Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 2
- cytosol 2
- mitochondrion 1
- plastid 1
- extracellular 1
- endoplasmic reticulum 1
- vacuole 1
- plasma membrane 1
- golgi 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
Inferred from Arabidopsis experimental PPI
| Ath locusA | locusB | Ath locusB | Paper |
|---|---|---|---|
| AT1G04600.1 | EER91265 | AT4G26630.1 | 25387881 |
| AT1G04600.1 | OQU91413 | AT4G26630.1 | 25387881 |
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| Zm00001d018481_P033 | Maize | cytosol | 97.11 | 96.6 |
| Os02t0816900-01 | Rice | cytosol, plasma membrane | 77.84 | 93.3 |
| TraesCS6A01G390800.2 | Wheat | cytosol | 91.32 | 91.99 |
| TraesCS6D01G377100.1 | Wheat | cytosol | 91.26 | 91.92 |
| HORVU6Hr1G091010.24 | Barley | cytosol | 91.19 | 91.79 |
| TraesCS6B01G431400.1 | Wheat | cytosol | 91.12 | 91.79 |
| Solyc09g064200.2.1 | Tomato | plastid | 76.99 | 77.34 |
| PGSC0003DMT400056647 | Potato | cytosol | 76.92 | 77.28 |
| VIT_07s0005g04790.t01 | Wine grape | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 76.79 | 76.94 |
| KRH32270 | Soybean | cytosol | 75.54 | 75.89 |
| KRH19659 | Soybean | cytosol | 75.67 | 75.77 |
| Solyc06g008090.2.1 | Tomato | cytosol | 72.91 | 74.73 |
| KRH67505 | Soybean | cytosol | 74.23 | 74.67 |
| KRG95788 | Soybean | cytosol | 74.36 | 74.56 |
| VIT_00s0268g00030.t01 | Wine grape | cytosol | 21.76 | 74.38 |
| GSMUA_AchrUn_... | Banana | cytosol | 74.95 | 74.03 |
| GSMUA_Achr3P27420_001 | Banana | cytosol | 80.6 | 73.46 |
| CDY32922 | Canola | cytosol | 72.26 | 72.93 |
| VIT_05s0051g00050.t01 | Wine grape | cytosol | 71.14 | 72.72 |
| AT1G04160.1 | Thale cress | cytosol | 71.53 | 72.53 |
| Bra027512.1-P | Field mustard | cytosol | 58.51 | 72.36 |
| CDY64313 | Canola | cytosol | 72.32 | 72.32 |
| CDX94736 | Canola | cytosol | 72.52 | 72.19 |
| Bra032526.1-P | Field mustard | cytosol | 71.01 | 71.81 |
| CDY22325 | Canola | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 72.32 | 71.43 |
| CDY10075 | Canola | endoplasmic reticulum | 71.07 | 71.35 |
| CDY32531 | Canola | endoplasmic reticulum | 70.87 | 71.34 |
