p(HGNC:MAPT, pmod(HBP:nitration, Tyr, 394))

Entity

Name

MAPT

Namespace

hgnc

Namespace Version

20180906

Namespace URL

https://raw.githubusercontent.com/pharmacome/terminology/b46b65c3da259b6e86026514dfececab7c22a11b/external/hgnc-names.belns

Tau Modifications Sections of NESTOR

Select nitration of residues Tyr18, Tyr29, Tyr197, and Tyr394, events known to stabilize the pathological Alz-50 conformation inhibits the ability of monomeric tau to promote tubulin assembly, effect specific for the 3-NT modification, as mutant tau proteins pseudophosphorylated at each Tyr residue are fully competent to stabilize MTs, suggesting that ONOO(-)-mediated modifications stabilize tau filaments via 3,3'-DT bonding and destabilize MTs by site-selective nitration of tau monomers. PubMed:16566606

Select nitration of residues Tyr18, Tyr29, Tyr197, and Tyr394, events known to stabilize the pathological Alz-50 conformation inhibits the ability of monomeric tau to promote tubulin assembly, effect specific for the 3-NT modification, as mutant tau proteins pseudophosphorylated at each Tyr residue are fully competent to stabilize MTs, suggesting that ONOO(-)-mediated modifications stabilize tau filaments via 3,3'-DT bonding and destabilize MTs by site-selective nitration of tau monomers. PubMed:16566606

Select nitration of residues Tyr18, Tyr29, Tyr197, and Tyr394, events known to stabilize the pathological Alz-50 conformation inhibits the ability of monomeric tau to promote tubulin assembly, effect specific for the 3-NT modification, as mutant tau proteins pseudophosphorylated at each Tyr residue are fully competent to stabilize MTs, suggesting that ONOO(-)-mediated modifications stabilize tau filaments via 3,3'-DT bonding and destabilize MTs by site-selective nitration of tau monomers. PubMed:16566606

The nitration of tau Tyr197 is found in the normal human brain and may have important physiological functions, whereas the nitration of Tyr18, Tyr29 and Tyr394 is detected only in AD or other tauopathies PubMed:26631930

The nitration of tau Tyr197 is found in the normal human brain and may have important physiological functions, whereas the nitration of Tyr18, Tyr29 and Tyr394 is detected only in AD or other tauopathies PubMed:26631930

Further, select nitration of residues Tyr18, Tyr29, Tyr197, and Tyr394, events known to stabilize the pathological Alz-50 conformation [Reynolds et al. (2005) Biochemistry 44, 13997-14009], inhibits the ability of monomeric tau to promote tubulin assembly. PubMed:16566606

Select nitration of residues Tyr18, Tyr29, Tyr197, and Tyr394, events known to stabilize the pathological Alz-50 conformation inhibits the ability of monomeric tau to promote tubulin assembly, effect specific for the 3-NT modification, as mutant tau proteins pseudophosphorylated at each Tyr residue are fully competent to stabilize MTs, suggesting that ONOO(-)-mediated modifications stabilize tau filaments via 3,3'-DT bonding and destabilize MTs by site-selective nitration of tau monomers. PubMed:16566606

Select nitration of residues Tyr18, Tyr29, Tyr197, and Tyr394, events known to stabilize the pathological Alz-50 conformation inhibits the ability of monomeric tau to promote tubulin assembly, effect specific for the 3-NT modification, as mutant tau proteins pseudophosphorylated at each Tyr residue are fully competent to stabilize MTs, suggesting that ONOO(-)-mediated modifications stabilize tau filaments via 3,3'-DT bonding and destabilize MTs by site-selective nitration of tau monomers. PubMed:16566606

The nitration of tau Tyr197 is found in the normal human brain and may have important physiological functions, whereas the nitration of Tyr18, Tyr29 and Tyr394 is detected only in AD or other tauopathies PubMed:26631930

The nitration of tau Tyr197 is found in the normal human brain and may have important physiological functions, whereas the nitration of Tyr18, Tyr29 and Tyr394 is detected only in AD or other tauopathies PubMed:26631930

The nitration of these Tyr residues alters the conformation of tau, reduces its binding to microtubules and, depending on the nitration sites, can promote or inhibit aggregation PubMed:26631930