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 1   A2 ______MADSRDPAs
0 1   S4 ____MADSRDPAsDQ
0 1   S9‑p ADSRDPAsDQMQHWk
0 2   Q13 DPAsDQMQHWkEQRA
0 1   Q13 DPAsDQMQHWkEQRA
0 1   Q13 DPAsDQMQHWkEQRA
0 1   K16 sDQMQHWKEQRAAQk
0 1   K16‑ub sDQMQHWkEQRAAQk
0 9   A21 HWkEQRAAQkADVLT
0 1   K23 kEQRAAQKADVLTTG
0 3   K23‑ub kEQRAAQkADVLTTG
0 3   K38‑ac AGNPVGDkLNVITVG
0 4   K38‑ub AGNPVGDkLNVITVG
0 1   K38 AGNPVGDKLNVITVG
0 1   T43 GDkLNVITVGPrGPL
0 2   R47‑m1 NVITVGPrGPLLVQD
0 1   K77‑ub PERVVHAkGAGAFGy
0 133   Y84‑p kGAGAFGyFEVTHDI
0 1   K93‑ac EVTHDITkYSKAkVF
0 1   K98 ITkYSKAKVFEHIGk
0 5   K98‑ub ITkYSKAkVFEHIGk
0 15   K105 kVFEHIGKKtPIAVR
0 2   K105‑ub kVFEHIGkKtPIAVR
0 1   K105 kVFEHIGKKtPIAVR
0 1   T107‑p FEHIGkKtPIAVRFs
0 1   S114‑gl tPIAVRFstVAGESG
0 1   T115‑p PIAVRFstVAGESGS
0 1   S122 tVAGESGSADTVRDP
0 1   T150‑p WDLVGNNtPIFFIRD
1 1   S167‑p LFPSFIHsQKRNPQT
0 4   K169 PSFIHsQKRNPQTHL
0 1   K169 PSFIHsQKRNPQTHL
0 2   K169 PSFIHsQKRNPQTHL
0 1   K221 GYGSHTFKLVNANGE
0 1   K221 GYGSHTFKLVNANGE
2 318   Y231‑p NANGEAVyCkFHYkT
0 1   K233‑ac NGEAVyCkFHYkTDQ
0 1   K233‑ub NGEAVyCkFHYkTDQ
0 1   K233 NGEAVyCKFHYkTDQ
0 3   K237‑ac VyCkFHYkTDQGIkN
0 3   K237‑ub VyCkFHYkTDQGIkN
0 2   K237 VyCkFHYKTDQGIkN
0 3   K243 YkTDQGIKNLSVEDA
0 7   K243‑ub YkTDQGIkNLSVEDA
0 2   K243 YkTDQGIKNLSVEDA
0 1   S254‑gl VEDAARLsQEDPDyG
0 1   Y260‑p LsQEDPDyGIRDLFN
0 1   T291 MTFNQAETFPFNPFD
0 1   K301 FNPFDLTKVWPHkDy
0 6   K306 LTKVWPHKDyPLIPV
0 2   K306‑ub LTKVWPHkDyPLIPV
0 2   K306 LTKVWPHKDyPLIPV
0 1   Y308‑p KVWPHkDyPLIPVGk
0 1   K315 yPLIPVGKLVLNRNP
0 2   K315‑ub yPLIPVGkLVLNRNP
0 1   K315 yPLIPVGKLVLNRNP
0 1   K349 GIEASPDKMLQGRLF
0 4   Y358‑p LQGRLFAyPDTHRHR
0 1   Y370‑p RHRLGPNyLHIPVNC
0 12   Y379‑p HIPVNCPyRARVANy
2 0   Y386‑p yRARVANyQRDGPMC
0 1   Y404 NQGGAPNYYPNSFGA
0 1   Y405 QGGAPNYYPNSFGAP
0 1   S408 APNYYPNSFGAPEQQ
0 2   S417 GAPEQQPSALEHsIQ
0 6   S422‑p QPSALEHsIQySGEV
0 1   Y425‑p ALEHsIQySGEVRRF
0 32   R430 IQySGEVRRFNTAND
