Amino acid transport by a muscle cell line

## Abstract During synchronous differentiation of embryonic chick muscle cells in culture, the Na‐dependent uptake of an amino acid analog, α‐amino isobutyric acid (AIB) undergoes an abrupt, transient increase. The increase in AIB uptake is concomitant with the rapid fusion of mononucleated myoblas

LLC-PK1 and M D C K cells take up cationic amino acids (lysine and arginine) by a specific sodium independent transport system. Uptake is inhibited by ornithine in LLC-PK, and M D C K cells either in t h e presence or absence of sodium and by glutamine or homoserine in M D C K cells in the presence

## Abstract The suitability of an established myogenic line (L~6~) for the study of skeletal muscle intermediary metabolism was investigated. Myoblasts were grown in tissue culture for ten days at which time they had differentiated into multinucleated myotubes. Myotube preparations were then incuba

Compartmentalization of cellular amino acid pools occurs in cultures of cardiac and skeletal muscle cells, but the factors involved in this are not clear. We have further defined this problem by analyzing the intracellular free leucine and the transfer-RNA-(tRNA)-bound leucine pool in cultures of sk

When mamalian cells are starved for amino acids, the activity of the A amino acid transport system increases, a phenomenon called adaptive regulation. We have examined the effects of those factors which support Madin-Darby canine kidney (MDCK) cell growth in a defined medium on the derepression of S