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Signal Peptide Database - Drosophila melanogaster
Entry Details
ID
26045
Source Database
UniProtKB/Swiss-Prot
UniProtKB/Swiss-Prot Accession Number
Q9V5N8 (Created: 2002-08-02 Updated: 2008-12-16)
UniProtKB/Swiss-Prot Entry Name
STAN_DROME
Protein Name
Protocadherin-like wing polarity protein stan
Gene
stan
Organism Scientific
Drosophila melanogaster
Organism Common
Fruit fly
Lineage
Eukaryota
Metazoa
Arthropoda
Hexapoda
Insecta
Pterygota
Neoptera
Endopterygota
Diptera
Brachycera
Muscomorpha
Ephydroidea
Drosophilidae
Drosophila
Sophophora
Protein Length [aa]
3574
Protein Mass [Da]
396549
Features
Type
Description
Status
Start
End
signal peptide
potential
1
29
chain
Protocadherin-like wing polarity protein stan
30
3574
disulfide bond
potential
1486
1497
disulfide bond
potential
1491
1506
disulfide bond
potential
1508
1517
disulfide bond
by similarity
1727
1753
disulfide bond
potential
1760
1771
disulfide bond
potential
1765
1780
disulfide bond
potential
1782
1791
disulfide bond
by similarity
1937
1963
disulfide bond
potential
1969
1979
disulfide bond
potential
1973
1988
disulfide bond
potential
1990
1999
disulfide bond
potential
2092
2095
disulfide bond
potential
2097
2114
disulfide bond
potential
2116
2125
disulfide bond
by similarity
2128
2140
transmembrane region
1
potential
2817
2837
transmembrane region
2
potential
2846
2866
transmembrane region
3
potential
2884
2904
transmembrane region
4
potential
2920
2940
transmembrane region
5
potential
2960
2980
transmembrane region
6
potential
3001
3021
transmembrane region
7
potential
3032
3052
topological domain
Extracellular
potential
30
2816
topological domain
Cytoplasmic
potential
2838
2845
topological domain
Extracellular
potential
2867
2883
topological domain
Cytoplasmic
potential
2905
2919
topological domain
Extracellular
potential
2941
2959
topological domain
Cytoplasmic
potential
2981
3000
topological domain
Extracellular
potential
3022
3031
topological domain
Cytoplasmic
potential
3053
3574
domain
Cadherin 1
360
464
domain
Cadherin 2
465
581
domain
Cadherin 3
582
689
domain
Cadherin 4
690
794
domain
Cadherin 5
795
897
domain
Cadherin 6
898
1007
domain
Cadherin 7
1008
1113
domain
Cadherin 8
1114
1220
domain
EGF-like 1; calcium-binding
1482
1518
domain
Laminin G-like 1
1556
1753
domain
EGF-like 2; calcium-binding
1756
1792
domain
Laminin G-like 2
1796
1963
domain
EGF-like 3; calcium-binding
1965
2000
domain
Laminin EGF-like
2095
2142
domain
GPS
2744
2802
modified residue
Phosphoserine
3199
3199
modified residue
Phosphoserine
3200
3200
glycosylation site
N-linked (GlcNAc...)
potential
46
46
glycosylation site
N-linked (GlcNAc...)
potential
179
179
glycosylation site
N-linked (GlcNAc...)
potential
340
340
glycosylation site
N-linked (GlcNAc...)
potential
671
671
glycosylation site
N-linked (GlcNAc...)
potential
886
886
glycosylation site
N-linked (GlcNAc...)
potential
1269
1269
glycosylation site
N-linked (GlcNAc...)
potential
1374
1374
glycosylation site
N-linked (GlcNAc...)
potential
1441
1441
glycosylation site
N-linked (GlcNAc...)
potential
1650
1650
glycosylation site
N-linked (GlcNAc...)
potential
1678
1678
glycosylation site
N-linked (GlcNAc...)
potential
1747
1747
glycosylation site
N-linked (GlcNAc...)
potential
1843
1843
glycosylation site
N-linked (GlcNAc...)
potential
1975
1975
glycosylation site
N-linked (GlcNAc...)
potential
2016
2016
glycosylation site
N-linked (GlcNAc...)
potential
2028
2028
glycosylation site
N-linked (GlcNAc...)
potential
2071
2071
glycosylation site
N-linked (GlcNAc...)
potential
2088
2088
glycosylation site
N-linked (GlcNAc...)
potential
2196
2196
glycosylation site
N-linked (GlcNAc...)
