Subcellular Localization
min:
: max
Winner_takes_all: plastid, nucleus, cytosol
Predictor Summary:
Predictor Summary:
- nucleus 2
- plastid 3
- mitochondrion 1
- cytosol 1
| Predictors | GFP | MS/MS | Papers |
|---|---|---|---|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| Solyc01g080780.2.1 | Tomato | nucleus | 75.09 | 92.74 |
| PGSC0003DMT400029640 | Potato | cytosol | 37.77 | 51.71 |
| GSMUA_Achr9P31010_001 | Banana | cytosol | 33.65 | 46.31 |
| VIT_05s0020g01290.t01 | Wine grape | cytosol | 40.19 | 42.37 |
| GSMUA_Achr9P31000_001 | Banana | cytosol | 33.87 | 42.22 |
| Zm00001d010852_P002 | Maize | plastid | 36.74 | 41.42 |
| OQU90674 | Sorghum | nucleus | 27.41 | 40.28 |
| Os05t0151400-01 | Rice | plastid | 38.21 | 39.82 |
| Zm00001d035812_P003 | Maize | plastid | 37.69 | 39.43 |
| OQU77419 | Sorghum | nucleus | 37.69 | 38.43 |
| HORVU1Hr1G021840.9 | Barley | nucleus | 38.94 | 37.17 |
| TraesCS1A01G093900.3 | Wheat | cytosol, nucleus, plastid | 38.57 | 36.87 |
| TraesCS1D01G102500.3 | Wheat | cytosol, nucleus, plastid | 38.57 | 36.84 |
| TraesCS1B01G122000.4 | Wheat | cytosol, nucleus, plastid | 38.72 | 36.72 |
| Os03t0835100-00 | Rice | cytosol, plastid | 30.57 | 34.49 |
| HORVU5Hr1G117690.19 | Barley | plastid | 29.54 | 34.42 |
| GSMUA_Achr6P20360_001 | Banana | cytosol | 28.29 | 34.04 |
| TraesCS4A01G358400.1 | Wheat | plastid | 29.68 | 33.89 |
| Zm00001d034755_P001 | Maize | cytosol | 28.58 | 33.71 |
| Zm00001d012893_P002 | Maize | cytosol, plastid | 27.99 | 33.48 |
| TraesCS5D01G514500.1 | Wheat | cytosol, plastid | 29.68 | 33.42 |
| PGSC0003DMT400024781 | Potato | cytosol | 25.94 | 33.33 |
| TraesCS5B01G514000.1 | Wheat | cytosol | 29.24 | 32.65 |
| PGSC0003DMT400078922 | Potato | endoplasmic reticulum | 19.99 | 32.5 |
| PGSC0003DMT400013477 | Potato | cytosol | 6.91 | 31.23 |
| PGSC0003DMT400030414 | Potato | cytosol, plastid | 6.61 | 29.9 |
| KRH02257 | Soybean | cytosol | 17.12 | 27.09 |
| PGSC0003DMT400004034 | Potato | cytosol | 27.04 | 26.9 |
| Bra033515.1-P | Field mustard | cytosol | 16.39 | 20.24 |
| CDY44175 | Canola | cytosol | 12.71 | 18.72 |
| CDY22896 | Canola | cytosol | 12.78 | 17.18 |
| AT4G15810.1 | Thale cress | cytosol | 11.46 | 16.99 |
| Os01t0356800-00 | Rice | plastid | 19.25 | 4.9 |
Protein Annotations
| EntrezGene:102584657 | MapMan:23.1.2.2 | Gene3D:3.40.50.300 | ncoils:Coil | GO:GO:0000166 | GO:GO:0003674 |
| GO:GO:0003824 | GO:GO:0005488 | GO:GO:0005525 | GO:GO:0016787 | GO:GO:0016817 | InterPro:G_AIG1 |
