土壤水分亏缺对Bt棉铃壳杀虫蛋白表达的影响

【目的】研究土壤水分亏缺对Bt棉杀虫蛋白含量及Bt基因表达、氮代谢酶活性的影响,为Bt棉抗虫性安全表达提供理论参考。【方法】2014—2015年以Bt棉常规品种泗抗1号、杂交种泗抗3号为材料,采用盆栽法,2014年设置5个土壤水分处理:G1、G2、G3、G4和CK,其土壤含水量分别为最大持水量的15%、30%、45%和75%。2015年设置4个处理:G2、G3、G4和CK。观察土壤水分亏缺对盛铃期Bt棉铃壳杀虫蛋白含量影响。所有处理于盛花期前10 d控制浇水,如遇下雨,将处理盆钵移入室内。使用WET土壤三参数速测仪监测土壤水分,用称重法控制土壤水分,即当监测发现土壤水分低于设计值时,于早晨、中午、傍晚进行定量补水。2015年进一步研究水分亏缺对Bt基因表达量、氮代谢相关合成酶(硝酸还原酶和谷氨酸丙酮酸转氨酶)活性、分解酶(肽酶和蛋白酶)活性的影响。【结果】与对照(土壤含水量为最大持水量75%)相比,泗抗1号和泗抗3号铃壳中Bt蛋白含量随土壤水分亏缺程度的增加而降低,且在土壤含水量为最大持水量60%时开始显著下降,但泗抗1号下降幅度低于泗抗3号,其中2014年泗抗1号下降22.5%,泗抗3号下降41.6%。在土壤含水量为最大持水量60%时,铃壳中Bt基因表达量增加,泗抗1号、泗抗3号分别比对照提高48.6%和22.1%。氮代谢相关酶活性变化表明,水分亏缺条件下,2个类型品种的硝酸还原酶(NR)和谷氨酸丙酮酸转氨酶(GPT)活性降低,肽酶和蛋白酶活性增加。且肽酶和蛋白酶活性变化幅度高于NR和GPT。相关分析表明,NR和GPT活性与铃壳中杀虫蛋白含量呈显著或极显著正相关;肽酶和蛋白酶活性与杀虫蛋白含量呈显著负相关。【结论】水分亏缺胁迫下,供试品种铃壳中杀虫蛋白质含量下降。但在转录水平,未发现Bt基因表达量下降。但氮代谢关键合成酶(NR和GPT)活性降低,分解酶(肽酶和蛋白酶)活性增加。因此,蛋白质合成减弱、分解加强可能导致铃壳中杀虫蛋白含量下降。     

High plant density increases seed Bt endotoxin content in Bt transgenic cotton

Plant density is the cultivation practice usually employed to manipulate boll distribution, boll setting and yield in cotton production. In order to determine the effect of plant density on the insecticidal protein content of Bacillus thuringiensis(Bt) cotton plants, a study was conducted in Yangzhou University of China in 2015 and 2016. Five plant densities(PD1–PD5, representing 15 000, 30 000, 45 000, 60 000, and 75 000 plants ha–1) were imposed on two Bt cotton cultivars, Sikang 1(the conventional cultivar, SK-1) and Sikang 3(the hybrid cultivar, SK-3). The boll number per plant, boll weight and boll volume all decreased as plant density increased. As plant density increased from 15 000 to 75 000 plants ha~(–1), seed Bt protein content increased, with increases of 66.5% in SK-1 and 53.4% in SK-3 at 40 days after flowering(DAF) in 2015, and 36.8% in SK-1 and 38.6% in SK-3 in 2016. Nitrogen(N) metabolism was investigated to uncover the potential mechanism. The analysis of N metabolism showed enhanced soluble protein content, glutamic-pyruvic transaminase(GPT) and glutamate oxaloacetate transaminase(GOT) activities, but reduced free amino acid content, and protease and peptidase activities with increasing plant density. At 20 DAF, the seed Bt toxin amount was positively correlated with soluble protein level, with correlation coefficients of 0.825** in SK-1 and 0.926** in SK-3 in 2015, and 0.955** in SK-1 and 0.965** in SK-3 in 2016. In contrast, the seed Bt protein level was negatively correlated with free amino acid content, with correlation coefficients of –0.983** in SK-1 and –0.974** in SK-3 in 2015, and –0.996** in SK-1 and –0.986** in SK-3 in 2016. To further confirm the relationship of Bt protein content and N metabolism, the Bt protein content was found to be positively correlated with the activities of GPT and GOT, but negatively correlated with the activities of protease and peptidase. In conclusion, our present study indicated that high plant density elevated the amount of seed Bt protein, and this increase was associated with decreased boll number per plant, boll weight and boll volume. In addition, altered N metabolism also contributed to the increased Bt protein content under high plant density.     

