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Phage amplification assay as rapid method for Salmonella detection

Amplificação de bacteriófagos como um método rápido de detecção de Salmonella

Abstracts

The application of rapid methods is crucial for the HACCP program implantation in food industry. In this context, Phage Amplification Assay is a good candidate because is based on the interactions of phage and their host bacteria. This method using phage P22 was applied with to detect Salmonella cells in chicken breast. Samples of 25 g of chicken breast were diluted and the appropriate dilutions were used in phage amplification assay for Salmonella detection. After 3-4 h of incubation, it was observed a phage titre of approximately 10(4) pfu mL-1, indicating that there were Salmonella cells which were naturally present in the meat. The presence of Salmonella cells were verified by using direct plating on XLD agar and by conventional enrichment procedure. The colonies suspected to be Salmonella were serologically tested and were identified as belonging to the serogroups B (S. typhimurium group) and D (S. enteritidis group). It can be concluded that this method provides a rapid and alternative application for Salmonella detection in food samples reducing both time and laboratory work to 3-4 hours.

Salmonella; rapid method; bacteriophage; P22


A aplicação de métodos rápidos é crucial para a implantação de programas de HACCP em indústrias de alimentos. Neste contexto, o método de amplificação de bacteriófagos é um instrumento de diagnóstico importante porque está baseado na interação dos bacteriófagos com suas células hospedeiras. Este método, usando o bacteriófago P22, foi aplicado para detectar Salmonella em peito de frango. Amostras de 25 g de peito de frango foram diluídas e as diluições apropriadas foram usadas no método de amplificação de bacteriófagos na detecção de Salmonella. Após 3-4 horas de incubação, foi observado uma titulação de partículas virais de, aproximadamente, 10(4) ufp mL-1 (unidades formadoras de placas virais), indicando a presença de células de Salmonella na carne de frango. A comprovação da presença de Salmonella neste produto foi verificada usando-se plaqueamento direto em ágar XLD e procedimento de enriquecimento convencional. As colônias suspeitas de Salmonella foram sorologicamente testadas e identificadas como pertencendo aos sorogrupos B (grupo de S. typhimurium) e D (grupo de S. enteritidis). Portanto, concluiu-se que este método pode ser aplicado, na detecção de Salmonella em alimentos, porque fornece rápido e conclusivo resultado, reduzindo o tempo de análise e o trabalho laboratorial para 3-4 horas.

Salmonella; método rápido; bacteriófago; P22


FOOD MICROBIOLOGY

Phage amplification assay as rapid method for Salmonella detection

Amplificação de bacteriófagos como um método rápido de detecção de Salmonella

Regina Silva de SiqueiraI; Christine E.R. DoddII; Catherine E.D. ReesII

IEmbrapa Agroindústria de Alimentos, Rio de Janeiro, RJ, Brasil

IIDivision of Food Science, University of Nottingham, Sutton Bonington Campus, UK

Correspondence Correspondence to: Regina Silva de Siqueira Embrapa Agroindústria de Alimentos Av. das Américas, 29.501, Guaratiba 23.020-470, Rio de Janeiro, RJ, Brasil Tel.: (+5521) 2410-7454 Fax: (+5521) 2410-1090 E-mail: siqueira@ctaa.embrapa.br

ABSTRACT

The application of rapid methods is crucial for the HACCP program implantation in food industry. In this context, Phage Amplification Assay is a good candidate because is based on the interactions of phage and their host bacteria. This method using phage P22 was applied with to detect Salmonella cells in chicken breast. Samples of 25 g of chicken breast were diluted and the appropriate dilutions were used in phage amplification assay for Salmonella detection. After 3-4 h of incubation, it was observed a phage titre of approximately 104 pfu mL-1, indicating that there were Salmonella cells which were naturally present in the meat. The presence of Salmonella cells were verified by using direct plating on XLD agar and by conventional enrichment procedure. The colonies suspected to be Salmonella were serologically tested and were identified as belonging to the serogroups B (S. typhimurium group) and D (S. enteritidis group). It can be concluded that this method provides a rapid and alternative application for Salmonella detection in food samples reducing both time and laboratory work to 3-4 hours.

