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

► Hide Isoforms
 
0 1   S13‑p ALIVLAHsERTSFNy
0 21   Y20‑p sERTSFNyAMkEAAA
0 4   K23‑ub TSFNyAMkEAAAAAL
0 2   K31‑ac EAAAAALkKkGWEVV
0 5   K31‑ub EAAAAALkKkGWEVV
0 1   K31‑sc EAAAAALkKkGWEVV
0 4   K33‑ub AAAALkKkGWEVVEs
2 1   S40‑p kGWEVVEsDLyAMNF
0 1   Y43‑p EVVEsDLyAMNFNPI
0 1   K54‑ub FNPIISRkDITGkLk
0 1   K59‑ac SRkDITGkLkDPANF
0 4   K59‑ub SRkDITGkLkDPANF
0 7   K61‑ub kDITGkLkDPANFQy
0 5   K61‑ac kDITGkLkDPANFQy
0 2   Y68‑p kDPANFQyPAESVLA
0 3   Y76‑p PAESVLAykEGHLsP
0 8   K77‑ac AESVLAykEGHLsPD
0 4   K77‑ub AESVLAykEGHLsPD
3 14   S82‑p AykEGHLsPDIVAEQ
0 5   K90‑ub PDIVAEQkkLEAADL
0 1   K90‑sc PDIVAEQkkLEAADL
0 2   K90‑ac PDIVAEQkkLEAADL
0 1   K91‑ub DIVAEQkkLEAADLV
0 1   Y127‑p VFIGEFAytyAAMyD
2 1   T128‑p FIGEFAytyAAMyDk
0 1   Y129‑p IGEFAytyAAMyDkG
0 1   Y133‑p AytyAAMyDkGPFRS
0 1   K135‑ub tyAAMyDkGPFRSKK
0 17   K209‑ac IQILEGWkkRLENIW
0 5   K209‑ub IQILEGWkkRLENIW
0 1   K209‑sc IQILEGWkkRLENIW
0 1   K210‑ac QILEGWkkRLENIWD
0 4   K210‑ub QILEGWkkRLENIWD
0 2   K241‑ub QAGFLMKkEVQDEEk
0 2   K248‑ub kEVQDEEkNKkFGLs
0 4   K251‑ub QDEEkNKkFGLsVGH
0 8   K251‑ac QDEEkNKkFGLsVGH
0 1   K251‑sm QDEEkNKkFGLsVGH
0 1   S255‑p kNKkFGLsVGHHLGk
0 2   K262‑ac sVGHHLGkSIPTDNQ
0 3   K262‑ub sVGHHLGkSIPTDNQ
0 4   K271‑ub IPTDNQIkARK____
0 1   K271‑sm IPTDNQIkARK____
  NQO1 iso2  
S13 ALIVLAHSERTSFNY
Y20 SERTSFNYAMKEAAA
K23 TSFNYAMKEAAAAAL
K31 EAAAAALKKKGWEVV
K31 EAAAAALKKKGWEVV
K31 EAAAAALKKKGWEVV
K33 AAAALKKKGWEVVES
S40 KGWEVVESDLYAMNF
Y43 EVVESDLYAMNFNPI
K54 FNPIISRKDITGKLK
K59 SRKDITGKLKDPANF
K59 SRKDITGKLKDPANF
K61 KDITGKLKDPANFQY
K61 KDITGKLKDPANFQY
Y68 KDPANFQYPAESVLA
Y76 PAESVLAYKEGHLSP
K77 AESVLAYKEGHLSPD
K77 AESVLAYKEGHLSPD
S82 AYKEGHLSPDIVAEQ
K90 PDIVAEQKKLEAADL
K90 PDIVAEQKKLEAADL
K90 PDIVAEQKKLEAADL
K91 DIVAEQKKLEAADLV
Y127 VFIGEFAYTYAAMYD
T128 FIGEFAYTYAAMYDK
Y129 IGEFAYTYAAMYDKG
Y133 AYTYAAMYDKGPFRS
K135 TYAAMYDKGPFRSGI
K175 IQILEGWKKRLENIW
K175 IQILEGWKKRLENIW
K175 IQILEGWKKRLENIW
K176 QILEGWKKRLENIWD
K176 QILEGWKKRLENIWD
K207 QAGFLMKKEVQDEEK
K214 KEVQDEEKNKKFGLS
K217 QDEEKNKKFGLSVGH
K217 QDEEKNKKFGLSVGH
K217 QDEEKNKKFGLSVGH
S221 KNKKFGLSVGHHLGK
K228 SVGHHLGKSIPTDNQ
K228 SVGHHLGKSIPTDNQ
K237 IPTDNQIKARK____
K237 IPTDNQIKARK____
  NQO1 iso3  
S13 ALIVLAHSERTSFNY
Y20 SERTSFNYAMKEAAA
K23 TSFNYAMKEAAAAAL
K31 EAAAAALKKKGWEVV
K31 EAAAAALKKKGWEVV
K31 EAAAAALKKKGWEVV
K33 AAAALKKKGWEVVES
S40 KGWEVVESDLYAMNF
Y43 EVVESDLYAMNFNPI
K54 FNPIISRKDITGKLK
K59 SRKDITGKLKDPANF
K59 SRKDITGKLKDPANF
K61 KDITGKLKDPANFQY
K61 KDITGKLKDPANFQY
Y68 KDPANFQYPAESVLA
Y76 PAESVLAYKEGHLSP
K77 AESVLAYKEGHLSPD
K77 AESVLAYKEGHLSPD
S82 AYKEGHLSPDIVAEQ
K90 PDIVAEQKKLEAADL
K90 PDIVAEQKKLEAADL
K90 PDIVAEQKKLEAADL
K91 DIVAEQKKLEAADLV
- gap
- gap
- gap
- gap
- gap
K171 IQILEGWKKRLENIW
K171 IQILEGWKKRLENIW
K171 IQILEGWKKRLENIW
K172 QILEGWKKRLENIWD
K172 QILEGWKKRLENIWD
K203 QAGFLMKKEVQDEEK
K210 KEVQDEEKNKKFGLS
K213 QDEEKNKKFGLSVGH
K213 QDEEKNKKFGLSVGH
K213 QDEEKNKKFGLSVGH
S217 KNKKFGLSVGHHLGK
K224 SVGHHLGKSIPTDNQ
K224 SVGHHLGKSIPTDNQ
K233 IPTDNQIKARK____
K233 IPTDNQIKARK____
  mouse

