Juxtaposition of the two distal CX3C motifs via intrachain disulfide bonding is essential for the folding of Tim10

Scott Allen, Hui Lu, David Thornton, Kostas Tokatlidis

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The TIM10 complex, composed of the homologous proteins Tim10 and Tim9, chaperones hydrophobic proteins inserted at the mitochondrial inner membrane. A salient feature of the TIM10 complex subunits is their conserved "twin CX3C" motif. Systematic mutational analysis of all cysteines of Tim10 showed that their underlying molecular defect is impaired folding (demonstrated by circular dichroism, aberrant homo-oligomer formation, and thiol trapping assays). As a result of defective folding, clear functional consequences were manifested in (i) complex formation with Tim9, (ii) chaperone activity, and (iii) import into tim9ts mitochondria lacking both endogenous Tim9 and Tim10. The organization of the four cysteines in intrachain disulfides was determined by trypsin digestion and mass spectrometry. The two distal CX3C motifs are juxtaposed in the folded structure and disulfide-bonded to each other rather than within each other, with an inner cysteine pair connecting Cys44 with Cys61 and an outer pair between Cys40 and Cys 65. These cysteine pairs are not equally important for folding and assembly; mutations of the inner Cys are severely affected and form wrong, nonnative disulfides, in contrast to mutations of the outer Cys that can still maintain the native inner disulfide pair and display weaker functional defects. Taken together these data reveal this specific intramolecular disulfide bonding as the crucial mechanism for Tim10 folding and show that the inner cysteine pair has a more prominent role in this process.
    Original languageEnglish
    Pages (from-to)38505-38513
    Number of pages8
    JournalJournal of Biological Chemistry
    Volume278
    Issue number40
    DOIs
    Publication statusPublished - 3 Oct 2003

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