| InterPro:IPR006703 | UniProt:M1A751 | InterPro:P-loop_NTPase | PFAM:PF04548 | PFAM:PF11886 | EnsemblPlantsGene:PGSC0003DMG400006301 |
| PGSC:PGSC0003DMG400006301 | EnsemblPlants:PGSC0003DMT400016119 | PFscan:PS51720 | PANTHER:PTHR10903 | PANTHER:PTHR10903:SF39 | SUPFAM:SSF52540 |
| TIGRFAMs:TIGR00993 | InterPro:TOC159_MAD | InterPro:Toc86_159 | UniParc:UPI000296EA35 | RefSeq:XP_006356979.1 | SEG:seg |
Description
Translocase of chloroplast 159, chloroplastic [Source:PGSC_GENE;Acc:PGSC0003DMG400006301]
Coordinates
chr1:-:60303048..60307615
Molecular Weight (calculated)
149386.0 Da
IEP (calculated)
4.320
GRAVY (calculated)
-0.487
Length
1361 amino acids
Sequence
(BLAST)
(BLAST)
0001: MDSKIYGVPL STTQGSPPAN VPLFTSTGIR APITIDDSDF EYSISANGQK YSSSSYYGSG SEGFVSGEED EFETASERLF LSDPDEQNLE KTHFVNQFVV
0101: SRPFVKTPDE EIVERGSSVG DYDDSRSSLT DPYAEDEYRD RPFVVDRGID EGHGEFSDSP FVVDELATGE SMDGSDKEGT RVVDSAIRGI PIAQLSWDSE
0201: DDEYLSTGVL EDNDVSGVFR IPNAVVLDRL DSAPKVRISD VSDYESESEN AIQSGMEEDL IITKNVEMVL GSDSTEEDKV EVDTVQNFIT DGGAANDTLE
0301: GGKNLYQVAS KKSTLLGQEL DNDEELLAEE SQILDSSVEA KSADSSRDVK PSDTAYSSPM EENRESKFGA DELDSGNSII LLTGASGDSQ KSESKEDGVY
0401: QGSDCQDIAT RTETESFHEP IKDSEPESLE CTDISVPPTA EEQVYSSASS SSDVTWSSRA EDDLPKLSDK TQHREACLNP DLEANCKVID TVKLFKNEEV
0501: PFLHENDESL TFVGSGGMKL IIDQLDQQIA TTDYDGEVSE GHLPKVDGEI VTDSDEEVDT DEESEENEMF DAEALAALLR AATVVGHEGG NVSIPSADGT
0601: RVFSLELPGS PGSTFHSSKP GQPTNADKFP LSDNNTEGIS EGILSEEEKK KLEKLQQLRI KFLRLIHKLN RSPEDSIAAQ VLYRLVRAAG KSASQVSSLD
0701: SAQKVAIELE AEDTDSLKFS LNILVIGKTG VGKSATINSI FREAKSMVDA FVPATTNVKE IIGQLDGVTL NILDTPGFRS SLTEQSINRR TLLSIKKYMK
0801: KYSPDVVLYV DRIDTQSRDL GDLPLLKSIS SYLGPSIWRN AIVTLTHAAS SPPDGPSGYP VSYEMFVAQC SRIIQQLIDH SIGDPHTMNA GLMSRPFALV
0901: ENHPVSPKND KGEILLPNGE NWRSQLLLLC YSIKILSEVD SIMKDQDLND HRKLFGFPKR SLPLPYFLSS LLQSNVHPKV SNNQVGEDMD SDIELAYSSD
1001: SDQEVDDYDD LPPFRPLRKS QIAKLSKEQK RAYFDEYDYR VKLLQKKQWR EELKRLRDMK KKGKAEIGDY MEEGADQETG SQAGVAIPLP DMVLPNSFDG
1101: DNPAYRYRYL EPSSQLLARP VMDSQSWDHD CGYDGVSIED HLAIAGQFPA VIVLQLTKDK KEFNIHLDSS VSAKTGKKGS SMVGFDIQTV GKQLAYILKG
1201: ETKVKNLKTN KTAAGVSITF LGDNLVTGLK LEDQFSIGKQ LVVVGSTGTI MSQGNAAYGA NLELRLREKD YPVGQDQSSL GLSLMKWRND LIWGCNLQSQ
1301: FSVGRNSKIA VKAGLNSKKS GQITVKTSTS DQLQIAILGL LPIARAIMMT LFPQTSGKNL M
0101: SRPFVKTPDE EIVERGSSVG DYDDSRSSLT DPYAEDEYRD RPFVVDRGID EGHGEFSDSP FVVDELATGE SMDGSDKEGT RVVDSAIRGI PIAQLSWDSE
