Habituation to alkali in Escherichia coli

Escherichia coli grown at pH 9·0 was much more resistant to extremes of alkaline pH (10·5–11·5) than when grown at pH 7·0. This is termed habituation to alkali. It was not due to ability to reduce the pH of the medium during exposure but was due to a phenotypic change during growth at pH 9·0. Habituation occurred within 60 min at pH 9·0.     

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.     

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.     

The effects of temperature on muscle pH, adenylate and phosphogen concentrations in Oreochromis alcalicus grahami, a fish adapted to an alkaline hot-spring

The concentrations of phosphorylcreatine (PCr), adenosine triphosphate (ATP), adenosine diphosphate (ADP), adenosine monophosphate (AMP), inorganic phosphate (Pi), pyruvate and lactate were determined in freeze-clamped fast muscle samples from Oreochromis alcalicus grahami a fish adapted to extreme alkalinity (∼ pH 10·0) and high temperatures (Lake Magadi, Kenya). Specimens were analysed from both geothermally heated hotsprings (35–37°C) and from isolated cool pools (28°C) and from stocks acclimated to 20°C in the laboratory. The ratios of (ATP)/(ADP) and (ATP)/(ADP) (Pi) decreased with increasing body temperature consistent with an increase in glycolysis and tissue respiration rates, respectively. The apparent equilibrium constant of creatine kinase (K_CK), (creatine) (ATP)/(phosphorylcreatine) (ADP) was found to decrease with increasing temperature: 20·2 (20°C), 13·9 (28°C), 8·0 (37°C). A near constant muscle and blood pH (or slight increase in alkalinity with higher temperatures) was found regardless of body temperature (Blood pH 7·64, 7·74, muscle pH 7·27, 7·51 at 20°C and 35°C, respectively). These results are consistent with an unusual pattern of acid-base regulation in this species.     

Survival of Listeria monocytogenes in yogurt during storage at 4°C

Cows' milk was inoculated with ca 10³and 10⁷cfu/ml Listeria monocytogenes. After fermentation at 42°C for 0–5 h, the yogurt was stored at 4°C. Low and high inocula survived for 48 h and 7 d, respectively; L. monocytogenes cells were not detectable by direct plating or cold-enrichment after 5 and 15 d, respectively. In low inoculum samples, initial pH at the time of refrigeration was 4·9; the final pH at the time of last sampling was 4·2. In the samples with high inoculum the pH decreased from 5·0 to 4·2.     

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.     

Fate of low temperature and acid-adapted Yersinia enterocolitica and Listeria monocytogenes that contaminate lactic acid decontaminated meat during chill storage

Pathogens found in the environment of abattoirs may become adapted to lactic acid used to decontaminate meat. Such organisms are more acid tolerant than non-adapted parents and can contaminate meat after lactic acid decontamination (LAD). The fate of acid-adapted Yersinia enterocolitica and Listeria monocytogenes, inoculated on skin surface of pork bellies 2 h after LAD, was examined during chilled storage. LAD included dipping in 1%, 2% or 5% lactic acid solutions at 55°C for 120 s. LAD brought about sharp reductions in meat surface pH, but these recovered with time after LAD at ≈1–1·5 pH units below that of water-treated controls. Growth permitting pH at 4·8–5·2 was reached after 1% LAD in less than 0·5 d (pH 4·8–5·0), 2% LAD within 1·5 d (pH 4·9–5·1) and after 5% LAD (pH 5·0–5·2) within 4 d. During the lag on 2% LAD meat Y. enterocolitica counts decreased by 0·9 log₁₀ cfu per cm² and on 5% LAD the reduction was more than 1·4 log₁₀ cfu per cm². The reductions in L. monocytogenes were about a third of those in Y. enterocolitica . On 1% LAD the counts of both pathogens did not decrease significantly. The generation times of Y. enterocolitica and L. monocytogenes on 2–5% LAD meats were by up to twofold longer than on water-treated controls and on 1% LAD-treated meat they were similar to those on water-treated controls. Low temperature and acid-adapted L. monocytogenes and Y. enterocolitica that contaminate skin surface after hot 2–5% LAD did not cause an increased health hazard, although the number of Gram-negative spoilage organisms were drastically reduced by hot 2–5% LAD and intrinsic (lactic acid content, pH) conditions were created that may benefit the survival and the growth of acid-adapted organisms.     

