南疆三地棉铃虫田间种群对Bt棉的抗性频率监测

为了监测南疆主要Bt棉区棉铃虫田间种群对Bt棉的抗性频率,分别采集库尔勒、阿克苏、泽普三地的棉铃虫单雌系,以Bt毒蛋白作为人工饲料,采用单雌系F1代法进行棉铃虫田间种群抗性个体检测.本文从库尔勒、阿克苏、泽普三地分别筛选了57个、106个、92个棉铃虫单雌系.三地棉铃虫单雌系幼虫在正常饲料和Cry1Ac饲料上的平均发育...     

小菜蛾对Bt毒素Cry1Ac和Bt制剂抗性的选育及其抗性种群的生物学适应性

用Bt制剂和Bt毒素Cry1Ac分别对源自深圳田间的小菜蛾Plutella xylostella在室内进行抗性种群选育,获得相对抗性倍数分别为24.36、38.16倍的抗性种群DBM.1Ac-R30和DBM.Bt-R46。对这2个抗性种群及其敏感种群（DBM.Bt-S）的生长发育、存活及繁殖特征进行了详细地观察与比较,并以甘蓝为饲喂材料构建了2个抗性实验种群的生命表。结果表明,DBM.1Ac-R30和DBM.Bt-R46种群较DBM.Bt-S种群的产卵量和孵化率下降,幼虫发育历期延长,雌雄比显著降低,雌成虫数量、寿命减少。DBM.1Ac-R30和DBM.Bt-R46种群相对于DBM.Bt-S种群的相对适合度分别为0.75和0.65,抗性种群在繁殖能力上存在明显的生存劣势。     

Cry1Fa对Cry1Ac抗性棉铃虫的毒力评价

为了防治多种鳞翅目害虫, 表达Cry1Fa的转基因玉米和棉花已在美国商业化种植。明确棉铃虫Helicoverpa armigera对Cry1Fa与Cry1Ac的交互抗性及这两种杀虫蛋白之间的协同作用, 可以为表达 Cry1Fa+Cry1Ac的转双价抗虫棉花的合理应用提供依据。本实验测定了Cry1Fa对棉铃虫敏感品系（96S）及用Cry1Ac筛选的抗性品系（BtR, 抗性倍数2 194.15倍）的毒力, 发现Cry1Fa对敏感棉铃虫的毒力远低于Cry1Ac, LC₅₀值是Cry1Ac的504.80倍; 而且抗性品系BtR对Cry1Fa存在19.98倍的交互抗性。Cry1Fa与Cry1Ac混用可以提高Cry1Fa毒杀敏感棉铃虫的效果, 尤其是Cry1Fa浓度较低时, 加入Cry1Ac, 可以显著增加Cry1Fa的毒力; 但只有加入较高浓度的Cry1Fa时才能增加Cry1Ac的毒力。由于BtR品系已经对Cry1Ac产生抗性, Cry1Ac对抗性棉铃虫的毒力明显降低; 在较高浓度的Cry1Ac中加入Cry1Fa可以显著增加棉铃虫的死亡率（P=0.0015, F=6.88, df=6）, 但最高死亡率仅为58.33%。D-饱和最优试验的结果证实, Cry1Ac对于敏感棉铃虫的死亡率的影响达到显著水平（t₁=13.76﹥t_0.05）, Cry1Ac与Cry1Fa的交互作用对毒力的影响也达到显著水平（t₂₂=2.42﹥t_0.05; t₁₁=6.95﹥t_0.05; t₁₂=3.43﹥t_0.05）。Cry1Ac和Cry1Fa对抗性棉铃虫死亡率的影响都达到显著水平（t₁=3.03﹥t_0.05;t₂=2.59﹥t_0.05）, 但Cry1Ac是决定抗、 感棉铃虫死亡率的关键因素; Cry1Ac与Cry1Fa最佳浓度配比范围都是1.41~2.10 μg/cm2; 在抗性品系中, Cry1Ac和Cry1Fa的交互作用不显著。所以, 尽管Cry1F+Cry1A作物扩大了杀虫谱, 但棉铃虫对这两种蛋白存在交互抗性, 而且这两种蛋白混用对治理抗Cry1Ac棉铃虫的效果不理想, 因此不建议在中国种植表达Cry1F+Cry1A的棉花。关     

