Subcellular Localization
min:
: max
Winner_takes_all: peroxisome, plastid, cytosol
Predictor Summary:
Predictor Summary:
- cytosol 1
- mitochondrion 1
- plastid 1
- peroxisome 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| TraesCS2A01G246300.3 | Wheat | cytosol, peroxisome, plastid | 98.28 | 98.28 |
| TraesCS2D01G248700.2 | Wheat | cytosol, peroxisome, plastid | 97.85 | 98.06 |
| HORVU2Hr1G057960.4 | Barley | mitochondrion | 94.54 | 93.74 |
| EER98027 | Sorghum | plastid | 78.97 | 78.07 |
| Os07t0164900-01 | Rice | mitochondrion | 33.81 | 77.98 |
| Zm00001d018869_P001 | Maize | plastid | 76.45 | 73.5 |
| PGSC0003DMT400017593 | Potato | peroxisome | 15.94 | 67.27 |
| CDY57476 | Canola | cytosol | 8.97 | 65.79 |
| Solyc11g071590.1.1 | Tomato | peroxisome, plastid | 5.31 | 65.49 |
| PGSC0003DMT400017595 | Potato | mitochondrion, peroxisome, plastid | 22.83 | 64.11 |
| PGSC0003DMT400048157 | Potato | peroxisome | 35.03 | 63.87 |
| CDY55449 | Canola | mitochondrion | 8.76 | 63.87 |
| GSMUA_Achr9P10490_001 | Banana | cytosol, peroxisome, plastid | 60.66 | 63.87 |
| VIT_18s0041g02390.t01 | Wine grape | peroxisome | 35.61 | 62.55 |
| Solyc01g088230.2.1 | Tomato | peroxisome | 12.42 | 61.13 |
| GSMUA_Achr9P10470_001 | Banana | peroxisome | 57.14 | 60.58 |
| TraesCS5B01G429600.1 | Wheat | cytosol, endoplasmic reticulum, extracellular, golgi, peroxisome, plasma membrane, plastid, vacuole | 58.08 | 59.79 |
| TraesCS5B01G429900.1 | Wheat | peroxisome | 57.29 | 59.64 |
| TraesCS5B01G429700.1 | Wheat | cytosol | 57.57 | 59.58 |
| TraesCS5B01G429800.1 | Wheat | cytosol | 57.21 | 59.3 |
| TraesCS5B01G430100.1 | Wheat | cytosol, endoplasmic reticulum, peroxisome | 58.08 | 59.22 |
| TraesCS7B01G419000.1 | Wheat | plastid | 57.29 | 58.81 |
| VIT_18s0041g02430.t01 | Wine grape | cytosol | 57.29 | 58.76 |
| TraesCS7B01G417900.1 | Wheat | cytosol, mitochondrion, peroxisome, plastid | 57.29 | 58.72 |
| PGSC0003DMT400022472 | Potato | cytosol, nucleus, peroxisome | 57.29 | 58.63 |
| VIT_06s0009g00770.t01 | Wine grape | cytosol, nucleus, peroxisome | 57.43 | 58.61 |
| Solyc01g009230.2.1 | Tomato | cytosol | 57.14 | 58.49 |
| VIT_18s0041g02410.t01 | Wine grape | cytosol | 55.35 | 58.14 |
| PGSC0003DMT400050626 | Potato | cytosol | 2.37 | 57.89 |
| Solyc01g088170.2.1 | Tomato | cytosol, nucleus, peroxisome | 56.78 | 57.86 |
| CDY70226 | Canola | peroxisome | 17.8 | 57.81 |
| Solyc11g071600.1.1 | Tomato | cytosol, nucleus, peroxisome | 56.21 | 57.4 |
| PGSC0003DMT400048153 | Potato | cytosol | 56.21 | 57.4 |
