Detection of Campylobacter jejuni in poultry samples using an enzyme-linked immunoassay coupled with an enzyme electrode.

An enzyme-linked immunoassay coupled with a tyrosinase modified enzyme electrode was used for rapid detection of Campylobacter jejuni. The immunomagnetic separation (IMS) method was investigated to achieve optimal isolation of C. jejuni cells. Eight types of beads with three different sizes and function groups were coated with anti-C. jejuni to isolate C. jejuni from the sample solution. Bead size and coating methods were found to be major factors that influenced the capture efficacy. Streptavidin-labeled beads (2.8 μm) provided the greatest capture ability. Three blocking reagents were tested to minimize non-specific binding. Bovine serum albumin (BSA) showed the best blocking capability. Two IMS formats were tested. Competitive immunoassay cut the detection time to 1.5 h, but the detection limit was relatively high (10⁶ CFU/ml). This system was evaluated using C. jejuni pure culture and poultry samples inoculated with C. jejuni. This detection method for C. jejuni could be completed within 2.5 h and had a detection limit of 2.1×10⁴ CFU/ml. No significant difference was found between pure culture samples and poultry samples (P>0.01). A linear relationship was found between C. jejuni cell numbers and the peak current ratio in a range of 10²–10⁷ CFU/ml (R²=0.94).     

Detection of Salmonella enterica Serovar Typhimurium by Using a Rapid, Array-Based Immunosensor

The multianalyte array biosensor (MAAB) is a rapid analysis instrument capable of detecting multiple analytes simultaneously. Rapid (15-min), single-analyte sandwich immunoassays were developed for the detection of Salmonella enterica serovar Typhimurium, with a detection limit of 8 × 10⁴ CFU/ml; the limit of detection was improved 10-fold by lengthening the assay protocol to 1 h. S. enterica serovar Typhimurium was also detected in the following spiked foodstuffs, with minimal sample preparation: sausage, cantaloupe, whole liquid egg, alfalfa sprouts, and chicken carcass rinse. Cross-reactivity tests were performed with Escherichia coli and Campylobacter jejuni. To determine whether the MAAB has potential as a screening tool for the diagnosis of asymptomatic Salmonella infection of poultry, chicken excretal samples from a private, noncommercial farm and from university poultry facilities were tested. While the private farm excreta gave rise to signals significantly above the buffer blanks, none of the university samples tested positive for S. enterica serovar Typhimurium without spiking; dose-response curves of spiked excretal samples from university-raised poultry gave limits of detection of 8 × 10³ CFU/g.     

Direct Real-Time PCR Quantification of Campylobacter jejuni in Chicken Fecal and Cecal Samples by Integrated Cell Concentration and DNA Purification

Campylobacter jejuni is a major cause of diarrheal disease and food-borne gastroenteritis. The main reservoir of C. jejuni in poultry is the cecum, with an estimated content of 6 to 8 log₁₀ CFU/g. If a flock is infected with C. jejuni, the majority of the birds in that flock will harbor the bacterium. Diagnostics at the flock level could thus be an important control point. The aim of the work presented here was to develop a complete quantitative PCR-based detection assay for C. jejuni obtained directly from cecal contents and fecal samples. We applied an approach in which the same paramagnetic beads were used both for cell isolation and for DNA purification. This integrated approach enabled both fully automated and quantitative sample preparation and a DNA extraction method. We developed a complete quantitative diagnostic assay through the combination of the sample preparation approach and real-time 5′-nuclease PCR. The assay was evaluated both by spiking the samples with C. jejuni and through the detection of C. jejuni in naturally colonized chickens. Detection limits between 2 and 25 CFU per PCR and a quantitative range of >4 log₁₀ were obtained for spiked fecal and cecal samples. Thirty-one different poultry flocks were screened for naturally colonized chickens. A total of 262 (204 fecal and 58 cecal) samples were analyzed. Nineteen of the flocks were Campylobacter positive, whereas 12 were negative. Two of the flocks contained Campylobacter species other than C. jejuni. There was a large difference in the C. jejuni content, ranging from 4 to 8 log₁₀ CFU/g of fecal or cecal material, for the different flocks tested. Some issues that have not yet promoted much attention are the prequantitative differences in the ability of C. jejuni to colonize poultry and the importance of these differences for causing human disease through food contamination. Understanding the colonization kinetics in poultry is therefore of great importance for controlling human infections by this bacterium.     

