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 2   R6‑m1 __MAECGrGGAAGGA
0 6   T16‑p AAGGALPtsPGPALG
0 45   S17‑p AGGALPtsPGPALGA
0 10   G19 GALPtsPGPALGAKG
0 2   S51‑p HGRARYDsGGVSNGD
0 1   S60‑p GVSNGDCsLGVsGDE
0 1   S64‑p GDCsLGVsGDEARAS
0 1   A70 VsGDEARASPTRGPR
0 1   S71 sGDEARASPTRGPRG
0 5   T84 RGVALAPTPSAVVCt
0 7   S86 VALAPTPSAVVCtLP
0 10   T91‑p TPSAVVCtLPRESKP
0 5   S106‑p GGLPRRSsIIKDGtK
0 1   T112‑p SsIIKDGtKQKRERK
0 88   T121‑p QKRERKKtVsFssMP
0 73   S123‑p RERKKtVsFssMPtE
0 6   S125‑p RKKtVsFssMPtEkk
0 1   S126‑p KKtVsFssMPtEkkI
0 5   T129‑p VsFssMPtEkkISsA
0 1   K131‑ac FssMPtEkkISsAsD
0 1   K132‑ac ssMPtEkkISsAsDC
0 1   S135‑p PtEkkISsAsDCINS
0 1   S137‑p EkkISsAsDCINSMV
0 1   K150‑ac MVEGSELkKVRSNSR
0 1   S181‑p WEPSKKDsEKAKIDI
0 1   Y248‑p IWVTGLRyLISYGKH
0 1   S273‑p NMRTSWVsQMFSEID
0 1   K321‑ac ELHKSKDkAGTEVTK
0 2   Y544‑p KLLGDKLyTTSPNVE
0 1   Y554‑p SPNVEESyLPSPDVL
0 1   S577‑p KKLSSNCsGVEGDVt
0 64   T584‑p sGVEGDVtDEDEGAE
0 1   S747 FSANTKDSVPGVSPQ
0 1   K891 RGGGKPHKRGLSVRK
0 1   S895 KPHKRGLSVRKGKKS
0 2   T910‑p REYASLRtLWIKtVD
0 2   T915‑p LRtLWIKtVDEVFKN
0 1   S951‑p FKELCGLsSVANLMQ
0 1   T1002‑p EVLKKIVttyDMMIQ
0 1   T1003‑p VLKKIVttyDMMIQS
0 1   Y1004‑p LKKIVttyDMMIQSL
0 10   Y1022‑p IENADAVyEkIVHCQ
0 1   K1024‑ub NADAVyEkIVHCQKA
0 1   K1078‑ub ADLLKYAkNETLENL
0 28   S1113‑p DVQKPRRsLEVIPEK
  mouse

 
R6 __MAECGRGAAGGAL
T15‑p AAGGALPtsPsPALG
S16‑p AGGALPtsPsPALGA
S18‑p GALPtsPsPALGAKG
S52 HGRARYDSGGVSNGD
S61 GVSNGDCSLGVSGDE
S65 GDCSLGVSGDEARts
T71‑p VSGDEARtsPGRGPL
S72‑p SGDEARtsPGRGPLG
T85‑p LGVALARtPsPAAGP
S87‑p VALARtPsPAAGPVP
P92 tPsPAAGPVPRDSKP
S107‑p GGLPRRSsIIKDGTK
T113 SsIIKDGTKQKRERK
T122 QKRERKKTVsFSSMP
S124‑p RERKKTVsFSSMPTE
S126 RKKTVsFSSMPTEKK
S127 KKTVsFSSMPTEKKI
T130 VsFSSMPTEKKISSA
K132 FSSMPTEKKISSASD
K133 SSMPTEKKISSASDC
S136 PTEKKISSASDCINS
S138 EKKISSASDCINSMV
K151 MVEGSELKKVRSNSR
S182 WEPSKKDSEKAKIDI
Y249 IWVTGLRYLISYGKH
S274 NMRTSWISQMFSEID
K322 ELHKSKDKAGTEITK
Y545 KILGDKLYTTSPNME
Y555 SPNMEESYLPSPDVL
S578 KKLSSNCSGVEGDVt
T585‑p SGVEGDVtDEDEGAE
S748‑p FSANTKDsVPGVSPQ
K892‑ac RGGGKPHkRGLSVRK
S896 KPHkRGLSVRKGKKS
T911 REYASLRTLWIKTVD
T916 LRTLWIKTVDEVFKN
S952 FKELCGLSSVANLMQ
T1003 EVLKKIVTTYDMMMQ
T1004 VLKKIVTTYDMMMQS
Y1005 LKKIVTTYDMMMQSL
Y1023‑p IENADAVyEKIVHCQ
K1025 NADAVyEKIVHCQKA
K1079 ADLLKYAKNETLENL
S1114‑p EAQKPRRsLEAIPEK
  rat

 
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
T3 _____MPTEKKISSA
K5 ___MPTEKKISSASD
K6 __MPTEKKISSASDC
S9 PTEKKISSASDCINS
S11 EKKISSASDCINSMV
K24 MVEGSELKKVRSNSR
S55 WEPSKKDSEKAKIDI
Y122 IWVTGLRYLISYGKH
S147 NMRTCWVSQMFSEID
K195 ELHKSKDKTGTEITK
Y418 KILGDKLYTTSPNME
Y428 SPNMEESYLPSPDVL
S451 KKLSSNCSGVEGDVt
T458‑p SGVEGDVtDEDEGAE
S621 FSANTKDSVPGVSPQ
K765 RGGGKPHKRGLsVRK
S769‑p KPHKRGLsVRKGKKS
T784 REYASLRTLWIKTVD
T789 LRTLWIKTVDEVFKN
S825 FKELCGLSSVANLMQ
T876 EVLKKIVTTYDMMIQ
T877 VLKKIVTTYDMMIQS
Y878 LKKIVTTYDMMIQSL
Y896‑p IENADAVyEKIVHCQ
K898 NADAVyEKIVHCQKA
K952 ADLLKYAKNETLENL
S987‑p EAQKPRRsLEVIPEK