NRRB在水稻应答高盐和干旱胁迫中的功能解析

为研究NRRB在水稻抗逆反应中的作用,通过重叠延伸PCR扩增NRRB基因编码区,构建超量表达载体,并转化水稻愈伤组织获得超量表达转基因水稻植株。鉴定结果表明,该基因已被整合到水稻基因组中,并实现超量表达;同时构建了抑制表达载体,获得转基因株系,PCR检测结果证实NRRB基因在转基因水稻中受到明显抑制。对T1代转基因植株进行抗旱性、耐盐性分析,结果显示,超量表达NRRB基因增强了转基因水稻对干旱的抗性,抑制表达NRRB基因的转基因水稻对干旱的敏感性增强,表明NRRB正调控水稻对干旱的抗性;耐盐性分析表明,NRRB基因的抑制表达降低了植株对盐的敏感性。     

油茶CoSAD基因载体的构建、鉴定及功能分析

为揭示油茶( Camellia oleifera Abel)硬脂酰-ACP脱饱和酶( SAD)基因(即CoSAD基因)的功能,构建了该基因的原核表达载体pET28b-CoSAD、植物表达载体pBI121-CoSAD和RNA干扰载体pBI121-CoSAD RNAi,并采用PCR扩增及双酶切方法对3类载体进行鉴定;在此基础上,对原核表达载体中的CoSAD基因进行诱导表达分析,并对pBI121-CoSAD转化的拟南芥〔Arabidopsis thaliana ( Linn.) Heynh.〕sad突变体植株和pBI121-CoSAD RNAi转化的拟南芥野生型植株进行转基因鉴定和主要脂肪酸成分含量分析。 PCR扩增和双酶切结果显示：从 pET28b-CoSAD、pBI121-CoSAD和pBI121-CoSAD RNAi 载体的阳性克隆中均可获得目的条带,表明这3类载体均构建成功;用1 mmol·L-1 IPTG分别诱导0.5、1.0、2.0、3.0、4.0和5.0 h,CoSAD基因均能够在pET28b-CoSAD转化的大肠杆菌BL21感受态细胞中正常表达,能够获得与预测结果相符的相对分子质量约47000的特异目的蛋白条带,且蛋白活性随诱导时间的延长而升高。从pBI121-CoSAD转化的拟南芥突变体植株和pBI121-CoSAD RNAi转化的拟南芥野生型植株中也均可扩增出目的条带。 GC-MS分析结果显示：与拟南芥野生型植株相比,其突变体植株的硬脂酸和棕榈酸含量较高、油酸和棕榈油酸含量较低;但突变体植株经pBI121-CoSAD转化后,硬脂酸和棕榈酸含量降低而油酸和棕榈油酸含量提高;野生型植株经过pBI121-CoSAD RNAi转化后,硬脂酸和棕榈酸含量提高、油酸和棕榈油酸含量降低,表明pBI121-CoSAD转化能够促进拟南芥sad突变体植株体内饱和脂肪酸向不饱和脂肪酸转化,而pBI121-CoSAD RNAi转化对拟南芥SAD基因的表达有明显的抑制作用,这2种重组质粒均可影响拟南芥植株的脂肪酸含量。研究结果表明：油茶CoSAD基因具有调控饱和脂肪酸(硬脂酸和棕榈酸)向不饱和脂肪酸(油酸和棕榈油酸)转化的功能,对茶油的脂肪酸组成具有关键的调控作用。     

蓖麻毒蛋白A链基因RNAi转化研究

通过基因沉默技术调控蓖麻毒蛋白A链基因的表达,以期获得低毒蓖麻新材料.利用基因克隆技术获得蓖麻毒蛋白A链基因762 bp片段,命名为RTA基因.进一步利用该基因构建了植物RNAi表达载体pBI-RTA-S-AS,通过农杆菌介导法转化蓖麻子叶节,用卡那抗性筛选转化再生植株,PCR进一步鉴定转基因植株.结果表明:克隆得到目的基因长762 bp,与预期结果一致;卡那抗性筛选和PCR鉴定结果显示,获得了3株转基因阳性植株.     

