Biochemical basis of hyper-recombinogenic activity of Pseudomonas aeruginosa RecA protein in Escherichia coli cells.

The replacement of Escherichia coli recA gene (recA[Ec]) with the Pseudomonas aeruginosa recA(Pa) gene in Escherichia coli cells results in constitutive hyper-recombination (high frequency of recombination exchanges per unit length of DNA) in the absence of constitutive SOS response. To understand the biochemical basis of this unusual in vivo phenotype, we compared in vitro the recombination properties of RecA(Pa) protein with those of RecA(Ec) protein. Consistent with hyper-recombination activity, RecA(Pa) protein appeared to be more proficient both in joint molecule formation, producing extensive DNA networks in strand exchange reaction, and in competition with single-stranded DNA binding (SSB) protein for single-stranded DNA (ssDNA) binding sites.

A recombinational defect in the C-terminal domain of Escherichia coli RecA2278-5 protein is compensated by protein binding to ATP.

RecA2278-5 is a mutant RecA protein (RecAmut) bearing two amino acid substitutions, Gly-278 to Thr and Val-275 to Phe, in the alpha-helix H of the C-terminal subdomain of the protein. RecA2278-5 mutant cells are unusual in that they are thermosensitive for recombination but almost normal for DNA repair of UV damage and the SOS response. Biochemical analysis of purified RecAmut protein revealed that its temperature sensitivity is suppressed by prior binding of this protein to its ligand.

Genetic characteristics of new recA mutants of Escherichia coli K-12.

To search for functionally thermosensitive (FT) recA mutations, as well as mutations with differently affect RecA protein functions, seven new recA mutations in three different regions of the RecA protein structure proposed by Story et al. [R. M.

Nucleotide sequence between recA and alaSp in E. coli K12 and the sequence change in four recA mutations.

The sequence of 366 nucleotides between the C-terminal trailer region of recA and the N-terminal leader region of alaS is presented. This sequence reveals an open reading frame of 166 codons we have named oraA. An NdeI restriction nuclease cleavage site also revealed by the sequence was used to clone, map and sequence three recA mutations: recA11, recA12 and recA52.

Functional characteristics of the recA gene from Serratia marcescens strain Sb.

The cloned recA gene from Serratia marcescens Sb was expressed and complemented defects in the UV repair, recombination, and SOS induction of an Escherichia coli host deleted for recA. Moreover, the Serratia gene, recA (Sm), supported the same frequency of recombination per unit length of DNA as did the homologous Escherichia coli gene, recA(Ec).