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

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0 1   K3‑ac _____MGkVWKQQMY
0 1   Y10 kVWKQQMYPQyATyY
0 2   Y13‑p KQQMYPQyATyYYPQ
0 1   T15 QMYPQyATyYYPQYL
0 3   Y16‑p MYPQyATyYYPQYLQ
0 2   Y17 YPQyATyYYPQYLQA
0 1   K25‑ac YPQYLQAkQsLVPAH
0 2   S27‑p QYLQAkQsLVPAHPM
0 6   S38‑p AHPMAPPsPSTTSsN
0 1   S43 PPsPSTTSsNNNsss
0 1   S44‑p PsPSTTSsNNNsssS
0 1   S48‑p TTSsNNNsssSSNSG
0 1   S49‑p TSsNNNsssSSNSGW
0 1   S50‑p SsNNNsssSSNSGWD
0 1   K80 TTDQDLVKLCQPYGK
0 3   Y105 ATNKCKGYGFVDFDs
0 17   S112‑p YGFVDFDsPAAAQKA
0 2   K118 DsPAAAQKAVSALKA
0 2   K124 QKAVSALKANGVQAQ
0 8   K207‑ub HFNGKFIktPPGVSA
0 7   T208‑p FNGKFIktPPGVSAP
0 3   S213 IktPPGVSAPTEPLL
0 3   K236 KKRQNPNKYIPNGRP
0 1   S270 LHNGFYPSPySIATN
0 1   Y272‑p NGFYPSPySIATNRM
0 2   S395 VETSNDHSPYTFPPN
0 3   Y397 TSNDHSPYTFPPNK_
0 1   T398 SNDHSPYTFPPNK__
  RBMS1 iso3  
- gap
- gap
- gap
- gap
- gap
- gap
- gap
- gap
S5 ___MAPPSPSTTSSN
S10 PPSPSTTSSNNNSSS
S11 PSPSTTSSNNNSSSS
S15 TTSSNNNSSSSSNSG
S16 TSSNNNSSSSSNSGW
S17 SSNNNSSSSSNSGWD
K47 TTDQDLVKLCQPYGK
Y72 ATNKCKGYGFVDFDS
S79 YGFVDFDSPAAAQKA
K85 DSPAAAQKAVSALKA
K91 QKAVSALKANGVQAQ
K174 HFNGKFIKTPPGVSA
T175 FNGKFIKTPPGVSAP
S180 IKTPPGVSAPTEPLL
K203 KKRQNPNKYIPNGRP
S237 LHNGFYPSPYSIATN
Y239 NGFYPSPYSIATNRM
S378 VETSNDHSPYTFPPN
Y380 TSNDHSPYTFPPNK_
T381 SNDHSPYTFPPNK__
  human

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K3 _____MGKVWKQQMy
Y10‑p KVWKQQMyPQyAtyy
Y13‑p KQQMyPQyAtyyYPQ
T15‑p QMyPQyAtyyYPQYL
Y16‑p MyPQyAtyyYPQYLQ
Y17‑p yPQyAtyyYPQYLQA
K25 YPQYLQAKQsLVPAH
S27‑p QYLQAKQsLVPAHPM
S38‑p AHPMAPPsPSTTsSN
S43‑p PPsPSTTsSNNNSSS
S44 PsPSTTsSNNNSSSS
S48 TTsSNNNSSSSSNSG
S49 TsSNNNSSSSSNSGW
S50 sSNNNSSSSSNSGWD
K80‑ub TTDQDLVkLCQPYGK
Y105‑p TTNKCKGyGFVDFDs
S112‑p yGFVDFDsPAAAQkA
K118‑ub DsPAAAQkAVSALkA
K124‑ub QkAVSALkASGVQAQ
K207‑ub HFNGKFIktPPGVsA
T208‑p FNGKFIktPPGVsAP
S213‑p IktPPGVsAPTEPLL
K236‑ub KKRQNPNkYIPNGRP
S273‑p IQNGFYPsPYSIATN
Y275 NGFYPsPYSIATNRM
S398‑p VETSNDHsPytFQPN
Y400‑p TSNDHsPytFQPNK_
T401‑p SNDHsPytFQPNK__
  RBMS1 iso2  
K3 _____MGKVWKQQMY
Y10 KVWKQQMYPQYATYY
Y13 KQQMYPQYATYYYPQ
T15 QMYPQYATYYYPQYL
Y16 MYPQYATYYYPQYLQ
Y17 YPQYATYYYPQYLQA
K25 YPQYLQAKQSLVPAH
S27 QYLQAKQSLVPAHPM
S38 AHPMAPPSPSTTSSN
S43 PPSPSTTSSNNNSSS
S44 PSPSTTSSNNNSSSS
S48 TTSSNNNSSSSSNSG
S49 TSSNNNSSSSSNSGW
S50 SSNNNSSSSSNSGWD
K80 TTDQDLVKLCQPYGK
Y105 TTNKCKGYGFVDFDS
S112 YGFVDFDSPAAAQKA
K118 DSPAAAQKAVSALKA
K124 QKAVSALKASGVQAQ
K207 HFNGKFIKTPPGVSA
T208 FNGKFIKTPPGVSAP
S213 IKTPPGVSAPTEPLL
K236 KKRQNPNKYIPNGRP
S270 IQNGFYPSPYSIATN
Y272 NGFYPSPYSIATNRM
S395 VETSNDHSPYTFQPN
Y397 TSNDHSPYTFQPNK_
T398 SNDHSPYTFQPNK__
  rat

 
K3 _____MGKVWKQQMY
Y10 KVWKQQMYPQYATYY
Y13 KQQMYPQYATYYYPQ
T15 QMYPQYATYYYPQYL
Y16 MYPQYATYYYPQYLQ
Y17 YPQYATYYYPQYLQA
K25 YPQYLQAKQSLVPAH
S27 QYLQAKQSLVPAHPM
S38 AHPMAPPSPSTTSSN
S43 PPSPSTTSSNNNSSS
S44 PSPSTTSSNNNSSSS
S48 TTSSNNNSSSSSNSG
S49 TSSNNNSSSSSNSGW
S50 SSNNNSSSSSNSGWD
K80 TTDQDLVKLCQPYGK
Y105 ATNKCKGYGFVDFDS
S112 YGFVDFDSPAAAQKA
K118 DSPAAAQKAVSALKA
K124 QKAVSALKASGVQAQ
K207 HFNGKFIKTPPGVSA
T208 FNGKFIKTPPGVSAP
S213 IKTPPGVSAPTEPLL
K236 KKRQNPNKYIPNGRP
S270 LHNGFYPSPYSIATN
Y272 NGFYPSPYSIATNRM
S395 VETSNDHSPYTFPPN
Y397 TSNDHSPYTFPPNK_
T398 SNDHSPYTFPPNK__