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

 
1 0   Y4 ____MVDYSVWDHIE
0 3   S5 ___MVDYSVWDHIEV
13 29   S13‑p VWDHIEVsDDEDETH
0 1   K45 ERMEQFQKEKEELDR
0 2   K60 GCRECKRKVAECQRK
0 1   K67 KVAECQRKLkELEVA
0 1   K69 AECQRKLKELEVAES
0 9   K69‑ub AECQRKLkELEVAES
0 17   Q79 EVAESDGQVELERLR
0 1   K94 AEAQQLRKEERSWEQ
1 1   S98 QLRKEERSWEQKLED
0 3   K102 EERSWEQKLEDMRKK
0 4   K111 EDMRKKEKNMPWNVD
0 1   N112 DMRKKEKNMPWNVDt
0 3   T119‑p NMPWNVDtLsKDGFS
0 9   S121‑p PWNVDtLsKDGFSKS
0 4   K122 WNVDtLsKDGFSKSM
0 1   K127 LsKDGFSKSMVNTkP
1 2   S128 sKDGFSKSMVNTkPE
1 1   T132 FSKSMVNTkPEKAEE
0 1   K133‑ub SKSMVNTkPEKAEED
0 2   K133 SKSMVNTKPEKAEED
0 1   K136 MVNTkPEKAEEDsEE
0 1   A137 VNTkPEKAEEDsEEA
0 3   S141‑p PEKAEEDsEEAREQK
0 7   K155 KHKTFVEKYEKQIKH
0 2   K158 TFVEKYEKQIKHFGM
0 1   K161 EKYEKQIKHFGMLHR
0 1   K241 CFRQFFTKIKTADHQ
0 1   H247 TKIKTADHQYMEGFk
0 1   K254‑ac HQYMEGFkYELEAFK
0 2   K261 kYELEAFKERVRGRA
0 89   Y279‑p IEKAMKEyEEEERKK
1 146   Y299‑p GLDPVEVyEsLPEEL
0 10   S301‑p DPVEVyEsLPEELQk
0 9   K308‑ub sLPEELQkCFDVKDV
0 1   K313 LQkCFDVKDVQMLQD
0 3   S323 QMLQDAISKMDPTDA
0 2   K324 MLQDAISKMDPTDAk
0 2   K331 KMDPTDAKYHMQRCI
0 7   K331‑ub KMDPTDAkYHMQRCI
1 1   S340 HMQRCIDSGLWVPNS
0 1   S347 SGLWVPNSkSGEAkE
0 23   K348‑ub GLWVPNSkSGEAkEG
0 8   K353‑ub NSkSGEAkEGEEAGP
0 1   K370 PLLEAVPKAGNEKDV
0 3   A371 LLEAVPKAGNEKDVs
0 2   K375 VPKAGNEKDVsA___
0 10   S378‑p AGNEKDVsA______
13248 : Phospho-CDC37 (Ser13) (D8P8F) Rabbit mAb
  human

