Cooley M B, Goldsbrough A P, Still D W, Yoder J I
Department of Vegetable Crops, University of California, Davis 95616, USA.
Mol Gen Genet. 1996 Aug 27;252(1-2):184-94.
Site-selected insertion (SSI) is a PCR-based technique which uses primers located within the transposon and a target gene for detection of transposon insertions into cloned genes. We screened tomato plants bearing single or multiple copies of maize Ac or Ds transposable elements for somatic insertions at one close-range target and two long-range targets. Eight close-range Ds insertions near the right border of the T-DNA were recovered. Sequence analysis showed a precise junction between the transposon and the target for all insertions. Two insertions in separate plants occurred at the same site, but others appeared dispersed in the region of the right T-DNA border with no target specificity. However, insertions showed a preference for one orientation of the transposon. Use of plants with multiple Ac (HiAc) or Ds (HiDs) elements allowed detection of somatic insertions at two single-copy genes, PG (polygalacturonase) and DFR (dihydroflavonol 4-reductase). Certain HiDs plants showed much higher rates of insertion into PG than others. Insertions in PG and DFR were found throughout the gene regions monitored and, with the exception of one insertion in PG, the junctions between transposon and target were exact. SSI analysis of progeny from the HiDs parents revealed that in some cases the tendency to incur high levels of somatic insertions in PG was inherited. Inheritance of this character is an indication that SSI could be used to direct a search for germinal PG insertions in tomato.
位点选择插入(SSI)是一种基于聚合酶链式反应(PCR)的技术,该技术利用位于转座子内的引物和一个靶基因来检测转座子插入到克隆基因中的情况。我们筛选了携带单拷贝或多拷贝玉米Ac或Ds转座元件的番茄植株,以检测其在一个近距离靶标和两个远距离靶标处的体细胞插入情况。在T-DNA右边界附近回收了8个近距离Ds插入。序列分析表明,所有插入的转座子与靶标之间都有精确的连接。在不同植株中的两个插入发生在同一位置,但其他插入似乎分散在T-DNA右边界区域,没有靶标特异性。然而,插入显示出对转座子一种方向的偏好。使用具有多个Ac(HiAc)或Ds(HiDs)元件的植株,可以检测到在两个单拷贝基因PG(多聚半乳糖醛酸酶)和DFR(二氢黄酮醇4-还原酶)处的体细胞插入。某些HiDs植株显示出比其他植株更高的插入到PG的频率。在整个监测的基因区域都发现了PG和DFR中的插入,除了PG中的一个插入外,转座子与靶标之间的连接都是精确的。对HiDs亲本后代的SSI分析表明,在某些情况下,在PG中发生高水平体细胞插入的倾向是可遗传的。这一性状的遗传表明SSI可用于指导在番茄中寻找生殖系PG插入。
