Purification and properties of bacteriolytic enzymes from Bacillus licheniformis YS-1005 against Streptococcus mutans

To find a novel lytic enzyme against cariogenic Streptococci, strains showing strong lytic activity have been screened from soil using Streptococcus mutans. A strain identified as Bacillus licheniformis secreted two kinds of lytic enzymes, which were purified by methanol precipitation, CM-cellulose chromatography, gel filtration, and hydroxyapatite chromatography. The molecular weights of these two enzymes, L27 and L45, were 27,000 and 45,000, respectively. Optimum pH and temperature of both enzymes for lytic activity were pH 8 and 37 degrees C. L27 and L45 digest the peptide linkage between L-Ala and D-Glu in peptidoglycan of Streptococcus mutans. The lytic activity was highly specific for Streptococcus mutans, suggesting their potential use as a dental care product.     

Enzymatic lysis of staphylococci in relation to their species and strain properties

The lysoenzyme preparation from Streptomyces recifensis subsp. lyticus 2435 had a marked lytic activity against staphylococci of different species, spectra and antibiotic sensitivity. Certain strain differences of the cells in the population could be easily eliminated with increasing the dose. The preparation is a complex of lytic enzymes with high antimicrobial activity. It was concluded that it could be considered as a potentially promising chemotherapeutic agent for treatment of staphylococcal infections.     

Bacteriolytic Activity of Enzymes Derived from Streptomyces Species

Streptomyces species H–402 and 1829 possessing high lytic activities against cariogenic streptococci which induce dental plaque and caries, were isolated by the screening from soils and sewers. They were identified as Streptomyces griseus and Streptomyces globisporus respectively. The former strain produced lytic enzyme accompanying spore formation during the surface culture, while the latter strain revealed a high activity in the submerged culture. These enzymes had wide substrate specificity against all groups of cariogenic streptococci. The lytic enzymes may be expected as an useful medicament for the prevention of dental caries.     

Histidyl-Transfer Ribonucleic Acid Synthetase in Positive Control of the Histidine Operon in Salmonella typhimurium

Autolysin-like enzymes appear to be responsible for cell separation in Agmenellum quadruplicatum. Mutants that are impaired in cell separation and grow as chains exhibit reduced cell lytic activity. Lysozyme, extracted autolysin, and antibiotics that affect peptidoglycan synthesis phenotypically suppress chain formation. Various aspects of the regulation of the cell separation process were also examined. Studies involving antibiotic inhibitors of macromolecular synthesis and general growth inhibitors provided no evidence for the active regulation of the cell separation process during the latter portion of the division cycle. Evidence was obtained, however, for the partial restriction of peptidogly-can hydrolysis by unknown secondary modifications. The thin electron-dense layer of peptidoglycan along the sides of cells was much more resistant to hydrolysis by egg-white lysozyme than was the septum between daughter cells. The middle portion of the septum was more sensitive than was the layer immediately adjacent to the cytoplasmic membrane. Under conditions that would not osmotically stabilize spheroplasts, lysozyme facilitates rapid cell separation in chain-forming mutants with little leakage of cellular protein or loss of viability.     

Comparison of lipopolysaccharides from Agmenellum quadruplicatum to Escherichia coli and Salmonella typhimurium by using thin-layer chromatography.

Lipopolysaccharide (LPS) was isolated from the unicellular blue-green bacterium Agmenellum quadruplicatum using the procedure of Westphal and Jann (1965). It was composed of a lipid A and polysaccharide region suggesting a similarity to other gram-negative LPSs. Chemical analyses demonstrated the presence of glucose, rhamnose, mannose, and xylose in the polysaccharide region, as well as 2-keto-3-deoxyoctonate, glucosamine, and phosphorous in the lipid A. Studies on the lipid composition revealed the presence of palmitic, behenic, and three beta-hydroxy fatty acids. A new procedure for thin-layer chromatography of bacterial LPSs was used to compare LPS from A. quadruplicatum to other gram-negative organisms. The method is capable of distinguishing between LPSs of different bacteria as well as between the wild-type organism and mutated forms unable to synthesize complete LPS. A comparison of LPS from A. quadruplicatum to Escherichia coli and Salmonella typhimurium demonstrated that, although the blue-green LPS was rather similar to that of the Enterobacteriaceae, distinct differences also existed. However, when several cell division mutants of A. quadruplicatum were compared chromatographically to the parent strain BG-1, no differences were observed. This suggests that cell division mutations in A. quadruplicatum are not associated with changes in the LPS.     