Enhancing boll protein synthesis and carbohydrate conversion by the application of exogenous amino acids at the peak flowering stage increased the boll Bt toxin concentration and lint yield in cotton

In Bacillus thuringenesis (Bt) transgenic cotton, the cotton boll has the lowest insecticidal protein content when compared to the other organs. The present study investigated the effects of amino acid spray application at the peak flowering stage on the cotton boll Bt toxin concentration and yield formation. Boll protein synthesis and carbohydrate conversion were also studied to reveal the fundamental mechanism. Three treatments (i.e., CK, the untreated control; LA1, five amino acids; LA2, 21 amino acids) were applied to two Bt cultivars of G. hirsutum (i.e., the hybrid Sikang 3 and the conventional Sikang 1) in the cotton-growing seasons during 2017 and 2018. Amino acid spray application at the peak flowering stage resulted in an increase of 5.2–16.4% in the boll Bt protein concentration and an increase of 5.5–11.3% in the seed cotton yield, but there was no difference between the two amino acid treatments. In addition, amino acid applications led to increases in the amino acid content, soluble protein content, glutamate pyruvate transaminase (GPT) activity, glutamate oxaloacetate transaminase (GOT) activity, glucose content, fructose content and soluble acid invertase (SAI) activity. This study also found that Bt protein content, enhanced boll number and the weight of opened bolls were closely related to carbon and nitrogen metabolism. The Bt protein content had significant linear positive correlations with amino acid and soluble protein contents. Enhanced boll number had significant linear positive correlations with the GPT and GOT activities from 15–25 days after flowering (DAF). The weight of opened bolls from 55–65 DAF had a significant linear positive correlation with the SAI activity. These results indicate that the enhancement of boll protein synthesis and carbohydrate conversion by amino acid application resulted in a simultaneous increase in the boll Bt protein concentration and cotton lint yield.     

源库调节对转Bt基因棉花中与抗虫性相关的棉铃氮代谢的影响

以转Bt基因抗虫棉小铃品种泗抗1号和大铃品种科棉6号为材料,于2009～2010年在扬州大学实验农牧场进行了源库调节对棉铃氮代谢影响的试验。结果表明,与对照相比,去除棉株每张叶片的一半后,体积膨大期棉铃铃重变小,氮代谢有关化合物含量和酶活性提高,且大铃品种科棉3号受影响较大;整株均匀去除一半蕾,则使得铃重变大,氮代谢有关化合物含量和酶活性下降,仍然是大铃品种受影响较大。相关分析结果表明,源库调节下体积增大期棉铃氮代谢强度与铃重基本上呈显著或极显著负相关。因此转Bt基因棉花群体源小库大或源大库小均不利于棉铃生理氮代谢与棉铃发育的协调,同样不利于产量和抗虫性的协同表达。     