| Bra011053.1-P | Field mustard | cytosol | 70.35 | 71.05 |
| AT5G43900.3 | Thale cress | cytosol | 72.19 | 70.16 |
| KXG34975 | Sorghum | cytosol | 66.34 | 69.97 |
| AT4G28710.1 | Thale cress | cytosol | 69.63 | 69.85 |
| PGSC0003DMT400038143 | Potato | cytosol | 38.59 | 68.9 |
| EER90459 | Sorghum | cytosol | 65.61 | 67.25 |
| Bra033704.1-P | Field mustard | cytosol, plastid | 72.39 | 66.41 |
| AT2G20290.1 | Thale cress | endoplasmic reticulum | 64.1 | 65.3 |
| Bra036688.1-P | Field mustard | cytosol | 62.0 | 65.26 |
| OQU76115 | Sorghum | cytosol | 62.85 | 64.55 |
| CDY39766 | Canola | cytosol | 62.26 | 64.42 |
| CDY03315 | Canola | cytosol | 62.2 | 64.31 |
| EES03165 | Sorghum | cytosol | 64.43 | 64.09 |
| VIT_16s0115g00220.t01 | Wine grape | cytosol | 11.24 | 64.04 |
| Bra036460.1-P | Field mustard | cytosol | 61.93 | 63.31 |
| Solyc09g091080.2.1 | Tomato | cytosol | 67.59 | 63.22 |
| KRG89126 | Soybean | cytosol | 64.17 | 61.73 |
| CDY31978 | Canola | cytosol | 61.67 | 60.99 |
| CDY05734 | Canola | cytosol | 61.6 | 59.38 |
| KXG37557 | Sorghum | cytosol | 60.42 | 59.06 |
| KRH40872 | Soybean | cytosol | 64.1 | 58.42 |
| AT1G04600.1 | Thale cress | cytosol | 65.88 | 57.92 |
| CDX86626 | Canola | cytosol | 64.76 | 56.35 |
| CDY65572 | Canola | plastid | 70.35 | 56.29 |
| CDX79520 | Canola | endoplasmic reticulum | 55.82 | 56.15 |
| CDY15512 | Canola | cytosol | 64.76 | 56.13 |
| CDY35211 | Canola | plastid | 70.28 | 56.09 |
| Bra030576.1-P | Field mustard | cytosol | 62.26 | 56.0 |
| AT2G33240.1 | Thale cress | cytosol | 64.69 | 55.59 |
| CDX84695 | Canola | cytosol | 63.25 | 55.48 |
| CDY19473 | Canola | cytosol | 63.84 | 55.45 |
| VIT_04s0079g00370.t01 | Wine grape | cytosol | 14.86 | 54.99 |
| CDY17154 | Canola | cytosol | 64.17 | 53.39 |
| EES05882 | Sorghum | cytosol | 52.47 | 52.5 |
| OQU91854 | Sorghum | cytosol | 50.03 | 50.5 |
| OQU78360 | Sorghum | cytosol | 51.74 | 36.6 |
| OQU87414 | Sorghum | cytosol | 56.34 | 35.9 |
| KXG32782 | Sorghum | cytosol | 17.62 | 34.9 |
| EER94044 | Sorghum | mitochondrion | 26.1 | 33.19 |
| EER99532 | Sorghum | cytosol | 25.71 | 31.58 |