Interrelation between the activity of the lytic enzyme producer Actinomyces recifensis var. lyticus 2435 and its population variability

Spontaneous variability of Actinomyces recifensis var. lyticus 2435 producing a complex of lytic enzymes was studied. A correlation between the strain activity and the content of the variants of the main morphological type in the population was shown. The carbon sources influenced the proportion of different type variants in the population. Strain 2435 was rather stable with respect to the level of the synthesis of yeast-like enzymes and showed a significant variation with respect to the level of the biosynthesis of the bacteriolytic complex. The population variation of strain 2435 with respect to the staphylolytic (synthesis of specific endopeptidases) and muramidase activity was most pronounced. The high activity levels of strain 2435 and wide lytic spectrum were provided by selection of the variants of the first morphological type with respect to the property of high staphylolytic activity.     

Ribonucleotide reductase activity in ether-treated cells of Agmenellum quadruplicatum.

Ribonucleotide (cytidine 5'-diphosphate) reductase activity can be detected in situ in cells of the blue-green alga Agmenellum quadruplicatum, strain PR-6, after the cells are made permeable by treatment with ether. The Agmenellum reductase resembles the enzyme from Escherichia coli.     

Clostridium perfringens--specific lysin.

A mitomycin C induced lysate of Clostridium perfringens strain KZ219 was lytic to 50 strains of C. perfringens of types A-E, and three strains of C. plagarum. The lysin was active against only 2 out of 87 strains of 51 other clostridial species. The optimum pH of the lytic agent was 5.5. The activity was largely inactivated by proteolytic enzymes, and nearly completely inactivated by heating at 60 degrees C for 5 min.     

Zymogram and Preliminary Characterization of Lactobacillus helveticus Autolysins

The autolysins of Lactobacillus helveticus ISLC5 were detected and partially characterized by renaturing sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis with substrate-containing gels (zymogram). By using lyophilized Micrococcus luteus cells or heated whole cells of L. helveticus ISLC5 (0.2% [wt/vol]) as a substrate, several lytic activities were detected in the whole-cell SDS extract of strain ISLC5 (i) one activity at 42.4 kDa, which was named autolysin A, and (ii) six other activities having very similar molecular weights (29.1, 29.6, 30, 30.8, 31.7, and 32.8 kDa), which were named autolysins B (B1 through B6, respectively). As regards the temporal distribution of the enzymes, autolysins A and B were detected in the cells harvested from the beginning of the exponential growth phase. Autolysin A appeared to be associated only with viable cells, whereas the autolysins B remained associated with the cell envelope several days after the complete loss of culture viability. When SDS-treated walls of L. helveticus ISLC5 were used as a substrate, a supplementary lytic activity appeared at 37.5 kDa; it was considered a peptidoglycan hydrolase, since it was not able to induce lysis of whole-cell substrate. The autolysins of 30 other strains of L. helveticus from various geographical origins were also analyzed by zymogram; all the activity profiles obtained were similar to that of strain ISLC5 in terms of the number of lytic bands and their apparent molecular weights. Only the relative intensities of the lytic bands corresponding to autolysins A and B were variable depending on the strains. This observation suggested that autolysins are highly conserved enzymes. A concentrated crude lysate of the virulent bacteriophage 832-B1 infecting L. helveticus was also analyzed by zymogram; one lytic activity with an apparent molecular weight of 31.7 kDa, very close to the weights of the autolysins B, was observed. Finally, the autolysins of L. helveticus ISLC5 were successfully extracted from whole cells by using a 1 M lithium chloride solution; they were partially purified by precipitation, selective resolubilization, and gel filtration chromatography, which led to a 20-fold increase in specific activity.     

