Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 1
- cytosol 3
- mitochondrion 2
| Predictors | GFP | MS/MS | Papers | ||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| CDY42350 | Canola | cytosol | 95.96 | 98.07 |
| AT1G54560.1 | Thale cress | cytosol | 92.45 | 92.87 |
| CDX91798 | Canola | cytosol | 29.49 | 89.88 |
| CDY31130 | Canola | cytosol, mitochondrion | 88.15 | 87.92 |
| CDY72648 | Canola | cytosol | 15.3 | 86.4 |
| VIT_14s0081g00160.t01 | Wine grape | cytosol | 83.01 | 83.72 |
| KRG92711 | Soybean | cytosol | 82.55 | 82.71 |
| KRH34117 | Soybean | cytosol | 82.1 | 82.31 |
| Solyc11g006220.1.1 | Tomato | cytosol, extracellular | 80.01 | 80.54 |
| KRH68770 | Soybean | cytosol | 79.43 | 80.53 |
| GSMUA_Achr7P26040_001 | Banana | cytosol | 27.86 | 80.45 |
| Os06t0488200-01 | Rice | cytosol, plasma membrane | 79.75 | 80.12 |
| Zm00001d044819_P002 | Maize | cytosol | 79.3 | 79.66 |
| OQU76115 | Sorghum | cytosol | 76.63 | 79.47 |
| TraesCS7D01G190300.1 | Wheat | cytosol | 78.39 | 78.69 |
| TraesCS7B01G094100.1 | Wheat | cytosol | 77.21 | 77.42 |
| HORVU7Hr1G038500.56 | Barley | cytosol | 78.65 | 77.34 |
| GSMUA_Achr4P14090_001 | Banana | cytosol | 77.8 | 76.9 |
| CDX93542 | Canola | cytosol | 85.87 | 76.2 |
| CDX95038 | Canola | cytosol | 82.62 | 75.0 |
| CDY66597 | Canola | cytosol | 70.64 | 71.29 |
| CDX70927 | Canola | cytosol | 72.07 | 71.14 |
| CDY45087 | Canola | cytosol | 70.83 | 70.24 |
| CDY51846 | Canola | cytosol | 71.81 | 69.77 |
| CDX81833 | Canola | cytosol | 63.61 | 66.69 |
| CDY21744 | Canola | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 65.62 | 66.49 |
| CDX68955 | Canola | cytosol | 21.94 | 64.81 |
| GSMUA_Achr7P26030_001 | Banana | cytosol | 49.35 | 63.48 |
| CDY32922 | Canola | cytosol | 60.61 | 61.78 |
| GSMUA_Achr4P07150_001 | Banana | cytosol, mitochondrion, nucleus, plastid | 80.21 | 61.45 |
| CDY64313 | Canola | cytosol | 60.55 | 61.14 |
| CDX94736 | Canola | cytosol | 60.55 | 60.86 |
| CDY65579 | Canola | endoplasmic reticulum | 44.73 | 60.85 |
| CDY32531 | Canola | endoplasmic reticulum | 59.7 | 60.69 |
