Influence of pH value on viability and transduction frequency of Pseudomonas aeruginosa phage F116

The effect of pH value on viability and transduction frequency of the Pseudomonas aeruginosa phage F116 was studied. Plaques were formed at pH 5·0–10·0 and transduction occurred at pH 5·0–8·0. Outside the range pH 4·0–11·0 phages rapidly lost viability, but retained the capacity to transduce.     

Survival and reproductive performance of the desert pupfish, Cyprinodon n. nevadensis (Eigenmann and Eigenmann), in acid waters

Desert pupfish, Cyprinodon n. nevadensis , were exposed to pH levels of 8·3 (control), 7·0, 6·5, 6·0, 5·5 and 5·0 to determine the effects of acidity on reproduction. Egg production was significantly reduced at every pH level tested below the control. Egg-laying virtually ceased at pH 5·0, while egg viability was reduced to less than 50% of the control value at pH 6·5, when eggs were tested at the same pH at which they were laid. The 96 h LC₅₀ for this species was pH 4·56, considerably below that for successful reproduction. Larvae were less tolerant to acid stress than were adults.
Acclimation of reproductive performance to increased acid levels did not occur. Reproductive performance did not fully recover to control levels when the fish were placed in more favourable conditions after prolonged exposure to low pH.
Reduction in the number and development of oocytes was observed in the ovaries of acid stressed fish resulting in the decreased reproductive potential.     

Changes in the acidity and lactic acid content of 'Nono', a Nigerian cultured milk product

Changes in the pH value and lactic acid content of the uninoculated, cultured Nigerian whole milk product, 'Nono', during incubation at room temperature (27°± 2°C) for 120 h were monitored. The pH decreased from 6·78 ± 0·19 to 4·30 ± 0·11 while the lactic acid content increased from 0·32 ± 0·04% to 2·50 ± 0·02% (w/v). This was accompanied by souring and curdling of the milk particles.     

The effect of various acidulants on the growth of Listeria monocytogenes

The ability of four Listeria monocytogenes strains to initiate growth in brain heart infusion broth adjusted to various pH values with either acetic, lactic, citric or hydrochloric acid was investigated. Acetic acid was the most effective inhibitor tested, since in broth adjusted with this acid a higher minimum pH was required for growth of the various strains at both 4 and 30°C, as compared with broth adjusted with the other acidulants. The minimum pH value required for the initiation of growth of L. monocytogenes ranged from 5·0 to 5·7 at 4°C, and from 4·3 to 5·2 at 30°C, depending upon the acidulant used.     

Survival and sublethal responses of early life stages of pike exposed to low pH in artificial post-mining lake water

The threshold pH for survival of early life stages of pike Esox lucius in post-mining lakes was determined in a laboratory experiment using artificial water characterized by high concentrations of dissolved Ca, Al, Fe, Mn and SO2/4⁻. At pH 3·50–4·00, high mortality was observed before hatching. At pH 4·00 and 4·25, hatching rates were reduced compared with the controls (pH 7·40), and many embryos died in a partly hatched state. Hatching success of embryos exposed to pH levels of 4·50 or higher was not affected. However, at pH 5·00 many newly hatched embryos were deformed. Furthermore, pike exposed to pH 4·00–5·00 did not start feeding. At pH 4·75 and below, mortality increased to 100%, and at pH 5·00, only few eleutheroembryos which were in extremely poor condition survived to the end of the experiment. At pH 5·50, survival was in the same range as in the control group, but growth was reduced. Therefore, early life stages of pike are expected to survive in Lustian post-mining lakes when a pH of 5·50 and above is reached and maintained.     

Controlling the Sporulation of Clostridium sporogenes and the Heat Resistance of the Spores

S ummary . During growth of Clostridium sporogenes in tryptone-salt-peptone-glucose medium the pH value of the medium varies due to formation of acid and CO₂ and to subsequent production of NH₃. Glucose concentrations of 0·2, 0·5 or 1·0% result in increasing sporulation times and in spores of low, extremely high ( D ₁₁₀ c . 80 min) and negligible heat resistance, respectively. When the pH value is maintained at 7, a reproducible sporulation time of a few hours is observed and the resulting spores have a heat resistance ( D ¹¹⁰) of 13 min, regardless of the glucose concentration.     

The fate of Bacillus anthracis in unpasteurized and pasteurized milk

Growth of Listeria monocytogenes at pH 5·0 did not increase growth of the organism at pH 7·0 after exposure to low pH (3·0, 3·5), compared with cells initially grown at pH 7·0. However, growth at pH 5·0 significantly increased the survival of cells at low pH as determined by plate counts compared with cells grown at neutral pH. Thus, pH adaptation not only occurs in enteric bacteria but also in this Gram-positive organism. Alterations in the cytoplasmic membrane could be responsible.     

