Gjuracić K, Zgaga Z
Laboratory of Biology and Miorobial Genetics, Faculty of Food, Technology and Biotechnology, University of Zagreb, Croatia.
Mol Gen Genet. 1996 Nov 27;253(1-2):173-81. doi: 10.1007/s004380050310.
We studied illegitimate recombination by transforming yeast with a single-stranded (ss) non-replicative plasmid. Plasmid pCW12, containing the ARG4 gene, was used for transformation of yeast strains deleted for the ARG4, either in native (circular) form or after linearization within the vector sequence by the restriction enzyme ScaI. Both circular and linearized ss plasmids were shown to be much more efficient in illegitimate integration than their double-stranded (ds) counterparts and more than two-thirds of the transformants analysed contained multiple tandem integrations of the plasmid. Pulsed-field gel electrophoresis of genomic DNA revealed significant changes in the karyotype of some transformants. Plasmid DNA was frequently detected on more than one chromosome and on mitotically unstable, autonomously replicating elements. Our results show that the introduction of nonhomologous ss DNA into yeast cells can lead to different types of alterations in the yeast genome.
我们通过用单链(ss)非复制性质粒转化酵母来研究非法重组。含有ARG4基因的质粒pCW12用于转化缺失ARG4的酵母菌株,质粒以天然(环状)形式或经限制性内切酶ScaI在载体序列内线性化后进行转化。结果表明,环状和线性化的ss质粒在非法整合方面比其双链(ds)对应物效率高得多,并且分析的转化体中超过三分之二含有质粒的多个串联整合。基因组DNA的脉冲场凝胶电泳显示一些转化体的核型有显著变化。在不止一条染色体上以及有丝分裂不稳定的自主复制元件上经常检测到质粒DNA。我们的结果表明,将非同源ss DNA引入酵母细胞可导致酵母基因组发生不同类型的改变。