Isolation of yeast mitochondria by affinity purification using magnetic beads.

Abstract

Isolated mitochondria have been widely utilized in various model organisms to investigate the diverse functions of the organelle. Techniques such as differential centrifugation, density gradient ultracentrifugation and antibody-coated magnetic beads are employed for isolation of the organelle from whole cells. However, mitochondria isolated using differential centrifugation are often contaminated with other organelles; isolation using density gradient ultracentrifugation can reduce contamination but is time-intensive and requires large amounts of starting materials; and mitochondria isolated using antibody-coated magnetic beads are irreversibly bound to the beads. Here, we provide a step-by-step protocol for the isolation of highly pure mitochondria from Saccharomyces cerevisiae using a magnetic bead affinity purification method that overcomes these limitations. This protocol describes how to isolate mitochondria, tagged by insertion of 6 histidines (6xHis) into the chromosomal copy of the TOM70 (Translocase of outer membrane 70) gene using Ni-NTA (nickel(II) nitrilotriacetic acid) paramagnetic beads, and the subsequent release of mitochondria from the beads using a buffer containing imidazole. We provide examples of expected results, highlighting the purity, integrity and import activity of isolated mitochondria. These affinity-purified mitochondria are intact and functional, containing less contamination with cytosol and other organelles compared to mitochondria isolated by other methods. Our method is adaptable and can be applied to other model organisms that can be genetically manipulated using CRISPR or other methods.