Richard J. Naftalin

Affiliations: 
Physiology King's College London, London, UK 
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"Richard Naftalin"
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Gonzalez-Resines S, Quinn PJ, Naftalin RJ, et al. (2021) Multiple Interactions of Glucose with the Extra-Membranous Loops of GLUT1 Aid Transport. Journal of Chemical Information and Modeling
Naftalin RJ. (2018) A critique of the alternating access transporter model of uniport glucose transport. Biophysics Reports. 4: 287-299
Iglesias-Fernandez J, Quinn PJ, Naftalin RJ, et al. (2017) Membrane Phase-Dependent Occlusion of Intramolecular GLUT1 Cavities Demonstrated by Simulations. Biophysical Journal. 112: 1176-1184
Domene C, Iglesias Fernandez J, Naftalin R, et al. (2017) Computational Characterisation of the Modulation of Membrane Proteins by Lipids Biophysical Journal. 112: 386a
Naftalin RJ. (2016) A computer model simulating human glucose absorption and metabolism in health and metabolic disease states. F1000research. 5: 647
Naftalin RJ. (2015) Definitively, my cup of tea. Focus on "Caffeine inhibits glucose transport by binding at the GLUT1 nucleotide-binding site". American Journal of Physiology. Cell Physiology. 308: C825-6
Naftalin RJ. (2014) Does apical membrane GLUT2 have a role in intestinal glucose uptake? F1000research. 3: 304
Cunningham P, Naftalin RJ. (2014) Reptation-induced coalescence of tunnels and cavities in Escherichia Coli XylE transporter conformers accounts for facilitated diffusion. The Journal of Membrane Biology. 247: 1161-79
Cunningham P, Naftalin RJ. (2013) Implications of aberrant temperature-sensitive glucose transport via the glucose transporter deficiency mutant (GLUT1DS) T295M for the alternate-access and fixed-site transport models. The Journal of Membrane Biology. 246: 495-511
Naftalin RJ. (2012) Intestinal incretin responses to increased GLUT2 expression--Chacun à son goût. The Journal of Physiology. 590: 2825-6
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