Isolation and characteristics of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> glutamyl endopeptidase secreted by a recombinant strain of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> at various growth phases

The recombinant strain of Bacillus subtilis bearing B. intermedius glutamyl endopeptidase gene in multicopy plasmid Δ58.21 secretes the enzyme to the medium at the phase of slowing of growth and the stationary growth phase with accumulation maxima at 24 and 48 h. Enzyme samples were isolated from the culture liquid after 24 and 48 h of culturing of and were purified up to homogeneity by ion exchange chromatography on carboxymethyl cellulose and HPLC on a MonoS column. The molecular weight of the corresponding proteins was 29 kDa. Both preparations had identical structure, but differed in affinity to the specific substrate Z-Glu-pNA. The effects of Ca²⁺ ions and specific low-molecular and protein inhibitors on the activity of the enzyme corresponding to various growth phases has been studied.     

Heterologous expression of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> gene of glutamyl endopeptidase in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> strains defective in regulatory proteins

Expression of the gene of glutamyl endopeptidase from Bacillus intermedius (gseBi) cloned on the plasmid pV has been studied in Bacillus subtilis recombinant strains with mutations of the regulatory proteins involved in sporogenesis and spore germination. It has been established that inactivation of the regulatory protein Spo0A involved in sporulation initiation resulted in a decrease in the expression of the gseBi gene by 65% on average. A mutation in the gene of the sensor histidine kinase kinA had no effect on the biosynthesis of the enzyme. Inactivation of Ger proteins regulating bacterial spore germination resulted in a 1.5–5-fold decrease in glutamyl endopeptidase activity. It has been concluded that expression of the B. intermedius glutamyl endopeptidase gene from plasmid pV in recombinant cells of B. subtilis is under impaired control by the regulatory system of Spo0F/Spo0A phosphorelay, which participates in sporulation initiation. The regulatory Ger proteins responsible for spore germination also affect expression of the gene of this enzyme.     

Effect of the modification of the processing site of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> glutamyl endopeptidase on the production of active enzyme by <Emphasis Type="Italic">Bacillus subtilis</Emphasis> cells

A site-directed modification at position P1 of the processing site of Bacillus intermedius glutamyl endopeptidase was carried out. Variants of the protease gene were obtained that correspond to the protein with an Ala, Asn, Ser, or Glu residue at this position substituted for the Lys residue. The residue in the P1 position of the processing site was shown to affect substantially the production of the active enzyme; however, none of the mutations leads to the complete termination of active protein production by cells.     

The expression of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> glutamyl endopeptidase gene in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> recombinant strains

The gene encoding for B. intermedius glutamyl endopeptidase (gseBi) has previously been cloned and its nucleotide sequence analyzed. In this study, the expression of this gene was explored in protease-deficient strain B. subtilis AJ73 during stationary phase of bacterial growth. We found that catabolite repression usually involved in control of endopeptidase expression during vegetative growth was not efficient at the late stationary phase. Testing of B. intermedius glutamyl endopeptidase gene expression with B. subtilis spo0-mutants revealed slight effect of these mutations on endopeptidase expression. Activity of glutamyl endopeptidase was partly left in B. subtilis ger-mutants. Probably, gseBi expression was not connected with sporulation. This enzyme might be involved in outgrowth of the spore, when germinating endospore converts into the vegetative cell. These data suggest complex regulation of B. intermedius glutamyl endopeptidase gene expression with contribution of several regulatory systems and demonstrate changes in control of enzyme biosynthesis at different stages of growth.     

