Delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine synthetase from Aspergillus nidulans. Molecular characterization of the acvA gene encoding the first enzyme of the penicillin biosynthetic pathway.
1991
Abstract The Aspergillus nidulans gene (acvA) encoding the first catalytic steps of penicillin biosynthesis that result in the formation of delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine (ACV), has been positively identified by matching a 15-amino acid segment of sequence obtained from an internal CNBr fragment of the purified amino-terminally blocked protein with that predicted from the DNA sequence. acvA is transcribed in the opposite orientation to ipnA (encoding isopenicillin N synthetase), with an intergenic region of 872 nucleotides. The gene has been completely sequenced at the nucleotide level and found to encode a protein of 3,770 amino acids (molecular mass, 422,486 Da). Both fast protein liquid chromatography and native gel estimates of molecular mass are consistent with this predicted molecular weight. The enzyme was identified as a glycoprotein by means of affinity blotting with concanavalin A. No evidence for the presence of introns within the acvA gene has been found. The derived amino acid sequence of ACV synthetase (ACVS) contains three homologous regions of about 585 residues, each of which displays areas of similarity with (i) adenylate-forming enzymes such as parsley 4-coumarate-CoA ligase and firefly luciferase and (ii) several multienzyme peptide synthetases, including bacterial gramicidin S synthetase 1 and tyrocidine synthetase 1. Despite these similarities, conserved cysteine residues found in the latter synthetases and thought to be essential for the thiotemplate mechanism of peptide biosynthesis have not been detected in the ACVS sequence. These observations, together with the occurrence of putative 4'-phosphopantetheine-attachment sites and a putative thioesterase site, are discussed with reference to the reaction sequence leading to production of the ACV tripeptide. We speculate that each of the homologous regions corresponds to a functional domain that recognizes one of the three substrate amino acids.
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