Protein Annotations
| Gene3D:1.20.120.720 | Gene3D:1.20.5.190 | Gene3D:1.20.58.530 | Gene3D:2.30.30.360 | MapMan:20.2.4.1 | Gene3D:3.30.70.3240 |
| Gene3D:3.40.850.10 | UniProt:A0A1Z5RQT1 | ncoils:Coil | InterPro:Dilute_dom | GO:GO:0000166 | GO:GO:0003674 |
| GO:GO:0003774 | GO:GO:0003777 | GO:GO:0003779 | GO:GO:0003824 | GO:GO:0005488 | GO:GO:0005515 |
| GO:GO:0005524 | GO:GO:0005575 | GO:GO:0005622 | GO:GO:0005623 | GO:GO:0005856 | GO:GO:0007015 |
| GO:GO:0007018 | GO:GO:0008017 | GO:GO:0008150 | GO:GO:0009987 | GO:GO:0016043 | GO:GO:0016459 |
| GO:GO:0016787 | GO:GO:0051015 | InterPro:IPR000048 | InterPro:IPR001609 | InterPro:IPR002710 | InterPro:IPR004009 |
| InterPro:IPR008989 | InterPro:IPR036961 | InterPro:IQ_motif_EF-hand-BS | InterPro:Kinesin_motor_dom_sf | InterPro:MYSc_Myo11 | InterPro:MyosinXI_CBD |
| InterPro:Myosin_N | InterPro:Myosin_S1_N | InterPro:Myosin_head_motor_dom | EnsemblPlants:OQU85951 | ProteinID:OQU85951 | ProteinID:OQU85951.1 |
| InterPro:P-loop_NTPase | PFAM:PF00063 | PFAM:PF00612 | PFAM:PF01843 | PFAM:PF02736 | PRINTS:PR00193 |
| PFscan:PS50096 | PFscan:PS51126 | PFscan:PS51456 | PFscan:PS51844 | PANTHER:PTHR13140 | PANTHER:PTHR13140:SF256 |
| SMART:SM00015 | SMART:SM00242 | SMART:SM01132 | EnsemblPlantsGene:SORBI_3004G344901 | SUPFAM:SSF52540 | UniParc:UPI000B8B9F40 |
| SEG:seg | : | : | : | : | : |
Description
hypothetical protein
Coordinates
chr4:+:67495915..67507982
Molecular Weight (calculated)
172206.0 Da
IEP (calculated)
8.164
GRAVY (calculated)
-0.402
Length
1521 amino acids
Sequence
(BLAST)
(BLAST)
0001: MGGGLNLVPM AAQASIAVGS QVWVEDRDVA WIDGEVVKAN GDTVTVKCSN EKTVTAKASN VHAKDPEEAP CGVDDMTKLA YLHEPGVLQN LKSRYDMNEI
0101: YTYTGNILIA VNPFRRLPHL YDTQMMQQYK GAEFGELSPH PFAVADVAYR LMRNEGISQS ILVSGESGAG KTESTKMIMR YLAYMGGKAA SEGRTVEKQV
0201: LQSNPVLEAF GNAKTVRNNN SSRFGKFVEI QFDQKGKISG AAVRTYLLER SRVCQISDPE RNYHCFYMIC AAPPEERERY KLGDPSTFHY LNQSNCIKLE
0301: GLDESKEYLE TRKAMDIIGI SSEEQEAIFR VVAAILHLGN VEFAEGDDGD SSKPKDEKSL FHLRTAAELF MCDEKALKDS LCQRIIVTRD ENIVKTLDPE
0401: AAKGSRDALA KTVYSRLFDW LVNKINNSIG QDPNSKCLIG VLDIYGFESF KTNSFEQFCI NLTNEKLQQH FNQHVFKMEQ EEYTKEEINW SYIEFIDNQD