| CDY10075 | Canola | endoplasmic reticulum | 59.77 | 60.59 |
| CDY22325 | Canola | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 60.48 | 60.32 |
| CDX88973 | Canola | cytosol | 45.44 | 59.4 |
| CDX79446 | Canola | cytosol | 60.16 | 59.34 |
| CDX84752 | Canola | cytosol | 60.22 | 59.26 |
| CDY39766 | Canola | cytosol | 55.73 | 58.23 |
| CDY03315 | Canola | cytosol | 55.73 | 58.19 |
| CDY00546 | Canola | cytosol | 45.31 | 57.95 |
| CDX67724 | Canola | cytosol | 45.05 | 56.49 |
| CDX98274 | Canola | nucleus | 45.05 | 55.72 |
| CDY31978 | Canola | cytosol | 54.62 | 54.55 |
| CDY05734 | Canola | cytosol | 54.49 | 53.04 |
| CDX72393 | Canola | cytosol | 51.69 | 52.72 |
| CDY46128 | Canola | cytosol | 51.43 | 52.6 |
| CDY69448 | Canola | extracellular, golgi, mitochondrion | 11.26 | 52.42 |
| CDX79520 | Canola | endoplasmic reticulum | 49.87 | 50.66 |
| CDX75338 | Canola | cytosol | 53.26 | 49.37 |
| CDX84695 | Canola | cytosol | 55.53 | 49.19 |
| CDY65572 | Canola | plastid | 60.42 | 48.82 |
| CDY35211 | Canola | plastid | 60.42 | 48.69 |
| CDX86626 | Canola | cytosol | 54.75 | 48.11 |
| CDY15512 | Canola | cytosol | 54.95 | 48.09 |
| CDY19473 | Canola | cytosol | 54.69 | 47.97 |
| CDY16536 | Canola | cytosol | 13.61 | 46.55 |
| CDY71471 | Canola | cytosol | 14.58 | 46.19 |
| CDX92461 | Canola | cytosol | 13.87 | 46.0 |
| CDY17154 | Canola | cytosol | 54.43 | 45.73 |
| CDY69853 | Canola | endoplasmic reticulum | 11.98 | 38.1 |
| CDY42506 | Canola | cytosol, plastid | 25.46 | 34.03 |
| CDY24591 | Canola | cytosol, plastid | 25.52 | 33.82 |
| CDY22791 | Canola | cytosol, plastid | 25.33 | 33.62 |
| CDY29324 | Canola | cytosol | 25.07 | 33.54 |
| CDY36068 | Canola | cytosol, mitochondrion | 24.48 | 33.19 |
| CDX82270 | Canola | cytosol | 25.46 | 32.69 |
| CDY53932 | Canola | cytosol, plastid | 24.93 | 32.43 |
| CDY28777 | Canola | cytosol | 25.0 | 32.03 |
| CDY52239 | Canola | cytosol | 24.93 | 32.0 |
| CDY18321 | Canola | cytosol | 24.74 | 31.48 |
| CDY14319 | Canola | cytosol, plastid | 24.48 | 31.2 |
| CDY25361 | Canola | cytosol | 25.46 | 25.24 |
