Background: chi sequence (5'GCTGGTGG) of Escherichia coli was first identified as a site that increased the plaque size of bacteriophage lambda. Subsequent studies showed that this site is responsible for both the attenuation ofRecBCD exonuclease activity and the promotion of RecA, RecBCD-mediated recombination. It is known that bacteriophage lambda containing the chi site makes very small plaques on a recC* (recC1004) mutant because chi is not recognized by the RecBC*D mutant enzyme.
Results: We cloned E. coli chromosomal fragments in lambda which allowed lambda to form larger plaques on this recC1004 mutant. The fragments were found to share a chi-like 11-mer sequence, 5'GCTGGTGCTCG. Substitution of these fragments with a synthetic 11-mer of this sequence and single-base-pair substitution analysis of its last four nucleotides demonstrated that this sequence is both necessary and sufficient for the observed activity. The sequence, designated X* (chi-star), protected rolling-circle DNA replication in the recC1004 mutant and in the recBCD+ strain, most likely because it attenuated the exonuclease activity of the RecBC*D and RecBCD+ enzyme. chi-star, did not significantly stimulate lambda recombination in two assays.
Conclusion: We have discovered that a mutant RecBCD enzyme responds, in vivo, to a longer chi variant.