0501: VLDLIEKKPG GIISLLDEAC MLPRSTHETF AQKLYQTFKN HKRFAKPKLS RSDFTICHYA GDVTYQTELF LDKNKDYVVA EHQALLSASK CAFVSGLFPL
0601: LSEDSSKSSK FSSIGSRFKQ QLQSLLETLS STEPHYIRCV KPNNLLKPAI FENQNVLQQL RCGGVMEAIR ISCAGYPTRR TFYEFIDRFG ILAPDVLSGS
0701: SDEVSAVRRL LDKVDLQGYQ IGKTKVFLRA GQMAELDARR NEVLGRSASM IQRKVRSFLA QKSFIALRRA ALQIQTVCRG ELARRVYHNL RREAASLKIQ
0801: TLYRMYTARK AYNELSASAV TIQSGLRGMC ARKELHFRRQ TRAAIIIQSR CRQFLARLHY SRTKKAAITT QCAWRGKVAR KELRKLKLAA RETGALQAAK
0901: NKLEKQVEEL TWRLQLEKRM RADLEEAKSQ ENAKLQAALQ EVQQQYKETK EILVQEREAA KKAAEIAPVI KEVPVIDTDL MNKLRDENDK LKTLVSSLEK
1001: KIDDTEKKYQ ETSKISEDRL KQAMDAETKI VDLNMAMLRL QEKISTMESE EKVQRQALLG TPVKSMSEHL SIPIAPKNLE NGYHEVEEHK EPQSAPPAIK
1101: EYVNGDPKMR KSCVDRQLEN VDALIDCVGK NLGYCAGKPV AAITIYKCLL HWKSFEAEKT SVFDRLIQLI GSAIENEDDN DNLAYWLSNT SSLLFLLQRS
1201: LKAAGAPGSV SRKKPPQPTS LFGRMAQGLR SASFANMHVE ATDVVRQVEA KYPALLFKQQ LTAYVEKIYG IVRDNIKKEL SSLISLCIQA PRTMKASMLR
1301: VSGRLSGQSQ SQSNHWQKII ESLDKLLKIL QDNHVPPVLA QKIFTQIFSY INVQLFNSLL LRRECCSFSN GEYVKAGLAE LELWCAKATT EYAASSWDEL
1401: KHIRQAVGFL VIFQKFRISY DEIVNDLCPI LSVQQLYRIC TQYWDDKYNT QSVSSDVLSN MRVLMTEDSN SAESGSFLLD DNSSIPFSVD DITNSMQEKD
1501: FTDIKPADEL LENPAFQFLQ D
0101: YTYTGNILIA VNPFRRLPHL YDTQMMQQYK GAEFGELSPH PFAVADVAYR LMRNEGISQS ILVSGESGAG KTESTKMIMR YLAYMGGKAA SEGRTVEKQV
0201: LQSNPVLEAF GNAKTVRNNN SSRFGKFVEI QFDQKGKISG AAVRTYLLER SRVCQISDPE RNYHCFYMIC AAPPEERERY KLGDPSTFHY LNQSNCIKLE
0301: GLDESKEYLE TRKAMDIIGI SSEEQEAIFR VVAAILHLGN VEFAEGDDGD SSKPKDEKSL FHLRTAAELF MCDEKALKDS LCQRIIVTRD ENIVKTLDPE
0401: AAKGSRDALA KTVYSRLFDW LVNKINNSIG QDPNSKCLIG VLDIYGFESF KTNSFEQFCI NLTNEKLQQH FNQHVFKMEQ EEYTKEEINW SYIEFIDNQD
0501: VLDLIEKKPG GIISLLDEAC MLPRSTHETF AQKLYQTFKN HKRFAKPKLS RSDFTICHYA GDVTYQTELF LDKNKDYVVA EHQALLSASK CAFVSGLFPL
0601: LSEDSSKSSK FSSIGSRFKQ QLQSLLETLS STEPHYIRCV KPNNLLKPAI FENQNVLQQL RCGGVMEAIR ISCAGYPTRR TFYEFIDRFG ILAPDVLSGS
0701: SDEVSAVRRL LDKVDLQGYQ IGKTKVFLRA GQMAELDARR NEVLGRSASM IQRKVRSFLA QKSFIALRRA ALQIQTVCRG ELARRVYHNL RREAASLKIQ
0801: TLYRMYTARK AYNELSASAV TIQSGLRGMC ARKELHFRRQ TRAAIIIQSR CRQFLARLHY SRTKKAAITT QCAWRGKVAR KELRKLKLAA RETGALQAAK
