| scholarly article | Q13442814 |
| P50 | author | Richard J Naftalin | Q74497742 |
| P2093 | author name string | Philip Cunningham | |
| Iram Afzal-Ahmed | |||
| P2860 | cites work | QLS motif in transmembrane helix VII of the glucose transporter family interacts with the C-1 position of D-glucose and is involved in substrate selection at the exofacial binding site | Q24312077 |
| Structure and mechanism of the lactose permease of Escherichia coli | Q27641768 | ||
| Dehydroascorbic acid transport by GLUT4 in Xenopus oocytes and isolated rat adipocytes | Q28115284 | ||
| GLUT2 is a high affinity glucosamine transporter | Q28215692 | ||
| Flavonoid inhibition of sodium-dependent vitamin C transporter 1 (SVCT1) and glucose transporter isoform 2 (GLUT2), intestinal transporters for vitamin C and Glucose | Q28578597 | ||
| Molecular recognition of saccharides by proteins. Insights on the origin of the carbohydrate-aromatic interactions | Q30989973 | ||
| Structure and function of facilitative sugar transporters | Q33712486 | ||
| Prooxidant activity and cellular effects of the phenoxyl radicals of dietary flavonoids and other polyphenolics. | Q34139852 | ||
| Predicting the three-dimensional structure of the human facilitative glucose transporter glut1 by a novel evolutionary homology strategy: insights on the molecular mechanism of substrate migration, and binding sites for glucose and inhibitory molecu | Q34187609 | ||
| Sugar transport through maltoporin of Escherichia coli: role of the greasy slide | Q34311631 | ||
| Interactions of androgens, green tea catechins and the antiandrogen flutamide with the external glucose-binding site of the human erythrocyte glucose transporter GLUT1. | Q35045733 | ||
| The lactose permease of Escherichia coli: overall structure, the sugar-binding site and the alternating access model for transport | Q35589999 | ||
| ATP-dependent substrate occlusion by the human erythrocyte sugar transporter | Q38314488 | ||
| Insights into the role of the aromatic residue in galactose-binding sites: MP2/6-311G++** study on galactose- and glucose-aromatic residue analogue complexes | Q38325380 | ||
| Quench-flow analysis reveals multiple phases of GluT1-mediated sugar transport | Q38330655 | ||
| Translocation mechanism of long sugar chains across the maltoporin membrane channel | Q38363125 | ||
| Evidence of multiple operational affinities for d-glucose inside the human erythrocyte membrane | Q41439585 | ||
| Glut-1 deficiency syndrome: clinical, genetic, and therapeutic aspects | Q41920781 | ||
| Myricetin, quercetin and catechin-gallate inhibit glucose uptake in isolated rat adipocytes. | Q41975275 | ||
| Functional expression of rat GLUT 1 glucose transporter in Dictyostelium discoideum | Q42100996 | ||
| Interactions of ATP, oestradiol, genistein and the anti-oestrogens, faslodex (ICI 182780) and tamoxifen, with the human erythrocyte glucose transporter, GLUT1. | Q43002061 | ||
| Effects of high pressure on glucose transport in the human erythrocyte | Q44083250 | ||
| The inhibitory effects of flavonoids and antiestrogens on the Glut1 glucose transporter in human erythrocytes | Q44671872 | ||
| Theoretical study of the relative stability of rotational conformers of alpha and beta-D-glucopyranose in gas phase and aqueous solution | Q44928361 | ||
| Transmembrane segment 3 of the Glut1 glucose transporter is an outer helix | Q45016639 | ||
| Bench meets bedside: a 10-year-old girl and amino acid residue glycine 75 of the facilitative glucose transporter GLUT1. | Q46710590 | ||
| Mammalian facilitative glucose transporters: evidence for similar substrate recognition sites in functionally monomeric proteins | Q48418596 | ||
| The kinetics of glucose transport in human red blood cells. | Q52640855 | ||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 5797-5803 | |
| P577 | publication date | 2005-12-27 | |
| P1433 | published in | Journal of Biological Chemistry | Q867727 |
| P1476 | title | Docking studies show that D-glucose and quercetin slide through the transporter GLUT1 | |
| P478 | volume | 281 |
| Q38822944 | 2-Deoxyglucose conjugated platinum (II) complexes for targeted therapy: design, synthesis, and antitumor activity |
| Q41138541 | A cupin domain-containing protein with a quercetinase activity (VdQase) regulates Verticillium dahliae's pathogenicity and contributes to counteracting host defenses |
| Q42423805 | A glucose transporter can mediate ribose uptake: definition of residues that confer substrate specificity in a sugar transporter. |
| Q34665566 | A highly conserved hydrophobic motif in the exofacial vestibule of fructose transporting SLC2A proteins acts as a critical determinant of their substrate selectivity |
| Q44908008 | A substrate translocation trajectory in a cytoplasm-facing topological model of the monocarboxylate/H⁺ symporter Jen1p |
| Q43222992 | Alternating carrier models of asymmetric glucose transport violate the energy conservation laws. |
| Q53511490 | Cranberry flavonoids prevent toxic rat liver mitochondrial damage in vivo and scavenge free radicals in vitro. |