| CDX72394 | Canola | nucleus | 0.13 | 0.2 |
Protein Annotations
| Gene3D:1.10.10.820 | Gene3D:1.20.120.720 | Gene3D:1.20.5.190 | Gene3D:1.20.58.530 | MapMan:20.2.4.1 | Gene3D:3.30.70.3240 |
| Gene3D:3.40.850.10 | GO:A0A078E0R5 | EnsemblPlants:CDX95235 | ProteinID:CDX95235 | ProteinID:CDX95235.1 | ncoils:Coil |
| InterPro:Dilute_dom | GO:GO:0000166 | GO:GO:0003674 | GO:GO:0003774 | GO:GO:0003777 | 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 | EnsemblPlantsGene:GSBRNA2T00100850001 | InterPro:IPR000048 | InterPro:IPR001609 |
| InterPro:IPR002710 | InterPro:IPR004009 | InterPro:IPR036961 | InterPro:IQ_motif_EF-hand-BS | InterPro:Kinesin_motor_dom_sf | InterPro:MYSc_Myo11 |
| InterPro:MyosinXI_CBD | InterPro:Myosin_N | InterPro:Myosin_head_motor_dom | InterPro:P-loop_NTPase | PFAM:PF00063 | PFAM:PF00612 |
| PFAM:PF01843 | PFAM:PF02736 | PRINTS:PR00193 | PFscan:PS50096 | PFscan:PS51126 | PFscan:PS51456 |
| PANTHER:PTHR13140 | PANTHER:PTHR13140:SF510 | SMART:SM00015 | SMART:SM00242 | SMART:SM01132 | SUPFAM:SSF52540 |
| UniParc:UPI0004EDD5F9 | SEG:seg | : | : | : | : |
Description
BnaC09g16350D
Coordinates
chrLK031887:-:630640..639358
Molecular Weight (calculated)
174642.0 Da
IEP (calculated)
9.249
GRAVY (calculated)
-0.423
Length
1536 amino acids
Sequence
(BLAST)
(BLAST)
0001: MLKAVKRKRR QEERESVLVY GTPVNIIVGS HVWVEDTDVA WIDGQVEKIN GQDVEITAKL SKIYPKDMEA PAGGVDDMTK LSYLHEPGVL QNLKIRYELN
0101: EIYTYTGNIL IAINPFQRLP HIYDAHMMQQ YKGAPFGELS PHVFAVADVA YRAMINEGKS NSILVSGESG AGKTETTKML MRYLAYLGGR AVTEGRTVEQ
0201: QVLESNPVLE AFGNAKTVRN NNSSRFGKFV EIQFDKQGRI SGAAVRTYLL ERSRVCQISD PERNYHCFYL LCAAPQEEIE KYKLGHPKTF HYLNQSKCFE
0301: LVGISDAHDY IATRRAMDIV GISEKEQEAI FRVVAAILHI GNIEFTKGKE ADSSVPKDDK AKFHLSTVAE LLMCDVKELE DALCKRVMVT PEEVIKRSLD
0401: PQSAAISRDG LAKTIYSRLF DWLVQKINVS IGQDANSRSL IGVLDIYGFE SFKTNSFEQF CINFTNEKLQ QHFNQHVFKM EQEEYTKEAI DWSYIEFVDN
0501: KDVLDLIEKK PGGIVALLDE ACMFPKSTHE TFANKLYQTF KTNKRFIKPK LSRTDFTVSH YAGEVQYQSD QFLDKNKDYV IAEHQELLGA SKCPFVVGLF
0601: PKLEETSKSS KFSSIGSRVK LQLQQLMETL NSTEPHYIRC VKPNNLLKPA IFENINIMQQ LRCGGVLEAI RISCAGFPTR KPFFEFVNRF GLLSPEALEG
