Impact of Seed Halopriming on Germination,Morphological Traits,and Cry1Ac Gene Expression in Bt Cotton(Gossypium hirsutum)

Seed priming is an effective seed pretreatment technology that enhances germination and overall crop performance by optimizing seed hydration and metabolic processes before planting.Seed quality is a critical determinant of cotton(Gossypium hirsutum)crop performance,influencing germination,plant vigor,and yield.This study evaluates the effects of seed priming with potassium salts(1%and 2%KCl and K2SO4)on germination,morphological traits,and Cry1Ac gene expression in three Bt cotton cultivars(IUB-2013,NIAB-878B,FH-142)as Cry1Ac enhance the pest resistance in Bt cotton and reduce the plant’s dependence on chemical insecticides.Seeds were primed for six hours,air-dried,and sown in the field.Germination rates,plant height,number of bolls per plant,boll weight,seed cotton yield,and ginning outturn(GOT)were assessed at crop maturity.Cry1Ac gene expression was quantified to explore the influence of priming treatments on transgene activity.Results demonstrated that 1%K2SO4 priming significantly enhanced germination and yield-related traits,with Cry1Ac expression peaking in the IUB-2013 cultivar under 1%K2SO4 treatment.These findings suggest that potassium-based halopriming improves cotton seedling establishment and Bt gene expression.This study addresses the critical gaps in understanding the effects of seed halopriming on morphological traits,germination,and expression of the Cry1Ac gene in Bt cotton while providing a novel eco-friendly and cost-effective halopriming approach,offering the potential to improve cotton production.

Mepiquat chloride increases the Cry1Ac protein content of Bt cotton under high temperature and drought stress by regulating carbon and amino acid metabolism

The effects of mepiquat chloride(DPC)on the Cry1Ac protein content in Bacillus thuringiensis(Bt)cotton boll shells under high temperature and drought stress were investigated to provide a theoretical reference for Bt cotton breeding and high-yield and-efficiency cotton cultivation.This study was conducted using Bt cotton cultivar‘Sikang 3'during the 2020 and 2021 growing seasons at Yangzhou University Farm,Yangzhou,Jiangsu Province,China.Potted cotton plants were exposed to high temperature and drought stress,and sprayed with either 20 mg L^(-1)DPC or water(CK).Seven days after treatment,the Cry1Ac protein content,α-ketoglutarate content,pyruvic acid content,glutamate synthase activity,glutamic oxaloacetic transaminase activity,soluble protein content,and amino acid content were measured,and transcriptome sequencing was performed.DESeq was used for differential gene analysis.Under the DPC treatment,the Cry1Ac protein content increased by 4.7-11.9% compared to CK.Theα-ketoglutarate content,pyruvic acid content,glutamate synthase activity,glutamic oxaloacetic transaminase activity,soluble protein content,and amino acid content all increased.Transcriptome analysis revealed 7,542 upregulated genes and 10,449 downregulated genes for DPC vs.CK.Gene ontology(GO)and Kyoto Encyclopedia of Gene and Genomes(KEGG)analyses showed that the differentially expressed genes were mainly involved in biological processes,such as carbon and amino acid metabolism.For example,genes encoding 6-phosphofructokinase,pyruvate kinase,glutamic pyruvate transaminase,pyruvate dehydrogenase,citrate synthase,isocitrate dehydrogenase,2-oxoglutarate dehydrogenase,glutamate synthase,1-pyrroline-5-carboxylate dehydrogenase,glutamic oxaloacetic transaminase,amino-acid N-acetyltransferase,and acetylornithine deacetylase were all significantly upregulated.The DPC treatment increased pyruvate,α-ketoglutarate,and oxaloacetate by increasing the operational rate of the glycolytic pathway of the citric acid cycle.It also significantly upregulated the genes encoding glutamate synthase,pyrrolidine-5-carboxylic acid dehydrogenase,glutamate oxaloacetate transaminase,and N-acetylglutamate synthetase,while it downregulated the genes encoding glutamine synthetase.Therefore,the synthesis of aspartic acid,glutamic acid,pyruvate,and arginine increased after treatment with DPC,and the Cry1Ac protein content was increased by regulating carbon and amino acid metabolism.

