Aims: To investigate methods for inactivating a pressure‐resistant strain of Escherichia coli O157 in fruit juices.
Methods and Results: Cells of a pressure‐resistant strain of E. coli O157 (C9490) were exposed to pressures of between, 0·1 and 500 MPa for 5 min in orange, apple or tomato juice. Treatment at 500 MPa achieved an immediate reduction of 5 log units in apple juice (pH 3·5) and tomato juice (pH 4·1), but only about a 1–2 log10 reduction in orange juice (pH 3·8). The greater level of inactivation in tomato juice than in orange juice of lower pH was due to the presence of low levels (0·7%) of salt in the tomato juice. With the type‐strain of E. coli (ATCC 11775) and Listeria monocytogenes NCTC 11994, similar levels of inactivation were achieved at pressures 200 MPa lower. Following storage of pressure‐treated orange juice at 4°C for 24 h or 25°C for 3 h, the level of inactivation of E. coli O157 strain C9490 increased to 4·4 or > 7 log10 units, respectively.
Conclusions: Treatment at 500 MPa may be insufficient to achieve a ‘5D’ reduction in counts of pressure‐resistant strains of E. coli, but subsequent death during storage substantially increases process lethality.
Significance and Impact of the Study: Commercially‐practicable pressure processes can be used to inactivate even the most pressure‐and acid‐resistant strains of E. coli O157, provided that processing and subsequent storage conditions are carefully optimized.
Three distinct strains (KL1, KS1, and KS2) of facultatively chemolitho-autotrophic bacteria able to use carbon disulfide or carbonyl sulfide as sole energy substrates were identified as novel strains of Paracoccus denitrificans. Evidence for their identity as biovars of P. denitrificans and as close relatives of Paracoccus versutus is based on their DNA composition, total sequencing of the genes for their 16S rRNA, muropeptide profiles, amino acid composition of peptidoglycan, kinetics of murein degradation by lysozyme, possession of large plasmids (91-98 kb) and megaplasmids (> 450 kb), and plasmid transfer between the strains and with P. denitrificans and P. versutus. No functions have been identified for the 91- to 98-kb plasmids of strains KL1 and KS2, but curing strain KL1 of its plasmid did not affect growth on carbon disulfide, thiosulfate or succinate. Emendation of the formal description of Paracoccus denitrificans is presented. Autotrophic growth on carbon disulfide and thiosulfate was confirmed by 14CO2 fixation. Evidence is presented for initiation of carbon disulfide oxidation by an NADH-dependent oxygenase. Cell-free extracts catalyzed (1) NADH-stimulated uptake of oxygen in the presence of carbon disulfide, and (2) carbon-disulfide-stimulated oxidation of NADH. The activity was not sedimented at 50,000 x g. Intermediates in aerobic carbon disulfide metabolism were shown by GC and GC/MS to include carbonyl sulfide and hydrogen sulfide, but anaerobic production of COS and H2S from carbon disulfide did not occur. SDS-PAGE of cell-free extracts showed polypeptides that were unique to growth on carbon disulfide, common to carbon disulfide and carbonyl sulfide, or found after growth on carbon disulfide, carbonyl sulfide or thiosulfate. The possible identity of these as proteins involved in sulfur compound metabolism is discussed.
The acid tolerance of Escherichia coli O157:H7 strains can be overcome by addition of lactate, ethanol, or a combination of the two agents. Killing can be increased by as much as 4 log units in the first 5 min of incubation at pH 3 even for the most acid-tolerant isolates. Exponential-phase, habituated, and stationary-phase cells are all sensitive to incubation with lactate and ethanol. Killing correlates with disruption of the capacity for pH homeostasis. Habituated and stationary-phase cells can partially offset the effects of the lowering of cytoplasmic pH.
The tac promoter was inserted into Tn21 upstream of the tnpR gene and the resultant plasmid was used to generate substantial amounts of resolvase. This protein was purified to homogeneity. The protein was characterized by amino acid sequence studies (which showed that an open-reading frame previously identified by DNA sequencing had been correctly assigned to the tnpR gene) and by molecular weight measurements (which demonstrated that the only active for of the protein in solution was dimeric). Pure Tn21 resolvase catalysed site-specific recombinations between directly repeated res sites from Tn21 or Tn1721 but not from Tn3 nor on inverted res sites from Tn21.
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