EMLSAG00000001990, EMLSAG00000001990-684756 (gene) Lepeophtheirus salmonis

Overview
NameEMLSAG00000001990
Unique NameEMLSAG00000001990-684756
Typegene
OrganismLepeophtheirus salmonis (salmon louse)
Associated RNAi Experiments

Nothing found

Homology
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BLAST of EMLSAG00000001990 vs. GO
Match: - (symbol:CG45049 species:7227 "Drosophila melanogaster" [GO:0007163 "establishment or maintenance of cell polarity" evidence=NAS] [GO:0005918 "septate junction" evidence=ISS] [GO:0016021 "integral component of membrane" evidence=IEA] [GO:0060857 "establishment of glial blood-brain barrier" evidence=IMP] InterPro:IPR004031 Pfam:PF00822 EMBL:AE014297 GO:GO:0016021 GO:GO:0007163 GO:GO:0005918 InterPro:IPR015664 PANTHER:PTHR14399 OrthoDB:EOG70CR8P eggNOG:NOG283459 OMA:IVHENQM GeneTree:ENSGT00730000112483 EMBL:BT011196 RefSeq:NP_001097876.1 RefSeq:NP_001097877.1 UniGene:Dm.16593 STRING:7227.FBpp0112179 EnsemblMetazoa:FBtr0113267 EnsemblMetazoa:FBtr0113268 GeneID:42691 KEGG:dme:Dmel_CG6982 UCSC:CG6982-RB FlyBase:FBgn0266409 InParanoid:Q9VCV1 ChiTaRS:CG6982 GenomeRNAi:42691 NextBio:830081 PRO:PR:Q9VCV1 Uniprot:Q9VCV1)

HSP 1 Score: 179.874 bits (455), Expect = 2.733e-55
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++ PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MIMALASTDWLMASDWRQGLFVHCIEDDSVPPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
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BLAST of EMLSAG00000001990 vs. GO
Match: - (symbol:vab-9 species:6239 "Caenorhabditis elegans" [GO:0006952 "defense response" evidence=IMP] InterPro:IPR004031 Pfam:PF13903 GO:GO:0016021 GO:GO:0030054 InterPro:IPR015664 PANTHER:PTHR14399 OrthoDB:EOG70CR8P OMA:IVHENQM EMBL:Z49071 EMBL:AY275709 PIR:T25121 RefSeq:NP_495836.2 UniGene:Cel.21304 TCDB:8.A.16.4.1 EnsemblMetazoa:T22C8.8 GeneID:188736 KEGG:cel:CELE_T22C8.8 CTD:188736 WormBase:T22C8.8 GeneTree:ENSGT00730000112483 NextBio:939906 PRO:PR:G5ED30 Uniprot:G5ED30)

HSP 1 Score: 93.5893 bits (231), Expect = 4.442e-22
Identity = 51/167 (30.54%), Postives = 87/167 (52.10%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVL--GCQK-AHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPT-GDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A  +T W+ +  +  GLF++C      T             C K + ++G+L   A L+I+ +F     T+   +GL  +D   KY++YR+A      ++L  L ALI++P +   +I   G  R W   ++YG +W + +    + I+LICD+E EE++YKE+
Sbjct:   33 MIVALCSTSWLKTGSFRTGLFKECTSTNEPTHAAPFPGAPAPGSCHKPSRNSGFLTAAAVLLIVALFLTALSTIFNIVGLSKSDVRGKYRWYRIATMISGFSVLLELTALIMFPAAFYVKISDYGSRRNWEVDWSYGIAWGATLFTIGATIMLICDKEHEEVYYKEK 199
[Close]
BLAST of EMLSAG00000001990 vs. GO
Match: - (symbol:vab-9 "Cell junction protein VAB-9" species:6239 "Caenorhabditis elegans" [GO:0016021 "integral component of membrane" evidence=IEA] [GO:0030054 "cell junction" evidence=IDA] InterPro:IPR004031 Pfam:PF13903 GO:GO:0016021 GO:GO:0030054 InterPro:IPR015664 PANTHER:PTHR14399 OrthoDB:EOG70CR8P OMA:IVHENQM EMBL:Z49071 EMBL:AY275709 PIR:T25121 RefSeq:NP_495836.2 UniGene:Cel.21304 TCDB:8.A.16.4.1 EnsemblMetazoa:T22C8.8 GeneID:188736 KEGG:cel:CELE_T22C8.8 CTD:188736 WormBase:T22C8.8 GeneTree:ENSGT00730000112483 NextBio:939906 PRO:PR:G5ED30 Uniprot:G5ED30)

HSP 1 Score: 93.5893 bits (231), Expect = 4.442e-22
Identity = 51/167 (30.54%), Postives = 87/167 (52.10%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVL--GCQK-AHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPT-GDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A  +T W+ +  +  GLF++C      T             C K + ++G+L   A L+I+ +F     T+   +GL  +D   KY++YR+A      ++L  L ALI++P +   +I   G  R W   ++YG +W + +    + I+LICD+E EE++YKE+
Sbjct:   33 MIVALCSTSWLKTGSFRTGLFKECTSTNEPTHAAPFPGAPAPGSCHKPSRNSGFLTAAAVLLIVALFLTALSTIFNIVGLSKSDVRGKYRWYRIATMISGFSVLLELTALIMFPAAFYVKISDYGSRRNWEVDWSYGIAWGATLFTIGATIMLICDKEHEEVYYKEK 199
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BLAST of EMLSAG00000001990 vs. C. finmarchicus
Match: gi|592778702|gb|GAXK01175866.1| (TSA: Calanus finmarchicus comp2156_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 106.686 bits (265), Expect = 2.979e-26
Identity = 81/124 (65.32%), Postives = 95/124 (76.61%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVXXXXXXXXXXXXXXRSTDPNKKYKYYRVAIYSXXXXXXXXXXXXXXYPVSLSKEIPTGDPR 124
            M+AA ST DW+++EGW EGLF QC+  GA TPLPF   E  GC     A Y+RGVAAL+II +  DFFGT LTGLGLRSTDPNKKYKYYRVAIY+LI+AL+ALLLA IIYPV  SK++    P+
Sbjct:  344 MVAATSTADWMLAEGWREGLFMQCISAGAPTPLPFDLPEEAGCGAIRSASYVRGVAALVIIGLIFDFFGTFLTGLGLRSTDPNKKYKYYRVAIYALILALIALLLAAIIYPVQFSKDLSNEPPK 715
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BLAST of EMLSAG00000001990 vs. C. finmarchicus
Match: gi|592778496|gb|GAXK01176072.1| (TSA: Calanus finmarchicus comp2723_c0_seq2 transcribed RNA sequence)

HSP 1 Score: 67.3958 bits (163), Expect = 1.287e-12
Identity = 29/40 (72.50%), Postives = 34/40 (85.00%), Query Frame = 0 
Query:  124 RVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            R ++FGF YGA+W   IL+F SV+LLICDRESEEIFYKER
Sbjct:  428 RTFTFGFGYGATWGCIILIFASVVLLICDRESEEIFYKER 547
[Close]
BLAST of EMLSAG00000001990 vs. C. finmarchicus
Match: gi|592778497|gb|GAXK01176071.1| (TSA: Calanus finmarchicus comp2723_c0_seq1 transcribed RNA sequence)

HSP 1 Score: 67.3958 bits (163), Expect = 1.957e-12
Identity = 29/40 (72.50%), Postives = 34/40 (85.00%), Query Frame = 0 
Query:  124 RVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            R ++FGF YGA+W   IL+F SV+LLICDRESEEIFYKER
Sbjct:  428 RTFTFGFGYGATWGCIILIFASVVLLICDRESEEIFYKER 547
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BLAST of EMLSAG00000001990 vs. L. salmonis peptides
Match: EMLSAP00000001990 (pep:novel supercontig:LSalAtl2s:LSalAtl2s1355:64981:91751:1 gene:EMLSAG00000001990 transcript:EMLSAT00000001990 description:"maker-LSalAtl2s1355-augustus-gene-0.9")

HSP 1 Score: 357.066 bits (915), Expect = 7.161e-127
Identity = 176/176 (100.00%), Postives = 176/176 (100.00%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKERVGDEEEGCNEEDA 176
            MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKERVGDEEEGCNEEDA
Sbjct:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKERVGDEEEGCNEEDA 176
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: EEB11069.1 (transmembrane protein, putative [Pediculus humanus corporis])

HSP 1 Score: 187.193 bits (474), Expect = 6.706e-60
Identity = 85/163 (52.15%), Postives = 117/163 (71.78%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A  ++DW++S+GW +GLF  C+++ A TPLPF   E   C  A D  Y+   AAL II + TD   T+LTGLGLRS D  +KYKYYR+A+Y +I++L+++L+AL++YPV    E+  G+  VW FG+AYG  W +AI LF +VILL+CD+ESEEI+YKER
Sbjct:   31 MIMALGSSDWLMSDGWRQGLFAHCIEEHAPTPLPFNVIEPPDCYPARDVAYIPAAAALCIITLITDLVATVLTGLGLRSNDHRRKYKYYRIAVYVMILSLISVLIALVVYPVCFVAELNEGNRTVWEFGWAYGVGWGAAIFLFGAVILLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: EFX87700.1 (hypothetical protein DAPPUDRAFT_306558 [Daphnia pulex])

HSP 1 Score: 182.956 bits (463), Expect = 3.405e-58
Identity = 82/157 (52.23%), Postives = 119/157 (75.80%), Query Frame = 0 
Query:    7 TTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            +TDW+++ GW +GLF  CVD+ A  PLPFG +E +GC +  D  Y++  AAL I+ + TD F TLLTGLGL+S DP KK KYYR+AI  ++ +L++ L+AL++YPVS ++E+P G+  VW FG+AYG +W +AI LF + +LL+CD+E+EE++YKER
Sbjct:   37 STDWLLAHGWRQGLFLHCVDEMAERPLPFGLEEKVGCYRVRDEYYIQFTAALCILALATDVFATLLTGLGLQSGDPLKKRKYYRLAISVMLASLVSALVALVLYPVSFARELPHGNRSVWEFGWAYGVAWGAAIFLFGASVLLMCDKEAEEVYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: AHN57472.1 (uncharacterized protein Dmel_CG45049, isoform F [Drosophila melanogaster])

HSP 1 Score: 179.874 bits (455), Expect = 4.474e-57
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++ PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MIMALASTDWLMASDWRQGLFVHCIEDDSVPPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: ABW08733.1 (uncharacterized protein Dmel_CG45049, isoform B [Drosophila melanogaster])

HSP 1 Score: 179.874 bits (455), Expect = 4.474e-57
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++ PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MIMALASTDWLMASDWRQGLFVHCIEDDSVPPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: AAF56054.1 (uncharacterized protein Dmel_CG45049, isoform C [Drosophila melanogaster])

HSP 1 Score: 179.874 bits (455), Expect = 4.474e-57
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++ PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MIMALASTDWLMASDWRQGLFVHCIEDDSVPPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: EAA06296.2 (AGAP000456-PA [Anopheles gambiae str. PEST])

