쌀밥의 미생물 안전성을 평가하기 위하여 쌀을 취반한 후 세균을 분석하였다. 전국에서 생산되는 생쌀 30개를 수집하여 취반후에 중온성 호기성균과 MYP선택배지에서 Bacillus cereus group를 분리 동정하여 그의 분포도와 독소유전자를 분석하였다. 취반 직후의 쌀밥 27%에서 1-3 log CFU/g정도의 총 중온성 호기균과거의 같은 정도로의 Bacillus spp.가 존재하는 것으로 나타났다. 그러나 균이 검출되지 않은 시료들도 증균한 후에는 B. cereus group균들이 검출되어 사실상 대부분의 시료에서 Bacillus spp.가분포하고 있는 것을 알 수 있었다. 이들 시료로부터 37개의 분리하여 동정한 균주는 B. thuringiensis, B. cereus, B. valismortis, B. pumilus, B. coagulans, B. licheniformis, Geobacillus stearo-thermophilus, Brevibacillus laterosporus 등으로 나타났다. 분리 균주중 20개(54%)의 분리주가 B. thuringiensis로 나타났고 그 다음으로 9개(27%)의 B. cereus이였다. 그리고 3개(8%)의 B. valismortis와 각각 1개(3%)의 B. pumilus, B. coagulans, B. licheniformis, Geobacillus stearothermophilus, Brevibacillus laterosporus이였다. B. thuringiensis는 모두에서 non-hemolytic toxin gene(nhe)을 가지고 있었고 9개의 B. cereus중 7균주가 emetic toxin 유전자를 함유하고 있었다. 따라서 쌀밥에는 B. thuringiensis가 B. cereus보다 더 높은 빈도로 분포되어 있고 B. cereus는 설사형 독소유전자 보다는 구토형 독소를 더 많이 가지고 있었다. 취반 후 쌀밥을 상온에서 보관하여 발생되는 B. cereus 식중독은 설사형보다 구토형일 가능성이 더 많을 것으로 보인다.

Bacterial contamination of cooked rice was analyzed to evaluate the microbial safety. Thirty raw rice samples were collected in Korea and cooked in an electric rice cooker. Mesophilic aerobe, food-poisoning Bacillus cereus group, and their toxin genes were determined on cooked rice. The percentage of total mesophilic aerobe based on 1-3 log CFU/g was 27% among the samples. Bacillus spp. in MYP selective medium was similar to the number of mesophilic aerobe, whileas Bacillus spp. was detected in most samples after enrichment. Thirty-seven isolates from 30 cooked rices were identified as B. thuringiensis, B. cereus, B. valismortis, B. pumilus, B. coagulans, B. licheniformis, Geobacillus stearothermophilus, and Brevibacillus laterosporus. Twenty isolates (54%), more than half of the isolates, were B. thuringiensis while nine (27%) were identified as B. cereus. All B. thuringiensis isolates possessed non-hemolytic toxin genes and interestingly, seven B. cereus among nine isolates possessed emetic toxin genes. More B. thuringiensis was present on the cooked rice than B. cereus and most B. cereus possessed emetic toxin genes rather than diarrheal toxin genes. Therefore, food-borne outbreak due to B.cereus on the cooked rice kept at room temperature might be examples of emetic food-poisoning.

• Abstract
• 서론
• 재료 및 방법
• 결과 및 고찰
• 요약
• 감사의 글
• 문헌

1 장태은, "시판생식의 제조공정 및 최종제품의 미생물분포" 한국식품과학회 36 (36): 501-506, 2004

2 김수환, "비가공 농수산 식품소재의 미생물 오염분석" 한국식품과학회 38 (38): 594-598, 2006

3 Agata N, "roduction of Bacillus cereus emetic toxin (cereulide) in various foods" 73 : 23-, 2002

4 Beecher DJ, "Tripartite hemolysin BL from Bacillus cereus. Hemolytic analysis of component interaction and a model for its characteristic paradoxical zone phenomenon" 272 : 233-239, 1997

5 Prss BM, "The hemolytic enterotoxin HBL is broadly distributed among species of the Bacillus cereus group" 65 : 5436-5442, 1999

6 Cronin UP, "The growth, physiology and potential of Bacillus cereus in cooked rice during storage temperature abuse" 20 : 822-282, 2009

7 Kim YS, "The extension of the shelf life of cooked rice by the treament with the plant extract and their volatile constituents" 13 : 519-522, 2004

8 Hansen BM, "The Bacillus cereus bceT enterotoxin sequence reappraised" 223 : 21-24, 2003

9 Apetroaie-Constantin C, "Salkinja-Salonen. Environment driven cereulide production by emetic strains of Bacillus cereus" 127 : 60-67, 2008

10 Rowan NJ, "Production of diarrheal enterotoxins and other potential virulence factors by veterinary isolates of Bacillus species associated with nongastrointestinal infections" 69 : 2372-2376, 2003

