Comparison of growth,nutritional utilisation patterns,and niche overlap indices of toxigenic and atoxigenic Aspergillus flavus strains

The effects of temperatures (20–30 °C) and water activity (0.90–0.99 a_w) on the lag phase duration, mycelial growth, and nutritional utilisation patterns of two toxigenic (AFL1⁺ & AFL2⁺) and three atoxigenic (AFL1⁻, AFL2⁻, & AFL3⁻) Aspergillus flavus strains were evaluated in vitro. Both temperature and a_w and their interactions had a significant influence on the growth and nutritional utilisation patterns (p < 0.05). There were no significant differences between toxigenic and atoxigenic strains in terms of lag phase prior to growth and mycelial growth rates. Based on carbon source (CS) utilisation patterns, toxigenic and atoxigenic strains' niche size was greater at higher temperatures and in wetter conditions. Additionally, based on niche overlap indices (NOIs), regardless of temperature, when water was freely available, atoxigenic and toxigenic strains co-existed. However, under moisture stress, the nutritional competitiveness was variable. Temporal carbon utilisation sequences (TCUS) of toxigenic and atoxigenic strains were compared. At 0.99 a_w most CS sources were utilised by the strains and the time to detection (TTD) of each strain was shortest on monosaccharides at the same level of a_w. Conversely, under moisture stress the least number of CS was utilised. The current study has demonstrated that carbon utilisation patterns are equally important as are other determinants of competitiveness and that growth rate alone is not a key attribute which determines competitiveness.     

Comparison of growth and aflatoxin B1 production profiles of Aspergillus flavus strains on conventional and isogenic GM-maize-based nutritional matrices

Maize grown in both North and South America are now predominantly genetically modified (GM) cultivars with some resistance to herbicide, pesticide, or both. There is little information on the relative colonisation and aflatoxin B₁ (AFB₁) production with maize meal-based nutritional matrices based on kernels of non-GM maize and isogenic GM-ones by strains of Aspergillus flavus. The objectives were to examine the effect of interacting conditions of temperature (25–35 °C) and water availability (0.99–0.90 water activity, a_w) on (a) mycelial growth, (b) AFB₁ production and (c) develop contour maps of optimum and marginal conditions of these parameters for four strains of A. flavus on three different non-GM and isogenic GM-maize based nutritional media. The growth of the four strains of A. flavus (three aflatoxigenic; one non-aflatoxigenic) was relatively similar in relation to the temperature × a_w conditions examined on both non-GM and GM-based matrices. Optimum growth overall was at 30–35 °C and 0.99 a_w for all four strains. Under water stress (0.90 a_w) growth was optimum at 35 °C. Statistically: non-GM, GM cultivars, temperature and a_w all significantly affected growth rates. For AFB₁ production, all single and interacting factors were statistically significant except for non-GM × GM cultivar. In conclusion, colonisation of GM- and non-GM nutritional sources was similar for the different A. flavus strains examined. The contour maps will be very useful for understanding the ecological niches for both toxigenic and non-toxigenic strains in the context of the competitive exclusion of those producing aflatoxins.     

Impact of a Streptomyces (AS1) strain and its metabolites on control of Aspergillus flavus and aflatoxin B1 contamination in vitro and in stored peanuts

Six actinomycetes were isolated from peanuts in Egypt. Of these, a Streptomyces strain (AS1) was found in in vitro assays to inhibit directly or via secondary metabolites both germination and growth of Aspergillus flavus. Tests of the AS1 cells for direct control of A. flavus populations or aflatoxin B₁ (AFB₁) production on stored peanuts was unsuccessful over 14-day storage periods. However, crude extracts of AS1 metabolites at 50 and 100 ppm completely inhibited spore germination of conidia of A. flavus in vitro over 48 h. Comparison of solvents for extracting the metabolites showed that the ethyl acetate extract was most effective. This gave greater than 85% inhibition of mycelial growth at these concentrations at different water availabilities (water activity; a _w; 0.95, 0.92, and 0.89) and 25°C. Doses of 50, 200, and 500 ppm of AS1 metabolites significantly inhibited populations of A. flavus on stored peanuts at two water stress levels (0.90, 0.93 a _w) at 25°C over 14-day storage periods. The amounts of AFB₁ produced by A. flavus on peanuts stored at 0.90 a _w were significantly decreased by AS1 metabolites for only 7 days. However, at 0.93 a _w doses of 200 and 500 ppm significantly controlled AFB₁ accumulation in peanuts for 14 days.     

