首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 156 毫秒
1.
转Bt基因玉米根际微生物和细菌生理群多样性   总被引:4,自引:0,他引:4       下载免费PDF全文
大田栽培条件下,以转Bt玉米Mon810及其亲本非转基因玉米为研究对象,在玉米的不同生育期测定根际土壤微生物的数量变化,并对细菌群落结构及多样性进行了分析。结果表明,各生育期内Bt玉米与对照相比根际土壤真菌无显著差异,但细菌在抽丝期,放线菌在苗期二者有显著差异。同种细菌功能群的数量变化在Bt玉米和对照各生育期内趋势一致,不同的菌群表现不同。亚硝化细菌、好气固氮菌、氨化细菌和钾细菌的数量变化波动较大,其中Bt玉米和对照相比好气固氮菌的数量在生育期内有5个生育期有显著差异,而氨化细菌、钾细菌和亚硝酸菌仅分别在乳熟期、喇叭口期及拔节期和抽雄期差异显著。好气纤维分解菌和硝化细菌在苗期、拔节期和喇叭口期差异显著,无机磷分解菌在乳熟期和完熟期数量差异显著。整个生育期内3种群落特征参数均保持基本稳定,除乳熟期和完熟期外Bt玉米根际微生物群落特征参数均高于对照。  相似文献   

2.
Liu W  Wang ST  Chen YX  Wu WX  Wang J 《应用生态学报》2011,22(3):727-733
以亲本水稻为对照,应用13C脉冲标记和磷脂脂肪酸技术,分析转Bt基因对水稻根际微生物多样性的影响.结果表明:转Bt基因水稻与亲本水稻根际均以饱和脂肪酸和支链脂肪酸为主,单不饱和脂肪酸次之,多不饱和脂肪酸最少.苗期、拔节期和抽穗期,转成基因水稻根际革兰氏阳性菌(G+)代表性磷脂脂肪酸含量显著低于亲本水稻;革兰氏阴性菌(G-)代表性磷脂脂肪酸含量显著高于亲本水稻.水稻各生育期,转Bt基因未对水稻根际土壤真菌、放线菌磷脂脂肪酸含量造成显著影响,且转Bt基因水稻与亲本水稻根际微生物磷脂脂肪酸13C含量无显著性差异.表明外源Bt基因插入仅对水稻根际微生物多样性造成短暂影响,不具有持续性.  相似文献   

3.
转基因作物在商业化推广前,有必要评价其对非靶标土壤生物的生态影响。根系和凋落物与土壤的界面是代表植物直接影响土壤的两个典型活性微域,即根际和凋落物际。基于室内盆栽实验构建水稻根际和凋落物际,比较了这两个高活性微域中转Bt水稻克螟稻(KMD)与亲本水稻秀水11(XSD)对土壤可利用资源、微生物学性质和线虫群落的影响。结果表明:转Bt水稻对土壤性质的影响依赖于水稻生育期和微域的变化。与XSD相比,KMD在苗期和拔节期显著提高了凋落物际土壤可溶性有机氮含量(P0.05);在苗期显著降低了凋落物际土壤铵态氮含量,但在成熟期显著提高了凋落物际与交互微域土壤的铵态氮含量(P0.05)。与亲本水稻相比,转Bt水稻分别在苗期和成熟期显著提高了凋落物际土壤微生物生物量碳和活性,而在拔节期和成熟期显著降低了根际土壤微生物生物量氮含量(P0.05)。微域间的交互作用显著影响土壤微生物生物量、可溶性有机碳和氮、线虫总数和各食性线虫的数量(P0.05)。转Bt水稻总体上降低了土壤线虫总数,尤其在苗期和拔节期的凋落物际土壤中达到显著水平。重复测量方差分析表明转Bt水稻显著影响土壤食细菌(P0.01)和食真菌(P0.05)线虫数量,及线虫群落的通道指数和富集指数。水稻收获后KMD秸秆的Bt蛋白含量显著高于亲本,全部KMD处理的土壤样品中Bt蛋白含量无显著变化,因而转Bt水稻对土壤生物学性质的影响可能并非来源于Bt蛋白的作用,而更可能来自于水稻生长性状和凋落物性质的差异。  相似文献   

