 GO:GO:0032465 GO:GO:0005876 GO:GO:0005513 GO:GO:0005246 eggNOG:COG5126 HOGENOM:HOG000233018 HOVERGEN:HBG012180 PDB:3BXK PDBsum:3BXK PDB:3BXL PDBsum:3BXL KO:K02183 OrthoDB:EOG7F7WBV TreeFam:TF300912 OMA:NEVDEMI CTD:801 CTD:805 CTD:808 GeneTree:ENSGT00690000101867 GO:GO:0072542 GO:GO:0051343 GO:GO:1901841 EMBL:M16659 EMBL:X13817 EMBL:M19312 EMBL:M17069 EMBL:X13933 EMBL:X13931 EMBL:X13932 EMBL:X05117 EMBL:X13833 EMBL:X13834 EMBL:X13835 EMBL:X14265 EMBL:AF178845 EMBL:BC058485 EMBL:BC063187 PIR:S03206 RefSeq:NP_036650.1 RefSeq:NP_059022.1 RefSeq:NP_114175.1 UniGene:Rn.216430 UniGene:Rn.2892 UniGene:Rn.4166 UniGene:Rn.5968 PDB:1G4Y PDB:1NIW PDB:1QX5 PDB:1QX7 PDB:2HQW PDB:2PQ3 PDB:2YGG PDB:3B32 PDB:3CLN PDB:3EK4 PDB:3EK7 PDB:3EK8 PDB:3EKH PDB:3EKJ PDB:3EVR PDB:3EVU PDB:3EVV PDB:3IFK PDB:3SG2 PDB:3SG3 PDB:3SG4 PDB:3SG5 PDB:3SG6 PDB:3SG7 PDB:3SJQ PDB:4EHQ PDB:4G27 PDB:4G28 PDB:4I2Y PDB:4IL1 PDB:4J9Y PDB:4J9Z PDBsum:1G4Y PDBsum:1NIW PDBsum:1QX5 PDBsum:1QX7 PDBsum:2HQW PDBsum:2PQ3 PDBsum:2YGG PDBsum:3B32 PDBsum:3CLN PDBsum:3EK4 PDBsum:3EK7 PDBsum:3EK8 PDBsum:3EKH PDBsum:3EKJ PDBsum:3EVR PDBsum:3EVU PDBsum:3EVV PDBsum:3IFK PDBsum:3SG2 PDBsum:3SG3 PDBsum:3SG4 PDBsum:3SG5 PDBsum:3SG6 PDBsum:3SG7 PDBsum:3SJQ PDBsum:4EHQ PDBsum:4G27 PDBsum:4G28 PDBsum:4I2Y PDBsum:4IL1 PDBsum:4J9Y PDBsum:4J9Z ProteinModelPortal:P62161 SMR:P62161 BioGrid:246428 DIP:DIP-29528N IntAct:P62161 MINT:MINT-268601 STRING:10116.ENSRNOP00000022603 BindingDB:P62161 PhosphoSite:P62161 PaxDb:P62161 PRIDE:P62161 Ensembl:ENSRNOT00000022603 Ensembl:ENSRNOT00000064679 GeneID:24242 GeneID:24244 GeneID:50663 KEGG:rno:24242 KEGG:rno:24244 KEGG:rno:50663 UCSC:RGD:2257 InParanoid:P62161 EvolutionaryTrace:P62161 NextBio:602729 PRO:PR:P62161 Genevestigator:P62161 GO:GO:0050998 GO:GO:0060314 GO:GO:1901339 Uniprot:P62161)

HSP 1 Score: 229.95 bits (585), Expect = 4.964e-76
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. GO
Match: - (symbol:calm1 "Calmodulin" species:8355 "Xenopus laevis" [GO:0005102 "receptor binding" evidence=IPI] [GO:0005515 "protein binding" evidence=IPI] InterPro:IPR001125 InterPro:IPR002048 InterPro:IPR011992 Pfam:PF13499 PRINTS:PR00450 PROSITE:PS50222 SMART:SM00054 Prosite:PS00018 GO:GO:0005509 Gene3D:1.10.238.10 InterPro:IPR018247 PDB:1CFF PDBsum:1CFF HOVERGEN:HBG012180 KO:K02183 CTD:801 CTD:805 EMBL:K01944 EMBL:K01945 EMBL:BC054973 EMBL:BC072232 EMBL:BC094079 PIR:I51402 RefSeq:NP_001080864.1 RefSeq:NP_001084025.1 RefSeq:NP_001089059.1 UniGene:Xl.54061 UniGene:Xl.543 UniGene:Xl.54419 PDB:1CFC PDB:1CFD PDB:1CKK PDB:1DMO PDB:1F70 PDB:1F71 PDB:1IQ5 PDB:1MUX PDB:1NWD PDB:1SY9 PDB:1X02 PDB:1Y0V PDB:2COL PDB:2K3S PDB:2KDU PDB:2LLO PDB:2LLQ PDB:2RRT PDBsum:1CFC PDBsum:1CFD PDBsum:1CKK PDBsum:1DMO PDBsum:1F70 PDBsum:1F71 PDBsum:1IQ5 PDBsum:1MUX PDBsum:1NWD PDBsum:1SY9 PDBsum:1X02 PDBsum:1Y0V PDBsum:2COL PDBsum:2K3S PDBsum:2KDU PDBsum:2LLO PDBsum:2LLQ PDBsum:2RRT ProteinModelPortal:P62155 SMR:P62155 IntAct:P62155 MINT:MINT-7032991 BindingDB:P62155 PRIDE:P62155 GeneID:380558 GeneID:399259 GeneID:606721 KEGG:xla:380558 KEGG:xla:399259 KEGG:xla:606721 Xenbase:XB-GENE-976648 Xenbase:XB-GENE-1014645 EvolutionaryTrace:P62155 Uniprot:P62155)

HSP 1 Score: 229.95 bits (585), Expect = 4.964e-76
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592893784|gb|GAXK01064591.1| (TSA: Calanus finmarchicus comp584873_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 243.047 bits (619), Expect = 7.668e-80
Identity = 117/148 (79.05%), Postives = 135/148 (91.22%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153
            LT+EQ+AEF+EAF LFDKDGDGTITTKELATVMRSLGQNPTEAELQ+MINEVD DGNGSI+F+EFL MM+ KVK+NE + DI+EAFRVFDRDGDG+I++EE + VMSTLGE LS EE+DEMIREADLDGDGKV + EFATMM+H+GG 
Sbjct:  207 LTDEQVAEFREAFSLFDKDGDGTITTKELATVMRSLGQNPTEAELQDMINEVDEDGNGSIDFDEFLTMMSVKVKENEDNEDIREAFRVFDRDGDGFITSEELNMVMSTLGEKLSKEEVDEMIREADLDGDGKVGFTEFATMMNHRGGP 650          

HSP 2 Score: 68.5514 bits (166), Expect = 9.665e-14
Identity = 33/78 (42.31%), Postives = 52/78 (66.67%), Query Frame = 0
Query:   73 MMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            M  + +  +E  ++ +EAF +FD+DGDG I+ +E   VM +LG+N +  E+ +MI E D DG+G + ++EF TMMS K
Sbjct:  435 MGGRALLTDEQVAEFREAFSLFDKDGDGTITTKELATVMRSLGQNPTEAELQDMINEVDEDGNGSIDFDEFLTMMSVK 668          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592779066|gb|GAXK01175502.1| (TSA: Calanus finmarchicus comp2010_c4_seq1 transcribed RNA sequence)

HSP 1 Score: 231.106 bits (588), Expect = 4.736e-76
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:   51 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 491          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592791700|gb|GAXK01162868.1| (TSA: Calanus finmarchicus comp784995_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 222.631 bits (566), Expect = 1.762e-73
Identity = 107/145 (73.79%), Postives = 127/145 (87.59%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I EAF+VFD+DG+G+ISA E   +M+ LGE L+ EE+DEMIREAD+DGDG++ YEEF TMM 
Sbjct:   22 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEILEAFKVFDKDGNGFISAAELRHIMTNLGEKLTDEEVDEMIREADIDGDGQINYEEFYTMMC 456          

HSP 2 Score: 68.9366 bits (167), Expect = 3.004e-14
Identity = 32/69 (46.38%), Postives = 47/69 (68.12%), Query Frame = 0
Query:   82 ESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            E  ++ KEAF +FD+DGDG I+ +E   VM +LG+N +  E+ +MI E D DG+G + + EF TMM+ K
Sbjct:   37 EQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARK 243          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592784785|gb|GAXK01169783.1| (TSA: Calanus finmarchicus comp484_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 230.72 bits (587), Expect = 8.288e-72
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:  264 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 704          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592943403|gb|GAXK01015150.1| (TSA: Calanus finmarchicus comp1556889_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 211.075 bits (536), Expect = 1.983e-67
Identity = 101/147 (68.71%), Postives = 124/147 (84.35%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            E L+EEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNP E EL +MINEVD+DGNG+I+F EFL MMA+K+KD ++  +++EAF+VFD DG+G+IS  E  QVM+ LGE L+ EE+D+MI+EAD+DGDG V YEEF +MM+ K
Sbjct:  231 ETLSEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPKEEELSDMINEVDSDGNGTIDFPEFLTMMARKMKDTDTEDELREAFKVFDDDGNGFISVSELRQVMTNLGERLTEEEVDQMIKEADIDGDGLVNYEEFVSMMTTK 671          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592790737|gb|GAXK01163831.1| (TSA: Calanus finmarchicus comp383913_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 207.223 bits (526), Expect = 5.307e-66
Identity = 101/145 (69.66%), Postives = 121/145 (83.45%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
             TEEQ+ EFKEAF LFD+DGDGTITTKEL TVMRSLGQNP E ELQ+MINEVD DGNG+I+FEEFL MM++K+KDN+S  +++EAF+VFD DG+G I+  E  QVMS LGE L+ EE++ MI+EADLDGDG V YEEF +MMS K
Sbjct:  196 FTEEQVLEFKEAFSLFDRDGDGTITTKELGTVMRSLGQNPKEDELQDMINEVDGDGNGTIDFEEFLIMMSRKMKDNDSEEELREAFKVFDSDGNGTINVAELKQVMSNLGERLADEEVEMMIKEADLDGDGLVNYEEFISMMSAK 630          

HSP 2 Score: 66.6254 bits (161), Expect = 5.491e-13
Identity = 32/67 (47.76%), Postives = 46/67 (68.66%), Query Frame = 0
Query:   13 EFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVK 79
            E +EAF +FD DG+GTI   EL  VM +LG+   + E++ MI E D DG+G + +EEF++MM+ K K
Sbjct:  190 ELREAFKVFDSDGNGTINVAELKQVMSNLGERLADEEVEMMIKEADLDGDGLVNYEEFISMMSAK*K 390          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592926706|gb|GAXK01031745.1| (TSA: Calanus finmarchicus comp21249_c0_seq2 transcribed RNA sequence)

HSP 1 Score: 182.185 bits (461), Expect = 1.363e-56
Identity = 87/153 (56.86%), Postives = 120/153 (78.43%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSH----KGG 152
            E LT +++A FKEAF +FDK+ DGTITTKEL+TVMRSLGQNPT+AE+Q+MINEVD DG+G++EF EF  MM KK++++++ ++++EA+RVFD+D DG+ISA E   + + L E LS+EEIDEM+  AD DG G+  Y+EF  M+ H    +GG
Sbjct:   57 ESLTSDELATFKEAFTVFDKNQDGTITTKELSTVMRSLGQNPTDAEVQDMINEVDVDGSGAMEFPEFCVMMVKKMQESDTENEVREAYRVFDKDHDGFISASELRMIFAALPERLSAEEIDEMLEAADEDGSGRFEYDEFKQMLGHGNSQRGG 515          

HSP 2 Score: 62.003 bits (149), Expect = 1.505e-11
Identity = 32/78 (41.03%), Postives = 50/78 (64.10%), Query Frame = 0
Query:   76 KKVKDNESSSDI---KEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            KK+ ++ +S ++   KEAF VFD++ DG I+ +E   VM +LG+N +  E+ +MI E D+DG G + + EF  MM  K
Sbjct:   45 KKILESLTSDELATFKEAFTVFDKNQDGTITTKELSTVMRSLGQNPTDAEVQDMINEVDVDGSGAMEFPEFCVMMVKK 278          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592926707|gb|GAXK01031744.1| (TSA: Calanus finmarchicus comp21249_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 179.489 bits (454), Expect = 2.100e-55
Identity = 85/151 (56.29%), Postives = 117/151 (77.48%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSH----KGG 152
            LT E +A FKEAF ++DK+ DGTITTKEL+ VMRSLGQNPT+AE+Q+MINEVD DG+G++EF EF  MM KK++++++ ++++EA+RVFD+D DG+ISA E   + + L E LS+EEIDEM+  AD DG G+  Y+EF  M+ H    +GG
Sbjct:   66 LTAEDLATFKEAFTVYDKNNDGTITTKELSVVMRSLGQNPTDAEVQDMINEVDVDGSGAMEFPEFCVMMVKKMQESDTENEVREAYRVFDKDHDGFISASELRMIFAALPERLSAEEIDEMLEAADEDGSGRFEYDEFKQMLGHGNSQRGG 518          

HSP 2 Score: 62.7734 bits (151), Expect = 7.582e-12
Identity = 31/78 (39.74%), Postives = 50/78 (64.10%), Query Frame = 0
Query:   76 KKVKDNESSSDI---KEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            K++ D+ ++ D+   KEAF V+D++ DG I+ +E   VM +LG+N +  E+ +MI E D+DG G + + EF  MM  K
Sbjct:   48 KRILDSLTAEDLATFKEAFTVYDKNNDGTITTKELSVVMRSLGQNPTDAEVQDMINEVDVDGSGAMEFPEFCVMMVKK 281          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592800642|gb|GAXK01153926.1| (TSA: Calanus finmarchicus comp1331342_c0_seq2 transcribed RNA sequence)

HSP 1 Score: 174.096 bits (440), Expect = 2.120e-53
Identity = 80/149 (53.69%), Postives = 109/149 (73.15%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ATE LTEE++ E+++ F  FD+DG G+I+T EL  VMR+ G NP+E ELQE+I+E+D DGNG+I F EF+ +M +++ DN+   +I+EAFRVFDR+G G+I   +   V+ TLGE LS EE  E+I EADLDGDG + YEEF  M+  K
Sbjct:   96 ATENLTEEKLIEYQQIFSFFDRDGGGSISTVELGQVMRTFGWNPSEMELQELISEIDQDGNGAISFNEFVWLMTREIHDNDIEEEIREAFRVFDREGHGFIKVPDLTHVLQTLGEKLSPEETQELISEADLDGDGNINYEEFVAMLFKK 542          
BLAST of EMLSAG00000006985 vs. C. finmarchicus
Match: gi|592800643|gb|GAXK01153925.1| (TSA: Calanus finmarchicus comp1331342_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 174.096 bits (440), Expect = 2.953e-53
Identity = 80/149 (53.69%), Postives = 109/149 (73.15%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ATE LTEE++ E+++ F  FD+DG G+I+T EL  VMR+ G NP+E ELQE+I+E+D DGNG+I F EF+ +M +++ DN+   +I+EAFRVFDR+G G+I   +   V+ TLGE LS EE  E+I EADLDGDG + YEEF  M+  K
Sbjct:  130 ATENLTEEKLIEYQQIFSFFDRDGGGSISTVELGQVMRTFGWNPSEMELQELISEIDQDGNGAISFNEFVWLMTREIHDNDIEEEIREAFRVFDREGHGFIKVPDLTHVLQTLGEKLSPEETQELISEADLDGDGNINYEEFVAMLFKK 576          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000006985 (pep:novel supercontig:LSalAtl2s:LSalAtl2s397:377196:491552:1 gene:EMLSAG00000006985 transcript:EMLSAT00000006985 description:"maker-LSalAtl2s397-snap-gene-5.15")

HSP 1 Score: 304.294 bits (778), Expect = 8.215e-107
Identity = 153/153 (100.00%), Postives = 153/153 (100.00%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153
            MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA
Sbjct:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000002767 (pep:novel supercontig:LSalAtl2s:LSalAtl2s15:378667:382347:1 gene:EMLSAG00000002767 transcript:EMLSAT00000002767 description:"maker-LSalAtl2s15-augustus-gene-3.6")

HSP 1 Score: 201.83 bits (512), Expect = 3.520e-66
Identity = 104/159 (65.41%), Postives = 120/159 (75.47%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADG---------------------NGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYE 141
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADG                     NG+I+F EFL MMA K+K   S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YE
Sbjct:    2 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGEXPFPRQSPPMLYHSLSLYLCNGTIDFPEFLTMMAXKMKXTXSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYE 160          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000001152 (pep:novel supercontig:LSalAtl2s:LSalAtl2s1190:33089:45311:1 gene:EMLSAG00000001152 transcript:EMLSAT00000001152 description:"maker-LSalAtl2s1190-augustus-gene-0.25")

HSP 1 Score: 159.073 bits (401), Expect = 1.020e-49
Identity = 79/142 (55.63%), Postives = 107/142 (75.35%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMM 147
            LTE Q AEFKEAF  FDKDG GTI+TKEL  VMRS+GQNPTE E+ EM+ E D +G+G+I+F EF+ MM KK  + + + D++EAFR+FD++  GYI A+E   V +T+G+ L+ EE++  ++EADLDGDGK+ Y EF  +M
Sbjct:    4 LTELQQAEFKEAFDEFDKDGSGTISTKELLLVMRSIGQNPTEDEILEMVMESDLNGDGTIDFLEFVEMMKKKSSETDQTEDLREAFRIFDKNKSGYIEAKEIISVTTTMGQVLTPEELETFMQEADLDGDGKLDYNEFVKIM 145          

HSP 2 Score: 63.1586 bits (152), Expect = 2.139e-13
Identity = 31/66 (46.97%), Postives = 45/66 (68.18%), Query Frame = 0
Query:   85 SDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++ KEAF  FD+DG G IS +E   VM ++G+N + +EI EM+ E+DL+GDG + + EF  MM  K
Sbjct:   10 AEFKEAFDEFDKDGSGTISTKELLLVMRSIGQNPTEDEILEMVMESDLNGDGTIDFLEFVEMMKKK 75          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000008774 (pep:novel supercontig:LSalAtl2s:LSalAtl2s545:134602:142913:1 gene:EMLSAG00000008774 transcript:EMLSAT00000008774 description:"augustus_masked-LSalAtl2s545-processed-gene-1.3")

HSP 1 Score: 154.836 bits (390), Expect = 6.993e-48
Identity = 76/148 (51.35%), Postives = 104/148 (70.27%), Query Frame = 0
Query:    3 TEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
             ++L  +++  FK AF +FDK+ DGTI+TKEL   MR  GQNPTEAE+Q+MINEVD DG+G +EF EF  MM KK+ D +  +++KE FRVF +D  G I+AEE   V++ L   ++ +EIDEMIR  D +GDGK+ Y+EF  M+  K
Sbjct:    2 CDKLRPDELQAFKAAFDMFDKNQDGTISTKELHAAMRRAGQNPTEAEVQDMINEVDVDGSGYLEFPEFCMMMHKKLNDGDQENELKEVFRVFGKDETGCITAEELKFVLTHLPGKVTYKEIDEMIRTVDQNGDGKINYQEFRVMIGAK 149          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000007325 (pep:novel supercontig:LSalAtl2s:LSalAtl2s412:129788:148284:-1 gene:EMLSAG00000007325 transcript:EMLSAT00000007325 description:"maker-LSalAtl2s412-augustus-gene-1.21")

HSP 1 Score: 154.066 bits (388), Expect = 9.594e-48
Identity = 78/148 (52.70%), Postives = 101/148 (68.24%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
            MA  +LT EQ+AE +EAF  FD DG GTITT+EL   MR++G NPTE EL E+INE D DG+G IEF EF  MMA K         ++ AFRV DRDG G I++ E   +M+ +G+ LS+ E++ +I EAD DGDG + YEEF T+M+
Sbjct:    1 MAGIDLTREQVAELREAFNEFDDDGSGTITTQELGYAMRAMGMNPTEQELLELINEFDTDGSGQIEFPEFCNMMAMKTGQANDEEMVRMAFRVLDRDGSGTITSAEFRHLMTNIGDKLSATEVEMLIGEADKDGDGHLDYEEFVTLMT 148          

HSP 2 Score: 56.9954 bits (136), Expect = 2.871e-11
Identity = 28/71 (39.44%), Postives = 43/71 (60.56%), Query Frame = 0
Query:   82 ESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGG 152
            E  ++++EAF  FD DG G I+ +E    M  +G N + +E+ E+I E D DG G++ + EF  MM+ K G
Sbjct:    9 EQVAELREAFNEFDDDGSGTITTQELGYAMRAMGMNPTEQELLELINEFDTDGSGQIEFPEFCNMMAMKTG 79          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000011139 (pep:novel supercontig:LSalAtl2s:LSalAtl2s757:131231:140176:-1 gene:EMLSAG00000011139 transcript:EMLSAT00000011139 description:"maker-LSalAtl2s757-augustus-gene-1.16")

HSP 1 Score: 153.295 bits (386), Expect = 5.026e-46
Identity = 74/131 (56.49%), Postives = 98/131 (74.81%), Query Frame = 0
Query:   13 EFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEF 143
            EF++AF  FD D DG IT+KEL  V+R +GQNPTEAELQ+M+NEVD DG GSI+F EFLAMMA K+ D  +  +I+EAF+VFD DG+G+I   E   ++  LGE ++ +EI E+I+EAD+D DG + Y EF
Sbjct:    1 EFQDAFCAFDTDHDGXITSKELGAVLRHIGQNPTEAELQDMVNEVDKDGTGSIDFPEFLAMMALKINDQNAEDEIREAFKVFDGDGNGFIDRRELSIMLRFLGEPMTEKEIQEIIQEADVDHDGVIDYTEF 131          

HSP 2 Score: 119.013 bits (297), Expect = 5.965e-33
Identity = 63/142 (44.37%), Postives = 89/142 (62.68%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMM 147
            LT E++ EFKEAF LFDK+GDGTI + EL  VMR +G NPT+ E+QEMI++ D D                        + I + FRVFD+DG+G+IS  E   V S L    S++E++EM+ EADLDG+G++ ++EF ++M
Sbjct:  153 LTPEKLEEFKEAFALFDKNGDGTIDSHELVAVMRMMGYNPTDEEIQEMIDDADKD-----------------------IAYIFQIFRVFDKDGNGFISTAEIKHVTSRLYMQFSNDELNEMVYEADLDGNGQIGFDEFYSIM 271          

HSP 3 Score: 91.6633 bits (226), Expect = 5.905e-23
Identity = 53/134 (39.55%), Postives = 78/134 (58.21%), Query Frame = 0
Query:   13 EFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDN-------------ESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLD 133
            E +EAF +FD DG+G I  +EL+ ++R LG+  TE E+QE+I E D D +G I++ EF  +  +   ++             E   + KEAF +FD++GDG I + E   VM  +G N + EEI EMI +AD D
Sbjct:   74 EIREAFKVFDGDGNGFIDRRELSIMLRFLGEPMTEKEIQEIIQEADVDHDGVIDYTEFFMICTRMSTEDYFNEVEGLIRLTPEKLEEFKEAFALFDKNGDGTIDSHELVAVMRMMGYNPTDEEIQEMIDDADKD 207          

HSP 4 Score: 50.8322 bits (120), Expect = 1.732e-8
Identity = 24/64 (37.50%), Postives = 39/64 (60.94%), Query Frame = 0
Query:   87 IKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
             ++AF  FD D DG I+++E   V+  +G+N +  E+ +M+ E D DG G + + EF  MM+ K
Sbjct:    2 FQDAFCAFDTDHDGXITSKELGAVLRHIGQNPTEAELQDMVNEVDKDGTGSIDFPEFLAMMALK 65          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000007204 (pep:novel supercontig:LSalAtl2s:LSalAtl2s404:411131:411583:1 gene:EMLSAG00000007204 transcript:EMLSAT00000007204 description:"augustus_masked-LSalAtl2s404-processed-gene-4.7")

HSP 1 Score: 146.362 bits (368), Expect = 9.599e-45
Identity = 70/147 (47.62%), Postives = 102/147 (69.39%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
             +E +  E+I+ F EAF L+D D DG ITT +L  ++  LGQNPTEAELQ++   +D DG+G+I+  EF+  MAK++  N    +I EAF+VFD+DG+G IS+ E   VMS +GE L  +E++ +I+EAD+DGDG + Y EF T+ +
Sbjct:    3 VSELIPGEEISRFLEAFNLYDDDSDGVITTSQLGKILHYLGQNPTEAELQDLYLSMDTDGSGTIDLPEFIQSMAKRLARNNFEDEITEAFKVFDKDGNGLISSNELKCVMSNIGEILKDDEVEALIKEADVDGDGSINYAEFFTLFA 149          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000011516 (pep:novel supercontig:LSalAtl2s:LSalAtl2s799:170792:183309:-1 gene:EMLSAG00000011516 transcript:EMLSAT00000011516 description:"maker-LSalAtl2s799-snap-gene-1.13")

HSP 1 Score: 141.739 bits (356), Expect = 1.061e-42
Identity = 72/146 (49.32%), Postives = 98/146 (67.12%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDN-ESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            L E+++ E++E F  FD+DG GTIT+ EL                QEMINE+D DGNG I F EF+ +M K V D+ +   +I+EAFRVFDR+G G+I+  +  QV++TLG+ L+ +E  E+IREAD+DGDG V YEEF TM+ HK
Sbjct:   19 LPEDKLQEYREVFSFFDRDGGGTITSVELG---------------QEMINEIDQDGNGCISFNEFIYLMTKNVHDDGDIEEEIREAFRVFDREGHGFITVPDLTQVLTTLGDKLTEDESLELIREADIDGDGNVNYEEFVTMLLHK 149          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000000515 (pep:novel supercontig:LSalAtl2s:LSalAtl2s1080:26983:29032:-1 gene:EMLSAG00000000515 transcript:EMLSAT00000000515 description:"maker-LSalAtl2s1080-augustus-gene-0.18")

HSP 1 Score: 108.227 bits (269), Expect = 5.425e-30
Identity = 57/143 (39.86%), Postives = 93/143 (65.03%), Query Frame = 0
Query:    5 ELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMM 147
            EL +EQ  + +EAF LFD  G G +  K+L   +R+LG  P + E+++M+  ++ DG  ++ F+ FL +MA K+ + ++  DI +AF++FD D  G I+ +   ++ + LGEN++ EE+ EMI EAD DGDG+V  +EF  +M
Sbjct:   15 ELNDEQKKDIREAFDLFDSQGTGFMNAKDLKVAIRALGFEPQKDEMRKMLAGIEDDG--TLSFDHFLNIMASKMSEKDTKDDIIKAFKLFDEDDSGKITLKNLKKISAELGENMTDEELREMIDEADRDGDGEVNQDEFFKIM 155          

HSP 2 Score: 58.151 bits (139), Expect = 1.582e-11
Identity = 29/61 (47.54%), Postives = 40/61 (65.57%), Query Frame = 0
Query:   16 EAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAK 76
            +AF LFD+D  G IT K L  +   LG+N T+ EL+EMI+E D DG+G +  +EF  +M K
Sbjct:   97 KAFKLFDEDDSGKITLKNLKKISAELGENMTDEELREMIDEADRDGDGEVNQDEFFKIMKK 157          
BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Match: EMLSAP00000010319 (pep:novel supercontig:LSalAtl2s:LSalAtl2s683:131004:131643:-1 gene:EMLSAG00000010319 transcript:EMLSAT00000010319 description:"maker-LSalAtl2s683-snap-gene-1.56")

HSP 1 Score: 108.612 bits (270), Expect = 7.102e-30
Identity = 55/146 (37.67%), Postives = 93/146 (63.70%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMM----AKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMM 147
             +++QIAEF+EAF+LFD  GD  I   ++  V+R+LGQNPTEAE++ ++    A+G   + FE F+ ++    +K V D  +  D  E  R FD+DG+G+IS+ E   ++++LGE ++ ++++ +I   + D  G + YEEF  M+
Sbjct:   40 FSDDQIAEFQEAFMLFDTKGDVMIPANQVGEVLRALGQNPTEAEVKRLVQNQKAEGR--VTFETFIPILQAVSSKPVTD--TMEDFVEGLRHFDKDGNGFISSAELRHLLTSLGEKMTEDDVESLIHGQE-DSSGNINYEEFVKMV 180          

HSP 2 Score: 45.8246 bits (107), Expect = 6.403e-7
Identity = 25/66 (37.88%), Postives = 42/66 (63.64%), Query Frame = 0
Query:   13 EFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKV 78
            +F E    FDKDG+G I++ EL  ++ SLG+  TE +++ +I+    D +G+I +EEF+ M+   V
Sbjct:  120 DFVEGLRHFDKDGNGFISSAELRHLLTSLGEKMTEDDVESLIHG-QEDSSGNINYEEFVKMVLANV 184          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|122063218|sp|P21251.2|CALM_STIJA (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 232.646 bits (592), Expect = 1.218e-78
Identity = 112/147 (76.19%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|115509|sp|P02594.2|CALM_ELEEL (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 231.106 bits (588), Expect = 4.846e-78
Identity = 112/147 (76.19%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMAKK+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMAKKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|49035528|sp|Q8STF0.3|CALM_STRIE (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 231.106 bits (588), Expect = 5.135e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:   10 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 156          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|49037462|sp|P62145.2|CALM_APLCA (RecName: Full=Calmodulin; Short=CaM >gi|49037463|sp|P62147.2|CALM1_BRAFL RecName: Full=Calmodulin-1; Short=CaM 1 >gi|49037464|sp|P62148.2|CALM1_BRALA RecName: Full=Calmodulin-1; Short=CaM 1 >gi|49037468|sp|P62152.2|CALM_DROME RecName: Full=Calmodulin; Short=CaM >gi|49037469|sp|P62153.2|CALMA_HALRO RecName: Full=Calmodulin-A; Short=CaM A >gi|49037470|sp|P62154.2|CALM_LOCMI RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 230.72 bits (587), Expect = 5.712e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|55976211|sp|O16305.3|CALM_CAEEL (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 230.72 bits (587), Expect = 6.733e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTTK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|122063213|sp|P02595.2|CALM_PATSP (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 230.335 bits (586), Expect = 8.664e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADG+G+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DGDG+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGDGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGDGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|49037408|sp|P62161.2|CALM_RAT (RecName: Full=Calmodulin; Short=CaM >gi|49037461|sp|P62144.2|CALM_ANAPL RecName: Full=Calmodulin; Short=CaM >gi|49037465|sp|P62149.2|CALM_CHICK RecName: Full=Calmodulin; Short=CaM >gi|49037467|sp|P62151.2|CALM_TORCA RecName: Full=Calmodulin; Short=CaM >gi|49037471|sp|P62155.2|CALM_XENLA RecName: Full=Calmodulin; Short=CaM >gi|49037472|sp|P62156.2|CALM_ONCSP RecName: Full=Calmodulin; Short=CaM >gi|49037473|sp|P62157.2|CALM_BOVIN RecName: Full=Calmodulin; Short=CaM >gi|49037474|sp|P62158.2|CALM_HUMAN RecName: Full=Calmodulin; Short=CaM >gi|49037475|sp|P62160.2|CALM_RABIT RecName: Full=Calmodulin; Short=CaM >gi|49037483|sp|P62204.2|CALM_MOUSE RecName: Full=Calmodulin; Short=CaM >gi|52782718|sp|Q6PI52.3|CALM_DANRE RecName: Full=Calmodulin; Short=CaM >gi|62286510|sp|Q5RAD2.3|CALM_PONAB RecName: Full=Calmodulin; Short=CaM >gi|75072157|sp|Q6YNX6.3|CALM_SHEEP RecName: Full=Calmodulin; Short=CaM >gi|78099191|sp|Q6IT78.3|CALM_CTEID RecName: Full=Calmodulin; Short=CaM >gi|78099194|sp|Q71UH6.3|CALM_PERFV RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 229.95 bits (585), Expect = 1.067e-77
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|49035754|sp|Q9GRJ1.3|CALM_LUMRU (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 229.565 bits (584), Expect = 2.037e-77
Identity = 111/147 (75.51%), Postives = 129/147 (87.76%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM  K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMMSK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|49035514|sp|O02367.3|CALM_CIOIN (RecName: Full=Calmodulin; Short=CaM; AltName: Full=Ci-CaM)

HSP 1 Score: 229.18 bits (583), Expect = 2.622e-77
Identity = 110/147 (74.83%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM++K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADVDGDGQVNYEEFVNMMTNK 149          
BLAST of EMLSAG00000006985 vs. SwissProt
Match: gi|122063215|sp|P11121.2|CALM_PYUSP (RecName: Full=Calmodulin; Short=CaM)

HSP 1 Score: 228.794 bits (582), Expect = 4.020e-77
Identity = 110/147 (74.83%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADG+G+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGDGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: XP_006565317.1 (PREDICTED: calmodulin [Apis mellifera])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: gb|KFM82866.1| (Calmodulin, partial [Stegodyphus mimosarum])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: gb|KFM63817.1| (Calmodulin, partial [Stegodyphus mimosarum])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: EFX72807.1 (calmodulin [Daphnia pulex])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: gb|EEZ98710.1| (Calmodulin-like Protein [Tribolium castaneum])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: AHN56135.1 (calmodulin, isoform E [Drosophila melanogaster])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: AFH08031.1 (calmodulin, isoform D [Drosophila melanogaster])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: AFH08030.1 (calmodulin, isoform C [Drosophila melanogaster])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: AAF58543.1 (calmodulin, isoform B [Drosophila melanogaster])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Match: AAF58542.1 (calmodulin, isoform A [Drosophila melanogaster])

HSP 1 Score: 230.72 bits (587), Expect = 2.768e-78
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|290562365|gb|ADD38579.1| (Calmodulin [Lepeophtheirus salmonis])

HSP 1 Score: 304.294 bits (778), Expect = 1.291e-104
Identity = 152/153 (99.35%), Postives = 152/153 (99.35%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153
            MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEE HQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA
Sbjct:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEELHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|225712812|gb|ACO12252.1| (Calmodulin [Lepeophtheirus salmonis])

HSP 1 Score: 303.908 bits (777), Expect = 1.959e-104
Identity = 151/153 (98.69%), Postives = 152/153 (99.35%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153
            MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSD+KEAFRVFDRDGDGYISAEE HQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA
Sbjct:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDVKEAFRVFDRDGDGYISAEELHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|827548976|ref|XP_012546645.1| (PREDICTED: calmodulin isoform X1 [Bombyx mori])

HSP 1 Score: 234.572 bits (597), Expect = 5.231e-77
Identity = 113/150 (75.33%), Postives = 132/150 (88.00%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            MA ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    4 MAADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 153          

HSP 2 Score: 70.0922 bits (170), Expect = 1.970e-12
Identity = 34/80 (42.50%), Postives = 51/80 (63.75%), Query Frame = 0
Query:   71 LAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            + +MA      E  ++ KEAF +FD+DGDG I+ +E   VM +LG+N +  E+ +MI E D DG+G + + EF TMM+ K
Sbjct:    1 MVVMAADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARK 80          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|534286076|pdb|3WFN|B (Chain B, Crystal Structure Of Nav1.6 Iq Motif In Complex With Apo-cam >gi|534286077|pdb|3WFN|C Chain C, Crystal Structure Of Nav1.6 Iq Motif In Complex With Apo-cam >gi|534286078|pdb|3WFN|D Chain D, Crystal Structure Of Nav1.6 Iq Motif In Complex With Apo-cam >gi|534286079|pdb|3WFN|E Chain E, Crystal Structure Of Nav1.6 Iq Motif In Complex With Apo-cam)

HSP 1 Score: 234.187 bits (596), Expect = 1.752e-76
Identity = 113/150 (75.33%), Postives = 131/150 (87.33%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ KGG 
Sbjct:    9 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAKGGG 158          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|521028958|gb|EPQ10746.1| (Calmodulin [Myotis brandtii])

HSP 1 Score: 234.572 bits (597), Expect = 2.118e-76
Identity = 112/149 (75.17%), Postives = 130/149 (87.25%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            A ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:   43 AADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 191          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|751234258|ref|XP_011170849.1| (PREDICTED: calmodulin [Solenopsis invicta])

HSP 1 Score: 232.646 bits (592), Expect = 2.477e-76
Identity = 112/150 (74.67%), Postives = 131/150 (87.33%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            M  ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    1 MTADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 150          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|676260930|gb|KFO18269.1| (Calmodulin [Fukomys damarensis])

HSP 1 Score: 233.802 bits (595), Expect = 2.625e-76
Identity = 112/149 (75.17%), Postives = 130/149 (87.25%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            A ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:   31 AADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 179          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|122063218|sp|P21251.2|CALM_STIJA (RecName: Full=Calmodulin; Short=CaM >gi|313213583|emb|CBY40516.1| unnamed protein product [Oikopleura dioica] >gi|313226420|emb|CBY21565.1| unnamed protein product [Oikopleura dioica])

HSP 1 Score: 232.646 bits (592), Expect = 2.887e-76
Identity = 112/147 (76.19%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    3 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 149          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|913329565|ref|XP_013196268.1| (PREDICTED: calmodulin isoform X1 [Amyelois transitella])

