Kurahashi Hiroki, Inagaki Hidehito, Ohye Tamae, Kogo Hiroshi, Kato Takema, Emanuel Beverly S
Division of Molecular Genetics, Institute for Comprehensive Medical Science, Fujita Health University, Toyoake, Aichi, Japan.
Cell Cycle. 2006 Jun;5(12):1297-303. doi: 10.4161/cc.5.12.2809. Epub 2006 Jun 15.
There is evidence accumulating to suggest that non-B DNA structures have a potential for genomic instability that induces genomic rearrangements including translocations and deletions. One of the best studied examples is the recurrent t(11;22) constitutional translocation in humans that is mediated by palindromic AT-rich repeats (PATRRs) on chromosomes 11q23 and 22q11. Cloned breakpoint sequences favor adopting a cruciform configuration in vitro. Analysis of the junction fragments implicates frequent double-strand-breaks at the center of both palindromic regions, followed by repair through the nonhomologous end joining pathway. De novo examples of the translocation are detected at a substantial frequency in sperm samples from normal healthy males, but not in other normal somatic tissues or cell lines derived from humans. Further our recent findings indicate that polymorphism of the PATRR affects the frequency of de novo translocation events and symmetrical alleles preferentially generate the translocation. We propose that the symmetric PATRR is likely to adopt a cruciform structure in male meiotic cells, creating genomic instability that leads to the recurrent translocation.
越来越多的证据表明,非B型DNA结构具有导致基因组不稳定的可能性,这种不稳定会引发包括易位和缺失在内的基因组重排。其中一个研究得最为深入的例子是人类中常见的t(11;22)染色体结构易位,它由11号染色体q23和22号染色体q11上富含AT的回文重复序列(PATRRs)介导。克隆的断点序列在体外倾向于形成十字形结构。对连接片段的分析表明,在两个回文区域的中心频繁出现双链断裂,随后通过非同源末端连接途径进行修复。在正常健康男性的精子样本中能以相当高的频率检测到这种易位的新生实例,但在其他正常人体组织或衍生自人类的细胞系中则未检测到。此外,我们最近的研究结果表明,PATRR的多态性会影响新生易位事件的频率,并且对称等位基因优先产生易位。我们提出,对称的PATRR在雄性减数分裂细胞中可能会形成十字形结构,从而产生基因组不稳定,进而导致这种常见的易位。
