[Objectives]To determine the biological safety of BT protein from Bacillus thuringiensis(Bt)fermentation broth to mammals at high doses.[Methods]Healthy mice were randomly divided into 4 groups with 10 mice in each gr...[Objectives]To determine the biological safety of BT protein from Bacillus thuringiensis(Bt)fermentation broth to mammals at high doses.[Methods]Healthy mice were randomly divided into 4 groups with 10 mice in each group.The experimental groups were fed with Bt fermentation supernatant at 0.2,0.6 and 1.0 mL/kg,respectively,once a day for 7 consecutive days.The blank control group was fed normally without intragastric administration.[Results]There was no significant difference in blood routine and blood biochemical analysis between the experimental group and the control group.After intragastric administration,the mice were dissected,and no obvious pathological changes were found;the heart,liver,spleen,lung and kidney were taken to make tissue sections,and no pathological changes were found by microscopic observation.[Conclusions]Mice can tolerate high doses of BT protein from B.thuringiensis fermentation broth.展开更多
Background:Potassium(K)deficiency has become a common field production problem following the widespread adoption of Bacillus thuringiensis(Bt)transgenic cotton(Gossypium hirsutum L.)worldwide.The purpose of this study...Background:Potassium(K)deficiency has become a common field production problem following the widespread adoption of Bacillus thuringiensis(Bt)transgenic cotton(Gossypium hirsutum L.)worldwide.The purpose of this study was to clarify whether the introduction of Bt gene directly reduces the K-use efficiency of cotton to induce K deficiency.Results:The cotton variety,Jihe 321(wild type,WT)and its two Bt(Cry1Ac)-transgenic overexpression lines(OE-29317,OE-29312)were studied in field with low soil-test K+(47.8 mg·kg^(−1)).In the field with low soil-test K+,only OE-29317 had less biomass and K+accumulation than the WT at some growth stages.Both Bt lines produced similar or even greater seed cotton yield than WT in the field.When the Bt gene(~70%)in OE-29317 and OE-29312 plants was silenced by virus-induced gene silencing(VIGS),the VIGS-Bt plants did not produce more biomass than VIGSgreen fluorescent protein(control)plants.Conclusions:The introduction of Bt gene did not necessarily hinder the K use efficiency of the cotton lines under this study.展开更多
The susceptibility of the Asian corn borer, Ostrinia furnacalis to Bacillus thuringiensis (Bt) formulation and Bt corn was evaluated using insect bioassays for 6 years. Four strains of O. furnacalis were developed by ...The susceptibility of the Asian corn borer, Ostrinia furnacalis to Bacillus thuringiensis (Bt) formulation and Bt corn was evaluated using insect bioassays for 6 years. Four strains of O. furnacalis were developed by laboratory selection from the laboratory strain reared on a non-agar semi-artificial diet. The RR-1 strain was exposed to a commercial formulation of B. thuringiensis subsp. kurstaki (Btk) incorporated into the artificial diet,the RR-2 strain was exposed to Bt corn (MON810) tissue incorporated into the diet, and the SS-1 and SS-2 strains were reared on the standard diet with or without non-Bt corn tissues material. Decreasing susceptibility of O. furnacalis to Bt and to Bt corn were found in each selected strain although the ED50 and larval weight fluctuated from generation to generation. The resistance of Bt-exposed strain (RR-1) to Btk increased 48-fold by generation 39; the Bt corn-exposed strain (RR-2) increased its resistance 37-fold to Btk by generation 24. No larvae of SS-1 survived when they were exposed to the leaves of Bt corn, Bt11 and MON810. However, 2-54% of the RR-1 (generation 46) and RR-2 (generation 20) larvae survived a 3 day-exposure to the leaves of Bt11 and MON810. The survival of both selected strains on Bt corn silk increased by 10-69%, and the larval weights after many generations selection were increased by 15-22% compared with the unselected susceptible strain. The young larvae were much more susceptible to Bt than older larvae. The highest mortality occurred when the larvae were exposed to Bt at the neonate stage. All of the results suggested that ACB could not only develop resistance to Bt preparation but also to Bt corn. Bt had significant effects on the growth and development of Asian corn borer than on the larval mortality. In order to maintain the long-term effectiveness of Bt pesticide and Bt corn, the resistance management should pay much attention to the larvae that may have opportunities to grow and developed on non-Bt corn or alternate hosts before they attack the Bt corn plants and the survival of larvae after Bt application.展开更多
