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   S64 DARYSRSSTATSSRS
0 1   T215‑p KGKACEItAAQDTMS
0 1   S232‑p FGGQNPGsSWVPPEP
0 1   N288 VAPLSSQNVMIRHGQ
0 1   T296 VMIRHGQTQEYVLKP
0 2   K310 PKYFPAPKVVSGEQS
0 5   S313 FPAPKVVSGEQSTEG
0 2   S317 KVVSGEQSTEGSFSL
0 1   T318 VVSGEQSTEGSFSLR
0 1   N339 TAPFQVSNHTGRIKV
0 1   T349 GRIKVVFTPSICKVT
0 1   N370 HNSCQKGNTTTLISE
0 1   S430 QIPVLGASMPKLYQH
0 1   S452 LGSHVIHSTHTLPLT
0 1   T453 GSHVIHSTHTLPLTM
0 1   T455 HVIHSTHTLPLTMTN
0 1   T459 STHTLPLTMTNQQGV
0 1   T461 HTLPLTMTNQQGVKV
0 1   N462 TLPLTMTNQQGVKVK
0 1   S493 SVQIHQVSRIDGPVG
0 1   Y515 PGQSQVSYQGLPVQK
0 1   T523 QGLPVQKTQTVHSTY
0 1   T525 LPVQKTQTVHSTYSH
0 1   S528 QKTQTVHSTYSHQQV
0 1   T529 KTQTVHSTYSHQQVI
0 1   S531 QTVHSTYSHQQVIPH
0 1   S730 GGMGYTVSGIHRRRP
0 1   S760 NTQPVAKSTHPPPLP
0 1   T761 TQPVAKSTHPPPLPA
0 1   T777 EEPVEALTSsREHGP
0 2   S779‑p PVEALTSsREHGPGV
0 1   T793 VAEPEVVTAPPEKEI
0 1   S802 PPEKEIPSLDQEKTR
0 2   Y888‑p CINLPVRyTCICyEG
0 1   T889 INLPVRyTCICyEGy
0 2   Y893‑p VRyTCICyEGyKFSE
0 2   Y896‑p TCICyEGyKFSEQQR
0 1   Y980 CEYCDSGYRMSRRGH
0 1   S983 CDSGYRMSRRGHCED
0 1   N1042 LQPKVCTNGSCTNLE
0 1   E1325 QCRSRATEDSGVDRQ
0 1   N1357 CDNVLAPNVTKQECC
0 1   S1404 GFVPAGESSYETGGE
0 1   S1405 FVPAGESSYETGGEN
0 1   Y1406 VPAGESSYETGGENY
0 1   Y1413 YETGGENYKDADECL
0 1   S1588 RDALVDFSEQYGPET
0 1   Y1591 LVDFSEQYGPETDPY
0 1   G1592 VDFSEQYGPETDPYF
0 4   S1607 IQDRFLNSFEELQAE
1 1   Y1679 CINTEGSYKCVCLPG
  human

► Hide Isoforms
 
S66‑p NARYSRSsAAAGAPS
I221 KGKACETIAAQDTSS
S240 GQSPGAASSWGPPEQ
S296‑ga VTPLSSQsVVIHHGQ
T304‑ga VVIHHGQtQEYVLKP
K318‑ub PKYFPAQkGIsGEQs
S321‑p FPAQkGIsGEQstEG
S325‑p kGIsGEQstEGSFPL
T326‑ga GIsGEQstEGSFPLR
N347 AAPFQLSNHTGRIKV
T357‑ga GRIKVVFtPSICKVT
N378 QNSCEKGNTTTLISE
S438‑ga QIPVHGAsVPKLYQH
S460‑ga LGTHVIHstHtLPLt
T461‑ga GTHVIHstHtLPLtV
T463‑ga HVIHstHtLPLtVts
T467‑ga stHtLPLtVtsQQGV
T469‑ga HtLPLtVtsQQGVKV
S470‑ga tLPLtVtsQQGVKVK
S501‑ga SVQIHQVsRIDGPTG
