Browse > Article

Identification of Salmonella Enteritidis and S. Typhimurium by multiplex polymerase chain reaction  

Lee, Woo-Won (Busan Metropolitan City Institute of Health and Environment)
Lee, Seung-Mi (Busan Metropolitan City Institute of Health and Environment)
Lee, Gang-Rok (Busan Metropolitan City Institute of Health and Environment)
Lee, Dong-Soo (Busan Metropolitan City Institute of Health and Environment)
Park, Ho-Kuk (Busan Metropolitan City Institute of Health and Environment)
Publication Information
Korean Journal of Veterinary Service / v.32, no.2, 2009 , pp. 147-153 More about this Journal
Abstract
Salmonella species are the most important etiologic agents of food-borne acute gastroenteritis. The most common serotypes isolated from humans are Salmonella enterica serotype Typhimurium (S. Typhimurium) and S. Enteritidis. Traditional detection methods for Salmonella are based on cultures using selective media and characterization of suspicious colonies by biochemical and serological tests. These methods are generally time-consuming and not so highly sensitive. Recently, the polymerase chain reaction (PCR) has been used as a highly sensitive, specific, and rapid test for the presence of pathogenic bacteria. In this study, a multiplex PCR (m-PCR) was used to detect S. Typhimurium and S. Enteritidis. We selected m-PCR target genes, which were the spv (virulence plasmid specific for S. Enteritidis) and sefA (S. Enteritidis fimbrial antigen) genes, fliC (H1-i antigen specific for S. Typhimurium) and a randomly cloned sequence specific for the genus Salmonella. With m-PCR, random sequence was detected from all strains of Salmonella spp, spv and sefA were detected from all strains of S. Enteritidis (100%), and fliC was detected from all strains of S. Typhimurium (100%). This assay indicate that the specificity of the m-PCR make them potentially valuable tools for detection of S. Typhimurium and S. Enteritidis.
Keywords
Multiplex polymerase chain reaction; Virulence plasmid; Fimbrial antigen;
Citations & Related Records
연도 인용수 순위
  • Reference
1 김원용, 장영효, 박경윤, 김철중, 신광순, 박용하. 1995. Polymerase chain reaction과 Southern hybridization을 이용한 Salmonella속 균의 신속한 검출. 대한수의학회지. 35(3): 531-536
2 이우원. 2005. 가축유래 다제내성 Salmonella 속균의 유전자 및 단백질에 관한 연구. 경상대학교 대학원 박사학위 논문
3 전무형, 김태중, 장경수, 강경임, 김귀현, 김기석, 유상식, 김현수, 신광순, 김철중. 1999. SefA 유전자 PCR에 의한 Salmonella serogroup $D_1$의 특이적 검출. 대한수의학회지. 39(3): 523-530
4 Aabo S, Rasmussen OF, Rossen L, Sorensen PD, Olsen JE. 1993. Salmonella identification by lhe polymerase chain reaction. Mol CeJl Probes 7: 171-178   DOI   ScienceOn
5 van Duijkeren E. Wannet WJ, Houwcrs DJ, van Pelt W. 2002. Serotype and phage type distribution of Salmonella strains isolated from humans' cattle, pigs, and chickens in the Netherlands from 1984 to 2001. J Clin Microbiol 40(11): 3980-3985   DOI   ScienceOn
6 Joys TM. 1985. The covalent structurc of the phasc-1 flagcllar filament protein of Salmonella Typhimurium and its comparison with others flagellins. J Biol Chem 260: 15758-15761   PUBMED
7 Mahon J, Lax AJ. 1993. A quantitative polymerase chain reaction method for the detection in avian feces of salmonella carrying the spvR gene. Epidemiol lnfect 111: 455-464   DOI   ScienceOn
8 Olsen M, Wollindcr SA. 1991. Idcntification of Salmonella with the 4-methylumbelloferoyl caprilate tluorescencc test. J Clin Microbiol 29: 2631-2632   PUBMED
9 PanTM, Liu YJ. 2002. Idelltificatioll of Salmollella enteritidis isolatεs by polymerase chain reaction and multiplex polymerasc chaill reaction. J Microbiol Immunol Infect 35: 147-151   PUBMED
10 Rajashekara G, Munir S, Alexeyev MF. Halvorson DA, Wells CL, Nagaraja KV. 2000. Pathogellic role of SEF14, SEF17, and SEF21 fimbriaε in Salmonella enterica serovar Enteritidis infcction of chickens. Appl Environ MicrobioI 66(4): 1759-1763   DOI   ScienceOn
11 Smith BP, Da Roden L, Thurmolld MC, Dilling GW, Konrad H, Pelton JA, Picanso JP. 1994. Prεva1ence of Salmo nellae ill cattle and in the environment on California dairies. J Am Vet Med Assoc 205(3): 467-471   PUBMED
