LTP 

LTP (Low Throughput Papers) : The number of records in which this modification site was determined using methods other than discovery mass spectrometry.


 HTP 

HTP (High Throughput Papers): The number of records in which this modification site was assigned using ONLY proteomic discovery mass spectrometry.


       human

► Hide Isoforms
 
0 2   R8‑m1 MPGPQGGrGAATMsL
0 1   S14‑p GrGAATMsLGkLsPV
0 1   K17‑m1 AATMsLGkLsPVGWV
0 11   S19‑p TMsLGkLsPVGWVSs
0 1   S26‑p sPVGWVSssQGkRRL
0 3   S27‑p PVGWVSssQGkRRLt
0 1   K30 WVSssQGKRRLtADM
0 5   K30‑ub WVSssQGkRRLtADM
0 9   T34‑p sQGkRRLtADMISHP
0 27   R53‑m1 RHTMHVGrGGDVFGD
0 1   S62‑p GDVFGDTsFLsNHGG
0 2   S65‑p FGDTsFLsNHGGssG
0 2   S70‑p FLsNHGGssGstHrs
0 1   S71‑p LsNHGGssGstHrsP
0 1   S73‑p NHGGssGstHrsPrs
0 2   T74‑p HGGssGstHrsPrsF
0 1   R76‑m1 GssGstHrsPrsFLA
0 3   S77‑p ssGstHrsPrsFLAK
0 1   R79‑m1 GstHrsPrsFLAKKL
0 2   S80‑p stHrsPrsFLAKKLQ
0 1   R98‑m1 RVGAPPRrMAsPPAP
0 24   S101‑p APPRrMAsPPAPsPA
0 7   S106‑p MAsPPAPsPAPPAIs
0 19   S113‑p sPAPPAIsPIIkNAI
0 1   K117‑ub PAIsPIIkNAIsLPQ
0 76   S121‑p PIIkNAIsLPQLNQA
0 62   Y130‑p PQLNQAAyDsLVVGK
0 3   S132‑p LNQAAyDsLVVGKLS
0 3   S139 sLVVGKLSFDSsPts
0 1   S142 VGKLSFDSsPtsStD
0 5   S143‑p GKLSFDSsPtsStDG
0 2   T145‑p LSFDSsPtsStDGHs
0 1   S146‑p SFDSsPtsStDGHsS
0 1   S147 FDSsPtsStDGHsSy
0 1   T148‑p DSsPtsStDGHsSyG
0 1   S152‑p tsStDGHsSyGLDSG
0 3   Y154‑p StDGHsSyGLDSGFC
0 9   S180‑p HDRDRDGsFPsEPGL
0 2   S183‑p DRDGsFPsEPGLRRs
0 1   - gap
0 19   S190‑p sEPGLRRsDsLLsFR
1 85   S192‑p PGLRRsDsLLsFRLD
0 27   S195‑p RRsDsLLsFRLDLDL
0 1   S302‑p GPVAEVKssPVGGGP
0 5   S303‑p PVAEVKssPVGGGPr
0 1   R310‑m1 sPVGGGPrGPAGPAL
0 5   H320 AGPALGRHWGAGWDG
0 1   - gap
0 63   Y331‑p GWDGGHHyPEMDARQ
0 36   S350‑p VLPQARAsWEsLDEE
0 29   S353‑p QARAsWEsLDEEWRA
0 1   A360 sLDEEWRAPQAGsRt
0 1   S365‑p WRAPQAGsRtPVPST
0 2   T367‑p APQAGsRtPVPSTVQ
  CDC42EP1 iso2  
R8 MPGPQGGRGAATMSL
S14 GRGAATMSLGKLSPV
K17 AATMSLGKLSPVGWV
S19 TMSLGKLSPVGWVSS
S26 SPVGWVSSSQGKRRL
S27 PVGWVSSSQGKRRLT
K30 WVSSSQGKRRLTADM
K30 WVSSSQGKRRLTADM
T34 SQGKRRLTADMISHP
R53 RHTMHVGRGGDVFGD
S62 GDVFGDTSFLSNHGG
S65 FGDTSFLSNHGGSSG
S70 FLSNHGGSSGSTHRS
S71 LSNHGGSSGSTHRSP
S73 NHGGSSGSTHRSPRS
T74 HGGSSGSTHRSPRSF
R76 GSSGSTHRSPRSFLA
S77 SSGSTHRSPRSFLAK
R79 GSTHRSPRSFLAKKL
S80 STHRSPRSFLAKKLQ
R98 RVGAPPRRMASPPAP
S101 APPRRMASPPAPSPA
S106 MASPPAPSPAPPAIS
S113 SPAPPAISPIIKNAI
K117 PAISPIIKNAISLPQ
S121 PIIKNAISLPQLNQA
Y130 PQLNQAAYDSLVVGK
S132 LNQAAYDSLVVGKLS
S139 SLVVGKLSFDSSPTS
S142 VGKLSFDSSPTSSTD
S143 GKLSFDSSPTSSTDG
T145 LSFDSSPTSSTDGHS
S146 SFDSSPTSSTDGHSS
S147 FDSSPTSSTDGHSSY
T148 DSSPTSSTDGHSSYG
S152 TSSTDGHSSYGLDSG
Y154 STDGHSSYGLDSGFC
S180 HDRDRDGSFPSEPGL
S183 DRDGSFPSEPGLRRS
- gap
S190 SEPGLRRSDSLLSFR
S192 PGLRRSDSLLSFRLD
S195 RRSDSLLSFRLDLDL
S295 GPVAEVKSSPVGGGP
S296 PVAEVKSSPVGGGPR
R303 SPVGGGPRGPAGPAL
H313 AGPALGRHWGAGWDG
- gap
Y324 GWDGGHHYPEMDARQ
S343 VLPQARASWESLDEE
S346 QARASWESLDEEWRA
A353 SLDEEWRAPQAGSRT
S358 WRAPQAGSRTPVPST
T360 APQAGSRTPVPSTVQ
  mouse