potential
2320
2320
glycosylation site
N-linked (GlcNAc...)
potential
2784
2784
compositionally biased region
Poly-His
140
143
compositionally biased region
Poly-Arg
155
159
compositionally biased region
Poly-Ser
2567
2579
compositionally biased region
Poly-Gln
3460
3467
SP Length
29
----+----1----+----2----+----3----+----4----+----5
Signal Peptide
MQTREFPQRPLGLLLVLLVVLLQSSLIKS
Sequence
MQTREFPQRPLGLLLVLLVVLLQSSLIKS
YLIIVHEDTPPGTVIF
N
ASVY
KLGSERHYKINAHKSANFVHHLVSVNHKDGQIQLRKALKCDGIYYPNLFT
FYVDSTSNRLRSIDYYSLPVRIFVSGHSCNEDRRIEQEL
HHHH
YEEEDNT
GYSK
RRRRR
STQEMIQLNGNQLEEVFRQ
N
STEFRAGDLIFGDSFDNEMRH
RILSRKRRAVGSPDPLHLQPALHRRISDAKQWISETYASYAIHTTDKWNQ
ICLRRSQFINSLNAFLPRSVCQHCKVSFLDVNDERFAIEHQSRDLVASRD
VCIAESMWKVSITFNIRCDRRDIVDSDHRLKIVYHHQEF
N
DTDIARRVRR
ELRNQSPYF
EQALYVASVLEEQPAGAAVTTVRARDPEDSPVVYSMVSLLD
SRSQSLFKVDSRTGVVTTSASLDRELMDVHYFRVVATDDSFPPRSGTTTL
QVNVLDCNDHSPTF
EAEQFEASIREGATVGSTVITLRATDQDIGKNAEIE
YGIEAVTDGAGLAQDQEMPIFRIDSRSGVISTRSSLDRETSDSYHLLVTA
ADLASAQSERRTATASVQVKVLDDNDNYPQF
SERTYTVQVPEDQWGGTED
NTVAHIRATDADQGNNAAIRYAIIGGNTQSQFSIDSMSGDVSLVKPLDYE
SVRSYRLVIRAQDGGSPSRS
N
TTQLLVNVIDANDNAPRF
YTSQFQESVLE
NVPVGYNIIRVQAYDSDEGANAEITYSISERDDNFPLAVDPRTGWVQTIK
PLDREEQGRFAFQVVAKDGGVPPKSASSSVVITVQDVNDNDPAF
NPKYYE
ANVGEDQPPGTPVTTVTATDPDEDSRLHYEITTGNTRGRFAITSQNGRGL
ITIAQSLDYKQEKRFLLTVAATDSGGRSDTATVHI
N
ITDANNFAPIF
ENA
PYSASVFEDAPVGTTVLVVSATDSDVGVNAQITYSLNEESINGLGSPDPF
SINPQTGAIVTNAPLDRETTSGYLLTVTAKDGGNPSLSDTTDVEIGVTDV
NDNAPAF
KSPLYQASILEDALVGTSVIQVAASDPDVGLNGRIKYLLSDRD
IEDGSFVIDPTSGTIRTNKGLDRESVAVFHLTAIAVDKGSPPLSSTVEVQ
IRLEDVNDSPPTF
ASDKITLYVPENSPVGSVVGEIHAHDPDEGVNAVVHY
SIIGGDDSNAFSLVTRPGSERAQLLTMTELDYESTRKRFELVVRAASPPL
RNDAHIEILVTDVNDNAPVL
RDFQVIFNNFRDHFPSGEIGRIPAFDADVS
DKLHYRILSGNNANLLRL
N
SSSGGLVLSPQLNTNVPKFATMEVSVSDGIN
EAKAIMQLSVRLITEDMLFNSVTVRLNEMTEEAFLSPLLNFFLDGLAAII
PCPKEHIFVFSIQDDTDVSSRIL
N
VSFSARRPDVSHEEFYTPQYLQERVY
LNRAILARLATVEVLPFDDNLCVREPCLNFEECLTVLKFG
N
ASEFIHSDT
VLFRPIYPVNTFACSCPEGFTGSKEHYLCDT
EVDLCYSDPCQNGGTCVRR
EGGYTCVCPSTHTGQNCE
