Subcellular Localization
min:
: max
Winner_takes_all: peroxisome, plastid, nucleus
Predictor Summary:
Predictor Summary:
- nucleus 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 |
|---|---|---|---|---|
| TraesCS7A01G509200.1 | Wheat | nucleus | 96.9 | 96.9 |
| TraesCS7B01G417900.1 | Wheat | cytosol, mitochondrion, peroxisome, plastid | 96.32 | 96.17 |
| TraesCS7D01G498300.1 | Wheat | cytosol, mitochondrion, peroxisome, plastid | 96.17 | 96.17 |
| TraesCS7D01G498500.1 | Wheat | peroxisome | 39.2 | 90.94 |
| Os07t0282401-00 | Rice | peroxisome | 18.79 | 79.94 |
| Os07t0281800-01 | Rice | peroxisome | 22.25 | 79.06 |
| HORVU7Hr1G114020.3 | Barley | endoplasmic reticulum, extracellular, golgi, peroxisome, plasma membrane, vacuole | 37.8 | 78.68 |
| OQU88862 | Sorghum | cytosol, endoplasmic reticulum, peroxisome | 77.52 | 78.62 |
| OQU88864 | Sorghum | peroxisome | 75.83 | 78.37 |
| KXG34906 | Sorghum | plastid | 78.48 | 78.14 |
| KXG34909 | Sorghum | mitochondrion, plastid | 78.33 | 77.31 |
| Os07t0282300-01 | Rice | extracellular | 47.9 | 77.01 |
| Zm00001d019376_P004 | Maize | peroxisome | 77.75 | 75.84 |
| TraesCS5D01G436000.1 | Wheat | peroxisome | 62.27 | 62.92 |
| TraesCS5D01G435800.1 | Wheat | cytosol, peroxisome, plastid | 62.34 | 62.9 |
| TraesCS5D01G435900.2 | Wheat | cytosol | 61.53 | 62.17 |
| TraesCS5D01G435700.1 | Wheat | cytosol, endoplasmic reticulum, extracellular, golgi, peroxisome, plasma membrane, plastid, vacuole | 61.97 | 61.88 |
| TraesCS5D01G436200.1 | Wheat | cytosol, endoplasmic reticulum, peroxisome | 62.34 | 61.84 |
| VIT_18s0041g02390.t01 | Wine grape | peroxisome | 35.74 | 61.16 |
| CDY57476 | Canola | cytosol | 8.47 | 60.53 |
| PGSC0003DMT400048157 | Potato | peroxisome | 33.82 | 60.08 |
| PGSC0003DMT400017593 | Potato | peroxisome | 14.22 | 58.48 |
| CDY55449 | Canola | mitochondrion | 8.18 | 58.12 |
| PGSC0003DMT400050626 | Potato | cytosol | 2.43 | 57.89 |
| PGSC0003DMT400017595 | Potato | mitochondrion, peroxisome, plastid | 21.15 | 57.86 |
| VIT_18s0041g02400.t01 | Wine grape | cytosol | 8.62 | 57.35 |
| TraesCS2D01G248700.2 | Wheat | cytosol, peroxisome, plastid | 58.29 | 56.91 |
| VIT_06s0009g00770.t01 | Wine grape | cytosol, nucleus, peroxisome | 56.96 | 56.63 |
| VIT_18s0041g02430.t01 | Wine grape | cytosol | 56.52 | 56.48 |
| VIT_18s0041g02410.t01 | Wine grape | cytosol | 55.05 | 56.33 |
| PGSC0003DMT400048153 | Potato | cytosol | 55.86 | 55.57 |
| Solyc11g071600.1.1 | Tomato | cytosol, nucleus, peroxisome | 55.78 | 55.5 |
| Bra034975.1-P | Field mustard | cytosol | 50.85 | 55.47 |
| CDX87955 | Canola | cytosol, peroxisome, plastid | 53.21 | 55.45 |