HSP 1 Score: 232.646 bits (592), Expect = 3.447e-76
Identity = 112/149 (75.17%), Postives = 131/149 (87.92%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            A ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:    5 AADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 153          
BLAST of EMLSAG00000006985 vs. nr
Match: gi|332223528|ref|XP_003260925.1| (PREDICTED: calmodulin isoform X2 [Nomascus leucogenys] >gi|505830029|ref|XP_004610313.1| PREDICTED: calmodulin isoform X1 [Sorex araneus] >gi|555952975|ref|XP_005888667.1| PREDICTED: calmodulin isoform X2 [Bos mutus] >gi|578826144|ref|XP_006720321.1| PREDICTED: calmodulin isoform X1 [Homo sapiens] >gi|594035266|ref|XP_006042315.1| PREDICTED: calmodulin [Bubalus bubalis] >gi|602723620|ref|XP_007471949.1| PREDICTED: calmodulin isoform X1 [Lipotes vexillifer] >gi|617619285|ref|XP_007526894.1| PREDICTED: calmodulin isoform X1 [Erinaceus europaeus] >gi|675800841|ref|XP_008956435.1| PREDICTED: calmodulin isoform X1 [Pan paniscus] >gi|741941740|ref|XP_010807959.1| PREDICTED: calmodulin isoform X1 [Bos taurus] >gi|742145256|ref|XP_010843485.1| PREDICTED: calmodulin [Bison bison bison] >gi|440911961|gb|ELR61576.1| hypothetical protein M91_02182 [Bos mutus])

HSP 1 Score: 231.876 bits (590), Expect = 5.279e-76
Identity = 112/150 (74.67%), Postives = 130/150 (86.67%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            M  ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+GYISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF  MM+ K
Sbjct:    1 MQADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 150          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold415_size178368-snap-gene-0.27 (protein:Tk01168 transcript:maker-scaffold415_size178368-snap-gene-0.27-mRNA-1 annotation:"Calmodulin")

HSP 1 Score: 274.248 bits (700), Expect = 1.458e-96
Identity = 136/153 (88.89%), Postives = 141/153 (92.16%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGGA 153
            M  E LTEEQ+ EFKEAF LFDKDGDGTITTKELATVMRSLGQNPTEAELQ+MINEVD DGNGSIEFEEFL MM+KKVK+NESS+DIKEAFRVFDRDGDGYISAEE  QVM TLGENLS EEIDEMIREADLDGDGKVCYEEFATMMSHKG A
Sbjct:    1 MTDEPLTEEQVGEFKEAFQLFDKDGDGTITTKELATVMRSLGQNPTEAELQDMINEVDVDGNGSIEFEEFLTMMSKKVKENESSNDIKEAFRVFDRDGDGYISAEELGQVMQTLGENLSQEEIDEMIREADLDGDGKVCYEEFATMMSHKGSA 153          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold1746_size29152-snap-gene-0.4 (protein:Tk04496 transcript:maker-scaffold1746_size29152-snap-gene-0.4-mRNA-1 annotation:"AT15141p")

HSP 1 Score: 232.261 bits (591), Expect = 7.466e-79
Identity = 111/147 (75.51%), Postives = 130/147 (88.44%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            ++LTEEQIAEFKEAF LFDKDGDGTITTKEL TVMRSLGQNPTEAELQ+MINEVDADGNG+I+F EFL MMA+K+KD +S  +I+EAFRVFD+DG+G+ISA E   VM+ LGE L+ EE+DEMIREAD+DGDG+V YEEF TMM+ K
Sbjct:   79 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTSK 225          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: snap_masked-scaffold324_size206069-processed-gene-1.14 (protein:Tk12297 transcript:snap_masked-scaffold324_size206069-processed-gene-1.14-mRNA-1 annotation:"PREDICTED: calmodulin-like")

HSP 1 Score: 176.407 bits (446), Expect = 2.669e-57
Identity = 86/143 (60.14%), Postives = 112/143 (78.32%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
            LT+EQI EFKE F +FDKDGDGTI T EL TVMRSLGQNP E E++EM++E D DG+GSI F EF+ +M KK +  ++  +IK+AFRVFD+DG+GY+S+ E   VMS LG N + +E+ EM+ EAD+DGDG+VC+EEF  MM+
Sbjct:   50 LTDEQILEFKECFQMFDKDGDGTIDTTELGTVMRSLGQNPDEEEIEEMVDEADEDGSGSINFPEFIGLMMKKQQGGQTKDEIKQAFRVFDKDGNGYVSSTELKFVMSRLGVNFTDDELQEMVLEADIDGDGQVCFEEFYNMMT 192          

HSP 2 Score: 55.4546 bits (132), Expect = 2.533e-10
Identity = 32/70 (45.71%), Postives = 44/70 (62.86%), Query Frame = 0
Query:   81 NESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            +E   + KE F++FD+DGDG I   E   VM +LG+N   EEI+EM+ EAD DG G + + EF  +M  K
Sbjct:   52 DEQILEFKECFQMFDKDGDGTIDTTELGTVMRSLGQNPDEEEIEEMVDEADEDGSGSINFPEFIGLMMKK 121          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold1202_size55818-snap-gene-0.13 (protein:Tk09187 transcript:maker-scaffold1202_size55818-snap-gene-0.13-mRNA-1 annotation:"hypothetical protein EMIHUDRAFT_373343")

HSP 1 Score: 167.548 bits (423), Expect = 4.906e-54
Identity = 84/144 (58.33%), Postives = 113/144 (78.47%), Query Frame = 0
Query:    4 EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMM 147
            E LT E++A FKEAF +FDK+ DGTITTKEL+TVMRSLGQNPT+AE+Q+MINEVD DG+G+IEF EF  MM KK++++++ ++I+EA+RVFD++  G I+  E   ++S L E LS EEI+EM+  AD DG+G   YEEF  M+
Sbjct:   23 ESLTSEELATFKEAFTVFDKNQDGTITTKELSTVMRSLGQNPTDAEVQDMINEVDVDGSGAIEFPEFCVMMVKKMQESDTENEIREAYRVFDKERSGVITLNEMRLILSNLPERLSEEEIEEMLHTADRDGNGGFSYEEFKLMI 166          

HSP 2 Score: 63.1586 bits (152), Expect = 2.003e-13
Identity = 29/64 (45.31%), Postives = 41/64 (64.06%), Query Frame = 0
Query:   87 IKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
             KEAF VFD++ DG I+ +E   VM +LG+N +  E+ +MI E D+DG G + + EF  MM  K
Sbjct:   33 FKEAFTVFDKNQDGTITTKELSTVMRSLGQNPTDAEVQDMINEVDVDGSGAIEFPEFCVMMVKK 96          

HSP 3 Score: 47.3654 bits (111), Expect = 1.621e-7
Identity = 24/66 (36.36%), Postives = 41/66 (62.12%), Query Frame = 0
Query:   13 EFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKV 78
            E +EA+ +FDK+  G IT  E+  ++ +L +  +E E++EM++  D DGNG   +EEF  M+   +
Sbjct:  105 EIREAYRVFDKERSGVITLNEMRLILSNLPERLSEEEIEEMLHTADRDGNGGFSYEEFKLMIGSTI 170          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold48_size466083-snap-gene-0.4 (protein:Tk05964 transcript:maker-scaffold48_size466083-snap-gene-0.4-mRNA-1 annotation:"Calmodulin")

HSP 1 Score: 161.77 bits (408), Expect = 8.154e-51
Identity = 80/148 (54.05%), Postives = 115/148 (77.70%), Query Frame = 0
Query:    1 MAT-EELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMM 147
            MAT + L+E Q  EFKEAF  FDKDG GTI+TKEL  ++R++GQNPTE E+  ++ E D +G+G+I+FEEFL MM K+ KD + + +IKEAF++FDRDG+GYI A+E   V++ +GE L+++E +E ++EAD++GDGK+ Y+EF  MM
Sbjct:   13 MATAQNLSELQRLEFKEAFEEFDKDGSGTISTKELLPILRAIGQNPTEDEILNLVIEYDMNGDGTIDFEEFLEMMTKQSKDIDQTQEIKEAFKIFDRDGNGYIDAKELKMVVTRMGEALTADEAEEFMQEADINGDGKLDYDEFLKMM 160          

HSP 2 Score: 61.6178 bits (148), Expect = 2.006e-12
Identity = 32/82 (39.02%), Postives = 49/82 (59.76%), Query Frame = 0
Query:    9 EQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEA 90
            +Q  E KEAF +FD+DG+G I  KEL  V+  +G+  T  E +E + E D +G+G ++++EFL MM   V        ++EA
Sbjct:   95 DQTQEIKEAFKIFDRDGNGYIDAKELKMVVTRMGEALTADEAEEFMQEADINGDGKLDYDEFLKMMMLGVVSGGGRHQLQEA 176          

HSP 3 Score: 56.225 bits (134), Expect = 1.916e-10
Identity = 26/63 (41.27%), Postives = 42/63 (66.67%), Query Frame = 0
Query:   86 DIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
            + KEAF  FD+DG G IS +E   ++  +G+N + +EI  ++ E D++GDG + +EEF  MM+
Sbjct:   26 EFKEAFEEFDKDGSGTISTKELLPILRAIGQNPTEDEILNLVIEYDMNGDGTIDFEEFLEMMT 88          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold1953_size24025-snap-gene-0.3 (protein:Tk10067 transcript:maker-scaffold1953_size24025-snap-gene-0.3-mRNA-1 annotation:"Calmodulin")

HSP 1 Score: 160.229 bits (404), Expect = 8.812e-51
Identity = 83/150 (55.33%), Postives = 108/150 (72.00%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVK-DNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
             T  L EE+I E++E F  FD+DG GTIT+ EL  VMR+ G  PTE +LQEMINE+D DGNG I F EF+ +M K V  D +   +I+EAFRVFDR+G G+I+  +  QV++TLG+ L+ EE +E+I EAD+DGDG V YEEF TM+ HK
Sbjct:   10 VTVMLPEEKIQEYREIFSFFDRDGGGTITSVELGQVMRTFGWTPTEGDLQEMINEIDQDGNGCISFNEFVYLMTKNVHEDGDIEEEIREAFRVFDREGHGFITVPDLCQVLTTLGDKLTEEESEELISEADIDGDGNVNYEEFVTMLLHK 159          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold1160_size58366-snap-gene-0.9 (protein:Tk08356 transcript:maker-scaffold1160_size58366-snap-gene-0.9-mRNA-1 annotation:"hypothetical protein LOTGIDRAFT_216194")

HSP 1 Score: 153.295 bits (386), Expect = 2.922e-48
Identity = 75/148 (50.68%), Postives = 105/148 (70.95%), Query Frame = 0
Query:    3 TEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            T++L  +++  F+ AF +FDK+ DGTI+TKEL   MR  GQNPTEAE+Q+MINEVD DG+G +EF EF  MM KK+ + +  +D+KE FRVF +D  G I+AEE   V++ L   ++ +EIDEMI+  D +GDGK+ Y+EF  M+  K
Sbjct:    2 TDKLRPDELEAFRSAFDMFDKNQDGTISTKELHAAMRRAGQNPTEAEVQDMINEVDVDGSGYLEFPEFCMMMHKKLNEGDQENDLKEVFRVFGKDETGCITAEELKFVLTHLPGKVTYKEIDEMIKTVDENGDGKINYQEFRVMIGAK 149          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold641_size121017-snap-gene-0.21 (protein:Tk06981 transcript:maker-scaffold641_size121017-snap-gene-0.21-mRNA-1 annotation:"Calmodulin")

HSP 1 Score: 152.14 bits (383), Expect = 3.639e-48
Identity = 78/149 (52.35%), Postives = 101/149 (67.79%), Query Frame = 0
Query:    2 ATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            +  ELTEEQIAE K+AF  FD DG GTITTKEL   MR++G NPTE EL ++INE D DG+G IEF EF  MM+ K+  +     I+ AFRV D+ G G I++ E   +M+ +G+ +S EE D +I EAD DGDG + YEEF  +M+ K
Sbjct:    9 SPPELTEEQIAELKQAFNEFDNDGSGTITTKELGYAMRAMGMNPTEQELLDLINEFDTDGSGQIEFPEFCNMMSHKIGLDNDEELIRSAFRVMDKKGTGTITSAEFRFLMTNIGDKISHEEFDMLIGEADRDGDGYLDYEEFVQLMTSK 157          

HSP 2 Score: 60.4622 bits (145), Expect = 1.815e-12
Identity = 29/71 (40.85%), Postives = 44/71 (61.97%), Query Frame = 0
Query:   82 ESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHKGG 152
            E  +++K+AF  FD DG G I+ +E    M  +G N + +E+ ++I E D DG G++ + EF  MMSHK G
Sbjct:   16 EQIAELKQAFNEFDNDGSGTITTKELGYAMRAMGMNPTEQELLDLINEFDTDGSGQIEFPEFCNMMSHKIG 86          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold58_size443543-snap-gene-3.23 (protein:Tk00707 transcript:maker-scaffold58_size443543-snap-gene-3.23-mRNA-1 annotation:"Calmodulin")

HSP 1 Score: 149.058 bits (375), Expect = 1.565e-46
Identity = 91/188 (48.40%), Postives = 115/188 (61.17%), Query Frame = 0
Query:    1 MATEELTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGY----------------------------------------ISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
            MATE LTEEQI +F++AF  FD D DG I +KEL  V++SLG NPTEAELQ+M+NEVD DG GSI+F EFLAMMA K+ +  +  +I+EAF+VFD DG+GY                                        IS +E   VM  LGE L++EEI+ MI EAD DGDG++ YEEF +MM+
Sbjct:    1 MATECLTEEQIGKFQDAFFDFDTDHDGVINSKELGQVLKSLGVNPTEAELQDMVNEVDKDGTGSIDFPEFLAMMALKINEQNAEDEIREAFKVFDGDGNGYIDRRELAIMLKFLGEPMLEEEISAIIEEADVDKDGDGNGFISRQELTVVMMNLGETLTTEEIEAMIEEADCDGDGQINYEEFYSMMT 188          
BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold246_size239296-snap-gene-1.31 (protein:Tk01937 transcript:maker-scaffold246_size239296-snap-gene-1.31-mRNA-1 annotation:"Calmodulin")

HSP 1 Score: 146.747 bits (369), Expect = 2.476e-46
Identity = 72/143 (50.35%), Postives = 102/143 (71.33%), Query Frame = 0
Query:    6 LTEEQIAEFKEAFLLFDKDGDGTITTKELATVMRSLGQNPTEAELQEMINEVDADGNGSIEFEEFLAMMAKKVKDNESSSDIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMS 148
            L+E QI E  +AF   D D DG I   EL  V+R +GQNP+EA++Q+M+N  D+DG+GSIEF EFL MMAKK+ + ++  +I+EAF    RDG+G+IS +E   VM  +GE ++ EE ++++ EAD+DGDG++ YEEF  MMS
Sbjct:    5 LSESQIGEIIDAFRRVDSDEDGIIKPHELGEVLRVMGQNPSEADVQDMVNVADSDGSGSIEFPEFLIMMAKKISELQAEDEIREAF----RDGNGFISRQELKVVMMNIGERITDEECEQLVEEADIDGDGQINYEEFYAMMS 143          

HSP 2 Score: 51.2174 bits (121), Expect = 3.401e-9
Identity = 25/65 (38.46%), Postives = 38/65 (58.46%), Query Frame = 0
Query:   86 DIKEAFRVFDRDGDGYISAEEXHQVMSTLGENLSSEEIDEMIREADLDGDGKVCYEEFATMMSHK 150
            +I +AFR  D D DG I   E  +V+  +G+N S  ++ +M+  AD DG G + + EF  MM+ K
Sbjct:   12 EIIDAFRRVDSDEDGIIKPHELGEVLRVMGQNPSEADVQDMVNVADSDGSGSIEFPEFLIMMAKK 76          
The following BLAST results are available for this feature:
BLAST of EMLSAG00000006985 vs. GO
Analysis Date: 2014-04-02 (Blast vs. GO)
Total hits: 25
Match NameE-valueIdentityDescription
-1.045e-7674.67symbol:CALM1 "Calmodulin" species:9606 "Homo sapie... [more]
-1.045e-7674.67symbol:CALM1 "Uncharacterized protein" species:991... [more]
-2.668e-7675.51symbol:Cam "Calmodulin" species:7227 "Drosophila m... [more]
-3.142e-7675.51symbol:cmd-1 species:6239 "Caenorhabditis elegans"... [more]
-3.142e-7675.51symbol:cmd-1 "Calmodulin" species:6239 "Caenorhabd... [more]
-4.964e-7675.51symbol:Calm1 "Calmodulin" species:10116 "Rattus no... [more]
-4.964e-7675.51symbol:Calm3 "calmodulin 3" species:10116 "Rattus ... [more]
-4.964e-7675.51symbol:Calm2 "calmodulin 2" species:10116 "Rattus ... [more]
-4.964e-7675.51symbol:Calm1 "calmodulin 1" species:10116 "Rattus ... [more]
-4.964e-7675.51symbol:calm1 "Calmodulin" species:8355 "Xenopus la... [more]

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BLAST of EMLSAG00000006985 vs. C. finmarchicus
Analysis Date: 2014-05-09 (TblastN vs C. finmarchicus TSA)
Total hits: 25
Match NameE-valueIdentityDescription
gi|592893784|gb|GAXK01064591.1|7.668e-8079.05TSA: Calanus finmarchicus comp584873_c0_seq1 trans... [more]
gi|592779066|gb|GAXK01175502.1|4.736e-7675.51TSA: Calanus finmarchicus comp2010_c4_seq1 transcr... [more]
gi|592791700|gb|GAXK01162868.1|1.762e-7373.79TSA: Calanus finmarchicus comp784995_c0_seq1 trans... [more]
gi|592784785|gb|GAXK01169783.1|8.288e-7275.51TSA: Calanus finmarchicus comp484_c0_seq1 transcri... [more]
gi|592943403|gb|GAXK01015150.1|1.983e-6768.71TSA: Calanus finmarchicus comp1556889_c0_seq1 tran... [more]
gi|592790737|gb|GAXK01163831.1|5.307e-6669.66TSA: Calanus finmarchicus comp383913_c0_seq1 trans... [more]
gi|592926706|gb|GAXK01031745.1|1.363e-5656.86TSA: Calanus finmarchicus comp21249_c0_seq2 transc... [more]
gi|592926707|gb|GAXK01031744.1|2.100e-5556.29TSA: Calanus finmarchicus comp21249_c0_seq1 transc... [more]
gi|592800642|gb|GAXK01153926.1|2.120e-5353.69TSA: Calanus finmarchicus comp1331342_c0_seq2 tran... [more]
gi|592800643|gb|GAXK01153925.1|2.953e-5353.69TSA: Calanus finmarchicus comp1331342_c0_seq1 tran... [more]

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BLAST of EMLSAG00000006985 vs. L. salmonis peptides
Analysis Date: 2014-05-10 (Blastp vs. self)
Total hits: 25
Match NameE-valueIdentityDescription
EMLSAP000000069858.215e-107100.00pep:novel supercontig:LSalAtl2s:LSalAtl2s397:37719... [more]
EMLSAP000000027673.520e-6665.41pep:novel supercontig:LSalAtl2s:LSalAtl2s15:378667... [more]
EMLSAP000000011521.020e-4955.63pep:novel supercontig:LSalAtl2s:LSalAtl2s1190:3308... [more]
EMLSAP000000087746.993e-4851.35pep:novel supercontig:LSalAtl2s:LSalAtl2s545:13460... [more]
EMLSAP000000073259.594e-4852.70pep:novel supercontig:LSalAtl2s:LSalAtl2s412:12978... [more]
EMLSAP000000111395.026e-4656.49pep:novel supercontig:LSalAtl2s:LSalAtl2s757:13123... [more]
EMLSAP000000072049.599e-4547.62pep:novel supercontig:LSalAtl2s:LSalAtl2s404:41113... [more]
EMLSAP000000115161.061e-4249.32pep:novel supercontig:LSalAtl2s:LSalAtl2s799:17079... [more]
EMLSAP000000005155.425e-3039.86pep:novel supercontig:LSalAtl2s:LSalAtl2s1080:2698... [more]
EMLSAP000000103197.102e-3037.67pep:novel supercontig:LSalAtl2s:LSalAtl2s683:13100... [more]

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BLAST of EMLSAG00000006985 vs. SwissProt
Analysis Date: 2017-02-10 (Blastp vs. SwissProt)
Total hits: 25
Match NameE-valueIdentityDescription
gi|122063218|sp|P21251.2|CALM_STIJA1.218e-7876.19RecName: Full=Calmodulin; Short=CaM[more]
gi|115509|sp|P02594.2|CALM_ELEEL4.846e-7876.19RecName: Full=Calmodulin; Short=CaM[more]
gi|49035528|sp|Q8STF0.3|CALM_STRIE5.135e-7875.51RecName: Full=Calmodulin; Short=CaM[more]
gi|49037462|sp|P62145.2|CALM_APLCA5.712e-7875.51RecName: Full=Calmodulin; Short=CaM >gi|49037463|s... [more]
gi|55976211|sp|O16305.3|CALM_CAEEL6.733e-7875.51RecName: Full=Calmodulin; Short=CaM[more]
gi|122063213|sp|P02595.2|CALM_PATSP8.664e-7875.51RecName: Full=Calmodulin; Short=CaM[more]
gi|49037408|sp|P62161.2|CALM_RAT1.067e-7775.51RecName: Full=Calmodulin; Short=CaM >gi|49037461|s... [more]
gi|49035754|sp|Q9GRJ1.3|CALM_LUMRU2.037e-7775.51RecName: Full=Calmodulin; Short=CaM[more]
gi|49035514|sp|O02367.3|CALM_CIOIN2.622e-7774.83RecName: Full=Calmodulin; Short=CaM; AltName: Full... [more]
gi|122063215|sp|P11121.2|CALM_PYUSP4.020e-7774.83RecName: Full=Calmodulin; Short=CaM[more]

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BLAST of EMLSAG00000006985 vs. Select Arthropod Genomes
Analysis Date: 2017-02-20 (Blastp vs. Selected Arthropods)
Total hits: 25
Match NameE-valueIdentityDescription
XP_006565317.12.768e-7875.51PREDICTED: calmodulin [Apis mellifera][more]
gb|KFM82866.1|2.768e-7875.51Calmodulin, partial [Stegodyphus mimosarum][more]
gb|KFM63817.1|2.768e-7875.51Calmodulin, partial [Stegodyphus mimosarum][more]
EFX72807.12.768e-7875.51calmodulin [Daphnia pulex][more]
gb|EEZ98710.1|2.768e-7875.51Calmodulin-like Protein [Tribolium castaneum][more]
AHN56135.12.768e-7875.51calmodulin, isoform E [Drosophila melanogaster][more]
AFH08031.12.768e-7875.51calmodulin, isoform D [Drosophila melanogaster][more]
AFH08030.12.768e-7875.51calmodulin, isoform C [Drosophila melanogaster][more]
AAF58543.12.768e-7875.51calmodulin, isoform B [Drosophila melanogaster][more]
AAF58542.12.768e-7875.51calmodulin, isoform A [Drosophila melanogaster][more]

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BLAST of EMLSAG00000006985 vs. nr
Analysis Date: 2017-02-20 (Blastp vs. NR (2/2017))
Total hits: 25
Match NameE-valueIdentityDescription
gi|290562365|gb|ADD38579.1|1.291e-10499.35Calmodulin [Lepeophtheirus salmonis][more]
gi|225712812|gb|ACO12252.1|1.959e-10498.69Calmodulin [Lepeophtheirus salmonis][more]
gi|827548976|ref|XP_012546645.1|5.231e-7775.33PREDICTED: calmodulin isoform X1 [Bombyx mori][more]
gi|534286076|pdb|3WFN|B1.752e-7675.33Chain B, Crystal Structure Of Nav1.6 Iq Motif In C... [more]
gi|521028958|gb|EPQ10746.1|2.118e-7675.17Calmodulin [Myotis brandtii][more]
gi|751234258|ref|XP_011170849.1|2.477e-7674.67PREDICTED: calmodulin [Solenopsis invicta][more]
gi|676260930|gb|KFO18269.1|2.625e-7675.17Calmodulin [Fukomys damarensis][more]
gi|122063218|sp|P21251.2|CALM_STIJA2.887e-7676.19RecName: Full=Calmodulin; Short=CaM >gi|313213583|... [more]
gi|913329565|ref|XP_013196268.1|3.447e-7675.17PREDICTED: calmodulin isoform X1 [Amyelois transit... [more]
gi|332223528|ref|XP_003260925.1|5.279e-7674.67PREDICTED: calmodulin isoform X2 [Nomascus leucoge... [more]

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BLAST of EMLSAG00000006985 vs. Tigriopus kingsejongenis genes
Analysis Date: 2018-04-18 (Blastp vs. Tigriopus kingsejongensis proteins)
Total hits: 25
Match NameE-valueIdentityDescription
maker-scaffold415_size178368-snap-gene-0.271.458e-9688.89protein:Tk01168 transcript:maker-scaffold415_size1... [more]
maker-scaffold1746_size29152-snap-gene-0.47.466e-7975.51protein:Tk04496 transcript:maker-scaffold1746_size... [more]
snap_masked-scaffold324_size206069-processed-gene-1.142.669e-5760.14protein:Tk12297 transcript:snap_masked-scaffold324... [more]
maker-scaffold1202_size55818-snap-gene-0.134.906e-5458.33protein:Tk09187 transcript:maker-scaffold1202_size... [more]
maker-scaffold48_size466083-snap-gene-0.48.154e-5154.05protein:Tk05964 transcript:maker-scaffold48_size46... [more]
maker-scaffold1953_size24025-snap-gene-0.38.812e-5155.33protein:Tk10067 transcript:maker-scaffold1953_size... [more]
maker-scaffold1160_size58366-snap-gene-0.92.922e-4850.68protein:Tk08356 transcript:maker-scaffold1160_size... [more]
maker-scaffold641_size121017-snap-gene-0.213.639e-4852.35protein:Tk06981 transcript:maker-scaffold641_size1... [more]
maker-scaffold58_size443543-snap-gene-3.231.565e-4648.40protein:Tk00707 transcript:maker-scaffold58_size44... [more]
maker-scaffold246_size239296-snap-gene-1.312.476e-4650.35protein:Tk01937 transcript:maker-scaffold246_size2... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
LSalAtl2s397supercontigLSalAtl2s397:377196..491552 +
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
Descriptionmaker-LSalAtl2s397-snap-gene-5.15
Biotypeprotein_coding
EvidenceIEA
NoteCalmodulin
Cross References
External references for this gene
DatabaseAccession
Ensembl Metazoa (gene)EMLSAG00000006985 (primary cross-reference)
Relationships

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

Feature NameUnique NameSpeciesType
EMLSAT00000006985EMLSAT00000006985-702832Lepeophtheirus salmonismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at LSalAtl2s397:377196..491552+