The present study aims to isolate the unknown and known serotypes of Bacilllus thuringiensis (Bt) from natural objects in Kyrgyzstan. A total of 83 Bt strains were isolated from natural substrates, of which 30% were t...The present study aims to isolate the unknown and known serotypes of Bacilllus thuringiensis (Bt) from natural objects in Kyrgyzstan. A total of 83 Bt strains were isolated from natural substrates, of which 30% were taken from the soil and litter samples, 69.7% from dead insects and about 0.3% from slugs. Serological examination revealed that such subspecies as var. thuringiensis (H-1), var. alesti (H-3), var. sotto (H-4a4b) and var. entomocidus (H-6) predominated in the upper horizon of soils in all climatic zones. In the dead insects such species as subsp. thuringiensis, subsp. galleria, subsp. sotto, subsp. kurstaki, subsp. Aizawai and subsp. Entomocidus dominated. A set of Bt strains isolated from insects and soil samples, selected from different ecosystems in Kyrgyzstan was molecular taxonomically characterized using the pycA gene as marker for phylogenetic reconstruction. Within the Bacillus cereus sensu lato species complex, all Kyrgyz isolates were shown to belong to the B. cereus subspecies thuringiensis. Most isolates were assigned to the lineage Bt tolworthi, with two isolates each belonging to the lineages Bt kurstaki and Bt sotto. A high degree of cry gene diversity was demonstrated in the set of Bt isolates, with several gene copies simultaneously present in a single strain;a particularly conspicuous trait was the frequent combination of Lepidopteran-specific cryI with Dipteran-specific cryIV genes in the same Bt isolate.展开更多
Bacillus thuringiensis(Bt)exhibits strong insecticidal activity and is harmless to non-target organisms such as human and animals.Bt becomes the most commonly used environment-friendly insecticidal microorganism.Howev...Bacillus thuringiensis(Bt)exhibits strong insecticidal activity and is harmless to non-target organisms such as human and animals.Bt becomes the most commonly used environment-friendly insecticidal microorganism.However,the insecticidal activities of different Bt strains variy significantly.Therefore,it is particularly important to compare the insecticidal activities of different strains and explore their insecticidal effector mechanisms to expand Bt insecticidal spectrum and enrich transgenic resources.Here,the insecticidal activities of Vip3Aa57 and Vip3Aa62 strains,carrying vegetative insecticidal protein-encoding genes that were inserted into the expression vector pET-21b and transformed into Escherichia coli Rosetta(DE3)strain,expressing 88 ku protein,were compared.Vip3Aa57 protein reportedly displayed body weight inhibition effect on Spodoptera exigua without affecting Heliothis armigera while Vip3Aa62 protein was known to have strong insecticidal activity against S.exigua(LC50=5.124 ng•mg^(-1)).A low H.armigera activity(LC50=870.1 ng•mg^(-1))was observed.The paraffin sectioning results showed that Vip3Aa57 protein affected S.exigua midgut cell morphology.The laser confocal microscopic imaging results showed that Vip3Aa57 bound to receptors in the midgut without damaging the midgut tissue morphology.This study would be conducive for making full use of Bt strains in the soil to compare the insecticidal activities of different Vip insecticidal genes.It could thus provide significant help in revealing the underlying insecticidal mechanisms of Vip3Aa insecticidal genes,developing new insecticidal proteins and delaying pest resistance problems.展开更多
利用三室根箱装置获得玉米生长室土壤(SⅠ)、根际土(SⅡ)、非根际土(SⅢ)3个不同根区土壤,采用传统平板计数培养与变性梯度凝胶电泳(DGGE)技术相结合的方法,研究了转基因玉米B t11及其非转基因亲本在播种后40、50、60 d各根区土壤细菌...利用三室根箱装置获得玉米生长室土壤(SⅠ)、根际土(SⅡ)、非根际土(SⅢ)3个不同根区土壤,采用传统平板计数培养与变性梯度凝胶电泳(DGGE)技术相结合的方法,研究了转基因玉米B t11及其非转基因亲本在播种后40、50、60 d各根区土壤细菌数量及多样性的变化。结果表明,转B t基因玉米播种后50、60 d SⅠ根区土壤可培养细菌数量显著低于非转基因亲本,播种后40、50 d SⅡ根区土壤可培养细菌数量较亲本玉米显著增加,而在其他时期和根区与亲本玉米之间均无显著差异。DGGE图谱显示,3个采样时期各根区DGGE图谱条带数、土壤细菌多样性指数和均匀度指数均无显著差异(P>0.05)。展开更多