0701: NYEEKAASKK ILDNIGLKGY QIGKTKIFLR AGQMAELDAR RALVLSDAAK KIQRRVRTHQ ARRRFILLRE ATISLQALCR GRLSSKLFEN LRRQAAAVKI
0801: QKNGRRYHSR KAYKNMHVAA LVVQTGLRAM AAHKEFRFKK QTKAATTIQA QWRCHRATSY YKKLKKGVIL SQSRWRGRLA KKELRKLKMA SRETGALKEA
0901: KDILEKKVEE LTYRVQLEKR LRVDLEEEKT QEITKLQSSM EELRKKVEET NVMLVKEREA AKKAIEEAPP VVTETQVVVE DTQKIESLTE QVEGLKTDLE
1001: QEKQRADDAA RKFDEAQESN EDRKKKLEET EKKVQLLQEN ITRLEEKCNN LESENKVLRQ QAVSIAPNKL LSGRSRSILQ RGSASGHLSV DARPSLDLHS
1101: HSINHRDIAE VEDKPQKSLN EKQQENQELL IRCIVQHLGF QGNRPITACI IYKCLLQWRS FEVERTSVFD RIIQTIGHAI ETQDNNDILA YWLSNASTLL
1201: LLLQRTLKAS GAAGMAPQRR RSSSATLFGR MTQSFRGAPQ GVNLSMINGG ADTLRQVEAK YPALLFKQQL TAYVEKIYGM IRDNLKKEIS PLLGLCIQAP
1301: RTSRASLVKG ASRSVGNSEA QQALIAHWQG IVKSLTNFLN TLKSNHVPPF LVRKVFTQIF SFINVQLFNS LLLRRECCSF SNGEYVKAGL AELEHWCYKA
1401: TDEYAGSSWD ELKHIRQAIG FLVIHQKPQK TLDEISHDLC PVLSIQQLYR ISTMYWDDKY GTHSVSPDVI ANMRVLMTED SNNAVSNSFL LDDDSSIPFS
1501: VDDLSKSMER IEIGDVEPPP LIRENSGFSF LLPCSG
0101: EIYTYTGNIL IAINPFQRLP HIYDAHMMQQ YKGAPFGELS PHVFAVADVA YRAMINEGKS NSILVSGESG AGKTETTKML MRYLAYLGGR AVTEGRTVEQ
0201: QVLESNPVLE AFGNAKTVRN NNSSRFGKFV EIQFDKQGRI SGAAVRTYLL ERSRVCQISD PERNYHCFYL LCAAPQEEIE KYKLGHPKTF HYLNQSKCFE
0301: LVGISDAHDY IATRRAMDIV GISEKEQEAI FRVVAAILHI GNIEFTKGKE ADSSVPKDDK AKFHLSTVAE LLMCDVKELE DALCKRVMVT PEEVIKRSLD
0401: PQSAAISRDG LAKTIYSRLF DWLVQKINVS IGQDANSRSL IGVLDIYGFE SFKTNSFEQF CINFTNEKLQ QHFNQHVFKM EQEEYTKEAI DWSYIEFVDN
0501: KDVLDLIEKK PGGIVALLDE ACMFPKSTHE TFANKLYQTF KTNKRFIKPK LSRTDFTVSH YAGEVQYQSD QFLDKNKDYV IAEHQELLGA SKCPFVVGLF
0601: PKLEETSKSS KFSSIGSRVK LQLQQLMETL NSTEPHYIRC VKPNNLLKPA IFENINIMQQ LRCGGVLEAI RISCAGFPTR KPFFEFVNRF GLLSPEALEG
0701: NYEEKAASKK ILDNIGLKGY QIGKTKIFLR AGQMAELDAR RALVLSDAAK KIQRRVRTHQ ARRRFILLRE ATISLQALCR GRLSSKLFEN LRRQAAAVKI
0801: QKNGRRYHSR KAYKNMHVAA LVVQTGLRAM AAHKEFRFKK QTKAATTIQA QWRCHRATSY YKKLKKGVIL SQSRWRGRLA KKELRKLKMA SRETGALKEA
0901: KDILEKKVEE LTYRVQLEKR LRVDLEEEKT QEITKLQSSM EELRKKVEET NVMLVKEREA AKKAIEEAPP VVTETQVVVE DTQKIESLTE QVEGLKTDLE