| Q90087490 | Cross-disease analysis identified novel common genes for both lung adenocarcinoma and lung squamous cell carcinoma |
| Q27682874 | Crystal structure of a bacterial homologue of glucose transporters GLUT1-4 |
| Q33839891 | Determinants of ligand binding affinity and cooperativity at the GLUT1 endofacial site |
| Q38616035 | Differential impact of flavonoids on redox modulation, bioenergetics and cell signalling in normal and tumor cells: a comprehensive review |
| Q48391995 | Disease-associated Glut1 single amino acid substitute mutations S66F, R126C, and T295M constitute Glut1-deficiency states in vitro |
| Q88202238 | Do Skeletal Dynamics Mediate Sugar Uptake and Transport in Human Erythrocytes? |
| Q24648649 | Docking and homology modeling explain inhibition of the human vesicular glutamate transporters |
| Q37722677 | Drugs and pharmaceuticals: management of intoxication and antidotes. |
| Q35585864 | Duodenal cytochrome b (DCYTB) in iron metabolism: an update on function and regulation. |
| Q39808397 | Expression of bilitranslocase in the vascular endothelium and its function as a flavonoid transporter |
| Q34707090 | Facilitated uptake of a bioactive metabolite of maritime pine bark extract (pycnogenol) into human erythrocytes |
| Q41939001 | Functional studies of the T295M mutation causing Glut1 deficiency: glucose efflux preferentially affected by T295M. |
| Q37355710 | Glucose sensing network in Candida albicans: a sweet spot for fungal morphogenesis |
| Q34359270 | Identification of the substrate recognition and transport pathway in a eukaryotic member of the nucleobase-ascorbate transporter (NAT) family |
| Q48623638 | Implications of aberrant temperature-sensitive glucose transport via the glucose transporter deficiency mutant (GLUT1DS) T295M for the alternate-access and fixed-site transport models |
| Q89927504 | Integrated proteome and HPLC analysis revealed quercetin-mediated inhibition of aflatoxin B1 biosynthesis in Aspergillus flavus |
| Q36448391 | Iron-Mediated Lysosomal Membrane Permeabilization in Ethanol-Induced Hepatic Oxidative Damage and Apoptosis: Protective Effects of Quercetin |
| Q38304308 | Lactose permease H+-lactose symporter: mechanical switch or Brownian ratchet? |
| Q30400453 | Membrane Phase-Dependent Occlusion of Intramolecular GLUT1 Cavities Demonstrated by Simulations. |
| Q37194304 | Modeling kinetics of subcellular disposition of chemicals. |
| Q38978501 | Modeling, docking, and simulation of the major facilitator superfamily |
| Q50955239 | Modulation of cellular glucose metabolism in human HepG2 cells by combinations of structurally related flavonoids. |
| Q41890090 | Osmotic water transport with glucose in GLUT2 and SGLT. |
| Q92209460 | Potent Vasodilator and Cellular Antioxidant Activity of Endemic Patagonian Calafate Berries (Berberis microphylla) with Nutraceutical Potential |
| Q43049373 | Pulling a single polymer molecule off a substrate reveals the binding thermodynamics of cosolutes |
| Q39182929 | Quercetin as a fluorescent probe for the ryanodine receptor activity in Jurkat cells |
| Q64069321 | Quercetin conjugated with superparamagnetic iron oxide nanoparticles improves learning and memory better than free quercetin via interacting with proteins involved in LTP |
| Q88951221 | Quercetin inhibits glucose transport by binding to an exofacial site on GLUT1 |
| Q33945817 | Quercetin inhibits intestinal iron absorption and ferroportin transporter expression in vivo and in vitro |
| Q58558259 | Red wine and green tea flavonoids are cis-allosteric activators and competitive inhibitors of GLUT1-mediated sugar uptake |
| Q24644084 | Regulation of the fructose transporter GLUT5 in health and disease |
| Q42133717 | Reptation-induced coalescence of tunnels and cavities in Escherichia Coli XylE transporter conformers accounts for facilitated diffusion |
| Q92528472 | Role of Dietary Flavonoids in Iron Homeostasis |
| Q36197966 | Role of monosaccharide transport proteins in carbohydrate assimilation, distribution, metabolism, and homeostasis |
| Q36711153 | Structural signatures and membrane helix 4 in GLUT1: inferences from human blood-brain glucose transport mutants |
| Q38287400 | Synthetic biology for the directed evolution of protein biocatalysts: navigating sequence space intelligently |
| Q36175013 | Targeting breast cancer with sugar-coated carbon nanotubes |
| Q57803922 | Understanding Conformational Dynamics of Complex Lipid Mixtures Relevant to Biology |
| Q38259553 | Understanding transporter specificity and the discrete appearance of channel-like gating domains in transporters |
| Q30395148 | WZB117 (2-Fluoro-6-(m-hydroxybenzoyloxy) Phenyl m-Hydroxybenzoate) Inhibits GLUT1-mediated Sugar Transport by Binding Reversibly at the Exofacial Sugar Binding Site |
| Q50641800 | Water transport by GLUT2 expressed in Xenopus laevis oocytes. |
| Q37391748 | Will the original glucose transporter isoform please stand up! |
| Q37086456 | alpha- and beta-monosaccharide transport in human erythrocytes |
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