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 6   K6‑ub __MAQNLkDLAGRLP
0 1   K6‑sc __MAQNLkDLAGRLP
0 2   K6 __MAQNLKDLAGRLP
0 1   T21 AGPRGMGTALKLLLG
0 3   Y34 LGAGAVAYGVRESVF
2 0   S39 VAYGVRESVFTVEGG
0 48   Y77‑p FRIPWFQyPIIYDIR
0 8   Y81 WFQyPIIYDIRARPR
0 3   K89 DIRARPRKIssPTGS
0 13   K89 DIRARPRKIssPTGS
2 10   S91‑p RARPRKIssPTGSkD
0 4   S92‑p ARPRKIssPTGSkDL
0 2   K97 IssPTGSKDLQMVNI
0 1   K97‑sc IssPTGSkDLQMVNI
0 2   K97‑ac IssPTGSkDLQMVNI
0 1   S105 DLQMVNISLRVLSRP
0 2   S119 PNAQELPSMyQRLGL
0 141   Y121‑p AQELPSMyQRLGLDY
0 1   R123 ELPSMyQRLGLDYEE
0 17   Y128 yQRLGLDYEERVLPS
0 2   S135 YEERVLPSIVNEVLK
0 1   K142 SIVNEVLKSVVAkFN
1 1   K142 SIVNEVLKSVVAkFN
0 2   K147 VLKSVVAKFNAsQLI
0 5   K147‑ac VLKSVVAkFNAsQLI
0 22   S151‑p VVAkFNAsQLItQRA
0 9   T155‑p FNAsQLItQRAQVsL
0 4   S161‑p ItQRAQVsLLIRREL
1 1   S176 TERAKDFSLILDDVA
1 6   K200 YTAAVEAKQVAQQEA
0 3   K200‑ac YTAAVEAkQVAQQEA
0 5   K216‑ac RAQFLVEkAKQEQRQ
0 2   K216 RAQFLVEKAKQEQRQ
0 3   K224‑ub AKQEQRQkIVQAEGE
0 4   K236 EGEAEAAKMLGEALS
0 2   K236‑ac EGEAEAAkMLGEALS
1 1   S243 kMLGEALSKNPGyIK
0 5   K244 MLGEALSKNPGyIKL
1 254   Y248‑p ALSKNPGyIKLRKIR
0 3   K250 SKNPGyIKLRKIRAA
0 3   K250 SKNPGyIKLRKIRAA
0 5   K262‑ub RAAQNISkTIATsQN
0 1   T263 AAQNISkTIATsQNR
0 1   T266 NISkTIATsQNRIYL
0 1   S267‑p ISkTIATsQNRIYLT
0 1   S286 VLNLQDESFTRGSDs
0 1   R289 LQDESFTRGSDsLIK
0 13   S293‑p SFTRGSDsLIKGKK_
0 2   K296 RGSDsLIKGKK____
  human

