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.


       mouse

 
0 6   S2‑p ______MssGWADER
0 1   S3‑p _____MssGWADERG
0 1   R9 ssGWADERGGEGDGR
0 6   Y18 GEGDGRIYVGNLPSD
0 6   K29 LPSDVREKDLEDLFY
0 3   Y36 KDLEDLFYkYGRIRE
0 1   K37 DLEDLFYKYGRIREI
0 15   K37‑ub DLEDLFYkYGRIREI
0 2   K47 RIREIELKNRHGLVP
0 1   R64 FVRFEDPRDAEDAIy
0 129   Y71‑p RDAEDAIyGRNGYDY
0 19   Y76 AIyGRNGYDYGQCRL
0 9   R89 RLRVEFPRTYGGrGG
0 26   R94‑m1 FPRTYGGrGGWPrGA
0 23   R99‑m1 GGrGGWPrGARNGPP
0 14   R102 GGWPrGARNGPPTRR
0 4   K129 SGSWQDLKDHMREAG
0 1   R133 QDLKDHMREAGDVCY
0 3   Y140 REAGDVCYADVQKDG
0 4   K145 VCYADVQKDGMGMVE
0 1   Y153 DGMGMVEYLRKEDME
0 1   R155 MGMVEYLRKEDMEYA
0 4   K156 GMVEYLRKEDMEYAL
0 3   Y161 LRKEDMEYALRKLDD
0 1   R164 EDMEYALRKLDDTKF
0 2   K165 DMEYALRKLDDTKFR
0 1   T169 ALRKLDDTKFRSHEG
0 5   K170 LRKLDDTKFRSHEGE
0 1   R172 KLDDTKFRSHEGETS
0 5   S179 RSHEGETSyIRVYPE
0 54   Y180‑p SHEGETSyIRVYPER
0 1   R182 EGETSyIRVYPERST
0 2   S188 IRVYPERSTsYGysR
0 1   T189 RVYPERSTsYGysRs
0 56   S190‑p VYPERSTsYGysRsR
0 3   Y191 YPERSTsYGysRsRs
0 5   Y193‑p ERSTsYGysRsRsGs
0 24   S194‑p RSTsYGysRsRsGsR
0 11   R195 STsYGysRsRsGsRG
0 7   S196‑p TsYGysRsRsGsRGR
0 10   S198‑p YGysRsRsGsRGRDs
0 13   S200‑p ysRsRsGsRGRDsPy
0 196   S205‑p sGsRGRDsPyQsRGs
0 3   Y207‑p sRGRDsPyQsRGsPH
0 13   S209‑p GRDsPyQsRGsPHyF
0 8   R210 RDsPyQsRGsPHyFs
0 427   S212‑p sPyQsRGsPHyFsPF
0 165   Y215‑p QsRGsPHyFsPFRPY
1 158   S217‑p RGsPHyFsPFRPY__
0 13   Y222 yFsPFRPY_______
  human

