玉米赤霉烯酮单克隆抗体酶联免疫测定方法的建立及初步应用

用ZEN—BSA人工抗原免疫BALB／c鼠,经融合、筛选和克隆化得到可稳定分泌抗ZEN单克隆抗体的杂交瘤细胞株ZEN—lC6。zEN一lC6属IgG₁,纯化腹水抗体效价为10^-5,与5种衍生物的交叉反应系数为0.16～1.20％。用ZEN一1C6建立了检测食品(玉米、小麦、大米)中玉米赤霉烯酮的CIEIA法。该法检测纯毒素的线性范围为5～1000ng／ml,最低检出浓度为0．1ng／ml,平均回收率为84．0～105．5％。用该法测定了81份样品,均有ZEN毒素检出。     

广东省典型大中型供水水库和湖泊微囊藻毒素分布

为了解肝脏促癌剂微囊藻毒素（MCs）在广东省淡水水体中的污染情况,于2003年夏、秋、冬3个季节,采集了广东省12个典型供水水库和4个湖泊的水样;同时于2004年2—12月对7个水库和1个湖泊进行了每隔2个月的加密调查,用高效液相色谱（HPLC）和酶联免疫法（ELISA）测定了水体中微囊藻毒素（MCs）含量。结果显示广东省典型供水水库和淡水湖泊微囊藻毒素分布广泛,毒素组成以MC-RR为主,水库微囊藻毒素含量在未检出—0.919μg/L,2004年毒素含量比2003年有一定程度的上升。微囊藻毒素污染较为严重的水库为汤溪、鹤地、契爷石和深圳等水库,广州流花湖和肇庆星湖等城市景观湖泊中微囊藻毒素污染也较为严重。虽然本次调查的所有水样MCs含量均在世界卫生组织和我国饮用水卫生标准以下,但结果说明广东省饮用水源已在一定程度上遭受MCs的污染,需采取有效措施防止水质进一步恶化。     

小麦中脱氧雪腐镰刀菌烯醇酶联免疫吸附测定方法的研究

用B淋巴细胞杂交瘤技术制备了能稳定分泌抗脱氧雪腐镰刀菌烯醇(DON)单克隆抗体的杂交瘤细胞株,命名为3D7.3D7的亚类为lgG_1.运用该抗体,建立了检测小麦中DON的间接竞争性酶联免疫吸附测定法.该法最低检出量为5ng/ml,敏感范围为5—1000ng/ml;平均回收率为96.6—107.3%;精密度为6.2—13.3%.运用该方法,检测了10份小麦样品.均为阳性,其含量为56.4—1002.0ppb.     

江苏省典型区农田土壤及小麦中重金属含量与评价

为了研究江苏省典型区地震带农田土壤和小麦中重金属的污染,在具有代表性的农田采集收获期小麦及耕层土壤,分析和评价了土壤和小麦中重金属Cu、Pb、Cd、Ni、Cr、Hg、As和Zn的含量及污染程度。结果表明,土壤样品中Cd、Zn、Pb的含量均超过江苏省土壤背景值,Cr、Cu、Ni和As分别有25.64%、97.44%、92.31%和92.31%的土壤样品中超过江苏省土壤背景值,Hg的含量均在背景值以下;与国家土壤环境质量标准(GB15618—1995)中Ⅱ级标准相比,Cd的含量均超出标准限值,其它7种重金属元素含量均在标准限值以下。土壤中重金属相关分析表明,Cd、Cu、Cr、Ni、Pb、Zn、As具有相同的来源的可能性较大,而Hg与Cd、Cu、Cr、Ni、Pb、Zn、As的来源均不相同。以NY 861—2004为评价标准,小麦籽粒Pb、Cr、Hg、Ni、As样品超标率分别为100%、58.97%、33.33%、10.26%、2.56%,Cu、Zn和Cd没有样品超标,由此可见小麦籽粒中Pb的污染最为严重。采用单因子污染指数法、综合污染指数法和Hakanson潜在生态评价指数法以国家土壤环境质量标准(GB15618—1995)和江苏省土壤背景值为参比值,对农田土壤重金属污染进行评价,结果显示,从单项污染指数来看只有Cd达到重度污染水平,其它元素均在安全范围以内,从综合污染指数来看土壤重金属污染达到中度污染水平,从潜在生态评价指数法来看,研究区域表现为很强的生态危害,并以Cd为主要污染因子。     

