The transport system for pantothenic acid uptake in Escherichia coli was characterized. This transport system was specific for pantothenate, had a Kt of 0.4 microM, and had a maximum velocity of 1.6 pmol/min per 10(8) cells (45 pmol/min per mg [dry weight]). Pantothenate uptake was not reduced in osmotically shocked cells or by ATP depletion with arsenate, but was reduced greater than 90% by the dissipation of the membrane electrochemical gradient with 2,4-dinitrophenol. Sodium ions stimulated pantothenate uptake (Kt, 0.8 mM) by reducing the Kt for pantothenate by an order of magnitude. Intracellular pantothenate was rapidly phosphorylated, but phosphorylation of pantothenate was not required for uptake since pantothenate was the only labeled intracellular compound concentrated by ATP-depleted, glucose-energized cells. The data were consistent with the presence of a high-affinity pantothenate permease that concentrates the vitamin by sodium cotransport.