Key words: Salmonella, rapid method, bacteriophage, P22.

RESUMO

A aplicação de métodos rápidos é crucial para a implantação de programas de HACCP em indústrias de alimentos. Neste contexto, o método de amplificação de bacteriófagos é um instrumento de diagnóstico importante porque está baseado na interação dos bacteriófagos com suas células hospedeiras. Este método, usando o bacteriófago P22, foi aplicado para detectar Salmonella em peito de frango. Amostras de 25 g de peito de frango foram diluídas e as diluições apropriadas foram usadas no método de amplificação de bacteriófagos na detecção de Salmonella. Após 3-4 horas de incubação, foi observado uma titulação de partículas virais de, aproximadamente, 104 ufp mL-1 (unidades formadoras de placas virais), indicando a presença de células de Salmonella na carne de frango. A comprovação da presença de Salmonella neste produto foi verificada usando-se plaqueamento direto em ágar XLD e procedimento de enriquecimento convencional. As colônias suspeitas de Salmonella foram sorologicamente testadas e identificadas como pertencendo aos sorogrupos B (grupo de S. typhimurium) e D (grupo de S. enteritidis). Portanto, concluiu-se que este método pode ser aplicado, na detecção de Salmonella em alimentos, porque fornece rápido e conclusivo resultado, reduzindo o tempo de análise e o trabalho laboratorial para 3-4 horas.

Palavras-chave: Salmonella, método rápido, bacteriófago, P22.

INTRODUCTION

Salmonella is an important pathogen for the food industry and it has been a significant bacteriological agent of food-borne outbreaks. However, the whole protocol for their isolation and identification can take 3-6 days or more to yield a conclusive result. Thus, a number of procedures have been described which attempt to simplify the conventional method and reduce the elapsed time involved. The "Phage Amplification Assay" (PAA) was developed by Stewart et al. (4) and is based on the interactions of bacteriophage (phage) and their host bacteria, which can provide rapid and accurate detection of pathogens. This method exploits the lytic cycle of Salmonella-bacteriophage to indicate the presence of low levels of viable Salmonella cells in a sample within few hours. The aim of this study was to evaluate Salmonella phage P22 as an agent for detection of this pathogen by using PAA in chicken breast meat.

MATERIALS AND METHODS

Bacterial and bacteriophage strains

The bacteria strain used in this study was Salmonella typhimurium LT-2 (phage propagating strain) and the phage was P22. Phage stock was developed on its appropriate host strain by a plate lysis procedure (3).

Salmonella detection

25 g of chicken breast with skin were aseptically weighed and cut in small pieces, and ten-fold serial dilutions were prepared. The appropriate dilutions were used to detect Salmonella cells applying PAA and to streak out by direct plating on XLD. Additionally, a conventional enrichment procedure (CEP) in Rappaport-Vassiliadis broth, was carried out. Presumptive colonies on XLD were confirmed by serological tests.

Phage Amplication Assay (PAA)

The method was carried out as described by Stewart et al. (4) as 10 mL of phage P22 carefully mixed with 100 mL of appropriate sample dilutions. The phage adsorption to bacterial cells was allowed at 37ºC/15 minutes, followed by the virucidal treatment for 5 minutes at room temperature. The virucidal activity was neutralized and the phage were amplified by adding helper bacteria from undiluted 18h culture. Finally, the mixture was transferred to molten top layer agar, poured onto TPA plate, and incubated at 37ºC/3-4h.

RESULTS

Salmonella detection by PAA

The PAA was used to detect Salmonella cells in chicken breast meat. The results of PAA are shown in Table 1. It can be observed that the number of pfu mL-1 recorded was approximately 104 pfu mL-1 indicating probably the actual number of bacteria cells since the number of the plaques obtained is correlated to the number of cells in the sample.

