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 2   S2‑p ______MsFtTRstF
0 1   T4‑p ____MsFtTRstFst
0 20   S7‑p _MsFtTRstFstNyr
0 3   - gap
0 12   T8‑p MsFtTRstFstNyrs
0 9   S10‑p FtTRstFstNyrsLG
0 3   T11‑p tTRstFstNyrsLGs
0 154   Y13‑p RstFstNyrsLGsVQ
0 13   R14‑m1 stFstNyrsLGsVQA
0 16   S15‑p tFstNyrsLGsVQAP
0 12   S18‑p tNyrsLGsVQAPsyG
0 2   A21 rsLGsVQAPsyGArP
0 8   S23‑p LGsVQAPsyGArPVs
0 76   Y24‑p GsVQAPsyGArPVss
0 16   R27‑m1 QAPsyGArPVssAAs
1 15   S30‑p syGArPVssAAsVyA
3 0   S30‑gl syGArPVssAAsVyA
1 21   S31‑p yGArPVssAAsVyAG
4 1   S31‑gl yGArPVssAAsVyAG
13 40   S34‑p rPVssAAsVyAGAGG
0 277   Y36‑p VssAAsVyAGAGGsG
0 16   S42‑p VyAGAGGsGsrIsVs
0 4   S44‑p AGAGGsGsrIsVsrs
0 18   R45‑m1 GAGGsGsrIsVsrst
0 2   R45‑m2 GAGGsGsrIsVsrst
0 3   S47‑p GGsGsrIsVsrstsF
1 6   S49‑p sGsrIsVsrstsFrG
3 0   S49‑gl sGsrIsVsrstsFrG
0 8   R50‑m1 GsrIsVsrstsFrGG
2 20   S51‑p srIsVsrstsFrGGM
0 9   T52‑p rIsVsrstsFrGGMG
16 25   S53‑p IsVsrstsFrGGMGs
0 32   R55‑m1 VsrstsFrGGMGsGG
0 1   R55‑m2 VsrstsFrGGMGsGG
0 3   G57 rstsFrGGMGsGGLA
0 25   S60‑p sFrGGMGsGGLAtGI
0 14   T65‑p MGsGGLAtGIAGGLA
0 3   K81‑ac MGGIQNEkETMQsLN
0 4   K81‑ub MGGIQNEkETMQsLN
0 1   K81‑sm MGGIQNEkETMQsLN
0 13   S86‑p NEkETMQsLNDrLAs
0 1   R90‑m1 TMQsLNDrLAsyLDr
0 8   S93‑p sLNDrLAsyLDrVRs
0 33   Y94‑p LNDrLAsyLDrVRsL
0 1   R97 rLAsyLDRVRsLETE
0 1   R97‑m1 rLAsyLDrVRsLETE
0 14   S100‑p syLDrVRsLETENRR
0 6   S110‑p TENRRLEskIREHLE
0 2   K111‑ac ENRRLEskIREHLEk
0 1   K118 kIREHLEKKGPQVRD
0 3   K118‑ub kIREHLEkKGPQVRD
0 3   S127‑p GPQVRDWsHyFkIIE
0 18   Y129‑p QVRDWsHyFkIIEDL
0 3   K131‑ac RDWsHyFkIIEDLRA
0 9   K131‑ub RDWsHyFkIIEDLRA
0 1   K131‑m1 RDWsHyFkIIEDLRA
0 3   T144 RAQIFANTVDNARIV
0 9   K167‑ac AADDFRVkyETELAM
0 5   K167‑ub AADDFRVkyETELAM
0 1   K167‑sm AADDFRVkyETELAM
0 1   K167‑m1 AADDFRVkyETELAM
0 37   Y168‑p ADDFRVkyETELAMR
0 7   S177‑p TELAMRQsVENDIHG
