Amino Acid Transport in Plasma-membrane Vesicles from Rat Liver. Characterization of L-alanine Transport
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Plasma-membrane vesicles, isolated from rat liver, catalyze active transport of L-alanine. The transient accumulation of L-alanine requires the presence of Na+ concentration gradient (outside greater than inside). The alanine-Na+ symport is an electrogenic process, since it is stimulated under conditions that allow compensatory ion movements: both co-transported anions as well as counter-transported cations influence the rate of alanine-Na+ symport. However, no uptake is observed in the presence of a membrane potential, when no Na+ concentration gradient is present. Sodium-gradient-stimulated alanine uptake is dependent on temperature and pH, stereospecific, and is affected by the presence of other amino acids. The activity of the L-alanine transport system is influenced both by the Na+ and by the L-alanine concentration. In the presence of 100 mM Na+, an apparent Km for alanine of 2 mM is observed; lowering the Na+ concentration results in an increase in the apparent Km, and a decrease in the apparent V. The apparent Km for Na+ is 34 mM in the presence of 0.2 mM L-alanine. Increasing the L-alanine concentration also results in a lower apparent Km for Na+, and a higher V.
Amino acid-dependent sodium transport in plasma membrane vesicles from rat liver.
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