HSP 1 Score: 179.489 bits (454), Expect = 6.697e-57
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++E W +GLF  C+++G   PLPF   +  GC  + D  Y++  AAL II + TD   T LTGLGLR+ D N KYK+YRVA+  +++AL++LL+A+I+YP+  + E+   +  VW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MILALTSTDWLMAESWRQGLFVHCIEEGYELPLPFNLQDPAGCYPSRDVAYIKATAALCIITLVTDALATFLTGLGLRTQDHNLKYKFYRVAVLIMMVALISLLVAVILYPICFAAELNIANRLVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: AHN57471.1 (uncharacterized protein Dmel_CG45049, isoform E [Drosophila melanogaster])

HSP 1 Score: 180.259 bits (456), Expect = 2.388e-56
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++ PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:  101 MIMALASTDWLMASDWRQGLFVHCIEDDSVPPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 263
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: AHN57470.1 (uncharacterized protein Dmel_CG45049, isoform D [Drosophila melanogaster])

HSP 1 Score: 180.259 bits (456), Expect = 2.388e-56
Identity = 80/163 (49.08%), Postives = 116/163 (71.17%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++ PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:  101 MIMALASTDWLMASDWRQGLFVHCIEDDSVPPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 263
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: XP_006570106.1 (PREDICTED: transmembrane protein 47 isoform X2 [Apis mellifera])

HSP 1 Score: 177.948 bits (450), Expect = 6.008e-56
Identity = 80/163 (49.08%), Postives = 114/163 (69.94%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI   ++TDW+++ GW +GLF  C+++ A TPLPF   +  GC +A D  Y++  AAL ++ + TD   T+LTGLGLRS D   K+KYYR A++ +  AL++LL+AL+IYPV  + E+  G+  +W FG+AYG  W +AI LF   ILL+CD+ESEEI+YKER
Sbjct:   32 MIMGLASTDWLMALGWRQGLFAHCIEEAAPTPLPFNVPDSAGCFQARDVAYIKAAAALCVVCLITDIAATILTGLGLRSQDNRDKHKYYRFAVFCMGFALISLLIALVIYPVCFAAELNFGNRPMWEFGWAYGVGWGAAIFLFGGAILLLCDKESEEIYYKER 194
[Close]
BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Match: XP_016773309.1 (PREDICTED: transmembrane protein 47 isoform X1 [Apis mellifera])

HSP 1 Score: 177.563 bits (449), Expect = 7.408e-56
Identity = 80/163 (49.08%), Postives = 114/163 (69.94%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI   ++TDW+++ GW +GLF  C+++ A TPLPF   +  GC +A D  Y++  AAL ++ + TD   T+LTGLGLRS D   K+KYYR A++ +  AL++LL+AL+IYPV  + E+  G+  +W FG+AYG  W +AI LF   ILL+CD+ESEEI+YKER
Sbjct:   31 MIMGLASTDWLMALGWRQGLFAHCIEEAAPTPLPFNVPDSAGCFQARDVAYIKAAAALCVVCLITDIAATILTGLGLRSQDNRDKHKYYRFAVFCMGFALISLLIALVIYPVCFAAELNFGNRPMWEFGWAYGVGWGAAIFLFGGAILLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|242005919|ref|XP_002423807.1| (transmembrane protein, putative [Pediculus humanus corporis] >gi|212507023|gb|EEB11069.1| transmembrane protein, putative [Pediculus humanus corporis])

HSP 1 Score: 187.193 bits (474), Expect = 3.281e-57
Identity = 85/163 (52.15%), Postives = 117/163 (71.78%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A  ++DW++S+GW +GLF  C+++ A TPLPF   E   C  A D  Y+   AAL II + TD   T+LTGLGLRS D  +KYKYYR+A+Y +I++L+++L+AL++YPV    E+  G+  VW FG+AYG  W +AI LF +VILL+CD+ESEEI+YKER
Sbjct:   31 MIMALGSSDWLMSDGWRQGLFAHCIEEHAPTPLPFNVIEPPDCYPARDVAYIPAAAALCIITLITDLVATVLTGLGLRSNDHRRKYKYYRIAVYVMILSLISVLIALVVYPVCFVAELNEGNRTVWEFGWAYGVGWGAAIFLFGAVILLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|1060266720|ref|XP_017849100.1| (PREDICTED: transmembrane protein 47 isoform X2 [Drosophila busckii] >gi|924561339|gb|ALC45997.1| CG6982 [Drosophila busckii])

HSP 1 Score: 186.037 bits (471), Expect = 1.045e-56
Identity = 82/163 (50.31%), Postives = 119/163 (73.01%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW++++GW +GLF  C++  A+TPLPF   +  GC    D GY++  AAL II + TD   T+LTGLGL++ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MIMALASTDWLMADGWRQGLFVHCIEDDAMTPLPFNVQDPPGCYWTRDIGYIKATAALCIITLITDVIATVLTGLGLKTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|1000762765|ref|XP_015604441.1| (PREDICTED: transmembrane protein 47 isoform X1 [Cephus cinctus])

HSP 1 Score: 186.037 bits (471), Expect = 1.644e-56
Identity = 84/163 (51.53%), Postives = 117/163 (71.78%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI   ++TDW++S GW +GLF  C+++GA TPLPF  +E  GC +A DA Y+R  AAL ++ +  D   T+LTGLGLRS D   K+KYYR A++ + IAL++LL+AL+IYPV  + E+  G+  +W FG+AYG  W +AI LF   +LL+CD+ESEEI+YKER
Sbjct:   32 MIMGLASTDWLMSLGWRQGLFAHCIEEGAPTPLPFNMNEPAGCYQARDAEYIRAAAALCVVCLLADIAATILTGLGLRSQDHRDKHKYYRFAVFCMGIALVSLLIALVIYPVCFAAELNFGNRPMWEFGWAYGVGWGAAIFLFGGAVLLLCDKESEEIYYKER 194
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|1000762767|ref|XP_015604442.1| (PREDICTED: transmembrane protein 47 isoform X2 [Cephus cinctus])

HSP 1 Score: 185.267 bits (469), Expect = 2.872e-56
Identity = 84/163 (51.53%), Postives = 117/163 (71.78%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI   ++TDW++S GW +GLF  C+++GA TPLPF  +E  GC +A DA Y+R  AAL ++ +  D   T+LTGLGLRS D   K+KYYR A++ + IAL++LL+AL+IYPV  + E+  G+  +W FG+AYG  W +AI LF   +LL+CD+ESEEI+YKER
Sbjct:   31 MIMGLASTDWLMSLGWRQGLFAHCIEEGAPTPLPFNMNEPAGCYQARDAEYIRAAAALCVVCLLADIAATILTGLGLRSQDHRDKHKYYRFAVFCMGIALVSLLIALVIYPVCFAAELNFGNRPMWEFGWAYGVGWGAAIFLFGGAVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|646719272|gb|KDR21444.1| (hypothetical protein L798_04146 [Zootermopsis nevadensis])

HSP 1 Score: 183.726 bits (465), Expect = 6.066e-56
Identity = 82/163 (50.31%), Postives = 115/163 (70.55%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW++S GW +GLF  C++  +  PLPF   +   C +A D  Y++  AAL II + TD   TLLTG+GL S D   KYKYYRVA+Y ++++L+++L+AL+IYPV  + E+  G+  VW FG+AYG  W +AI LF  V+LL+CD+ESEEI+YKER
Sbjct:   22 MIMALASTDWLMSIGWRQGLFIHCIEDNSPMPLPFNVQDPPDCYQARDVAYIKAAAALCIITLLTDIVATLLTGMGLHSKDHRTKYKYYRVAVYIMVLSLISILIALVIYPVCFAAELSEGNRTVWEFGWAYGVGWGAAIFLFGGVVLLLCDKESEEIYYKER 184
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|1060266714|ref|XP_017849099.1| (PREDICTED: transmembrane protein 47 isoform X1 [Drosophila busckii])

HSP 1 Score: 186.037 bits (471), Expect = 6.317e-56
Identity = 82/163 (50.31%), Postives = 119/163 (73.01%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW++++GW +GLF  C++  A+TPLPF   +  GC    D GY++  AAL II + TD   T+LTGLGL++ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   97 MIMALASTDWLMADGWRQGLFVHCIEDDAMTPLPFNVQDPPGCYWTRDIGYIKATAALCIITLITDVIATVLTGLGLKTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 259
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|321476740|gb|EFX87700.1| (hypothetical protein DAPPUDRAFT_306558 [Daphnia pulex])

HSP 1 Score: 182.956 bits (463), Expect = 1.666e-55
Identity = 82/157 (52.23%), Postives = 119/157 (75.80%), Query Frame = 0 
Query:    7 TTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            +TDW+++ GW +GLF  CVD+ A  PLPFG +E +GC +  D  Y++  AAL I+ + TD F TLLTGLGL+S DP KK KYYR+AI  ++ +L++ L+AL++YPVS ++E+P G+  VW FG+AYG +W +AI LF + +LL+CD+E+EE++YKER
Sbjct:   37 STDWLLAHGWRQGLFLHCVDEMAERPLPFGLEEKVGCYRVRDEYYIQFTAALCILALATDVFATLLTGLGLQSGDPLKKRKYYRLAISVMLASLVSALVALVLYPVSFARELPHGNRSVWEFGWAYGVAWGAAIFLFGASVLLMCDKEAEEVYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|1058174600|gb|JAS90948.1| (hypothetical protein g.52595 [Homalodisca liturata])

HSP 1 Score: 182.185 bits (461), Expect = 2.333e-55
Identity = 85/164 (51.83%), Postives = 117/164 (71.34%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLG-CQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            +I A ++TDW+++ G+ +GLF  C+ + A TPLPF   +  G C K  D  Y++  AAL I+ + TD   TLLTGLGLRS D   KYKYYRVA+Y +I +L+A LLAL++YPV  + E+  G+ +VW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 LIMALASTDWLMAAGYRQGLFNHCIGENAPTPLPFHIQDKRGECHKGRDMAYIKVAAALCIVALITDAIATLLTGLGLRSKDHRTKYKYYRVAVYVMIASLVATLLALVVYPVCFAAELTEGNRQVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 194
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|969480337|ref|XP_015048524.1| (uncharacterized protein Dyak_GE10329, isoform B [Drosophila yakuba] >gi|969480343|ref|XP_015048526.1| uncharacterized protein Dyak_GE10329, isoform D [Drosophila yakuba] >gi|948559996|gb|KRK04096.1| uncharacterized protein Dyak_GE10329, isoform B [Drosophila yakuba] >gi|948559998|gb|KRK04098.1| uncharacterized protein Dyak_GE10329, isoform D [Drosophila yakuba])

