Purification and characterization of protease M, a yeast mitochondrial nucleotide-stimulated metal protease: its identification as CYM1 gene product, a mitochondrial presequence peptidase

Abstract

Abstract A chelator-sensitive protease in the mitochondrial matrix of the yeast, Saccharomyces cerevisiae (Biochem. Biophys. Res. Commun. 144, 277, 1987), was purified and characterized. The purified enzyme, termed protease M, specifically hydrolyzes peptide substrates on the N-side of the paired basic residues. When mastoparan was used as substrate, it cleaved Ala8-Leu9 and Lys11-Lys12 bonds as well as the N-side of Lys11-Lys12 residues. Nucleotide triphosphates stimulated the activity 3-fold at 2.5 mM. The genomic DNA sequence showed that protease M was a gene product of CYM1 known as mitochondrial presequence protease homologue in S. cerevisiae, encoding a 989-amino acid-long precursor protein. The N-terminal sequence of the purified enzyme indicated that protease M has 16-residue signal sequence and the ‘mature’ protein consists of 973 amino acids with a molecular mass of 110 kDa. Protease M contained consensus sequence motifs of ATP-binding site very near the carboxyl terminus. The alignment of the two ATP-binding motifs is an inverted version of the common alignment. Gene disruption of the enzyme generates mixed subunits in tetrameric MnSOD formed with 23-kDa mature and 24-kDa partial presequence-containing subunits. This report describes newly identified enzyme properties of the CYM1 gene product, protease M and abnormal MnSOD complex formation of the disruption mutant.