Purification and characterization of acid proteinase from Neosartorya fischeri var. spinosa IBT 4872

An acid proteinase from Neosartorya fischeri var. spinosa IBT 4872 was purified 38-fold with a yield of 11% by ultrafiltration, ammonium sulphate fractionation, Sephadex-G200 gel filtration, DEAE-Sephadex anion exchange chromatography, and hydroxyapatite chromatography. The enzyme was most active at pH 3·0 and 50 °C and had a molecular weight of 45 kDa, as determined by SDS-PAGE. It was stable over a pH range of 3·0 to 6·0 and exhibited thermal stability up to 50 °C. The Km value for haemoglobin was 0·44% (w/v). The activity was inhibited by pepstatin, suggesting that the enzyme is an aspartic proteinase.     

Effects of sporulation pH on the heat resistance and the sporulation of Bacillus cereus

Spores of Bacillus cereus ATCC 7004, 4342 and 9818 were obtained in nutrient agar at several pH from 5·9 to 8·3. The optimum pH for sporulation was around 7, but good production of spores was obtained in the range 6·5–8·3. With all three strains, D -values clearly dropped with sporulation pH, decreasing by about 65% per pH unit. z -Values were not significantly modified ( P > 0·05) by this factor. Mean z -values of 7·13 °C ± 0·16 for strain 7004, 7·67 °C ± 0·04 for 4342 and 8·80 °C ± 0·64 for 9818 were obtained.     

Factors affecting the survival of Salmonella and Escherichia coli in anaerobically fermented pig waste

The survival of Salmonella typhimurium was investigated in acidogenic, anaerobically fermented pig wastes and in synthetic media, each containing volatile fatty acids (VFA). Salm. typhimurium survived at pH 6·8, but not at pH 4·0, when incubated at 37°C for 24 h in either fermented or synthetic medium containing VFA. The minimum inhibiting concentration of VFA for Salm. typhimurium after 48 h incubation at 30°C at pH 4·0 was 0·03 mol/l and for Escherichia coli it was 0·09 mol/l. Fermented pig wastes in a digester, maintained at pH 5·9, were inoculated with Salm. typhimurium and then incubated at 37°C for 24 h. The pH was adjusted to either 4·0 or 5·0 and after a further 48 h at 30°C, Salm. typhimurium survived at pH 5·0 but not at pH 4·0. It was concluded that pH is critical in determining the survival of this organism in acidogenic anaerobically fermented pig waste.     

Combined Effects of Water Activity, pH and Temperature on the Growth and Spoilage Potential of Fungi

S ummary . An arbitrary parameter 'rejection time', i.e. the time required for a fungal inoculum to form a 2 mm diam. colony, was used to express the shelf life of jam after unsealing and exposure of the contents to airborne contamination. Individual and combined effects of water activity ( a_w ), pH value and temperature on rejection time of low sugar jam were estimated from the radial growth on agar of colonies of 9 fungi. The decreases in a_w (0·94–0·90) and temperature (25–15°) practicable for low sugar jam were more effective in increasing rejection time than the feasible decrease in pH value (3·7–2·9). The interaction between a_w and temperature was significant. The effect of the changes in a_w , temperature and pH on rejection time was broadly similar for media adjusted by either sucrose or glycerol. At a given a_w , moulds were slightly more tolerant of glycerol than sucrose but yeasts, except for the osmophile Saccharomyces rouxii , were markedly more tolerant of glycerol than sucrose.     

Incidence and Spoilage Potential of Isolates from Vacuum-packaged Meat of High pH Value

Meat of high pH value (6·6) showing dark-cutting characteristics was vacuum-packaged and stored for up to 8 weeks at 0–2°C. 'Off'-odours were detected on opening the packages after 6 weeks of storage. Total counts at this stage were ca. 10⁷/cm² of which lactobacilli were the major component, with ca. 10⁶/cm² Gram negative organisms. Psychrotrophic Enterobacteriaceae represented a major proportion of the microflora only after the full 8 weeks of storage and were not detected previously. Aerobic storage of steaks cut from the vacuum packaged meat stored for 8 weeks resulted in a predominantly Gram negative spoilage flora.
Inoculation studies on meat of normal pH value (5·4) and appearance using representative isolates from the vacuum-packaged meat microflora indicated that most of the test organisms were capable of causing spoilage under aerobic conditions but few under vacuum-packaging when incubated at 4°C. On meat of higher pH value (6·15) many of the Gram negative isolates did not grow as well, whereas the Gram positive isolates grew better than on meat of normal pH value when held under aerobic conditions. Under vacuum-packaging all but one isolate grew as well or better on meat of high pH value than on normal meat at 4°C and objectionable odours were more marked.     