1001: QEKQRADDAA RKFDEAQESN EDRKKKLEET EKKVQLLQEN ITRLEEKCNN LESENKVLRQ QAVSIAPNKL LSGRSRSILQ RGSASGHLSV DARPSLDLHS
1101: HSINHRDIAE VEDKPQKSLN EKQQENQELL IRCIVQHLGF QGNRPITACI IYKCLLQWRS FEVERTSVFD RIIQTIGHAI ETQDNNDILA YWLSNASTLL
1201: LLLQRTLKAS GAAGMAPQRR RSSSATLFGR MTQSFRGAPQ GVNLSMINGG ADTLRQVEAK YPALLFKQQL TAYVEKIYGM IRDNLKKEIS PLLGLCIQAP
1301: RTSRASLVKG ASRSVGNSEA QQALIAHWQG IVKSLTNFLN TLKSNHVPPF LVRKVFTQIF SFINVQLFNS LLLRRECCSF SNGEYVKAGL AELEHWCYKA
1401: TDEYAGSSWD ELKHIRQAIG FLVIHQKPQK TLDEISHDLC PVLSIQQLYR ISTMYWDDKY GTHSVSPDVI ANMRVLMTED SNNAVSNSFL LDDDSSIPFS
1501: VDDLSKSMER IEIGDVEPPP LIRENSGFSF LLPCSG
0001: MRNSGTPVNI IVGSHVWIED SDVAWIDGLV EKINGQDVEV QATNGKKITA KLSKIYPKDM EAPAGGVDDM TKLSYLHEPG VLQNLKIRYE LNEIYTYTGN
0101: ILIAINPFQR LPHIYDAHMM QQYKGAPFGE LSPHVFAVAD VAYRAMINEG KSNSILVSGE SGAGKTETTK MLMRYLAYLG GRAVTEGRTV EQQVLESNPV
0201: LEAFGNAKTV RNNNSSRFGK FVEIQFDKQG RISGAAVRTY LLERSRVCQI SDPERNYHCF YLLCAAPQEE LEKYKLGHPK TFHYLNQSKC FELVGISDAH
0301: DYIATRRAMD IVGMSEKEQE AIFRVVAAIL HLGNVEFTKG KEVDSSVPKD DKSKFHLNTV AELLMCDVKA LEDALCKRVM VTPEEVIKRS LDPQSALISR
0401: DGLAKTIYSR LFDWLVEKIN VSIGQDATSR SLIGVLDIYG FESFKTNSFE QFCINFTNEK LQQHFNQHVF KMEQEEYTKE AIDWSYIEFV DNQDVLDLIE
0501: KKPGGIVALL DEACMFPKST HETFANKLYQ TFKTHKRFIK PKLSRTDFAV AHYAGEVQYQ SDLFLDKNKD YVIPEHQDLL GASKCPFVVG LFPPLPEETS
0601: KSSKFSSIGS RFKLQLQQLM ETLNSTEPHY IRCVKPNNLL KPAVFENVNI MQQLRCGGVL EAIRISCAGY PTRKPFFEFI NRFGLLYPRA LEGNYEEKAA
0701: AQKILDNIGL KGYQVGKTKV FLRAGQMAEL DARRTMVLSA AAKKIQRRIR THQAQRRFIL LRKATISLQA LCRGRLSSKI FDNLRRQAAA VKIQKNARRL
0801: HSRKSYKNLH VAALVVQTGL RAMAAHKQFR FRKQTKAATT IQAQFRCHRA TLYFKKLKKG VILSQTRWRG KLARRELRQL KMASRETGAL KEAKDMLEKK
0901: VEELTYRAQL EKRSRVDLEE EKNQEIKKLQ SSLEEMRKKV DETNGLLVKE REAAKKAIEE APPVVTETQV LVEDTQKIEA LTEEVEGLKA NLEQEKQRAD
1001: DATRKFDEAQ ESSEDRKKKL EDTEKKAQQL QESVTRLEEK CNNLESENKV LRQQAVSIAP NKFLSGRSRS ILQRGSESGH LSVDARPSLD LHSHSINRRD
1101: LSEVDDKPQK SLNEKQQENQ ELLIRCIVQH LGFQGKRPVT ACIIYKCLLQ WRSFEVERTS VFDRIIQTIG QAIETQDNNN ILAYWLSNAS TLLLLLQRTL
1201: KASGAAGMAP QRRRSSSATL FGRMTQSFRG TPQGVNLAMI NGGVDTLRQV EAKYPALLFK QQLTAYVEKI YGMIRDNLKK EISPLLGLCI QAPRTSRASL