种植密度对转Bt棉纤维杀虫蛋白表达量及氮代谢的影响

为了探讨种植密度对转基因抗虫棉纤维中杀虫(Bt)蛋白表达量的影响及其氮代谢机制,以Bt棉常规种泗抗1号和Bt棉杂交种泗抗3号为试验材料,比较1.5×10⁴、3.0×10⁴、4.5×10⁴、6.0×10⁴、7.5×10⁴ 株·hm^-2五个种植密度下转Bt棉杀虫蛋白表达量及其氮代谢的差异。结果表明,纤维中Bt蛋白表达量随种植密度增大呈上升趋势。相关分析表明,单株铃数、单铃体积、单铃干重与Bt蛋白表达量均呈显著负相关。纤维中氮代谢生理相关指标中,可溶性蛋白含量及谷氨酸丙酮酸转氨酶(GPT)和谷氨酸草酰乙酸转氨酶(GOT)活性随种植密度的增大而升高,但游离氨基酸含量、蛋白酶和肽酶活性随密度增大而下降。纤维中Bt蛋白表达量与可溶性蛋白含量、GPT和GOT活性呈显著正相关,而与游离氨基酸含量、蛋白酶和肽酶活性呈显著负相关。可见,提高种植密度降低了棉铃生长,但提高了纤维中Bt蛋白的表达量,且Bt蛋白表达量的提高与植株氮代谢生理密切相关。因此,在生产中通过协调种植密度既可以保持棉铃适度发育,又有利于提高棉纤维中Bt蛋白的表达量,为提高Bt棉产量器官抗虫性提供栽培基础。     

温度和土壤水分与Bt棉铃壳中杀虫蛋白表达关系及其氮代谢生理机制

【目的】明确温度和土壤水分对Bt棉杀虫蛋白含量及其氮代谢活性的影响,为生产中Bt棉抗虫性的安全稳定利用提供理论参考。【方法】2016-2017年以转Bt抗虫基因抗虫棉常规品种泗抗1号（SK1）和杂交种泗抗3号（SK3）为材料,采用盆栽法,设置29℃、32℃、35℃、38℃ 4个温度水平,土壤最大持水量的80%、70%、60%、50%、40% 5个土壤水分水平,观察温度和土壤水分对Bt棉铃壳杀虫蛋白含量的影响,各处理持续胁迫4 d。2016年主要研究各处理对Bt棉铃壳中杀虫蛋白含量的影响;在此基础上,2017年进一步探讨各处理对铃壳中可溶性蛋白含量、谷氨酸草酰乙酸转氨酶（GOT）、蛋白酶、肽酶活性的影响。【结果】SK1和SK3杀虫蛋白含量均在32℃、最大持水量为60%时最高,分别达到471.1 ng·g^-1 FW和351.7 ng·g^-1 FW。在同一土壤水分条件下,32℃最利于SK1和SK3杀虫蛋白表达;同一温度条件下,最大持水量60%利于SK1和SK3杀虫蛋白表达。对杀虫蛋白含量与温度和土壤水分关系进行二元多项式回归分析发现,Bt棉杀虫蛋白含量（Y）与温度（X₂）和土壤水分（X₁）呈二元二次方程关系,其中SK1、SK3相关方程分别为Y=-3230.2+17.2X₁+199.1X₂-0.3X₁²-3.7X₂²-0.7X₁X₂ （r＝0.829^**）、Y=-3322.0+40.7X₁+145.2X₂-0.3X₁²-2.0X₂²-0.3X₁X₂（r＝0.739^**）。SK1的杀虫蛋白表达量最大的温度和土壤水分条件为31.8℃、57.8%,SK3为33.2℃、60.8%。氮代谢相关生理特征表明,SK1和SK3均表现为在32℃和土壤含水量为60%处理下,棉铃中可溶性蛋白含量、谷氨酸草酰乙酸转氨酶（GOT）活性较高,蛋白酶、肽酶活性较低;杀虫蛋白含量与可溶性蛋白和GOT活性呈极显著正相关关系（r＝0.613**;r＝0.735**）,与蛋白酶活性和肽酶活性呈极显著负相关关系（r＝-0.724**;r＝-0.738**）。【结论】温度和土壤水分通过调控蛋白质分解和合成,共同影响Bt棉杀虫蛋白表达,且与其含量呈二元二次方程关系。     