0901: NKLEKQVEEL TWRLQLEKRM RADLEEAKSQ ENAKLQAALQ EVQQQYKETK EILVQEREAA KKAAEIAPVI KEVPVIDTDL MNKLRDENDK LKTLVSSLEK
1001: KIDDTEKKYQ ETSKISEDRL KQAMDAETKI VDLNMAMLRL QEKISTMESE EKVQRQALLG TPVKSMSEHL SIPIAPKNLE NGYHEVEEHK EPQSAPPAIK
1101: EYVNGDPKMR KSCVDRQLEN VDALIDCVGK NLGYCAGKPV AAITIYKCLL HWKSFEAEKT SVFDRLIQLI GSAIENEDDN DNLAYWLSNT SSLLFLLQRS
1201: LKAAGAPGSV SRKKPPQPTS LFGRMAQGLR SASFANMHVE ATDVVRQVEA KYPALLFKQQ LTAYVEKIYG IVRDNIKKEL SSLISLCIQA PRTMKASMLR
1301: VSGRLSGQSQ SQSNHWQKII ESLDKLLKIL QDNHVPPVLA QKIFTQIFSY INVQLFNSLL LRRECCSFSN GEYVKAGLAE LELWCAKATT EYAASSWDEL
1401: KHIRQAVGFL VIFQKFRISY DEIVNDLCPI LSVQQLYRIC TQYWDDKYNT QSVSSDVLSN MRVLMTEDSN SAESGSFLLD DNSSIPFSVD DITNSMQEKD
1501: FTDIKPADEL LENPAFQFLQ D
0001: MVATFNPAVG SHVWVEDPDE AWLDGEVVEI NGDQIKVLCA SGKQVVVKDS NIYPKDVEAP ASGVEDMTRL AYLHEPGVLQ NLQSRYDINE IYTYTGSILI
0101: AVNPFRRLPH LYSSHMMTQY KGASLGELSP HPFAVADAAY RQMVNEGVSQ SILVSGESGA GKTESTKLLM RYLAFMGGRG AATEGRTVEQ KVLESNPVLE
0201: AFGNAKTVKN NNSSRFGKFV EIQFDQSGRI SGAAIRTYLL ERSRVCQVSD PERNYHCFYM LCAAPEEDAK KFKLGDPKIY HYLNQSKCIQ LDAMNDAEEY
0301: HATKKAMDVV GISSEEQDAI FRVVASILHL GNIEFAKGTE IDSSIPRDEK SWFHLKTAAE LLMCNEKSLE DSLCKRIMAT RDETITKTLD PEAALLSRDA
0401: LAKVMYSRLF DWLVEKINTS IGQDPDSKYL IGVLDIYGFE SFKTNSFEQF CINLTNEKLQ QHFNQHVFKM EQEEYKKEEI NWSYIEFVDN QDILDLIEKK
0501: PGGIIALLDE ACMFPRSTHE TFAQKLYQTY KNHKRFTKPK LARSDFTICH YAGDVTYQTE LFLDKNKDYV IAEHQALLNA STCSFVANLF PPVSDDSKQS
0601: KFSSIGTRFK QQLVSLLEIL NTTEPHYIRC IKPNNLLKPG IFENQNVLQQ LRCGGVMEAI RISCAGYPTR KHFDEFLNRF GIIAPQVLDK NSNEPAACKK
0701: LLDKAGLEGY QIGKSKVFLR AGQMADLDTR RTEILGRSAS IIQRKVRSYL AQKTFIQLRI SATQIQAVCR GYLARSIYEG MRREAAALKI QRDLRKFLAR
0801: KAYTELFSAT ILIQAGMRGM VSRKELCLRR QTKAATIIQT RCRVYLARLH YRKLKKAAIT TQCAWRGKVA RKELKNLKMA ARETGALQEA KNKLEKQVEE
0901: LTWRLQLEKR MRTDLEEAKK QENAKYESSL EEIQNKFKET EALLIKEREA AKTVSEVLPI IKEVPVVDQE LMEKLTNENE KLKGMVSSLE IKIDETAKEL
1001: HETARISQDR LKQALAAESK VAKLKTAMQR LEEKISDMET EKQIMLQQTI LNTPVKSVAG HPPTATIKNL ENGHRTNLEN QFNEVEVNGN AGKSAAERQL
1101: ENVDTLIDCV KENIGFSNGK PIAAFTIYKC LLHWKCFESE KTSAFDRLIE MIGSAIENED DNGHLAYWLT NTSALLFLLQ KSLKPAGAGA TASKKPPITT
