Characterization of Neurospora crassa Tom40-deficient mutants and effect of specific mutations on Tom40 assembly |
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Authors: | Taylor Rebecca D McHale Bryan J Nargang Frank E |
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Affiliation: | Department of Biological Sciences, University of Alberta, Edmonton, Canada. |
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Abstract: | The TOM complex (Translocase of the Outer mitochondrial Membrane) is responsible for the recognition of mitochondrial preproteins synthesized in the cytosol and for their translocation across or into the outer mitochondrial membrane. Tom40 is the major component of the TOM complex and forms the translocation pore. We have created a tom40 mutant of Neurospora crassa and have demonstrated that the gene is essential for the viability of the organism. Mitochondria with reduced levels of Tom40 were deficient for import of mitochondrial preproteins and contained reduced levels of the TOM complex components Tom22 and Tom6, suggesting that the import and/or stability of these proteins is dependent on the presence of Tom40. Mutant Tom40 preproteins were analyzed for their ability to be assembled into the TOM complex. In vitro import assays revealed that conserved regions near the N terminus (residues 51-60) and the C terminus (residues 321-323) of the 349-amino acid protein were required for assembly beyond a 250-kDa intermediate form. Mutant strains expressing Tom40 with residues 51-60 deleted were viable but exhibited growth defects. Slow growing mutants expressing Tom40, where residues 321-323 were changed to Ala residues, were isolated but showed TOM complex defects, whereas strains in which residues 321-323 were deleted could not be isolated. Analysis of the assembly of mutant Tom40 precursors in vitro supported a previous model in which Tom40 precursors progress from the 250-kDa intermediate to a 100-kDa form and then assemble into the 400-kDa TOM complex. Surprisingly, when wild type mitochondria containing Tom40 precursors arrested at the 250-kDa intermediate were treated with sodium carbonate, further assembly of intermediates into the TOM complex occurred, suggesting that disruption of protein-protein interactions may facilitate assembly. Import of wild type Tom40 precursor into mitochondria containing a mutant Tom40 lacking residues 40-48 revealed an alternate assembly pathway and demonstrated that the N-terminal region of pre-existing Tom40 molecules in the TOM complex plays a role in the assembly of incoming Tom40 molecules. |
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