盐城棉区棉铃虫田间种群对Bt蛋白的抗性基因频率

【背景】转Bt基因抗虫棉已经在我国进行了近20年的大规模商业化种植,产生了显著的经济和环境效益。但是,靶标害虫棉铃虫的抗性是转Bt基因抗虫棉产业健康发展所面临的最大问题,而抗性监测是解决这一问题的必要管理措施。盐城市是江苏省转基因抗虫棉的主产区,但有关该地区棉铃虫对转Bt基因抗虫棉的抗性基因频率未见报道。【方法】于2012年在盐城三龙镇和东台镇棉区采集田间棉铃虫种群,检测了初孵幼虫对花铃期转Bt基因抗虫棉中30幼嫩叶片的敏感性,用区分剂量法检测了2龄幼虫对Bt蛋白的抗性基因频率。【结果】取食转Bt基因抗虫棉叶片后,棉铃虫初孵幼虫在9 d内全部死亡;三龙镇和东台镇棉铃虫2龄幼虫对Bt蛋白的抗性基因频率分别为7.6×10-3和6.9×10-3。【结论与意义】目前,盐城棉区的棉铃虫对转Bt基因抗虫棉仍保持很高的敏感性,棉铃虫种群对Bt蛋白的抗性基因频率没有发生显著变化,但仍需持续监测。     

新疆棉区田间棉铃虫种群对Bt Cry1Ac毒蛋白的敏感性研究

为了明确新疆棉区棉铃虫Helicoverpa armigera(Hübner)种群对Bt Cry1Ac毒蛋白的敏感性变化,本次研究采用单雌系F1/F2代诊断剂量法于2013-2019年连续监测了新疆库尔勒市棉铃虫种群对Cry1Ac毒蛋白的抗性频率以及种群敏感度的变化.结果表明,2013-2019年新疆库尔勒市棉铃虫种群...     

F1代法监测田间棉铃虫对转Bt基因棉的抗性

采用表达单价Cry1Ac毒素的转Bt基因棉棉叶喂饲法比较了棉铃虫Helicoverpa armigera(Hübner)抗、感亲本及正反交后代在Bt棉上5 d的发育速率,确定棉铃虫在Bt棉上5 d发育到2龄中期以上、体重≥0.6 mg的个体作为判别抗性纯合子的标准。2006年采用F₁代法在室内用Bt棉叶喂饲法检测河北省邱县Bt棉田棉铃虫对Bt棉的抗性等位基因频率。结果表明,127头田间雄虫中24头携带抗性基因,估测抗性等位基因频率为0.94（95%CI：0.044～0.145）,该值为在国内首次检测到的高抗性等位基因频率。该地区长期大面积种植转单价Bt棉和缺少非Bt棉作为有效庇护区导致田间抗性快速进化,需要尽快采取有效的抗性治理策略。本文还讨论了影响大田产生抗性的因素以及田间存在的抗性风险等。     

转Cry1Ac+Cry2Ab棉对棉铃虫的控制作用及对天敌捕食烟粉虱功能反应的影响

文章以转Cry1Ac基因棉(中棉所41)和常规棉(中棉所49)为对照,研究了转Cry1Ac+Cry2Ab基因棉(639020)在棉花生长的关键时期——蕾期(二代棉铃虫发生期)、花期(三代棉铃虫发生期)和花铃期(四代棉铃虫发生期)对棉铃虫的控制作用,同时研究了639020棉田主要捕食性天敌(中华草蛉幼虫、龟纹瓢虫、小花蝽和草间小黑蛛)对烟粉虱的捕食功能,明确了639020棉花在生长的关键时期对棉铃虫的控制效果及对棉田主要捕食性天敌捕食功能反应的影响。结果表明,639020棉花对二代和三代棉铃虫具有良好的控制作用,抗虫性分别比中棉所41提高了52.85%和16.22%,其中前者差异达显著水平,后者差异不显著。在棉花蕾期、花期和花铃期,639020棉田棉铃虫落卵量都比中棉所41棉田和中棉所49棉田低(除二代棉铃虫发生期);棉铃虫幼虫数量都极显著低于常规棉,且都低于防治指标,但与中棉所41棉田无显著差异。639020棉田中华草蛉、龟纹瓢虫、小花蝽和草间小黑蛛对烟粉虱的捕食功能与中棉所41棉田和常规棉田相比无显著变化。研究结果以期为新型转基因棉花环境安全性研究及其外源基因的抗虫遗传效应和生产应用前景进行安全性评价。     