Impact of some environmental factors on growth and production of ochratoxin A of/by <Emphasis Type="Italic">Aspergillus tubingensis,A. niger</Emphasis>, and <Emphasis Type="Italic">A. carbonarius</Emphasis> isolated from moroccan grapes

The effects of temperature, water activity (a_w), incubation time, and their combinations on radial growth and ochratoxin A (OTA) production of/by eight Aspergillus niger aggregate strains (six A. tubingensis and two A. niger) and four A. carbonarius isolated from Moroccan grapes were studied. Optimal conditions for the growth of most studied strains were shown to be at 25°C and 0.95 a_w. No growth was observed at 10°C regardless of the water activity and isolates. The optimal temperature for OTA production was in the range of 25°C∼30°C for A. carbonarius and 30°C∼37°C for A. niger aggregate. The optimal a_w for toxin production was 0.95∼0.99 for A. carbonarius and 0.90∼0.95 for A. niger aggregate. Mean OTA concentration produced by all the isolates of A. niger aggregate tested at all sampling times shows that maximum amount of OTA (0.24 μg/g) was produced at 37°C and 0.90 a_w. However, for A. carbonarius, mean maximum amounts of OTA (0.22 μg/g) were observed at 25°C and 0.99 a_w. Analysis of variance showed that the effects of all single factors (a_w, isolate, temperature and incubation time) and their interactions on growth and OTA production were highly significant.     

Changes in protein secretion of Aspergillus niger caused by the reduction of the water activity by potassium chloride

The effect of the rapid reduction of the water activity (a_w) on the extracellular protein and amylolytic activity of Aspergillus niger was studied. An a_w value gradient from 0.90 to 0.99 in KCl solutions was applied for the mycelium treatment. It was found that the a_w reduction considerably influenced the protein secretion. This phenomenon was dependent on the age of the treated mycelium and the range of the a_w gradient. The highest protein and enzyme secretion yields were obtained at a_w = 0.98 using a 72-h old mycelium. In comparison with the non-treated mycelium, the increase in the secretion amounted to about 60% for the amylolytic activity and 37% for the soluble protein, respectively. It was shown that the mycelium incubated in KCl solutions of an a_w value from 0.90 to 0.99 had the ability for regeneration in fresh CZAPEK-DOX medium. The effect of the osmotic shock on the protein secretion was limited only for the treated cell population and declined in the mycelium which was regenerated after the transfer into the culture medium.     

Xerotolerance in fission yeasts and the role of glycerol as compatible solute

The effect on growth of reducing the water activity (a _w) of a medium with various solutes has been investigated for 27 strains of fission yeasts (Schizosaccharomyces). The minimum-tolerated a _w (MTA) was dependent on both the nature of the solute and the species. When the strains of each species were grouped together, the lowest mean MTA values were found with glucose, fructose or glycerol as stressing solutes, being in the range 0.89–0.90 for S. pombe, S. malidevorans, S. octosporus and S. slooffiae, but in the range 0.92–0.94 for S. japonicus. With the non-metabolizable sugars sorbose and xylose and the salts NH₄Cl, KCl, and NaCl, the mean MTA values were in the range 0.96–0.985, except for (1) the single strain of S. slooffiae, which was more tolerant of NH₄Cl and KCl with values of 0.95 and 0.94, respectively, and (2) the strains of S. pombe, S. malidevorans and S. japonicus, which were less tolerant of NaCl with mean values of about 0.99. One strain of each species was examined for intracellular solutes when actively growing in the presence of near-limiting concentrations of stressing solute. With glucose, fructose or glycerol, all five strains contained substantial amounts of glycerol but no other polyol; with the other solutes no glycerol or other polyol was found, except for small amounts of glycerol in strains of S. octosporus and S. slooffiae stressed with NH₄Cl, KCl, or NaCl.Abbreviations MTA Minimum-tolerated water activity - a _w water activity - YEPG yeast extract, phosphate, glucose medium     