4.
以猪粪与秸秆(鲜质量10.5∶1)为基础,在自制的强制通风静态堆肥反应箱中进行堆肥化试验,研究添加8%葡萄籽对猪粪秸秆高温堆肥中微生物群落演替和碳氮转化的影响.在堆肥化的30 d里,分7次采集不同时期的堆肥样品,测定堆肥中微生物区系、微生物生理群的数量及堆肥碳氮含量.结果表明:添加葡萄籽使堆肥中细菌数量略高、放线菌数量显著增加、真菌数量明显降低,细菌/放线菌下降;氨化细菌和反硝化细菌数量降低;而硝化细菌、固氮菌和纤维素分解菌数量增多;铵态氮和有机碳含量下降,而硝态氮含量明显提高.堆肥中硝态氮含量与放线菌数量呈极显著正相关关系.添加葡萄籽使堆体升温快且高温期稳定,堆肥含水率波动较小,从而使堆肥高温期放线菌和亚硝化细菌的波动较小,数量较高,有利于堆肥中硝态氮含量的增加.  相似文献   

5.
 在盆栽种植条件下,比较研究了两个转Bt基因棉(Gossypium hirsutum)与对照棉对根际土壤细菌、放线菌、真菌和主要功能类群及多样性的影 响差异。结果表明:两个转Bt基因棉根际土壤均可检测到Bt蛋白,且不同转Bt基因棉根系分泌Bt蛋白量以及Bt蛋白在根际土壤中的降解率不同 。与各自对照相比,转Bt基因棉对细菌和真菌生长繁殖有促进作用,对放线菌、好气固氮菌和钾细菌数量没有显著影响。苗期和花期转Bt基因 棉均可显著提高氨化细菌、显著降低无机溶磷菌数量,花期均可显著提高好气纤维分解菌、显著降低有机溶磷菌数量,‘Bt冀668’苗期也可显 著提高好气纤维分解菌数量。转Bt基因棉根际土壤好气纤维分解菌、有机和无机溶磷菌多度发生了变化。尽管功能类群总数转Bt基因棉高于各 自对照常规棉,但群落多样性和均匀度都有所下降,优势集中性表现明显,且花期转Bt基因棉多样性参数值以及功能类群数量的变化幅度大于 苗期。  相似文献   

6.
连作对大豆根部土壤微生物的影响研究   总被引:46,自引:0,他引:46  
研究了正茬与连作大豆根际及非根际土壤微生物区系的变化。结果表明,细菌总数占绝对优势,连作低于正茬。放线菌数量总体变化幅度不大,真菌数量有显著变化,连作明显高于正茬。连作使土壤pH、含水率和微生物主要生理类群数量明显下降,土壤肥力降低。无论细菌、放线菌和真菌,正茬及连作大豆根际微生物数量明显高于非根际。  相似文献   

7.
以猪粪与秸秆(鲜质量10.5∶1)为基础,在自制的强制通风静态堆肥反应箱中进行堆肥化试验,研究添加8%葡萄籽对猪粪秸秆高温堆肥中微生物群落演替和碳氮转化的影响.在堆肥化的30 d里,分7次采集不同时期的堆肥样品,测定堆肥中微生物区系、微生物生理群的数量及堆肥碳氮含量.结果表明:添加葡萄籽使堆肥中细菌数量略高、放线菌数量显著增加、真菌数量明显降低,细菌/放线菌下降;氨化细菌和反硝化细菌数量降低;而硝化细菌、固氮菌和纤维素分解菌数量增多;铵态氮和有机碳含量下降,而硝态氮含量明显提高.堆肥中硝态氮含量与放线菌数量呈极显著正相关关系.添加葡萄籽使堆体升温快且高温期稳定,堆肥含水率波动较小,从而使堆肥高温期放线菌和亚硝化细菌的波动较小,数量较高,有利于堆肥中硝态氮含量的增加.  相似文献   