| PGSC0003DMT400022472 | Potato | cytosol, nucleus, peroxisome | 55.49 | 55.33 |
| Bra019448.1-P | Field mustard | cytosol, peroxisome, plastid | 52.91 | 55.27 |
| CDY30951 | Canola | cytosol, peroxisome, plastid | 51.81 | 55.22 |
| Solyc01g009230.2.1 | Tomato | cytosol | 55.27 | 55.11 |
| CDY70226 | Canola | peroxisome | 17.39 | 55.01 |
| Solyc01g088170.2.1 | Tomato | cytosol, nucleus, peroxisome | 55.34 | 54.94 |
| Solyc11g071590.1.1 | Tomato | peroxisome, plastid | 4.57 | 54.87 |
| Solyc01g088230.2.1 | Tomato | peroxisome | 11.42 | 54.77 |
| Solyc11g071610.1.1 | Tomato | cytosol, nucleus, peroxisome | 52.84 | 54.65 |
| AT3G43600.1 | Thale cress | cytosol, nucleus, peroxisome | 53.06 | 54.5 |
| KRH14734 | Soybean | cytosol, endoplasmic reticulum, peroxisome | 54.97 | 54.45 |
| KRH73423 | Soybean | cytosol | 54.68 | 54.36 |
| AT2G27150.2 | Thale cress | cytosol, nucleus, peroxisome | 53.06 | 54.05 |
| KRH73425 | Soybean | cytosol | 54.38 | 53.99 |
| Solyc11g071620.1.1 | Tomato | cytosol | 54.02 | 53.86 |
| KRH73424 | Soybean | cytosol, mitochondrion, peroxisome, plastid | 14.44 | 53.7 |
| CDX77070 | Canola | cytosol | 52.03 | 53.44 |
| CDX89810 | Canola | cytosol, peroxisome, plastid | 52.4 | 53.06 |
| AT5G20960.1 | Thale cress | cytosol, peroxisome, plastid | 53.43 | 53.0 |
| Bra015330.1-P | Field mustard | cytosol, peroxisome, plastid | 52.17 | 52.88 |
| PGSC0003DMT400017592 | Potato | cytosol, nucleus, peroxisome | 34.49 | 52.64 |
| AT1G04580.1 | Thale cress | cytosol, nucleus, peroxisome | 51.81 | 52.58 |
| CDY48200 | Canola | peroxisome | 37.07 | 52.4 |
| CDY09091 | Canola | cytosol | 51.95 | 52.38 |
| CDY18247 | Canola | cytosol, peroxisome, plastid | 51.58 | 52.32 |
| Bra020140.1-P | Field mustard | cytosol | 51.81 | 52.19 |
| CDX92421 | Canola | cytosol, nucleus, peroxisome | 52.47 | 52.16 |
| CDY16582 | Canola | cytosol, peroxisome, plastid | 52.4 | 52.09 |
| Bra002347.1-P | Field mustard | cytosol | 52.17 | 51.91 |
| CDY12326 | Canola | cytosol, peroxisome, plastid | 52.47 | 51.78 |
| Bra034325.1-P | Field mustard | cytosol | 35.0 | 51.74 |
| Solyc11g071580.1.1 | Tomato | cytosol | 47.09 | 51.33 |
| AT1G02590.1 | Thale cress | cytosol, peroxisome, plastid | 3.32 | 50.56 |
| CDY67743 | Canola | plastid | 18.94 | 47.33 |
| Solyc01g088200.2.1 | Tomato | cytosol | 17.54 | 46.94 |
| Bra034974.1-P | Field mustard | cytosol | 8.47 | 41.07 |
| Solyc01g088220.2.1 | Tomato | cytosol | 1.92 | 35.62 |
| TraesCS1D01G192900.1 | Wheat | cytosol | 30.07 | 29.8 |
| TraesCS6D01G078500.1 | Wheat | cytosol | 30.07 | 29.74 |
Protein Annotations
Description
No Description!