Evaluation of aflatoxin B1 and ochratoxin A in interacting mixed cultures of Aspergillus sections Flavi and Nigri on peanut grains

The influence of inoculum size on the colony-forming units, production of aflatoxin B₁ (AFB₁) and ochratoxin A (OTA) was determined when Aspergillus flavus and A. niger aggregate strains were cultured alone and in pairs on irradiated peanut grains at 28°C and 0.97 water activity (a_W). The results showed a marked influence of inoculum factor on fungal counts, AFB₁ and OTA production in single and paired cultures. Fungal counts of the A. niger aggregate strain in interacting cultures at 7, 14 and 21?days of incubation were significantly higher than those observed in the A. flavus strain, except in the mixed culture with 10² spores/ml of both strains. In all mixed culture assays, the AFB₁ production was significantly reduced in comparison with the accumulation of mycotoxin in single cultures. A total inhibition in AFB₁ production was observed in some interactions as 10² spores/ml of A. flavus and 10³ spores/ml of A. niger aggregate strain at 7 and 14?days, among others. With regard to OTA production, a stimulation in the interacting cultures was observed at all inoculum sizes and incubation period. The highest levels of OTA accumulation were observed at 14?days for all interacting cultures. The maximum level was reach in the culture 10³ spores/ml of A. niger aggregate and 10⁴ spores/ml of A. flavus (p?<?0.001). These results suggest that, under optimal environmental conditions in peanut grains, the interaction between A. flavus and A. niger aggregate strains could result in an inhibition of AFB₁ and in a stimulation of OTA production.     

Growth and sporulation of entomopathogenic Beauveria bassiana,Metarhizium anisopliae,Isaria farinosa and Isaria fumosorosea strains in relation to water activity and temperature interactions

This study examined six strains of Beauveria bassiana s.l. and Isaria farinosa, one strain of Isaria fumosorosea and five strains of Metarhizium anisopliae s.l. to identify the ability for (1) growth and (2) sporulation under interacting environmental factors of water activity (a_w) and temperature stress. Growth on Sabouraud Dextrose Agar (SDA; water activity, a_w = 0.995) or SDA modified with glycerol to 0.98, 0.96 and 0.94 a_w was measured at four different temperatures (25, 30, 35 and 37°C). All M. anisopliae strains grew at 25–35°C and 0.995 a_w while only two strains tolerated extreme water stress at 0.94 a_w.Three strains of B. bassiana were able to grow at 25–37°C and 0.995 a_w. Only one strain of I. farinosa was able to grow at 25–37°C and 0.995 a_w. A_w and temperature interactions resulted in different strain-dependent responses, in terms of growth and sporulation. Only one strain of I. farinosa and three of M. anisopliae grew at 0.94 a_w and none of the B. bassiana strains tolerated such water stress. At 0.96 and 0.94 a_w and 35–37°C, sporulation by all the strains of the three species were significantly affected. Under elevated temperatures and drought stress, very few of these strains of entomopathogenic fungi are able to grow and sporulate. Indeed, the B. bassiana strains were unable to tolerate the extreme conditions examined. Resilience to such abiotic interactions is critical for selecting strains for formulations. Tolerance to water and temperature stress could be good criteria for selection of strains with secondary spread potential for use as part of an integrated pest management system where secondary cycling may be important, especially in sub-tropical and tropical environments.     