Dynamics of Bt cotton Cry1Ac protein content under an alternating high temperature regime and effects on nitrogen metabolism

This study was conducted to investigate the effects of alternating high temperature on Cry1Ac protein content on Bt cotton cultivars Sikang 1(SK-1,a conventional cultivar)and Sikang 3(SK-3,a hybrid cultivar).In 2011 and 2012,cotton plants were subjected to high temperature treatments ranging from 32 to 40℃ in climate chambers to investigate the effects of high temperature on boll shell insecticidal protein expression.The experiments showed that significant decline of the boll shell insecticidal protein was detected at temperatures higher than 38℃ after 24 h.Based on the results,the cotton plants were treated with the threshold temperature of 38℃ from 6:00 a.m.to 6:00 p.m.followed by a normal temperature of 27℃ during the remaining night hours(DH/NN)in 2012 and 2013.These treatments were conducted at peak boll growth stage for both cultivars in study periods of 0,4,7,and 10 d.Temperature treatment of 32℃ from 6:00 a.m.to 6:00 p.m.and 27℃ in the remaining hours was set as control.The results showed that,compared with the control,after the DH/NN stress treatment applied for 7 d,the boll shell Cry1Ac protein content level was significantly decreased by 19.1 and 17.5% for SK-1 and by 15.3 and 13.7% for SK-3 in 2012 and 2013,respectively.Further analysis of nitrogen metabolic physiology under DH/NN showed that the soluble protein content and the glutamic pyruvic transaminase(GPT)activities decreased slightly after 4 d,and then decreased sharply after 7 d.The free amino acid content and the protease content increased sharply after 7 d.The changes in SK-1 were greater than those in SK-3.These results suggest that under DH/NN stress,boll shell Cry1Ac protein content decline was delayed.Reduced protein synthesis and increased protein degradation in the boll shell decreased protein content,including Bt protein,which may reduce resistance to the cotton bollworm.     

The effects of high temperature level on square Bt protein concen-tration of Bt cotton

Higher boll worm survival rates were detected after high temperature presented during square period in Bt cotton. The objective of this study was to investigate the effects of high temperature level on the Bt efficacy of two different types of Bt cotton cultivars at squaring stage. During the 2011 to 2013 cotton growth seasons, high temperature treatments ranged from 34 to 44°C in climate chambers, and field experiments under high temperature weather with various temperature levels were conducted to investigate the effects of the high temperature level on square Bt protein concentration and nitrogen metabolism. The climate chamber experiments showed that the square insecticidal protein contents reduced after 24 h elevated temperature treatments for both cultivars, whereas significant declines of the square insecticidal protein contents were detected at temperature 38°C, and only slightly numerical reductions were observed when temperature below 38°C. Similar high temperature responses were also observed at the two field experimental sites in 2013. Correspondingly, high temperature below 38°C seems have little effect on the square amino acid concentrations, soluble protein contents, glutamic-pyruvic transaminase(GPT) and glutamic-oxalacetic transaminase(GOT) activities as well as protease and peptidase activities; however, when the temperature was above 38°C, reduced soluble protein contents, enhanced amino acid concentrations, decreased GPT and GOT activities, bolstered protease and peptidase activities in square were detected. In general, the higher the temperature is(38°C), the larger the changes for the above compound contents and key enzymes activities of the square protein cycle. The findings indicated that the unstable insect resistance of the square was related to high temperature level during square stage.     

