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  • Title: Irreversible misfolding of diacylglycerol kinase is independent of aggregation and occurs prior to trimerization and membrane association.
    Author: Mi D, Kim HJ, Hadziselimovic A, Sanders CR.
    Journal: Biochemistry; 2006 Aug 22; 45(33):10072-84. PubMed ID: 16906765.
    Abstract:
    Escherichia coli diacylglycerol kinase (DAGK) is a homotrimeric helical integral membrane protein in which a number of single-site mutations to cysteine are known to promote misfolding. Here, effects of other amino acid replacements have been explored using a folding assay based on the dilution of acidic urea/DAGK stock solutions into detergent/lipid mixed micelles. DAGK with an I110P or I110R mutation in the third transmembrane helix could not be purified because its expression was toxic to the E. coli host, most likely because of severe folding defects. Other mutations at Ile110 enhanced irreversible misfolding to varying degrees that generally correlated both with the polarity of the inserted amino acid and with the degree of protein destabilization. However, the I110W mutant was an exception in that it was highly misfolding prone while at the same time being more stable than the wild-type protein. This contrasts with I110Y, which also exhibited enhanced stability but folded with an efficiency similar to that of the wild type. For most mutants, the critical step leading to irreversible misfolding occurred for monomeric DAGK prior to trimerization and independent of association with mixed micelles. Misfolding of DAGK evidently involves the formation of incorrect monomer tertiary structure. Mutations appear to enhance misfolding by disfavoring the formation of correct structure rather than by directly stabilizing the misfolded state. Finally, when urea-solubilized DAGK was diluted into detergent/lipid-free buffer, it retained a significant degree of folding competency over a period of minutes. This property may be relevant to membrane protein folding in cells under conditions where the usual machinery associated with membrane integration is saturated, dysregulated, or dysfunctional.
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