Proteinase K from Tritirachium album Limber. Characterization of the chromosomal gene and expression of the cDNA in Escherichia coli

Abstract

The cDNA and the chromosomal gene encoding proteinase K from Tritirachium album Limber have been cloned in Escherichia coli and the entire nucleotide sequences of the coding region, as well as 5'- and 3'-flanking regions have been determined. The deduced primary translation product consisting of 384 amino acid residues (molecular mass = 40,231 Da) contains an N-terminal region of 105 amino acids not present in the mature protein. By analogy to the evolutionary-related bacterial subtilisins and other serine proteinases it is inferred that the primary secreted product is a zymogen containing a 15-amino-acid signal sequence and a 90-amino-acid propeptide. The propeptide is presumably removed in the later steps of the secretion process or upon secretion into the medium. The nucleotide-sequence analysis of the gene and its flanking regions has revealed that the proteinase-K gene is composed of two exons and one 63-bp-long intron located in the proregion. Furthermore, a putative promoter sequence and a capping site have been identified, suggesting that the transcription-start site is located 103-bp upstream of the ATG initiation codon. To express the proproteinase-K gene in E. coli, proproteinase-K cDNA was cloned in a plasmid vector under control of the tac promoter. The hybrid plasmid pSPPRO, constructed for this purpose, contained the cDNA coding for proproteinase K [from Ala (-91) to the C-terminal Ala (279)] fused to the N-terminal-signal-peptide sequence of the alkaline-phosphatase gene preceded by the tac promoter. E. coli BMH71-18, harbouring this plasmid, exhibited slight proteolytic activity when tested on skimmed-milk plates, suggesting that some fusion proteins were correctly secreted into the periplasm and processed to the mature proteinase K.