1201: SLFGRMALSF RSSPNLAAAA EAAALAVIRP VEAKYPALLF KQQLAAYVEK IFGMIRDNLK KELSALISMC IQAPRISKGG IQRSARSLGK DSPAIHWQSI
1301: IDGLNSLLAI LKDNYVPLVL IQKIHTQTFS FVNVQLFNSL LLRKECCTFS NGEFVKSGLA ELELWCGQVN EYAGPSWDEL KHIRQAVGFL VIHQKYRVSY
1401: DDIVHDLCPI LSVQQLYRIC TLYWDDCYNT RSVSQEVISS MRALMTEESN DADSNSFLLD DNSSIPFSID EISNSMHEKD FASVKPAKEL LENPEFVFLH
0101: AVNPFRRLPH LYSSHMMTQY KGASLGELSP HPFAVADAAY RQMVNEGVSQ SILVSGESGA GKTESTKLLM RYLAFMGGRG AATEGRTVEQ KVLESNPVLE
0201: AFGNAKTVKN NNSSRFGKFV EIQFDQSGRI SGAAIRTYLL ERSRVCQVSD PERNYHCFYM LCAAPEEDAK KFKLGDPKIY HYLNQSKCIQ LDAMNDAEEY
0301: HATKKAMDVV GISSEEQDAI FRVVASILHL GNIEFAKGTE IDSSIPRDEK SWFHLKTAAE LLMCNEKSLE DSLCKRIMAT RDETITKTLD PEAALLSRDA
0401: LAKVMYSRLF DWLVEKINTS IGQDPDSKYL IGVLDIYGFE SFKTNSFEQF CINLTNEKLQ QHFNQHVFKM EQEEYKKEEI NWSYIEFVDN QDILDLIEKK
0501: PGGIIALLDE ACMFPRSTHE TFAQKLYQTY KNHKRFTKPK LARSDFTICH YAGDVTYQTE LFLDKNKDYV IAEHQALLNA STCSFVANLF PPVSDDSKQS
0601: KFSSIGTRFK QQLVSLLEIL NTTEPHYIRC IKPNNLLKPG IFENQNVLQQ LRCGGVMEAI RISCAGYPTR KHFDEFLNRF GIIAPQVLDK NSNEPAACKK
0701: LLDKAGLEGY QIGKSKVFLR AGQMADLDTR RTEILGRSAS IIQRKVRSYL AQKTFIQLRI SATQIQAVCR GYLARSIYEG MRREAAALKI QRDLRKFLAR
0801: KAYTELFSAT ILIQAGMRGM VSRKELCLRR QTKAATIIQT RCRVYLARLH YRKLKKAAIT TQCAWRGKVA RKELKNLKMA ARETGALQEA KNKLEKQVEE
0901: LTWRLQLEKR MRTDLEEAKK QENAKYESSL EEIQNKFKET EALLIKEREA AKTVSEVLPI IKEVPVVDQE LMEKLTNENE KLKGMVSSLE IKIDETAKEL
1001: HETARISQDR LKQALAAESK VAKLKTAMQR LEEKISDMET EKQIMLQQTI LNTPVKSVAG HPPTATIKNL ENGHRTNLEN QFNEVEVNGN AGKSAAERQL
1101: ENVDTLIDCV KENIGFSNGK PIAAFTIYKC LLHWKCFESE KTSAFDRLIE MIGSAIENED DNGHLAYWLT NTSALLFLLQ KSLKPAGAGA TASKKPPITT
1201: SLFGRMALSF RSSPNLAAAA EAAALAVIRP VEAKYPALLF KQQLAAYVEK IFGMIRDNLK KELSALISMC IQAPRISKGG IQRSARSLGK DSPAIHWQSI
1301: IDGLNSLLAI LKDNYVPLVL IQKIHTQTFS FVNVQLFNSL LLRKECCTFS NGEFVKSGLA ELELWCGQVN EYAGPSWDEL KHIRQAVGFL VIHQKYRVSY
1401: DDIVHDLCPI LSVQQLYRIC TLYWDDCYNT RSVSQEVISS MRALMTEESN DADSNSFLLD DNSSIPFSID EISNSMHEKD FASVKPAKEL LENPEFVFLH
Arabidopsis Description
XI-BMyosin-8 [Source:UniProtKB/Swiss-Prot;Acc:F4I460]
SUBAcon: [cytosol]
SUBAcon: [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.