| KRH14734 | Soybean | cytosol, endoplasmic reticulum, peroxisome | 56.35 | 57.3 |
| KRH73423 | Soybean | cytosol | 55.99 | 57.14 |
| Solyc11g071610.1.1 | Tomato | cytosol, nucleus, peroxisome | 53.48 | 56.78 |
| Solyc11g071620.1.1 | Tomato | cytosol | 55.28 | 56.58 |
| Bra019448.1-P | Field mustard | cytosol, peroxisome, plastid | 52.48 | 56.27 |
| CDY30951 | Canola | cytosol, peroxisome, plastid | 51.33 | 56.17 |
| KRH73424 | Soybean | cytosol, mitochondrion, peroxisome, plastid | 14.72 | 56.16 |
| CDX87955 | Canola | cytosol, peroxisome, plastid | 52.48 | 56.14 |
| KRH73425 | Soybean | cytosol | 54.92 | 55.96 |
| Bra034975.1-P | Field mustard | cytosol | 49.96 | 55.95 |
| TraesCS7B01G418900.1 | Wheat | peroxisome | 34.67 | 55.71 |
| CDX77070 | Canola | cytosol | 52.4 | 55.26 |
| AT2G27150.2 | Thale cress | cytosol, nucleus, peroxisome | 52.84 | 55.26 |
| AT1G04580.1 | Thale cress | cytosol, nucleus, peroxisome | 52.91 | 55.12 |
| CDX89810 | Canola | cytosol, peroxisome, plastid | 52.91 | 55.0 |
| CDY16582 | Canola | cytosol, peroxisome, plastid | 53.84 | 54.95 |
| AT3G43600.1 | Thale cress | cytosol, nucleus, peroxisome | 52.05 | 54.88 |
| Bra015330.1-P | Field mustard | cytosol, peroxisome, plastid | 52.69 | 54.82 |
| CDY18247 | Canola | cytosol, peroxisome, plastid | 52.62 | 54.78 |
| Bra002347.1-P | Field mustard | cytosol | 53.55 | 54.69 |
| CDY09091 | Canola | cytosol | 52.76 | 54.61 |
| CDX92421 | Canola | cytosol, nucleus, peroxisome | 53.41 | 54.51 |
| Bra020140.1-P | Field mustard | cytosol | 52.55 | 54.34 |
| AT5G20960.1 | Thale cress | cytosol, peroxisome, plastid | 53.19 | 54.17 |
| PGSC0003DMT400017592 | Potato | cytosol, nucleus, peroxisome | 34.31 | 53.77 |
| Bra034325.1-P | Field mustard | cytosol | 35.25 | 53.49 |
| VIT_18s0041g02400.t01 | Wine grape | cytosol | 7.82 | 53.43 |
| Solyc11g071580.1.1 | Tomato | cytosol | 47.38 | 53.01 |
| CDY48200 | Canola | peroxisome | 36.47 | 52.92 |
| AT1G02590.1 | Thale cress | cytosol, peroxisome, plastid | 3.37 | 52.81 |
| CDY12326 | Canola | cytosol, peroxisome, plastid | 51.47 | 52.15 |
| CDY67743 | Canola | plastid | 19.45 | 49.91 |
| Solyc01g088200.2.1 | Tomato | cytosol | 17.44 | 47.93 |
| Solyc01g088220.2.1 | Tomato | cytosol | 2.37 | 45.21 |
| Bra034974.1-P | Field mustard | cytosol | 8.9 | 44.29 |
| TraesCS6B01G118400.1 | Wheat | mitochondrion | 8.4 | 33.72 |
| TraesCS1B01G205300.1 | Wheat | cytosol | 29.15 | 29.66 |
| TraesCS6B01G118300.1 | Wheat | peroxisome | 16.51 | 27.64 |
Protein Annotations
Description
No Description!