 
S13 ALIVLAHSEKTSFNY
Y20 SEKTSFNYAMKEAAV
K23 TSFNYAMKEAAVEAL
K31 EAAVEALKKRGWEVL
K31 EAAVEALKKRGWEVL
K31 EAAVEALKKRGWEVL
R33 AVEALKKRGWEVLES
S40 RGWEVLESDLYAMNF
Y43 EVLESDLYAMNFNPI
N54 FNPIISRNDITGELK
E59 SRNDITGELKDSKNF
E59 SRNDITGELKDSKNF
K61 NDITGELKDSKNFQY
K61 NDITGELKDSKNFQY
Y68 KDSKNFQYPSESSLA
Y76 PSESSLAYkEGRLsP
K77 SESSLAYKEGRLsPD
K77‑ub SESSLAYkEGRLsPD
S82‑p AYkEGRLsPDIVAEH
K90 PDIVAEHKKLEAADL
K90 PDIVAEHKKLEAADL
K90 PDIVAEHKKLEAADL
K91 DIVAEHKKLEAADLV
Y127 VLVAGFAYTYAAMYD
T128 LVAGFAYTYAAMYDN
Y129 VAGFAYTYAAMYDNG
Y133 AYTYAAMYDNGPFQN
N135 TYAAMYDNGPFQNKK
K209 MQILEGWKKRLETVW
K209 MQILEGWKKRLETVW
K209 MQILEGWKKRLETVW
K210 QILEGWKKRLETVWE
K210 QILEGWKKRLETVWE
K241 QAGFLMKKEVQEEQK
K248 KEVQEEQKKNKFGLS
K251 QEEQKKNKFGLSVGH
K251 QEEQKKNKFGLSVGH
K251 QEEQKKNKFGLSVGH
S255 KKNKFGLSVGHHLGK
K262 SVGHHLGKSIPADNQ
K262 SVGHHLGKSIPADNQ
K271 IPADNQIKARK____
K271 IPADNQIKARK____
  rat

 
A13 ALIVLAHAERTSFNY
Y20 AERTSFNYAMKEAAV
K23 TSFNYAMKEAAVEAL
K31 EAAVEALKKKGWEVV
K31 EAAVEALKKKGWEVV
K31 EAAVEALKKKGWEVV
K33 AVEALKKKGWEVVES
S40 KGWEVVESDLYAMNF
Y43 EVVESDLYAMNFNPL
N54 FNPLISRNDITGEPk
E59 SRNDITGEPkDSENF
E59 SRNDITGEPkDSENF
K61 NDITGEPKDSENFQY
K61‑ac NDITGEPkDSENFQY
Y68 kDSENFQYPVESSLA
Y76 PVESSLAYkEGRLsP
K77‑ac VESSLAYkEGRLsPD
K77 VESSLAYKEGRLsPD
S82‑p AYkEGRLsPDIVAEQ
K90 PDIVAEQKKLEAADL
K90 PDIVAEQKKLEAADL
K90‑ac PDIVAEQkKLEAADL
K91 DIVAEQkKLEAADLV
Y127 VLVAGFAYTYATMYD
T128 LVAGFAYTYATMYDK
Y129 VAGFAYTYATMYDKG
Y133 AYTYATMYDKGPFQN
K135 TYATMYDKGPFQNKK
K209 VQVLEGWKKRLETVW
K209 VQVLEGWKKRLETVW
K209 VQVLEGWKKRLETVW
K210 QVLEGWKKRLETVWE
K210 QVLEGWKKRLETVWE
K241 QAGFLLKKEVQEEQK
K248 KEVQEEQKKNkFGLS
K251 QEEQKKNKFGLSVGH
K251‑ac QEEQKKNkFGLSVGH
K251 QEEQKKNKFGLSVGH
S255 KKNkFGLSVGHHLGK
K262 SVGHHLGKSIPADNQ
K262 SVGHHLGKSIPADNQ
K271 IPADNQIKARK____
K271 IPADNQIKARK____