农杆菌介导Cry1Ac基因转化菊花

用农杆菌介导法,以茎段(节间)为外植体,将含有苏云金芽孢杆菌(Bt)毒蛋白Cry1Ac基 因的植物遗传载体导入菊花(切花菊)品种‘日本黄’中,得到126株抗性植株,PCR检测及基因组DNA 的Southern杂交分析表明Cry1Ac基因已整合到菊花总DNA中,共获得6株转基因植株。利用棉铃虫做转基 因植株的盆栽和叶片平皿试验,发现其中2株对棉铃虫具有很高抗性,校正死亡率达90%以上;1株对棉 铃虫具有高抗性,校正死亡率达80%以上;3株对棉铃虫抗性较明显,校正死亡率44.7%～60.9%。

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Plutellaxylostella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。

转sck+cry1Ac基因水稻对二化螟及二化螟绒茧蜂存活和生长发育的影响

在实验室研究了转sck+cry1Ac基因水稻(MSB)对二化螟Chilosuppressalis(Walker)生长、存活以及经寄主对二化螟绒茧蜂Apanteleschilonis(Munakata)生物学特性的影响。连续取食转sck+cry1Ac基因水稻的二化螟,体重下降、死亡率上升,从第2天开始,其体重显著低于取食明恢86的对照组;从第6天开始,死亡率极显著高于对照组。二化螟取食MSB36h后移至对照水稻上继续取食3、6、9、12天后,死亡率与对照差异都不显著;但体重均低于对照,其中第3天的体重差异达显著水平。二化螟绒茧蜂分别以取食MSB一定时间的3、4、5龄二化螟幼虫为寄主时,寄生率均低于以对照组,其中对4龄幼虫的寄生率差异显著;结茧率与对照差异均不显著;寄生在取食MSB的5龄二化螟幼虫体内的蜂、蛹期显著长于对照,而所结茧的茧长显著短于对照;但卵-幼虫历期、每茧块茧数、羽化率、雌性率、成蜂寿命和前翅长与对照无显著差异。结果表明转sck+cry1Ac基因水稻不仅对二化螟生长和存活有显著影响,而且可经寄主二化螟影响到二化螟绒茧蜂的一些生物学特性。

棉铃虫田间种群Bt毒素Cry1Ac抗性基因频率的估算

采用改进的F1筛查法检测了2005年采自华北地区的棉铃虫Helicoverpaarmigera(H櫣bner)田间种群对Bt毒素Cry1Ac的抗性基因频率。2005年从河南安阳和河北沧县转Bt基因抗虫棉上采集二代棉铃虫卵,在室内用人工饲料饲养至2龄幼虫,用1μg/cm2的Cry1Ac活化毒素进行初筛,将初筛存活成虫与室内筛选的GYBT抗性品系成虫进行单对杂交,并用区分剂量(2·5μg/cm2)对F1代进行检测。经检测,2005年河南安阳棉铃虫种群和河北沧县棉铃虫种群对Cry1Ac抗性基因频率基本一致,分别为1·4×10-3和1·5×10-3。用毒素涂表法测定了2004、2005年采自河南安阳、河北高阳、河北沧县、新疆阿克苏和新疆沙湾棉铃虫田间种群对Cry1Ac活化毒素的敏感性水平,结果表明华北棉区与新疆内陆棉区棉铃虫种群对Cry1Ac的敏感性存在一定的地区性差异(<8倍)。总体上,我国华北棉区棉铃虫种群对Cry1Ac还未产生明显抗性,抗性基因频率处于正常水平。棉铃虫对转Bt基因抗虫棉的抗性风险依然存在,需要尽快启动全国性的早期抗性检测和预警工作。

Cry1Ac毒蛋白对粘虫生长发育、繁殖及飞行能力的影响

为了更全面地评价转基因作物对粘虫Mythimna separata(Walker)(鳞翅目:夜蛾科)的影响,在室内用生测法研究了粘虫初孵幼虫连续取食含不同浓度的Cry1Ac毒蛋白的人工饲料后,其生长发育、繁殖及飞行能力的变化。结果表明:取食0(对照),3,6,12,24,48和96μg/gCry1Ac毒蛋白人工饲料6d后的幼虫头宽、体长、18d后的体重随着毒蛋白浓度的升高显著降低,幼虫发育历期显著延长,死亡率显著升高。取食含毒蛋白浓度>12μg/g饲料的幼虫不能正常化蛹;取食含0,3和6μg/g毒蛋白饲料的幼虫能正常化蛹、羽化,化蛹率随着毒蛋白浓度的升高而显著降低、蛹历期显著延长;取食含0,3和6μg/g毒蛋白饲料的幼虫羽化的成虫繁殖能力有显著差异,产卵前期随毒蛋白浓度的升高显著延长,产卵量显著降低;而1日龄成虫飞行能力(飞行距离、时间和速度)则随毒蛋白浓度的升高显著降低。这些结果表明,Cry1Ac毒蛋白对粘虫的生长发育、繁殖及飞行具有显著影响,从而为完善转Bt作物的生态安全性风险评估提供了重要的实验依据。

