| scholarly article | Q13442814 |
| P356 | DOI | 10.1021/BI00267A044 |
| P953 | full work available at URL | https://pubs.acs.org/doi/pdf/10.1021/bi00267a044 |
| P698 | PubMed publication ID | 6129891 |
| P2093 | author name string | B. I. Kanner | |
| A. Bendahan | |||
| P433 | issue | 24 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | biochemistry | Q7094 |
| P304 | page(s) | 6327-6330 | |
| P577 | publication date | 1982-11-01 | |
| 1982-11-23 | |||
| P1433 | published in | Biochemistry | Q764876 |
| P1476 | title | Binding order of substrates to the (sodium + potassium ion)-coupled L-glutamic acid transporter from rat brain | |
| P478 | volume | 21 |
| Q35842139 | A conserved aspartate residue located at the extracellular end of the binding pocket controls cation interactions in brain glutamate transporters |
| Q33967358 | A conserved methionine residue controls the substrate selectivity of a neuronal glutamate transporter |
| Q77778686 | A reentrant loop domain in the glutamate carrier EAAT1 participates in substrate binding and translocation |
| Q24319141 | ASCT-1 is a neutral amino acid exchanger with chloride channel activity |
| Q36985138 | Acute decrease in net glutamate uptake during energy deprivation. |
| Q90047711 | Allosteric gate modulation confers K+ coupling in glutamate transporters |
| Q41357976 | Altered glutamatergic transmission in neurological disorders: from high extracellular glutamate to excessive synaptic efficacy |
| Q36444945 | An intermediate state of the gamma-aminobutyric acid transporter GAT1 revealed by simultaneous voltage clamp and fluorescence |
| Q71574125 | Anion conductance behavior of the glutamate uptake carrier in salamander retinal glial cells |
| Q48396002 | Anion currents and predicted glutamate flux through a neuronal glutamate transporter. |
| Q44640396 | Arginine 445 Controls the Coupling between Glutamate and Cations in the Neuronal Transporter EAAC-1 |
| Q36296014 | Aspartate-444 is essential for productive substrate interactions in a neuronal glutamate transporter |
| Q48377837 | Biotinylation of single cysteine mutants of the glutamate transporter GLT-1 from rat brain reveals its unusual topology |
| Q90348823 | Both reentrant loops of the sodium-coupled glutamate transporters contain molecular determinants of cation selectivity |
| Q36137442 | Charge compensation mechanism of a Na+-coupled, secondary active glutamate transporter |
| Q28203723 | Cloning and expression of a rat brain L-glutamate transporter |
| Q40687672 | Comparison of coupled and uncoupled currents during glutamate uptake by GLT-1 transporters. |
| Q35236862 | Conditional deletion of the glutamate transporter GLT-1 reveals that astrocytic GLT-1 protects against fatal epilepsy while neuronal GLT-1 contributes significantly to glutamate uptake into synaptosomes |
| Q36006874 | Conserved asparagine residue located in binding pocket controls cation selectivity and substrate interactions in neuronal glutamate transporter |
| Q36295999 | Cooperation of the conserved aspartate 439 and bound amino acid substrate is important for high-affinity Na+ binding to the glutamate transporter EAAC1 |
| Q34600101 | Cotransporters as molecular water pumps |
| Q72471351 | Counter-transport of potassium by the glutamate uptake carrier in glial cells isolated from the tiger salamander retina |
| Q43691960 | Coupled, but not uncoupled, fluxes in a neuronal glutamate transporter can be activated by lithium ions |
| Q27643578 | Coupling substrate and ion binding to extracellular gate of a sodium-dependent aspartate transporter |
| Q45749363 | Cysteine mutagenesis reveals alternate proximity between transmembrane domain 2 and hairpin loop 1 of the glutamate transporter EAAT1. |
| Q36526395 | Cysteine scanning mutagenesis of transmembrane helix 3 of a brain glutamate transporter reveals two conformationally sensitive positions |
| Q48034731 | Cysteine scanning of the surroundings of an alkali-ion binding site of the glutamate transporter GLT-1 reveals a conformationally sensitive residue |