Bt转基因棉氮代谢生理变化的研究

在田间条件下,对Bt杂交棉科棉1号和常规棉新洋822及其亲本的氮代谢生理情况进行研究。结果表明：Bt棉的氮代谢较强,以盛铃期最为明显,表现为叶片全氮含量明显升高,科棉1号和新洋822在盛铃期分别比亲本增加36．01％和18．96％．而棉铃全氮含量显著下降。氨基酸和可溶性蛋白质含量显著提高,盛铃期科棉1号和新洋822叶片游离氨基酸分别增加10．86％和9．44％,可溶性蛋白分别增加9．82％和8．31％。叶片硝酸还原酶(NR)、丙酮酸转氨酶(GPT)活性增强,科棉1号和新洋822盛蕾期NR活性比其亲本分别高28．37％和12．83％;GPT活性在盛蕾期和盛铃期比亲本分别增加10．51％、4．38％和39．04％、29．05％,蛋白酶活性则明显下降。因此对于Bt基因导入的棉花品种在推广应用过程中应及时调控棉株氮代谢生理强度,以保持营养生长和生殖生长的平衡。     

Effects of External Chemical Regulation on Bt Transgenic Cotton Plants under Combined Stress of High Temperature and Water Deficit

[Objective] The study aimed to find a possible way to combat or alleviate the negative effects caused by high temperature and water deficit at the growth stage of peak boll-setting.[Method] With Bt transgenic cotton GK22 as the test cultivar,a potted experiment was carried out to investigate the effects of the regulation of external substances(the water solutions of pix,urea and their mixture) on the physiological parameters,insecticidal protein content,yield and yield component of cotton plants in artificial climate chambers treated with high temperature and water deficit.[Result] The application of external pix,urea or their mixture was effective in stabilizing the physiological parameters of cotton plants,insecticidal protein content,yield and yield components.Compared with the exclusive application of pix and urea,the mixture of pix and urea played the most effective role in stabilizing the content of chlorophyll,soluble sugar and insecticidal protein,alleviating the increase of the content of free amino acids and proline,and increasing boll number per plant,boll weight and seed cotton yield.[Conclusion] The water solutions of pix,urea or their mixtures can be used to combat or alleviate the stress of high temperature and water deficit if they are sprayed onto cotton plants prior to stress occurrence.     

Reduced square Bacillus thuringiensis insecticidal protein content of transgenic cotton under N deficit

To clarify the effect of the N deficit on the amount of square Bt insecticidal protein, different N application rates(0, 75, 150, 225, and 300 kg ha–1) were imposed on the conventional cultivar Sikang 1(SK-1) and hybrid cultivar Sikang 3(SK-3) during 2015–2016 cotton growth seasons. Under different N application rates, the square number per plant, square volume and square dry weight reduced when the N rates decreased from conventional rate(300 kg ha–1) to 0 kg ha–1. And the square Bt protein content decreased accordingly. The analysis of N metabolism showed that soluble protein content, GPT and GOT activities decreased, free amino acid, peptidase and protease activities increased under N deficit. Correlation analysis indicated that the reduced Bt protein content under N deficit was related to altered N metabolism. In conclusion, square development and the amount of square Bt toxin both decreased under N deficit, indicating that promoting the square development under appropriate N application rate would also promote the insect resistance during squaring stage.     

Bt棉功能叶氮代谢对Bt蛋白表达及氮肥调节的响应

为评价外源Bt基因插入以及氮肥对Bt棉功能叶Bt蛋白表达及氮代谢的影响,对Bt棉功能叶Bt蛋白含量,硝酸还原酶、谷丙转氨酶和蛋白酶活性,可溶性蛋白质和全氮含量等指标进行了测定。结果表明:Bt棉功能叶Bt蛋白含量在蕾期最高,此后,随生育进程呈显著下降。与常规棉相比,Bt棉功能叶硝酸还原酶活性提高,在前中期谷丙转氨酶活性显著提高且有利于可溶性蛋白质的合成,前期全氮含量显著增加,对蛋白酶活性没有明显影响。Bt棉功能叶Bt蛋白含量与硝酸还原酶活性、可溶性蛋白质和全氮含量呈显著正相关,表明Bt棉前期增强的氮代谢促进了Bt蛋白的表达。施氮肥明显提高Bt棉中后期功能叶硝酸还原酶活性、可溶性蛋白质含量和Bt蛋白的表达。基施和初花期各50%的效应显著大于全部基施,而在基施氮肥基础上,初花期增施50%的氮肥效应最明显。与常规棉比较,施氮肥更有利于Bt棉中后期功能叶硝酸还原酶活性、可溶性蛋白质含量提高。     

