Annamaria Ricciardi

A comparison of methods for the measurement of bacteriocin activity

Abstract Agar diffusion (spot and well) and photometric (tube or microtiter) assays, both in the form of critical dilution and quantitative assays, were compared for 4 bacteriocins (enterocin 1146, lactococcin 140, leucocin F10 and nisin) against 2 indicator strains each. In the agar well diffusion assay (AWDA) a linear relationship existed between response (diameter or area of the zone of inhibition) and the logarithm of the dose while a non-linear equation was used to model the sigmoidal dose/response curve in photometric assays (PA). The dose/response curves were used to define titers of the standard solutions in arbitrary units and to develop quantitative assays for all the bacteriocins. With the exception of lactococcin 140, the PA provided estimates which were more reproducible than those obtained with the AWDA. The quantitative assays compared favourably with the classical critical dilution assays for bacteriocins, eliminating the need to dilute to extinction to estimate the titers of bacteriocin solutions, providing a continuous scale for activity and allowing the calculation of confidence intervals.

The combined effect of nisin, leucocin F10, pH, NaCl and EDTA on the survival of Listeria monocytogenes in broth.

The combined effect of the bacteriocins nisin (1-2100 IU/ml) and leucocin F10 (1-2100 AU/ml), pH (4.7-6.5), NaCl (0.7-4.5% w/l), ethylene diaminetetraacetic acid disodium salt (EDTA, 0.08-4.72 mmol/l) and inoculum level (10(3)-10(8) cfu/ml) on the survival of a pool of three strains of Listeria monocytogenes in broth was evaluated in three factorial experiments. Several factor combinations were found to prevent growth. Logistic regression analysis of the categorical data (survival/no survival) was used to generate predictive models for the probability of survival in 0.01 ml (P0.01) or 1 ml (P1). Predicted and observed probabilities of survival were not significantly different in 72% and 68.9% of treatments for P0.01 and P1, respectively. Unsafe predictions were obtained in 9.4% and 14.8% of treatments for P0.01 and P1, respectively. Nisin had a major effect on the probability of survival but the addition of leucocin F10 was necessary to prevent the survival of L. monocytogenes. Lower pH values significantly decreased the probability of survival, while NaCl and EDTA had only a minor effect. Doses of bacteriocins > 250 AU/ml, pH < 5.6 and EDTA > 0.2 mmol/l (0.074 g/l) were needed to reliably prevent survival of Listeria monocytogenes.

Diversity of stress tolerance in Lactobacillus plantarum, Lactobacillus pentosus and Lactobacillus paraplantarum: A multivariate screening study

Sixty-three strains of the taxonomically related species Lactobacillus plantarum subsp. plantarum, L. plantarum subsp. argentoratensis, L. paraplantarum and L. pentosus isolated from sourdoughs and other food and non-food sources and 14 strains of other members of the genus Lactobacillus were screened for their tolerance of acid, alkaline, heat, oxidative, osmotic, detergent and starvation stresses in order to evaluate the diversity of stress response. Most strains of the L. plantarum group were highly tolerant of acid, alkaline and osmotic stress and highly sensitive to detergent stress, while a larger diversity was found for other stress. Multivariate analysis allowed grouping the strains in clusters with similar response patterns. Stress response patterns in the L. plantarum group were similar to those of species of the L. casei/L. paracasei group but clearly different from those of other mesophilic Lactobacillus. No relationship was found between grouping obtained on the basis of stress response patterns and by genotypic fingerprinting (rep-PCR), nor with the taxonomic position or isolation source of the strains. Further experiments with selected strains showed that exponential phase cells were generally but not always more sensitive than stationary phase cells. The ability to grow under stressful conditions showed a slightly better correlation with the ecological conditions prevailing in the isolation niches of the strains. This study will be the basis for further investigations to identify and exploit the basis of diversity in the stress response of lactic acid bacteria.

