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

 
3 0   S3 _____MPSAKQRGSK
0 1   S9 PSAKQRGSKGGHGAA
3 11   S17‑p KGGHGAAsPSDKGAH
3 0   S19 GHGAAsPSDKGAHPs
0 6   K21 GAAsPSDKGAHPsGG
0 12   S26‑p SDKGAHPsGGADDVA
0 1   R60‑m1 HPQNQAHrGGHrGRS
0 1   R64‑m1 QAHrGGHrGRSSAAT
0 1   - gap
0 1   S80 NASSASCSRRLGRVL
0 1   G119 EVQQVRRGHQDFSRQ
0 1   S124 RRGHQDFSRQRDELG
0 1   K167 HKQDLTEKAVKEGES
0 1   S174 KAVKEGESELNRISE
0 1   N177 KEGESELNRISEVLQ
0 1   K185 RISEVLQKLQNEILK
0 2   K192 KLQNEILKDLSDGIH
0 2   K202 SDGIHVVKDARERDF
0 1   K202 SDGIHVVKDARERDF
0 3   T210‑p DARERDFtsLENTVE
0 6   S211‑p ARERDFtsLENTVEE
0 2   T215 DFtsLENTVEERLTE
0 1   K243 DVQKRSQKEINEVKM
0 1   K249 QKEINEVKMKVASLE
0 2   R262 LEESKGDRSQDVKTL
0 1   K267 GDRSQDVKTLKDAVK
0 2   M281 KEVQASMMSRERDIE
0 1   S292 RDIEALKSSLQTMES
0 1   S293 DIEALKSSLQTMESD
0 2   T296 ALKSSLQTMESDVYT
0 9   Y302 QTMESDVYTEVRELV
0 1   T303 TMESDVYTEVRELVS
0 1   S310 TEVRELVSLKQEQQA
0 1   K312 VRELVSLKQEQQAFK
0 4   K335 ALQALTEKLLRSEES
0 15   S367‑p LKVGAHGsEEGAVFK
0 1   Q385 ALEELQRQIEGLGAR
0 1   S407 VYSMQVASARHTESL
0 1   S416 RHTESLESLLSKSQE
0 8   S440 EHVGNLGSSSDLAST
0 2   S441 HVGNLGSSSDLASTV
0 1   K466 SSDLKELKQSLGELP
0 1   K466 SSDLKELKQSLGELP
0 1   S468 DLKELKQSLGELPGT
0 1   S485 SLQEQVLSLLSQDQA
0 1   S488 EQVLSLLSQDQAQAE
0 1   S507 QDFLDRLSSLDNLKS
0 1   S508 DFLDRLSSLDNLKSS
0 1   K513 LSSLDNLKSSVSQVE
0 1   K524 SQVESDLKMLRTAVD
0 1   K524 SQVESDLKMLRTAVD
0 1   Y536 AVDSLVAYSVKIETN
0 1   S549 TNENNLESAKGLLDD
0 1   K551 ENNLESAKGLLDDLR
0 1   R563 DLRNDLDRLFLKVEK
  human

 
S3‑p _____MPsAKQRGsK
S9‑p PsAKQRGsKGGHGAA
S17‑p KGGHGAAsPsEkGAH
S19‑p GHGAAsPsEkGAHPs
K21‑ub GAAsPsEkGAHPsGG
S26‑p sEkGAHPsGGADDVA
K66 PQNQAHGKGGHRGGG
R70 AHGKGGHRGGGGGGG
K78‑ub GGGGGGGkSSSSSSA
S101‑p ASSSASCsRRLGRAL
S140‑p EVQQVRRsHQDFsRQ
S145‑p RRsHQDFsRQREELG
K188‑ub HKQDLTEkAVKQGEs
S195‑p kAVKQGEsEVsRISE
S198‑p KQGEsEVsRISEVLQ
K206‑ub RISEVLQkLQNEILk
K213‑ub kLQNEILkDLSDGIH
K223‑ub SDGIHVVkDARERDF
K223‑sc SDGIHVVkDARERDF
T231‑p DARERDFtsLENtVE
S232‑p ARERDFtsLENtVEE
T236‑p DFtsLENtVEERLTE
K264‑m1 EVQKRSQkEINDMkA
K270‑ac QkEINDMkAKVASLE
K283‑ub LEESEGNkQDLkALK
K287‑ub EGNkQDLkALKEAVK
K301‑ub KEIQTSAkSREWDME
S312‑p WDMEALRstLQtMES
T313‑p DMEALRstLQtMESD
T316‑p ALRstLQtMESDIyt
Y322‑p QtMESDIytEVRELV
T323‑p tMESDIytEVRELVs
S330‑p tEVRELVsLkQEQQA
K332‑ac VRELVsLkQEQQAFK
K355‑ub ALQALTEkLLRSEES
P387 LKSDSHGPKEDGGFR
K405‑ub AFEALQQkSQGLDSR
S427‑p VLSMQVAsARQTESL
S436‑p RQTESLEsLLSKSQE
S460‑p GRLEGLGssEADQDG
S461‑p RLEGLGssEADQDGL
K490‑ac YGDVEELkRsVGELP
K490‑ub YGDVEELkRsVGELP
S492‑p DVEELkRsVGELPST
T512‑ga KVQEQVHtLLsQDQA
S515‑p EQVHtLLsQDQAQAA
S534‑p QDFLDRLssLDNLkA
S535‑p DFLDRLssLDNLkAS
K540‑ub LssLDNLkASVSQVE
K551‑ub SQVEADLkMLRTAVD
K551‑m3 SQVEADLkMLRTAVD
Y563‑p AVDSLVAySVKIETN
S576‑p TNENNLEsAkGLLDD
K578‑ub ENNLEsAkGLLDDLR
R590‑m1 DLRNDLDrLFVKVEK
  rat

 
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
R13 LEESKGDRSQDVKVL
K18 GDRSQDVKVLKEAVK
K32 KEVQASMKSRERDIE
S43 RDIEALKSSLQTMES
S44 DIEALKSSLQTMESD
T47 ALKSSLQTMESDVYT
Y53 QTMESDVYTEVRELV
T54 TMESDVYTEVRELVS
S61 TEVRELVSLKQEQQA
K63 VRELVSLKQEQQAFK
K86 ALQALTEKLLQSEES
S118‑p LKVGAHGsEEAVVFR
Q136 AFDELQKQMEGLGAR
S158 VYSMQVASASHTESL
S167 SHTESLESLLSKSQE
P191 EHVESLGPISDLAST
I192 HVESLGPISDLASTV
K217 SSDLKGLKQGLGELP
K217 SSDLKGLKQGLGELP
G219 DLKGLKQGLGELPGT
L236 SLQEQVHLLLSQDPA
S239 EQVHLLLSQDPAQAA
S258 QDFLDRLSSLDNLKS
S259 DFLDRLSSLDNLKSS
K264 LSSLDNLKSSVSQVE
K275 SQVESDLKMLRTAVD
K275 SQVESDLKMLRTAVD
Y287 AVDSLVAYSVKIETN
S300 TNENSLESAKGLLDD
K302 ENSLESAKGLLDDLR
R314 DLRNDLDRLFVKVEK