The effect of water activity on growth and end-product formation of two Lactobacillus spp. and Brochothrix thermosphacta ATCC 11509T

Summary The effect of water activity (a_w) on the growth and end-product formation of Lactobacillus viridescens SMRICC 174, Lactobacillus SMRICC 173 (homofermentative) and Brochothrix thermosphacta ATCC 11509^T was studied. All strains orginated from meat or meat products. The a_w was adjusted in the range 0.94–0.99 with NaCl or glycerol. A greater reduction in growth rates was found for L. viridescens and B. thermosphacta when a_w was regulated with NaCl rather than with glycerol, the opposite was true for Lactobacillus 173. L. viridescens grew at a_w >-0.94. At 0.94 a_w B. thermosphacta was totally inhibited when NaCl was the solute and Lactobacillus 173 when glycerol was the solute. Only minor variations in the end-product formation of the Lactobacillus spp. were found at different a_w values. In aerobic culture B. thermosphacta produced less l-lactic acid and more acetic acid as the a_w was decreased with NaCl, while the yields were unaffected when glycerol was used.     

Effect of water activity and protective solutes on growth and subsequent survival to air-drying of Lactobacillus and Bifidobacterium cultures

Probiotic cultures of Lactobacillus plantarum, Lactobacillus rhamnosus, Bifidobacterium longum, Lactobacillus casei and Lactobacillus acidophilus were grown in media having water activities (a _w) adjusted between 0.99 and 0.94 with NaCl or with a mixture of glycerol and sucrose in order to find conditions of osmotic stress which would still allow for good growth. Cultures grown at a _w?=?0.96 or 0.99 were then recovered by centrifugation, added to a sucrose–phosphate medium and air-dried. In some assays, a 2-h osmotic stress was applied to the cell concentrate prior to air-drying. Assays were also carried out where betaine, glutamate and proline (BGP) supplements were added as protective compounds to the growth or drying media. For most strains, evidence of osmotic stress and benefits of BGP supplementation on growth occurred at a _w?=?0.96. Growing the cells in complex media adjusted at a _w?=?0.96 did not enhance their subsequent survival to air-drying, but applying the 2-h osmotic stress did. Addition of the BGP supplements to the growth medium or in the 2-h stress medium did not enhance survival to air-drying. Furthermore, addition of BGP to a sucrose–phosphate drying medium reduced survival of the cultures to air-drying. This study provides preliminary data for producers of probiotics who wish to use air-drying in replacement of freeze-drying for the stabilization of cultures.     

The production of cyclopiazonic acid by Penicillium commune and cyclopiazonic acid and aflatoxins by Aspergillus flavus as affected by water activity and temperature on maize grains

The combined effects of water activity (a_w) and temperature on mycotoxin production by Penicilium commune (cyclopiazonic acid — CPA) and Aspergillus flavus (CPA and aflatoxins — AF) were studied on maize over a 14-day period using a statistical experimental design. Analysis of variance showed a highly significant interaction (P 0.001) between these factors and mycotoxin production. The minimum a_w/temperature for CPA production (2264 ng g^–1 P. commune, 709 ng g^–1 A. flavus) was 0.90 a_w/30 °C while greatest production (7678 ng g^–1 P. commune, 1876 ng g^–1 A. flavus) was produced at 0.98 a_w/20 °C. Least AF (411 ng g^–1) was produced at 0.90 a_w/20 °C and most (3096 ng g^–1) at 0.98 a_w/30 °C.     

