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

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0 2   K2‑ub ______MkDVPGFLQ
0 4   K31‑ub RLEELYTkkLWHQLT
0 12   K32‑ub LEELYTkkLWHQLTL
0 1   S65‑p KLYENFIsEFEHRVN
0 1   T88‑p LHVVRQMtDPNVALt
0 1   T95‑p tDPNVALtFLEkTRE
0 1   K99 VALtFLEKTREKVks
0 7   K99‑ub VALtFLEkTREKVks
0 2   K105‑ub EkTREKVksSDEAVI
0 1   S106‑p kTREKVksSDEAVIL
0 38   K115‑ub DEAVILCkTAIGALk
0 1   K122 kTAIGALKLNIGDLQ
0 9   K122‑ub kTAIGALkLNIGDLQ
0 1   T131‑p NIGDLQVtkETIEDV
0 2   K132‑ub IGDLQVtkETIEDVE
0 1   T149‑p LNNLPGVtsVHSRFy
0 1   S150‑p NNLPGVtsVHSRFyD
0 1   Y156‑p tsVHSRFyDLSSkyY
0 27   K161‑ub RFyDLSSkyYQTIGN
0 1   Y162‑p FyDLSSkyYQTIGNH
0 1   Y172‑p TIGNHASyYkDALRF
0 1   K174 GNHASyYKDALRFLG
0 8   K174‑ub GNHASyYkDALRFLG
0 1   K174‑sc GNHASyYkDALRFLG
0 20   K186‑ub FLGCVDIkDLPVsEQ
0 1   S191‑p DIkDLPVsEQQERAF
0 5   K252‑ub VERFQTLkTAWGQQP
0 3   K298‑ac LTFEEIAkSAkITVN
0 3   K298‑ub LTFEEIAkSAkITVN
0 1   K301‑ub EEIAkSAkITVNEVE
0 1   K313‑ac EVELLVMkALSVGLV
0 1   K313 EVELLVMKALSVGLV
0 6   K321‑ub ALSVGLVkGsIDEVD
0 1   S323‑p SVGLVkGsIDEVDkR
0 2   K329 GsIDEVDKRVHMTWV
0 1   K329‑ub GsIDEVDkRVHMTWV
0 2   K347 VLDLQQIKGMKDRLE
0 8   K347‑ub VLDLQQIkGMKDRLE
0 1   K361‑ub EFWCTDVkSMEMLVE
  PSMD13 iso2  
K2 ______MKDVPGFLQ
K31‑ub RLEELYTkNFMKTLS
N32 LEELYTkNFMKTLSV
- gap
T90 LHVVRQMTDPNVALT
T97 TDPNVALTFLEKTRE
K101 VALTFLEKTREKVKS
K101 VALTFLEKTREKVKS
K107 EKTREKVKSSDEAVI
S108 KTREKVKSSDEAVIL
K117 DEAVILCKTAIGALK
K124 KTAIGALKLNIGDLQ
K124 KTAIGALKLNIGDLQ
T133 NIGDLQVTKETIEDV
K134 IGDLQVTKETIEDVE
T151 LNNLPGVTSVHSRFY
S152 NNLPGVTSVHSRFYD
Y158 TSVHSRFYDLSSKYY
K163 RFYDLSSKYYQTIGN
Y164 FYDLSSKYYQTIGNH
Y174 TIGNHASYYKDALRF
K176 GNHASYYKDALRFLG
K176 GNHASYYKDALRFLG
K176 GNHASYYKDALRFLG
K188 FLGCVDIKDLPVSEQ
S193 DIKDLPVSEQQERAF
K254 VERFQTLKTAWGQQP
K300 LTFEEIAKSAKITVN
K300 LTFEEIAKSAKITVN
K303 EEIAKSAKITVNEVE
K315 EVELLVMKALSVGLV
K315 EVELLVMKALSVGLV
K323 ALSVGLVKGSIDEVD
S325 SVGLVKGSIDEVDKR
K331 GSIDEVDKRVHMTWV
K331 GSIDEVDKRVHMTWV
K349 VLDLQQIKGMKDRLE
K349 VLDLQQIKGMKDRLE
K363 EFWCTDVKSMEMLVE
  mouse

