4 株E. coli O157:H7毒力基因检测及其冷应激损伤

采用多重聚合酶链式反应对4 株大肠埃希氏菌O157:H7（Escherichia coli O157:H7）进行毒力特性评价,研究3 种常用选择性生长基质对E.coli O157:H7的精确定量对比,筛选出的适宜选择性培养基用于冷应激时菌体损伤的研究。结果显示,菌株CICC 21530的stx1、stx2、eae基因均为阳性,NCTC 12900和牛肉分离菌1的eae呈现阳性,牛肉分离菌2三种毒力基因均为阴性,表明4 株菌的致病性不同;4 株测试菌在改良山梨醇麦康凯琼脂（cefiximetelluritesorbitol macconkey agar,CT-SMAC）上计数均显著低于胰蛋白胨大豆琼脂（tryptose soya agar,TSA）上计数（P＜0.05）,而SMAC和改良伊红美蓝琼脂（modified eosin methylene blue agar,mEMB）上的计数与TSA相比无显著性差异,表明改良SMAC对正常菌体既有较强抑制作用,不适合用于E. coli O157:H7的精确计数,可以选用SMAC或mEMB;进一步以SMAC和mEMB作为选择性培养基研究菌体在4 ℃冷应激时的损伤情况,结果表明冷藏过程中SMAC、mEMB及TSA上的菌数均逐渐下降,第10天时4 株菌均发生了一定程度的损伤或死亡。本方法可为食品安全中E. coli O157:H7的定量评估和风险控制提供科学依据。     

Comparative evaluation of different chromogenic/fluorogenic media for detecting Escherichia coli O157:H7 in food.

Escherichia coli O157:H7 is a serious and common human pathogen that can cause diarrhoea, haemorrhagic colitis, and haemolytic uraemic syndrome (HUS). This study evaluated the enrichment, detection and confirmation procedures for the isolation of E. coli O157:H7 from raw ground beef and raw drinking milk. The purpose of this investigation was to compare Rainbow Agar O157 (RB; Biolog, Hayward, USA), Biosynth Culture Medium O157:H7 (BCM O157:H7; Biosynth, Staad, Switzerland) and Fluorocult HC (HC; Merck, Darmstadt, Germany) with the conventional Sorbitol MacConkey Agar (SMAC, Merck) using mEC + n (raw ground beef) and mTSB + n (raw milk) enrichment media. Single-path GLISA test (Gold Labeled Immuno Sorbent Assay; Merck) was used as the confirmation test. Growth of 466 strains of gram-negative rods isolated from food samples and 46 known E. coli strains from type culture and other collections (34 E. coli O157:H7 strains and 12 serotypes other than E. coli O157:H7) was examined on the agar media. The E. coli O157:H7 strains could readily be isolated and recognized uniquely by their typical black/grey colonies on RB and blue/black colonies on BCM O157:H7. Examination of the 46 known strains of E. coli reference strains showed false negative results on BCM O157:H7 (3.0%), RB (8.8%), HC (5.9%) and SMAC (5.9%) agars. On BCM O157:H7 no false negative results were found with the typical E. coli O157:H7 (beta-D-glucuronidase and sorbitol negative strains). One of two atypical E. coli O157:H7 strains (beta-D-glucuronidase positive) showed similar colouration to the typical strains and was mis-identified by each of the three media (RB, BCM O157:H7, and SMAC agar media). None of the 60 food samples tested yielded E. coli O157:H7. Examination of the food samples, showed that RB gave the lowest number of false positives. The percentages were RB (2.1%), BCM O157:H7 (3.3%), HC (6.2%), and SMAC (57.3%).     

