Screening for Plant Toxins in Honey and Herbal Beverage by Ultrahigh-Performance Liquid Chromatography-Ion Mobility-Quadrupole Time of Flight Mass Spectrometry

The standards of plant toxins were separated by a C18 column with gradient elution with 0.1% formic acid/water (V/V) and 0.1% formic acid/acetonitrile (V/V) as mobile phase and acquired by ion mobility-quadrupole time of flight mass spectrometry (IM-QTOF MS) in positive ion mode. A database of 308 plant toxins including retention time, collision cross-section (CCS) and its fragment ions was established. Honey dissolved in water or herbal beverage was extracted by acetonitrile and purified with PSA sorbent, and then acquired by ultrahigh-performance liquid chromatography IM-QTOFMS. The acquired data were processed by comparing with the database we established to confirm the target compounds. The average recoveries for samples at two levels ranged from 60.6% - 120.1%, with relative standard deviation (n = 6) less than 25%. The limit of quantitation for plant toxins ranged from 1 - 20 μg/kg. The developed screening method was used in determination of honey, herbal beverage and honey flavored tea beverage samples. The results showed that berberine was detected in one honey with 1 μg/kg and caffeine was present in some beverages with the concentration from 200 and 5500 μg/kg. This method could meet the requirement for rapid screening of plant toxins in honey and herbal beverage. It can be used for the quality control of honey and herbal beverage in enterprises or quality inspection departments. It also can be used in the rapid screening of food poisoning.

Identification of Damage on Different Plants Caused by Botrytis cinerea and its Extracellular Macromolecular Toxin

With Bowytis cinerea and its extracellular macromolecular toxins as the test materials, 30 speiees of plants belonging to 29 genera and 21 families were selected as the test plants to observe the infectivity of B. dnerea and damage status of macromolecular toxins secreted by B. cinerea on plants. The resulsts showed that 17 species of plants were beth infected by B. cinerea and damaged by toxins, accounting for 56.7% of the total plants. Two species of plants could be neither infected by B. cinerea nor damaged by toxins. The study provided the reference for further understanding of pathogenic mechanism of plant pathogenic fungi toxins.

Antimicrobial Effects of Plant Compounds against Virulent <i>Escherichia coli</i>O157:H7 Strains Containing Shiga Toxin Genes in Laboratory Media and on Romaine Lettuce and Spinach

Escherichia coli strains produce Shiga-toxins Stx-1 and Stx-2 that contribute to their virulence. The objective was to evaluate antimicrobial activities of plant essential oils (oregano, cinnamon, lemongrass), their active components (carvacrol, cinnamaldehyde, citral) and plant-extracts (green tea polyphenols, apple skin, black tea, decaffeinated black tea, grapeseed and pomace extracts) against E. coli O157:H7 strains containing Stx-1 and Stx-2 genes, as determined by Multiplex Polymerase Chain Reaction, in vitro and on leafy greens. Antimicrobials at various concentrations in sterile PBS were added to bacterial cultures (~3 - 4 logs CFU/ml), mixed thoroughly, and incubated at 37°C. Surviving bacteria were enumerated at 0, 1, 3, 5 and 24 h. The most effective essential oil (oregano oil;0.5%) and plant extract (green tea;3%) were evaluated against E. coli O157:H7 on romaine lettuce and spinach stored at 4°C for 7 days. Microbial survival was a function of the concentration of antimicrobials and incubation times. All antimicrobials reduced bacterial population to below detection levels in vitro;however, essential oils and active components exhibited greater activity than plant extracts. Oregano oil and green tea reduced E. coli O157:H7 on lettuce and spinach to below detection. Plant-based antimicrobials have the potential to protect foods against E. coli O157:

Global Challenges and Solutions in the Early Warning,Monitoring and Toxicity Assessment of Biotoxins in the Food and Feed Chain

There is a massive and urgent need to ensure safety and security of the food supply of the world´s growing population.However,global agriculture and food industries continue to be vulnerable to problems of contamination with biotoxins produced by plants,algae and particularly by fungi;with global warming and extreme weather events making the occurrence of these toxic metabolites even more unpredictable.In this paper we summarize the multidisciplinary,multi-sectoral complementary competencies needed to innovate in various scientific fields and approaches,so strongly needed to develop improved early warning,monitoring and toxicity assessment of biotoxins in the food and feed chain.These include big data approaches using satellite and drone images,portable monitoring devices and(combined)toxicity testing of(emerging)biotoxins using proteomics and transcriptomics.

