Homology requirement for efficient gene conversion between duplicated chromosomal sequences in mammalian cells.

Abstract

We report experiments designed to test homology dependence for gene conversion between duplicated chromosomal sequences in cultured mammalian cells. The experimental system is such that gene conversion events not associated with reciprocal exchange are recoverable. For this study four plasmids were constructed. Each contains a different duplication of the herpes simplex virus thymidine kinase (HSV tk) gene sequence. In particular, the interacting sequences share different lengths of homology. Our results indicate that for shared homologies between 295 base pairs (bp) and 1.8 kilobase pairs (kbp) in length, conversion is efficient with the rate being directly proportional to the extent of homology. In contrast, conversion with either 200 bp or 95 bp of homology is inefficient, and the rate is reduced at least seven- or 100-fold, respectively, relative to that observed with 295 bp of homology. These results are consistent with the notion that greater than 200 bp of homology are required for efficient gene conversion between repeated chromosomal sequences in mammalian cells.