Factors affecting the production of hydrogen sulphide by Lactobacillus sake L13 growing on vacuum-packaged beef

Lactobacillus sake L13 produced hydrogen sulphide during growth at 0°C on vacuum-packaged beef of normal pH (5·6–5·8) when the packaging films used had oxygen permeabilities as high as 200 ml/m²/24 h/atm (measured at 25°C and 98% relative humidity. No hydrogen sulphide was detected when the film permeability was 300 ml/m²/24 h/atm. Sulphmyoglobin was formed whenever hydrogen sulphide was present except when the film permeability was very low (1 ml of oxygen/m²/24 h/atm). Lactobacillus sake L13 also produced hydrogen sulphide when grown on beef under anaerobic conditions at 5°C. When meat pH was high (6·4–6·6) hydrogen sulphide was first detected after incubation for 9 d. When 250 μg of glucose was added to each g of high pH meat, or when meat pH was normal (5·6–5·8), hydrogen sulphide was first detected after incubation for 18 d. The spoilage of beef by hydrogen sulphide-producing lactobacilli is more rapid when the pH of the meat is high because high-pH meat contains less glucose. Sulphmyoglobin formation and greening can be prevented by the use of packaging films of very low oxygen permeability.     

Scanning Isoelectric Focusing and Isotachophoresis of Clostridium perfringens Type A Enterotoxin

Fractionation of highly purified Cl. perfringens type A enterotoxin by scanning isoelectric focusing (SIF) and isotachophoresis (IT) in polyacrylamide gels is described for the first time. The use of 2% ampholytes pH 3–6 allowed the separation of enterotoxin into 2 species. The major component had an isoelectric point of 4·5 and possessed antigenic as well as functional activity. The minor component of enterotoxin, at equivalent concentrations, was devoid of any demonstrable biological activity had an isoelectric point of 4·6 and appeared to represent approximately 15% of the purified enterotoxin. With ampholytes pH 3·5–10 the minor and major components were focused at different times than when ampholine pH 3–6 was employed. Electrofocusing of enterotoxin in the presence of 6 M-urea did not alter the SIF pattern. During IT the major component of enterotoxin migrated ahead of the minor component. The 2 proteins were completely separated. Isotachophoretic separations required 0·023 M-phosphate pH 6·0 as the leading ion, 0·079 M-Tris as the counter-ion, 0·2 M-glycine (in Tris pH 8·1) as the terminating ion, 30 γ carrier ampholytes pH 3·5–10, 263 μg enterotoxin, 4% acrylamide and a current of 5 mA per gel column.     

Factors affecting production and activity of phospholipase C by Yersinia enterocotttica

The production of phospholipase C by Yersinia enterocolitica strain SG was optimum at 37†C at pH 6·5. No enzyme activity could be detected when the organism was grown at extreme pH values (pH > 8·5 or <5·0). The enzyme production was maximum when the organism was grown under static conditions in TSB medium. All solvents and salts inhibited the enzyme activity, whereas loss of activity was 95% in presence of methanol (20%) and 99% in presence of sodium azide (0·2 mol/l). The enzyme activity was increased twofold in the presence of cyste-ine and decreased by 98% in the presence of sodium perchlorate (0·2 mol/1).     

Research note : Unsuitability of the MRS medium for the screening of hydrogen peroxide-producing lactic acid bacteria

The effect of MRS broth on the stability of hydrogen peroxide (H₂O₂) has been studied. Known concentrations (1–100 μg ml⁻¹) of H₂O₂ were prepared in distilled water, phosphate buffer (pH 7·0) and MRS broth (pH 6·2 and 3·9). H₂O₂ was very stable in aqueous and buffer solutions but it was rapidly degraded in MRS broth (pH 3·9). The presence of H₂O₂ in MRS broth (pH 6·2) could not be detected.     

