An Immobilized Fork As a Termination of Replication Intermediate in Bacillus Subtilis

The structure of a DNA intermediate associated with termination of chromosome replication in Bacillus subtilis and derived from a unique BamHI 24.8 X 10(3) base-pair (bp) region of the chromosome has been investigated. The intermediate has properties expected for a forked structure. Gel electrophoresis followed by Southern transfer and hybridization to cloned DNA has shown it to comprise single strands of 15.4 X 10(3) bp and 24.8 X 10(3) bp, in approximately equimolar amounts. After purification away from the bulk of chromosomal DNA, electron microscopy of the intermediate established that 15% of the DNA was present as branched molecules and a significant proportion (11 of 31) of these contained two arms of matching length. The average dimensions (best estimates) of this unique class of Y-shaped molecule were 9.5(+/- 0.3) X 10(3), 15.1(+/- 0.4) X 10(3) and 24.6 24.6(+/- 0.6) X 10(3) bp for the stem, arms and end-to-end length, respectively. These values are consistent with the single strand composition of the intermediate as found. Furthermore, hybridization of the single strands to DNA from known locations within the BamHI 24.8 X 10(3) bp region has established the orientation of the forked intermediate relative to the genetic map. The intermediate presumably reflects the immobilization of the clockwise replication fork within the 24.8 X 10(3) bp region, at a location approximately 15.4 X 10(3) bp from the right end.