Detection of freeze-injured Escherichia coli O157:H7 cells from foods by resuscitation prior to selective enrichment

We tried to detect Escherichia coli O157:H7 in food samples artificially contaminated with freeze-injured E. coli O157:H7 using an enrichment method with modified EC broth supplemented with novobiocin (mEC + n). When the samples were cultured for enrichment immediately after inoculation of freeze-injured cells, E. coli O157:H7 was not detected in 13 out of 18 samples. However, allowing the food samples to stand for 3 h at room temperature prior to enrichment in mEC + n remarkably improved recovery of E. coli O157:H7 except for some acidic foods. E. coli O157:H7 was detected in the acidic foods by introducing a resuscitation step of 3-h of incubation in a non-selective broth at room temperature prior to enrichment with mEC + n.     

Inactivation of Salmonella typhimurium and Escherichia coli O157:H7 in apple juice by a combination of nisin and cinnamon

Pasteurized apple juice with nisin (0, 25, 50, 100, and 200 ppm, wt/vol) and cinnamon (0 and 0.3%, wt/vol) was inoculated with Salmonella Typhimurium and Escherichia coli O157:H7 at 10(4) CFU/ml and stored at 5 and 20 degrees C. Counts on tryptic soy agar (TSA), selective medium (xylose Lysine desoxycholate agar for Salmonella Typhimurium, and MacConkey sorbitol agar for E. coli O157:H7), and thin agar layer (TAL) were determined at 1 h and 1, 3, 7, and 14 days. The TAL method (selective medium overlaid with TSA) was used for recovery of sublethally injured cells. The pathogens were gradually inactivated by the acidic pH of apple juice. Nisin and cinnamon greatly contributed to the inactivation. The killing effect was more marked at 20 degrees C, with counts in all treated samples being undetectable by direct plating in 3 days for Salmonella Typhimurium and 7 days for E. coli O157:H7. Thus, several factors influenced the decrease in counts: low pH, addition of nisin and cinnamon, and storage temperature. The TAL method was as effective as TSA in recovering injured cells of the pathogens. The combination of nisin and cinnamon accelerates death of Salmonella Typhimurium and E. coli O157:H7 in apple juice and so enhances the safety of the product.     

Detection and Isolation of Low Levels of E. coli O157:H7 in Cilantro by Real-Time PCR, Immunomagnetic Separation, and Cultural Methods with and without an Acid Treatment

Abstract: Leafy greens such as cilantro, contaminated with Escherichia coli O157:H7, have been implicated in cases of human illnesses. High levels of microflora in fresh cilantro make recovery of low numbers of E. coli O157:H7 difficult. To improve upon current methods, immunomagnetic separation (IMS) techniques in combination with real‐time PCR (RTiPCR) and selective enrichment protocols were examined. Rinsates were prepared from cilantro samples inoculated with low (～0.02 CFU/g) and slightly higher (～0.05 CFU/g) levels of E. coli O157:H7. Rinsate portions were enriched in modified buffered peptone water with pyruvate (mBPWp) for 5 h at 37 °C. After 5 h, selective agents were added to samples and further incubated at 42 °C overnight. Detection and recovery were attempted at 5 and 24 h with and without IMS. IMS beads were screened by RTiPCR for simultaneous detection of stx1, stx2, and uidA SNP. Additionally, broth cultures and IMS beads were streaked onto selective agar plates (Rainbow^®agar, R&F^®E. coli O157 Chromogenic medium, TC‐SMAC and CHROMagar? 0157) for isolation of E. coli O157:H7. Both broth cultures and IMS beads were also acid treated in Trypticase Soy Broth pH 2 prior to plating to selective media to improve upon cultural recovery. Although E. coli O157 strains were detected in most samples by PCR after 5 h enrichment, cultural recovery was poor. However, after 24 h enrichment, both PCR and cultural recovery were improved. Acidification of the broths and the IMS beads prior to plating greatly improved recovery from 24 h enrichment broths by suppressing the growth of competing microorganisms. Practical Application: Detection and recovery of Escherichia coli O157:H7 in fresh produce matrices (e.g., cilantro) can be complicated by high background microflora present in these foods. Rapid detection by molecular methods combined with effective enrichment and isolation procedures such as using immunomagnetic separation (IMS) techniques can quickly identify potential hazards to public health. Additional techniques such as acidification of enrichment broths can exploit acid resistance characteristics of pathogens such as E. coli O157:H7, facilitating their isolation in complex food matrices.     