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>EMLSAG00000006985-689751 ID=EMLSAG00000006985-689751|Name=EMLSAG00000006985|organism=Lepeophtheirus salmonis|type=gene|length=114357bp|location=Sequence derived from alignment at LSalAtl2s397:377196..491552+ (Lepeophtheirus salmonis)
GCTTGCTAGCTAAAATGACGAGGATTCATGAGTAGTAGTAATGTTTATAA CGTGCTTAATAGTTCTGTATTCAGGTGCTTTGTTACAACCAGCATCCATG GATTCGGAAGGTAGGGCTTTGATTTTAATTTAGTTCACCTATTTTGAAGG ATGTAAAGTCACTAAATGTTTATACTTCTATAATCTTTCTATAAGGCGGG ATCCCTCCCATCGAAGTTAATGCTTCAGAGTGAGTTTACAATAAGATAAT AATATGTATTTCTAAATTCTACCTAAGCTACACGGTCTTTCCCCTGACCA TATCTTATATCAATCATTGAGCACTTAAAGCTCAATGTAGCCTAACTCCC TTTTGTTAACACTATGCTCCTTTAGCTCTGAGAATGATTTTTCAAATAGT GCACCGGACGAATTATAGACTATGGTTTAGAATTTTGGAATCAGTATTAG CTCCATATTCATCCGTAATTAGTTTACTGAGCATTTCATTTCTATTTTTA TATACTTTTGCATTATATGCGTCTAGCAATTCAGTACTTTCTCCCGTTAT GGGTTGCTCAAGGCCAAAGGAGGTCTTCCCTCCTTTAGATACTATCGTGT CTGGCTTCATTAGTACTCCATCGACCTCAAAAATTAGCTCAGAAATTACC CTGCCCCCATTTTTGGTAAGGTAATGCTTTAGATAAGAAACTAATTTATC TGATAAATGCAATGCGTCCTGACACATGACTGTTGAATATGGTCAAAAAT TTTAACCCTACTACTGTACAATTTACACTTGTTACCCCCCACGTCATCTC TAAACCTACTAACTTTAGACTTGGACATCCATTACTTTACAAGTGCGTCG AAATTCATAATTCGACACAGAATGGTTTATCCGTGAGCCATTTCCTAAGG CCCATTGTGGAGAGTATTTATGAATTTTGGAGTCAACTGATCCAATAAGA TTTTTATGTTTCTCCTTCTCATAATCATCTTTATGTAGAACATTTTTATC AAAATATTTGAGTCTAACTTTATTAAATAGTCCTGGGTTTAACTTTTTAA GTACCATTATATATTTATTATCCAAACTGCTTAACGTATCAATTCTTGCA TTGATCGAAAAGCAACATATTTTCAATAGATTCATTAGATCTAGTCCACC CCTCTTTACTTTTCTTTCAAGTTATCTTCCTTACAAAACGTCTTAGTATG GCTTGAGACTTGTTTWGGTCTGCATTTWTTACATTCCCATTTGTCTGAGC ATACAGGTACCCTGCTAATAATATTTGATTAAGAATTTAAAAAAATTGTG TATCAGTTAGGCATGCTTGGTTTAGCCTTTTTACTTTTATTTAAACGTCT TCTGGTACTGACGGTGTTTGGATTCTTAAGGCCGAGTGTCGGATGCCTAG ATATTTATATACTTCATTAGGTTGTTTGTTTATTATTAATCTGTTATGAC ACCTTCAGCCAAGGAACACTAGAACTACTGGAGAGGAAACAAAAATATCG TGCTCATACAATTCGTGTAACTACAAAAAGGAGAAATGACTCGTATGATA CATAAACATTGATAAATTTATCCGACTATTTGTCACAATCTNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTTAC ATTAGTATAAAATAGTATTAATTTCGTATGTAATAATAGAAGTATAATGT TTTTTGTTATTGTATTGATGATGGCAAATATTTTATCTTCATTAAGTAAC GCAGAATTCTTCCCCACAACGTTGAAAAGTTTATTGATATTTTAGGAATA TAGGTAGACAAACAGTGATTAAATTTGCAATTTGTTGATGGTTTTTCAAA GGATATTGTATAAAATACAGGGTAAATACTCAATTACTATTACCTATTAA AAACTACAATAATACCCTCAACTAAAAGTGAAGTGATTCTAGAATATGAC TACACATAGTGTTAACAAAACTGTAGACATAATAGGAATCTCTGATCATT GCTAAAAGACTTGAACGTATCTCACTTCTACATAAGTTTCTAAGAAGTTC ATTTCTATTTGAAGGTATTATGATAACTAACGGTAGCTGAGTATTAACTA TTTTTATTTTCCTGATTTAAGGTCATATCATATTTATATATTTTTAGAGA TATGCAGACATAGCAAGTTTTTGGATAATGACTGTGATATATATTCGACA ATATAAATTCTATTCCTTGCTGGTGTTGAAGATCCTCTTGAGAAAGTTAT ATAGCAGGGAGATTTCCCCATAATGTTCTCAATTTGCATATCATATTGAT CTACTTTTAGACATAGTCGATTTGATTTCATATATACTCAAATCAAGTTA ATAATTTTAATTAAGGATCTCAATCTGATCTTTTCTCGGATTTCTTATTC GATGGGAGATTCTAGTTATATGTGACAAAACAGAAATAAGGAGATAATCA GACGAAGAAACTGGCCTCTCAACTTTATGAATCAAAGTAGTCTGGGCTGT AAGCAGCAATGGACGAAGTTGTCCATTGAACAGTGCATAATTTAAATGTT TTTTAATCAGTTCGGGTCCAGATTGCGAATATCCAATATCCTTATAACCA AACTCATCTGTACTTACAGACCCTGTCTCGAACGTATCTTTCCATTCTCT GAGAATAGAACCTCTGTTATTACTATTCTCACCAAGTGATGAGTACGTAC CACCCAGAATTGTTTTAGCTGTACGAGCAAAATCATTTTGAGGTCCTCTT GCGTCATTTTATATTTTAACTTCCTATTATTAATTTTCATTTCATTTGCC CACTTCGTTAACACACTATTCATGCCTTGTTTCCCATTTCTTTTATCACC ATCACTTGCGTGATCTAATCTTACTTCATATGGGGTCCTCGAACTAATTA CTTTATTGCTCTTACTCAAACGTTCAAACGTGTCTGTGTGCCGACCTTTC ATAGAATTTCTGTAGTTATTATGATTTTGGTTAATATTCATGTCCCCCAT ATTTCGATTTCTTGATATGAAGGATGTTGCTCTTAATGTGCTTTTGTTTT TTGCTATTTCTGCGTATGATTTGTTACCTCCTAATTTGCCCATCACAGTT TTTCTCTGCTATTAGTCTTACTTGCCTGTTTTTATTCAGTTTATCGCGTA AATCTAAGCTCTTTGTCTGCATGTTCTTCTGCATTCTTTCCTAGGGGTTT CATTGTAGACCATAATTCCACTGTTCATTATTTCAGCTTCTTTTCTGGTT GTTATTGAAGAGGGGTTTCCAGGATGTTATTTTTCCTTTGTGTAATTTGC TAGTATAACAATTATTTCTAGATACACCCTTATATCTTTAGGCTTCAGAT ATACGCATTGTTTTTTACAGCTGGAAAAAGGCTGTGTATATTTTTGATTA ACATATCTCCCAAAGTAAATTTACCAACTGAATTACAAGCCCGAATAACG TCAAGGTAATCATCTTCCAACACCTTATCCATCTGGCCCCCGATATTATG GAGGATAAACCCTTTAAGAGAAAATGTCCAAAGAGGACTTAAACTTATAA CTAACTCATCAACATTACTCGCCATTATTCATGAGCAAACATATTCGTGG TTGCATTTTATTGCTTATACGTATCCTAAAGAATTTAAATTATAATGACA ACACCTTTAGAAAACAAAACAAAAAAACAAAAACAGGTAGCAACTTCAAA ACCTGGACCATGTTGCTATCAGGGGCGTCCGAAAAATTAAATATATTTTT TTTTTCGGGGGGGGGGGGGGAATTTGTTATGGATATTTTTTGAAATTAAA TCAAAAAAATTTAATTTAAAAAAAAAAAAATTTGAAATTCTTTTGGGAAA AATATCAAAAGCCACTGTTATTCACAAAAAAAAAAATTCAAAGAAAAAAA TCTAAAATTTACATCTATTCACATAAAATTCATTATTTGGGAAAAAATAT TCATAAACTCAATTACAAATATGACATTTTTTCAAAAAAAAAAAAAAAAT GGATCGGYGCTAKAACTGCTCCAGCCCKCCRCTCGMGAACGCCCCTGATT ATAATATTATTTTCATCTTTGGTTGTTACTGTTGTGTTACTGATTGTTCC GAATATGATCATTGCAGGAATTTATTCCAACTGTTATGTTACTTTCTTTT CTCAAGCAAAAGTTGCAACCCTAAAGGTTGGGTACCACATCTATCATGCG TACACAGGTATATACCAGTGATGTCTTATTATTGATCTTTTTGGGATGTC TGGAAATCCATAATGTTTTAAGAATTATCAGGAATTATAGAAACAAATAA GTTTTATATTTCCGTTTTTAAATCCTTTAAATTGACATTTGTTCGTAATA ATAGCAAAACATGAACAGTATCATCTCCTGTTCGATTACAAAGCTGAGTA GAGAAAGTACCTCCGTCCCGTCTCCTACAAATGAAGGAATTTTTTTATTT AACTAGATGAAAACAGAATGAAAATTTTTTCGCTGAAAAATGAGTAATTT TTTTTTTGAAAGATTTATTTTCTTAAAAATAAGTAATCCGGGAAAATTAT GCAGCTGAACAAAAATTTAMTATTTGAAACTTTATTCTGAAGAATATAAT TTTTTCTTAATAGCTGTAGATTTTTCAAATAAAAAAAAAATATATATATT TGAATTCTTATTTGAAAAAATGTTATATTTGAAATTTTTATGAAAAAATG TTATATTTGAATTTTTTTTTGTAAAAACTTTTATTTTTGAATATTCTTTT CAAAAAGNTTAAAGTTTTTGTGAGTATCTATGTGTTATTTTTTGTTTTTT TTTAAATCCTAAAACTAAGCCCCCCCCCACCCAAAAAAAAACTAATCTTG GGGACGCCCCTGTTATAATACTAGGGATGAAGACAAGAGTCTATAAATTT CCCGAGAATTGCTAAAAAATTATCGGAAATCGATTAAAAGAGTTGCTTAA AATTCCTAGGAATAATTGAATCGATTATAATTCCTGGGAATCAACACTAG AACTTTGCAAATACTAGTCTTCAAACCTCAATAAATCTCCCTTTCAAAAT AACGAAGTTCTGTGGTTTAAAATGTTTTATTTTTAGAAAGGACTAAATAC ATTTTGAAGGTATGAAAAAGACTAACATGGCAATTTCTCTCTTCCAAACA ATAAACATTTTCAATTTTCTTATTTTTTTAAAAACGGGGATTACTAATTA TCTCAGGAAAGTAACAAAAGTTTAAACCTTATTTTTTCATTAAAAAAATC AATTTTAGGGTCTTTTTTAAATGAAAGACTTTATCAACTTTAATTCCCTT TTTACTAATTTTTAATCTTATTATGTATACACATAAGTCCAGTGTCTCAA AATTCAAATGAATATGTAATATGTTTGTATGAATAAAAACACGATTTTTC TTTTTAACTTTTATAGAAAATAATTTTTTTCTCATTATTTTTTTAACGAA TTATCTATTTTCTTTGACACTTTGGCATTTTATTCAGAATCAAACCATGT ATTTTTGTAGATTTTTACACTCTTACTTTCTCCAAGATAACTAAAGATAA GGTTTCATGAAGGAAAAAAAAAGGNAAAAAGATTATCTTTATTTATAAAA TATAGTTTATTTGTGTATCTTTTATGGGTGCCCACACCGCTGGGCAATTG TAGTTTTGGTTTTTTTTTTCAGGTGCCAATAAATTGGAATATTGGATTAG TAGATAAAATAATGTGTGTAGAAATTTGTCTGAAAATTTGTTTGCATATA AGTTTGACAAATAAAAATTGCTATTTATCTAATAAATCCGTCATTTTATC AATAGCTTAGATACAAAGTTGTATGTCATATTTACACAATATATTAAAAA TCCTCAAAATTTTATTTTCCATAGTCTCCATAGCAAGTTTAGTTATTTTC TGCATTGTACGGCCACAGTCATTGATAAGATGAAATGGTATTTCCTCATC TTCTTCACAGAGTCGACAGATTGGGTTCAGGGTTTTACTCATTTAAAAAC AAAAATTCTATTAAGTTGTATGTGGCTGCTCAGGWTAGCCACTATACTTG AGATTTGTTATCTCTTGTATTTGTAAACTTACGATCCGATGTACGGCTCG ACGATAAACTGTTAAGATTTGCGACAGCTATCCAACACTTTCCAGATAGT TCGCCTCTCATTCAAAGTGCTAGTAACATATGTTGAGCTAAAGATAACTT AAATTTATCTTTATGATTGTTAATCTTAAGCATTTTTTGTCGTGCGAGTT TTTATAATGTTTGTATTTTTTATTTTATTTTCCAAAGCTGTTATCATTAT TTTTTTGTTATTCTTGAGAATAAAGTTTTATAAAGAGTGTGTGTGCTCAT GAATGAAGGAAAGTAAGTGTGATGATTCTTTTTGGGAGTTAAAAGTGAAA AGCCCAGTTGGGATCATTACAAAACAGATGGTCGAAAACGGTGTAATTTC TTCCTACGTCCTAGTTAGATACAAAGTTTTTTTCTATCATTAATCTCATA GCTACTTGAAGCGAATCTAATAAAACGTCATCACAGCTAAGATTATCACC TACCCGAAATTATTCTTACTATTAGAATTCATCCTAATCTTTTAGAACCA TTTTTGCGGAGATTTGGAAAAAAAAATATATCTTTGTGATTCAATGTCAA TTTTATTTACTTTTTAAAATTAAAAGATAATAATTATCTATAAAGTAATT TATTTGAAATGAATTATATTGTTATGATAAGTAGAAAACTATTGTTAGGC TTAAAGCTAGAGTTGAAAATCCTAAGGTGTTTTTAGGGTGCGAGTTATTT TGTTTTTGCCAATTTGAAGAGTGTTTTATTTATTTTCTAAGCTGTTATCA TTATTAACTACGGAACATATAGGTATAAAGTGTAACAACGAGTGGATGAC GGAAAGTAACGCTGAGGAGCTGTAAGACTTATTGTACTCGGACTAGAATT AAGTATTGAAAACGGATAGTCCCAGCCTATGTTATTGCTTGGTACGGAAT GAGGCTGGKATTGATTTCTTTACTCCCATAGCTATTTGCATATAATTTAA TGGAAGTCATAACAGCTGTTCTTCTTCAAAAATTTCTTCAAATTGTCAAG GTACCACGTTAATTTTCAGTTTTTTAAAACATATCGTAACTACTTAAGGT TTATAAGCATTTTCATCTTTCTCACGGGAGGTCGGCCAGGTAGGGTAAAT ACTTTTTATATATATTTTTTAAAAATTGACCGGGGAAACGAATAATTTGC ACTTATTATAGACCACATTGGCAGCAACAATAGTTCTAATCAAATTAAAA AGTCCTTAAACACAGCCTTGATTTAGGTCAGAGTTATTGTAGCCTATTGA TTGTGATTTTTAGGGAATCAATATTTCGGTGACAAGGTCAACAGGCTTTC TTCTCAATTTGCAGCCAGAATGCATAGACCAGRGGGTTGAAATYAGGTGG TGTGGGGGGGGGGGGGGCTTACAWAAGCATAAATTTTTACAACAAAAAGG GGCATATTATGAAATTGTTTCGTATACCTAGAAGGGAGCAGAAGATTATT TCAACTTTTAATAGGAATGTGATGAATGCATACGACGAAGATACTCCAAA AGGCAATGTAATTGTGAATCATAGTCACAACAAACAATTTCAATTTAAAG CTTTACCTGATACTGAGTCACCAATCACGAATATTTCTAAGAATATTGAG GATAAAAATAGTATTCGATGGAATGAATCTTATCATCCCTACAAACGTTT TTAGTCCAGAGAGATAATAAAAAAAAGGCCAAAACTATTAGTTAATTAAT ATTAATAAGGGGTTTAAGGGTTAACTAGAAATAGGTTGTATTTTTTTATT TTTCGGTGTATAGTGTATATATTTGTTGTGATCATATGATTAAAAATAAA TAAATATCCGAATTAAGAGTAATGAAGGTTTTCCTTATTTAGGGGATTGG TTCATTCCTAATAATTTGGAGCGTATTTTACTAATGAGATGTTTTAATTA TTCACAGGAGGATTGTTAAAGTTAGGATGATTTCCTTTTTATTTTTCATG AGTTAGTAGGCATTTGAGACGAAAAAAAAGTAATATTTGATACCTAGAAC CGGACAATTTTTGTTTTCTAATTGAACCTTCGATCTTTAAATATTTGGCC TTAAAACCTGCAAAAGTAATAGTAAAGGCCTAGTGATCTCATTTTCTATC TAAGCTACTCTAATTTCAATCAAGGGCCTTTAGTATATATAAACAAGATT ATATTGTATAATAAATTTTTACAAAAGTTGGAAAAACTAAATAATTAATG ATGCTTCAATGGTGTTTGAGGGCGAAAAAATTGACCAATGTTGAATGCAG TGTCCACATGGACTGATATGTAAAAAATAATCTCAAATAAGATGTTTTGG AGTCTTTATGTAACAGATGGAAAACAACAGTTTAAAAAAATATATATAAG ATTATTTTTTTTGAAATTACACACATAAAAACCCGAATTTACCTTTGATT TTCTTTGCATAAGCTTCAGAACTATAATTTTGGAGCGTTGTGAATTTTTT TATCTATGAAAGAGTAATTCAATTGTTAGATGAAATTTTGGGGATCGGTA CTTTCAATATTTCGGTTAGAAATGCGTTGTTATTATTTCATCAAAGTAGA TTTATTCATATCTTTAAAAGTTATTTTTATGTTTTAGTTTTACTTTAAAA TTTTCAGGTCGCATATTATTTTCAAACGAGCTATTCAAATATTTGTCTTG TATCATGTTTAATGCAGTATTAATGTGTGGTGTATGTAAGTAATCTATCA ATATATTTTAGCAAGGAAATATTTTTTTATTTATAAGTAGACCATATTGT GTACATTTAAAAACCCTGGACATTGCAAATATTTTTTTATTTATAAATTA ATGCTGACTGTACTTTGTTTTTATTATTTTGTTGTGCCTTAAATAAAATG ATATAGGATTGTATAACAAGTACCAAGTAGTCCATTAAAATATGAACACT TTGTATTCTAACATTCAACAAGATATAATCTATTAACTAACAGTAGAATC TCACCAAATTTATACTATAAATAGATGTGGGTCTTAGCTCTCTTAATCAT TAATTTAGCTTCATGTGCGGCAATGATGGCTTTCAGGCAGCGACTTAAGG ACTGGTACCCCGTAGTCCTCTGTCACGTCGTCCCATTGCTGGCTGGCTGT GTTTTGATGGCCTTGGTTTTTGGATGATAGCTGTAGTCGAGGGGGACGGC ATCACCTCTGTAGGGGGCCAAAAGTATCAAAAAATATAACAAAATGACTC AAAAGAGTTTTGAAGCGGAGGAGATGGGTTTCTTTCATTGGAGATGCCAA TTTTGACMCCTCCACTCTCACAAGGCTCTTTCCATCCCCTTTTTTGATAG ATTTCTGGACAGTCTGGTGTGAATCCTCGAGATATCTGGCTTGGGACCTC ATGGACTTGTGAGGATTGGCTTGGGCTATTTTCTTTAAATCCTTTGGGTC CAGTTTTGCCTTTTTTAACGGAGCATTTCTTCCTTTCCAACATTTCAGAC TTGCTGAAGGCGTAGACGGTTGTCCTGGAGACACTCAACTGCTTGAAGTG TGTTTACGCCAATCACATTCATGTGTCATTTTCTCGACTTGTATGTAAGC TAGAGAGCTCTGGTTTGTCTTGTCTTTTTGTTTTTTTTAATAAAATCTTT GTTTTAATATATCGAAATATGAATAAATTACTATCTCTCAACTATTATTA ATTACACTGTCCAACAGGAAAAATGGTACAAAAACAGTATATGACCAACT TAGTACCGTTTGATCCCTAATTCCAAATATGGCCTTACTTTTTCTCTCAT AGGCTTAAAAAAAGGCCATAATTTTTTTGTTATTTTGGCTATTTTTATGA TTCAAAGCTGTTTTACGCACTCGGTGTTGAAGATATGGATAAATTATGGT AATATATTTTCAAGCCGAATGTTAAAAAATTCTAAAACCATTTTTAAAAT GTCTGCATAATACTTTTAACTCGAGTTATCCTTGTTTAAAATGGAAAATA GGTACTTTTTATTCAGAGGCTCATAGCTTCAAGACGAATAGATTCAAAAA GTTTAAAAATATTACATTCAATAGCTAAAAACTTAAAAAAAAGAGCCTCC CAAAAAACGCTCTATATCGTTGTCTATTTGAGATAAGGCCACGACAATAT TGCAAGGGAATTGTTTCTAATTGTTTTTAATTTATCCCTATCTTCAACAC CGTGGGCTTACAATAGCTTTGAATCTTAAAAAGAGCCAAAAATAGCAAAA TAATCATGGCCTCTTTCTGAAGGCTATGGGAGAAAAAAGAAGGCCATATT TTGAATCAGGGGATCAAACTGTACTAGGTTGAGCATATGCTGTTCTTATG CATAAAAAAAGTGTGATTTTGTTGGATAGTGTTATTAAATTAGTTATAAG TGTTCAGATTTCAATGGACCACTCGGTAGATATTCATGAAATTTGTCACC GGACCAATACTTTTGTACTTTTCGTTACTTTTCGACTAAAAATCTATAAC AAAAATATCGTTAGGGCAATTCACATGCACATACAGAGGTATTTGCAGGA CATTTCTTTGGTTCGGACGGTTTTAAATGCGTCATTACCCCACTACCACA ATAGTTAGGGTTGCTATACGCCAGTATTTTCGGTATGTAAAAAAAAAACA CGAAAATTAACATAGTAAACCTTACATTTTGATTAATATTTGTAAGAAAA GCTCCTCAGCTGTCATGACATTTCATTAAATTAGCTGCGAGCAGCTGCAA GAAGAAATAAATAAACAAAAGTCCCACTCTGTATCAAACAAAGACATGGA CAGGAATGACTCCGTTTTCAATCCTTAATTCTACTTGGAATAACAAGGAC TTACACTTATAAGTAGTTCTACATATCTGGTGTATTATTTTGGTCGCCTA CTTTTTTGGAGCTCGTAATCTGAAGAATCCATTTTTTTTTTACAGCTGTT GTCATTATTATGAAATCAGTTATGGCAAGAAATTTTTTTGGTAAATGATT ATGTTGTTTTTTAATATAACATAGAGTGTAAGGTCTTAAATAAGTTTATG AACTTTTTTAAAATTAAACTCCTTTTTTTGCCAATTATAGCAAAAAAATT AATGATGCACATACGCAATATTGGCAACACGGCATCATAAATTATTAATG TTACTTATACTTTCTTTATTTGTTTAATTTTTGTCAATTCTATACATACA TATCTCATATAATGAAATCAAAAAATCTATAAAAGACCATGATGATATAA ATTCATACATTTTACTTTTAAAAGTACACTAAATTGTAAAGATAAGTATA TTGTTTGACTATTACATACTTTACATCTTAGCCTTCTTTTATTTTCATCT TCAATACTGAATTTTTTTTTTTATCAAATCGATATTTTGGTGTATTTAAA GCCCTATAAATATTCTTGCCTTGAATTTTTTTTGGGGGTTGACCATAAGT CGAATGATAGGGATTTACAATACAACGTGTGAATTTTAATAAATCTCCTT CATATCCACCTTGACGAGTAAATAACCATGAATGATTGACACTTACATTC AGTAAATTACAACATATAATAGGAAAGTMCCATTTCTTCCCACGTATTGC TACTCTATAGTGTGAGATGTTTTCATCCATTCTGTCTACACCCCCCTCCC CCATATGATTATTATATTCTTTAATTAGAGATGGTATACTTATATTAATT CTCTTCTTATCCTTAGCAGGAAATCTTACAGCCTTTTTGATGGGTCTATT TCCATGTTGATTAGATCCAACATGAACGAGACTATTGTAATTCTATATAG TACTAAAATATTATTATAACTATCAAAGAAGTATTTCACATTCCCACTTT AAGACTTTAAAAAAGTGTTTTACAGATGTGAATGGACAATTACCAATTCT ATTTTTGAGATTGGTTCCGGTACCTCCATGTCCCCTGTTGATTCATTTCT TCCAATTTGAGTTCAATAAAATTTTGCAGAGGACGGATCTTTGAAAATTT GTCTTTTTTATCTCATTTGTGATTGTCTGAAGCGTGCAAATATCTCCTAA TTTTTTCAAATTTATTTCTTCTCATTGAATTTTTGACAAGTAAATTAGAG CAGTCCGGTTCATTTTCCCAATACATCCTTCTCCTTGAAACAGTATTGTT GTAGCCTGATAGTAGTAGTATTCCAATGAATACCCTCATTTCGTCATCTG GAAGGTCAAATCTATGATTCATCTTTTGACTTCCATAGATTACTGTATAT TTTTTTAAATAATTGAATTTCTAAATTTCCAAAAAAACAATTCAAAAATT TAGTGAGGCTTATGAAGAGTATCGCAATTTGTAGGGCCAAAACTTTTGTT TAATTTAGTAGTTGGAATTTTTAAGTTTGTATGAGCCCAGTTGGATGAAT TGTTTGACTTGCAATTGATAAAGGTTGAACTATACTAGATACTCAATTTT GGACGTGGATTGGTGAGACCAATGTTGCGCTACATATCAAATGTACAAAC TTTTAAAGTAAAAAATTCATATTTTCTTTTTTCTTTTGAATAAAAAAATA AATATACTAATGAATAAATAGTACTGTAGTAGGTGTGTACAGAAAATATG AACAATATGTATTTAATTATTTTTTTTTTCGAGAAGCCACAATTTCACTA TAAAAGTTCATTTTTCAAGAACAAAGGGAATAATAAACCGGATTATCTCT AGAAATGAAGTACTTTAAGGCATCAAAACAAATAACACTTTCTTTGTTAT AGAAATGATCTAACAAAATGCATATAAATAATACGTAATTTATAGATTTT TGAAAAATGGGATGATTGGATATTTCCATATATTTAGTGTAAAAAAAGAT ATTTCCATGATAACAAACTCGTTTCGGACTTCGTTTTAAAGCGTTTGGTA GTCGAAAAAAAATAGTGATCCAAACTTAAAAAAAAGATGCTTGTCATTGG CATCTTACCGGCCATTTTTGAATAGTGTGTACCACTTGTAAATATTTTTT TTACTTAGAAAATGGGCATAAATGGGGTAAACTCCTGTGTAGTAAATTAT TTTTTCCAACGTCATTCAATTATATTCGTAACTTATTTGAACATTAGTGT GTGCTCATAAAAGACAGACCTTGATGATTTATTGCAATTTTTTAATTGTA AGTCCTTTTTGGACTCAGAGTAACATTGAGGATCGACATCGGAGTAATTC TTGCCTATGATCTTGTTTTCGACTTCTCCCTCATCTCTCGTCACAGCTGA TAGTAGCTGATCTTAAGAAACGTCATGACATCTCAACTGTTCTCTTTTAA AATATTCTTTAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNCTTGATTAAAATTCATAATTTGATGTTTTTTCCTCAAGAAT GAATGAATTACAATATCCAACAAAATCACACTTTTTTTATGCACAAGAAC AGCGTATGCTTAACTTAGTAAAGTTTGGTCCCTTGATTCCATATATGCCC TTTTATTATGCCCATATTTAGAATCAGGGGATCAAACTCTATTTAATAGA GCATATACTGTTTTTGTACCATTTTTGCTGTTGGACAGTGTAATTAAAAT TGATTTTAGTTTTTACAAATAACTCCAAGCAATGCCTCGTAAAATTGCTA GTTCCTTATCAAAATAAACTTGAGTCTAAGTTTTTGAATATCTAACACAA ATTCCAACTTTTTTTTGCTGGATTATTTGCTTATAAAAATTATATTTTGT CTTATTTTTACAAGTTTAATATTATAATTAACATAACGGAAAAAAATATT TGCTGTTTAAAAGCGTCCAGTACATTAAAGATCACAATTTATTTAATGAA ATATATAAACGTGATTGATTATTCATATTGGAAAATGTTTTTGGCTGTTA GTCTGCTGCTCATGCTTCAAATTTGATACATTTGCAATTGAAGGTTTAAA GGGCATAATACTTCATACACGACTTACTAAAGTAAGTTGGATTTTTTTGG TGCTCCTAAATGAGGAAATATAAGTTATGCATAGATATAGTAATGGAAAA CGGGTGCATTTTTAGGTCCCGTTGTGTTGGAGTTTGTAAACTGAAGAATT AATTTTCTTTTCCTAAGCTGTTGTCATTATAATTCAACTCCTGAGTAGTG TACTTTCTTTTCTATAACATACAACAGATCATTTATACATACCAAACCAA ATTATACGTTTATATATGCTTATAATGTTAGCCCTTACGATTTACGATTT GTTTCATTGTTTTAATAGTATAGTGTCCTTGTTACTCTGAGTGGAATTGA AGATCGATATCAGAGTCATTCTTGCCTATATATATATAATTATTTTCATC TCCTTTCGTCACACATGCTTATGGTAGTTCTAATGGAATATCATGGCAGS TAAGCTGATCTTCATCAAAACATTTTTCAAATTGTCAGAGTTACAATGGT CATTTTAAATTTCTCTTTTTAAAATGGATTGAGCATCAAGTGGTAATTTG AATTTTAACAAAAAAGACTACATTTTGTTAAATATTTCAACCATATACAT ATAATCATTTTTTTTCTTATTTTTTTTTGACAACAACAACAGTCGTTTAC ACGAAATATTAAAAATTTGGCAACAATATTTTATTCAAAAGTGAAGTCCA CCACATCCCTCTGTAGTTACGAATCCGTATAGTCTATATATTTGACGCAC ACTAATTGCAAATCAGTAATTAGTTTTCAAATTAACAATTTGGTCGATGA GTATTTTTAATTTAATTTTCTTGGAGCAATTTTTTTATAAGGTTGGAGCT AAATATGATTAAGAAAAAAATTATGAATCTAACTGAAAATAAATCATTTT CTTGAAAAATTTAATACTGGCTCCAAATATAGGTTTATATTTCAAATAGG ATTATAATCAATCCTGGGGAAAAAGCAGATAACAAAAAACTCCTTTTTTT AATAAAGCGTTTGGTTTGGTAAAAATATAACCTTGGTTTTTCTCTTTCTT TCAAAAGTAAAATAGGTTTATTTATAGCATAAGTAATTTAGCTTTTATTT AAAAAATATATATATTTGATTTTTGGGGATCTATTTAATTAAACTAAAAT AATATATCTATTAATAAGTATTTCTTACTTATCATGGATTTTTTTAATAA ACTACTTCTATTATTTTTCTACATTTTGGAGAATTCCTCTTCCAGATGGT GGTGCGTCTTTGACATCAAAATTATCAGAATATAAACCAAAATTGCACCT GAATTACTGCTAAAGTATCATTACCATAAACACTATTCGGATTTGTAGCT GTCTGGCTTGTTTTTTGCCTTTATCGAAGGAAAACTGTACAATATGGCGT ATTTTCTCATTACTGGTGTTCATCATGACAACCGCTCAAACAATACTGAG TAAAACAATTACATAATTGTTTAATAAGTTTTTTTAAGTACGTAATCTTA TCTTTCTAACACCATCCTGCGTAAACCAATCATATTCATGCAACGCGAGA TACACATTACTAAAGCTAAGTATTGGAAAAATAATGGACATCTTTATGCT ACACATATTATTAATTCAATCTTATCACTGACAAAAACCTGGCGAAGTTG ATGTAAATATTATATAAAAATTCACATTTATATTACAATTTATATATTTT TGTTCTCAGGGCTTTTATTTGTGCCATTCATTTAATTACATTAAACTAAA CATTAAATGCATTAAAACACAATACCTCAAAAATGACATCGATAGACAGG CAAAAAACAAAACAAAACATAAACTCCAAAATTAGGGCATTAAAAATTCA TTACAAAAATACACCATAAAATAATTTCAAAGAAAACACGATACAAAACA TAAATACAATTTTTTGCAATAGACGCCACTCCATTAGTGTAAATTTTCCC TTGCATTCTCATAGTATACAGCACATACTTGATTTTTACTAAAAAGACAT TGACCTCTGCAATTAAAAAAGGTTGGAAAATCATCCCTATTAAGTCTACA CCAAAGGGTATTCTCCAGCAAAAAATTCCACCCTCTACATGTTATTTAAA TCAAACAGTTTTCTATATATGAACCATTTCTCTGCAGACATTAAAAAAGA ATTCCTAAAAGTCATCCACCATTGAAATCCTCATTCTCAAGGAAATAATT GGGTGCTTTACACTTTTCCACCAGGGACGACAGAGCAATGCAGCATCAGC AGAAATGTCCAATCCTGTACTCTTTCCAGTGGATAAATACATTCTATTAA TAGCATTCCCCACTCCTTTTTAGACGACAATTTATATTTGTCAATAATAT ATTTCATGCATTTACATGGAGATATCTCACATTTCTTTTAAAAAAAAAAA AAATCAACAACAACATTGTCAGCTGTCAAATTTCTGCTTCTTTTCCACAT GTTGCTAGTTCTATCAAGGTTGACTGGTTAAATTCAAATTCGTTCTTGGT AAACTCTTCAAAATTCCCAAAAAATATTAATTGTCAATATTGTTAATTTA AAGTAAATATTCTAAAAGTGCCGGATTTTGTTGTTAAACGTTGTAGGTAA TTTTATTAAACTAAATATTAAATACTTACTTATTAAAGAATCATTCGTCT TAAAGTTTTTTTTTCAAGAGACTAACTTTAAACAAATAACATTTTTGTTT GGAAAACACGAACATTCTATTTCACCAAATTTGTTCAATTTTAAGTCGTG TTCTTTTGCTTTTATTATTTCCCTTTTTTTTTTTCAATTGAAGGTATCTG CATTGTTACTAATGTAATATCAGCTGTTATTTTATATATCACACTCAACT TTATCAATATTAATGAGTACAATTATTTTATCTATAATTTATAAAAAAAT TATATAGTTGATTTTATATATTTTATTGTTTTCAATTTTTCAAGATTTAA AGAATAAAAAAAACAGTTGTCTCTCCAGAAGACCTGGGCCTTAGCGGTGT AATGAAACGAAACTCTGTTTTAAGATAAAACAAAGTTGTCCATGAACTTT TCTTTGGCATAAGGTAGCACTTTCTTATCCAGAAGTTCGATATAAACATC TGCATTGAGCCGTTCTTTCCTCTCCCCAAAATGTGAAGGCAGACTTCTCC TGTGRTGGCCACTATATTTTTTGTTTTGAAGACATGTCTCACTGAAGCTG AGACAATGTTTGGATATTCAGTTCTGATGTAGCGGTTGTTTTGCTTACTC ATAATGGCATCAAGTCTGAAATTTTTTCACCAAAAAAGAGCAAAACTTTG TCCGAATTTTTGTTGTTCTTTTGAATATTTAGAATCTTTTTTCCTCTTTC TAACCGTCGCAGCTTCCTCTGTTCAGAGATAGTATGTATTGTTGTCTTCC TCGCTGATTTATACCAATGTCATTCTGGATTGAAAATAATAATATGTGTA ACACTAGATAATATCGACCCTGTGTATCTTGTTCATACTCCAAACTAACA TTGTTAAGATTAATTAAAAACTAATAATGAATTTTTTCTCCTTCTATTAA ACTCAAGTAAGTATTTTGTGCTAAATTTTAATTGATAAATACGAGTGCAA AATCATAGAAATTAAAATAACGCAATTTTGAATCGTTGTCGATTATCTAT GGTTCTATAAAATTCTTTAAAACTCAGACTAACTTTTCAACCTAGTAACT AACTACGGTAAAAAAGGTTGTTCCCTAGTTAAGGTATAAATGAAAAAGTT GAATTTCACAGTATTTATTATTTATTTACTTCGTGATCCCAATATTTCCC TGAATCCTGCGACTTAAACAATTGATTTCAGCTATCCCCCTATAAGAAAA TTTTCGGGTATGACCTGGCCCAAAATGGGATGTAACCTACTACCACTATT TAATCATCCCCTTAGATCCCATCACAACCCCTCGTTTACACCTAAGTGAT GGAGCAAAAATGGGATGAAACCTACTCCCACAACCTACATTTACCACCTA TTTTACACAGAAAGGCCCCGGAAATTAGAGGTTGTTTCGGATTTCATCTT GTTTCTGGAGTCGGTGGTACCCGAAAGCAGCCCCAACTTTCTGGATATAA ATTGAGGTGTTGGGAGTGGCCTATGAAGGTGGCGAATCGGACGGTGATGG GTATGGGTTTCATCCCTTTTTGGAACCCAGCAATACATGAAAAAATATCT AATTTTGGGGTATAAACGAAGTGTCTTCAAGACGCTCACCTAATAATTCA CATTTAAACATAATTAAATATATATAATAATAATTGCCTCTTCACTCGTT CAGTATAAAAACACATCTCCTTTATTATTAGCAATACATGTATAAATAAA TAATAAAAAGGATGAAGAAACATATCATCACAAAATGGTAAACTATAGAA AGTTATATGATAAAAGACTAATAATTAATAATGATTATACGCGGCACATA AGGGGCTATAAGTCTTGGTTWTGTTGGGGGGGGGGGGGTGAGTTAGGAAT GTCTATTTTATATCTATCAGAAAATAATTGAAAAAATAAGAATATTAAAT ATTTATTAACCTAATAACAACAATTTTTTGTTGAATTAATTGGGGGTAGT GAGAGGGGCTTAAAAGTAATTTAATATTAACAGCAGTGAGTTTCATCTCA TTTTTGGGCCCGGCGTTACCCGAAATGGTCCCAAATTTCGATTTATAAAC GAGGTTTTGTGAGGTGCCTTACTGTTAGTTTATGTAGGGGTGGTGGGGTA