HSP 1 Score: 182.57 bits (462), Expect = 2.392e-55
Identity = 81/163 (49.69%), Postives = 117/163 (71.78%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++  W +GLF  C++  ++TPLPF   +  GC    D GY++  AAL II + TD   T+LTGLGLR+ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MIMALASTDWLMASDWRQGLFVHCIEDDSVTPLPFNIQDPPGCYWTRDVGYIKATAALCIITLITDVIATVLTGLGLRTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. nr
Match: gi|968073859|ref|XP_002069633.2| (uncharacterized protein Dwil_GK11470, isoform B [Drosophila willistoni] >gi|968074972|ref|XP_015032844.1| uncharacterized protein Dwil_GK11470, isoform C [Drosophila willistoni] >gi|946584565|gb|EDW80619.2| uncharacterized protein Dwil_GK11470, isoform B [Drosophila willistoni] >gi|946584566|gb|KRF99312.1| uncharacterized protein Dwil_GK11470, isoform C [Drosophila willistoni])

HSP 1 Score: 182.185 bits (461), Expect = 2.848e-55
Identity = 82/163 (50.31%), Postives = 117/163 (71.78%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEIPTGDPRVWSFGFAYGASWASAILLFLSVILLICDRESEEIFYKER 163
            MI A ++TDW+++ GW +GLF  C++  AL PLPF   +  GC    D GY++  AAL II + TD   T+LTGLGL++ + N KYK+YR+A+  ++++LLA+L ALI+YPV  + E+   + RVW FG+AYG  W +AI LF +V+LL+CD+ESEEI+YKER
Sbjct:   31 MILALASTDWLMAAGWRQGLFVHCIEDDALPPLPFNIQDPPGCYWTRDIGYIKATAALCIITLITDVIATVLTGLGLKTQNHNLKYKFYRIAVLVMLVSLLAVLSALIVYPVCFAGELTMANRRVWEFGWAYGVGWGAAIFLFGAVVLLLCDKESEEIYYKER 193
[Close]
BLAST of EMLSAG00000001990 vs. Tigriopus kingsejongenis genes
Match: maker-scaffold84_size396325-snap-gene-2.49 (protein:Tk09699 transcript:maker-scaffold84_size396325-snap-gene-2.49-mRNA-1 annotation:"transmembrane protein 47-like")

HSP 1 Score: 167.548 bits (423), Expect = 1.058e-52
Identity = 79/118 (66.95%), Postives = 100/118 (84.75%), Query Frame = 0 
Query:    1 MIAACSTTDWVVSEGWHEGLFQQCVDKGALTPLPFGGDEVLGCQKAHDAGYLRGVAALIIIVVFTDFFGTLLTGLGLRSTDPNKKYKYYRVAIYSLIIALLALLLALIIYPVSLSKEI 118
            M+AAC+TTDW+++ GW EGL++QCVD GA TPLPF    + GC +AH AGY++  AAL+++V FTDFF T+LTGLGLRSTDPNKKYKYYRVAIY+L+IA + LL+ALI+YPVS SKE+
Sbjct:   29 MVAACATTDWIMTSGWREGLWEQCVDIGAPTPLPFNNKPIPGCHRAHSAGYIKATAALVVVVAFTDFFATILTGLGLRSTDPNKKYKYYRVAIYALLIATICLLVALILYPVSFSKEL 146

HSP 2 Score: 66.6254 bits (161), Expect = 5.159e-14
Identity = 28/37 (75.68%), Postives = 34/37 (91.89%), Query Frame = 0 
Query:  124 RVWSFGFAYGASWASAILLFLSVILLICDRESEEIFY 160
            RVW+FGF YG SWAS IL+F++++LLICDRESEEIFY
Sbjct:  205 RVWTFGFGYGVSWASFILIFMALVLLICDRESEEIFY 241
The following BLAST results are available for this feature:
BLAST of EMLSAG00000001990 vs. GO
Analysis Date: 2014-04-02 (Blast vs. GO)
Total hits: 3
Match NameE-valueIdentityDescription
-2.733e-5549.08symbol:CG45049 species:7227 "Drosophila melanogast... [more]
-4.442e-2230.54symbol:vab-9 species:6239 "Caenorhabditis elegans"... [more]
-4.442e-2230.54symbol:vab-9 "Cell junction protein VAB-9" species... [more]
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BLAST of EMLSAG00000001990 vs. C. finmarchicus
Analysis Date: 2014-05-09 (TblastN vs C. finmarchicus TSA)
Total hits: 3
Match NameE-valueIdentityDescription
gi|592778702|gb|GAXK01175866.1|2.979e-2665.32TSA: Calanus finmarchicus comp2156_c0_seq1 transcr... [more]
gi|592778496|gb|GAXK01176072.1|1.287e-1272.50TSA: Calanus finmarchicus comp2723_c0_seq2 transcr... [more]
gi|592778497|gb|GAXK01176071.1|1.957e-1272.50TSA: Calanus finmarchicus comp2723_c0_seq1 transcr... [more]
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BLAST of EMLSAG00000001990 vs. L. salmonis peptides
Analysis Date: 2014-05-10 (Blastp vs. self)
Total hits: 1
Match NameE-valueIdentityDescription
EMLSAP000000019907.161e-127100.00pep:novel supercontig:LSalAtl2s:LSalAtl2s1355:6498... [more]
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BLAST of EMLSAG00000001990 vs. SwissProt
Analysis Date: 2017-02-10 (Blastp vs. SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of EMLSAG00000001990 vs. Select Arthropod Genomes
Analysis Date: 2017-02-20 (Blastp vs. Selected Arthropods)
Total hits: 16
Match NameE-valueIdentityDescription
EEB11069.16.706e-6052.15transmembrane protein, putative [Pediculus humanus... [more]
EFX87700.13.405e-5852.23hypothetical protein DAPPUDRAFT_306558 [Daphnia pu... [more]
AHN57472.14.474e-5749.08uncharacterized protein Dmel_CG45049, isoform F [D... [more]
ABW08733.14.474e-5749.08uncharacterized protein Dmel_CG45049, isoform B [D... [more]
AAF56054.14.474e-5749.08uncharacterized protein Dmel_CG45049, isoform C [D... [more]
EAA06296.26.697e-5749.08AGAP000456-PA [Anopheles gambiae str. PEST][more]
AHN57471.12.388e-5649.08uncharacterized protein Dmel_CG45049, isoform E [D... [more]
AHN57470.12.388e-5649.08uncharacterized protein Dmel_CG45049, isoform D [D... [more]
XP_006570106.16.008e-5649.08PREDICTED: transmembrane protein 47 isoform X2 [Ap... [more]
XP_016773309.17.408e-5649.08PREDICTED: transmembrane protein 47 isoform X1 [Ap... [more]

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BLAST of EMLSAG00000001990 vs. nr
Analysis Date: 2017-02-20 (Blastp vs. NR (2/2017))
Total hits: 25
Match NameE-valueIdentityDescription
gi|242005919|ref|XP_002423807.1|3.281e-5752.15transmembrane protein, putative [Pediculus humanus... [more]
gi|1060266720|ref|XP_017849100.1|1.045e-5650.31PREDICTED: transmembrane protein 47 isoform X2 [Dr... [more]
gi|1000762765|ref|XP_015604441.1|1.644e-5651.53PREDICTED: transmembrane protein 47 isoform X1 [Ce... [more]
gi|1000762767|ref|XP_015604442.1|2.872e-5651.53PREDICTED: transmembrane protein 47 isoform X2 [Ce... [more]
gi|646719272|gb|KDR21444.1|6.066e-5650.31hypothetical protein L798_04146 [Zootermopsis neva... [more]
gi|1060266714|ref|XP_017849099.1|6.317e-5650.31PREDICTED: transmembrane protein 47 isoform X1 [Dr... [more]
gi|321476740|gb|EFX87700.1|1.666e-5552.23hypothetical protein DAPPUDRAFT_306558 [Daphnia pu... [more]
gi|1058174600|gb|JAS90948.1|2.333e-5551.83hypothetical protein g.52595 [Homalodisca liturata... [more]
gi|969480337|ref|XP_015048524.1|2.392e-5549.69uncharacterized protein Dyak_GE10329, isoform B [D... [more]
gi|968073859|ref|XP_002069633.2|2.848e-5550.31uncharacterized protein Dwil_GK11470, isoform B [D... [more]

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BLAST of EMLSAG00000001990 vs. Tigriopus kingsejongenis genes
Analysis Date: 2018-04-18 (Blastp vs. Tigriopus kingsejongensis proteins)
Total hits: 1
Match NameE-valueIdentityDescription
maker-scaffold84_size396325-snap-gene-2.491.058e-5266.95protein:Tk09699 transcript:maker-scaffold84_size39... [more]
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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
LSalAtl2s1355supercontigLSalAtl2s1355:64981..91751 +
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-LSalAtl2s1355-augustus-gene-0.9
Biotypeprotein_coding
EvidenceIEA
Notetransmembrane protein, putative [Pediculus humanus corporis]
Cross References
External references for this gene
DatabaseAccession
Ensembl Metazoa (gene)EMLSAG00000001990 (primary cross-reference)
Relationships

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

Feature NameUnique NameSpeciesType
EMLSAT00000001990EMLSAT00000001990-697837Lepeophtheirus salmonismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at LSalAtl2s1355:64981..91751+