Detection of E. coli O157:H7 by immunomagnetic separation coupled with fluorescence immunoassay

Conventional culture-based methods for detection of E. coli O157:H7 in foods and water sources are time-consuming, and results can be ambiguous, requiring further confirmation by biochemical testing and PCR. A rapid immunoassay prior to cultivation to identify presumptive positive sample would save considerable time and resources. Immunomagnetic separation (IMS) techniques are routinely used for isolation of E. coli O157:H7 from enriched food and water samples, typically in conjunction with cultural detection followed by biochemical and serological confirmation. In this study, we developed a new method that combines IMS with fluorescence immunoassay, termed immunomagnetic fluorescence assay (IMFA), for the detection of E. coli O157:H7. E. coli O157:H7 cells were first captured by anti-O157 antibody-coated magnetic beads and then recognized by a fluorescent detector antibody, forming an immunosandwich complex. This complex was subsequently dissociated for measurement of fluorescence intensity with Signalyte™-II spectrofluorometer. Experiments were conducted to evaluate both linearity and sensitivity of the assay. Capture efficiencies were greater than 98%, as determined by cultural plating and quantitative real-time PCR, when cell concentrations were <10⁵ cells/mL. Capture efficiency decreased at higher cell concentrations, due to the limitation of bead binding capacity. At lower cell concentrations (10–10⁴ cells/mL), the fluorescence intensity of dissociated Cy5 solution was highly correlated with E. coli 157:H7 cell concentrations. The detection limit was 10 CFU per mL of water. The assay can be completed in less than 3 h since enrichment is not required, as compared to existing techniques that typically require a 24 h incubation for pre-enrichment, followed by confirmatory tests.     

Evaluation of PCR,DNA hybridization and immunomagnetic separation — PCR for detection of <Emphasis Type="Italic">Burkholderia mallei</Emphasis> in artificially inoculated environmental samples

Glanders is highly contagious disease of equines, caused by Burkholderia mallei. The disease though rare, can be transmitted to humans. Here, we report a strategy for rapid detection of B. mallei from environmental samples. Different bacteriological media were evaluated and brain heart infusion broth medium with selective supplements (BHIB-SS) of penicillin (200 U/ml) and crystal violet (1:10,00000) was found to support the maximum growth of B. mallei even in the presence of other bacteria like Escherichia coli and Staphylococcus aureus. A polymerase chain reaction (PCR) and a DNA hybridization method was standardized for 823 bp specific dNA sequence of B. mallei. To enable the quicker and direct enrichment of B. mallei bacteria from environmental samples, an immunomagnetic separation (IMS) method was also standardized. Water, husk, grass and gram samples were artificially contaminated by B. mallei bacteria and after enrichment of B. mallei in BHIB-SS, detection was carried out by PCR and DNA hybridization. PCR was found to be a better method of the two with a detection limit of 10⁴–10⁶ CFU/ml (6 h enrichment in BHIB-SS) in water and other particulate matrices. Detection by PCR in the above samples without enrichment in BHIBSS was carried out following IMS where the detection limit was about 1–2 log higher than PCR following enrichment in BHIB-SS. We recommend PCR for 823 bp for detection of B. mallei from environmental samples either following enrichment in BHIB-SS or IMS. IMS-PCR method may be preferred in situations where numbers of B. mallei bacteria are expected to be high and results are required in short time.     