AATATCTTGGGTGGGAAATGTCTGGAGTGAAATGTCATAGAAACTGGTTT TCATATTTTGAAATGTAATTTTTTCCGGTCGACATTGTGTCTAAAATCGA TCTAGTGCATTTTTATTTAAATTTGTTATTGTATTCAGATAATCAAACTA TAATGTGATAAGTATGACTAGCCGGACGTGTAGGATGTACTAGATCAGGG ATTTTTAGCCTTGTAATAAAATGACCACATTGACACTTGAAATATTTTAA TGGGCCAGATAATCTATTAAGTTAAATTTCTTGAAAAATGGCTATATAAA ACAAATCTATTCAATCCAAATTTATTTCAATTTTAGACCAAATATAAATA AAGGCCAAGTTTAATTTATCAAGCCAAAATTACTTTAAAAAAGTAATCTG GCAACCCTGTTAGAGTCTCAGAAAATACAATATACCGTCAATTTTTTTTG AATGAATGTACGTATTATGAGGGTTGTACGCGTTTTGATGATATTGGGAC AATTTGGCTTAAAAATACTACTTTAAGTGAGAATAAGTAGTGGTCCTCAC ATAAATAGTCCTATGGGCCGCAATGTTGACTCCGATCCATAGGTTAGACA TCCCTGCACTAGATTATCAAATTGCTTGTATTCAAATTGTATTTTTATCA AATCTTTAATGATCAAATTGCAGGCAATTAATTGTTTAATACTCACGATC ATTTTACATGTAAATGAAGTTAAAATTACCATTGACCACTCTATTGGAAA TTTTATGGATTACCTGGGCATTTTGCACATTGCCTGCTCTGACGGGGATT TTCCACATTGCCCGTAACATATATGTTATGGGCAATGTGTAAAATGCCCA TTAGAGCGGGAAATGTACAAAATGCAGTCTATAAAATTTCCAATAGAGTG GTCAATTTACTTTTATGTACATTGTGAGGTAACATACTTTTAAAAAGTTG GATTTTTATACAATTCACCTCACTAAATTTGTCTACCTGCGTCCTTTAAA AACAAAAACTGCTAAGAAGGTTTCTCACCATTTACTTCATATCTTTAGTA ACAAGGGAGCACTATAGATATTACAAAGTGACAATGGTAGGGAGTTTACT AATATAACAATTATAGAACTGGTTACGATGTGGCCAGACTGCAAACTTGT GCATGGAAAGCCCCGTCACTCACAATCTCAGGGATCCGTTGAGAGAGCCA ATCGAGACATCCAGGACATTCTTATGATGGGACAGCGTGACAATATGACC AATAAATGACCTGATGAATTCTGGCTTATGTAATATGCAAAGAATCGCCA CTTTCKCTCCGGTATCGGGCGAACTCGATACAAAGCAATGTATGCCCATC CAATACAGGTTACACTTGAGAGATTTCATTTATCAAAGGAGTGCAATATG ACCATAGAAGAACAACTGTTAGAGATATGTGGAAATGAAGACAAGGAAAT GCCCAAAGTGGAGGGCATAGAGAGAATACCAGATATTGACAATAAATTTG TATTCTGTCAGCAGCTTGTTACTGGACAACAAAAGTGTTTCATCTGAGAC TATAAATGCCACTCTTCAGTACCATACAGCGTTGCCCTGTGTGGAAATGA CGATGATTTGACAAATATAAAGTGCTCGCATTGCCAATCTGCTGAAGAGC TAAAAAAAAAATGAAGCTAATAACTAACATAAAGAGCAAGCTAACCAAAT GATGCAACTCTCCTCACGGTGGTTAAAGGACGCTGAGGTAGGACAGTGTG TCAAAGTCCCAGTTTCAAGCAAGGACAGTGGAAAAACAGATCCCGCATCG TCTTGGGAGTTGTAATGAATGTAACAGAGACAGGATATTATAAATTAGGC ACAAAATATGGCGTCTTAAAACAACTCTATATAAGAAACCAATTTGAGCC ATGTAAGGAGTCATTCTCAAGTATTAATGAAGTTCAGAAAGAGAATAAAG TCACTTGGCGACAGACCGCATCAAGGATGTAGGATGGAAATGGACGGACA AGGATTTCAGCAGTACAATTGCACAAACTCCAGCCGTTGCAAAACAAATA TGTGCATTTGACAAAAAAAAAAAAAAAAAAAAAAAGAAAAGGNAACCRCT CTAGCAGCAAATGCCAWAAWAGCAATTCATGTTGCAAGGAATAGTTTATT CCGTTATTGTTTAATGTTTACCATTGAAATGAAATATCTAAATAAAAAAA TCTACATATCTTCAGAAAGATGATTTTAGAAATTATTATATTGGATGTTT AAGATTATTTTGAAATAAGTTTTTGTTTTTGGAGTTTTGAAGAAAATAGT AGTTGCTGTAGTAATCCTGATATGCCCACATTTTATCATTCATTCTATGC CTGTTTGGAATATCTTATATTATTTAAAAATAAGTGTACCCTTCGGTTGT GGGGAAGCTGCAAGAGGATCATTAACCACAACAAAAGTTTCACATATTTT AATAGAGCCCTCTAAGTATAATAGCAAAATAATTAAGCCATGGTGTAATT TAGAATAACAAGGGTACTTGGGAAGAGACGGCGGMGGYGTTTTTGGTGCA AATTTTTTTTTTTTTTGTTAATTGTTATAAATATTTTAGAAAATGTGAGG ACGCTTTGGAATATGTGTATGATTAAACAAAGAATTAAATATCTTTGTTT TCAATCATTTTGCGTCATATTTATATATTTTTTTTAGTTTATTGTTATAT ACATTTTAGAAAATGTGGTTTTTAAAGGGTCTTTGATGCTCAGGGAAGCA GGGTGGTGGGTAATACCCCACCTTTTGATAATACATGAGTTTGATTGTCC AAATACAGTATACATTTCAATGAAAATGCACACGACCATCAAATTGCTTG CAATGAAATTGGATCCTTATCAAATCCTTAATGATCAAATTGCTTTCAAT GAATTGTTTAATATTCCAAAAATTATTTTACCTGACAATGTAAATGAAAA TAAATTGACCACTATTGGAAATTTTATAGATTGACCGGGCAATGTGCAAA ATACCTGATTTTCCACATTGCCCGTAACATATATATATATATTAAACTGT ACCGAGAAATGACAAAAGTTTGGAATTTGGTATCGCCTGATATTTTTTAT TTTATTCCTCTAAACAACAAAATAACTATCTATCGTAAAAAAAAAAAAAG GTCCTTCATCGATGCGTTTTCTTGAATATCTGTAAAATTTTGAAGAAATA AAAAGAAATTTTGCTCTACTTTATTTTTTATTTTAATTCCAAGAATAGGA GTATTTTAATTCCAGGAATGAATTTAAAATCTCTTTTGGTACCGCATATA TTGCGAATTTGCTTTGACATTTCTCTTAATTTTTGTTGCTAAAATCTCAT TTTTTGATATAAAGTGTCTGATATATTATTATCAAATATACTTTCGTTGT TTATTTATGCTAAATAAGACACCCTATTTTACCAATTTTTAATTTTGGAC TGCGAAAACCATCCATTACACTCTTAAAAATACGACCTTTCATTTATTAT TTCTTAATTTCTAGTGTTGATTTGTTATTATTTAAGGATATTTTTATTTT TATATTCTATAAGTTTATATTTTTCATTTATGATGAATATTGAATAGGTA CAATAAACAAAAAGAGAATAATAATAGATGATAAACGTATTCATGTGCAG ATAGGAGTCATATTCTCTATACTGCGCTACATATTTATATATTAAATTAA AAATATAAATGTTATTGTGATTTTTAATGTTGCTCGGGATCAATTTTCAA ATAACTTTATTTTATTTCTTATTGAAATTAGATAGTTAAAAATTTAACAA CTTGTCAGTACTAATTAAGCATAATTATTTATTAGAATATATTGTTTTCT TAGGAAATATCTCTCTGTTACAAAATTTTAGAGACATTTTCAAAGATATT CAATTTTCTAAGGAAAAAGGGTAGAATATAGTTGAAAAAAGTAGGTTAGC TTAAAATTTCAAATCTTATCTTAATCTCTTCTTATATCTAGATACTACTG ATACTGGCGATAGGTTTATTGATTAACCTGCTTTTACCGTAACCCAGGTA TCTTTTGAGATTTTGATAATTATTATTCTCCTATTTGAGTCATAGATAAT TAAATTTATTCTTGAATTTTCTACAACTGTCTTAAATCACCTGTAATGGG TTAAGAGAAGGATAACTAATGATAAAATAACATGTTTATTTTTTACCTGA TGCTTTCTCCTTGATTTATTTCATATGTCAGTTGTACAAATAAAATAATA ATCTCATTTATAAATAAAAAAAGGGATTWTTCTGGGACATTRTTMTTCAA ATGGTAAATTTTMTTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATTT TCAACATWTTTTTTTTTTTTTTTTTKKTWTAAMAATYTTYTYTTYTCTGC TCMCTCTTATTTWTGTTTKTTKTACAACATAATATAATAGGTGTTTAAAA AAACAATTATTTTTGATGGATAAAAAAAAAAAAATCTCCTTGGTAATCAA AACAATGCTTATATGAAGGTCGGCCTCAATAATTTTACCCAAATTTTAAA CGATTGGTCTTTCAATTTGATATCATAATTACCAGAACGGAATCGACGAT CAAAAATACCGCGAGATTGGCTGSKACAATATCAGGACCATAAAAAAAAA ATTTCAATAGCCTGACTTGAGTTTTTCCCTTATTGTAGGATAAACTGTAA AATATTGCGTATTGTCTCTTTGACGACCTCTCAAACAATACTGAGTCAAA AAATCAAATAACTATTCTAACAATTTTTAATATGAACTCTTATCTTCCTA AAACCATTAAAGTAAATCAATTGTACAAATACAACGCGAGATACACAATG AATGGCTTCATTGGATAAAAATGCGKCTTTTTTCTACATCTTATATAAAG TTCCCTTTGTGCTTAACATCCAGAAATGAATTACTGTCTCTGTCCGCCAA GATATTGGTCATGTTTTCAGATAGGCCGTCGAGCTTAGGGCATTAAAACT TCGAGTAATAAAGTACCGGGATATCAGATTAGTAATTTTACAAGCCCTGG TATGTACTTATATGATATAATTTTTTAAATGTATTGTTGCTGTATTATCT ATTTAGAATGTGTTTAGCTGTTTAGAAAGGTGTTTTAAACCCTTTTGAAT AACCTTTTTTTTTATTTTTTTTATTCTATTCACTTCTTCAATGTATTTGA CGTCTTAAGAAGAAAGGTAAATGGAAAGAGTTTATTCAGACAATAGATGA TGCTATTCTAATATTTCAATAAAAACACGGTGATTTATCAATGTCGGATA TACAAACACATTACATTTATTTAATATATATATATATGTTCTATACATAC AATAAAAGAATGATTAAATCTTTTAGTAGGGAAGACCTTGGACATATGTA ACATATTTGGCTGAATTAATCTGAGCTAATATGAGTCAAACACGGATCAT CCCAATTGAAATGATATATAAAAAAATAACGTTGTTCATTTGGTAAATCA TGAAAATTCTTCGATTTTTTTTTCAAATTTGATACATATTTTAATAATAG CTAAAAGCTCAAAAAAAAAAAAAAAATCAGCCATTTTTGTCTTTCAGCTA AGGATTTAGATGCTTTTAAAGTTTTTGCCTCAAAGCCACCTACTCTGTCT TTAAATTGATGTATTTTGAATGTTTTAAATTTGTACCCATCTACTTTAAA AACTATTGAATAGATAATTAATTGTTTACTTCTTTTGTTGTGAGTTTTGG CTCATTAGGTCACGAGGAGAATATTTTGATCTAAAAAAATAAAGCATGTC GAATTTCAATTTCACTCAACTTTTTATACGTTAATTTGTAAATATCATAA ACATGTACAATAAGTTTTTAAAGATGCATTCGATTACACCGAATTACTAC ATGCTAAAAACCAAGTATATAAAACTTGAATATAATATTTATTATATATA TTCAGAAATTTGCTCTACTACGTACATATTTTCATCTGTAAAGATAAAAA CAATTATCTATAAAATGTGTCTTAAAGTTGATCGATATCTTCAAAAACAT TCAAAATACATCAATTTAAAAATAAGGTGGGCAGCGTCGAAGTGGCGGAC AAAAATGGCAGAAATTTTGGTTTATTGTGTTATTAACTAATATTAAAAAT ATGTCTAAATTTGAAAAACAAACAAACTCAAAGATATTGCTGTTATTGAG TAATTGATGTGGCTTGGAATGACTCACACGCTAAAATGGAGCACAACATT AAAAAGTGTTACTTGTAATGGTTGAATCTATTAGCAAATTATACCAGTCA ATAGTTTTCACATCAATTGATGTAGTTGTGAACTGTTAGCAGTCAGACCG TTTGCAATGGTGGTCAAATGATCCAACGGTCACAATATGTAAAACCAATT GGTATATTGATTTAAGAGTANAATTCAATTATTAAAAAAATCCGATACAT ATTTATCAACAAATAATTTTGATTTTTCTGAATCAAAAAATACCTCTGCA GATCATTCCAGGTATATATATATATTTTTTAGATTTCCATTTGTGTTATT TAAGATTCCAAACCATTTTAAGTTCTAAGTTAAAAGAGACACAAAAGATT TAGTTTTTAGAATAATTGGGTCCATCTCTTATTCCCTACCTCTTTGTTTA GGCCCTTTTGGCGTGGGCGAGCATTATAATATATTACAAAATTTAAAAAA AAAAAAAAAAAAAAAAAAAAAAAATGGMGTTCTAATRTTCCAAAAACTAT CTGCATACATTTATGAAAAACTTTGTCAAAGTGAGAAAGTCATCTTTGTT TGACAAAAAAAAGAAAAGAAATGCCAAATCGAGATTTGCAAAGAAAAATG CAAAAAACTGTTTTGCACTAATTTTGCAAGAAAAAGAAAATAAAATTGAT TGGTTTTGTAAAAAGGAACACAAGCCTACCAATATTTTTTGGTACCGATT TGTATTAATGTTTGTATGATAATGAATGTGTTTCTTATCGGATTATATTT TTTTTTAAATTTCTCTATTGAGTAATGAAGCCTATGTGTTTGAACATTTT GGTACCCTAAATAGGGAAGATTGAAATTCATTGGAAGGCTGTTGGTAGTA TTGGACTGCACAGTGATGTTTGTCATATTTGTAATGATCATTCTCAAGAA TTGACCTCATTATCCATAAACACACACAAAAAAAAAAGAAGACTATTCAT GTAACATTAAATTTTACCACTTTTAAATAGAAGTTCAAAAAACCGAAAAG GAAACCATATTGCTTAGAATATCAAGGGTTGCTCTTATTCGGAACTCCGT AAGAGAGTAGAGTCGACTCCTTTTTTGAGAAAAAGATTCCAGGATTGCAA CATTGAAGAGATCCATTCAAGATGGATCAGGAATTTCAAATATAATTTGT AATAACTTTCTTTGAGTTTGTACGAAGCGTGGCATTATATTGTGATATTA AATATTAATATTTATTACATGGTATGACGTAATTACCGTTACATTGAAAT AGTAAACTTTTTAGTTAAAAAGTTTTATAATATTATTAACTTTTATATTT GCTCGTACACTCACATAAAGAAAAGGATCACTCAAAAAATACAAAATGGA ACAAAAATCCATGAATATGCATATTTTTTAAATAAGGCATAGATTTTTTT GTATAATATAAATTTAGATATTTCTTATCTCTATGAATTAACAATAAGTT ATAGGGTCAAAAGAAGAGTGTCGCTTTTTATCATTTTTGAGCCTGAAAAT GGAAATATGTCGAATTCAGGTTTCGAATATTTCTGAAACCTGATGGATGA CCCCGATAAAAACTGAGATCAGTGAAGGATTTGGAGCTCAAAGATAAATT ATATTCTAGGCTTAATTTCATTAGTAGAAATTTTGACCCTTTAATTGTTC CCAGTTGTTATGGCTCTCGTAGCATACATAGCTATTTTTGATGCATTTGA TGAAGTTTTTATCCAATTTCTTGCTGAAAATCATTCGCAGTTTTTGCCAA ACGGCAGCTTCGGCGTAATTAGATCATTAATTACTATTATAATCAATAAA GTTTTAATGTCTAGAAGATTTTTTTATACAACTACTTCTGTCTTCTTTAA AGAATACACAACAATCATGCATTCTTTTTCTCCTGGAGTTGTACACGTAA AAGATAGTTTTGCTTGGGCCTACAAGAGTTTTTTTTTATATAGAAAAACG ATGGGACAGGCCGGTTACAGGAAGCTGATGGAAAGATCGTGAAGCTCTGT AATCAAGAATGCCCTTCCAATTTGGGAACTAACTAACAGATCAGATTTAT GGATCAGTTGAAAAATGACACTCCTAAGATTTCACCCCAGAATTTCCTTT TACTTAGATAGATCAAAATGTATCATTCAAGATATTTTGGTACACCTCTC CTATTTTACTTTGCCTAGAAGGTACATAGACTTCACGCAATCAGGAAAGA ATCTGTAATATCTACTAAACTTTATCTGACTCCACTCTCCGTCTTGTCCG AAACCGCTTTCTTCGCTTGGGTCATGAACCATTGAAGGAGGTTTTGATGC ACTCTAGGTTACGTATATCTTCAAGTCTTCTAAAGAAAAATGTCTCGACT ACCCCATGTCTACCTCATCCATTTCAATAATAAATCTGTGGAAGATGAAA AGAAAAGGATGTGCTTCTATTCTTGCTCAGCAATCGAAAACTCGAGGCAT TTATTTCATGATTGCCCCAGAGTCTCCCAGATTGTAGCTTTAGCCTCCAA GTTGCGACAAGAAGCATATGGGTCTCCAATCTCTATAGATAAGTCGTTGA TAATATCTTATCCCAGTCATGAAAAACACTTTACAATTTCAACATACCCA TGGGTCTGGATAAACTCATAAGGAATTTCATTTTCGACACTCTTAAAAAT GATGGCTCTCGCTGAGTTGGGATAGATCATACAAGCTGAACAGGGAGAGT CTTATAGTCAAGAGAGATTCGAGACAGCTCTTCTTTGTTATGTTTAATTA TATAAATGAGAAGAATTTTCGCGTCGACAATATGAGAATGATAGTCTGGG ATTACATAAGAAATAAATAGTAGTGACTATGATTGACTTAATTAGCTAAC TGCCAGGTGATTTCTTGCCCTTTTCGGTTTATTTTTGGTGAAAGGTTCCA TGATACTATAAAGGTAACAACGMGGGAGAAACAAAAAAAAAAAAAATGAA AAGAAAAGAAGAGGGAAAAATCGCAGTCGTCCAATATTAGAACAATATTT GTACATGTCCAATGACATATTAAAGTACATATTGTTTTATAAAATAATTA TATCAATAAGTATGTTAATTTAAAAAAAATATCTAAGAGTTCACAAACTC TTTGTTTATGCTTATTTAAGCATGGAGTATTCTGATTATAGTATAACTTC ACTAAAAATAATTCAAAATATATTAAATTATTAATTTTACTATAAAGTAT TAAACCGTTTYTTCAAAATATTCTGAAAGTGTCATATAAATTTATGTNNN NNNNNNNNCTGACTAATACATGTTTCAATTATAATGTGACTTAAGCAAAT CAGTAAAGTTTTATTTTAAAAGCTGAAGCAATATAGCATAAAATGTACAG TACTTATCAGTACCATCTGTAAGATATAACCAGGTGGAGGGAGAATTCAC ATTTTGAACCTTCTAATTCTCCATTAAGAGCAGAATTCATACACATTTGT TAACTCTCCTAAGTTTAAATATTCAATCAAAAGCTCACTCTAATAATGTT AATTAATTGAACTCGGCGAGCTAAGTTTATATTTCACTCGTAATATAATT TATGATTGATGTTAAGCGAATAGCCATATGAAATATCTCTATACGACTTG AAATAATTTTTTTTTGCTAGATAAATGGTGCTAGGTACACCCATATTAGA CCTTACAAGACTTGTTGTTATTCCTCGCATTAATAATAAAGGCACCTCCC ATTATGTACAGCAGTACTGATTATTATCTGGATATTTTGATAATAATTAA CTWTAATTKGCWATAWMWTATATTTTCTCCTTGTTATTTATTTTATTGAG AAAAAAACATAATGGTAATGAGTATAAGGAATGTTTACTTTTTGCTATAA ATTATTTTCTTCATTCGTGCAAATTATGCAGCAAAGCACCACATTTAACA TTCGATTTTTTTTTTTCATTCAAATTAATTTTTTTGCTGCGGATTTTTTA AATTTTTTTCAAAAACATTTCATATTTGAATTTTTTAATATTTAAAATTA ACTTGAAAAAATTTCCGAAAAAATTTCATTTTCTCTGAAGGCAATTGGTT TTTTGATTTTTTTTCCAAAAAATATATTTGATTTTTTTTTCTTTTTTAAT AACTACAAATTTTTTAAAATGTTTTTTTCCCAAAAAAATAATATTTGAAA TTTATCTTTTGAGATATTTTGAGAATAGTTTTTATTTAGTTTGGAAATTT TTTTCGAAAAATTTTAATATTTGGATTTTTTTATAAAATTCAACTAAAAA AAATCTTGTGTAAAAAAAATGTTTTTATAAATAAACATTTGTACCAAGTA GAATTAATTTATAAAAACATTTACCAAGAAATTTAACCAAAAAATACTTG ATACTAATTAATATCAATCAATCAAACAAATGGGTTGCAATGCACATTTC ACCAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATAATTAATTAATAT AACTTTTATGTAATATATGTACCACAAAACTATAATATTCATGATACTTA TGATGATTTTTATTACCATTTATATAACATATAAGTACGGCGTTCCCTCA CAAAAATAACAAAATTATTATGTAATTCTTGCCAACTGTCAATTTTCCTA CTTTTCGGTCCCCTCTCTCAGTATTGTGAGCGTAGATTGATTGAACTAGC TCATTTTATGCTGTGATTATATTTTTGATGTAACTTTCCAGAATTTTCTC AATAATTACACAAGTCCTGAAATAAAATTCAATACTAATAGTTATTGACT CCTTCATAACGAAACTCTAATGAGTTTTTCCGAATAAAATCTGGGTTTCA AGATTTTTTAGTATAGATGTTGGAGTATTTGTACTCCCTTCATAGGTTTG AGACAACTTTTGATAAAGAAAAAAAGTTATAGAACATTTATTTCACCTGC CATATTGATTTTTTTTTCAACTTAAATAAGGAATAAAAATTAATATGATA TTCATAAAATAATATGAAAAAAACCTTTATGGGTTACCAATTTAAATATT TTTTATTTACTTTTTTATTCAATATCACGGGATTTTAAAAATGTCCAATC CTAACCTCGATACATTTATGCTTCAAAAATAATGAATTCAAATCTTAATT TGAGCTGAACTAGAATTCTAAGAAATAAATACTCTTCTTTTCAATGAAAC CGTTATTATTTATGCTTCAAATATATTCTATTGGCGTAAAAACAATTGAT AACCCAAGACGTTATACCTAATTTTGCAAAGAGTTAACCAGCTTACTGGG TATTGATTTTTTTCTTTCTCACAAAACGTCTCGAACCGATAAAGAGGGTA AAATATTCCAAAAATTCAAATCGAAAATTCTTTAAAACTAGATTTGATAC TATAAAACTAATTAAAGATTCGTAGCCAACATGTGAAGTGCTAATATATT TAAATATGGAGGAATTCAAAAGAATTTCAAAAAGTTAAAATTTGTTGAAT TGTGTTATCTATGGAATAATATTTATATAGCTAGAATGGAAGAATGTTCT AATTATCTGATTTTGGCCATTTTTTCTATTTATTTTAAGGAAGATGTTTG CAAGATACAATGAAGGCAAAGAGGTGTAAAATAATTAGAAAAAAATATAA AAAAACTTCTGGCTCTGTCTTAAACAATATTTCAAAACATTTTGGGATTC ATAGAACTATTTTGAGATAAAAATAACTTTTATATTTTCGTTGGGGTTAG GTTTAGTAAACTTAGAACAGTCGTAAGATTGTTAAATAATTTTTGATTCA GAAGTTTGGTGCAATTTCCTTTGGGCATGTCTTGTCAAATAGCCAACAGG AAATCATTTATGCTTAGGGGTGTGCACCAGTAAAANNNNGTACYCGGTGG GTAATTAATTACCGACAAGTAATATTTAAAACATTGTTGAATTGGCATGT TAGAAAAAAAGAAACCGAAAATCAACATGGTAACCCTAATAATTTGAAGA ATGTTTTGGAATAGAGAAAGAATAATGCTCATAATGTTTATTATATCAGA TTCAATCAGCTGTAACAAGAGATGAAGGAGGATAGAAACAATCTTCACTA CTCAGGAATTAGATATTAATTACAACTACTAAGAAAAATAAAATTCCTTC TCTATATTACCAATTACAAATTAATGGGACAGCTAAAAAACATATACTCT TCATTCTTTGTATCTTCTTCCTTTCCATATTGTGATTGTTAAATATTTGT TTTATCTATATGAGTCATAAGTACAAGATTGTAGACGTCAGATTGGTGTA ATATTCCTTGTCTATAGAAGTAATGCCCATATCTTCTTCCTCCACAGCTT CTCTTTCATTCTTCTGCAACTCTGGTTCTTCTTTGGATAGTTTGAATCAA GTACTCTTGTCAGATATAACATTGGGGACGAGGATGGGATCCAAACAATG TGATCTCCTTGCTGTGGGATAGTCGGCAAAGCTAGCCTTAGTGGACGTGG TTAGCCCATTTTTGTCGACAGGGAGAATCTTWCTCAATCTCCGAAAGGGG AGCAGTACTGTTTATGCCTCGTGGAGGATGATAATGGACTCTTTTCATTA ACAAGAAACGAGCTGAGTATCCCTGTGAGAGATCACATCTATTAGTGGGG TTTAATCTACAAGATTTATCATTCATACGCGTCTCTACTCTCCCTTTCAC TCATGTGATTGGTGAATGTGTACAGGTGAAAAAAGTTATTTTCTCTAATC TGGATGGGCAGATGGGTCGTAATCGTCCGCTAATGGATTATGGTAGTCTG TTAGAGAAGGTTAAAACTTCGGCAAGGTGTGGATTTCTCTTATCTCTGTC GTGTGTGCTGGGAGTACGGCAGGKCAGCGGAGATAAGGKAAACAGTCGCA AGTATCGCTCGKAGGTGTCTTCCGATGTAATGGTCTTGCCGCTATGCAAG TGAGTCAGACTACATTGTGTCCTTTAATTAATAGTTTTAAATGGTTCGTC CGCGCCTATCTGTGGATGGAGTTCATCTACAGGATTCTCTTCGTGGAGCG TAACGTAGTGAAGCATCTGGATAGGTTTGGTGCTTGAGGGGTGGTGTTAT GTATTTTTTCTTGATCCTATTGATCTTCTTTACGTTATATGGGTATATCC TAAGTTTTAATTAAGGTGCTTACAAGCTCAGATAAGTGCATAATTGTAGA GATGCTTTTAATCCATTTCTTAACTATGGAATATATTTATAGAGAATGCA GAGTTTTTGATGTATATTAAAAAAAAAAAAAATCAAACCGAATAAAAGGA TGAACYCGAAAAGGTAATTTTTTTTCCTTTTATTCATCAGCAATTTTTAC CCTTTATTTACGAGCTTATTAATTTAAACTCACAAATACACATTATTATT CATATTTTCTTTATTCAAAGTTTTCGTTTGATTAATTTTCATTAAAAATA CAAGGCCTTTTTAACCAAGCAAAATACTCAAAGTCAAATTTTTTGGGGTC TGTGCTTTTTTTTACGTCCTTGGTATAATTTGAAATATTTTAATGCTCAA AGCTCTGATAGTTACAAACAGTTTTAAAGTATATTAATAAAACAAAGTTT GTCTCTATATCTAGATGTTGGAAAAACATCAATTTTGAGTGTGTGTTTAA GATATTAAAATCTTCGTGACTATTTAATATCATTATAACAACTAGCGTGT CATAGTTGAATTACCCAAAAATACGATTATACGTTAGGGGAAAATATATT AAAAAGGTGGATTGAGCTTCAATCAACTTCCTGAAATTTTGCTGTTAGGA TAGTTTAGATATTCTTAAACTGCTTACTTGTTTGTGATGATTTAAAGTAA TAAGAGCTGTTTTATTTTTATCATAATTTATTCATAAATTTTGTGTCATT ATATCGACAAATCATGATTTTTGAAAGATTTTCTTCTTTAAATTTTGCCT TTTATCAGTTTTGCTAGTTTTAAGGATACCATAAGTAAAAACGACAACAT TTGTTATAGGAATAAATTTAAAGTTGATAAGATCTTCAGGAGTCGTATTG TTGGAAGGTATCCCAGTATCACAAACATGGGTTTTACGTCCAAACTTTTG CATACACGGAAGTTGAGTATTTTGCAATTTGGGGCAAAATAATTTCTCAT TTGTTGGAAGATTCAAGGGGGATAATTAAAAAGTAAATTTAATGCCAAAC TTCTCATTCCTCTAATTGGCTGTTATCAGAATATGGCTCCCYCACATATC CAAWCATGTAAWCGTAGCCCCGTTTGCATCATATGAAGTAAGGTTTTTGC ATATAGATTTTCCCTCGAAAAAAATCATCAAAGAATCATAAAAAAATATT GTGTAACATAACTAGAATCCAATTTTTCTCTATTTATTTCGTACCAGTTT TCAAAAAAAAGGTAAAAGTGAGCAATTTTTTGAGCGATCACTCAGAAATC CAAAGTCTACATATTACACATCCATAACCTATATTTCATTATCTAGGAGT CACCGTGACCAAATCTTCCAGTATTAATGGGAAAATTAACATTATTTAGC AGTCTACGCCCCTATATGTATTAAAATATCTGGATATATATCCGATTCTA CCCGAGACTAAAGTTCAATTACACATACCTATTATTTTTTTTTTTTTAAA TACTTGAAACTCGTTCCTACCAAATGGTAAAAAAGTTCGGGTTAGGACCG AATTTCAAGACTACTAGACGTATAAATAATTATTTTGATTTAAGTCCAAT AAAGAATTGATTTATTTTGTAGGTAGTGCCTAAGTAAACACGGATTCAAT GTTCATTGTTAATATGTAAACGAATAATAAGAAGATAGTCAACATTAATA AAGAAAAAAGAATTTGAGAAAGATATACATATGTATATATACAAAGAGGG GGGCGTCCCCCTCTTCATTAATTTTTATTACCATAATAAAATAAAGATAA ATCATCACCGATATTATATGTTCAATAAAAGAGATACGAATAAATGAGAA AGGAAGAAAAATGCAGAAATCAAATTGTTTTTATTATATCTCGGTCCATT CTCTCATTGATGACAGTATTGAAAGTGGGTGCCACAGTATATGTGAAGAC TGAGCAAACTTTTAGCCGATATACAATTTGTCGATTGACATTTCCCCGAA AGACAACTTGCCGAAAGTACATTTCACCGAAGGACTGTTTGTCGAACGTT CATTTCCCCATAAGACCATTTGAGACATTAGACCCAAAAATGATACTTAA TTTATTAAGACAAGGTTGATCTTAAGTAATGATTCACATTTTATTATTTG CAATTTTTCAAAATTAAAATTTAAACGAGAGGTTTTCTGAGGACTTTTAT TTTACAACACTATCTAAAAAAGTGATTTACACAACTTTTATTCAATAGTT TAGATCTCTACTCTAATAAATACCTTAATTAGAGGCATAAAACACTTGCA GACCTTGAATATGTAGTCAGACTCAAGTTTGGCCCACTTTTTTGCTCCTA GATAGAGTGGTAGAAGGGGTTGGCGTCTGAAGAGGAGAGGTAATTGGCCA ATTTATGAGTTTTTATTTCCTTAATAAATTTATACTTAGTTGTTCGTGAA TATTAATTATTATAATTTTTGAAAAAAAAAAAAAGATCAAGTTAAATTAA AGTAGTTTTATAAATAACAAATAAAAAAGAGAGTCATATAGAGTTTTACG AGTTAAATGGTTTTTATTATAACAAAAAAAAAAAATATTATGGGATAATT TCTTTAATTTTCTACAAATTTCATTATTTTTTTGATAATTTATACTAATA TTCAGGCCCTTAATTCTTATAAATGTTCTTAGACGAGCGTGTTTTCTAAT AATATCTTGATGGACATCTGGAGCTGAACTTTGAATAATTGATATTAAAG TCTAATAACATTATGTTGGCTTGATATTTCCTGTCCATGATATGCTTTAA AGATTGCATCAAATTTTTGTTATATGAGTGAAGAAGGAATTTGTAGGTTT TGTCAGTCCTCCTTTGGATAATGCTGATTTCCACGGTGTCATATCTGAAT CACAAAAAGGGTAATCTCTAGTCTTGAAACCGATTTCAGGATATTTCGAA GAAAATTTATTGGCCAAGTATCCAGTGATATAACCTAATCCCTGAAGTCT ACAGTCATAGGCTGAGCATGTAGGAATTTTACAGTGCTTTGAATTCCAGA TCCGGATTTATAGCCAACTCGGTAGCTAAAAGTGAAGCATCTTCATATTC TTCCTAATCTATTTCCGTTTCTTTATTTTCCGGTTATATTTCCTTAATTT AACAACCAAGAAAGTTATCCATTGATGAGGTTTCTACCTCTTTTATTCGA ACTGATGTTGACCCAATATGAAGTCGGTCGTCTTGGCCAAGCACAACTAG CCTTAGTCCATTGATACAATAAACACTAGTTGGATACACCCAAGGTCCTC AAGCACCGCAAAAAGGTTTCCTAGACAATCTTGATTTAACCTAGAAGTAA GTATGTACTTGATTCTAGAAGCTTTCTTCGGGTAATTGAATAAGTTTTCC AAAGAGGCAATGGAAATCAAAATTCCACGCTGGAAAGGAATAATTGTATT CCTTTACCAATTCCTTGGATACATTTAATTGTATCTTTCATATCTTTAAG AGCCTCTTCGTTCATATGATTACCAAATCCACACAAGTTTATTTTGGAGT CAAAAGGCTTCCTACTATTGTAGACGTCGAACCATGAATCTACGGTTTTG ATAAATCCGCTTGAGGCTTCTTTTCAGGAAATATATATTTCAGCGCAGAG GCAGTTGTATGGCTCAGTAGTTGTGTTGCCAGATAAACACGTTGTCTTTG ACTATTTCGGCATTCTAAATGAATATATTTAATCTTATAAGCCATTTTTA GTTCGTTTGAATCTTTTGCCATCAATGCTTGTAAATCATTTTTTGTGATT GTAGATCCGTCCAGCAAGATAGTTTGATGAGGTGAGGTGTATCATACAAG ACGTAAATCTTTTTGGATGTGTTAAATGGATTCCAAAAGTAAGGAGATTC TTTGGATATTCCCAATGTCTTTTGCAATCCCACATTTGAGGGACCTGTAT CAGATACCATGGCCACTACAGATATTCCGCTTTCTTCTATTATTTTTTTT AATAATACCGAATAGATTTTCAATAGTCATTGCTTTGTCAAAACAGGCAT CTTCGAAGAATCACAAAAACCACGAATCATTACCACCTAAATCTTTTTGT TTGAGCCAAACACTTAATAAAAAGATAAAGAATAGTCATAACTTTGTTTC AACTCCATTTCATTGAAAGACAACACTCCAAGACGGCTTAAATGGACATC CATTTGAGAGAGCTCTAAAAAGGAAACCAATCCAAAATTATTAATTATAA TTAACCATAACAATAAGAAATTCCTATATTTACCATCCATTTGTTTATTT AAAATGTCAAAAAGTTTGTATTGAATTTTGGAAAAAAATTTCCATGATAA TTTTTTTTTCCTTCCCTCAATGAAGAAGCTGTTCATTACACATATCTGAC TTTACTGACACATTTATGTTTTGTTGTGGTATTAAATGCTCTTCAATAGC CCCCAAGGAGATATTCAAAGAAGGCTTGAAATATTCAAATGATACTTCCA TAGCATCTTCAGGTGGCTTATCAACTTTCAAACTTCCTTAGTTTGGGNAG TGAAAAGTTCATTGACATTTTTTTTGTATTCCTGGAGGAGAGCCTAGGAT AAATATAAGGATGATCATGAATGTGTATCAAATAGATCTGCTTAATTTCT TATGTATATAATCATTTATTCTATCAATTACCTTTTTGTTCTTTTAATAT TTGATTTATGTCTCCTCAGCTGGAATAGAGCTTTCAGGAACCAAATATAA AGTAGGAAAAAATTGATTTCAAAGTTTTTCGAACCTTGCTACTAGAAGTC CTTCCGTAGTTAGACATGAGTTCGGCCTTTAGATTTATCTGTAAGCAGTC TTCCTCAAAATGTCTAGAACAAACTCTGGTAGTTTAGGGATTGAATGGGT ATTGTCCAAGAATAACCTTCGCGGGATTCACATGAGGGGAGTAGCAGACT GACACAGCACAAGGTAAAAGATTTTTCTTCGGAGTGTTCATTTTGAAATG ATGATAATATAAATATTAATTATATTTTGTAATTGTTCGTCTGTTATCAA TTATTTTAAATCCAATGACGTCAGGGTGTCACGTCCTCTTTTCAACACCA AATCAAAAACATTTCAGAAGAACATACCTGATTATATATACCTTGATTAA TACGACTAAATTGTTATTTCTTAAATCAAAATATGTTTATTTTATACATC ATGGAGCTTTATATACAGTGTACCCATTGACTTGTTTTCATATATACAGT TATTCTCTGTATACCGACAGACTTCATTAAAATAAATTATAAAACAAAAA TAATACTTTTCCAATTTATAAAACTTGATAATTGTGTTTTGTAGAAAGGA TGTTTTGTTGTTATAATAAGCAAAAAATACTGACTCTAATCTATTGTATA TACATATAACAATATTAGTTTTTTCATCATTTTTCAACAAGTTTACTTCA TGCAGTTTTTTATCTACAGACTTTAATATCTTGTTTATATTCATTCAAGA AAGTATTTAAAGTTTACCTCAGAATAAATTTCGAACTTGCTAAGGGCGTA GACGATGCTCTTGAAGACCCTCAATTGCCTCGAGTGCACGAATGGAAATT CGTCGATCACGTTAAGTGTCATTTTTTCGACTTGTGCGTAAGCTTAGATT