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 1   R6‑m1 __MGVDIrHNKDRKV
0 1   R26‑m1 KSQDIYLrLLVkLYR
0 1   K30‑ac IYLrLLVkLYRFLAR
0 13   K30‑ub IYLrLLVkLYRFLAR
0 1   T39‑p YRFLARRtNstFNQV
0 2   S41‑p FLARRtNstFNQVVL
0 6   T42‑p LARRtNstFNQVVLk
0 45   K49‑ub tFNQVVLkRLFMSRT
0 1   K49‑sc tFNQVVLkRLFMSRT
0 3   S62‑p RTNRPPLsLsrMIRK
0 1   S64‑p NRPPLsLsrMIRKMK
0 1   R65‑m1 RPPLsLsrMIRKMKL
0 25   K78‑ub KLPGRENktAVVVGt
0 2   T79‑p LPGRENktAVVVGtI
0 1   T85‑p ktAVVVGtItDDVrV
0 1   T87‑p AVVVGtItDDVrVQE
0 1   R91‑m1 GtItDDVrVQEVPkL
0 4   K97‑ub VrVQEVPkLkVCALR
0 11   K99‑ub VQEVPkLkVCALRVt
0 7   T106‑p kVCALRVtSRARsRI
0 1   S107 VCALRVtSRARsRIL
0 1   S111‑p RVtSRARsRILRAGG
0 27   K119‑ub RILRAGGkILTFDQL
0 36   S130‑p FDQLALDsPkGCGTV
0 21   K132‑ub QLALDsPkGCGTVLL
0 1   K132 QLALDsPKGCGTVLL
0 1   T136 DsPkGCGTVLLsGPR
0 8   S140‑p GCGTVLLsGPRKGRE
0 1   R150‑m1 RKGREVYrHFGkAPG
0 2   K154‑ac EVYrHFGkAPGtPHs
0 2   K154‑ub EVYrHFGkAPGtPHs
0 6   T158‑p HFGkAPGtPHsHTkP
0 1   S161‑p kAPGtPHsHTkPyVR
0 3   K164‑ac GtPHsHTkPyVRSKG
0 5   K164‑ub GtPHsHTkPyVRSKG
0 2   Y166‑p PHsHTkPyVRSKGRK
0 1   S183‑p RARGRRAsrGYKN__
0 1   R184‑m1 ARGRRAsrGYKN___
  mouse

 
R6 __MGVDIRHNKDRKV
R26 KSQDIYLRLLVkLYR
K30 IYLRLLVKLYRFLAR
K30‑ub IYLRLLVkLYRFLAR
T39 YRFLARRTNSTFNQV
S41 FLARRTNSTFNQVVL
T42 LARRTNSTFNQVVLk
K49‑ub TFNQVVLkRLFMSRT
K49 TFNQVVLKRLFMSRT
S62 RTNRPPLSLSRMIRK
S64 NRPPLSLSRMIRKMK
R65 RPPLSLSRMIRKMKL
K78‑ub KLPGRENkTAVVVGT
T79 LPGRENkTAVVVGTV
T85 kTAVVVGTVTDDVRI
T87 AVVVGTVTDDVRILE
R91 GTVTDDVRILEVPKL
K97 VRILEVPKLKVCALR
K99 ILEVPKLKVCALRVS
S106 KVCALRVSsRARSRI
S107‑p VCALRVSsRARSRIL
S111 RVSsRARSRILKAGG
K119‑ub RILKAGGkILTFDQL
S130‑p FDQLALEsPkGRGtV
K132‑ub QLALEsPkGRGtVLL
K132‑sc QLALEsPkGRGtVLL
T136‑p EsPkGRGtVLLsGPR
S140‑p GRGtVLLsGPRKGRE
R150 RKGREVYRHFGKAPG
K154 EVYRHFGKAPGtPHS
K154 EVYRHFGKAPGtPHS
T158‑p HFGKAPGtPHSHTKP
S161 KAPGtPHSHTKPYVR
K164 GtPHSHTKPYVRSKG
K164 GtPHSHTKPYVRSKG
Y166 PHSHTKPYVRSKGRK
S183 RARGRRASRGYKN__
R184 ARGRRASRGYKN___
  rat

 
R6 __MGVDIRHNKDRKV
R26 KSQDIYLRLLVKLYR
K30 IYLRLLVKLYRFLAR
K30 IYLRLLVKLYRFLAR
T39 YRFLARRTNSTFNQV
S41 FLARRTNSTFNQVVL
T42 LARRTNSTFNQVVLK
K49 TFNQVVLKRLFMSRT
K49 TFNQVVLKRLFMSRT
S62 RTNRPPLSLSRMIRK
S64 NRPPLSLSRMIRKMK
R65 RPPLSLSRMIRKMKL
K78 KLPGRENKTAVVVGT
T79 LPGRENKTAVVVGTI
T85 KTAVVVGTITDDVRI
T87 AVVVGTITDDVRILE
R91 GTITDDVRILEVPKL
K97 VRILEVPKLKVCALR
K99 ILEVPKLKVCALRVS
S106 KVCALRVSSRARSRI
S107 VCALRVSSRARSRIL
S111 RVSSRARSRILKAGG
K119 RILKAGGKILTFDQL
S130‑p FDQLALEsPKGRGTV
K132 QLALEsPKGRGTVLL
K132 QLALEsPKGRGTVLL
T136 EsPKGRGTVLLSGPR
S140 GRGTVLLSGPRKGRE
R150 RKGREVYRHFGkAPG
K154‑ac EVYRHFGkAPGTPHS
K154 EVYRHFGKAPGTPHS
T158 HFGkAPGTPHSHTkP
S161 kAPGTPHSHTkPYVR
K164‑ac GTPHSHTkPYVRSKG
K164 GTPHSHTKPYVRSKG
Y166 PHSHTkPYVRSKGRK
S183 RARGRRASRGYKN__
R184 ARGRRASRGYKN___
  dog

 
R6 __MGVDIRHNKDRKV
R26 KSQDIYLRLLVKLYR
K30 IYLRLLVKLYRFLAR
K30 IYLRLLVKLYRFLAR
T39 YRFLARRTNSTFNQV
S41 FLARRTNSTFNQVVL
T42 LARRTNSTFNQVVLK
K49 TFNQVVLKRLFMSRT
K49 TFNQVVLKRLFMSRT
S62 RTNRPPLSLSRMIRK
S64 NRPPLSLSRMIRKMK
R65 RPPLSLSRMIRKMKL
K78 KLPGRENKTAVVVGT
T79 LPGRENKTAVVVGTI
T85 KTAVVVGTITDDVRV
T87 AVVVGTITDDVRVQE
R91 GTITDDVRVQEVPKL
K97 VRVQEVPKLKVCALR
K99 VQEVPKLKVCALRVS
S106 KVCALRVSSRARSRI
S107 VCALRVSSRARSRIL
S111 RVSSRARSRILKAGG
K119 RILKAGGKILTFDQL
S130 FDQLALDSPKGCGTV
K132 QLALDSPKGCGTVLL
K132 QLALDSPKGCGTVLL
T136 DSPKGCGTVLLSGPR
S140 GCGTVLLSGPRKGRE
R150 RKGREVYRHFGKAPG
K154 EVYRHFGKAPGTPHS
K154 EVYRHFGKAPGTPHS
T158 HFGKAPGTPHSHTKP
S161 KAPGTPHSHTKPYVR
K164 GTPHSHTKPYVRSKG
K164 GTPHSHTKPYVRSKG
Y166 PHSHTKPYVRSKGRK
S183 RARGRRASRGYKN__
R184 ARGRRASRGYKN___