0201: DDEYLSTGVL EDNDVSGVFR IPNAVVLDRL DSAPKVRISD VSDYESESEN AIQSGMEEDL IITKNVEMVL GSDSTEEDKV EVDTVQNFIT DGGAANDTLE
0301: GGKNLYQVAS KKSTLLGQEL DNDEELLAEE SQILDSSVEA KSADSSRDVK PSDTAYSSPM EENRESKFGA DELDSGNSII LLTGASGDSQ KSESKEDGVY
0401: QGSDCQDIAT RTETESFHEP IKDSEPESLE CTDISVPPTA EEQVYSSASS SSDVTWSSRA EDDLPKLSDK TQHREACLNP DLEANCKVID TVKLFKNEEV
0501: PFLHENDESL TFVGSGGMKL IIDQLDQQIA TTDYDGEVSE GHLPKVDGEI VTDSDEEVDT DEESEENEMF DAEALAALLR AATVVGHEGG NVSIPSADGT
0601: RVFSLELPGS PGSTFHSSKP GQPTNADKFP LSDNNTEGIS EGILSEEEKK KLEKLQQLRI KFLRLIHKLN RSPEDSIAAQ VLYRLVRAAG KSASQVSSLD
0701: SAQKVAIELE AEDTDSLKFS LNILVIGKTG VGKSATINSI FREAKSMVDA FVPATTNVKE IIGQLDGVTL NILDTPGFRS SLTEQSINRR TLLSIKKYMK
0801: KYSPDVVLYV DRIDTQSRDL GDLPLLKSIS SYLGPSIWRN AIVTLTHAAS SPPDGPSGYP VSYEMFVAQC SRIIQQLIDH SIGDPHTMNA GLMSRPFALV
0901: ENHPVSPKND KGEILLPNGE NWRSQLLLLC YSIKILSEVD SIMKDQDLND HRKLFGFPKR SLPLPYFLSS LLQSNVHPKV SNNQVGEDMD SDIELAYSSD
1001: SDQEVDDYDD LPPFRPLRKS QIAKLSKEQK RAYFDEYDYR VKLLQKKQWR EELKRLRDMK KKGKAEIGDY MEEGADQETG SQAGVAIPLP DMVLPNSFDG
1101: DNPAYRYRYL EPSSQLLARP VMDSQSWDHD CGYDGVSIED HLAIAGQFPA VIVLQLTKDK KEFNIHLDSS VSAKTGKKGS SMVGFDIQTV GKQLAYILKG
1201: ETKVKNLKTN KTAAGVSITF LGDNLVTGLK LEDQFSIGKQ LVVVGSTGTI MSQGNAAYGA NLELRLREKD YPVGQDQSSL GLSLMKWRND LIWGCNLQSQ
1301: FSVGRNSKIA VKAGLNSKKS GQITVKTSTS DQLQIAILGL LPIARAIMMT LFPQTSGKNL M
0001: MDSKSVTPEP TNPFYASSGQ SGKTYASVVA AAAAAAADKE DGGAVSSAKE LDSSSEAVSG NSDKVGADDL SDSEKEKPNL VGDGKVSDEV DGSLKEDSTT
0101: PEATPKPEVV SGETIGVDDV SSLSPKPEAV SDGVGVVEEN KKVKEDVEDI KDDGESKIEN GSVDVDVKQA STDGESESKV KDVEEEDVGT KKDDEGESEL
0201: GGKVDVDDKS DNVIEEEGVE LTDKGDVIVN SSPVESVHVD VAKPGVVVVG DAEGSEELKI NADAETLEVA NKFDQIGDDD SGEFEPVSDK AIEEVEEKFT
0301: SESDSIADSS KLESVDTSAV EPEVVAAESG SEPKDVEKAN GLEKGMTYAE VIKAASAVAD NGTKEEESVL GGIVDDAEEG VKLNNKGDFV VDSSAIEAVN
0401: VDVAKPGVVV VGDVEVSEVL ETDGNIPDVH NKFDPIGQGE GGEVELESDK ATEEGGGKLV SEGDSMVDSS VVDSVDADIN VAEPGVVVVG AAKEAVIKED
0501: DKDDEVDKTI SNIEEPDDLT AAYDGNFELA VKEISEAAKV EPDEPKVGVE VEELPVSESL KVGSVDAEED SIPAAESQFE VRKVVEGDSA EEDENKLPVE
0601: DIVSSREFSF GGKEVDQEPS GEGVTRVDGS ESEEETEEMI FGSSEAAKQF LAELEKASSG IEAHSDEANI SNNMSDRIDG QIVTDSDEDV DTEDEGEEKM
0701: FDTAALAALL KAATGGGSSE GGNFTITSQD GTKLFSMDRP AGLSSSLRPL KPAAAPRANR SNIFSNSNVT MADETEINLS EEEKQKLEKL QSLRVKFLRL
0801: LQRLGHSAED SIAAQVLYRL ALLAGRQAGQ LFSLDAAKKK AVESEAEGNE ELIFSLNILV LGKAGVGKSA TINSILGNQI ASIDAFGLST TSVREISGTV
0901: NGVKITFIDT PGLKSAAMDQ STNAKMLSSV KKVMKKCPPD IVLYVDRLDT QTRDLNNLPL LRTITASLGT SIWKNAIVTL THAASAPPDG PSGTPLSYDV
