Abstract
We have performed a site-directed mutagenesis study showing that residues comprising the type I signal peptidase signature in the two catalytic subunits of the yeast inner membrane protease, Imp1p and Imp2p, are functionally important, consistent with the idea that these subunits contain a serine/lysine catalytic dyad. Previous studies have shown that Imp1p cleaves signal peptides having asparagine at the -1 position, which deviates from the typical signal peptide possessing a small uncharged amino acid at this position. To determine whether asparagine is responsible for the nonoverlapping substrate specificities exhibited by the inner membrane protease subunits, we have substituted asparagine with 19 amino acids in the Imp1p substrate i-cytochrome (cyt) b(2). The resulting signal peptides containing alanine, serine, cysteine, leucine, and methionine can be cleaved efficiently by Imp1p. The remaining mutant signal peptides are cleaved inefficiently or not at all. Surprisingly, none of the amino acid changes results in the recognition of i-cyt b(2) by Imp2p, whose natural substrate, i-cyt c(1), has alanine at the -1 position. The data demonstrate that (i) although the -1 residue is important in substrates recognized by Imp1p, signal peptides having standard and nonstandard cleavage sites can be processed by Imp1p, and (ii) a -1 asparagine does not govern the substrate specificity of the inner membrane protease subunits.
Highlights
The type I signal peptidase family consists of enzymes located in the plasma membranes of eubacterial cells, the endoplasmic reticulum (ER)1 membrane, and the inner membrane of mitochondria
Because Imp1p and Imp2p of the mitochondrial signal peptidase from the yeast S. cerevisiae contain this signature, we asked whether these five amino acids were important for enzyme function using a site-directed mutagenesis approach
This cleavage event liberates an intermediate form, i-cyt b2, that contains the second half of the bipartite signal, which is cleaved by Imp1p
Summary
Yeast Strains, Media, and Antibodies—Media for growing yeast [13] and glycerol-containing media [5] have been described. The product was inserted between the SmaI and EcoRI sites of pHF454 (2 m TRP1) [3], which placed the CYB2 coding sequence immediately downstream of the ADH1 promoter [17]. The wild-type IMP2 gene and the mutations constructed in IMP2 were introduced into pHF455 (2 m URA3), which placed the IMP2 coding sequence immediately downstream of the ADH1 promoter. To mutagenize CYB2, the wild-type CYB2 gene and the mutations constructed in CYB2 (tagged with a sequence encoding the HA epitope as described above) were introduced into pHF454 (2 m TRP1), which placed the CYB2 gene downstream of the ADH1 promoter. To mutagenize CYT1, the wild-type CYT1 gene and the mutations constructed in CYT1 (tagged with a sequence encoding the HA epitope as described above) were introduced into pHF454 (2 m TRP1), placing the CYT1 gene immediately downstream of the ADH1 promoter. The sequences of the oligonucleotides used to construct these mutations are available upon request
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