Abstract
Bidirectional replication of the Bacillus subtilis chromosome terminates at a point on the circular chromosome which is symmetrically opposite to the replication origin. Since replication rates are similar in both "halves" of the chromosome, termination presumably occurs at the meeting point of the two replication forks. To investigate whether the DNA sequence of this region of the chromosome contributes to the termination event, we have determined the latest replicating region of a chromosome in which this DNA sequence is no longer symmetrically opposite to the origin. The merodiploid strain GSY1127 has a very large nontandem duplication (approximately 25% of the total chromosome length) in the left-hand half of the chromosome, so that size and symmetry of this chromosome are grossly different from those of normal strains. We have examined the replication order of genetic markers in this strain by measuring subtilis terminal marker for replication remains a terminal marker in the merodiploid, i.e., replicates later than a marker situated symmetrically opposite to the replication origin. These results were supported by replication orders determined by pulse-density transfer experiments during synchronous replication. The data obtained indicate that there is a preferred site for the termination of replication in the B. subtilis chromosome.
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