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     

棉铃虫中肠氨肽酶APN4与Cry1Ac、Cry2Aa结合能力的比较

【目的】Bt杀虫蛋白(Bacillus thuringiensis)具有高度的靶标特异性,已经被广泛用于农业害虫防治。Bt杀虫蛋白要发挥杀虫活性,必须首先与其受体蛋白结合,氨肽酶N(Aminopeptidase N)是一类重要的Bt受体蛋白。因此,分析该受体与Bt杀虫蛋白的结合能力,可为进一步明确不同Bt的分子作用机制、Bt的抗性治理以及新Bt的开发应用等提供借鉴。【方法】本文利用Ligand blot和Elisa方法比较了棉铃虫Helicoverpa armigera中肠APN4(Aminopeptidase N4,APN4)与Cry1Ac、Cry2Aa的结合能力。【结果】原核表达的APN4片段与活化的Cry1Ac、Cry2Aa都可以结合,解离常数(Kd)分别是48.59 nmol/L和21.73 nmol/L。【结论】APN4片段与Cry1Ac、Cry2Aa的结合能力在数量级上不存在显著性差异。     

棉铃虫ABC转运蛋白ABCG1的基因克隆、亚细胞定位及其与Cry1Ac毒力的关系

【目的】长期种植转Bacillus thuringiensis(Bt)基因作物使一些靶标害虫产生了Bt抗性,有研究表明小菜蛾Plutella xylostella的white基因表达下调使其产生了Cry1Ac抗性,由于Pxwhite蛋白与ABC转运蛋白ABCG1同属于ABCG亚家族,我们推测棉铃虫Helicoverpa armigera ABCG1基因(HaABCG1)的表达下调可能与棉铃虫对Cry1Ac毒素的抗性有关。【方法】克隆并分析HaABCG1的开放阅读框(open reading frame,ORF),通过构建HaABCG1基因的表达载体检测HaABCG1蛋白在TnH_5细胞中的亚细胞定位;通过细胞毒力实验验证HaABCG1蛋白与Cry1Ac毒素的关系;利用RNAi技术验证HaABCG1表达下调是否会降低棉铃虫对Cry1Ac毒素的敏感性。【结果】棉铃虫ABCG1基因的开放阅读框长1 896 bp,编码蛋白含631个氨基酸残基,分子质量估计为69.63 k D。离体昆虫细胞表达的HaABCG1蛋白主要定位在细胞的核膜和内质网。通过RNA干扰和生物测定实验发现HaABCG1下调表达不能使棉铃虫在Cry1Ac毒素浓度为0.05μg/m L的人工饲料上正常生长,3 d后处理组和对照组棉铃虫幼虫的体重变化无显著差异。经过细胞毒力实验证明HaABCG1蛋白不介导Cry1Ac毒素对TnH_5细胞的毒力,它既不是Cry1Ac毒素的受体,也不是其他3种Bt毒素Cry1Ca,Cry2Aa和Cry1Fa的受体。【结论】HaABCG1基因表达下调与棉铃虫对Cry1Ac的抗性不相关,HaABCG1不是Cry1Ac毒素的受体。这是首次报道ABCG1基因不参与棉铃虫的Cry1Ac抗性。     

棉铃虫对不同Bt蛋白的抗性及交互抗性研究

【目的】棉铃虫Helicoverpa armigera(Hübner)对Bt(Bacillus thuringiensis)的抗性问题是阻碍Bt抗虫棉持续发展的关键,探究棉铃虫对不同Bt蛋白的抗性演化趋势及交互抗性,可为选择合适的抗虫棉花备选基因提供参考。【方法】在室内通过连续多代筛选,获得了5个对Bt具有不同抗性的品系,利用饲料混合法测定了这些品系棉铃虫的交互抗性。【结果】经筛选后棉铃虫对Cry1Ac产生了超高水平的抗性、对Cry2Ab、Vip3Aa产生了超低抗性(耐性);Cry1Ac抗性棉铃虫停止筛选而换成Cry2Ab或Vip3Aa继续筛选后,棉铃虫对Cry1Ac抗性水平明显降低,对Cry2Ab或Vip3Aa产生低抗或超低抗性(耐性)。Cry1Ac抗性棉铃虫对Cry1Ab敏感性显著降低,而对Cry2Ab、Cry2Ah及Vip3Aa敏感性变化不显著;Cry2Ab抗性品系棉铃虫对Cry1Ac敏感性显著降低;Vip3Aa抗性品系棉铃虫对Cry1Ac敏感性变化不显著。说明Cry1Ac与Cry1Ab间存在明显交互抗性,与Cry2Ah、Vip3Aa没有交互抗性;而Cry2Ab与Cry1Ac间存在不对称的交互抗性。【结论】在筛选新杀虫基因或叠加基因时,应充分考虑抗性发展及交互抗性问题,Cry2Ah、Vip3Aa是治理Cry1Ac抗性棉铃虫或与Cry1Ac叠加最优的选择。     

