Moisture Requirements for Growth and Metabolite Production by Lactic Acid Bacteria

The effect of water activity (a_w) reduction on growth and acid and diacetyl production by three lactic streptococci was studied. In addition, the influence of low moisture conditions on several bacteria of significance in the fermentation of sauerkraut was examined. The minimal a_w supporting growth of dairy lactics was 0.93 in a medium adjusted with glycerol. Media adjusted with sucrose generally were more inhibitory than those in which glycerol was the humectant. Titratable acidity, although not related to the type of humectant, did depend on the a_w of the medium and was directly related to the extent of growth. Diacetyl concentration increased in cultures of reduced a_w when the media were adjusted with both humectants; however, the effect was greatest with glycerol. A lactic strain associated with sauerkraut fermentation appeared to grow at a lower minimal a_w in a glycerol-adjusted medium than in a system adjusted with NaCl; however, none of the sauerkraut organisms grew at a_w levels of <0.95 when NaCl was the solute. Acid production appeared to be related to the presence and extent of growth at all of the a_w levels studied.     

Effect of water activity and protective solutes on growth and subsequent survival to air-drying of Lactobacillus and Bifidobacterium cultures

Probiotic cultures of Lactobacillus plantarum, Lactobacillus rhamnosus, Bifidobacterium longum, Lactobacillus casei and Lactobacillus acidophilus were grown in media having water activities (a _w) adjusted between 0.99 and 0.94 with NaCl or with a mixture of glycerol and sucrose in order to find conditions of osmotic stress which would still allow for good growth. Cultures grown at a _w?=?0.96 or 0.99 were then recovered by centrifugation, added to a sucrose–phosphate medium and air-dried. In some assays, a 2-h osmotic stress was applied to the cell concentrate prior to air-drying. Assays were also carried out where betaine, glutamate and proline (BGP) supplements were added as protective compounds to the growth or drying media. For most strains, evidence of osmotic stress and benefits of BGP supplementation on growth occurred at a _w?=?0.96. Growing the cells in complex media adjusted at a _w?=?0.96 did not enhance their subsequent survival to air-drying, but applying the 2-h osmotic stress did. Addition of the BGP supplements to the growth medium or in the 2-h stress medium did not enhance survival to air-drying. Furthermore, addition of BGP to a sucrose–phosphate drying medium reduced survival of the cultures to air-drying. This study provides preliminary data for producers of probiotics who wish to use air-drying in replacement of freeze-drying for the stabilization of cultures.     

Dynamics of spore germination and mycelial growth of streptomycetes under low humidity conditions

At extremely low values of moisture pressure (?96.4 MPa; a_w 0.50), the spores of xerotolerant streptomycetes (Streptomyces odorifer and S. rubiginosohelvolus) germinated, their germ lengths increased, and lateral branching of the mycelium was observed after 5 days of incubation in a thin layer of agarized nutrient medium. At ?22.6 MPa (a_w 0.86), the mycelium begins to branch after a 2-day incubation; over a 5-day incubation at ?2.8 MPa (a_w 0.98), it goes through a reproduction cycle, which culminates in spore formation. The mathematical model approach enabled us to elucidate the behavioral patterns of Streptomyces spores in a thin layer of agarized nutrient medium at low humidity levels. The dynamics of spore germination is governed by the exponential law, which allows calculation of the average duration of the period a before spore germination, as well as the time needed for 50% of viable spores to germinate.     

Changes in protein secretion of Aspergillus niger caused by the reduction of the water activity by potassium chloride

The effect of the rapid reduction of the water activity (a_w) on the extracellular protein and amylolytic activity of Aspergillus niger was studied. An a_w value gradient from 0.90 to 0.99 in KCl solutions was applied for the mycelium treatment. It was found that the a_w reduction considerably influenced the protein secretion. This phenomenon was dependent on the age of the treated mycelium and the range of the a_w gradient. The highest protein and enzyme secretion yields were obtained at a_w = 0.98 using a 72-h old mycelium. In comparison with the non-treated mycelium, the increase in the secretion amounted to about 60% for the amylolytic activity and 37% for the soluble protein, respectively. It was shown that the mycelium incubated in KCl solutions of an a_w value from 0.90 to 0.99 had the ability for regeneration in fresh CZAPEK-DOX medium. The effect of the osmotic shock on the protein secretion was limited only for the treated cell population and declined in the mycelium which was regenerated after the transfer into the culture medium.     

