Q5GLZ8: Probable E3 ubiquitin-protein ligase HERC4
| Protein names | - Probable E3 ubiquitin-protein ligase HERC4 - 2.3.2.26 - HECT domain and RCC1-like domain-containing protein 4 - HECT-type E3 ubiquitin transferase HERC4 |
|---|---|
| Gene names | HERC4 |
| Organism | Homo sapiens |
| Protease Family | |
| Protease ID | |
| Chromosome location | |
| UniProt ID | Q5GLZ8 |
2
N-termini
2
C-termini
1
Cleavages
0
Substrates
Sequence
10 20 30 40 50 60
MLCWGNASFG QLGLGGIDEE IVLEPRKSDF FINKRVRDVG CGLRHTVFVL DDGTVYTCGC
70 80 90 100 110 120
NDLGQLGHEK SRKKPEQVVA LDAQNIVAVS CGEAHTLALN DKGQVYAWGL DSDGQLGLVG
130 140 150 160 170 180
SEECIRVPRN IKSLSDIQIV QVACGYYHSL ALSKASEVFC WGQNKYGQLG LGTDCKKQTS
190 200 210 220 230 240
PQLLKSLLGI PFMQVAAGGA HSFVLTLSGA IFGWGRNKFG QLGLNDENDR YVPNLLKSLR
250 260 270 280 290 300
SQKIVYICCG EDHTAALTKE GGVFTFGAGG YGQLGHNSTS HEINPRKVFE LMGSIVTEIA
310 320 330 340 350 360
CGRQHTSAFV PSSGRIYSFG LGGNGQLGTG STSNRKSPFT VKGNWYPYNG QCLPDIDSEE
370 380 390 400 410 420
YFCVKRIFSG GDQSFSHYSS PQNCGPPDDF RCPNPTKQIW TVNEALIQKW LSYPSGRFPV
430 440 450 460 470 480
EIANEIDGTF SSSGCLNGSF LAVSNDDHYR TGTRFSGVDM NAARLLFHKL IQPDHPQISQ
490 500 510 520 530 540
QVAASLEKNL IPKLTSSLPD VEALRFYLTL PECPLMSDSN NFTTIAIPFG TALVNLEKAP
550 560 570 580 590 600
LKVLENWWSV LEPPLFLKIV ELFKEVVVHL LKLYKIGIPP SERRIFNSFL HTALKVLEIL
610 620 630 640 650 660
HRVNEKMGQI IQYDKFYIHE VQELIDIRND YINWVQQQAY GMDVNHGLTE LADIPVTICT
670 680 690 700 710 720
YPFVFDAQAK TTLLQTDAVL QMQMAIDQAH RQNVSSLFLP VIESVNPCLI LVVRRENIVG
730 740 750 760 770 780
DAMEVLRKTK NIDYKKPLKV IFVGEDAVDA GGVRKEFFLL IMRELLDPKY GMFRYYEDSR
790 800 810 820 830 840
LIWFSDKTFE DSDLFHLIGV ICGLAIYNCT IVDLHFPLAL YKKLLKKKPS LDDLKELMPD
850 860 870 880 890 900
VGRSMQQLLD YPEDDIEETF CLNFTITVEN FGATEVKELV LNGADTAVNK QNRQEFVDAY
910 920 930 940 950 960
VDYIFNKSVA SLFDAFHAGF HKVCGGKVLL LFQPNELQAM VIGNTNYDWK ELEKNTEYKG
970 980 990 1000 1010 1020
EYWAEHPTIK IFWEVFHELP LEKKKQFLLF LTGSDRIPIL GMKSLKLVIQ STGGGEEYLP
1030 1040 1050
VSHTCFNLLD LPKYTEKETL RSKLIQAIDH NEGFSLI
Isoforms
- Isoform 2 of Probable E3 ubiquitin-protein ligase HERC4 - Isoform 3 of Probable E3 ubiquitin-protein ligase HERC4 - Isoform 4 of Probable E3 ubiquitin-protein ligase HERC4 - Isoform 5 of Probable E3 ubiquitin-protein ligase HERC4 - Isoform 6 of Probable E3 ubiquitin-protein ligase HERC4Sequence View
10 20 30 40 50 60
MLCWGNASFG QLGLGGIDEE IVLEPRKSDF FINKRVRDVG CGLRHTVFVL DDGTVYTCGC
70 80 90 100 110 120
NDLGQLGHEK SRKKPEQVVA LDAQNIVAVS CGEAHTLALN DKGQVYAWGL DSDGQLGLVG
130 140 150 160 170 180