Enzymes of Candida albicans cell-wall lytic system produced by Streptomyces thermodiastaticus

The production of the enzymes of Candida albicans cell-wall lytic system by S. thermodiastaticus was found to be affected by some growth conditions and nutritional factors. The highest lytic activity was obtained after 18 h of incubation at pH 5.5 and an incubation temperature of 50 degrees C. The carbon source influenced the production of the enzymes of the yeast cell wall lytic system. Maximum lytic activity was obtained when Candida albicans cell-wall (1 g/100 ml) was used as the sole carbon source. NaNO3 at 0.1 g/100 ml level was the best nitrogen source for the biosynthesis of the enzymes of the yeast lytic system. From all phosphor sources, microelements, and growth factors tested, KH2PO4 (1 g/l), ZnSO4 (1 mg/l) and Tween 80 (0.1%), respectively were found to favour highest enzymes production of the lytic system. The Candida albicans cell-wall lytic system produced by S. thermodiastaticus mainly contained chitinolytic and proteolytic activities.     

An anthranilate synthase of the extreme aminase type in a species of blue-green bacteria (algae)

Anthranilate synthase of Agmenellum quadruplicatum, a unicellular species of blue-green bacteria, consists of two nonidentical subunits. A 72,000 dalton protein has aminase activity but is incapable of reaction with glutamine (amidotransferase) unless a second protein (18,000 molecular weight) is present. The small subunit was first detected through its ability to complement a partially purified aminase subunit from Bacillus subtilis to produce a hybrid complex capable of amidotransferase function. Conditions for the function of the heterologous complex were less stringent than for the homologous A. quadruplicatum complex. A reducing agent such as dithiothreitol stabilizes the A. quadruplicatum aminase subunit and is obligatory for amidotransferase function. L-Tryptophan feedback inhibits both the aminase and amidotransferase reactions of anthranilate synthase; Ki values of 6 X 10(-8) M for the amidotransferase activity and 2 X 10(-6) M for the aminase activity were obtained. The Km value calculated for ammonia (2.2 mM) was more favorable than the Km value glutamine (13 mM). Likewise, the Vmax of anthranilate synthase was greater with ammonia than with glutamine. Starvation of a tryptophan auxotroph results in a threefold derepression of the aminase subunit, but no corresponding increase in the small 18,000 M subunit occurs. While microbial anthranilate synthase complexes are remarkably similar overall, the relatively good aminase activity of the A. quadruplicatum enzyme may be of physiological significance in nature.     

蛇毒纤维蛋白（原）溶解酶的研究进展

蛇毒纤溶酶能直接溶解纤维蛋白（原）,具有作为强力溶栓剂的潜在价值。对蛇毒纤溶酶的深入研究,不仅有助于阐明蛇伤中毒患者的凝血病理机制,而且为其开发应用提供了理论基础。文章综述蛇毒纤溶酶的研究进展及应用前景,重点阐述其分子结构、酶学特性及其与出血活性的关系     

The components of the microbial preparation of lysoamidase from the Pseudomonodaceae family responsible for its bacteriolytic activity

The contribution of enzymes isolated from the microbial enzymic preparation to its total bacteriolytic activity was studied. The combined action of the lytic proteinase L2 and the lytic fraction L1 used in the same ratio as in the lysoamidase preparation resulted in a complete recovery of the bacteriolytic activity. During a 4-fold increase of the proportion of the lytic enzyme L1 as compared with lytic proteinase L2, the activity of the reconstituted preparation increased by 64%. Neutral phosphomonohydrolase, metal proteinase and the polysaccharide isolated from the lysoamidase preparation had no effect on the bacteriolytic activity of the reconstituted preparation. The polysaccharide isolated from lysoamidase increased the thermal stability of the preparation obtained up to that of lysoamidase.     

Lysis of yeast cell walls. Lytic beta-(1 leads to 6)-glucanase from Bacillus circulans WL-12.

