Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 1
- cytosol 3
- mitochondrion 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| CDX84752 | Canola | cytosol | 96.53 | 96.28 |
| AT2G31900.2 | Thale cress | cytosol | 89.72 | 89.72 |
| VIT_13s0320g00070.t01 | Wine grape | cytosol | 76.75 | 76.8 |
| KRH13822 | Soybean | cytosol | 75.08 | 73.8 |
| CDX91798 | Canola | cytosol | 23.64 | 73.02 |
| Solyc01g081540.2.1 | Tomato | nucleus | 73.47 | 73.01 |
| PGSC0003DMT400079921 | Potato | cytosol | 72.96 | 72.31 |
| TraesCS5A01G386500.1 | Wheat | cytosol | 71.42 | 71.47 |
| KRH43634 | Soybean | cytosol | 75.98 | 71.44 |
| HORVU5Hr1G094780.46 | Barley | cytosol | 71.42 | 71.42 |
| TraesCS5B01G391400.2 | Wheat | cytosol | 71.42 | 71.37 |
| KXG37557 | Sorghum | cytosol | 71.03 | 71.08 |
| TraesCS5D01G396300.1 | Wheat | cytosol | 71.16 | 71.03 |
| GSMUA_Achr4P07570_001 | Banana | plastid | 71.68 | 70.06 |
| Zm00001d013276_P005 | Maize | cytosol | 69.62 | 69.62 |
| GSMUA_Achr3P30890_001 | Banana | cytosol | 71.68 | 69.32 |
| Bra022871.1-P | Field mustard | cytosol | 96.79 | 68.22 |
| CDY72648 | Canola | cytosol | 11.75 | 67.28 |
| CDX68955 | Canola | cytosol | 21.19 | 63.46 |
| CDY66597 | Canola | cytosol | 59.92 | 61.3 |
| CDX70927 | Canola | cytosol | 60.89 | 60.93 |
| CDY45087 | Canola | cytosol | 59.99 | 60.3 |
| CDX95235 | Canola | cytosol | 59.34 | 60.16 |
| CDY51846 | Canola | cytosol | 60.95 | 60.03 |
| CDY42350 | Canola | cytosol | 57.93 | 60.01 |
| CDY31130 | Canola | cytosol, mitochondrion | 59.28 | 59.94 |
| CDX81833 | Canola | cytosol | 56.33 | 59.86 |
| CDY21744 | Canola | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 57.8 | 59.37 |
| CDY32531 | Canola | endoplasmic reticulum | 56.84 | 58.57 |
| CDY10075 | Canola | endoplasmic reticulum | 56.9 | 58.48 |
| CDY32922 | Canola | cytosol | 56.45 | 58.33 |
| CDX94736 | Canola | cytosol | 56.97 | 58.05 |
| CDY64313 | Canola | cytosol | 56.45 | 57.79 |
| CDY22325 | Canola | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 56.71 | 57.34 |
| CDY39766 | Canola | cytosol | 51.77 | 54.83 |
| CDY03315 | Canola | cytosol | 51.77 | 54.79 |
| CDX88973 | Canola | cytosol | 40.46 | 53.62 |
| CDY00546 | Canola | cytosol | 40.53 | 52.54 |
| CDX93542 | Canola | cytosol | 58.0 | 52.17 |
| CDY31978 | Canola | cytosol | 50.93 | 51.56 |
| CDX95038 | Canola | cytosol | 56.01 | 51.54 |
