In several patients with the rare hereditary disorder trichothiodystrophy (TTD), a DNA repair defect has been shown to be in the same gene as in xeroderma pigmentosum complementation group D (XP-D). The ERCC-2 gene (excision repair cross-complementing rodent repair deficiency of group 2) has recently been identified as a strong candidate gene for XP-D, since it restores normal UV sensitivity to XP-D cells after transfection. Using Southern blotting, we have analysed the ERCC-2 gene in DNA samples from 28 members of nine Italian families with individuals affected by XP-D (three patients) or by TTD with photosensitivity due to the XP-D defect (eight patients). No major modifications of the ERCC-2 gene were detected with two cDNA probes in either XP-D or TTD patients indicating that the association between TTD and XP-D is not likely to result from a large deletion or rearrangement involving this gene. We found two RFLPs after digestion of the DNA samples with TaqI or MspI, but neither of them could be related to the molecular alteration determining the pathological phenotype. We also analysed a human homologue detected with the hamster sequence isolated by Arrand et al. (1989), which specifically, but partially, complements the DNA repair deficiency in XP-D cells. Our analysis demonstrated that this gene is not the primary gene defective in XP-D. In fact two RFLPs detected with a genomic probe do not co-segregate with the disease in an XP-D family.