Direct plating on XLD and conventional enrichment procedure

Some small, round and red colonies were observed on XLD by direct plating whilst red colonies without black centers were observed from CEP. These characteristics are typical of Salmonella colonies on this agar as described by Andrews et al. (1) The isolates suspected to be Salmonella were confirmed serologically by Salmonella agglutinating antisera. Most of the isolates were in the S. enteritidis group (D). From CEP, the three isolates belonged to S. typhimurium group (B) and two isolates belonged to S. enteritidis group (D).

DISCUSSION

Detection of Salmonella cells by PAA was investigated. The effectiveness of this method is determined by comparing the number of plaques produced on a lawn of helper bacteria with the number of colonies produced from equivalent sample. From the results of PAA was observed the presence of 104 pfu mL-1 and from counting only (data not shown) indicated approximately 104 cfu g-1 were present in the sample. Thus, it was shown to have a good correlation between the number of plaques observed and the number of cells contained in the sample. From direct plating on XLD, the presence of S. enteritidis serogroup (group D) was found. These findings were supported by Baxa et al. and who reported that phage P22 is able to infect Salmonella serogroups A, B and D.

CONCLUSION

Phage P22 was able to infect bacterial cells of S. typhimurium and S. enteritidis. The Phage P22 Amplification Assay can be successful applied and is a good candidate to be used as alternative rapid method.

ACKNOWLEDGMENTS

Dr. Christine Dodd and Dr. Catherine Rees for their excellent supervision. Also, EMBRAPA (Brazilian Agricultural Research Corporation) for the financial support.

This paper corresponds to an "extended abstract" selected for oral presentation in the 22nd Brazilian Congress of Microbiology, held in Florianópolis, SC, Brazil, in November 17-20, 2003

  • 1. Andrews, W.H.; Flowers, R.S.; Sillilker, J.; Bailey, J.S. Salmonella. In: Dowens, F.P.; Ito, K. (eds.) Compendium of methods for the microbiological examination of foods Fourth Edition. American Public Health Association (APHA), Washington, 37:357-380, 2001.
  • 2. Baxa, U.; Steinbacher, S.; Miller, S.; Weintraub, A.; Huber, R.; Seckler, R. Interactions of phage P22 tails with their cellular receptor, Salmonella O-antigen polysaccharide. Bioph. J., 71:2040-2048, 1996.
  • 3. Sambrook, J.; Fritsch, E.F.; Maniatis, T. Molecular cloning: a laboratory manual. Second Edition. Cold Spring Harbor Laboratory Press, New York, 1989.
  • 4. Stewart, G.S.A.B.; Jassim, S.A.A.; Denyer, S.P.; Newby, P.; Linley, K.; Dhir, V.K. The specific and sensitive detection of bacterial pathogens within 4h using bacteriophage amplification. J. Appl. Microb., 84:777-783, 1998.
  • Correspondence to:
    Regina Silva de Siqueira
    Embrapa Agroindústria de Alimentos
    Av. das Américas, 29.501, Guaratiba
    23.020-470, Rio de Janeiro, RJ, Brasil
    Tel.: (+5521) 2410-7454
    Fax: (+5521) 2410-1090
    E-mail:
  • Publication Dates

    • Publication in this collection
      30 Nov 2004
    • Date of issue
      Nov 2003
    Sociedade Brasileira de Microbiologia USP - ICB III - Dep. de Microbiologia, Sociedade Brasileira de Microbiologia, Av. Prof. Lineu Prestes, 2415, Cidade Universitária, 05508-900 São Paulo, SP - Brasil, Ramal USP 7979, Tel. / Fax: (55 11) 3813-9647 ou 3037-7095 - São Paulo - SP - Brazil
    E-mail: bjm@sbmicrobiologia.org.br