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 2   S20 PTDPDNLSDSLFsGD
0 1   S22 DPDNLSDSLFsGDEE
0 4   S25‑p NLSDSLFsGDEENAG
0 3   S46 EINGNWISASTINEA
0 3   K58 NEARINAKAKRRLRK
0 2   K60 ARINAKAKRRLRKNs
4 52   S67‑p KRRLRKNssRDsGRG
0 22   S68‑p RRLRKNssRDsGRGD
1 35   S71‑p RKNssRDsGRGDsVs
0 2   R73 NssRDsGRGDsVsDN
4 126   S76‑p RDsGRGDsVsDNGsE
0 29   S78‑p sGRGDsVsDNGsEAV
0 3   N80 RGDsVsDNGsEAVRS
1 5   S82‑p DsVsDNGsEAVRSGV
0 2   S87 NGsEAVRSGVAVPts
0 1   A90 EAVRSGVAVPtsPKG
0 34   T93‑p RSGVAVPtsPKGRLL
2 99   S94‑p SGVAVPtsPKGRLLD
0 1   K96 VAVPtsPKGRLLDRR
0 1   K121 KKGGAGGKGVWGTPG
0 3   T126 GGKGVWGTPGQVYDV
0 2   Y131 WGTPGQVYDVEEVDV
0 1   Y143 VDVKDPNYDDDQENC
0 15   Y152‑p DDQENCVyETVVLPL
0 4   K166 LDETAFEKTLTPIIQ
0 2   K212 VSLALEGKASHREMT
0 1   K238 MSTNDVEKSFDkLLk
0 6   K242‑ub DVEKSFDkLLkDLPE
0 7   K245‑ub KSFDkLLkDLPELAL
0 1   T254 LPELALDTPRAPQLV
0 1   R267 LVGQFIARAVGDGIL
0 9   K283 NTYIDSYKGTVDCVQ
0 2   K297‑ub QARAALDkATVLLSM
0 1   T299 RAALDkATVLLSMSk
0 2   S303 DkATVLLSMSkGGKR
0 2   K306‑ub TVLLSMSkGGKRKDs
0 1   K311 MSkGGKRKDsVWGsG
0 15   S313‑p kGGKRKDsVWGsGGG
0 9   S317‑p RKDsVWGsGGGQQPV
0 5   P323 GsGGGQQPVNHLVKE
0 2   S345 YLLSGDISEAEHCLK
0 2   K392 DLLKSLWKSSTITID
0 1   K402 TITIDQMKRGYERIY
0 1   Y405 IDQMKRGYERIYNEI
0 1   S440 CFQAGIISKQLRDLC
8 105   S457‑p RGRKRFVsEGDGGRL
0 1   K465 EGDGGRLKPEsY___
0 3   S468‑p GGRLKPEsY______
  human

► Hide Isoforms
 
S20‑p PADPDNLsDsLFsGD
S22‑p DPDNLsDsLFsGDEE
S25‑p NLsDsLFsGDEENAG
S46‑p EINGNWIsASSINEA
K58‑ub NEARINAkAkRRLRK
K60‑ub ARINAkAkRRLRKNs
S67‑p kRRLRKNssRDsGrG
S68‑p RRLRKNssRDsGrGD
S71‑p RKNssRDsGrGDsVs
R73‑m1 NssRDsGrGDsVsDs
S76‑p RDsGrGDsVsDsGsD
S78‑p sGrGDsVsDsGsDAL
S80‑p rGDsVsDsGsDALRs
S82‑p DsVsDsGsDALRsGL
S87‑p sGsDALRsGLtVPts
T90‑p DALRsGLtVPtsPkG
T93‑p RsGLtVPtsPkGRLL
S94‑p sGLtVPtsPkGRLLD
K96‑ub LtVPtsPkGRLLDRR