Coordinates
chr2B:+:369476107..369498937
Molecular Weight (calculated)
150004.0 Da
IEP (calculated)
6.308
GRAVY (calculated)
-0.069
Length
1393 amino acids
Sequence
(BLAST)
(BLAST)
0001: MASSTPQPPP SAAVFAVNGQ RFELRGGDDP GATLLDFIRT RTRFTGPKLG CGEGGCGACV VLLSTYDAAA DQVSHAAVSS CLTLVHGLHH CAVTTTEGLG
0101: NSRDGLHAVH ARFAGFHASQ CGFCTPGMCM SLVAALAGAE GKGSGPPPRE GFSRLTSADA ERAVVGNLCR CTGYRPIADA CKSFAADVDL EDLGLNSFWK
0201: KGDAHVDKLP PYKEGSIGAF PEFLKAEIRA SLRIDKCMSA RVMAGSESSW HRPRSVEEYY RLIASDSFDG SGTKVVVGNT SSGVYREAEV YDRYIDLRDI
0301: PELNSVSKDS EGVQIGAATS ISLVIEILRR EGDDCKDVIF GKIADHMEKV SSHYVRNTAT LGGNLVMAQR DEFPSDIATI LLAAGSSVCI QVSSGKLNVT
0401: LDEFLEMPPC DYKALLLSIS VPHCTPDNVS SSAGAVNMTG DKTESSLLFE TYRAAPRPLG NAVAYLNCAF FAQISSDESS GSLILEKLHL AFGAFGTRHA
0501: IRARDVEKYL VGKPISASVL LEACNVLKKI IVPKEGTTHS AYRSSLAVAF LFTFLYPMTK RNVKPARSAR LNGHAASDTN GNPNCPPSAD IDLSLKETNS
0601: VESGLHSNDH ILESCKQIVE ISKDYLPVGI PAKKVGAELQ ASGEAVYVDD IPSPEGCLYG AFVYSTKPLA HVNSIELDPS LEQVKTVAVI TVKDIPEGGG
0701: NFGANTIFGP EPLFGDPLTQ CAGEPLGIVV AETRNFANIA AKRAVVNYST ETLDSPVLSI EEAVRRCSYF ETPPFLLPQN IGDFSKEMEE ADQKIYSAEV
0801: KLNSQYYFYM ETQTALAIPD EDNCMVVYSS SQCPEAAQNN IARCLGLPCH NVRVITRRVG GGFGGKAVRS LPVATACALA AFKLHRPVRM YLDRKTDMIM
0901: TGGRHPMKIC YSIGFKSDGK VTGLHVDLFI NAGMTMDVSP IIPHNFIEAL KKYNWGAFSY DAKICKTNIS TRSAMRGPGE VQGSYVAEAI IEHVASVLST
1001: DANLVRQRNI HTVESLALFH SECLENALGY TLPSICNQLT ASANYQYRSE IIQTFNKTSQ WKKRGLSFVP IVHKVLSRPT PGKVSILNDG SIVVEVGGIE
1101: LGQGLWTKVK QMAAFGLGQL WADRSQDLLE RVRVIQADTL SVVQGGWTTG STTSECSCEA VRLACNIMVD RLKSLKEQLQ EKHGKVSWDG LISQAKMAGV
1201: DLSAREYYIP GASGSYLNYG AAASEVEIDL LTGATTVLRS DLIYDCGQSL NPAVDMGQVE GAFVQGIGYF MSEEYVTNTD GLVVSDGTWT YKIPTVDTIP
1301: KQFNVELRNS GFHKKRVLSS KASGEPPLLL AASVHCATRD AIAAARKELH CCGSGSSSPS FFELEVPAIM PVVKELCGLD NVEKYLETLV GSK
0101: NSRDGLHAVH ARFAGFHASQ CGFCTPGMCM SLVAALAGAE GKGSGPPPRE GFSRLTSADA ERAVVGNLCR CTGYRPIADA CKSFAADVDL EDLGLNSFWK
0201: KGDAHVDKLP PYKEGSIGAF PEFLKAEIRA SLRIDKCMSA RVMAGSESSW HRPRSVEEYY RLIASDSFDG SGTKVVVGNT SSGVYREAEV YDRYIDLRDI
0301: PELNSVSKDS EGVQIGAATS ISLVIEILRR EGDDCKDVIF GKIADHMEKV SSHYVRNTAT LGGNLVMAQR DEFPSDIATI LLAAGSSVCI QVSSGKLNVT
0401: LDEFLEMPPC DYKALLLSIS VPHCTPDNVS SSAGAVNMTG DKTESSLLFE TYRAAPRPLG NAVAYLNCAF FAQISSDESS GSLILEKLHL AFGAFGTRHA
0501: IRARDVEKYL VGKPISASVL LEACNVLKKI IVPKEGTTHS AYRSSLAVAF LFTFLYPMTK RNVKPARSAR LNGHAASDTN GNPNCPPSAD IDLSLKETNS
