Signal Peptide Website


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  
TypeDescriptionStatusStartEnd
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 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
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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