钦州市售贝类GⅡ型诺如病毒污染调查

文章对钦州市售的16种贝类进行GⅡ型诺如病毒污染调查，在采集的342份贝类样品中，共检出阳性样品55份，平均检出率为16.08%。其中牡蛎的阳性率最高，检出率为33.33%；在阳性样品中，病毒平均感染强度为1.66×10⁵copies/g(消化腺)，病毒含量主要集中在104～105copies/g数量级之间，占比为45.45%。研究显示钦州市售贝类中存在较高的诺如病毒污染水平，需要加强对市售贝类诺如病毒污染的持续监测与风险评估，保障消费者的食品安全。     

河口潮间带沉积物重金属累积及生态风险评价

于2015年7月份在闽江口鳝鱼滩湿地布设两条样带(T1和T2),并分别选取5个采样点采集沉积物样品。因重金属Co和V对动物和人类会造成一定危害,且闽江河口潮间带Co和V的研究较少,则对其理化性质、Co和V的空间分布特征以及污染程度等进行了研究,旨在为Co和V的污染研究提供参考。结果显示,该沉积物中Co和V的平均浓度分别为15.19 mg/kg、102.94 mg/kg,均高于福建省背景浓度,与其他河口对比,Co和V浓度处于中等水平。Co和V的含量由陆向海方向略有下降。地累积指数法分析得出沉积物中Co含量呈现轻度污染状态,V呈现无污染状态。此外,Co和V的潜在生态危害系数E_r~i分别为7.24—14.85和1.47—4.17,表明潜在生态危害轻微,闽江河口潮间带沉积物中Co和V属于轻度污染。     

Tα1小麦轮选群体高分子量谷蛋白亚基组成分析

利用了Tα1小麦(Ms2)创建改良小麦面包品质的优质群体,采用SDS—PAGE法对其2次互交轮回群C2的HMW—GS组成进行了分析。结果表明：在供试的193个样品中各HMW—GS及其组成模式的频率不尽相同,Glu—A1、Glu—Bl和Glu—Dl位点上产生频率最高的亚基分别是1、14 15和2 12,各为54．40％、35．75％和60．10％,优质亚基5 10的频率为17．6％;“null、14 15、2 12”模式产生频率最高,为13．47％,并有“14 15,5 10”的优质亚基聚合体出现,占5．2％;该群体也产生了亲本不具有的13、16、22亚基及19种新的HMW—GS组成模式。说明利用Tα1小麦轮回选择技术是创造新亚基类型的一个有效途径。     

酱油中黄曲霉毒素B1的风险评估

黄曲霉毒素B1(AFB1)是已知毒性最强的天然物质,在我国的酱油产品中普遍存在,对人体的危害及其严重,其安全性受到消费者的密切关注。为了解我国酱油中黄曲霉毒素B1的安全现状,建立我国酱油中黄曲霉毒素B1的应急对策,本文采用酶联免疫法(ELISA)对我国203个酱油样品中的AFB1含量进行了检测,并就现有的污染状况,从危害识别、危害描述、暴露评估和风险特征描述等方面对酱油中的AFB1进行了风险评估。     

