转雪花莲外源凝集素基因烟草对桃蚜的抑制作用

将编码雪花莲外源凝集素成熟蛋白的cDNA GNA12和其前体蛋白cDNA GNA34插入到二元载体pBin438的双倍增强子CaMV 35S启动子或二元载体pBcop1的CoYMV启动子下游,分别构建成植物表达载体pBGna12、pBGna34\,pBCGna12和pBCGna34。土壤农杆菌介导的转化再生植株的PCR和Southern blot分析表明,GNA基因已整合到烟草DNA中。Western blot分析发现pBGna34和pBCGna34的转基因植株能有效地表达外源GNA,表达量约占可溶性总蛋白的0.08%～0.15%,并且前体蛋白基因编码的蛋白在植物体内进行了正确的加工;而pBGna12和pBCGna12的植株几乎检测不到外源GNA的表达。有效表达外源GNA的pBGna34和pBCGna34的转基因植株具有较强的抗蚜活性,平均能够抑制桃蚜(Myzus persicae)45%～６０％蚜口密度,有的高达90%以上。在转基因烟草中含双倍增强子的CaMV 35S启动子与韧皮部特异表达的CoYMV启动子介导GNA基因表达具有相似的强度,但它们的抗蚜活性存在差异。     

两种凝集素基因在转基因烟草中表达的研究

构建了含尾穗苋凝集素基因(ACA)的cDNA序列和改造后的雪花莲凝集素基因(GNA)的植物表达载体pBACG。在此表达载体中,ACA和GNA基因的表达分别由35S启动子和CoYMV启动子控制。通过农杆菌介导,将ACA和GNA基因转化到烟草中,经卡那霉素筛选获得60株转化再生植株。对PCR检测呈阳性的50株植株进行接蚜虫实验,结果表明,其平均抑虫率达83．9％。Southern blotting分析表明,ACA和GNA基因都已整合到烟草基因组中。Western blotting结果显示这两个基因在不同植株中都可表达其相应的蛋白质,但表达水平不同。部分Western blotting分析呈阳性植株的抗蚜性与T0代相近,达85．3％,说明这两个基因的抗蚜功能可以稳定遗传。     

苋菜凝集素基因的克隆及在转基因烟草中抗蚜性研究

通过ＰＣＲ从苋属植物千穗谷（Ａmaranthus hypochondriacus)的总ＤＮＡ中扩增出苋菜凝集素（ＡＨＡ）的核基因片段。序列分析结果表明该基因为２４５３bp,含有－１５３８bp的内含子和两个分别为２１２bp和７０３bp的外显子。采取反向ＰＣＲ的方法获得仅含该基因的编码区克隆。以此为基础与二元表达载体pBin438构建含内含子与不含内含子ＡＨＡ基因的植物表达载体pBAHAg和pBAHAc并通过土壤农杆菌介导转了化烟草,转化再生植株的ＰＣＲ和Southern blot分析表明,ＡＨＡ基因已整合到烟草的染色体中,有单贝和多拷贝的整合。用与ＡＨＡ蛋白高度同源的ＡＣＡ蛋白的抗血清进行了免疫斑点（Immunodot blot)检测,结果初步表明转基因烟草有ＡＨＡ蛋白的表达,虫试结果表明转pBAHAg和pBAHAc烟草对蚜虫的平均抑制率分别达５７．２％和４８．８％,有的高达９０％以上,含内含子和不含内含子的ＡＨＡ基因在转基因植株中的抗蚜性不同。     

