Q06787: Synaptic functional regulator FMR1 {ECO:0000305}
| Protein names | - Synaptic functional regulator FMR1 {ECO:0000305} - Fragile X mental retardation protein 1 {ECO:0000312|HGNC:HGNC:3775} - FMRP {ECO:0000303|PubMed:9659908} - Protein FMR-1 {ECO:0000303|PubMed:1710175} |
|---|---|
| Gene names | FMR1 |
| Organism | Homo sapiens |
| Protease Family | |
| Protease ID | |
| Chromosome location | |
| UniProt ID | Q06787 |
2
N-termini
1
C-termini
0
Cleavages
0
Substrates
Sequence
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
Isoforms
- Isoform 1 of Fragile X mental retardation protein 1 - Isoform 2 of Fragile X mental retardation protein 1 - Isoform 3 of Fragile X mental retardation protein 1 - Isoform 4 of Fragile X mental retardation protein 1 - Isoform 5 of Fragile X mental retardation protein 1 - Isoform 7 of Fragile X mental retardation protein 1 - Isoform 8 of Fragile X mental retardation protein 1 - Isoform 1 of Synaptic functional regulator FMR1 - Isoform 2 of Synaptic functional regulator FMR1 - Isoform 3 of Synaptic functional regulator FMR1 - Isoform 4 of Synaptic functional regulator FMR1 - Isoform 5 of Synaptic functional regulator FMR1 - Isoform 7 of Synaptic functional regulator FMR1 - Isoform 8 of Synaptic functional regulator FMR1 - Isoform 9 of Synaptic functional regulator FMR1 - Isoform 10 of Synaptic functional regulator FMR1 - Isoform 11 of Synaptic functional regulator FMR1Sequence View
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
10 20 30 40 50 60
MEELVVEVRG SNGAFYKAFV KDVHEDSITV AFENNWQPDR QIPFHDVRFP PPVGYNKDIN
70 80 90 100 110 120
ESDEVEVYSR ANEKEPCCWW LAKVRMIKGE FYVIEYAACD ATYNEIVTIE RLRSVNPNKP
130 140 150 160 170 180
ATKDTFHKIK LDVPEDLRQM CAKEAAHKDF KKAVGAFSVT YDPENYQLVI LSINEVTSKR
190 200 210 220 230 240
AHMLIDMHFR SLRTKLSLIM RNEEASKQLE SSRQLASRFH EQFIVREDLM GLAIGTHGAN
250 260 270 280 290 300
IQQARKVPGV TAIDLDEDTC TFHIYGEDQD AVKKARSFLE FAEDVIQVPR NLVGKVIGKN
310 320 330 340 350 360
GKLIQEIVDK SGVVRVRIEA ENEKNVPQEE EIMPPNSLPS NNSRVGPNAP EEKKHLDIKE
370 380 390 400 410 420
NSTHFSQPNS TKVQRVLVAS SVVAGESQKP ELKAWQGMVP FVFVGTKDSI ANATVLLDYH
430 440 450 460 470 480
LNYLKEVDQL RLERLQIDEQ LRQIGASSRP PPNRTDKEKS YVTDDGQGMG RGSRPYRNRG
490 500 510 520 530 540
HGRRGPGYTS GTNSEASNAS ETESDHRDEL SDWSLAPTEE ERESFLRRGD GRRRGGGGRG
550 560 570 580 590 600
QGGRGRGGGF KGNDDHSRTD NRPRNPREAK GRTTDGSLQI RVDCNNERSV HTKTLQNTSS
610 620 630
EGSRLRTGKD RNQKKEKPDS VDGQQPLVNG VP
Protein Neighborhood
Domains & Features
2 N-termini - 1 C-termini - 0 Cleavages - 0 Substrates
N-termini
| Name | Sequence | Position | Modification | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMID) |
|---|---|---|---|---|---|---|---|---|---|
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from electronic annotation | electronic annotation | UniProtKB | inferred from uniprot | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | COFRADIC | Gevaert K. | Van Damme P et al.: Complementary positional proteomics for screening substrates... | 20526345 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | COFRADIC | Gevaert K. | Van Damme P et al.: PC3-cells, Complementary positional proteomics for screening substrates... | 20526345 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98816 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98817 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98818 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98819 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98820 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98814 | ||
| Q06787-1-Acetylation | MEELVV... | 1 | acetylation- | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt98815 | ||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75305 | |||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75306 | |||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75307 | |||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75308 | |||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75309 | |||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75310 | |||
| Q06787-1-unknown | MEELVV... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt75311 |
C-termini
| Name | Sequence | Position | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|---|---|---|---|---|---|---|---|
| ...VNGVP | 632 | inferred from electronic annotation | electronic annotation | UniProtKB | inferred from uniprot | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70929 | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70927 | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70923 | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70925 | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70926 | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70928 | |||
| ...VNGVP | 632 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt70924 |
Cleavages
| Protease | Position | Sequence | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|
Substrates
| Substrate | Position | Sequence | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|