转Bt基因抗虫棉Bt基因表达的时空动态

以转Bt基因抗虫棉 33B为材料 ,利用ELISA检测方法 ,通过对棉株不同发育时期和同一时期的不同组织或器官Bt晶体蛋白含量的测定 ,研究了转Bt基因抗虫棉Bt基因表达的时空变化。结果表明 ,随着棉株生育进程的推进和株体的老化 ,Bt晶体蛋白含量随着植株体内可溶性总蛋白含量的逐渐降低而降低 ,而Bt基因的表达强度从苗期到蕾期随着棉株营养生长的加快而呈上升趋势 ,至蕾期达到高峰 ,以后逐渐减弱。不同组织或器官Bt晶体蛋白的含量也有较大差异 ,表现在幼嫩组织或器官的含量较高 ,成熟组织或器官次之 ,衰老组织最低。这说明Bt基因表达强度的减弱和Bt晶体蛋白含量的降低是转Bt基因抗虫棉生育后期抗虫性降低的根本原因     

高温干旱下缩节胺通过调节碳和氨基酸代谢提高Bt棉杀虫蛋白含量的生理机制

【目的】探讨高温干旱胁迫下缩节胺（mepiquat chloride,DPC）调控Bt(Bacillus thuringiensis)棉杀虫蛋白含量的生理机制，为高抗虫性Bt棉品种选育及高产高效栽培提供理论依据。【方法】2020—2021年以转Bt抗虫基因抗虫棉品种泗抗3号为材料，采用盆栽法，在人工气候室进行高温干旱胁迫，胁迫开始后立即用20 mg·L-1 DPC和清水（对照）喷施。7 d后测定铃壳杀虫蛋白含量、α-酮戊二酸含量、丙酮酸含量以及谷氨酸合酶活性、谷氨酸草酰乙酸转氨酶活性、可溶性蛋白含量、游离氨基酸含量。并进行转录组测序，利用DESeq进行差异基因分析，通过GO富集和KEGG Pathway数据库注释参与DPC调节杀虫蛋白含量的差异表达基因。【结果】与清水对照相比，DPC可显著提高高温干旱条件下Bt棉铃壳中杀虫蛋白含量，提高幅度达4.7%—11.9%。在碳代谢方面，α-酮戊二酸含量、丙酮酸含量提高46%—57%和25%—29%；在氨基酸代谢方面，谷氨酸合酶活性、谷氨酸草酰乙酸转氨酶活性、可溶性蛋白含量、游离氨基酸含量分别提高32%—44%、30%—40%、28%和22%—2...     

转Bt基因棉花品种与绿盲蝽危害相关的几个生理指标特征分析

研究了转Bt基因棉不同品种的生理代谢特征及其与棉盲蝽危害的关系。结果表明:在供试的6个棉花品种中,棉花绿盲蝽发生量和危害程度以转Bt基因杂交棉品种最高,转Bt基因常规棉品种次之,非转基因常规棉品种最低。顶芽和幼蕾的可溶性糖含量与绿盲蝽发生量和危害程度呈显著或极显著的正相关,而缩合单宁含量和PLA活性与之则呈显著或极显著的负相关。顶芽和幼蕾的可溶性糖含量以转Bt基因杂交棉品种最高,转Bt基因常规棉品种次之,非转基因常规棉品种最低;缩合单宁含量、PLA活性以非转基因常规棉品种最高,转Bt基因常规棉品种次之,转Bt基因杂交棉品种最低。棉花植株氮素积累量与顶芽和幼蕾的可溶性糖含量呈显著或极显著正相关,而与缩合单宁含量和PLA活性呈显著或极显著的负相关;蕾期和铃期的氮素积累量以转Bt基因杂交棉品种最高,转Bt基因常规棉品种次之,非转基因常规棉品种最低。上述结果表明,转Bt基因棉花品种(尤其是转Bt基因杂交棉品种)在蕾期和铃期的氮素积累量高,引起了顶芽和幼蕾的可溶性糖含量提高,缩合单宁含量和PLA活性降低。     