掌叶半夏凝集素基因PPA2抗蚜功能分析

掌叶半夏凝集素(Pinellia pedatisecta Agglutinin,PPA)基因属于单子叶甘露糖结合凝集素家族,具有抗虫活性。采用反转录聚合酶链式反应(RT-PCR)技术从掌叶半夏幼叶中克隆到1个新的凝集素基因,命名为PPA2,其开放阅读框长408 bp,编码135个氨基酸,有一个甘露糖保守结合域,包含3个甘露糖专一结合位点。分别构建了由35S启动子和韧皮部特异性启动子At PP2驱动的植物表达载体,农杆菌介导的叶盘法转化烟草后,经鉴定获得了单拷贝插入高表达量的纯合转基因烟草株系。通过Western-blot分析,将获得的转基因纯合株系按蛋白表达水平分成高、中、低3类并进行抗蚜试验,结果表明这些转基因烟草均具有明显抗蚜效果,35S-PPA2转基因植株平均抑蚜率极高,而3种蛋白表达类型的At PP2-PPA2转基因植株普遍低于35S启动子驱动下的转基因植株。PPA2可以作为高效抗蚜候选基因,具有重要的应用价值。     

转基因抗虫烟草研究进展

烟草为模式植物,也是外源杀虫基因最早转化成功的植物。文章从转Bt内毒素基因,植物凝集素GNA,Plec,AHA基因,蛋白酶抑制剂PIⅠ,PIⅡ,MTI,SKTI基因,昆虫特异性神经毒素基因,几丁质酶基因,畸形细胞分泌蛋白基因以及双抗虫基因等方面综述了转基因抗虫烟草的抗虫性、转基因抗虫烟草的经济性状等,展望了转基因抗虫烟草的研究和应用前景,以期对烟草害虫的治理尤其是对其他转基因抗虫作物的培育和研究有借鉴作用。     

转双抗虫基因烟草的研究

用改造的雪花莲凝集素基因GNAmm与合成的苏云金芽孢杆菌(Bt)毒蛋白cry1Ac基因构建了带有双价基因的植物表达载体,在该表达载体中这两个基因的转录分别受笋瓜PP2启动子(SPP2P)和CaMV 35S启动子的调控。通过根癌土壤杆菌介导转化法,获得了一批抗卡那霉素的转化再生烟草植株。PCR检测及基因组DNA Southern blot\,Slot blot杂交分析的结果表明Gna基因和Bt基因已整合到烟草总DNA中。用Bt毒蛋白抗血清进行Western blot分析,转基因植株均有Bt杀虫蛋白的不同程度的表达。对转化再生烟草的虫试结果表明,在所受试的19株烟草中60%的植株上的棉铃虫在5天内死亡率达到100%,而且存活幼虫的生长发育受到明显抑制;蚜虫抑制生长试验表明,多数转化再生植株具有较强的抗蚜活性,平均能够抑制桃蚜50%～60%的蚜口密度,有的高达80%以上。以上结果表明利用这两个改造过的抗虫基因可以获得既抗虫又耐蚜的转双抗虫转基因植物。     

表达尾穗苋凝集素基因的转基因烟草对桃蚜(Myzus persicae)繁殖的影响

为研究尾穗苋凝集素(ACA)在植物中可能的抗虫作用,通过RH-PCR克隆了ACA cDNA并通过RACE分析证实了cDNA序列的正确性.构建了ACA基因的韧皮部特异表达载体pBCACAc并通过根癌杜菌介导转化了烟草(Nicotiana tabacum L.).PCR和Southern blot分析结果证明,ACA基因已经整合到转化再生植物的基因组中,其插入插贝数1~4个不等.对转基因烟草叶片蛋白时行行免疫反应的结果表明,ACA基因已被转录和翻译.用桃蚜(Myzuspersicae Sulzer)对转基因烟草离体叶片进行了的接虫试验结果表明,测试过的78%的烟草对桃蚜口密度增长的平均抑制率在75%以上,在抗性植株上观察到有桃蚜若虫死亡的现象.以上结果表明,ACA基因是一个有效的抗蚜基因,在作物抗蚜分子育种具有应具应用价值.     