文摘[Objectives]To determine the biological safety of BT protein from Bacillus thuringiensis(Bt)fermentation broth to mammals at high doses.[Methods]Healthy mice were randomly divided into 4 groups with 10 mice in each group.The experimental groups were fed with Bt fermentation supernatant at 0.2,0.6 and 1.0 mL/kg,respectively,once a day for 7 consecutive days.The blank control group was fed normally without intragastric administration.[Results]There was no significant difference in blood routine and blood biochemical analysis between the experimental group and the control group.After intragastric administration,the mice were dissected,and no obvious pathological changes were found;the heart,liver,spleen,lung and kidney were taken to make tissue sections,and no pathological changes were found by microscopic observation.[Conclusions]Mice can tolerate high doses of BT protein from B.thuringiensis fermentation broth.
文摘Background:Potassium(K)deficiency has become a common field production problem following the widespread adoption of Bacillus thuringiensis(Bt)transgenic cotton(Gossypium hirsutum L.)worldwide.The purpose of this study was to clarify whether the introduction of Bt gene directly reduces the K-use efficiency of cotton to induce K deficiency.Results:The cotton variety,Jihe 321(wild type,WT)and its two Bt(Cry1Ac)-transgenic overexpression lines(OE-29317,OE-29312)were studied in field with low soil-test K+(47.8 mg·kg^(−1)).In the field with low soil-test K+,only OE-29317 had less biomass and K+accumulation than the WT at some growth stages.Both Bt lines produced similar or even greater seed cotton yield than WT in the field.When the Bt gene(~70%)in OE-29317 and OE-29312 plants was silenced by virus-induced gene silencing(VIGS),the VIGS-Bt plants did not produce more biomass than VIGSgreen fluorescent protein(control)plants.Conclusions:The introduction of Bt gene did not necessarily hinder the K use efficiency of the cotton lines under this study.
基金the National 863 Program(2002AA212161) the National Natural Science Foundation of China(39970489).
文摘The susceptibility of the Asian corn borer, Ostrinia furnacalis to Bacillus thuringiensis (Bt) formulation and Bt corn was evaluated using insect bioassays for 6 years. Four strains of O. furnacalis were developed by laboratory selection from the laboratory strain reared on a non-agar semi-artificial diet. The RR-1 strain was exposed to a commercial formulation of B. thuringiensis subsp. kurstaki (Btk) incorporated into the artificial diet,the RR-2 strain was exposed to Bt corn (MON810) tissue incorporated into the diet, and the SS-1 and SS-2 strains were reared on the standard diet with or without non-Bt corn tissues material. Decreasing susceptibility of O. furnacalis to Bt and to Bt corn were found in each selected strain although the ED50 and larval weight fluctuated from generation to generation. The resistance of Bt-exposed strain (RR-1) to Btk increased 48-fold by generation 39; the Bt corn-exposed strain (RR-2) increased its resistance 37-fold to Btk by generation 24. No larvae of SS-1 survived when they were exposed to the leaves of Bt corn, Bt11 and MON810. However, 2-54% of the RR-1 (generation 46) and RR-2 (generation 20) larvae survived a 3 day-exposure to the leaves of Bt11 and MON810. The survival of both selected strains on Bt corn silk increased by 10-69%, and the larval weights after many generations selection were increased by 15-22% compared with the unselected susceptible strain. The young larvae were much more susceptible to Bt than older larvae. The highest mortality occurred when the larvae were exposed to Bt at the neonate stage. All of the results suggested that ACB could not only develop resistance to Bt preparation but also to Bt corn. Bt had significant effects on the growth and development of Asian corn borer than on the larval mortality. In order to maintain the long-term effectiveness of Bt pesticide and Bt corn, the resistance management should pay much attention to the larvae that may have opportunities to grow and developed on non-Bt corn or alternate hosts before they attack the Bt corn plants and the survival of larvae after Bt application.