细胞培养中支原体污染的PCR检测

根据支原体16s rDNA序列,选择RemyTeyssou设计的三条寡核苷酸链,组成两套引物:P_(1-2a)能检测出细胞培养中常见的各种支原体,P_(1-2b)能检出无胆甾原体。反应可检出体系中10CFV的菌体。此法先用于对实验室人为污染支原体Vero细胞的检测,后与DNA 染色法和培养法比较,检测了49份生物样品,其中24份传代细胞,PCR检测的阳性率为58％,DNA染色法为42％,培养法为33％;三者的灵敏性比较,PCR可检出10~(-3)稀释度的阳性样品,高于其他两种方法。此PCR方法快速、灵敏、特异,适用于细胞培养中支原体污染的检测。     

广西北部湾市售贝类麻痹性贝毒污染状况分析

2014 年9-11 月对广西北部湾市售双壳经济贝类进行采样, 采用高效液相色谱法(HPLC)分析麻痹性贝毒(PSP)毒素含量及毒素组成, 评价其食用安全性。结果显示采集于北海、东兴、防城港、涠洲岛4 个市场的16 种市售贝类中均检出麻痹性贝毒, 毒素含量为0.24-290.10 μg STXeq·100 g1, 检出率100%。毒素成分包括GTX 类、STX 类和C类。其中, dcGTX2、C2、GTX4 三者检出率最高, 分别为73%、52%、42%。涠洲岛采集的波纹巴非蛤与防城港采集的紫贻贝PSP 含量高于联合国规定的麻痹性毒素警戒标准, 分别是警戒标准的3.6 倍和1.02 倍, 样品总超标率达6.06%。贝类消化腺和贝肉均检出PSP, 前者明显高于后者, 建议食用贝类时, 去除腺体以降低麻痹性贝类毒素中毒的风险。总的来说, 广西北部湾PSP 染毒情况不容乐观, 亟需加强监控。     

A yeast bioassay for trichothecenes

Like all eucaryotic cells, yeasts are sensitive to trichothecenes, especially T-2 toxin and verrucarin A. Based on this sensitivity, a yeast bioassay was developed to evaluate the toxicity of corn samples. The bioassay was optimized using spiked maize extracts. The toxicity of samples was defined as toxicity equivalent to a certain concentration of T-2 toxin standards. The assay can be performed on crude extracts, but the results are more precise after column clean-up. The test can also be used for the screening of trichothecene toxicity in general. The relative standard deviation (RSD) at 85 % growth inhibition (EC85) was 4.5% for the T-2 toxin standards (n = 8). This corresponds to an initial T-2 toxin concentration of approximately 58 ppb in the corn sample. Samples containing 188 and 113 ppb T-2 toxin caused a growth inhibition higher than 85%, whereas samples with toxin concentrations of 56 and 19 ppb had a growth inhibition less than 85%. Therefore the test can be used for the qualitative evaluation of corn samples up to a level of 58 ppb +/- 2.8 ppb. The bioassay is easy to perform with minimum requirements for equipment. Results can be obtained within 24 h and a large number of samples can be analysed daily. The costs are low and the results obtained are repeatable. With some modifications this test can be used for toxicity studies on trichothecene metabolites as well as for extracts with unknown compounds with properties similar to trichothecenes.     

T-2 Toxin Contamination in Grains and Selenium Concentration in Drinking Water and Grains in Kaschin–Beck Disease Endemic Areas of Qinghai Province

It has been strongly suggested that two factors are involved in the development of Kaschin?CBeck Disease (KBD), namely grains contamination with T-2 toxin and selenium deficiency. So our team undertook a survey about grains and drinking water in three rural KBD endemic villages and one non-KBD village in Qinghai Province. The level of T-2 toxin contamination in 364 grain samples was assayed using an ELISA kit. The selenium concentration in these grains and 15 drinking water samples from three KBD endemic villages were determined using the 2,3-diaminonaphthalene fluorometric assay. The results revealed that the level of T-2 toxin contamination in the samples from three KBD endemic villages was relatively high with an average level of 78.91?ng/g in wheat and 47.47?ng/g in flour. The T-2 toxin level in samples from the non-KBD village (12.23?ng/g) was significantly lower than that of local grains from the three KBD endemic villages. The average selenium content in wheat and flour from KBD areas was 0.0045 and 0.0067???g/g, respectively. The selenium concentration in local grain samples was significantly lower than that in samples from the non-KBD village (0.0604???g/g). In addition, the selenium concentration in drinking water from three KBD endemic villages was also low (0.156???g/L). These results support a potential role of T-2 toxin contamination and selenium deficiency in KBD. Compared with non-KBD endemic areas, health hazards in grains and in the environment of KBD endemic areas were observed.     

