Niels Fiil

Rhizomucor miehei triglyceride lipase is synthesized as a precursor.

ARhizomucor miehie cDNA library constructed inEscherichia coli was screened with synthetic oligonucleotides designed from knowledge of a partial amino acid sequence of the secreted triglyceride lipase (triacyl-glycerol acylhydrolase EC 3.1.1.3) from this fungus. Lipase-specific recombinants were isolated and their insert sequenced. Unlike characterized bacterial and mammalian triglyceride lipases, the fungal enzyme is synthesized as a precursor, including a 70 amino acid residue propeptide between the 24 amino acid residues of the signal peptide and the 269 residues of the mature enzyme. The precursor processing mechanism, which involves cleavage between a methionine and a serine residue, is unknown. By sequence comparison with other lipases, a serine residue involved in substrate binding was identified in the fungal lipase. The sequence around this residue is well-conserved among characterized lipases. Conservation of an intron in an isolated cDNA recombinant and immunoprecipitation of in vitro synthesizedR. miehei translation products indicates that the expression of the lipase gene might involve inefficient mRNA splicing.

Competitive expression of two heterologous genes inserted into one plasmid in Saccharomyces cerevisiae

Plasmids were constructed which contained two expression units encoding single-chain insulin precursors. Surprisingly, the total amount of insulin precursor produced was similar to that produced from plasmids containing a single expression unit. In this system, therefore, two expression cassettes can be brought to compete for the limited ability of the yeast cell for synthesis and secretion. Using genes encoding B(1-29)-A(1-21) and B(1-29)-Ala-Ala-Lys-A-(1-21), the slightly different precursors could be quantified individually after separation by high-performance liquid chromatography from the culture supernatant. The two-cassette system allowed a sensitive and well controlled comparison of parameters important for optimal expression of a heterologous gene in Saccharomyces cerevisiae. The system was used to compare two promoter constructions and also to evaluate the position of expression cassettes in the plasmid. Finally the codon usage in the gene to be expressed was found to influence its ability to compete for expression.