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>EMLSAG00000001990-684756 ID=EMLSAG00000001990-684756|Name=EMLSAG00000001990|organism=Lepeophtheirus salmonis|type=gene|length=26771bp|location=Sequence derived from alignment at LSalAtl2s1355:64981..91751+ (Lepeophtheirus salmonis)
TTTTCCCCGAGATACATAAAAATGAAATCTGATAAACCAAGGTAAAGACA
AGTGTGTATTTATTATTTTGGAAATATTTTATTAGCTCTCCCTTCCTCTA
CAAATTCATTTAAATATTTGAATGGACTAAGATAATGCAAATATCTATTC
TGTCTAATACCATAAAATCCTACCTACGATTATTTCTCAATAATCCCCTC
CCTCCTAATAAGACTTCCGTTCTATAATACTTAAAATTAGATCGGTCTAA
AAAAAAAAAAAACTACAGTCCTATTAGTTCAGTCTTAATAGAAACTTTCA
GCCCTAGGACCGGYCCTAATTGGTCTTTTATGGAATCTACAACAGCTGAA
ATGACGTAGTTATTACTAACTAATTAGGACTGTTAAAATGTTGTTTTTTT
TAAAGTCTGAAATGTGAAAAAAGACTGATTCATAAATAATGGATTATTTT
AGTCTAACTATTGCCATTGTACAAATTTGAGTACCTCATATCGTATCGTG
ATCGTACATCAACAATATTTATTCGGAAAAAAAAATTGTTTTGCCATCAG
AAAAGTTAATTTTTATATGGATGGAAACACCACAAGAAGGAATTTTTTAT
AAAATGAAATAACTTACATAATCACAAAACTTCTTGTTTATAAAATAGAA
CATATTGTAAGTGAACGAGTAAGAAATATGACATTGAAAAAAGGGCAAGA
GTCTAAATGGAAATTCACAAATCTATTGTTCTTTTGMCCTTCCGATGCAT
ACGTGGACATTCGAGTTATAGGAAGACGGGGAAAGGGATCCCCCTATAAT
TATAGGCCATATGTATTTGCATTAATTGCATTCAGAAGCGTCCACAGGGG
GGGGGGGGGTGTAGGGGCTGTATCTACCCCCAAATTAAGGATTGTTTTCT
TTTTACTAGAAATTGTTTTTGGTCAGGATGAAAAAGATTTGAAATAGTGG
TAAAATTTTTTTTTTTAAGATTTCGTATCTTAAAAAAAGGTCATTTAAGG
AGCATAGTAAAATATTTAATATTCGAAATTTAATTTTAAATTTTAGAAAT
ATAATTTCTAAAAATTGTTTCAAAAAATTTAGCTGTTTTCTGAATAGCTG
TAGATTTTAGGTATTTTTGTCAAAAAAGTTTAATTTTTTTTTGAATAGCA
TCAGATTTTAGGTAAATTTATCAAAATAAAACCTTATATTTAAAATGTAA
TTTTTGTAATTTTTTGTCAACAGTTGTGGATTTTTGAAATATTTTGTTAA
TAACTATTGAATTTTGATATTTTTTTCAAAAAAATATTATTTAGCATAAT
TCCAAAAACCAAGCCCCGACCCAAAATAAATAAATTTATAATAATAAGAA
TCCATTGCTTACCTTACCAACTTGGTTTAATTTTACAACTCTACTACAGT
TTGTTACAAAGAACTTTGCATATTCAAACCCAATTCTTTTTTTTAAATGA
TAAGTTTTTATAATTTAAAAAGTTTCTCGTATGGTTGATTGAAAATGCCA
TGATAATTATTTTTTGAAAGCACAAAAGTTCCAAACGTGTTTATGAGTTC
CTTTTTTCGTGGAATTTTCTATCCGACAAACAAAAACGTGTGTATTTTCT
TTTTTCCCCATGTGTTTTGTCTATACCTTTCAACGTAAATTTCAAATGTA
TTGTCACTTTTATATATTTTTTCACTTTTTGTAAGTGGTATTGTTTGTGA
TCGAGGATTTGAGAAAATAGTTACATTATAATTAAAGAAAGAATATTGAG
CATTTTTTTAAACGTATGAAAAAACCTTTAAACATGTATCGTTTAAAAAC
CCAGATAATTAATATAGAGGAGGACTTAATTTTTACAAAATTACGGCGCT
CATTTTCCCTTCACAAATTATTTACGTTTGTAACTTTTGTTGAGAAAAGT
TGTGCTTAAGGAAAGAAAGAAAAATATTCTTGGTACGAGTATCAGTTGTA
TGAGTATTATATATTGCCAATGAAAAGTCGTTTATACAATGTAACAAACC
ACATAACAATTGCAAGCGTGCTTTCTTACCTAAGCAAAAGTAGTAATCCT
TATTACAGTTGGTCTTGGATTATTTTAAAGGAGAGAAAGAGGAAATATAA
TTTACACAAAGTAGGTAATAATCACAACACCTCTTAATTAATAATTAAAA
TATTTTTTATCTATTCATGGCTTCATACTATTTTGCATGTTTGTTCTATA
ATAAGTAAGTTAATTATTTATAAATTGATTTTCTATATTTTATGTAAATT
GTCACATGTATTGGACGAGTTCATGTTACGATGTGTTTCGAAAGGACCAT
TTATTTCTAAGAATTATAAATTTATAACCTTCAAACCTCAAAAATTAACC
TATACAAAAAAAAGAAAAAAAAGAAGAGGTTTTGTGATATAAAATAACTT
TTAAGAAATAAAATGATTTTTCATTGAGGCCATTAGTTTTTAATAAGTAA
AACAACACATAGTTCTGCTCTGCCTGTTTGCCCGATACTTCACCTAAAAT
CGACCCAAAGACTCAACGACAAACGATACCGACAATTGGGAAGGTTTTGT
AGGGCACTGAGACATATTTCTACTTTGTCTGTTACTCTACCAAAAACTTT
ATTTAAAATACGAATTTTGTGGCTATAACTCTTCACAGAATACTCTTTGG
GAAAGTATATAATTATAATTTTCTTTGAAACATAGTTAAAACTCGTCAGT
TTGAATCTGATCTAGTAAAAATATGATATAATTTTTTGTGAAAGCAAAGA
GAACATTTTGAGTTACAGTTAGAAAACGCTATCCTTTTAGTATCTTGGAG
GCAAATGAAATCCGGTTAAAGGGAAAGAATATGCTTCAGTAATATGTGCA
GTGATGTAATTTTTTAGCTGGGCCGTTTTTTTGGAGCTGGTAATCTGAAG
AATGAATTATATTTCCATTAGCAGTTTTTATGATTATTTTAATGATGAGA
AGTAAACTTGCTTTCCTAAATAGATTCAATTATATTCAAAACCTGATTGA
ATATTCGTGTTTACTCATAAAAGACAGAGTGTAATCCCTAAGATAACAAC
TGGGCATCGACATAGGAGTAATTYTAGCCAATGTCTTTCTTTATATCCTT
TTCTCCTTCCTCCCTTCTCACAGCTGATTGTAGCTGATCCAATGAAAGGT
CATGAGCATTATTATTTCTTTTCTCGAAAACATTCTTCAAATTGTCAAAT
TTTCATAGTGCTTTTTGGTTTCATTTTTTAAACATCCATTGTACACATTA
TTGAATATGTGTTCTTTCTCCCCTCCCCCCCCCCCCCCTCCCTCGAGTTT
AGGAAGATGACTTTGCTAATTAACAGATTTGCTTACATATCTATTAAGAC
ACTACTAAGAATAATTATGTTATCTTGTTTTGCAATGAAGAATATATATG
TTTTTAAATAATCAGACCAATGTTATTATCAAATATACATTTCCCCCCAA
TAATACAATATATGTAGGAAACTTTGTCAATTTAAAATCTAAGAAAACAA
ATTATTTCCACAATAGGAGTTGGAGGAAAAGTTTATTCAATAGAACATCA
TAAATTATTTGATGATTCCAATAAAAAAAGCTTTATATGATAACAAAATT
GCATTACTTTATAGAAATTGTAATTTTAGTATATTTCATAAAAGATCACC
AAATGTTCGTAAAAATTTTACTTCAAGAATTTATTGAGTGATTAATAACG
CTTTCTTTTTTCAAAAATGGTTAAAATTCAGTGAAAGTGTTCATTTTTTT
CTTTCAATCAATCAATAAATTTTGTATCTTCAGTTATTTTAATTTGTTAA
TTCCATACAATTTTGATGAAGTAAAATTTTGTTGACTTGTTTTGTTTAGG
TAGGATCTGAAAAAGTAGTAATTTAGNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
NNNNNNNNAGAGAAGATAAATGTAATTTTTTCTCATATTCATTAAAGTAA
AAAGTTATCATTATTTAACAAAATCTCAATTATTTATACTCTACTATCGA
CTTTTGTAGTCGAATAAATTTACAAGAGACATCCAGTGTCCCTTAAAAAA
TATTTGTCTTTGTAATTATTACATTTTTATATATTTGAGTAACTTTTCCT
TTAACTCCAACCCATGGGGTATGTAAAGTATAAAAATAATATATATTTTA
CCGCTTTGAAAGTCTACTCGAAAGATTATTGTGGGGTTAATTGATAGATT
TGATTACCAATTATATTTAAGAATATCTACTTCCCATGGTTGATTAAAGA
AGAATATAAAGTGTGCCCTTATCTGATAAAGCTTCTTATAATACTCACTA
AATATTCCTACCGAACTGTATCGATTATCAGAAATATTTATTTGAATGAA
TTTCTAATATAGAGCGATTAATCTCTGTTTGGTTTGCCTACATAAATATG
TTTGTTTATGCATAATATTGATATGATTTGGGCTTTTATTATTAGTAATA
TGTGCCTGAATTTAATCCAGTATGAATTATGAGTTATGTATTAAAAAATA
ATTAACAAATATAATCATTTCATTTCCAATATCTAATTTTAGGTCATTGC
TTTTGTTTGCACCTTCATCACAACCTTCCTTATGATTGCAGCCTGCTCTA
CAACAGATTGGGTTGTTTCTGAAGGTTGGCATGAAGGTTTATTTCAACAA
TGTGTAGACAAGGGTGCTCTTACTCCATTACCTTTTGGGGGAGATGAGGT
TCTGGGTTGTCAGAAAGCCCATGATGCTGGATACTTGCGTGGTGTCGCTG
CATTAATTATAATTGTTGTTTTCACAGACTTTTTTGGTACTCTTCTAACT
GGTTTGGGATTGAGAAGTACTGATCCAAACAAAAAATATAAATATTATCG
TGTTGCCATTTATTCCTTAATTATTGCACGTAAGTAAGAAAAAGGTTTTT
TTTACTATATGTACTATATATTATATAAGCTACCACAAAAACATGGAAAT
ATCATAGTAATGGGGCTTGAAAAAATAAAAAAGTAAATATTATCAACAAG
GTTCAGTCACAGTGCTTAGCTGTAGTAACAATTAATATGTAAAATATTTA
CAAATAAACAAAAACACCTCAGATGATGTATTTTTTATAAATCTCTTAGC
