PhosphoNET

           
Protein Info 
   
Short Name:  BMX
Full Name:  Cytoplasmic tyrosine-protein kinase BMX
Alias:  BMX NON-receptor tyrosine kinase; Bone marrow kinase BMX; Cytoplasmic BMX; EC 2.7.10.2; Epithelial and endothelial tyrosine kinase; ETK; Kinase Etk; NTK38; Protein tyrosine kinase BMX; PSCTK3
Type:  Protein kinase, tyrosine (non-receptor); EC 2.7.10.2; TK group; Tec family
Mass (Da):  78011
Number AA:  675
UniProt ID:  P51813
International Prot ID:  IPI00514142
Sequence:  Retrieve full protein sequence
   
GO Terms  External Links Internal Links  
   
Cellular Component:  GO:0005813  GO:0005829   Uniprot OncoNet
Molecular Function:  GO:0005524  GO:0004715  GO:0005515 PhosphoSite+ KinaseNET
Biological Process:  GO:0007242  GO:0007498  GO:0006468 Phosida TranscriptoNet
    STRING Kinexus Products
   
Info Box  A variety of parameters were considered in the selection of putative P-sites. Confirmed P-Sites have lower Hydrophobicity Scores. The P-site Similarity Score is lower the more that it resembles typical confirmed corresponding P-Ser, P-Thr or P-Tyr sites. The Maximum KInase Score provides the calculated score for highest match of 500 human protein kinases for the amino acid sequence surrounding the target P-site as determined with Kinase Substrate Predictor V2. The Sum KInase Score provides the additive sum of the positive individual Kinase Substrate Predictor V2 scores from 500 human protein kinases. The Conservation Score is the average of the percent similarity of the human P-site with the equivalent P-site in 20 other diverse species. Click the coloured buttons below to retrieve this and other information in the Info Box, or click the orange buttons for relevant links.
Phosphosites 
-7-6-5-4-3-2-101234567Expt. conf.EffectKinasePPaseKinexus ProductsRef.Evol.Kinase Pred.P-site Match
Site 1S15EELLLKRSQQKKKMS
Site 2S22SQQKKKMSPNNYKER
Site 3Y26KKMSPNNYKERLFVL
Site 4T34KERLFVLTKTNLSYY
Site 5T36RLFVLTKTNLSYYEY
Site 6Y40LTKTNLSYYEYDKMK
Site 7Y41TKTNLSYYEYDKMKR
Site 8Y43TNLSYYEYDKMKRGS
Site 9S50YDKMKRGSRKGSIEI
Site 10S54KRGSRKGSIEIKKIR
Site 11T72KVNLEEQTPVERQYP
Site 12Y78QTPVERQYPFQIVYK
Site 13Y90VYKDGLLYVYASNEE
Site 14Y92KDGLLYVYASNEESR
Site 15S94GLLYVYASNEESRSQ
Site 16S98VYASNEESRSQWLKA
Site 17S100ASNEESRSQWLKALQ
Site 18Y120NPHLLVKYHSGFFVD
Site 19T165EEKHRVPTFPDRVLK
Site 20S186VLKMDAPSSSTTLAQ
Site 21S187LKMDAPSSSTTLAQY
Site 22S188KMDAPSSSTTLAQYD
Site 23T190DAPSSSTTLAQYDNE
Site 24Y194SSTTLAQYDNESKKN
Site 25S198LAQYDNESKKNYGSQ
Site 26Y202DNESKKNYGSQPPSS
Site 27S204ESKKNYGSQPPSSST
Site 28S208NYGSQPPSSSTSLAQ
Site 29S209YGSQPPSSSTSLAQY
Site 30S210GSQPPSSSTSLAQYD
Site 31S212QPPSSSTSLAQYDSN
Site 32Y216SSTSLAQYDSNSKKI
Site 33S218TSLAQYDSNSKKIYG
Site 34S220LAQYDSNSKKIYGSQ
Site 35Y224DSNSKKIYGSQPNFN
Site 36S226NSKKIYGSQPNFNMQ
Site 37Y234QPNFNMQYIPREDFP
Site 38S251WQVRKLKSSSSSEDV
Site 39S252QVRKLKSSSSSEDVA
Site 40S253VRKLKSSSSSEDVAS
Site 41S254RKLKSSSSSEDVASS
Site 42S255KLKSSSSSEDVASSN
Site 43S260SSSEDVASSNQKERN
Site 44S261SSEDVASSNQKERNV
Site 45T271KERNVNHTTSKISWE
Site 46S282ISWEFPESSSSEEEE
Site 47S283SWEFPESSSSEEEEN
Site 48S285EFPESSSSEEEENLD
Site 49Y294EEENLDDYDWFAGNI
Site 50S302DWFAGNISRSQSEQL
Site 51S304FAGNISRSQSEQLLR
Site 52S306GNISRSQSEQLLRQK
Site 53Y330NSSQVGMYTVSLFSK
Site 54Y349KKGTVKHYHVHTNAE
Site 55Y360TNAENKLYLAENYCF
Site 56Y365KLYLAENYCFDSIPK
Site 57Y376SIPKLIHYHQHNSAG
Site 58S393TRLRHPVSTKANKVP
Site 59T394RLRHPVSTKANKVPD
Site 60S402KANKVPDSVSLGNGI
Site 61S404NKVPDSVSLGNGIWE
Site 62S425TLLKELGSGQFGVVQ
Site 63Y440LGKWKGQYDVAVKMI
Site 64S451VKMIKEGSMSEDEFF
Site 65S453MIKEGSMSEDEFFQE
Site 66T463EFFQEAQTMMKLSHP
Site 67Y486CSKEYPIYIVTEYIS
Site 68Y500SNGCLLNYLRSHGKG
Site 69S503CLLNYLRSHGKGLEP
Site 70S511HGKGLEPSQLLEMCY
Site 71Y560SDFGMTRYVLDDQYV
Site 72Y566RYVLDDQYVSSVGTK
Site 73S568VLDDQYVSSVGTKFP
Site 74Y586SAPEVFHYFKYSSKS
Site 75Y589EVFHYFKYSSKSDVW
Site 76Y613FSLGKQPYDLYDNSQ
Site 77Y616GKQPYDLYDNSQVVL
Site 78S619PYDLYDNSQVVLKVS
Site 79S626SQVVLKVSQGHRLYR
Site 80Y632VSQGHRLYRPHLASD
Site 81T640RPHLASDTIYQIMYS
Site 82T658ELPEKRPTFQQLLSS
Site 83S664PTFQQLLSSIEPLRE
Site 84S665TFQQLLSSIEPLREK
 
Legend 
Confirmed in mammals
Confirmed in related proteins or other species
Predicted by Kinexus P-Site Prediction algorithm
No data/link available
Link available  
Products available
 


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