| CDX67724 | Canola | cytosol | 40.08 | 50.94 |
| CDX98274 | Canola | nucleus | 40.14 | 50.32 |
| CDY05734 | Canola | cytosol | 50.8 | 50.13 |
| CDY46128 | Canola | cytosol | 47.46 | 49.2 |
| CDX79520 | Canola | endoplasmic reticulum | 47.72 | 49.14 |
| CDX72393 | Canola | cytosol | 47.27 | 48.87 |
| CDX84695 | Canola | cytosol | 52.79 | 47.4 |
| CDY15512 | Canola | cytosol | 53.05 | 47.07 |
| CDX86626 | Canola | cytosol | 52.73 | 46.97 |
| CDY65572 | Canola | plastid | 57.23 | 46.87 |
| CDY35211 | Canola | plastid | 57.16 | 46.69 |
| CDY19473 | Canola | cytosol | 51.83 | 46.09 |
| CDX75338 | Canola | cytosol | 47.91 | 45.02 |
| CDY69448 | Canola | extracellular, golgi, mitochondrion | 9.44 | 44.55 |
| CDY17154 | Canola | cytosol | 51.64 | 43.98 |
| CDY71471 | Canola | cytosol | 12.52 | 40.21 |
| CDY65579 | Canola | endoplasmic reticulum | 27.17 | 37.47 |
| CDY16536 | Canola | cytosol | 10.66 | 36.97 |
| CDX92461 | Canola | cytosol | 10.92 | 36.72 |
| CDY69853 | Canola | endoplasmic reticulum | 10.85 | 34.99 |
| CDY24591 | Canola | cytosol, plastid | 24.66 | 33.13 |
| CDY36068 | Canola | cytosol, mitochondrion | 23.76 | 32.66 |
| CDY29324 | Canola | cytosol | 23.96 | 32.49 |
| CDY42506 | Canola | cytosol, plastid | 23.96 | 32.46 |
| CDY22791 | Canola | cytosol, plastid | 23.96 | 32.24 |
| CDY52239 | Canola | cytosol | 24.6 | 32.0 |
| CDY28777 | Canola | cytosol | 24.6 | 31.94 |
| CDX82270 | Canola | cytosol | 24.41 | 31.77 |
| CDY18321 | Canola | cytosol | 24.6 | 31.73 |
| CDY53932 | Canola | cytosol, plastid | 23.83 | 31.41 |
| CDY14319 | Canola | cytosol, plastid | 24.28 | 31.37 |
| CDY25361 | Canola | cytosol | 24.66 | 24.79 |
| 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:A0A078CQI1 | EnsemblPlants:CDX79446 | ProteinID:CDX79446 | ProteinID:CDX79446.1 | 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:GSBRNA2T00132178001 | 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 |
| PFscan:PS51844 | PANTHER:PTHR13140 | PANTHER:PTHR13140:SF270 | SMART:SM00015 | SMART:SM00242 | SMART:SM01132 |
| SUPFAM:SSF52540 | UniParc:UPI0004EF36EA | SEG:seg | : | : | : |
Description
BnaC03g17820D
Coordinates
chrLK031818:-:82258..90425
Molecular Weight (calculated)
176852.0 Da
IEP (calculated)
7.287
GRAVY (calculated)
-0.447
Length
1557 amino acids
Sequence
(BLAST)
(BLAST)