 
Y4‑p ____MVDysVWDHIE
S5‑p ___MVDysVWDHIEV
S13‑p VWDHIEVsDDEDETH
K45‑ac ERMEQFQkEKEELDR
K60‑ac GCRECKRkVAECQRk
K67‑ub kVAECQRkLkELEVA
K69‑ac AECQRkLkELEVAEG
K69‑ub AECQRkLkELEVAEG
K78‑ac LEVAEGGkAELERLQ
K93‑ub AEAQQLRkEERsWEQ
S97‑p QLRkEERsWEQkLEE
K101‑ub EERsWEQkLEEMRKK
K110‑ub EEMRKKEksMPWNVD
S111‑p EMRKKEksMPWNVDt
T118‑p sMPWNVDtLskDGFS
S120‑p PWNVDtLskDGFSks
K121‑ub WNVDtLskDGFSksM
K126‑ub LskDGFSksMVNtkP
S127‑p skDGFSksMVNtkPE
T131‑p FSksMVNtkPEktEE
K132 SksMVNtKPEktEED
K132‑sm SksMVNtkPEktEED
K135‑ub MVNtkPEktEEDsEE
T136‑p VNtkPEktEEDsEEV
S140‑p PEktEEDsEEVREQK
K154‑ac KHKTFVEkYEkQIKH
K157‑ac TFVEkYEkQIKHFGM
K160 EkYEkQIKHFGMLRR
K240‑ac CFRQFFTkIKTADrQ
R246‑m1 TkIKTADrQYMEGFN
N253 rQYMEGFNDELEAFk
K260‑ub NDELEAFkERVRGRA
Y278‑p IEKAMKEyEEEERKK
Y298‑p GLDPVEVyEsLPEEL
S300‑p DPVEVyEsLPEELQk
K307‑ub sLPEELQkCFDVkDV
K312‑ub LQkCFDVkDVQMLQD
S322‑p QMLQDAIskMDPTDA
K323‑ub MLQDAIskMDPTDAk
K330‑ac kMDPTDAkYHMQRCI
K330‑ub kMDPTDAkYHMQRCI
S339‑p HMQRCIDsGLWVPNs
S346‑p sGLWVPNskASEAkE
K347‑ub GLWVPNskASEAkEG
K352‑ub NskASEAkEGEEAGP
K369‑ub PLLEAVPktGDEkDV
T370‑p LLEAVPktGDEkDVs
K374‑ub VPktGDEkDVsV___
S377‑p tGDEkDVsV______
13248 : Phospho-CDC37 (Ser13) (D8P8F) Rabbit mAb
  rat

 
Y4 ____MVDYSVWDHIE
S5 ___MVDYSVWDHIEV
S13‑p VWDHIEVsDDEDETH
K45 ERMEQFQKEKEELDR
K60 GCRECKRKVAECQRK
K67 KVAECQRKLKELEVA
K69 AECQRKLKELEVAEG
K69 AECQRKLKELEVAEG
Q79 EVAEGGGQVELERLR
K94 AEAQQLRKEERSWEQ
S98 QLRKEERSWEQKLED
K102 EERSWEQKLEDMRKK
K111 EDMRKKEKNMPWNVD
N112 DMRKKEKNMPWNVDT
T119 NMPWNVDTLSKDGFS
S121 PWNVDTLSKDGFSKS
K122 WNVDTLSKDGFSKSM
K127 LSKDGFSKSMVNTKP
S128 SKDGFSKSMVNTKPE
T132 FSKSMVNTKPEKAEE
K133 SKSMVNTKPEKAEED
K133 SKSMVNTKPEKAEED
K136 MVNTKPEKAEEDSEE
A137 VNTKPEKAEEDSEEA
S141 PEKAEEDSEEAREQK
K155‑ac KHKTFVEkYEkQIkH
K158‑ac TFVEkYEkQIkHFGM
K161‑ac EkYEkQIkHFGMLHR
K241 CFRQFFTKIKTADQQ
Q247 TKIKTADQQYMEGFK
K254 QQYMEGFKYELEAFK
K261 KYELEAFKERVRGRA
Y279 IEKAMKEYEEEERKK
Y299 GLDPVEVYESLPEEL
S301 DPVEVYESLPEELQK
K308 SLPEELQKCFDVKDV
K313 LQKCFDVKDVQMLQD
S323 QMLQDAISKMDPTDA
K324 MLQDAISKMDPTDAK
K331 KMDPTDAKYHMQRCI
K331 KMDPTDAKYHMQRCI
S340 HMQRCIDSGLWVPNS
S347 SGLWVPNSKSGEAKE
K348 GLWVPNSKSGEAKEG
K353 NSKSGEAKEGEEAGP
K370 PLLEAVPKAGNEKDI
A371 LLEAVPKAGNEKDIS
K375 VPKAGNEKDISA___
S378 AGNEKDISA______
13248 : Phospho-CDC37 (Ser13) (D8P8F) Rabbit mAb