Y523‑p PGQSQVSyQGLPVQK
T531‑p QGLPVQKtQtIHstY
T533‑ga LPVQKtQtIHstYsH
S536‑ga QKtQtIHstYsHQQV
T537‑ga KtQtIHstYsHQQVI
S539‑ga QtIHstYsHQQVIPH
S738‑p GGMGYTVsGVHRRRP
S768‑ga NTQPVAKstHPPPLP
T769‑ga TQPVAKstHPPPLPA
T785‑ga EEPVEALtFSREHGP
S787 PVEALtFSREHGPGV
T801‑ga VAEPEVAtAPPEKEI
S810‑ga PPEKEIPsLDQEKTK
Y896‑p CINLPVRytCICyEG
T897‑p INLPVRytCICyEGy
Y901‑p VRytCICyEGyRFSE
Y904‑p tCICyEGyRFSEQQR
Y988‑p CEYCDSGyRMtQRGR
T991‑p CDSGyRMtQRGRCED
N1050 LEPNVCANGDCSNLE
T1333‑ga QCRSRTStDLDVDVD
N1366 CDNVLAPNVTKQECC
S1413‑p GFVPAGEsssEAGGE
S1414‑p FVPAGEsssEAGGEN
S1415‑p VPAGEsssEAGGENy
Y1422‑p sEAGGENyKDADECL
S1597‑p RDALVDFsEQytPEA
Y1600‑p LVDFsEQytPEADPY
T1601‑p VDFsEQytPEADPYF
S1616‑p IQDRFLNsFEELQAE
Y1688‑p CINTDGSyKCLCLPG
  LTBP1 iso3  
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
N21 LPPLLVSNHTGRIKV
T31 GRIKVVFTPSICKVT
N52 QNSCEKGNTTTLISE
S112 QIPVHGASVPKLYQH
S134 LGTHVIHSTHTLPLT
T135 GTHVIHSTHTLPLTV
T137 HVIHSTHTLPLTVTS
T141 STHTLPLTVTSQQGV
T143 HTLPLTVTSQQGVKV
S144 TLPLTVTSQQGVKVK
S175 SVQIHQVSRIDGPTG
Y197 PGQSQVSYQGLPVQK
T205 QGLPVQKTQTIHSTY
T207 LPVQKTQTIHSTYSH
S210 QKTQTIHSTYSHQQV
T211 KTQTIHSTYSHQQVI
S213 QTIHSTYSHQQVIPH
- gap
- gap
- gap
T406 EEPVEALTFsREHGP
S408‑p PVEALTFsREHGPGV
T422 VAEPEVATAPPEKEI
S431 PPEKEIPSLDQEKTK
Y517 CINLPVRYTCICYEG
T518 INLPVRYTCICYEGY
Y522 VRYTCICYEGYRFSE
Y525 TCICYEGYRFSEQQR
Y609 CEYCDSGYRMTQRGR
T612 CDSGYRMTQRGRCED
N671 LEPNVCANGDCSNLE
T954 QCRSRTSTDLDVDVD
N987 CDNVLAPNVTKQECC
S1034 GFVPAGESSSEAGGE
S1035 FVPAGESSSEAGGEN
S1036 VPAGESSSEAGGENY
Y1043 SEAGGENYKDADECL
S1218 RDALVDFSEQYTPEA
Y1221 LVDFSEQYTPEADPY
T1222 VDFSEQYTPEADPYF
S1237 IQDRFLNSFEELQAE
Y1309 CINTDGSYKCLCLPG
  LTBP1 iso4  
S66 NARYSRSSAAAGAPS
I221 KGKACETIAAQDTSS
S240 GQSPGAASSWGPPEQ
S296 VTPLSSQSVVIHHGQ
T304 VVIHHGQTQEYVLKP
K318 PKYFPAQKGISGEQS
S321 FPAQKGISGEQSTEG
S325 KGISGEQSTEGSFPL
T326 GISGEQSTEGSFPLR
N347 AAPFQLSNHTGRIKV
T357 GRIKVVFTPSICKVT
N378 QNSCEKGNTTTLISE