Influence of Water Potential on γ-Decalactone Production by the Yeast Sporidiobolus salmonicolor

The influence of water potential on γ-decalactone production by the yeast Sporidiobolus salmonicolor cultivated in a liquid medium was evaluated by gas-chromatographic analysis. Modifications in water potential led to a number of variations in the aroma production. Maximum extracellular production occurred at water activity (a_w) with a value of 0.99. Further analyses revealed an important phenomenon of cellular accumulation of aroma for a_w values between 0.97 and 0.99.     

Spore Germination and Mycelial Growth of Streptomycetes at Different Humidity Levels

This study is the first to show the ability of streptomycetes to develop at a very low humidity level. All of the streptomycetes studied produced growth at low humidity (a_w 0.86 and 0.67). This capacity was most markedly pronounced in Streptomyces odorifer, whose spores were capable of germinating, and mycelial germs increased in length, at the air humidity a_w 0.50. The formation of lateral branches (mycelium branching) at this humidity was noted only in single S. odorifer germs and only after 72 h of incubation. Study of streptomycete growth on an agarized medium with different osmotic pressures, created by various glycerol concentrations in the medium, showed that, at a_w 0.67, the spores of all the streptomycetes studied germinate, producing mycelial germs but not microcolonies. The ecological significance of mycelial prokaryotes in soil microbial communities that develop and function under conditions of extremely low humidity is discussed.     

Influence of Reduced Water Activity on Lactose Metabolism by Lactococcus lactis subsp. cremoris at Different pH Values