Coordinates
chr7D:-:604889488..604903401
Molecular Weight (calculated)
147099.0 Da
IEP (calculated)
6.739
GRAVY (calculated)
-0.092
Length
1357 amino acids
Sequence
(BLAST)
(BLAST)
0001: MGSTRLEKVV FALNGGRYEV AGADVHPGTT LLEFIRTRTP FTGTKLGCGE GGCGACVVLI ATYNPTKDEV TEFSASSCLT LLYNINLCSV ITTEGLGNTK
0101: DGFHSIQKRM SGFHASQCGF CTPGMCMSIF TSLANADKSK KPQPQKGFSK LTVSEAEKAF SGNMCRCTGY RPIVDACKSF ASDVDLEDLG LNVFWKKGDK
0201: HADVSKLPDY TLGGGVCTFP DFLKSEIKSS LHHLNDDSDV TVSREGWYHP KSIEQYYDLL NSGLFSDCTV KVVVANTSSG VKGYKDQDLY NKYIDIGDIP
0301: ELSAICKKDG GIEIGAATPI SKTTEILEQE AGSKSSPNGS VVFRKLAEHM SKVATPFVRN TASIGGNIIL AQKYPFPSDI VTILLGAAST VRLQVYSETL
0401: EVTLEEFLEQ PPSDPSTLLL SIFIPHWASD SQKESKVIFE TYRAAPRPLG NAVSYINSAM LGHVSQKSCG DLVLSNLHMA FGAYGTEHAI RATKVEQHLN
0501: GEVLTPSVVL EAVRLLRETI VPMEGTSHAE YRISVAVAFL FSFLSPFAKG IKGPGKTASI GYASSSDTDD PCNLPLSSRR DTVSSDDHKP VGEPIKKYAV
0601: ELQASGEAVY VDDIPAPKNC LYGEFIYSTQ PLAYVKNIKF KPSLASEKVL TVVSAKDIPS GGQNIGSSFM FGDEPLFGSP VAEYAGQALG VVIAETQRYA
0701: NLAGKQVVVE YDTKDLKPPI LTVEQAVQNN SYFEVPPGKY PKQVGDFSKG MAEADHKILS TEVKLASQYY FYMETQTALA IPDEDNTIVV YSSSQYPELA
0801: QSVIARCLGI PFSNVRVITR RVGGGFGGKA FRSYTVATAA ALCAFKLRRP VRMYLNRSTD MIMIGGRHPI KAYYTVGFKS NGRITALHLD ILINAGISPD
0901: ASPLMPDTMM SGLKKYNWGA LSFDIKVCKT NNTSKSVMRA PGDTQGSFIA EAIIEHVASV LKLDANTVRQ KNFHTYDSLV QFYPESAGEA STYTLHSIFN
1001: RLLTTSSYLH RAESIKHFNN CNKWRKRGIS CAPLIFKVAP RPAPGRVSVL NDGSIVVEVG GIEVGQGLWT KVQQMTVFAL GQLWPDGSEY LLDRVRLLQA
1101: DTLNLIQGGL TAGSTSSESS CAATLEACNM LVERLKPVMK KLKQQSGGAV SWDALIAQAI TDNVNLSSSA YWVPGQESST YLNYGAAISE VEIDVLTGAI
1201: TLLRSDLVYD CGKSLNPAVD LGQIEGSFIQ GIGFFINEEH ETNADGLVVS DSTWVYKIPS VDTIPKQFNV EVLNTGYHKN RVLSSKASGE PAVVLAASVH
1301: CAVREAIRAA RKEFGSSELT FQLDVPAPMT HVKEMCGLDI VDKYLESLSA HQSRAAA
0101: DGFHSIQKRM SGFHASQCGF CTPGMCMSIF TSLANADKSK KPQPQKGFSK LTVSEAEKAF SGNMCRCTGY RPIVDACKSF ASDVDLEDLG LNVFWKKGDK
0201: HADVSKLPDY TLGGGVCTFP DFLKSEIKSS LHHLNDDSDV TVSREGWYHP KSIEQYYDLL NSGLFSDCTV KVVVANTSSG VKGYKDQDLY NKYIDIGDIP
0301: ELSAICKKDG GIEIGAATPI SKTTEILEQE AGSKSSPNGS VVFRKLAEHM SKVATPFVRN TASIGGNIIL AQKYPFPSDI VTILLGAAST VRLQVYSETL
