植物多基因干扰载体体系构建与效用分析

多数重要的功能基因属于多基因家族,这些家族成员间存在功能冗余,高效的多基因干扰体系对研究多基因家族成员的生物学功能及其分子调控机制具有重要意义。对pCAMBIA1301载体改造,构建了适用于植物的多基因干扰体系pCAMBIA1301m和pCAMBIA1301s。使用该多基因干扰体系构建了四基因的干扰载体pCAMBIA1301m：35S∷SlPP2C1-2-3-4,4个目标基因为来源于番茄PP2C家族A组的PP2C1、PP2C2、PP2C3和PP2C4,并通过遗传转化导入番茄,用GUS染色和PCR检测转基因阳性植株,再利用RT-qPCR技术检测T₁和T₂代转基因植株中目标基因的干扰效率,用T₂代种子分析转基因番茄对ABA敏感性。结果表明,应用该干扰体系成功获得了四基因干扰的转基因植株35S∷SlPP2C1-2-3-4。在转基因番茄中4个目标基因的表达量显著低于野生型,其干扰效率均高于70%,转基因番茄种子萌发具有强烈的ABA不敏感性。多基因干扰体系能高效地同时沉默多个目标基因。     

大豆查尔酮还原酶基因CHR1的功能研究

为了验证查尔酮还原酶基因CHR1在大豆苷元合成中的作用, 文章克隆了CHR1基因并构建了RNA干扰表达载体pCPB-CHR1-RNAi, 将载体转化受体大豆品种“吉农28”中, 以期抑制CHR1基因的转录。通过农杆菌介导的遗传转化和PCR检测得到4株T₀ 代阳性植株, 13株T₁代阳性植株。Southern blotting结果表明, 功能元件以单拷贝的形式整合到大豆的基因组中。利用实时荧光定量PCR法(Quantitative real-time PCR, qRT-PCR)测定CHR1基因在mRNA水平上的表达量, 结果表明, 转基因大豆植株中CHR1的表达量与未转化的受体大豆相比降低了60%~99%; 高效液相色谱法(High performance liquid chromatography, HPLC)检测到合成大豆苷元过程中的前体物质异甘草素的含量降低了38.7%。该RNA干扰机制在转录水平上抑制了CHR1基因的表达。     

利用CRISPR/Cas9鉴定玉米发育相关基因ZmCen*

目的: 利用CRISPR/Cas9(clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9) 系统构建玉米中心蛋白(Centrin)的表达载体,经转化后分析其对玉米生长发育的影响。方法: 针对ZmCen基因的第一个外显子设计sgRNA,将其连入pOMS01-Cas9-ZmCen-sgRNA表达载体,转化农杆菌GV3101后,侵染玉米自交系材料B104的愈伤组织,经继代、诱导、分化成苗,筛选出转基因后代。对T₀代和T₁代基因组DNA进行PCR验证、测序及表型分析。结果: 成功构建ZmCen的表达载体。侵染农杆菌后,PCR测序显示,T₀ 代和T₁ 代突变率分别为 20.13% 和 64.52%,其中T₁ 代的纯合缺失突变率为5%。序列分析表明,ZmCen基因的编辑靶点附近发生了碱基的替换、插入或缺失。经与野生型表型比对发现,ZmCen 突变体T₁代植株出现发育缓慢且雄花序不完全发育表型,纯合突变体植株雄花序则完全不发育。结论: 通过 CRISPR/Cas9技术成功地对玉米ZmCen基因进行了编辑,ZmCen突变体的获得为玉米雄性器官发育相关基因的研究奠定了基础。     