 
K2‑ub ______MkDVPAFLQ
K31‑ub RLEELYTkKLWHQLT
K32 LEELYTkKLWHQLTL
S65 KLYENFISEFEHRVN
T88 LHVVRQMTDPNVALT
T95 TDPNVALTFLEkTRE
K99‑ac VALTFLEkTREKVkS
K99‑ub VALTFLEkTREKVkS
K105‑ub EkTREKVkSSDEAVI
S106 kTREKVkSSDEAVIL
K115‑ub DEAVILCkTAIGALk
K122‑ac kTAIGALkLNIGDLQ
K122‑ub kTAIGALkLNIGDLQ
T131 NIGDLQATKETIEDV
K132 IGDLQATKETIEDVE
T149 LNNLPGVTSVHSRFY
S150 NNLPGVTSVHSRFYD
Y156 TSVHSRFYDLSSkYY
K161‑ub RFYDLSSkYYQTIGN
Y162 FYDLSSkYYQTIGNH
Y172 TIGNHASYYkDALRF
K174‑ac GNHASYYkDALRFLG
K174‑ub GNHASYYkDALRFLG
K174 GNHASYYKDALRFLG
K186‑ub FLGCVDIkDLPVSEQ
S191 DIkDLPVSEQQERAF
K252 VDRFQTLKCAWGQQP
K298‑ac LTFEEIAkSAKITVN
K298‑ub LTFEEIAkSAKITVN
K301 EEIAkSAKITVNKVE
K313 KVELLVMKALSVGLV
K313‑ub KVELLVMkALSVGLV
R321 ALSVGLVRGSIDEVD
S323 SVGLVRGSIDEVDkR
K329‑ac GSIDEVDkRVHMTWV
K329 GSIDEVDKRVHMTWV
K347‑ac VLDLQQIkGMKDRLE
K347‑ub VLDLQQIkGMKDRLE
K361 ELWCTDVKSMEMLVE
  rat

 
K2 ______MKDVPAFLQ
K31 RLEELYTKKLWHQLT
K32 LEELYTKKLWHQLTL
S65 KLYENFISEFEHRVN
T88 LHVVRQMTDPNVALT
T95 TDPNVALTFLEKTRE
K99 VALTFLEKTREKVKS
K99 VALTFLEKTREKVKS
K105 EKTREKVKSSDEAVI
S106 KTREKVKSSDEAVIL
K115‑ub DEAVILCkTAIGALK
K122 kTAIGALKLNIGDLQ
K122 kTAIGALKLNIGDLQ
T131 NIGDLQATKETIEDV
K132 IGDLQATKETIEDVE
T149 LNNLPGVTSVHSRFY
S150 NNLPGVTSVHSRFYD
Y156 TSVHSRFYDLSSKYY
K161 RFYDLSSKYYQTIGN
Y162 FYDLSSKYYQTIGNH
Y172 TIGNHASYYKDALRF
K174 GNHASYYKDALRFLG
K174 GNHASYYKDALRFLG
K174 GNHASYYKDALRFLG
K186 FLGCVDIKDLPVSEQ
S191 DIKDLPVSEQQERAF
K252 VDRFQTLKSAWGQQP
K298‑ac LTFEEIAkSAKITVN
K298 LTFEEIAKSAKITVN
K301 EEIAkSAKITVNKVE
K313 KVELLVMKALSVGLV
K313 KVELLVMKALSVGLV
R321 ALSVGLVRGSIDEVD
S323 SVGLVRGSIDEVDkR
K329‑ac GSIDEVDkRVHMTWV
K329 GSIDEVDKRVHMTWV
K347‑ac VLDLQQIkGMKDRLE
K347 VLDLQQIKGMKDRLE
K361 ELWCTDVKSMELLVE