8.
为明确不同微生物菌剂对秸秆降解率及秸秆降解过程中秸秆周围微生物变化规律的影响,在温室大棚内进行不同微生物菌剂降解秸秆试验。以玉米秸秆为基质,设玉米秸秆(对照组)、玉米秸秆+哈茨木霉(Trichoderma harzianum)(处理1)、玉米秸秆+哈茨木霉+地衣芽胞杆菌(Bacillus licheniformis)(处理2)三个处理。研究结果显示,单独用哈茨木霉处理可显著提高秸秆降解率,前期作用尤其明显;在秸秆降解的前30 d,秸秆降解率与秸秆中可培养真菌、细菌、放线菌呈显著正相关。不同微生物菌剂对秸秆中可培养微生物数量变化有显著影响,单独接种哈茨木霉后,秸秆中可培养真菌、细菌、放线菌数在前30 d显著高于对照组和混合菌剂处理,不同处理可培养活菌数均在90~120 d达到峰值,然后开始下降。研究结果表明,不同微生物菌剂对秸秆降解有显著影响,单独用哈茨木霉处理可显著提高秸秆降解率;不同处理对秸秆中可培养真菌、细菌、放线菌的影响有显著差异。可为秸秆降解与微生物相关性研究提供参考。  相似文献   

9.
化感水稻根际微生物类群及酶活性变化   总被引:27,自引:4,他引:23  
以化感水稻PI312777(PI)和非化感水稻Lemont(LE)为材料,分别测定不同水稻叶龄期(3~7叶期)根际微生物区系变化及根际土壤酶活性.结果表明,化感水稻明显影响土壤根际微生物类群及相关酶活性.化感水稻PI根际细菌、放线菌、固氮菌的数量高于非化感水稻LE,增幅分别在11.2%~28.3%、40%~78.6%和111.5%~173.9%之间,而真菌数量低于非化感水稻LE,最高仅为其值的25.5%,说明化感水稻PI对绝大多数细菌、放线菌、固氮菌生长有促进作用,对一些真菌生长有抑制作用.进一步分析表明,化感水稻PI对氨化细菌、亚硝酸细菌、硝酸细菌、好气性固氮菌、好气性纤维素分解菌、硫化细菌的生长具有促进作用,其中以氨化细菌、好气性固氮菌的更为明显,最低增幅分别为53.7%和57.6%;而对反硫化细菌、反硝化细菌生长有抑制作用,其值最高分别为非化感水稻的54.2%和50.6%.此外,化感水稻PI根系分泌物对脲酶、磷酸酶、蔗糖酶的活性具有促进作用,而对过氧化氢酶则呈抑制作用.  相似文献   

10.
转基因银中杨对根际土壤微生物的影响   总被引:2,自引:0,他引:2  
本研究应用土壤稀释涂布平板法对转基因银中杨(S13系列)根际土壤五大微生物数量进行了测定,并进一步分析了土层深度与土壤微生物数量间的关系。研究表明:0~30 cm与30~60 cm土样中,五大根际土壤微生物(细菌,真菌,放线菌,芽孢杆菌,固氮菌)分布比例一致,均为细菌占主体,其次为固氮菌、放线菌、芽孢杆菌,真菌最少;30~60 cm土样中,转基因银中杨与对照组银中杨根际土壤中真菌数量有显著差异(p=0.032);转基因银中杨对其根际土壤微生物主要类群的数量影响不显著,芽孢杆菌除外(p=0.036)。从整体上看,该试验林地内的转基因银中杨并未影响其根际土壤微生物的数量。  相似文献   