Interaction between aflatoxin B1 and oxytetracycline in isolated rat hepatocytes

Isolated rat hepatocytes were used as an in vitro model to investigate A possible interaction between oxytetracycline (OXT) and aflatoxin B₁ (AFB₁). LDH leakage, RNA and protein synthesis and glycogen accumulation were measured in the presence of both drugs, either separately or in combination. The evolution of LDH leakage during the incubation was identical in untreated and treated cells. AFB₁ inhibited RNA and protein synthesis at a concentration of 10^–7 M and 10^–6 M, respectively, and higher, whereas OXT did not influence RNA synthesis but inhibited protein synthesis at the highest tested concentration, 10^–3 M. As far as glycogen is concerned, rats were injected with glucagon before sacrifice in order to obtain a constant synthesis rate in isolated hepatocytes. AFB₁ inhibited the accumulation of glycogen from 10^–6 M upward. This effect was never observed before 90 min of incubation. OXT had no effect on glycogen synthesis. In the presence of both drugs, no interaction was demonstrated as far as RNA and protein synthesis were concerned, but OXT opposed the inhibition induced by AFB₁ on glycogen accumulation. If the in vivo protection, provided by OXT against AFBI-induced toxicity, is due to a direct interference in the toxic mechanisms of the mycotoxin, these results show that OXT does not influence the AFB₁-inhibition of RNA and protein synthesis. The latter are early and sensitive parameters inhibited by AFB₁. On the contrary, taking into consideration the results on glycogen accumulation, it seems more interesting to investigate further this metabolism.Abbreviations AFB₁ Aflatoxin B₁ - OXT Oxytetracycline - DMEM Dulbecco's Modified Eagle's Medium - LDH Lactate Dehydrogenase - DMSO Dimethyl Sulfoxide - BSA Bovine Serum Albumin     

Environment factors influence in vitro interspecific interactions between A. ochraceus and other maize spoilage fungi,growth and ochratoxin production

The effect of water availability (water activity,a_w; 0.995–0.90) and temperature (18–30 °) on in vitro interactions between an ochratoxin producing strain of Aspergillus ochraceus and six other spoilage fungi was assessed in dual culture experiments on a maize meal-based agar medium. Inprimary resource capture of nutrient substrate, A. ochraceus was dominant against many of the interacting species, being able to overgrow and replace A. candidus, and sometimes A. flavus and the Eurotium spp. regardless of a_w or temperature. However, with freely available water (0.995 a_w) A. alternata and A. niger were dominant, with mutual antagonism between A. ochraceus and A. flavus at 25–30 °C. In the driest conditions tested (0.90 a_w) there was also mutual antagonism between A. ochraceus and the two Eurotium spp. Overall, under allconditions tested the Index of Dominance for A. ochraceus was much higher than for other competing species combined suggesting that A. ochraceus wasa good competitive colonist able to replace a numberof other species. However, the growth rate ofA. ochraceus was modified and decreased by the interaction with competitors. Interaction between A. ochraceus and species such as A. alternata (18°C/0.995) and Eurotium spp. (0.995–0.95 and 25–30 °C) resulted in a significant stimulation of ochratoxin production. Theresults are discussed in relation to the effect that environmental factors have on the possible competitiveness of A. ochraceus in the maizegrain ecosystem and the role of ochratoxin in nicheexclusion of competitors. This revised version was published online in June 2006 with corrections to the Cover Date.     

Isolation and characterization of <Emphasis Type="Italic">Aspergillus flavus</Emphasis> strains in China

Important staple foods (peanuts, maize and rice) are susceptible to contamination by aflatoxin (AF)-producing fungi such as Aspergillus flavus. The objective of this study was to explore non-aflatoxin-producing (atoxigenic) A. flavus strains as biocontrol agents for the control of AFs. In the current study, a total of 724 A. flavus strains were isolated from different regions of China. Polyphasic approaches were utilized for species identification. Non-aflatoxin and non-cyclopiazonic acid (CPA)-producing strains were further screened for aflatoxin B₁ (AFB₁) biosynthesis pathway gene clusters using a PCR assay. Strains lacking an amplicon for the regulatory gene aflR were then analyzed for the presence of the other 28 biosynthetic genes. Only 229 (32%) of the A. flavus strains were found to be atoxigenic. Smaller (S) sclerotial phenotypes were dominant (51%) compared to large (L, 34%) and non-sclerotial (NS, 15%) phenotypes. Among the atoxigenic strains, 24 strains were PCR-negative for the fas-1 and aflJ genes. Sixteen (67%) atoxigenic A. flavus strains were PCRnegative for 10 or more of the biosynthetic genes. Altogether, 18 new PCR product patterns were observed, indicating great diversity in the AFB₁ biosynthesis pathway. The current study demonstrates that many atoxigenic A. flavus strains can be isolated from different regions of China. In the future laboratory as well as field based studies are recommended to test these atoxigenic strains as biocontrol agents for aflatoxin contamination.     

