In the present work, we studied cellular DNA repair properties of skin fibro-blasts from two patients mutated in the XPB gene: an XP/CS patient cell (XPCS2BA) with a T296C (F99S) transition and a TTD patient cell (TTD6VI) exhibiting an A355C (T119P) transversion.
This con-stitutes a model system allowing us to correlate the relative expression levels of the XPB-A355C (TTD) and XPB-T296C (XP/CS) genes with various DNA repair properties.
In the present work, we studied cellular DNA repair properties of skin fibro-blasts from two patients mutated in the XPB gene: an XP/CS patient cell (XPCS2BA) with a T296C (F99S) transition and a TTD patient cell (TTD6VI) exhibiting an A355C (T119P) transversion.
Overexpression of the XPB-A355C (TTD) gene in an XP/CS cell gives rise to a cellular phenotype of increased repair similar to that of TTD6VI cells, while equal expression of the two mutated genes leads to an intermediate cellular phenotype between XP/CS and TTD.
Here we report the first involvement of the XPD gene in a new case of UV-sensitive COFS syndrome, with heterozygous substitutions-a R616W null mutation (previously seen in patients in XP complementation group D) and a unique D681N mutation-demonstrating that a third gene can be involved in COFS syndrome.
Here we report the first involvement of the XPD gene in a new case of UV-sensitive COFS syndrome, with heterozygous substitutions-a R616W null mutation (previously seen in patients in XP complementation group D) and a unique D681N mutation-demonstrating that a third gene can be involved in COFS syndrome.
In this study, XPD G23591A (Asp312Asn) and A35931C (Lys751Gln) polymorphisms and the CCND1 G870A splice variant frequencies were determined in 273 upper aero-digestive tract cancer cases and 269 controls.
In this study, XPD G23591A (Asp312Asn) and A35931C (Lys751Gln) polymorphisms and the CCND1 G870A splice variant frequencies were determined in 273 upper aero-digestive tract cancer cases and 269 controls.