CRISPR/Cas9系统介导的棉花GhNAC3基因编辑

为创制棉花耐旱种质资源，解决棉花耐旱资源贫乏以及提高水资源利用率，研究依据CRISPR/Cas9编辑原理，对课题组前期利用RT-PCR技术筛选耐旱相关基因GhNAC3(Gh＿D02G0790)的第一外显子区域设计2个20 bp的编辑靶点，并在陆地棉基因组数据库中比对分析靶点序列，排除非特异性编辑，将2个靶点核苷酸片段分别与gRNA-AtU6载体连接，通过2次PCR扩增，得到含特异性连接接头的AtU6-GhNAC3表达盒，再将表达盒连接到CRISPR/Cas9(pRGEB32-7)载体上，获得CRISPR-GhNAC3重组表达载体，利用农杆菌介导法转化陆地棉受体YZ-1,再生培养得到T₀代转基因幼苗，通过PCR检测Cas9蛋白基因获得阳性株系。对T₀代植株的靶点区域序列进行PCR扩增和测序分析，鉴定GhNAC3编辑类型。结果发现，CRISPR9-GhNAC3表达载体成功转化YZ-1,并获得40株转基因再生植株，经Cas9蛋白基因鉴定得到30株阳性株系，从阳性植株选择10株进行编辑类型测序分析，发现7株在靶点区域发生编辑，编辑类型主要为碱基片段缺...     

利用CRISPR/Cas9鉴定玉米发育相关基因ZmCen*

目的: 利用CRISPR/Cas9(clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9) 系统构建玉米中心蛋白(Centrin)的表达载体,经转化后分析其对玉米生长发育的影响。方法: 针对ZmCen基因的第一个外显子设计sgRNA,将其连入pOMS01-Cas9-ZmCen-sgRNA表达载体,转化农杆菌GV3101后,侵染玉米自交系材料B104的愈伤组织,经继代、诱导、分化成苗,筛选出转基因后代。对T₀代和T₁代基因组DNA进行PCR验证、测序及表型分析。结果: 成功构建ZmCen的表达载体。侵染农杆菌后,PCR测序显示,T₀ 代和T₁ 代突变率分别为 20.13% 和 64.52%,其中T₁ 代的纯合缺失突变率为5%。序列分析表明,ZmCen基因的编辑靶点附近发生了碱基的替换、插入或缺失。经与野生型表型比对发现,ZmCen 突变体T₁代植株出现发育缓慢且雄花序不完全发育表型,纯合突变体植株雄花序则完全不发育。结论: 通过 CRISPR/Cas9技术成功地对玉米ZmCen基因进行了编辑,ZmCen突变体的获得为玉米雄性器官发育相关基因的研究奠定了基础。     

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。     

一种拟南芥基因高效编辑体系研究

CRISPR/Cas9基因编辑系统操作简单易行,无需引入外源基因,生物安全性高。但怎样快速筛选获得不含外源转化元件的基因编辑后代是一个关键技术问题。本研究创造性的将拟南芥种皮特异性启动子At2S3与荧光筛选标记基因mCherry组装进植物基因组定点编辑CRISPR载体pHDE中,以拟南芥as1为靶基因,构建一种通过荧光标记筛选、实现转化后代中Cas9 Free的基因高效编辑体系。结果表明,通过同源重组方法构建的带有筛选标记的CRISPR载体与设计相符,外源插入片段正确。挑选转化后种皮上带有红色荧光标记的阳性种子培育得到T₁代植株,经PCR验证,成功获得as1定点敲除的纯合突变植株,纯合子比率达到40%;挑选T₁代纯合突变上不带荧光的种子,培育得到的T₂代植株中,PCR检测不到Cas9片段,实现了编辑后代的Cas9 Free。本研究构建的一种带有可视化筛选标记的基因高效编辑体系,成功实现编辑后代中无外源插入的Cas9等转化元件,生物安全性高,为基因组定点编辑技术在植物遗传资源改良中的高效利用提供了借鉴与参考。     

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。     

透明颤菌血红蛋白基因表达载体构建及转化地被菊研究

根据透明颤菌(Vitreoscilla)血红蛋白基因Vgb序列设计引物,采用PCR法从pTPV-Vgb载体上克隆Vgb片段并添加酶切位点XhoⅠ,构建植物表达载体pCAMBIA1301-Pmi-Vgb。通过农杆菌介导法转化地被菊品种‘粉地毯’叶片,期望获得耐水湿能力提高的安全转基因地被菊植株。经过共培养、筛选、分化等步骤共获得了32个抗性芽。PCR检测结果表明8株呈阳性,氯酚红试验表明标记磷酸甘露糖异构酶基因(Pmi)在转基因株系中均有表达。该结果为进一步研究Vgb基因在地被菊耐水湿方面的作用奠定了基础。     