土壤真菌群落和潜在功能对施加外源Bt毒素的响应

转Bt(Bacillus thuringiensis)基因植物和Bt重组菌生物农药释放的Bt毒素是一类具有生物毒性的潜在环境外源污染物,Bt毒素环境行为和生态效应是转基因植物和植物用转基因微生物安全风险评价的重要内容,但是外源Bt毒素对土壤真菌群落和潜在功能的影响还不清楚。以施加不同浓度Bt毒素处理土壤和未施加Bt毒素对照土壤为研究对象,分析Bt毒素在土壤中的持留动态;同时采用真菌18S rRNA基因高通量测序技术,分析施加Bt毒素对土壤真菌群落和功能多样性的影响。结果表明,Bt毒素施加量和培养时间均可以显著影响土壤真菌群落组成,且随着Bt毒素施加量增加和土壤培养时间延长,土壤真菌群落差异性逐渐变大。施加Bt毒素提高了土壤真菌群落香农指数和关联网络的负相关性比例及模块数,因而没有对土壤真菌群落的多样性和稳定性产生负面影响。上述结果表明,评估Bt毒素的环境行为及微生态效应要关注Bt毒素施加量及其长期影响。随着Bt毒素施加量增加,Phymatotrichopsis、Homalogastra、Geosmithia和Apiotrichum等真菌以及参与蛋白质降解、碳素代谢和磷素代谢的功能基因编码酶相对丰度显著升高,推测上述真菌物种和潜在功能参与了Bt毒素在土壤中的降解和转化过程。研究结果为转Bt基因植物、Bt重组菌生物农药以及Bt毒素的生态安全风险评价提供了科学参考和理论依据。

超高效液相色谱-串联质谱法测定食用植物酵素中33种真菌毒素

该实验基于超高效液相色谱-串联质谱法建立了一种准确、高效测定食用植物酵素中33种真菌毒素的分析方法。样品用溶剂[V(乙腈)∶V(水)∶V(甲酸)=79∶20∶1]提取,分散固相萃取(QuEChERS)净化,浓缩富集后用定容溶液复溶,样液经C18反相色谱柱(2.1 mm×100 mm,1.7μm)分离,以乙腈和0.1%(体积分数)甲酸水溶液作为流动相梯度洗脱,采用电喷雾离子源(electrospray ionization,ESI)多反应监测(multiple reaction monitoring,MRM)扫描模式,同时对正、负离子进行采集,阴性基质配制外标法定量。结果表明,33种真菌毒素在各自的线性范围内的决定系数(R^(2))均大于0.980,回收率为60.9%~119.4%,相对标准偏差为6.9%~14.9%。该方法具有前处理操作简单、定性定量准确、通量高等特点,可以用于食用植物酵素中33种真菌毒素的检测。

链格孢属真菌对农作物的危害

链格孢属(Alternaria)真菌是农作物的主要致病菌之一,它能引起包括玉米、小麦、烟草、马铃薯、番茄、苹果、梨等几十种农作物发病.其发病机理主要是由病菌的代谢产物———毒素导致的.由于毒素的作用使农作物产生各种症状,如黑斑病、褐斑病、茎枯病、赤星病等等,严重影响了农作物的产量,给我国农业生产带来了巨大损失.

蜂蜜中植物源性毒性成分的研究进展

蜂蜜是天然的甜味剂、膳食补充剂,有广泛的药用功效,但与欧美等国家相比,我国在食用蜂蜜中毒机制及毒性成分阐明上还有待进行深入的研究。本文对我国食用蜂蜜中毒事件、临床症状、中毒原因、植物源性毒性成分及其毒性等进行综述,为开展蜂蜜中植物源性毒性成分研究及提升蜂蜜安全标准提供参考。