TGVGHLRPCPSETCEGGLSCLSNYPSSQPPPY
TATCE
LRARAFGRNSFLTFESLKQRHRFNLKLRFATVQENGLLLYNGRYN
ELHDFIALEIHEGHVSFSFSLGDHSERISVIQEAKVSDGKWHQVEVVYL
N
RSVTLVLDNCDTAIALSGQLGDRWSCA
N
RTTLKLDKRCSLLTETCHRFLD
LTGPLQVGGLPRIPAHFPVTNRDFVGCISDLRIDDRFVDLNSYVAD
N
GTL
AGC
PQ
KAPLCQSEPCFNGGTCREGWGTYSCECPEGYAGNSCQ
DNI
PAPWR
FSGDGSLSFNPLLRPIQLPWTTSFSLRTRQKEAFLLQIQIGQ
N
SSAAVCL
RQGVLYYIFDGEPMYLAGAFLSDGEWHRVEIRWQQGSEIHFSVDYGQRSG
SVPMSQKVQGLYVGKIVMGSPDGSIGAVPEASPFEGCIQDVRIGAGQSVL
SRPTIRENVEDGC
E
SRAQCPDHCP
N
HSSCQSSWDLSTCECDSGYVGTDCA
PICTVRPCASGVCRA
N
TSLPRGYDCEC
N
SSSRHGDYCEKELQQPCPGGWW
GERVCGPCRCDLAQGYHPDC
N
KTTGQCYCKTNHYQPP
N
ETACLS
CDCYSI
GSFSGACNPLTGQCECREGVIGRRCDSCSNPYAEVTLSGCEV
VYDACPRS
FAGGVWWPRTPLGGVAIEGCPPPARGKGQRSCDVQSGSWNTPDMY
N
CTSE
PFVELRRQLSQLEKLELELNSFVAIKMAEQLRKACEAVDRRGASKDQKIS
GNGRPNRRYKMESSFLLSNGGNVWSHELEMDYLSDELKFTHDRLYGADLL
VTEGLLQELINYELMQSGL
N
LSHSQDKYFIKNLVDAASVILDRKYEAEWR
RATELIQRGPDDLVDAFNKYLVVLARSQHDTYTSPFEIVQPNMALGLDIV
TTESLFGYEPEQLSEYHRSKYLKPNAFTTESVVLPDTSGFLQHSARQRPV
ISFPKYNNYILDRRKFDQHTKVLVPLEMLGITPPESDEISQSGRRGSSHD
HRAIVAYAQYKDVGQLLPDLYDETITRRWGVDVELATPILSLQILVPSME
REQETQRLEIPSRKIF
SSSSPSSSSSSGS
TEQQFVEVFDVPKAPTSSSEQ
QIEDIRITAHEIPPPVSSVEQQEASSDEDGEEREPHIRLNLDDIEFHGNS
GEEVISPDSPEMLNPNYEGVSSTGSDEQPKGENEAVYRDRRLVKRQVEIT
YPSEQMQQTEQVVYRSLGSPHLAQPIKLQMWLDVDSARFGPRS
NPQCVRW
NSFTNQWTRLGCQTEIPDFDGDFNPAAQQAILV
N
CSCTHISSYAVIVDVI
DP
EDIPEPSLLVQITS
YSAFLVSLPLLLGVLLALALL
RGQQTNSN
TIHQN
IVLCVFCAELLFFVGM
QSRRQLLESEFPCKLTA
ICLHYFWLAAFAWTTVD
CVHL
YRMLTEMRDINHGPM
GFYFAMGYGAPAIVVGLSVGV
RAHEYGNSLF
CWLSVYEPV
VWWLVGPIAGMSVVNLLILFV
SVKAAFTLKDHVLGFGNLRT
LLWLSVVSLPLMGVMWVLAVL
AASEHSQLLS
LLLSGVVLLHALFCLIGYC
II
NKRVRENLQRTCLRCMGRKVPLLDSSMVVSNSSHNVNAAARPSNFLAS
GYDTTTRRNIGISASSTTSRSTAKTSSSPYSDGQLRQTSTSTSNYNSASD
APSFLRGFESSTTGRSRGGEEKPSRRQRKDSDSGSETDGRSLELASSH
S
S
DDDESRTARSSGTHRSTAVSSTPAYLPNITEHVQATTPPELNVVQSPQLF
PSVNKPVYAPRWSSQLPDAYLQSPPNIGRWSQDTGSDNEHVHGQAKMTIS
PNPLPNPDLTDTSYLQQHHNKINMPPSILENIRDAREGYEDSLYGRRGEY
PDKYGSYKPPSHYGSEKDYPGGGSGSQTIGHMRSFHPDAAYLSDNIYDKQ