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。     

二化螟钙黏蛋白CAD1的原核表达及与Cry1Ac、Cry2Aa蛋白的结合

【目的】二化螟是水稻的重要害虫之一,钙黏蛋白(cadherin,CAD)是一类重要的Bt杀虫蛋白受体,在获得二化螟钙黏蛋白基因(Cs CAD1)的基础上,明确Cs CAD1蛋白与Cry1Ac和Cry2Aa蛋白的结合能力。【方法】利用PCR技术克隆Cs CAD1基因片段,将构建的p ET-28a-(+)-Cs CAD1重组质粒转入原核表达菌株BL21(DE3)中,IPTG诱导表达。目的蛋白经Ni柱亲和纯化后SDS-PAGE电泳检测,利用western blot和ligand blot技术分析其与Cry1Ac和Cry2Aa蛋白的结合能力。【结果】重组载体可在表达菌株BL21中表达一个约44 ku的蛋白,原核表达载体构建成功。SDS-PAGE显示该蛋白条带单一,且纯度较好。Ni柱亲和层析纯化该目的蛋白后进行Ligand blot分析,结果显示Cs CAD1重组蛋白可以与Cry1Ac和Cry2Aa蛋白结合。【结论】Cs CAD1蛋白可以与Cry1Ac和Cry2Aa蛋白结合,是潜在的Cry蛋白受体,所得结果有助于阐明Cry1Ac和Cry2Aa蛋白对二化螟的作用机制。     

Cry1A毒素与二化螟中肠刷状缘膜囊泡受体蛋白配基结合分析

分离和鉴定二化螟Chilo suppresalis幼虫中肠刷状缘膜囊泡（BBMV）中Cry1A毒素的受体蛋白,对于阐明Cry1A毒素作用机理和二化螟抗性机理具有十分重要的意义。为此,本文就Cry1A毒素对二化螟杀虫活性及Cry1Ac与二化螟中肠受体的配基结合进行了研究。结果表明: Cry1Ab对二化螟室内品系(CN)的毒力高于Cry1Ac,而Cry1Ac高于Cry1Aa。配基结合分析表明二化螟CN品系幼虫中肠BBMV中有6个Cry1Ac结合蛋白(分子量分别为50,70,90,120,160和180 kDa), 其中180,160和90 kDa结合蛋白的条带颜色明显深于其他结合蛋白的条带,表明这3个受体蛋白具有较高的结合浓度。同源竞争结合研究表明,180和90 kDa结合蛋白为Cry1Ac的低亲合性结合蛋白,其他4个为高亲合性结合蛋白。为了研究Cry1Ac和Cry1Ab受体结合部位的相互作用,进行了异源竞争结合研究。Cry1Ab可以与Cry1Ac所有的6个结合蛋白进行竞争性结合,与180,120,70和50 kDa结合蛋白具有高亲合性,而与160和90 kDa结合蛋白具有低亲合性。结果显示,Cry1Ac与Cry1Ab在二化螟幼虫中肠BBMV上拥有多个共享的结合位点,但对每个结合位点的亲合性有差异。基于毒素结合部位的相似性,Cry1Ac和Cry1Ab不宜同时用于转基因Bt水稻来控制二化螟。     