SEECIRVPRN IKSLSDIQIV QVACGYYHSL ALSKASEVFC WGQNKYGQLG LGTDCKKQTS
190 200 210 220 230 240
PQLLKSLLGI PFMQVAAGGA HSFVLTLSGA IFGWGRNKFG QLGLNDENDR YVPNLLKSLR
250 260 270 280 290 300
SQKIVYICCG EDHTAALTKE GGVFTFGAGG YGQLGHNSTS HEINPRKVFE LMGSIVTEIA
310 320 330 340 350 360
CGRQHTSAFV PSSGRIYSFG LGGNGQLGTG STSNRKSPFT VKGNWYPYNG QCLPDIDSEE
370 380 390 400 410 420
YFCVKRIFSG GDQSFSHYSS PQNCGPPDDF RCPNPTKQIW TVNEALIQKW LSYPSGRFPV
430 440 450 460 470 480
EIANEIDGTF SSSGCLNGSF LAVSNDDHYR TGTRFSGVDM NAARLLFHKL IQPDHPQISQ
490 500 510 520 530 540
QVAASLEKNL IPKLTSSLPD VEALRFYLTL PECPLMSDSN NFTTIAIPFG TALVNLEKAP
550 560 570 580 590 600
LKVLENWWSV LEPPLFLKIV ELFKEVVVHL LKLYKIGIPP SERRIFNSFL HTALKVLEIL
610 620 630 640 650 660
HRVNEKMGQI IQYDKFYIHE VQELIDIRND YINWVQQQAY GMDVNHGLTE LADIPVTICT
670 680 690 700 710 720
YPFVFDAQAK TTLLQTDAVL QMQMAIDQAH RQNVSSLFLP VIESVNPCLI LVVRRENIVG
730 740 750 760 770 780
DAMEVLRKTK NIDYKKPLKV IFVGEDAVDA GGVRKEFFLL IMRELLDPKY GMFRYYEDSR
790 800 810 820 830 840
LIWFSDKTFE DSDLFHLIGV ICGLAIYNCT IVDLHFPLAL YKKLLKKKPS LDDLKELMPD
850 860 870 880 890 900
VGRSMQQLLD YPEDDIEETF CLNFTITVEN FGATEVKELV LNGADTAVNK QNRQEFVDAY
910 920 930 940 950 960
VDYIFNKSVA SLFDAFHAGF HKVCGGKVLL LFQPNELQAM VIGNTNYDWK ELEKNTEYKG
970 980 990 1000 1010 1020
EYWAEHPTIK IFWEVFHELP LEKKKQFLLF LTGSDRIPIL GMKSLKLVIQ STGGGEEYLP
1030 1040 1050
VSHTCFNLLD LPKYTEKETL RSKLIQAIDH NEGFSLI
10 20 30 40 50 60
MLCWGNASFG QLGLGGIDEE IVLEPRKSDF FINKRVRDVG CGLRHTVFVL DDGTVYTCGC
70 80 90 100 110 120
NDLGQLGHEK SRKKPEQVVA LDAQNIVAVS CGEAHTLALN DKGQVYAWGL DSDGQLGLVG
130 140 150 160 170 180
SEECIRVPRN IKSLSDIQIV QVACGYYHSL ALSKASEVFC WGQNKYGQLG LGTDCKKQTS
190 200 210 220 230 240
PQLLKSLLGI PFMQVAAGGA HSFVLTLSGA IFGWGRNKFG QLGLNDENDR YVPNLLKSLR
250 260 270 280 290 300
SQKIVYICCG EDHTAALTKE GGVFTFGAGG YGQLGHNSTS HEINPRKVFE LMGSIVTEIA
310 320 330 340 350 360
CGRQHTSAFV PSSGRIYSFG LGGNGQLGTG STSNRKSPFT VKGNWYPYNG QCLPDIDSEE
370 380 390 400 410 420
YFCVKRIFSG GDQSFSHYSS PQNCGPPDDF RCPNPTKQIW TVNEALIQKW LSYPSGRFPV
430 440 450 460 470 480
EIANEIDGTF SSSGCLNGSF LAVSNDDHYR TGTRFSGVDM NAARLLFHKL IQPDHPQISQ
490 500 510 520 530 540
QVAASLEKNL IPKLTSSLPD VEALRFYLTL PECPLMSDSN NFTTIAIPFG TALVNLEKAP
550 560 570 580 590 600
LKVLENWWSV LEPPLFLKIV ELFKEVVVHL LKLYKIGIPP SERRIFNSFL HTALKVLEIL
610 620 630 640 650 660
HRVNEKMGQI IQYDKFYIHE VQELIDIRND YINWVQQQAY GMDVNHGLTE LADIPVTICT
670 680 690 700 710 720
YPFVFDAQAK TTLLQTDAVL QMQMAIDQAH RQNVSSLFLP VIESVNPCLI LVVRRENIVG
730 740 750 760 770 780
DAMEVLRKTK NIDYKKPLKV IFVGEDAVDA GGVRKEFFLL IMRELLDPKY GMFRYYEDSR