Growth and reducing capacity of Listeria monocytogenes under different initial redox potential

Aims:  To determine the reducing capacity of Listeria monocytogenes and to highlight the effect of redox potential on its growth parameters.
Methods and Results:  The reducing capacity of L. monocytogenes was monitored in Brain Heart Infusion Broth media at different initial redox potential (Eh) and pH at 37°C. The effect of Eh obtained by gas flushing (air, N₂ and N₂-H₂) or by adding potassium ferricyanide and dithiotreitol in concentration from 1 to 10 mmol l⁻¹on L. monocytogenes growth parameters at pH 6·0, 7·0 and 8·0 was investigated. A total change of 539 mV (±44 mV) from an initial redox value of +330 ± 8 mV to a more negative potential in redox curves was observed resulting from L. monocytogenes growth at pH 7·0 at 37°C. A significant influence of pH and redox potential on L. monocytogenes lag phase of growth was shown ( P  < 0·05).
Conclusions:  Listeria monocytogenes exhibited longer lag phase in reducing conditions and at pH 6·0. The method used to modify the redox potential was shown to have no effect on growth parameters at pH 7·0.
Significance and Impact of the Study:  The provided information on the extending lag time and the possible delayed growth of this major pathogen in reducing conditions might be useful for its control in foods.     

Microbial Spoilage of Fresh Refrigerated Beef Liver

The types and numbers of micro-organisms involved in the spoilage of refrigerated beef liver were studied together with pH, hydration and organoleptic changes of the material. Fresh liver harboured a mixed population ( c . 1 × 10⁵ organisms/g) of Gram positive cocci, chromogens and non-chromogens, sporeformers, presumptive coliforms and Gram negative rods. When samples were rejected organoleptically, after 7–10 days at 5°, the contamination attained levels of c . 7–8 × 10⁷ organisms/g. Spoilage was due to souring; the pH fell from 6·3 (fresh liver) to c . 5·9. Lactic acid bacteria were predominant and Gram negative bacteria did not exceed 1·0 × 10⁶ organisms/g. This type of spoilage is explained by the carbohydrate content of c . 5% in liver. The value of pH appears to be a reliable indicator of liver freshness, with a pH of 6·1 indicating incipient spoilage.     

The effect of acid water on the hatching of salmonid eggs

The survival of salmon Salmo salar , sea trout and brown trout Salmo trutta eggs in acid water in the range pH 3·5±7·0 was investigated over a period of three winters. The effects of fertilising the eggs in acid water at pH 4·0, 4·5 and 5·0, and dilution of the test media were also studied. There was considerable yearly variation in the numbers of eggs which hatched, but there were no marked differences between the three species in the tolerances of the eggs to acid water; pH 3·5 was lethal within 10 days to all the eggs, but at pH 4·5 and higher pH levels there was no obvious difference in hatching attributable to acidity.     

Glucosyltransferase activity of commercial juice-processing enzyme preparations

Of various commercial enzyme preparations examined, Cytolase M102 was found to contain the highest glucosyltransferase activity (55 U ml⁻¹). It rapidly converted maltose to panose (Glcα1 → 6Glcα1 → 4Glc) with a V _max value of 5·8 mmol l⁻¹ min⁻¹ at 50°C in 0·05 mol l⁻¹ sodium acetate buffer (pH 4·4). The K _m value of the enzyme for maltose was 750 mmol l⁻¹. Yields of panose and glucose after 45 min of reaction, for example, were 47·2% and 52·8%, respectively, on the basis of the amount of maltose consumed.     

The preparation of ampicillin dextrin agar for the enumeration of Aeromonas in water

Introduction of ampicillin dextrin agar (ADA) has revealed problems in details of the preparation. The final pH of the medium varied substantially between different laboratories. Measuring temperature has a pronounced effect on the pH (0·7 units lower at 50°C than at 6°C). Addition of agar during medium preparation resulted in a fall in pH of 0·5 units. If poured plates were stored in the refrigerator, the pH was reduced by 0·1–0·4 units, in particular during the first day. Recovery of Aeromonas from pure cultures and naturally polluted samples was unaffected by variation in pH between 7·1 and 8·3 but colony differentiation was optimal at a higher pH. The use of ADA at a final pH of 7·8 ± 0·2 (at 25°C) is recommended. Different types of dextrin differed in respect of solubility, fermentability and colony differentiation. Optimal results were obtained with Difco 161 and Merck 3006.     