TGTTTTGTTTTGTAACGAATTGTTTTTACTTTATTATGCCGAAATATGAA TTAATTCTAATCACTCAACCTTCATTATTTATTAAATTAGTAAGTGTTCA GATTTGTATCGACCAACCGGTACCTCTGCAGTCATTATGGACAAATATAT TATTTATTCCCTTTAACAGTATGTTCAGTTCTGTAAAAAGTATAGCCCGG GATGTACCAGTCCTTATTCATTCGGTACAGTCTAAGGAGTGGTGCTTAAG ATCATAGTTCCTTCGGACTGTCCTTACTGGAACTGTTCAAAAAAAAAGAA AAGTGGATTGATGTCGTCAAGGACCGAACATTATCAGTGTAAGGACTGTT ATGCAGGGCTTGGATGGACTTAAGGACCAACACAACATATGTAAAAATAC AAAAAAATTGCATGTGATAATCCTCACAATTTGAAGAATGTTTGAAAGGA GAGCAGCTTAGCTGTGATCCCATTTTATTAGATCAAGTGGAGGCATGCAT GAGAAGAAGAGAATAAACACAAATCCAACTTCATGCTTCATATAATCATT TTTTTTTTGGTATATCCATAGTTTCTGAGTTCTTAACAAATTCTGTAATA TATAGTGTTTTTAATGAATGTTTTTTTTGTTTTTTTTTCTKCTGCTGCCA TAAAGAAAAGACCCTTCGATATTTAAAATAGCATTAGTGCAAGTAAAATA TTATATTTGTATTTAAATGCATAAATATTATTATTTTTTCAAATATTTCA CGGATAGGCTGGAATTATTRATTAAAAGATAGATGAGCTCCAAATCAAAC TTCAAAAATAAAAAAGAGCACACGCATCAAGTATTTTTCCTTTTATAATC TCTAAAATGTAATGTTTCTCTACAAAAATCTCGCCCATATCCATAATTTT AAGATAACATATCCTCAACTACAATCTACAAAATATAATATTATTTTCTC CAACTAATATTTTAGATTATGAATTCACAGGCATAAAATATAATAATAAA AAAGTATTCAATCTGTTCTCTCATGCTTATCCTTTGGCAAATGATACGTA AATATTATTATTTTCAAATATTTTGAGCAATTTATTCTGAAAGAATATCT TATGGATAKTCTATTCAAGATAAATAAACATATGCATATATTTTAAAATA ATACCAATAAAACAATTTCCAGTATTAACTTATACCTCAGGAAAGTATTG ATTGCACTTTTAATTAATCAAAAAGAGCTTAAATAAGATTTAAAGCACTT CATGTTACAAAATGCCTATTTATGGTGCGACAAGAACTTGCTAAAGGCGT GTACAGAAGCCTACAAGTGTTTTTAGGATATCCATAGAAATGCTGTAGTT TCATTATTTTAATGGGAAATCAATTTGATTTCTTCTTTTTTTTTTTACTA TTTTGCTTTGTTAAATCGCACCATCTACTGGAAAATGTGTCACCTCAAAA TATCCTTCAAAATTACTGATGAGGTGTAATGGATTGAAAAAAAGTTATAA TGGACGTTCGTAAATTTATTTATTTAGTGTCTTMTATAGTTTACAATTAA TCTGTCGATGCTAATTAAATAAATTTTAACGCGACATTGGTTCCCTTAAT CTTTATTACTGCGCAATACGAAAGTACTTTGTCTTATTATTATTTTTTTT TTAATTGTAGATATTTAAACAACTTTTTCTCAATATCGTACTTTGAAATT CGTCAAAATTTCATTCAATTCTTTTAATGTTTAAGAAAGTTATGTTATTA TATTGAAATATTATATTGGATTAGAGATTTTGGTGTAGGTTATAACATAA ACAGTAGGCGAAAAAAGCGATGATATTCAAAAATAAATTGGTCATAACTT CTTTAATATTGAAGCTAAATGCATGGTTTTGGTATCAAAGTATCTTTTTT ACCATTACCTATTAGATAAAATAGATTTAAAAGGAAAATACCAATATATA TATGTATTCATTCTAAATTATACATATTTAAAACAACGAAAGAATAATAG TCATGTTCTGGTTAAAAAACAAAACAAAGAAGAAACGACAATTTCATGTT GAATTAAAATTCTAAAATGACTTATAATATAGTTCTGTATATTATATGAA AACTTCAAATAACATATCAACATATTTTCTTGAAGATAGATCTTATTTAT TTTTGTCGAAAAGTTGTCAAATCTTAATATGTAAAGAAAACTTCAAAAAA AATATTTTTTGAAGTAATTTTGTAAAAAAGTAGTTTATAGCATTTATTAA CATTTTAAAGAGAAACACAAACCCACCAATATTTTTTATTTATTTGCAAA ACCAAAAAATAATTATAGAGAAGAATGTCTTTGGAAAAATAACCCTCTAC ATATAACTGATTCATTTTTGTCAATATTGTAAAATTATATAATAAAATGT TCTGGAAAATTACTATAATGGATTGATAAAAACTACAATATTGTTGTCAA AATGCATCCTTTTGTTACAGTTTTACATACATTTTGATTATTTACGTTTG ATTAAAAAAAAGAAAAAGGGAAAAAATGAAAAATTATTCAGAAAATGAAA TATATCTTAAACATTAATTTTTATGTGTCAAATTTATCTTCAAACGAATC TCTATTCAAATTTCTGAAAACTTACGTTATTCTTATAGCTGTCTTTTGAG GCGCCAGTCACTTTTAGTCTCCTTGAGCTAAAAAACAACAATTTTTGTGT TTTGGATATCGAAGCAGCTCTCCTTATATAGGGTGGTCCTTTGAAATATG AACACTTACTAATTCAATAATTAATTATGATTGAGTTATTAAAATGAATT CATATTTCCATATATTAAGGTACAAGCAATTAGGTAAAAATCGGCGAGAG TTGTCTTTTGAAACGCCAATCATTTATTGATAAATAACACAACCCCTTAT CTAGTCTCCTTGAGCTGGAAAAAAACGGTTTTTGGGTATAGCATAAGCCC CCCCCCCCTTAAATGACCTCCCCAAAAGTCGACACCTTCTTCTTAGCCTG TCCCAGCTCAAAAGAGGGACCCATGCAAAATTTTCAGCCTCCTAGGTTAA ATGGAGGGGGGAACGTATAAGGAACATCTACACACACAATCTCTCTTATA TATATATACAGATATAAGAATAAAGGTTTTGATTTTATTGAATCCATAAA TCTAGACAAATGTTCTCTAAAGGGAGATGGTAGGAGGACAAGAAAGGAGA ATATATAGTTTTATTTTGATTAGAAAGCTAACTTATAAAAAAAAATTTAA CTATCCATATACTTCGAAATATTATCTAATACACTTATAGGATATACACT ATATAGCAGTGGTTCTCATCTCTGAAAATGTCAAAATCTCTCATGTTATT GACTTTATGACTATTAAGTCACACAAATTTTCATCCAAAAAGAATCAGAA AAAGTCAATCATACCGAATATTATATATCTTTTACACATTCCCAGACTAT CATTCTCATATTGTTAGTCCAGAATTTATAAAAATGAATAGCAAATACAT AAAATATATTTCATAATATTGAAATACTACACAGTATTTTATTTGATACT GTATTATTAAGTCATATGTTATAGAAAGCGCAGCTTCAAATTTTTTTACT TATATAATGGCCAAAACTCTTTCGTATAAATATATTAGGTTAAGCAAGAA GTTCTGAGAGTTTTTTACTAGATGTCTGTAGTGAGCTATATCTCACGATT AATACATTGCATCAAAAAGACTTATAGATTGCCCATAGATTAGACGTACA CTTACAAAAAGTTCAACAGTTTTATGTTTTGTGAAGCCCGTTGTGTGTTA CAGTGTTCCAAAATGGAAGTAAAAAAAATAAAAAAAATTCGATACATTCT TCAGAATCAATACGATCAAGGTTTTTTTTTTTTTTTTGGACACATTATAT CATTCGGGCTCTATTTCTTCCCCTTCCTCCTAGTCAAGCTTCCACGTTCC ACATAGAGGGAATTTATGTACCATAGTTTTCTGAACCTACTATTATTATT CTTTAATTCTTGAAGAGAGGACATTTAAGTATAAAGTAATCAATATGGCG TTTGTTCATGAAAGACGGATGATACTGGTGAGGATTAGTGAAGTAGTTAT AGACTCTGAGTACTCCTTCTGGATCGACATCTTGGTAATGTCCTTGTTTA TTTCCTTCTCCCTTGGTCTATGTATCAGGATTGTGGAGTCAGCAGATAAA ATGCCCAACTTCGGCGTCAGTATTTTGGATGTCACCGACTCCTACTCCAA CACACATAATTATTTTTAAATAATATGTTTTATAGCAATATTTATTTTAC TATCAAGTCACTTGAGTCCTTAAATATAGATTTAATTTATAGCTATAGGT AGTTGGTTATATGTAGAAAATAATTGTGCTATGTGTAAAGAAAATATTTG GAGTATAAGATACTTAATTAAATGAACAAGAAATGAAATCTATCGATTGC TAATACATTCATAAGTTTTGGAAAATAATTTATGTATTCGTAACCGAGGA ACGACAATACATACAGAATTTCCGTGCAATGTTACTCTATTCTCTGATGA AATGGACTATTTACATGCCTAGTTAATGAACTAGCACGGCTAGTGGCTAT GATCGACCCAAAATAATAATTTAGGCTTTAGAAGTGTTTGGGAATTGTGA TCGTCTGGACTATAGAGCACTTTTGAAAATTGTGAAGTAAACTTATAAAT TAGTTAACATAATAAGTTCAAAAAATTCTTAGGACTTAATACCTATAATT TTTAACCAATACGAAAATAACTTTACGAATACTAAATAAATATAAGCCTT TGATTATAAATGAGTTTTGTTTACATAAATTATAATAATTTTTGTAGCCA GAGTCCACCAAAAATGGTACTTACTCCGACTCAGCAGCCCTGCTAGATAT AGACTAGATACGGCGTGGGATTTGTATTCATTTACTTCATCTCATAGCTG CTCGCAGTTCATCTTATGAAATTTAATAGCAGCTTAGAAGCTTTTCTTTT CAAAGCATAATTCAAATGGTCAAAACTACATTGTCATTTCGATTCTTTTT TTAGCATACCTGCACGCCATATTTTCTACAACTTTGTGTGTATACTTTAT GGTCATTGATACAAATATAAATTTTATGCTTTTTTTGCAAGTGTAAATAA AAAGCTCGTCGCTGATTAATTGTGCGTGGTAATTTTCCCTTAAACTATTT TGCATTAATATACATATAAACTGATCAGATTTGTATGTCACTATTGTTTA TTGTTGGTTGAAATTGATATTTCATTTGAATTCTTTAATTAAAAAATAGT TAGTATTCATGATTATAAATTGCATTAAATGTTTGTTTTCTATTGGAATA ATGATGGAATGATGCTCTTGCCTCATATTATTCTTATTCATTAATCTATG AGTCTATTCCATAGTGAATAATCATTTATATCAAATGATGATAAATAAGA AAGAATAGATTAGCAATTTTCTTATCGAATAGTTGCCATATTTATTTATT TTTCTTTTTACATTATAGTAATTTTATTATCTACTTTATTTCTAGTGGAA ATTCATTACACAGTGAAATTTTGTTGGTATACGCTTTGAAATTTTGGGCA TGATTCATTATTTGTCCAACAGAAAACAACCATTTAATTCCTTTTATTGT AGTACACATTACATATTTTGATTTAAAATTCCTAGGGAACTTTAATTTTA ATAAAAATCTAATTAATTTAAATGTTAAGCAAAATATACTTGAAAATCAT GGCTGTAAGGCAAAATAGTTTAAGGCAAAATATTTGTACACCAAATTACC TTGCAACTTTATCAATACGCTTGAATTTTCAAAATAGAGAATAATAATTT ATAAGAACACAAATTTTTTGAAGGTTACCAATATATACTTTCTTGATAAA TTTTAGGCTTGCCAAGATTTTGACATTTTTCACATCTCACACTATATGAA TTAATATTATTAAAAATATATTTAAAAAAAAATATCTACGTTTGCTAAGA TTCAAACTTTCTTGCGTTCGTTGAGAAGTTTTAATTATCTTTAACTGCAA ACTGCTTTTTAATCTTAATTTGGTGAATAGTTTGCATATTTTGGGTTCTT TAAGTGTTTACAAACGAAGCTATGAAGTCATTTGAAAACCTTAAACTCTG ATAAAACATACCAAAATATACTATACTTTCAGTCGCTTCAAAAAAAAATT AAAGTACACAAGAAAATTGGAAATATATTTTTGAGAACTTTATAGCAATT CATCGACAATTTGCCTGCTTCATACAACATATCTTTGCTGTTTCTTAGAT CTAGTTAGCCTCACACGAGTGGGAAGTAGTTTAGCTGCATGCTGTAAGAG AGGTTCTGCACACAATTGTACCGAAGTCACTGGACCAAATTATGAAGTTT ATACCATTAATTAATTACTTAGTTCAAAGAAGTTCTAATGGTTATTTTAT CGAGGATGAAAAGTTGGTTCAAGATCAGTTATTTGCTTTTCTATTTGATA TCATGATAGGTCGTCATCTTGGCTTCATCTGTTTTCTGGAAAAAATACTG TTATCACAGCATTCATTCAGTTCCTGACTGTTTTGACATAATGATGAAGA GTTTAAACGTTTATTGCTGCACATAAAAGTTGGACGAGTATTGAATTCTT TGATAGATACAGTTGTTGATTTTGTCCAAGACTCTAATACTGGGCTCTGT GATTAGATAAAAAATATCAAGGATGGCATTGCTTATTTAGGGTCTTCGGT GTTGTTGTTTTGCTTCTTTCCAAGCAAAGGAATAAACTTAGAATCACTTA ACGTGAGGATCTACGTCTCCTTTTAAGTCACCTTCAACTTAAATCGGGGA AAAAATATCCCTAAACCAAATACACCCATTCCATTAGCAGAGATTCAAAG AACCTATGGTTAATCTATTTTCCGAAGATATATATTTCTTCACGAAAAAT AAAGTGTATTATATTTTCTAAATATAAATTTTCTTAAATGTAAATTTGGA ATAATTTAAATGAATTATTTCTCTATTAAAAGTTATAATAGTTTTTTTGA AGTTATTAATGATTTTTAAAGTAATTAATCAAAATATATAAATGAGTGTT TAAAATTTTCCCTCTCTCAAAATCTTACTTTTATTAAATCAAGTTGGGAA TTAATATTTTAAAATTCTATGTTACATTGTTTCAATGTTTAACACGAGTA CTTCTCTCGATAGATTGGCATGTTTTCAAAATAAAAATTTATTTTCTTTT CATAGTAGTCGCATATATGATTGCTCGACAAACATTTATGACTAKCCGCC AAAATAACAAACCACGTCTTACCTACGCATATGTAGCTGTCATAGGTGCT CAAAGTTCTTTGTTAAATAACGGTGGAACACTGTATGACAGTTTTTCATA CATTCAGATATACAAATAAACTTTGATTTATTAATAAGATAAGTATGAGC GAACCAAAATTGAATACCTTTTTATAATTATATTTTATACATGTGAATTG ATAATCTAAAGTTCTAGATGGAGAAAAGATATTACATTTTTTAGACAGAA TAAGTTACCTCCCACTCCCCTTTTCATAGTGATTGCTAAACACATTCTTT GAAACCACGATAATGAATTTCAAAATTTGATAATAAGCCAGAGGCAATAT CCCACTAAAAAAATTAAATAAATCATAAAGTTCTAACGGCTCATTAACAG CTTTGAGAGCCTCTTTAGGAAGACAAGAAGTGGAGGACACAACTAGATTG CCACTGAAGACTTCTTGAGTGAATCTTGATGGTTGATTCAAATCTTACTT TTAAAAACAGTACGGGTTGCTTACACTAACAATATATTAAAAGTGATACT AATCGGGAGCATTTTAGGCATGTTAAACATNAAAAAATGAAAATCAACAA GGTAACCCTGGAAAATAAAAAAAATGTTTTGGAGGAGAGCAGCTTAGCTG TCATCATGTTTCAATAAATCAGCTATTAACTGCTGTGATAAGGGAGGGGG AGATGTCTAATACAAGATCACAGACAAGAATGACTCTAATATCGATCTTC AATTCTACCCTGAGTACAACAAAAAGGTCTTACACCTACAACTCTGCCAC ACATCTTCAGAGTTACTCTCCGTCTTGTAAAAGTCCACACAAATATTCAA TCACTTTTCGTAGGTATCAATGATATGTTGTATTTAGTAGTAACAAGGAA GTTTACTTCCCATGAATTATTATTATTATTATTTTTAACTATTTTACATA GTTTATTCAATTATGTAATCATACATAGTTTAATGTTGCATTAATAATAA AAATATTTTATATGGAAAATAGATAGATTTAAAATGATACCCATCAAAGT GCAAACTTTCTAAATATGTATGCACTAAATAAGAATATTTACGTAGTAAT GTAAGGAATTATAGTCCCTCGTTGTGGATAATGAAAATAATAAACTTCTC AAGTTTAATGAAGTTTTTAGTTAAATTAATTAAATTATAATGACAACAGC TTAGAAAAAGAAAATTGACCCTTCAATTTGCCAACAACAAAACAACGTGT TATCTAAAAAAAACACCCAATTTTTACCACGTTATATTAAGAATTAATAT AGAAGGTGGAGTTAAAATATGATACATAAATTTTTTACAATGATATTTCC GTCTCGGGGGAGGGGGATAAACACACCATGGAATAAATAAAAGTATGCAT TAGCCCCTCACTTTTGAAAGACAACCACAATGAAAAGTTGCCAAATTATA TTGCTATTAATATTATGACATCATATGACAAACGGAATTCCCCTCCCCCC TGCTTGAATTGGTTACGAAGACTACTTTGGTGATGAATGAGAAAACAGGA AGTTAACAATTTATAATTATATGTCATATAATCGTAAGAATTTCTGGCGT AGCTTTCAAGACGGATGATAACGTAAAACGAAAAATACGAATTACTTCGT TTGCTCATTCATCACTCTTTTACATAAGTAGTGCTCGTAGAAAAAGGGAA AGATTCGAAATAACCTTTCCATTTGATACGTAAATCTCACAGCTAACACA AAAGTACCCTATGTATTTTGTTGTCAGCTGTCGATTCTCACGTCTCGCCC GATACGTGACGGCTAATTCATAACTTATTCTTTTTGATAAATAACGAAGT ATTAAGTTATTCGATACTTAGGGAAAGGTGAGGGAAGTTGATACACGTTT TGGCTTTTKCGTCCACAAAAAGTTCACAACTATCTATTTTGGCTAATATT TTGCAAGGTAGCCAAAAGGGTTACCTAACAAAATGTAATTATGTATATAT ATATAATATTCTTTCTTATTTTTTCAATAATATAAAAGTTGGCAAATGTA TCATCTTACCTCAGGGTAGGGGTAAGTTGATACATGTCATGGTGCAAGTT GATACATGTAATTGAATGACTGATTAAGATAAGAAACAATTAAGAAAAAT CGACATATTGATGATATGAAAATTATCATGTCTATTCAAATTTATTCCAT AATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNGAATCATAGTTTAAATAATAGAGGATCCTTTTTATTCACATTTT GGTCTTTTGTTTTTGTGAGAATAGAGCACGATACTTTGCAACTTCTATTC TTGGATGGTCTTTGTTGGGCTATAGGTAGTTGGCATAATACTTTAGGAGA TACTTCATTTATTGTTGACAATTTGCCATTTTGTATTGAACTACAAGAAT TTTCTGAAGAGATGAATGGCAAAGATGATTTACTCTTGTTTGGCATTTCA CATTCAGTAATTTCAGAAGCTACGTAATCTTCGAAAATATCATAGTTTAA GGGGAATATACGGTACGGTACCACTCAGGAAGATATTTTTCATATGGACC CGAGGGAATATGTAGAATGGTGGTATTTGTTATCCTTGGGCATTGACTCA ACAACAAACTGTTACTAGTTCTCCTCTTTCAGCACTTTTAGTTGTACCAA CTTGCTTTTTACCAAGTATACTCAACACCTTATCTGGCACCTGGACAAAA AAAGCAGTTTCATCAATGTTGTACATTCGATCAGGGCTGAACTTATTTTC AATTATTATTTCACTGANCTCAACAACAAACTGTTACTAGTTCTCCTCTT TCTAGCACTTTTAGTTGTACCAACTTGCTTTTTACCAAGTATACTCAACA CCTTATCTGGCACCTGGCAAAAAAAGCAGTTTCATCAATGTTGTACATTC GATCAGGGCTGAACTTATTTTCAATTATTATTTCACTGAGTAATCCATAA TACCTCTGAACTACTGGCTTMTTMAAGGCCATTTMGCAAGCAWGGGYTGT ATCCTCTGGTTTTCCTTCKTAAAATTCTTGATCCATTCCTTCCCAGCAAT TTCTTTATTTTTCCAAGGATCTTTAGTGTTGTCTGCTTTAGTAAAATCAA ATGCTAACTTCCGATCCTTTACAGAAGAGAGTCCATGAAATCTATTATAC AAATCTTTTATATGTTTGGACTGTTCATCCATCCTCTTGCTGGTTGTTGA ATATTCTCAGCCATTCTAGTACCTTAGTAGTACTCTAGTATTCTTGGATT GAGATGCCATATATCTTCTCAATATCATTTTGTCAACTTTAAATGATTTT TCCGTGCTTCTAAGTGAGGATCCATTCTGGATGGCCGTAACTTCAACACT TTTGCGTCTTTTCCATGGTTAGTTTTTCTTTGGTAATTCCTCACCATCTT GATGAAANNNNNNNTATAAATTAGAGATTATTAAGTGTTTCAAGAATTAC TTTACCACTTACTATTTCCAAAGCATCCACTATTAGCTACAAACGCACAA ATATATGGACTCTGAAAGTAACTTATCTGTTGACATTGTAATTAATAAAC TTTGTTGTACTCTCAGTACTTCATTTGGTATAGGTATTTGAATGTGGGAA TGCTTTTCAAAATTTTCCGATCGACCAACTTGCATATATTCAAATGTTAT GTTACCTCACCTTCCCCTACTGTTCGTGCATGCCGAAGAGGAGCATATTA ATTGTTGATACATGTATCAACTTGTCCCTTACAAAGAGTATCAACTTGCC CCTTACAAAGTGTCTGAAATTGCCCAACCCTATGCCATTCAGCTAAAAAG TGATCAAAAAATAATGGAAAAAAAATATGCTCTAATTTATTTTTTCCAAT CATTAACTAATGTCTAATGAACAATTCCAACAGGTGAAAATTAATAACCA TTTAAGACACAGATATGAGCCAAAAACTGTAGTGACATCAAACATGTAAA TTTGACAAATATATAAACTTTGAAGAGATGTTGCGTAATACAATAAAGGT AAGAATGTGATATAAAGACATTAGTAAAGACTTTCTTCCGGTGCGTGTAA AAAAATATAAAACAATAATAAACATTGAACAATCTGCATTATTTCATCAC TCTAGATAGCGTTGACAATTGGTATAACAGTAAATAAGCGAAAAAACGTC GGAAATATAGATTTTGTATTTTTGTTTTTAATTATACATACCGGGAATGT ATATTTTTAAATACTAACAGGCATTACTTTGGACCTTTCCCTGTTTTGTT TATAGAGATATTTTCGTTTTTGAACATAAGAAAAAAAAAAAATTACACTC ATTTAGAATAAGCAGGCTGCCAACCGATAATATAATTATAATTTTACGAG GAGAGGGATAAAGTTTTTATTTACTGCTCTTGCTATATATAGCGTGTCCC AGCGAATTGTGAATGAAACTTTAAAATGGTTTTAATTGACTTACTTAATA ATTTTTTCCCGCTATATCAACTGATAGAACAATAAAAAAATCTTGTGAAC CAAATTTCTTCATCAGCCAAGAGTGTGTTGATAAATCGGAATAACATGTT GAATAAGTCCTGCAAGGCCATCAGGCCTAAAATAGACGTCATGAAGATTT AATTGTTTCAATAAAATAAAATATAAAAATAAAGTCTCATTGTCTTATTT ATTGTACTTTTTGAGAATCATGACAAAGTTGAGCATGGGATAATACTTTC CTGATTTGCAAGGACAAACTATCAAACTAAATTATTTGAAATTTTATTTA TAGATAAAATGATAAAAAGCAGATTATTTATTTTGACATGTAAAGAACAC AAAACGGTGTTAAAAATATCAAGAATATCGTTTTTATTTGACAAGTATAT AGGCTCTTTATGCTTTTATAACCCCAATATCATAATTTGGTCATCATGGA CATCGTGTACATCATAAATATTAGGCCTAGCCCACTTCTTATAATGCATC ATCTTAACCTTAACCAAATAATCTATACAGTTTATCCCATCCATGTTTCC ATCCAAATAAAGTCCTAAATACCAACAAAGTTCACCAGAAATGTCCCATG TTATTGCCATAATGTCATTTTAGGATTAGGTATTGGAGTCTTGCTGTTCT TTATTGACTTTTGATTCTTTTGCAGCTATAGAACCATAATTTTTCAGCTT ATCTATTATCTTATCCTAAGTCAAAAGTTCTGTTGCTTCACATATTTCAT CCAACATGGTGATGAGGTTATATATCACTGTGTATTCAGTCACTTTGTTC ACTTAATACAGTCTGGGTCTAGCCAGCAAATCTCTCGGATAGGTCACTCG CTGGTGCAAGATCTAAAAAATGGTCTCAAAAGCACTAATTACCTCCAAAG GTTTTACTTCTAGTCCTGAAGTTAATAGACCACCATTTTCACATATTCAA CAAGATTTCAGCGAAATCGTAAGGACTTTTCTTCTTTTTGATATCCCTTT GTCCATTCAGTCTTTCTATGATATAATGCCTTTATTATTGTCATGACACT CTGTTCAATTACTTTTGAGGTATAAAAGGTAAGCATGAGGTCATCTTTGA TCCTCTTTACTTAAAAAATCTAATCGATTTTTGAGAAGATTGTGATGGAC AAAAAAAAAAAAAAAAAAAAAAAAAGAGCTACGTATGTCTCAGAGTTCAT ATTATTAGTTAGCAGATGTTCCTGTTGCTTAACTGCCAATTTWTGCGTAT CATTTTCCTCTACGTCTACCAAGTATCCTCCCCCCCCCCCCCCTACATTA TTGACTCACCCCTTCTGATTCCCCTCTGTTATATTCTACATGCACTAAGA AGAAGATTGCTTAAGTGTGTGTCTACTGCTTTCCAAATATGTATATTGAA TATACTTTGGTAAATTTCCTAAAACTTGGCAAAAAAAAAAAAGGATGTGG AAGCTATAAAATGATAGTTCTTGCCATATTTATTAACTAAAATCGAATTT AAACATTCCTAATTGTTTCTTAAAACATTATACGTTTAAAAATCCACCTG ATAAAGTTTTTAGATTACACAGTTACTCATTATAGAAGCTGAGATGTAGA TTGTACTATCACGAGTAAAAAAAGTGACACGGTCGTTTAAAATATGCTTG CTCACCTTGGTTATGAGACCAATTCAATTTTTTTGTCATAATATGTTTAG ATAAGGTATTTGGAAGCAAAAAAATCCAGCCTTAAATTAAAGTTTGTCTC GTACAGCCCACATCTAATATAAACATTTTTTTTTTTCTTCTAATTCTACT CATAAATGAGTTTATCCATGAGAAAATAATTGTATTGGTCTATTGGCAAA ATGATTTAAATATTGAAAAAACATTTTTTTTTTTTCAAAAAATTTAATAA TAAAAAAAATTAATATTATTTATACGATTTAAAAAATATATTATTTATTA CTTGTGTATCAATAAATATTTTGCAAAAAACCAATTATTGTGTGTACATT AGAATCATTACTATTTTTGCTTATTACTCATAATTGATTTCCATTTTAGT CGATGGATAGTTATTACATAAAATGATACAAATTAAGTTTATCTGATTGA ATTTTGTTAAAAGATTATGCATTAACTATTATTAAAATATCTTCAGTGGG GGTGGGGGTAGAGGACTGACTGTCTTAATCAAGAAAAAGTTACTCTTTTT TAAGTAAAAATATGTAATGGTAAAACAGGGTTAAAAAATTGATATGTAAT GCATGAACAAAGTTATTTATAAGTTTTAAAGGTAATCTTTTACACTATAG TTAATAACACAAAATGATATTTAAGAAAAAGTAAAAGTTATTATGAGGGT TGCTTATAGAAATATTTTAATGGGTGCCGAGAACCTTTTAAATTAAAAGT TCATAAAAAACGTCTTTAAGCAAAATTATTAAAACTTTAGGCAAAATATA AAAAAAGTCAAAATAAATTTTTTCTAAACTAAACTGCTACGAAAAAAGGA ATATCTGGTACCCCTGTTAGAGTCTAAGAAAATACGAGATCAACTCAAAT ATTTTTCATTGTTTGTATGTATTATGCACGTTCAACACGTTTTGATGGCA TTGTGCAATTTTTACTACAAAATACTACATGAAGATCATGGACAATATTA TCTAAAAATTAGGTGATTCATAATGTGGCCCTCGGGCCACGTGTTGTATA TCCCTGTTCTAAAATATATTTTTGACTTTATTTTTCAATATAAATATTGT TATTAGCTGTCCGATTACATCCAATAAATGACCGGGAAAACGTGATGTAT TTTTTCGGAATTTTCACCTAAGCTTCTACGATGTCATTGCAGAAATATAA CAAATTTTGATTGGAACTACCCTTATTCCTTGACTCTATATAAGAGATCT TGACTCGAAGGAGACCATATCGATTTCAACCAAAAATAGAACACTTTCTT AAGTCATTCCTGAGATTGTCTACCTGTATGAATGGGAATTCCATCTTGCC CAGGGATTTTTTTTAAATGCATTATTTATTATTTTTCAGTGAGGTATTCT TAGTTTTTATTTCTGAGTTTAAAATTTATATTTTTAACGCATAAAGAATA AATATATATAAGAAATACATTAGTCATACAATATGCGATGGTTCACTTAT TCTATTCAATTAACTTATTACACTAGTTGATAAGATGCTTGAAAAGCAAT CCCACATCTATTTTTATCAGGCTCTAGCAAGTAAAAAGTAGCCTTTTTTA TCCATTTCTAATTCCAAGAGTTCTTGACAATATAATACTTTTCCCGATTG ACGTCTTTTCCGTAGGCAACAGCTAGAACGCCGTGATCGAGTTCCGTTGA CCTACATTCAGTTCGTTATGAATCCCATTTAAATAGAATTGTAGACTTTG ATGAGAAACATCATTAGCAACAGAGATGGGTCCAATAGTGTCTATTTCTT TTACGAGGTCTGATTCAGAACCACTTTTAACATTCACGTATCCGTGGTGC TGAGGAATCTTATTTAAACAAAGAAAGGACTAGACGTTAAATTTTTGATC CATATACCATTTTTTTCTCATCACTTTGAACAATGCAGACCTCAGCCTAC AAATTTAATAAACCATTTTTTTGGACCTTTCTTTCTTTTGGTTTGTATAA CCTCTGTGTGTTACTGACAATAAAGTAGCATAAAAGGTTTCGTCTTAAAG TCATTCCAGATTTATGATGCCCATTTTGACAAGGATCTTTTACAGTACCG ATGAATTTTTAGTTAAACCTTTTTTGTTGCACTGATTAAGTATAAGTAAA CATCATTGTATTACATTTACTCCATCTGACCTAGGAATCTTCTTTGATGT CCATATGCCTAAAATATTTTTTCTGCTCTAGGAACGAGCGGTACGCGAAC TTACAAACATTGAGTTCAAGAGAATAATTTCTCCCGAGCGTGTTGTCCAT TGATCTGCATAGTTCCTGTCCTTTTCGATTTTCATCCAGGTCCTTGCTGA CCTTGTACAGCAACTTCTTGGATTGTCATCACATTTAATAGTATTACGTA ACTTGCATATTCAAGACACCTAGGGTTCGACAAATTTACGACGGCATCTT TCCTTCAACCATCTGACTTGATACATACATTAAACCATCATATAACCATC ATAGATACATGATGAATGAATGTAAAAAAAATTGTTCAACCTTTATTTTA TATATTTTGTTAGGATCGAGTCTTGAATTTGAACTAATCACATGGCAGAT CGACAGATTCAGAGCTAAATAATTTCACACCGAAAATGAAACCTTTAAAT AATATCAACAACCCTGTATTCAAAGGTTTCATGGATATAAAATATTATTT CTATGTGTTAGATCAATTTTACTCTATAGGGTGGGTTAAAAATCTTTTAG GTTGGTCGTAGATAATTAATCCAAAATGTTAAAATAATATCTTATATTCC CTTCCAACTTATTCTGAATATTTCAAAGATTAGTACAAATATCACCATTA ATTTGGATACTTGAAGGATCTAAGGATTTTTATTTTATTTTTTATATGTG TGATTCCTATTTTTTTATTAAAATTAGTATAATTTCATTTGTATAACGAA AATAATATAAATATATACAAATCACATAAATTTGAAGTCCTTTTATGTAT TACATTTTTGGCTTTAATTACGTGAAAAGTCAAAAGTTAATCAAAATCAA CATAAATCCCATAGATAAATAAAACGATGTTTTATAAAATTCATTACCCT TATGTTGGTATCGACAAGCCMCGCTAGCCAGTGGGTTGTAAAAATCATCC AGGCTAATGCTAGGTTGATTGTATATAGTACCTTCGTCTGCACCTTAAAC CATTAGTGCCGATAAGCTGTTTAAACACCTCAATATTCAAACTAGTTTAA GTATTAAATATTTCAATCTATATTTTTTTGCTAACACGCCTCATGATGAT TTAAATATTATGGTAATAGTATCAAGCTCGACATTTGAAGCTTTATTATT GGTAGATGGGATTTAAATAAAAACTGAATGCGTAAAAAATATTTTTATTT TTTTCCATTATTTCATATTAAATATAAGTATATTTCAAATATTCAGCATA ATGTTACACAAGAAGTTGAGTTAGAAAAGGACCAGCAATACCCAGTTGAA GAACCAATAGTGCGACCTGAAGAGACCTTTAGATAATTCAAATTACTATT TTGATGAATATGAGGCAAACAATGCAGCTTACATACCTCTAAATGATGAA ACTTATAGCTTGCCTTCTATTGAAATTTTTTATCCTTTGATTGGTTAAAT GGAGTTACACAGATTAAGTATAAGTAAATGTTACAGAATTACATTTACTT TATTTATTTGTAGGAATCTTGTGTGAAGTCCATAGATACCTATAAAGTAT ATTTCTTTCTCAAGGATTGACCTAGGCGCAAACATACGCACATTGAGTTC AAGATAATAATTTCTCCCAAGAGCGTTGTCCATGAGCTACCTCAAGTCCA TTAATAACTGTTGTATTAGAAGTTCAATGTTTACTTGTACTTTAAACTAA GTCTAAATTGTGTTTCACAGAAAATATATTACCTTTTTTTTGTACTCTCA AAAGTTAGCTTATTTTAAAAACAAAATTACCAATATACTAGCCTAAATAC GATCCAATATTTGTAGTATTATGGGGTAGTCAATTTTCCACATGGTTTAA AAAAAAAAAAAAATAGACTAGCCATGTTGGCTAGKGGATTWTTTTAACGM CCGYCGAMCCCTGCCATAGKGTAAATAGGTCAAAAAATAAAAATAAATCA ACATTTACAGTGTTTCTTACATTTTTATTTTTGACGAATTATCTTCGATT TCTATCAACAAATACTTCTAATTAAATCTATGGAGCAAGGCTGCAAATTA CATTTATTTAGCCAAATGGATTGCCACAATAAAATAATAAGAAACTAATT GATATTATTTGAAAAGCCATATCGGATAATATAAATCTCTTAAATCAAAT TAAGGTTTTAAACTATGGTATTAATTGATAAATCGATACTCAATGTTGTC AATTTTCAAAAACACACTCAAATCAAATCACTCAAACAATTGTTAATTAA CAACTGCACGTCAAAAATGGCTGAAAATTTTGGGAGCAAATGTCTACCGA TGTAAGATAGATGTGGTTAACTTTTAGTTATGAGTGCTTCCATCTTCACG TTTATAACCACCCTCGTAAATATAAAATAAAAAAATATATTGGGATTATT TTTATTTCTTGTTTTTTGTTAGATATTGTTTCTATGTTGATGCACCACAT AAGTTGATCACATCCATTTGCACTTTTTCTTCTTTTTTCCACTTCATGCT GAGTATACTCATTTCCTATTATTATCAAGATCCAAGAAAGCTTTAATGAT CTATGAATACACATACTCCATAGAGAAAAATGACCCTCAAACTAACAAAC AAAGAAATAAACGTATCGGATTGAGGGGGAACAAACATAATCAATAATTG AGCTCAACTCTTAGCAACTAAAAATAATTAAAAATTAAATTAGGATATTC CTGTAAGCCTTCATTTATAAAATCCATCATTCAATAATAACTCCCTTTGA ACAAAATATAGTATTATTACATTATGCCATATTTGAAAGAAAAAAAAAGA AGTTATATAATTATCGTTTCTTCTGCGACTTGGAAGAATTTTTTTTTTTG TTAAATTTATGTGAAGGAAAGATAGAATAGTCGGGATTTTGTGTAAAACA AAGGGGAATCTTGATAATGTCATATTTTGAATAAATTAGCCCATTAGTAA TGATGCAAAAAATAGGTCTTCTCGGTATAATTTTTAAGGACCTATTTGAG AAAGGTAGAGTCCTATTAAGGAAAATGATTCCTAAAGACATTCATTAGAG TCAATACTTTTTTTCATTTCCTAAATATAATCATAAAAGACCGAGATTCA ATGTTCAATAAAAAAATAAACCAAAAATTAACGTGGTTACCATGACAATT TCAAAAATGTTTGGAAGGAGAGCAGCTAAGCTGTCGTGGCATCTATTTAG ATCAGCTGCAATCAGTCTTGAGAGGAAGGCAATAATAACATATACACAGG AATATCATCAATATCAATCCATAATTACACTTTGAACCCAACAACAAGGA TTTAAACTTTTAACTCCCGAGCAAAGCCTTATGGTTACTCTTCGTCTTTC TTGAGCAATCTCGTTGGTAATTACTTATAATGAGATATTCTGTCTTCAAG