Analysis of N-methylhistamine by gas chromatography–mass spectrometry

A gas chromatography–electron capture mass spectrometry assay has been developed for the histamine H₃ receptor agonist, N^α-methylhistamine (N^α-MH). The assay is linear from 50 pg–10 ng, with a limit of detection of 50 pg/ml for gastric juice and plasma, and 50 pg/sample for bacteria (10⁷–10⁸ CFU) and gastric tissue (5–10 mg wet weight). The limits of quantification are 100 pg/ml for gastric juice (%RSD=1.4) and plasma (%RSD=9.4), and 100 pg/sample for bacteria (%RSD=3.9) and tissue (%RSD=5.8). N^α-MH was not present in human plasma, but low levels (1.4 ng/ml and 0.4 ng/ml) were detected in two samples of human gastric juice obtained from patients infected with Helicobacter pylori.     

Isolation of Mycobacterium paratuberculosis from Milk by Immunomagnetic Separation

An immunomagnetic separation (IMS) technique was developed to facilitate selective isolation of Mycobacterium paratuberculosis cells from milk. Rabbit polyclonal antibodies against radiation-killed intact M. paratuberculosis cells were produced and used to coat sheep anti-rabbit immunoglobulin G (IgG) type M-280 Dynabeads. The rabbit anti-M. paratuberculosis IgG-coated beads (IMB) reacted strongly with laboratory strains of M. paratuberculosis as determined by slide agglutination, and microscopic examination confirmed that M. paratuberculosis cells attached to the IMB. The IMB were found to have a maximum binding capacity of 10⁴ to 10⁵ CFU of M. paratuberculosis. Studies showed that IMS selectively recovered M. paratuberculosis from inoculated milk containing as few as 10 CFU of M. paratuberculosis per ml when 10 μl of IMB (ca. 10⁶ beads) was added to 1 ml of milk and the preparation was incubated for 30 min at room temperature with gentle agitation. Larger volumes of milk (10 and 50 ml) were centrifuged and resuspended in 1 ml of phosphate-buffered saline–0.05% Tween 20 prior to IMS in order to increase the sensitivity of the method. Currently, primary isolation of M. paratuberculosis from a milk sample relies on chemical decontamination, followed by culturing on Herrold’s egg yolk medium, which must be incubated at 37°C for up to 18 weeks. The potential value of our IMS method is as an aid for rapid detection of M. paratuberculosis in milk when it is used in conjunction with end point detection methods, such as IS900 PCR or an enzyme-linked immunosorbent assay.     

Detection of Clavibacter michiganensis subsp. michiganensis in tomato seeds using immunomagnetic separation

The use of pathogen-free plant material is the main strategy for controlling bacterial canker of tomato caused by Clavibacter michiganensis subsp. michiganensis. However, detection and isolation of this pathogen from seeds before field or greenhouse cultivation is difficult when the bacterium is at low concentration and associated microbiota are present. Immunomagnetic separation (IMS), based on the use of immunomagnetic beads (IMBs) coated with specific antibodies, was used to capture C. michiganensis subsp. michiganensis cells, allowing removal of non-target bacteria from samples before plating on non-selective medium. Different concentrations of IMBs and of two antisera were tested, showing that IMS with 10(6)IMBs/ml coated with a polyclonal antiserum at 1/3200 dilution recovered more than 50% of target cells from initial inocula of 10(3) to 10(0)CFU/ml. Threshold detection was lower than 10CFU/ml even in seed extracts containing seed debris and high populations of non-target bacteria. The IMS permitted C. michiganensis subsp. michiganensis isolation from naturally infected seeds with higher sensitivity and faster than direct isolation on the semiselective medium currently used and could become a simple viable system for routinely testing tomato seed lots in phytosanitary diagnostic laboratories.     

Evaluation of the efficacy of immunomagnetic separation for the detection of Clavibacter michiganensis subsp. michiganensis in tomato seeds

