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

 
0 4   S19‑p LPPGTGGsPAEGGGs
0 1   S26‑p sPAEGGGsGGGGGLR
0 75   S35‑p GGGGLRRsNsAPLIH
2 158   S37‑p GGLRRsNsAPLIHGL
0 14   S45‑p APLIHGLsDtsPVFQ
0 4   T47‑p LIHGLsDtsPVFQAE
0 33   S48‑p IHGLsDtsPVFQAEA
0 1   S57‑p VFQAEAPsARRNstt
1 264   S62‑p APsARRNsttFPSRH
0 13   T63‑p PsARRNsttFPSRHG
0 5   T64‑p sARRNsttFPSRHGL
1 352   S76‑p HGLLLPAsPVRMHss
0 5   S82‑p AsPVRMHssRLHQIk
0 1   S83‑p sPVRMHssRLHQIkQ
0 1   K89‑sm ssRLHQIkQEEGMDL
0 1   S122 HSWEESFSLSDNDVE
0 1   S124 WEESFSLSDNDVEKS
2 93   S143‑p RIDFIPVsPAPsPtR
1 86   S147‑p IPVsPAPsPtRGIGK
0 23   T149‑p VsPAPsPtRGIGKQC
0 6   S158‑p GIGKQCFsPsLQsFV
0 1   S160‑p GKQCFsPsLQsFVSS
0 1   S163‑p CFsPsLQsFVSSNGL
0 18   S173‑p SSNGLPPsPIPsPtt
0 4   S177‑p LPPsPIPsPttRFTT
0 1   T179‑p PsPIPsPttRFTTRR
0 2   T180‑p sPIPsPttRFTTRRs
0 14   S187‑p tRFTTRRsQsPINCI
1 34   S189‑p FTTRRsQsPINCIRP
0 1   S197‑p PINCIRPsVLGPLkR
0 17   K203‑ac PsVLGPLkRKCEMET
0 5   Y212‑p KCEMETEyQPKRFFQ
0 3   S262‑p CNSPAKVstTTDsPV
0 3   T263‑p NSPAKVstTTDsPVs
0 1   T264 SPAKVstTTDsPVsP
0 2   T265 PAKVstTTDsPVsPA
0 7   S267‑p KVstTTDsPVsPAQA
1 40   S270‑p tTTDsPVsPAQAAsP
0 16   S276‑p VsPAQAAsPFIPLDE
  mouse

 
S17‑p LELPAGAsPAEGGGP
P24 sPAEGGGPGGGGLRR
S32‑p GGGGLRRsNsAPLIH
S34‑p GGLRRsNsAPLIHGL
S42‑p APLIHGLsDssPVFQ
S44‑p LIHGLsDssPVFQAE
S45‑p IHGLsDssPVFQAEA
S54 VFQAEAPSARRNstT
S59‑p APSARRNstTFPSRH
T60‑p PSARRNstTFPSRHG
T61 SARRNstTFPSRHGL
S73‑p HGLLLPAsPVRMHSS
S79 AsPVRMHSSRLHQIK
S80 sPVRMHSSRLHQIKQ
K86 SSRLHQIKQEEGMDL
S119‑p HSWEESFsLsDNDVE
S121‑p WEESFsLsDNDVEKS
S140‑p RIDFIPVsPAPsPtR
S144‑p IPVsPAPsPtRGIGK
T146‑p VsPAPsPtRGIGKQC
S155 GIGKQCFSPSLQSFV
S157 GKQCFSPSLQSFVSS
S160 CFSPSLQSFVSSNGL
S170‑p SSNGLPPsPIPsPTt
S174‑p LPPsPIPsPTtRFTT
T176 PsPIPsPTtRFTTRR
T177‑p sPIPsPTtRFTTRRs
S184‑p tRFTTRRsQsPINCI
S186‑p FTTRRsQsPINCIRP
S194 PINCIRPSVLGPLKR
K200 PSVLGPLKRKCEMET
Y209 KCEMETDYQPKRFFQ
S259‑p CNSPAKVstttDsPV
T260‑p NSPAKVstttDsPVs
T261‑p SPAKVstttDsPVsP
T262‑p PAKVstttDsPVsPA
S264‑p KVstttDsPVsPAQA
S267‑p tttDsPVsPAQAAsP
S273‑p VsPAQAAsPFIPVDE
  rat