790 800 810 820 830 840
LIWFSDKTFE DSDLFHLIGV ICGLAIYNCT IVDLHFPLAL YKKLLKKKPS LDDLKELMPD
850 860 870 880 890 900
VGRSMQQLLD YPEDDIEETF CLNFTITVEN FGATEVKELV LNGADTAVNK QNRQEFVDAY
910 920 930 940 950 960
VDYIFNKSVA SLFDAFHAGF HKVCGGKVLL LFQPNELQAM VIGNTNYDWK ELEKNTEYKG
970 980 990 1000 1010 1020
EYWAEHPTIK IFWEVFHELP LEKKKQFLLF LTGSDRIPIL GMKSLKLVIQ STGGGEEYLP
1030 1040 1050
VSHTCFNLLD LPKYTEKETL RSKLIQAIDH NEGFSLI
10 20 30 40 50 60
MLCWGNASFG QLGLGGIDEE IVLEPRKSDF FINKRVRDVG CGLRHTVFVL DDGTVYTCGC
70 80 90 100 110 120
NDLGQLGHEK SRKKPEQVVA LDAQNIVAVS CGEAHTLALN DKGQVYAWGL DSDGQLGLVG
130 140 150 160 170 180
SEECIRVPRN IKSLSDIQIV QVACGYYHSL ALSKASEVFC WGQNKYGQLG LGTDCKKQTS
190 200 210 220 230 240
PQLLKSLLGI PFMQVAAGGA HSFVLTLSGA IFGWGRNKFG QLGLNDENDR YVPNLLKSLR
250 260 270 280 290 300
SQKIVYICCG EDHTAALTKE GGVFTFGAGG YGQLGHNSTS HEINPRKVFE LMGSIVTEIA
310 320 330 340 350 360
CGRQHTSAFV PSSGRIYSFG LGGNGQLGTG STSNRKSPFT VKGNWYPYNG QCLPDIDSEE
370 380 390 400 410 420
YFCVKRIFSG GDQSFSHYSS PQNCGPPDDF RCPNPTKQIW TVNEALIQKW LSYPSGRFPV
430 440 450 460 470 480
EIANEIDGTF SSSGCLNGSF LAVSNDDHYR TGTRFSGVDM NAARLLFHKL IQPDHPQISQ
490 500 510 520 530 540
QVAASLEKNL IPKLTSSLPD VEALRFYLTL PECPLMSDSN NFTTIAIPFG TALVNLEKAP
550 560 570 580 590 600
LKVLENWWSV LEPPLFLKIV ELFKEVVVHL LKLYKIGIPP SERRIFNSFL HTALKVLEIL
610 620 630 640 650 660
HRVNEKMGQI IQYDKFYIHE VQELIDIRND YINWVQQQAY GMDVNHGLTE LADIPVTICT
670 680 690 700 710 720
YPFVFDAQAK TTLLQTDAVL QMQMAIDQAH RQNVSSLFLP VIESVNPCLI LVVRRENIVG
730 740 750 760 770 780
DAMEVLRKTK NIDYKKPLKV IFVGEDAVDA GGVRKEFFLL IMRELLDPKY GMFRYYEDSR
790 800 810 820 830 840
LIWFSDKTFE DSDLFHLIGV ICGLAIYNCT IVDLHFPLAL YKKLLKKKPS LDDLKELMPD
850 860 870 880 890 900
VGRSMQQLLD YPEDDIEETF CLNFTITVEN FGATEVKELV LNGADTAVNK QNRQEFVDAY
910 920 930 940 950 960
VDYIFNKSVA SLFDAFHAGF HKVCGGKVLL LFQPNELQAM VIGNTNYDWK ELEKNTEYKG
970 980 990 1000 1010 1020
EYWAEHPTIK IFWEVFHELP LEKKKQFLLF LTGSDRIPIL GMKSLKLVIQ STGGGEEYLP
1030 1040 1050
VSHTCFNLLD LPKYTEKETL RSKLIQAIDH NEGFSLI
10 20 30 40 50 60
MLCWGNASFG QLGLGGIDEE IVLEPRKSDF FINKRVRDVG CGLRHTVFVL DDGTVYTCGC
70 80 90 100 110 120
NDLGQLGHEK SRKKPEQVVA LDAQNIVAVS CGEAHTLALN DKGQVYAWGL DSDGQLGLVG
130 140 150 160 170 180
SEECIRVPRN IKSLSDIQIV QVACGYYHSL ALSKASEVFC WGQNKYGQLG LGTDCKKQTS
190 200 210 220 230 240
PQLLKSLLGI PFMQVAAGGA HSFVLTLSGA IFGWGRNKFG QLGLNDENDR YVPNLLKSLR
250 260 270 280 290 300
SQKIVYICCG EDHTAALTKE GGVFTFGAGG YGQLGHNSTS HEINPRKVFE LMGSIVTEIA
310 320 330 340 350 360
CGRQHTSAFV PSSGRIYSFG LGGNGQLGTG STSNRKSPFT VKGNWYPYNG QCLPDIDSEE