11.
The insecticidal toxin gene of Bacillus thuringiensis (Bt) is the most commonly used to develop insect‐resistant living modified organisms (LMOs). Insecticidal proteins produced in transgenic plants are released into the soil from the roots. In this study, possible effects of crystal 1Ac (Cry1Ac) protein on the soil microbial community in Korea were studied. To purify the insoluble Cry1Ac protein expressing Escherichia coli cells, we performed repeated sonication and PBS washing of the insoluble part and Cry1Ac protein was isolated in soluble form from the insoluble form using 100 mM Na2CO3 buffer (pH 9.6) without affinity bead. Also, size‐exclusion chromatography (SEC) was performed to increase the purity of the isolated Cry1Ac protein. The final protein product was identified as Cry1Ac protein through MALDI‐TOF. Insecticidal activity of Cry1Ac protein was demonstrated through the death of Plutella xylostella treated with Cry1Ac protein. Purely isolated Cry1Ac protein showed the same insecticidal activity as Cry1Ac expressed in LM crops. To investigate the change of soil microbial distribution using maize field soils treated with Cry1Ac protein, we isolated high quality metagenomic DNAs from buffer‐ and Cry1Ac protein‐treated soil groups, and analyzed the distribution of soil microorganisms through next‐generation sequencing (NGS) analysis. NGS results showed a similar microbial distribution in both buffer‐ and Cry1Ac protein‐treated samples. These results suggest a useful risk assessment method for domestic targeted insect and soil microorganisms using the Cry1Ac protein.  相似文献   

12.
Strains of Bacillus thuringiensis produce insecticidal proteins. These strains have been isolated from diverse ecological niches, such as soil, phylloplane, insect cadavers and grain dust. To effectively propagate, these strains produce a range of molecules that facilitate its multiplication in a competing environment. In this report, we have examined synthesis of a chitin-binding protein and evaluated its effect on fungi encountered in environment and its interaction with insecticidal proteins synthesized by B. thuringiensis. The gene encoding chitin-binding protein has been cloned and expressed. The purified protein has been demonstrated to interact with Cry insecticidal protein, Cry1Ac by Circular Dichrosim spectroscopy (CD) and in vitro pull down assays. The chitin-binding protein potentiates insecticidal activity of bacillar insecticidal protein, Cry1Ac. Further, chitin-binding protein was fungistatic against several soil fungi. The chitin binding protein is expressed in spore mother cell and deposited along with insecticidal protein, Cry1Ac. It interacts with Cry1Ac to potentiate its insecticidal activity and facilitate propagation of Bacillus strain in environment by inhibiting growth of certain fungi.  相似文献   

13.
Transgenic crops producing insecticidal proteins from Bacillus thuringiensis (Bt) provide economic, environmental and health benefits by maintaining or increasing crop yields with fewer applications of insecticide. To sustain these benefits, it is important to delay the evolution of insect resistance to the proteins, and to ensure that the proteins do not harm non-target organisms, particularly those that may control secondary pests that would otherwise flourish because of reduced insecticide applications. Vip3A is a Bt vegetative insecticidal protein that is active against lepidopterous pests. It has a different mode of action from other proteins for control of Lepidoptera in current Bt crops, and when combined with these proteins, it should help to delay the evolution of pest resistance to Bt crops. This paper presents data on the effects of Vip3A on non-target organisms, and an ecological risk assessment of MIR162 maize, which expresses Vip3Aa20. Laboratory studies indicate few adverse effects of Vip3A to non-target organisms: 11 of 12 species tested showed no adverse effects when exposed to high concentrations of Vip3A relative to estimated exposures resulting from cultivation of MIR162 maize. Daphnia magna exposed to Vip3Aa20 were unaffected in terms of survival or fecundity, but grew slightly more slowly than unexposed controls. The data indicate that cultivation of MIR162 maize poses negligible risk to non-target organisms, and that crops producing Vip3A are unlikely to adversely affect biological control organisms such that benefits from reduced insecticide applications are lost.  相似文献   

