We found an unique effect of oncogene transfections on rat embryo cell (REF) respiration, glycolysis and radiation response. Radioresistance, defined as an increase in Do, increases for REF cells transfected with v-myc or H-ras oncogenes. The combination of both oncogenes confers the maximal radioresistance. Our work shows inhibition of oxygen uptake when cells are transfected with v-myc or H-ras alone. However, oxygen uptake increases when cells are transfected simultaneously with v-myc + H-ras (3.7,2.1,2.8). A higher oxygen consumption results from increased utilization of pyruvate via the Kreb's cycle. Succinate stimulates cellular oxygen consumption. The maximum stimulation of oxygen consumption by succinate occurred with v-myc + H-ras transfected cells. The glycolysis of the transfected cells is also altered by the oncogenes. Our glycolytic measurements indicate the H-ras oncogene causes the largest stimulation of glycolysis. Our data shows that transfection with oncogenes has a major effect on cellular glycolysis, oxidative metabolism as well as the subsequent radiation response.