0601: VESGLHSNDH ILESCKQIVE ISKDYLPVGI PAKKVGAELQ ASGEAVYVDD IPSPEGCLYG AFVYSTKPLA HVNSIELDPS LEQVKTVAVI TVKDIPEGGG
0701: NFGANTIFGP EPLFGDPLTQ CAGEPLGIVV AETRNFANIA AKRAVVNYST ETLDSPVLSI EEAVRRCSYF ETPPFLLPQN IGDFSKEMEE ADQKIYSAEV
0801: KLNSQYYFYM ETQTALAIPD EDNCMVVYSS SQCPEAAQNN IARCLGLPCH NVRVITRRVG GGFGGKAVRS LPVATACALA AFKLHRPVRM YLDRKTDMIM
0901: TGGRHPMKIC YSIGFKSDGK VTGLHVDLFI NAGMTMDVSP IIPHNFIEAL KKYNWGAFSY DAKICKTNIS TRSAMRGPGE VQGSYVAEAI IEHVASVLST
1001: DANLVRQRNI HTVESLALFH SECLENALGY TLPSICNQLT ASANYQYRSE IIQTFNKTSQ WKKRGLSFVP IVHKVLSRPT PGKVSILNDG SIVVEVGGIE
1101: LGQGLWTKVK QMAAFGLGQL WADRSQDLLE RVRVIQADTL SVVQGGWTTG STTSECSCEA VRLACNIMVD RLKSLKEQLQ EKHGKVSWDG LISQAKMAGV
1201: DLSAREYYIP GASGSYLNYG AAASEVEIDL LTGATTVLRS DLIYDCGQSL NPAVDMGQVE GAFVQGIGYF MSEEYVTNTD GLVVSDGTWT YKIPTVDTIP
1301: KQFNVELRNS GFHKKRVLSS KASGEPPLLL AASVHCATRD AIAAARKELH CCGSGSSSPS FFELEVPAIM PVVKELCGLD NVEKYLETLV GSK
0001: MAGDDLVFAV NGEKFEVLSV NPSTTLLEFL RSNTCFKSVK LSCGEGGCGA CIVILSKYDP VLDQVEEYSI NSCLTLLCSL NGCSITTSDG LGNTEKGFHP
0101: IHKRFAGFHA SQCGFCTPGM CISLYSALSK AHNSQSSPDY LTALAAEKSI AGNLCRCTGY RPIADACKSF ASDVDIEDLG FNSFWRKGES REEMLKKLPP
0201: YNPEKDLITF PDFLKEKIKC QHNVLDQTRY HWSTPGSVAE LQEILATTNP GKDRGLIKLV VGNTGTGYYK EEKQYGRYID ISHIPEMSMI KKDDREIEIG
0301: AVVTISKVID ALMEENTSAY VFKKIGVHME KVANHFIRNS GSIGGNLVMA QSKSFPSDIT TLLLAADASV HMINAGRHEK LRMGEYLVSP PILDTKTVLL
0401: KVHIPRWIAS STTGLLFETY RAALRPIGSA LPYINAAFLA VVSHDASSSG IIVDKCRLAF GSYGGYHSIR AREVEDFLTG KILSHSVLYE AVRLLKGIIV
0501: PSIDTSYSEY KKSLAVGFLF DFLYPLIESG SWDSEGKHID GHIDPTICLP LLSSAQQVFE SKEYHPVGEA IIKFGAEMQA SGEAVYVDDI PSLPHCLHGA
0601: FIYSTKPLAW IKSVGFSGNV TPIGVLAVIT FKDIPEVGQN IGYITMFGTG LLFADEVTIS AGQIIALVVA DTQKHADMAA HLAVVEYDSR NIGTPVLSVE
0701: DAVKRSSLFE VPPEYQPEPV GDISKGMAEA DRKIRSVELR LGSQYFFYME TQTALALPDE DNCLVVYSST QAPEFTQTVI ATCLGIPEHN VRVITRRVGG
0801: GFGGKAIKSM PVATACALAA KKMQRPVRIY VNRKTDMIMA GGRHPLKITY SVGFRSDGKL TALDLNLFID AGSDVDVSLV MPQNIMNSLR KYDWGALSFD
0901: IKVCKTNLPS RTSLRAPGEV QGSYIAESII ENVASSLKMD VDVVRRINLH TYESLRKFYK QAAGEPDEYT LPLLWDKLEV SADFRRRAES VKEFNRCNIW
1001: RKRGISRVPI IHLVIHRPTP GKVSILNDGS VAVEVAGIEV GQGLWTKVQQ MVAYGLGMIK CEGSDDLLER IRLLQTDTLS MSQSSYTAGS TTSENCCEAV
1101: RLCCGILVER LRPTMNQILE NARSVTWDML IQQANAQSVD LSARTFYKPE SSSAEYLNYG VGASEVEVDL VTGRTEIIRS DIIYDCGKSL NPAVDLGQIE
