Packaging of coliphage lambda DNA. II. The role of the gene D protein

The gene D protein (pD) of coliphage λ is normally an essential component of the virus capsid. It acts during packaging of concatemeric λ DNA into the phage prohead and is necessary for cutting the concatemers at the cohesive end site (cos). In this report we show that cos cutting and phage production occur without pD in λ deletion mutants whose DNA content is less than 82% that of λ wild type. D-independence appears to result directly from DNA loss rather than from inactivation (or activation) of a phage gene. (1) In cells mixedly infected with undeleted λ and a deletion mutant, particles of the deletion mutant alone are efficiently produced in the absence of pD; and (2) D-independence cannot be attributed to loss of a specific segment of the phage genome. pD-deficient phage resemble pD-containing phage in head size and DNA ends; they differ in their extreme sensitivity to EDTA, greater density, and ability to accept pD.pD appears to act by stabilizing the head against disruption by overfilling with DNA rather than by changing the capacity of the head for DNA. This is shown by the observation that the amount of DNA packaged by a “headful” mechanism, normally in excess of the wild-type chromosome size, is not reduced in the absence of pD. In fact, pD is required for packaging headfuls of DNA. This implies that a mechanism exists for preventing the entry of excess DNA into the head during packaging of concatemers formed by deletion mutants, and we suggest that this is accomplished by binding of cos sites to the head.The above results show that pD is not an essential component of the nuclease that cuts λ concatemers at cos during packaging, and they imply that 82% of a wild-type chromosome length can enter the prohead in the absence of pD. Yet, pD is needed for the formation of cohesive ends after infection with undeleted phage. We propose two models to account for these observations. In the first, cos cutting is assumed to occur early during packaging. The absence of pD leads to release of packaged DNA and the loss of cohesive ends by end-joining. In the second, cos cutting is assumed to occur as a terminal event in packaging. pD promotes cos cutting indirectly through its effect on head stability. We favor the second model because it better explains the asymmetry observed in the packaging of the chromosomes of cos duplication mutants (Emmons, 1974).