RTLGSGYLGAKSESPYLSKDRITPDIYGSRDGHYSLKRQPAYATDSLHSV
HSLLKNDYH
QQQQQQQQ
HHLQDRLSEGSDKNGYHFPYTAEEDHLPARKLS
HTQPPSLHGSQLMQPPGVGLVNDVNNPGLMGRHTLNGGSRHSSRASSPPS
TMVAPMQPLGPLTSITDTDSEAEY
Original
MQTREFPQRPLGLLLVLLVVLLQSSLIKSYLIIVHEDTPPGTVIFNASVY
KLGSERHYKINAHKSANFVHHLVSVNHKDGQIQLRKALKCDGIYYPNLFT
FYVDSTSNRLRSIDYYSLPVRIFVSGHSCNEDRRIEQELHHHHYEEEDNT
GYSKRRRRRSTQEMIQLNGNQLEEVFRQNSTEFRAGDLIFGDSFDNEMRH
RILSRKRRAVGSPDPLHLQPALHRRISDAKQWISETYASYAIHTTDKWNQ
ICLRRSQFINSLNAFLPRSVCQHCKVSFLDVNDERFAIEHQSRDLVASRD
VCIAESMWKVSITFNIRCDRRDIVDSDHRLKIVYHHQEFNDTDIARRVRR
ELRNQSPYFEQALYVASVLEEQPAGAAVTTVRARDPEDSPVVYSMVSLLD
SRSQSLFKVDSRTGVVTTSASLDRELMDVHYFRVVATDDSFPPRSGTTTL
QVNVLDCNDHSPTFEAEQFEASIREGATVGSTVITLRATDQDIGKNAEIE
YGIEAVTDGAGLAQDQEMPIFRIDSRSGVISTRSSLDRETSDSYHLLVTA
ADLASAQSERRTATASVQVKVLDDNDNYPQFSERTYTVQVPEDQWGGTED
NTVAHIRATDADQGNNAAIRYAIIGGNTQSQFSIDSMSGDVSLVKPLDYE
SVRSYRLVIRAQDGGSPSRSNTTQLLVNVIDANDNAPRFYTSQFQESVLE
NVPVGYNIIRVQAYDSDEGANAEITYSISERDDNFPLAVDPRTGWVQTIK
PLDREEQGRFAFQVVAKDGGVPPKSASSSVVITVQDVNDNDPAFNPKYYE
ANVGEDQPPGTPVTTVTATDPDEDSRLHYEITTGNTRGRFAITSQNGRGL
ITIAQSLDYKQEKRFLLTVAATDSGGRSDTATVHINITDANNFAPIFENA
PYSASVFEDAPVGTTVLVVSATDSDVGVNAQITYSLNEESINGLGSPDPF
SINPQTGAIVTNAPLDRETTSGYLLTVTAKDGGNPSLSDTTDVEIGVTDV
NDNAPAFKSPLYQASILEDALVGTSVIQVAASDPDVGLNGRIKYLLSDRD
IEDGSFVIDPTSGTIRTNKGLDRESVAVFHLTAIAVDKGSPPLSSTVEVQ
IRLEDVNDSPPTFASDKITLYVPENSPVGSVVGEIHAHDPDEGVNAVVHY
SIIGGDDSNAFSLVTRPGSERAQLLTMTELDYESTRKRFELVVRAASPPL
RNDAHIEILVTDVNDNAPVLRDFQVIFNNFRDHFPSGEIGRIPAFDADVS
DKLHYRILSGNNANLLRLNSSSGGLVLSPQLNTNVPKFATMEVSVSDGIN
EAKAIMQLSVRLITEDMLFNSVTVRLNEMTEEAFLSPLLNFFLDGLAAII
PCPKEHIFVFSIQDDTDVSSRILNVSFSARRPDVSHEEFYTPQYLQERVY
LNRAILARLATVEVLPFDDNLCVREPCLNFEECLTVLKFGNASEFIHSDT
VLFRPIYPVNTFACSCPEGFTGSKEHYLCDTEVDLCYSDPCQNGGTCVRR
EGGYTCVCPSTHTGQNCETGVGHLRPCPSETCEGGLSCLSNYPSSQPPPY
TATCELRARAFGRNSFLTFESLKQRHRFNLKLRFATVQENGLLLYNGRYN
ELHDFIALEIHEGHVSFSFSLGDHSERISVIQEAKVSDGKWHQVEVVYLN
RSVTLVLDNCDTAIALSGQLGDRWSCANRTTLKLDKRCSLLTETCHRFLD
LTGPLQVGGLPRIPAHFPVTNRDFVGCISDLRIDDRFVDLNSYVADNGTL