When grown in a mineral medium with yeast cell walls or yeast glucan as the sole carbon source, Bacillus circulans WL-12 produces wall-lytic enzymes in addition to non-lytic beta-(1 leads to 3) and beta-(1 leads to 6)-glucananases. The lytic enzymes were isolated from the culture liquid by adsorption on insoluble yeast glucan in batch operation. After digestion of the glucan, the mixture of enzymes was chromatographed on hydroxylapatite on which the lytic activity could be resolved into one lytic beta-(1 leads to 6)glucanase and two lytic beta-(1 leads to 3)-glucanase was further purified by chromatography over diethylamino-ehtyl-agarose and carboxymethyl cellulose. Its specific activity on pustulan was 6.2 units per mg of protein. The enzyme moved as a single protein with a molecular weight of 54000 during sodium dodecylsulphate electrophoresis in slab gels. Hydrolysis of pustulan went thorugh a series of oligosaccharides, leading to a mixture of gentiotriose, gentiobiose and glucose. The enzyme also produced small amounts of gentiobiose from laminarin and pachyman and on this basis its lytic activity on yeast cell walls,was attribut beta-(1 leads to 3)-linked oligosaccharides were not detected. The lytic beta-(1 leads to 6)-glucanase has an optimum pH of 6.0. Pustulan hydrolysis followed Michaelis-Menten kinetics. A Km of 0.29 mg pustulan per ml and a V of 9.1 micro-equivalents of glucose released/min per mg of enzyme were calculated. The enzyme has no metal ion requirement. The lytic beta-(1 leads to 6)-glucanase differs in essence from the non-lytic beta-(1 leads to 6)-glucanase of the same organism by its positive action on yeast cell walls and yeast glucan and its much lower specific activity on soluble pustulan.     

Rapid detection of lytic antimicrobial activity against yeast and filamentous fungi.

A rapid method for assessing the lytic activity of antimicrobial agents against yeast and fungi has been developed. The assay is based on the release of the intracellular enzyme, maltase (alpha-glucosidase). The released maltase activity was measured colorimetrically by the production of p-nitrophenol from p-nitrophenyl-alpha-D-glucopyranoside (PNPG). The lytic activity of different antimicrobial compounds was measured against yeast cells or germinating spores of filamentous fungi. Lytic anti-yeast activity could be detected within 20 min incubation at 30 degrees C against Saccharomyces cerevisiae, Candida albicans, and Cryptococcus neoformans. Lytic anti-fungal activity appeared after 2 h of incubation at 30 degrees C against germinating spores of Aspergillus niger and Botrytis cinerea. Whole cells of either yeast or fungi did not hydrolyze sufficient PNPG within 3 h at 30 degrees C to yield a detectable color change. Lytic activity of enzymes (e.g., Lyticase), antibiotics (e.g., Amphotericin B), and an antibiotic-producing strain of bacteria were detected using the assay. The anti-yeast assay has been adapted to a 96-well microtiter format. Both assays provided a rapid, sensitive, and reproducible detection of lytic anti-yeast and anti-fungal activity.     

Effect of storage conditions on population variability and activity of Streptomyces recifensis var. lyticus

The results of the study on survival and variation of Streptomyces recifensis var. lyticus 2435 producing lytic enzymes are presented. The culture was maintained for 2.5 years under a layer of vaseline oil, at a temperature of -20 degrees C and in lyophilized state. It was shown that irrespective of the storage method strain 2435 preserved its viability. However, the most intensive growth was observed in the lyophilized cultures. During the storage the content of the productive colonies characteristic of the morphological type culture in the population decreased while the number of the low active variants increased. Lyophilization of the strain spores in the sucrose-gelatine medium provided insignificant morphological variation of the culture and preservation of the initial level of its lytic activity against a number of test-microbes except S. aureus and M. lysodeikticus. Storage of the culture under vaseline oil and at a temperature of -20 degrees C resulted in lowering of its lytic activity against all the test-microbes used. For long-term maintenance of Streptomyces recifensis var. lyticus 2435 the method of lyophilization in the sucrose-gelatine medium is recommended.     