棉铃虫对转Bt基因棉的抗性筛选及遗传方式的研究

通过室内筛选获得了棉铃虫Helicoverpa armigera (Hübner)对转Bt基因棉的抗性种群,并在此基础上进行了抗性遗传方式的研究。试验结果表明：经16代筛选,棉铃虫对转Bt基因棉的抗性倍数上升到43.3倍。筛选过程中,棉铃虫7日龄幼虫的体重和成虫羽化率变化明显,被选为确定筛选剂量的标准。敏感与抗性棉铃虫杂交,正交、反交的显性度都小于0、杂交过程中雌雄性比基本接近1∶1、假设抗性基因为单基因时的χ²值较低,因此,初步认为棉铃虫对转Bt基因棉的抗性是常染色体单基因控制的不完全隐性遗传。     

棉铃虫对转Bt基因棉的抗性及其治理策略研究进展棉铃虫对转Bt基因棉的抗性及其治理策略研究进展

简述了苏云金杆菌Bacillus thuringiensis（Bt）毒素的作用方式及杀虫机理,分析了Bt棉种植过程中面临的生态风险。综述了昆虫对Bt毒素的抗性机理、监测方法及治理策略方面的研究进展。棉铃虫对Bt棉的抗性可能主要与中肠上皮细胞膜上的特异性结合受体中结合位点的改变有关。在多种抗性治理策略中,庇护所策略被公认为是目前最有效的并已广泛采用的抗性治理措施。应针对Bt棉在我国的种植情况,在棉铃虫还未在田间表现出抗性以前,制定合理的抗性预防、治理措施。     

转Bt基因棉花中Cry1Ac蛋白经烟粉虱途径向龟纹瓢虫的传递

【目的】烟粉虱Bemisia tabaci是转基因棉的非靶标害虫,对棉花生产造成严重影响。本文探讨转Bt基因棉花中Cry1Ac蛋白在棉花-烟粉虱-龟纹瓢食物链中的传递规律,以期为转基因棉的环境安全评价提供科学依据。【方法】在实验室条件下,以常规棉SM3号、33、SY321为对照,分析转Bt基因棉花GK12、XM33B、SGK321叶片、在这些棉花上取食的烟粉虱、以及捕食烟粉虱的瓢虫体内Cry1Ac蛋白含量。同时,将取食转Bt基因棉花上的烟粉虱的瓢虫转接到对应的受体亲本棉花上,分析瓢虫体内Cry1Ac蛋白含量变化规律。【结果】在转Bt基因棉花上取食的烟粉虱成虫和若虫以及它们的蜜露中均能检测到Cry1Ac蛋白,以转Bt基因棉花上的烟粉虱若虫为食料的龟纹瓢虫体Propylaea japonica内也能检测到Cry1Ac蛋白。龟纹瓢虫取食转Bt基因棉花上的烟粉虱若虫1 d后体内即能检测到Cry1Ac蛋白,并且随着取食时间的延长,体内Cry1Ac蛋白的含量逐渐增加,但到第6~8天后Cry1Ac蛋白的含量相对稳定。取食3个不同品种棉花上烟粉虱若虫的龟纹瓢虫体内Cry1Ac蛋白的含量存在明显差异,这种差异与棉花叶片上表达的Cry1Ac蛋白量呈正相关。但取食后6 d,在3个品种棉花上取食的龟纹瓢虫体内的Cry1Ac蛋白含量之间没有明显的差异。以转Bt基因棉花上的烟粉虱若虫为食料的龟纹瓢虫转移到对应的常规棉亲本上以后,体内的Cry1Ac蛋白的含量迅速下降,但10 d后仍能检测到微量的Cry1Ac蛋白。【结论】转Bt基因棉花中的Cry1Ac蛋白可以通过烟粉虱途径传递到龟纹瓢虫体内,龟纹瓢虫对食料中的Cry1Ac蛋白具有富集作用,并且Cry1Ac蛋白的富集存在饱和现象,富集饱和量与食料中的Cry1Ac含量无关;龟纹瓢虫脱离含有Cry1Ac蛋白的食料环境后,体内的Cry1Ac蛋白可以消减,但在10 d时间内龟纹瓢虫体内仍会有Cry1Ac残留。     