AATAAAAATATAATGATAGCATCTTTAGAACATAAGAAAGCCCTTTAAGA TTGGTAACTAAAGAAGTCACTAACACTTTTAAGGACTTTTTTTTTACACC TCTGCCCTTGAGAGTCGATGAAGTTGTTTAAATATCACAAATTTTTAAAA CAGTTTCAATATTAAATATACTCATTAAATACTTTTTTATATTATTTAAC TACATTCTGCATAAGAAGTGTCATTTGTCAAGAAATATGAGAACAACTTT TTTATTTAAAAAAAAAAAAATCATTTGATTATAAAGATGATATCAATTTA ATTCTTATTTAGACAAAAATTTAGAAACGCGTTTAATTTGTTTCCTAACA ATTTATTCGTATATTAAGCAATTTTTAATTTAGTTTTAGTGAATTAAATT AAGTTTTTTGAATTTTAATTTCTTGGAATTATCTTCTTTTTTTTTTTTCA AGTATGAACAGAGTAGTACAAGCTATTTTTATAATTAGTACACGCAACCT CTCTGAAACTAATGAGTACTAATTTGATTAACATACAGAATTGGGCACCA AAACGTGTAAAATCCCATGTCGCGCTTCRTGAGCCTCCTGATGGTCCTAG TAGCCGCGGAGAAGTAGTTGGCGAGACGATTCATCGATTTGTTGTGGCTT TCCTTGATTTTCTTCTCTAAACCCTAAAATAACTCTGGATCCCCCATTAT ATTGTGCCCTCTAATTCCTGCTTTCCTGGAGATGTATTCTTATCTACCAT GAAAACCAGGCTCCTGGAGCACTTCACAATGTCCATAATCTTCGACACTT AAACTTCAGTCTTTGGCTAATCTGAAATGCGCTGCCTTTTCTCTAAGTTA TGGTGTAAAAATATTTGTAATACTACAAAAGATGGCAGAACCAGAATGTC AAAAAATTATTGCGAAGCCTTCCTACATGGAAGATAAAATATTCATTAAT TCATAATCCATTTGATTTTTTTTTATATAAAAAAAAGTTGTTAAAATTAT TTTAAAATGAGGATTTGATTTTTTTTTTTGGATGTATTATTTAATTCAAG TATTTTTAGGATTTTAATTCATATTTACAAGAGCAAAATGGATTGAATAG TTACACAAAATTTAAATGATGTAATTATTAATGTCGTTCAACTGTTTATC ATGTTAATAAATAGTTTTTATTTTTGGAGTACTTTTTTCACTAACTGTGT TATGAAAAACATGTTTGTTTACTTACAGATGATTAAGCAACAATTATCTA ATTCCAGTATTACTTGAGGCGCTGATTAAGACTCTTAATTAGTTTTTTTT TTTTTTTTTCGTATCAAATTTGGTTTTCCAAATATTTTTTTATTTCCATT GGTTCCAGCGCTCCTAATGATGAAGGAAAACGTGGGAAAACAATTTATAA TTTTATGGGAGGTAATTATAAATATTTATTGTTGAGTTTTATAGACAAAA GATCACTTGAAAAGATTAAAAGAATAAATAAATTCGAATACTAGTATATC TAAACTATAACTGCATTCGGTCTGACAATAAGGTATTCAATATTTCAAAT TATTTCCATTAAAAGATTTCATCAAAGAAAAGTAGTAATATTGTGATTCT TGTACCAATACCCCTCAGAAAGTTGTATAACGTCATCATAAGTTTTAATT TTGTATTACGATACTTTTAATTATCGAACATTCTGCAAGTTAATCTGTTA TATGCCGGGTGGTCCATTGAAATATGAACACTTACTAATTCAATAATTAT TGCAGACTGAGGGATTGAATTTAGCTCATATTGCGATAAATTAAAACATC AGAATTTATTTGCGAAATAAAACAAACAAGTTACAAAATAACACTTGAAT ATAATCGACGAATTTCCATTCGCACACTCCAAGCAGTTGGACGTATCCAG GACCACCGTCTAGCCCTAAGCAAGTCTGAAAAGTTGGAGAGGAAGAAGGA ATCTGTCAAAAAAGCACAAGCTCGATCTGAATGAGTATAAGAAAACAGCC AAGGGCAATCCCCTCAAGTCATTGAGGGCCAATGCAAGAGATCTTGAAGT GTCACATCCAGCTGTACAGAGAGCTATAAAAAAGTTAGTGGAAAGACCCT AAAGTGAGAATAGAAGCTAATTTTTACATCAGCATTTTCATAATTGCAAA ACTCTTTAAAATGAGTCTTTTGAGTTCTTTGAACTCTTTTTTGACACCCC CCTTCAGCCCTGATGCCAATACTTTTGACTACACCTTTTGGGTAAGGGGA AAGGGAAAGGCATGCAGTGTCCGTCATCCAAACACAGAGCTCATCAAAGC CATTGTCAGCCAGCACTGGTGTGCCATAACAGAGGACTACATTCGCAGTG GGTTCCTGTCCTTCTGCGGCTACCTGGAAGCTATAATTATAGTTAAGGGC GGCTACATTAATGCACTAGCACTAAGTACTTTTCCCTTAAAATATTTAGC CTTAGGACTTTTTGCCTTATAAAGCCATTTTGATTTAAGTATATGTCACC TAAATACATACATAAATAAATAAAGATCATACGTCGTTAGTGTATATTTT TTGTTAAAAATGATGTTTCCTTTGAATTTTTTAATCAAAATATGTAAATA TTATTTCTATCAAAAGCATCGAATCGTTGTTTTCTGCTAGAAAAATGATG GAATTATTCCACAAAATTTCAATGCATATATTCTACCAAAATCTCATTTT GTTATTAGTTTGAACTAGAGGCAGAAGACTTAGTTACTTTTAGTTTATCT GCTTTCTAAAATTATTTAACGTAGACAGATTATTTGACAATTATTCGGGG TACACAGTATACCTCCAAAGTGCTAATTATCCGAATATTTCAATAAAGTC AAAATATCTCTCCTCCTAATCCTATAATATATTCTTCAAGCGAAGTTATT TCCTTATTATTTAAATGTTTCTATAATTGAAGTTCGACTTTCATCTGTCA CTGTCTCCAATTTAGTGATAGAAAGAGAGAGTATGATGTGTAGGCAAATT TAAACAATATACACATTATTCTTTCACCAAACCTTGAAAACTTTCGACTC TCAAATTTTTTGGATAATTAAACATTTCTAATCATGATATCAAATCATAT CATATTTTGAATTAAATACACGAGTCAACAGCATGCATACAAATAATACA TCAAGTAATATATTTTTATTAGTGTTTGACACGCAGATCAATAATCTCTA ATTAGTTTATTAGTATCAAACTTAGTTTTTGATAATATTCTATTAAAAAA TTAGTATAGGCGATTTGTTGATGAGTGAGAAGGTGTAAACAAGTAGTTTA TAACTCAATGTGATGTTGTTATAAATATTTTTTGCTGTGTCTTCAATACA GATGTTGACTCACAAAAACGAGGTGGAGACTTGGACTCCAAGCTGTGCGA CTAAACTAGGACATCAGTCCATATTTTGAAGACTTACAACTCGACTGCAC ATTGGAAGGTCAAGAGCTTTTTCAACTTTTCCAATACGCTGGTTTTAAGC ATTAAATATCATCACAAGCAATTTTTACTTATGTGCACACGTTACATGAA TTAAGAGTTGATGAGTAAGGATGTGGAAGTTGTCTAAATCCTTGTGAATA TAAATGAAATAGTAAAATTATATGTTGGGAACTTTGATAGACGACATATC TGCTAAAAATTATCATTACTAAAACTTTGTGCTCCTTGTTTGCTAATTTA TTTGAATTTTTAAAATAGAGAAATAGAGCTTCAAAAAGAATAGGAATAAT CTTATTGTTTTTTTTTAATGTTAAAAATTAGATATTGATTTGTACTTAAT ACATTAATTTTTTTGTTACAGTTTTATTTTCTAATTATGATTATTTAATC ATGTCTAAATTTCGTACGTATATATACATATATAAATACGTTTTGAAATG CACCCCAGAAATACCTTATTTTCTCTACATAGTTCTTCAAACGTTTTAAT TTTTGAAATTTATCTAAAGCAACCTAAACATCAATTTAATTAACATCGAT GTTGAAATTAATTATACTTAATAATTATAAAATTAAAAATTTGAATCTTC AATAGATTATTTTGGTTTTGGAGAATGATCCTCTAGATGTGTCCGCAAGT GTTAATGTAATTCCATTCGAAGATCCTTATGAGCAAACATATGAAAATAG GAATAACGAAGAAGCTAGTAAAAAAGATAACAATTTTCTTCAAAAAGGTT TGTTGAACTCCAGAACCGAGCTATGTATTCATCATCAAGATGATTTAGAC GAAAAAGGAGATCCAATTTCGATGAAACTCAACCCATATTAGTAAAAATA GACAAATAGAACGAGAACTCCATCTTTCAACTGATAGTCGAAAGCTAAAA CGAATTAAAAAGTTATGTGAAGACAGTCCCCGTCCAAAGTAAAATTCCAC CATATAAAAATTCAAAATTTAATAAAAATAAAAATTCAATTTGATACCGA TTATACTACAACTACCTACGACTTCTTAAAATTATTGCTGTGTAGAAAAA AATATAATTGGAGACGAAAGGATATGCCTGCCGCTCAAACAATCCAACTT TTAGTAACAAGGTGAATATATTTGTGTGGATGATCGATGGCCAAGTACAT TTTGACCATTCCATMCCATTTCCACCGTATTAAAAAATACGCCAAATCAA AGCCACCACTATTTGGGTCTAAAATTTAGGTTTTAACTTCATCTTCCGGC GAGCTTCTTCATGGCATTCCTTAKGAAGGAGCMAAGACATAATAAAATGG TTATGAATTGGGACAAAAGAGGAATGTTGTTTATCGAATTATTGAAAAAG AACAAATATCCAAAGGTTGTAACCTTTTTATTATTTTTGACCTCATGGAC AACTTTCGAGGAAAAAGAATCCATGAAAATGAAAACAGAAGAAATGAAGT GCTCTTTTAACGATAATGATAAAGTAATCATTGTTTGAAATGATGCGGGG ACCGATTTATATTGCAAACAATTTTATTCAAAAAGATCCAATTGGAAAGT GCAATCACTATTCCAGAGATCCCAAGAAAAAATCTTGAAGTAAATCAACT TCATTTCTGCAAAATTTACAACAGCACTATGGATATACCTATAAGATTAT ATGTTTTCTAACTATGCAATAAGTTTACGATGAAAAAAAATAGTATTGGT TTGAAATGTGCAAATGGCTTCTTTTTAGAAATAGTAGTGTGATTTTAAAT TCAAAGGAGAAACACAATATTTTAAAATTGATTTCACACGAGTATGTACA AAATCCTAGGTAACTAATCGTGGTGAAAATATCCATGGCAATATTTTGCT AAACTGAAAGCATAAAACAAATATTTGGTTGTACTTTACGACAATGTAAG GCATCTTAATTGTCAAAACAAATAAACGAAATCTTTGTGCATCTTGTTTG TCAAGATGCATACATAGATGCAAAAAATGTGACGTAGGTTTGTGTGCTAA TTGTTTTGAAAAATTCTATATTCAACACTTGTAAATAATTCATATCCGAA AATACTTTTTTATTATATTTATTTTAATAAAGTTGACTTGGAGAAAAATA ATACGAAAAATAGTCATCACCCAATTTATTATCATACCATCTTTTGAATG TATATTTATAAATATTTTTGTAGGAGATCTTCCCATGCGTACATAATATG TTCGTTCCCACCAACGGACAAGTGGCACGTCTAATAAACAAAAATGATTC TTACCTAATTCATTAAAACCTGCAATAATAATAATTTTCATTGACTTTGG TTATTAGTCCTTTAAAGGTGATCACTTTTTAGGGGAGAGTTCTTTCGAAC CCTTTTTTTCAATTCAATGAAAAAACTTAGAATGCTGAGGATCTACATAC ATCTTCTTTTTTGTAAGTTTAAACCTTATAAGATTATATTGTTTCTGTTC CTACACCAATATGTTCATTTGGGTAGAAAAACTAATGTGTTTTGGGGGTG CTAGAAGTTTATATTAAAGCCAAGGGGCGGTACAGCCGGAAAAAATTTGG GACACCCTGGAATAAAGTAATAACTAGTGTTTGAGCTCATAAAAACGCTG AGTAACACAGATGATTTGTACAGGACAACTTCTTGGATTTAGACTAGAAT TGAGGATCAGCATCGGAGTACTCCTACATAGGTATATAACACTATTCATC ATTGCTATTGAAAGAGTAGTATATGTGTTTATTCCTTTTCTCCCATAGGA GCTTGTAGCTAATCTAATTAAACTTAATGACAGCCAAACTTCTCTCCTCC AAATTATTTTTCAAATTGTCAAGTTGAGTATTTTTTTTTTTTTTTTGGAT CATTCTCAAAATACTATCAATTACCATCACTCTATGTAGTTCTGGTCTTT GTGTAAGGCGTATCCATCTACAACAGATTTTTGCTATACTGGATAAATAT TTTTTATCCCTTGCTATTTTTTCCCTATAAAAGTCATCATATAAAGCAGA TTAAAAATGGAATGCATCAGTTTGCTTGCTACATACTAAATTAATAAAGA CATGTTATACTTGTTCCAAGACAGTAGCATATTTAGTGATGAAAATCGGT TATATTTTTTAGCTCTACCTTTTTTTTAAATTGATCGTCTAAGCTCCTGT CATTATTAGTCAACCCTAGAGTTGTGAACTTGATTTTCTGCTACATTCAA AACCTAATTGAACATTTTGTATGTGCTCATAAAAGATGGAGAGTAATCCT GAGGACTTCATGGGGGAGTTGTTATTCTAAATATCGGATCTAGACAGAGT AGAATGGAGGATCGATGTCGGAGTAATTCTTGTCATTGTTTTGTTTTGTT TCCTTCTCCCCTTCCTCCCTCGTCACCGTTGCTTGTAGCTCATCTAATAA AATACCATTCCAGATAAGGTACTCTTTTCGAAATCATTTTTAAAATTGTC AAGGTTACCATGTTGATTTTCGGTTTCATTTATTTCAACATGCTCAAAAT ACTACTGATAAGCATTACAGTATATATTTATGCCCTTTGTTTAAGACGGA TCCATCTACAACAGATTTTCGCTAAAGTTTATTTTTGATCTCTCCCGTTC TTTTGAATTCGATAGTCTGAAGAGTGAATACTCATGCTGCTGTCATTATT ATTTATCCTTTTCTACTACATTCAATTGTATTCAAAACCAGTTGAACATT CAGCTGTGCTTCACAAAAGAGGTAGAGTAACCTTGAGGATGTATTGCGGA GTTATTGTTGTAAATCCTGGTTGGATTCAGTGTAGAATTGGGGATCGMCC TTAGAGTTATTCTAACCAACCCCGAGCCAATGTATATATCTAGTTGGATA TACCGACGGATCAAGAATAAATGGTTAAGCAGGTGCTAGATGGGCACAAC ATGACACATTCATTGGGGAATGCTCATTAAGACTTAATGATACAAACCCA AAAGTTGAAGCTATTAGAAATATAGGAAGTAATCTGTCATTTGACAAAAG GAATGACAAGGGGACTTTAATATTAGCTGATATGTTAAGAAAATAAATTT CTTGTTGTAAAAATGTCCTCAAGAATTCCAAGAGCAAAATCACAGTTGAA TGGATTAAGAGTCATAAGAATGGCATAGGGAAAGAGTTTGCTAATGATTT GGCTCCTGAGGGTACAAAAGGGGGTACACCAGTGTCTGTGTCTTTGAATG AGTGGCGAACTATCATGCAATAGTTGGATAGTTGCCCCCCAATCTAAGCA GTTAATAGTSGAGCCGTACATTAGAACAAACGTTTACAAATACTAGAGGC ATCAAATGTCAAGTCTAATGGCTATGGTTAGTGGCCACATACACCTAAAA TCATCTTTTTGAAATGGGTAAAAACCTGAGCCCAATCTGTCGCCTCTGTG AAGAAGATGAGGAAACGCTATTTCAGCTCATCCTAAGATGATCTCCTCCA AAACATCTTCAAGTGTCAGAGTGACAATATTGATTTTCATTTTGTTTTTT TGTAACATACCCAAATACACACGATTAGCATCACTACCATTGAGTGCGAG CAAACTACTAACTAATAAAACAAAGGCATTGTATTGAAGAATAAGAAGTA TTCTTCACATACTGAATACAAATATATATATCAACTATCTTTAAGTATGT ATGTATAATGAAGCGAGTAACATTTTGAACGAGAAAAATATATTCTGAGG GACGTTCACAAAAAGAGCTGGGGNNNNNNNNNGGGGGGGGGGAGTAAAAA AAAGTTGGAGAAGGAATGGTGTAGAAATTTACTTTTTTAAACATTTGCTT TATATTACATTTTCTATTTTAGTTCGCTTCTGTGTGCCAGAGAGAACGAA AGCAGAGAAGCAAGAGAGAGAGATTAAGAAAGTAAAAGGAATCTTATCAT ACTTATTACTACCATTTTACAAAAAAAAAAAAAGAAAAGGATTTCGTCAA GGTAGGTACACCTAAAATTTTTAGACAAATTACTAAAGCCATCAAAATAC CAACTGGGTATTTGGACACACTTTTTAAGTTGGATATACTTATCCTTAGG GTTCATTCATAGACTACATGGTTTTTTGGTTTTTTTTCATATAATCTGTA CCCTCACCCCTGCCAAATGTGAACTTACTTTAGAAAAAAAAACACAAAAA TATAAATTTTTGCTAGAATTTATTTTCTTTACCATACAACGTAACCATGT GTTTTACTTTGTCCCATGGATCAATTTGGTTTTTTTTTAAATAATACAAT CCCCTAGAAAGCCCTTTTTGTGGACTTTTTGAGATAATTTCATCATATAT ATTTCCCAAAAAAAGGCCATTCTTTTTTTCAGCAAGTCGATTTATTTTTT TTTTTTTTTTCTAATTTTAGTCTCCTATTAACAATCACGTTATTTATGCC TCCTTGCCATATTAATCAGATCCAAATGTTATTATGCCTTACGGTCCTCC TCCATAAATAACCATGTAGTTTGTGAATACMCCCTTATTGACCCTAGCCA GTCATGTTTTTGTGACGGTGTTTGTATTAGGATATTTCTTTCAGGATCCC TTTTGTGGGATTTATTGCAATTTTATAACTACAAAAAGTATTTCATTTAA TTATTTTGGTTATGCACGAGCTATGTGTTTAAAAATCAGTCAACGACAAC TTCTAACGAAAATTAGATCGTTCATCCATTAAGTCCCCCTTTAGCATAAT TAACAAAGGAAATTCTGTGATAGGTATGAAAAAGTTGCAATAGTCAAGGG GAAAATGGCAGGGKGGCGKCTGTTGTATGATAGAAAGTGACATCTCGTTT TCTCGTAATATCCTGGAAAATCTAGCATTTATTTATTTCATAATATCTAC TTCATTTATTTTGTAAACAATTTATAAAATTAAACGTTAAATACATATTC AGATATGGTGATAGCGTAGTAGACTTTTAGCCTTTAAATTTAGCTTAAGT ACTTTTTTTTTAGGTTTTAATTAATTTACAGAATACAAAACGACGACCCA TACACTAACAGTGATAATGATTAAAAAAAAAGAACATAATAAGACTAGCT TAAAATGGATAATTTCTTCTCAAAATATAAAAAAATAAATCCTATAATCT CACAATATTTCCTGGGATACCGTAATTTAAAAATTGGTTTCCCAGGATCC CGCTCATAGGCAATCTCTAAATGAAATAAAAAATCCCTATTTGTACCTCT TGATATTATATGGCATATAGGTTTTTTATTTCTTCGTTTTAGTGATGTCA CGGTATAAATATTTTAGTGAAGGGTTCCGTGACCTAAATAGTTATAAATA TTTTAGTGAAGGGTTCCGTGACCTAAATAGTTATAAATATTTTTTTGGTT CAAAATATTAAACGAAAATTCCGGTAAGAGTAATCTACATCCATTGACAA CGACGTCAACAGGTTTTTTGTTTGGGTTGTAGTTGAATGAGGGACTTTTT TATAAGGACTTTATTTTGAGTGAGGGAAACTTCAGAATTTGGAGGGTTTA CTTTCGCGTTGTGTTAGTTTATAACCCTTCTATGAGTAAATACTAGATCC AATATTAGTATAGTATGATACCGCTTTAACCGTGTCAGTACTCTGGTTCC ATTGCAGTACCGATATACCAAATAGCCCTACCTAAGAATAATATTATATT TTTACAAACACAAGTTTAAATCCCTAAATTAATTAAAGTCATATTTAAAC AGAATAGAGGCTAACAATTTCAAACTTTTATTCCAATTAGCTTTAAAACC TTTTTAGAGTGTTACCTCTTCAATAAGTAACTATTAGTAAATAACAAGAC ACAAAACAAAGGCAATTCATTTGTTCTTTCAAAAGGAATCCGTTAATACA TAAATATGTATGTAATCGACTTTAGTATAAATTAGGGGTATTAGGCGTCG AAGAGCAGATACACTTTACTGTGATAATATAGAAAATACTTCCCCAACAA ATCCTGGGTTGACTGTCCGTTTTTCATGAGCACACTTACAAGTAGCTCCT CACTCAATACTTCAATATTCTCTCCTCAAGAATACGAGGGTCGTTTGAAA AGTCCGTGCCAAGTCCAAGAAATGGGACTACTGGGGCGTATCGAGATTAT GTTTATTTAGTAGCATATCTTGGAAGAATTCTGATAAACAACAGTATGAG AACTCTTCACCTTCGATTAAAACAGTTTATAAGTGGTTTCAAAATTTTCG GAATAGCCATATGGGCACAATTGATGTTCGGGATACCCTTTTGTGGTTAM TACAACAGAAATAATCGATAAAAWCCATGATATGGTGATGGATGGCAGAA GAGTGAAGGTGTGTGAGATTGGTAATGCCGTGGGAATCTCGATTTGGAGC CCTATTTCCATTGGTGCATTGTCATGAAGGAAAATTTATTTTTTTGTAAG CCTATCGTGGGCGTTTTTCTTGCAGCTCGGTTTTCAAACGGTCCATTAAC GATGAATAATATGCCCCTGTAATAGTTTTACCCTTTTCCAGATAGTTCAT GAGGAGTATTCTTTGCGAATCCAAAAAAAAAAAACATTTTTTAAATTTTA TGAAGAGTACTTCCTATTTTGTATTTATTTTTTAATTTGAGTTGAACTAA ATATTGGCAATTTTTTTTAGTAGTCTCTCTGTATGTTAACTCACTTTTTC TTCTTTATATTGAATTGATATATATATATATAGTGACATAAATCATCAGT ATTTTTTTATTTTTTATTTTTTGAATTGGTAATCTAAAAATAAATTTTCT TTGCCCTTACTGTCGTCATTATTATTTAACTCCTGAGTAGTAAACTTCAT TTTCTAATATATTGAACTATATTCAAAACCTGATTGAATATTCGTTTGTG AAAGTAAAGGCGGGAGAGKAACCTTGAGAATTTGTTGTGGAATTATAGTT ATTAGTCTTTATTGGACTCAGAGTTGAATCGAAGATCGAACTTGGAGTAA TTCTTGCCAATGGTCATGTATATTTATTTTCCTATTCATCTCTTCTCACA GCTGATCCAATGAAACGTCGTGACGTATAAGCTGCTCTCCTCCTTGTTAG TATTATTATGCTGATTTTTGGTGTTTTTTTAACATGCCCAAAATACACCA GATTTTCATTACTAAACATATTTATATCAGGGACCCCTATATACTGTACA TCCTATATATACACACTGGATGTTACATGCTAAACGACTGTCACATTTAC ATTAACTGCATTGTTATGTTAACGTACATTCATTAAACTTTGCTTATTAG TATTACAAAATATAGACACAGGTGCTTGACATAGACATATGTACTTATAG TAAATATTATATTATTTTTAGTGTTCAATTAGTTAGTCATAAAAAAATAA ATAATTTTTTTTTCTAAACCTAAATTTATTCACCCAAACTACACATTATA AAATAAAAGCAATTCCTAAATCATCCGACAATACTTCAACAAATAAAAAT GTTGATAGGATCAATACGGAAAAAATAAATATATATATATATCAAATTTT GACACTCTTACAACTATATTTAACCAGTATCCCGTTTTCATGAAAACTGT CCATCATTTATATTGATATTAAGACCATCTTCTCCATCATTTTTATTAGT GCGTTTGCGTACATTACTGACTGTATTTTTGATATCAAGGCTGCTATTTT GAACTTTTCCGGATTGATTGATGCCTTTGACAATAGCCAATCACCCTTCG TAATTCTGCAGTTCCATTTTTTCTGTACTATCTTCTCCACTCTATTAATA AATGGCTGCTAGGATGGACATATGACGAAAATGTGTTGTAGATTTTCAAT AACCACTGCACAGAAAGTGCAGTATTTATTCCCCAATGCTGATGTATTAG TGTAGTATGAGGATGTAGTCATTTCATATGGGAACCACTTTTGTTCATTA GAAATAAAATTGTTCCCGAATACTGTTTTGGGAAGCTCGTCCCTACCCAA GGGGGAAGTAGGGTTCTTTCCCACGAGTCCGACATAAGATTCCAGAAGTA TATATTATTTACTTTTTCATTTATTTTTGCTGAATAGGCTCCTTTAAATT TGCATGAACATAATCATTCAACATCTTTAAATAAATATAACACGCAAATA TTTGACTTATATAACGCTCTAATTTAAAAATATTTTTCAAGGAGTTATGT AGTTTATTTTTTCAAAGGAAAAACTTCTTATAAATTTTATCTGAATGCCT TTAAAAAATGTTATTTATAAATTTTTTTAAATCCTGATAATGGATGAATA TAGACGCTTACAGTGTTGGATTTCGATTTGAAATTCTTAGATCGGTCTCA GACCGTAGTAATTTGTGTAGGATAAAACTAACTAGGTCAAAGTTTGGTCT GAACAAATCTTCTAGGATAATTCGGTATTCATTAAAAAAAATCAGTCTTG AACGGTACCAAAAAATGTTTTCTTTAGATTTATGTTTCAAACATATGAGA GGAAAAAATTAGATAATCAAGTGGCAGCACATACCGTTTCAGATTTTGCC AATATCAAAGAATAAATCCGCTCTATACATCGTAATAGCTATAATAAAAA TAACTCCAATATTTATCCAATAGATGGCTTACTAACGAATATAGAGTTGT GTGATAGGTGAATGCTAGATGGCGTTAGAAAGATAATATTAAGCAAAACA AAACTTTTTATATAGTTTTGTGATTGCTTGACTCAGTATGGGTTTCAAAG ATGTACGCCAGCAAAGAGAAAATATGCCATATTTTACTTTTATTCTTCAA TAATGGCGAAGAAATAGTGTTTATGGATTACAGCTATTCATGCTGTATTT TAATACAGTCCATTCAGTTGCTTTAATTTTGATGGCAAGGATATAATAAC AATCGTCTAAAATGCAGACAAAATAATGGTAATCATGGAGTCCAACCTTC ATGTATGAATTGTTTTGATTGCCAAGGAGATGCAACATTTATAAAAAAAA TCCATTAAAAATACAGGATTACTTTTTACTACATCTAATTTATGGATTAC CCATAAATTAGACATGGACTCATTTTCCAATCTGCTGTTTTATGAATGTT CTGTCAAAAAAGGGTTTGCTTCGTTTGCTAACTGATCTTAAGGGTACAAT ATACTAAATATTCATTAGTAGATTTTATTCGGCTCTGAAATCTGACGGAT CATTTTGGGATTCTATTAATTTAAAAACATGTTGCTCATTCATCTTGTTT AGTAGTGTAAGCCAGAAAACCGTTTAAGAGTATAAGCGATTATAATAGAA GATAAACTTACTATTCCTTTATAATATATCTAGAATGTATTACTTAATGC TATGCCCAGAGAGGCGTTTAAGAAGTGTATAAGTCATAACAGATGCAATC ATTCCTTAATCAAAGTATGAACATTGAGTACTCTTTATCTAAAACATTCC TGGCTACAAAAAAAATGAACCACAAGTTATTTTCTAAATATCGAATTTTT TAAGAATTTTTTTCAATTCTTACAAGATATATTTGACACAAATTAGGTTT TTGATTTCAAKCATCAGCCCACGTCTGCCCAATGTCTAAATTTTAATACA AAAAAAAAAAAAACATATCGKGGCTTTTCTTTCGTTGAATTCACTATCTT TCTTAAAAATTTGTATAATAAGTATAATAATAAATGTCATCTGGAATCAA TTAGACATGACATTAATTGAATTATAAATAAATATTTTTATGCCACAACA TTTTTAGATTCCTTCGTCATACCAAAGATAAGATATCTTGTATGATATTA CTACTATTTTCAGTATTTATACTGTAAGTATTGATAAAATACCTCGCGAG ATGGAAATTCTAGTTATATTAAGTACATGAGAGACGTTTATCTAACTATT TTATTCTTCTTTGTAAATAAAACTTCCTCTATAATATAAAATATGGTTAT AAGAGGGAAACGAATTTGAATAAAATTAAATATATGTTATTATTGATAGT GAGCCAAAATAAATTTTGAATCTGTAACTTAATCCAACTATGAGTTTTGA GGCCTTTAGGATAAATGAATTAGCATTTTGATGAATATTTGATAAAACAA AAATTTTAAATTTTTCAAAGTTTGAGTTCTTTCATTTTTTTAAGACTTTC AACATATAAACATAGAACTTATACAATTTAAAAAAAGCAACAATTTTATA ATGGAAAAACTATGAAAATAAAAGTAATGAAGTAATGGACGGATTTTAGA AAATCATAACTTCATTCATATAGTTTAAAAATTAATGTTTCGTAGAAAAT ATATTTACAAAAAAAAACTATATCAACGACGTAATGATTTATTAAAGCAC ATTCAACAACCTTGTTTATTATTTATTTTGAATATATTTTGCATTTGTTA CACGATATTTAGTGAATTTAATTAATTGTTAATTGTTTTTTGTTTTTTTA ATGGGATGACTAAGGCATACAACAGTTCTTAAAAAACTATTGTATTGTTA CTAATATTTTACCTAGTACATGCAATCTTATGAAAACTATTGTGTACTAA TTTTATTCCCAAAATTTAGATAAGGTAATGAATGTTTGAAAGAAATTTTT ATCAAACATATAACTCAATATTTTTACTGTCTATAAGAATAATAAAGTAT ATTAAACTCAATTTGTTATGATTATTTATAAATTAGAATTTATTTCTTTG TTTTCTATTTATATAATACTTCTTAAAATGTTAATTGATATTTACGCAAG CAAAATGGATGAAATAGTTATAAAACTGATATAAAATTTAAATGATGTAA TTATTAAGTAAAATATGAAGATTTGTGCGTTTTGAATTGGATTTATTTAG TGAGTTATATCTCACAATTAATACATTGCATAAAAAAAGCTAAAAGTATG CTTAAAAATTAAACGTACACTTTAAAAAAGTTCATTGACAGTTTTGTGTT TGATGAAACCATCTGTGTGTTCCAGAGTTCCAAAATGGAGTAAAAAAAAA GAAAATTTTATGCATTCTCCAGTATCACTACAATCAAGGTTAAAAAACCG TTTGGTACCATCTAAAATGGATAATTCTAAAAATGATAATTTTATTGTCA AAATATAAGAAAACGTTCAGAACTTATTACTTCACCTTTTATTATAATTG TTCAACTGCTGATCAATAAAATATTATTATTTTTTGGGGATGAGGCATTT TAGGCATTTAACTAACAACATTAAAAAGGACAGTTAAAAAATACCATTAG TTTTTCAAAAAAAAGGAGGATCCTCATTTAAAAAAAACCTCAGATTTTTA GTTATCTCTATCCACATTGGGATTGAGGCCTTGCACAATCCATTTTGCGT ACGGTCTTTCAGTAGTTAAGACTGACTCGGTCGAAAAGTGCCAGAACTTT TTCTAAAATATATCTAATTAATAGTGGGAATTCTTTTATTCACCAATATA CAGCCGCAGAAGATGTGCTACTGCAGTCCAAAAATAAATATACATGTAGC CAAGCCAAAAAAAATCGTAGAGATGAAAGAAAAATCTTTTTATTATATAT TAAATTTTTTTCCGCTTATTTATATCTTTGTATATATATTACAAATATTC TAAAGAAAGGAACTAATAATAGAAGCTATTTTTACACCTTTTCATCTTCT AAAAATAGTTTTAGGATTGAAGGTAAAAAAGTGATTTTTTTTCTTGTCAC GTTGCTACTTTTATTACCTCGCAACCCTTCCTCCAAAAATAAATATATAG AAACTATGGAACTCTTATAGATTCTAATAATATTACTATGTTATGACGTC ACAAGTTTTTGATACATAGATTTATTGAGGTAAATTTGATTAGAACGTAC ATATTCATCTCCTCAAAAGAATGTTTTATTTAAAATATTCCTTATCGATA TTCAGCACAATTTCATTTAAAATATATTCCCAACTCCATACCCAGTGACG TCATCAAAATTATTATGTGTTTTTCTACTGCTCATACATTATTATGTAGC ACCACACAAAAGTAAATTTTATATTTTGTTCTCAGCTGTAGATGTTTCTA CATCTTTCCGTCTAATCAGTTTCTCAAATCCACGTTCGGCTGAACGTGGA TTGGTTGAATTAAAATCCGGTTCTTTTCAGCTATAAAATTTTTAGTAATA TTAAAAGATAATTTCATAGTTTATTTTCTGTTTCTGGATAAAATAACGTT AACAACGTAATAGAACTTGAATAAAGTAACACATAATCAGAAAAATCGAT AGCTGACAATTACATGGAGTGCAAAATTTTATTTTATTGAAGTAACACCA CGCCATCTTGAGCTATAGCTAACACGCTCGTGCAATGAACAAATTAATCA ATATCAGCAAACCTTGATTAAAAATTGCAAAATTTACAACAGCAAAGGTG TATTTATTTGTATGGATGTACAGAAAACCCCAGTCCCCTAACTAAGGGTT ATATTGTATTCTTTCATCCTAAATTATCAGCGATAATAGCTCAGTAAAAA GAAAAAGCCAAGTACATACCCAGGTTTATTGGTAGGTAATATATTTTTGT CAGATACTATTGATTTTTAAATCGTGGAATGTTAAGAATTATATTGTTTT CTCTTTGTGTCTGTCAACATAATTTTTATTTATTCATATGTATATACAAT GTAGATAGGAAATGAACATTCCTTGACAAACATATTATCTATGTATAAAT TATATATAGATGTTATACAGTATATTAATGAATTATTATTGTCAAGTTAG GCATTGGATACCCTGACTTAGTTGAGTACAACACATGTAACCTATTTCCA ATTAAATGTTCTTATACCTCTAAGTAAATAAATCGTTACTTCTTCCATCA ATAAATAATTCAAAGATATATTAAAGTCTCGAAATTTGAAAAAGCTATAA TGAATCACGTACCAGCTCGTGCAAATGTTTGAGACTAAATGAACGAATGA AACAATGATGTTCAGTGATCGGAATCAAATTTTCCCATCGATTTAATTGC ATTTTAATGCATATTTTTCAAAGAGATTTTGTGGGATTTTTTTGATGATT CAATTGAGCCTAAAATAAAGTCTGTTTGAAGTAGGTTTTGTTTTGAATCG GCCTACAAATCAGTGAACTGCAGTCAAAATGGTTTGACGCACATATAGTC CCAAAAAAATTGCAGCCGTCGTTGGGCTCAATATGACTGCAATATTCAGC ATGCCAATAATATTGGCAAAACGACTTCCAGAGCTTTTGGAAATAGAGTT CTGCGTCCAAATCTTAGCTGAATTATTTACCAAGGATATGCATAAATGCA TCATCGTACCAATATTTAGATAACCTGAAGTCTACCATCTCCACGATCTG AGTCACGTGTATACGAGTATAATTTTGGAATGGACCAATAGACAATTTAA TCTTAAGAACTATGCATATTATAATCTTCAAATCTTCAACAATTTCACCT TTCTAAATCAGAGGTTCTATAATGTGTTTAAAATGTGTTTTGATCGTATG AAAGTCATGATCAATTCAGTTTTAAAAGTACGATTTTTTTTTTGTTTTCC CCAAACAAAACAAATTTCAAATCAATAAAATTCATTATTTTGAAAGGGGT AATTGTTGAAATAGAAAGATTATAATATGTAAAGTTCTAAGAATAAATTG CCTGACCACAATATTAACCCACCTAAATATGATTTTAAAGTGATTCTAGC TCCCTAAGAAGGGCCTTTTTTTCACATATCTACTCATTCGCATGTTTGTT AAATTCAAGTAAATATAATTCCAATTTTATAAAATGAAATGTTTAATTAT TTTGCCATGAATAGTAACTATTAAATGTTTATGAATTAATTAATATTTCT GACTCTATACAAATTGTGTGTATTTTGGGCATGTTAAAGAAATGGTAACC TTGACAATTTTAATAATGGTATAGAGATGAGCAGCTTAGGTATTATCAAG TTTAATTAGATCAGCTATTATCAGCACCTTTGAGAAGGGAGGAGGGCGAA GGAAGTAAACAAGGAAATTGACAAGAACTACTCAGATGTTGATCCTCAGT TCTACTATGAGTCCTACAAGGATTACAATTATATTTCCTCAAGGTTACTC TCTCTCTTTTATGAGTACACACGATTGTTCAATAAAATTTTGAATATCAT TGAATTTAGTAGGAAAGGAAGTTCACTACAGAGGAGTAAAATAATATTGT CATCAGCTAAGAAAAAGAAAATTAACTTTCTGATTACCAGTTCCAAAAAA ACGGGTCAGCTTATAAATACACACGATTTACATCACTATCAAGATGTGTT TGCCATTAGACGAAAGACTTACACTACACGAGATATACAAGTCCTTGCGA AAAGCAATATTAAAATGTTCACCCAATAAATCCAAAGATCTGCAGCTGAC GACAAAATACGTATTTTTGTGTTAGCGAGGTAACGACGTGATTTATAACA CTCAAATATTGCAATTCGTGACAAATAGTTTGTCGATGTATCTCTTAAAA TTGGAGACAAATGAATGATATTTAAATTTAAATAATATTGCATCATGAAT CATTATTGGATTTTTTTTTTCAGCAAAGTGTCTTCCATCCAAAATATAAA TATAAACTTTTAAGATGCCACATTAAGGTTTAGCCAGACACGTTCTCTTA