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  • Title: Mitochondrial Mas70p signal anchor sequence. Mutations in the transmembrane domain that disrupt dimerization but not targeting or membrane insertion.
    Author: Millar DG, Shore GC.
    Journal: J Biol Chem; 1994 Apr 22; 269(16):12229-32. PubMed ID: 8163528.
    Abstract:
    Mas70p is an integral membrane protein in Saccharomyces cerevisiae that is targeted and inserted into the mitochondrial outer membrane in an N(in)-Ccyto orientation by its NH2-terminal 29-amino acid signal anchor sequence. Recently, we demonstrated that the signal anchor was capable of mediating homo-oligomerization of a fusion protein, pOMD29, in the outer membrane in vitro (Millar, D. G., and Shore, G. C. (1992) J. Biol. Chem. 268, 18403-18406). Consistent with this finding, we show here that a synthetic peptide corresponding to the Mas70p signal anchor is capable of independent membrane insertion and dimerization with pOMD29. To further map the oligomerization domain in the signal anchor sequence, a deletion mutant of pOMD29 that lacks amino acids 2-10 was constructed. This protein, pOMD29 delta 2-10, efficiently participated in dimer formation following import, indicating that dimerization was mediated by the putative membrane spanning segment (amino acids 11-29). This segment is predicted to form an alpha-helix that has an alanine-rich face and contains multiple copies of a pentapeptide dimerization motif that is widespread among members of the receptor tyrosine kinase family. Substitution of the alanine residues in one of these copies with isoleucine, producing a potentially bulkier contact surface, resulted in a protein which was targeted and inserted into the outer membrane but failed to assemble into dimers. Taken together, these results identify a structural feature of the signal anchor transmembrane domain that is important for oligomerization but is not required for targeting and membrane insertion.
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