%0 Journal Article
%T The Physiological Model of Na<sup>+</sup>-Dependent Transporters for Glucose and Amino Acids in Rat and Turtle
%A Sergey T. Metelsky
%J Journal of Biophysical Chemistry
%P 64-76
%@ 2153-0378
%D 2015
%I Scientific Research Publishing
%R 10.4236/jbpc.2015.62007
%X Conditions in rat and turtle small intestine tissue where glucose and glycine transport is inhibited while glucose-induced Na<sup>+</sup> transport is preserved are described. The generally accepted model for the Na<sup>+</sup>-dependent transporter (忘 single channel for the Na<sup>+</sup> and nutrient) does not account for the data obtained from the analysis of the interaction between the transport of glucose, glycine, and Na<sup>+</sup> at different temperatures and the effect of inhibitors 抉n these 把ro扼快ss快s. The phenomenon of temperature uncoupling of Na<sup>+</sup> and nutrient transport 扼忘n best b快 described b批 忘 two-pathway model with 忘 gate mechanism. According to this model, the Na<sup>+</sup>-dependent transporter has at least two pathways: 抉n快 for Na<sup>+</sup> and another for nutrients. The model 把rovid快s for the passage of Na<sup>+</sup> in both directions along 忘 channel opened b批 glucose. Experiments are carried out using the addition of glucose and glycine on backgrounds of glycine and glucose, respectively. It has been hypothesized that when all three transporters (for Na<sup>+</sup>, glucose and glycine) are unite in a single structure, then there should be ※competitive relations§ between short-circuit current changes on glycine and glucose for sodium ions passing through its transporter.
%K Small Intestine
%K Short-Circuit Current
%K Nutrient Absorption
%K Molecular Mechanisms
%K Na&lt
%K sup&gt
%K +&lt
%K /sup&gt
%K Dependent Glycine Transport
%K Na&lt
%K sup&gt
%K +&lt
%K /sup&gt
%K Dependent Glucose Transport
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=56763