0401: EVTLEEFLEQ PPSDPSTLLL SIFIPHWASD SQKESKVIFE TYRAAPRPLG NAVSYINSAM LGHVSQKSCG DLVLSNLHMA FGAYGTEHAI RATKVEQHLN
0501: GEVLTPSVVL EAVRLLRETI VPMEGTSHAE YRISVAVAFL FSFLSPFAKG IKGPGKTASI GYASSSDTDD PCNLPLSSRR DTVSSDDHKP VGEPIKKYAV
0601: ELQASGEAVY VDDIPAPKNC LYGEFIYSTQ PLAYVKNIKF KPSLASEKVL TVVSAKDIPS GGQNIGSSFM FGDEPLFGSP VAEYAGQALG VVIAETQRYA
0701: NLAGKQVVVE YDTKDLKPPI LTVEQAVQNN SYFEVPPGKY PKQVGDFSKG MAEADHKILS TEVKLASQYY FYMETQTALA IPDEDNTIVV YSSSQYPELA
0801: QSVIARCLGI PFSNVRVITR RVGGGFGGKA FRSYTVATAA ALCAFKLRRP VRMYLNRSTD MIMIGGRHPI KAYYTVGFKS NGRITALHLD ILINAGISPD
0901: ASPLMPDTMM SGLKKYNWGA LSFDIKVCKT NNTSKSVMRA PGDTQGSFIA EAIIEHVASV LKLDANTVRQ KNFHTYDSLV QFYPESAGEA STYTLHSIFN
1001: RLLTTSSYLH RAESIKHFNN CNKWRKRGIS CAPLIFKVAP RPAPGRVSVL NDGSIVVEVG GIEVGQGLWT KVQQMTVFAL GQLWPDGSEY LLDRVRLLQA
1101: DTLNLIQGGL TAGSTSSESS CAATLEACNM LVERLKPVMK KLKQQSGGAV SWDALIAQAI TDNVNLSSSA YWVPGQESST YLNYGAAISE VEIDVLTGAI
1201: TLLRSDLVYD CGKSLNPAVD LGQIEGSFIQ GIGFFINEEH ETNADGLVVS DSTWVYKIPS VDTIPKQFNV EVLNTGYHKN RVLSSKASGE PAVVLAASVH
1301: CAVREAIRAA RKEFGSSELT FQLDVPAPMT HVKEMCGLDI VDKYLESLSA HQSRAAA
0001: MSLVFAINGQ RFELELSSVD PSTTLLEFLR YQTSFKSVKL SCGEGGCGAC VVLLSKFDPV LQKVEDFTVS SCLTLLCSVN HCNITTSEGL GNSRDGFHPI
0101: HKRLSGFHAS QCGFCTPGMS VSLFSALLDA DKSQYSDLTV VEAEKAVSGN LCRCTGYRPI VDACKSFASD VDIEDLGLNS FCRKGDKDSS SLTRFDSEKR
0201: ICTFPEFLKD EIKSVDSGMY RWCSPASVEE LSSLLEACKA NSNTVSMKLV AGNTSMGYYK DEREQNYDKY IDITRIPHLK EIRENQNGVE IGSVVTISKV
0301: IAALKEIRVS PGVEKIFGKL ATHMEMIAAR FIRNFGSIGG NLVMAQRKQF PSDMATILLA AGAFVNIMSS SRGLEKLTLE EFLERSPLEA HDLVLSIEIP
0401: FWHSETNSEL FFETYRAAPR PHGSALAYLN AAFLAEVKDT MVVNCRLAFG AYGTKHAIRC KEIEEFLSGK VITDKVLYEA ITLLGNVVVP EDGTSNPAYR
0501: SSLAPGFLFK FLHTLMTHPT TDKPSNGYHL DPPKPLPMLS SSQNVPINNE YNPVGQPVTK VGASLQASGE AVYVDDIPSP TNCLYGAFIY SKKPFARIKG
0601: IHFKDDLVPT GVVAVISRKD VPKGGKNIGM KIGLGSDQLF AEDFTTSVGE CIAFVVADTQ RHADAAVNLA VVEYETEDLE PPILSVEDAV KKSSLFDIIP
0701: FLYPQQVGDT SKGMAEADHQ ILSSEIRLGS QYVFYMETQT ALAVGDEDNC IVVYSSTQTP QYVQSSVAAC LGIPENNIRV ITRRVGGGFG GKSVKSMPVA
0801: TACALAAKKL QRPVRTYVNR KTDMIMTGGR HPMKITYSVG FKSTGKITAL ELEILIDAGA SYGFSMFIPS NLIGSLKKYN WGALSFDIKL CKTNLLSRAI