| Q43982363 | Cysteine-scanning mutagenesis reveals a conformationally sensitive reentrant pore-loop in the glutamate transporter GLT-1. |
| Q33676261 | Disulfide cross-linking of transport and trimerization domains of a neuronal glutamate transporter restricts the role of the substrate to the gating of the anion conductance |
| Q28217171 | Dynamic equilibrium between coupled and uncoupled modes of a neuronal glutamate transporter |
| Q30990921 | Early intermediates in the transport cycle of the neuronal excitatory amino acid carrier EAAC1 |
| Q35026658 | Effects of increased extracellular glutamate levels on the local field potential in the brain of anaesthetized rats |
| Q36100152 | Electrogenic glutamate transporters in the CNS: molecular mechanism, pre-steady-state kinetics, and their impact on synaptic signaling |
| Q42522494 | Evidence against high extracellular glutamate promoting the elicitation of spreading depression by potassium |
| Q34068453 | Evidence for a third sodium-binding site in glutamate transporters suggests an ion/substrate coupling model. |
| Q27011208 | Excitatory amino acid transporters: roles in glutamatergic neurotransmission |
| Q33861820 | Excitotoxicity in neurological disorders--the glutamate paradox |
| Q35556342 | Free energy simulations of ligand binding to the aspartate transporter Glt(Ph). |
| Q30475677 | Functional roles of high-affinity glutamate transporters in cochlear afferent synaptic transmission in the mouse |
| Q37077117 | Glutamate forward and reverse transport: from molecular mechanism to transporter-mediated release after ischemia |
| Q30898028 | Glutamate translocation of the neuronal glutamate transporter EAAC1 occurs within milliseconds |
| Q40710595 | Glutamate transporters from brain. A novel neurotransmitter transporter family |
| Q33749196 | Glutamate transporters in kidney and brain |
| Q36995107 | Glutamate transporters: confining runaway excitation by shaping synaptic transmission |
| Q28190140 | Glutamate uptake |
| Q41188027 | Heterogeneity and functional properties of subtypes of sodium-dependent glutamate transporters in the mammalian central nervous system. |
| Q38978352 | Heterologously expressed GLT-1 associates in approximately 200-nm protein-lipid islands |
| Q48451996 | High potassium-induced glutamate release in the cochlea: in vivo microdialysis study combined with on-line enzyme fluorometric detection of glutamate. |
| Q42051154 | Impaired neurotransmission in ether lipid-deficient nerve terminals |
| Q48638100 | Increased density of excitatory amino acid transport sites in the hippocampal formation following an entorhinal lesion |
| Q28569538 | Individual subunits of the glutamate transporter EAAC1 homotrimer function independently of each other |
| Q37469808 | Inward-facing conformation of glutamate transporters as revealed by their inverted-topology structural repeats. |
| Q39421166 | Ion-coupled neurotransmitter transport across the synaptic plasma membrane |
| Q44207688 | Is the glutamate residue Glu-373 the proton acceptor of the excitatory amino acid carrier 1? |
| Q40832141 | Isolation of current components and partial reaction cycles in the glial glutamate transporter EAAT2. |
| Q54958641 | Kv1.3 activity perturbs the homeostatic properties of astrocytes in glioma. |
| Q42000851 | Low Affinity and Slow Na+ Binding Precedes High Affinity Aspartate Binding in the Secondary-active Transporter GltPh |
| Q57791089 | Mechanism of Transport and Storage of Neurotransmitter |
| Q33885249 | Mechanism of cation binding to the glutamate transporter EAAC1 probed with mutation of the conserved amino acid residue Thr101. |
| Q37368667 | Mechanism of transport modulation by an extracellular loop in an archaeal excitatory amino acid transporter (EAAT) homolog |
| Q36323509 | Molecular Determinants of Substrate Specificity in Sodium-coupled Glutamate Transporters. |
| Q35744207 | Molecular determinant of ion selectivity of a (Na+ + K+)-coupled rat brain glutamate transporter |
| Q27314841 | Molecular dynamics simulations of the mammalian glutamate transporter EAAT3 |
