Abstract:
Accumulation of mutations such as deletions in mitochondrial DNA is associated with ageing, cancer and human genetic disorders. These deletions are often flanked by GC-skewed sequence motifs that can potentially fold into secondary non-B DNA conformations. G-quadruplexes are emerging as key initiators of mitochondrial genomic instability. In this issue, Dahal et al provide an in silico analysis of sequence motifs that can fold into altered DNA structures in mitochondrial genomic regions that contain frequent deletions. They show the formation of five G-quadruplexes near such frequent breakpoints using biochemical and biophysical approaches in vitro and more importantly inside mammalian cells.