12 Tanscl O, Ekuklu G, Otkun M, Otkun MT, Akata F, Tugrul M. 2003. A food-borne outbreak caused by Salmonella Ellteritidis. Yonsei Med J 44(2): 198-202   PUBMED
13 Turcottc C, Woodward MJ. 1993. Cloning. DNA nucleotide sequence and distribition of the gene coding the SEF14 fimbrial alltigen of Salmonella Eteritidis. J. Gener Microbiol 139: 1477-1485   DOI   ScienceOn
14 Wood MW, Mahon J, Lax AJ. 1994. Development of a probe and PCR primcrs spccific to virulcncc plasmid of Salmonella Eteritidis. Molecu and Cellu Probes 8: 473-479   DOI   ScienceOn
15 Soumet C, Ermel G, Rose V, Rose N, Drouin P, Salvat G, Colin P. 1999. Idelltification by a multiplcx PCR-based assay of Salmonella Typhimurium and Salmonella Enteritidis strains from environmental swabs of poultry houses. Lett Appl Microbiol 29(1): 1-6   DOI   ScienceOn
16 Clouthier SC, Muller KH. Doran JL, Collinson SK, Kay WW. 1993. Characterization of three fimbrial genes, sefABG, of Salmonella enteritidis. J Bacteriol 175(9): 2523-2533   PUBMED
17 Edwards PR, Galton MM. 1967. Salmonellosis. Adv Vet Sci 11: 1-63   DOI   PUBMED   ScienceOn
18 Woodward MJ, Kirwan SES, 1996. Detectioll of Salmonella Ellteritidis ill eggs by thc polymerase chain reaction. Vet Rec 138: 411-413   DOI   PUBMED   ScienceOn
19 Galan JE, Ginocchio C. Costeas P. 1992. Molecular and func tional characterization of Salmonella the invasion gene invA: homology of invA to members of a new protein family. J Bacteriol 174: 4338-4349   PUBMED
20 Soumet C, Ermel G, Rose N, Rosc V, Drouin P, Salvat G, Colin P. 1999. Evaluation of a Multiplex PCR assay for simultaneous idelltificatioll of Salmonella sp., Salmonella Enteritidis and Salmonella Typhimurium from environmental swabs of pou1try houses. Lett Appl MicrobioI 28(2): 113-117   DOI   ScienceOn
21 Lim YH, Hirose K, Izumiya H, Arakawa E, Takahashi H, Terajima J, Itoh K, Tamura K, Kim Sl, Watanabe H. 2003. Multiplex polymerase chain reaction assay for selective detection of Salmonella enterica serovar Typhimurium. Jpn J lnfect Dis 56(4): 151-155
22 Rabsch W, Andrews HL, Kingsley RA, Prager R, Tschape H, Adams LG, Baumler AJ. 2002. Salmonella enlerica scrotype Typhimurium and its host-adapted variants. Infect lmmun 70(5): 2249-2255   DOI   ScienceOn
23 박두희, 김원용, 김철중, 마점술. 1994. Polymerase chainreaction에 의한 Salmonella 속균의 검출. 대한수의학회지. 34(1): 115-125
24 Fitzgerald C, Sherwood R, Ghecsling LL, Brenner FW, Fields Pl. 2003. Molecular analysis of the O antigen gene cluster of Salmonella enterica serogroup O:6, 14 and development of a serogroup-specific PCR assay. Appl Environ MicrobioI 69(10): 6099-6105   DOI   ScienceOn
25 Freydiere A, Gille Y. 1991. Dεtεction of Salmonella by using Rambach agar and a C8 esterase spot test. J Clin Microbiol 29: 2357-2359   PUBMED
26 Bean NH, Griffin PM. 1990. Foodbome disease outbreaks in the United Statcs, 1973-1987: Pathogen, vehicles and trends. J Food Prot 53(9): 804-817
27 조미영, 여용구, 김영섭, 이정학, 이병동. 2000. PCR을 이용한 Salmonella enteritidis의 특이적 검출. 한국가축위생학회지. 23(3): 227-233
28 Taitt CR, Shubin YS, Allgel R, Ligler FS. 2004. Detεction of Salmonella enterica serovar Typhimurium by using a rapid, array-based immunosensor. Appl Enviroll Microbiol 70(1): 152-158   DOI   ScienceOn
29 Betancor L, Schelotto F, Martinez A, Pereira M, Algorta G, Rodriguez MA, Vignoli R, Cbabalgoity JA. 2004. Random amplified polymorphic DNA and phenotyping analysis of Salmonella enterica serovar Enleritidis isolates collected from humans and poultry in Uruguay from 1995 to 2002. J Clin MicrobioI 42(3): 1155-1162   DOI   ScienceOn
30 Baggεsen DL, Sandvang D, Aarestrup F. 2000. Cabracterization of Salmonella enterica serovar Typhimurium DTI04 isolated from Dcnmark and comparison with isolates from Europe and the United States. J Clin MicrobioI 38(4): 1581-1586
31 Widjojoatmodjo MN, Fluit AC, Torensma R. Keller BH, Vcrhoef J. 1991. Evaluatioll of the magnetic immllno PCR assay for rapid detection of Sallmonella. Eur J Clin Microbiollnfect Dis 10: 935-938   DOI   ScienceOn