Mapability of Very Close Markers of Bacteriophage λ

Recombinant frequency was compared with nucleotide distance in crosses involving markers in either the P_RM or the cy region of phage λ. For each pair of markers, we performed reciprocal four-factor crosses of the following types: (I) A⁺m₁ ⁺m₂^-B^- x A^-m₁ ^-m₂⁺B⁺; and (II) A⁺m₁ ^-m₂⁺B^- x A^-m₁ ⁺m₂^-B⁺. In crosses of type I, the frequency of A⁺m₁ ⁺m₂⁺B⁺ recombinants among total (selected) A⁺B⁺ progeny was directly proportional to nucleotide distance between m₁ and m₂ in the range from 3 to 160 nucleotides. When less than three nucleotides separated m₁ and m₂, the measured yields of m₁⁺m₂⁺ recombinants were significantly depressed.

We also found that the frequency of A⁺m₁ ⁺m₂⁺B⁺ recombinants among total A⁺B⁺ progeny was significantly lower (about 10-fold on the average) in crosses of type II than in the corresponding crosses of type I. Since mismatch correction should yield A⁺m₁ ⁺m₂⁺B⁺ recombinants with approximately equal frequencies in type I and II crosses, we suggest: (1) that most m₁⁺m₂⁺ recombinants produced in type I crosses must arise from the formation of heteroduplex structures with a discontinuity (in the source of genetic information) between sites m₁ and m₂, and (2) that mismatch correction is not a major pathway for production of recombinants for close markers in normal λ infection.