Production and characterization of a generic antibody against group A trichothecenes

An antibody against group A trichothecenes was produced after immunization of rabbits with an immunogen prepared by conjugation of T-2 toxin to bovine albumin at the C-8 position. T-2 toxin was first converted to 3-acetylneosolaniol (3-Ac-NEOS) and then to its hemisuccinate (HS) before conjugation to the protein. The rabbits showed a quick immune response after immunization of the new conjugate. The antibody produced bound with tritiated T-2 toxin, T-2 tetraol tetraacetate, and diacetoxyscirpenol (DAS) and showed good cross-reactivities with most of the group A trichothecenes. The concentrations causing 50% inhibition of binding of 3H-T-2 toxin to the new antibody by unlabeled T-2, acetyl-T-2, 3'-OH-T-2, DAS, 3-Ac-NEOS-HS, 3'-OH-Ac-T-2, T-2 tetraol tetraacetate, iso-T-2, 3-Ac-NEOS, Ac-DAS, and 3,4,15-triacetyl-7-deoxynivalenol were found to be 0.34, 0.34, 0.6, 2.5, 4, 10, 18, 24, 100, 200, and 300 ng/assay, respectively; for HT-2, T-2 triol, and T-2 tetraol, the concentration was greater than 1000 ng/assay. Nivalenol, deoxynivalenol (DON), 15-acetyl-DON, and triacetyl-DON, did not inhibit the binding at 1000 ng/assay. The practical application of using this new antibody for radioimmunoassay (RIA) of trichothecene was tested by spiking T-2 toxin to corn. T-2 toxin was then extracted with acetone, subjected to a simple Sep-Pak C-18 reversed-phase treatment, and analyzed by RIA. The overall recovery for 18 samples spiked with 10 to 50 ppb of T-2 toxin was 94.22%.     

Simultaneous occurrence of fumonisin B1 and other mycotoxins in moldy corn collected from the People's Republic of China in regions with high incidences of esophageal cancer.

A total of 31 corn samples collected from households in the counties of Cixian and Linxian of the People's Republic of China, where high incidences of esophageal cancer have been reported, were analyzed for fumonisin B1 (FB1), aflatoxin, and total trichothecene mycotoxins. High levels of FB1 (18 to 155 ppm; mean, 74 ppm) were found in 16 of the samples that showed heavy mold contamination. FB1, at lower levels (20 to 60 ppm; mean, 35.3 ppm), was also found in 15 samples, collected from the same households, that did not show any visible mold contamination. The levels of aflatoxin in the samples were low (1 to 38.4 ppb; mean, 8.61 ppb). High levels of total type-A trichothecenes were also found in the moldy corn samples (139 to 2,030 ppb; mean, 627 ppb). Immunochromatography of selected samples revealed that these samples contained T-2 toxin, HT-2 toxin, iso-neosolaniol, monoacetoxyscirpenol, and several other type-A trichothecenes. The concentration of total type-B trichothecenes in 15 moldy corn samples was in the range of 470 to 5,826 ppb (mean, 2,359 ppb). High levels (3.7 to 5.0 mg/g) of FB1 were produced in corn in the laboratory by five Fusarium moniliforme strains isolated from the moldy corn. These fungi were also capable of forming various nitrosamines (5 to 16 micrograms per flask) in the presence of nitrate and precursor amines.(ABSTRACT TRUNCATED AT 250 WORDS)     