Wide-range antifungal antagonism of Paenibacillus ehimensis IB-X-b and its dependence on chitinase and beta-1,3-glucanase production

Previously, we isolated a strain of Bacillus that had antifungal activity and produced lytic enzymes with fungicidal potential. In the present study, we identified the bacterium as Paenibacillus ehimensis and further explored its antifungal properties. In liquid co-cultivation assays, P. ehimensis IB-X-b decreased biomass production of several pathogenic fungi by 45%-75%. The inhibition was accompanied by degradation of fungal cell walls and alterations in hyphal morphology. Residual medium from cultures of P. ehimensis IB-X-b inhibited fungal growth, indicating the inhibitors were secreted into the medium. Of the 2 major lytic enzymes, chitinases were only induced by chitin-containing substrates, whereas beta-1,3-glucanase showed steady levels in all carbon sources. Both purified chitinase and beta-1,3-glucanase degraded cell walls of macerated fungal mycelia, whereas only the latter also degraded cell walls of intact mycelia. The results indicate synergism between the antifungal action mechanisms of these enzymes in which beta-1,3-glucanase is the initiator of the cell wall hydrolysis, whereas the degradation process is reinforced by chitinases. Paenibacillus ehimensis IB-X-b has pronounced antifungal activity with a wide range of fungi and has potential as a biological control agent against plant pathogenic fungi.     

Carbon dioxide assimilation in blue-green algae: initial studies on the structure of ribulose 1,5-bisphosphate carboxylase.

D-Ribulose 1,5-bisphosphate carboxylase was purified from the blue-green alga Anabaena cylindrica (Lemm) by procedures involving acid precipitation, ammonium sulfate fractionation, and Sephadex G-200 gel filtration. The enzyme was homogeneous by the criterion of polyacrylamide disc gel electrophoresis and was a multimer of a single-size polypeptide chain of 54,000 daltons. The carboxylases from four species of blue-green algae (Anabaena, Nostoc strain MAC, Agmenellum quadruplicatum strain PR-6, and Anacystis nidulans strain TX20) were closely similar in molecular size, since enzyme activity was eluted at the same volume after sucrose gradient centrifugation. Further analysis by gel filtration indicated that the four blue-green algal carboxylases were nearly identical in molecular weight, ranging from 449 to 453,000. The amino acid composition of the Anabaena carboxylase was determined and was found to resemble closely the composition of the large subunit from eukaryotic photosynthetic organisms.     

Significance of lytic enzymes from Trichoderma spp. in the biocontrol of fungal plant pathogens

The use of specific mycolytic soil microorganisms to control plant pathogens is an ecological approach to overcome the problems caused by standard chemical methods of plant protection. The ability to produce lytic enzymes is a widely distributed property of rhizosphere-competent fungi and bacteria. Due to the higher activity of Trichoderma spp. lytic enzymes as compared to the same class of enzymes from other microorganisms and plants, effort is being aimed at improving biocontrol agents and plants by introducing Trichoderma genes via genetic manipulations. An overview is presented of the data currently available on lytic enzymes from the mycoparasitic fungus Trichoderma. This revised version was published online in August 2006 with corrections to the Cover Date.     

Purification and Properties of Lytic Enzymes from Streptomyces globisporus 1829

Two lytic enzymes capable of lysing Streptococcus mutans have been purified to give a single band on disc-gel electrophoresis, respectively. The M–1 and M–2 enzymes were both proved to be N-acetylmuramidases. However, these enzymes were entirely different on their enzymatic properties. The molecular weights were about 20,000 and 11,000 for M–1 and M–2 enzymes, respectively, The maximal lytic activity of M–1 enzyme was obtained at ionic strength 0.05, while lytic activity of M–2 enzyme did not change within the ionic strength range of 0 to 0.05. The M–1 enzyme constituted the majority of the total lytic activity against the cell walls of Streptococcus mutans BHT of cultured filtrate. The M–2 enzyme showed less specific lytic activity on the cell walls of Streptococcus mutans BHT than M–1 enzyme.