PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 12697759-6 2003 Together these inactivating substitutions identified seven NR1 residues (Ile-385, Gln-387, Glu-388, Thr-500, Asn-502, Ala-696, and Val-717) that undergo proximity-induced covalent coupling with specific regions of the bound antagonist and disclose its mode of docking in the glycine binding pocket of the NMDA receptor. Glutamine 82-85 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 59-62 2570626-0 1989 NMDA receptor activation by residual glutamate in glutamine preparations: a cautionary note regarding weak NMDA receptor agonists. Glutamine 50-59 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 0-13 2570626-3 1989 However, NMDA receptor activation induced by glutamine probably represented activity of residual glutamate because: (a) recrystallization of glutamine reduced residual glutamate levels (measured by HPLC analysis) and NMDA receptor activation by comparable amounts; and (b) glutamate at concentrations close to those predicted to be present in glutamine preparations elicited currents of similar amplitudes. Glutamine 45-54 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 9-22 2570626-3 1989 However, NMDA receptor activation induced by glutamine probably represented activity of residual glutamate because: (a) recrystallization of glutamine reduced residual glutamate levels (measured by HPLC analysis) and NMDA receptor activation by comparable amounts; and (b) glutamate at concentrations close to those predicted to be present in glutamine preparations elicited currents of similar amplitudes. Glutamine 45-54 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 217-230 2570626-3 1989 However, NMDA receptor activation induced by glutamine probably represented activity of residual glutamate because: (a) recrystallization of glutamine reduced residual glutamate levels (measured by HPLC analysis) and NMDA receptor activation by comparable amounts; and (b) glutamate at concentrations close to those predicted to be present in glutamine preparations elicited currents of similar amplitudes. Glutamine 141-150 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 9-22 2570626-3 1989 However, NMDA receptor activation induced by glutamine probably represented activity of residual glutamate because: (a) recrystallization of glutamine reduced residual glutamate levels (measured by HPLC analysis) and NMDA receptor activation by comparable amounts; and (b) glutamate at concentrations close to those predicted to be present in glutamine preparations elicited currents of similar amplitudes. Glutamine 141-150 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 217-230 2570626-3 1989 However, NMDA receptor activation induced by glutamine probably represented activity of residual glutamate because: (a) recrystallization of glutamine reduced residual glutamate levels (measured by HPLC analysis) and NMDA receptor activation by comparable amounts; and (b) glutamate at concentrations close to those predicted to be present in glutamine preparations elicited currents of similar amplitudes. Glutamine 141-150 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 9-22 2570626-3 1989 However, NMDA receptor activation induced by glutamine probably represented activity of residual glutamate because: (a) recrystallization of glutamine reduced residual glutamate levels (measured by HPLC analysis) and NMDA receptor activation by comparable amounts; and (b) glutamate at concentrations close to those predicted to be present in glutamine preparations elicited currents of similar amplitudes. Glutamine 141-150 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 217-230 8347808-3 1993 Furthermore, the replacement by glutamine or arginine of the conserved asparagine residue in segment M2 of the epsilon 2 and zeta 1 NMDA receptor channel subunits reduced the sensitivities to PCP, ketamine and SKF-10,047, though to different extents. Glutamine 32-41 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 132-145 8815211-9 1996 Mutation of the N-site asparagine (N) to glutamine (Q) at homologous positions in either NR1 (position 598) or NR2A (position 595) increased the permeability of DMA relative to wild-type channels about equally. Glutamine 41-50 glutamate ionotropic receptor NMDA type subunit 1 L homeolog Xenopus laevis 89-92