Increasing tolerance to Cry1Ac cotton from cotton bollworm, Helicoverpa armigera, was confirmed in Bt cotton farming area of China

Abstract.  1. Changes in the frequency of Cry1Ac resistance genes and shifts in tolerance of cotton bollworm, Helicoverpa armigera , to the Cry1Ac toxin were assessed using bioassays of F₁ and F₂ offspring of isofemale lines from Anci County of Hebei Province (a multiple-crop system including corn, soybean, peanut, and Bt cotton) and Xiajin County of Shandong Province (an intensive Bt cotton planting area) in Northern China during 2002–2005.
2. A conservative analysis of the overall results indicated that there was a small increase in the frequency of major, non-recessive resistance genes over time.
3. The relative average development ratings [RADR – growth rate of a line on a Bt diet in proportion to the growth rate on a non-Bt (NBT) diet] of the bollworm larvae in F₁ tests increased significantly from year to year, indicating a gradual trend towards higher tolerance to Cry1Ac in the field populations.
4. There were also significant positive correlations between RADR of the lines in the F₁ generation and the RADR of their F₂ offspring, indicating that the tolerance was genetically based.
5. Quantitative genetic simulation analysis showed that resistance of H . armigera to Bt cotton in Xiajin could evolve to a high level in 11–15 years if no effective resistance management measures are carried out.     

Proteomic analysis of BBMV in Helicoverpa armigera midgut with and without Cry1Ac toxin treatment

The crystal proteins of Bacillus thuringiensis (Bt) are widely used for insect control. Helicoverpa armigera is the model insect for Bt studies. In this study, brush border membrane vesicle (BBMV) proteins from fifth instar larvae of Helicoverpa armigera were prepared, and proteomic approaches based on two-dimensional (2D) gel electrophoresis and mass spectrometry were used to elucidate changes in BBMV proteins with and without Cry1Ac toxin treatment. Sixty-one protein bands separated by 1D electrophoresis were cut out from the gel for tryptic digestion and were detected with molecular mass spectrometry (ESI-Q-TOF) and High Capacity Ion Trap Ultra (HCT Ultra). BBMV proteins of interest separated by 2D electrophoresis were excised and digested with trypsin, and the resulting peptides were analyzed by mass spectrometry. Mass fingerprints were compared with the non-redundant NCBI Metazoa (Animals) database. We found a noticeable increase in the level of aminopeptidase N (APN) that is important for detoxification reactions. Additionally, a significant decrease in the level of trypsin-like protease is important during early responses and adaptation of the insect to Bt and exposure to its toxins. Furthermore, the increase in V-ATPase subunits indicate elevated cellular energy profile which is necessary to combat toxin stress. The increased level of actin in larvae provides immediate protection by strengthening the midgut epithelium and enhancing cellular defenses in the tissue. This study presents the differences in the BBMV proteins of Helicoverpa armigera with and without Cry1Ac toxin treatment, and provides a theoretical basis for research on the mechanism of action of Bt toxin.     