1 4   K187‑ac NDIHGLRkVIDDtNI
0 4   K187‑ub NDIHGLRkVIDDtNI
0 1   K187‑sm NDIHGLRkVIDDtNI
0 1   K187‑m1 NDIHGLRkVIDDtNI
0 1   K187‑sc NDIHGLRkVIDDtNI
0 3   T192‑p LRkVIDDtNItRLQL
0 4   T195‑p VIDDtNItRLQLEtE
0 2   T201‑p ItRLQLEtEIEALkE
0 1   K207 EtEIEALKEELLFMk
0 2   K207‑ub EtEIEALkEELLFMk
1 0   K207‑sm EtEIEALkEELLFMk
0 2   K214‑ac kEELLFMkkNHEEEV
0 1   K214‑ub kEELLFMkkNHEEEV
0 2   K215‑ub EELLFMkkNHEEEVk
0 1   K222‑ac kNHEEEVkGLQAQIA
0 1   S230‑p GLQAQIAsSGLTVEV
0 4   K241‑ub TVEVDAPksQDLAkI
0 11   S242‑p VEVDAPksQDLAkIM
0 5   K247‑ac PksQDLAkIMADIRA
0 9   K247‑ub PksQDLAkIMADIRA
0 1   K247‑sm PksQDLAkIMADIRA
0 1   K247‑sc PksQDLAkIMADIRA
0 46   Y256‑p MADIRAQyDELARkN
0 2   K262‑ub QyDELARkNREELDk
0 1   K269 kNREELDKyWsQQIE
0 1   K269‑sm kNREELDkyWsQQIE
0 2   Y270‑p NREELDkyWsQQIEE
0 1   S272‑p EELDkyWsQQIEEST
0 1   Q285 STTVVTTQSAEVGAA
0 6   T302‑p TLTELRRtVQsLEID
0 9   S305‑p ELRRtVQsLEIDLDs
0 3   S312‑p sLEIDLDsMRNLkAs
0 2   K317‑ac LDsMRNLkAsLENsL
0 6   K317‑ub LDsMRNLkAsLENsL
0 1   K317‑sm LDsMRNLkAsLENsL
0 1   K317‑sc LDsMRNLkAsLENsL
0 8   S319‑p sMRNLkAsLENsLRE
0 13   S323‑p LkAsLENsLREVEAR
0 2   Y331‑p LREVEARyALQMEQL
0 1   S347‑p GILLHLEsELAQTRA
0 6   Y363‑p GQRQAQEyEALLNIk
0 1   K370‑ac yEALLNIkVkLEAEI
0 3   K370‑ub yEALLNIkVkLEAEI
0 9   K372‑ac ALLNIkVkLEAEIAt
0 2   K372‑ub ALLNIkVkLEAEIAt
1 1   K372‑sm ALLNIkVkLEAEIAt
0 2   T379‑p kLEAEIAtyRRLLED
0 1   Y380‑p LEAEIAtyRRLLEDG
0 3   N391 LEDGEDFNLGDALDs
0 11   S398‑p NLGDALDssNsMQtI
0 11   S399‑p LGDALDssNsMQtIQ
0 11   S401‑p DALDssNsMQtIQkT
0 4   T404‑p DssNsMQtIQkTtTR
0 4   K407‑ub NsMQtIQkTtTRRIV
0 1   T409‑p MQtIQkTtTRRIVDG
0 4   K417‑ac TRRIVDGkVVsEtND
0 11   K417‑ub TRRIVDGkVVsEtND
0 1   K417‑sm TRRIVDGkVVsEtND
0 1   K417‑sc TRRIVDGkVVsEtND
0 11   S420‑p IVDGkVVsEtNDtkV
0 2   T422‑p DGkVVsEtNDtkVLR
0 2   T425‑p VVsEtNDtkVLRH__
0 4   K426‑ac VsEtNDtkVLRH___
