Noskov Vladimir, Kouprina Natalay, Leem Sun-Hee, Koriabine Maxim, Barrett J Carl, Larionov Vladimir
Laboratory of Biosystems and Cancer, National Cancer Institute, NIH, Building 37, Room 5032, Bethesda, MD 20892-4264, USA.
Nucleic Acids Res. 2002 Jan 15;30(2):E8. doi: 10.1093/nar/30.2.e8.
Transformation-associated recombination (TAR) is a cloning technique that allows specific chromosomal regions or genes to be isolated directly from genomic DNA without prior construction of a genomic library. This technique involves homologous recombination during spheroplast transformation between genomic DNA and a TAR vector that has 5' and 3' gene targeting sequences (hooks). Typically, TAR cloning produces positive YAC recombinants at a frequency of approximately 0.5%; the positive clones are identified by PCR or colony hybridization. This paper describes a novel TAR cloning procedure that selects positive clones by positive and negative genetic selection. This system utilizes a TAR vector with two targeting hooks, HIS3 as a positive selectable marker, URA3 as a negative selectable marker and a gene-specific sequence called a loop sequence. The loop sequence lies distal to a targeting hook sequence in the chromosomal target, but proximal to the targeting hook and URA3 in the TAR vector. When this vector recombines with chromosomal DNA at the gene-specific targeting hook, the recombinant YAC product carries two copies of the loop sequence, therefore, the URA3 negative selectable marker becomes mitotically unstable and is lost at high frequency by direct repeat recombination involving the loop sequence. Positive clones are identified by selecting against URA3. This method produces positive YAC recombinants at a frequency of approximately 40%. This novel TAR cloning method provides a powerful tool for structural and functional analysis of complex genomes.
转化相关重组(TAR)是一种克隆技术,可直接从基因组DNA中分离特定的染色体区域或基因,而无需事先构建基因组文库。该技术涉及在原生质球转化过程中,基因组DNA与具有5'和3'基因靶向序列(钩子)的TAR载体之间的同源重组。通常,TAR克隆产生阳性酵母人工染色体(YAC)重组体的频率约为0.5%;通过聚合酶链反应(PCR)或菌落杂交来鉴定阳性克隆。本文描述了一种通过正反向遗传筛选来选择阳性克隆的新型TAR克隆程序。该系统利用一种带有两个靶向钩子的TAR载体,以HIS3作为正向选择标记,URA3作为负向选择标记,以及一个称为环序列的基因特异性序列。环序列位于染色体靶标中靶向钩子序列的远端,但在TAR载体中位于靶向钩子和URA3的近端。当该载体在基因特异性靶向钩子处与染色体DNA重组时,重组的YAC产物携带两份环序列拷贝,因此,URA3负向选择标记变得有丝分裂不稳定,并通过涉及环序列的直接重复重组以高频丢失。通过针对URA3进行筛选来鉴定阳性克隆。该方法产生阳性YAC重组体的频率约为40%。这种新型TAR克隆方法为复杂基因组的结构和功能分析提供了一个强大的工具。