The Regulation of Bacillus intermedius Glutamyl Endopeptidase Biosynthesis in the Recombinant Bacillus subtilis Strain AJ73 during Sporulation

The growth of the recombinant Bacillus subtilis strain AJ73 carrying the Bacillus intermedius 3-19 glutamyl endopeptidase gene on a multicopy plasmid and the effect of some nutrients on the efficiency of extracellular glutamyl endopeptidase production in the stationary growth phase were studied. In this phase, the concentration of glutamyl endopeptidase in the culture liquid peaked at the 48th and 78th hours of cultivation and depended on the composition of the cultivation medium. Unlike the synthesis of glutamyl endopeptidase in the trophophase (i.e., during vegetative growth), which was suppressed by glucose, the synthesis of this enzyme during sporulation was resistant to glucose present in the cultivation medium. A multifactorial experimental design allowed optimal proportions between the concentrations of major nutrients (peptone and inorganic phosphate) to be determined. Inorganic phosphate and ammonium ions augmented the production of glutamyl endopeptidase by 30–150%, and complex organic substrates, such as casein and gelatin, enhanced the production of glutamyl endopeptidase by 50–100%. During sporulation, the production of glutamyl endopeptidase was stimulated by some bivalent cations (Ca²⁺, Mg²⁺, and Co²⁺) and inhibited by others (Zn²⁺, Fe²⁺, and Cu²⁺). The inference is drawn that the regulatory mechanisms of glutamyl endopeptidase synthesis during vegetative growth and sporulation are different.     

Biosynthesis of secreted ribonucleases of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> and <Emphasis Type="Italic">Bacillus circulans</Emphasis> under nitrogen starvation

The level of biosynthesis of secreted guanyl-specific ribonucleases (RNases) of Bacillus intermedius (binases) and Bacillus circulans (RNases Bci) by recombinant B. subtilis strains increases under nitrogen starvation. The promoter of the binase gene carries the sequences homologous to the recognition sites of the regulatory protein TnrA, which regulates gene expression under growth limitation by nitrogen. Using the B. subtilis strain defective in protein TnrA, it has been shown that the regulatory protein TnrA is involved in the regulation of expression of the binase gene and the gene of RNase Bci. The TnrA regulation of expression of the RNase Bci gene is indirect, probably by means of the regulatory protein PucR. Thus, it has been established that at least two regulatory mechanisms activate the expression of the genes encoding the secreted RNases of spore-forming bacteria: a system of proteins homologous to the B. subtilis PhoP-PhoR, and regulation by a protein similar to the B. subtilis TnrA regulatory protein.     

Biochemical properties of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> subtilisin-like proteinase secreted by a <Emphasis Type="Italic">Bacillus subtilis</Emphasis> recombinant strain in its stationary phase of growth

Biochemical properties of Bacillus intermedius subtilisin-like proteinase (AprBi) secreted by a B. subtilis recombinant strain in the early and late stationary phases of growth have been determined. Protein structure was analyzed and its stability estimated. It was noted that the enzyme corresponding to different phases of bacterial growth retains activity in the presence of reducing and oxidizing agents (C₂H₅OH and H₂O₂). Different effects of bivalent metal ions on activity of two proteinase fractions were found. Calcium ions more efficiently activate proteinase secreted in the late stationary phase. Unlike the first enzyme fraction, the second forms catalytically active dimers.     

Optimized medium for the efficient production ofBacillus intermedius glutamyl endopeptidase by the recombinantBacillus subtilis strain AJ73

A nutrient medium was elaborated for the efficient production of glutamyl endopeptidase by the recombinantBacillus subtilis strain AJ73 bearing theBacillus intermedius 3–19 glutamyl endopeptidase gene within a multicopy plasmid. Optimal concentrations of the main nutrients, peptone and inorganic phosphate, were found using a multifactor approach. To provide for active growth and efficient glutamyl endopeptidase production, the cultivation medium of the recombinant strain should be enriched in phosphorus, organic and inorganic nitrogen sources, and yeast extract. Complex protein substrates, such as casein and gelatin, enhanced the biosynthesis of glutamyl endopeptidase. At the same time, easily metabolizable carbon sources suppressed it. The production of glutamyl endopeptidase was stimulated by the bivalent cations Ca²⁺, Mg²⁺, and Co²⁺.     