Aims: To evaluate the effectiveness of the optimized immunomagnetic separation (IMS)‐plating protocol in relation to other culture, serological and molecular techniques currently used for Clavibacter michiganensis subsp. michiganensis in seed‐testing laboratories. Methods and results: Bacterial suspensions, tomato seed extracts spiked with the pathogen and naturally infected seeds were IMS‐plated for the detection of C. m. subsp. michiganensis. These results were compared with plating on general (YPGA) and semiselective (mSCM) media, double‐antibody sandwich enzyme‐linked immunosorbent assay (DAS‐ELISA), immunofluorescent assay (IF) or polymerase chain reaction (PCR). Different seed lots and pathogen strains were also tested. IMS‐plating allowed the detection of less than 10 CFU ml^?1 of pathogen in all assayed samples. The mSCM medium provided positive results for 10 CFU ml^?1 in naturally infected seeds, but up to 14 days was necessary for the typical colonies of the target to be come visible. By serological techniques, 10³ and up to 10⁴ CFU ml^?1 were detected by IF and ELISA, respectively. DNA extraction was required to obtain positive results by PCR in seed extracts containing 10³ CFU ml^?1 or more. Conclusions: Among the evaluated methods, IMS‐plating provided the best results regarding sensitivity and specificity for C. m. subsp. michiganensis detection, allowing the recovery of viable bacteria from seed extracts. Significance and impact of the study: IMS‐plating increases isolation rates of C. m. subsp. michiganensis and could improve standard protocols currently used for routine analysis.     

Nucleic acid aptamers for capture and detection of Listeria spp

The purpose of this study was to identify biotinylated single-stranded (ss) DNA aptamers with binding specificity to Listeria and use these for capture and subsequent qPCR detection of the organism. For aptamer selection, SELEX (systematic evolution of ligands by exponential enrichment) was applied to a biotin-labeled ssDNA combinatorial library. After multiple rounds of selection and counter-selection, aptamers separated, sequenced, and characterized by flow cytometry showed binding affinities to L. monocytogenes of 18–23%. Although selected for using L. monocytogenes, these aptamers showed similar binding affinity for other members of the Listeria genus and low binding affinity for non-Listeria species. One aptamer, Lbi-17, was chosen for development of a prototype capture and detection assay. When Lbi-17 was conjugated to magnetic beads and used in a combined aptamer magnetic capture (AMC)-qPCR assay, the pathogen could be detected at concentrations <60 CFU/500 μl buffer in the presence of a heterogeneous cocktail of non-Listeria bacterial cells, with a capture efficiency of 26–77%. Parallel experiments using immunomagnetic separation (IMS)-qPCR produced the same detection limit but lower capture efficiency (16–21%). Increasing assay volume to 10 and 50 ml resulted in reduced capture efficiency and higher limits of detection, at 2.7 and 4.8 log₁₀ CFU L. monocytogenes per sample, respectively, for the AMC-qPCR assay. Biotinylated ssDNA aptamers are promising ligands for food-borne pathogen concentration prior to detection using molecular methods.     

Detection of Verotoxigenic Escherichia coli by Magnetic Capture-Hybridization PCR

Magnetic capture-hybridization PCR (MCH-PCR) was used for the detection of 36 verotoxigenic (verotoxin [VT]-producing) Escherichia coli (VTEC), 5 VTEC reference, and 13 non-VTEC control cultures. The detection system employs biotin-labeled probes to capture the DNA segments that contain specific regions of the genes for VT1 and VT2 by DNA-DNA hybridization. The hybrids formed were isolated by streptavidin-coated magnetic beads which were collected by a magnetic particle separator and, subsequently, amplified directly by conventional PCR. The detection system was found to be specific for VTEC: no amplification was obtained from non-VTEC controls, whereas VTEC isolates tested positive for one or two specific PCR products. With 5, 7, or 10 h of enrichment, the limits of detection were 10³, 10², and 10⁰ CFU/ml, respectively, by agarose gel electrophoresis. Southern hybridization did not seem to improve the limit of the detection. When applied to food, MCH-PCR was capable of detecting 10⁰ CFU of VTEC per g of ground beef with 15 h of nonselective enrichment. The results of MCH-PCR for pure cultures of VT1- and/or VT2-producing E. coli cells were in total agreement with toxin production as measured by a VT enzyme-linked immunosorbent assay.     

