Skip to main content
crop-pal logo
Rice
Subcellular Localization
min:
: max

 
Winner_takes_all: vacuole

Predictor Summary:
  • extracellular 6
  • endoplasmic reticulum 5
  • vacuole 9
  • plasma membrane 5
  • golgi 5
Predictors GFP MS/MS Papers
Winner Takes All:vacuole
Any Predictor:secretory
BaCelLo:secretory
EpiLoc:vacuole
iPSORT:secretory
MultiLoc:vacuole
Plant-mPloc:extracellular
Predotar:secretory
PProwler:secretory
TargetP:secretory
WoLF PSORT:vacuole
YLoc:vacuole
PPI
No PPI Data
Homology

Paralog

locusIdentityHomology Identity

Ortholog

locusHomology SpeciesLocationIdentityHomology Identity
KXG30339 Sorghum vacuole 81.63 81.07
TraesCS5A01G526200.1 Wheat plastid 81.28 80.72
TraesCS4D01G350500.1 Wheat plastid 80.94 80.38
TraesCS4B01G356800.1 Wheat vacuole 80.24 79.69
Zm00001d016708_P002 Maize extracellular 80.24 78.88
HORVU4Hr1G086300.2 Barley plastid, vacuole 81.98 77.54
Os04t0413500-01 Rice cytosol 74.87 72.24
GSMUA_Achr6P13160_001 Banana vacuole 64.82 63.93
Os03t0735800-00 Rice cytosol 9.36 61.36
Os04t0413200-01 Rice plasma membrane 62.05 61.09
GSMUA_AchrUn_... Banana vacuole 56.5 59.82
GSMUA_Achr4P29900_001 Banana golgi, vacuole 59.79 58.97
PGSC0003DMT400023090 Potato cytosol, extracellular, mitochondrion, vacuole 52.17 58.79
PGSC0003DMT400093309 Potato cytosol 8.32 58.54
PGSC0003DMT400023091 Potato cytosol, mitochondrion, plastid, vacuole 51.82 58.28
PGSC0003DMT400021619 Potato cytosol 51.3 57.81
PGSC0003DMT400072606 Potato cytosol 52.69 56.72
Solyc10g085360.1.1 Tomato nucleus 56.5 56.7
PGSC0003DMT400072608 Potato extracellular 56.67 56.19
PGSC0003DMT400028670 Potato golgi, vacuole 55.81 56.0
Solyc09g010090.2.1 Tomato vacuole 56.5 55.92
Solyc10g083290.1.1 Tomato extracellular 56.15 55.67
Solyc10g083300.1.1 Tomato nucleus 56.67 55.52
AT3G52600.1 Thale cress vacuole 56.67 55.42
Bra017257.1-P Field mustard cytosol 40.03 55.26
CDY43744 Canola vacuole 56.33 54.9
CDX95352 Canola vacuole 43.33 54.7
Solyc09g010080.2.1 Tomato vacuole 55.29 54.62
Bra033419.1-P Field mustard vacuole 55.98 54.56
CDY23227 Canola vacuole 55.98 54.56
GSMUA_Achr10P... Banana vacuole 13.69 54.48
CDX79661 Canola vacuole 55.63 54.41
AT2G36190.1 Thale cress vacuole 55.63 54.31
CDX84575 Canola vacuole 55.46 54.24
Bra023053.1-P Field mustard vacuole 54.94 54.0
Solyc10g085650.1.1 Tomato unclear 53.55 53.74
VIT_00s2527g00010.t01 Wine grape cytosol, peroxisome, vacuole 18.72 52.94
Solyc10g085640.1.1 Tomato unclear 50.61 52.42
Os01t0966700-01 Rice extracellular, vacuole 51.3 50.17
Os09t0255000-01 Rice vacuole 49.91 48.32
Os09t0255300-00 Rice extracellular, vacuole 36.05 46.22
PGSC0003DMT400097344 Potato cytosol 12.3 45.81
Os04t0664800-00 Rice vacuole 46.79 45.3
Os04t0664900-01 Rice cytosol, nucleus, vacuole 24.96 41.5
Os04t0535600-01 Rice extracellular, mitochondrion, plasma membrane 43.85 38.57