AGCPQKAPLCQSEPCFNGGTCREGWGTYSCECPEGYAGNSCQDNIPAPWR
FSGDGSLSFNPLLRPIQLPWTTSFSLRTRQKEAFLLQIQIGQNSSAAVCL
RQGVLYYIFDGEPMYLAGAFLSDGEWHRVEIRWQQGSEIHFSVDYGQRSG
SVPMSQKVQGLYVGKIVMGSPDGSIGAVPEASPFEGCIQDVRIGAGQSVL
SRPTIRENVEDGCESRAQCPDHCPNHSSCQSSWDLSTCECDSGYVGTDCA
PICTVRPCASGVCRANTSLPRGYDCECNSSSRHGDYCEKELQQPCPGGWW
GERVCGPCRCDLAQGYHPDCNKTTGQCYCKTNHYQPPNETACLSCDCYSI
GSFSGACNPLTGQCECREGVIGRRCDSCSNPYAEVTLSGCEVVYDACPRS
FAGGVWWPRTPLGGVAIEGCPPPARGKGQRSCDVQSGSWNTPDMYNCTSE
PFVELRRQLSQLEKLELELNSFVAIKMAEQLRKACEAVDRRGASKDQKIS
GNGRPNRRYKMESSFLLSNGGNVWSHELEMDYLSDELKFTHDRLYGADLL
VTEGLLQELINYELMQSGLNLSHSQDKYFIKNLVDAASVILDRKYEAEWR
RATELIQRGPDDLVDAFNKYLVVLARSQHDTYTSPFEIVQPNMALGLDIV
TTESLFGYEPEQLSEYHRSKYLKPNAFTTESVVLPDTSGFLQHSARQRPV
ISFPKYNNYILDRRKFDQHTKVLVPLEMLGITPPESDEISQSGRRGSSHD
HRAIVAYAQYKDVGQLLPDLYDETITRRWGVDVELATPILSLQILVPSME
REQETQRLEIPSRKIFSSSSPSSSSSSGSTEQQFVEVFDVPKAPTSSSEQ
QIEDIRITAHEIPPPVSSVEQQEASSDEDGEEREPHIRLNLDDIEFHGNS
GEEVISPDSPEMLNPNYEGVSSTGSDEQPKGENEAVYRDRRLVKRQVEIT
YPSEQMQQTEQVVYRSLGSPHLAQPIKLQMWLDVDSARFGPRSNPQCVRW
NSFTNQWTRLGCQTEIPDFDGDFNPAAQQAILVNCSCTHISSYAVIVDVI
DPEDIPEPSLLVQITSYSAFLVSLPLLLGVLLALALLRGQQTNSNTIHQN
IVLCVFCAELLFFVGMQSRRQLLESEFPCKLTAICLHYFWLAAFAWTTVD
CVHLYRMLTEMRDINHGPMGFYFAMGYGAPAIVVGLSVGVRAHEYGNSLF
CWLSVYEPVVWWLVGPIAGMSVVNLLILFVSVKAAFTLKDHVLGFGNLRT
LLWLSVVSLPLMGVMWVLAVLAASEHSQLLSLLLSGVVLLHALFCLIGYC
IINKRVRENLQRTCLRCMGRKVPLLDSSMVVSNSSHNVNAAARPSNFLAS
GYDTTTRRNIGISASSTTSRSTAKTSSSPYSDGQLRQTSTSTSNYNSASD
APSFLRGFESSTTGRSRGGEEKPSRRQRKDSDSGSETDGRSLELASSHSS
DDDESRTARSSGTHRSTAVSSTPAYLPNITEHVQATTPPELNVVQSPQLF
PSVNKPVYAPRWSSQLPDAYLQSPPNIGRWSQDTGSDNEHVHGQAKMTIS
PNPLPNPDLTDTSYLQQHHNKINMPPSILENIRDAREGYEDSLYGRRGEY
PDKYGSYKPPSHYGSEKDYPGGGSGSQTIGHMRSFHPDAAYLSDNIYDKQ
RTLGSGYLGAKSESPYLSKDRITPDIYGSRDGHYSLKRQPAYATDSLHSV
HSLLKNDYHQQQQQQQQHHLQDRLSEGSDKNGYHFPYTAEEDHLPARKLS
HTQPPSLHGSQLMQPPGVGLVNDVNNPGLMGRHTLNGGSRHSSRASSPPS
TMVAPMQPLGPLTSITDTDSEAEY
----+----1----+----2----+----3----+----4----+----5
Hydropathies
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