0001: MNDVKGTPVN ITLGSHVWVE DPEHAWTNGE VTEIKGTNAT ILTADEKTIV ASISSLYPKD TEAPPAGVDD MTKLAYLHEP GVLHNLACRF SLNEIYTYTG
0101: NILIAVNPFQ RLPHLYSVHM MEQYKGAAFG ELSPHLFAVA DTSYRAMINE AKSQSILVSG ESGAGKTETT KMLMRYLAFM GGRSDTEGRS VEQQVLESNP
0201: VLEAFGNAKT VKNNNSSRFG KFVEIQFDKR GKISGAAIRT YLLERSRVCQ VSDPERNYHC FYMLCAAPPE EVKKFKLGDP RTFHYLNQTN CYEVSNVDDA
0301: REYLETRNAM DIVGIGQESQ DAIFRVVAAI LHLGNVNFIK GEDADSSKLR DDKSSYHLQT AAELLMCNEK MLEDSLCKRV IVTPDGNITK PLDPESAALN
0401: RDALAKTVYS RLFDWIVDKI NSSIGQDPNA TSLIGVLDIY GFESFKINSF EQLCINLTNE KLQQHFNQHV FKMEQEEYTR EEIDWSYVEF VDNQDVLDLI
0501: EKKPGGIIAL LDEACMFPKS THETFAQKMY QTYKGHKRFS KPKLARTAFT VNHYAGDVTY SAEFFLDKNK DYVVAEHQAL LDASKCSFVA KLFPPLPEDA
0601: SKQSKFSSIG TRFKQQLQAL METLNTTEPH YIRCVKPNTV LKPSIFENDT VLNQLRCGGV LEAIRISCAG YPTKRAFDEF LDRFVMLATH VPEGSDEKAA
0701: CASICDKMGL KGYQIGKTKI FLRAGQMAEL DARRTEVLAG ATRLIQRQIR TYLTRKEFLG QKKATIFVQK LLRAQLARKL YQNMRREAAS ICIQKNTRAH
0801: RARICYTNLQ ASATVIQTGL RAMDARNKHR HRRRTKAAII VQREWRRHQA HEAYNQYRKS TLALQCLWRA KVARKELKKL KLAARETGAL KEAKDKLEKR
0901: VEELTWRLEL EKHQKVDLEE AKAQEIANLQ NAFTDLQEKL DEAHAAIIQE KEAAKLAIEQ APPVIKEVPV VDNTQLELLT SQNNELEVEV DKLKGKLEEF
1001: EAVCSELERY NKASLTEAED AKAKAIQLQE VIERLQTNQS NLESENQVLR QQALTASTSA VEPEELNSLK DRIAILESEN ETLRRQAPAV ENTVPNEAVF
1101: ESAKDLENGH QTEEIQATKE PRTPVTVLAK QSSLTDRQKE SHDVLLTCLT DERRFDNGRS VAAWIIYKTL LQWRSFELEK TNIFDTVVHK IRSSIEKSQD
1201: DTRELTYWLT TSSTLLYLLQ STLKFSNTNN SASRRNRSSQ TTLFGRLVQG MQSSSVGLET SSGYSGMVGI SNDQAMVEAK YPALLFKQHL AAYVEKTYGM
1301: IRDSLKKEIN PLLNLCIHAP RPMRARTLRD VTKGSHLNTT AKQQASYVQW KNITEKLEHT LTLMAENHVP SMITRKLFHQ VFSYINVQLF NSLLLRRECC
1401: SFSNGEYLKM GLHELEQWCL KTEDEAARSP WDELQHIRQA VKFLVLHQKT QKSLDEITKE ICPVLSIPQV YRIGTMFWDD KYGTQGLSPE VIKLMAEDSI
1501: NMTYPSFLLD VNSSIPFSVE DVSQSFQGGT ISLSNVDPPP LLRQRSDFHF LFQTLPE
0101: NILIAVNPFQ RLPHLYSVHM MEQYKGAAFG ELSPHLFAVA DTSYRAMINE AKSQSILVSG ESGAGKTETT KMLMRYLAFM GGRSDTEGRS VEQQVLESNP
0201: VLEAFGNAKT VKNNNSSRFG KFVEIQFDKR GKISGAAIRT YLLERSRVCQ VSDPERNYHC FYMLCAAPPE EVKKFKLGDP RTFHYLNQTN CYEVSNVDDA
0301: REYLETRNAM DIVGIGQESQ DAIFRVVAAI LHLGNVNFIK GEDADSSKLR DDKSSYHLQT AAELLMCNEK MLEDSLCKRV IVTPDGNITK PLDPESAALN
0401: RDALAKTVYS RLFDWIVDKI NSSIGQDPNA TSLIGVLDIY GFESFKINSF EQLCINLTNE KLQQHFNQHV FKMEQEEYTR EEIDWSYVEF VDNQDVLDLI
0501: EKKPGGIIAL LDEACMFPKS THETFAQKMY QTYKGHKRFS KPKLARTAFT VNHYAGDVTY SAEFFLDKNK DYVVAEHQAL LDASKCSFVA KLFPPLPEDA