 
S2‑p ______MsGWADErG
- gap
R8‑m1 MsGWADErGGEGDGR
Y17‑p GEGDGRIyVGNLPTD
K28‑ub LPTDVREkDLEDLFy
Y35‑p kDLEDLFykYGRIRE
K36‑ac DLEDLFykYGRIREI
K36‑ub DLEDLFykYGRIREI
K46‑ub RIREIELkNRHGLVP
R63‑m1 FVRFEDPrDAEDAIy
Y70‑p rDAEDAIyGRNGyDY
Y75‑p AIyGRNGyDYGQCRL
R88‑m1 RLRVEFPrTYGGrGG
R93‑m1 FPrTYGGrGGWPrGG
R98‑m1 GGrGGWPrGGrNGPP
R101‑m1 GGWPrGGrNGPPTRR
K128‑ub SGSWQDLkDHMrEAG
R132‑m1 QDLkDHMrEAGDVCy
Y139‑p rEAGDVCyADVQkDG
K144‑ub VCyADVQkDGVGMVE
Y152‑p DGVGMVEyLrkEDME
R154‑m1 VGMVEyLrkEDMEyA
K155‑ub GMVEyLrkEDMEyAL
Y160‑p LrkEDMEyALrkLDD
R163‑m1 EDMEyALrkLDDtkF
K164‑ub DMEyALrkLDDtkFr
T168‑p ALrkLDDtkFrSHEG
K169‑ub LrkLDDtkFrSHEGE
R171‑m1 kLDDtkFrSHEGETs
S178‑p rSHEGETsyIrVYPE
Y179‑p SHEGETsyIrVYPER
R181‑m1 EGETsyIrVYPERst
S187‑p IrVYPERstsyGysr
T188‑p rVYPERstsyGysrs
S189‑p VYPERstsyGysrsR
Y190‑p YPERstsyGysrsRs
Y192‑p ERstsyGysrsRsGs
S193‑p RstsyGysrsRsGsR
R194‑m1 stsyGysrsRsGsRG
S195‑p tsyGysrsRsGsRGR
S197‑p yGysrsRsGsRGRDs
S199‑p ysrsRsGsRGRDsPy
S204‑p sGsRGRDsPyQsrGs
Y206‑p sRGRDsPyQsrGsPH
S208‑p GRDsPyQsrGsPHyF
R209‑m1 RDsPyQsrGsPHyFs
S211‑p sPyQsrGsPHyFsPF
Y214‑p QsrGsPHyFsPFRPy
S216‑p rGsPHyFsPFRPy__
Y221‑p yFsPFRPy_______
  rat

 
S2 ______MSGWADERG
- gap
R8 MSGWADERGGEGDGR
Y17 GEGDGRIYVGNLPTD
K28 LPTDVREKDLEDLFY
Y35 KDLEDLFYKYGRIRE
K36 DLEDLFYKYGRIREI
K36 DLEDLFYKYGRIREI
K46 RIREIELKNRHGLVP
R63 FVRFEDPRDAEDAIY
Y70 RDAEDAIYGRNGYDY
Y75 AIYGRNGYDYGQCRL
R88 RLRVEFPRAYGGRGG
R93 FPRAYGGRGGWPRAS
R98 GGRGGWPRASRNGPP
R101 GGWPRASRNGPPTRR
K128 SGSWQDLKDHMREAG
R132 QDLKDHMREAGDVCY
Y139 REAGDVCYADVQKDG
K144 VCYADVQKDGMGMVE
Y152 DGMGMVEYLRKEDME
R154 MGMVEYLRKEDMEYA
K155 GMVEYLRKEDMEYAL
Y160 LRKEDMEYALRKLDD
R163 EDMEYALRKLDDTKF
K164 DMEYALRKLDDTKFR
T168 ALRKLDDTKFRSHEG
K169 LRKLDDTKFRSHEGE
R171 KLDDTKFRSHEGETS
S178 RSHEGETSYIRVYPE
Y179 SHEGETSYIRVYPER
R181 EGETSYIRVYPERGT
G187 IRVYPERGTSYGCSR
T188 RVYPERGTSYGCSRS
S189 VYPERGTSYGCSRSR
Y190 YPERGTSYGCSRSRS
C192 ERGTSYGCSRSRSGS
S193 RGTSYGCSRSRSGSR
R194 GTSYGCSRSRSGSRG
S195 TSYGCSRSRSGSRGR
S197 YGCSRSRSGSRGRDs
S199 CSRSRSGSRGRDsPY
S204‑p SGSRGRDsPYQSRGs
Y206 SRGRDsPYQSRGsPH
S208 GRDsPYQSRGsPHYF
R209 RDsPYQSRGsPHYFs
S211‑p sPYQSRGsPHYFsPF
Y214 QSRGsPHYFsPFRPY
S216‑p RGsPHYFsPFRPY__
Y221 YFsPFRPY_______