The pleiotropic nature of <Emphasis Type="Italic">rib80, hit1</Emphasis>, and <Emphasis Type="Italic">red6</Emphasis> mutations affecting riboflavin biosynthesis in the yeast <Emphasis Type="Italic">Pichia guilliermondii</Emphasis>

The yeast Pichia guilliermondii is capable of riboflavin overproduction under iron deficiency. The rib80, hit1, and red6 mutants of this species, which exhibit impaired riboflavin regulation, are also distinguished by increased iron concentrations in the cells and mitochondria, morphological changes in the mitochondria, as well as decreased growth rates (except for red6) and respiratory activity. With sufficient iron supply, the rib80 and red6 mutations cause a 1.5–1.8-fold decrease in the activity of such Fe-S cluster proteins as aconitase and flavocytochrome b ₂, whereas the hit1 mutation causes a six-fold decrease. Under iron deficiency, the activity of these enzymes was equally low in all of the studied strains.     

Conditions of the biosynthesis of an extracellular subtilisin-like proteinase by <Emphasis Type="Italic">Bacillus pumilus</Emphasis> KMM 62

The influence of the cultivation conditions on Bacillus pumilus KMM 62 growth and effectiveness of the production of a subtilisin-like serine proteinase were investigated. Enzyme accumulation in the culture fluid reached the maximum value after 32 and 46–48 h of growth; it depends on the composition of the nutrient medium. The ratio of the concentrations of two main components of the medium, peptone and inorganic phosphate, which was optimal for enzyme biosynthesis was determined by multifactor experiments. Ammonium salts, when introduced as an additional nitrogen source, had different effects on the proteinase biosynthesis at different growth stages: they suppress enzyme production at the early stationary growth phase and stimulate the biosynthesis of the enzyme after 46–48 h of growth. Complex organic substrates (albumin, casein, hemoglobin, and gelatin) have a repressive effect on the biosynthesis of the enzyme. The effect of amino acids on culture growth and enzyme biosynthesis during the early and late stationary growth phase is different. Hydrophilic amino acids, glutamine, and glutamic acid exhibit the most pronounced repressive action on biosynthesis. The involvement of different regulatory mechanisms of the synthesis of this proteinase is assumed in the early and late stationary phases of growth.     

Isolation and characterization of a subtilisin-like proteinase of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> secreted by the <Emphasis Type="Italic">Bacillus subtilis</Emphasis> recombinant strain AJ73 at different growth stages

Two subtilisin-like serine proteinases of Bacillus intermedius secreted by the Bacillus subtilis recombinant strain AJ73 (pCS9) on the 28th and 48th h of culture growth (early and late proteinase, respectively) have been isolated by ion-exchange chromatography on CM-cellulose and by FPLC. Molecular weights of both proteinases were determined. The N-terminal sequences of the recombinant protein and mature proteinases of the original strain were compared. Kinetic parameters and substrate specificities of the early and late proteinase were analyzed. Physicochemical properties of the enzymes were studied.     

Characteristics of a novel secreted zinc-dependent endopeptidase of <Emphasis Type="Italic">Bacillus intermedius</Emphasis>

A novel zinc-dependent metalloendopeptidase of Bacillus intermedius (MprBi) was purified from the culture medium of a recombinant strain of Bacillus subtilis. The amino acid sequence of the homogeneous protein was determined using MALDI-TOF mass spectrometry. The sequence of the first ten residues from the N-terminus of the mature protein is ASTGSQKVTV. Physicochemical properties of the enzyme and its substrate specificity have been studied. The molecular weight of the metalloproteinase constitutes 19 kDa, the K _m and k _cat values are 0.06 mM and 1210 sec⁻¹, respectively, and the pI value is 5.4. The effect of different inhibitors and metal ions on the enzyme activity has been studied. Based on the analysis of the amino acid sequence of the active site motif and the Met-turn together with the enzyme characteristics, the novel bacterial metalloproteinase MprBi is identified as a metzincin clan adamalysin/reprolysin-like metalloprotease.     