0601: SKQSKFSSIG TRFKQQLQAL METLNTTEPH YIRCVKPNTV LKPSIFENDT VLNQLRCGGV LEAIRISCAG YPTKRAFDEF LDRFVMLATH VPEGSDEKAA
0701: CASICDKMGL KGYQIGKTKI FLRAGQMAEL DARRTEVLAG ATRLIQRQIR TYLTRKEFLG QKKATIFVQK LLRAQLARKL YQNMRREAAS ICIQKNTRAH
0801: RARICYTNLQ ASATVIQTGL RAMDARNKHR HRRRTKAAII VQREWRRHQA HEAYNQYRKS TLALQCLWRA KVARKELKKL KLAARETGAL KEAKDKLEKR
0901: VEELTWRLEL EKHQKVDLEE AKAQEIANLQ NAFTDLQEKL DEAHAAIIQE KEAAKLAIEQ APPVIKEVPV VDNTQLELLT SQNNELEVEV DKLKGKLEEF
1001: EAVCSELERY NKASLTEAED AKAKAIQLQE VIERLQTNQS NLESENQVLR QQALTASTSA VEPEELNSLK DRIAILESEN ETLRRQAPAV ENTVPNEAVF
1101: ESAKDLENGH QTEEIQATKE PRTPVTVLAK QSSLTDRQKE SHDVLLTCLT DERRFDNGRS VAAWIIYKTL LQWRSFELEK TNIFDTVVHK IRSSIEKSQD
1201: DTRELTYWLT TSSTLLYLLQ STLKFSNTNN SASRRNRSSQ TTLFGRLVQG MQSSSVGLET SSGYSGMVGI SNDQAMVEAK YPALLFKQHL AAYVEKTYGM
1301: IRDSLKKEIN PLLNLCIHAP RPMRARTLRD VTKGSHLNTT AKQQASYVQW KNITEKLEHT LTLMAENHVP SMITRKLFHQ VFSYINVQLF NSLLLRRECC
1401: SFSNGEYLKM GLHELEQWCL KTEDEAARSP WDELQHIRQA VKFLVLHQKT QKSLDEITKE ICPVLSIPQV YRIGTMFWDD KYGTQGLSPE VIKLMAEDSI
1501: NMTYPSFLLD VNSSIPFSVE DVSQSFQGGT ISLSNVDPPP LLRQRSDFHF LFQTLPE
0001: MGTPVNITLG SHVWVEDPEL AWISGEVTEI KGTNAKIVTA NGKTVVASIS SIYPKDTEAP PAGVDDMTKL AYLHEPGVLH NLDCRFALNE IYTYTGNILI
0101: AVNPFQRLPH LYSVHMMEQY KGAAFGELSP HLFAVADTSY RAMINEARSQ SILVSGESGA GKTETTKMLM RYLAFMGGRS DTEGRSVEQQ VLESNPVLEA
0201: FGNAKTVKNN NSSRFGKFVE IQFDKRGKIS GAAIRTYLLE RSRVCQVSDP ERNYHCFYML CAAPPEEAKK FKVGDPRTFH YLNQTNCYEV SNVDDAREYL
0301: ETRNAMDIVG IGQEAQDAIF RVVAAILHLG NVNFIKGEEA DSSKLRDDKS RYHLQTAAEL LMCNEKMMED SLCKRVIVTP DGNITKPLDP ESAASNRDAL
0401: AKTVYSRLFD WIVDKINSSI GQDPDAKSLI GVLDIYGFES FKINSFEQLC INLTNEKLQQ HFNQHVFKME QEEYTREEIN WSYVEFVDNQ DVLDLIEKKP
0501: GGIIALLDEA CMFPKSTHET FAQKMYQTYK GHKRFSKPKL AQTAFTVNHY AGDVTYSAEQ FLDKNKDYVV AEHQALLDAS KCSFVANLFP PLPEDASKQS
0601: KFSSIGTRFK QQLQALMETL NTTEPHYIRC VKPNAVLKPG IFENDNVLNQ LRCGGVLEAI RISCAGYPTK RAFDEFLDRF VMLATDVPEG SDEKSACASI
0701: CNKMGLKGYQ IGKTKIFLRA GQMAELDARR TEVLAGATKL IQRQIRTYLT RKEFLGQKRA TIYMQKLWRA KLARKLYQNM RREAASICIQ KNIRAHRARK
0801: NYTKLQASAT VIQTGLRTMS ARNKHRHRRR TKAAIIIQRE WRRHQVHEAY KKHKKATLAL QCLWRAKVAR KELKNLRMAA RETGALKEAK DKLEKRVEEL
0901: TWRLELEKNQ KADLEDAKAQ EIAKLQNNLT ELQEKLDEAY AAIIRDKEAA KLAIEQAPPI IKEVPVVDNT QLELLNSQNN ELEVEVAKLK GKIKEFEVKC
1001: FALENDSRAS VTEAEDAKSK AVEFQEIIER LHTNLSNLES ENQVLRQQAL AASTSVEEIG ELNSLKDKVA ILESENETLR RQTESAEKTM PPARVFASEK