二化螟APN1的原核表达及其与Cry2Aa蛋白的结合特性研究

【目的】Bt杀虫蛋白发挥杀虫活性的重要前提是Cry蛋白能够与昆虫中肠上皮细胞刷状缘膜囊(BBMVs)上的受体蛋白结合。在前期获得二化螟氨肽酶N1(Aminopeptidase N,APN1)基因全长序列的基础上,明确二化螟APN1多肽片段与Cry2Aa的结合能力。【方法】将二化螟APN1序列片段在大肠杆菌BL21(DE3)中表达,利用蛋白质单向电泳和ligand blotting技术分析二化螟APN1多肽片段与Cry2Aa的结合能力。【结果】重组载体可在表达菌株BL21(DE3)中表达一个约70 ku的蛋白,纯化后的多肽条带单一,纯度较好。Ligand blot分析结果显示,表达的二化螟APN1多肽片段可以与活化的Cry2Aa杀虫蛋白结合,且结合条带随着重组蛋白上样量的降低而减弱。【结论】APN1多肽片段可以与Cry2Aa结合,为阐明APN1基因的功能奠定基础,也为其他Bt蛋白的受体蛋白相关研究提供新的借鉴。     

Effects of Vip3Aa and Cry1Ac on enzyme activity in cotton bollworm Helicoverpa armigera larvae

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12h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.     

不同Bt蛋白对棉铃虫存活率和生长发育的影响

【背景】在我国Bt棉主要以Cry1Ab或Cry1Ac为主,其他新型Bt基因未被转入棉花中用来控制害虫,然而大面积种植单价Bt基因的棉花,将可能会大大增加靶标害虫对该类型Bt棉花抗性频率,因此研究其他新型Bt蛋白对靶标害虫的控制作用显得十分必要。【方法】采用蛋白混入人工饲料的生物测定方法,在室内测定了6种Bt蛋白对棉铃虫初孵幼虫的毒力,比较了浓度为1.0μg·g-1时不同Bt蛋白对棉铃虫幼虫生长发育的影响。【结果】毒力测定结果表明,不同Bt蛋白对棉铃虫初孵幼虫的毒力不同,LC50值由低到高依次为Cry1Ab 0.065μg·g-1、Cry1Ac 0.074μg·g-1、Cry2Ab 0.133μg·g-1、Cry2Aa 11.670μg·g-1、Cry1Ah 13.010μg·g-1和Cry1Ca20μg·g-1。生长发育测定结果表明,Cry1Ab和Cry1Ac对棉铃虫幼虫的生长发育影响最大,Cry2Ab次之;Cry1Ah和Cry2Aa对1龄幼虫的校正死亡率和体重抑制率差别不大,但对2龄幼虫的差异较大,Cry1Ah处理2龄幼虫后体重和生长发育参数与Cry2Ab接近,而Cry1Ca对棉铃虫幼虫生长发育几乎没影响。【结论与意义】Cry1Ah、Cry2Aa和Cry2Ab的毒力不如Cry1Ac和Cry1Ab,但仍可以作为控制棉铃虫幼虫的替代策略。     

Disruption of Ha_BtR alters binding of Bacillus thuringiensis delta-endotoxin Cry1Ac to midgut BBMVs of Helicoverpa armigera

Disruption of the Ha_BtR (a cadherin gene) is genetically linked to resistance to Cry1Ac delta-endotoxin of Bacillus thuringiensis in the GYBT strain of Helicoverpa armigera. Brush border membrane vesicles (BBMVs) prepared from midguts of both the Cry1Ac-resistant GYBT strain (homozygous for a deletion knockout of Ha_BtR) and the susceptible GY strain (homozygous for the wild type of Ha_BtR) possessed saturable and specific binding ability to (125)I-Cry1Ac. The binding constant (K(d)) of the GY strain was significantly lower than that of the resistant GYBT strain, whereas their binding site concentrations (B(max)) were similar. When midgut BBMVs were reacted directly with streptavidin conjugated to horseradish peroxidase, the GY strain had very clear 120- and 85-kDa protein bands, which indicated that the 120- and 85-kDa bands are endogenous biotin-containing proteins. However, the GYBT strain almost completely lost these two biotin-containing proteins. Ligand blotting with biotinylated Cry1Ac toxin showed midgut BBMVs of the GY strain contain five protein bands of 210-, 190-, 150-, 120-, and 85-kDa, respectively, while BBMVs of the GYBT strain contain only two protein bands of 150- and 120-kDa. 120-kDa bands may consist of two proteins with coincidentally the same molecular weight (putatively, an APN and a biotin-containing protein). Our results showed that the binding pattern of Cry1Ac to midgut BBMVs of H. armigera was altered quantitatively and qualitatively by knockout of Ha_BtR. There are multiple Cry1Ac-binding proteins in the midgut of susceptible H. armigera, but only the Ha_BtR can be considered as a putative functional receptor of Cry1Ac. Possible involvement of other receptor proteins in the intoxication process in vivo could not be excluded.     

