Intersubunit proximity of residues in the RecA protein as shown by engineered disulfide cross-links.

Mutational studies of regions that make up the oligomeric interface within the RecA protein filament structure have shown that F217 is an important determinant of RecA function and oligomer stability. All substitutions, other than Tyr and Cys, completely inhibit RecA activities and exhibit a substantial decrease in protein filament stability [Skiba, M. C., and Knight, K. L. (1994) J. Biol. Chem. 269, 3823-3828; Logan, K. M., et al. (1997) J. Mol. Biol. 266, 306-316]. Although the RecA crystal structure exhibits no obvious constraints that explain this mutational stringency, the structure does reveal a hydrophobic pocket in the neighboring monomer that may accommodate the F217 side chain. Together with the F217C mutation, we have introduced a series of Cys substitutions within the interacting surface on the neighboring monomer and have tested for disulfide formation under various conditions, e.g., with or without ATP and ssDNA. We show that the location of F217 in the crystal structure is in general agreement with its position in the catalytically active RecA-ATP-DNA complex. Functional studies with the mutant proteins support the idea that ATP-induced movement of the wild-type F217 side chain toward this hydrophobic pocket is important in mediating allosteric changes in the RecA protein structure.

Characterization of a Caenorhabditis elegans recA-like gene Ce-rdh-1 involved in meiotic recombination.

A recA-like gene was identified in the Caenorhabditis elegans genome project database. The putative product of the gene, termed Ce-rdh-1 (C. elegans RAD51 and DMC1/LIM15 homolog 1), consists of 357 amino acid residues. The predicted amino acid sequence of Ce-rdh-1 showed 46-60% identity to both RAD51 type and DMC1/LIM15 type genes in several eukaryote species. The results of RNAi (RNA-mediated interference) indicated that repression of Ce-rdh-1 blocked chromosome condensation of six bivalents and dissociation of chiasmata in oocytes of F1 progeny. Oogenesis did not proceed to the diakinesis stage. Accordingly, all the eggs produced (F2) died in early stages. These results suggest that Ce-rdh-1 participates in meiotic recombination.