Development of a medium for differentiation between Escherichia coli and Escherichia coli O157:H7.

A new medium (Escherichia coli O157:H7 medium: EOH) was developed for differentiation between E. coli and E. coli O157:H7. The EOH medium was compared with sorbitol MacConkey agar (SMAC), which is the most popular medium to enumerate E. coli O157:H7. Several combinations of 35 dyes were evaluated to develop the new medium. Indigo carmine (0.03) g/liter) and phenol red (0.036 g/liter) were found as the best combination for differentiation between E. coli O157:H7 and E. coli and added to the basal agar medium (SMAC medium excluding neutral red and crystal violet) for EOH medium. On the dark blue EOH medium, E. coli produced a yellow color with clear zone, whereas E. coli O157:H7 produced a red color without clear zone. For differentiation between E. coli and E. coli O157:H7, EOH has much better potential than SMAC. Furthermore. the red color produced by normal E. coli in SMAC may mask the light gray color produced by E. coli O157: H7, whereas the yellow color with clear zone did not mask the red color without clear zone in the EOH medium. The recovery numbers of E. coli O157:H7 from inoculated ground beef, pork, and turkey were not significantly different between SMAC and EOH media (P > 0.05). The recovery rates of heat- and cold-injured E. coli O157:H7 also were not significantly different (P > 0.05).     

Collaborative evaluation of detection methods for Escherichia coli O157:H7 from radish sprouts and ground beef

For the evaluation of plating and immunological methods applicable to the detection of Escherichia coli O157:H7 from ground beef and radish sprouts, a collaborative study was conducted. It focused on a comparison of the efficiency of the plating and immunological methods using various plating agars and immuno-kits in combination with enrichment in modified E. coli broth supplemented with novobiocin (mEC + n), and using immunomagnetic separation. The plating media tested were sorbitol MacConkey agar (SMAC), SMAC supplemented with cefixime (0.05 mg/l) and potassium tellurite (2.5 mg/l) (CT-SMAC), and agars containing beta-glucuronidase substrates such as BCM O157 and CHROMagar O157. The immuno-kits used were Now E. coli, Path-Stick O157, VIP, EHEC-Tek ELISA System and Rapiblot E. coli O157. The 20 participating laboratories attempted to detect E. coli O157:H7 in 25 g chilled and frozen samples of ground beef uninoculated and inoculated with E. coli O157:H7 at levels of 138.9 and 23.9 cfu/25 g, and in 25 g chilled and frozen samples of radish sprouts uninoculated and inoculated at levels of 20.4 and 1.7 cfu/25 g. E. coli O157:H7 was recovered well from ground beef by all of the methods except direct plating with SMAC. For radish sprouts, the IMS-plating methods with CT-SMAC, BCM O157 and CHROMagar O157 were most efficient at detecting E. coli O157:H7 in more than 90% of the chilled samples inoculated at the level of 20.4 cfu/25 g. All the methods were less sensitive when applied to similar levels of E. coli O157:H7 in radish sprouts (20.4 cfu/25 g) compared with ground beef (23.9 cfu/25 g) especially if the sprouts were frozen. The sensitivity of the immuno-kits appeared to be similar to the IMS-plating methods, but the specificity was lower. Based on the results, we recommend the IMS-plating method using CT-SMAC and agars containing beta-glucuronidase substrate in combination with static enrichment incubation in mEC + n at 42 degrees C.     

