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

► Hide Isoforms
 
1 2   S2‑p ______MsDAEEVVE
0 1   K76 EGPVEDTKPkPsRLF
0 1   K78 PVEDTKPKPsRLFMP
0 1   K78‑ub PVEDTKPkPsRLFMP
0 1   S80‑p EDTKPkPsRLFMPNL
0 1   K91‑ub MPNLVPPkIPDGERV
0 1   K110 IHRKRVEKDLNELQT
0 1   K189‑ub EDEARKKkALsNMMH
1 2   S192‑p ARKKkALsNMMHFGG
1 0   S192 ARKKkALSNMMHFGG
0 2   Y200 NMMHFGGYIQkQAQt
0 1   K203 HFGGYIQKQAQtERK
0 2   K203‑ub HFGGYIQkQAQtERK
6 0   T207‑p YIQkQAQtERKsGKR
9 0   S211‑p QAQtERKsGKRQtER
7 0   T216‑p RKsGKRQtEREKKKK
0 1   K230‑ub KILAERRkALAIDHL
0 1   K245‑ub NEDQLREkAKELWQs
0 2   S252‑p kAKELWQsIHNLEAE
0 15   H254 KELWQsIHNLEAEkF
0 1   K260‑ac IHNLEAEkFDLQEkF
0 1   K266 EkFDLQEKFkQQkYE
0 1   K266‑ub EkFDLQEkFkQQkYE
0 1   K268‑ub FDLQEkFkQQkYEIN
0 1   K268‑ac FDLQEkFkQQkYEIN
0 1   K271‑ub QEkFkQQkYEINVLR
0 2   K271‑ac QEkFkQQkYEINVLR
0 1   K286‑ub NRINDNQkVsKTRGK
3 0   S288‑p INDNQkVsKTRGKAK
0 1   K293 kVsKTRGKAKVtGRW
0 1   K295 sKTRGKAKVtGRWK_
6 0   T297‑p TRGKAKVtGRWK___
  TNNT2 iso2  
S2‑p ______MsDAEEVVE
K66 EGPVEDTKPKPSRLF
K68 PVEDTKPKPSRLFMP
K68 PVEDTKPKPSRLFMP
S70 EDTKPKPSRLFMPNL
K81 MPNLVPPKIPDGERV
K100 IHRKRVEKDLNELQT
K179 EDEARKKKALSNMMH
S182 ARKKKALSNMMHFGG
S182 ARKKKALSNMMHFGG
Y190 NMMHFGGYIQkTERK
K193 HFGGYIQKTERKSGK
K193‑ub HFGGYIQkTERKSGK
T194 FGGYIQkTERKSGKR
S198 IQkTERKSGKRQTER
T203 RKSGKRQTEREKKKK
K217 KILAERRKALAIDHL
K232 NEDQLREKAKELWQS
S239 KAKELWQSIHNLEAE
H241 KELWQSIHNLEAEKF
K247 IHNLEAEKFDLQEKF
K253 EKFDLQEKFKQQKYE
K253 EKFDLQEKFKQQKYE
K255 FDLQEKFKQQKYEIN
K255 FDLQEKFKQQKYEIN
K258 QEKFKQQKYEINVLR
K258 QEKFKQQKYEINVLR
K273 NRINDNQKVSKTRGK
S275 INDNQKVSKTRGKAK
K280 KVSKTRGKAKVTGRW
K282 SKTRGKAKVTGRWK_
T284 TRGKAKVTGRWK___
  human

 
S2‑p ______MsDIEEVVE
K74 DGPMEESKPKPRSFM
K76 PMEESKPKPRSFMPN
K76 PMEESKPKPRSFMPN
- gap
K88 MPNLVPPKIPDGERV
K107 IHRKRMEKDLNELQA
K186 EDEARKKKALsNMMH
S189‑p ARKKKALsNMMHFGG
S189 ARKKKALSNMMHFGG
Y197‑p NMMHFGGyIQKQAQt
K200 HFGGyIQKQAQtERK
K200 HFGGyIQKQAQtERK
T204‑p yIQKQAQtERKsGKR
S208‑p QAQtERKsGKRQtER
T213‑p RKsGKRQtEREKKKK
K227 KILAERRKVLAIDHL
K242 NEDQLREKAKELWQs
S249‑p KAKELWQsIyNLEAE
Y251‑p KELWQsIyNLEAEKF
K257 IyNLEAEKFDLQEKF
K263 EKFDLQEKFKQQKYE
K263 EKFDLQEKFKQQKYE
K265 FDLQEKFKQQKYEIN
K265 FDLQEKFKQQKYEIN
K268 QEKFKQQKYEINVLR
K268 QEKFKQQKYEINVLR
K283 NRINDNQKVSKTRGk
S285 INDNQKVSKTRGkAk
K290‑ac KVSKTRGkAkVtGRW
K292‑ac SKTRGkAkVtGRWK_
T294‑p TRGkAkVtGRWK___
  rat