Survival of Cold-Stressed Campylobacter jejuni on Ground Chicken and Chicken Skin during Frozen Storage

Campylobacter jejuni is prevalent in poultry, but the effect of combined refrigerated and frozen storage on its survival, conditions relevant to poultry processing and storage, has not been evaluated. Therefore, the effects of refrigeration at 4°C, freezing at −20°C, and a combination of refrigeration and freezing on the survival of C. jejuni in ground chicken and on chicken skin were examined. Samples were enumerated using tryptic soy agar containing sheep's blood and modified cefoperazone charcoal deoxycholate agar. Refrigerated storage alone for 3 to 7 days produced a reduction in cell counts of 0.34 to 0.81 log₁₀ CFU/g in ground chicken and a reduction in cell counts of 0.31 to 0.63 log₁₀ CFU/g on chicken skin. Declines were comparable for each sample type using either plating medium. Frozen storage, alone and with prerefrigeration, produced a reduction in cell counts of 0.56 to 1.57 log₁₀ CFU/g in ground chicken and a reduction in cell counts of 1.38 to 3.39 log₁₀ CFU/g on chicken skin over a 2-week period. The recovery of C. jejuni following freezing was similar on both plating media. The survival following frozen storage was greater in ground chicken than on chicken skin with or without prerefrigeration. Cell counts after freezing were lower on chicken skin samples that had been prerefrigerated for 7 days than in those that had been prerefrigerated for 0, 1, or 3 days. This was not observed for ground chicken samples, possibly due to their composition. C. jejuni survived storage at 4 and −20°C with either sample type. This study indicates that, individually or in combination, refrigeration and freezing are not a substitute for safe handling and proper cooking of poultry.     

PCR-Based DNA Amplification and Presumptive Detection of Escherichia coli O157:H7 with an Internal Fluorogenic Probe and the 5′ Nuclease (TaqMan) Assay

Presumptive identification of Escherichia coli O157:H7 is possible in an individual, nonmultiplexed PCR if the reaction targets the enterohemorrhagic E. coli (EHEC) eaeA gene. In this report, we describe the development and evaluation of the sensitivity and specificity of a PCR-based 5′ nuclease assay for presumptively detecting E. coli O157:H7 DNA. The specificity of the eaeA-based 5′ nuclease assay system was sufficient to correctly identify all E. coli O157:H7 strains evaluated, mirroring the previously described specificity of the PCR primers. The SZ-primed, eaeA-targeted 5′ nuclease detection assay was capable of rapid, semiautomated, presumptive detection of E. coli O157:H7 when ≥10³ CFU/ml was present in modified tryptic soy broth (mTSB) or modified E. coli broth and when ≥10⁴ CFU/ml was present in ground beef-mTSB mixtures. Incorporating an immunomagnetic separation (IMS) step, followed by a secondary enrichment culturing step and DNA recovery with a QIAamp tissue kit (Qiagen), improved the detection threshold to ≥10² CFU/ml. Surprisingly, immediately after IMS, the sensitivity of culturing on sorbitol MacConkey agar containing cefeximine and tellurite (CT-SMAC) was such that identifiable colonies were demonstrated only when ≥10⁴ CFU/ml was present in the sample. Several factors that might be involved in creating these false-negative CT-SMAC culture results are discussed. The SZ-primed, eaeA-targeted 5′ nuclease detection system demonstrated that it can be integrated readily into standard culturing procedures and that the assay can be useful as a rapid, automatable process for the presumptive identification of E. coli O157:H7 in ground beef and potentially in other food and environmental samples.     

Semi-nested polymerase chain reaction for detection of toxigenic <Emphasis Type="Italic">Vibrio cholerae</Emphasis> from environmental water samples

A rapid and sensitive direct cell semi-nested PCR assay was developed for the detection of viable toxigenic V. cholerae in environmental water samples. The semi-nested PCR assay amplified cholera toxin (ctxA2B) gene present in the toxigenic V. cholerae. The detection sensitivity of direct cell semi-nested PCR was 2 × 10³ CFU of V. cholerae whereas direct cell single-step PCR could detect 2 × 10⁴ CFU of V. cholerae. The performance of the assay was evaluated using environmental water samples after spiking with known number of Vibrio cholerae O1. The spiked water samples were filtered through a 0.22 micrometer membrane and the bacteria retained on filters were enriched in alkaline peptone water and then used directly in the PCR assay. The semi-nested PCR procedure coupled with enrichment could detect less than 1 CFU/ml in ground water and sea water whereas 2 CFU/ml and 20 CFU/ml could be detected in pond water and tap water, respectively. The proposed method is simple, faster than the conventional detection assays and can be used for screening of drinking water or environmental water samples for the presence of toxigenic V. cholerae.     