KRH08807 Soybean cytosol, nucleus, vacuole 13.69 37.09
Os02t0106100-01 Rice plasma membrane 40.73 35.5
Protein Annotations
KEGG:00052+3.2.1.26KEGG:00500+3.2.1.26Gene3D:2.115.10.20Gene3D:2.60.120.560MapMan:3.1.4.1.1EntrezGene:4329561
EMBL:AB073749EMBL:AY578158ProteinID:BAD27793.1ProteinID:BAD29294.1ProteinID:BAF08948.1ProteinID:BAS79053.1
InterPro:ConA-like_dom_sfGO:GO:0003674GO:GO:0003824GO:GO:0004553GO:GO:0004564GO:GO:0005575
GO:GO:0005576GO:GO:0005618GO:GO:0005623GO:GO:0005975GO:GO:0008150GO:GO:0008152
GO:GO:0016787GO:GO:0016798GO:GO:0030312GO:GO:0048046InterPro:Glyco_hydro_32InterPro:Glyco_hydro_32_AS
InterPro:Glyco_hydro_32_CInterPro:Glyco_hydro_32_NInterPro:Glyco_hydro_beta-prop_sfInterPro:IPR023296EnsemblPlantsGene:Os02g0534400EnsemblPlants:Os02t0534400-01
PFAM:PF00251PFAM:PF08244ScanProsite:PS00609PANTHER:PTHR31953PANTHER:PTHR31953:SF18UniProt:Q0E0P0
SMART:SM00640SUPFAM:SSF49899SUPFAM:SSF75005SignalP:SignalP-noTMUniParc:UPI00001BD47DRefSeq:XP_015625273.1
SEG:seg:::::
Description
cell-wall invertase 1, Cell wall-bound invertase 1Cell wall invertase (EC 3.2.1.26). (Os02t0534400-01)
Coordinates
chr2:+:19682544..19687163
Molecular Weight (calculated)
63987.5 Da
IEP (calculated)
8.382
GRAVY (calculated)
-0.201
Length
577 amino acids
Sequence
(BLAST)
001: MGTRLLALAP WLLLLLLQLA GASHVVHRSL EAEQAPSSVP ASIVSPLLRT GYHFQPPMNW INDPNGPLYY KGWYHLFYQY NPKGAVWGNI VWAHSVSQDL
101: INWIALEPAI KPDIPSDQYG CWSGSATILP DGTPAILYTG IDRPNINYQV QNIAFPKNAS DPLLREWVKP AYNPVATPEP GMNATQFRDP TTAWYADGHW
201: RMLVGGLKGA RLGLAYLYRS RDFKTWVRAK HPLHSALTGM WECPDFFPLQ APGLQAGLDT SVPSSKYVLK NSLDLTRYDY YTVGIYNKVT ERYVPDNPAG
301: DYHRLRYDYG NFYASKTFFD PVKHRRILLG WANESDSVTY DKAKGWAGIH AIPRKVWLDP SGKQLLQWPI EELETLRGKS VSVFDKVVKP GEHFQVTGLG
401: TYQADVEVSL EVSGLEKAEA LDPAFGDDAE RLCGAKGADV RGGVVFGLWV LASAGLEEKT AVFFRVFKPA GHGAKPVVLM CTDPTKSSLS PDLYKPTFAG
501: FVDTDISSGK ISLRSLIDRS VVESFGAGGK TCILSRVYPS MAIGDKAHLY VFNNGEADIK ISHLKAWEMK KPLMNGA
Best Arabidopsis Sequence Match ( AT3G52600.1 )
(BLAST)
001: MSAPKFGYVL LLIVLINISN NGVDAFHKVF KKLQSKSTSL ESVSPLHRTA YHFQPPRHWI NDPNAPMLYK GVYHLFYQYN PKGAVWGNIV WAHSVSKDLI
101: NWEALEPAIY PSKWFDINGT WSGSATHVPG KGPVILYTGI TENQTQIQNY AIPQDLSDPY LKTWIKPDDN PIVKPDNGEN GSAFRDPTTA WFNKKDGYWR
201: MLVGSKRKNR GIAYMYKSRD FKKWVKSKRP IHSRKKTGMW ECPDFFPVSV TDKKNGLDFS YDGPNAKHVL KVSLDLTRYE YYTLGTYDTK KDRYRPDGYT
301: PDGWDGLRFD YGNYYASKTF FDDKTNRRIL WGWANESDTV QDDTVKGWAG IQLIPRTILL DSSGKQLVFW PIEEIESLRG KNVQMTNQKM EMGQRFEVQG
401: ITPAQVDVDV TFNVGNLEKA EKFDESFATK PLELCNLKGS NVNGGVGPFG LITLATSDLE EYTPVFFRVF KDAASNKPKV LMCSDAKPSS LKKDTGTDAK
501: ERMYKPSFAG FVDVGLLDGK ISLRSLIDHS VVESFGAKGK TVITSRVYPT KAVGEKAHLF VFNNGSQPVT VESLNAWNMQ KPLKMNQGAK
Arabidopsis Description
CWINV2Beta-fructofuranosidase, insoluble isoenzyme CWINV2 [Source:UniProtKB/Swiss-Prot;Acc:Q1PEF8]
SUBAcon: [vacuole]
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.