0 20   K426‑ub VsEtNDtkVLRH___
0 2   K426‑sm VsEtNDtkVLRH___
0 1   K426‑m1 VsEtNDtkVLRH___
0 1   K426‑sc VsEtNDtkVLRH___
  mouse

 
S2 ______MSFTTRstt
T4 ____MSFTTRsttFs
S7‑p _MSFTTRsttFsTNy
T8‑p MSFTTRsttFsTNyR
T9‑p SFTTRsttFsTNyRS
S11‑p TTRsttFsTNyRSLG
T12 TRsttFsTNyRSLGS
Y14‑p sttFsTNyRSLGSVR
R15 ttFsTNyRSLGSVRt
S16 tFsTNyRSLGSVRtP
S19 TNyRSLGSVRtPSQR
T22‑p RSLGSVRtPSQRVrP
S24 LGSVRtPSQRVrPAs
Q25 GSVRtPSQRVrPAss
R28‑m1 RtPSQRVrPAssAAs
S31‑p SQRVrPAssAAsVyA
S31 SQRVrPASsAAsVyA
S32‑p QRVrPAssAAsVyAG
S32 QRVrPAsSAAsVyAG
S35‑p rPAssAAsVyAGAGG
Y37‑p AssAAsVyAGAGGsG
S43‑p VyAGAGGsGsrISVS
S45‑p AGAGGsGsrISVSRS
R46‑m1 GAGGsGsrISVSRSV
R46 GAGGsGsRISVSRSV
S48 GGsGsrISVSRSVWG
S50 sGsrISVSRSVWGGs
S50 sGsrISVSRSVWGGs
R51 GsrISVSRSVWGGsV
S52 srISVSRSVWGGsVG
V53 rISVSRSVWGGsVGs
- gap
G55 SVSRSVWGGsVGsAG
G55 SVSRSVWGGsVGsAG
S57‑p SRSVWGGsVGsAGLA
S60‑p VWGGsVGsAGLAGMG
- gap
K73 MGGIQTEKETMQDLN
K73 MGGIQTEKETMQDLN
K73 MGGIQTEKETMQDLN
D78 TEKETMQDLNDRLAs
R82 TMQDLNDRLAsYLDk
S85‑p DLNDRLAsYLDkVKS
Y86 LNDRLAsYLDkVKSL
K89‑ub RLAsYLDkVKSLETE
K89 RLAsYLDKVKSLETE
S92 sYLDkVKSLETENRR
S102‑p TENRRLEsKIREHLE
K103 ENRRLEsKIREHLEK
K110 KIREHLEKKGPQGVR
K110 KIREHLEKKGPQGVR
G120 PQGVRDWGHYFkIIE
Y122 GVRDWGHYFkIIEDL
K124 RDWGHYFKIIEDLRA
K124‑ub RDWGHYFkIIEDLRA
K124 RDWGHYFKIIEDLRA
S137‑p RAQIFANsVDNARIV
K160 AADDFRVKYETELAM
K160‑ub AADDFRVkYETELAM
K160 AADDFRVKYETELAM
K160 AADDFRVKYETELAM
Y161 ADDFRVkYETELAMR
S170‑p TELAMRQsVESDIHG
K180‑ac SDIHGLRkVVDDTNI
K180‑ub SDIHGLRkVVDDTNI
K180 SDIHGLRKVVDDTNI
K180 SDIHGLRKVVDDTNI
K180 SDIHGLRKVVDDTNI
T185 LRkVVDDTNITRLQL
T188 VVDDTNITRLQLETE
T194 ITRLQLETEIEALkE
K200‑ac ETEIEALkEELLFMK
K200 ETEIEALKEELLFMK
K200 ETEIEALKEELLFMK
K207 kEELLFMKKNHEEEV
K207 kEELLFMKKNHEEEV
K208 EELLFMKKNHEEEVQ
Q215 KNHEEEVQGLEAQIA
S223 GLEAQIASSGLTVEV
K234‑ub TVEVDAPksQDLSkI
S235‑p VEVDAPksQDLSkIM
K240‑ac PksQDLSkIMADIRA
K240‑ub PksQDLSkIMADIRA
