Selective elimination of damaged mitochondria via macroautophagy (mitophagy) is a conserved cellular process that plays an important role in organismal health. In recent years mitophagy has been studied in parallel to the more general, non-selective autophagy pathway induced in response to amino acid starvation with important similarities and differences noted between the two. The elaborate sequence of membrane rearrangements that give rise to autophagosomes in the non-selective pathway have their counterpart in mitophagy, but with the addition of other factors, such as a ubiquitin mark and mitophagy receptors, which mediate cargo recognition. In some types of mitophagy such as the one induced by ivermectin, the forming autophagosomal structure contains six different elements: the targeted mitochondrial fragment, a section of endoplasmic reticulum that provides a cradle, a ubiquitin layer, the mitophagy receptors and the early and late autophagosomal proteins/membranes. Super-resolution microscopy is ideally suited to investigate the spatial relationships between these elements that converge together but retain some distinctive localization, and we provide here a general protocol that can be used for mammalian cells. Selective elimination of damaged mitochondria via macroautophagy (mitophagy) is a conserved cellular process that plays an important role in organismal health. In recent years mitophagy has been studied in parallel to the more general, non-selective autophagy pathway induced in response to amino acid starvation with important similarities and differences noted between the two. The elaborate sequence of membrane rearrangements that give rise to autophagosomes in the non-selective pathway have their counterpart in mitophagy, but with the addition of other factors, such as a ubiquitin mark and mitophagy receptors, which mediate cargo recognition. In some types of mitophagy such as the one induced by ivermectin, the forming autophagosomal structure contains six different elements: the targeted mitochondrial fragment, a section of endoplasmic reticulum that provides a cradle, a ubiquitin layer, the mitophagy receptors and the early and late autophagosomal proteins/membranes. Super-resolution microscopy is ideally suited to investigate the spatial relationships between these elements that converge together but retain some distinctive localization, and we provide here a general protocol that can be used for mammalian cells. Li Z, Ktistakis NT Methods in cell biology 165 1 34311864 0 Signalling 2021