Mitochondrial Transformation in Baker's Yeast to Study Translation and Respiratory Complex Assembly

Baker´s yeast Saccharomyces cerevisiae has been widely used to understand mitochondrial biology for decades. This model has provided knowledge about essential, conserved mitochondrial pathways among eukaryotes, and fungi or yeast-specific pathways. One of the many abilities of S. cerevisiae is the capacity to manipulate the mitochondrial genome, which so far is only possible in S. cerevisiae and the unicellular algae Chlamydomonas reinhardtii. The biolistic transformation of yeast mitochondria allows us to introduce site-directed mutations, make gene rearrangements, and introduce reporters. These approaches are mainly used to understand the mechanisms of two highly coordinated processes in mitochondria: translation by mitoribosomes and assembly of respiratory complexes and ATP synthase. However, mitochondrial transformation can potentially be used to study other pathways. In the present work, we show how to transform yeast mitochondria by high-velocity microprojectile bombardment, select and purify the intended transformant, and introduce the desired mutation in the mitochondrial genome.