DENSITY TRANSFER STUDIES OF DNA ISOLATED FROM BACILLUS SUBTILIS AFTER EXPOSURE TO PHENETHYL ALCOHOL

ABSTRACT The aim of this study was to determine whether there are specific weak points in the Bacillus subtilis chromosome and if so whether the replication point is the site of breakage. To answer these questions, B. subtilis chromosomes were partially labeled with 5-bromodeoxyuridine (5-BUdR). Sheared or unsheared preparations of partially labeled chromosomes which may or may not contain replication forks were analyzed for the distribution of genetic markers in a CsCl density gradient. Two sets of experiments based upon the density transfer experiments of Yoshikawa and Sueoka (1963) were performed: (1) experiments in which the origin of the chromosome was labeled and (2) experiments in which the terminus of the chromosome was labeled. In the first experiment, strain 23 (thy-, his-) spores were germinated in the presence of 5-BUdR for various lengths of time and then transferred to fresh medium containing phenethyl alcohol (PEA) and thymidine (TdR). The DNA was isolated before and after transfer to PEA and TdR. In the second experiment strain 23 (thy-, his-) spores were germinated in the presence of TdR and then PEA was added. After various lengths of time transfer was made to fresh medium containing PEA and 5-BUdR. The DNA was extracted by an extremely gentle technique to avoid breakage and centrifuged in a CsCl density gradient. PEA was added to the germinated spores to prevent dichotomous replication, but PEA did not prevent dichotomous replication in any of these experiments. This contradicts the conclusion of others that PEA prevents the chromosome from entering a new round of replication, but allows the chromosome to complete the round of replication already begun. The following observations offer support for the hypothesis that the replication point is a weak point in the chromosome: (1) when conditions were created to obtain partially labeled chromosomes with replication points: (a) labeled markers appeared at the hybrid density, (b) unlabeled markers appeared at the light density, (c) shearing of the DNA had little effect on the CsCl density gradient, except on a small proportion of labeled markers which had not appeared at the hybrid density prior to shearing; (2) when conditions were created to obtain partially labeled chromosomes with no replication points: (a) the majority of DNA molecules appeared at an intermediate density between the hybrid and the light densities, (b) the labeled and unlabeled markers appeared in the intermediate peak with approximately the same ratio as in the DNA preparations, (c) the labeled markers were found in the intermediate peak except where dichotomous replication had occurred, (d) after shearing, the labeled markers appeared at the hybrid density and the unlabeled markers appeared at the light density. Thus it is concluded that the replication point is a weak point in the B. subtilis chromosome where breakage easily occurs.