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2016 | 585 |

Tytuł artykułu

The methods used for the identification and differentiation of Campylobacter spp. in food products

Warianty tytułu

PL
Wykorzystanie metod identyfikacji i różnicowania bakterii Campylobacter w produktach żywnościowych

Języki publikacji

PL

Abstrakty

PL
Bakterie z rodzaju Campylobacter pozostają od 2005 roku najczęściej zgłaszanymi bakteryjnymi patogenami przewodu pokarmowego u ludzi w krajach UE. Głównym źródłem ludzkich zakażeń Campylobacter spp. jest spożycie nieodpowiednio przygotowanych, zainfekowanych produktów spożywczych – przede wszystkim mięsa drobiowego, mleka i jego przetworów oraz zakażonej wody. Znaczna liczba zachorowań na kampylobakteriozę pozwala domniemywać, że w najbliższym czasie zostaną wprowadzone stosowne zmiany w rozporządzeniu dotyczącym kryteriów mikrobiologicznych środków spożywczych, uwzględniając obecność Campylobacter spp. Niniejsza praca zawiera przegląd literatury dotyczącej metod identyfikacji i różnicowania bakterii z rodzaju Campylobacter w produktach spożywczych. Przedstawiono klasyczne metody wykrywania Campylobacter spp. oparte na cechach biochemicznych i fizjologicznych oraz metody molekularne – PCR, multiplex PCR, PCR-RFLC, qPCR, dot blotting, FISH, identyfikujące charakterystyczne rodzajowo i gatunkowo sekwencje DNA.
EN
Bacteria of Campylobacter genus remain most commonly reported gastrointestinal bacterial pathogen in humans in the EU since 2005. The main source of human infections caused by Campylobacter bacteria is the consumption of inadequately prepared, infected food products especially poultry meat, milk and dairy products, and contaminated water. High number of campylobacteriosis may us presume that in near future there will be implemented adequate changes in legislation regarding the microbiological criteria for food products, including the detection of Campylobacter spp. This paper contains literature review concerning identification and differentiation methods of Campylobacter genus in food. There are presented classical methods for Campylobacter spp. detection, based on biochemical and physiological properties and as well as molecular methods – PCR, multiplex PCR, PCR-RFLP, qPCR, dot blotting, FISH, which identifies characteristic DNA sequences.

Wydawca

-

Rocznik

Tom

585

Opis fizyczny

p.109-120,ref.

Twórcy

  • Prof.Waclaw Dabrowski Institute of Agricultural and Food Biotechnology, Warsaw, Poland
autor
  • Prof.Waclaw Dabrowski Institute of Agricultural and Food Biotechnology, Warsaw, Poland
autor
  • Warsaw University of Life Sciences - SGGW, Warsaw, Poland
  • Warsaw University of Life Sciences - SGGW, Warsaw, Poland