Ascorbic acid enhances destruction of Escherichia coli O157:H7 during home-type drying of apple slices

Destruction of Escherichia coli O157:H7 was evaluated on inoculated apple slices dehydrated at two temperatures with and without application of predrying treatments. Half-ring slices (0.6 cm thick) of peeled and cored Gala apples were inoculated by immersion for 30 min in a four-strain composite inoculum of E. coli O157:H7. The inoculated slices (8.7 to 9.4 log CFU/g) either received no predrying treatment (control), were soaked for 15 min in a 3.4% ascorbic acid solution, or were steam blanched for 3 min at 88 degrees C immediately prior to drying at 57.2 or 62.8 degrees C for up to 6 h. Samples were plated on tryptic soy (TSA) and sorbitol MacConkey (SMAC) agar media for direct enumeration of surviving bacterial populations. Steam blanching changed initial inoculation levels by +0.3 to -0.7 log CFU/g, while immersion in the ascorbic acid solution reduced the inoculation levels by 1.4 to 1.6 log CFU/g. Dehydration of control samples for 6 h reduced mean bacterial populations by 2.9 log CFU/g (TSA or SMAC) at 57.2 degrees C and by 3.3 (SMAC) and 3.5 (TSA) log CFU/g at 62.8 degrees C. Mean decreases from initial inoculum levels for steam-blanched slices after 6 h of drying were 2.1 (SMAC) and 2.0 (TSA) log CFU/g at 57.2 degrees C, and 3.6 (TSA or SMAC) log CFU/g at 62.8 degrees C. In contrast, initial bacterial populations on ascorbic acid-pretreated apple slices declined by 5.0 (SMAC) and 5.1 (TSA) log CFU/g after 3 h of dehydration at 57.2 degrees C, and by 7.3 (SMAC) and 6.9 (TSA) log CFU/g after 3 h at 62.8 degrees C. Reductions on slices treated with ascorbic acid were in the range of 8.0 to 8.3 log CFU/g after 6 h of drying, irrespective of drying temperature or agar medium used. The results of immersing apple slices in a 3.4% ascorbic acid solution for 15 min prior to drying indicate that a predrying treatment enhances the destruction of E. coli O157:H7 on home-dried apple products.     

大肠杆菌O157:H7的冷冻损伤及解冻存活

为探讨冷冻后残存的大肠杆菌O157:H7（Escherichia coli O157:H7）在解冻后的存活情况,本研究首先比较4 株E. coli O157:H7冷冻后的死亡和损伤情况,进而采用无营养的磷酸盐缓冲液作为基质研究冷冻后不同解冻方式对E. coli O157:H7存活的影响。结果表明：4 株E. coli O157:H7 －20 ℃冷冻24、48、72 h后均发生了一定程度的死亡和损伤,冷冻时间越长细菌致死和致伤程度越明显,且存在菌株差异,冷冻72?h时菌株CICC21530的损伤率最高,为87.70%。采用混合菌株进行解冻实验,4?株E.?coli?O157:H7磷酸盐缓冲液菌液冷冻后立即置于20、30、37?℃解冻,细菌发生了进一步的死亡,解冻温度越高死亡越明显,3?个温度组在解冻48?h时菌落数均显著低于冷冻72?h时菌落数（P＜0.05）。进一步探讨缓慢解冻方式对菌体存活的影响,菌液冷冻后先置于4?℃一定时间（0、2、6、12?h）,再置于37?℃不同时间（5、10、30?min）观察菌株存活情况,结果表明4?℃缓慢解冻时间越长,越有利于细菌的存活,4?℃、12?h/37?℃、5～30?min解冻方式下改良山梨醇麦康凯琼脂上菌落数仍显著低于胰蛋白胨大豆琼脂上的菌落数（P＜0.05）,表明仍有损伤菌的存在。本实验提示采用缓慢解冻反而有利于残存菌的存活,冷冻食品风险评估时应重视残存菌尤其是损伤菌的检测和控制。     

The use of a fluorescent bacteriophage assay for detection of Escherichia coli O157:H7 in inoculated ground beef and raw milk.