► Hide Isoforms
 
S2‑p ______MsDAEEEVV
K75‑ac DGPVEDSkPkPSRLF
K77‑ac PVEDSkPkPSRLFMP
K77 PVEDSkPKPSRLFMP
S79 EDSkPkPSRLFMPNL
K90 MPNLVPPKIPDGERV
K109‑ac IHRKRMEkDLNELQT
K188 EDEARKKKALsNMMH
S191 ARKKKALSNMMHFGG
S191‑gl ARKKKALsNMMHFGG
Y199 NMMHFGGYIQkAQtE
K202‑ac HFGGYIQkAQtERKs
K202 HFGGYIQKAQtERKs
T205‑p GYIQkAQtERKsGKR
S209‑p kAQtERKsGKRQtER
T214‑p RKsGKRQtEREKKKK
K228 KILAERRKVLAIDHL
K243 NEDQLREKAKELWQS
S250 KAKELWQSIHNLEAE
H252 KELWQSIHNLEAEKF
K258 IHNLEAEKFDLQEkF
K264‑ac EKFDLQEkFKQQkYE
K264 EKFDLQEKFKQQkYE
K266 FDLQEkFKQQkYEIN
K266 FDLQEkFKQQkYEIN
K269 QEkFKQQKYEINVLR
K269‑ac QEkFKQQkYEINVLR
K284 NRINDNQKVSKTRGK
S286 INDNQKVSKTRGKAK
K291 KVSKTRGKAKVtGRW
K293 SKTRGKAKVtGRWK_
T295‑p TRGKAKVtGRWK___
  TNNT2 iso2  
S2‑p ______MsDAEEEVV
K65 DGPVEDSKPKPSRLF
K67 PVEDSKPKPSRLFMP
K67 PVEDSKPKPSRLFMP
S69 EDSKPKPSRLFMPNL
K80 MPNLVPPKIPDGERV
K99 IHRKRMEKDLNELQT
K178 EDEARKKKALSNMMH
S181 ARKKKALSNMMHFGG
S181 ARKKKALSNMMHFGG
Y189 NMMHFGGYIQKAQtE
K192 HFGGYIQKAQtERKs
K192 HFGGYIQKAQtERKs
T195‑p GYIQKAQtERKsGKR
S199‑p KAQtERKsGKRQtER
T204‑p RKsGKRQtEREKKKK
K218 KILAERRKVLAIDHL
K233 NEDQLREKAKELWQS
S240 KAKELWQSIHNLEAE
H242 KELWQSIHNLEAEKF
K248 IHNLEAEKFDLQEKF
K254 EKFDLQEKFKQQKYE
K254 EKFDLQEKFKQQKYE
K256 FDLQEKFKQQKYEIN
K256 FDLQEKFKQQKYEIN
K259 QEKFKQQKYEINVLR
K259 QEKFKQQKYEINVLR
K274 NRINDNQKVSKTRGK
S276 INDNQKVSKTRGKAK
K281 KVSKTRGKAKVtGRW
K283 SKTRGKAKVtGRWK_
T285‑p TRGKAKVtGRWK___
  rabbit

 
S2 ______MSDLEEVVE
K78 DGPVEESKPKPRPFM
K80 PVEESKPKPRPFMPN
K80 PVEESKPKPRPFMPN
- gap
K92 MPNLVPPKIPDGERV
K111 IHRKRMEKDLNELQT
K189 EDEARKKKALSNMMH
S192 ARKKKALSNMMHFGG
S192 ARKKKALSNMMHFGG
Y200 NMMHFGGYIQKQAQT
K203 HFGGYIQKQAQTERK
K203 HFGGYIQKQAQTERK
T207 YIQKQAQTERKSGKR
S211 QAQTERKSGKRQTER
T216 RKSGKRQTEREKKKK
K230 KILAERRKVLAIDHL
K245 NEDQLREKAKELWQS
S252 KAKELWQSIYNLEAE
Y254 KELWQSIYNLEAEKF
K260 IYNLEAEKFDLQEKF
K266 EKFDLQEKFKQQKYE
K266 EKFDLQEKFKQQKYE
K268 FDLQEKFKQQKYEIN
K268 FDLQEKFKQQKYEIN
K271 QEKFKQQKYEINVLR
K271 QEKFKQQKYEINVLR
K286 NRINDNQKVSKTRGK
S288 INDNQKVSKTRGKAK
K293 KVSKTRGKAKVTGRW
K295 SKTRGKAKVTGRWK_
T297 TRGKAKVTGRWK___
  cow

 
S2 ______MSDVEEAVE
K62 DGPVEEFKPKPRPFM
K64 PVEEFKPKPRPFMPN
K64 PVEEFKPKPRPFMPN
- gap
K76 MPNLVPPKIPDGERV
K95 IHRKRMEKDLNELQT
K174 EDEARKKKALSNMMH
S177 ARKKKALSNMMHFGG
S177 ARKKKALSNMMHFGG
Y185 NMMHFGGYIQKAQtE
K188 HFGGYIQKAQtERKs
K188 HFGGYIQKAQtERKs
T191‑p GYIQKAQtERKsGKR
S195‑p KAQtERKsGKRQtER
T200‑p RKsGKRQtEREKKKK
K214 KILAERRKVLAIDHL
K229 NEDQLREKAKELWQM
M236 KAKELWQMIYDLEAE
Y238 KELWQMIYDLEAEKF
K244 IYDLEAEKFDLQEKF
K250 EKFDLQEKFKQQKYE
K250 EKFDLQEKFKQQKYE
K252 FDLQEKFKQQKYEIN
K252 FDLQEKFKQQKYEIN
K255 QEKFKQQKYEINVLR
K255 QEKFKQQKYEINVLR
K270 NRINDNQKVSKTRGK
S272 INDNQKVSKTRGKAK
K277 KVSKTRGKAKVtGRW
K279 SKTRGKAKVtGRWK_
T281‑p TRGKAKVtGRWK___