0 1   R430 IQySGEVRRFNTAND
0 1   R430 IQySGEVRRFNTAND
0 6   T434 GEVRRFNTANDDNVT
0 1   T441 TANDDNVTQVRAFyV
0 1   Y447‑p VTQVRAFyVNVLNEE
0 1   V448 TQVRAFyVNVLNEEQ
0 4   N449 QVRAFyVNVLNEEQR
0 1   N449 QVRAFyVNVLNEEQR
0 2   N449 QVRAFyVNVLNEEQR
0 10   K457 VLNEEQRKRLCENIA
0 1   K457 VLNEEQRKRLCENIA
0 1   K468‑ac ENIAGHLkDAQIFIQ
0 3   K468‑ub ENIAGHLkDAQIFIQ
0 1   K468 ENIAGHLKDAQIFIQ
0 24   K476‑ac DAQIFIQkKAVkNFT
0 1   K476 DAQIFIQKKAVkNFT
0 2   K476 DAQIFIQKKAVkNFT
0 5   K477 AQIFIQkKAVkNFTE
0 1   K477 AQIFIQkKAVkNFTE
0 4   K480‑ac FIQkKAVkNFTEVHP
0 3   K480‑ub FIQkKAVkNFTEVHP
0 2   K480 FIQkKAVKNFTEVHP
0 1   Y489 FTEVHPDYGSHIQAL
0 3   K499 HIQALLDKYNAEKPK
0 2   K499‑ub HIQALLDkYNAEKPK
0 2   K499 HIQALLDKYNAEKPK
0 1   Y500 IQALLDkYNAEKPKN
0 1   K504 LDkYNAEKPKNAIHt
0 1   K504 LDkYNAEKPKNAIHt
0 10   T511‑p KPKNAIHtFVQsGsH
0 6   F512 PKNAIHtFVQsGsHL
0 3   V513 KNAIHtFVQsGsHLA
0 10   S515‑p AIHtFVQsGsHLAAR
0 15   S517‑p HtFVQsGsHLAAREK
0 5   R522 sGsHLAAREKANL__
0 1   R522 sGsHLAAREKANL__
  mouse

 
S2‑p ______MsDsRDPAS
S4‑p ____MsDsRDPASDQ
S9 sDsRDPASDQMkQWK
K13‑ac DPASDQMkQWKEQRA
K13‑ub DPASDQMkQWKEQRA
K13‑sc DPASDQMkQWKEQRA
K16 SDQMkQWKEQRAsQR
K16 SDQMkQWKEQRAsQR
S21‑p QWKEQRAsQRPDVLT
R23 KEQRAsQRPDVLTTG
R23 KEQRAsQRPDVLTTG
K38‑ac GGNPIGDkLNIMtAG
K38‑ub GGNPIGDkLNIMtAG
K38‑sc GGNPIGDkLNIMtAG
T43‑p GDkLNIMtAGSRGPL
R47 NIMtAGSRGPLLVQD
K77 PERVVHAKGAGAFGy
Y84‑p KGAGAFGyFEVTHDI
R93 EVTHDITRYSKAkVF
K98 ITRYSKAKVFEHIGk
K98‑ub ITRYSKAkVFEHIGk
K105‑ac kVFEHIGkRTPIAVR
K105‑ub kVFEHIGkRTPIAVR
K105‑sc kVFEHIGkRTPIAVR
T107 FEHIGkRTPIAVRFS
S114 TPIAVRFSTVTGESG
T115 PIAVRFSTVTGESGs
S122‑p TVTGESGsADTVRDP
T150 WDLVGNNTPIFFIRD
S167 LFPSFIHSQkRNPQT
K169‑ac PSFIHSQkRNPQTHL
K169‑ub PSFIHSQkRNPQTHL
K169‑sc PSFIHSQkRNPQTHL
K221‑ac GYGSHTFkLVNADGE
K221‑ub GYGSHTFkLVNADGE
Y231‑p NADGEAVyCkFHYkT
K233 DGEAVyCKFHYkTDQ
K233 DGEAVyCKFHYkTDQ
K233‑sc DGEAVyCkFHYkTDQ
K237‑ac VyCkFHYkTDQGIkN
K237‑ub VyCkFHYkTDQGIkN
K237‑sc VyCkFHYkTDQGIkN