The objective of this study was to develop a fluorescent bacteriophage assay (FBA) for the detection of E. coli O157:H7 in ground beef and raw milk. The FBA is a two step assay that combines immunomagnetic separation, to separate the target organism from mixed culture, with a highly specific fluorescently stained bacteriophage to label the E. coli O157:H7 cells. When used in conjunction with flow cytometry, the FBA was able to detect 2.2 CFU/g of artificially contaminated ground beef following a 6 h enrichment. Between 10(1) and 10(2) CFU/ml of artificially contaminated raw milk were detectable after a 10 h enrichment step. The results show that the FBA is potentially useful as a rapid technique for the preliminary detection of E. coli O157:H7 in food.     

Validation of methods used to recover Escherichia coli O157:H7 and Salmonella spp. subjected to stress conditionst

Escherichia coli O157:H7, Salmonella spp., and Salmonella Typhimurium DT104 were stressed with lactic acid and cell-free supernatants from lactic acid bacteria and plated on three different media to determine if injured cells were recovered. A comparison of the susceptibility and recovery of antibiotic-resistant strains of the pathogens and nonresistant strains was also made. Acid stress conditions were created by adjusting the pH of a cocktail mixture (two to four strains) of the pathogen to 3.50 with lactic acid and holding for 18 h. The pathogen cocktail was also stressed with a cell-free supernatant of Lactobacillus lactis (pH 3.90) in a 4:6 ratio. Both nonstressed and stressed cocktail cultures were plated on Trypticase soy agar (TSA) and violet red bile agar (VRBA) for E. coli and xylose lysine tergitol4 (XLT4) for Salmonella. Repair of injured cells was evaluated by pour plating the stressed cells on a 5-ml thin layer of TSA and allowing a 2-h room temperature incubation followed by overlaying with VRBA or XLT4. There were significant reductions in the populations of both pathogens under both stress conditions when plating was done on nonselective media. Injured E. coli O157:H7 was not recovered on recovery or selective media compared with TSA. Numbers of cells of supernatant-stressed Salmonella spp. plated on selective and recovery media were similar to those on TSA. Acid-stressed cells for all Salmonella spp. were not recovered on TSA, selective, or recovery media at levels comparable to recovery on TSA. Antibiotic-resistant strains showed similar recovery patterns on all media evaluated. However, the antibiotic-resistant strains were less sensitive to both stress conditions. The use of antibiotic-resistant strains resulted in a greater recovery of stressed pathogens than the use of recovery media.     

Evaluation of techniques for enrichment and isolation of Escherichia coli O157:H7 from artificially contaminated sprouts.

Because sprouted seed products are kept wet during and after production, have high levels of nutrients, and a neutral pH, they are subject to the outgrowth of pathogens such as Escherichia coli O157:H7. For these same reasons, these products also contain high levels of heterotrophic organisms and in particular coliform bacteria. Recent outbreaks have focused attention on the need to improve methodology for isolating this pathogen from sprouts. When 40 E. coli O157:H7 strains were grown in pure culture in enterohemorrhagic E. coli enrichment broth (EEB) as prescribed in the U.S. FDA-Bacteriological Analytical Manual (FDA-BAM) and in EEB modified by varying the cefixime concentration, outgrowth for all strains in EEB was inhibited at 0.05 mg/l but for only 2 of 40 strains when the cefixime level was adjusted to 0.0125 mg/l. These two enrichment formulae were compared to modified E. coli broth (mEC), modified Tryptic Soy Broth with 20 mg/l novobiocin (mTSB + N), modified Buffered Peptone Water (mBPW), and mBPW with added 10 mg/l acriflavin, 10 mg/l cefsulodin, and 8 mg/l vancomycin (mBPW + ACV) for isolation of E. coli O157:H7 from sprouts. These comparisons were performed using low-level (0.12 to 0.42 cfu/g) artificially contaminated alfalfa and mixed salad sprouts. After enrichment, two isolation methods were compared for recovery; direct plating to Tellurite-Cefixime Sorbitol MacConkey agar (TCSMAC) and immunomagnetic separation (IMS) (Dynabeads anti-E. coli O157, Dynal, Oslo, Norway) followed by plating to TCSMAC. In addition, an immunoprecipitin detection kit, VIP (BioControl, Bellevue, WA), was evaluated for detection after enrichment. We found that five of the six enrichments were equivalent for detection or recovery while one enrichment (mTSB + N without agitation) was less productive. Incubation for 24 h was more effective in recovering E. coli O157:H7 from sprouts than 6 h for all enrichment broths. Plating after IMS was more productive than direct plating at these low levels of contamination, yielding recovery in 70 of 90 trials compared to 37 of 90 trials without IMS for six enrichments. The sensitivity of VIP for detection of E. coli O157:H7 varied depending on the enrichment broth. Because of the rapid rate of growth of E. coli O157:H7 in mBPW, the high productivity of mBPW + ACV after 24-h enrichment and its compatibility with both IMS and detection with immunoprecipitin tests, mBPW + ACV at 42 degrees C with agitation was found to be the most promising enrichment protocol for testing sprouts.     