Ornithine decarboxylase activities of a Shewanella putrefaciens which produces only diamines

Ornithine decarboxylase (ODC) activity in cell extracts of Shewanella putrefaciens was surveyed. The pH dependency of the ODC activity revealed that the bacterium has two different ODC having optimum pH at 8·25 and 6·50. They were considered to be biosynthetic and biodegradative enzymes, respectively. Their activity ratio varied when the bacterium was cultured at pH 7·0 and 6·0. Both ODC activities were inhibited by α-difluoromethylornithine but cell growth was not affected.     

Methods for the recovery of a model virus from healthcare personal protective equipment

Aims:  To develop methods for recovering a model virus (bacteriophage MS2) from healthcare personal protective equipment (PPE).
Methods and Results:  Nine eluents were evaluated for recovery of infectious MS2 from PPE: 1·5% beef extract (BE) pH 7·5 with and without 0·1% Tween 80, 1·5% BE pH 9·0 with and without 0·1% Tween 80, 3% BE pH 7·5 with and without 0·1% Tween 80, 3% BE pH 9·0 with and without 0·1% Tween 80 and PBS with 0·1% Tween 80. Methods were applied to experimentally contaminated PPE. Elution followed by two-step enrichment assay could recover virus inputs as low as 1·5 log₁₀, and could recover >90% of inoculated virus from used items of experimentally contaminated PPE worn by human volunteers.
Conclusions:  BE was effective for recovering infectious viruses from a range of PPE materials.
Significance and Impact of the Study:  PPE plays a crucial role in interrupting transmission of infectious agents from patients to healthcare workers (HCWs). The fate of micro-organisms when PPE is removed and disposed of has important consequences for infection control. Methods described here can be used to conduct rigorous studies of viral survival and transfer on PPE for risk assessments in infection control and HCW protection.     

Relationship between Heat Activation and Percentage Colony Formation for Bacillus stearothermophilus Spores: Effects of Storage and pH of the Recovery Medium

Colony counts of unheated spores were higher in a medium at pH 5·9 than in media of higher pH. The pattern was reversed as the spores were heated. Slide germination studies showed that about 8% or less of unheated spores germinated in slide culture. Optimal heat activation resulted in about 50% germination. The colony counts of heat activated spores dropped significantly upon storage for 9 months, but those of unheated spores did not.     

Induction of acid tolerance at neutral pH in log-phase Escherichia coli by medium filtrates from organisms grown at acidic pH

Escherichia coli grown at pH 5·0 became acid-tolerant (acid-habituated) but, in addition, neutralized medium filtrates from cultures of E. coli grown to log-phase or stationary-phase at pH 5·0 (pH 5·0 filtrates) induced acid tolerance when added to log-phase E. coli growing at pH 7·0. In contrast, filtrates from pH 7·0-grown cultures were ineffective. The pH 5·0 filtrates were inactivated by heating in a boiling water-bath but there was less activity loss at 75 °C. Protease also inactivated such filtrates, which suggested that a heat-resistant protein (or proteins) in the filtrates was essential for the induction of acid tolerance. Filtrates from cells grown at pH 5·0 plus phosphate or adenosine 3':5'-cyclic monophosphate (cAMP) were much less effective in inducing acid tolerance, while the conversion of pH 7·0-grown log-phase cells to acid tolerance by pH 5·0 filtrates was inhibited by cAMP and bicarbonate. It seems likely that the acid tolerance response (acid habituation) involved the functioning of the extracellular protein(s) as protease reduces tolerance induction if added during acid habituation. Most inducible responses are believed to involve the functioning of only intracellular reactions and components ; the present results suggest that this is not the case for acid habituation, as an extracellular protein (or proteins) is needed for induction.     

