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 13   K8 MTVGKSSKMLQHIDy
0 47   Y15‑p KMLQHIDyRMRCILQ
0 19   K32‑ac RIFIGTFkAFDKHMN
0 21   K32‑ub RIFIGTFkAFDKHMN
0 2   K36 GTFkAFDKHMNLILC
0 1   K54‑ac EFRKIKPkNSKQAER
0 2   K57 KIKPkNSKQAEREEK
0 1   K57 KIKPkNSKQAEREEK
0 30   K88‑ub TVEGPPPkDTGIARV
0 1   R94 PkDTGIARVPLAGAA
1 33   R108‑m2 AGGPGIGrAAGrGIP
0 66   R108‑m1 AGGPGIGrAAGrGIP
1 33   R112‑m2 GIGrAAGrGIPAGVP
0 17   R112 GIGrAAGRGIPAGVP
0 3   R132 AGLAGPVRGVGGPSQ
1 4   R147 QVMTPQGRGTVAAAA
0 63   R147‑m1 QVMTPQGrGTVAAAA
1 5   R172 PTQYPPGRGGPPPPM
0 16   R172‑m1 PTQYPPGrGGPPPPM
1 5   R181 GPPPPMGRGAPPPGM
0 11   R181 GPPPPMGRGAPPPGM
1 1   R209 PMGLPPGRGTPMGMP
0 2   R221 GMPPPGMRPPPPGMR
0 1   R221 GMPPPGMRPPPPGMR
0 2   R228 RPPPPGMRGLL____
0 3   R228 RPPPPGMRGLL____
0 1   - gap
  human

► Hide Isoforms
 
K8‑ub MTVGKSSkMLQHIDy
Y15‑p kMLQHIDyRMRCILQ
K32‑ac RIFIGTFkAFDkHMN
K32‑ub RIFIGTFkAFDkHMN
K36‑ac GTFkAFDkHMNLILC
K54 EFRKIKPKNSkQAER
K57‑ac KIKPKNSkQAEREEK
K57‑ub KIKPKNSkQAEREEK
K88‑ub TVEGPPPkDTGIArV
R94‑m1 PkDTGIArVPLAGAA
R108‑m2 AGGPGIGrAAGrGIP
R108‑m1 AGGPGIGrAAGrGIP
R112‑m2 GIGrAAGrGIPAGVP
R112‑m1 GIGrAAGrGIPAGVP
R132‑m1 AGLAGPVrGVGGPSQ
R147‑m2 QVMTPQGrGTVAAAA
R147‑m1 QVMTPQGrGTVAAAA
R172‑m2 PTQYPPGrGGPPPPM
R172‑m1 PTQYPPGrGGPPPPM
R181‑m2 GPPPPMGrGAPPPGM
R181‑m1 GPPPPMGrGAPPPGM
R209‑m2 PMGIPPGrGTPMGMP
R221 GMPPPGMRPPPPGMr
R221‑m1 GMPPPGMrPPPPGMr
R228 rPPPPGMRGPPPPGM
R228‑m1 rPPPPGMrGPPPPGM
- gap
  snRNP B1 iso2  
K8 MTVGKSSKMLQHIDY
Y15 KMLQHIDYRMRCILQ
K32 RIFIGTFKAFDKHMN
K32 RIFIGTFKAFDKHMN
K36 GTFKAFDKHMNLILC
K54 EFRKIKPKNSKQAER
K57 KIKPKNSKQAEREEK
K57 KIKPKNSKQAEREEK
K88 TVEGPPPKDTGIARV
R94 PKDTGIARVPLAGAA
R108 AGGPGIGRAAGRGIP
R108 AGGPGIGRAAGRGIP
R112 GIGRAAGRGIPAGVP
R112 GIGRAAGRGIPAGVP
R132 AGLAGPVRGVGGPSQ
R147 QVMTPQGRGTVAAAA
R147 QVMTPQGRGTVAAAA
R172 PTQYPPGRGGPPPPM
R172 PTQYPPGRGGPPPPM
R181 GPPPPMGRGAPPPGM
R181 GPPPPMGRGAPPPGM
R209 PMGIPPGRGTPMGMP
R221‑m2 GMPPPGMrPPPPGMr
R221 GMPPPGMRPPPPGMr
R228‑m2 rPPPPGMrGLL____
R228 rPPPPGMRGLL____
- gap
  snRNP B1 iso3  
K8 MTVGKSSKMLQHIDY
Y15 KMLQHIDYRMRCILQ
K32 RIFIGTFKAFDKHMN
K32 RIFIGTFKAFDKHMN
K36 GTFKAFDKHMNLILC
K54 EFRKIKPKNSKQAER
K57 KIKPKNSKQAEREEK
K57 KIKPKNSKQAEREEK
K88 TVEGPPPKDTGIARV
R94 PKDTGIARVPLAGAA
R108 AGGPGIGRAAGRGIP
R108 AGGPGIGRAAGRGIP
R112 GIGRAAGRGIPAGVP
R112 GIGRAAGRGIPAGVP
R132 AGLAGPVRGVGGPSQ
R147 QVMTPQGRGTVAAAA
R147 QVMTPQGRGTVAAAA
R172 PTQYPPGRGGPPPPM
R172 PTQYPPGRGGPPPPM
R181 GPPPPMGRGAPPPGM
R181 GPPPPMGRGAPPPGM
R209 PMGIPPGRGTPMGMP
R221 GMPPPGMRPPPPGGC
R221 GMPPPGMRPPPPGGC
- gap
- gap
S250‑p PQRRGLDsSGPRYHR
  rat

 
K8 MTVGKSSKMLQHIDY
Y15 KMLQHIDYRMRCILQ
K32‑ac RIFIGTFkAFDKHMN
K32 RIFIGTFKAFDKHMN
K36 GTFkAFDKHMNLILC
K54 EFRKIKPKNSKQAER
K57 KIKPKNSKQAEREEK
K57 KIKPKNSKQAEREEK
K88 TVEGPPPKDTGIARV
R94 PKDTGIARVPLAGAA
R108 AGGPGIGRAAGRGIP
R108‑m1 AGGPGIGrAAGRGIP
R112 GIGrAAGRGIPAGVP
R112 GIGrAAGRGIPAGVP
R132 AGLAGPVRGVGGPSQ
R147 QVMTPQGRGTVAAAA
R147‑m1 QVMTPQGrGTVAAAA
R172 PTQYPPGRGGPPPPM
R172 PTQYPPGRGGPPPPM
R181 GPPPPMGRGAPPPGM
R181 GPPPPMGRGAPPPGM
R209 PMGIPPGRGTPMGMP
R221 GMPPPGMRPPPPGMR
R221 GMPPPGMRPPPPGMR
R228 RPPPPGMRGLL____
R228 RPPPPGMRGLL____
- gap