Q9NUL3: Double-stranded RNA-binding protein Staufen homolog 2

General Information

Protein names	- Double-stranded RNA-binding protein Staufen homolog 2
Gene names	STAU2
Organism	Homo sapiens
Protease Family
Protease ID
Chromosome location
UniProt ID	Q9NUL3

8 N-termini

3 C-termini

1 Cleavages

0 Substrates

Sequence

Isoforms

- Isoform 2 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 3 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 4 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 5 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 6 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 7 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 8 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 2 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 3 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 4 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 6 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 7 of Double-stranded RNA-binding protein Staufen homolog 2 - Isoform 8 of Double-stranded RNA-binding protein Staufen homolog 2

Sequence View

        10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV         10         20         30         40         50         60
MANPKEKTAM CLVNELARFN RVQPQYKLLN ERGPAHSKMF SVQLSLGEQT WESEGSSIKK
        70         80         90        100        110        120
AQQAVANKAL TESTLPKPVQ KPPKSNVNNN PGSITPTVEL NGLAMKRGEP AIYRPLDPKP
       130        140        150        160        170        180
FPNYRANYNF RGMYNQRYHC PVPKIFYVQL TVGNNEFFGE GKTRQAARHN AAMKALQALQ
       190        200        210        220        230        240
NEPIPERSPQ NGESGKDVDD DKDANKSEIS LVFEIALKRN MPVSFEVIKE SGPPHMKSFV
       250        260        270        280        290        300
TRVSVGEFSA EGEGNSKKLS KKRAATTVLQ ELKKLPPLPV VEKPKLFFKK RPKTIVKAGP
       310        320        330        340        350        360
EYGQGMNPIS RLAQIQQAKK EKEPDYVLLS ERGMPRRREF VMQVKVGNEV ATGTGPNKKI
       370        380        390        400        410        420
AKKNAAEAML LQLGYKASTN LQDQLEKTGE NKGWSGPKPG FPEPTNNTPK GILHLSPDVY
       430        440        450        460        470        480
QEMEASRHKV ISGTTLGYLS PKDMNQPSSS FFSISPTSNS SATIARELLM NGTSSTAEAI
       490        500        510        520        530        540
GLKGSSPTPP CSPVQPSKQL EYLARIQGFQ AALSALKQFS EQGLDPIDGA MNIEKGSLEK
       550        560        570
QAKHLREKAD NNQAPPGSIA QDCKKSNSAV

Filter Information:

(REFRESH)

Directness:

Physiological Relevance:

Evidence Codes:

Methodology:

Perturbation of System:

Biological System:

Protease Assignment Confidence:

Evidence Names:

Database:

Lab:

Protein Neighborhood

Domains & Features

8 N-termini - 3 C-termini - 1 Cleavages - 0 Substrates

N-termini

Name	Sequence	Position	Evidence type	Method	Source (database)	Source (Lab)	Evidence name	Publications (PMID)
Q9NUL3-1-unknown	MANPKE...	1	inferred from electronic annotation	electronic annotation	UniProtKB		inferred from uniprot
Q9NUL3-39-unknown	MFSVQL...	39	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt90889
Q9NUL3-39-unknown	MFSVQL...	39	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96337
Q9NUL3-39-unknown	MFSVQL...	39	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96338
Q9NUL3-39-unknown	MFSVQL...	39	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96339
Q9NUL3-105-unknown	MKRGEP...	105	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt90888
Q9NUL3-105-unknown	MKRGEP...	105	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96271
Q9NUL3-105-unknown	MKRGEP...	105	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96272
Q9NUL3-105-unknown	MKRGEP...	105	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96273
Q9NUL3-105-unknown	MKRGEP...	105	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96274
Q9NUL3-173-unknown	MKALQA...	173	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt90887
Q9NUL3-173-unknown	MKALQA...	173	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96207
Q9NUL3-173-unknown	MKALQA...	173	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96206
Q9NUL3-173-unknown	MKALQA...	173	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96208
Q9NUL3-173-unknown	MKALQA...	173	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96209
Q9NUL3-198-unknown	VDDDKD...	198	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt90885
Q9NUL3-198-unknown	VDDDKD...	198	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96078
Q9NUL3-198-unknown	VDDDKD...	198	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96077
Q9NUL3-198-unknown	VDDDKD...	198	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96076
Q9NUL3-198-unknown	VDDDKD...	198	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96079
Q9NUL3-198-unknown	VDDDKD...	198	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt96080
Q9NUL3-419-unknown	VYQEME...	419	inferred from cleavage	unknown	TopFIND		Inferred from cleavage TC13407
Q9NUL3-419-unknown	VYQEME...	419	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt147435
Q9NUL3-419-unknown	VYQEME...	419	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt148324
Q9NUL3-419-unknown	VYQEME...	419	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt150222
Q9NUL3-419-unknown	VYQEME...	419	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt151645
Q9NUL3-419-unknown	VYQEME...	419	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt151775
Q9NUL3-419-unknown	VYQEME...	419	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt151776
Q9NUL3-453-unknown	SISPTS...	453		unknown			Mahrus S. et al.: nonapototic Jurkat cells, Global Sequencing of Proteolytic Cleavage...	18722006
Q9NUL3-453-unknown	SISPTS...	453	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt160321
Q9NUL3-453-unknown	SISPTS...	453	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt160320
Q9NUL3-453-unknown	SISPTS...	453	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt160319
Q9NUL3-453-unknown	SISPTS...	453	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt160318
Q9NUL3-453-unknown	SISPTS...	453	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt160322
Q9NUL3-453-unknown	SISPTS...	453	inferred from isoform by sequence similarity	unknown	TopFIND		inferred from TNt160323
Q9NUL3-453-	SISPTS...	453		Subtiligase Based Positive Selection		Wells	Jurkat_untreated	23264352

C-termini

Sequence	Position	Evidence type	Method	Source (database)	Evidence name
...MYNQRY	137	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt86504
...MYNQRY	137	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt91511
...MYNQRY	137	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt91510
...MYNQRY	137	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt91512
...MYNQRY	137	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt91513
...HLSPDV	418	inferred from cleavage	unknown	TopFIND	Inferred from cleavage TC13407
...HLSPDV	418	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt130784
...HLSPDV	418	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt131694
...HLSPDV	418	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt133616
...HLSPDV	418	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt135047
...HLSPDV	418	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt135179
...HLSPDV	418	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt135180
...SNSAV	570	inferred from electronic annotation	electronic annotation	UniProtKB	inferred from uniprot
...SNSAV	570	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt86505
...SNSAV	570	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt86506
...SNSAV	570	inferred from isoform by sequence similarity	unknown	TopFIND	inferred from TCt86501

Cleavages

Protease	Position	Sequence	Evidence type	Method	Source (database)	Source (Lab)	Evidence name	Publications (PMIDs)
GRAB_HUMAN	418	SPDV.\|.VYQE	inferred from experiment	unknown	MEROPS	Gevaert K	Van Damme P et al.:Complementary positional proteo... (M14.017)	20526345,

Substrates

Substrate	Position	Sequence	Evidence type	Method	Source (database)	Source (Lab)	Evidence name	Publications (PMIDs)