植物毒素免疫研究现状

植物毒素学和免疫学结合,以研究动物中毒性疾病的发生机理、诊断和防治,是一个全新的交叉性研究领域。就植物毒素免疫的免疫学基础、植物毒素人工抗原的研究和植物毒素免疫的临床研究及应用进行了综述。

植物病原真菌毒素研究进展

综述了近年来有关植物病原真菌毒素的研究进展 ,对产毒真菌的种类和毒素的化学类别 ,病原真菌的产毒培养条件、毒素的提取纯化以及结构鉴定方法 ,毒素的 3种检测途径与致病机理 。

转基因植物释放Bt毒素的土壤环境行为与生物学效应

Bt(Bacillus thuringiensis)杀虫晶体蛋白基因是植物抗虫基因工程中应用最广泛的基因,随着大批转Bt基因作物的商品化,Bt毒素对土壤生态系统的影响已引起了人们的高度关注。本文对转基因植物释放Bt毒素的土壤环境行为与生物效应进行了综述,包括Bt毒素蛋白进入土壤的途径、在土壤中的运动、与土壤颗粒的结合与存留及其对土壤生物和土壤酶的影响。

转基因烟草中Bt毒蛋白基因的表达行为

构建了高效植物表达载体pBinMoBc ,该载体携带超强表达复合启动子OM及Ω因子控制下的CryIA(c)基因。采用根癌土壤杆菌 (Agrobacteriumtumefaciens (SmithetTownsend)Conn)介导的方法转化烟草 (NicotianatabacumL .) ,ELISA检测表明 ,大多数转基因烟草中CryIA(c)基因表达量均超过 0 .1% ,最高可达 0 .2 5 5 % ;转基因烟草中CryIA(c)基因表达水平与植株发育的时间和空间有关。抗虫检测结果表明 ,转基因烟草具有很强的抗棉铃虫 (He liothisarmigevaHubner)效果。上述结果表明 ,pBinMoBc是一个高效抗虫植物表达载体。

毛竹枯梢病病原菌产毒条件及其对植物的影响

从患毛竹枯梢病病竹上分离出 9个菌株 ,其培养滤液对高粱、玉米、水稻的胚根、胚芽均有一定的抑制作用 ,而且其毒素对各作物胚根的抑制作用大于对胚芽的抑制作用 ;毒素对油菜的胚芽、胚根没有抑制作用 ,而高粱较其他几种作物对该病原菌的毒素更敏感 .接种毛竹也可产生典型的症状 ,证明该病原菌可产生一种毒素 .PSB培养液适于菌株生长 ,而改良 Fries培养液适于毒素的产生 .适于菌株生长和产毒的温度为 2 5℃ ,p H值为 6 .通气有利于毒素的产生 ,但对菌株生长影响不明显 .用改良 Fries培养液培养的菌株在第 10天出现生长高峰 ,在第 12天产毒最多 .光照处理对菌株生长影响很小 ,但在连续黑暗条件下 ,有利于产毒 .

微囊藻粗毒素对大鼠肝细胞DNA合成和损伤的影响

采用大鼠肝细胞复制期DNA合成(RDS)和程序外DNA合成(UDS)试验,测试了由太湖、巢湖和淀山湖中有毒蓝藻提取的微囊藻粗毒素对细胞中DNA合成和损伤的影响。结果发现,各点样品均可不同程度地促进细胞DNA合成,但未对DNA造成直接的损伤作用。提示这些毒素可能是环境中的非基因毒性促癌物。

液相色谱-串联质谱法测定血中4种食源性植物毒素

采用液相色谱-串联质谱法测定血中毒芹碱、金雀花碱、秋水仙碱和α-茄碱等4种食源性植物毒素的含量。0.2mL血样用0.8mL乙腈去除血红蛋白,离心后,上层清液经0.22μm有机系微孔滤膜过滤。以Hypurity C_(18)色谱柱为分离柱,0.2%(体积分数)乙酸溶液(含有5mmol·L^(-1)乙酸铵,pH为4.0)和甲醇(20+80)的混合液为流动相进行等度洗脱,串联质谱分析中采用全扫描和选择反应监测模式。4种食源性植物毒素的质量浓度均在5.0～500μg·L^(-1)内与其对应的峰面积呈线性关系,检出限(3S/N)均为2.0μg·L^(-1),测定下限(10S/N)均为5.0μg·L^(-1)。在50,200,500μg·L^(-1)等3个浓度水平进行加标回收试验,回收率为84.5%～111%,测定值的相对标准偏差(n=5)为1.5%～6.2%。