Survival of Escherichia coli O157:H7 in Galotyri cheese stored at 4 and 12 degrees C

Post-process contamination of fresh acid-curd cheeses with Escherichia coli O157:H7 may pose a risk considering the low infectious dose and the ability of the pathogen to survive in acidic foods. To evaluate its survival in Galotyri, a traditional Greek acid-curd cheese, portions (0.5 kg) of two commercial fresh products, one artisan (pH 3.9+/-0.1) and the other industrial (pH 3.7+/-0.1), were inoculated with approximately 3.0 or 6.5 log cfu g(-1) of a five-strain cocktail of E. coli O157:H7, including rifampicin-resistant derivatives of the strains ATCC 43895 and ATCC 51657, and stored aerobically at 4 and 12 degrees C. Survival was monitored for 28 days by plating cheese samples on tryptic soy agar with 100 mg l(-1) rifampicin (TSA+Rif), SMAC and Fluorocult E. coli O157:H7 agar media. The pathogen declined much faster (P<0.05) in the industrial as compared to the artisan cheeses at both temperatures. Thus, while E. coli O157:H7 became undetectable by culture enrichment after 14 days at 4 degrees C in industrial samples, irrespective of the inoculation level, populations of 1.4-1.9 and 4.2-5.1 log cfu g(-1) survived after 28 days in the corresponding artisan cheeses with the low and high inocula, respectively. Survival was longer and greater (P<0.05) on TSA+Rif than on SMAC and Fluorocult, indicating the presence of acid-injured cells. Interestingly, survival of E. coli O157:H7 after 14-28 days in cheeses was better at 12 degrees C than at 4 degrees C, probably due to yeasts which grew on the surface of temperature-abused cheeses. The large difference in the pathogen's inactivation between the industrial and artisan cheeses at 4 degrees C could not be associated with major differences in pH or type/concentration of organic acids, suggesting another anti-E. coli O157:H7 activity by the industrial starter. The high survival of the pathogen in artisan Galotyri under conditions simulating commercial storage should be of concern.     

Evaluation of thin agar layer method for recovery of acid-injured foodborne pathogens.

The thin agar layer (TAL) method of Kang and Fung was used to enumerate acid-injured foodborne pathogens. This method involves overlaying 14 ml of nonselective medium (tryptic soy agar [TSA]) onto a prepoured and solidified pathogen-specific, selective medium in a petri dish. After surface plating, injured cells resuscitated and grew on TSA during the first few hours of incubation; then, the selective agents from the selective medium diffused to the top layer, interacted with the recovered microorganisms, and started to produce typical reactions. Foodborne pathogens were exposed to 2% acetic acid for 1, 2, or 4 min, and the recovery rate with the TAL method was compared with the rate of TSA and pathogen-specific, selective media. No significant difference occurred between TSA and TAL (P > 0.05) for enumeration of acid-injured Escherichia coli O157:H7, Salmonella Typhimurium, Staphylococcus aureus, and Yersinia enterocolitica, and both recovered significantly higher numbers than the selective medium for each respective pathogen (P < 0.05). For recovery of acid-injured Listeria monocytogenes, no difference (P > 0.05) occurred among TSA, TAL, and selective media. However, fewer cells were recovered in the selective media. The TAL method is a one-step, convenient procedure for recovery of acid-injured cells.     