1101: NLENEHQTKE IQATKEPRNP INVLAKQGSL TDRQQESHEV LMKCLTDERR FDNEKSVAAW IVYKALLQWR LFEAEKTNIF DRIVHKIRSS IEKGQDDTRE
1201: LAYWLTTSST LLYLLQSTLK FSNTNNAASR RNRSSHATLF GRLVQGMQPS SVGLETSSGY SGMAGIPNDQ QMVEAKYPAL LFKQHLAAYV EKTYGMIRDK
1301: LKKEINPLLN LCIHAPRPTR AKTLRDVTKS IHLTTIAKQQ ASYVQWQNIV NKLEHTLTFM AENHVPSMIT RKLFHQVFSY INVQLFNSLL LRRECCSVSN
1401: GEYLKMGLHE LEQWCLKADD EATRSPWDEL QHIRQAVMFL VSHQKTQKSL DEIAKEICPV LSIPQVYRIG TMFWDDKYGT QGLSPEVINQ MRKLMTEDSA
1501: NMTYPSFLLD VDSSIPFSVE DVSQSFHGGN ISLSDVDPSP LLRQRSDFHF LFQTLPE
0101: AVNPFQRLPH LYSVHMMEQY KGAAFGELSP HLFAVADTSY RAMINEARSQ SILVSGESGA GKTETTKMLM RYLAFMGGRS DTEGRSVEQQ VLESNPVLEA
0201: FGNAKTVKNN NSSRFGKFVE IQFDKRGKIS GAAIRTYLLE RSRVCQVSDP ERNYHCFYML CAAPPEEAKK FKVGDPRTFH YLNQTNCYEV SNVDDAREYL
0301: ETRNAMDIVG IGQEAQDAIF RVVAAILHLG NVNFIKGEEA DSSKLRDDKS RYHLQTAAEL LMCNEKMMED SLCKRVIVTP DGNITKPLDP ESAASNRDAL
0401: AKTVYSRLFD WIVDKINSSI GQDPDAKSLI GVLDIYGFES FKINSFEQLC INLTNEKLQQ HFNQHVFKME QEEYTREEIN WSYVEFVDNQ DVLDLIEKKP
0501: GGIIALLDEA CMFPKSTHET FAQKMYQTYK GHKRFSKPKL AQTAFTVNHY AGDVTYSAEQ FLDKNKDYVV AEHQALLDAS KCSFVANLFP PLPEDASKQS
0601: KFSSIGTRFK QQLQALMETL NTTEPHYIRC VKPNAVLKPG IFENDNVLNQ LRCGGVLEAI RISCAGYPTK RAFDEFLDRF VMLATDVPEG SDEKSACASI
0701: CNKMGLKGYQ IGKTKIFLRA GQMAELDARR TEVLAGATKL IQRQIRTYLT RKEFLGQKRA TIYMQKLWRA KLARKLYQNM RREAASICIQ KNIRAHRARK
0801: NYTKLQASAT VIQTGLRTMS ARNKHRHRRR TKAAIIIQRE WRRHQVHEAY KKHKKATLAL QCLWRAKVAR KELKNLRMAA RETGALKEAK DKLEKRVEEL
0901: TWRLELEKNQ KADLEDAKAQ EIAKLQNNLT ELQEKLDEAY AAIIRDKEAA KLAIEQAPPI IKEVPVVDNT QLELLNSQNN ELEVEVAKLK GKIKEFEVKC
1001: FALENDSRAS VTEAEDAKSK AVEFQEIIER LHTNLSNLES ENQVLRQQAL AASTSVEEIG ELNSLKDKVA ILESENETLR RQTESAEKTM PPARVFASEK
1101: NLENEHQTKE IQATKEPRNP INVLAKQGSL TDRQQESHEV LMKCLTDERR FDNEKSVAAW IVYKALLQWR LFEAEKTNIF DRIVHKIRSS IEKGQDDTRE
1201: LAYWLTTSST LLYLLQSTLK FSNTNNAASR RNRSSHATLF GRLVQGMQPS SVGLETSSGY SGMAGIPNDQ QMVEAKYPAL LFKQHLAAYV EKTYGMIRDK
1301: LKKEINPLLN LCIHAPRPTR AKTLRDVTKS IHLTTIAKQQ ASYVQWQNIV NKLEHTLTFM AENHVPSMIT RKLFHQVFSY INVQLFNSLL LRRECCSVSN
1401: GEYLKMGLHE LEQWCLKADD EATRSPWDEL QHIRQAVMFL VSHQKTQKSL DEIAKEICPV LSIPQVYRIG TMFWDDKYGT QGLSPEVINQ MRKLMTEDSA
1501: NMTYPSFLLD VDSSIPFSVE DVSQSFHGGN ISLSDVDPSP LLRQRSDFHF LFQTLPE
Arabidopsis Description
XIFmyosin-like protein XIF [Source:TAIR;Acc:AT2G31900]
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.