文摘The present study aims to isolate the unknown and known serotypes of Bacilllus thuringiensis (Bt) from natural objects in Kyrgyzstan. A total of 83 Bt strains were isolated from natural substrates, of which 30% were taken from the soil and litter samples, 69.7% from dead insects and about 0.3% from slugs. Serological examination revealed that such subspecies as var. thuringiensis (H-1), var. alesti (H-3), var. sotto (H-4a4b) and var. entomocidus (H-6) predominated in the upper horizon of soils in all climatic zones. In the dead insects such species as subsp. thuringiensis, subsp. galleria, subsp. sotto, subsp. kurstaki, subsp. Aizawai and subsp. Entomocidus dominated. A set of Bt strains isolated from insects and soil samples, selected from different ecosystems in Kyrgyzstan was molecular taxonomically characterized using the pycA gene as marker for phylogenetic reconstruction. Within the Bacillus cereus sensu lato species complex, all Kyrgyz isolates were shown to belong to the B. cereus subspecies thuringiensis. Most isolates were assigned to the lineage Bt tolworthi, with two isolates each belonging to the lineages Bt kurstaki and Bt sotto. A high degree of cry gene diversity was demonstrated in the set of Bt isolates, with several gene copies simultaneously present in a single strain;a particularly conspicuous trait was the frequent combination of Lepidopteran-specific cryI with Dipteran-specific cryIV genes in the same Bt isolate.
基金Supported by the National Key R&D Projects(2017YFD0201200)。
文摘Bacillus thuringiensis(Bt)exhibits strong insecticidal activity and is harmless to non-target organisms such as human and animals.Bt becomes the most commonly used environment-friendly insecticidal microorganism.However,the insecticidal activities of different Bt strains variy significantly.Therefore,it is particularly important to compare the insecticidal activities of different strains and explore their insecticidal effector mechanisms to expand Bt insecticidal spectrum and enrich transgenic resources.Here,the insecticidal activities of Vip3Aa57 and Vip3Aa62 strains,carrying vegetative insecticidal protein-encoding genes that were inserted into the expression vector pET-21b and transformed into Escherichia coli Rosetta(DE3)strain,expressing 88 ku protein,were compared.Vip3Aa57 protein reportedly displayed body weight inhibition effect on Spodoptera exigua without affecting Heliothis armigera while Vip3Aa62 protein was known to have strong insecticidal activity against S.exigua(LC50=5.124 ng•mg^(-1)).A low H.armigera activity(LC50=870.1 ng•mg^(-1))was observed.The paraffin sectioning results showed that Vip3Aa57 protein affected S.exigua midgut cell morphology.The laser confocal microscopic imaging results showed that Vip3Aa57 bound to receptors in the midgut without damaging the midgut tissue morphology.This study would be conducive for making full use of Bt strains in the soil to compare the insecticidal activities of different Vip insecticidal genes.It could thus provide significant help in revealing the underlying insecticidal mechanisms of Vip3Aa insecticidal genes,developing new insecticidal proteins and delaying pest resistance problems.
文摘利用三室根箱装置获得玉米生长室土壤(SⅠ)、根际土(SⅡ)、非根际土(SⅢ)3个不同根区土壤,采用传统平板计数培养与变性梯度凝胶电泳(DGGE)技术相结合的方法,研究了转基因玉米B t11及其非转基因亲本在播种后40、50、60 d各根区土壤细菌数量及多样性的变化。结果表明,转B t基因玉米播种后50、60 d SⅠ根区土壤可培养细菌数量显著低于非转基因亲本,播种后40、50 d SⅡ根区土壤可培养细菌数量较亲本玉米显著增加,而在其他时期和根区与亲本玉米之间均无显著差异。DGGE图谱显示,3个采样时期各根区DGGE图谱条带数、土壤细菌多样性指数和均匀度指数均无显著差异(P>0.05)。