| Q30485857 | Molecular simulations elucidate the substrate translocation pathway in a glutamate transporter |
| Q37405027 | Mutating a conserved proline residue within the trimerization domain modifies Na+ binding to excitatory amino acid transporters and associated conformational changes. |
| Q43770525 | Neuronal glutamate transporters limit activation of NMDA receptors by neurotransmitter spillover on CA1 pyramidal cells. |
| Q33233908 | Neutralization of the aspartic acid residue Asp-367, but not Asp-454, inhibits binding of Na+ to the glutamate-free form and cycling of the glutamate transporter EAAC1. |
| Q42187526 | Neutralizing aspartate 83 modifies substrate translocation of excitatory amino acid transporter 3 (EAAT3) glutamate transporters. |
| Q34985714 | Opposite movement of the external gate of a glutamate transporter homolog upon binding cotransported sodium compared with substrate |
| Q44087171 | Passive water and urea permeability of a human Na(+)-glutamate cotransporter expressed in Xenopus oocytes |
| Q36479703 | Protonation state of a conserved acidic amino acid involved in Na(+) binding to the glutamate transporter EAAC1 |
| Q33940888 | Proximity of transmembrane segments 5 and 8 of the glutamate transporter GLT-1 inferred from paired cysteine mutagenesis |
| Q43810165 | Proximity of two oppositely oriented reentrant loops in the glutamate transporter GLT-1 identified by paired cysteine mutagenesis |
| Q40163938 | Quantitative studies of cotransport systems: Models and vesicles |
| Q46625279 | Resveratrol protects rat striatal slices against anoxia-induced dopamine release |
| Q48618925 | Sodium channel blockade unmasks two temporally distinct mechanisms of striatal dopamine release during hypoxia/hypoglycaemia in vitro. |
| Q36278392 | Spatial separation of two different pathways accounting for the generation of calcium signals in astrocytes |
| Q33652145 | Structural features of the glutamate transporter family |
| Q35952945 | Structural intermediates in a model of the substrate translocation path of the bacterial glutamate transporter homologue GltPh. |
| Q36785016 | Structure and function of sodium-coupled GABA and glutamate transporters |
| Q73428127 | Substrate specificity of the mammary tissue anionic amino acid carrier operating in the cotransport and exchange modes |
| Q48906935 | Substrate turnover by transporters curtails synaptic glutamate transients. |
| Q43509256 | Substrate-induced rearrangements in glutamate-transporter homologs |
| Q42748422 | Substrates and non-transportable analogues induce structural rearrangements at the extracellular entrance of the glial glutamate transporter GLT-1/EAAT2. |
| Q67238135 | Taurine and beta-alanine uptake in primary astrocytes differentiating in culture: effects of ions |
| Q37118714 | Thallium ions can replace both sodium and potassium ions in the glutamate transporter excitatory amino acid carrier 1 |
| Q36724927 | The conserved histidine 295 does not contribute to proton cotransport by the glutamate transporter EAAC1. |
| Q34807368 | The dual-function glutamate transporters: structure and molecular characterisation of the substrate-binding sites |
| Q37321027 | The equivalent of a thallium binding residue from an archeal homolog controls cation interactions in brain glutamate transporters |
| Q50647152 | The substrate specificity of a neuronal glutamate transporter is determined by the nature of the coupling ion. |
| Q36724882 | Two conformational changes are associated with glutamate translocation by the glutamate transporter EAAC1. |
| Q35010990 | Two serine residues of the glutamate transporter GLT-1 are crucial for coupling the fluxes of sodium and the neurotransmitter |
| Q38196788 | Visualization and quantification of neurochemicals with gold nanoparticles: opportunities and challenges. |
| Q28346060 | Water transport by the human Na+-coupled glutamate cotransporter expressed in Xenopus oocytes |
| Q42911386 | Yeast nutrient transceptors provide novel insight in the functionality of membrane transporters |
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