S438 QIPVHGASVPKLYQH
S460 LGTHVIHSTHTLPLT
T461 GTHVIHSTHTLPLTV
T463 HVIHSTHTLPLTVTS
T467 STHTLPLTVTSQQGV
T469 HTLPLTVTSQQGVKV
S470 TLPLTVTSQQGVKVK
S501 SVQIHQVSRIDGPTG
Y523 PGQSQVSYQGLPVQK
T531 QGLPVQKTQTIHSTY
T533 LPVQKTQTIHSTYSH
S536 QKTQTIHSTYSHQQV
T537 KTQTIHSTYSHQQVI
S539 QTIHSTYSHQQVIPH
S738 GGMGYTVSGVHRRRP
S768 NTQPVAKSTHPPPLP
T769 TQPVAKSTHPPPLPA
T785 EEPVEALTFSREHGP
S787 PVEALTFSREHGPGV
T801 VAEPEVATAPPEKEI
S810 PPEKEIPSLDQEKTK
Y897 CINLPVRYTCICYEG
T898 INLPVRYTCICYEGY
Y902 VRYTCICYEGYRFSE
Y905 TCICYEGYRFSEQQR
Y989 CEYCDSGYRMTQRGR
T992 CDSGYRMTQRGRCED
N1051 LEPNVCANGDCSNLE
T1334 QCRSRTSTDLDVDVD
N1367 CDNVLAPNVTKQECC
S1414 GFVPAGESSSEAGGE
S1415 FVPAGESSSEAGGEN
S1416 VPAGESSSEAGGENY
Y1423 SEAGGENYKDADECL
S1598 RDALVDFSEQYTPEA
Y1601 LVDFSEQYTPEADPY
T1602 VDFSEQYTPEADPYF
S1617 IQDRFLNSFEELQAE
Y1689 CINTDGSYKCLCLPG
  mouse

 
S64 DARYSRSSTAASSRA
T215 KGKACEITAAQDTMP
S232 FGGQNPGSSWAPLEQ
N288 VAPLSSQNVMIRHGQ
T296 VMIRHGQTQEYLLKP
K310 PKYFPAPKVVsAEQS
S313‑p FPAPKVVsAEQSTEG
S317 KVVsAEQSTEGSFSL
T318 VVsAEQSTEGSFSLR
N339‑ng TAPFQVSnHTGRIKV
T349 GRIKVVFTPSICKVT
N370‑ng QNSCQKGnTTTLISE
S430 QIPVLGASMPKLYQH
S452 LGSHVIHSTHTLPLT
T453 GSHVIHSTHTLPLTM
T455 HVIHSTHTLPLTMTS
T459 STHTLPLTMTSQQGV
T461 HTLPLTMTSQQGVKV
S462 TLPLTMTSQQGVKVK
S493 SVQIHQVSRIDSPGG
Y515 PGQSQVSYQGLPVQK
T523 QGLPVQKTQTVHSTY
T525 LPVQKTQTVHSTYSH
S528 QKTQTVHSTYSHQQL
T529 KTQTVHSTYSHQQLI
S531 QTVHSTYSHQQLIPH
S730 GGMGYTVSGVHRRRP
S760 NTQPVAKSTHPPPLP
T761 TQPVAKSTHPPPLPA
T777 EEPVEALTSSWEHGP
S779 PVEALTSSWEHGPRG
T793 GAEPEVVTAPPEKEI
S802 PPEKEIPSLDQEKTR
Y888 CINLPVRYTCICYEG
T889 INLPVRYTCICYEGY
Y893 VRYTCICYEGYKFSE
Y896 TCICYEGYKFSEQLR
Y980 CEYCDSGYRMSRRGY
S983 CDSGYRMSRRGYCED
N1042‑ng LQPKVCTnGSCTNLE
E1325 QCRSRVTEDSGVDRQ
N1357‑ng CDNVLAPnVTKQECC
S1404 GLVPAGESSYDTGGE
S1405 LVPAGESSYDTGGEN
Y1406 VPAGESSYDTGGENY
Y1413 YDTGGENYKDADECL
S1588 RDALVDFSEQYGPET
Y1591 LVDFSEQYGPETDPY
G1592 VDFSEQYGPETDPYF
S1607‑p IQDRFLNsFEELQAE
Y1679 CINTEGSYKCLCLPG