Ceglowski P, Boitsov A, Karamyan N, Chai S, Alonso J C
Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Warsaw.
Mol Gen Genet. 1993 Dec;241(5-6):579-85. doi: 10.1007/BF00279900.
The low-copy-number and broad-host-range pSM19035-derived plasmid pBT233 is stably inherited in Bacillus subtilis cells. Two distinct regions, segA and segB, enhance the segregational stability of the plasmid. Both regions function in a replicon-independent manner. The maximization of random plasmid segregation is accomplished by the recombination proficiency of the host or the presence of the pBT233 segA region. The segA region contains two open reading frames (orf) [alpha and beta]. Inactivation or deletion of orf beta results in SegA- plasmids. Better than random segregation requires an active segB region. The segB region contains two orfs (orf epsilon and orf zeta). Inactivation of either of the orfs does not lead to an increase in cell death, but orf zeta- plasmids are randomly segregated. These results suggest that pBT233 stabilization relies on a complex system involving resolution of plasmid oligomers (segA) and on the function(s) encoded by the segB region.
低拷贝数且具有广泛宿主范围的源自pSM19035的质粒pBT233能在枯草芽孢杆菌细胞中稳定遗传。两个不同的区域,即segA和segB,可增强该质粒的分离稳定性。这两个区域均以不依赖复制子的方式发挥作用。宿主的重组能力或pBT233的segA区域的存在可实现随机质粒分离的最大化。segA区域包含两个开放阅读框(orf)[α和β]。orfβ的失活或缺失会产生SegA-质粒。比随机分离更好的情况需要一个活跃的segB区域。segB区域包含两个orf(orfε和orfζ)。任一orf的失活都不会导致细胞死亡增加,但orfζ-质粒是随机分离的。这些结果表明,pBT233的稳定依赖于一个复杂的系统,该系统涉及质粒寡聚体的解离(segA)以及segB区域编码的功能。