Antisera-mediated in vivo reduction of Cry1Ac toxicity in Helicoverpa armigera

A functional assessment of Bacillus thuringiensis (Bt) toxin receptors in the midgut of lepidopteran insects will facilitate understanding of the toxin mode of action and provide effective strategies to counter the development of resistance. In this study, we produced anti-aminopeptidase (APN) and anti-cadherin sera with purified Cry1Ac toxin-binding APN or cadherin fragments from Heliocoverpa armigera. Antisera were evaluated for their effects on Cry1Ac toxicity through bioassays. Our results indicated that both the anti-APN and anti-cadherin sera reduced Cry1Ac toxicity in vivo, although cadherin antiserum reduced toxicity more than APN antiserum. These results suggest that both APN and cadherin are involved in Cry1Ac intoxication of H. armigera, evidence that the pore formation model may be representative of Cry1Ac toxin mode of action in this insect.     

Toxicity of Bacillus thuringiensis insecticidal proteins for Helicoverpa armigera and Helicoverpa punctigera (Lepidoptera: Noctuidae), major pests of cotton

The susceptibilities of the major pests of cotton in Australia, Helicoverpa armigera and Helicoverpa punctigera, to some insecticidal proteins from Bacillus thuringiensis were tested by bioassay. A commercial formulation, DiPel, and individual purified insecticidal proteins were tested. H. armigera was consistently more tolerant to B. thuringiensis insecticidal proteins than was H. punctigera, although both were susceptible to only a limited range of these proteins. Only Cry1Ab, Cry1Ac, Cry2Aa, Cry2Ab, and Vip3A killed H. armigera at dosages that could be considered acceptable. There was no significant difference in the toxicities of Cry1Fa and Cry1Ac for H. punctigera but Cry1Fa had little toxicity for H. armigera. The five instars of H. armigera did not differ significantly in their susceptibility to DiPel on the basis of LC(50). However, there were significant differences in the susceptibility to Cry1Ac and Cry2Aa of three strains of H. armigera. Bioassays conducted with Cry1Ac and Cry2Aa showed that there was a small but significant negative interaction between these delta-endotoxins.     

棉铃虫幼虫取食Vip3Aa蛋白后的中肠组织病理变化

为了进一步明确Vip3Aa的作用机制, 利用透射电镜观察了棉铃虫4龄幼虫取食含Vip3Aa蛋白饲料后中肠杯状细胞的病理变化, 并比较了其病变与取食含Cry1Ac饲料后棉铃虫组织病变的差异。取食含Vip3Aa饲料后, 棉铃虫幼虫的中肠杯状细胞逐渐发生病变, 主要表现为： 微绒毛肿胀、 脱落; 细胞核核膜界限不清晰, 染色质分布不均匀; 线粒体变形、 数量减少, 内脊不清晰; 内质网杂乱不规则、 数量减少。与取食Cry1Ac的棉铃虫相比, 取食Vip3Aa的棉铃虫中肠杯状细胞发生病变较为缓慢, 在取食12 h后才发现明显病变, 随着取食时间的增加病变越来越明显; 而取食Cry1Ac的棉铃虫2 h后中肠杯状细胞就出现明显病变。本研究可为Vip3Aa作为新毒素策略的重要蛋白在棉铃虫Helicoverpa armigera综合防治中更好地发挥作用提供理论依据。     

