Protein translocation is a highly dynamic process and, in addition, mitochondrial protein import is especially complicated as the majority of nuclear encoded precursor proteins must engage with multiple translocases before they are assembled in the correct mitochondrial subcompartment. In this chapter, we describe assays for engineered disulfide bond formation and cysteine specific crosslinking to analyze the rearrangement of translocase subunits or to probe protein-protein interactions between precursor proteins and translocase subunits. Such assays were used to characterize the translocase of the outer membrane, the presequence translocase of the inner membrane and the sorting and assembly machinery for the biogenesis of β-Barrel proteins. Moreover, these approaches were also employed to determine the translocation path of precursor proteins (identification of import receptors and specific domains required for translocation) as well as the analysis, location and translocase subunit dependence for the formation of β-Barrel proteins. Here we describe how engineered disulfide bond formation and cysteine specific crosslinking assays are planned and performed and discuss important aspects for its application to study mitochondrial protein translocation.
Keywords: Mitochondria; Precursor protein; Protein biogenesis; Protein import; Protein-protein interaction; SAM complex; TIM complex; TOM complex; Translocase.
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