玉米淀粉分支酶基因的克隆与RNAi表达载体的构建

利用网络数据库http://jura.wi.mit.edu/bioc/siRNAext/,确定玉米淀粉分支酶SBEⅡb的部分基因序列作为RNAi的目标序列,通过RT-PCR方法从玉米自交系‘综31’中分别成功克隆出了玉米淀粉分支酶sbeⅡb基因的部分序列及其启动子序列,从大肠杆菌中成功克隆了木糖异构酶基因xylA作为筛选标记,构建了含有35S驱动的木糖异构酶基因和sbeⅡb启动子驱动的含有sbeⅡb目标序列的反向重复序列的表达载体pBAC413,并对玉米自交系实施转化。经PCR检测转基因玉米再生植株,初步判定目的序列已经成功整合到玉米再生植株的基因组中。     

拟南芥AtVQ29基因的克隆与植物表达载体构建

目的:VQ模序蛋白是植物中所特有的一类具有高度保守序列的蛋白质,广泛参与植物的生长发育与逆境反应,本研究拟克隆拟南芥的AtVQ29基因并进一步构建由组成型启动子CaMV 35S驱动的植物表达载体pSN1301-AtVQ29。方法:采用CTAB法提取拟南芥基因组DNA,根据已报道的AtVQ29基因序列设计并合成引物,通过PCR技术扩增获得拟南芥AtVQ29基因,经T载体克隆后测序。利用生物信息学软件对序列进行初步分析,同时基于基因重组技术构建植物表达载体。结果:序列分析表明已成功克隆AtVQ29基因,该基因编码区全长为372bp,共编码123个氨基酸残基,具有保守的VQ模序。并进一步构建了由组成型启动子CaMV 35S驱动的AtVQ29基因植物表达载体pSN1301-AtVQ29。结论:本研究所构建的AtVQ29基因植物表达载体能够在转基因植株中过量表达AtVQ29基因,为后期开展基因功能研究与植物基因改良奠定了基础。     

含甘露糖异构酶基因植物表达载体的构建

目的:构建了以manA基因为选择标记的植物表达载体。方法:从大肠杆菌DH5α中克隆出manA基因,连接到质粒pCAMBIA1301的XhoⅠ位点,替换hpt基因,通过酶切和PCR检测了插入片段的正确性,使用XbaⅠ和HindⅢ酶切Gateway载体(pGWCBF)获得含有P35S-T35S-attR1-attR2-CmR-ccdB的结构域,将其插入到表达载体pCAMBIA1301的相应位点中,获得中间表达载体pCAMBIA1301-manA-GW,使用Gateway载体的BP反应与LR反应,将转录因子CBF基因片段整合到载体中。结果:酶切结果表明以甘露糖异构酶基因(manA)为选择标记的植物表达载体pCAMBIA1301-manA-CBF已经构建完成。结论:将构建好的载体用液氮冻融法转化到农杆菌中,可以用于葡萄的遗传转化研究,为将来获得安全的转基因抗寒植株奠定基础。     

油菜BnCr4基因RNAi载体构建及植株转化

该实验构建了含甘蓝型油菜黄化相关基因BnCr4特异片段反向重复结构的RNA干扰(RNAi)载体pFGC5941-Cr4,通过根癌农杆菌介导转化油菜,获得47株抗Basta的抗性再生油菜植株,其中10株经PCR鉴定为阳性转基因植株.随机选取3株经鉴定的转基因阳性油菜植株进行半定量RT-PCR分析,结果显示,相对于非转基因的野生型油菜,3株转基因植株中BnCr4基因的表达量分别降低了78.5%、8.5%、11.8%,表明该干扰载体转入油菜能特异引起植株BnCr4基因表达量下降.     

以木糖异构酶基因xylA为选择标记的Gateway系统植物表达载体的构建

目的:构建以木糖异构酶基因xylA为筛选标记的无抗生素标记Gateway系统植物表达载体。方法:克隆大肠杆菌木糖异构酶基因xylA并用其替换植物表达载体pCAMBIA1301中的hpt基因,利用载体中的多克隆位点将Gateway Binary Vector(pH7WG2D)中酶切位点XbaⅠ和HindⅢ之间包括P35S、T35S、attR1、attR2和CmR-ccdB的片段重组入表达载体pCAMBIA1301中,构建表达载体pCAMBIA1301-xylA-GW,利用含有津田芜菁HY5基因片段的BP反应产物与载体进行LR反应,获得含有目的基因的植物表达载体pCAMBIA1301-xylA-HY5,并导入根癌农杆菌LBA4404中。结果:抗生素筛选及酶切和PCR鉴定表明成功构建了以xylA为筛选标记的无抗生素标记植物表达载体pCAMBIA1301-xylA-HY5。结论:利用木糖异构酶基因xylA结合Gateway克隆技术构建无抗生素标记植物表达载体,可简化、方便植物转基因表达载体构建。     

棉蚜Catb5基因RNAi载体的构建及其对烟草的转化

依据细胞色素氧化酶亚基Ⅰ序列的多态性设计特异性引物,通过PCR技术扩增出的特异性条带鉴定为棉蚜。提取棉蚜总RNA,利用RT-PCR技术从棉蚜中扩增出大小为515 bp的Catb5目的基因,进一步将两段Catb5基因分别正向和反向连接到植物表达载体pBi35SG12上,构建了pBi35SC5 RNAi表达载体,并通过农杆菌介导法导入烟草中,PCR检测表明已得到转基因烟草再生苗。     