CGCTAGACGACACTGCTAATCTTGGATATGTAAACAAACTACTTTTAGTA
AAAAATACTCTTTTTTTTTTAATGAATACTGTACGCATTTATAATTTAAA
ATGAAGTATTAATAAAATTATGATACTCTTTTTTTAATAATTGAGTTTTA
AGTGGGACGAACTGTTAGAGTTGTTAATCCTAAGCATGATTTACCTTATA
TTTTTTTAGTTGTTGGCAATCTTAACAGGCGTTTTTATAAATTTTGTTCA
AGCTGTTATCATTATTCTTTCATTATTGAGAAGAAAACACCCAAGTATAA
ACTTTACCTATTAGTATTTGTGCTCATGAAGGACGGAGAGTAACACTGAG
GATTTGTTAGGAGTTATAATTGTAAGTCTCCGTTTGACTCAAAGTAAAAC
TGTTTTTTTGACAACTGGGTAATTGTTGCATATGTCCTTGATAGATAAAG
AGTGGGAGATGTTTTCTTTTCCTTCCTATAATTACTGTTTGAAAGGATTC
GTGGTATATAAGGAAATCCCCCTCTGAATGATATCAAAAATAATATATTA
AACCATGAGAATTTAAAAAAACACAAGTGACAATAGGCAGTCTCATAAGA
GAAATAAATAAATAATATATGCTTGATTCCAATAAATACAAAAATACGGC
AGTTTAGACAAAAACATATTCTATACCAGCACTTTGTGTTGATTACAAAA
AAAATAGGATCTCAAGTTTTTTTTGCGTTCTAGAGTAGAAAATATCTTTG
TAGGTTACTGACTCATAAGATCTCTACCATCGTATTATGTTGTCTTCAGA
GTTATCACATTTTTATAAAATATCATCAAGCCTTGTTTTTACGATCACTA
GGATTCCGGAAATGATCATCTCTAGAGATGATAAGTAGAGATGGGAAATT
TTAAAAGACGTTCACTTGTCCTTGTTTAAATAAAAAGATTCATATTTGTG
TTAATATTTGTTTTCTTCATATTTATAAGCAGACCAGGTAAATTTTAGAA
GGACAAAATCACTCTTGGAGTTGGAACTATAGATTCGTTGATTTGATTTG
CTGTACATGAGTACAAAGTATATTATCATCTGCGAATGTTTCATCTTTAT
CTTCTAAAATTCCATCAGTGGCGCTCTTAGACAATAATAAAAGGGGCAGT
TGGCCAGTTGATATTTTTTTCATGACACATGGGGTTGGCTCTGAGATCTT
GAGGGGCATATGCCTCTAAAACAGTTTTCAATAATTTGTCATGTTACTAT
GTTGGAAAAATTGGTGCTTTTTGGTACAACAAAACAAAAATGTATGTGAG
AAAATAAAGTGAAGAGACACAGGAGACAGTTCACTAAGCAAACTAAGTTG
TACAATATATACATATNATATATATATATAACATAACAACAATTACAGGC
AAAAATAAGGGAGTTCAAATCAGGTTCTTAGAAAATCCCCGAGCCTTGTT
CCTGACATATGCGACACATAGATTAAGTTAGGTTTGTGTAATGGTGCGAA
GGGATTTGGTTTGAAAAACTATCTGACTGAAGAACCATGTATACATTATT
TTAAGTATATAAATTGTTGACATAAACAAAGTGGGAGAGCAAGATCAAGA
CCATCAATCCCGTAAGGTACCAAGAAGCTACAATGTGAGAGGTTTTTATT
AAGATGTGAGACAAGATCAAAGGCCCTGCAATAAATCATCGGCTCSAGTT
TTCTCTGAGGAGGKGGAGKTGTTCTACTTAAGKATATCCACGGTTGTTTG
GTATGACATCATATTTGGAATACAGCATGTCAGCAATCTTATATGAAAGT
CTTTTGAAGAAAATTGAGCAAAGTCTCTAGAGACACAGTGTAAGTGGCTG
TGTCACAGAATAGATGAGAGCCAAAAACATTTTTGAAGACATAAATCTTG
AGGCAGTAAAGGATTGTGTGGGTGAGTATGGCTTTAAAAGACATAGAAAG
TATATGGAGGCTTGTAAGTGTTGAGCTATTTGGGTGTTCTGGTCAATTAT
TTTCTCTCGTTCAGCCTTCAGTTATTATTTCCATTCTGCGTTACAATCAT
AAAATAGAACCATATMCTCTGTMCCMCAGCCAATCGCAGCTTCCCTTTGA
TTTTGTCAGGGAGGCCTAATTTGAGAACTAGGTATCAAACTTTTTTTAAA
CATTCATCCGGAGAATATTTGTGTTCAAAGGAGATACAACTCACTAAAAT
CGGTTCATTTATTGTCGAGATCGAGCCCAAAACGCAAATTATAGCAGATT
AGATTCACTCACCAGCACCACCACAACACAAGAAAAACTGGACTATGGAC
TAGTTGGGACACTCCAGGAACAACCGCTTCCTCGCCTACATGATGGATGA
AGCTTCATCAGTTAATCAGACTAAGTTCACAMCCTCCACTATAATCTTCA
GACGAGAAGGGAATGACAACGTATTGGTTCATGAAAGACCTGAAAGTCGG
CCAAAAAGTACCAAGACGTTCTCAAAGAGATGGCCATACAGTGGATAAAG
TCCAACTATCCAGAGGGAAACTATGTGTTCCAGCAGGACTCTACCCCGAG
GCACAATGCCAGTACCACTTAAAAAATTTTCGAGGATAATTTTTCTACAT
TCTGGCCAATTAATAAGCCTTGTCTCTATGATTAAGAACTATAGTACTAG
TAAAGCTCATTGATTCTAGTTCAGGCAGAGTACTAGTAACTTTCCTGATC
GATTGGAGCCTTCAAGGAGTGCCTGCTCAACCTTCTGTGCTACTGCTTTC
AAAATAAATCTCCGAAGCTTTCATCTTTACATTATCAGCTCTTTAAATCA
TATTTAAAAAAGAAAAAAATATATACTTTGATTTCTTGAACTTTTGTAAG
TACTAATGGAACGGAATGCTAAAATCTAATTTTTAGCATTCAACGTTCAG
CGTTAAAAAAATATCCATTCCCTTCAGCTTTCTGTTCATTGAACCCACGG
TCCATGTAACGCTGTTCAATTTTGTGTTCTGTTCACAATCCTGAATATAT
GTATACTTTATTATATAAGAGTCAAAGTTGAAAGGAACGTAAATAACTTC
GCTATCTATATTTTTTACTTAGGAAGATTTTTAAGTTGGATTAACAAGAA
TAAAACGCATAAATTCGTGATAATATTGGATACTATGTATGTCTCCTTTA
AGTTAGCCGAGCTTAACCTTAAATTTATAATAAATTATGACATATAATTA
CGAGTAATTATGTTCTTATAAATACAGGAAACAAACTATGACACAGATGA
TTAATTTTAAATTTTTCCCCCATTTAGTCCTTTTGGTTTGTCTCTAGCAA
TAATTTTATGAAAATCCTGTAAAACAATGCATCTTTTTCCTTATTTACAC
ATACTGATTAACTACACCCACTACTGAGGAAAAAATGGATAAAATTATTT
TTATTCTTACGATTAAGATATAATTTAATTTCATACTTATCCCGGTACTG
ATACTTGTCAACATAATATATCTAAAATGATGTAAAATAAACCAATTATA
TCCAGCATTACAAATCTCCCTCCTAATTTGACTAGTAATGATATGAATGA
CCGTCTCAAAATATTATATTATCTTTCTTTTATATACCTATATACATATA
TATATAAAGCTTTTGCTACACCCTCGTTGTTAAAAATCAGTCCTTATAAT
ATAATTTAGAGTTAATAGAGTTAATTAAATACCTTTTTCGAAAATTTAAA
GAAATCTTTCCACTTAATTGTTGTTCAAATTTTATAGAAAGCTTTAATTT
ATCATTTTTTTTCATAATATTACAAAGTGGTCTAAATTCAAAAAAGAAAG
AACGCAGTCTACACTAAAACATGTATTCCTGTTTCACGTGATTTTTCTAC
ATAAATGCACAATTAGGAAGGGAGATTAGCTTTGGGAAATTTTGAGTATT
TATTTTGATTCTGCCAATTTAAAAGATGCTTACCATGGAAGGAGTGGACA
TCAATGNNNNNNNNATTCATTGTGAAATTAAAAAAATATACAGATGTCTA
AAAAATTTCCGCCCTCCCGTAATAAAAGGTACAATTTATTAAATGACTAT
AAATAAAATTAGTCCTAGCGGGTGAATATAAATATCAAGTGGTCAAGGAG
CTCCGTCTCTTGTCTCTTAATTTTAAATTATTTTATGGTTGTTTAGTCTT
TTTCATTTAGATTTGTTTACAAATAAGTGATTATAAGTGTGATCTTCTCG
GTTCCCCTTCTGAGTTTTTCCTTTTTTATTTATAATTTAATTGTAAGGGG
ATTAAAACGAATTTATAACGTCTTGTTTACATGATAATATACTTTTTCCA
TTAAATATTTCATATTTTTAACTGATGATTCAGCATTTCTATTTGACTCA
GCGTAATAGGCTGATTAAATTTCGTTGATAATGTCGTTAAAATTAGATAA
CTTTTTAAATTATTTACTTTTAAATTCAGGACCACCATCACTTCTTACAT
GTTTTGGGAACCCCAAGTCATAAAATCAATTAAGTAGAATATTAGTTACC
TTTGTTGTCGTAGTATTTTTCAATGGTGCAATCCAAGTAAATCTATAGAC
CATCAATAAAAAATCCTGGTGAAATAAGTCGAGGGATACTTGTTCCATAG
GTTGACTTGCGATCGTTTTATTATGTTCTGTTGGTTTTGGTTGACCAGGA
TGAATTTCTATACATTTTTTACATGATTTAATAATTGTCTTAATTGAATT
GTTCATACAAGGCAAAAAGTATCGATCAAGTATCTCAGGCTAACTTTTGG
TCTCTAACCATACCGGGATGAGATATATATGTTATTTCTTCAAAATAAAC
TAACAGAACTACTTGATTTAAAATTTTTCTCCATTCATGATTAGTAGTTT
GTTTTTCATTGAAATATTATTCCAATTAACTCGTAAGAACGTAATGGATA
AGTCTTCGATATATAATTAATTTATTATCCTTCCAAAATCGCTATTATGA
TTCCTTGATAATTTATATCTTCACTTGCAAATTTATCAAGTTCTTTTAGT
TTAGGATCAGACTAGGAATTTTCTTTTGAGGTCGATCTGACCTAGAAAAT
TGTGATTATGCATCTGCAAGAATATCTTTTTTCCTTAAACCTATTTAATT
TTGATGTTAGAAGGTGGTGTGCCCTTTAAAAATCTTATAAATCGTGGATT
TAATGTATCAACTCGTTTGAATATCCATTACAATGGTTTATGATCTGTTT
TGACATAAATATTAGCACCTTTTTAATAGTACTAACATTTTTCCATACTC
CAGTCAATTGCTAAACATTCAAGTTCCATAGCTGAATATTGTTTTTTTTG
GGTGGAGATATTGTTCGAAAACCACATTAAATTAAATATTTTATGTCACA
TTCACTCCTTTTATCAAGTTGAATGAGAGCAAGACCAATACCATTAAGTT
