Hanley P J, Carrigan C M, Rowe D B, Wake R G
Department of Biochemistry, University of Sydney, N.S.W., Australia.
J Mol Biol. 1987 Aug 5;196(3):721-7. doi: 10.1016/0022-2836(87)90043-x.
Using a procedure that minimizes shear forces, the BamHI-derived forked termination of replication intermediate of Bacillus subtilis, called band I DNA, can be extracted with little or no accompanying band II DNA. It has been shown that band II DNA is a product of band I breakdown. Nuclease P1-mediated breakdown of the forked band I DNA proceeds in two steps. The first causes the release of one of the arms as band II DNA; in the second step, the remaining arm is cleaved away to yield the free stem. It is concluded that band I represents the primary termination of replication intermediate. A quantitative assessment of the level of band I in DNA from cells of the merodiploid strain, GSY1127, growing at different rates has been made. For cells grown in a minimal medium, at least, the experimentally measured level of band I is of the order (approx. 60%) of that predicted for a complete block to movement of the clockwise fork at the replication terminus, terC.
采用一种能使剪切力最小化的方法,可以提取出源自枯草芽孢杆菌BamHI的叉状复制中间体末端(称为I带DNA),且几乎不会伴随II带DNA或完全不伴随II带DNA。研究表明,II带DNA是I带降解的产物。核酸酶P1介导的叉状I带DNA降解分两步进行。第一步导致其中一条臂作为II带DNA释放出来;第二步,剩余的臂被切割掉,产生游离的茎。由此得出结论,I带代表复制中间体的主要末端。对部分二倍体菌株GSY1127的细胞在不同生长速率下的DNA中I带水平进行了定量评估。至少对于在基本培养基中生长的细胞而言,实验测得的I带水平约为预测的复制终点terC处顺时针叉移动完全受阻时水平的60%左右。