370 380 390 400 410 420
YFCVKRIFSG GDQSFSHYSS PQNCGPPDDF RCPNPTKQIW TVNEALIQKW LSYPSGRFPV
430 440 450 460 470 480
EIANEIDGTF SSSGCLNGSF LAVSNDDHYR TGTRFSGVDM NAARLLFHKL IQPDHPQISQ
490 500 510 520 530 540
QVAASLEKNL IPKLTSSLPD VEALRFYLTL PECPLMSDSN NFTTIAIPFG TALVNLEKAP
550 560 570 580 590 600
LKVLENWWSV LEPPLFLKIV ELFKEVVVHL LKLYKIGIPP SERRIFNSFL HTALKVLEIL
610 620 630 640 650 660
HRVNEKMGQI IQYDKFYIHE VQELIDIRND YINWVQQQAY GMDVNHGLTE LADIPVTICT
670 680 690 700 710 720
YPFVFDAQAK TTLLQTDAVL QMQMAIDQAH RQNVSSLFLP VIESVNPCLI LVVRRENIVG
730 740 750 760 770 780
DAMEVLRKTK NIDYKKPLKV IFVGEDAVDA GGVRKEFFLL IMRELLDPKY GMFRYYEDSR
790 800 810 820 830 840
LIWFSDKTFE DSDLFHLIGV ICGLAIYNCT IVDLHFPLAL YKKLLKKKPS LDDLKELMPD
850 860 870 880 890 900
VGRSMQQLLD YPEDDIEETF CLNFTITVEN FGATEVKELV LNGADTAVNK QNRQEFVDAY
910 920 930 940 950 960
VDYIFNKSVA SLFDAFHAGF HKVCGGKVLL LFQPNELQAM VIGNTNYDWK ELEKNTEYKG
970 980 990 1000 1010 1020
EYWAEHPTIK IFWEVFHELP LEKKKQFLLF LTGSDRIPIL GMKSLKLVIQ STGGGEEYLP
1030 1040 1050
VSHTCFNLLD LPKYTEKETL RSKLIQAIDH NEGFSLI
10 20 30 40 50 60
MLCWGNASFG QLGLGGIDEE IVLEPRKSDF FINKRVRDVG CGLRHTVFVL DDGTVYTCGC
70 80 90 100 110 120
NDLGQLGHEK SRKKPEQVVA LDAQNIVAVS CGEAHTLALN DKGQVYAWGL DSDGQLGLVG
130 140 150 160 170 180
SEECIRVPRN IKSLSDIQIV QVACGYYHSL ALSKASEVFC WGQNKYGQLG LGTDCKKQTS
190 200 210 220 230 240
PQLLKSLLGI PFMQVAAGGA HSFVLTLSGA IFGWGRNKFG QLGLNDENDR YVPNLLKSLR
250 260 270 280 290 300
SQKIVYICCG EDHTAALTKE GGVFTFGAGG YGQLGHNSTS HEINPRKVFE LMGSIVTEIA
310 320 330 340 350 360
CGRQHTSAFV PSSGRIYSFG LGGNGQLGTG STSNRKSPFT VKGNWYPYNG QCLPDIDSEE
370 380 390 400 410 420
YFCVKRIFSG GDQSFSHYSS PQNCGPPDDF RCPNPTKQIW TVNEALIQKW LSYPSGRFPV
430 440 450 460 470 480
EIANEIDGTF SSSGCLNGSF LAVSNDDHYR TGTRFSGVDM NAARLLFHKL IQPDHPQISQ
490 500 510 520 530 540
QVAASLEKNL IPKLTSSLPD VEALRFYLTL PECPLMSDSN NFTTIAIPFG TALVNLEKAP
550 560 570 580 590 600
LKVLENWWSV LEPPLFLKIV ELFKEVVVHL LKLYKIGIPP SERRIFNSFL HTALKVLEIL
610 620 630 640 650 660
HRVNEKMGQI IQYDKFYIHE VQELIDIRND YINWVQQQAY GMDVNHGLTE LADIPVTICT
670 680 690 700 710 720
YPFVFDAQAK TTLLQTDAVL QMQMAIDQAH RQNVSSLFLP VIESVNPCLI LVVRRENIVG
730 740 750 760 770 780
DAMEVLRKTK NIDYKKPLKV IFVGEDAVDA GGVRKEFFLL IMRELLDPKY GMFRYYEDSR
790 800 810 820 830 840
LIWFSDKTFE DSDLFHLIGV ICGLAIYNCT IVDLHFPLAL YKKLLKKKPS LDDLKELMPD
850 860 870 880 890 900
VGRSMQQLLD YPEDDIEETF CLNFTITVEN FGATEVKELV LNGADTAVNK QNRQEFVDAY
910 920 930 940 950 960
VDYIFNKSVA SLFDAFHAGF HKVCGGKVLL LFQPNELQAM VIGNTNYDWK ELEKNTEYKG
970 980 990 1000 1010 1020
EYWAEHPTIK IFWEVFHELP LEKKKQFLLF LTGSDRIPIL GMKSLKLVIQ STGGGEEYLP