14.
杀虫晶体蛋白(insecticidal crystal proteins,ICPs;含有Cry和Cyt 2大家族)和营养期杀虫蛋白(vegetative insecticidal proteins,Vips)等Bt杀虫蛋白可有效防治鳞翅目害虫,其中Cry应用最广泛。然而,一些地区的鳞翅目害虫已对Bt杀虫蛋白产生了抗性。目前,普遍认为鳞翅目昆虫中肠受体与Bt杀虫蛋白结合能力的改变是导致其对Bt杀虫蛋白产生抗性的最主要因素。在鳞翅目昆虫中,Cry受体是研究得最为透彻的Bt受体,已经被证实的有氨肽酶N、钙黏蛋白、碱性磷酸酶和ABC转运蛋白等。Vips杀虫蛋白类与鳞翅目昆虫中肠受体的结合方式与Cry杀虫蛋白相似,但结合位点与Cry杀虫蛋白不同。本文从结构特点、作用机制及不同鳞翅目昆虫间的表达差异等角度对以上4种鳞翅目昆虫中肠Bt受体进行了综述,并提出如下展望:(1)以棉铃虫或小菜蛾等鳞翅目昆虫为农业害虫模式生物进行深入研究,阐明其对Bt杀虫蛋白产生抗性的机制,为研究其他鳞翅目农业害虫对Bt杀虫蛋白产生抗性的机制提供理论借鉴;(2)鉴于在不同鳞翅目昆虫间,中肠Bt受体与Bt杀虫蛋白结合存在差异,且同一Bt杀虫蛋白与鳞翅目昆虫Bt受体并不专一性结合,Bt杀虫蛋白多基因组合策略是较为有效的田间鳞翅目昆虫防治策略,是今后一段时间内Bt杀虫蛋白应用的发展方向。  相似文献   

15.
Environmental risk assessment for genetically modified crops producing insecticidal Cry proteins derived from Bacillus thuringiensis (Bt) includes the evaluation of adverse effects on non-target organisms. Although ELISA concentration measurements indicate the presence of Cry proteins, sensitive insect bioassays determine whether there is biological activity. The insecticidal activity of the coleopteran-active Cry3Bb1 expressed in different tissues of Bt maize, contained in maize-fed herbivores, and in spiked soil was measured in sensitive insect bioassays using larvae of the Colorado potato beetle, Leptinotarsa decemlineata (Say) (Coleoptera: Chrysomelidae). Biological activity was confirmed of Cry3Bb1 contained in pulverized Bt maize pollen, roots, leaves, silk, and Bt maize-fed spider mites and western corn rootworm adults. When test substances were incorporated into artificial diet at the same concentrations of Cry3Bb1 (measured by ELISA), maize pollen and leaf litter exhibited lower toxicity than fresh plant material and maize-fed arthropods. This suggests that nutritional quality of food and degradation of Cry proteins may influence toxicity to insects. When soil was spiked with Cry3Bb1, the Bt protein was highly adsorbed and retained its full biological activity. Because toxicity of Cry proteins contained in different matrices cannot always be determined from ELISA values alone, sensitive insect bioassays can improve hazard and exposure assessments in environmental risk assessment of Bt crops.  相似文献   

16.
Plant lectins as defense proteins against phytophagous insects   总被引:2,自引:0,他引:2  
One of the most important direct defense responses in plants against the attack by phytophagous insects is the production of insecticidal peptides or proteins. One particular class of entomotoxic proteins present in many plant species is the group of carbohydrate-binding proteins or lectins. During the last decade a lot of progress was made in the study of a few lectins that are expressed in response to herbivory by phytophagous insects and the insecticidal properties of plant lectins in general. This review gives an overview of lectins with high potential for the use in pest control strategies based on their activity towards pest insects. In addition, potential target sites for lectins inside the insect and the mode of action are discussed. In addition, the effect of plant lectins on non-target organisms such as beneficial insects as well as on human/animal consumers is discussed. It can be concluded that some insecticidal lectins are useful tools that can contribute to the development of integrated pest management strategies with minimal effect(s) on non-target organisms.  相似文献   