K243‑ac YkTDQGIkNLPVGEA
K243‑ub YkTDQGIkNLPVGEA
K243‑sc YkTDQGIkNLPVGEA
A254 VGEAGRLAQEDPDYG
Y260 LAQEDPDYGLRDLFN
T291‑p MTFKEAEtFPFNPFD
K301‑ub FNPFDLTkVWPHkDY
K306‑ac LTkVWPHkDYPLIPV
K306‑ub LTkVWPHkDYPLIPV
K306‑sc LTkVWPHkDYPLIPV
Y308 kVWPHkDYPLIPVGk
K315 YPLIPVGKLVLNKNP
K315‑ub YPLIPVGkLVLNKNP
K315‑sc YPLIPVGkLVLNKNP
K349‑ub GIEPSPDkMLQGRLF
Y358‑p LQGRLFAyPDTHRHR
Y370 RHRLGPNYLQIPVNC
Y379‑p QIPVNCPyRARVANy
Y386‑p yRARVANyQRDGPMC
Y404‑p NQGGAPNyyPNsFSA
Y405‑p QGGAPNyyPNsFSAP
S408‑p APNyyPNsFSAPEQQ
S417‑p SAPEQQRsALEHsVQ
S422‑p QRsALEHsVQCAVDV
C425 ALEHsVQCAVDVkRF
K430‑ac VQCAVDVkRFNsANE
K430‑ub VQCAVDVkRFNsANE
K430‑sc VQCAVDVkRFNsANE
S434‑p VDVkRFNsANEDNVt
T441‑p sANEDNVtQVRTFYt
Y447 VtQVRTFYtkVLNEE
T448‑p tQVRTFYtkVLNEEE
K449‑ac QVRTFYtkVLNEEER
K449‑ub QVRTFYtkVLNEEER
K449‑sc QVRTFYtkVLNEEER
K457‑ac VLNEEERkRLCENIA
K457‑sc VLNEEERkRLCENIA
K468 ENIAGHLKDAQLFIQ
K468‑ub ENIAGHLkDAQLFIQ
K468‑sc ENIAGHLkDAQLFIQ
K476‑ac DAQLFIQkkAVkNFT
K476‑ub DAQLFIQkkAVkNFT
K476‑sc DAQLFIQkkAVkNFT
K477‑ac AQLFIQkkAVkNFTD
K477‑sc AQLFIQkkAVkNFTD
K480‑ac FIQkkAVkNFTDVHP
K480‑ub FIQkkAVkNFTDVHP
K480‑sc FIQkkAVkNFTDVHP
Y489‑p FTDVHPDyGARIQAL
K499‑ac RIQALLDkyNAEkPK
K499‑ub RIQALLDkyNAEkPK
K499‑sc RIQALLDkyNAEkPK
Y500‑p IQALLDkyNAEkPKN
K504 LDkyNAEKPKNAIHt
K504‑sc LDkyNAEkPKNAIHt
T511‑p kPKNAIHtytQAGsH
Y512‑p PKNAIHtytQAGsHM
T513‑p KNAIHtytQAGsHMA
A515 AIHtytQAGsHMAAk
S517‑p HtytQAGsHMAAkGK
K522‑ac AGsHMAAkGKANL__
K522‑sc AGsHMAAkGKANL__
  rat

 
A2 ______MADSRDPAS
S4 ____MADSRDPASDQ
S9 ADSRDPASDQMkQWk
K13‑ac DPASDQMkQWkEQRA
K13 DPASDQMKQWkEQRA
K13 DPASDQMKQWkEQRA
K16‑ac SDQMkQWkEQRAPQk
K16 SDQMkQWKEQRAPQk
P21 QWkEQRAPQkPDVLT
K23‑ac kEQRAPQkPDVLTTG
K23 kEQRAPQKPDVLTTG
K38‑ac GGNPIGDkLNIMTAG
K38 GGNPIGDKLNIMTAG
K38 GGNPIGDKLNIMTAG
T43 GDkLNIMTAGPRGPL
R47 NIMTAGPRGPLLVQD
K77 PERVVHAKGAGAFGy
Y84‑p KGAGAFGyFEVTHDI
R93 EVTHDITRYSKAkVF
K98‑ac ITRYSKAkVFEHIGk
K98 ITRYSKAKVFEHIGk
K105‑ac kVFEHIGkRTPIAVR
K105 kVFEHIGKRTPIAVR
K105 kVFEHIGKRTPIAVR