1301: VKGASRSVGN TAAQQALIAH WQGIVKSLTN FLNNLKSNHV PPFLVRKVFT QIFSFINVQL FNSLLLRREC CSFSNGEYVK AGLAELEHWC YNATDEYAGS
1401: SWDELKHIRQ AIGFLVIHQK PKKTLDEISH ELCPVLSIQQ LYRISTMYWD DKYGTHSVSP DVIANMRVLM TEDSNNAVSN SFLLDDDSSI PFSVDDLSKS
1501: MERIEIGDVE PPPLIRENSG FSFLLPCSD
0101: ILIAINPFQR LPHIYDAHMM QQYKGAPFGE LSPHVFAVAD VAYRAMINEG KSNSILVSGE SGAGKTETTK MLMRYLAYLG GRAVTEGRTV EQQVLESNPV
0201: LEAFGNAKTV RNNNSSRFGK FVEIQFDKQG RISGAAVRTY LLERSRVCQI SDPERNYHCF YLLCAAPQEE LEKYKLGHPK TFHYLNQSKC FELVGISDAH
0301: DYIATRRAMD IVGMSEKEQE AIFRVVAAIL HLGNVEFTKG KEVDSSVPKD DKSKFHLNTV AELLMCDVKA LEDALCKRVM VTPEEVIKRS LDPQSALISR
0401: DGLAKTIYSR LFDWLVEKIN VSIGQDATSR SLIGVLDIYG FESFKTNSFE QFCINFTNEK LQQHFNQHVF KMEQEEYTKE AIDWSYIEFV DNQDVLDLIE
0501: KKPGGIVALL DEACMFPKST HETFANKLYQ TFKTHKRFIK PKLSRTDFAV AHYAGEVQYQ SDLFLDKNKD YVIPEHQDLL GASKCPFVVG LFPPLPEETS
0601: KSSKFSSIGS RFKLQLQQLM ETLNSTEPHY IRCVKPNNLL KPAVFENVNI MQQLRCGGVL EAIRISCAGY PTRKPFFEFI NRFGLLYPRA LEGNYEEKAA
0701: AQKILDNIGL KGYQVGKTKV FLRAGQMAEL DARRTMVLSA AAKKIQRRIR THQAQRRFIL LRKATISLQA LCRGRLSSKI FDNLRRQAAA VKIQKNARRL
0801: HSRKSYKNLH VAALVVQTGL RAMAAHKQFR FRKQTKAATT IQAQFRCHRA TLYFKKLKKG VILSQTRWRG KLARRELRQL KMASRETGAL KEAKDMLEKK
0901: VEELTYRAQL EKRSRVDLEE EKNQEIKKLQ SSLEEMRKKV DETNGLLVKE REAAKKAIEE APPVVTETQV LVEDTQKIEA LTEEVEGLKA NLEQEKQRAD
1001: DATRKFDEAQ ESSEDRKKKL EDTEKKAQQL QESVTRLEEK CNNLESENKV LRQQAVSIAP NKFLSGRSRS ILQRGSESGH LSVDARPSLD LHSHSINRRD
1101: LSEVDDKPQK SLNEKQQENQ ELLIRCIVQH LGFQGKRPVT ACIIYKCLLQ WRSFEVERTS VFDRIIQTIG QAIETQDNNN ILAYWLSNAS TLLLLLQRTL
1201: KASGAAGMAP QRRRSSSATL FGRMTQSFRG TPQGVNLAMI NGGVDTLRQV EAKYPALLFK QQLTAYVEKI YGMIRDNLKK EISPLLGLCI QAPRTSRASL
1301: VKGASRSVGN TAAQQALIAH WQGIVKSLTN FLNNLKSNHV PPFLVRKVFT QIFSFINVQL FNSLLLRREC CSFSNGEYVK AGLAELEHWC YNATDEYAGS
1401: SWDELKHIRQ AIGFLVIHQK PKKTLDEISH ELCPVLSIQQ LYRISTMYWD DKYGTHSVSP DVIANMRVLM TEDSNNAVSN SFLLDDDSSI PFSVDDLSKS
1501: MERIEIGDVE PPPLIRENSG FSFLLPCSD
Arabidopsis Description
XI-EMyosin-11 [Source:UniProtKB/Swiss-Prot;Acc:F4HWY6]
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.