The influence of reduced water activity (a_w) on lactose metabolism by Lactococcus lactis subsp. cremoris 2254 and 2272 was studied at different pH values. In control incubations (a_w, 0.99) with nongrowing cells in pH-controlled phosphate buffer, the levels of carbon recovered as l-(+)-lactate were 92% at pH 6.1 and 5.3 and 78% at pH 4.5. However, the levels of recovery decreased to ∼50% at all pH values tested when the a_w was 0.88 (with glycerol as the humectant). When growing cells in broth controlled at pH 6.3 were used, a reduction in the a_w from 0.99 to 0.96 resulted in a decrease in the level of lactose carbon recovered as l-(+)-lactate from 100 to 71%. Low levels of l-(+)-lactate carbon recovery (<50%) were also observed with cells resuspended in pH-uncontrolled reconstituted skim milk at a_w values of 0.99 and 0.87 and in young cheese curds. The missing lactose carbon could not be accounted for by acetate, ethanol, formate, acetaldehyde, or pyruvate. Attempts were made to determine where the missing lactose carbon was diverted to under the stress conditions used. Some of the missing lactose carbon was recovered as galactose (0.1 to 2.5 mM) in culture supernatants. Decreasing either the a_w or the pH resulted in increased galactose accumulation by nongrowing cells; adjusting both environmental factors together potentiated the effect. The sensitivities of the two lactococcal strains tested were different; strain 2272 was more prone to accumulate galactose under stress conditions. A methyl pentose(s) and additional galactose were found in acid-hydrolyzed supernatants from cultures containing both growing and nongrowing cells, indicating that a saccharide(s) rich in these components was formed by lactococci under low-a_w and low-pH stress conditions.Water activity (a_w) affects the growth, physiology, and metabolism of microorganisms and their resistance to inimical agents (22, 54). A number of microorganisms respond to a low-a_w environment by intracellular accumulation of low-molecular-weight compatible solutes, such as amino acids, amino acid derivatives, trehalose, and polyols (6, 12). These compatible solutes restore turgor pressure and membrane tension to levels very similar to those that occur before osmotic upshift (12), preserve enzyme activity and protein stability, and maintain the integrity and stability of membranes and nucleic acids (6).There have been several reports concerning the accumulation of compatible solutes in lactic acid bacteria. Hutkins et al. (26) found that betaine was accumulated by an osmotolerant strain of Lactobacillus acidophilus, while Molenaar et al. (38) reported that Lactococcus lactis subsp. lactis ML3 contained high levels of proline or betaine when it was grown under osmotic stress conditions in complex media. Lactobacillus plantarum, however, accumulated not only betaine and proline, but also carnitine, glutamic acid, and trehalose when it was cultured in a complex medium having a reduced a_w (29, 30, 36). The accumulation of betaine enhanced the survival of several lactic acid bacteria subjected to drying conditions (28, 30).The influence of reduced a_w on substrate metabolism and product formation by lactic acid bacteria has received little attention. Optimal production of lactic acid by some dairy lactic acid bacteria occurs at a_w values of 1.0 to 0.95, and production declines dramatically as the a_w is decreased, which is consistent with growth inhibition, whereas diacetyl production by some lactic acid bacteria increases with decreasing a_w and optimal diacetyl production occurs at a_w values of 0.95 to 0.97 (51, 52). Bassit et al. (1) studied the influence of a_w on the metabolism of Streptococcus diacetylactis (now Lactococcus lactis subsp. lactis var. diacetylactis) and found that decreasing the a_w decreased lactose consumption and lactic acid formation and inhibited growth. Blickstad (3) observed no significant variations in the formation of end products by two meat lactobacilli at different a_w values (0.99 to 0.94).Lactose is the major carbohydrate present in milk and young cheeses, and metabolism of lactose by starters during curd manufacture and early ripening is important for acid development. The cheese a_w decreases during manufacture and ripening as a result of dehydration, salting, and the production of water-soluble solutes from glycolysis, proteolysis, and lipolysis; the cheese a_w values range from 0.70 for extrahard cheeses to 0.99 for fresh, soft cheeses, such as cottage cheese, while semihard cheeses have a_w values of around 0.90 (33, 41). The cheese pH also decreases during manufacture and ripening (19). We describe here the influence of low a_w values on lactose metabolism by both growing and nongrowing cells of Lactococcus lactis subsp. cremoris at different pH values in buffer, broth, and reconstituted skim milk (RSM) with and without pH control. Cheese experiments to determine lactose utilization during ripening were also linked with our in vitro studies.     

The water content/water activity relationship of cured tobacco and water relations of associated spoilage fungi

The relationship between moisture content and water activity (a_w) in cured tobacco was significantly influenced by sugar content. Overall, high sugar tobaccos such as Oriental and Virginia had a higher moisture content at any given water activity compared to low sugar tobaccos such as Burley. Virginia and Burley were both predominantly colonised by Aspergillus and Penicillium spp. Of these, about 80% of isolates could germinate at between 0·75 and 0·85 a_w, equivalent to moisture contents of between 18% and 24% in Burley and between 22% and 31% in Virginia. Growth of the dominant Aspergillus and Penicillium spp. was much slower on Virginia and Burley tobacco extract than on malt extract agars over the range 0.85 to 0.98 a_w. For some species the optimum a_w for growth on tobacco extract medium was altered from that on the richer malt extract agar and for some there was also a significant difference in growth between Virginia and Burley extract agars. The mould-free storage periods for five different tobacco types was influenced by a_w. Visible moulding occurred within 7–14 days at 0.85–0.90 a_w but only after about six months at 0.70–0.75 a_w. There were some differences in rate of moulding between tobacco types as well as in the range of fungi isolated at different a_w storage levels.     