TACTCGTGTCAGTAACCAACTTTATAATATTTTTTTAAATCAAAAGGAGC
AAAAACTGATGCTGAGCTCATAATTCTTTTTAATTCACCGAAAGCTTTTT
GTTGTTCTTTTTACGATTGATATTCAAAATTCTTCTTTAATAGTTCTCTT
AATGTTACTGTAACTTTTGTATCGTATGAATGAAATTGTCTAGTCCAATA
AATGATCTTAATTTAATAAGATTTCTTGGGTCTGGGAACTTCCGAATTCC
ATCATTTTTTTCGGTATCTGGTTTGATACCTTCGCCAGGTATGATCATAC
CTGTAAATTTTACTTTTGATCCATATTGAATTTCATCCTTTGATAAGTAA
TTTTGTTCTTCTCACGACGTTTGAGTATTTCTTCCACCTTTTGTAAAACT
TCATCTTCATTTTCGCCTAATATCAAAATATCATCCACAATTTTCCTTAC
ATTCTTGATTCCTTATAAAACTGCATTTTTCCTTGAGCAAAATTCCTTGT
TAGAACTACAAAAAACCATTGAATATCGACAATATCGAAATGGTCCTCAA
GGTGCGTTAAATCTTGTTAAAACTCTACTTTCATCGTACAAAGATATCTG
AAAATAACTCATTTTACAGTCTAATGTATAGAATACTTTACTTTCATAAG
GAACTGATTGAATAATATCTTTAACAGATGGAAAAGGATGAGTTGGATTC
CTGAAATATCGGTTTAAACGTCTAAAATCAGTTCAAGTCTCATTCCTCTA
CCATTTGGTTTTGGAACCATCATTGAACACCATTCCGTAACACCTTGTTC
TGGCTCAATGATGAGTAAGTTTTGTATTTTAGTTAATACTTCTGATTGAT
CTCCTTCATAAAGAGGGAACTGTTTCACAATAGTCATCTTCAACGGTGTA
TATTCTTTAGCACTCCAATCGAGTACAATTTTCATTGGAGGACCTGTCAT
AGGTTTAATTTATCACAATAAAAGCTGAACTAATCTTCTTGTCCCTTCTA
GGTATACGACATACTTTCATAATATGCCCCTTTTTGTTGCAATTCGAACA
AATAACATTAAAACTATAATAGCAATACTCAAGTCTGTGTTCTAACACTT
CAAAATGAGTACAACCTTTTGACATAGATGCACTACTTGTATTTTTTCGG
TTGTTGGTATATCGTCGATCTCCTTTTAAATCACCAAATCTATTAATTTA
ACCTTTTTAGATCACTGACTTATTTTCAAATGTTCTTCCTCGTCTAACAG
CATTAATAGCGTCTTGAATACCTTGTGATTTCACATCCCTTTTATTAATT
CCTCTTGCTTCGTAAAATTTATTAATTTTCTTCTAAGGCTTTCTTGTTAA
ATCTCCCCCTGCCTTGATATATTCTTGTCTCAATTTGTAATTCTTCGTGG
CAACAATGCATCAAAAAGTATATATTAATGTTTAATCCACATATTCTTTG
CGTCACCTTCATTTTCTAAAATATCTAATCTTTTTTCGAAATCAGACAGT
ATTTTAATCTTCTTAAAAACAATGGATATATTTCAAGAGAGCCGACTGTG
CCATGTTTGATACTTATAATTACAAATACGTAGCCCTAAATAATTCTTCA
ATATTATGATATATAATGTGTCTTGTTACTTTGATAGTACATATAAGAAT
GAGTCTGTATTCATTTATTCGTTTGTAATACGCACAAGGTACTATGAATT
CTTAAATAATAATATGTACAATCACACTACAGTATAAATTTGTTTTTACT
TTGATTTTCATCTATATAGATCTTTCATGTCAAAATATGGCACTGAATCA
TAGTTACACTCTAAAATCATTACTTTTTTTCGAAAGACTTCAAAGACCAA
ACCCATTTGAAGTTGAAGTATTCCACTCGGAATCCGAAGCTGCATGTCCA
AATTAATTAATATCATGGACTTCTTCTCGGGTGGAGGCGCACCACTACAG
ACATAACATATACTTTTTAAATCACATTGTTGACAAATTGTGTCCATCCA
GGAAGCATTGTTTGTTTTGTATTCTTCTCTATCTCTGAGAATGATTAGTA
AAAGATTTTCTTGTTTGTGATCCTCTTTGAAGAGGGGGGGGGGGGGAGAA
GAAAAAATATATATAATTGCTTTTTACTATGGGTTTCTAGGGTTTCTATT
GGGAAACACATTTTCCTTATTTTTGTATCATTTATTTATTTATCGAGTAT
TAAATTATATTGCTGTTATTCAGATAAAAAGGCATTTTGTCTTTAGTATT
TATGTTTAATTTACAATAAGATAATTTATTTAAAAAACTTTTTTTCTCCC
ATGTTTCAACTACTAATTGCCGACTTGAATGTGGATCAGGACAAGGAGGA
TGTAAAATAACTAAACTAGGACATACTAAATAAACTTATCTGGCAACTTA
ACTTACTACATATTATGGGGGTCACATCTTTCGAGGAAACTGTTCCCTAG
AAGAGTGATTTCCAAACTTTTTTGAGTTTGACAGTTAAAATATGTGGCTA
GACAATGTATCACCAATATACCCCCATTAAGAGATGAATATAAAATTTGG
GAGTGCATTTTATACAAGTACATTATTCAAGGGCCATATCTACCCTATGA
AAGCTTATAATATAAGTTATTTGAAAATATTGTTGGAAATGAAGATTTTA
ATTCTACATATAGTGAGAAATATAAGAAAAAATTTGAAATACGAAGATAA
ATAATCGAATATATTGTAAATATAAAATGTGTTATATATGTACTATTTGG
AATAATTTCAATTGCGGTAAAGAAAGTCAAAATTTAGAATCCTAATCAAA
TAACATTACATTTGTAAGGATGTGCATATAGTTTTATAAACGAATCAAGT
TTTTAATTTGGCAGATTGCACTGTATATTGAGGAAAGCAGGTCTATTCTA
GGTTTAATTTTGGACACAGCAATTCGAAGATCATTCTTCTATTTAAGCCC
GATTTATATTTATTTTGGATATAAGTTAACAACAACAAAAGTCTTCTCAC
ATAAATAAGCTGAGCAAAATGGTATAAGAAAATATAGATTTGTTTTAGCC
AGTAGTGGACACTCATTCATAAAAGAAATCCAGAATTCGTCATTTGTTTT
ATAATAAAAATCTTTTTTTTAGTGTTTGTTCAAATGAAATTTTAACTTTT
AATCTTTGGACGTAAAAAGGGAGTATCTAGTTAAGTTTTGTGGAGCACTT
TCTTCTAGAAAATACTTTTTAACATGATCCATAAAAGATTTATAAAAAAT
GTGTATATTTATCTTTATTTATGTTTTGTGCCAAAATTAAAATTATATTC
TTCTTCTTTGGGAATCATCTAAGGTTTATCAAATTAAAACAACAGACATC
CTAAATGCCTACTACGATTGTTTCTAATCCTTATTTGTATAAGGAGGTGT
GAAAATTCTGATAAGAAAATATAAAAAATAAACTGCAGTTTTTATAACTA
CTAATATAAATGAACATATTACAAAAGTTTTCAAGGTTAATAAAGCCTCA
GGTAACGATTGGATTGAAGGTTTATTCTTCTAAACTTTTGGAGGAGAAAT
AATACCCTTTTTTTTTGTAATTGGCATATCTATTCGAGAAATATTGGATT
TGTTGATGTCAGTTGGAGACCCATATCCTTGTTAAACGAATTGCATTGCG
TCTGTTCGGGTATTATTGTCAAGGAAATAGAGCCAATTCACAACAAAAGG
ATAGGAGGCCATTAGAAAGGCTACTTGAAAAACAGAAAGATTTGGATATA
CCACGTAACATACAATATTTGATAGAATCATTAGCTTTGAATATTAGGTT
TGGTGCAATTATTGCAATTGATTTAGAAAGAAATTTCTTTAAAATAAACG
GAACTTTCATATAGGGATGTCCGATAGCTCCCCTTATTTTTATTACGGCG
ATGGATACATTTGCTCAGAATAAAAGGCACAAATACTCTGGGCTTGGAAT
TAATTTTGGAAAGTACAAATATCTTTAAGTCATATATACCGATGATATAA
CAATGCCTGTAAAAGGGAACTCAGAATCACGATTGAGGACGAAGATTGAT
ATTTACGTTCGTTCTTCGCTAAGTATGAGAAAATATCAGGTTTGGAAATC
AATAAAAAGGAAACTCCAATCCTCCTAGCGGGGCATTGGGATCCCAAGAA
AGATTAAGAAGTTCATAAATCCTCGGTTCAGTATATATTTAAGGTTTTTG
AAATTCATTGGAAAACATATATAGAGTTTGTTCAAATTAAAACTTTTTAG
AAAAGTTTATAAGCCTTAGGCTAGATGAGTGCAGAAGACTGAATTTGCAG
ACGCGTGCCAAAATGTATAACGTAAAGTTGATTTATCCAGTGCTTTATTT
AGCGACTACGTTGGATAACTTGGAGGAGGGCTAGTGCAATTAAGTCATTG
TCTGCCAAAATACGTAAGAAAATAATAATTGATTTGTCATGTAATCCAGA
AACAGAATTATGTTCTTTTATTTACTTGTTATTACTTTATTTTAATGCTT
TAGTTTGTACTAAAGAATTTATAGCTAGCTAATTTACTTCTGAGTGTTTA
ATAAGCATTCACTCTCTGATGAAATTTTTTATTGCTTCTGAAGCAAAGTA
TGCATCCCTTTCCTTGAGGATATCTGTTACGACGATATAGAGTGGAACTG
CACAGCAAACATTGTTAAATTTTTCCAATAGTGGTCCAGTGAGCTCTACT
AAACCATTAAATACTTAGTAAATCGATAACTAAAATTATCTGTTCTAGTG
ATTCTCATTTCTATTGCAGAGTCACTTGATATTCGATCARCTCAAACCAT
AACTTTAATCAATAGTNCAATATGAAGATTGAAGNNNNNAAATGCAATTT
TTATATAATCTTGCAGCACATGTTTTACATTTTCATATTTATGTAATGTC
AATCCAATTCATGTTTGTACCTCATAATCCATTTCAATTAATGTATCATG
AGGACTTTTACTGTTTCCAGTTTAAGTATTACTATATTAGCTGGGCTCCA
GCTAATATAGCTAGGGCCTGTAAGTGGCAGSCTTATTCTTKGCTTGGCTA
ATTTAAATTAGACCGATTTTTTTCTTTGCACAAGTTTTTACCGATGTTTT
TTTTTGCAACAATATTTACCGAATTTTACCTTTGGACCGATGTAAACATA
ATTTTTCTATGAGACCGATCTAAACCAATTTTTTTTAAAGGACCGAATTA
GTTCGGTCCAAAAAAACTCATAACGGTATCAGATCTAGAATTTMCCTCCA
AAACCTTACCTTGTTACCTGGGCTTTGCCACGTAGCCCCTTCGGGCAACG
GTAAATGTTAAGTAATAAAGTACTTTTATTCTTGCTGCCCTTCTTGATTA
GATTACTATATTTATCTTTCAATTCGGATGTCTTCATCATCTTTTTATTT
TGTTGCTATTATCACAATTTTCATACATAATTTTTTTCTCCTATTATAAA
