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

► Hide Isoforms
 
0 1   T15‑p GGLNVTLtIRLLMHG
0 56   K23‑ub IRLLMHGkEVGSIIG
0 11   K23‑ac IRLLMHGkEVGSIIG
0 11   K31‑ub EVGSIIGkKGESVKK
0 14   S50‑p SGARINIsEGNCPER
0 3   T65‑p IITLAGPtNAIFkAF
0 2   K70‑ac GPtNAIFkAFAMIID
0 7   S111‑p VPASQCGsLIGkGGC
0 22   K115‑ub QCGsLIGkGGCkIKE
0 1   K115‑sm QCGsLIGkGGCkIKE
0 9   K119‑ub LIGkGGCkIKEIRES
0 1   S154‑p TIAGIPQsIIECVkQ
0 8   K160‑ub QsIIECVkQICVVML
1 20   S173‑p MLETLSQsPPKGVtI
0 1   K176 TLSQsPPKGVtIPyR
0 7   T179‑p QsPPKGVtIPyRPkP
0 5   Y182‑p PKGVtIPyRPkPsss
0 9   K185‑ub VtIPyRPkPsssPVI
0 1   K185‑ac VtIPyRPkPsssPVI
0 24   S187‑p IPyRPkPsssPVIFA
0 14   S188‑p PyRPkPsssPVIFAG
2 67   S189‑p yRPkPsssPVIFAGG
0 1   T202‑p GGQDRYStGSDSASF
1 0   T213‑p SASFPHTtPSMCLNP
0 6   Y230‑p EGPPLEAytIQGQyA
0 11   T231‑p GPPLEAytIQGQyAI
0 441   Y236‑p AytIQGQyAIPQPDL
0 1   K245‑ub IPQPDLTkLHQLAMQ
0 1   S266‑p THGNTGFsGIEsssP
0 1   S270‑p TGFsGIEsssPEVKG
0 1   S271‑p GFsGIEsssPEVKGy
1 26   S272‑p FsGIEsssPEVKGyW
0 23   Y278‑p ssPEVKGyWGLDASA
0 1   S289‑p DASAQTTsHELTIPN
0 10   K309‑ub IIGRQGAkINEIRQM
0 1   K309‑sc IIGRQGAkINEIRQM
0 1   K309‑ac IIGRQGAkINEIRQM
0 1   K309‑sm IIGRQGAkINEIRQM
0 83   K322‑ub QMSGAQIkIANPVEG
0 2   K322‑sm QMSGAQIkIANPVEG
0 1   S340‑p RQVTITGsAASISLA
0 10   S364‑p SETGGMGss______
0 9   S365‑p ETGGMGss_______
  hnRNP E2 iso2  
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23 IRLLMHGKEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S173 MLETLSQSPPKGVTI
K176 TLSQSPPKGVTIPYR
T179 QSPPKGVTIPYRPKP
Y182 PKGVTIPYRPKPSSS
K185 VTIPYRPKPSSSPVI
K185 VTIPYRPKPSSSPVI
S187 IPYRPKPSSSPVIFA
S188 PYRPKPSSSPVIFAG
S189 YRPKPSSSPVIFAGG
T202 GGQDRYSTGSDSASF
T213 SASFPHTTPSMCLNP
Y230 EGPPLEAYTIQGQYA
T231 GPPLEAYTIQGQYAI
Y236 AYTIQGQYAIPQPDL
K245 IPQPDLTKLHQLAMQ
S266 THGNTGFSGIESSsP
S270 TGFSGIESSsPEVKG
S271 GFSGIESSsPEVKGY
S272‑p FSGIESSsPEVKGYW
Y278 SsPEVKGYWAGLDAS
S290 DASAQTTSHELTIPN
K310 IIGRQGAKINEIRQM
K310 IIGRQGAKINEIRQM
K310 IIGRQGAKINEIRQM
K310 IIGRQGAKINEIRQM
K323 QMSGAQIKIANPVEG
K323 QMSGAQIKIANPVEG
S341 RQVTITGSAASISLA
S365 SETGGMGSS______
S366 ETGGMGSS_______
  hnRNP E2 iso3  
