农杆菌介导抗储粮害虫转基因小麦(Triticum aestivum L.)的获得及分析

以本实验室选育的小麦优良品系的胚性愈伤组织为材料,采用农杆菌介导将抗虫基因豇豆胰蛋白酶抑制剂基因CpTI转入小麦培养细胞,经筛选获得抗卡那霉素的愈伤组织并再生植株。经PCR和实时PCR检测、PCR-Southern和Southern blot验证,确定了3株独立再生植株为含有CpTI的转基因植株。农杆菌菌浓度、侵染时间及转化处理方式对小麦转化率均有明显影响。3株转基因植株正常可育并结籽,形成转基因株系。外源基因在转基因植株T₁代中的分离呈多样性,部分株系（转基因株系T-Ⅰ、T-Ⅲ）表现出孟德尔遗传规律。抗虫试验表明,3株转基因植株T₂代籽粒对储粮害虫麦蛾具有一定的抗性,转基因株系T-Ⅰ、T-Ⅱ、T-Ⅲ及非转基因植株的T2代籽粒虫蛀率分别为19.8%、21.9%、32.9%和58.3%。转基因植株T₁代群体农艺性状调查显示,3个株系具有良好的农艺性状,为小麦的遗传改良提供了新的种质抗虫材料。     

RNAi介导的OsBTF3基因沉默及其对水稻籽粒相关性状的影响

为了创制OsBTF3基因沉默的水稻植株、验证该基因在水稻籽粒相关性状中的功能、评价其在水稻遗传改良中潜在的应用价值,设计和合成OsBTF3基因序列的引物、扩增部分基因片段,构建RNAi基因沉默载体、通过农杆菌介导转化愈伤组织、植株再生、潮霉素抗性筛选和PCR验证、定量分析OsBTF3基因表达量,测定转基因水稻籽粒相关性状。结果表明,成功地获得了20个T1代OsBTF3-RNAi转基因株系,OsBTF3基因表达量得到显著的抑制和干扰,抑制效果平均达到85%;与野生型对照株相比,5个所测定RNAi转基因株系的穗长、穗粒数、千粒重和穗粒重等籽粒相关性状明显地减小或降低。因此,RNAi介导的基因沉默导致了OsBTF3基因表达水平抑制以及在籽粒性状中的功能缺失;OsBTF3可能是一个调控水稻籽粒相关性状重要的功能基因。     

转基因油菜后代的农艺性状表现及其抗虫性研究

以农杆菌介导法转几丁质酶基因和蝎毒蛋白基因的晋4和H165油菜种子为试材.采用PCR检测、农艺性状调查、田间抗虫鉴定等技术,对转基因植株及其后代进行了选育研究.T1、T2和T3代材料的PCR检测结果显示目的基因在转基因植株及其后代中可稳定遗传;抗虫鉴定结果证明转基因油菜植株的抗虫性得到提高,转基因株系的被害率、被害程度明显小于相应对照,转基因株系中菜粉蝶幼虫的存活率低于对照,而且存活虫的发育进程比对照缓慢;农艺性状调查结果证实,转基因手段对油菜植株的角果数、角粒数和千粒重等性状没有太大影响.根据上述结果,在T3代时,筛选得到J5-1、J5-2、H5-1和H11-1四个纯合的转基因油菜株系.     

OsBTF3过表达转基因水稻株系的创制及其分子鉴定

本研究旨在创制OsBTF3过表达转基因水稻株系,为验证OsBTF3基因在水稻抗性和生长发育中的功能、评价其在水稻农艺性状遗传改良中的应用价值提供试验材料。通过基因过表达载体构建、水稻愈伤组织诱导、农杆菌介导愈伤组织转化、植株再生、潮霉素抗性(Hyg^R)筛选及PCR验证、基因过表达RT-Q-PCR检测等方法,成功地获得了97个T₀代和20个T₁代过表达转基因株系,并分别得到分子验证。与野生型对照株相比,5个T₁代过表达株系中的OsBTF3基因表达水平显著提高,平均高达3.58倍。因此,由组成型表达的35S启动子驱动的OsBTF3基因在转基因水稻株系中成功地得到了增量表达,并对水稻生长发育、抗病性和抗逆性具有调控作用。     