Bibliografia

  • Agunos A., Waddell L., Leger D., Taboada E., 2014. A systematic review characterizing on-farm sources of Campylobacter spp. for broiler chickens. PLoS One. 9, 1–20.
  • Allos B.M., Blaser M. J., 1995. Campylobacter jejuni and the expanding spectrum of related infections. Clin. Infect. Dis. 20, 1092–1099.
  • Bessede E., Delcamp A., Sifre E., Buissonniere A., Megraud F., 2011. New methods for detection of Campylobacters in stool samples in com parison to culture. J Clin Microbiol. 49, 941–944.
  • Chuma T., Makino K., Okamoto K., Yugi H., 1997. Analysis of distribution of Campylobacter jejuni and Campylobacter coli in broilers by using restriction fragment length polymorphism of flagellin gene. J Vet Med Sci. 59 (11), 1011–1015.
  • Coker A.O., Isokpehi R.D., Thomas B.N., Amisu K.O., Obi C.L., 2002. Human campylobacteriosis in developing countries. Emerg Infect Dis. 8(3), 237–244.
  • Dasti J.I., Tareen A.M., Lugert R., Zautner A.E., Groß U., 2010. Campylobacter jejuni: A brief overview on pathogenicity-associated factors and disease-mediating mechanisms. Int J Med Microbiol. 300(4), 205–211.
  • Deepak S.A., Kottapalli K.R., Rakwal R., Oros G., Rangappa K.S., Iwahashi H., Masuo Y., Agrawal G.K., 2007. Real-Time PCR: Revolutionizing Detection and Expression analysis of genes. Curr Genomics. 8(4), 234–251.
  • EFSA–Report., 2013. The European Union Summary Report on Trends and Sources of Zoonoses, Zoonotic Agents and Food-borne Outbreaks in 2011. EFSA. 11(4), 3129.
  • EFSA–Report., 2014. The European Union Summary Report on Trends and Sources of Zoonoses, Zoonotic Agents and Food-borne Outbreaks in 2012. EFSA. 12(2), 3547.
  • EFSA–Report., 2015. The European Union Summary Report on Trends and Sources of Zoonoses, Zoonotic Agents and Food-borne Outbreaks in 2013. EFSA.13(1), 3991.
  • Fonseca B.B., Beletti M.E., Torres de Melo R., Mendonca E.P., Coelho L.R., Nalevaiko P.C., Rossi D.A., 2014. Campylobacter jejuni in commercial eggs. Braz J Microbiol, 45(1), 76–79.
  • Fontanot M., Iacumin L., Cecchini F., Comi G., Manzano M., 2014. Rapid detection and differentiation of important Campylobacter spp. in poultry samples by dot-blot and PCR. Food Microbiol. 43, 28–34.
  • Fox J.G., Rogers A.B., Whary M.T., Ge Z., Taylor N.S., Xu S., Horwitz B.H., Erdman S.E., 2004. Gastroenteritis in NF-κB-Deficient Mice Is Produced with Wild-Type Camplyobacter jejuni but Not with C. jejuni Lacking Cytolethal Distending Toxin despite Persistent Colonization with Both Strains. Infect Immun. 72(2),1116–1125.
  • Garlicki A., Leśniak M., 2009. Treatment of diarrheal diseases with infectious etiology in adults. Epidemiol Rev. 63, 395–400.
  • Gölz G., Rosner B., Hofreuter D., Josenhans C., Kreienbrock L., Löwenstein A., Schielke A., Stark K., Suerbaum S., Wieler L.H., Alter T., 2014. Relevance of Campylobacter to public health-the need for a One Health approach. Int J Med Microbiol 304, 817–823.
  • Hart C.A., Kariuki S., 1998. Antimicrobial resistance in developing countries. BMJ. 317, 647– 650.
  • He Y., Reed S., Bhunia A.K., Gehring A., Nguyen L.H., Irwin P.L., 2015. Rapid identification and classification of Campylobacter spp. using laser optical scattering technology. Food Microbiol. 47, 28-35.
  • Humphrey T., O’Brien S., Madsen M., 2007. Campylobacters as zoonotic pathogens: a food production perspective. Int J Med Microbiol 117(3), 237–257.
  • Janda J.M., Abbott S.H., 2007. 16S rRNA gene sequencing for bacteria identification in the diagnostic laboratory: pluses, perils, and pitfalls. J Clin Microbiol. 45, 2761–2764.
  • Janssen R., Krogfelt K.A., Cawthraw S.A., van Pelt W., Wagenaar J.A., Owen R.J., 2008. Hostpathogen interactions in Campylobacter infections: the host perspective. Clin Microbiol Rev. 21, 505–518.
  • Jaroszewska E., Pietracha D., Misiewicz A., 2014. Patogeny człowieka w żywności pochodzenia roślinnego – wady i zalety zastosowania metody real-time PCR do ich wykrywania. Postępy Nauki i Technologii Przemysłu Rolno-Spożywczego. 69(1), 44–54.
  • Krutkiewicz A., 2008. Kampylobakteriozy u ludzi i zwierząt. Życie Weterynaryjne. 83, 285–288.
  • Lara-Tejero M., Galan J.E., 2000. A bacterial toxin that controls cell cycle progression as a deoxyribonuclease I-like protein. Science. 290, 354–357.
  • Leblanc-Maridor M., Beaudeau F., Seegers H., Denis M., Belloc C., 2011. Rapid identification and quantification of Campylobacter coli and Campylobacter jejuni by real-time PCR in pure cultures and complex samples. BMC Microbiol. 11, 1–16.
  • Lindmark B., Rompikuntal P.K., Vaitkevicius K., Song T., Mizunoe Y., Uhlin B.E., Guerry P., Wai S.N., 2009. Outer membrane vesicle-mediated release of cytolethal distending toxin (CDT) from Campylobacter jejuni. BMC Microbiol. 9, 1–10.