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23 IRLLMHGKEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S169 ICVVMLESPPKGVTI
K172 VMLESPPKGVTIPYR
T175 ESPPKGVTIPYRPKP
Y178 PKGVTIPYRPKPSSS
K181 VTIPYRPKPSSSPVI
K181 VTIPYRPKPSSSPVI
S183 IPYRPKPSSSPVIFA
S184 PYRPKPSSSPVIFAG
S185 YRPKPSSSPVIFAGG
T198 GGQDRYSTGSDSASF
T209 SASFPHTTPSMCLNP
Y226 EGPPLEAYTIQGQYA
T227 GPPLEAYTIQGQYAI
Y232 AYTIQGQYAIPQPDL
K241 IPQPDLTKLHQLAMQ
S262 THGNTGFSGIESSSP
S266 TGFSGIESSSPEVKG
S267 GFSGIESSSPEVKGY
S268 FSGIESSSPEVKGYW
Y274 SSPEVKGYWAGLDAS
S286 DASAQTTSHELTIPN
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K319 QMSGAQIKIANPVEG
K319 QMSGAQIKIANPVEG
S337 RQVTITGSAASISLA
S361 SETGGMGSS______
S362 ETGGMGSS_______
  hnRNP E2 iso4  
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23 IRLLMHGKEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S169‑p ICVVMLEsPPkGVtI
K172‑ub VMLEsPPkGVtIPYR
T175‑p EsPPkGVtIPYRPkP
Y178 PkGVtIPYRPkPSss
K181‑ub VtIPYRPkPSssPVI
K181 VtIPYRPKPSssPVI
S183 IPYRPkPSssPVIFA
S184‑p PYRPkPSssPVIFAG
S185‑p YRPkPSssPVIFAGG
- gap
- gap
Y195‑p IFAGGQAytIQGQyA
T196‑p FAGGQAytIQGQyAI
Y201‑p AytIQGQyAIPQPDL
K210 IPQPDLTKLHQLAMQ
S231 THGNTGFSGIESSsP
S235 TGFSGIESSsPEVKG
S236 GFSGIESSsPEVKGy
S237‑p FSGIESSsPEVKGyW
Y243‑p SsPEVKGyWAGLDAS
S255 DASAQTTSHELTIPN
K275 IIGRQGAKINEIRQM
K275 IIGRQGAKINEIRQM
K275 IIGRQGAKINEIRQM
K275 IIGRQGAKINEIRQM
K288 QMSGAQIKIANPVEG
K288 QMSGAQIKIANPVEG
S306 RQVTITGSAASISLA
S330 SETGGMGSS______
S331 ETGGMGSS_______
  hnRNP E2 iso5  
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23 IRLLMHGKEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S173 MLETLSQSPPKGVtI
K176 TLSQSPPKGVtIPYR
T179‑p QSPPKGVtIPYRPkP
Y182 PKGVtIPYRPkPSss
K185‑ub VtIPYRPkPSssPVI
K185 VtIPYRPKPSssPVI
S187 IPYRPkPSssPVIFA
S188‑p PYRPkPSssPVIFAG
S189‑p YRPkPSssPVIFAGG
- gap
- gap
Y199‑p IFAGGQAytIQGQyA
T200‑p FAGGQAytIQGQyAI
Y205‑p AytIQGQyAIPQPDL
K214 IPQPDLTKLHQLAMQ
S235 THGNTGFSGIESSsP
S239 TGFSGIESSsPEVKG
S240 GFSGIESSsPEVKGy
S241‑p FSGIESSsPEVKGyW
Y247‑p SsPEVKGyWAGLDAS
S259 DASAQTTSHELTIPN
K279 IIGRQGAKINEIRQM
K279 IIGRQGAKINEIRQM
K279 IIGRQGAKINEIRQM