K240 PksQDLSKIMADIRA
K240 PksQDLSKIMADIRA
Y249 MADIRAQYEALAQkN
K255‑ub QYEALAQkNREELDk
K262‑ub kNREELDkYWSQQIE
K262 kNREELDKYWSQQIE
Y263 NREELDkYWSQQIEE
S265 EELDkYWSQQIEEST
K278‑ub STTVVTTkSAEIRDA
T295 TLTELRRTLQTLEID
T298 ELRRTLQTLEIDLDS
S305 TLEIDLDSMKNQNIN
N310 LDSMKNQNINLENsL
N310 LDSMKNQNINLENsL
N310 LDSMKNQNINLENsL
N310 LDSMKNQNINLENsL
N312 SMKNQNINLENsLGD
S316‑p QNINLENsLGDVEAR
Y324 LGDVEARYKAQMEQL
S340 GVLLHLESELAQTRA
Y356 GQRQAQEYEALLNIk
K363 YEALLNIKVKLEAEI
K363‑ub YEALLNIkVKLEAEI
K365 ALLNIkVKLEAEIAT
K365 ALLNIkVKLEAEIAT
K365 ALLNIkVKLEAEIAT
T372 KLEAEIATYRRLLED
Y373 LEAEIATYRRLLEDG
S384‑p LEDGEDFsLNDALDs
S391‑p sLNDALDsSNsMQtV
S392 LNDALDsSNsMQtVQ
S394‑p DALDsSNsMQtVQkT
T397‑p DsSNsMQtVQkTTTR
K400‑ub NsMQtVQkTTTRKIV
T402 MQtVQkTTTRKIVDG
R410 TRKIVDGRVVsETND
R410 TRKIVDGRVVsETND
R410 TRKIVDGRVVsETND
R410 TRKIVDGRVVsETND
S413‑p IVDGRVVsETNDTRV
T415 DGRVVsETNDTRVLR
T418 VVsETNDTRVLRH__
R419 VsETNDTRVLRH___
R419 VsETNDTRVLRH___
R419 VsETNDTRVLRH___
R419 VsETNDTRVLRH___
R419 VsETNDTRVLRH___
  rat

 
S2 ______MSFTTRstT
T4 ____MSFTTRstTFS
S7‑p _MSFTTRstTFSTNY
T8‑p MSFTTRstTFSTNYR
T9 SFTTRstTFSTNYRS
S11 TTRstTFSTNYRSLG
T12 TRstTFSTNYRSLGs
Y14 stTFSTNYRSLGsVR
R15 tTFSTNYRSLGsVRT
S16 TFSTNYRSLGsVRTP
S19‑p TNYRSLGsVRTPSQR
T22 RSLGsVRTPSQRVRP
S24 LGsVRTPSQRVRPAs
Q25 GsVRTPSQRVRPAss
R28 RTPSQRVRPAssAAs
S31‑p SQRVRPAssAAsVyA
S31 SQRVRPASsAAsVyA
S32‑p QRVRPAssAAsVyAG
S32 QRVRPAsSAAsVyAG
S35‑p RPAssAAsVyAGAGG
Y37‑p AssAAsVyAGAGGsG
S43‑p VyAGAGGsGSRISVs
S45 AGAGGsGSRISVsRS
R46 GAGGsGSRISVsRSV
R46 GAGGsGSRISVsRSV
S48 GGsGSRISVsRSVWG
S50‑p sGSRISVsRSVWGGs
S50 sGSRISVSRSVWGGs
R51 GSRISVsRSVWGGsV
S52 SRISVsRSVWGGsVG
V53 RISVsRSVWGGsVGS
- gap
G55 SVsRSVWGGsVGSAG
G55 SVsRSVWGGsVGSAG
S57‑p sRSVWGGsVGSAGLA
S60 VWGGsVGSAGLAGMG
- gap
K73 MGGVQTEKETMQDLN
K73 MGGVQTEKETMQDLN
K73 MGGVQTEKETMQDLN
D78 TEKETMQDLNDRLAs
R82 TMQDLNDRLAsYLDK
S85‑p DLNDRLAsYLDKVKN
