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

 
0 1   S5‑p ___MTFNsFEGSkTC
0 2   K10‑ub FNsFEGSkTCVPADI
0 2   K19‑ub CVPADINkEEEFVEE
0 9   K31‑ub VEEFNRLktFANFPS
0 2   T32‑p EEFNRLktFANFPSG
1 1   S40‑p FANFPSGsPVSAstL
0 2   S45‑p SGsPVSAstLARAGF
0 2   T46‑p GsPVSAstLARAGFL
6 0   S87‑p VGRHRKVsPNCRFIN
0 3   K116‑ub GIQNGQYkVENyLGs
0 1   Y120‑p GQYkVENyLGsRDHF
0 1   S123‑p kVENyLGsRDHFALD
0 1   R131‑m1 RDHFALDrPSETHAD
1 1   Y139‑p PSETHADyLLRTGQV
0 7   K168‑ub YSEEARLkSFQNWPD
0 1   S169 SEEARLkSFQNWPDY
0 3   T180‑p WPDYAHLtPRELASA
0 2   K208‑ub FCCGGKLkNWEPCDR
0 1   S218‑p EPCDRAWsEHRRHFP
0 1   R248‑m1 SDAVSSDrNFPNSTN
0 1   K297‑ub YALGEGDkVKCFHCG
0 1   K311‑ub GGGLTDWkPSEDPWE
1 0   K322‑ub DPWEQHAkWYPGCkY
1 1   K328‑ub AkWYPGCkYLLEQkG
0 1   K334‑ub CkYLLEQkGQEYINN
0 1   S347‑p NNIHLTHsLEECLVR
0 5   K358‑ub CLVRTTEkTPsLTRR
0 1   S361‑p RTTEkTPsLTRRIDD
0 1   S400‑p MEEKIQIsGsNyksL
0 2   S402‑p EKIQIsGsNyksLEV
0 2   Y404‑p IQIsGsNyksLEVLV
0 4   K405‑ub QIsGsNyksLEVLVA
0 1   K405‑sm QIsGsNyksLEVLVA
0 2   S406‑p IsGsNyksLEVLVAD
0 1   T429‑p MQDESSQtsLQkEIs
1 1   S430‑p QDESSQtsLQkEIst
0 1   K433‑ub SSQtsLQkEIstEEQ
0 1   S436‑p tsLQkEIstEEQLRR
0 1   T437‑p sLQkEIstEEQLRRL
0 1   K480‑ub QCAEAVDkCPMCYTV
  mouse

 
S5 ___MTFNSFEGTRTF
R10 FNSFEGTRTFVLADT
K19‑ub FVLADTNkDEEFVEE
K31‑ub VEEFNRLkTFANFPS
T32 EEFNRLkTFANFPSS
S40 FANFPSSSPVSASTL
S45 SSSPVSASTLARAGF
T46 SSPVSASTLARAGFL
S87‑p VGRHRRIsPNCRFIN
K116 GIQNGQYKSENCVGN
C120 GQYKSENCVGNRNPF
N123 KSENCVGNRNPFAPD
R131 RNPFAPDRPPETHAD
Y139 PPETHADYLLRTGQV
K168‑ub CSEEARLksFQNWPD
S169‑p SEEARLksFQNWPDY
T180 WPDYAHLTPRELASA
K208 FCCGGKLKNWEPCDR
S218‑p EPCDRAWsEHRRHFP
R247 ESGVSSDRNFPNSTN
K296 YALGEGDKVKCFHCG
K310 GGGLTDWKPSEDPWE
K321 DPWEQHAKWYPGCKY
K327 AKWYPGCKYLLDEKG
K333 CKYLLDEKGQEYINN
S346 NNIHLTHSLEESLGR
K357 SLGRTAEKTPSLTKK
S360 RTAEKTPSLTKKIDD
S399 MEEKIQTSGSSYLSL
S401 EKIQTSGSSYLSLEV
Y403 IQTSGSSYLSLEVLI
L404 QTSGSSYLSLEVLIA
L404 QTSGSSYLSLEVLIA
S405 TSGSSYLSLEVLIAD
T428 TEDESSQTSLQKDIS
S429 EDESSQTSLQKDIST
K432 SSQTSLQKDISTEEQ
S435 TSLQKDISTEEQLRR
T436 SLQKDISTEEQLRRL
K479 QCAEAVDKCPMCYTV
  rat

 
S5 ___MTFNSFEGSRTV
R10 FNSFEGSRTVVPADT
K19 VVPADTNKDEEFVEE
K31 VEEFNRLKTFANFPS
T32 EEFNRLKTFANFPSS
S40 FANFPSSSPVSASTL
S45 SSSPVSASTLARAGF
T46 SSPVSASTLARAGFL
S87 VGRHRRISPNCRFIN
K116 GIQNGQYKSENCVGN
C120 GQYKSENCVGNRNHF
N123 KSENCVGNRNHFALD
R131 RNHFALDRPSETHAD
Y139‑p PSETHADyLLRTGQV
K168 CSEEARLKTFQNWPD
T169 SEEARLKTFQNWPDY
S180 WPDYAHLSPRELASA
K208 FCCGGKLKNWEPCDR
S218 EPCDRAWSEHRRHFP
R247 ESGVSSDRNFPNSTN
K296 YALGEGDKVKCFHCG
K310 GGGLTDWKPSEDPWE
K321 DPWEQHAKWYPGCKY
K327 AKWYPGCKYLLDEKG
K333 CKYLLDEKGQEYINN
S346 NNIHLTHSLGESVVR
K357 SVVRTAEKTPSVTKK
S360 RTAEKTPSVTKKIDD
S399 MEEKLQTSGSNYLSL
S401 EKLQTSGSNYLSLEV
Y403 LQTSGSNYLSLEVLI
L404 QTSGSNYLSLEVLIA
L404 QTSGSNYLSLEVLIA
S405 TSGSNYLSLEVLIAD
T428 SQDESSQTSLQKDIS
S429 QDESSQTSLQKDIST
K432 SSQTSLQKDISTEEQ
S435 TSLQKDISTEEQLRR
T436 SLQKDISTEEQLRRL
K479 QCAEAVDKCPMCCTV