Mutated cadherin alleles from a field population of Helicoverpa armigera confer resistance to Bacillus thuringiensis toxin Cry1Ac

The cotton bollworm Helicoverpa armigera is the major insect pest targeted by cotton genetically engineered to produce the Bacillus thuringiensis toxin (transgenic Bt cotton) in the Old World. The evolution of this pest's resistance to B. thuringiensis toxins is the main threat to the long-term effectiveness of transgenic Bt cotton. A deletion mutation allele (r(1)) of a cadherin gene (Ha_BtR) was previously identified as genetically linked with Cry1Ac resistance in a laboratory-selected strain of H. armigera. Using a biphasic screen strategy, we successfully trapped two new cadherin alleles (r(2) and r(3)) associated with Cry1Ac resistance from a field population of H. armigera collected from the Yellow River cotton area of China in 2005. The r(2) and r(3) alleles, respectively, were created by inserting the long terminal repeat of a retrotransposon (designated HaRT1) and the intact HaRT1 retrotransposon at the same position in exon 8 of Ha_BtR, which results in a truncated cadherin containing only two ectodomain repeats in the N terminus of Ha_BtR. This is the first time that the B. thuringiensis resistance alleles of a target insect of Bt crops have been successfully detected in the open field. This study also demonstrated that bollworm larvae carrying two resistance alleles can complete development on Bt cotton. The cadherin locus should be an important target for intensive DNA-based screening of field populations of H. armigera.     

Frequency of alleles conferring resistance to the Bt toxins Cry1Ac and Cry2Ab in Australian populations of Helicoverpa armigera (Lepidoptera: Noctuidae)

Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) is an important lepidopteran pest of cotton (Gossypium spp.) in Australia and the Old World. From 2002, F2 screens were used to examine the frequency of resistance alleles in Australian populations of H. armigera to Bacillus thuringiensis (Bt) CrylAc and Cry2Ab, the two insecticidal proteins present in the transgenic cotton Bollgard II. At that time, Ingard (expressing Cry1Ac) cotton had been grown in Australia for seven seasons, and Bollgard II was about to be commercially released. The principal objective of our study was to determine whether sustained exposure caused an elevated frequency of alleles conferring resistance to Cry1Ac in a species with a track record of evolving resistance to conventional insecticides. No major alleles conferring resistance to Cry1Ac were found. The frequency of resistance alleles for Cry1Ac was <0.0003, with a 95% credibility interval between 0 and 0.0009. In contrast, alleles conferring resistance to Cry2Ab were found at a frequency of 0.0033 (0.0017, 0.0055). The first isolation of this allele was found before the widespread deployment of Bollgard II. For both toxins the experiment-wise detection probability was 94.4%. Our results suggest that alleles conferring resistance to Cry1Ac are rare and that a relatively high baseline frequency of alleles conferring resistance to Cry2Ab existed before the introduction of Bt cotton containing this toxin.     

Partial purification of Cry 1A toxin-binding proteins from Helicoverpa armigera larval midgut

Toxicity of insecticidal endotoxins produced by Bacillus thuringiensis correlates with the presence of specific proteins in the midgut of susceptible larvae. This study was aimed at identifying and purifying Cry 1A binding proteins from Helicoverpa armigera, an important crop pest of India. B. thuringiensis strain HD 73 which produces Cry 1Ac toxin, specific for H. armigera was used in this study. Toxin-binding proteins from insect larvae were detected by employing a toxin overlay assay using both radiolabelled as well as unlabelled toxin. Detergent-solubilized fractions of larval brush border membranes were subjected to soybean agglutinin (SBA) chromatography, from which N-acetylgalactosamine (NAG)-containing proteins were eluted. Analysis of the SBA-purified proteins indicated that four proteins of approximately 97, 120, 170 and 200 kDa could bind to Cry 1Ac toxin, and three proteins of 97, 170 and 200 kDa proteins could bind to Cry 1Ab. Furthermore, in the presence of excess Cry 1Ab toxin, the labelled Cry 1Ac toxin could bind only to 170 and 200 kDa proteins, implying that Cry 1Ab can also bind the 120 kDa protein. This study therefore demonstrates that in H. armigera, midgut proteins of 97, 120, 170 and 200 kDa have the ability to bind both Cry 1Ab and Cry 1Ac. Furthermore, while the 170 and 200 kDa proteins have higher affinity for Cry 1Ac, the 97 kDa has higher affinity for Cry1 Ab. This revised version was published online in July 2006 with corrections to the Cover Date.     