黄瓜转新型抗菌蛋白基因GNK2-1及其抗枯萎病的研究

GNK2-1为一种来自银杏(Ginkgo biloba)种仁的新型抗真菌蛋白, 具有较强的真菌抗性且性质稳定。序列分析表明,其结构与所有已知的抗真菌蛋白不同, 而与富含半胱氨酸的植物类受体激酶的胞外结构域相似。为探索GNK2-1基因在黄瓜(Cucumis sativus)抗病反应中的作用, 利用基因重组技术构建了GNK2-1的高效组成型表达载体, 并利用根癌农杆菌(Agrobacterium tumefaciens)介导转入黄瓜栽培品种农城3号(Cucumis sativus ‘Nongcheng No.3’)基因组中。通过对获得的抗性植株进行PCR、RT-PCR和Western blot检测分析, 结果表明GNK2-1基因可在T₀代转基因植株中转录表达, 并能在T₁代转基因黄瓜中稳定遗传。离体枯萎病抗性鉴定结果表明, 转GNK2-1基因的黄瓜对枯萎病的抗性增强, GNK2-1可以作为黄瓜抗病性改良的潜在基因资源。     

马槟榔甜蛋白基因（MBL11）的剪切重组和结构分析

马槟榔甜蛋白（mabinlin II）是我国所特有且唯一的植物甜蛋白,在体外至今没有得到具有甜味的基因表达产物。本文采用基因工程手段对基因进行剪切重组,将重组基因构建成植物表达载体转入拟南芥中,通过RT-．PCR检测导入基因的表达,同时采用生物信息学方法对MBL II基因及其重组基因进行分析和甜味检测显示,转基因拟南芥不具有明显的甜味,但RT-PCR的结果显示,MBL II基因及其重组基因可在转基因的拟南芥中表达。根据生物信息学方法分析结果推测,导入拟南芥中的重组马槟榔甜蛋白可能是具有甜味的蛋白。     

Overexpression of SoACLA-1 Gene Confers Drought Tolerance Improvement in Sugarcane

Drought is one of the most severe stresses which limit sugarcane production in China. ATP citrate lyase (ACL) is a major enzyme responsible for the production of acetyl-CoA in cytoplasm and plays an important role in plant metabolism and stress response. In this study, sugarcane ACL gene SoACLA-1 was cloned. The plant overexpression vector of SoACLA-1 was built and transformed into sugarcane calli by Agrobacterium-mediated transformation, and PCR analysis confirmed that SoACLA-1 gene had been stably present in the T0, T1, and T2 generations of the transgenic sugarcane. In order to evaluate the drought resistance of the transgenic lines and verify the function of SoACLA-1 gene in the transgenic sugarcane, T1 generation of the SoACLA-1 transgenic sugarcane lines was used as the material to investigate the physiological and biochemical characteristics at 0 day, 3 days, 6 days, and 9 days after water stress and rewatering for 3 days. Comprehensive evaluation of four indicators (chlorophyll, malondialdehyde, proline, soluble sugar) related to drought resistance was done with membership fuzzy function method. The results showed that the drought resistance of five transgenic sugarcane lines from strong to weak, in turn, was RT2?>?RT4?>?RT3?>?RT1?>?WT, and the recovery ability after drought, in turn, was RT1?>?RT2?>?RT4?>?RT3?>?WT. The T2 generation of the SoACLA-1 transgenic sugarcane lines was used to analyze the physiological and biochemical changes and the expression of drought-related genes under water stress. The results showed that the transgenic sugarcane lines were more tolerant to drought as compared with the wild-type plants. Our findings indicated that SoACLA-1 gene plays an important role as a positive factor in response to water stress, and overexpression of SoACLA-1 can enhance drought tolerance in transgenic sugarcane plants.

