Saccharomyces cerevisiae myristoyl-CoA:protein N-myristoyltransferase (Nmt1p) is an essential, 455-residue, monomeric enzyme. Amino- and carboxyl- terminal deletion mutants of Nmt1p were genetically engineered to determine the minimal domain necessary to maintain catalytic activity. Enzyme activity was assessed by (i) sequentially inducing Nmt1p or its mutant derivatives and one of two eukaryotic substrates for the wild type enzyme (S. cerevisiae Gpa1p and rat G(oα)) in Escherichia coli, a bacterium with no endogenous myristoyltransferase activity, and monitoring Nmt-dependent incorporation of exogenous [3H]myristate into the G protein α subunits or (ii) an in vitro enzyme assay using lysates prepared from bacteria producing wild type or mutant Nmts. The data indicate that the minimal catalytic domain of Nmt1p is located between Ile59 → Phe96 and Gly451 → Leu435. Analyses of the ability of mutant nmtps to rescue the lethal phenotype of an nmt1 null allele in a haploid strain of yeast grown on rich media, with or without blockade of cellular fatty acid synthetase, suggest that the amino-terminal 59 residues of Nmt1p may play an important noncatalytic role, functioning as a targeting signal so this cytosolic enzyme can access cellular myristoyl- CoA pools generated from activation of exogenous C14:0 by acyl-CoA synthetase(s). Moreover, there appear to be differences in the location or accessibility of myristoyl-CoA pools derived from fatty acid synthetase and acyl-CoA synthetases. The E. coli co-expression system was used to map structural elements that determine differences in the peptide substrate specificities of Nmt1p and the orthologous human Nmt. Rat G(oα) is a substrate for both enzymes, whereas human G(zα) is a substrate only for human NMT. Studies of a series of chimeric enzymes composed of elements from the amino- or carboxyl-terminal portions of human and yeast Nmts indicate that (i) recognition/utilization of G(zα) involves elements distributed from the amino-terminal half through the region defined by Leu352 → Lys410 of the 416 residue human enzyme and (ii) formation of a fully functional peptide binding site and a fully functional myristoyl-CoA binding site in either of these enzymes requires contributions from both their amino-terminal and carboxyl-terminal halves.

Original languageEnglish
Pages (from-to)23852-23861
Number of pages10
JournalJournal of Biological Chemistry
Issue number33
StatePublished - 1992


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