1001: FVAQCSHIVQ QSIGQAVGDL RLMNPSLMNP VSLVENHPLC RKNREGVKVL PNGQTWRSQL LLLCYSLKVL SETNSLLRPQ EPLDHRKVFG FRVRSPPLPY
1101: LLSWLLQSRA HPKLPGDQGG DSVDSDIEID DVSDSEQEDG EDDEYDQLPP FKPLRKTQLA KLSNEQRKAY FEEYDYRVKL LQKKQWREEL KRMKEMKKNG
1201: KKLGESEFGY PGEEDDPENG APAAVPVPLP DMVLPPSFDS DNSAYRYRYL EPTSQLLTRP VLDTHGWDHD CGYDGVNAEH SLALASRFPA TATVQVTKDK
1301: KEFNIHLDSS VSAKHGENGS TMAGFDIQNV GKQLAYVVRG ETKFKNLRKN KTTVGGSVTF LGENIATGVK LEDQIALGKR LVLVGSTGTM RSQGDSAYGA
1401: NLEVRLREAD FPIGQDQSSF GLSLVKWRGD LALGANLQSQ VSVGRNSKIA LRAGLNNKMS GQITVRTSSS DQLQIALTAI LPIAMSIYKS IRPEATNDKY
1501: SMY
0101: PEATPKPEVV SGETIGVDDV SSLSPKPEAV SDGVGVVEEN KKVKEDVEDI KDDGESKIEN GSVDVDVKQA STDGESESKV KDVEEEDVGT KKDDEGESEL
0201: GGKVDVDDKS DNVIEEEGVE LTDKGDVIVN SSPVESVHVD VAKPGVVVVG DAEGSEELKI NADAETLEVA NKFDQIGDDD SGEFEPVSDK AIEEVEEKFT
0301: SESDSIADSS KLESVDTSAV EPEVVAAESG SEPKDVEKAN GLEKGMTYAE VIKAASAVAD NGTKEEESVL GGIVDDAEEG VKLNNKGDFV VDSSAIEAVN
0401: VDVAKPGVVV VGDVEVSEVL ETDGNIPDVH NKFDPIGQGE GGEVELESDK ATEEGGGKLV SEGDSMVDSS VVDSVDADIN VAEPGVVVVG AAKEAVIKED
0501: DKDDEVDKTI SNIEEPDDLT AAYDGNFELA VKEISEAAKV EPDEPKVGVE VEELPVSESL KVGSVDAEED SIPAAESQFE VRKVVEGDSA EEDENKLPVE
0601: DIVSSREFSF GGKEVDQEPS GEGVTRVDGS ESEEETEEMI FGSSEAAKQF LAELEKASSG IEAHSDEANI SNNMSDRIDG QIVTDSDEDV DTEDEGEEKM
0701: FDTAALAALL KAATGGGSSE GGNFTITSQD GTKLFSMDRP AGLSSSLRPL KPAAAPRANR SNIFSNSNVT MADETEINLS EEEKQKLEKL QSLRVKFLRL
0801: LQRLGHSAED SIAAQVLYRL ALLAGRQAGQ LFSLDAAKKK AVESEAEGNE ELIFSLNILV LGKAGVGKSA TINSILGNQI ASIDAFGLST TSVREISGTV
0901: NGVKITFIDT PGLKSAAMDQ STNAKMLSSV KKVMKKCPPD IVLYVDRLDT QTRDLNNLPL LRTITASLGT SIWKNAIVTL THAASAPPDG PSGTPLSYDV
1001: FVAQCSHIVQ QSIGQAVGDL RLMNPSLMNP VSLVENHPLC RKNREGVKVL PNGQTWRSQL LLLCYSLKVL SETNSLLRPQ EPLDHRKVFG FRVRSPPLPY
1101: LLSWLLQSRA HPKLPGDQGG DSVDSDIEID DVSDSEQEDG EDDEYDQLPP FKPLRKTQLA KLSNEQRKAY FEEYDYRVKL LQKKQWREEL KRMKEMKKNG
1201: KKLGESEFGY PGEEDDPENG APAAVPVPLP DMVLPPSFDS DNSAYRYRYL EPTSQLLTRP VLDTHGWDHD CGYDGVNAEH SLALASRFPA TATVQVTKDK
1301: KEFNIHLDSS VSAKHGENGS TMAGFDIQNV GKQLAYVVRG ETKFKNLRKN KTTVGGSVTF LGENIATGVK LEDQIALGKR LVLVGSTGTM RSQGDSAYGA
1401: NLEVRLREAD FPIGQDQSSF GLSLVKWRGD LALGANLQSQ VSVGRNSKIA LRAGLNNKMS GQITVRTSSS DQLQIALTAI LPIAMSIYKS IRPEATNDKY
1501: SMY
Arabidopsis Description
TOC159Translocase of chloroplast 159, chloroplastic [Source:UniProtKB/Swiss-Prot;Acc:O81283]
SUBAcon: [nucleus]
SUBAcon: [nucleus]
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.