T107 FEHIGkRTPIAVRFS
S114 TPIAVRFSTVAGESG
T115 PIAVRFSTVAGESGS
S122 TVAGESGSADTVRDP
T150 WDLVGNNTPIFFIRD
S167 LFPSFIHSQkRNPQT
K169‑ac PSFIHSQkRNPQTHL
K169 PSFIHSQKRNPQTHL
K169 PSFIHSQKRNPQTHL
K221 GYGSHTFKLVNANGE
K221 GYGSHTFKLVNANGE
Y231‑p NANGEAVyCKFHYkT
K233 NGEAVyCKFHYkTDQ
K233 NGEAVyCKFHYkTDQ
K233 NGEAVyCKFHYkTDQ
K237‑ac VyCKFHYkTDQGIkN
K237 VyCKFHYKTDQGIkN
K237 VyCKFHYKTDQGIkN
K243‑ac YkTDQGIkNLPVEEA
K243 YkTDQGIKNLPVEEA
K243 YkTDQGIKNLPVEEA
A254 VEEAGRLAQEDPDYG
Y260 LAQEDPDYGLRDLFN
T291 MTFKEAETFPFNPFD
K301 FNPFDLTKVWPHkDY
K306‑ac LTKVWPHkDYPLIPV
K306 LTKVWPHKDYPLIPV
K306 LTKVWPHKDYPLIPV
Y308 KVWPHkDYPLIPVGk
K315‑ac YPLIPVGkLVLNRNP
K315 YPLIPVGKLVLNRNP
K315 YPLIPVGKLVLNRNP
K349 GIEPSPDKMLQGRLF
Y358 LQGRLFAYPDTHRHR
Y370 RHRLGPNYLQIPVNC
Y379 QIPVNCPYRARVANY
Y386 YRARVANYQRDGPMC
Y404 NQGGAPNYYPNSFSA
Y405 QGGAPNYYPNSFSAP
S408 APNYYPNSFSAPEQQ
S417 SAPEQQGSALEHHSQ
H422 QGSALEHHSQCSADV
C425 ALEHHSQCSADVKRF
K430 SQCSADVKRFNsANE
K430 SQCSADVKRFNsANE
K430 SQCSADVKRFNsANE
S434‑p ADVKRFNsANEDNVT
T441 sANEDNVTQVRTFYT
Y447 VTQVRTFYTkVLNEE
T448 TQVRTFYTkVLNEEE
K449‑ac QVRTFYTkVLNEEER
K449 QVRTFYTKVLNEEER
K449 QVRTFYTKVLNEEER
K457‑ac VLNEEERkRLCENIA
K457 VLNEEERKRLCENIA
K468 ENIANHLKDAQLFIQ
K468 ENIANHLKDAQLFIQ
K468 ENIANHLKDAQLFIQ
R476 DAQLFIQRKAVkNFT
R476 DAQLFIQRKAVkNFT
R476 DAQLFIQRKAVkNFT
K477 AQLFIQRKAVkNFTD
K477 AQLFIQRKAVkNFTD
K480‑ac FIQRKAVkNFTDVHP
K480 FIQRKAVKNFTDVHP
K480 FIQRKAVKNFTDVHP
Y489 FTDVHPDYGARVQAL
Q499 RVQALLDQYNSQkPK
Q499 RVQALLDQYNSQkPK
Q499 RVQALLDQYNSQkPK
Y500 VQALLDQYNSQkPKN
K504‑ac LDQYNSQkPKNAIHT
K504 LDQYNSQKPKNAIHT
T511 kPKNAIHTYVQAGsH
Y512 PKNAIHTYVQAGsHI
V513 KNAIHTYVQAGsHIA
A515 AIHTYVQAGsHIAAK
S517‑p HTYVQAGsHIAAKGK
K522 AGsHIAAKGKANL__
K522 AGsHIAAKGKANL__
  pig

 
A2 ______MADNRDPAS
N4 ____MADNRDPASDQ
S9 ADNRDPASDQMKHWK
K13 DPASDQMKHWKEQRA
K13 DPASDQMKHWKEQRA
K13 DPASDQMKHWKEQRA
K16 SDQMKHWKEQRAAQK
K16 SDQMKHWKEQRAAQK
A21 HWKEQRAAQKPDILT
K23 KEQRAAQKPDILTTG
K23 KEQRAAQKPDILTTG
