Isolation and characterization of the hyperthermostable serine protease, pyrolysin, and its gene from the hyperthermophilic archaeon Pyrococcus furiosus.

The hyperthermostable serine protease pyrolysin from the hyperthermophilic archaeon Pyrococcus furiosus was purified from membrane fractions. Two proteolytically active fractions were obtained, designated high (HMW) and low (LMW) molecular weight pyrolysin, that showed immunological cross-reaction and identical NH2-terminal sequences in which the third residue could be glycosylated. The HMW pyrolysin showed a subunit mass of 150 kDa after acid denaturation. Incubation of HMW pyrolysin at 95 degrees C resulted in the formation of LMW pyrolysin, probably as a consequence of COOH-terminal autoproteolysis. The 4194-base pair pls gene encoding pyrolysin was isolated and characterized, and its transcription initiation site was identified. The deduced pyrolysin sequence indicated a prepro-enzyme organization, with a 1249-residue mature protein composed of an NH2-terminal catalytic domain with considerable homology to subtilisin-like serine proteases and a COOH-terminal domain that contained most of the 32 possible N-glycosylation sites. The archaeal pyrolysin showed highest homology with eucaryal tripeptidyl peptidases II on the amino acid level but a different cleavage specificity as shown by its endopeptidase activity toward caseins, casein fragments including alphaS1-casein and synthetic peptides.

Food-grade cloning and expression system for Lactococcus lactis.

A versatile set of cloning and expression vectors has been developed for application in self-cloning and other genetic modifications of Lactococcus lactis. The expression vectors were equipped with the controlled and strong lacA promoter of the lactococcal lactose operon. In addition, the transcriptional terminator of the aminopeptidase N gene, pepN, was inserted, which in some cases increased the genetic stabilities of the vectors and the cloned DNA. The small, 0.3-kb lacF gene encoding the soluble carrier enzyme IIALac was used as a dominant selection marker in the plasmid-free L. lactis strain NZ3000 carrying an in-frame deletion of the chromosomal lacF gene. Lactose-utilizing transformants were easily selected on lactose indicator plates at high frequencies and showed a copy number of approximately 50 plasmids per cell. All vectors were stably maintained in the lacF strain NZ3000 when grown on lactose, and only the high-level expression vectors showed some instability when their host was grown on glucose-containing medium. The application potentials of the expression vectors carrying the lacF marker were determined by cloning of the promoterless Escherichia coli gusA reporter gene under control of the lacA promoter followed by analysis of its expression. While in one of the vectors this resulted in a promoter-down mutation in the -10 region of the lacA promoter, in other vectors high-level and controlled expression of the gusA gene was observed.

Metabolic engineering of Lactococcus lactis: influence of the overproduction of alpha-acetolactate synthase in strains deficient in lactate dehydrogenase as a function of culture conditions.

The als gene for alpha-acetolactate synthase of Lactococcus lactis MG1363 was cloned on a multicopy plasmid under the control of the inducible L. lactis lacA promoter. More than a hundredfold overproduction of alpha-acetolactate synthase was obtained in L. lactis under inducing conditions as compared with that of the host strain, which contained a single chromosomal copy of the als gene. The effect of alpha-acetolactate synthase overproduction on the formation of end products in various L. lactis strains was studied under different fermentation conditions. Under aerobic conditions and with an initial pH of 6.0, overexpression of the als gene resulted in significant acetoin production that amounted to more than one-third of the pyruvate converted. However, the effect of the alpha-acetolactate synthase overproduction was even more pronounced in the lactate dehydrogenase-deficient strain L. lactis NZ2700. Anaerobic cultivation of this strain resulted in a doubling of the butanediol formation of up to 40% of the converted pyruvate. When cultivated aerobically at an initial pH of 6.8, overexpression of the als gene in L. lactis NZ2700 resulted in the conversion of more than 60% of the pyruvate into acetoin, while no butanediol was formed. Moreover, at an initial pH of 6.0, similar amounts of acetoin were obtained, but in addition approximately 20% of the pyruvate was converted into butanediol. These metabolic engineering studies indicate that more than 80% of the lactose can be converted via the activity of the overproduced alpha-acetolactate synthase in L. lactis.

Characterization and heterologous expression of the tetL gene and identification of iso-ISS1 elements from Enterococcus faecalis plasmid pJH1.

