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

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0 1   S31‑p PGGNLGLsPGGNGAA
0 1   K126‑ub KMLEYALkQERAKYH
0 6   Y137 AKYHKLKYGTELNQG
0 1   K147‑ub ELNQGDLkMPtFESE
0 3   T150‑p QGDLkMPtFESEETk
0 1   S153 LkMPtFESEETkDTE
0 1   K157‑ub tFESEETkDTEAPTA
0 4   S168‑p APTAPQNsQLtWkQG
0 21   T171‑p APQNsQLtWkQGRQL
0 5   K173‑ub QNsQLtWkQGRQLLR
0 15   S202‑p VRSQRVRsLLGLsNs
0 3   S207‑p VRsLLGLsNsEPNGs
0 3   S209‑p sLLGLsNsEPNGsVE
0 7   S214‑p sNsEPNGsVETKNLE
0 72   S229‑p QILNGGEsPKQKGQE
0 40   S257‑p FLENADDsDEDEEND
0 5   T293‑p EGLAADLtDDPDTEE
0 3   S335‑p EWDKDDLsPTAEVWD
0 1   Y374‑p RANRTKLyDMIADLG
0 1   S390‑p DELPHIPsGIINQSR
0 1   S421 AEPITFPSGGGKSFI
0 4   Y455‑p TVTNDADySyDLPAN
0 4   Y457‑p TNDADySyDLPANKD
0 1   K468‑ac ANKDAFRkTWNPKYt
0 1   Y474 RkTWNPKYtLRSHFD
0 1   T475‑p kTWNPKYtLRSHFDG
0 3   Y527‑p SLDVEPIyTFRAHIG
0 1   S603‑p GIKNQLLsCSADGTV
0 1   S689‑p NHINRVVsHPTLPVT
0 1   R703‑m1 TITAHEDrHIKFFDN
0 1   S718 KTGKMIHSMVAHLDA
0 1   T727 VAHLDAVTSLAVDPN
0 1   S728 AHLDAVTSLAVDPNG
  SG2NA iso2  
S31 PGGNLGLSPGGNGAA
K126 KMLEYALKQERAKYH
Y137 AKYHKLKYGTELNQG
K147 ELNQGDLKMPTFESE
T150 QGDLKMPTFESEETK
S153 LKMPTFESEETKDTE
K157 TFESEETKDTEAPTA
S168 APTAPQNSQLTWKQG
T171 APQNSQLTWKQGRQL
K173 QNSQLTWKQGRQLLR
S202 VRSQRVRSLLGLSNS
S207 VRSLLGLSNSEPNGS
S209 SLLGLSNSEPNGSVE
S214 SNSEPNGSVETKNLE
S229 QILNGGESPKQKGQE
S257 FLENADDSDEDEEND
T293 EGLAADLTDDPDTEE
- gap
- gap
- gap
S337‑p AEPITFPsGGGKSFI
Y371 TVTNDADYSYDLPAN
Y373 TNDADYSYDLPANKD
K384 ANKDAFRKTWNPKyT
Y390‑p RKTWNPKyTLRSHFD
T391 KTWNPKyTLRSHFDG
Y443 SLDVEPIYTFRAHIG
S519 GIKNQLLSCSADGTV
S605 NHINRVVSHPTLPVT
R619 TITAHEDRHIKFFDN
S634 KTGKMIHSMVAHLDA
T643 VAHLDAVTSLAVDPN
S644 AHLDAVTSLAVDPNG
  mouse

 
P31 PGGNLSLPPGANGAP
K126 KMLEYALKQERAKYH
Y137 AKYHKLKYGTELNQG
K147 ELNQGDLKMPtFEsE
T150‑p QGDLKMPtFEsEETK
S153‑p LKMPtFEsEETKDVE
K157 tFEsEETKDVEAPPA
S168 APPAPQNSQLtWkQG
T171‑p APQNSQLtWkQGRQL
K173‑ub QNSQLtWkQGRQLLR
S202‑p VRSQRVRsLLGLsNs
S207‑p VRsLLGLsNsEPNGs
S209‑p sLLGLsNsEPNGsVE
S214‑p sNsEPNGsVEAKNLE
S229‑p QILNGGEsPKQKGQE
S257‑p FLENADDsDEEENDM
T292‑p EGLAADLtDDPDTEE
S334‑p EWDKDDLsPTAEVWD
C373 RVNRTNLCDMITDLG
S389 DELPHIPSGIINQSR
S420 AEPITFPSGGGKSFI
Y454 TVTNDADYSYDLPAN
Y456 TNDADYSYDLPANKD
K467 ANKDAFRKTWNPKYT
Y473 RKTWNPKYTLRSHFD
T474 KTWNPKYTLRSHFDG
Y526‑p SLDVEPIyTFRAHIG
S602 GIKNQLLSCSADGTI
S688 NHINRVVSHPTLPVT
R702 TITAHEDRHIKFFDN
S717‑p KTGKMIHsMVAHLDA
T726‑p VAHLDAVtsLAVDPN
S727‑p AHLDAVtsLAVDPNG
  rat

 
P30 PGGNLSLPPGANGAP
K125 KMLEYALKQERAKYH
Y136‑p AKYHKLKyGTELNQG
K146 ELNQGDLKMPtFESE
T149‑p QGDLKMPtFESEETK
S152 LKMPtFESEETKDAE
K156 tFESEETKDAEAPPA
S166 EAPPAQNSQLTWKQG
T169 PAQNSQLTWKQGRQL
K171 QNSQLTWKQGRQLLR
S200 VRSQRVRSLLGLSNS
S205 VRSLLGLSNSEPNGS
S207 SLLGLSNSEPNGSIE
S212 SNSEPNGSIEAKNLE
S227‑p QILNGGEsPKQKGQE
S255‑p FLENADDsDEEENDM
T290 EGLAADLTDDPDTEE
S332‑p EWDKDDLsPTAEVWD
C371 RVNRTNLCDMITDLG
S387 DELPHIPSGIINQSR
S418 AEPITFPSGGGKSFI
Y452 TVTNDADYSYDLPAN
Y454 TNDADYSYDLPANKD
K465 ANKDALRKTWNPKYT
Y471 RKTWNPKYTLRSHFD
T472 KTWNPKYTLRSHFDG
Y524 SLDVEPIYTFRAHIG
S600 GIKNQLLSCSADGTI
S686 NHINRVVSHPTLPVT
R700 TITAHEDRHIKFFDN
S715 KTGKMIHSMVAHLDA
T724 VAHLDAVTSLAVDPN
S725 AHLDAVTSLAVDPNG