Habituation to acid in Escherichia coli: conditions for habituation and its effects on plasmid transfer

Induction of acid resistance (habituation) in Escherichia coli at pH 5·0 took ca 5 min in broth at 37°C and 30–60 min in minimal medium. Induction occurred at a range of pH values from 4·0 to 6·0; it was dependent on continuing protein and RNA synthesis but substantial acid resistance appeared in the presence of nalidixic acid. Acid resistance was long-lasting; organisms grown at pH 5·0 retained most of their resistance after 2 h growth at pH 7·0. Organisms grown at pH 5·0 showed increased synthesis of a number of cytoplasmic proteins compared with the level in cells grown at pH 7·0. DNA repair-deficient strains carrying recA, uvrA or polAl mutations were more acid-sensitive than the repair-proficient parents but were able to habituate at pH 5·0. Organisms grown at pH 5·0 transferred the ColV plasmid much more effectively at acid pH than did those grown at pH 7·0 and habituated recipients appeared better able to repair incoming acid-damaged plasmid DNA than did those that were non-habituated. Induction of acid resistance at pH 5·0 may be significant for the survival of organisms exposed to periodic discharges of acid effluent in the aquatic environment and habituation may also allow plasmid transfer and repair of acid-damaged plasmid DNA during or after such exposure.     

The combined effect of sub-optimal temperature and sub-optimal pH on growth and toxin formation from spores of Clostridium botulinum

Low-acid foods (pH ≥ 4.5) are not sufficiently acidic to prevent growth of Clostridium botulinum in otherwise optimal conditions. The combination of sub-optimal pH and sub-optimal temperature may, however, result in a very significant reduction in the risk of growth of this bacterium compared with the risk in optimal conditions. The combined effect of incubation temperatures of 12° and 16°C and pH values between 5·2 and 5·5 on growth and toxin production from spores of Cl. botulinum during incubation for 28 d has been investigated. Growth and formation of toxin (type B) were detected only in medium at pH 5·5 and incubated at 16°C, corresponding to a probability of growth from a single spore within 14 d of 1·6 × 10^-5. The probability of growth in 28 d in the remaining conditions was <9 × 10^-6. After transfer of inoculated media from 12° to 30°C growth occurred at pH 5·2–5·5 within 19 d. After transfer of inoculated media from 12° to 20°C growth occurred at pH 5·5 and 5·4 but not at pH 5·3 or 5·2 in 40 d. Growth at pH 5·2–5·5 was accompanied by formation of toxin, in most cases of types A or B. In addition to the effect of sub-optimal temperature and pH, chelation of divalent metal ions by citrate may have contributed to inhibition.     

Effects of culture conditions on Pectinatus cerevisiiphilus and Pectinatus frisingensis metabolism: a physiological and statistical approach

The genus Pectinatus has been often reported in beer spoilage with off-flavours. The bacteria are strictly anaerobic, Gram-negative rods. Propionate and acetate are the main fermentation products from glucose in the two species belonging to the genus, P. cerevisiiphilus and P. frisingensis. Amino acids routinely present at a high level in beer were not growth substrates for both species, and a significant accumulation of succinate was observed with lactate as growth substrate. Both Pectinatus ssp. showed almost identical fermentation balances on glucose. Growth kinetics of both glucose-grown species were unchanged under a N₂, H₂ or 20% CO₂-containing atmosphere. Combinations of culture medium pH values from pH 3·9 to pH 7·2, of glucose levels between 5 and 55 mmol l^-1, and of lactate concentrations varied from 4 to 40 mmol l^-1 demonstrated that biomass and volatile fatty acids production were proportional to glucose concentration for both Pectinatus species. A significant increase of volatile fatty acid production was measured for both species at the lowest pH values with a lactate or a glucose concentration increase. The maximum biomass production was observed at pH 6·2 for P. cerevisiiphilus , and between pH 4·5 and pH 4·9 for P. frisingensis. Glucose and lactate or pH value were dependent with regard to propionate and acetate production in P. frisingensis. On the other hand, the variations of these three parameters were independent with regard to biomass production for both strains, and to volatile fatty acids production for P. cerevisiiphilus. Addition of ethanol to glucose-grown cultures completely inhibited growth at 1·3 mol l^-1 ethanol for P. cerevisiiphilus , and at 1·8 mol l^-1 for P. frisingensis.