T-2 and HT-2 toxin analysis in cereals and cereal products following IAC cleanup and determination via GC-ECD after derivatization

The authors present a new and sensitive method for the determination of T-2- und HT-2 Toxin in cereals and cereal products in the low ppb level. A representative part of the cereal sample is extracted with a mixture of methanol-water (90:10) and the extract is cleaned on the commercially available immunoaffinity column T-2test™ (IAC), eluted with methanol, derivatized by pentafluorpropionic anhydride (PFPA) and measured on a GC-ECD. The method has been successfully validated on wheat, rye and oats. The recovery rates with wheat and rye endowed on a level of 50 ppb and with 85 ppb naturally contaminated oats were 71–115% with a coefficient of variation of 5.7–19.5%. The detection limits of the method with a signal to noise level of 3:1 were 1.5–2.3 μg/kg for HT-2 and 1.1–1.7 μg/kg for T-2 toxin. Financial support: Federal Ministry of Food and Agriculture (part of the project 05HS 001 — Improvement and validation of type A trichothecene (T-2 toxin and HT-2 toxin) analysis and occurrence of these mycotoxins in food marketed in Germany)     

Simultaneous occurrence of deoxynivalenol, zearalenone, and aflatoxin in 1982 scabby wheat from the midwestern United States.

Thirty-three samples of wheat of the 1982 crop year from Kansas and Nebraska were analyzed for deoxynivalenol, T-2 toxin, zearalenone, and aflatoxin. Deoxynivalenol was identified in 31 of 33 samples, zearalenone was identified in 3 of 33 samples, and aflatoxin B1 was identified in 23 of 31 samples. One 1982 wheat sample from Illinois and one from Texas were also contaminated with deoxynivalenol at 1,200 and 600 ng/g, respectively. None of the samples contained detectable T-2 toxin. The mean concentration of deoxynivalenol was 1,782 +/- 262 ng/g, and the concentrations of aflatoxin B1 ranged from 0.8 to 17.0 ng/g, with a mean of 3.37 +/- 0.7. Zearalenone concentrations of the three positive samples were 35, 90, and 115 ng/g. However, density segregation of two other samples which tested negative yielded light fractions, comprising less than 2% of the samples, contaminated at 230 and 254 ng of zearalenone per g; calculated zearalenone concentrations for these two samples were below the limit of detection of the method. The high frequency of aflatoxin B1 and deoxynivalenol in wheat from the 1982 crop is unprecedented, as is the simultaneous contamination of some samples with deoxynivalenol, zearalenone, and aflatoxin B1.     

Simultaneous occurrence of deoxynivalenol, zearalenone, and aflatoxin in 1982 scabby wheat from the midwestern United States

Thirty-three samples of wheat of the 1982 crop year from Kansas and Nebraska were analyzed for deoxynivalenol, T-2 toxin, zearalenone, and aflatoxin. Deoxynivalenol was identified in 31 of 33 samples, zearalenone was identified in 3 of 33 samples, and aflatoxin B1 was identified in 23 of 31 samples. One 1982 wheat sample from Illinois and one from Texas were also contaminated with deoxynivalenol at 1,200 and 600 ng/g, respectively. None of the samples contained detectable T-2 toxin. The mean concentration of deoxynivalenol was 1,782 +/- 262 ng/g, and the concentrations of aflatoxin B1 ranged from 0.8 to 17.0 ng/g, with a mean of 3.37 +/- 0.7. Zearalenone concentrations of the three positive samples were 35, 90, and 115 ng/g. However, density segregation of two other samples which tested negative yielded light fractions, comprising less than 2% of the samples, contaminated at 230 and 254 ng of zearalenone per g; calculated zearalenone concentrations for these two samples were below the limit of detection of the method. The high frequency of aflatoxin B1 and deoxynivalenol in wheat from the 1982 crop is unprecedented, as is the simultaneous contamination of some samples with deoxynivalenol, zearalenone, and aflatoxin B1.     