 
S19 LPAGTGASPAEGGGP
P26 SPAEGGGPGSGGLRR
S34‑p GSGGLRRsNsAPLIH
S36‑p GGLRRsNsAPLIHGL
S44 APLIHGLSDSSPVFQ
S46 LIHGLSDSSPVFQAE
S47 IHGLSDSSPVFQAEA
S56 VFQAEAPSARRNsTt
S61‑p APSARRNsTtFPSRH
T62 PSARRNsTtFPSRHG
T63‑p SARRNsTtFPSRHGL
S75‑p HGLLLPAsPVRMHsS
S81‑p AsPVRMHsSRLHQIK
S82 sPVRMHsSRLHQIKQ
K88 sSRLHQIKQEEGMDL
S121 HSWEESFSLSDNDVE
S123 WEESFSLSDNDVEKS
S142‑p RIDFIPVsPAPsPtR
S146‑p IPVsPAPsPtRGIGK
T148‑p VsPAPsPtRGIGKQC
S157 GIGKQCFSPSLQSFV
S159 GKQCFSPSLQSFVSS
S162 CFSPSLQSFVSSNGL
S172 SSNGLPPSPIPSPTT
S176 LPPSPIPSPTTRFTT
T178 PSPIPSPTTRFTTRR
T179 SPIPSPTTRFTTRRs
S186‑p TRFTTRRsQsPINCI
S188‑p FTTRRsQsPINCIRP
S196 PINCIRPSVLGPLKR
K202 PSVLGPLKRKCEMET
Y211 KCEMETDYQPKRFFQ
S261 CNSPAKVSTTTDSPV
T262 NSPAKVSTTTDSPVs
T263 SPAKVSTTTDSPVsP
T264 PAKVSTTTDSPVsPA
S266 KVSTTTDSPVsPAQA
S269‑p TTTDSPVsPAQAASP
S275 VsPAQAASPFIPVDE
  cow

 
S19 LPPGSGGSPAEGSSS
S26 SPAEGSSSGGGGGLR
S35 GGGGLRRSNSAPLIH
S37 GGLRRSNSAPLIHGL
S45 APLIHGLSDTSPVFQ
T47 LIHGLSDTSPVFQAE
S48 IHGLSDTSPVFQAEA
S57 VFQAEAPSARRNsTT
S62‑p APSARRNsTTFPNRH
T63 PSARRNsTTFPNRHG
T64 SARRNsTTFPNRHGL
S76 HGLLLPASPVRMHSS
S82 ASPVRMHSSRLHQIK
S83 SPVRMHSSRLHQIKQ
K89 SSRLHQIKQEEGMDL
S122 HSWEESFSLSDNDVE
S124 WEESFSLSDNDVEKS
S143 RIDFIPVSPAPSPTR
S147 IPVSPAPSPTRGIGK
T149 VSPAPSPTRGIGKQC
S158 GIGKQCFSPSLQSFV
S160 GKQCFSPSLQSFVSS
S163 CFSPSLQSFVSSNGL
S173 SSNGLPPSPIPSPTT
S177 LPPSPIPSPTTRFTT
T179 PSPIPSPTTRFTTRR
T180 SPIPSPTTRFTTRRS
S187 TRFTTRRSQSPINCI
S189 FTTRRSQSPINCIRP
S197 PINCIRPSVLGPLKR
K203 PSVLGPLKRKCEMET
Y212 KCEMETEYQPKRFFQ
S262 CNSPAKVSTTTDSPV
T263 NSPAKVSTTTDSPVS
T264 SPAKVSTTTDSPVSP
T265 PAKVSTTTDSPVSPA
S267 KVSTTTDSPVSPAQA
S270 TTTDSPVSPAQAASP
S276 VSPAQAASPFIPVDE