Identification ofRhizobium strains and evaluation of their competitiveness

Six strains ofRhizobium leguminosarum bv.viciœ, three strains ofBradyrhizobium japonicum and three strains ofRhizobium fredii were evaluated by the polymerase chain reaction (PCR). The possibility of identification of individual rhizobial strains and the way of product analysis were verified. The result of amplifications proved rich spectra along the whole length scale. Numerous identical bands could be found in related strains. Verification of the expected identity of some strains confirmed the applicability of this method for identification of individual bacterial strains of generaRhizobium andBradyrhizobium. Furthermore, competitiveness of two strains ofR. leguminosarum bv.viciœ against the native rhizobial population was evaluated in a pot experiment. When using PCR as the identification method, the presence of the strains in host plant's nodules was ascertained after inoculation by different rates of inoculum strains. With increasing the inoculum rate, the presence of inoculum strains in pea nodules also increased. On the basis of mathematical models by Amarger and Lobreu the competitiveness of the mentioned strains was estimated at certain inoculum rates. Both tested strains displayed a higher competitiveness than native rhizobia in the soil used. As they are also effective N₂ fixators (one strain being HUP⁺), one may expect successful field inoculations with them.     

Isolation of aflatoxigenic strains of Aspergillus and detection of aflatoxin B1 from feeds in India

In a preliminary study, 256 feed samples collected from different parts of Northern India were examined for the presence of aflatoxigenic strains of Aspergillus flavus/parasiticus and for detection of Aflatoxin B₁ (AFB₁). Out of 198 A. flavus and 15 A. parasiticus strains isolated, 76% and 86% respectively, were found to be toxigenic. Aflatoxin B₁ content of these feeds, as estimated by thin layer chromatography (TLC) and enzyme linked immunosorbent assay (ELISA) were very high (average 0.412 ± 0.154 ppm) in comparison to the permissible Indian regulation level (0.03 ppm). Seasonal variation of incidence and level of toxin in feed was recorded and it was high during monsoon/post monsoon period.This revised version was published online in October 2005 with corrections to the Cover Date.     

Environmental distribution and genetic diversity of vegetative compatibility groups determine biocontrol strategies to mitigate aflatoxin contamination of maize by Aspergillus flavus