Water relations of ethanol fermentation by Saccharomyces cerevisiae: Glycerol production under solute stress

The effect of water activity (a_w) upon glycerol production during ethanol fermentation by Saccharomyces cerevisiae was studied in continuous culture using sorbitol to adjust the a_w to 0.971. A reduction of the a_w of the medium resulted in more glycerol being produced. The glycerol yield was 3–4-fold greater at 0.971 a_w than 0.994 a_w. Ethanol yield and specific rate of ethanol production was slightly greater at 0.971 than 0.994 a_w whereas the biomass concentration was lower. Reduced a_w increased the specific rate of glucose uptake and the maintenance requirements of the organism. The results suggest that the effect of a_w on glycerol production can be reduced by controlled feeding of substrate during fermentation.     

Relation of the Heat Resistance of Salmonellae to the Water Activity of the Environment

The effect of water activity (a_w) on the heat resistance of eight strains of Salmonella was studied. Heat resistance of the organisms increased as the a_w of the heating menstruum was reduced. Sucrose afforded the cells a greater degree of protection than did fructose, glycerol, and sorbitol. A direct correlation between a_w and heat resistance could not be established over the range of a_w levels tested in this study. There was variation among the strains of salmonellae in the magnitude of the increase in heat resistance as the a_w level was reduced. All strains of Salmonella tested showed a greater increase in heat resistance than S. senftenberg 775W as the environment became drier. Washed cells had D values 25 to 75% lower than unwashed cells. Prior growth of the organisms in media with a reduced a_w increased the heat resistance of the organisms when glycerol, but not when sucrose, was the controlling substance.     

Comparison of growth and aflatoxin B1 production profiles of Aspergillus flavus strains on conventional and isogenic GM-maize-based nutritional matrices

Maize grown in both North and South America are now predominantly genetically modified (GM) cultivars with some resistance to herbicide, pesticide, or both. There is little information on the relative colonisation and aflatoxin B₁ (AFB₁) production with maize meal-based nutritional matrices based on kernels of non-GM maize and isogenic GM-ones by strains of Aspergillus flavus. The objectives were to examine the effect of interacting conditions of temperature (25–35 °C) and water availability (0.99–0.90 water activity, a_w) on (a) mycelial growth, (b) AFB₁ production and (c) develop contour maps of optimum and marginal conditions of these parameters for four strains of A. flavus on three different non-GM and isogenic GM-maize based nutritional media. The growth of the four strains of A. flavus (three aflatoxigenic; one non-aflatoxigenic) was relatively similar in relation to the temperature × a_w conditions examined on both non-GM and GM-based matrices. Optimum growth overall was at 30–35 °C and 0.99 a_w for all four strains. Under water stress (0.90 a_w) growth was optimum at 35 °C. Statistically: non-GM, GM cultivars, temperature and a_w all significantly affected growth rates. For AFB₁ production, all single and interacting factors were statistically significant except for non-GM × GM cultivar. In conclusion, colonisation of GM- and non-GM nutritional sources was similar for the different A. flavus strains examined. The contour maps will be very useful for understanding the ecological niches for both toxigenic and non-toxigenic strains in the context of the competitive exclusion of those producing aflatoxins.     

Adaptation of Pseudomonas fluorescens to Low Levels of Water Activity Produced by Different Solutes

A culture of Pseudomonas fluorescens which grew at a minimal a_w of 0.97 in a glucose-salts broth adjusted to that level with NaCl, KCl, or glucose, and at a_w 0.9725 with Na₂SO₄, was adapted to grow at lower a_w levels produced by these solutes. Adaptation to growth at a low a_w produced by means of one solute did not necessarily result in growth at that a_w when another solute was employed to lower the a_w. The culture adapted to grow at a_w 0.9650 produced by addition of glucose could grow equally well in broth adjusted to that a_w with NaCl or KCl, but not Na₂SO₄. NaCl and KCl permitted growth at the lowest a_w level (0.9625), and the culture adapted in KCl did equally well in NaCl.     