Cry1Ac杀虫蛋白对粘虫中肠几种酶活性的影响

为阐明Bt杀虫蛋白对次要靶标害虫粘虫Mythimna separata(Walker)(鳞翅目:夜蛾科)的生理学影响,本研究分析比较了粘虫高龄幼虫在室内取食低剂量Cry1Ac杀虫蛋白6,12,24和36h后,其体内主要的解毒酶(酯酶和谷胱甘肽-S-转移酶)、保护酶(超氧化物歧化酶、过氧化氢酶和过氧化物酶)和中肠蛋白酶(总蛋白酶、强碱性类胰蛋白酶、弱碱性类胰蛋白酶和类胰凝乳蛋白酶)等活性的变化。结果表明,取食Cry1Ac杀虫蛋白后,粘虫幼虫体内相关酶活力呈现不同的变化趋势:(1)酯酶、谷胱甘肽-S-转移酶、过氧化物酶(POD)、类胰蛋白酶和类胰凝乳蛋白酶活力较对照显著降低(P<0.05);(2)超氧化物歧化酶(SOD)活力较对照显著升高(P<0.05);(3)过氧化氢酶(CAT)活力于6,12和24h显著低于对照(P<0.05),36h时显著高于对照(P<0.05)。结果提示Cry1Ac杀虫蛋白主要通过抑制粘虫幼虫中肠解毒酶和蛋白酶的活性,扰乱SOD,CAT和POD3种保护酶的动态平衡而干扰幼虫的正常生理代谢,从而起到毒杀粘虫的作用。

根癌农杆菌介导Cry1Ac基因转化‘雪青’梨获得转基因植株

以‘雪青’梨叶片愈伤组织为外植体,经根癌农杆菌介导将CaMV35S启动子调控下的Cry1Ac基因导入‘雪青’梨。698块愈伤组织和231个Kanr芽与携带表达载体质粒pBX203的根癌农杆菌菌株LBA4404共培养3d后,转入含50mg.L-1Kan的筛选培养基培养30d,15d转接1次。结果表明,在MS+5mg.L-16-BA+0.1mg.L-1IAA筛选培养基中,Kanr芽率为34.24%,在1/2MS+2mg.L-1IBA+0.5mg.L-16-BA+500mg.L-1AC筛选培养基中,15.58%Kanr芽生根。共获得再生植株32株,经PCR和Southern-blot分析证明,其中4株的基因组已成功导入和整合Cry1Ac基因。

Cry1Ba3、Cry1Ia8蛋白对Cry1Ac抗性小菜蛾的杀虫活性研究

利用2种苏云金芽胞杆菌原毒素Cry1Ba3、Cry1Ia8及其组合,分别对Cry1Ac抗性种群小菜蛾幼虫进行生物活性测定。结果表明Cry1Ba3、Cry1Ia8对2种目标试虫均有高毒力,LC50分别为0.2175、0.6706μg/mL;Cry1Ba3毒力3倍于Cry1Ia8。2种蛋白混配的结果也表现出高毒力,LC50为0.4375μg/mL,没有显著的协同增效作用,也不存在拮抗。敏感与抗性小菜蛾种群生测结果统计分析比较,结果表明这2种蛋白及其组合与Cry1Ac并无交互抗性。

基因枪法获得转cry1Ac基因甘蔗的研究

根据定向克隆原则,以pGreenⅡ0229为载体骨架,cry1Ac为目的基因,bar为筛选标记基因,构建了大小为8602bp的植物表达载体pUBCG0229-cry1Ac。酶切结果表明,构建的载体pUBCG0229-cry1Ac结构完全正确。用基因枪轰击法将pUBCG0229-cry1Ac质粒DNA转化甘蔗(Saccharum Complex)品种福农95-1702和桂糖94-119的胚性愈伤组织,使用PPT(phosphinothricin)对轰击后的材料进行继代、分化和生根筛选,移栽成活后使用Basta溶液喷洒进行初步筛选,共获得86株抗性植株,通过PCR检测、Dot-Southern检测及PCR产物测序,证明已将cry1Ac基因整合到其中22株甘蔗基因组中。

转基因(Cry1Ac)抗虫棉对土壤微生物的影响

对不同种植年限的转基因(Cry1Ac)抗虫棉田土壤中主要微生物数量变化进行了测定,结果表明:(1)种植转基因抗虫棉后对土壤微生物细菌、放线菌和真菌数量的影响趋势基本相似;(2)种植抗虫棉1年后,土壤中细菌、放线菌、真菌数量将有所增加,连续4年达到高峰,然后数量开始下降,连续种植7年后,棉田微生物数量接近于种植1年的棉田;(3)种植1年后又种植非转基因棉花的棉田,土壤微生物数量低于种植1年抗虫棉的棉田,与种植非转基因棉的数量无明显差异。由此可见,种植转基因抗虫棉对土壤微生物数量有一定的影响。