转AtNHX1基因玉米的产生及其耐盐性分析

以玉米(ZeamaysL.)骨干自交系DH4866、齐319和鲁原16106的胚性愈伤组织为材料,采用农杆菌介导法将AtNHX1和hpt基因转入玉米培养细胞,经筛选获得了抗潮霉素的愈伤组织并再生植株。经PCR检测和Southernblot验证,确定了22.8%的再生植株为转基因植株。农杆菌液浓度、愈伤组织基因型及共培养时间对转化率均有明显影响。外源基因在转基因植株后代中的分离呈多样性,在部分株系中表现出孟德尔遗传规律。耐盐筛选表明,一些转基因植株及其后代具有很好的耐盐性,部分株系可在0.8%-1.0%NaCl溶液浇灌下萌发和生长。Northern杂交表明,植株耐盐性提高与AtNHX1基因的转录水平相一致。     

转基因玉米株系纯合系选育及其农艺性状表现

目的：以携带水稻矮缩病毒（RDV）运动蛋白缺陷型（MP-）基因的转基因玉米种子T0为试验材料,通过分子分析、抗病鉴定及农艺性状筛选得到转基因纯合株系。方法：首先对转化种子进行潮霉素抗性筛选,其后对各代转基因材料进行PCR检测、农艺性状调查和抗病鉴定。结果：从645粒T0转化种子得到抗潮霉素植株246株,即T1转基因植株。T1、T2、T3、T4代材料的PCR检测阳性率分别为56.9%、83.9%、94.6%和99.8%,证明RDVMP-基因已被导入玉米自交系中,且目的基因可以稳定遗传到转基因植株及其后代。田间人工接种抗病鉴定结果表明,经过连续筛选,转基因后代植株（系）的抗病性不断提高,T1、T2、T3和T4代中的高抗病材料分别占总材料数的8.9%、31.5%、70.7%和100%;所选纯合系连续2年的发病率均为0,抗病性比相应对照株系提高4级。农艺性状调查结果表明,转基因株系的株高比对照株系高15.0～33.4cm,穗位高提高13.4～20.2cm,;穗长增加2.0～3.8cm,穗粒数增加10.2～22.8粒。结论：根据分子检测、田间抗病鉴定及农艺性状鉴定结果,选育到96C0502、96C0507和96C0513等抗矮花叶病转基因玉米纯合株系。     

转AtNHX1基因玉米的产生及其耐盐性分析

以玉米(Zea mays L.)骨干自交系DH4866、齐319和鲁原16106的胚性愈伤组织为材料,采用农杆菌介导法将AtNHX1和hpt因转入玉米培养细胞,经筛选获得了抗潮霉素的愈伤组织并再生植株.经PCR检测和Southernblot验证,确定了22.8%的再生植株为转基因植株.农杆菌液浓度、愈伤组织基因型及共培养时间对转化率均有明显影响.外源基因在转基因植株后代中的分离呈多样性,在部分株系中表现出孟德尔遗传规律.耐盐筛选表明,一些转基因植株及其后代具有很好的耐盐性,部分株系可在0.8%-1.0%NaCl溶液浇灌下萌发和生长.Northern杂交表明,植株耐盐性提高与AtNHX1基因的转录水平相一致.     