Exopolysaccharide production by Streptococcus thermophilus SY: production and preliminary characterization of the polymer

Aims: To evaluate the effect of yeast extract (YE) concentration, temperature and pH on growth and exopolysaccharide (EPS) production in a whey‐based medium by Streptococcus thermophilus SY and to characterize the partially purified EPS.

Molecular and technological characterization of lactic acid bacteria from traditional fermented sausages of Basilicata region (Southern Italy)

Lactic acid bacteria (LAB) from traditional fermented sausages of the Basilicata region were investigated by ARDRA-PCR and RAPD-PCR for taxonomic identification at species and strain level and characterized on the basis of the growth and acidification at different temperatures, incubation times, levels of NaCl and KNO(2), hydrolysis of sarcoplasmatic and myofibrillar proteins and antimicrobial, peptide/amino acid release and nitrate reductase activities. Lactobacillus sakei was the predominant species (67%) followed by Pediococcus pentosaceus (16%), Leuconostoc carnosum (8%), Lactobacillus plantarum (4%), Lactobacillus brevis (2%) and Leuconostoc pseudomesenteroides (2%). The technological characterization revealed that most of the isolates had good acidifying and proteolytic properties. Moreover, Lb. sakei strains showed antimicrobial ability, while Leuconostoc strains the highest reduction of nitrates. This work was a preliminary study in the formulation of autochthonous starter cultures in order to standardize the production process of sausages, to preserve their typical organoleptic and sensory characteristics and to improve the quality of final product.

Inactivation of ccpA and aeration affect growth, metabolite production and stress tolerance in Lactobacillus plantarum WCFS1

The growth of Lactobacillus plantarum WCFS1 and of its ΔccpA ery mutant, WCFS1-2, was compared in batch fermentations in a complex medium at controlled pH (6.5) and temperature (30°C) with or without aeration, in order to evaluate the effect of ccpA inactivation and aeration on growth, metabolism and stress resistance. Inactivation of ccpA and, to a lesser extent, aeration, significantly affected growth, expression of proteins related to pyruvate metabolism and stress, and tolerance to heat, oxidative and cold/starvation stresses. The specific growth rate of the mutant was ca. 60% of that of the wild type strain. Inactivation of ccpA and aerobic growth significantly affected yield and production of lactic and acetic acid. Stationary phase cells were more stress tolerant than exponential phase cells with little or no effect of inactivation of ccpA or aeration. On the other hand, for exponential phase cells inactivation of ccpA impaired both heat stress and cold/starvation stress, but increased oxidative stress tolerance. For both strains, aerobically grown cells were more tolerant of stresses. Evidence for entry in a viable but non-culturable status upon prolonged exposure to cold and starvation was found. Preliminary results of a differential proteomic study further confirmed the role of ccpA in the regulation of carbohydrate catabolism and class I stress response genes and allow to gain further insight on the role of this pleiotropic regulator in metabolism and stress. This is the first study in which the impact of aerobic growth on stress tolerance of L. plantarum is evaluated. Although aerobic cultivation in batch fermentations does not improve growth it does improve stress tolerance, and may have significant technological relevance for the preservation of starter and probiotic cultures.

Yeasts from Water Buffalo Mozzarella, a traditional cheese of the Mediterranean area.

