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

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0 1   T2‑p ______MtEykLVVV
0 1   Y4‑p ____MtEykLVVVGA
1 1   K5‑m2 ___MtEykLVVVGAG
2 12   Y32‑p QNHFVDEyDPTIEDs
0 11   S39‑p yDPTIEDsyRkQVVI
0 3   Y40‑p DPTIEDsyRkQVVID
1 1   R41 PTIEDsyRkQVVIDG
1 1   K42 TIEDsyRKQVVIDGE
1 0   K42‑sm TIEDsyRkQVVIDGE
3 8   Y64‑p DTAGQEEySAMRDQY
0 1   S89‑p FAINNTKsFEDIHHy
0 1   Y96‑p sFEDIHHyREQIkRV
0 1   K101‑ac HHyREQIkRVkDsED
6 3   K104‑ac REQIkRVkDsEDVPM
1 0   K104‑ub REQIkRVkDsEDVPM
0 1   S106‑p QIkRVkDsEDVPMVL
0 5   K117‑ub PMVLVGNkCDLPSRT
0 1   K128‑ac PSRTVDTkQAQDLAR
0 38   K128‑ub PSRTVDTkQAQDLAR
1 0   T144‑p YGIPFIEtSAktRQR
1 2   K147‑ac PFIEtSAktRQRVED
2 9   K147‑ub PFIEtSAktRQRVED
1 1   T148‑p FIEtSAktRQRVEDA
0 17   Y157‑p QRVEDAFyTLVREIR
0 1   T158 RVEDAFyTLVREIRQ
0 1   - gap
10 0   - gap
1 0   - gap
1 0   - gap
  KRas iso2  
T2 ______MTEYKLVVV
Y4 ____MTEYKLVVVGA
K5 ___MTEYKLVVVGAG
Y32 QNHFVDEYDPTIEDS
S39 YDPTIEDSYRKQVVI
Y40 DPTIEDSYRKQVVID
R41 PTIEDSYRKQVVIDG
K42 TIEDSYRKQVVIDGE
K42 TIEDSYRKQVVIDGE
Y64 DTAGQEEYSAMRDQY
S89 FAINNTKSFEDIHHY
Y96 SFEDIHHYREQIKRV
K101 HHYREQIKRVkDSED
K104‑ac REQIKRVkDSEDVPM
K104‑ub REQIKRVkDSEDVPM
S106 QIKRVkDSEDVPMVL
K117 PMVLVGNKCDLPSRT
K128 PSRTVDTKQAQDLAR
K128 PSRTVDTKQAQDLAR
T144 YGIPFIETSAktRQG
K147 PFIETSAKtRQGVDD
K147‑ub PFIETSAktRQGVDD
T148‑p FIETSAktRQGVDDA
Y157‑p QGVDDAFytLVREIR
T158‑p GVDDAFytLVREIRK
K179‑ac KDGKKKKkKskTkCV
S181‑p GKKKKkKskTkCVIM
K182‑me KKKKkKskTkCVIM_
K184‑me KKkKskTkCVIM___
  mouse

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T2 ______MTEYKLVVV
Y4 ____MTEYKLVVVGA
K5 ___MTEYKLVVVGAG
Y32 QNHFVDEYDPTIEDs
S39‑p YDPTIEDsYRKQVVI
Y40 DPTIEDsYRKQVVID
R41 PTIEDsYRKQVVIDG
K42 TIEDsYRKQVVIDGE
K42 TIEDsYRKQVVIDGE
Y64 DTAGQEEYSAMRDQY
S89 FAINNTKSFEDIHHY
Y96 SFEDIHHYREQIKRV
K101 HHYREQIKRVkDSED
K104‑ac REQIKRVkDSEDVPM
K104 REQIKRVKDSEDVPM
S106 QIKRVkDSEDVPMVL
K117‑ub PMVLVGNkCDLPSRT
K128 PSRTVDTKQAQELAR
K128‑ub PSRTVDTkQAQELAR
T144 YGIPFIETSAkTRQR
K147‑ac PFIETSAkTRQRVED
K147‑ub PFIETSAkTRQRVED
T148 FIETSAkTRQRVEDA
Y157 QRVEDAFYTLVREIR
T158 RVEDAFYTLVREIRQ
- gap
- gap
- gap
- gap
  KRas iso2  
T2 ______MTEYKLVVV
Y4 ____MTEYKLVVVGA
K5 ___MTEYKLVVVGAG
Y32 QNHFVDEYDPTIEDS
S39 YDPTIEDSYRKQVVI
Y40 DPTIEDSYRKQVVID
R41 PTIEDSYRKQVVIDG
K42 TIEDSYRKQVVIDGE
K42 TIEDSYRKQVVIDGE
Y64 DTAGQEEYSAMRDQY
S89 FAINNTKSFEDIHHY
Y96 SFEDIHHYREQIKRV
K101 HHYREQIKRVKDSED
K104 REQIKRVKDSEDVPM
K104 REQIKRVKDSEDVPM
S106 QIKRVKDSEDVPMVL
K117 PMVLVGNKCDLPSRT
K128 PSRTVDTKQAQELAR
K128 PSRTVDTKQAQELAR
T144 YGIPFIETSAKTRQG
K147 PFIETSAKTRQGVDD
K147 PFIETSAKTRQGVDD
T148 FIETSAKTRQGVDDA
Y157 QGVDDAFYTLVREIR
T158 GVDDAFYTLVREIRK
K179 KDGKKKKKKsRTRCT
S181‑p GKKKKKKsRTRCTVM
R182 KKKKKKsRTRCTVM_
R184 KKKKsRTRCTVM___
  rat

 
T2 ______MTEYKLVVV
Y4 ____MTEYKLVVVGA
K5 ___MTEYKLVVVGAG
Y32 QNHFVDEYDPTIEDS
S39 YDPTIEDSYrkQVVI
Y40 DPTIEDSYrkQVVID
R41‑m2 PTIEDSYrkQVVIDG
K42‑m2 TIEDSYrkQVVIDGE
K42 TIEDSYrKQVVIDGE
Y64 DTAGQEEYSAMRDQY
S89 FAINNTKSFEDIHHY
Y96 SFEDIHHYREQIKRV
K101 HHYREQIKRVKDSED
K104 REQIKRVKDSEDVPM
K104 REQIKRVKDSEDVPM
S106 QIKRVKDSEDVPMVL
K117 PMVLVGNKCDLPSRT
K128 PSRTVDTKQAQELAR
K128‑ub PSRTVDTkQAQELAR
T144 YGIPFIETSAKTRQR
K147 PFIETSAKTRQRVED
K147 PFIETSAKTRQRVED
T148 FIETSAKTRQRVEDA
Y157 QRVEDAFYTLVREIR
T158 RVEDAFYTLVREIRQ
- gap
- gap
- gap
- gap