水稻谷蛋白GluA-2基因5′上游序列控制下的UidA基因在转基因水稻胚乳中的表达模式

为了研究谷蛋白胚乳特异性表达启动子在我国栽培稻品种中的表达模式,将UidA基因分别置于水稻谷蛋白GluA—2基因750bp和2．3kb上游序列下游,利用农杆菌转化法导人栽培稻品种中花8号并获得转基因植株。Southern blot检测表明,UidA基因已经整合到水稻基因组当中并以单拷贝存在。Northern blot检测表明,开花后13～15d和11～13d,UidA基因和水稻内源的GluA—2基因的表达量分别达到最高,随后逐渐降低。对转基因植株种子的GUS染色表明,UidA基因仅在胚乳中表达,在糊粉层中GUS表达量最高。测定了2．3kb和750bp转基因植株种子的GUS活性,结果表明前者的GUS活性是后者的2～3倍。序列分析表明,位于GluA—2基因转录启始位点上游2170bD的G-box可能是一个与表达量相关的顺式调控元件。     

新城疫病毒融合蛋白在转基因水稻叶片中的表达及其免疫原性

利用转基因植物作为生物反应器表达抗原蛋白具有广阔的应用前景。以新城疫病毒融合蛋白（NDVF）基因1.7kb全长编码区序列为外源基因与组成型表达的玉米泛素蛋白基因（Ubi）启动子和农杆菌胭脂碱合成酶基因（nos）终止子组成嵌合基因,构建了适宜于农杆菌介导转化水稻的转化载体pUNDV,经根癌农杆菌介导的遗传转化方法将由Ubi动子驱动的NDVF嵌合基因导入水稻细胞中,经潮霉素抗性筛选,共再生获得了6个独立的转基因株系。PCR分析结果表明NDVF基因已整合到水稻基因组中。ELISA和Western blot分析结果证实NDVF蛋白在部分转基因水稻叶片组织中获得表达,其中植株F5叶片组织中具有较高的表达水平。将F5叶片可溶性总蛋白皮下注射免疫BALB／c小鼠,结果表明能够诱导小鼠产生一定水平的NDVF蛋白特异抗体。     

Transgenic indica rice expressing Mirabilis jalapa antimicrobial protein (Mj-AMP2) shows enhanced resistance to the rice blast fungus Magnaporthe oryzae

Mj-AMP2, a knottin-type antimicrobial peptide, in vitro inhibits the growth of several plant pathogenic fungi including Magnaporthe oryzae. We demonstrate that transgenic rice (Oryza sativa L.) plants expressing the Mj-AMP2 gene show enhanced resistance to M. grisea, the causal agent of the rice blast disease. Mj-AMP2 was efficiently expressed and the level of Mj-AMP2 ranged from 0.32% to 0.38% of the total protein in the transgenic rice plants. In vitro inhibitory activity assays with the crude protein extract from transgenic rice indicated that the Mj-AMP2 protein produced was biologically active. Constitutive expression of Mj-AMP2 in transgenic rice reduces the growth of M. grisea by 63% with respect to untransformed control plant, and no effect on plant phenotype was observed. Transgene expression of Mj-AMP2 gene was not accompanied by an induction of pathogenesis-related (PR) gene expression indicating that the transgene product itself is directly active against the pathogen. The results presented in this study suggest that the Mj-AMP2 gene could be a useful candidate for protection of rice plants against the rice blast fungus M. grisea.     

Functional role of rice germin-like protein1 in regulation of plant height and disease resistance

The functional role of rice (Oryza sativa) germin-like protein1 (OsGLP1) was elucidated through development of transgenic plants involving endogenous gene silencing in rice and heterologous gene expression in tobacco. Usually, the single copy OsGLP1 gene in rice plant was found to be expressed predominantly in green vegetative tissues. The transgenic rice lines showed significant reduction in endogenous OsGLP1 expression due to 26 nt siRNA-mediated gene silencing, displayed semi-dwarfism and were affected seriously by fungal diseases, compared to the untransformed plant. Structural homology modeling predicted a superoxide dismutase (SOD) domain in OsGLP1 protein which upon over-expression in transgenic tobacco plant clearly documented SOD activity. Our observations on the maintenance of cell dimension, cell wall-associated localization particularly in the sub-epidermal tissues and the SOD activity of OsGLP1 could explain its functional role in regulation of plant height and disease resistance in rice plant.     