基因枪法介导GNA基因遗传转化甘蔗的研究

目的:将含有雪花莲外源凝集素(GNA)基因的植物表达载体用基因枪法分别导入一个果蔗和一个糖蔗品种中,以期获得转基因植株。方法:将GNA基因插入到植物表达载体上,构建出不同选择标记、不同启动子的表达载体,并用基因枪法将之导入甘蔗胚性愈伤组织,分别在G418、PPT和Hyg的选择压力下,筛选抗性植株,并进行分子杂交鉴定。结果:通过斑点杂交和PCR-Southern杂交证明GNA基因已整合到甘蔗基因组中。结论:用基因枪法成功获得了含有GNA基因的甘蔗转化株,为培育抗甘蔗绵蚜(Ceratovacuna lanigeraZehnther)的新品种提供了基础。     

绿色荧光蛋白基因(GFP)在抗虫转基因植物研究中的应用(英文)

用合成的cry1Ac基因与绿色荧光蛋白基因 (GFP)构成融合蛋白基因 ,然后和改造的GNA基因构建双价抗虫基因植物表达载体pBGbfg ,经根癌农杆菌介导转化了烟草。在紫外灯照射下 ,观察到转基因植株叶片中有较强的绿色荧光 ;经抗虫试验、PCR、Southernblot和Westernblot等检测 ,表明该重组植物表达载体能够在转基因植物中有效表达外源基因 ,转基因植株绿色荧光的表型与其抗虫性密切相关。从而成功地建立了以绿色荧光蛋白基因与抗虫基因组成的融合基因转化系统 ,简化了抗虫转基因植物筛选程序 ,有助于快速获得双价抗虫转基因植株。     

绿色荧光蛋白基因（G卯）在抗虫转基因植物研究中的应用

用合成的crylAc基因与绿色荧光蛋白基因(GFP)构成融合蛋白基因,然后和改造的GNA基因构建双价抗虫基因植物表达载体pBGbfg,经根癌农杆菌介导转化了烟草。在紫外灯照射下,观察到转基因植株叶片中有较强的绿色荧光;经抗虫试验、PCR、Southern blot和Western blot等检测,表明该重组植物表达载体能够在转基因植物中有效表达外源基因,转基因植株绿色荧光的表型与其抗虫性密切相关。从而成功地建立了以绿色荧光蛋白基因与抗虫基因组成的融合基因转化系统,简化了抗虫转基因植物筛选程序,有助于快速获得双价抗虫转基因植株。     

Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

The range of sap-sucking insect pests to which GNA, (the mannose specific lectin from snowdrops (Galanthus nivalis) has been shown to be insecticidal in artificial diets has been extended to include the peach potato aphid (Myzus persicae). A gene construct for constitutive expression of GNA from the CaMV35S gene promoter has been introduced into tobacco plants. A transgenic tobacco line which expresses high levels of GNA has been shown to have enhanced resistance toM. persicae in leaf disc and whole plant bioassays,demonstrating the potential for extending transgenic plant technology to the control of sap-sucking insect pests.     

Use of the rice sucrose synthase-1 promoter to direct phloem-specific expression of {beta}-glucuronidase and snowdrop lectin genes in transgenic tobacco plants

The promoter region from the rice sucrose synthase-1 gene (RSs1)was fused with coding sequences for ß-glucuronidase(GUS) and snowdrop (Galanthus nivalis) lectin (GNA). Tobaccoplants were transformed with these chimaenc genes in order todetermine the expression pattern directed by the RSs1 promoter.Histochemical and immunochemical assays demonstrated that theexpression of both GUS and GNA was restricted to phloem tissue,and was not observed in any other tissues. This phloem-specificexpression pattern was consistent in stem, leaf and root, andin different transgenic plants. Chimaeric genes of RSs 1-GUSand RSs1 GNA were stably inherited in T1 plants. In addition,GNA was detected by immunological assay in the honeydew producedby peach potato aphids (Myzus persicae) feeding on RSs1-GNAtransgenic tobacco plants. This provided direct evidence thatGNA was not only expressed in the phloem tissue, but was alsopresent in the phloem sap of transgenic tobacco plants. TheRSs1 promoter can thus be used to direct expression of an insecticidalprotein, such as GNA, in transgenic plants to control phloemsap-feeding insect pests. Key words: Rice sucrose synthase-1 promoter, phloemspecific, transgenic plants, ß-glucuronidase, Galanthus nivalis agglutinin, gene expression     