AACATTCATATTTTCTTAGTTAAAGTAGTCACGCAGTTCCAAAATGAGTA CTCCGAAGACAAACATTGTTTTATATATAACATTTAATTAAGATATGGGC TAATTTGAATGAAGATTGTTGAAACATTGTTTGATTTTAATAAATTATGT TAAATATAGAAATATTTATGTTCCTAATAGTTAGGTCTTATATACTTTTT TAAAGTAAATAAATTCCTATATATATCATATATATTCCATGTGATATGTA AATGATGTCTTTTGTCTTTCACCCATTTACTTTCTTTGAAGGTTTTAGAA ATACGGGTTTTATATAATAATAATAAAGAAAAATAATTTATATTCAAGGT AGTAGTTTGGAATAGACAAATATTTGACTATATTGTTAACCCTTTATTAA AGGGACAAACTAAGAAAGTTTTATTAGTATTTCATATATACAGGGTGAGA CAAAAAAAAAAAATTCCAAAAGGGTATACAACAAGTTTGATAAATTTAAA AACTATATTTGGAATTCATATTGTTTGTACAAATATACAGTTTTGCCTTA CACAGTTTTAAATATCATATTACAAAGCTAACGTTCCACATTTCCCATAC GCAAATTTTGGTATTTTAATACTAAGTAATTTTTTTAAATTTTTTGTTTA TCTTTAAATAAATTCCATGAAGAGATTTTAAAATATGCTAAATTTGACAA AAATAAATATTTTATCTTATAATTGAGGATGATTTGTTGATTAGATAATT AATTAAAGGATTTCTTTCAAATTTCATGAAAATGTTGGTATTTTCAGTAT ACCAATCTGGTTTTAATTTAAAGAATAGTATAAATTTATAATTTTGAAAA ACATCAAATCTAAGGACATTAAATTTATTTCTCTATCATCATTATCCGTA GAATTATTTGAGTTCAAAGAATTTTACAAGTTTTAAATTATTAAAAAATA CCATGCTCATCCTGCAACTATTTTTAGAGTCTGATTGCCAAGCATTATAA AGAAAAAGTTATGTTTTTAAGTTTAAGTTTTGTTTGTATATATCGTGCAC AAGTTGCAACCAAAAAAGGACAAAAATAATTATAAATGAAGGATTCAGTG TATGTGTAATTTCGATTTGAAAATATCTTAATATTTATTCAATGGGCGTT ATGTGAATGTTGTTATTTTTGTATGAAAAATTTCATCGGGTAGAGCGCGA AATTTTGACTCGAGACTTTACTACACAATTAGTGTTGGATTGGACCTAGA ACTGATTTACTAATCTCCCCTCCCCTCCCCTTTCTGTCTTTTTTTTTATC AGTGTGATATTACAAGCCATTTAATGATCATGAGGAACGATACGTCGGTC TTTCAGTCCTAAAGTAATGCTATATATTTATTTTTTTCACTCTTAGCTTG GGTTTAAGAATATTAAAACAAGGAGTATAATGAAATTTCAAGTTAACATT AGTTCATAGCAGTGGTTGCGTGACTTTAATATTTTAATACTTAATCCAGA CGAATGCTACTCAAAGATTAACGGGATTTATTAATATAACTGGTAGTTTG TAGCTTTAAATCATCATTTGATTCGTTAGATTTAAAAAGTTCACATGCTA TCGATGAAAATATATAACACATGAGTTGTTTTTAAAAATTAATCTCATTT TCAGTTAGTACCAACTTTCAATCGTGTTTCTAAAAAATACTTGACGGGAA AAAAATTATTGTAACAATGTTTGTTTAAATATCAATCAAAATCACGTGTC TCACAAAGAAACAATAATAAAAAAATAAGGATCACCCATATATATAATAG GTTTGAAAAGTATAATTTCGTATTTCAATATTTTAGAAGAAGTGTTACAA TCATTCTATAAGTCAAGTAGGCTCTGTTCCCTTTCCATAACTTGTTGTCA ACGAGAATCCAACTTCATAATGTCCTTCTAGTAAATCCCTTCTCCCTATT GCCAAAAAACTCGTACAACCAATTTTCAAATGCCTCTATTGAGGGCAAGT GTGTTGATCATAGACAGGAAGAGGCGGKAGCCACATGGKGACAGGTTCGT ACGGAATTTTCCATCCGAGCTCTTGGAAATTCTAGTGCATCATCAATGAT GTGTGTGATATGGTATTACCGTGATGAAGTCTTTTTGTCTCTTATTCTCT AATGCTGACTGCTTCAGTTCGATCGCCGCTTCAAACAGTCGAGTGTTTCA CAGTAGTTTCCCCAATCTAATATATAAATACAAAATAAGTCTTAATACAT AAATGTTTCTCGTACATGAATAAGAGCTCGAGGTATTCATATTAATGTGG AACTTTTTTTTTTTATCTTATATTTTACACTAGAACATTACAACAGTCCC TCAGGGGAGCATTTTTCATGTTTATCTAGAACTTTCTTTCTATTGATGGA GGATTCTACTTCATATCCTTTTTATATATAGTTTTAACACAGCTACCACA CATTTCCCCCTTATTTGGAAAATAATATAATAACATATCTCTAGAGMGCC GCAACACTTTTTATTTGCGAAGATACAATTAATATCTTGTTACATTTGTT GTAGGTATATCCTCAAGGATAGTAACTCTTTTTCATCAATTTAAGGGTCG TGTTGTAATATTTAAAAAAAAAACTCTCCTGACTATTCAAATGTAAGCTT TTATGGAAAAACATTACACACAAGCCCCTTCGTCTAAAATGGAACACTCT TTAAATTCTGCGCATTTGTCATATTGTGTTGTTTAACTCATTGTAAACAA TTGTCTTAAGAAACTGTAAACAAAAAATTCAAACAAGAAATAAGAGTGTC ATAACTAAAGACATGGAAAAATGCAGAGTAGTAATTATGTAGGTATACAT AAATGTGTGGAAAATTACTATCAGAGAGGTGTAAATTGTTGTGTTGTAAC CACTCTACTGGGTGACTGCAAGAGGAACATCAATAAGTTACGGCAATTAA AGACACCGTTTAAGGCAAAAGAAGCAAGTGACCTTTCCCTATCATGCACA GCTTGATGAAGCTTAATCCTCAATGCCTGCAACCTCGCCAGGGCTTGAAG CCTTTGGATGACTCGGTGCAAAATCCTCCGCTAGAAAAGCAGGACATTTG ACAACCCTACAGCCTTGACTTGTCCCCCCTGCACTTTGGTATTTTTGGGC CCAAGCTTTAGGGAGTCCACTACACAACGAAGGACCAATTATTAGATTGT CATCATCTCTGCTTCTGAGCTTGAGCTTTTACAAAGTTCTACGCCAGGCT TGAACTGGTCATTAAGGCAAAAGGCGGTATTTTAGATGGATGAGCTTGTA TATAAACTAATTGTATACAAGTTGTGATTCTGTACAAGTTTGAACTTCTA TAAGCGAATTCTACAAGCTACAACCAACAAAGAAGATGAATAATTTTAAC TAAATGACTCACAGTACTTTGGATTAAAGATATAACAGATCGACATTTTC TCGTTTATAGTTTGATTCAAATCTGTAGACGTAAATAATTGAGTAAATTT TGGGTACCCAAACTTTCGGATCCAGATCCAAAATCAAAACTAGACGTATA CATGCCTCGAATTTTATGAGCATTTGATCCAAAGGTAAGATGTAAATAAA ATAGGATTAAAGTTACATTTTTACGGAGTACTGATGCCGAAACAATGAAT AACCCAACGGTATTAATATTAGAGCATAAATATTAGTTATTATTAGAATT AGGGTTATAATCATATTGGACACTTCTATACCATTATTATATCTTGAAAC CTCTCACCCATAGAAAAACATAAGGAAATCCCCAAATCAGGTGTTATCAA CTATAAAACTATTATTAATTAATTATTGATAATTTTTCACAGCTTAATAA AAACTAACTCAATGTTGGGAACACTTATTGGATGAAAAGAGCAAGAAAGA ACTAAATACATTTTACATTTTGTTTTTAGTGAGGTAACGCCGTGTGGGCT GTGAAGTAACCMCGCGATGTAATGCMGCCCCCCCCCCCCACACACACACA CAATAAGGAATTTTTGTTTTTTACTTGTATTTTTTATTTTGGTTAGGATA CAAAATCCCACTACCCCACCCCACAAATAAATATATATATATGTATATAT AATTCGACGGACGCCCCTGGTTTGTGTATATGTGGCTCCGAGCACTTATT AAGATAGTAGATAGAGATGCTACGTTTGATAAAGAATTGCATAACTAGAA TTTAAGTACTAAGCATTACTATAAGATTTTTGAGATTTGGAAAATCCCTC GGATTTATTTTATATGTAGTCAAAGTTTGAGTACCCGAAGATATTTTCAG ATACTACCATTTTTTTTTAACTATAGCCCGGTACTTTGGATCCGACTCCT AAGCCAGTTCTATCTTTACTTGGAGATAATGCAATAATTAAATCTTTGAG GTACGATCGATTTAGTAATGGTGTAATTAAAATATGCATTTTGAAGATTA AGAAATTGCAACTTTACAATGACCAAAAAACTATTACAAAAACTCTAACT ATGCTCTTCTTTTCACTCACGTCATTGTTAGGTGTATGATTTTGTACCAA ATAATTATAGTTTTATTACCCTCCACCTCAAAAAAAATCAAATTCCTCGT AATATTTAGTTGAGGTTGTAAGAATGGGTAAATTTAGTTTGCACCCATTT TTTTTTTTTTTTTAATTTGTTTAAAATATGRGGACGAGGGAGTGGGTTCC AAAAGTGTTTTGTTTATTTGTTGTTGTTTTTTCTTCTTCATAGAATTGAT ATCTTTTGTGCAGAAGACTAATCCAATTCACTCAATCGTAATGACTAGAT CTCTCTACTGGACTATTGATTAAGTATTGATAATGATTAGTAATTCATCA TTATGCTATGTTCACTGAAGCATAAAGATGAAACTAATATAAAATTGAGC AGAATATATGGAAATTGTTTTTATTTTTTCAAAACTATTTGAACATCATT GTGAGTAAACAAAAAAAATATTGGGTGTAGTAAAAAGAATTTCATCATTT TTCCAATAGATTGCTCATAATGTGTACCTCGTGTTAAGTGATCGGTTTAG ATTAGATGCGTTAGTAAGATAAGATTTTGTATTAATTTTTATTTTTTGAT ATTTTTGTGACTGTGTATCTCAGTATTGTTTGAGTGCGCGTCAAAAATSC ACATCATTAAAAAAATCCGCCATATTGTACTTAAGACGAAAATGCAAGCT AGGAGGCTACAAATGAGCATGGAGTTTATGGTCCTAATTCTATAMCAGCC AATCACGTGGTATTTTGATTTTCTTGGATTCCGTTCCAGTAATTTTGATG TCAAAGATACACCAGGCACTAGAAGGCCAATTTTCAAAAATATGGATAAA TAATGATAATCGTCGAGTTCGACCGTCATGTTAGCACTGTTTTGAATGCT AGGAGATAAACATTTCTATTTTTACACCTTTAATGTTAAGCTTATGGTCA AGACTGCAATTGATAGCCATAATTGACAATATTGAAAATAAATAAAGTTT TACTGAATTGGTGAACCTCCAATATAAAGGCAATTTTCCTTAAATTTGGT ATGGAATAGTCACTTATGGTATTACAAATTTCCCCTACACGCAATCCTGG GTTTTTTCAACCCACTCATATATACATATTTCCCTATTGCCTAATACGCC CTCTCCTCTTGGGACTTACATACTTATTTTCTTATAACTTTCATTTATTG GAACAGATTCATTTTATATAACAAAACCTTTGTTATATAAAAAATATTAG GGAGGGGAGATTAAAAAGTAAAAATCAATATTATTAATAAGCTTCTGTAG TGTATGAGTGAAGCTTAACAGAGTAAGTCTTACAGGATTTATTGACATGG GATTATTTTGTGATTCAATTATAATTTGAATAAAAGCAAGTCACATCTAT GTAGCATCTGTTAAAAGTTACTCAACCAAGCTTCAGCCCTTTTGGACGTG TAGTTGTTATATAACAGTTGTTTGTATGAGTTGATGTGAATGTTTTTGTG AAATAAAAATTCGAAGTTTTGATTTTAAATTTCAACATAGTCTCCTTGTA ACTCTTCACCCATTTCCAAACATAGTTACAAAGGGGATGGGTTACACAGA TGAGAGCATCGCGGGGAGAAGTATGTTGAGTTACATATAGACTTCGTTGG AAAAAATAATTCACATTTTTTTTTTATATAAAAAAACACACATCACCTCC ACTCAAACGACAGTTACAAAGCAACTGCGAGTCCAAAATGTCTGAAACTT TGGTAACTGTCAACAGATGCTAGTTAGATACAAAATCTTTTATTTAGGAG CTCTGCCATCTTCACGTTGAGGTCGGAAACTTTTTAGACCACCTTCGTCA TAATAATAATAATGGACTTCCCAATTGCTAGTAGAACCTATGTATTCCAA TATGTCAACTTGAAGTATCAAGTAGCATTTACAAAAGTATAAAATATTCC AATCTGTAGTATTAGTTTACATAACATGAATATAACCAATCCCATGTGTG AGCGTTATTTAATCTTAATAACTAGTTATAAATATGGATTGACTAATCAT ATTTATAAATTAACATATATTCTTGTTCTAATTTACTCTATTAATAAAGC AAAGTTTGTCTGCCTGTAAGAATAACACTCACGCTATGTCCAAAATATAT GTATATCATAAATATATTTTGATCTAAGAAATAAGAATTGTGTCGTATTA ATAAATTAATACAGGCGACTGCACATAGCATCGAACGTGTATACAGAGTG CACTGTATATAATGATCCCTGATGTATTTCATATAAATATATTGTCGATC TAATAAATAGCAATATAGTCGTATAATGAAATATTGCAGGTGTCTGCATG GAGCATTGGATGTAACTAGTGACCCCTGATGTATATCATATGCATCTTTT TGATCTAAGAAATCATAATGTGTTCGTATTAATATAATAGCGGGTGCATG TTATATCAAACATTCTGCACTATTTCTGTTTGTTATTTATATTTTTCTCT ATGTACAGAGTGCTCCTGATAAATTGGGAAAATAATTAATCCTTTATAAC GAATGAACTAGATGGGGTAGAACCATTTTTTTACTATTTTAAAGCTACAA TGAATGACATTCAATTGTTTATAATTAGATTAACCTCTCTCGATAACCTT GGCTACACGGCGCCAGAAGCCTTGGCAGGGCTGAGCAACCTCTTGCAGAT CCAACTTTGCAACTGTACCGGTTCTGGTTTTGCACATTTAATTTACGTTA CCTGGATGGATGAAGTAGCGCAATTACACCTTCCAACAAAGCAGTGGATC TCCCCACAAGCCCAAAAAAAGTGAAGAAGGTCTTGGCCACCAAATGACAT CACATTTGGAGCCCGTATTTTCGGCCTGAAAACATTCAGGACATAAACTT ATGCTTTTTCTATCTCTGGGGAAGGATCGAGCATTAGGCCTGTCTAAGTA TAATTCGTCTGTGGATGCCCTGAAAAAGTCCACTATCCTTATAATGACAA AGCTGGATCCGCACGACTTCATCCGGGCTTGCCAAAGCTTCTAGGTTCAT GTATCCAACGTTATCGTGAGAGGCAGATTTCGTTATAAATATTTGAATGT TATTAAATTTAAGCCTCTTAACATATTCCAAATTTATCCGTTCCACCTTG TGTACAGTACGTATATGTTAAGATTATAATAAAACCAGAAAAAGGAAACA TATATATTTTTTCGATAATAAGTGGACTAAATTCGGATTTTTCTTAAATA TAAATAATTTCAATTTTCGGATAATTACACAAAAAGTAAGTTGGAAACTC CTAATTTTGAGGCGACCCACCCGCGTTTGATTAAAAACTCTTTTTGACCA ATTATCGATGATTTTATTACCAAAAGTTTCTTAAAAGTAATAAGTATTTC ATAGAGGTTTTTATAGAAAATAAAATTATAATCTTTCAACTATAATAATC AAAACCTATATCTTGTTAATGCTAAAATCTAATGTTGTTACGATTAATTA GCGTAATTTTTAATCTATGTCAACTCTATATCAAGAAATAAAATTTGCTT ATCTGAGTTGATTAATACAAGTTTTGGTTCTCAGTGGAATAAAGACGGAG GGTTTCTTTATTTTTTGTAATTTTAAACAGCTGTACAATTCTATACATTT TGACAATGTTATTTTTAAAAAAAATATTATGTTCCCTTTTCAAATAGACT ATAACTTGACAAAAGGTTTTACAATTTGCCACTCGCCATGGAAATTTAAA AATTGGATACAAACTCAATACGAATTTTTTTAAGTGTAGTTCTTACTTAT TTGCGGGCTTGGATCCGAATATACCAGATCAAAACCAGAGTTCTAAAACG CCATGTGGTCTTTTTCAATTATTCTCAATTATAAAAAACTAAAATCATGT TTTCAATAATGATACTGTCTCTATTTTATACATTTACCCTTCGAATGTAA CGTAAATAGGCTGTCTATAAATATATGATGCATGTTTTGAGCTTCACGTC AATTAAGACAGTTATTCATTTACTTTTATTTATTTATTTCTATTTTCTGC ACACGAAAAGTTTTCCATCCACATCACTCAATAACATTTAGGATATATTT TGTCTAAAAAAATTATACAATATAAATATTTGTAAGTATATAAACAAATG AAAGTTGCTAGATTATCCCCAAAGATTAAATAGTCTTCATCAAATACTAA AAGTGCAACAAAGCTTTCCATTCATTCATTTTTTCATTTTATTTATTTAT ACAAAAGAATAAATATATATATATACATAAAAACCCACTATTTTTTTCTC TTACCTTTTTACCAACTTAATGTTTCTTTTCTTCTCTTTCTCTACTACTA GAGGAGTTATGAAATGAAAGAGACAATTAATTTAGTTCAACTCCTTCTTT CGTTTCATAACTACTCTACTCTAAGAAAATAACCCTTAATTGTTCAAAAA AAAGTATCCCTTGCTGTATGTAAATATCTGAAAAAAAACCTTTGACAAAG TCAAAATATATTTAAATTGACAGGCTCATGCATAAGTTTGTGGAGATATG TTTTAGTTTATAAATGCAATATAAAAATATATATTTGCTTAAAATTTTGT GAAAATAATCCAATTTAAATATTAATTAATTAATTTTAAAAAAGTTGTTT GAAATAGCCACCCTTTGTCCGGAAGAGGCACTGGGAAGAGTAGCACAAAG ACTTTTTTCAGAGAAATTGGTCCATTCCTGTATAAGAGCTTGCTTCAGAG TGTCATTGGTGGGGGTGGCTCTTAGTACAAGCCCTGGCCGGAAGAATGCA TCACATAGCATTCTGGTCAGGGCTGCTAGGAGCTCACATATTCTTTACTC AAAAGCCCTTGAAATTTGTTTTATACCATAATATATAAGACTGGTCATGA CCATGACACTAGGAGGCTTCTGCCACTTGGTAACGATGCAGTGCTCCTAA GAAATGTTTTCAATGACCTTGTCTAAAAAATCATTTTGTGCCTTGTAGAT GGACTCAACGGTGAATTTTTTTTGTACATGCTGCCTCTTTGTCTCCTTAT ATAATCTGGGCAAAGGGTGGCTATTTCGAACAACACATAAAATTAATTAA TTAAATTACAATTTATTAATTAATAAATTTATATTGAATTTATAAACATG AACTTCTTCCTCGACCTCTATAAAACTTGAATTATTCTACACATTAAGAA ACAGGTTTTTATTGTGAAAATAATGAAAACTTATTCAATATAATTAAACA GAGCTGGGAATTTTTTTAAGAATAATGCCATGATTTTTGAGATTTTAATA AAAAATAACTAAATGATGACACATAATTAATTATTATTAACAAATTAGAT TATATACATGTAGACAGTTCCACTATACATATGTATAATTTAGTTTAATA GATTAAAAAAGAATGAAAGTATTAATAAATACATGTTAATCAAAATGACC GTTTTATATGACGTACAATTGTAACTTGGACAGTTTGCAAAACAAGTTTT AACTTGGACATTTTGCAAAACAAGTTGTAACTTGGACAGTTTGCAAAACA AGTTGTCACTTCTACACAATATCTATATTAATAAGCAAAGCTTGTCGAGA TATAGGCTGKAAAGTCATTTGAATGTGCGCTGAATATCTACTACGTGACT ATTTGATTTAACAAATAACAATATATAGCAAGAAACGTGCTTAGCTAAAG CGTAAGGCGTATGATTAAAAGAGAAAAGTAAAGGAGAGTACATATATTTC GGTTTGTAAATACTACACATTTTTTATAAATTATAAAAAATGCTTAAGAT TTTCAAGCCAACAACAGCATCAACAAAAAAAAACCGCAAAATTAATGTGT GTGTTTTTTGTTGATGCTCTTGTTGACAACCTCAAGAATGTTTTTCTTGT CCTAATCTGTTATTATTATTATTTAATTCTTGAGGAGAGAACTTTCAAGT ATTGAGCATTTTCAACTTTTAATTATGATGTACCTAAAATGAAGTTTATA TTGGTTTTCCATTTGAGGAAATATTCACAAATGTAACAATGATAAGTCTT CTACGTCTAAGTCCAGAAAACATATTCAAATTAATTATTATAATTCAGTA TTCATACTAATGAGTAAAGTTTGTCTGGTAAGATTTATATGTAATTTAGG CTGAGCGTGTCATATTAAAAAGTAAATGGGAGTGCAAATACAAAAAGAAG TAAATGATGGGATTTTAAAACGGGGTTATAACGAGCATGTGTAAGCTAAG GATGTCATCTTAAAACAGAAAAGAAAAGGGGATTACATAAATATTGAGGG TAATTTATCCTAAGCATTTCTTACCATTCGAGTTGTGTTGTTCTTGGTGG CAACAGGAACCATGTCTTTTATTTTCTCAAGCTTTTACTACTATTCTTTC ATTCCTGAGAAGATTACATCTATGTAATGAGGAACTACGTCTGATTTGGC TCTTGGAACAGTGCAGAGTAACATTGAAGATTAGATGCAGGTCATCTTTT CCAGGATGTAATCTCTATTTAACAACTAACACAATTTTTTTAAAGTGGGT TTTCTTCTTCACCAATCATCAGATTTTAATATAAGCTAATCCCAAATGAA AACGGAATAATAAAAAATTATTATTATTTAATATAACTATCTTTGGTGTC AATAACGTCCTCGACATGACCTTAAAAACGGGAGCTGATCTTGATGACAG TCTCCATTAGTAGATTATTGAATTCATCCCGGATCCTTGACATCTGCTCA GATTTTATAATGCAAGAAGATCTGTTGGGGAATTGCTCAACTGCAGCTCA CATGGGGATGGGGTCCGGTGAGCTTATAGAACAAATTTGCAATGCAATTT AGATCCTTCTGACAGTCTGGCCTCATCTTGTGATCAGCACTCTTTGCTAT AGATTCATAACCACCTCCCCACTCGTCGAATTCCTTTCTGATTCGCCAGA CTAAGGACTTGACTGGATTAAGAAATTTGTACTCTCAACATTATCTAATC TAGGCTGGATGACAACAAGGACAATCTACCTTTTCACCGAATCCAGATTA AATACTTTGTTTATCAATGCCCTTTTTTTAAATGCCATCTAAACAAAAAA CAACGTCTTACCTGTACATGAGCTCAAATTTCGTTGTTCAACAACAGCTG TATATTATTAGAGCAAAGTGTGTCTGTTCTCGACGCCTAATAACTCAGGG CAATTCCAGGTTGTTCATTATAAGGGAGAAACTTGTAGTTTAAATGACGT AGCTACAATGTATCCCTTCATATACTTATCAAAATAGGAATTACATGCAC CGTCCCTATTGTCAAATATTGCAATAAATGGATATATTTTGCGTTTGTTT CTCGATTAAGTAAGGAAAATAAAGCATTAAACTATTATATACAAAACGTT ATGAATGCTATAAGCTTTAAATGAGAATTCAATGCACGTATGAGTAGAGT TATATTTATAAAGATAAATCTGCCTCATTGAGTTTAAATCACTTTCTTAG AACTGTAGTAAATGCTCCTGGATGAATGGATAGGTAAGCATTTAATAAAA AAGAATATATCGATTTGATTTTTCTTCTACTTTAATTTATTGGGCTATTA CTTTATCAATAACATTAAATCCTGAATGMTTGAATTGAATCTACTTGATC TCATTCGGAATCCCTTTAAACATCTTTTTATTTTTCTAGACATATGATAT AAGACAATGAAATATTTAGAGCAGGGTTGTTAGACTCGATGCCCGGTAAT TTTGCCTATTATTTCATCTGAATATATATATATAGATGAAATCAATACGT CGTTATTATTTATTTTTGGTTGAACTTTATATTCCCTTTGAATTTTTTAA ATATTTTTTGCAATATTCATTGTTATAAAATAAATTAAATGTTGTGGTTT TTTTTTTCTGTTGGAATAATGATCCATCCGTCGGTTCTAGTGGGAATCAT CCATCATCATGTCTTATAATAATTACTAATAGAGAAGTAATAAGTAATTA TTCTATTCGAATCGTTGCTGTTTGTATTTCTTTTTCTTATTATATTAATT TTATTACTTACTTTATCTCTCTTCCGGATTCATTACAATGTGAGATTTGT TGGTCTGCGCATTCCATCATTTTCCCCTCAGAAAACTACAAACAAATGAG TTTTAGAGTAATACACATTACATATTTTGATTAAAATTTCCTAAGGGAAC ATCAAATTTAACCAAGGATAACAGAATCAACGTATTAATCTCAATTTATT TATATATTAAGGAGAAATTCCTTGAGTCAAAATGTCCTGAGGGAAAATAG TTTCAAGGCATAATTACCTAGCGTTAATTTTGAGTTAATGGCCGAACACA GATTAATTTGATCTTAAACAGTCGGGCAAGTAAATAACATTGCAAATCCA CATAAAACTAAATATAACTTTACTTTTATTTTCTTTGTATTAGTCACTAA TACTAAATGTTAATTAGTTCAAAGAATAATAAATTATTTATTAACATATT TATTAAATGAATTTTCCTTTTATTTTTCCACTCACCTCTATGAATATATA TGAACTATCGATTTTTCACTTTTTTTCCTGTTTGACAAACACATTTCACT AATAAGGTGCAAGGCTAGAGGAAAAGTTAATAATGCAATGGTAGTCAACA GATCCCAAACAGACTCAAATGCTACAACCTACTGCTGTTAGTTCCGCCCA GTGTTGCTTTCATTTTGTCTACGAGTACTAAAATACTTTGTGCCAAGTGG ATAATATAGGAATCACAGATTGTACAGAAAATTACGATGATTTATGCAAA TTTATCTCCTGAGCCGTACAAAAAACTCCAAGTGGGCCGGATTAGCCCTT GGGTCGTATGTTTTACACCCTTTATTTAGAGGACAAGGTAAAATGTTGGA ACATAATTAAGAATAATTAATGTTTGGCTTCTACGTAATCATTTCTGAGT GTGCACTTAACATCTAAGAATTACGAATGTTGGGAAAAGTGAGTATAGCT AAAGTTCAGGACATCTTATTTAAACAAAAAAATCAAAGCTATTGTAATAA AGCGAGATTTGTTGGTCCATCTTTTTGTTTGCCGATGACTCATTTTTGAA TATGTTCTTAAAATCTTTGTACTACATGATCTATTTAGCAAGGAACGAAT GCAGTTTTTTTGCAGTCAGCCAACTGAAGAGTAAATTACATTTTTTAAAT TGTTGTCATTATTAATTAATTTCTGAGGGGTGAAATTCCTTTTCTATTAA ATAGATTTTGATACAAACCCAGAATAAACATTTATGTGTGCTTACAAAAT ACGAATACATTGGAGGTTTTTTGATGAGTTATAATTGGCTGATTCTTGCT AGAATCAGAGTAAAATCGAGGATCACATCAGAGTAATTTGTTCCTATATA AGTATTTATTTTCTTATCCGCCTCCTCCCTTGTCAAAGCTGTTTGTAGCT GATCTAATGGAAAAAAATTATAGCGAAGTTGTTCTTTTCAAAAAGTGTTT TTCAAATTATCCGGGTTATCATACAAAATTTTCGTTTTCATACCCAAAAT GCCTTCAATCAGCATCTCTAAACATTCATATCTATATTTGTCAAACAAAA ATTGTTTGCGTCTGTTTGTTGTCGACACATAATAAATCCGAGCAATGCCA CGTACTCACGTTATTATTTCATAATTTTGCCACATATTCTTCAAATGTCT TTAGAATGAGTTCTAATACTTTCTGTAACATCTCCAATCAGACAACTTGT TGTAGTGAAAAAGATCATTATTATTAAGGAATTCCTCTTGGTAAACTAAT TTGTGCGTTGTACTGTTATAAAGCTTTAACATTTGTCGGAGCTGTAGTTT TAAATCGAGAGGTATTTTAATCAACTCTTCAATCTACTAAAAAAAATTAT TTAGTTAAAAATGATCAACTGACTAAATGAGCAAATAAAACTGAAAATGA GTTGATATATATTAAAGTTTTTACTTAAATAAATGTTTGAATTAATTATT AAACTGATGAATTTCCCTTTTAAAAATAAAATATAAACTTCAGTTTTTGT TTGTACAAGATTCTTATGAAGTAAGTTTCATTCAAATAATTAATTAATAT GGAGTATATATTTTAAAAAGTAAGGAGTTCAAAAGACCCATCAAAAAAAT GATTTTAATTAATAAGCAGCTGCAACAACTTTTATAAATATGTAAGATAA AAGTAGAAAAATTTACGCATGGTGTCGCATGTGAAAGTTTTCCCACTTCA CTATGTCTGAGTCAAAACAGCTTCCGTTAAATGAACCCAAAAAAAAATGT TTAACTGTTGCAACAATATACGCAGCAAACTTTATTATTTTTTACTAAAA TAACCTCGAAACAGATTAAATAGTAGCTTAGCTATAGTAGTTATGGAACG ACGTAGCTCAATGGACAAGGCACTCGTCAAAATTATTCCCTGTTCGTAGG TTTGCGCCTCGGACGTTCCTAGAGAAGGAAATATATATTATATTTATGGA CATCAAAAAATGTTTCTTGGGCAGTTGGAGTAATTGTAATACTATAATGT TTATTTATAGTTAATCAATGTAACTCCATCAACCCAATTAGAGGAACATT AGAAGAAAAAAAATAAAGTAAGAGCAGACATTTATATTGGTTTGTTGTGT TAAAATTTGGTGGGTCTAAGTCAACCCAGCTTAGAGTTTCTTTGAAATTG TTTTATAAGAAAGAGTGGATATCTGAAGGGAGGCAATATAAAGAATCTTT CACAAAATCTTATGGTATAGCTCAGAAATATAATGAACCCTTCGTTAGTG AACAAGGATTTTCGATACTCAAGGTTTTAAAAAAACTTTCTGTAATTCCA TTTAAATGTCATTTATATTTTAAAAATGATAATAACAAATTATTTCTTAA TTTTTAGGGAAACCTTTAGGGCACATTGTTTGAAAAAAATAGAATTTTCA CTAAGGAGGGTTAATTATTAAATAAATACAAATAAAGTCAGAGTGGCAAA GACTCGCCCGCTAACTTGCGTAGATTAATTGTCTTATTAATGTTTTTCCA ATGCAAGATGCCACTTCATTATTTTTGTAATGAAGTATGCAACTTTCTTT ACCTCCGCATAATTCATTATTATTTCAGTTAAATGAATATGTCGAGTTAA AATTTGATGAGTCTAAAAGTGTGTTAATTGAAATGCTTACAAACTCAGTA AGCCCGCATAATATTCCCTTTTTAGTATTATTAACCTTCAATTCCTTCAT ACAGCAATAGCTTCTTTTATTCTTGAAGAACTCTTTGACAAAAGCACTCC TTTTTTAATAATTTCAACTATTTTCTTATAATTTCTTTCTCTTCAATAAT TGTGTTTAAATGTTCGAATCAGTTTGATTTACCCACAAGTTCGAACCGTA TATTATAGGACAATAAAATACAATTGTGAGCTCTTTGCATTCTTAGTGTG TCATTCCTATTTAATTGACTTAAATTGATATGTTTTGAACTTGAACTGAG TAACTAAAACTGATTTGAACATTAAATAGTTGAAACCGTTTTAATATCAT ACGCACCTTCTCTTTTCTCTAATTTCCATTTTTTTTCTTGAAGGAGAAGA AATAATAAGAAAATACTTTTAATTATTGGCAAATGAGAGGTTTAGTCAAA AGTTCCTCAAAAATAGAAAGGGTTATTCCTGTAAAGATGGACTGCGAGAT AATAATATTAAATAAAAAAAGGGATAAACTATGCGTGCTAGATGATTGTG TTCGCACTTCAGTGAACCAGCAATACAACTCGGAGTAATTTAACCAAAAA GTCTTGAAATTGTCTTCAGTCTCCCCTACTAAAAAGAGTATAAAAAGCTT TAAAATATATTAATTCATAATCTTTAATTTCTTTTGTAAAAGGTAACATA TTTTCTTTATATAAAAAACCCTCAGATTTTATACATTAAAATATAAGTTT ACGAGCACATTACTTTGATATAACAAAACATTATTTGATAGTTTCTTTCA CTATTCAAATAATAAGTTGATTGCAGCGGTAACGTCAAGCTGAAGGAGGT AAAAGCAAAGACATCTAACACTTACTTAAAATAAAGAAATAATATGATAG ACTAAAAGAATATTCATTGTATAAGCTTTTATTTAACTTTCCGTTAATCA GCCTTCTGTTTATTACGGGATTAGTGAACTTGGTAAAAAGTAAAAAAAAT AAAATGTATTTAATTAGATTTATAGTACAACTATTATACCGGGCCAGCCA TTATCATTTACCCATTTTAACACTCAAAGTGTTTTAGTACTTTTTTCACT CGTAAATATCAATTAAATTGCTAAGAATTCTTGTATGTATATAAGACATT CCGAGAAATAAGTATCTATTTAAAATCATCGTAACAGCCAAGGTTAATAG AAATACAAGGTTCGACCATCATGTAATCGGGCTTACTGGAATTTTTGATT TGATGTACCGTCCCGACTACTAGGCAAAACAGACAGATTTTGACGTCATT GACTATAACAACTGTATTCAAATAGTGACAGTCAAGGAAGGCGATATATA GGTACTCTTGATAACAGTTATACTCTATGATGCCACGATTAAAAAGTGTG GTGGAAGTCAAACATCAGTCGGAAAAGCGTAATGGTATAACTTTGTATGT ATATTAATCTTGGTAATAGCATGAGTTTCGGATTCAACAAGATATAATTT GGTAACTTTAAGGTAAAAATATTAAATCTATATTTTTTATAGAAAAAATT TATGGAATATTTATTACTTTATGCGAGTTTTGAGGAATAAATTTATACTC GGACTTTTATGAGGCTGTATGTATGATGTAAAATAATAGCCACAATATTA TAWTTTTGTASCTGCCGTTATACGCCACAATTCTTATATTGACGGAAAAG AGAATCCAAGAAATCAAATTGAAAAATGCAGGAACAACGTTTAATCAAAA AGGTTGATTAAATTCACGTAACCTCGATAAAAATGGCTTAATTTAGTAAC GAATAAATAAGAAACAAAGTAATATGAGGTTAAATATAAAATTGAATATA TTCTGATGGAATGTTCAGGAGCATACCCTAAACAGTAGATTGAAGGAAAT AAGAAGAATTGCTTAAAGTCTCGGGTTGTATAAAATTCAAAATCCTAATG TAGTGTTAACAAATGAAATTAATAAGACTCTACGCTAAAGGAGTCTTAAA TATGATATTTTCTAATTATTCCAAATTAAATATTTTTTAACGTATCCAAC CTTTCTTGGTTACGGGGGTAGCTGCAACATTTGACAAGTGGCATACAAAT ACAATTTGTTCATCAACAAGGAGACAAAATTAAAATTATATTAGTTTTGC GTATGGCAAGTATCGTAACCATATTGTTGTCAACCATAATTTGAATGCAG GTCTTCTAAAAACACGTTGTAGCCTTGTCAATATMCCTCATTCCTGAAAA ACTTTCCCTGCCATAGTCAGTAGTATTAAGCTTGTACCCTTTTTTAAAAT AGATGAGTGGCATCGCCAGTTACACGGATACAAAAAATATCAATCTCATG ACCGATGCTGCTGTATTATTCAGGGTGCAGTCCTCCTCATTTACTGGACC ATAGATACGGTAACTGATGTCTTTGCGTTTGCTCACCTCTTTTAATCGCT GAAGTTGATGATGCATCAAGCCTTCTGTACGTACTGTAGATTATTAAAGC GATTGACAACAAACGAGGAAGTTCTATATAACATTTTTTGTCAATAACGG ATCCTCGAACATCGTCAAACTCTTCCCTCACCTTTGTAATGATGAATTCT TTGGTATGAGCTTGCAAGTTATTTTTTTTTTACTTTTTCGTGCAGTCTCC ATGATGTAACCAGATTTATTTTGTGTTGGGCACCACTTCCAGACCTCCTT TTGACACAAATCCTGTCATTAATGGTCTTCTTTACGTTGCAATGAGTCTG CTGCTTGCCTTAGTCAAGCTTMGGATCACTGTTAGTGTGTATTCAACGCG AAGTTGAGACACAATTTGGATTCTTTTGTCTCTTTGAGACCCCATTTATC GATTGATTGTTTTATTTTTTTTGTGATGGGTGTCAATGGAACCTTATTCC TCTCTTTTATAAGTTTCCAGATTTCAACTACGCACCCCGTATTCATATGC AAAGTTTGTACGTAGGAATTTTGATAAAATGAGATCATTTTTTCCCTTAT AAGAAAAAATGAATAGATATATGTATAATGTGTAATATTAGAAATGCAAA ATCTAAAAATAAATATTTTAAATACTATAGAAAATAAATTATTTTTTGCC ATATTTAATTTATACTACATACGTATATTTCACATCAAAAAAGTAAGAAA TATTATATTTTACATACCATATACTTTACTATGTACATAAATAACGTTTA TTTCATCAAATGTGAATAGCTTTAACCATTTACAGATGTACAGGGGTGGG CATAAGTATCTAGATAACATTTTCAAGTAAGTTTAAATATTTGTGTGTGG CATTTTAAGGCAAAAAGTGTATTAAATATGAAATCTAAATTGAACAATTA