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.


       rat

 
0 1   T2 ______MTHFNkGPS
0 2   K6‑ac __MTHFNkGPSYGLS
0 2   K6 __MTHFNKGPSYGLS
0 3   S9 THFNkGPSYGLSAEV
1 18   Y10 HFNkGPSYGLSAEVK
0 1   K17 YGLSAEVKNKIASKY
0 6   K23 VKNKIASKYDQQAEE
0 1   K23 VKNKIASKYDQQAEE
0 1   G43 IEEVTGMGIGTNFQL
0 2   K64 ILCELINKLQPGSVK
0 4   K156‑ac TRRFDEGkLKAGQSV
0 2   K158 RFDEGkLKAGQSVIG
0 6   K158 RFDEGkLKAGQSVIG
0 7   S162 GkLKAGQSVIGLQMG
0 1   K172 GLQMGTNKCAsQAGM
0 1   K172 GLQMGTNKCAsQAGM
1 1   S175‑p MGTNKCAsQAGMTAY
0 12   Y182 sQAGMTAYGtRRHLY
1 2   T184‑p AGMTAYGtRRHLYDP
0 1   K197‑ac DPKMQTDkPFDQTTI
0 1   K197 DPKMQTDKPFDQTTI
0 1   S205 PFDQTTISLQMGTNK
0 2   K212 SLQMGTNKGASQAGM
0 9   S215 MGTNKGASQAGMSAP
0 5   T224 AGMSAPGTRRDIYDQ
0 6   K232 RRDIYDQKLTLQPVD
0 2   T234 DIYDQKLTLQPVDNS
0 1   N240 LTLQPVDNSTISLQM
0 1   T242 LQPVDNSTISLQMGT
0 1   S244 PVDNSTISLQMGTNK
0 9   K251 SLQMGTNKVASQKGM
0 3   S254 MGTNKVASQKGMSVy
0 16   K256 TNKVASQKGMSVyGL
0 2   S259 VASQKGMSVyGLGRQ
1 70   Y261‑p SQKGMSVyGLGRQVY
0 1   K271 GRQVYDPKYCAAPTE
0 10   S285 EPVIHNGSQGTGTNG
1 6   T288 IHNGSQGTGTNGsEI
2 8   S293‑p QGTGTNGsEISDSDY
2 12   S296 GTNGsEISDSDYQAE
0 1   S298 NGsEISDSDYQAEYP
0 5   Y300 sEISDSDYQAEYPDE
0 1   Y308 QAEYPDEYHGEYPDE
0 7   Y316 HGEYPDEYPREYQYG
0 2   Y320 PDEYPREYQYGDDQG
0 5   Y322 EYPREYQYGDDQGID
0 8   G323 YPREYQYGDDQGIDY
0 1   Y330 GDDQGIDY_______
  human

 
T2‑p ______MtHFNkGPs
K6‑ac __MtHFNkGPsyGLS
K6‑ub __MtHFNkGPsyGLS
S9‑p tHFNkGPsyGLSAEV
Y10‑p HFNkGPsyGLSAEVK
K17 yGLSAEVKNKIASkY
K23‑ac VKNKIASkYDHQAEE
K23‑ub VKNKIASkYDHQAEE
S43‑p IEEVTGMsIGPNFQL
K64 ILCELINKLQPGSVK
K156‑ac TRRFDEGkLkAGQsV
K158‑ub RFDEGkLkAGQsVIG
K158‑m1 RFDEGkLkAGQsVIG
S162‑p GkLkAGQsVIGLQMG
K172‑ub GLQMGTNkCAsQAGM
K172‑m1 GLQMGTNkCAsQAGM
S175‑p MGTNkCAsQAGMTAy
Y182‑p sQAGMTAyGtRRHLY
T184‑p AGMTAyGtRRHLYDP
K197 DPKMQTDKPFDQTTI
K197‑ub DPKMQTDkPFDQTTI
S205‑p PFDQTTIsLQMGTNk
K212‑ub sLQMGTNkGAsQAGM
S215‑p MGTNkGAsQAGMLAP
T224‑p AGMLAPGtRRDIYDQ
K232‑ub RRDIYDQkLtLQPVD
T234‑p DIYDQkLtLQPVDNS
N240 LtLQPVDNStIsLQM
T242‑p LQPVDNStIsLQMGT
S244‑p PVDNStIsLQMGTNk
K251‑ub sLQMGTNkVAsQkGM
S254‑p MGTNkVAsQkGMsVy
K256‑ub TNkVAsQkGMsVyGL
S259‑p VAsQkGMsVyGLGRQ
Y261‑p sQkGMsVyGLGRQVY
K271 GRQVYDPKYCAAPTE
S285‑p EPVIHNGsQGtGTNG
T288‑p IHNGsQGtGTNGsEI
S293‑p QGtGTNGsEIsDSDy
S296‑p GTNGsEIsDSDyQAE
S298 NGsEIsDSDyQAEYP
Y300‑p sEIsDSDyQAEYPDE
Y308‑p QAEYPDEyHGEYQDD
Y316‑p HGEYQDDyPRDyQys
Y320‑p QDDyPRDyQysDQGI
Y322‑p DyPRDyQysDQGIDY
S323‑p yPRDyQysDQGIDY_
Y329 ysDQGIDY_______
  mouse

 
T2 ______MTHFNkGPS
K6 __MTHFNKGPSYGLS
K6‑ub __MTHFNkGPSYGLS
S9 THFNkGPSYGLSAEV
Y10 HFNkGPSYGLSAEVk
K17‑ub YGLSAEVkNKIASkY
K23‑ac VkNKIASkYDQQAEE
K23 VkNKIASKYDQQAEE
G43 IEEVTGLGIGTNFQL
K64‑ub ILCELINkLQPGSVK
K156 TRRFDEGKLkAGQsV
K158‑ub RFDEGKLkAGQsVIG
K158 RFDEGKLKAGQsVIG
S162‑p GKLkAGQsVIGLQMG
K172 GLQMGTNKCASQAGM
K172 GLQMGTNKCASQAGM
S175 MGTNKCASQAGMTAy
Y182‑p SQAGMTAyGtRRHLY
T184‑p AGMTAyGtRRHLYDP
K197 DPKMQTDKPFDQTTI
K197 DPKMQTDKPFDQTTI
S205 PFDQTTISLQMGTNK
K212 SLQMGTNKGASQAGM
S215 MGTNKGASQAGMLAP
T224 AGMLAPGTRRDIYDQ
K232‑ub RRDIYDQkLTLQPVD
T234 DIYDQkLTLQPVDnS
N240‑ng LTLQPVDnSTISLQM
T242 LQPVDnSTISLQMGT
S244 PVDnSTISLQMGTNk
K251‑ub SLQMGTNkVAsQkGM
S254‑p MGTNkVAsQkGMSVy
K256‑ub TNkVAsQkGMSVyGL
S259 VAsQkGMSVyGLGRQ
Y261‑p sQkGMSVyGLGRQVY
K271‑ub GRQVYDPkYCAAPTE
S285 EPVIHNGSQGtGTNG
T288‑p IHNGSQGtGTNGsEI
S293‑p QGtGTNGsEIsDsDy
S296‑p GTNGsEIsDsDyQAE
S298‑p NGsEIsDsDyQAEYP
Y300‑p sEIsDsDyQAEYPDE
Y308 QAEYPDEYHGEYPDD
Y316‑p HGEYPDDyPREyQyG
Y320‑p PDDyPREyQyGDDQG
Y322‑p DyPREyQyGDDQGID
G323 yPREyQyGDDQGIDy
Y330‑p GDDQGIDy_______