K121‑ub KKGGAGGkGVWGtPG
T126‑p GGkGVWGtPGQVyDV
Y131‑p WGtPGQVyDVEEVDV
Y143‑p VDVKDPNyDDDQENC
Y152‑p DDQENCVyETVVLPL
K166‑ub LDERAFEkTLTPIIQ
K212‑ub VSLALEGkASHREMT
K238‑ub MSTTDVEkSFDkLLk
K242‑ub DVEkSFDkLLkDLPE
K245‑ub kSFDkLLkDLPELAL
T254‑p LPELALDtPRAPQLV
R267‑m1 LVGQFIArAVGDGIL
K283‑ub NTYIDSYkGTVDCVQ
K297‑ub QARAALDkAtVLLsM
T299‑p RAALDkAtVLLsMSk
S303‑p DkAtVLLsMSkGGKR
K306‑ub tVLLsMSkGGKRkDs
K311‑ub MSkGGKRkDsVWGsG
S313‑p kGGKRkDsVWGsGGG
S317‑p RkDsVWGsGGGQQsV
S323‑p GsGGGQQsVNHLVKE
S345‑p YLLSGDIsEAEHCLK
K392‑ub DLLKSLWkSSTITVD
K402‑ub TITVDQMkRGyERIY
Y405‑p VDQMkRGyERIYNEI
S440‑p CFQAGIIsKQLRDLC
S457‑p RGRKRFVsEGDGGRL
K465‑sm EGDGGRLkPEsY___
S468‑p GGRLkPEsY______
  PDCD4 iso2  
S9 TKYPDNLSDSLFSGD
S11 YPDNLSDSLFSGDEE
S14 NLSDSLFSGDEENAG
S35 EINGNWISASSINEA
K47 NEARINAKAKRRLRK
K49 ARINAKAKRRLRKNS
S56 KRRLRKNSSRDSGRG
S57 RRLRKNSSRDSGRGD
S60 RKNSSRDSGRGDSVS
R62 NSSRDSGRGDSVSDS
S65 RDSGRGDSVSDSGSD
S67 SGRGDSVSDSGSDAL
S69 RGDSVSDSGSDALRS
S71 DSVSDSGSDALRSGL
S76 SGSDALRSGLTVPTS
T79 DALRSGLTVPTSPKG
T82 RSGLTVPTSPKGRLL
S83 SGLTVPTSPKGRLLD
K85 LTVPTSPKGRLLDRR
K110 KKGGAGGKGVWGTPG
T115 GGKGVWGTPGQVYDV
Y120 WGTPGQVYDVEEVDV
Y132 VDVKDPNYDDDQENC
Y141 DDQENCVYETVVLPL
K155 LDERAFEKTLTPIIQ
K201 VSLALEGKASHREMT
K227 MSTTDVEKSFDKLLK
K231 DVEKSFDKLLKDLPE
K234 KSFDKLLKDLPELAL
T243 LPELALDTPRAPQLV
R256 LVGQFIARAVGDGIL
K272 NTYIDSYKGTVDCVQ
K286 QARAALDKATVLLSM
T288 RAALDKATVLLSMSK
S292 DKATVLLSMSKGGKR
K295 TVLLSMSKGGKRKDS
K300 MSKGGKRKDSVWGSG
S302 KGGKRKDSVWGSGGG
S306 RKDSVWGSGGGQQSV
S312 GSGGGQQSVNHLVKE
S334 YLLSGDISEAEHCLK
K381 DLLKSLWKSSTITVD
K391 TITVDQMKRGYERIY
Y394 VDQMKRGYERIYNEI
S429 CFQAGIISKQLRDLC
S446 RGRKRFVSEGDGGRL
K454 EGDGGRLKPESY___
S457 GGRLKPESY______
  rat

 
S20 PTDPDNLSDSLFsGD
S22 DPDNLSDSLFsGDEE
S25‑p NLSDSLFsGDEENAG
S46 EINGNWISASTINEA
K58 NEARINAKAKRRLRK
K60 ARINAKAKRRLRKNs
S67‑p KRRLRKNsSRDSGRG
S68 RRLRKNsSRDSGRGD