     

Transgenic Sugarcane with a cry1Ac Gene Exhibited Better Phenotypic Traits and Enhanced Resistance against Sugarcane Borer

We developed sugarcane plants with improved resistance to the sugarcane borer, Diatraea saccharalis (F). An expression vector pGcry1Ac0229, harboring the cry1Ac gene and the selectable marker gene, bar, was constructed. This construct was introduced into the sugarcane cultivar FN15 by particle bombardment. Transformed plantlets were identified after selection with Phosphinothricin (PPT) and Basta. Plantlets were then screened by PCR based on the presence of cry1Ac and 14 cry1Ac positive plantlets were identified. Real-time quantitative PCR (RT-qPCR) revealed that the copy number of cry1Ac gene in the transgenic lines varied from 1 to 148. ELISA analysis showed that Cry1Ac protein levels in 7 transgenic lines ranged from 0.85 μg/FWg to 70.92 μg/FWg in leaves and 0.04 μg/FWg to 7.22 μg/FWg in stems, and negatively correlated to the rate of insect damage that ranged from 36.67% to 13.33%, respectively. Agronomic traits of six transgenic sugarcane lines with medium copy numbers were similar to the non-transgenic parental line. However, phenotype was poor in lines with high or low copy numbers. Compared to the non-transgenic control plants, all transgenic lines with medium copy numbers had relatively equal or lower sucrose yield and significantly improved sugarcane borer resistance, which lowered susceptibility to damage by insects. This suggests that the transgenic sugarcane lines harboring medium copy numbers of the cry1Ac gene may have significantly higher resistance to sugarcane borer but the sugarcane yield in these lines is similar to the non-transgenic control thus making them superior to the control lines.     

Overexpression of the Gossypium barbadense Actin-Depolymerizing Factor 1 Gene Mediates Biological Changes in Transgenic Tobacco

The function of a member of the actin-depolymerizing factor family from Gossypium barbadense, GbADF1, was investigated. Tobacco (Nicotiana tabacum) lines expressing GbADF1 were produced by Agrobacterium-mediated transformation. Southern and northern blot analyses showed that GbADF1 was successfully incorporated as a single copy into the tobacco genome and stably expressed in three lines of T₁ transgenic tobacco plants. Biological changes were detected in these transgenic lines, wherein GbADF1 transgenic seedlings exhibited shorter hypocotyls along with fewer root hairs than those of control plants. Moreover, guard cells of leaves of the transgenic plants were induced to close stomata, while flowering was delayed 5 days in T₁ lines compared to those of empty vector transgenic control plants. Segregation of GbADF1 in the T₂ generation fits the expected 3:1 ratio corresponding to a single dominant gene. Subsequently, GbADF1 was fused to the green fluorescent protein gene to generate a fusion expression vector. Transient expression analysis indicated that this fusion protein was localized in the nucleus and cytoskeleton of epidermal cells of onion. These results suggest that actin-depolymerizing factor 1 gene from G. barbadense plays an important role in the process of plant cell morphogenesis.     

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.     

铁皮石斛DoSMT2基因的功能分析

为了揭示铁皮石斛(Dendrobium officinale)甾醇C-24甲基转移酶2基因(DoSMT2)在甾醇代谢过程的功能,该研究通过根癌农杆菌介导法将来源于铁皮石斛的DoSMT2基因转化烟草(Nicotiana tabacum),并采用qRT-PCR技术检测DoSMT2基因在转基因烟草叶片中的表达,采用气相色谱质谱法分析菜油甾醇和谷甾醇的含量。结果显示:(1)成功获得DoSMT2基因的开放阅读框(1 119 bp),并成功构建正义植物表达载体质粒pCXSN-DoSMT2,经农杆菌介导的烟草叶盘转化法转化烟草并鉴定,获得4株阳性转基因烟草植株。(2)Southern blot结果表明,4株转基因烟草植株都有1条杂交信号带,而非转基因烟草植株没有,说明外源DoSMT2基因都以单拷贝整合到4株转基因烟草基因组中。(3)qRT-PCR检测显示,非转基因烟草未检测到外源DoSMT2基因的表达,4株转基因烟草都能检测到DoSMT2基因的表达,且表达水平差异极显著,各株系表达量高低依次为P3P1P2(P4)。(4)气相色谱质谱分析显示,转DoSMT2基因烟草叶片的菜油甾醇含量均极显著低于非转基因烟草叶片,而谷甾醇含量均极显著高于非转基因烟草叶片。研究表明,DoSMT2具有催化24-亚甲基胆甾烯醇转化形成24-亚乙基胆甾烯醇活性。