Effect of stress induced by suboptimal growth factors on survival of Escherichia coli O157:H7.

This study investigated the growth and survival of E. coli O157:H7 exposed to a combination of suboptimal factors (22 degrees C, 7 degrees C, -18 degrees C/0.5% NaCl, 5.0% NaCl/pH 7.0, pH 5.4, pH 4.5/addition of lactic acid) in a simulation medium for red meat (beef gravy). Prolonged survival was noted as the imposed stress was more severe, and as multiple growth factors became suboptimal. At a defined temperature (7 degrees C or -18 degrees C), survival was prolonged at the more acid, more suboptimal pH (pH 4.5 > pH 5.4 > pH 7.0) while at a defined pH (pH 4.5), better survival was observed at 7 degrees C than at 22 degrees C. This suggests that application of the hurdle concept for preservation of food may inhibit outgrowth but induce prolonged survival of E. coli O157:H7 in minimal processed foods. At both 22 degrees C and 7 degrees C, the addition of lactic acid instead of HCl to reduce pH (to pH 4.5) resulted in a more rapid decrease of E. coli O157:H7. High survival was observed in beef gravy, pH 5.4 at -18 degrees C (simulation of frozen meat)-reduction of log 3.0 to log 1.9 after 43 days--and in beef gravy, pH 4.5 and 5% NaCl at 7 degrees C (simulation of a fermented dried meat product kept in refrigeration)--less than 1 log reduction in 43 days. In these circumstances, however, a high degree of sublethal damage of the bacterial cells was noted. The degree of sublethal damage can be estimated from the difference in recovery of the pathogen on the non-selective TSA medium and the selective SMAC medium.     

Evaluation of increased incubation temperature and cefixime-tellurite treatment for the isolation of Escherichia coli O157:H7 from minced beef

To improve enrichment and isolation of Escherichia coli O157:H7, this study evaluated increased incubation temperature and cefixime-tellurite (CT) on five strains of each of the following bacteria, E. coli, Hafnia alvei, Enterobacter spp., Citrobacter freundii and E. coli O157:H7, and two strains of E. coli O157:nH7. These were grown in pure culture in LST broth with varying cefixime-tellurite concentrations. A range of incubation temperatures from 37 to 46 degrees C was investigated for the inhibition of cohabitant microorganisms. Minced beef, spiked with E. coli O157:H7 and cohabitant microorganisms was investigated. Increased incubation temperature (42 degrees C) and treatment with half of the prescribed amount of cefixime-tellurite by BAM for SMAC agar in enrichment step were the most effective in selectively growing E. coli O157:H7. The results show that E. coli O157:H7 is more resistant to these two conditions than the other cohabitant bacteria.     

Survival of Escherichia coli O157:H7 and Salmonella in apple cider and orange juice as affected by ozone and treatment temperature