Expression of the insecticidal lectin from snowdrop (Galanthus nivalis agglutinin; GNA) in transgenic wheat plants: effects on predation by the grain aphid Sitobion avenae

Transgenic wheat plants containing the gene encoding snowdrop lectin (Galanthus nivalis agglutinin; GNA) under the control of constitutive and phloem-specific promoters were generated through the particle bombardment method. Thirty-two independently derived plants were subjected to molecular and biochemical analyses. Transgene integration varied from one to twelve estimated copies per haploid genome, and levels of GNA expression from 0 to ca. 0.2% of total soluble protein were observed in different transgenic plants. Seven transgenic plants were selected for further study. Progeny plants from these parental transformants were selected for transgene expression, and tested for enhanced resistance to the grain aphid (Sitobion avenae) by exposing the plants to nymphal insects under glasshouse conditions. Bioassay results show that transgenic wheat plants from lines expressing GNA at levels greater than ca. 0.04% of total soluble protein decrease the fecundity, but not the survival, of grain aphids. We propose that transgenic approaches using insecticidal genes such as gna in combination with integrated pest management present promising opportunities for the control of damaging wheat pests.     

Enhancement of resistance to aphids by introducing the snowdrop lectin genegna into maize plants

In order to enhance the resistance to pests, transgenic maize (Zea mays L.) plants from elite inbred lines containing the gene encoding snowdrop lectin (Galanthus nivalis L. agglutinin; GNA) under control of a phloem-specific promoter were generated through theAgrobacterium tumefaciens- mediated method. The toxicity of GNA-expressing plants to aphids has also been studied. The independently derived plants were subjected to molecular analyses. Polymerase chain reaction (PCR) and Southern blot analyses confirmed that thegna gene was integrated into maize genome and inherited to the following generations. The typical Mendelian patterns of inheritance occurred in most cases. The level of GNA expression at 0.13%-0.28% of total soluble protein was observed in different transgenic plants. The progeny of nine GNA-expressing independent transformants that were derived separately from the elite inbred lines DH4866, DH9942, and 8902, were selected for examination of resistance to aphids. These plants synthesized GNA at levels above 0.22% total soluble protein, and enhanced resistance to aphids was demonstrated by exposing the plants to corn leaf aphid (Rhopalosiphum maidis Fitch) under greenhouse conditions. The nymph production was significantly reduced by 46.9% on GNA-expressing plants. Field evaluation of the transgenic plants supported the results from the inoculation trial. After a series of artificial self-crosses, some homozygous transgenic maize lines expressing GNA were obtained. In the present study, we have obtained new insect-resistant maize material for further breeding work.     

昆虫特异性神经毒素基因tox34的合成及转基因烟草的获得

对来自虱状蒲螨（Pyemotestritici）的昆虫特异性神经毒素基因tox34编码成熟蛋白部分的762bp片段,依据植物的偏爱密码子进行了序列改造。将改造后的基因插入细菌表达载体pBV221,经热诱导处理后细菌总蛋白在SDS-PAGE上特异条带的表观分子量为32～33kD。将tox34基因插入植物高效表达载体后以根癌土壤杆菌（Agrobacteriumtumefaciens（SmithetTownsend）Conn）介导的方法导入烟草（NicotianatabacumL．cv．SR1）,并获得了转基因烟草植株。经PCRSouthem杂交结果证实,完整的毒素基因已整合入烟草基因组。转基因幼苗根部的组织化学检测GUS显示阳性。再生植株叶片的棉铃虫（HeliothisarmigevaHubner）饲喂实验显示对低龄幼虫有很好的毒杀作用。