11 Agata N, "Production of an emetic toxin, cereulide, is associated with a specific class of Bacillus cereus" 33 : 67-69, 1996

12 Perani M, "Prevalence of β-exotoxin, diarrhoeal toxin and specific δ-endotoxin in natural isolates of Bacillus thuringiensis" 160 : 55-60, 1998

13 Rosenquist H, "Occurrence and significance of Bacillus cereus and Bacillus thuringiensis in ready-to-eat food" 250 : 129-136, 2005

14 Svensson B, "Occurence of emetic toxin producing Bacillus cereus in the dairy production chain" 16 : 740-749, 2006

15 Park SK, "Occurence and repression of off-odor in cooked rice during storage under low temperature warming condition of electric rice cooker" 29 : 919-924, 1997

16 "Korea Food and Drug Administration"

17 Kuo W-S, "Identification of novel cry-type genes from Bacillus thuringiensis strains on the basis of restriction fragment length polymorphism of the PCR-amplified DNA" 62 : 1369-1377, 1996

18 Ehling-Schulz M, "Identification and partial characterization of the nonribosomal peptide synthetase gene responsible for cereulide production in emetic Bacillus cereus" 71 : 105-113, 2005

19 Celandroni EG, "Identification and characterization of toxigenic Bacillus cereus isolates responsible for two food-poisoning outbreaks" 208 : 129-134, 2002

20 Schoeni JL, "Heterogeneity observed in the components of hemolysin BL, an enterotoxin produced by Bacillus cereus" 53 : 159-167, 1999

21 From C, "Food poisoning associated with pumilacidin-producing Bacillus pumilus in rice" 115 : 319-324, 2007

22 Damgaard PH, "Enterotoxin-producing strains of Bacillus thuringiensis isolated from food" 23 : 146-150, 1996

23 Guinebretiere MH, "Enterotoxigenic profiles of food-poisoning and food-born Bacillus cereus strains" 40 : 3053-3056, 2002

24 Carlin F, "Emetic toxin-producing strains of B.cereus show distinct characteristics within the Bacillus cereus group" 109 : 132-138, 2006

25 Lee MS, "Distribution and physiological characteristic of Bacillus cereus in rice and rice products" 13 : 163-172, 1980

26 Noguchi H, "Development of Bacillus thuringiensis in Japen, In: Advanced engineered pesticides" Marcel Dekker 283-291, 1993

27 Oh MH, "Development and application of a centrifuagation- plate method to study the biodiversity of Bacillus species in rice products" 21 : 7-12, 2010

28 Ankolekar C, "Detection of toxigenic Bacillus cereus and Bacillus thuringiensis spores in U.S. rice" 128 : 460-466, 2009

29 Glatz BA, "Defined conditions for synthesis of Bacillus cereus enterotoxin by fermentor-grown cultures" 32 : 400-404, 1976

30 Rivera AMG, "Common occurrence of enterotoxin genes and enterotoxicity in Bacillus thuringiensis" 190 : 151-155, 2000

31 Yamada S, "Cloning and nucleotide sequence analysis of gyrB of Bacillus cereus, B. thuringiensis, B. mycoides, and B. anthracis and their application to the detection of B. cereus in rice" 65 : 1483-1490, 1999

32 Hwang JH, "Biochemical characteristics and enterotoxin gene distribution of food-borne Bacillus cereus" Kyungwon University 2009

33 Pirhonen T, "Biochemical and toxic diversity of Bacillus cereus in a pasta and meat dish associated with a food-poisoning case" 22 : 87-91, 2005

34 Lechner S, "Bacillus weihenstephanensis sp. nov. is a new psychrotolerant species of the Bacillus cereus group" 48 : 1373-1382, 1998

35 Nakamura LK, "Bacillus pseudomycoides sp. nov" 48 : 1031-1035, 1998

36 Turnbull PCB, "Bacillus cereus toxins, In: Pharmacology of Bacterial Toxins" Pergamon Press 397-448, 1986

37 Granum PE, "Bacillus cereus and its toxins" 61S-66S, 1994

38 Jackson SG, "Bacillus cereus and Bacillus thuringiensis isolated in a gastroenteritis outbreak investigation" 21 : 103-105, 1995

39 Roh HJ, "Antimicrobial activity of water extract of green tea against cooked rice putrefactive microorganism" 28 : 66-71, 1996

40 Mikkola R, "Andersson MA, Salkinoja-Salonen MS. Ionophoretic properties and mitochondrial effects of cereulide: The emetic toxin of B. cereus" 263 : 112-117, 1999

41 Agata N, "A novel dodecadepsipeptide, cereulide, isolated from Bacillus cereus causes vacuole formation in HEp-2 cells" 121 : 31-34, 1994

42 Lund T, "A new cytotoxin from Bacillus cereus that may cause necrotic enteritis" 38 : 254-261, 2000