Cry1Ac和sck双价抗虫基因遗传转化甘蔗的研究

将双价抗虫基因,即修饰的苏云金芽孢杆菌毒蛋白基因(Cry1Ac)和修饰的豇豆胰蛋白酶抑制剂基因(sck)导入甘蔗优良品种ROC22,获得潮霉素抗性转化植株95株,35株能检测到外源抗虫基因,获得的13株RT-PCR双基因均呈阳性的甘蔗植株,斑点杂交检测有4株呈阳性。结果表明:外源抗虫基因已导入甘蔗基因组中。

苏云金芽胞杆菌cry1Ac与烟草几丁质酶tchiB双价基因克隆表达及其杀虫增效作用研究

将苏云金芽胞杆菌(Bacillus thuringiensis,Bt)4.0718菌株质粒上的cry1Ac基因和烟草几丁质酶tchiB基因(去掉信号肽或去信号肽再加肠激酶位点)构建了重组基因。经过双酶切和亚克隆,将带有cry1Ac基因上游启动序列和下游终止序列的重组基因片段克隆至穿梭载体pHT315,分别构建重组质粒pHUAccB6、pHUAccB7,在大肠杆菌中扩增后,将两个重组质粒分别电转化苏云金芽胞杆菌无晶体突变株XBU001中,获得重组菌株HAccB6和HAccB7。经液体双相胞晶分离提取离心后,将晶体和上清液分别进行SDS-PAGE分析,双价基因重组与cry1Ac基因在无晶体突变株中表达量相比较,几丁质酶活性提高5.2倍,双价重组蛋白表达量显著提高,主要产生130kDa蛋白条带。经定量分析:双价重组目的晶体蛋白占总蛋白量的61.38%;Cry1Ac蛋白占总蛋白量的42%。发酵上清液经60%硫酸铵沉淀,显示出一条分子量为18kDa新蛋白条带。经原子力显微镜和电子显微镜观察,表达后的重组蛋白呈菱形或椭原形晶体,其规格约为1.5×3.0μm;经生测分析,重组菌株HAccB6和HAccB7毒力相近,与HAc菌株比较毒力提高4.5倍,对棉铃虫(Helicourpa armigora)具有高效杀虫活性,其3dLC50值分别为9.1μg/mL和11.34μg/mL。研究结果表明,烟草几丁质酶与cry1Ac双价基因重组表达产物具有杀虫增效作用。

转cry1Ac＋cry2Ab基因棉对棉田节肢动物群落的影响

以Bt棉和常规棉为对照,研究了转cry1Ac+cry2Ab棉对棉田节肢动物群落的影响。研究结果表明,转cry1Ac+cry2Ab棉田、转cry1Ac棉田和常规棉田节肢动物群落、害虫亚群落和天敌亚群落的结构与组成无明显差异;转cry1Ac+cry2Ab棉田刺吸类害虫、蛀食类害虫和食叶类害的数量均低于转cry1Ac棉田和常规棉田;转cry1Ac+cry2Ab棉田蜘蛛类、瓢虫类和捕食类天敌的数量均低于转cry1Ac棉田和常规棉田;转cry1Ac+cry2Ab棉田节肢动物群落、害虫亚群落和天敌亚群落的多样性指数与转cry1Ac棉田和常规棉田相比均无明显差异,说明转cry1Ac+cry2Ab棉田节肢动物群落、害虫亚群落和天敌亚群落的稳定性和转cry1Ac棉和常规棉相比均无明显差异。

修饰的cry1Ac基因导入籼稻明恢81获得抗虫纯合系

采用细胞内定位技术对cry1Ac基因进行修饰 ,其表达产物定位于内质网及衍生自内质网的蛋白体。通过基因枪法成功地将经过修饰的cry1Ac基因导入到优良杂交籼稻恢复系明恢 81中。对潮霉素抗性植株的PCR和Southern检测及ELISA分析证实 ,修饰的cry1Ac基因已整合到受体水稻品种中并得以表达 ,自交加代结合潮霉素筛选于T2 代获得转基因纯合系。抗虫性测试表明 ,部分转基因纯合系高抗二化螟 (Chilosuppressalis)。