Maize infected by aflatoxin‐producing Aspergillus flavus may become contaminated with aflatoxins, and as a result, threaten human health, food security and farmers' income in developing countries where maize is a staple. Environmental distribution and genetic diversity of A. flavus can influence the effectiveness of atoxigenic isolates in mitigating aflatoxin contamination. However, such information has not been used to facilitate selection and deployment of atoxigenic isolates. A total of 35 isolates of A. flavus isolated from maize samples collected from three agro‐ecological zones of Nigeria were used in this study. Ecophysiological characteristics, distribution and genetic diversity of the isolates were determined to identify vegetative compatibility groups (VCGs). The generated data were used to inform selection and deployment of native atoxigenic isolates to mitigate aflatoxin contamination in maize. In co‐inoculation with toxigenic isolates, atoxigenic isolates reduced aflatoxin contamination in grain by > 96%. A total of 25 VCGs were inferred from the collected isolates based on complementation tests involving nitrate non‐utilizing (nit^?) mutants. To determine genetic diversity and distribution of VCGs across agro‐ecological zones, 832 nit^? mutants from 52 locations in 11 administrative districts were paired with one self‐complementary nitrate auxotroph tester‐pair for each VCG. Atoxigenic VCGs accounted for 81.1% of the 153 positive complementations recorded. Genetic diversity of VCGs was highest in the derived savannah agro‐ecological zone (H = 2.61) compared with the southern Guinea savannah (H = 1.90) and northern Guinea savannah (H = 0.94) zones. Genetic richness (H = 2.60) and evenness (E₅ = 0.96) of VCGs were high across all agro‐ecological zones. Ten VCGs (40%) had members restricted to the original location of isolation, whereas 15 VCGs (60%) had members located between the original source of isolation and a distance > 400 km away. The present study identified widely distributed VCGs in Nigeria such as AV0222, AV3279, AV3304 and AV16127, whose atoxigenic members can be deployed for a region‐wide biocontrol of toxigenic isolates to reduce aflatoxin contamination in maize.     

Effect of Challenge Temperature and Solute Type on Heat Tolerance of Salmonella Serovars at Low Water Activity

Salmonella spp. are reported to have an increased heat tolerance at low water activity (a_w; measured by relative vapor pressure [rvp]), achieved either by drying or by incorporating solutes. Much of the published data, however, cover only a narrow treatment range and have been analyzed by assuming first-order death kinetics. In this study, the death of Salmonella enterica serovar Typhimurium DT104 when exposed to 54 combinations of temperature (55 to 80°C) and a_w (rvp 0.65 to 0.90, reduced using glucose-fructose) was investigated. The Weibull model (LogS = −btⁿ) was used to describe microbial inactivation, and surface response models were developed to predict death rates for serovar Typhimurium at all points within the design surface. The models were evaluated with data generated by using six different Salmonella strains in place of serovar Typhimurium DT104 strain 30, two different solutes in place of glucose-fructose to reduce a_w, or six low-a_w foods artificially contaminated with Salmonella in place of the sugar broths. The data demonstrate that, at temperatures of ≥70°C, Salmonella cells at low a_w were more heat tolerant than those at a higher a_w but below 65°C the reverse was true. The same patterns were generated when sucrose (rvp 0.80 compared with 0.90) or NaCl (0.75 compared with 0.90) was used to reduce a_w, but the extent of the protection afforded varied with solute type. The predictions of thermal death rates in the low-a_w foods were usually fail-safe, but the few exceptions highlight the importance of validating models with specific foods that may have additional factors affecting survival.     

Molecular characterization of toxigenic and atoxigenic Aspergillus flavus isolates,collected from peanut fields in China

Aims: The objectives of this study were to assess the genetic relationships between toxigenic and atoxigenic isolates of Aspergillus flavus collected from peanut fields in China, and to analyse deletions within the aflatoxin biosynthetic gene cluster for the atoxigenic isolates. Methods and Results: Analysis of random‐amplified polymorphic DNA and microsatellite‐primed PCR data showed that the toxigenic and atoxigenic isolates of A. flavus were not clustered based on their regions and their ability of aflatoxin and sclerotial production. These results were further supported by DNA sequence of ITS, pksA and omtA genes. PCR assays showed that 24 of 35 isolates containing no detectable aflatoxins had the entire aflatoxin gene cluster. Eleven atoxigenic isolates had five different deletion patterns in the cluster. Conclusions: Toxigenic and atoxigenic isolates of A. flavus are genetically similar, but some atoxigenic isolates having deletions within the aflatoxin gene cluster can be identified readily by PCR assays. Significance and Impact of the Study: Because the extensive deletions within the aflatoxin gene cluster are not rare in the atoxigenic isolates, analysis of deletion within the cluster would be an effective method for the rapid screening of atoxigenic isolates for developing biocontrol agents.