K279 IIGRQGAKINEIRQM
K292 QMSGAQIKIANPVEG
K292 QMSGAQIKIANPVEG
S310 RQVTITGSAASISLA
S334 SETGGMGSS______
S335 ETGGMGSS_______
  hnRNP E2 iso6  
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23 IRLLMHGKEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S169 ICVVMLESPPKGVTI
K172 VMLESPPKGVTIPYR
T175 ESPPKGVTIPYRPKP
Y178 PKGVTIPYRPKPSSS
K181 VTIPYRPKPSSSPVI
K181 VTIPYRPKPSSSPVI
S183 IPYRPKPSSSPVIFA
S184 PYRPKPSSSPVIFAG
S185 YRPKPSSSPVIFAGG
T198 GGQDRYSTGSDSASF
T209 SASFPHTTPSMCLNP
Y226 EGPPLEAYTIQGQYA
T227 GPPLEAYTIQGQYAI
Y232 AYTIQGQYAIPQPDL
K241 IPQPDLTKLHQLAMQ
S262 THGNTGFSGIESSSP
S266 TGFSGIESSSPEVKG
S267 GFSGIESSSPEVKGY
S268 FSGIESSSPEVKGYW
Y274 SSPEVKGYWGLDASA
S285 DASAQTTSHELTIPN
K305 IIGRQGAKINEIRQM
K305 IIGRQGAKINEIRQM
K305 IIGRQGAKINEIRQM
K305 IIGRQGAKINEIRQM
K318 QMSGAQIKIANPVEG
K318 QMSGAQIKIANPVEG
S336 RQVTITGSAASISLA
S360 SETGGMGSS______
S361 ETGGMGSS_______
  hnRNP E2 iso9  
- gap
- gap
- gap
- gap
S12 SGARINISEGNCPER
T27 IITLAGPTNAIFKAF
K32 GPTNAIFKAFAMIID
S73 VPASQCGSLIGKGGC
K77 QCGSLIGKGGCKIKE
K77 QCGSLIGKGGCKIKE
K81 LIGKGGCKIKEIRES
S116 TIAGIPQSIIECVKQ
K122 QSIIECVKQICVVML
S135 MLETLSQSPPKGVTI
K138 TLSQSPPKGVTIPYR
T141 QSPPKGVTIPYRPKP
Y144 PKGVTIPYRPKPSSs
K147 VTIPYRPKPSSsPVI
K147 VTIPYRPKPSSsPVI
S149 IPYRPKPSSsPVIFA
S150 PYRPKPSSsPVIFAG
S151‑p YRPKPSSsPVIFAGG
- gap
- gap
- gap
- gap
- gap
K162 FAGGQLTKLHQLAMQ
S183 THGNTGFSGIESSSP
S187 TGFSGIESSSPEVKG
S188 GFSGIESSSPEVKGY
S189 FSGIESSSPEVKGYW
Y195 SSPEVKGYWGLDASA
S206 DASAQTTSHELTIPN
K226 IIGRQGAKINEIRQM
K226 IIGRQGAKINEIRQM
K226 IIGRQGAKINEIRQM
K226 IIGRQGAKINEIRQM
K239 QMSGAQIKIANPVEG
K239 QMSGAQIKIANPVEG
S257 RQVTITGSAASISLA
S281 SETGGMGSS______
S282 ETGGMGSS_______
  mouse

► Hide Isoforms
 
T15 GGLNVTLTIRLLMHG
K23‑ub IRLLMHGkEVGSIIG
K23‑ac IRLLMHGkEVGSIIG
K31 EVGSIIGKKGESVKK
S50‑p SGARINIsEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111‑p VPASQCGsLIGkGGC
K115‑ub QCGsLIGkGGCkIKE
K115 QCGsLIGKGGCkIKE
K119‑ub LIGkGGCkIKEIRES
S154 TIAGIPQSIIECVkQ
K160‑ub QSIIECVkQICVVML
S169‑p ICVVMLEsPPKGVtI
K172 VMLEsPPKGVtIPyR
T175‑p EsPPKGVtIPyRPkP
Y178‑p PKGVtIPyRPkPsss
K181‑ub VtIPyRPkPsssPVI
K181 VtIPyRPKPsssPVI