 
T8 MPGPQGGTGAPTMSL
S14 GTGAPTMSLGKLsPV
K17 APTMSLGKLsPVGWV
S19‑p TMSLGKLsPVGWVSS
S26 sPVGWVSSSHGKRRL
S27 PVGWVSSSHGKRRLt
K30 WVSSSHGKRRLtADM
K30 WVSSSHGKRRLtADM
T34‑p SHGKRRLtADMISPP
R53‑m1 RHTMHVGrGGDVFGD
S62 GDVFGDTSFLSNHGG
S65 FGDTSFLSNHGGRSG
R70 FLSNHGGRSGNtHRs
S71 LSNHGGRSGNtHRsP
N73 NHGGRSGNtHRsPRS
T74‑p HGGRSGNtHRsPRSF
R76 GRSGNtHRsPRSFLA
S77‑p RSGNtHRsPRSFLAR
R79 GNtHRsPRSFLARKL
S80 NtHRsPRSFLARKLQ
R98 RVGVPPRRMAsPAAP
S101‑p VPPRRMAsPAAPSPA
S106 MAsPAAPSPAPPPIs
S113‑p SPAPPPIsPIIKNAI
K117 PPIsPIIKNAIsLPQ
S121‑p PIIKNAIsLPQLNQA
Y130 PQLNQATYDSLVMGK
S132 LNQATYDSLVMGKLs
S139‑p SLVMGKLsFDsTPAS
S142‑p MGKLsFDsTPASsTD
T143 GKLsFDsTPASsTDG
A145 LsFDsTPASsTDGHS
S146 sFDsTPASsTDGHSG
S147‑p FDsTPASsTDGHSGY
T148 DsTPASsTDGHSGYG
S152 ASsTDGHSGYGLESG
Y154 sTDGHSGYGLESGFC
S191 SQDREQSSFPSEPtP
S194 REQSSFPSEPtPNPE
T197‑p SSFPSEPtPNPELRR
S205‑p PNPELRRsDsLLsFR
S207‑p PELRRsDsLLsFRFD
S210‑p RRsDsLLsFRFDLDL
P311 GPAAEAKPSPVGEGP
S312 PAAEAKPSPVGEGPQ
Q319 SPVGEGPQVPSNMTF
S332‑p TFDRHGAsWGAsRAS
S336‑p HGAsWGAsRASWGAS
Y349‑p ASRASRHyTEMDARR
S368‑p VLPQVHGsWEsLNED
S371‑p QVHGsWEsLNEDWSt
T378‑p sLNEDWStPPASVRA
V383 WStPPASVRAPVPTS
A385 tPPASVRAPVPTSVQ
  rat

 
T8 MPGPQGGTGAPSMSL
S14 GTGAPSMSLGKLSPV
K17 APSMSLGKLSPVGWV
S19 SMSLGKLSPVGWVPS
S26 SPVGWVPSSHGkRRL
S27 PVGWVPSSHGkRRLT
K30‑ac WVPSSHGkRRLTADM
K30 WVPSSHGKRRLTADM
T34 SHGkRRLTADMISPP
R53 RHTMHVGRGGDVFGD
S62 GDVFGDTSFLSNHGG
S65 FGDTSFLSNHGGRSG
R70 FLSNHGGRSGNTHRS
S71 LSNHGGRSGNTHRSP
N73 NHGGRSGNTHRSPRS
T74 HGGRSGNTHRSPRSF
R76 GRSGNTHRSPRSFLA
S77 RSGNTHRSPRSFLAR
R79 GNTHRSPRSFLARKL
S80 NTHRSPRSFLARKLQ
R98 RVGVPPRRMASPAAT
S101 VPPRRMASPAATSPA
S106 MASPAATSPAPPPIS
S113 SPAPPPISPIIKNAI
K117 PPISPIIKNAIsLPQ
S121‑p PIIKNAIsLPQLNQA
Y130 PQLNQATYDSLVVSK
S132 LNQATYDSLVVSKLs
S139‑p SLVVSKLsFDSTPAS
S142 VSKLsFDSTPASSTD
T143 SKLsFDSTPASSTDG
A145 LsFDSTPASSTDGRS
S146 sFDSTPASSTDGRSG
S147 FDSTPASSTDGRSGy
T148 DSTPASSTDGRSGyG
S152 ASSTDGRSGyGLESG
Y154‑p STDGRSGyGLESGFC
S193 SQDREQSSSPSEPNP
S196 REQSSSPSEPNPNPE
N199 SSSPSEPNPNPELRR
S207‑p PNPELRRsDsLLSFR
S209‑p PELRRsDsLLSFRFD
S212 RRsDsLLSFRFDLDL
A297 GPVAEVKAsPVGEGP
S298‑p PVAEVKAsPVGEGPQ
Q305 sPVGEGPQVPSKMAF
S318‑p AFDRRGAsWGAIRAS
- gap
Y328 AIRASRHYTEMDARR
S347‑p VLPQVHGsWEsLNEE
S350‑p QVHGsWEsLNEEWSA
A357 sLNEEWSAPPASSRA
S362 WSAPPASSRAPVPST
A364 APPASSRAPVPSTVQ