TATATTTCGGCATTCATTTTTTAATCAAACCAATTAAATGTATCCTTACA
GGCTTAATTATAAAAATACATACTTAGTTGCCAAATATCTAAAGTATACA
ATTTTCAAATACATTAACCAATTTAAAAAAAAATTATGAACATGGTTTTT
ATTTTTTAAATTGAGTTTTGATCATTTAAAGGTCAAACTAAAAACTATTC
CTAACTTTAGTGCTTTTCGTGGTACAGTCTGTTTGAATGCCTCCAAAAAT
GGTTTATCAAAAATTTCTGTTTATTTTTATAAAATAATAACTATTGATTT
TTTTATGTAAACACAAAAAAAATTTAATTCGATAACAGCCTGTAACAGAC
TGTAAAAATTTTCATGAAAAGAAAAAAAAATTATAGACAGTTTTTATTCA
AAAAGTGTATTATAATTTATGGACCCGTTACCATATTAGTTTTTTTCTTT
CCTTAATGATAGTGACAAGAGCAAAATTTCGTATTTTAATATTTTAAAAT
AAGAGCATTAGAGAAAATTAGTTTCTCAATTCTCGTAATCATCTCTTTTA
GTTCCACATAATAGTCTTTTGCTTCATATACTTATAATACAATAACTTTC
GAGTAAGCTTTGATTTTATGAATTGCATCAACAATATTAACATTATATCA
GCTCACATTATACTCAACCTTTAGTACTGGAAGTTTCCTTTGATTTTAAT
GCGGAAAAAAGTAAGCTCTTATTCTAAAATTATCCTGAATGGGATATCTG
ATAAACTGTTGAGTTGATTGGAGGAGTAAAACACCTATATTTCTTTATTT
TATAACTACAATTATTCACTGCATCTTGTCTTAGAAGATTCCCCATTCGT
ATTTTTTCAATTTTTCTAAGATTAATGTGTGTGTTTCTTGTATAAAAATT
GATATAACAATATTTTCTTTCGTTTGCTTCTTTTAATAGGCCATGACTTA
TAGAACAGCAGGATTTTTTATTCGATAGGTCTTCCTCAAAATCCTTATTC
AAATATGTCATTGTCTACACTTGAATTTTAGAAGAGGTATAATCAATTTT
ACAGATATCCTTAATCCMCAGCCTCCAACGATTTCCCTCTCAAGGCAAGG
ATGATAGAAGATTTTAGATTCCTTTTTATGGCGGAGAGGTGGAAATTTTG
AAGTGTCAGTTTCATTCCTGCAGCTTACGACACAACATTGATCGGAGTAT
GGAAAAACTCCTTACACTACAAGTCCAAGTGAAATTTCAATTCATTTCCA
AGTCCTTGAATATTTTTATCAAGTACTTATATTTAATTCAAGCTCATTTC
AAGTCCATAACTATAATATAATCTCAATTATCTTAAGGCTTTTCTTGAGT
TAACAATACTCTAGCTTTGGAGTCCATGTTACGTAGTGAGACTTAGCTAC
GGAGTCCAATTTAAGTATCTCGTCTTTCATGGGGAAATCGAGTTGAATCG
CAAGTCTTAAAAGATAGACTCAAGGCCCAGTCAAGAATGATATTGTTTTA
TAAAATAAATAAATTTATTTCCGCAAAATCAAAATGGCTTATAATTTTGT
GTATGTATAATATGTATATTTAATAGACTTTGTTTCTGTGTGTGTCCTTT
ATACGTGCCCAAACCAATAGACAATTTCATAGTTTGAAAATTGCATTTTT
TTTTCACGTACAAAAAAATAGATTTCCAATAAAATATTGGATTCTTATAT
AAAATTTTTTGTAAATATATATATAAAGATTCGTTTGGATATAAATTTTT
ACAATAAAAAATGATTTTTATTTGAAATATCTGTCCTTTTCTGAATATTT
TTCGATTTTTATTTTTCTCTGTTTTTCATCAAACGTCAATTAATACCACA
AAACTGTAAATTTTGTACATAATATTTAAGACTATAAGATAACAAAAAAG
TATTTTCAATTTTAGAACCTTTTATGAGATAATTTTTGCAATGTTTGCAA
ATATGAGCCAGTTAATGGGAGTTATAATTTCGAAATCATTGTTCTCCATT
ACTTTTTTGTTTTTGCAAGTACTAATTTTTTTAGTAGGTTTGTGTTCCAC
TTTACAATTCCAATAAATGTTATTTCCTATCAATTTTTTTTGCAAAATTA
GTACAAAAAAGTATTTTCTAATTATCTTCCCAAGTTTTATTTCTGCAATT
TTTTGACAAAAATAAAAAAAAGGACTTCTCATCTAAACAAAACTTTCTCA
TTCATATATGTGGATATGTTAGCTGAAGTTTACACTATTTTAACGCTATT
TTTTTTTTAAATTCATAATAAAACAAATATTTAAATAAAAGTTTCTAAAT
ATTAAGGAGAAACAATATTTACTATTGCCAATGTGATTTTTGCTCCCTCC
TTGGTCTGAGAAACGCCGGGTAAGCCTATGTTAGTATGAAAAAAAACTTT
AACAATTCTTATTTCCAACTTATAAAAATGTTGGAGGCACAATTACTACG
TGTTAATGAGGAAAGCTTGTCACGAGAAAGTAATTGAAGAAATATTAAAA
AGAATGGAAATAAGTTAGTTACCATAATTGGGAACTATCCTGGAGTCCAT
TTAAATTGGGCAATACTTGCACCAAACTGTTACAATGTTCTCATTCTAAA
TTTTTCAAAAGCAAATAAATGGACTAATTGCTTAAATATCTACAGATAAC
GTTAAATCGATGAATTTGTTTGTTTATCTTTATTCGTATCTTGTAAACAA
TGAGATTGAGATTTAGTGATGAAATGAAACACTTTATTTGTTTCGTTTAC
TGAGCGACTGAGACATATTTGTATATTAAAAATTAAAATCTTCTTTTTTT
CTTTCAGTTCTGGCTTTGTTGTTAGCTCTCATCATTTATCCAGTCTCCCT
TTCAAAAGAAATACCAACAGGTAAACTTTTATATTACAATTCAACTGATT
ATTTTTATCAAAATCTTAGTTAAACCGTTGGATGGTGGAAAAATAGTTAC
ATTTGAAAAACATATCGGAGATTTAGATTTCGATAACGATGGAATCCCGG
ATCATCTAGATCTTGACGATGATAATGATGGAAAACCAGATACGATAGAC
GACGATGACGATAATGATGGCATTCTTGACACACTTGATATGGATGACGA
TAATGATGGTATACCAGATTCTCTTGAGGAAAAAAATATAGATCTGGATG
GAGATGGCATTCCCAATGATATTGATGATGATGATGACGGTGATGGACAA
TTAGATTCAGAAGATAGCGATGATGATAATGATGGAATCCCTGATTCGGT
TGACAAGGATGATGATAATGATAATATTCCTGATGTGCTTGAAGAGGATT
CAGACGGTGATGGTGAACCTGATATCCTTGATAGGGATGATGATAATGAT
GGGGTGCCAGACGAAGAAGAGGAATTAGAGATAAAAAAAGACAGACAAGG
TAGTTTAGATACAGACAAAGATGGAATACCTGATTTAGAAGATCAAGATG
ATGATAATGATGGAATTATTGATTCAGAAGATAACGATGACGATAACGAT
GGAATTCCCGATGACGAGGATACTTCTGGTATTAATATATATATAATCAT
ATAAGGAGAAGTAAAACGTTATGTGTGTTTCTTCGCTTTATTTTGACAAT
AAAATTAACATAGTTAGGATTAACTGATTTAGATGTGATATGCACCGCTA
TGTTGGATAAATTTTGTCTATTTTGAAGACCATTTCATTTTTAAAATTTC
AAATTTCGACGACTTCTATAATTTTATCGACATTGTCAAGGATTGGCCTA
CCAGAGCCAGCGTCCTCTTCGACGTGCATATTACCATAATAGAATTGCCG
GAACCACCACCTTGATTTTGCATTTCATACTGTTTCAGGTCCATAAGCAA
TACAATTTTTCTGGTCGCCTGCTCCTTTATACCTTAGTCGTAGTGATACT
GAGGAATTTATAGATTTTTTTTCTTTGGACACAACTGACTTCACCAAATA
CAAAACTGTACATTTCTTTTTTAAGCTTACTCTTACCTTTAAGCATGCTT
TGAGTTCTTTAAGCATTGCATATATTGTGAGACATAGTTCACTAAAGACA
TCATTTACTTAACCTAATATATATATATATGTAAACAAGTTCAGGGGCGT
CCGCAATTTTTTTTTTTTTTGTAGGGGAGTTGGATTAAAGTTTTTCTTTT
GTCTCTGAGTTTGATCAAATGATCTTTATCAGTAAAGGAAACCTTGAAAA
AATTATTTTTTCGCAATTATTTTTAATAAATATATAGAGGTAATTATTTA
TTCTATAAAGCAAAAATTCATCATTTTTTTTTTTGGGTAAAGGGGGAACG
GGGGGGGGGGGAWAAACGMAAGCAAAGGCACCTGATGTATCGTATATTTT
ACAATAATTAACTTCAATAAGGAAATATCCCTTTTAAAGTGAATGTACAA
TGTTAAGCACTACCATTGTAGGATGGTAAGCTTTATTCTAATTAATTAAT
TGAGATACTTTTTAATCTTATTATTAAGTCAAAACTTAATTGGTGATTGA
AATATAGAGATTTAGGAGATTATCCTGAAATGAAACTACCTTTTATGTAA
CAGAATATTGACGATCGGGTTAAGAAGGTCACTTAATTTTTGCTTTTCTA
TAAATAATCACAAAAATAGACATTTTTAACAAAAACATTTCTTTTGTAGT
TTACAGATGGATTTTTTAGTTCTAATAAGTATTGGATCGGTCTAAAAAAA
GATTGCAGTTCGGTCTTAATAAAACTTTCCAGTTCTGAGACATGTCCATA
ACGATATTTACTTAAGCTACAACAAATCAAATTACGTAGTTACTAGTAAC
TACGTCCTTTGAGTCGCTGAAGTTTCATCATAATTCATAATCTCTTTCAA
TGAGACAAACACTTCAAGTTAAAAGTAGGAGCTTTTAGTTTTAACGCCTC
TTCAACTTATGTTCGATTTCCACCATGTTTTTTAATAGTGACGTCATAGA
GTATAACTGTTACCAAGAGTAGGTATGTATCGCTTTCCTTGACTGTTACT
GTTATAGTAATACTATGTAACATCAAAATCTGTCTGTTTTGCTAGGAGTC
GACAAGTTATATCAAATTGAAAATTCTAGCAAGCCCAATTACATGATGCA
CTAATTTTGTATTTCTATTAACCTTATATTTTACAAAAAAAAGAAGCTCA
ACAAGAAAGAGGGGAAATATTACTTTTAAGAGTGAATGTACAATGGAAAG
CTTTATGCTATGGATTAATTGAAATATTTTCTTAATCTTACTATGAAATC
AAATGTTGATATTTGGTACATATTATTCCAACGATGCAGTAGCAATGTAC
TCCATGTACTAGGCAACTTTGCAAAGAATTATATGGAGAAAATCACCTGT
CTTTTATTCCATCAGATTAATAGATGTCATTTCTTGCCATCTGTAATGAT
