Forty-eight hours after unilateral nephrectomy in young male Sprague-Dawley rats the concentrations of free methionine, alanine and tyrosine in renal cortical tissue were increased by 15-65 percent while the corresponding plasma concentrations decreased by 23-35 percent. The renal cortical concentrations of valine and leucine increased by 41 percent and 26 percent while plasma concentrations remained unchanged. The cortical concentrations of ornithine, serine and threonine remained unchanged while the plasma concentration decreased by approximately one-third. The total free amino acid contained in the cortex was not changed, while total free amino acids in plasma decreased by 7 percent. These data are thought to reflect an increased uptake of methionine and tyrosine into renal cells during compensatory hypertrophy, and an increased incorporation into renal protein of serine, threonine and ornithine. All these changes as well as all other biochemical changes accompanying compensatory hypertrophy with the exception of an increase of the RNA/DNA ratio were prevented by starvation for 48 hours after unilateral nephrectomy.In young male Sprague-Dawley rats and adult male Charles River mice, the incorporation of (14)C-choline into acid-insoluble phospholipids (phosphatidylcholine, lysophosphatidylcholine and sphingomyelin) was already accelerated 5 minutes after contralateral nephrectomy and further rose to +68 ± 7 percent within 20 minutes to 3 hours. Incorporation of (14)C-choline into phospholipids remained accelerated for two to three days and reflected increased rates of phospholipid synthesis rather than increased choline uptake. Three hours after unilateral nephrectomy in mice, incorporation of i.p. injected (14)C-choline into phospholipids was accelerated 25 percent. The rate of turnover of free labelled renal phospholipids was not accelerated during compensatory renal growth. The very early increase of choline incorporation into phospholipids after contralateral nephrectomy, therefore, appears to reflect an increased rate of synthesis of membrane material.