1201: GAFVQGIGFF MYEEYTTNEN GLVNEEGTWD YKIPTIDTIP KQFNVQILNS GHHKNRVLSS KASGEPPLLV AASVHCATRS AIREARKQYL SWNCIDDDHR
1301: ERCDLGFELP VPATMPVVKQ LCGLESIEKY LEWKTYP
0101: IHKRFAGFHA SQCGFCTPGM CISLYSALSK AHNSQSSPDY LTALAAEKSI AGNLCRCTGY RPIADACKSF ASDVDIEDLG FNSFWRKGES REEMLKKLPP
0201: YNPEKDLITF PDFLKEKIKC QHNVLDQTRY HWSTPGSVAE LQEILATTNP GKDRGLIKLV VGNTGTGYYK EEKQYGRYID ISHIPEMSMI KKDDREIEIG
0301: AVVTISKVID ALMEENTSAY VFKKIGVHME KVANHFIRNS GSIGGNLVMA QSKSFPSDIT TLLLAADASV HMINAGRHEK LRMGEYLVSP PILDTKTVLL
0401: KVHIPRWIAS STTGLLFETY RAALRPIGSA LPYINAAFLA VVSHDASSSG IIVDKCRLAF GSYGGYHSIR AREVEDFLTG KILSHSVLYE AVRLLKGIIV
0501: PSIDTSYSEY KKSLAVGFLF DFLYPLIESG SWDSEGKHID GHIDPTICLP LLSSAQQVFE SKEYHPVGEA IIKFGAEMQA SGEAVYVDDI PSLPHCLHGA
0601: FIYSTKPLAW IKSVGFSGNV TPIGVLAVIT FKDIPEVGQN IGYITMFGTG LLFADEVTIS AGQIIALVVA DTQKHADMAA HLAVVEYDSR NIGTPVLSVE
0701: DAVKRSSLFE VPPEYQPEPV GDISKGMAEA DRKIRSVELR LGSQYFFYME TQTALALPDE DNCLVVYSST QAPEFTQTVI ATCLGIPEHN VRVITRRVGG
0801: GFGGKAIKSM PVATACALAA KKMQRPVRIY VNRKTDMIMA GGRHPLKITY SVGFRSDGKL TALDLNLFID AGSDVDVSLV MPQNIMNSLR KYDWGALSFD
0901: IKVCKTNLPS RTSLRAPGEV QGSYIAESII ENVASSLKMD VDVVRRINLH TYESLRKFYK QAAGEPDEYT LPLLWDKLEV SADFRRRAES VKEFNRCNIW
1001: RKRGISRVPI IHLVIHRPTP GKVSILNDGS VAVEVAGIEV GQGLWTKVQQ MVAYGLGMIK CEGSDDLLER IRLLQTDTLS MSQSSYTAGS TTSENCCEAV
1101: RLCCGILVER LRPTMNQILE NARSVTWDML IQQANAQSVD LSARTFYKPE SSSAEYLNYG VGASEVEVDL VTGRTEIIRS DIIYDCGKSL NPAVDLGQIE
1201: GAFVQGIGFF MYEEYTTNEN GLVNEEGTWD YKIPTIDTIP KQFNVQILNS GHHKNRVLSS KASGEPPLLV AASVHCATRS AIREARKQYL SWNCIDDDHR
1301: ERCDLGFELP VPATMPVVKQ LCGLESIEKY LEWKTYP
Arabidopsis Description
AAO4Benzaldehyde dehydrogenase (NAD(+)) [Source:UniProtKB/Swiss-Prot;Acc:Q7G191]
SUBAcon: [peroxisome,nucleus,cytosol]
SUBAcon: [peroxisome,nucleus,cytosol]
Hydropathy Plot
About CropPAL
The Protein Annotated Locations Database (CropPAL) houses large scale proteomic and GFP localization data from published experimental studies in Soybean (Glycine max), Maize (Zea mays), Wheat (Triticum aestivum), Barley (Hordeum vulgare), Rice (Oryza sativa), Field mustard (Brassica rapa), Canola (Brassica napus), Sorghum (Sorghum bicolor), Potato (Solanum tuberosum), Tomato (Solanum lycopersicum), Banana (Musa acuminata) and Wine grape (Vitis vinifera) as well as precomputed predictions for protein subcellular localizations using protein sequences.