Q6E0U4: Dermokine
| Protein names | - Dermokine - Epidermis-specific secreted protein SK30/SK89 |
|---|---|
| Gene names | DMKN |
| Organism | Homo sapiens |
| Protease Family | |
| Protease ID | |
| Chromosome location | |
| UniProt ID | Q6E0U4 |
3
N-termini
2
C-termini
1
Cleavages
0
Substrates
Sequence
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
Isoforms
- Isoform 2 of Dermokine - Isoform 3 of Dermokine - Isoform 4 of Dermokine - Isoform 5 of Dermokine - Isoform 6 of Dermokine - Isoform 7 of Dermokine - Isoform 8 of Dermokine - Isoform 9 of Dermokine - Isoform 10 of Dermokine - Isoform 11 of Dermokine - Isoform 12 of Dermokine - Isoform 13 of Dermokine - Isoform 14 of Dermokine - Isoform 15 of Dermokine - Isoform 16 of DermokineSequence View
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
10 20 30 40 50 60
MKFQGPLACL LLALCLGSGE AGPLQSGEES TGTNIGEALG HGLGDALSEG VGKAIGKEAG
70 80 90 100 110 120
GAAGSKVSEA LGQGTREAVG TGVRQVPGFG VADALGNRVG EAAHALGNTG HEIGRQAEDV
130 140 150 160 170 180
IRHGADAVRG SWQGVPGHNG AWETSGGHGI FGSQGGLGGQ GQGNPGGLGT PWVHGYPGNS
190 200 210 220 230 240
AGSFGMNPQG APWGQGGNGG PPNFGTNTQG AVAQPGYGSV RASNQNEGCT NPPPSGSGGG
250 260 270 280 290 300
SSNSGGGSGS QSGSSGSGSN GDNNNGSSSG GSSSGSSSGG SSGGSSGGSS GNSGGSRGDS
310 320 330 340 350 360
GSESSWGSST GSSSGNHGGS GGGNGHKPGC EKPGNEARGS GESGIQNSET SPGMFNFDTF
370 380 390 400 410 420
WKNFKSKLGF INWDAINKNQ VPPPSTRALL YFSRLWEDFK QNTPFLNWKA IIEGADASSL
430 440 450 460 470
QKRAGRDDQN YNYNQHAYPT AYGGKYSVKT PAKGGVSPSS SASRVQPGLL QWVKFW
Protein Neighborhood
Domains & Features
3 N-termini - 2 C-termini - 1 Cleavages - 0 Substrates
N-termini
| Name | Sequence | Position | Modification | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMID) |
|---|---|---|---|---|---|---|---|---|---|
| Q6E0U4-1-unknown | MKFQGP... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt72965 | |||
| Q6E0U4-1-unknown | MKFQGP... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt72966 | |||
| Q6E0U4-1-unknown | MKFQGP... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt72967 | |||
| Q6E0U4-1-unknown | MKFQGP... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt72968 | |||
| Q6E0U4-1-unknown | MKFQGP... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt72969 | |||
| Q6E0U4-1-unknown | MKFQGP... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt72970 | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from electronic annotation | electronic annotation | UniProtKB | inferred from uniprot | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt112987 | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt112988 | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt112989 | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt112990 | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt112991 | |||
| Q6E0U4-22-unknown | GPLQSG... | 22 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt112992 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from cleavage | unknown | TopFIND | Inferred from cleavage TC19632 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt138767 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt138768 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt138770 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt138772 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt138773 | |||
| Q6E0U4-45-unknown | DALSEG... | 45 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt138775 |
C-termini
| Name | Sequence | Position | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|---|---|---|---|---|---|---|---|
| ...GHGLGD | 44 | inferred from cleavage | unknown | TopFIND | Inferred from cleavage TC19632 | |||
| ...GHGLGD | 44 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt121822 | |||
| ...GHGLGD | 44 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt121823 | |||
| ...GHGLGD | 44 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt121825 | |||
| ...GHGLGD | 44 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt121827 | |||
| ...GHGLGD | 44 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt121828 | |||
| ...GHGLGD | 44 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt121830 | |||
| ...WVKFW | 476 | inferred from electronic annotation | electronic annotation | UniProtKB | inferred from uniprot | |||
| ...WVKFW | 476 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt68590 | |||
| ...WVKFW | 476 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt68589 | |||
| ...WVKFW | 476 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt68585 | |||
| ...WVKFW | 476 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt68583 |
Cleavages
| Protease | Position | Sequence | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|---|---|---|---|---|---|---|---|
| MEP1B_HUMAN | 44 | GLGD.|.DALS | inferred from experiment | unknown | MEROPS | Overall CM | Becker-Pauly C et al.:Proteomic analyses reveal an ac... (M12.002) | 21693781, |
Substrates
| Substrate | Position | Sequence | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|