Mutations in the X chromosome hypoxanthine-guanine phosphoribosyl transferase (HPRT) gene are responsible for Lesch-Nyhan syndrome and related diseases in humans. Because the gene is on the X chromosome, males are affected and females in the families are at risk of being carriers of the mutation. Because there are so many different mutations that can cause the disease (218 different mutations in 271 families), genetic testing for carrier status of females requires detailed molecular analysis of the familial mutation. This analysis can be complicated by the unavailability of an affected male for study. In addition, when the mutation is a deletion (34 reported instances), molecular analysis in females is difficult because of the two X chromosomes. We have applied a peripheral blood T lymphocyte cloning assay that uses resistance to the purine analogue 6-thioguanine (TG) to measure the frequency of cells in females expressing a mutant HPRT allele to determine mutation carrier status in 123 females in 61 families. In families in which the HPRT mutation was determined and could be easily analyzed in samples from females, we found a mean (+/- SD) mutant frequency of 9.7 (+/- 8.7) x 10(-6) in noncarrier females and 2.9 (+/- 3.0) x 10(-2) in carrier females. The frequency in carrier females is less than the 0.5 expected for nonrandom X inactivation because of in vivo selection against HPRT mutation-expressing T lymphocytes or stem cells during prenatal development. The use of this cloning assay allows determination of the carrier status of females even when the HPRT mutation is not yet known or is difficult to determine in DNA samples from females. This approach provides a rapid assay that yields information on carrier status within 10 days of sample receipt.