Survival and Filamentation of Salmonella enterica Serovar Enteritidis PT4 and Salmonella enterica Serovar Typhimurium DT104 at Low Water Activity

In this study we investigated the long-term survival of and morphological changes in Salmonella strains at low water activity (a_w). Salmonella enterica serovar Enteritidis PT4 and Salmonella enterica serovar Typhimurium DT104 survived at low a_w for long periods, but minimum humectant concentrations of 8% NaCl (a_w, 0.95), 96% sucrose (a_w, 0.94), and 32% glycerol (a_w, 0.92) were bactericidal under most conditions. Salmonella rpoS mutants were usually more sensitive to bactericidal levels of NaCl, sucrose, and glycerol. At a lethal a_w, incubation at 37°C resulted in more rapid loss of viability than incubation at 21°C. At a_w values of 0.93 to 0.98, strains of S. enterica serovar Enteritidis and S. enterica serovar Typhimurium formed filaments, some of which were at least 200 μm long. Filamentation was independent of rpoS expression. When the preparations were returned to high-a_w conditions, the filaments formed septa, and division was complete within approximately 2 to 3 h. The variable survival of Salmonella strains at low a_w highlights the importance of strain choice when researchers produce modelling data to simulate worst-case scenarios or conduct risk assessments based on laboratory data. The continued increase in Salmonella biomass at low a_w (without a concomitant increase in microbial count) would not have been detected by traditional microbiological enumeration tests if the tests had been performed immediately after low-a_w storage. If Salmonella strains form filaments in food products that have low a_w values (0.92 to 0.98), there are significant implications for public health and for designing methods for microbiological monitoring.     

Clostridium botulinum Type A Growth and Toxin Production in Media and Process Cheese Spread

We found that Clostridium botulinum type A grew well and produced toxin in media with a water activity (a_w) of 0.972 or 0.965 and a pH of 5.7, but no growth or toxin production was observed at or below an a_w of 0.949 during incubation at 30°C for 52 to 59 days. a_w and pH values of media were adjusted to those of cheese spreads commercially produced. Solutes used to adjust a_w included combinations of NaCl, cheese whey powder, emulsifying salt, sodium tripolyphosphate, and glycerol. In agreement with results obtained for media, toxin was produced in samples of cheese spread (a_w, 0.970; pH, 5.7) at 30 to 70 days of incubation at 30°C.     

The Influence of Water Activity and Temperature on Germination,Growth and Sporulation of <Emphasis Type="Italic">Stachybotrys chartarum</Emphasis> Strains

The objectives were to determine the influence of water activity (a_w, 0.997–0.92) and temperature (10–37°C) and their interactions on conidial germination, mycelial growth and sporulation of two strains of Stachybotrys chartarum in vitro on a potato dextrose medium. Studies were carried out by modifying the medium with glycerol and either spread plating with conidia to evaluate germination and germ tube extension or centrally inoculating treatment media for measuring mycelial growth rates and harvesting whole colonies for determining sporulation. Overall, germination of conidia was significantly influenced by a_w and temperature and was fastest at 0.997–0.98 a_w between 15 and 30°C with complete germination within 24 h. Germ tube extension was found to be most rapid at similar a_w levels and 25–30°C. Mycelial growth rates of both strains were optimal at 0.997 a_w between 25 and 30°C, with very little growth at 37°C. Sporulation was optimum at 30°C at 0.997 a_w. However, under drier conditions, this was optimum at 25°C. This shows that there are differences in the ranges of a_w x temperature for germination and growth and for sporulation. This may help in understanding the role of this fungal species in damp buildings and conditions under which immune-compromised patients may be at risk when exposed to such contaminants in the indoor air environment.     

Osmotic Stress Leads to Decreased Intracellular pH of Listeria monocytogenes as Determined by Fluorescence Ratio-Imaging Microscopy

Intracellular pH (pH_i) of Listeria monocytogenes was determined after exposure to NaCl or sorbitol in liquid and solid media (agar). Both compounds decreased pH_i, and recovery on solid medium was impaired compared to that in liquid medium. N,N′-dicyclohexylcarbodiimide abolished pH_i recovery, and lowering a_w with glycerol showed no effect on pH_i.     

