Department of Bioengineering and Institute for Biotechnology and Bioengineering, Instituto Superior Técnico, Lisbon, Portugal.
PLoS One. 2013;8(3):e59907. doi: 10.1371/journal.pone.0059907. Epub 2013 Mar 29.
Mitochondrial DNA (mtDNA) deletion mutations are frequently observed in aged postmitotic tissues and are the cause of a wide range of human disorders. Presently, the molecular bases underlying mtDNA deletion formation remain a matter of intense debate, and it is commonly accepted that several mechanisms contribute to the spectra of mutations in the mitochondrial genome. In this work we performed an extensive screening of human mtDNA deletions and evaluated the association between breakpoint density and presence of non-canonical DNA elements and over-represented sequence motifs. Our observations support the involvement of helix-distorting intrinsically curved regions and long G-tetrads in eliciting instability events. In addition, higher breakpoint densities were consistently observed within GC-skewed regions and in the close vicinity of the degenerate sequence motif YMMYMNNMMHM. A parallelism is also established with hot spot motifs previously identified in the nuclear genome, as well as with the minimal binding site for the mitochondrial transcription termination factor mTERF. This study extends the current knowledge on the mechanisms driving mitochondrial rearrangements and opens up exciting avenues for further research.
线粒体 DNA(mtDNA)缺失突变在衰老的有丝分裂后组织中经常观察到,是多种人类疾病的原因。目前,mtDNA 缺失形成的分子基础仍然是激烈争论的问题,人们普遍认为,几种机制有助于线粒体基因组突变谱的形成。在这项工作中,我们对人类 mtDNA 缺失进行了广泛筛选,并评估了断裂点密度与非规范 DNA 元件和过度表达序列基序的存在之间的关联。我们的观察结果支持螺旋扭曲固有弯曲区域和长 G-四联体在引发不稳定性事件中的作用。此外,在 GC 倾斜区域内和在退化序列基序 YMMYMNNMMHM 的附近,始终观察到更高的断裂点密度。还与先前在核基因组中鉴定的热点基序以及线粒体转录终止因子 mTERF 的最小结合位点建立了平行关系。这项研究扩展了驱动线粒体重排的机制的现有知识,并为进一步研究开辟了令人兴奋的途径。