S71 RKNsSRDSGRGDsVS
R73 NsSRDSGRGDsVSDN
S76‑p RDSGRGDsVSDNGSE
S78 SGRGDsVSDNGSEAV
N80 RGDsVSDNGSEAVRS
S82 DsVSDNGSEAVRSGV
S87 NGSEAVRSGVAVPts
A90 EAVRSGVAVPtsPKG
T93‑p RSGVAVPtsPKGRLL
S94‑p SGVAVPtsPKGRLLD
K96 VAVPtsPKGRLLDRR
K121 KKGGAGGKGVWGTPG
T126 GGKGVWGTPGQVYDV
Y131 WGTPGQVYDVEEVDV
Y143 VDVKDPNYDDDQENC
Y152 DDQENCVYETVVLPL
K166 LDETAFEKTLTPIIQ
K212 VSLALEGKASHREMT
K238 MSTNDVEKSFDKLLK
K242 DVEKSFDKLLKDLPE
K245 KSFDKLLKDLPELAL
T254 LPELALDTPRAPQLV
R267 LVGQFIARAVGDGIL
K283 NTYIDSYKGTVDCVQ
K297 QARAALDKATVLLSM
T299 RAALDKATVLLSMSK
S303 DKATVLLSMSKGGKR
K306 TVLLSMSKGGKRKDS
K311 MSKGGKRKDSVWGSG
S313 KGGKRKDSVWGSGGG
S317 RKDSVWGSGGGQQPV
P323 GSGGGQQPVNHLVKE
S345 YLLSGDMSEAEHCLK
K392 DLLKSLWKSSTITID
K402 TITIDQMKRGYERIY
Y405 IDQMKRGYERIYNEI
S440 CFQAGIISKQLRDLC
S457‑p RGRKRFVsEGDGGRL
K465 EGDGGRLKPESY___
S468 GGRLKPESY______
  cow

 
S20 PTDPDNLSDSLFSGD
S22 DPDNLSDSLFSGDEE
S25 NLSDSLFSGDEENAG
S46 EINGNWISASSINEA
R58 NEARINARAKRRLRK
K60 ARINARAKRRLRKNS
S67 KRRLRKNSSRDSGRG
S68 RRLRKNSSRDSGRGD
S71 RKNSSRDSGRGDSVS
R73 NSSRDSGRGDSVSDN
S76 RDSGRGDSVSDNGSE
S78 SGRGDSVSDNGSEGL
N80 RGDSVSDNGSEGLRC
S82 DSVSDNGSEGLRCGV
C87 NGSEGLRCGVSAPTS
S90 EGLRCGVSAPTSPKG
T93 RCGVSAPTSPKGRLL
S94 CGVSAPTSPKGRLLD
K96 VSAPTSPKGRLLDRR
K121 KKGGAGGKGVWGTPG
T126 GGKGVWGTPGQVYDV
Y131 WGTPGQVYDVEEVDV
Y143 VDVRDPNYDDDQENC
Y152 DDQENCVYETVVLPL
K166 LDEMAFEKTLTPIIQ
K212 VSLALEGKASHREMT
K238 MSTNDVEKSFDKLLK
K242 DVEKSFDKLLKDLPE
K245 KSFDKLLKDLPELAL
T254 LPELALDTPRAPQLV
R267 LVGQFIARAVGDGIL
K283 NTYIDSYKGTVDCVQ
K297 QARAALDKATVLLSM
T299 RAALDKATVLLSMSK
S303 DKATVLLSMSKGGKR
K306 TVLLSMSKGGKRKDS
K311 MSKGGKRKDSVWGSG
S313 KGGKRKDSVWGSGGG
S317 RKDSVWGSGGGQQSV
S323 GSGGGQQSVNHLVKE
S345 YLLSGDMSEAEHCLK
K392 DLLKSLWKSSTITLD
K402 TITLDQMKRGYERIY
Y405 LDQMKRGYERIYNEI
S440 CFQAGIISKQLRDLC
S457‑p RGRKRFVsEGDGGRL
K465 EGDGGRLKPESY___
S468 GGRLKPESY______