► Hide Isoforms
 
K6‑ub __MAQNLkDLAGRLP
K6‑sc __MAQNLkDLAGRLP
K6‑m1 __MAQNLkDLAGRLP
T21‑p AGPRGMGtALKLLLG
Y34‑p LGAGAVAyGVREsVF
S39‑p VAyGVREsVFTVEGG
Y77‑p FRIPWFQyPIIyDIR
Y81‑p WFQyPIIyDIRARPR
K89‑ub DIRARPRkIssPTGS
K89‑ac DIRARPRkIssPTGS
S91‑p RARPRkIssPTGSkD
S92‑p ARPRkIssPTGSkDL
K97‑ub IssPTGSkDLQMVNI
K97 IssPTGSKDLQMVNI
K97‑ac IssPTGSkDLQMVNI
S105‑p DLQMVNIsLRVLSRP
S119‑p PNAQELPsMyQrLGL
Y121‑p AQELPsMyQrLGLDy
R123‑m1 ELPsMyQrLGLDyEE
Y128‑p yQrLGLDyEERVLPs
S135‑p yEERVLPsIVNEVLk
K142 sIVNEVLKSVVAkFN
K142‑ub sIVNEVLkSVVAkFN
K147‑ub VLkSVVAkFNAsQLI
K147‑ac VLkSVVAkFNAsQLI
S151‑p VVAkFNAsQLItQRA
T155‑p FNAsQLItQRAQVsL
S161‑p ItQRAQVsLLIRREL
S176‑p TERAKDFsLILDDVA
K200‑ub YTAAVEAkQVAQQEA
K200 YTAAVEAKQVAQQEA
K216‑ac RAQFLVEkAKQEQRQ
K216‑ub RAQFLVEkAKQEQRQ
K224‑ub AKQEQRQkIVQAEGE
K236‑ub EGEAEAAkMLGEALs
K236 EGEAEAAKMLGEALs
S243‑p kMLGEALskNPGyIk
K244‑ub MLGEALskNPGyIkL
Y248‑p ALskNPGyIkLRKIR
K250‑ac skNPGyIkLRKIRAA
K250‑ub skNPGyIkLRKIRAA
K262‑ub RAAQNISktIAtSQN
T263‑p AAQNISktIAtSQNR
T266‑p NISktIAtSQNRIYL
S267 ISktIAtSQNRIYLT
S286‑p VLNLQDEsFTrGSDs
R289‑m1 LQDEsFTrGSDsLIk
S293‑p sFTrGSDsLIkGKK_
K296‑ub rGSDsLIkGKK____
  BAP37 iso2  
K6 __MAQNLKDLAGRLP
K6 __MAQNLKDLAGRLP
K6 __MAQNLKDLAGRLP
T21 AGPRGMGTALKLLLG
Y34 LGAGAVAYGVRESVF
S39 VAYGVRESVFTVEGG
Y77 FRIPWFQYPIIYDIR
Y81 WFQYPIIYDIRARPR
K89 DIRARPRKISSPTGS
K89 DIRARPRKISSPTGS
S91 RARPRKISSPTGSKD
S92 ARPRKISSPTGSKDL
K97 ISSPTGSKDLQMVNI
K97 ISSPTGSKDLQMVNI
K97 ISSPTGSKDLQMVNI
S105 DLQMVNISLRVLSRP
S119 PNAQELPSMYQRLGL
Y121 AQELPSMYQRLGLDY
R123 ELPSMYQRLGLDYEE
Y128 YQRLGLDYEERVLPS
S135 YEERVLPSIVNEVLK
K142 SIVNEVLKSVVAKFN
K142 SIVNEVLKSVVAKFN
K147 VLKSVVAKFNASQLI
K147 VLKSVVAKFNASQLI
S151 VVAKFNASQLITQRA
T155 FNASQLITQRAQVSL
S161 ITQRAQVSLLIRREL
S176 TERAKDFSLILDDVA
K200 YTAAVEAKQVALSKN
K200 YTAAVEAKQVALSKN
- gap
- gap
- gap
- gap
- gap
S205 EAKQVALSKNPGYIK
K206 AKQVALSKNPGYIKL
Y210 ALSKNPGYIKLRKIR
K212 SKNPGYIKLRKIRAA
K212 SKNPGYIKLRKIRAA
K224 RAAQNISKTIATSQN
T225 AAQNISKTIATSQNR
T228 NISKTIATSQNRIYL
S229 ISKTIATSQNRIYLT
S248 VLNLQDESFTRGSDS
R251 LQDESFTRGSDSLIK
S255 SFTRGSDSLIKGKK_
K258 RGSDSLIKGKK____
  rat

 
K6 __MAQNLKDLAGRLP
K6 __MAQNLKDLAGRLP
K6 __MAQNLKDLAGRLP
T21 SGPRGMGTALKLLLG
Y34 LGAGAVAYGVRESVF
S39 VAYGVRESVFTVEGG
Y77‑p FRIPWFQyPIIYDIR
Y81 WFQyPIIYDIRARPR
K89 DIRARPRKISSPTGS
K89 DIRARPRKISSPTGS
S91 RARPRKISSPTGSkD
S92 ARPRKISSPTGSkDL
K97 ISSPTGSKDLQMVNI
K97 ISSPTGSKDLQMVNI
K97‑ac ISSPTGSkDLQMVNI
S105 DLQMVNISLRVLSRP
S119 PNAQELPSMyQRLGL
Y121‑p AQELPSMyQRLGLDY
R123 ELPSMyQRLGLDYEE
Y128 yQRLGLDYEERVLPS
S135 YEERVLPSIVNEVLk
K142‑ac SIVNEVLkSVVAkFN
K142 SIVNEVLKSVVAkFN
K147 VLkSVVAKFNAsQLI
K147‑ac VLkSVVAkFNAsQLI
S151‑p VVAkFNAsQLItQRA
T155‑p FNAsQLItQRAQVSL
S161 ItQRAQVSLLIRREL
S176 TERAKDFSLILDDVA
K200 YTAAVEAKQVAQQEA
K200‑ac YTAAVEAkQVAQQEA
K216‑ac RAQFLVEkAKQEQRQ
K216 RAQFLVEKAKQEQRQ
K224 AKQEQRQKIVQAEGE
K236 EGEAEAAKMLGEALS
K236‑ac EGEAEAAkMLGEALS
S243 kMLGEALSKNPGyIk
K244 MLGEALSKNPGyIkL
Y248‑p ALSKNPGyIkLRKIR
K250‑ac SKNPGyIkLRKIRAA
K250 SKNPGyIKLRKIRAA
K262 RAAQNISKTIATSQN
T263 AAQNISKTIATSQNR
T266 NISKTIATSQNRIYL
S267 ISKTIATSQNRIYLT
S286 VLNLQDESFTRGSDs
R289 LQDESFTRGSDsLIK
S293‑p SFTRGSDsLIKGKK_
K296 RGSDsLIKGKK____