ORCID Profile
0000-0003-4655-8563
Current Organisation
University of Helsinki
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Publisher: Elsevier BV
Date: 06-2021
Publisher: Oxford University Press (OUP)
Date: 30-09-2013
DOI: 10.1111/JAM.12332
Abstract: To isolate and characterize listeriaphages from seafood environments. METHODS AND Listeriaphages (phages) isolated from seafood environments were distinguished by physical and biological techniques including restriction digestion of phage DNA. Three phages belonged to order Caudovirales and showed psychrotrophic characteristics. The phages had broad host ranges against 23 Listeria strains by productive infection or at least by adsorption. At 15 ± 1°C, adsorption rate constants of the three phages ranged from 8·93 × 10(-9) to 3·24 × 10(-11 ) ml min(-1) across different Listeria monocytogenes strains. In indicator hosts, the mean burst sizes of phages LiMN4L, LiMN4p and LiMN17 were c. 17, 17 and 11 plaque-forming units (PFU) per cell, respectively, at 15 ± 1°C. The respective latent periods were c. 270 min for phages LiMN4p and LiMN17, whereas for phage LiMN4L, it was c. 240 min. The three virulent psychrotrophic phages isolated from seafood-processing environments had broad host ranges and low productive replication. These characteristics suggest that the phages may be suitable as passive biocontrol agents against seafood-borne L. monocytogenes. This is the first report on the isolation of autochthonous virulent listeriaphages from seafood-processing environments and information on single-step replication and adsorption characteristics of such listeriaphages.
Publisher: SAGE Publications
Date: 08-2013
Abstract: Listeria-infecting bacteriophages (listeriaphages) can be used to control Listeria monocytogenes in the food industry. However, the sensitivity of many of seafood-borne Listeria strains to phages has not been reported. This research investigated the host ranges of three listeriaphages (FWLLm1, FWLLm3 and FWLLm5) by the formation of lytic zones and plaques on host lawns and in vitro lysis kinetics of listeriaphage FWLLm3. The study also predicted the phage titres required to lyse host cells. The host ranges of the phages were determined using 50 L. monocytogenes strains, of which 48 were isolated from the seafood industry and two from clinical cases. Of the 50 strains, 36 were tested at 25 and 30 ℃ and the remainder (14) at 15 and 25 ℃. Based on the formation of either discrete plaques or lytic zones (host kill zones), the host ranges of FWLLm1, FWLLm3 and FWLLm5 were about 87%, 81% and 87%, respectively, at 25 ℃. Six L. monocytogenes strains from the seafood environment were insensitive to all three phages, while the other seafood strains (42) were phage-sensitive. The adsorption rate constant ( k value) of listeriaphage FWLLm3 was between 1.2 × 10 −9 and 1.6 × 10 −9 ml/min across four host strains in tryptic soy broth at 25 ℃. The cultures (at 3–4 log colony-forming unit (CFU/ml) were completely lysed ( log CFU/ml) when cultures were infected with FWLLm3 at 8.7 log phage-forming units (PFU/ml) for 30 min. Re-growth of phage-infected cultures was not detected after 24 h. The effective empirical phage titre was similar to the calculated titre using a kinetic model. Results indicate the potential use of the three phages for controlling L. monocytogenes strains in seafood processing environments.
Publisher: Oxford University Press (OUP)
Date: 10-2013
DOI: 10.1007/S10295-013-1313-3
Abstract: Listeria monocytogenes is a food-borne pathogen which causes listeriosis and is difficult to eradicate from seafood processing environments therefore, more effective control methods need to be developed. This study investigated the effectiveness of three bacteriophages (LiMN4L, LiMN4p and LiMN17), in idually or as a three-phage cocktail at ≈9 log10 PFU/ml, in the lysis of three seafood-borne L. monocytogenes strains (19CO9, 19DO3 and 19EO3) adhered to a fish broth layer on stainless steel coupon (FBSSC) and clean stainless steel coupon (SSC), in 7-day biofilm, and dislodged biofilm cells at 15 ± 1 °C. Single phage treatments (LiMN4L, LiMN4p or LiMN17) decreased bacterial cells adhered to FBSSC and SSC by ≈3–4.5 log units. Phage cocktail reduced the cells on both surfaces (≈3.8–4.5 and 4.6–5.4 log10 CFU/cm2, respectively), to less than detectable levels after ≈75 min (detection limit = 0.9 log10 CFU/cm2). The phage cocktail at ≈5.8, 6.5 and 7.5 log10 PFU/cm2 eliminated Listeria contamination (≈1.5–1.7 log10 CFU/cm2) on SSC in ≈15 min. One-hour phage treatments (LiMN4p, LiMN4L and cocktail) in three consecutive applications resulted in a decrease of 7-day L. monocytogenes biofilms (≈4 log10 CFU/cm2) by ≈2–3 log units. Single phage treatments reduced dislodged biofilm cells of each L. monocytogenes strain by ≈5 log10 CFU/ml in 1 h. The three phages were effective in controlling L. monocytogenes on stainless steel either clean or soiled with fish proteins which is likely to occur in seafood processing environments. Phages were more effective on biofilm cells dislodged from the surface compared with undisturbed biofilm cells. Therefore, for short-term phage treatments of biofilm it should be considered that some disruption of the biofilm cells from the surface prior to phage application will be required.
Location: Brazil
Location: New Zealand
No related grants have been discovered for Cristina Durante Cruz.