Production and stability of pediocin N5p in grape juice medium

The production and stability of pediocin N5p from Pediococcus pentosaceus , isolated from wine, were examined in grape juice medium. Maximum growth and higher titre (4000 U ml^-1) were observed at a initial pH of 7·5 and 30°C. The activity of the inhibitory substance was stable between pH values from 2·0 to 5·0 at 4° and 30°C. At pH 10·0 it was completely inactivated. When submitted to 30 min at 80°, 100° and 115°C, maximal stability was observed at pH 2·0. Ethanol up to 10% did not affect pediocin activity at acid pH, nor did 40–80 mg 1^-1 SO₂, independently or combined with different ethanol concentrations, affect inhibitory activity.     

Chemically mediated learning in juvenile rainbow trout. Does predator odour pH influence intensity and retention of acquired predator recognition?

The prediction that variability in ambient pH will influence the intensity and retention of learned predator recognition in juvenile rainbow trout Oncorhynchus mykiss was tested under laboratory conditions. Juvenile rainbow trout were conditioned to recognize the odour of a novel predator at pH 6·0 or 7·0 and then tested for learned recognition of the predator odour at pH 6·0 or 7·0 at 2 or 7 days post-conditioning. When tested 2 days post-conditioning, rainbow trout exhibited a significant learned antipredator response regardless of predator odour pH. The response was stronger, however, when the test pH matched the conditioning pH. When tested 7 days post-conditioning, rainbow trout only exhibited a learned response when conditioning and testing pH were the same. These results demonstrate that episodic acidification may impair the strength and retention of acquired predator recognition learning. Given the demonstrated survival benefits associated with learned predator recognition in prey fishes, such impairment will probably have considerable negative impacts at both individual and population levels.     

Digestive enzymes of Anarhichas minor and the effect of diet composition on their performance

The effect of feeding two different diets, containing 38 and 45% protein and 35 and 28% lipid, respectively, on growth as well as performance of the digestive proteases (total protease at pH 1·5, 7·0, 9·0 and 10·0) and carbohydrases (total carbohydrase, α-amylase and α-glucosidase) of a new candidate species for aquaculture, the carnivorous spotted wolffish Anarhichas minor (Teleostei, Anarhichadidae), was investigated. No significant growth differences were observed when feeding high protein (HP) or low protein (LP) levels ( P > 0·05), although the LP group exhibited slightly higher protease activity and capacity ( P > 0·05), mostly at the anterior end of the intestine and at alkaline pH. Carbohydrase levels were generally low, apart from α-glucosidase, which was significantly increased for the HP group ( P < 0·05). Implications concerning the performance of digestive enzymes under varying dietary macronutrient levels and effects of digestive enzyme activity on the formulation of efficient artificial diets for carnivorous fishes are discussed in this study.     

The effects of environmental factors on rainbow smelt Osmerus mordax embryos and larvae

Experiments were conducted to identify environmental factors that influence the survival of rainbow smelt Osmerus mordax during their early life stages. Developing rainbow smelt embryos and yolk-sac larvae were cultured under controlled conditions with different dissolved oxygen (DO; 1·09, 2·18, 4·37 and 6·55 mg l⁻¹, pH (4·0, 4·5, 5·0, 5·5, 6·0 and 7·0), nitrate ( 0·7, 3·6, 7·3, 14·6 and 29·2 mg l⁻¹), phosphate (0·04, 0·21, 0·42, 2·08 and 4·17 mg l⁻¹) and salinity (0, 5, 10, 15, 20 and 30) levels. Rainbow smelt embryos were also incubated with simulated tidal salinity fluctuations (2–28), ultraviolet radiation (irradiances of 2·8, 6·2 and 5·1 W m⁻²) and under natural conditions in two rainbow smelt spawning rivers. In the laboratory, hatch was only impaired under the lowest DO and pH conditions (0 and 13% hatch, respectively) and at highest constant salinity levels (0% hatch). Larval survival was only affected by pH levels ≤5·0. The experiment that compared hatch under natural conditions was terminated when embryos became covered with silt and fungus. These results suggest that water acidification, sediment and fungal growth may affect rainbow smelt survival during their early life stages.     

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.