Natural contamination with mycotoxins in forage maize and green coffee in Nayarit State (Mexico)

The presence of mycotoxins in forage maize (zearalenone, fumonisin B1, T-2 toxin and diacetoxyscirpenol) and green coffee (ochratoxin A) from Nayarit State (Mexico) has been studied. All maize samples analyzed showed fumonisin B1 contamination, with an average concentration of 2,541 microg/kg. Fifteen percent of the samples contained zearalenone, with an average concentration of 1,610 microg/kg. Only one sample showed T-2 toxin contamination (7 microg/kg), and no diacetoxyscirpenol was detected. Sixty-seven per cent of green coffee samples were contaminated with ochratoxin A, with an average concentration of 30.1 microg/kg. This is the first study about mycotoxins developed in Nayarit and it has shown that mycotoxin contamination is a real problem in both foodstuffs studied.     

Mycobiota and mycotoxins in fermented feed,wheat grains and corn grains in Southeastern Buenos Aires Province,Argentina

Wheat (as bran) and corn (as dry grain or fermented feed) are main ingredients of feedstuffs used in local cattle and pig farms in the South of the Buenos Aires Province (Argentina). Therefore, determining mycobiota and mycotoxins in wheat and corn is of prime importance for developing feed management techniques to optimise animal production and to minimize toxicity. Then, a mycological survey was carried out in the Southeastern part of the Buenos Aires Province, in order to identify the mycobiota and the main mycotoxins present in fermented feed, wheat grain and corn grain samples. Samples were cultured for fungal quantification, isolation and identification, and analysed for deoxynivalenol (DON), zearalenone (ZEA), T-2 toxin and aflatoxins (AFLA). Penicillium (74%), Aspergillus (32%) and Scopulariopsis (21%) were the prevalent genera in fermented feed. Penicillium (70%), Fusarium (47%) and Aspergillus (34%) were the most frequent fungi isolated from corn. Penicillium (42%), Fusarium (27%) and Alternaria (25%) were the most frequently recovered genera from wheat. DON was detected in 59% of the corn samples, in 45% of the wheat samples and in 38% of the silage samples. ZEA was detected in 36% of the corn samples, in 49% of the wheat samples and in 16% of the silage samples. T-2 toxin and aflatoxin B1 were each detected in 4% of the corn samples. Eighteen percent of the fermented feed samples showed T-2 contamination. Fermented feed and wheat samples were negative for AFLA.     

Dipstick enzyme immunoassay to detect Fusarium T-2 toxin in wheat.

A dipstick enzyme immunoassay for the rapid detection of Fusarium T-2 toxin in wheat was developed. An Immunodyne ABC membrane was precoated with rabbit anti-mouse immunoglobulins. After the strips were immersed in a solution of monoclonal anti-T-2 toxin antibodies, a direct competitive enzyme immunoassay was performed. This assay included the incubation of the antibody-coated dipsticks in a mixture of sample and T-2 toxin-horseradish peroxidase conjugate. Afterwards, the strips were placed in a chromogen-containing substrate solution (H202-3,3',5,5'-tetramethylbenzidine) for color reaction. The dot color intensity of toxin-positive dipsticks was visually distinguishable from that of the negative control. A portable colorimeter was used to confirm and quantify the visual observations. With coated strips, the tests could be performed in 45 min. The visual detection limit for T-2 toxin in buffer solution was 0.25 ng/ml. Artificially infected wheat samples were extracted with 80% methanol-water. A dilution of the raw extract of 1:8 was sufficient to avoid matrix effects. It was possible to make visually a clear distinction between the negative control and a wheat extract spiked with 12 ng/g.