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   Y10‑p VVFAVKQyISKMIED
0 1   K23 EDSGPGMKVLLMDKE
0 1   T31 VLLMDKETTGIVSMV
0 1   T32 LLMDKETTGIVSMVY
0 1   S42 VSMVYTQSEILQKEV
0 1   K76‑ub ICFLRPTkENVDyII
0 1   Y81‑p PTkENVDyIIQELRR
0 1   S168‑p GLTALLLsLKKCPMI
0 3   K185‑ub QLSSEAAkRLAECVk
0 4   K192‑ub kRLAECVkQVITkEY
0 1   K197‑ub CVkQVITkEYELFEF
0 12   K257‑ub SRVPGISkDLREVVL
0 1   Y272‑p SAENDEFyANNMYLN
0 1   K296‑ub NLMEDFQkKKPKEQQ
0 4   K304‑ub KKPKEQQkLEsIADM
0 4   S307‑p KEQQkLEsIADMkAF
0 3   K312‑ub LEsIADMkAFVENyP
0 4   Y318‑p MkAFVENyPQFkkMS
0 1   K322‑ub VENyPQFkkMSGtVS
0 1   K322‑m1 VENyPQFkkMSGtVS
0 1   K323‑m1 ENyPQFkkMSGtVSk
0 1   T327‑p QFkkMSGtVSkHVTV
0 1   K330‑ub kMSGtVSkHVTVVGE
0 1   S339‑p VTVVGELsRLVSERN
0 3   K371‑ub SSALQNIkRLLQNPk
0 3   K378‑ub kRLLQNPkVTEFDAA
0 4   K418 RNKGVSEKYRKLVsA
0 1   K418‑ub RNKGVSEkYRKLVsA
0 1   K421 GVSEkYRKLVsAVVE
0 1   S424‑p EkYRKLVsAVVEYGG
0 1   K432 AVVEYGGKRVRGsDL
0 3   K432‑ub AVVEYGGkRVRGsDL
0 1   S437‑p GGkRVRGsDLFsPkD
0 7   S441‑p VRGsDLFsPkDAVAI
0 5   K443‑ub GsDLFsPkDAVAITk
0 16   K450‑ub kDAVAITkQFLkGLk
0 1   K454‑ub AITkQFLkGLkGVEN
0 1   K457‑ub kQFLkGLkGVENVYT
0 1   K479‑ub ETLDHLIkGRLkENL
0 1   K483 HLIkGRLKENLyPYL
0 6   K483‑ub HLIkGRLkENLyPYL
0 1   Y487‑p GRLkENLyPYLGPST
0 2   S556 ASGLHSRSkEssQVt
0 1   K557‑ub SGLHSRSkEssQVts
0 1   S559‑p LHSRSkEssQVtsRS
0 5   S560‑p HSRSkEssQVtsRSA
0 1   T563‑p SkEssQVtsRSASRR
0 1   S564‑p kEssQVtsRSASRR_
  mouse

 
Y10 VVFAVKQYISKMIED
K23‑ub EDSGPGMkVLLMDKE
T31‑p VLLMDKEttGIVSMV
T32‑p LLMDKEttGIVSMVY
S42‑p VSMVYTQsEILQKEV
K76 ICFLRPTKENVEYLI
Y81 PTKENVEYLIQELRR
S168 GLTALLLSLKKCPMI
K185 QLSSEAAKRLGECVk
K192‑ub KRLGECVkQVISKEY
K197 CVkQVISKEYELFEF
K257‑ub SRVPGISkDLREVVL
Y272 SAENDEFYANNMYLN
K296 NLMEDFQKKRPKEQQ
K304 KRPKEQQKLESIADM
S307 KEQQKLESIADMKAF
K312 LESIADMKAFVENYP
Y318 MKAFVENYPQFKKMS
K322 VENYPQFKKMSGTVS
K322 VENYPQFKKMSGTVS
K323 ENYPQFKKMSGTVSK
T327 QFKKMSGTVSKHVTV
K330 KMSGTVSKHVTVVGE
S339 VTVVGELSRLVSERN
K371 SSALQNVKRLLQNPK
K378 KRLLQNPKVTEFDAV
K418‑ac RSKGVAEkYRKLVSA
K418 RSKGVAEKYRKLVSA
K421 GVAEkYRKLVSAVVE
S424 EkYRKLVSAVVEYGG
K432‑ac AVVEYGGkRVRGSDL
K432 AVVEYGGKRVRGSDL
S437 GGkRVRGSDLFsPKD
S441‑p VRGSDLFsPKDAVAI
K443 GSDLFsPKDAVAITk
K450‑ub KDAVAITkQFLKGLK
K454 AITkQFLKGLKGVEN
K457 kQFLKGLKGVENVYT
K479 ETLDHLIKGRLkENL
K483 HLIKGRLKENLYPYL
K483‑ub HLIKGRLkENLYPYL
Y487 GRLkENLYPYLGPST
S556‑p ASGLHSRsRESSQAT
R557 SGLHSRsRESSQATS
S559 LHSRsRESSQATSRS
S560 HSRsRESSQATSRSA
T563 sRESSQATSRSANRR
S564 RESSQATSRSANRR_
  rat

 
Y10 VVFAVKQYISKMIED
K23 EDSGPGMKVLLMDKE
T31 VLLMDKETTGIVSMV
T32 LLMDKETTGIVSMVY
S42 VSMVYTQSEILQKEV
K76 ICFLRPTKENVDSLI
S81 PTKENVDSLIQELRR
S168 GLTALLLSLKKCPMI
K185 QLSSEAAKRLGECVK
K192 KRLGECVKQVISKEY
K197 CVKQVISKEYELFEF
K257 SRVPGISKDLREVVL
Y272 SAENDEFYANNMYLN
K296 NLMEDFQKKRPKEQQ
K304 KRPKEQQKLESIADM
S307 KEQQKLESIADMKAF
K312 LESIADMKAFVENYP
Y318 MKAFVENYPQFKKMS
K322 VENYPQFKKMSGTVS
K322 VENYPQFKKMSGTVS
K323 ENYPQFKKMSGTVSK
T327 QFKKMSGTVSKHVTV
K330 KMSGTVSKHVTVVGE
S339 VTVVGELSRLVSERN
K371 SSALQNVKRLLQNPK
K378 KRLLQNPKVTEFDAV
K418 RSKGVAEKYRkLVSA
K418 RSKGVAEKYRkLVSA
K421‑ac GVAEKYRkLVSAVVE
S424 EKYRkLVSAVVEYGG
K432 AVVEYGGKRVRGSDL
K432 AVVEYGGKRVRGSDL
S437 GGKRVRGSDLFsPKD
S441‑p VRGSDLFsPKDAVAI
K443 GSDLFsPKDAVAITK
K450 KDAVAITKQFLKGLK
K454 AITKQFLKGLKGVEN
K457 KQFLKGLKGVENVYT
K479 ETLDHLIKGKLkENL
K483‑ac HLIKGKLkENLYPYL
K483 HLIKGKLKENLYPYL
Y487 GKLkENLYPYLGPST
S556 ASGLHSRSRESSQAT
R557 SGLHSRSRESSQATS
S559 LHSRSRESSQATSRS
S560 HSRSRESSQATSRSA
T563 SRESSQATSRSASRR
S564 RESSQATSRSASRR_