S183‑p IPyRPkPsssPVIFA
S184‑p PyRPkPsssPVIFAG
S185‑p yRPkPsssPVIFAGG
T198 GGQDRYSTGSDSASF
T209 SASFPHTTPSMCLNP
Y226 EGPPLEAYTIQGQyA
T227 GPPLEAYTIQGQyAI
Y232‑p AYTIQGQyAIPQPDL
K241 IPQPDLTKLHQLAMQ
S262‑p THGNTGFsGIESSsP
S266 TGFsGIESSsPEVKG
S267 GFsGIESSsPEVKGY
S268‑p FsGIESSsPEVKGYW
Y274 SsPEVKGYWAGLDAS
S286 DASAQTTSHELTIPN
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K319‑ub QMSGAQIkIANPVEG
K319 QMSGAQIKIANPVEG
S337 RQVTITGSAASISLA
S361‑p SETGGMGss______
S362‑p ETGGMGss_______
  hnRNP E2 iso2  
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23 IRLLMHGKEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S169 ICVVMLESPPKGVTI
K172 VMLESPPKGVTIPYR
T175 ESPPKGVTIPYRPKP
Y178 PKGVTIPYRPKPSSS
K181 VTIPYRPKPSSSPVI
K181 VTIPYRPKPSSSPVI
S183 IPYRPKPSSSPVIFA
S184 PYRPKPSSSPVIFAG
S185 YRPKPSSSPVIFAGG
- gap
- gap
Y195 IFAGGQAYTIQGQyA
T196 FAGGQAYTIQGQyAI
Y201‑p AYTIQGQyAIPQPDL
K210 IPQPDLTKLHQLAMQ
S231 THGNTGFSGIESSSP
S235 TGFSGIESSSPEVKG
S236 GFSGIESSSPEVKGY
S237 FSGIESSSPEVKGYW
Y243 SSPEVKGYWAGLDAS
S255 DASAQTTSHELTIPN
K275 IIGRQGAKINEIRQM
K275 IIGRQGAKINEIRQM
K275 IIGRQGAKINEIRQM
K275 IIGRQGAKINEIRQM
K288 QMSGAQIKIANPVEG
K288 QMSGAQIKIANPVEG
S306 RQVTITGSAASISLA
S330 SETGGMGSS______
S331 ETGGMGSS_______
  rat

 
T15 GGLNVTLTIRLLMHG
K23 IRLLMHGKEVGSIIG
K23‑ac IRLLMHGkEVGSIIG
K31 EVGSIIGKKGESVKK
S50 SGARINISEGNCPER
T65 IITLAGPTNAIFKAF
K70 GPTNAIFKAFAMIID
S111 VPASQCGSLIGKGGC
K115 QCGSLIGKGGCKIKE
K115 QCGSLIGKGGCKIKE
K119 LIGKGGCKIKEIRES
S154 TIAGIPQSIIECVKQ
K160 QSIIECVKQICVVML
S169 ICVVMLESPPKGVTI
K172 VMLESPPKGVTIPYR
T175 ESPPKGVTIPYRPKP
Y178 PKGVTIPYRPKPsss
K181 VTIPYRPKPsssPVI
K181 VTIPYRPKPsssPVI
S183‑p IPYRPKPsssPVIFA
S184‑p PYRPKPsssPVIFAG
S185‑p YRPKPsssPVIFAGG
T198 GGQDRYSTGSDSASF
T209 SASFPHTTPSMCLNP
Y226 EGPPLEAYTIQGQYA
T227 GPPLEAYTIQGQYAI
Y232 AYTIQGQYAIPQPDL
K241 IPQPDLTKLHQLAMQ
S262 THGNTGFSGIESSSP
S266 TGFSGIESSSPEVKG
S267 GFSGIESSSPEVKGY
S268 FSGIESSSPEVKGYW
Y274 SSPEVKGYWAGLDAS
S286 DASAQTTSHELTIPN
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K306 IIGRQGAKINEIRQM
K319 QMSGAQIKIANPVEG
K319 QMSGAQIKIANPVEG
S337 RQVTITGSAASISLA
S361 SETGGMGSS______
S362 ETGGMGSS_______