Mouse teratocarcinoma stem cells deficient in activity of adenine phosphoribosyltransferase (APRT; EC 2.4.2.7) were obtained in order to have this marker in developmentally versatile cells. Mutagenized stem-cell cultures were selected for resistance to 8-azaadenine and four clonal cell lines were isolated. Three had severe deficiencies of APRT activity (7% or less of wild type) and one had a moderate reduction (73%). The enzyme in the latter clone was found to be an electrophoretic variant with slightly less anodal migration than the wild-type enzyme. Each clone remained stably APRT-deficient for at least 3 1/2 weeks, after subcutaneous inoculation, in the absence of the selective agent. The tumors formed from the inocula comprised a variety of differentiated tissues and thus showed persistence of stem-cell developmental pluripotency despite mutagenesis and selection. All mutants also retained the quasinormal karyotype (X/O sex chromosomal constitution, trisomy-19) of the parent line. These lines are appropriate for such uses as production (by blastocyst injection) of mouse models of the human genetic deficiency and for foreign-gene transfer, via teratocarcinoma cells, into mice.