大肠杆菌中利用苏云金芽胞杆菌强启动子p1Ac指导Cry1Ac蛋白表达的特性分析

对利用苏云金芽胞杆菌(Bacillus thuringiensis,Bt)强启动子——cry1Ac基因启动子p1Ac指导cry基因在大肠杆菌中的表达进行了研究。结果显示,大肠杆菌中由启动子p1Ac指导表达的Cry1Ac蛋白与苏云金芽胞杆菌来源的Cry1Ac蛋白在碱溶性、胰蛋白酶活化、杀虫活性等方面有较好的一致性,从而解决了目前商业化载体大肠杆菌表达cry基因时形成不易溶解的包涵体问题。同时,还对p1Ac指导的cry1Ac基因在大肠杆菌中表达的发酵条件进行了初步探索。

Cotton Plants Transformed with the Activated Chimeric Cry1Ac and API-B Genes

A chimeric gene, Bt29K, composed of coding sequences of activated Cry1Ac insecticidal protein and an endoplasm reticulum-retarding signal peptide, was synthesized. A plant expression vector containing two expression cassettes for the Bt29K and API-B genes was constructed. These two insect-resistant genes were transferred into two cotton ( Gossypium hirsutum L.) varieties ( or lines) via Agrobacterium-mediated transformation and nine homozygous transgenic cotton lines showing a mortality of 90.0% - 99.7% to cotton ballworm (Heliothis armigera) larvae and good agronomic traits were selected through six generations. Molecular biology analysis revealed that one or two copies of the insecticidal protein genes were integrated into the transgenic cotton genome and activated Cry1Ac and API-B protein expression was at a level of 0.17% and 0.09% of the total soluble protein in the transgenic cotton leaves, respectively. Comparison of the insect-resistance of the homozygous lines expressing the activated chimeric Cry1Ac and API-B with that expressing Cry1Ac only revealed that the insect-resistance of the former is apparently higher than the latter. These results also indicate that the strategy to construct a plant expression vector expressing two different insect-resistant genes reported here is reasonable.

苏云金芽孢杆菌S1478-1分离株的特性鉴定及cry1Ac同源基因克隆

本研究对从海南岛尖峰岭热带雨林自然保护区的土壤样品中分离出的Bt菌株S1478-1进行了特性鉴定,研究表明S1478-1分离株菌落形态和生长特征和Bt参照菌株HD73极其相似。16SrDNA序列分析表明,S1478-1分离株与其它B.thuringiensis、B.cereus和B.anthracis的16SrDNA序列相似性达到99%。分离株能产菱形伴胞晶体,SDS-PAGE蛋白电泳分析表明,菌株在生长后期,形成芽孢同时分泌130kD大小的晶体蛋白。生物测定表明S1478-1分离株对小菜蛾具有很高的毒杀活性,LC50值高达5.159×108cfu/mL。初步显示S1478-1分离株可作为防治鳞翅目害虫的生物农药菌株。利用PCR-RFLP方法鉴定S1478-1分离株含有cry1Ac同源基因,以PCR粘性端克隆方法扩增全长基因,序列测定表明该基因ORF为3537bp,编码1178个氨基酸,推定的编码蛋白分子量为133.3kD,与其它cry1Ac基因序列最高达到99%同源,因此,该基因可作为杀虫工程菌及培育转基因抗虫作物的候选基因。

Cry1Ac杀虫蛋白对甜菜夜蛾飞行能力的影响

转Bt基因作物上害虫取食Bt杀虫蛋白后存活并羽化的成虫飞行能力对于其飞离Bt作物,寻找庇护所中敏感个体进行交配、产卵,从而稀释抗性基因频率,实现"高剂量/庇护所"抗性治理策略具有重要意义。本文对取食含不同浓度Cry1Ac杀虫蛋白人工饲料的初羽化(未取食补充营养)甜菜夜蛾飞行能力进行了测试,结果表明,幼虫取食含25、50、100μg/g和200μg/g Cry1Ac杀虫蛋白人工饲料存活并羽化的成虫飞行距离、飞行速度和飞行时间均差异显著(p<0.05)。取食含较低浓度Cry1Ac杀虫蛋白(25μg/g和50μg/g)的人工饲料有促进成虫飞行的倾向,尽管与取食不含Cry1Ac杀虫蛋白的对照相比,成虫飞行距离、飞行速度和飞行时间均未达到显著增加的水平,但强飞行个体比例明显增加。随着饲料中Cry1Ac杀虫蛋白浓度的升高,羽化的成虫飞行能力显著下降。雄蛾飞行能力下降的程度比雌蛾更加明显。这些数据为转Bt基因作物上迁飞性害虫的种群动态规律及其潜在的抗性治理策略提供了科学依据。