Cry2Ab及Cry1Ac杀虫蛋白对棉铃虫中肠蛋白酶活性的影响

为明确Cry2Ab和Cry1Ac2种Bt杀虫蛋白单用与混用对棉铃虫Helicoverpa armigera（Htibner）中肠主要蛋白酶活性的影响,本文测定了取食含不同Bt蛋白人工饲料后棉铃虫中肠总蛋白酶、类胰蛋白酶和类胰凝乳蛋白酶活性的差异。结果发现：Cry2Ab处理12h后对棉铃虫中肠总蛋白酶影响不大;对类胰蛋白酶的影响最大,除最高浓度处理外,其他浓度处理后棉铃虫类胰蛋白酶的活性明显高于对照;但对类胰凝乳蛋白酶活性的影响呈倒“V”字型,只有6．67ug／gCry2Ab处理后的棉铃虫酶活力显著高于对照,其他浓度处理与对照差异不显著或略低于对照;随着取食含Cry2Ab饲料时间的增加,棉铃虫中肠类胰蛋白酶和类胰凝乳蛋白酶的活性比对照显著增加;与对照相比,处理36h后类胰蛋白酶活性最高可增加到6．43倍。Cry1Ac处理棉铃虫12h后总蛋白酶、类胰蛋白酶和类胰凝乳蛋白酶活性都明显增加,而且与处理浓度呈正相关;但是24h后,处理后棉铃虫的总蛋白酶和类胰凝乳蛋白酶活性明显降低,只有类胰蛋白酶活性仍高于对照,但活性增长倍数低于12h时的处理。Cru2Ab和Cry1Ac2种蛋白混用处理棉铃虫后,2种酶的酶活力基本低于Cry1Ac和Cry2Ab单用的酶活力之和;只有2种蛋白浓度均为2．22ug／g混用时,处理12h后类胰蛋白酶和类胰凝乳蛋白酶的活性高于2种蛋白单用时酶活力之和,且都显著的高于对照。     

Toxicity of Bacillus thuringiensis Cry proteins to Helicoverpa armigera (Lepidoptera: Noctuidae) in South Africa

The susceptibility of one of the most important pests in southern Africa, Helicoverpa armigera (Lepidoptera: Noctuidae), to Bacillus thuringiensis Cry proteins was evaluated by bioassay. Cry proteins were produced in Escherichia coli BL21 cells that were transformed with plasmids containing one of six cry genes. The toxicity of each Cry protein to H. armigera larvae was determined by the diet contamination method for second instar larvae and the droplet feeding method for neonate larvae. For each of the proteins, dose-mortality and dose-growth inhibition responses were analyzed and the median lethal dose (LD(50)) and median inhibitory dose (ID(50)) determined. Second instar larvae were consistently less susceptible to the evaluated Cry proteins than neonate larvae. The relative toxicity of Cry proteins ranked differently between neonate larvae and second instar larvae. On the basis of the LD(50) and ID(50) values, Cry1Ab, Cry1Ac, and Cry2Aa were the most toxic of the evaluated proteins to H. armigera larvae. The study provides an initial benchmark of the toxicity of individual Cry proteins to H. armigera in South Africa.     

Introgression of a disrupted cadherin gene enables susceptible Helicoverpa armigera to obtain resistance to Bacillus thuringiensis toxin Cry1Ac

A disrupted allele (r1) of a cadherin gene (Ha_BtR) is genetically associated with incompletely recessive resistance to Bacillus thuringiensis toxin Cry1Ac in a Cry1Ac-selected strain (GYBT) of Helicoverpa armigera. The r1 allele of Ha_BtR was introgressed into a susceptible SCD strain by crossing the GYBT strain to the SCD strain, followed by repeated backcrossing to the SCD strain and molecular marker assisted family selection. The introgressed strain (designated as SCD-r1, carrying homozygous r1 allele) obtained 438-fold resistance to Cry1Ac, >41-fold resistance to Cry1Aa and 31-fold resistance Cry1Ab compared with the SCD strain; however, there was no significant difference in susceptibility to Cry2Aa between the integrated and parent strains. It confirms that the loss of function mutation of Ha_BtR alone can confer medium to high levels of resistance to the three Cry1A toxins in H. armigera. Reciprocal crosses between the SCD and SCD-r1 strains showed that resistance to Cry1Ac in the SCD-r1 strain was completely recessive. Life tables of the SCD and SCD-r1 strains on artificial diet in the laboratory were constructed, and results showed that the net replacement rate (R0) did not differ between the strains. The toxicity of two chemical insecticides, fenvalerate and monocrotophos, against the SCD-r1 strain was not significantly different from that to the SCD strain. However, larval development time of the SCD-r1 strain was significantly longer than that of the SCD strain, indicating a fitness cost of slower larval growth is associated with Ha_BtR disruption in H. armigera.