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.


       rat

 
0 1   - gap
0 2   - gap
0 1   - gap
0 1   - gap
0 1   - gap
0 1   S9 VQACEGRSRAQLPTL
0 1   T23 LSLGADMTQPPPAKA
0 1   R42 HVRLQERRGSSVALM
3 44   S44 RLQERRGSSVALMLD
0 6   S54 ALMLDVRSLGTVEPI
0 10   S63 GTVEPICSVNTPREV
2 52   T66 EPICSVNTPREVTLH
3 9   S93‑p TLQHQPPsPKQLEEE
0 1   K103 QLEEEFLKIPSNFVN
0 5   N110 KIPSNFVNPEDLDIP
0 2   K122 DIPGHASKDRYKTIL
0 2   K126 HASKDRYKTILPNPQ
0 1   S134 TILPNPQSRVCLGRA
0 99   S143 VCLGRAHSQEDSDYI
0 88   Y149 HSQEDSDYINANYIR
0 2   Y154 SDYINANYIRGYDGK
0 2   K203 QLREGKEKCVHYWPT
0 6   Y215 WPTEEEAYGPFQIRI
0 3   K226 QIRIQGMKEHPEYTV
1 0   S246 QHQQECRSVKHILFS
0 1   K248 QQECRSVKHILFSAW
0 1   K311 RIGCQQLKARGEVDI
0 3   D358 AQLPPETDP______
  human

► Hide Isoforms
 
- gap
- gap
- gap
- gap
- gap
S9 VQAHGGRSRAQPLTL
T23‑p LSLGAAMtQPPPEKT
R42‑m1 HVRLQERrGsNVALM
S44‑p RLQERrGsNVALMLD
S54‑p ALMLDVRsLGAVEPI
S63‑p GAVEPICsVNtPREV
T66‑p EPICsVNtPREVTLH
S93‑p ALQRQPPsPKQLEEE
K103‑ub QLEEEFLkIPSNFVs
S110‑p kIPSNFVsPEDLDIP
K122‑ub DIPGHASkDRYkTIL
K126‑ub HASkDRYkTILPNPQ
S134 TILPNPQSRVCLGRA
S143‑p VCLGRAQsQEDGDyI
Y149‑p QsQEDGDyINANyIR
Y154‑p GDyINANyIRGYDGK
K203‑ub QLREGKEkCVHYWPT
Y215‑p WPTEEETyGPFQIRI
K226‑ub QIRIQDMkECPEYTV
S246‑p QYQEERRsVkHILFS
K248‑ub QEERRsVkHILFSAW
K312‑ub RIGCQQLkARGEVDI
S359‑p GQLPEEPsP______
  HePTP iso2  
- gap
- gap
S4‑p ____MGAsFWPIRQA
S20‑p EQQRRALsFRQTSWL
S39 LGPAPHLSMVQAHGG
S48 VQAHGGRSRAQPLTL
T62 LSLGAAMTQPPPEKT
R81 HVRLQERRGSNVALM
S83 RLQERRGSNVALMLD
S93 ALMLDVRSLGAVEPI
S102 GAVEPICSVNTPREV
T105 EPICSVNTPREVTLH
S132 ALQRQPPSPKQLEEE
K142 QLEEEFLKIPSNFVS
S149 KIPSNFVSPEDLDIP
K161 DIPGHASKDRYKTIL
K165 HASKDRYKTILPNPQ
S173 TILPNPQSRVCLGRA
S182 VCLGRAQSQEDGDYI
Y188 QSQEDGDYINANYIR
Y193 GDYINANYIRGYDGK
K242 QLREGKEKCVHYWPT
Y254 WPTEEETYGPFQIRI
K265 QIRIQDMKECPEYTV
S285 QYQEERRSVKHILFS
K287 QEERRSVKHILFSAW
K351 RIGCQQLKARGEVDI
S398 GQLPEEPSP______
  HePTP iso3  
- gap
- gap
- gap
- gap
S105‑p LGPAPHLsMVQAHGG
S114‑p VQAHGGRsRAQPLTL
T128 LSLGAAMTQPPPEKT
R147 HVRLQERRGSNVALM
S149 RLQERRGSNVALMLD
S159 ALMLDVRSLGAVEPI
S168 GAVEPICSVNTPREV
T171 EPICSVNTPREVTLH
S198 ALQRQPPSPKQLEEE
K208 QLEEEFLKIPSNFVS
S215 KIPSNFVSPEDLDIP
K227 DIPGHASKDRYKTIL
K231 HASKDRYKTILPNPQ
S239 TILPNPQSRVCLGRA
S248 VCLGRAQSQEDGDYI
Y254 QSQEDGDYINANYIR
Y259 GDYINANYIRGYDGK
K308 QLREGKEKCVHYWPT
Y320 WPTEEETYGPFQIRI
K331 QIRIQDMKECPEYTV
S351 QYQEERRSVKHILFS
K353 QEERRSVKHILFSAW
K417 RIGCQQLKARGEVDI
S464 GQLPEEPSP______
  HePTP iso4  
S23‑p GRGSGQRsLGLGGHP
T38‑p SGPRHPGtPAAKRTW
- gap
- gap
S74 LGPAPHLSMVQAHGG
S83 VQAHGGRSRAQPLTL
T97 LSLGAAMTQPPPEKT
R116 HVRLQERRGsNVALM
S118‑p RLQERRGsNVALMLD
S128‑p ALMLDVRsLGAVEPI
S137‑p GAVEPICsVNtPREV
T140‑p EPICsVNtPREVTLH
S167‑p ALQRQPPsPKQLEEE
K177 QLEEEFLKIPSNFVs
S184‑p KIPSNFVsPEDLDIP
K196 DIPGHASKDRYKTIL
K200 HASKDRYKTILPNPQ
S208 TILPNPQSRVCLGRA
S217‑p VCLGRAQsQEDGDyI
Y223‑p QsQEDGDyINANYIR
Y228 GDyINANYIRGYDGK
K277 QLREGKEKCVHYWPT
Y289‑p WPTEEETyGPFQIRI
K300 QIRIQDMKECPEYTV
S320 QYQEERRSVKHILFS
K322 QEERRSVKHILFSAW
K386 RIGCQQLKARGEVDI
S433 GQLPEEPSP______
  mouse

 
- gap
- gap
- gap
- gap
- gap
S9 VQACEGRSRAQLPTL
T23 LSLGADMTQPPPTKA
R42 HVRLQERRGSSVALM
S44 RLQERRGSSVALMLD
S54 ALMLDVQSLGTVEPI
S63 GTVEPICSVNTPREV
T66 EPICSVNTPREVTLH
S93‑p TLQHQPPsPKQLEEE
K103 QLEEEFLKIPSNFVN
N110 KIPSNFVNPEDLDIP
K122 DIPGHASKDRYKTIL
K126 HASKDRYKTILPNPQ
S134‑p TILPNPQsRVCLGRA
S143‑p VCLGRAQsQEDSDYI
Y149 QsQEDSDYINANYIR
Y154 SDYINANYIRGYDGK
K203 QLREGKEKCVHYWPT
Y215 WPTEEEAYGPFQIRI
K226 QIRIQDMKEHPEYTV
S246 QHQQECRSVKHILFS
K248 QQECRSVKHILFSAW
K311 RIGCQQLKARGEVDI
N358 AQLPPEPNP______