转Bt基因抗虫棉Bt毒蛋白表达量的时空变化

采用抗体夹心ELISA技术 ,对转Bt基因抗虫棉植株中Bt毒蛋白含量进行了测定。结果表明 :Bt基因在所检测的器官中均有表达 ,但是不同器官中的Bt毒蛋白含量明显不同。在苗期全展功能叶中Bt毒蛋白含量最高 ,根、茎和叶柄中含量较低 ;不同生育期的功能叶中Bt毒蛋白含量差异显著。Bt毒蛋白含量在苗期叶片中最高 ,蕾期次之 ,花铃期最低。随着棉花生长发育进程的推进 ,Bt基因在叶片中的表达强度逐渐减弱。Bt基因在棉株体内的表达随着器官的不同 ,生育时期的不同而表现出时空动态变化。     

转Bt-cry1Ac基因棉花叶片中杀虫蛋白在环境中的降解动态

 采用ELISA方法研究了Bt棉花叶片中Cry1Ac杀虫蛋白在不同环境条件空气介质中和土壤介质中的降解规律。结果表明，不同环境下Bt杀虫蛋白降解趋势有明显差异。不同温湿度及光照条件的空气介质中，Bt杀虫蛋白的降解速度一般在初期较快，经过短暂的缓慢降解阶段后进入相对稳定状态（含量50 ng·g-1左右）。高温低湿条件下，Bt杀虫蛋白降解较快，达到稳定水平的时间短。Bt杀虫蛋白在光照和非光照环境下的的降解动态没有显著性差异。自然条件下Cry1Ac蛋白在土壤介质中初始阶段降解迅速，30 d后降解了85%左右。随着冬季的到来, 杀虫蛋白降解趋于缓慢。次年春天后，杀虫蛋白的降解加快，至 4月下旬检测不到Bt杀虫蛋白。     

转基因抗虫玉米Bt毒蛋白的时空表达分析

对2个转Bt基因玉米抗虫系株系进行Bt毒蛋白表达量的分析测定。结果显示,转基因株系中的毒蛋白可以在其后代稳定的遗传和表达,毒蛋白的表达为组成性表达,在玉米的各个发育时期和植株的各个部位均有表达,但其表达的量有显著差异,毒蛋白表达量随着植株的生长而减少,比较植株的各个器官,叶片毒蛋白含量最高,茎次之,根、种子和花丝中的毒蛋白含量较少。     

转Bt基因棉的检测和抗虫性鉴定研究进展

综述了转Bt基因棉的检测和抗虫性鉴定的研究概况,分别从外源Bt基因的检测、Bt毒蛋白的检测、标记基因的检测和抗虫性的鉴定4个方面进行了探讨,并提出了一些有待于研究的问题.     

转Bt基因抗虫棉33B的氮素代谢特征

以转B t基因抗虫棉新棉33B及其常规棉对照品种泗棉3号为材料,探讨转B t基因抗虫棉氮素代谢特征。结果显示:转基因抗虫棉33B主茎功能叶片中的全N含量、可溶性蛋白含量、硝酸还原酶(NR)活性以及主要氨基酸总量和游离氨含量均高于常规棉,其氮代谢十分旺盛;转基因抗虫棉33B的棉铃对位叶、铃壳中的全N含量亦高于常规棉,表明转基因抗虫棉33B具有较强的源、库生理优势。但在棉铃发育中后期,转基因抗虫棉33B营养物质向棉铃运输速度比常规棉低,从而导致单铃重减轻,衣分下降。