The tetracycline-resistance (TcR) determinant of the Enterococcus faecalis plasmid pJH1 has been identified and located on a 2.2-kb RsaI-EcoRI fragment. The fragment was cloned in Escherichia coli, and specified TcR in this host. The nucleotide (nt) sequence of the cloned fragment showed the presence of an open reading frame (ORF) of 1374 bp, designated tetL. The nt sequence of tetL from pJH1 was identical to that of the tetL present on pLS1 from Streptococcus agalactiae. Upstream of the pJH1 tetL, part of another ORF was found that, except for two single-nt substitutions, was identical to an iso-ISS1 element from Lactococcus lactis. Hybridization studies indicated the presence of several ISS1-like elements in plasmid pJH1, but not on the En. faecalis chromosome. To study its usefulness as a marker in Gram+ organisms, the pJH1 tetL was cloned on the broad-host-range plasmid pNZ124, resulting in pNZ280, that was found to give resistance to 40 micrograms Tc/ml in Lc. lactis and Bacillus subtilis.

Use of the Escherichia coli beta-glucuronidase (gusA) gene as a reporter gene for analyzing promoters in lactic acid bacteria.

A transcriptional fusion vector, designated pNZ272, based on the promoterless beta-glucuronidase gene (gusA) of Escherichia coli as a reporter gene, has been constructed for lactic acid bacteria. The replicon of pNZ272 was derived from the Lactococcus lactis plasmid pSH71, allowing replication in a wide range of gram-positive bacteria and E. coli. The applicability of pNZ272 and the expression of the gusA gene in L. lactis was demonstrated in shotgun cloning experiments with lactococcal chromosomal and bacteriophage DNA. In addition, three defined lactococcal promoters were inserted in pNZ272: the plasmid-derived lacA promoter, the chromosomal usp45 promoter, and a promoter from bacteriophage phi SK11G. The three resulting plasmids showed beta-glucuronidase activity in a gusA-deficient E. coli strain and in four species of lactic acid bacteria belonging to the genera Lactobacillus, Lactococcus, and Leuconostoc. The copy numbers of the gusA-expressing plasmids were similar within a single species of lactic acid bacteria. However, the specific beta-glucuronidase activity and the gusA mRNA levels varied considerably both within a single species and among different species of lactic acid bacteria. The transcriptional start site of all three promoters was determined and found to be identical in the different species. The results of this comparative promoter analysis indicate that the requirements for efficient transcription initiation differ among the lactic acid bacteria studied.

Location, characterization and expression of lytic enzyme-encoding gene, lytA, of Lactococcus lactis bacteriophage phi US3.

Gene lytA, which encodes lytic enzyme (LytA), of the isometric Lactococcus lactis bacteriophage phi US3, was cloned and expressed in Escherichia coli. The lytA gene was located on the physical map of the phi US3 32-kb DNA that contains cohesive ends. Initial expression of lytA was detected by lysis of an overlay of cells of the phage-sensitive strain, L. lactis SK112. However, LytA appeared to have a broad spectrum and induced lysis in more than 30 different lactococcal strains. The nucleotide sequence of lytA showed a single open reading frame (ORF) of 774 bp encoding a protein of 258 amino acids (aa) with a calculated M(r) of 28,977. This is in agreement with the size of 29 kDa as determined for LytA produced in E. coli using a T7 expression system. The lytA gene is preceded by an ORF that may code for a hydrophobic peptide of 66 aa containing a putative secretion signal, and two putative transmembrane helices. The deduced aa sequence of the phage phi US3 LytA shows similarities to that of the autolysin of Streptococcus pneumoniae which is known to be an amidase.

Characterization of a gram-positive broad-host-range plasmid isolated from Lactobacillus hilgardii.

Two plasmids, pLAB1000 and pLAB2000 (3.3 and 9.1 kb, respectively), have been isolated from a grass silage strain of Lactobacillus hilgardii. Both plasmids were cloned in Escherichia coli and characterized through restriction mapping. A 1.6-kb XbaI-SacI fragment of pLAB1000 appeared to be sufficient for autonomous replication in Lactobacillus plantarum and in Bacillus subtilis. Different shuttle vectors for E. coli and gram-positive bacteria were developed using the pLAB1000 plasmid. These could stably be maintained in Lactobacillus, Enterococcus, and Bacillus under selective conditions. Plasmids sharing DNA homologies with pLAB1000 have been observed in different strains of the related species L. plantarum.