The radioprotective drugs AET, serotonin, and ATP were tested for antimutagenic activity against induction by 4.0 Gy X-rays of reciprocal translocations in mouse spermatogonia. Single drugs administered in doses of 8, 24 and 360 mg/kg b.wt., respectively, had no effect on translocation yields recorded in diakinesis-metaphase I spermatocytes. Two-drug mixtures afforded insignificant protection. Three-drug mixtures, however, were found to reduce radiation damage considerably, and the extent of protection was dependent in part on the amount of ATP. The best effect was obtained with formulations of serotonin-AET-ATP at the following doses, respectively: 8 + 24 + 360 mg/kg, 16 + 24 + 336 mg/kg, and 16 + 32 + 264 mg/kg. Less effective were the serotonin-AET-ATP formulations: 16 + 32 + 120 mg/kg, and 8 + 24 + 480 mg/kg. Treatment with drugs omitting radiation exposure was observed to raise, though insignificantly, the level of spontaneous translocation frequency.