Inactivation of Escherichia coli O157:H7 and Salmonella in apple cider and orange juice treated with ozone was evaluated. A five-strain mixture of E. coli O157:H7 or a five-serovar mixture of Salmonella was inoculated (7 log CFU/ml) into apple cider and orange juice. Ozone (0.9 g/h) was pumped into juices maintained at 4 degrees C, ambient temperature (approximately 20 degrees C), and 50 degrees C for up to 240 min, depending on organism, juice, and treatment temperature. Samples were withdrawn, diluted in 0.1% peptone water, and surface plated onto recovery media. Recovery of E. coli O157:H7 was compared on tryptic soy agar (TSA), sorbitol MacConkey agar, hemorrhagic coli agar, and modified eosin methylene blue agar; recovery of Salmonella was compared on TSA, bismuth sulfite agar, and xylose lysine tergitol 4 (XLT4) agar. After treatment at 50 degrees C, E. coli O157:H7 populations were undetectable (limit of 1.0 log CFU/ml; a minimum 6.0-log CFU/ml reduction) after 45 min in apple cider and 75 min in orange juice. At 50 degrees C, Salmonella was reduced by 4.8 log CFU/ml (apple cider) and was undetectable in orange juice after 15 min. E. coli O157:H7 at 4 degrees C was reduced by 4.8 log CFU/ml in apple cider and by 5.4 log CFU/ml in orange juice. Salmonella was reduced by 4.5 log CFU/ml (apple cider) and 4.2 log CFU/ml (orange juice) at 4 degrees C. Treatment at ambient temperature resulted in population reductions of less than 5.0 log CFU/ml. Recovery of E. coli O157:H7 and Salmonella on selective media was substantially lower than recovery on TSA, indicating development of sublethal injury. Ozone treatment of apple cider and orange juice at 4 degrees C or in combination with mild heating (50 degrees C) may provide an alternative to thermal pasteurization for reduction of E. coli O157:H7 and Salmonella in apple cider and orange juice.     

大肠杆菌O157微孔板法与经典方法的比较研究

大肠杆菌O157:H7是目前国内外极为关注的食源性致病菌,快速检测大肠杆菌O157:H7显得尤为重要.特针对9大类食品分别进行了传统培养法和3M TecraTM微孔板法的对比实验,并选择了其它血清型大肠杆菌和其他种属细菌进行了特异性的检验.在199份阳性样品中, 3M TecraTM大肠杆菌O157微孔板法的检出率为100%,传统培养法则为97.5%,3M TecraTM大肠杆菌O157微孔板法的灵敏度达到1 CFU/25g(mL),且该方法具有快速、简便、高效、准确的特点,适宜大规模化食品样品大肠杆菌O157检测.     

利用光纤倏逝波生物传感器检测食品中 大肠杆菌O157:H7

目的 建立一种应用光纤倏逝波生物传感器快速检测食品中大肠杆菌O157:H7的方法。方法 对光纤用大肠杆菌O157:H7抗体包被制备检测探针,用纳米量子点对抗体进行偶联制备检测抗体,并确定其检测的灵敏度和特异性,同时通过对人工污染样品的检测确认该方法检测实际样本的可行性。结果 建立的光纤倏逝波生物传感器检测大肠杆菌O157:H7的灵敏度达到50 CFU/mL,并具有较强的特异性。结论 利用光纤倏逝波生物传感器检测食品中污染的大肠杆菌O157:H7方法快速、准确,具有较强应用价值。     

Evaluation of Escherichia coli O157:H7 in apple juice with Cornus fruit (Cornus officinalis Sieb. et Zucc.) extract by conventional media and thin agar layer method

Escherichia coli O157:H7 survival in apple juice supplemented with Cornus fruit (Cornus officinalis Sieb. et Zucc.) extract was studied. Inoculated samples with or without Cornus fruit extract were kept at 21 and 7 degrees C. Microbial analysis was conducted on days 0, 1, 3, 5, and 7. MacConkey sorbitol agar (MSA), tryptic soy agar (TSA), and thin agar layer (TAL) medium were used to compare the recovery of bacteria stressed under combination treatment. Influence of temperature, storage time, and Cornus fruit on survival of cells was evaluated. The most dramatic reduction of E. coli O157:H7 was observed in apple juice with Cornus fruit extract at 21 degrees C. At 7 degrees C, E. coli O157:H7 was reduced by 2.3logcfu/ml in the apple juice with Cornus fruit extract compared to the control sample on day 7. TAL and TSA were more efficient than MSA. Cornus fruit extract can be used in combination with temperature and storage time controls to inactivate E. coli O157:H7 in apple juice. This study has shown that TAL is a viable method of recovering and differentiating injured microorganisms and apple juice supplemented with Cornus fruit has potential as a value-added beverage with antimicrobial effects and potential health benefits.