Human heat-shock protein 60 receptor-coated paramagnetic beads show improved capture of Listeria monocytogenes in the presence of other Listeria in food

Aims: To investigate the suitability of human Hsp60, a receptor for Listeria adhesion protein (LAP), on paramagnetic beads (PMB) to capture Listeria monocytogenes from food in the presence of other Listeria to facilitate rapid and specific detection of this pathogen. Methods and Results: Commercially available streptavidin‐coated PMBs were linked with biotinylated Hsp60 (PMB‐Hsp60), and the bacterial capture efficiency from pure culture and meat samples was determined. Capture rate was also compared with the monoclonal antibody (MAb)‐C11E9‐coated beads (PMB‐C11E9) and the commercial Dynabeads anti‐Listeria. Captured cells were detected and quantified by plating on selective medium, quantitative real‐time PCR (qPCR) and a light‐scattering sensor. Overall, all ligand‐coated beads had similar capture efficiency (varied from 1·8 to 9·2%) for L. monocytogenes under the conditions employed, and the minimum cell number required to achieve such capture was 10³ CFU ml^?1. PMB‐Hsp60 had significantly greater capture efficiency for pathogenic Listeria (P < 0·0001) than the nonpathogenic Listeria. In contrast, PMB‐C11E9 and Dynabeads anti‐Listeria had similar capture efficiency for both. The efficacy of all PMBs to capture L. monocytogenes in the presence of Listeria innocua from food matrices was compared. Although Dynabeads anti‐Listeria had the overall best capture efficiency, PMB‐Hsp60 was able to selectively capture L. monocytogenes even in the presence of 10–100‐fold more L. innocua cells from enriched meat samples. Conclusions: Data show that the human cell receptor, Hsp60, is suitable for the capture of pathogenic Listeria on PMB in the presence of other Listeria in food. Significance and Impact of the Study: As pathogen interaction with host cells is highly specific, host cell receptors could be used as alternate capture molecules on PMB to aid in specific detection of pathogens.     

Decreased competiveness of the foodborne pathogen <Emphasis Type="Italic">Campylobacter jejuni</Emphasis> during Co-culture with the hyper-ammonia producing anaerobe <Emphasis Type="Italic">Clostridium aminophilum</Emphasis>

Campylobacter spp. are a leading bacterial cause of human foodborne illness. When cocultured in anaerobic Bolton broth with the hyper-ammonia producing bacterium, Clostridium aminophilum, ammonia accumulation was greater and final growth of Campylobacter jejuni was reduced (CFU ≥ 1.4 log₁₀/mL) compared to that obtained by pure culture controls. Co-culture with the less active ammonia-producing saccharolytic Prevotella albensis had no effect on final C. jejuni concentrations. When co-cultured similarly except with the addition of 10 μmol/L monensin, monensin-susceptible Cl. aminophilum was reduced by 2 to 4 log₁₀ CFU/mL and concentrations of C. jejuni, which is insensitive to monensin, did not differ from its pure culture control. These results suggest that in the absence of added monensin, the hyper ammonia-producing Cl. aminophilum may be able to outcompete asaccharolytic C. jejuni for amino acid substrates and that this competitive ability was eliminated by addition on monensin.     

Evaluation of DNA extraction methods for Bacillus anthracis spores isolated from spiked food samples

Aims

Nine commercial DNA extraction kits were evaluated for the isolation of DNA from 10‐fold serial dilutions of Bacillus anthracis spores using quantitative real‐time PCR (qPCR). The three kits determined by qPCR to yield the most sensitive and consistent detection (Epicenter MasterPure Gram Positive; MoBio PowerFood; ABI PrepSeq) were subsequently tested for their ability to isolate DNA from trace amounts of B. anthracis spores (approx. 6·5 × 10¹ and 1·3 × 10² CFU in 25 ml or 50 g of food sample) spiked into complex food samples including apple juice, ham, whole milk and bagged salad and recovered with immunomagnetic separation (IMS).