蓝藻毒素影响植物生长发育及其机制研究进展

随着工农业生产的发展,工业废水以及生活污水等导致水体富营养化日益加剧。在适宜的条件下,富营养化水体中的蓝藻可在短时间内迅速繁殖并聚集形成蓝藻水华,某些水华蓝藻能产生蓝藻毒素。蓝藻毒素不仅会对植物和水生动物的生长发育产生影响,而且会对人类的健康产生潜在危害。文章介绍了蓝藻毒素及其危害,重点围绕蓝藻毒素对植物生长发育的影响及其机理的研究状况进行了综述,为进一步研究蓝藻毒素影响植物生长发育机制提供信息。国内外的研究表明,蓝藻毒素影响许多植物的种子发芽、根系和地上部的生长,并在植物组织中积累,从而影响植物的产量和品质。蓝藻毒素影响植物生长发育的机理研究主要集中在组织结构损伤、蛋白磷酸酶的抑制、氧化胁迫和DNA损伤等方面,但传统的研究方法难以揭示植物复杂的蓝藻毒素胁迫响应机制,今后应加强分子生物学新技术(如芯片技术和深度测序技术等)在植物蓝藻毒素胁迫响应机制研究中的应用。

病原菌毒素对植物的致病作用

病原菌在侵染植物的过程中产生的毒素一向被认为是致病的重要因子 ,然而对毒素致病作用的确定却是一个复杂的问题。毒素在一般生物测定中表现出来的对植物组织的伤害与破坏作用并不一定代表其具备致病力的密切相关 。

表达苏云金杆菌δ-内毒素基因的转基因烟草的抗虫性

苏云金杆菌(Bacillus thuringiensis)HD-1的δ-内毒素基因原始克隆TH12和TH48分别含有5.3kb和6.6kb型两类同源异族基因。经定点突变改造其5′端,酶切对3′端进行缺失后,在大肠杆菌中仍能表达出有杀虫活性的被修饰的毒蛋白。将上述加工过的基因插入到双元载体pBin437(pBin19的派生质粒)中,借助辅助Ti质粒pAL4404转入烟草,获得了抗卡那霉素的再生植株。经Southern印迹和狭槽印迹(Slot blot)杂交证明有1—5个拷贝的毒素基因整合至烟草染色体中。Northern印迹法分析结果表明这两类基因都在转基因植株中得到表达。有4株5.3kb类型,3株6.6kb类型的转基因植株对烟青虫有高抗性,与对照相比,这7株转基因烟草植株的杀虫率可达40—50%,并能显著抑制昆虫蜕皮和生长发育,表现明显的抗虫作用。结果表明这两类毒蛋白基因都可在植物中表达并赋于转基因植株以抗虫性。

苯甲酸在松材线虫病中的作用

在室内条件下,初步研究苯甲酸对松树和松材线虫病的作用。用不同浓度的苯甲酸溶液分别处理松枝,显示低浓度苯甲酸溶液能显著延长松枝的存活期,高浓度苯甲酸溶液处理的松枝针叶出现褐变现象,但对松枝的存活期没有影响,其症状与松材线虫病不同。分别用1.0mmol.L-1的苯甲酸溶液和自来水培养接种松材线虫的松枝,在用苯甲酸溶液处理的接种松枝中,虽然松材线虫仍能大量增殖,但与用自来水培养的接种松枝相比,其蒸腾强度显著增强,失水萎蔫程度显著降低,存活期显著延长,这说明苯甲酸在松材线虫病树中可能起着抑制与病害相关的致病菌或提高松树抗病能力的作用。

茄子黄萎病菌毒素液对茄根部细胞膜透性影响

本试验用茄子黄萎病菌 (Verticillium dahliae)培养滤液测试了病菌毒素蛋白对茄根部细胞膜透性的影响 ,结果表明 ,茄幼苗用病菌培养滤液处理后 ,其根部细胞膜透性随处理时间延长及毒素浓度的增加而增大 。