农杆菌介导的半夏凝集素基因(Pinellia Ternate Agglutinin Gene,pta)对小麦的遗传转化及鉴定

以甘肃主要推广春小麦品种陇春22幼胚为转基因受体材料,建立了农杆菌介导的小麦遗传转化体系。以预培养4天的幼胚愈伤组织为受体,C58c1农杆菌菌株为供体,将含有半夏凝集素基因的重组质粒pBIpta转入了小麦,经G418 25 mg/L抗性筛选、PCR检测和荧光定量PCR检测共获得转基因植株3株,外源基因的插入拷贝数分别为2、1、3。同时对转基因小麦的T₁代植株进行了PCR检测和抗虫性分析,表明半夏凝集素基因在转基因植株的后代中得到了遗传并有一定的抗蚜虫作用。     

青菜的高效再生和农杆菌介导B.t.及CpTI基因的转化

分别对培养基中适宜的激素组成和AgNO3 添加浓度进行研究 ,建立了青菜下胚轴和子叶外植体的高效再生系统 ,青菜品种“矮抗青”的最高芽分化频率下胚轴可达 6 5 % ,子叶为 5 2 %左右。在此基础上 ,对影响转化频率的不同因素进行了探讨 ,共获 94株卡那霉素抗性植株。对转基因植株总DNA的Southernblot ting分析证明 ,B .t .基因和CpTI基因已整合到青菜植株的细胞核基因组中。经过抗虫性筛选试验 ,从转基因植株的T3 代筛选到 7个转B .t.基因的抗虫纯合株系和 5个转CpTI基因的抗虫纯合株系 ,并进入田间小区青菜抗虫新品种试验     

农杆菌介导的大麦Mlo反义基因转化小麦获得抗白粉病后代

从大麦‘斯特林’幼叶总RNA中分离Mlo基因cDNA完整编码区,反向连接到植物双元载体（pBI-121.2）35S启动子下游,通过农杆菌介导的苗端转化法获得两种小麦基因型（‘烟优2801’和‘烟优361’）的转基因小麦。T0代405株中有55株PCR检测阳性,平均转化率达到13.58%,T0和T1基因组DNA Southern杂交可以证明大麦Mlo基因片段已整合到小麦基因组中并可传递到后代。两种基因型的转基因小麦T0和T1植株在温室及大田中均表现出对白粉病抗性的提高。农杆菌介导的苗端转化法可以简单、快速、高效地获得转基因株系;排除体细胞变异对转基因植株的影响;克服基因型对农杆菌转化的限制,是小麦遗传转化的一种实用方法。     

无选择标记和载体骨干序列的Xa21转基因水稻的获得

利用双右边界T-DNA载体通过根癌农杆菌介导法将水稻白叶枯病广谱抗性基因Xa21导入杂交稻重要恢复系C418中。T0代共获得27个独立转基因株系,通过田间抗性鉴定与PCR分析,有17个株系的Xa21基因分子鉴定为阳性,且对白叶枯病原菌P6生理小种具有抗性。通过对17个株系的后代植株进行田间抗性鉴定,分子标记辅助选择及Southern杂交分析,结果显示4个株系的T1代植株中能分离出无潮霉素标记基因的Xa21转基因植株。无选择标记Xa21转基因株系的获得率为15%。PCR检测还表明,这些无选择标记的Xa21转基因植株不带有载体骨架序列。通过对转基因后代进一步的抗性鉴定与PCR辅助选择,获得了无选择标记和载体骨架序列的转基因Xa21纯合的抗白叶枯病水稻。     

豇豆胰蛋白酶抑制剂基因转化芥菜及抗虫鉴定

用农杆菌介导将豇豆胰蛋白酶抑制剂 (CpTI)基因导入芥菜 ,获得了Kan抗性植株 .经PCR扩增、PCR Southern印迹和Northern印迹分析 ,转化再生植株大部分呈阳性 ,而非转化的再生植株均为阴性 ,证明CpTI基因已存在于芥菜基因组中 .在室内进行了喂虫试验 ,结果表明转基因芥菜抗虫性明显高于对照 ,转基因植株之间存在抗虫性差异     

Constitutive expression of a cowpea trypsin inhibitor gene,CpTi, in transgenic rice plants confers resistance to two major rice insect pests

The gene encoding a cowpea trypsin inhibitor (CpTI), which confers insect resistance in trangenic tobacco, was introduced into rice. Expression of the CpTi gene driven by the constitutively active promoter of the rice actin 1 gene (Act1) leads to high-level accumulation of the CpTI protein in transgenic rice plants. Protein extracts from transgenic rice plants exhibit a strong inhibitory activity against bovine trypsin, suggesting that the proteinase inhibitor produced in transgenic rice is functionally active. Small-scale field tests showed that the transgenic rice plants expressing the CpTi gene had significantly increased resistance to two species of rice stem borers, which are major rice insect pests. Our results suggest that the cowpea trypsin inhibitor may be useful for the control of rice insect pests.     