以基因枪介导获转ps1—barnase基因的工程雄性不育水稻植株

以ps1-barnase(brn)为目的基因,pHcintG(PG)为选择/标记基因进行共转化,以PDS-1000-氦气基因枪介导,将brn及PG基因转化到水稻台北309及秋光的核DNA中,得到了转ps1-barnase基因的工程雄性不育植株。以悬浮细胞作为基因枪轰击的靶材料,转化植株再生频率较初级愈伤组织的为高。转brn基因植株的其他主要性状与供体亲本无显著差异,但却表现不育。其不育的程度在不同的植株之间表现不同。在转brn基因植株中观察到全不育(占全部brn阳性植株的40.6％)、高不育(占15.6％)及半不育的个体(占43.7％)。全不育的转基因植株自交完全不能结实(结实率为零),除个别植株外,花粉完全不被I-KI染色;而人工授以正常的花粉则可以获得杂交种子。而brn基因的阴性植株及未进行转化的对照植株则完全可育,表明转基因植株之雄性不育乃brn基因所致。结果表明,brn基因在水稻中是完全可以正常表达的,其表达的时期推测在花粉母细胞减数分裂前至花粉形成之间的整个时期。     

Expression of human growth hormone in transgenic rice cell suspension culture

Human growth hormone (hGH), a pituitary-derived polypeptide, evidences a wide range of biological functions, including protein synthesis, cell proliferation, and metabolism. A synthetic hGH gene (shGH) has been synthesized on the basis of plant-optimized codon usage via an overlap PCR strategy and located in a plant expression vector under the control of the rice amylase 3D (Ramy3D) promoter, which is induced by sugar starvation. The plant expression vector was introduced into rice calli (Oryza sativa L. cv. Donjin) via particle bombardment transformation methods. The integration of the shGH gene into the chromosome of the transgenic rice callus was verified via genomic DNA PCR amplification and shGH expression in transgenic rice suspension cells was confirmed via Northern blot analysis. The shGH protein was detected in the transgenic rice cell suspension culture medium following induction with sugar starvation, using Western blot analysis. The quantity of shGH that accumulated in the transgenic rice cell suspension medium was 57 mg/l. The shGH accumulated in the transgenic rice cell suspension culture medium evidenced a biological activity similar to that of Escherichia coli-derived recombinant hGH. These results indicate that the shGH was generated and accumulated in the transgenic rice cell suspension culture medium, and manifested biological activity.     

Inducible expression of Norwalk virus capsid protein gene in plant cell suspension cultures

Plant cell suspension cultures can be used to make safe vaccines at a lower cost than conventional procedures. An inducible gene expression system provides an opportunity to optimize the conditions of vaccine production in a plant system. In this investigation, a dexamethasone-inducible Norwalk virus capsid protein (NVCP) gene expression system has been developed in cell suspension cultures for four different plant species: tobacco (Nicotiana tabacum), rice (Oryza sativa L.), cotton (Gossypium hirsutum L.), and slash pine (Pinus elliottii Engelm.) via Agrobacterium-mediated transformation. Resulting transgenic cell lines were confirmed by Southern blot analyses and NVCP gene expression was confirmed by Northern blot analysis. NVCP gene expression was observed in all 24 cell lines tested, but there were minor differences in transgene expression among the transgenic cell lines. The highest level of NVCP gene expression was observed 48 h after addition of the glucocorticoid hormone dexamethasone (10 mg/l), for all transgenic cell lines derived from four different plant species. This investigation demonstrated that expression of NVCP in different transgenic cell lines and in different species was tightly controlled by the inducer, and the inducible gene expression system could be useful in controlling expression of NVCP or similar proteins for production of vaccines in cultured plant cells.     

绿色荧光蛋白基因作为报告基因在水稻基因转化中的应用研究

本研究中 ,构建了含有编码绿色荧光蛋白的改进型基因质粒pJPM5。用基因枪法分别把pJPM5和另一带有绿色荧光蛋白基因的质粒pSBG70 0转入水稻TNG6 7愈伤组织。用South ern杂交法证实了转基因的存在 ,而且表明多数转基因植株含有 1到 8个拷贝的转基因。取 2个月的转基因植株上的叶片用于分析绿色荧光蛋白基因表达。用SLM - 80 0 0荧光分析仪定量测定绿色荧光蛋白。多数转基因植株具有很高的绿色荧光蛋白信号。虽然水稻植株有少量自发荧光 ,但是绿色荧光蛋白基因表达出的绿色荧光蛋白信号比植株的自发荧光强得多 ,其测定不会受自发荧光的太大影响。在荧光显微镜下观察到了绿色荧光蛋白基因的表达。借助观察分析绿色荧光蛋白基因的瞬时表达 ,本研究还发现基因枪法转化中 ,如果两枪的气压为90 0psi& 135 0psi,比两枪的气压都为 90 0psi或者 135 0psi更好 ,因其能使质粒进入更多的细胞。研究结果表明 ,绿色荧光蛋白基因可以作为水稻 (甚至小麦、玉米 )转基因研究中的报告基因。研究还显示 ,MAR序列能明显增强绿色荧光蛋白基因的表达能力 (这一结果在另文讨论 ) .