Countries of the Mediterranean area are characterized by production of artisanal cheeses, obtained from goat, sheep, cow and buffalo raw milk. The numbers and species of yeasts in the different cheeses are variable, but some species are more frequently detected than others. Kluyveromyces marxianus, K. lactis with their anamorph, Candida kefir, Debaryomyces hansenii and C. famata, C. colliculosa and C. catenulata are dominant species in several cheeses. However, Saccharomyces cerevisiae is often detected in pasta filata cheeses, such as Water Buffalo Mozzarella (WBM) or Cacio Cavallo Podolico. Recently, a comprehensive study of yeasts isolated from Mozzarella cheese produced in Basilicata (Southern Italy) has been carried out. The study has focused on lactose and/or galactose fermenting species (Kluyveromyces and Saccharomyces) to evaluate their role on the functional and sensory properties of the product. End products in milk were evaluated and the biodiversity in terms of production of sulphur dioxide, higher alcohols, ethyl acetate, and acetaldehyde was studied. In particular, S. cerevisiae strains from Water Buffalo Mozzarella cheese, compared to strains isolated from different habitats, such as wine, exhibited considerable difference in the production of some volatile compounds. The diversity observed could be related to the particular microhabitat of S. cerevisiae occurring in whey cheese of water buffalo milk.

Characterization of natural starter cultures used in the manufacture of Pasta Filata cheese in Basilicata (Southern Italy)

Microbiological, chemical and technological analyses were used to characterize nine natural starter cultures used for the manufacture of Pasta Filata cheese in Basilicata (Southern Italy). The cultures were either dominated by thermophilic rods or mesophilic and/or thermophilic cocci. Principal component and cluster analysis discriminated between rods and coccus cultures and helped to estabilish relationships between the cultures and to evaluate the variability of cultures obtained from the same plant. A total of 156 isolates of lactic acid bacteria were obtained from the cultures and tentatively classified using biochemical and physiological tests and cluster analysis. Most of the lactobacilli were identified as Lactobacillus helveticus. Most cocci were classified in the genera Lactococcus or Enterococcus but identification at the species level was often impossible. The acid production and proteolytic activity of the isolates in skim milk were evaluated. Cluster analysis was used to group the isolates according to technological properties. Isolates belonging to some phenotypic clusters were consistently associated with some technological clusters.

Leucocin F10, a bacteriocin from Leuconostoc carnosum

Leucocin F10 is a bacteriocin produced by a strain of Leuconostoc carnosum isolated from fermented meat. It is sensitive to proteolytic enzymes and alpha-amylase, heat resistant up to 121 degrees C for 10 min at pH 3.0 and is inhibitory to Listeria spp., Leuconostoc spp., Enterococcus faecalis and Lactobacillus sake. Bactericidal activity against L. innocua in potassium phosphate buffer was strongly dependent of the growth phase of the indicator cells. A rapid sub-lethal damage, followed by slow death was observed for log-phase cells of L. innocua. The bacteriocin induced a rapid release of K+ from energized L. innocua cells. Leucocin F10 production occurred at temperatures between 4 and 30 degrees C and followed a primary metabolite kinetics in batch fermentations at controlled pH. Maximum bacteriocin activity was obtained at pH 6.0.

Assessment of aerobic and respiratory growth in the Lactobacillus casei group.

One hundred eighty four strains belonging to the species Lactobacillus casei, L. paracasei and L. rhamnosus were screened for their ability to grow under aerobic conditions, in media containing heme and menaquinone and/or compounds generating reactive oxygen species (ROS), in order to identify respiratory and oxygen-tolerant phenotypes. Most strains were able to cope with aerobic conditions and for many strains aerobic growth and heme or heme/menaquinone supplementation increased biomass production compared to anaerobic cultivation. Only four L. casei strains showed a catalase-like activity under anaerobic, aerobic and respiratory conditions and were able to survive in presence of H2O2 (1 mM). Almost all L. casei and L. paracasei strains tolerated menadione (0.2 mM) and most tolerated pyrogallol (50 mM), while L. rhamnosus was usually resistant only to the latter compound. This is the first study in which an extensive screening of oxygen and oxidative stress tolerance of members of the L. casei group has been carried out. Results allowed the selection of strains showing the typical traits of aerobic and respiratory metabolism (increased pH and biomass under aerobic or respiratory conditions) and unique oxidative stress response properties. Aerobic growth and respiration may confer technological and physiological advantages in the L. casei group and oxygen-tolerant phenotypes could be exploited in several food industry applications.