Effect of environmental factors on in vitro and in situ interactions between atoxigenic and toxigenic A. flavus strains and control of aflatoxin contamination of maize

Abstract

The potential of three atoxigenic strains from different geographical origins in Africa were examined for in vitro and in situ competitiveness against two toxigenic strains of Aspergillus flavus and subsequent inhibition of aflatoxin B₁ (AFB₁) production under different environmental conditions. Temperature, water activity (a _w) and substrate influenced the types of interaction between the three AFL^? and two AFL⁺ strains. The competitiveness and AFB₁ reduction ability of the three atoxigenic strains when interacting with the two toxigenic strains were evaluated by inoculation of 100, 25:75, 50:50, 75:25 and 100% ratios of mixed spore suspensions in vitro on malt extract and milled maize agars over 28 days and in situ on stored maize grain for 14 days, respectively at 0.99, 0.96 and 0.90 a _w. For all the treatments, the effect of a _w and inoculum ratio and their interaction was highly significant. Toxin inhibition was >80% in vitro at both 0.99 and 0.96 a _w. In situ AFB₁ reduction was influenced by the toxigenic strain assayed, a _w and the inoculum ratio. Where control was achieved, it was more variable at 0.96 a _w, while with more stringent water stress conditions (0.90 a _w) the percentage inhibition was up to 77.2%. The study shows the importance of including environmental factors in screening and identifying effective atoxigenic strains for control of AFs (aflatoxins).     

The effect of water activity on growth and end-product formation of two Lactobacillus spp. and Brochothrix thermosphacta ATCC 11509T

Summary The effect of water activity (a_w) on the growth and end-product formation of Lactobacillus viridescens SMRICC 174, Lactobacillus SMRICC 173 (homofermentative) and Brochothrix thermosphacta ATCC 11509^T was studied. All strains orginated from meat or meat products. The a_w was adjusted in the range 0.94–0.99 with NaCl or glycerol. A greater reduction in growth rates was found for L. viridescens and B. thermosphacta when a_w was regulated with NaCl rather than with glycerol, the opposite was true for Lactobacillus 173. L. viridescens grew at a_w >-0.94. At 0.94 a_w B. thermosphacta was totally inhibited when NaCl was the solute and Lactobacillus 173 when glycerol was the solute. Only minor variations in the end-product formation of the Lactobacillus spp. were found at different a_w values. In aerobic culture B. thermosphacta produced less l-lactic acid and more acetic acid as the a_w was decreased with NaCl, while the yields were unaffected when glycerol was used.     

Effect of water activity on production and activity of Rhizopus oligosporus polysaccharidases

Summary During tempeh fermentation, Rhizopus oligosporus produced polysaccharidases to degrade soya bean cell walls; the maximum activity for all polysaccharidases tested occurred 20–30 h after inoculation. R. oligosporus was also grown in a soya bean extract model medium to which glycerol was added to control water activity (a _w). The overall activities of the major enzymes produced by the fungus, polygalacturonase, endocellulase and xylanase, appeared to be strongly influenced by a _w. The production of enzymes as well as their specific activities were affected by a _w. The optimum a _w for polygalacturonase and xylanase activity coincided with that for mycelial growth, namely 0.99–1.00. In contrast, the optimum a _w for (endo)cellulase was 0.98, at which mycelial growth was significantly reduced. Correspondence to: M. Sarrette     

Properties of pullulan-based blend films as affected by alginate content and relative humidity

Pullulan-sodium alginate blend films were prepared and characterized as a function of water activity (a_w). At low a_w, the incorporation of alginate into pullulan film increased the tensile strength and elastic modulus, but decreased the elongation at break of the composite films; the opposite trends were observed at elevated a_w. Above 0.43 a_w, water exerted a typical plasticization effect upon the biopolymer blends. As a_w increased from 0.23 to 0.43, an anti-plasticization effect was observed as tensile strength and elastic modulus increased. The glass transition temperature of all samples decreased substantially as aw increased from 0.23 to 0.84 due to the plasticization effect of water. Within this a_w range, one transition temperature was observed for all film specimens. The stretching vibration band of O-H was investigated using attenuated total reflection Fourier transform infrared spectroscopy to identify the various species of water interacting with the polysaccharide films.