K38 SGNPIGDKLNILTAG
K38 SGNPIGDKLNILTAG
K38 SGNPIGDKLNILTAG
T43 GDKLNILTAGPRGPL
R47 NILTAGPRGPLLVQD
K77 PERVVHAKGAGAFGY
Y84 KGAGAFGYFEVTHDI
R93 EVTHDITRFSKAKVF
K98 ITRFSKAKVFEHVGK
K98 ITRFSKAKVFEHVGK
K105 KVFEHVGKRTPIAVR
K105 KVFEHVGKRTPIAVR
K105 KVFEHVGKRTPIAVR
T107 FEHVGKRTPIAVRFS
S114 TPIAVRFSTVAGESG
T115 PIAVRFSTVAGESGS
S122 TVAGESGSADTVRDP
T150 WDLVGNNTPIFFIRD
S167 LFPSFIHSQKRNPQT
K169 PSFIHSQKRNPQTHL
K169 PSFIHSQKRNPQTHL
K169 PSFIHSQKRNPQTHL
K221 GYGSHTFKLVNEKGE
K221 GYGSHTFKLVNEKGE
Y231 NEKGEAVYCKFHYKT
K233 KGEAVYCKFHYKTDQ
K233 KGEAVYCKFHYKTDQ
K233 KGEAVYCKFHYKTDQ
K237 VYCKFHYKTDQGIKN
K237 VYCKFHYKTDQGIKN
K237 VYCKFHYKTDQGIKN
K243 YKTDQGIKNLSVEDA
K243 YKTDQGIKNLSVEDA
K243 YKTDQGIKNLSVEDA
P254 VEDAARLPQEDPDYG
Y260 LPQEDPDYGIRDLFN
A291 MTFQEAEAFPFNPFD
K301 FNPFDLTKVWPHSEY
S306 LTKVWPHSEYPLIPV
S306 LTKVWPHSEYPLIPV
S306 LTKVWPHSEYPLIPV
Y308 KVWPHSEYPLIPVGK
K315 YPLIPVGKLVLNRNP
K315 YPLIPVGKLVLNRNP
K315 YPLIPVGKLVLNRNP
K349 GIEPSPDKMLQGRLF
Y358 LQGRLFGYPDTHRHR
Y370 RHRLGANYLQIPVNC
F379 QIPVNCPFRARVANY
Y386 FRARVANYQRDGPMC
Y404 NQGGAPNYYPNSFSA
Y405 QGGAPNYYPNSFSAP
S408 APNYYPNSFSAPEQT
S417 SAPEQTHSALEHCTR
C422 THSALEHCTRYSGDV
Y425 ALEHCTRYSGDVQRF
Q430 TRYSGDVQRFNSANE
Q430 TRYSGDVQRFNSANE
Q430 TRYSGDVQRFNSANE
S434 GDVQRFNSANEDNVT
T441 SANEDNVTQVRTFYL
Y447 VTQVRTFYLNVLNEE
L448 TQVRTFYLNVLNEEE
N449 QVRTFYLNVLNEEER
N449 QVRTFYLNVLNEEER
N449 QVRTFYLNVLNEEER
K457 VLNEEERKRLCENIA
K457 VLNEEERKRLCENIA
K468 ENIAGHLKDAQLFIQ
K468 ENIAGHLKDAQLFIQ
K468 ENIAGHLKDAQLFIQ
K476 DAQLFIQKKAVKNFS
K476 DAQLFIQKKAVKNFS
K476 DAQLFIQKKAVKNFS
K477 AQLFIQKKAVKNFSD
K477 AQLFIQKKAVKNFSD
K480 FIQKKAVKNFSDVHP
K480 FIQKKAVKNFSDVHP
K480 FIQKKAVKNFSDVHP
Y489 FSDVHPDYGARIQAL
K499 RIQALLDKYNAEXPE
K499 RIQALLDKYNAEXPE
K499 RIQALLDKYNAEXPE
Y500 IQALLDKYNAEXPEN
X504 LDKYNAEXPENAVHT
X504 LDKYNAEXPENAVHT
T511 XPENAVHTYVQAGSH
Y512 PENAVHTYVQAGSHL
V513 ENAVHTYVQAGSHLA
A515 AVHTYVQAGSHLAAR
S517 HTYVQAGSHLAAREK
R522 AGSHLAAREKANL__
R522 AGSHLAAREKANL__