TCTGTAGAATATAATCACTCTCGACATTGATCACCAATCATTACTGTCAA TGGTGATCGATTATTTTGGACGGGAACTTGGTCTTCATCACAAGAGGAAC ATTTCCTCTTGGGCCGTCCAACCGTCTTTCTTTGGATTGTCAGCAGCGTC GAAGGTGAAGTTTGACTCATTACTGAATAGCTTTATGATGCCTGGATTTT ATTTACAAACTTGGCGAAGTTATTTGCCTCTTTACAACCTGATGTATGTC ATCTTCGTTCTAAGAAAGTGACGCCTTCCTATCTACTAGGACTTCAGGCC AAGGTCGTCCTAGATGGCCCTGGCCACCGTATCCTTATAGATAGATATCC TCCAAGCATAAGCAGTAATTGAAATTCAAGAATTTGCATTGATGGTCCTC TTGAACACAGCCAGAAAGAGACTTGTCCGCTTTTTGTTTTTCTGTTAACC TCATAATAAGAAATACCTTTGCCTTCTTTCAGTCGCTTTCGGACGTCATA CAAACGAATTCTAACCTAATTTTGTAACTTTTGTTTGCTGGCCACAAACA ATTAACTACTGACTTTACAGATGACCTCTTGCTACTTCATGGTGAAACTG CACAGATTAAGTATAAAAACAAAAGTTGTAAAGTTGTTGTCTATGGACAG TACTTTCGGTTGAAGTTAGAGATTAGCAAGAAAAACGCTCTGCATTTAAA AAAATATCTATTAGAAATAGTCTGGATACTTTGCCGGCCCCTATATGAGT CTAGCAAAAAGAAGTGACGAATCAGGGGAATCCTTTTTAACGTTTTGTTT ATATATCTGTTTAATATCTACAATTATTATTCAAAATACAAAGCAATACA AGCTTCCAATCAAGGCCTAAAGGACTTGCATAGTTTTAGTATATATGGTA CTCCTCAGACATGTTGTTCCATTCCTTTGCAATGGAGGGTGTACACTATT GACATTTTTATGATAAATGCAACAGGCTCTAGCTTCCACTTGCTGTCATA TACTGAAGTCAAATGGATTCCAGTTTGGGGTGATGGTGGCCAAAACTTTT TTCGAATTTCAATTTCTTTCTGTTCTTGTAAGGTAGTCAACATGTGGATA TCGAACTTCCAAATGCCTTTTAAGCTCAAATATATCTTGAACAAGTTGCT CATAGTCTTCTCAGTTATATATCTTGCAAGCCTCATTATTATTGTTGAAG GATTAGATTAAATAATAGAGTTTATTTCCTTGATCTTGGGTTTGGTAAGG CCTTTTCAGAGTTTTACACTGCCTGTTTCTAAAGTTCAAGTAACTTCAAA TATATGTATAATGTTGTTATCAGTGTTCAATTAAACTCTTAAAGATCTTG TCTATGTCAACAAATCTGTCTCCAGTACAAATCAACGTGTATATTTTTTA TCATATTTCGGACATCCTAAGGACAGTTAAACAAGGGCCTTTTAAATTAA TCCATATCAGTCCGAAAACTTAGTAAAATGTTGTCTTTCATGACGTCACT CAACTATATTTCTTCTTTTTTTAAATCAGTTTTAGTACTAGTAGTCCAAA GGACTAGTCCCAACCACTAAAAAGACAGGTACGAAAACTGGAATCAAGAG AAAAAAATAAGAACTGAGACAACACTAGGTTTAAGAATCTAAACTGAAAA AATATATCGGACAAATAAGCATTAAATTTTTTATGGGGGTATAAATGAAG AAAGTGTGCCATAAAGCAGGATTTGATATATTCACCAACCTTTAAGGACC GTAGCTAATACAGTACCAAAAAAAATCAGGTTATTTCACCCCGCTCACTC CTTCTTAGGACAGTGAGAGTAATGATAATCACTGAAAACTTTGTGTGTGT GTGTTTTGCTAAATACTGACATAACATATAATACACAAAACAGATGAGAA GTTGAGTTTGCATATTATTATTTTTCTACCCCTTGCCCTATTCGAATACG TATATTATATATCCATTAATTAAGAAATTATAATACATATTACCCAAATA ATCATGAAGAAATACGATAACAATAACCAACTATCCGTATAAAAAATTAG AATAAAAAAATAAAAAACACCACGAAAAATGTAAGAATTGAAAAGAATTA AGAGACTGTTTTTATTTGAACTAATCTAAACTCTACTTCTGCTATTCTTT GTTAATTGTTAACATTCTTATAGCACGCCGCAGAGATAAGTGTTAAGAGC TTAGACATAACCATCGATGCCAAACTAAGTTTTTCGATGGTTACTTCGAA GCCATATTGGTAGAGGTTCATGTGGATCAGGTTAATTCCAATATTCCCCG TCAGACCAATCTGAATTTTCTTAATTATTCCTTTAACAGTCTTACACACA GACTATGTGAGAAAATTCATTGATGGTAATCTCCACTATGTGATCGAGCA TAATTAAAATGCCTCCCAATAAAGAGGACTCCTGACGATGTTCGATATTT TCAATAAATTTCCGCTGAACTAAGGATTTGAGGCCATCAAAATGAAAAAA ATCAGTATAAGGTTATTAAAAACGCTTCCTATAATGAGAAAACTACCCTC AAATACCCAACCCCTGAAAAATTATCAGAAGACAAACAGACAGTGCTTCT AGACAACATCCCCTCTGTAGAAAATACAGAGACCCATAAAGACGTTGGTA CAATACGTAATATAACATCTGTTTCATAGAATGTGAAGAAGACTTCGAAG GATATCAATCAAGATAACAACAAATCAAAATTAATCTTTTGTTTCTGAAA TGAAACTCTTTGACTCAAGGACTGAGAGATATGCTGAAGCTTGTTCACAT AAGAGTACGGGTAACTCATCAACCAGAACATAAAAGATACCTAGGATATG GTACAATCAAACATCTCCAAGAGAAAGTGAAGATCATGACATCAATCCCA CCATTGACCTCTAGTATGGACGAAATAGGTTACGCTCCCCAAAAGAGACC TTGAAAGTCCCATCACATCGATCACGAGGAAAATGCAATCAATAATATTG CGAGAGCTAATTCCTCAATGGAAACACTTTACCCTTTGCATAAGGATTGT TATTTGATATGGGGGAACAAATATGTTTGCAAGCACCTCCTCCAACACTT CAAAAAGTATATATATTGCTACTTGCAATAAATTAAGTTTTTGATAAGAT ATCAAACTGTCCAAAATCATCTAATCGTTCATGTATGTATAGACTTGTAC CTAGGGCTATGGTTCTAACTAACTCATCTCATCAATATGTAGAAGATGTA CTATAGGAATTAAATAACTTTTATCTCAAAAAATATATATTTTACATGGA GATATTATGTGTTAAGAAAAACTATTTATGTCTCGGTTATAAAGTTTGTT TTTTTTTTTTTTTTGCTATATCAATAAAATCGTTATGCTATGTGTGTTCA ATATATGCCTAGAAACCAAATTACCTATTTCCCTTAAAGCAAATGATATT AAAATGGACATGTATGTACATATTTTTATTTTTTGAGTAGAAGCTAACAA CGTACAAGTTTGACTGACATATGCTTAACATTTTATGTCTAAATAAGGAT ATCTTTAGGATTGTAAATCTTAAGCTCTGTTGAGCATGTTATTTTTTGTT GTAAATCCAACTTGAAAAGTTTTTTTATTTATTCACTAAAGCAATTATCC TTATTGAGGCGAAAATATTTGATAATAAAGGTTCGACACGAGTGTGAGTG TCATTGCAAGACGAAGAGTAACGCTGACGATTTGTTAAAAAGTTTAGTTC CCTGTTGGACTCAGAGTTGAATGAATCCACATACATATATTTGCATGATA CCCTCTAGGAATTGTGTTGATTTATTTTATGTCACAGCTGCTTGCAGCTA CTTTAATTTAAAATCATAACATCTTAGCTGCTTTCCTCTCAAAAAAATTT CAAATTGTTGAATGTCCATGCTTACTTTCNTTATTATTTATTTTACAAAC AAAAACTGACTGCGATTTACCAGATGGTCCATTGAAATCAGATCACTTAC TAATTCATTAAGTAATGTAGGTTGAGTGTTGTAAATAAATCCTCATTCCC ATATGTTAAAGCAGAAACAATTAGTAACAAAACAAAATAAATGTGTACAA CTTACGTACAAGTTGAGAAAATGACACTTGAACCTGATTGACGAATTTCT ATTCCCACACTCTATGCAGTTGGGCATCTGCAGGACCACCGTCTAGACCG TCAGCAAGTCTGAAACGTTGGAGACGAAGAAGATCTCTGTCAAAAAGGCT ACACKGGMCCKGGAGGAGGWAAAGAAAACSGCCMAAGCCAATCCCCTTTA GTTCACGAGGGCCTATACAAGAGATCACAAAAGATTTTATATTAGACTCT CCATAGAGCTATAAAAAAAATGATGGGAAAGAGCCTTGCAAGGAAGGAGA TACGCCCCTTGACACCAGCAATAAAATAAACGCATCTCCTCTGTTACAAG GCTCTTTTTTTTTTTTGGTCCTCCCCCCCCCCTACAGCCCTGATCCCAAC ACCCTCGACTTTTGAGTTCATGTCGAGGGGAAGGCCTGCAGAGTGTCCGT CATCCAAACACCGAACCCCTCAAAGCCTCTTTTGCCAGCACTGGAACACC ATGACAGAGGAATATATCCGCATCGGGTACCAGGTCTTCCACCGCCTCCT GTAAGCCATCATTGTAGCTAAGGTCAGCTACATAAATGATTCAGAGAGTT TAGACAAACATCTACTTATAGTATTAATTTTGTTGAAATTCTATTGTTAA TTAATAAATTATATCTTTTTTAAGTTTAAAATTCAATGTGTTCATATTTT AATGGACCATCCGATCCAATCTCAAGTATTGAATATGAATTTACAAATTG GCAGTAGGCAATAATATGTGTATTAGCTACCTCATTTTTCTCAATTTTTT CATTTTCTAATTAATCGATTCGGTTTGATGCTTAACAACTCGACTCGTCT CAATGGAATCAGAATGACATAAACCTAGAATGGTTTCATATTAGGATAAC ACAAAGCTATGAACTATTACGCAAAACAAAGACAAAATGATCAATATTTC TCAAAATATAGTCGGCTACGTAACGACTTTTTAGTCCGCTAGGGTTCTTG CGTATACTTTAATTATTTTCATCAACTCAATTTATGTATGTTCGATTCAC GAACACTCCATAGGCCAAAAAATATGCATTAATTGTAAGGACTTCAATGG CCCTGTCAGATGGAGTAAGGCTAATACTATAATCTTTATTTATACATAAT CAGTGAAGCTCGATCTTATCAATAAAAGGAGCATTATAAAAAAATATTGT TTTATAAATTATAATTCTGATAACATCAATTCAATAACCCAAAAACATAT TTTAATTTTTTAAGATATTAATTACAGGATTGCTGTAAATCGATTCTCTC TTATACTTAAGCGTTAAATATTTATAAAATAAAAAAAGGGATTGAGTTGC AACAATTTATTAATAAATCTCTTAAGGAATTAATTAATATTGCGGATCTA TTTATTATAAGTTAGAAGAGGTAAAAATATAATTTTTTCCATTTCCTAAT CCATTAATATAAAGATTGTTTTAATTACATTCTTTCTTTCTTTTAATAAT AATTCTACTTATTAAAAAAATGGCTCTTTTTTTTTTTTGTCAAAAAAAAA AAAGKGATTAATTATTAAAATATAGCCTTTATATTAATATCCATGATAAA TATTTATGATGCAACATATTTAACTTAAGTTTGGTATGTAGCATTATTGA CAGTAGACCAACATAGAAATGAAGTTTTAGCTCTGTAAGTTAATCTAACT CCAAGTTCTGCGGCTTTAAAGATGGCCTTAGTTTTTTAGCTTCCATTTTT TTAAGTATTTGATTTTGTTAAATTGTATACATATATTTGAAGGTAAATTT AAAAAAAACTGAGGAGTAGAAAGTTGATGGAATTAGAAATAAAAATCCAA ACTTTATTTATATGCTTGGCATAAAAAATTGAAAAAAAAGTATTTTGATC GAAAAATATATTAGACACATTTGTAATCAATTTCGATTATGAGTTTGGCA TAGTAAGAGTGTTTAGTCTTTAGTCTACTGTAATAAATATTAGCTATGAA AATGGAATTAACAGTATATCAGTAATACCCTGAGAGACAGTTAACTAGTC AAAAGGGTAAATATGGAGAAAAATATGGAGCAGGGTACTCAAGCACTCCA ATCACTGTTAAAAGTCTTCCGAATTCGAAAACAAAAGTTATTTTCTTAAT ACMCTCCTTACAAGTACATCAATGGGATAGCCACTTCCCCTTGAAGCCAT GGAAATCCCTAATTAAATGCAGAAACCAGTCTACTCCTAAGACTTGGATA TATTTTGATTTTTTTTACTAACATTAATTTATAAAACTAAAGCAAGATCC TAAAACATTCTATAAGAATAACAGCACCGATTTAAAAAAATGTCATTAAA AAGGAAATTATTCTTTATAGCTTCAATGGAGATAACTTTTATTATTTATT CAGCAGAATTTTCCATATYCCCCTCCCTTTMCTCTCCAAGCCATCACACT CTGCCCATAAATGAATCTATAGCTCCAAACAGTCTGGATGATGCATCTTC TACCAGTCCCAAGATCATTAAATGCTTCCTTAAGGGAATATAGCCTCTAA TGAAGCCAATTATAATTCTTATAGATGATCGCCTTTTTAAAAAAAAAATT CTATTCTGAACTAGGACCCTGAACTAGGCCCCTCCAAAAAAAAAAATTCT TGTCGACACGTTGTTTCTTCTATCCATTCCTGTATTCATGTCATCCTTAT GTACTAATCAATCTCAAATAATACGTACTTATGGGAGTTTTCACTTCAGA TTCTTCAATCATAGTTCCACCATTCTTGGCAAGCGCATCATCATATTCAT TCTTACATGTTGGTCAAATATTTTATACCAGTCTCTTGAGATCATAAATG ATTGAAACTAATCAATAAATTTGAATTAAGAATTGTGGATTTCTAAATAA GATGGATGAAAATTAGATGGAGACTTGATAAAAATGGAAAATTTATGTAT TAATTTAGCAAATATGACGCAAAAACTTGTATTTTTATTCAGTTGTGTAC TTTGGGCGTCATTAATTTTAAGTGCACATTATTTAATTATCGAGTAATAA CCATGTCCAATTTCTCCCACTGTCCAATACCTCTCTGATATCTCTTTTAT AAAGCTGTTTTAATCTTTTTGCATTCATTTATAATATAAATGGAGCAGAT TACTTAATTTTGTATTTGCTTTAAGTTTTGAAACTTATTTCATGTTTAAT ACGATTCTTTTCTACATATTTTAGGAAGAAAATTTAAAAAATGGCAACTG AGGAATTAACTGAAGAGCAAATTGCTGAGTTCAAAGAAGCGTTTCTCCTT TTTGACAAGGATGGTGATGGAACGATTACGACCAAAGTAAGTTTTTGACA TGTTATTTGATATTTTATATAATTTTATAATACAGTTATGTATAATCCTT TCTGAATAGATGAATGGAGAAAAATCGAAAATTCTCAATTATTAGAATAT GTGGTAAAAAGGCAAAAATAAAGGAAAAGAGAAAATTTATTTTATTCATT CATGTATAAAACATGGACGGTAAAGTCTCACCATCAACTCATAAATGGCA ATTATTTTTTAAATTCACCTCATTTTCAGTTAGTACCGACTTTCAAAAGA CTGCTGTCAAAATTTTGTGACAATTTGTCGTTTAGTGTGTGTCTAATTGT GTTATGTGTGACGATAATTCTGTTATTTCCAAAACAATGAATTTTAAAAA AAAATTGTGCTTTTATTTTACACTACTTCTTGATGGCAAAAAATACTTTA CAAACTAAGCAATGGCTTCAAGAATATTATGGGGACTCTGCTCCTTAAAG CAAATAATAATAGTTTAAAAAACCTATTTTGAATGAATAAAAAAAAGTGT TTTCTTTGTTTTTCAGCACAAGTGTTACAAACAACCCCATGTTTCATATA CATGTTTGAGTCAATTATAGGCCTATTATTGAAATAATTGTAGGATAAAT TTCAATACCCCAAAATGTTACTATAGTTTGAAAATTTTATTTGATTGTAA GAGGCATAAATAGAACTCAATATGGTCCGTTTCAAATAAAATATATAAAT TTCTCATCCTTTTTTTGTTAAGACCTATTTTGGCTTCTTTAATTGCGATT TGCAACGCTTCCAAAGGATTAAATAGAATAATTTGCTGATAGGAAGGGAC GCTGATCACTCTTCAAAGAATACAAATGTAATACACTTCCTTTTGAGAAA AATCCTTTCTAGCACGTTATTTTCTTTACGGGTCACATAAGAAATTTTAC TTTTAAGTACCTTGAATCTACATACATTTTTAGTTGAGTAGTTCATCAGG ATCAAAGGCAATGAGAGTACCATCAACAGAAATTTCCCAAGAAACTTCCA TTCTATACCAACAATTACCCAATGTCTTTATAACTTTAAAAACTTCCTTC GATACAGAAAATATATTATCTGAAAATCCATATCCAGTTATAAATATATT AATTGAAATAGATAAATTCCTTTGCAAAAAAATATTAAAGAAATTACATG GAATGACTTTTTAAATAGAAAAAAATCATGATAAGTAAATAGATTTATTT CTTATCTTTTCGTCACGATAATGCAACCTGAGCACTTACCACCGACGCTT AATTGTTTTTAAATAAATATATTTCATCGTAATCATGTTGGGTGTGTAAA AAAAGAAACATGGTAATTTTGAAAATGATCGAAGTAGAGCAGCTTAGCTG TCATGATGTTTCATTAGATTACCTGTTAACAACAATGTGAGTACAGAAAT AAACATAAATTCAATTTCCTAATTAGCAACTCCCTAGGTTAGAAATATTC AAATGTCGATCCTTAATTCTACTCTAAGTCCACAAATAACTTCTTAACCA ATCCTCAGTATAAATAAACTATATTTCTTGATAGCAGCTTCAGAAAATAA AAGCATTTCTTAGCCTATCAACAGCAAAAAAAAAAAAGTCGCACTCCAAA AAAAGATTTGGATGTAAATTGGACAACCCTATGTATTTCAACTATAATGC CTCCAAAATGTATGTTTGATTCAGGTGCAAGTATTAATTTACTAGCTTCA TATGGGTTTGGATTTTCTGAAATTCCCTTTTTTATATATATTTTACACTA TTGCGAAGGAACGATCCAACGCTACATTTTTTTAAAATTTTGTTAACTTT ATTTAAAATTTTGAAACATTTCTTGGCAAATGAGTTGATTCCAAACTTTT AATGAAAAAATAGAGCTCGTTCACTAATTTTGTTTGTTGAACACTTCTAG GAAAAGATTTATTCGAAATATTACTTGAAACATGGCTAAATTTTATTTTT TCTTATTTAATTTTTGCCAATTCTAATTGGGCTTCGGCTGKTATGGAATA TTTTKATGGCCGCAAAGATGTAAAATTTTGCAATTTAATAGACACGTGGT TTATGGCTCTTGGGTCAAATCTTTGTAGTGAATCGGGTATATTTTTTTAA TAGTCATTAATAAATATTTTATTGACACATTTATTTATTTTGATATTAAT TATAGGAGATCAGGAATAAATCTTCTTTAACACAAGTAGAATAAAATAAA ATTGAACAAAAACTACAATAAATCCTAAAAAAATCTGAAAATATCTTAAC AACATAGATTAATGAACTATATAAAGAATAATTTTTTATGAAAATATAAA AAGATTGACTTGTCTTTTTTTCACAATGATCATTTGAAAAATAGAGAAAA TTGTATTTTTAAAAGAACCTCCACAAATCAAATATGGACATTTAGGATTA AAAAGGCTATAGAAAGCATTAAAAAACAAATAGAACCTTCCTTATATGTA TAAGGTGTAGTAAAAAAAAATATCTTAGAACCTTTTCATTTTCAAAGGAG TATCCATTAAAAATTAATCTATATCTCCTTGACAATCAAAAAAAGTTATT ACATGAGGGTAGGATTCGACGATTTCAATCATTTTATCCATATTTTCGAC AATTGGCCTTGCAGAGCGTCATGCATTTTTAACATCAAAATTAGCGGAAC GTAATCCACTAAGCCAAAATTATACGTGATCAGCTATTAGAATATCAAGA GCATAAACACTATTCATATTTTCAGCCTCCTGATTTGCATTTTCCACCCT GTTGGAAGAAAAACTGTACAATATGGGATATTATTTCTTTGCCGGTGCCC AACTTTGATGAATGCTCAAGCAATACAGGGTCAAACCAACACAAAACTGT CAAAAAAGTTAACGTAGAAAATCTAATCTTTCAAACACCATCTAGAGTAT ACTGATGACAGTTATGCAACACGAGATACACATTAAAAAGCCATCTATTT AGTAAATACTTTGTTGTTGTTTTTACTAAACGTATTATATAAATTAAAAA AGAAGAGCTTGTACTTTTATCTTTGATCCTGAAACCGACCTTGCCAACGT TTTTTAGTATACAACGCAATATGTCACAATAGATAAATCTTTATATTATT ACATATATAAAATATTAATACTACAGGTGTGCGCGTCTAAAACTGAACAC TCCTTTAAATTTTACGCCATGCACATATTCGTGATTTTATTGAGTTGAAA CCGGTTCATACTTCGAGGCAAGGGTCTTGACTAGTTATAAACAACACTCC AGCTAAATCTAAATAGCAACAGAGAAACAACAGCCGATAATATGGGGAGA GACTTCGAGTCGTAATTTTGGAGCTTTCCACGCGGGGAAAAACCCCCACT GAAATTGCTGAGGTTATGAACTGCAACTGCACCACCGTTTACAGCATGGT AGCCAAAGGACTTCTGAGGCGACCACAAGATCTAAGTCGAAGCCTCGAAG GTTGGACGAAATGGTTGCTGTCGTGAAAAAGTCTGTCGAGGACAAGAGAG GCAAGGTCACCGTCAGCGGCCTCTCCAGGGAGTTCAACGTCAGCAGAAGG ACCATGGACCGGCTARTTAAGAAAGATCTTGGCCTTAAGGTCTACAARAG AACCCCTCGTCAAGCCCTCAAGACGTAAAATTTAAAGGAGTGTTCAGTTT TAGACGCCCACACCTGTATTTGTATGATCAGTTCACAACACTTGCTAAAA CAAAAAGGCTTAAGAAACTTAGACTAGATTTTTTTTAGTTAAATGTATAC TCAAAAAAATTCAGACCATTTGGGATCATAATTTGCTGAAATATTGCCAT ATGGGAAAAAACTACAATTCAACTTTATAGGGGAAAAAAGAAACCAAAAA TTACTATAATTGTTTCCAATATACTTTTAGTAATTACAATGGTTAAAACT GTTGTTAACATTTTTTTAATAAACTATATAAAATATAGTCTATAAAGTTG TGTGGTAATATTCAAAGCATTTTGTATGGAGATTCAAGTCACATTTTTTG CACCTTACATTTCCTACATAGCTTTGCCTGGACACAGGAGCTCTTAGAAA ACGTATTTTACCCCTGTAAGTTTGATTGTCCAAAAGAAATATAATAATGA AATAATATTCTTTGAATAAACTCGTTGATTTTCTGTGGAGTTCATTGTTT ACCAATACTCATTTCATTATATCTTTCAATTTTATAAGGAAAATATTCAT TCTATGATCCACGGCTTCTTGTGCCTCACTTTTCCGTTCAATTGTCTCAA CAAGTTACTGATGCAAGATACCCTCGGATCTTTGCTCGTAAAATAATTGT TAAAAAATATCTTATGTCCATGATTTGCTCAATAATTTTTTCTTAATGTG AATTATAAGTGTCTTCTATTTACCTTGCTCAGTCCTTTGTCTCTAGGGTG TTATCATGACTGTGAAACTAGTATAAGATGTCCATAAATCAATGTCGTCT CATATTATCTGAAAGGAGCTTTGGAACATAGTTTTGAGATGACTTGTATT TTCTTTTATTGATTAAAGGGCATGTTGCAGAGAGAATTAATTCTCCTAGA AAGACTTTCAATTGACTAATAAATGTATCGAGATTTTATTATTTTGAATT GCATAAAGATTGTTTGAAAACAATTTGTGAAAGGAGTTCTTCACTAAAAA AAAAATAATTCAAAAAATTCATGTCATTTACTGAATGACAATGGTACATT AGATGTAAAAACTGGTTGAGAAATATGATATAATCTTTCAGCCAATGTCT TCATCTTTGTCTTGTTTAATATGAGCTGGGGATTGTAAAAGAAGTCCACC CAAACGATCCAAATATTATACGGCTTCTTCATCAGACTTGTCACTGTCGC CATCAGATATATTATTGACATCTAAAAATGCCATGATAATATCATTATTT GATATAGCTATATATCCAATATGTCAATGATTTCATCAATATTCAAACTT CATAGTGATACTTCAGAATATAATGCTATAAAATATATAAGAATAAAATA GACTATGACGCCGAAATGTAGAAATAGATTATGTCTAATTTGCATAAATC CTTTATACAAAATAACTACTTAAGACTTCTAAAAATGATCTAAATAACGT TCATAATCAGTTTAAATGCATGTAGAAAAATTTCAACTTTGGTACTAATG CTTTAAGGCAAAAAAGAAACTAAATGGGATAAAAGTTCCACTTCACTACC CATTACCCATTATTACACATCACTAAACAAATAAGATCCAAGTAATTGCA ATTTTGTTTAATTCATATTTAAATAAACATTTCAGTTTATAATTAGGTCT CTAGAAAAAAAGTTATACTAATGAAAACAGTTCTGATATTTGAGACATAA TAACTAATGACTAATAAAATTACTCGATTAAAATGTATGTACATATTTTT GAAATCCTTTAAAAAGATAAATTTAAAAGCACGGCTTTTATATTGAATAG GAACTAAATTGTGAAATTAATTAAGCAACTAAAAACTATTAGAAAAAAAA ATCAACAAATATGTGAAATTGTTTAATTTGAAACTTTCTAAAATTGCAAA CCAATCGACACTTTAAACTTTTATCTGAACAAGAGGCATAATATCTTAAT AGATCTCCAGCATAGTCCCATGAAGTTAAAACAATATTAGAAATCTAGAT ATACAAGAATGAATATCTTGCTGCATCCGCAATTATTATTGTTAAAAGAT TTTCTATTCTGATGGGCTTTACAATAGTTAATTTTTCTGCAATAAAGGTT TTGTGGCTTKAAATAACATGGKGAAATATTCGATTCTTACCATTATGGTT TTTCGAAGGGAGTCCAAACTTTGTTATTGGATACAAACAAGATATTTTTG TAGAGTGCGAGGAAAAGCCGCCTAACAATTTTTGAAATTAGTTTGGTATG ATTTTTTGAATTGTGCAATTTGTTTTTATCAGTGCTATGATGTAATCAAT CGTATTCTCATGAAATTGGGAATTGTTAGCATTGTTCTAACTTAAGAGCC ATCGGGCAGATTAAAAAATATGATTCATGTATGTCACCGTATAGTTCATT AAGAAAAGAAAATAAGTTTTTTTGTTCCTCTGAGGTCATTATGACCTTAT TTTTGACCGAAATAAAACATCATCTTTCCTTCTGTCTTTCTGTATCTCTC TCCTTCTCTCTGTCTCTCCCCTATTCTCTTTTCCCTCTGTATCTTTACAC ATCCCTCCCTCGGTCTCTTTTTTTCTACCCTTATTCTTTGTTAATATTCT CCATTATTCAGCCCAGAAATGCGGGCATTCTCTCCTAGTATATTTATAAA ATAACCCATTTATGCAAATATCTACATATATAACGTGTTTGATATTTTTG GGGCGAAGCTCTTGATACCCAAACTACTAAAGGTTCAAACATACTCAAAG TCACAAAATTAGTTTATCTAACAGTGATCCTTAGAGTTATATCAATTCAT TATATGGGACTTAAAACTGGCCCCATCCGACGTACCTTCCCTGCAGTCAG TCTTAGAAAATAAAACCAAATTTTAACGTGTTGTCTTCATTTTCCTTATT AAAATGTTCTAGTCAAACTTTAAGGGTGTTTCATCTAAGAGAATAGTTTT AGTTTTCCATGATAATTAATTCAGGCCGAATTGAAGTCTTTATTATCATT TTAAATATTGAATCTTTGATAATTGAGATTGACTGATGATGGCCCTAAAC TTATATCTGTAATTACGTTAGTGGGGCTGGAACCATAAGGAGCAAAGAGC AATTGAATTCATCACCTTTTTTTTTAAATTTGGAAGTGATCTAAAAAAAT AAATTGTGTTTACTCTAAAATAATTTAAATGTCATAATTTCAGGACTTTT TTTTTAAATTATCATTTTTCTAAAAAAAGATTTATATCTTTATATTGTTC ATGGATTATTTATTCTTCACAAAAAAAAATAGATCAAGCATATTTAACAT AATGAAATAATACAGAAAGTAAGAGTAAGTTTGGAAGTAGATGTATATCA TAAATTTAAAAGTTTAAAAATGATCCACCTCAGTTATTGCCACCATCCCC ATTTGCATTCCTTTGAAGCACATAACATTGAAAAACAAATTTCACAAATG ATTACTAAAAACATGTAAAGGCTACACCTAGTGTTGTGTCGATATTTTTT TATTTGGTCCAGTTCAGTTCAGCCATAAGACCAGTCATTAAGAATGCCAA TACCAGAACTGATTAAACAAAGAAGAAATAAAGTTGAATGACGTTATCAA TTACCGAACTTGATAATTTTTGAGGACTGAACTCGAACGGACCATGCATA TATACAATTCCAAAAAAATTAAATATAATTTTTTTGTTTCTTTTTAAAAA AGTTCGGAAACCTTTTGTCAAAAAAGCCCAACAGTAATGTCCTTTGTCCC CCCCCCAAAAAAAAAAATATATATAGCCTGCGTATACACTTGCAAATCCA TTTCGGTGCTGATGGCTTACGTCTTATTTCAAAGATTGTACAGGGTGGTG TAGATGAATTGGGAAAAATTTTAAAGGTTTATAACAAACGAACTAGATAA GGTAGAATTTATTTTTTTATTATTTGAAACTTACTTTTAATGAAATTCAA TTATTCATAATGAGAYCAGCCTCTCTTGATAACCTCAGCCTCACGAAAAC ATGGTACATGCCTCATGATCAACCCTCTCTTGAGATTGAAATTGCAGGTT GTTTGGATACCAAAAATTCGGGCTTCAGGACATTTTGTGGCAAATACTTT CTACACTTTATGGCCTTGTGTGTTGGTGCACTGTCTTGCTGGAGGTTGTT ATTTCTTCCTTGGGCTACTTCATCTAATCAGGGAATGTTAATTAAAAGTA CMAAGCCAGTACCAGTACTATGGCAAAGTTGTATCCTTTGAGTATCAACT TTGGCTTCCTTCAATATAAAAGGATGTTCAATTAAAAAAACTTTGGTGTA TTTCATTATGTGACCATAAGATACCATTTTAAGATTCAATGACATAATAC AGTTTGACTGAATTTAGTAAAATAGTAATAGTAATAGTTTAGTAAAAATC TTACTCATTTTCTTGAAAAAGTCTTTAAAAAGTAACATTTATTCTACTTA AGAGCCATCTAGCGATTAAAATATATTGTGTGAATTTTCATCTGGTGCAC TGTATATAGTCATCCTTGACTCATATACCAATAAAGTATAAAGAAATAAA ATGGGGTATGTTATACAGGGAGTACTTTATAAGATAGAAGAAATCTTGCA GGCATTTAATTCAACTCAAATTAAATAAGAAAAAAAACAAAAACTGGGAA GTACTTCTTATAAAATTAAAAAAAATGTATGTGAATTTTGAATAATAACA TTTTTTCTTAAGCTATTATTACTATCTTTTTATTCGTCTGGTGAGAACGT CTAACTATTGAGCGAGGAGCTATGTACGTGTGACAGTGCTAATGAAAAAC AGAGTAACGCCAAGGATTTTTCGAGGAACTATTTTCTATCTTATTAACGC AAAATGTGTCTGCTTATCGACTCCTAATAACTCAGAGCAATGTCGTGACC TACCACTTGTTAAACTAATAATAAGTCATTCTGGAAAGAATTATTCGAGG ACTTGTTTTCCCAAATTGAACAAATTTTGACATTTAAAATCTGCAAACTA TTATGTATTCTATTTGCAAAAGAAGCAAGATTTAAAGAAAATCATGTTGA ATGTCCCTTAATTAAAAAAAACCATACTTTTGTAACCAAGTAATTTTATC TGCTTAATCCTGTTGGCAAAAAGTTGAAGAGGAGGGATAAAATAACATAT ATATATATTTTTTTGTTTTGCAAATATCCATATATTTTTTTAATTAATTT TCTTGTCTCCATAATACCAACTTTCATGCAACTATATTACAAATTATATT AGATTAAATATATTTCTTCAGCAATCATATTAATTAAAGTACGTCCAATA AAAGAAAATATCACAAATGAATTGTATTTCCATGTTTTTATTCCTTCATT CATTCACTTTATACGAGTACTTTTCTGGGTTGTTAGGTCACCCAAACATT AAAATGGATATTTTAGCAGTCATAAATCTTATTTATCCTTATATTAATTA CACAGTGATGCTTAGAAGTGTATAAAAAATGTATCAGAAACCGGGAATTA CTTTTTCTCGTTGGTTATCTGAACCTCCCTTTTTTTCCCAAGCTGTTATT ATTATCATTTAATTATTGAAGACAGAACATGCATGCATAAAATAATAACT AGCGCGTGTGCTCATGAAAACGAAGAGTAACAATGTAACTATGTTCAGGA GGTAAAAAGGGCCGTTCTTGTTGTAATCAGAGTAGAAATGAGGATTGCCA TGGAAGTAATGTCCTTACTATATAAGGAGTGGGATTTGTGTTTATGTATT TTCTCTTTAGGTTGCTTGTAGCGGATCTAATGAAACGCCAATGCAGCTAG GCTGCTCTACCCAAATATACTTCTTATGGTTAGGGTGACCACCTTAATTT TCTGTTTCTATTATTTTTTTAAACCGGTAGGACATATATTATGGATTACT AGTGATGCTATTCGGTTACACTCTGGGCATATTATAGAAAAAAAAGAAAC ATTAAAAATCAAAATGATAAAACTAACAATTTGAAGAATGTTTTGGATGA GAGTAGCCTGCCGTTTTATCAGATCAGCTACAAGTAGATGTCACGAGGGA GCTGGAGGAGAAGGAAATAAACAAGGGCATATACAATAATTACACCGACT TTGAGGCTTAATTCTCTAAGTCCAAGAAAGACCTAATTACTCTGAACACT GTACCTTTAGTAATTTAGAAAGTCACACTCAAACGTTTGTACAACCGTTT TGACTCCGAGTATAAGCACTAAAAGAAACCGTGCTTATACCGTAGTACTC ATAGCACATGTTGAGATCGAAGCAGAATTATAAAAATAATAATTATTATT CTAATAACAAGAATAAGTAATAATAACACATGATTTCTTCACATACTTTG TGCAAATATAGAATTAAACAAAAATTCGTACATAAAGATATAATATCAAT ATTTTCTCTGTACAAATGATATTTTGAGTGTAAAAGGTTATTTATTTTAT TTCAGTGACTCATTTTCTTAACTCAAAATCATATAACAGGCAGCGAATAC TATCAAGGGTCAGGGTTTAATAATAGTATATGTCTCGCACTTGCTTTATC CAAGAGCTTTTTTTTTCTTAACACAAATGCCATCCTTACATATGGTACTA TAAGCACCAATGAACAAATTGATTACTTTCATATATACTCTTTAACATTT AATGTATGTTTTTCCTAACACTATTATAAATTATATCTTGTAGATGCTAG AGGATATATTATTTCTAAACTAAAACAATATTATCATACAAAACATATCC CACTCCTCTTCTATTTCTCTTTTCCTTAGTCAACGTGTGGGTAGATACAT AATAAGTACACAATATCCTTTAAAAACATTAATTATTAACTTCATACTCT GTAAATAACTCAGAAACTGATTTATTAGTATTATTCCAAAAAATGGTAGA GGAAAATATATAATACACACAAAACATTAGAAGGATTATTAGTCTCTGGG GTGTATAAAGACCCCAGAGACTAATAATCCTCCTAAGTAACGGAGGTTTA TAAATATTTTAAATACATTATTATATAAGTAAAGGATAATTCTTTTTTGT ATTGTTTTTTAGGAGCTTGCCACAGTGATGCGATCTCTGGGCCAAAACCC CACAGAAGCTGAGCTTCAAGAAATGATAAATGAAGTGGATGCAGATGGAA ATGGTTCCATTGAGTTTGAGGAGTTCCTTGCCATGATGGCCAAGAAAGTA AAGGATAATGAAAGCTCGAGTGATATCAAAGAGGCTTTCAGAGTATTTGA TAGAGATGGTGATGGCTACATCTCCGCTGAAGAGKTGCATCAAGTCATGT CCACCCTTGGAGAGAATCTTTCAAGTGAGGAAATTGATGAAATGATTCGA GAAGCAGATCTGGATGGGGATGGAAAGGTCTGCTATGAAGAGTTTGCAAC GATGATGAGTCATAAAGGAGGTGCTTGAAGAGCTACTAGCATAATATAAG CCCAGCTGACAACCAATGGGAAAAAGAATATGTACTTTGACAACGCAAAC GTTCTTTCAGATCCAAATACATGACCTTATTCATTCTGAACTGCTCAAAT AATATTGAATTAAAATTAATTAGTATTCATTTAACACTACGTCAAGACCA AAAACATATTTTTCGTGTTTATATATTTGTTTGTTTTTTCTTATGTAGTT AGTGAAATATTGTTATTTTTTTATAATTGCCTAACATTCGTAAATTGTAT TTAGACGAATTGGAGTTACATCAGGACTGTATCCAACTTTAGTGTTCACT AGTGTTTCTGTAATTATTTAATTATCAACATAAGATATTCATTCATTCAT TTGTTTTTATGCTGTTCTTAGACACAAATATGCTTTCAAAATTATATTGA TATATACGACAAATTGAAACTTTTTAAATATATGTATTTGTTACGCTATC AGTGAGA
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