Clostripain (EC 3.4.22.8) is a heterodimeric cysteine endopeptidase with strict specificity for Arg-Xaa peptidyl bonds. It is secreted by Clostridium histolyticum strains. For the first time we present evidence that both polypeptide chains of native clostripain are encoded by a single gene. DNA sequencing of two overlapping genomic DNA fragments revealed a single open reading frame (ORF) of 1581 nucleotides encoding a polypeptide of 526 amino acid residues. The ORF is preceded by canonical transcription signals and both chains of the clostripain heterodimer are completely represented by the deduced coding sequence. Most interestingly, the sequences coding for the light and the heavy chain are joined by a DNA stretch coding for a linker nonapeptide that is preceded by the C-terminal arginyl residue of the light chain and also ends with an arginyl residue. Heterologous expression of the gene in Escherichia coli yielded an enzyme capable of hydrolyzing the clostripain substrates N alpha-benzoyl-L-arginine ethyl ester (BAEE) and N-carbobenzoxy-L-arginine p-nitroanilide (Z-Arg-pNA).
Proline-specific endopeptidase (PSE) (EC 3.4.21.26) from Flavobacterium meningosepticum was subjected to partial amino acid sequencing. According to the peptide sequences obtained, oligonucleotides were used to amplify a PSE-specific DNA fragment of 930 bp from F. meningosepticum genomic DNA, employing the polymerase chain reaction technique. This fragment served as a molecular probe to isolate the respective gene. DNA sequencing revealed that the PSE gene consists of 2118 bp coding for a 78,634 Da protein of 705 amino acids. The coding region was cloned in different expression vectors of Escherichia coli. Transformed E. coli cells overproduce an active prolyl endopeptidase of 75,000 relative molecular mass, which is delivered to the bacterial periplasmic space. Up to 1.6 units of active prolyl endopeptidase were obtained from 1 mg E. coli cells. Furthermore, the efficient purification of active prolyl endopeptidase from the periplasm of recombinant E. coli cells is described.
Clostripain-specific antibodies were used to analyse the maturation of clostripain prepro-enzyme and core protein heterologously synthesized in Escherichia coli and Bacillus subtilis. Core protein purified from E. coli cells harbouring plasmid pHM3-23 underwent calcium-dependent, self-triggered maturation. Concomitantly, the inactive form of the enzyme was converted into an active form, demonstrating the self-activation capacity of the clostripain core protein. As judged from Western blot analysis, the major portion of the protein in E. coli was degraded, presumably b y the activated clostripain. The enzyme was not exported to the E. coli periplasm, either by use of the putative Clostridium histolyticum signal peptide or by use of the Ecoli OmpA signal peptide. Therefore, the Gram-positive micro-organism B. subtilis was chosen as an alternative host for the expression of the prepro-enzyme and the core protein. BR 151 cells harbouring pHM7-1OB secreted clostripain precursor to the growth medium and matured subsequently to the active enzyme. As only a small amount of activity was detected intracellularly, the putative C. histolyticum signal peptide was efficiently recognized by the Bsubtilis secretion apparatus. Under optimized conditions, a level of 4500 U I-' could be obtained in batch cultures.
Wild or industrial yeast strains cannot be transformed by most selective vectors due to a lack of auxotrophic mutations. To enable identification of transformants of such yeast species, we have developed a 2-µm DNA vector with an indicator gene that can be used without any additional marker. The Escherichia coli gene for β-lactamase (bla) was placed under the control of the yeast promoter for the structural gene encoding ADHI. This increased the amount of β-lactamase produced in Saccharomyces cerevisiae 100-fold giving an enzyme activity in transformant colonies which is high enough to be detected directly on indicator plates. Non-selectively, the transformation frequency is even higher than under selective conditions indicating that selection does not assist the establishment of new plasmids. Transformants isolated non-selectively were found to retain the endogenous 2-µm DNA. Under control of appropriate promoters, the bacterial bla gene may also provide a convenient marker for other eukaryotic transformation systems.
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