0901: MRSPGDVQGT YIAEAIIENI ASSLSLEVDT IRKINLHTHE SLALFYKDGA GEPHEYTLSS MWDKVGVSSK FEERVSVVRE FNESNMWRKR GISRVPIIYE
1001: VLLFATPGRV SVLSDGTIVV EIGGIELGQG LWTKVKQMTS YALGMLQCDG TEELLEKIRV IQSDSLSMVQ GNFTGGSTTS EGSCAAVRLC CETLVERLKP
1101: LMERSDGPIT WNELISQAYA QSVNLSASDL YTPKDTPMQY LNYGTAVSEV EVDLVTGQTT VLQTDILYDC GKSLNPAVDL GQIEGSFVQG LGFFMLEEYI
1201: EDPEGLLLTD STWTYKIPTV DTIPKQFNVE ILNGGCHEKR VLSSKASGEP PLLLAASVHC ATRQAVKEAR KQLCMWKGEN GSSGSAFQLP VPATMPVVKE
1301: LCGLDIIESY LEWKLHDNSN L
0101: HKRLSGFHAS QCGFCTPGMS VSLFSALLDA DKSQYSDLTV VEAEKAVSGN LCRCTGYRPI VDACKSFASD VDIEDLGLNS FCRKGDKDSS SLTRFDSEKR
0201: ICTFPEFLKD EIKSVDSGMY RWCSPASVEE LSSLLEACKA NSNTVSMKLV AGNTSMGYYK DEREQNYDKY IDITRIPHLK EIRENQNGVE IGSVVTISKV
0301: IAALKEIRVS PGVEKIFGKL ATHMEMIAAR FIRNFGSIGG NLVMAQRKQF PSDMATILLA AGAFVNIMSS SRGLEKLTLE EFLERSPLEA HDLVLSIEIP
0401: FWHSETNSEL FFETYRAAPR PHGSALAYLN AAFLAEVKDT MVVNCRLAFG AYGTKHAIRC KEIEEFLSGK VITDKVLYEA ITLLGNVVVP EDGTSNPAYR
0501: SSLAPGFLFK FLHTLMTHPT TDKPSNGYHL DPPKPLPMLS SSQNVPINNE YNPVGQPVTK VGASLQASGE AVYVDDIPSP TNCLYGAFIY SKKPFARIKG
0601: IHFKDDLVPT GVVAVISRKD VPKGGKNIGM KIGLGSDQLF AEDFTTSVGE CIAFVVADTQ RHADAAVNLA VVEYETEDLE PPILSVEDAV KKSSLFDIIP
0701: FLYPQQVGDT SKGMAEADHQ ILSSEIRLGS QYVFYMETQT ALAVGDEDNC IVVYSSTQTP QYVQSSVAAC LGIPENNIRV ITRRVGGGFG GKSVKSMPVA
0801: TACALAAKKL QRPVRTYVNR KTDMIMTGGR HPMKITYSVG FKSTGKITAL ELEILIDAGA SYGFSMFIPS NLIGSLKKYN WGALSFDIKL CKTNLLSRAI
0901: MRSPGDVQGT YIAEAIIENI ASSLSLEVDT IRKINLHTHE SLALFYKDGA GEPHEYTLSS MWDKVGVSSK FEERVSVVRE FNESNMWRKR GISRVPIIYE
1001: VLLFATPGRV SVLSDGTIVV EIGGIELGQG LWTKVKQMTS YALGMLQCDG TEELLEKIRV IQSDSLSMVQ GNFTGGSTTS EGSCAAVRLC CETLVERLKP
1101: LMERSDGPIT WNELISQAYA QSVNLSASDL YTPKDTPMQY LNYGTAVSEV EVDLVTGQTT VLQTDILYDC GKSLNPAVDL GQIEGSFVQG LGFFMLEEYI
1201: EDPEGLLLTD STWTYKIPTV DTIPKQFNVE ILNGGCHEKR VLSSKASGEP PLLLAASVHC ATRQAVKEAR KQLCMWKGEN GSSGSAFQLP VPATMPVVKE
1301: LCGLDIIESY LEWKLHDNSN L
Arabidopsis Description
AAO2Indole-3-acetaldehyde oxidase [Source:UniProtKB/Swiss-Prot;Acc:Q7G192]
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.