High level expression of a recombinant phospholipase C from <Emphasis Type="Italic">Bacillus cereus</Emphasis> in <Emphasis Type="Italic">Bacillus subtilis</Emphasis>

Twenty-two Bacillus cereus strains were screened for phospholipase C (PLC, EC 3.1.4.3) activity using p-nitrophenyl phosphorylcholine as a substrate. Two strains (B. cereus SBUG 318 and SBUG 516) showed high activity at elevated temperatures (>70°C) at acidic pH (pH 3.5–6) and were selected for cloning and functional expression using Bacillus subtilis. The genes were amplified from B. cereus DNA using primers based on a known PLC sequence and cloned into the expression vector pMSE3 followed by transformation into B. subtilis WB800. On the amino acid level, one protein (PLC318) was identical to a PLC described from B. cereus, whereas PLC516 contained an amino acid substitution (E173D). PLC production using the recombinant strains was performed by an acetoin-controlled expression system. For PLC516, 13.7 U g⁻¹ wet cell weight was determined in the culture supernatant after 30 h cultivation time. Three purification steps resulted in pure PLC516 with a specific activity of 13,190 U mg⁻¹ protein.     

Mutational analysis of the <Emphasis Type="Italic">ribC</Emphasis> gene of <Emphasis Type="Italic">Bacillus subtilis</Emphasis>

The nucleotide sequence of the ribC gene encoding the synthesis of bifunctional flavokinase/flavine adenine nucleotide (FAD) synthetase in Bacillus subtilis have been determined in a family of riboflavinconstitutive mutants. Two mutations have been found in the proximal region of the gene, which controls the transferase (FAD synthase) activity. Three point mutations and one double mutation have been found (in addition to the two mutations that were detected earlier) in the distal region of the gene, which controls the flavokinase (flavin mononucleotide (FMN) synthase) activity. On the basis of all data known to date, it has been concluded that the identified mutations affect riboflavin and ATP binding sites. No mutations have been found in the PTAN conserved sequence, which forms the magnesium and ATP common binding site and is identical for organisms of all organizational levels, from bacteria too humans.     

Chemostat-induced uneven division of <Emphasis Type="Italic">Bacillus subtilis</Emphasis>

Anomalous forms of Bacillus subtilis A32 produced by prolonged cultivation in a chemostat under nitrogen limitation are described. A change in the cultivation conditions brought about a transformation of these forms to bacillar rods. The transformation was gradual and lasted for several generations.     

Protein Profile of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> Spore

Natural wild-type strains of Bacillus subtilis spore is regarded as a non-pathogenic for both human and animal, and has been classified as a novel food which is currently being used as probiotics added in the consumption. To identify B. subtilis spore proteins, we have accomplished a preliminary proteomic analysis of B. subtilis spore, with a combination of two-dimensional electrophoretic separations and matrix-assisted laser desorption ionization tandem time of flight mass spectrometry (MALDI–TOF–MS). In this article, we presented a reference map of 158 B. subtilis spore proteins with an isoelectric point (pI) between 4 and 7. Followed by mass spectrometry (MS) analysis, we identified 71 B. subtilis spore proteins with high level of confidence. Database searches, combined with hydropathy analysis and GO analysis revealed that most of the B. subtilis spore proteins were hydrophilic proteins related to catalytic function. These results should accelerate efforts to understand the resistance of spore to harsh conditions.     

Characterization of <Emphasis Type="Italic">Fusarium graminearum</Emphasis> inhibitory lipopeptide from <Emphasis Type="Italic">Bacillus subtilis</Emphasis> IB

Bacillus subtilis strain IB exhibiting inhibitory activity against the Fusarium head blight disease fungus Fusarium graminearum was isolated and identified. The major inhibitory compound was purified from the culture broth through anion exchange, hydrophobic interaction, and reverse phase high-performance liquid chromatography (RP-HPLC) steps. It was a 1,463-Da lipopeptide and had an amino acid composition consisting of Ala, Glx, Ile, Orn, Pro, Thr, and Tyr at a molar ratio of 1:3:1:1:1:1:2. Electrospray ionization mass spectrometry/mass spectrometry (ESI MS/MS) analyses of the natural and the ring-opened peptides showed the antagonist was fengycin, a kind of macrolactone molecule with antifungal activity produced by several Bacillus strains. Fluorescence microscopic analysis indicated this peptide permeabilized and disrupted F. graminearum hyphae.