1030 1040 1050
VSHTCFNLLD LPKYTEKETL RSKLIQAIDH NEGFSLI
Protein Neighborhood
Domains & Features
2 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) |
|---|---|---|---|---|---|---|---|---|---|
| Q5GLZ8-1-unknown | MLCWGN... | 1 | inferred from electronic annotation | electronic annotation | UniProtKB | inferred from uniprot | |||
| Q5GLZ8-1-unknown | MLCWGN... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt76922 | |||
| Q5GLZ8-1-unknown | MLCWGN... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt76923 | |||
| Q5GLZ8-1-unknown | MLCWGN... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt76924 | |||
| Q5GLZ8-1-unknown | MLCWGN... | 1 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt76925 | |||
| Q5GLZ8-250-unknown | GEDHTA... | 250 | inferred from cleavage | unknown | TopFIND | Inferred from cleavage TC7897 | |||
| Q5GLZ8-250-unknown | GEDHTA... | 250 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt144323 | |||
| Q5GLZ8-250-unknown | GEDHTA... | 250 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt148416 | |||
| Q5GLZ8-250-unknown | GEDHTA... | 250 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TNt148417 |
C-termini
| Name | Sequence | Position | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|---|---|---|---|---|---|---|---|
| ...VYICCG | 249 | inferred from cleavage | unknown | TopFIND | Inferred from cleavage TC7897 | |||
| ...VYICCG | 249 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt127585 | |||
| ...VYICCG | 249 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt131789 | |||
| ...VYICCG | 249 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt131790 | |||
| ...GFSLI | 1057 | inferred from electronic annotation | electronic annotation | UniProtKB | inferred from uniprot | |||
| ...GFSLI | 1057 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt72544 | |||
| ...GFSLI | 1057 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt72541 | |||
| ...GFSLI | 1057 | inferred from isoform by sequence similarity | unknown | TopFIND | inferred from TCt72540 |
Cleavages
| Protease | Position | Sequence | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|---|---|---|---|---|---|---|---|
| CATS_HUMAN | 249 | ICCG.|.GEDH | inferred from experiment | unknown | MEROPS | Schilling O | Biniossek ML et al.:Proteomic identification of pro... (C01.060) | 21967108, |
Substrates
| Substrate | Position | Sequence | Evidence type | Method | Source (database) | Source (Lab) | Evidence name | Publications (PMIDs) |
|---|