Comparison of transformation efficiency of human active and inactive X-chromosomal DNA

Abstract

The mechanism of X-chromosome inactivation has been investigated recently using DNA-mediated transformation of the X-linked hypoxanthine phosphoribosyl transferase (hprt) locus. Several experiments indicate that inactive X-chromosomal DNA does not function in HPRT transformation. Liskay and Evans¹ used DNA from hamster or mouse cells which had an hprt⁻ allele on the active X chromosome and an hprt⁺ allele on the inactive X chromosome. We and others^2,3 used rodent-human hybrid cell lines which had an hprt⁺ allele on the inactive human X chromosome alone. DNA from all of these cells failed to transform HPRT⁻ recipients. Recently, Chapman et al.⁴ have shown that inactive X-chromosome DNA from several tissues of adult female mice is strikingly inefficient in genetic transformation for the hprt gene. On the other hand, de longe et al.⁵, using simian virus 40 (SV40)-transformed fibroblasts from a human heterozygous for an HPRT deficiency, observed HPRT transformation regardless of whether the hprt⁺ allele was on the active or the inactive X chromosome of the donor cells. We have done an experiment similar to that of deJonge et al.⁵, and report here results which clearly indicate that DNA from the inactive X chromosome functions very poorly in HPRT transformation, thus supporting the original interpretation of Liskay and Evans¹ that inactive X-chromosomal DNA is structurally modified.