Transgenic potato plants with enhanced resistance to the tomato moth,Lacanobia oleracea: growth room trials

Insecticidal effects of three plant-derived genes, those encoding snowdrop lectin (GNA), bean (Phaseolus vulgaris) chitinase (BCH) and wheat -amylase (WAI), were investigated and compared with effects of the cowpea trypsin inhibitor gene (CpTI). Transgenic potato plants containing each of the three genes singly, and in pairwise combinations were produced. All the introduced genes were driven by the CaMV 35S promoter; expression was readily detectable at the RNA level in transformants, but not detectable accumulation of WAI could be detected in transgenic potatoes containing its encoding gene. GNA and BCH were accumulated at levels up to 2.0% of total soluble protein; both proteins were expressed in a functional form, and GNA was shown to undergo 'correct' N-terminal processing. Accumulation levels of individual proteins were higher in plants containing a single foreign gene than in plants containing two foreign genes.Resistance of the transgenic plants to insect attack was assayed by exposing the plants to larvae of the tomato moth, Lacanobia oleracea. All the plants tested which were expressing GNA showed an enhanced level of resistance. Leaf damage was reduced by more than 50% compared to controls; total insect biomass per plant was reduced by 45-65%, but larval survival was only slightly reduced (20%). These results support the hypothesis that GNA has a significant antifeedant effect on insects. Expression of BCH had no protective effect against this insect. Expression of CpTI in transgenic potatoes had similar effects to expression of GNA on total insect biomass and survival, but did not afford protection against insect damage to the plant.     

Transformation of Populus tomentosa with Insecticidal Cowpea Proteinase Inhibitor Gene

Cowpea trypsin inhibitor (CpTI) gene, an insecticidal gene, was introduced into poplar ( Populus tomentosa Carr. ) by gene transformation mediated by Agrobacterium tumefac/ens (Smith et Townsend) Conn. The influences on regeneration and transformation frequency of poplar by the concentration and addition of kanamycin were compared. Kanamycin resistant (Kmr) plantlets were obtained by 3 -4 cycles screening in selective condition. The ability of leaf regeneration and shoot subculture and rooting from the transformed and non-transformed plants in the presence of 50 mg/L kanamycin was examined. The presence of CpTI gene in the transgenic plants were confirmed by PCR and PCR-Southern blot. Assay on proteinase inhibition activity demonstrated that leaf protein extracts of the transgenic poplar showed higher inhibition activity against trypsin than that of control plants.     

转PvPGIP2基因小麦的获得与纹枯病抗性鉴定

多聚半乳糖醛酸酶抑制蛋白(PGIP)是一种植物防卫蛋白,可阻止一些病原真菌的侵害。本研究克隆出扁豆PvP-GIP2基因编码序列,构建了受玉米泛素(ubiquitin)启动子控制的PvPGIP2基因表达载体pA25-PvPGIP2;采用基因枪法将pA25-PvPGIP2转化小麦推广品种扬麦18幼胚愈伤组织4000块,获得了203株再生植株。PCR检测出阳性植株65株,转化率为1.625%。对转PvPGIP2基因小麦T1～T2植株,进行外源基因的PCR、RT-PCR、荧光定量RT-PCR(Q-RT-PCR)分析和小麦纹枯病抗性鉴定。结果表明,转入的PvPGIP2能够在转基因小麦中遗传、转录与表达;PvPGIP2基因的表达提高了转基因植株对小麦纹枯病的抗性。