PhosphoNET

           
Protein Info 
   
Short Name:  KIF23
Full Name:  Kinesin-like protein KIF23
Alias:  CHO1; Kinesin family member 23; Kinesin-like 5; KNSL5; Mitotic kinesin-like 1; MKLP1; MKLP-1
Type:  Motor protein; Microtubule binding protein
Mass (Da):  110059
Number AA:  960
UniProt ID:  Q02241
International Prot ID:  IPI00291579
Sequence:  Retrieve full protein sequence
   
GO Terms  External Links Internal Links  
   
Cellular Component:  GO:0005871  GO:0005874  GO:0030496 Uniprot OncoNet
Molecular Function:  GO:0005524  GO:0003777  GO:0005515 PhosphoSite+ KinaseNET
Biological Process:  GO:0051301  GO:0007018  GO:0007067 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 1T8MKSARAKTPRKPTVK
Site 2T13AKTPRKPTVKKGSQT
Site 3S18KPTVKKGSQTNLKDP
Site 4T20TVKKGSQTNLKDPVG
Site 5Y29LKDPVGVYCRVRPLG
Site 6T56NTTVQLHTPEGYRLN
Site 7Y68RLNRNGDYKETQYSF
Site 8S74DYKETQYSFKQVFGT
Site 9Y111KNGLLFTYGVTGSGK
Site 10T121TGSGKTHTMTGSPGE
Site 11T123SGKTHTMTGSPGEGG
Site 12S125KTHTMTGSPGEGGLL
Site 13Y151GSFQAKRYVFKSNDR
Site 14S155AKRYVFKSNDRNSMD
Site 15S160FKSNDRNSMDIQCEV
Site 16T184EAMPNPKTSSSKRQV
Site 17S187PNPKTSSSKRQVDPE
Site 18S214AEEVDEDSVYGVFVS
Site 19Y231EIYNNYIYDLLEEVP
Site 20S249IKPKPPQSKLLREDK
Site 21Y261EDKNHNMYVAGCTEV
Site 22T273TEVEVKSTEEAFEVF
Site 23T292KKRRIANTHLNRESS
Site 24S298NTHLNRESSRSHSVF
Site 25S299THLNRESSRSHSVFN
Site 26S301LNRESSRSHSVFNIK
Site 27S303RESSRSHSVFNIKLV
Site 28S331EKEQITISQLSLVDL
Site 29S341SLVDLAGSERTNRTR
Site 30S363EAGNINQSLMTLRTC
Site 31T369QSLMTLRTCMDVLRE
Site 32Y380VLRENQMYGTNKMVP
Site 33S391KMVPYRDSKLTHLFK
Site 34T394PYRDSKLTHLFKNYF
Site 35Y400LTHLFKNYFDGEGKV
Site 36Y420VNPKAEDYEENLQVM
Site 37T450DKAICGLTPGRRYRN
Site 38Y455GLTPGRRYRNQPRGP
Site 39S482QSFPPLPSCEILDIN
Site 40T493LDINDEQTLPRLIEA
Site 41S552NEKEKMISGQKLEIE
Site 42T567RLEKKNKTLEYKIEI
Site 43T580EILEKTTTIYEEDKR
Site 44Y582LEKTTTIYEEDKRNL
Site 45S605QKLQRQFSDKRRLEA
Site 46T663AIVTEPKTEKPERPS
Site 47S670TEKPERPSRERDREK
Site 48T679ERDREKVTQRSVSPS
Site 49S682REKVTQRSVSPSPVP
Site 50S684KVTQRSVSPSPVPLS
Site 51S686TQRSVSPSPVPLSSN
Site 52S691SPSPVPLSSNYIAQI
Site 53S692PSPVPLSSNYIAQIS
Site 54S699SNYIAQISNGQQLMS
Site 55S706SNGQQLMSQPQLHRR
Site 56S714QPQLHRRSNSCSSIS
Site 57S716QLHRRSNSCSSISVA
Site 58S718HRRSNSCSSISVASC
Site 59S719RRSNSCSSISVASCI
Site 60T735EWEQKIPTYNTPLKV
Site 61Y736WEQKIPTYNTPLKVT
Site 62T738QKIPTYNTPLKVTSI
Site 63S744NTPLKVTSIARRRQQ
Site 64S756RQQEPGQSKTCIVSD
Site 65T758QEPGQSKTCIVSDRR
Site 66S762QSKTCIVSDRRRGMY
Site 67Y769SDRRRGMYWTEGREV
Site 68T771RRRGMYWTEGREVVP
Site 69T779EGREVVPTFRNEIEI
Site 70S812IRLRHRRSRSAGDRW
Site 71S814LRHRRSRSAGDRWVD
Site 72T830KPASNMQTETVMQPH
Site 73T843PHVPHAITVSVANEK
Site 74T861KCEKYMLTHQELASD
Site 75S867LTHQELASDGEIETK
Site 76T873ASDGEIETKLIKGDI
Site 77Y881KLIKGDIYKTRGGGQ
Site 78T883IKGDIYKTRGGGQSV
Site 79S889KTRGGGQSVQFTDIE
Site 80T893GGQSVQFTDIETLKQ
Site 81T897VQFTDIETLKQESPN
Site 82S902IETLKQESPNGSRKR
Site 83S906KQESPNGSRKRRSST
Site 84S911NGSRKRRSSTVAPAQ
Site 85S912GSRKRRSSTVAPAQP
Site 86T913SRKRRSSTVAPAQPD
Site 87S924AQPDGAESEWTDVET
Site 88T927DGAESEWTDVETRCS
Site 89S934TDVETRCSVAVEMRA
Site 90S943AVEMRAGSQLGPGYQ
Site 91Y949GSQLGPGYQHHAQPK
 
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
 


2019 Kinexus Bioinformatics Corporation