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Bachelor, D.J, Al-Rammahi, M., Moran, A.W., Brand, J.G., Li X., Haskins, M., German, A.J. and Shirazi-Beechey, S.P. (2011) Sodium/glucose cotransporter-1, sweet receptor, and disaccaridase expression in the intestine of the domestic dog and cat: Two species of different dietary habit, American Journal of Physiology—Regulatory, Integrative and Comparative Physiology, 300, R67-R75.
doi:10.1152/ajpregu.00262.2010
has been cited by the following article:
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TITLE:
Kinetics and mechanisms of glucose absorption in the rat small intestine under physiological conditions
AUTHORS:
Andrei A. Gruzdkov, Liudmila V. Gromova, Nadezhda M. Grefner, Yan Yu. Komissarchik
KEYWORDS:
Membrane Hydrolysis; Glucose Transport; SGLT1; GLUT2; Small Intestine; Mathematical Modeling
JOURNAL NAME:
Journal of Biophysical Chemistry,
Vol.3 No.2,
May
29,
2012
ABSTRACT: Previous studies have shown two components of glucose absorption in the small intestine: a secondary active transport through SGLT1, and unsaturated component, recently attributed mainly to the facilitated diffusion through GLUT2, but the relationship between these two components under physiological conditions remains controversial. In chronic experiments on nonanesthetized rats we investigated for the first time the kinetics of maltose hydrolysis and glucose absorption in the isolated loop of the small intestine in a wide range of maltose and glucose concentrations (25 ÷ 200 mmol/l glucose). The processes were simulated on mathematical models which took into account the current views about mechanisms of hydrolysis and transport of nutrients and geometric characteristics of the intestinal surface. The results of chronic experiments and mathematical simulation have shown that under the close to physiological conditions the glucose transport mediated by SGLT1 is the main mechanism of its absorption in comparison with the unsaturated component. This was demonstrated not only at low, but also at high substrate concentrations. We conclude that correct evaluation of the relative contribution of different mechanisms in glucose transport through the intestinal epithelium requires taking into account the geometric specificities of its surface.
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