  • Martiny D., Dediste A., Debruyne L., Vlaes L., Haddou N.B., Vandamme P., Vandenberg O., 2011. Accuracy of the API Campy system, the Vitek 2 Neisseria-Haemophilus card and matrixassisted laser desorption ionization time-of-flight mass spectrometry for the identification of Campylobacter and related organisms. Clin Microbiol Infect. 17, 1001–1006.
  • Mateo E., Carcamo J., Urquijo M., Perales I., Fernandez–Astorga A., 2005. Evaluation of a PCR assay for the detection and identification of Campylobacter jejuni and Campylobacter coli in retail poultry products. Res Microbiol. 156, 568–574.
  • Misiewicz A., Goncerzewicz A., 2013. Wykrywanie bakterii Salmonella metodami molekularnymi w produktach żywnościowych. Advances of Agricultural Sciences Problem. 573, 3–11.
  • Moreno Y., Botella S., Alonso J.L., Ferrus M.A., Hernandez M., Hernandez J., 2003. Specific detection of Arcobacter and Campylobacter strains in water and sewage by PCR and Fluorescent In Situ Hybridization. Appl Environ Microb. 69, 1181–1186.
  • On S.L.W., Jordan P.J., 2003. Evaluation of 11 PCR Assays for Species-Level Identification of Campylobacter jejuni and Campylobacter coli. J Clin Microbiol. 41, 330–336.
  • Oyarzabal O.A., Wesley I.V., Barbaree J.M., Lauerman L.H., Conner D.E., 1997. Specific detection of Campylobacter lari by PCR. J Microbiol Methods. 29, 97–102.
  • Parkhill J., Wren B.W., Mungall K., Ketley J.M., Churcher C., Basham D., Chillingworth T., Davies R.M., Feltwell T., Holroyd S., Jagels K., Karlyshev A.V., Moule S., Pallen M.J., Penn C.W., Quail M.A., Rajandream M.A., Rutherford K.M., van Vliet A.H., Whitehead S., Barrell B.G., 2000. The genome sequence of the food-borne pathogen Campylobacter jejuni reveals hypervariable sequences. Nature. 403(6770), 665–668.
  • Persson S., Jacobsen T., Olsen J.E., Hansen F., 2012. A new real-time PCR method for the identification of Salmonella Dublin. J Appl Microbiol. 113(3), 615–621.
  • Persson S., Olsen K.E., 2005. Multiplex PCR for identification of Campylobacter coli and Campylobacter jejuni from pure cultures and directly on stool samples. J Med Microbiol. 54, 1043–1047.
  • Poopert S., Haas M., Yildiz T., Alter T., Bartel E., Fricke U., Essig A., 2008. Identification of thermotolerant Campylobacter species by Fluorescence In Situ Hybridization. J Clin Microbiol. 46, 2133–2136.
  • Przybylska A., 2004. Foodborne infections and intoxications in Poland in 2002. Epidemiol Revi. 58, 85–101.
  • Rohde A., Hammerl J.A., Appel B., Dieckmann R., Dahouk S., 2015. FISHing for bacteria in food – a promising tool for the reliable detection of pathogenic bacteria? Food Microbiol. 46, 395–407.
  • Rokosz N., Rastawicki W., Wołkowicz T., 2014. Mikrobiologiczna diagnostyka zakażeń wywoływanych przez pałeczki C. jejuni i C. coli u ludzi. Post Hig Med. Dosw. 68, 48–56.
  • Sanad Y.M., Kassem I.I., Liu Z., Lin J., Lejeune J.T., Rajashekara G., 2011. Occurence of the invasion associated marker (iam) in C. jejuni isolated from cattle. BMC Res Notes. 4, 1–10.
  • Silva J., Leite D., Fermandes M., Mena C., Gibbs P.A., Teixeira P., 2011. Campylobacter spp. as a foodborne pathogen: a review. Front Microbiol. 2, 1–12.
  • Steinhauserova I., Ceskova J., Fojtikova K., Obrovska I., 2001. Identification of thermofhilic Campylobacter spp. by phenotypic and molecular methods. J Appl Microbiol. 90, 470–475.
  • Vondrakova L., Pazlarova J., Demnerova K., 2014. Detection, identification and quantification of Campylobacter jejuni, coli and lari in food matrices all at once using multiplex qPCR. Gut Pathog. 6, 1–9.
  • Wang G., Clark C.G., Taylor T.M., Pucknell C., Barton C., Price L., Woodward D.L., Rodgers F.G., 2002. Colony Multiplex PCR Assay for Identification and Differentiation of Campylobacter jejuni, C. coli, C. lari, C. upsaliensis, and C. fetus subsp. fetus. J Clin Microbiol. 40, 4744–4747.
  • Wassenaar T.M., Bleumink–Pluym N.M., van der Zeijst B.A., 1991. Inactivation of Campylobacter jejuni flagellin genes by homologous recombination demonstrates that flaA but not flaB is required for invasion. The EMBO J. 10(8), 2055–2061.
  • Wieczorek K., Osek J., 2005. The usefulness of some selected PCR techniques in differentiating thermotolerant Campylobacter strains. Food Science Technology Quality. 4, 132–138.
  • Yamazaki-Matsune W., Taguchi M., Seto K., Kawahara R., Kawatsu K., Kumeda Y., Kitazato M., Nukina M., Misawa N., Tsukamoto T., 2007. Development of a multiplex PCR assay for identification of Campylobacter coli, Campylobacter fetus, Campylobacter hyointestinalis subsp. hyointestinalis, Campylobacter jejuni, Campylobacter lari and Campylobacter upsaliensis. J Med Microbiol. 56, 1467–1473.
  • Ziprin R.L., Young C.R., Stanke L.H., Hume M.E., Konkel M.E., 1999. The absence of cecal colonization of chicks by a mutant of Campylobacter jejuni not expressing bacterial fibronectin-binding protein. Avian Diseases. 43, 586–589.

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Bibliografia

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