Methods and Results

The MasterPure kit effectively and consistently isolated DNA from low amounts of B. anthracis spores captured from food samples. Detection was achieved from apple juice, ham, whole milk and bagged salad from as few as 65 ± 14, 68 ± 8, 66 ± 4 and 52 ± 16 CFU, respectively, and IMS samples were demonstrated to be free of PCR inhibitors.

Conclusions

Detection of B. anthracis spores isolated from food by IMS differs substantially between commercial DNA extraction kits; however, sensitive results can be obtained with the MasterPure Gram Positive kit.

Significance and Impact of the Study

The extraction protocol identified herein combined with IMS is novel for B. anthracis and allows detection of low levels of B. anthracis spores from contaminated food samples.     

Ostracodology in time and space: looking back on fifteen International Symposia on Ostracoda,and the times in between

Nuclease protection assay (NPA) probes were designed to target the rRNA of Chaetoceros curvisetus and Skeletonema costatum, and quantitative sandwich hybridization integrated with nuclease protection assay (NPA-SH) was developed to detect C. curvisetus and S. costatum in culture and field samples in Jiaozhou Bay, China. The specificity and validity of the NPA-SH technique were tested with cultured pure strains, mixed strains and field samples, and by comparison with that of microscopy observation. The linear detection range for C. curvisetus was 4.2 × 10⁴ to 1.2 × 10⁶ cells with a detection limit of 42 cells ml⁻¹. The linear range for S. costatum was 6.0 × 10⁴ to 1.0 × 10⁶ cells with a detection limit of 60 cells ml⁻¹. The NPA-SH in this study provides a convenient tool for rapid assessment of HAB species in marine environments. Handling editor: D. Hamilton     

Effect of storage conditions on detection of mycoplasma in biopharmaceutical products

Mycoplasma contamination affects many different aspects of cell culturing, resulting in unreliable experimental results and potentially harmful biological products. Therefore, the specificity, sensitivity, and reliability of detecting mycoplasma contamination are important aspects of quality control in biotechnological products. In this study, Mycoplasma hyorhinis was adopted as a model strain to evaluate the effects of storage on the viability of Mycoplasma species in cell culture samples. Medium X was compared with conventional media 243 and 988 for the ability to detect M. hyorhinis. The 10¹ CFU/ml of M. hyorhinis was inoculated into medium X prepared using the same lots of components and preserved for 7 d, 1 mo, and 2 mo. M. hyorhinis grew readily and typically on agar plates prepared within 1 mo. The viable mycoplasmas in samples containing different initial titers (10¹ and 10⁶ CFU/ml) after storage at 4° C and −30° C were analyzed. During storage, viable organisms were found with little or no reduction in titers after storage for 8 wk at −30° C under aerobic and anaerobic conditions. A reduction in titers of 3 log10 occurred after 4 wk storage for high-dose cultures (10⁶ CFU/ml) at 4° C. The titers of viable organisms were diminished over 8 wk at 4° C under aerobic and anaerobic conditions.     

Activation of trehalase by heat shock in yeast ascospores: Correlation with total cellular cyclic-AMP content

An animal model resembling the human disease caused byCampylobacter jejuni has been developed. Characteristic illness followed intragastric challenge of neonatal mice with strains ofC. jejuni enhanced for virulence by serial intraperitoneal passage in weanling mice of organisms suspended in either mucin or iron dextran. Such passage lowered the LD₅₀ in weanlings from 2×10¹¹ colony-forming units (CFU) to 2×10⁵ CFU per mouse. Neonatal mice chellenged by intragastric intubation with 2×10⁹ CFU of the virulence-enhanced organisms suspended in mucin or iron dextran showed signs of infection by day 5, including severe diarrhea, increased musus discharge occasionally with blood, and reduced weight gain. Diarrhea contionued for eight days, after which most animals recovered. This mouse infection model provides a means for assessing the determinants of virulence among strains ofC. jejuni.