17.
随着蛋白质组学的发展和每年有大量环境污染物进入土壤环境中,污染胁迫模式动物的相关生物标志物受到日益关注。蚯蚓,作为土壤中最大的无脊椎动物,是研究和评价土壤生态污染良好的模式动物。研究蚯蚓的蛋白质组学,对于寻找环境生态污染相关生物标志物和阐明生态毒理学机制有着十分重要的现实意义。目前已知的污染胁迫下蚯蚓蛋白质组学研究,提供了几个特定污染物胁迫蚯蚓的蛋白表达谱。这些蛋白涉及许多生物学过程,例如信号传导、糖酵解、能量代谢、分子伴侣和转录调节,提示了相关污染物可能的生态毒理学机制,有望成为潜在的生物标志物,用于有毒污染物的监测,但其特异性需要进一步试验的验证。对蚯蚓受污染胁迫的蛋白质组表达谱及潜在生物标志物进行简要综述。  相似文献   

18.
A concern with the widespread use of insecticidal transgenic crops is their potential to adversely affect non-target organisms, including biological control agents such as larvae of the green lacewing, Chrysoperla carnea (Neuroptera: Chrysopidae). Since the insecticidal proteins expressed by the current transgenic plants are active only after ingestion, dietary bioassays are required to test direct effects on non-target organisms. After showing that C. carnea larvae utilize carbohydrate foods, we exposed them to insecticidal proteins dissolved in a sucrose solution. Feeding on snowdrop lectin (Galanthus nivalis agglutinin, GNA) as a model compound, the larvae were negatively affected in a number of life-table parameters. Interestingly, GNA caused a prolongation in first instar development, but had no effect on subsequent utilization of prey resulting in an increased weight of second instars. Comparable studies with avidin, a biotin-binding protein, revealed strong effects on C. carnea survival at the concentration tested. Despite the fact that the proteolytic digestion of C. carnea larvae is reported to be dominated by serine proteases, ingestion of soybean trypsin inhibitor (SBTI) did not cause any detrimental effects. Similarly, two Cry proteins derived from Bacillus thuringiensis (Cry1Ac and Cry1Ab) did not cause negative effects on C. carnea, what is consistent with earlier studies. The here presented bioassay provides a valuable tool to assess direct impacts of insecticidal proteins to C. carnea larvae and other predators that are known to feed on carbohydrate solutions.  相似文献   

19.
Aims: Some Cry proteins produced by the soil bacterium Bacillus thuringiensis (Bt) or by transgenic Bt plants persist in agricultural soils for an extended period of time, which may pose a hazard for nontarget soil organisms. The aims of our study were to screen for soil fungi capable of degrading the Cry1Ac toxin and to identify the mechanisms that lead to the inactivation of this protein. Methods and Results: Of the eight fungal strains screened, only one, Chrysosporium sp., was found to produce extracellular proteases capable of degrading the 66‐kDa Cry1Ac at the N‐terminal end of amino acid 125 (alanine). The proteolytic products of the Cry1Ac toxin did not exhibit any insecticidal activity against Helicoverpa armigera, in contrast to its high toxicity exhibited in the native form. Conclusions: Proteases elaborated by the Chrysosporium sp. degrade the Cry1Ac toxin in a way that it looses its insecticidal activity against H. armigera. Significance and Impact of the Study:  Chrysosporium sp., a specific soil micro‐organism capable of producing proteases that degrade the Cry1Ac toxin into inactive products under controlled conditions is being reported for the first time. Application of this observation needs to be further tested in field conditions.  相似文献   

20.
Vegetatively expressed insecticidal proteins (VIPs) produced by Bacillus thuringiensis fall into several classes of which the third, VIP3, is known for their activity against several key Lepidopteran pests of commercial broad acre crops and because their mode of action does not overlap with that of crystalline insecticidal proteins. The details of the VIP3 structure and mode of action have remained obscure for the quarter century that has passed since their discovery. In the present article, we report the first crystal structure of a full‐length VIP3 protein. Crystallization of this target required multiple rounds of construct optimization and screening—over 200 individual sequences were expressed and tested. This protein adopts a novel global fold that combines domains with hitherto unreported topology and containing elements seemingly borrowed from carbohydrate‐binding domains, lectins, or from other insecticidal proteins.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号