Y86 LNDRLAsYLDKVKNL
K89 RLAsYLDKVKNLETE
K89 RLAsYLDKVKNLETE
N92 sYLDKVKNLETENRR
S102 TENRRLESkIREYLE
K103‑ac ENRRLESkIREYLEk
K110‑ac kIREYLEkRGPQGVR
K110 kIREYLEKRGPQGVR
G120 PQGVRDWGHYFkTIE
Y122 GVRDWGHYFkTIEDL
K124‑ac RDWGHYFkTIEDLRA
K124 RDWGHYFKTIEDLRA
K124 RDWGHYFKTIEDLRA
S137‑p RAQIFANsVDNARIV
K160 AADDFRVKYETELAM
K160 AADDFRVKYETELAM
K160 AADDFRVKYETELAM
K160 AADDFRVKYETELAM
Y161 ADDFRVKYETELAMR
S170 TELAMRQSVESDIHG
K180‑ac SDIHGLRkVVDDtNI
K180 SDIHGLRKVVDDtNI
K180 SDIHGLRKVVDDtNI
K180 SDIHGLRKVVDDtNI
K180 SDIHGLRKVVDDtNI
T185‑p LRkVVDDtNITRLQL
T188 VVDDtNITRLQLETE
T194 ITRLQLETEIEALKE
K200 ETEIEALKEELLFMK
K200 ETEIEALKEELLFMK
K200 ETEIEALKEELLFMK
K207 KEELLFMKKNHEEEV
K207 KEELLFMKKNHEEEV
K208 EELLFMKKNHEEEVQ
Q215 KNHEEEVQGLEAQIA
S223 GLEAQIASSGLTVEV
K234 TVEVDAPKSQDLSkI
S235 VEVDAPKSQDLSkIM
K240‑ac PKSQDLSkIMADIRA
K240 PKSQDLSKIMADIRA
K240 PKSQDLSKIMADIRA
K240 PKSQDLSKIMADIRA
Y249 MADIRAQYEQLAQKN
K255 QYEQLAQKNREELDK
K262 KNREELDKYWSQQIE
K262 KNREELDKYWSQQIE
Y263 NREELDKYWSQQIEE
S265 EELDKYWSQQIEEST
K278 STTVVTTKSAEIRDA
T295 TLLELRRTLQTLEID
T298 ELRRTLQTLEIDLDS
S305 TLEIDLDSMKNQNIN
N310 LDSMKNQNINLENNL
N310 LDSMKNQNINLENNL
N310 LDSMKNQNINLENNL
N310 LDSMKNQNINLENNL
N312 SMKNQNINLENNLGE
N316 QNINLENNLGEVEAR
Y324 LGEVEARYRVQMEQL
S340 GVLLHLESELAQTRA
Y356 GQRQTQEYEALLNIK
K363 YEALLNIKVkLEAEI
K363 YEALLNIKVkLEAEI
K365‑ac ALLNIKVkLEAEIAT
K365 ALLNIKVKLEAEIAT
K365 ALLNIKVKLEAEIAT
T372 kLEAEIATYRRLLED
Y373 LEAEIATYRRLLEDG
S384‑p LEDGDDFsLNDALDS
S391 sLNDALDSsNSMQTV
S392‑p LNDALDSsNSMQTVQ
S394 DALDSsNSMQTVQRT
T397 DSsNSMQTVQRTTTR
R400 NSMQTVQRTTTRKVV
T402 MQTVQRTTTRKVVDG
K410‑ac TRKVVDGkVVSETND
K410 TRKVVDGKVVSETND
K410 TRKVVDGKVVSETND
K410 TRKVVDGKVVSETND
S413 VVDGkVVSETNDTRV
T415 DGkVVSETNDTRVLR
T418 VVSETNDTRVLRH__
R419 VSETNDTRVLRH___
R419 VSETNDTRVLRH___
R419 VSETNDTRVLRH___
R419 VSETNDTRVLRH___
R419 VSETNDTRVLRH___