scholarly article | Q13442814 |
P2093 | author name string | Anthony Carruthers | |
Di Deng | |||
Kara B Levine | |||
Julie K De Zutter | |||
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Simple Allosteric Model for Membrane Pumps | Q34242760 | ||
Structural basis of human erythrocyte glucose transporter function in proteoliposome vesicles: circular dichroism measurements | Q34631362 | ||
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Aquaporin-4 square array assembly: opposing actions of M1 and M23 isoforms | Q37089692 | ||
Model of the exofacial substrate-binding site and helical folding of the human Glut1 glucose transporter based on scanning mutagenesis | Q37419540 | ||
Glucose transporter function is controlled by transporter oligomeric structure. A single, intramolecular disulfide promotes GLUT1 tetramerization | Q38292996 | ||
The red blood cell glucose transporter presents multiple, nucleotide-sensitive sugar exit sites | Q38293835 | ||
The human erythrocyte sugar transporter presents two sugar import sites | Q38317309 | ||
A modified, dual reporter TOXCAT system for monitoring homodimerization of transmembrane segments of proteins | Q38318639 | ||
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Characterization of a mutation and an alternative splicing of UDP-galactose transporter in MDCK-RCAr cell line | Q40325660 | ||
Molecular determinants of sugar transport regulation by ATP. | Q40697670 | ||
Transporters of nucleotide sugars, ATP, and nucleotide sulfate in the endoplasmic reticulum and Golgi apparatus | Q40841104 | ||
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Analysis of glucose transporter topology and structural dynamics | Q41868460 | ||
Rapid kinetics of the glucose transporter from human erythrocytes. Detection and measurement of a half-turnover of the purified transporter | Q42229047 | ||
Abnormal SDS-PAGE migration of cytosolic proteins can identify domains and mechanisms that control surfactant binding | Q42533603 | ||
Transmembrane segment 3 of the Glut1 glucose transporter is an outer helix | Q45016639 | ||
Properties of the human erythrocyte glucose transport protein are determined by cellular context | Q46431878 | ||
Glucose transport carrier of human erythrocytes. Radiation-target size of glucose-sensitive cytochalasin B binding protein. | Q47298637 | ||
Analysis of the oligomeric state of Band 3, the anion transport protein of the human erythrocyte membrane, by size exclusion high performance liquid chromatography. Oligomeric stability and origin of heterogeneity | Q47426088 | ||
Mammalian facilitative glucose transporters: evidence for similar substrate recognition sites in functionally monomeric proteins | Q48418596 | ||
Topology of the Glut 1 glucose transporter deduced from glycosylation scanning mutagenesis | Q49092757 | ||
Transmembrane segment 12 of the Glut1 glucose transporter is an outer helix and is not directly involved in the transport mechanism. | Q50644095 | ||
Testing and characterizing the simple carrier | Q68827936 | ||
Fourier transform infrared spectroscopic study of the structure and conformational changes of the human erythrocyte glucose transporter | Q69752972 | ||
Cholate-solubilized erythrocyte glucose transporters exist as a mixture of homodimers and homotetramers | Q70150096 | ||
P433 | issue | 28 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 20734-20744 | |
P577 | publication date | 2013-05-29 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Sequence determinants of GLUT1 oligomerization: analysis by homology-scanning mutagenesis | |
P478 | volume | 288 |
Q39043921 | Alkaline pH activates the transport activity of GLUT1 in L929 fibroblast cells |
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Q30358282 | Current carried by the Slc26 family member prestin does not flow through the transporter pathway. |
Q37054474 | Determination of GLUT1 Oligomerization Parameters using Bioluminescent Förster Resonance Energy Transfer |
Q37203988 | Functional role of oligomerization for bacterial and plant SWEET sugar transporter family |
Q88643832 | Intestinal Absorption of Fructose |
Q33718467 | Isoform-selective inhibition of facilitative glucose transporters: elucidation of the molecular mechanism of HIV protease inhibitor binding. |
Q47325234 | Kinetic Basis of Cis- and Trans-Allostery in GLUT1-Mediated Sugar Transport |
Q38929749 | Mathematical Model of the Role of RdCVF in the Coexistence of Rods and Cones in a Healthy Eye. |
Q89561796 | Mechanistic Insights into Protein Stability and Self-aggregation in GLUT1 Genetic Variants Causing GLUT1-Deficiency Syndrome |
Q30400453 | Membrane Phase-Dependent Occlusion of Intramolecular GLUT1 Cavities Demonstrated by Simulations. |
Q38932542 | Metabolic and redox signaling in the retina. |
Q38829686 | Mitoenergetic Dysfunction Triggers a Rapid Compensatory Increase in Steady-State Glucose Flux. |
Q50078735 | Reconciling contradictory findings: Glucose transporter 1 (GLUT1) functions as an oligomer of allosteric, alternating access transporters |
Q58558259 | Red wine and green tea flavonoids are cis-allosteric activators and competitive inhibitors of GLUT1-mediated sugar uptake |
Q42133717 | Reptation-induced coalescence of tunnels and cavities in Escherichia Coli XylE transporter conformers accounts for facilitated diffusion |
Q34498483 | Structure of a eukaryotic SWEET transporter in a homotrimeric complex |
Q40373924 | Structure of eukaryotic purine/H(+) symporter UapA suggests a role for homodimerization in transport activity. |
Q34436795 | Structures of bacterial homologues of SWEET transporters in two distinct conformations. |
Q64907382 | Transporter oligomerisation: roles in structure and function. |
Q30395148 | WZB117 (2-Fluoro-6-(m-hydroxybenzoyloxy) Phenyl m-Hydroxybenzoate) Inhibits GLUT1-mediated Sugar Transport by Binding Reversibly at the Exofacial Sugar Binding Site |
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