棉铃虫中肠钙粘蛋白、氨肽酶N及碱性磷酸酯酶的抗血清对Cry1Ac和Cry2Aa毒力的影响

【目的】Cry1A和Cry2A类Bt蛋白通过特异性地与昆虫中肠上的受体蛋白结合而发挥杀虫作用,现已广泛应用于转基因抗虫作物。本研究旨在进一步明确Cry2A类蛋白的作用机制和Cry1A受体蛋白在Cry2A发挥毒力中的作用。【方法】本研究首先提取了棉铃虫Helicoverpa armigera的BBMV,制备了钙粘蛋白(CAD)、氨肽酶N(APN)和碱性磷酸酯酶(ALP)3种受体蛋白的抗体和抗血清;然后,利用Western blot检测BBMV上这3种受体蛋白后,利用抗体封闭技术比较了敏感棉铃虫和Cry1Ac抗性棉铃虫(BtR)中3种受体蛋白的抗血清对Cry1Ac和Cry2Aa毒力的影响。【结果】对敏感品系棉铃虫,这3种已知的Cry1Ac受体蛋白抗血清显著地降低了Cry1Ac和Cry2Aa的毒力。其中APN抗血清对Cry1Ac毒力的影响最大,棉铃虫幼虫的死亡率降低了84.44%;ALP抗血清对Cry2Aa的毒力影响最大,棉铃虫幼虫死亡率比对照降低了71.04%。Cry1Ac对Cry1Ac抗性棉铃虫(BtR)的毒力显著降低,Cry2Aa的毒性也减弱。在Cry1Ac抗性棉铃虫(BtR)中,3种受体抗血清对Cry1Ac的影响比在敏感棉铃虫中的影响小,尤其是CAD和APN抗血清对Cry1Ac毒力的抑制率显著低于在敏感棉铃虫中的抑制作用;CAD和ALP抗血清对Cry2Aa毒力的影响与在敏感棉铃虫中的影响差异不显著,但APN抗血清可以显著降低Cry2Aa对Cry1Ac抗性棉铃虫(BtR)的毒力。【结论】棉铃虫CAD,APN和ALP不仅参与了Cry1Ac的杀虫过程,也对Cry2Aa毒力有一定的影响,而且这3种蛋白可能与棉铃虫对Cry1Ac和Cry2Aa产生抗性及交互抗性相关。     

Vip3Aa及Cry1Ac对棉铃虫幼虫多种酶活力的影响

为了明确Vip3Aa的作用机制,为其作为新毒素策略重要蛋白的应用提供理论依据,本文比较了Vip3Aa、Cry1Ac对棉铃虫Helicoverpa armigera(Hübner)主要蛋白酶、解毒酶、APN活性的影响,并研究了Vip3Aa和Cry1Ac共同使用对几种酶活力的作用。室内生测结果表明,Vip3Aa对棉铃虫的杀虫效果低于Cry1Ac,但Vip3Aa对棉铃虫幼虫生长有明显的抑制作用。取食含Cry1Ac、Vip3Aa或Cry1Ac+Vip3Aa饲料的棉铃虫,总蛋白酶和类胰凝乳蛋白酶活性很快升高;但经Cry1Ac处理12 h后这2种酶活性与对照差异不显著或低于对照,而取食含Vip3Aa饲料的棉铃虫酶活力显著高于对照的时间明显延长,而且类胰蛋白酶活性也显著高于对照;表明Cry1Ac降解速度比Vip3Aa快,可能是由于降解2种蛋白参与的酶系存在差异,同时Cry1Ac+Vip3Aa混用可以延长蛋白被酶解的时间。谷胱甘肽S-转移酶和α-乙酸萘酯酶活性在棉铃虫取食含Vip3Aa、Cry1Ac或Cry1Ac+Vip3Aa蛋白的饲料后活性升高,说明这2种酶可能参与了对Cry1Ac、Vip3Aa的解毒作用。但Cry1Ac、Vip3Aa对氨肽酶活性影响不大,可能在毒蛋白发挥毒性的过程中与氨肽酶活力变化无关。