TTTGGAGGATACCATTTAATTAAAATAACTTTGCATATTAAAATCCTCAA
ACCTCAAAATTGTTCTGTTTAAAATGAAGAGGTGCTCAACTTTCTTTGTT
TTCGGGAGAAAAAATGCCACGTTCGTAATTATGTGCATCCAAAATTTAAG
TTATTGTTTTTTCTCTTACAAACAAGACACATTTTAATCACAGATCCTCT
TTACATTAAAAGGGAGAATTATTGAGGTTTGAAGATTATCATATCAGAAG
TTCATAAAATTACATTATTGCACAGATACAAATGATAAAAGGGGTGAACC
ACCTTTATTTATACTCACGGATACGTATTTCATAGAGTGCAACTTGAAGG
TGGGAGCAAAACTTATAATACTACTGAATTAAGACTCTTTTCAACATTAT
GTGCCTGATATAGGATTTAGGGGGGAGAAAATGTATTACTGCTATAAATA
GAAAAACCTTCATAATTTAGCATAAGTGAGGGGAAAATATCGTATAAATA
TATTTAAACATTTATGTTTTTATTCATTTAAAAAGAAATACACCAAGTAA
GAGGGAATTCATTAAAAAGAGAGATATATACACGTCACGACTATCTATTA
AATAAGAAAAAAAAATGAAATATAATTTTTCTAGAATCAAAACTGTTTTT
TTCCTTTTCGTTTTGTCCATCCCTACTTTTACCTAATTGGTTCAACTCTA
TCTGAAAACAACATCCAATTTTATTATACTAAAAAAGGAAAATTGTTTCA
AAACCTTCTTCAACATCATTTTTTTTCTCCATAAGTTAGATTGAATTGTG
AATTACCTCCATTTTATCTTCAATGTTAAAGTCTATATTGTACATAATAT
ATGTGGTCATTATAAGATTGGATTCAATTAAAATATTTATCACATAATCC
ATGTCATTTAAATGATAATTGTTTAATCGTTAAATTTCTGTTTTAAAAAT
TATCCTTTTTCAAATGGGTAAGATATGAGCTGGGAAAATTTCAATTTGAT
TGCATTTACTATAAAAATGAGACAATTGGTTTTGGCTTCAGTCAAAATAA
GTATATACCAAAAAAAGTTATCGTTCCATATTTTTTTTTGTAGCTGTATA
CAATATTACATAGAACAAATACTTTTTTTTTTGTAGTTGGAACCTGAACA
GGTTTTTATTTTTATTTTTCAAAGCTGCTATCATTATTCTTTAATTCTTG
AGGAAGAAAAATCTATGTATACAGTAATCATTAGTTCGAATGATGGAGAG
TAAAACTTAGGATTTTCTGGAGATTTATAAGTGTAAATCATTTTGGAATC
GGGGTAGAAATAAAAATGAACATCGAGGTAATTTCTGCCTATGTTCTGGC
TAGGTAAGGAGKAGGATTTGTGTTTATTTCCTTCCTCTAACAGCTGATTG
TAGATGATATAATAAAACTTAATGCGATCTTAGCTTTTCTCCCCCAGAAT
ATTTTTCAAATTGTTACAATTACCATATTCATTTGCGTTATCTTTTTTTT
AGTATACATAGAGTTAATATTTTAAAAAACTCTATTCATTTTAGTATGCT
TGACTAGAGGATAACCTGTTTTTTTTAAATTTTTAGTAAGATTAATGTTA
AAGCGTTTTTAAATGTTTTCTTTTTTTAAATTCAGACGGGCGCTTTTTCT
TTCATAGAAAGTTCAGATTTTAATAATTATGGCTTAAAATGAATGAAAAA
TATAAACTTTAGAGAAAGAAGACATATTTTTACAAAATAGGATAGCTCTT
TATATTTTTTTAGTATAACTATGGGTATGTAACTAAATTATTAAACTATT
TACCGCTATTATAACAAAAAATCATATGTATTATACAAATTTAATGGACT
AATTTGTAAAAAACAAATCAGACAAATTAATAGAGGACATAGTTTGAGAT
TTGACGACAGTTTCACTGCCAAAATTGGAGAAATATCAAGTTTCAAAGCC
AAAATATGCTATGGTTTTTTAGATATACTCATTTTTGTAAAGATATCTCT
AATTTGACAGAAATAAAAATATCTCTTCAGCATTTTTAAGTTCTACAAAT
GAATAAATTAGTCAAACACCTATGGTTTTAGAACATGTAGTTGTTTTGTG
ACAAATTGGACCTTGATTTAGTCAATATCAAGAAACTGCTGGTCATGTGA
TTGTGCAATATAACGTGTTTCAAAACATGGGTATTTTGGTAGAAAATCGA
GTTTTTGTTGCTTTGATGTTATTTTTGTAATAAAGGTCTTCAATGGCCAG
ACCCATATTGGTGAATTGGAGCGCACGGCAACTTTTTGTATTAATAGCTA
TTAAAGCATCTGCAAGGGCCTAATCTTCTAAAATTGGTAGTTTATTGCCA
AAGAATGCAAAAAACAACCATTTCTGGCGTTAAGTACCGTAAATGTCTAT
TAAAAGCTTTCAAAACAGTTGTTGAAACTGCAGCATTGACTTTTTTTGTA
TTTCAGCAGAGTCTTGTACAGACAAAAATCCGACCAAGGAGCAAAACACG
CTGATTGTATTGTGAACCACCAACCACATGAAACCTAAGATACAAAAACT
TCAAGATACTTGAGTTTTATTGATGATAATTGCTTCTCTACACCTCAGTT
TCAAGAAATTTGCTCTGCATGTAGACAAAACTTTTTGACAGATAATTTTA
GACATCCATCTGGCTTTATGCATTTCTCCTGGTTTATGAAGCTCTTCTTT
TGTTGTCACTATGCTAGTGAGAACAACATTGCTTAGTTGTGCCATTTCCT
TATAATAATCCTTACAATATTAGGTTACAGTTTGTAATTAATCCTAGACA
CATTTTGTAAGATAAAATTATTTTTTGTCATTGGCATTGTATTTTTCCAT
GTCAACTTTTGACAATTTTCTATGCTCCTCACAACAAAGAAGTTTCCAAT
TCTTTTGGAGCCTTTTAAATACGGAGATTTCAGGTGGTATTGAGGATTCA
ATTTCAAGACATTAAAATACATTACTTAAAATCATCTCCCCAACATGATG
ACAACATTCTGAACCCAAGAGTTCTCCAGTTTAATTTGAATAGAAATTGA
AGCAGCTGTAATATATCTAGTATTGGAAGCTGTTACATCGAAACATATAT
TTACAACTGATGACTTGCAATMCCATTGGTTTAAGAGTSCAGCCTGTTGA
GCATGACTGATATCCAAACCAGTCGCAACAGAGATGTATCAATGGTCATT
TATATCAACGTATTTTTTACAAGAATTATATAAAAAACAATATGCAAGGT
AATGTCAGGGAAAAGTGAAATACGGAATTTTTAGTATACTGCAGCTTAGT
TTGAAAACTTCAAAGACTCGGTGGGCMCCCAGGACAACTTCCGATTATGC
TGATTTTTTTTTTTTTTTCTACATATGTTTTTTTACGAAGTCTCACATTT
TGGGAAATAGACAAGAAAATAAAACAACATAAGGACGTTTGATGCACCGT
AATGCCAATTGTACATAGAATCTTCATCACTTGTTATAAATATTGACTGA
TTGAAATTGAATTAGCTCTTGTTAAGCTTTGAACATTTCTTAACGATTAT
TGTCTAACTATTTCATAATTTGGAAAAATTGGCTAACTACCAAAAGATTT
TCGTCCTTATATTCTCTTTCTTTTTGGAAAAAGGTTGTTTGATCCAATAA
AAAGTAACAAAGTTGAAAAAGCTAGAGAGCAAAAAATCGACAGTTCACAA
TAAAATACATAGAAGTTGTTGATTTTTTAGAAATATCAGAGTTTATTTTT
TATTCATGAAAAAAAAACGCATTTATACATACTATGTTAGCGAAAAATAT
TCTCTAACAAAAAAAAAATATCTGCCCTATGAAAAATAAAAACATTTACT
CCCAAATATAACTGAAAACTATATTTGAAAATTTAGTTATGGTCTTTGTT
AATCTTTATAACTATAAATTATTTTGGCCTCTAAAAATGTGAAAAATATT
ACAAAATTAAAATCATAATTTATAGGTGGAGAGAATGATTTTTATAATGT
GGGTGAGAATGCGTTCAAAAATGTAGGAACAAATTAATAATATTGCTAAA
ATTAATGCCTCCATATATTATTTAAGATTCATACGATCAGTTTTCGTTGA
TACTGATTTTGTTCAAATGAATCAAGGTAATGCAAAGTGTTCCTTCTTCA
TTTTTAAGATTTCTTATAGATGTCTTATACAATGATATAAATCCTATGAT
TTTTTAGCTGACCCGTTTTTTGGAATTCAGAAAAGACGGAGCGTAATCCT
GAGAGTTTTTCGCAGAGTTATAATTGTAAGTCCTTGTTGGACTAAGAGTA
GATTTGGGGATAGACATCGGAGTAATTCTAGTAATTGTTCTTATTTATTT
CCTTCCTACGCTGATTCTAATTGATTTAATGAAAGATCATAAGCATTATT
TCTTCTCTCTTCAAAAACATTTTCCCAAATTGTCAGGGCTACAATGTTAA
TATTTGGTTTCTTTTTTTTTAACTATGCTCATTATAGACAGGATTGCACT
ACTATATATATGTGTGCAATTTCTACTTATACACGATAATTTTGAAAAAA
ATAATAATTCAACAATTTAATGTGAGGCTGTCAGAACCAGTGGACATTTC
AAAATTAATTGTTTAATTCCATAAAAAATATTTATATGTTATTATGATGA
AAAAAGTAATTACTATTTTAACAAAAACTATATTATTAATTACACCATCT
ATAATATACATATAACCTTTTAACACTCCAGTCATATATTAAATTTTTTT
TACATTAATGAATCTTTAAATTTATAAATATTATTTTTCTACATAATTTA
ATTATTTTGAATTTAGGAGATCCCAGAGTTTGGTCATTTGGCTTTGCATA
TGGTGCCTCATGGGCATCAGCAATTTTATTATTTCTATCTGTAATTCTCC
TAATTTGTGACAGAGAGTCGGAAGAAATATTTTATAAGGAACGTGTTGGT
GATGAAGAAGAAGGTTGTAACGAAGAGGATGCCTGACAACTTTATTGGAA
ATATCTTGGAATTTATTGTTTTTTTGGGAGAGAAAAAAAATCCAAGTCGA
TCGTTCTAGTTTTCCTATAAATTATATCATATTTTGGACATTTCTCTAGA
ATTGTTAATTGTACATATGTTTGTAAATAATTCCTACTTTATTCCAACTT
AGTGTCTGAAACTTCTATTTTCTGGTTTATTTTCAAATTGTATCTTTAAG
ATCTCAGACGTTTATAAACAGCAACATTTGTCTAATTTTGTTAATACTTG
CCGATGTTTAAAATATATATCTTTAGTTATTAACAAATTATGTTGGTACT
TGTTATTATAGATTAAACAAAATTAATCGAACTTATCCATTTTGTTAAAT
TCATACATAAAAATTTCCCCC
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