白桦BpSPL2基因启动子的克隆及表达分析

SPL(SQUAMOSA promoter-binding protein-like)是植物特有的转录因子,研究表明其在参与发育阶段转变、花和果实发育等方面起着重要作用。利用PCR技术从白桦基因组DNA中扩增获得BpSPL2基因上游1 960 bp启动子序列,使用PLACE和Plant CARE在线软件分析序列,发现BpSPL2基因启动子序列中含有与开花、非生物胁迫及激素响应等相关的顺式作用元件,暗示其在植物的生长发育和胁迫应答中起重要作用。进而构建了BpSPL2基因启动子驱动GUS报告基因的植物表达载体,并利用农杆菌介导将其瞬时转化至白桦和拟南芥,通过GUS组织化学染色检测BpSPL2基因启动子的组织表达特性,结果表明BpSPL2基因启动子具有启动子活性,能够驱动GUS基因在白桦和拟南芥中表达;而其表达活性在白桦的叶片、芽及根部中较强,在拟南芥的花药、雌蕊和叶片较强,为进一步研究白桦BpSPL2基因的表达调控及其功能分析提供参考。     

农杆菌介导的刺芹侧耳遗传转化体系的建立

以刺芹侧耳菌丝球为受体,潮霉素（Hyg）为筛选标记,应用农杆菌介导法对刺芹侧耳菌丝进行了遗传转化研究。潮霉素敏感性测试结果表明,刺芹侧耳Hyg耐受浓度为50mg/L。农杆菌介导的刺芹侧耳菌丝最佳遗传转化体系为：菌液浓度OD₆₀₀=0.6-0.7,侵染时间30-35min,共培养时间2d,侵染液和共培养培养基中乙酰丁香酮（AS）浓度为1mg/mL;经潮霉素抗性筛选、PCR鉴定和GUS活性的组织化学分析,表明外源基因GUS已转入到刺芹侧耳菌丝中,并获得表达。本实验成功地建立了稳定的农杆菌介导的刺芹侧耳遗传转化体系。     

双管基因枪介导的基因瞬时表达技术在拟南芥中的应用

基因瞬时表达是植物中研究目标基因功能的常用手段。在模式植物拟南芥(Arabidopsis thaliana)中, 相比原生质体和农杆菌介导的基因异源表达技术, 利用粒子轰击进行基因瞬时表达一直鲜有报道。其主要原因是拟南芥叶型相对较小、基因枪操作相对烦琐以及基因表达效率差异较大。该研究通过优化双管基因枪系统, 在营养生长旺盛的拟南芥莲座叶中实现GFP和GUS基因高效表达。同时, 通过GUS报告基因明确了坏死诱导因子BAX、Avh238和ATR13/Rpp13激发拟南芥细胞坏死的表型。但在本氏烟(Nicotiana benthamiana)中明显诱导细胞坏死的Avrblb1/RB基因对, 在拟南芥中却丧失了诱导细胞坏死的活性。由于双管基因枪系统每次轰击时设置平行对照, 可有效降低转化实验中的样本变异度, 为拟南芥及其突变体研究中准确评价基因功能和高通量筛选目标基因提供新的技术参考。     

优化子叶节转化法培育大豆MtDREB2A转基因植株

将正交因素试验与GUS基因组织化学染色等技术相结合, 优化大豆(Glycine max)品种东农50遗传转化体系, 导入抗旱关键基因MtDREB2A。结果表明, 大豆种子表面消毒, NaClO溶液法与Cl₂气熏蒸法的去污染率分别达到98.67%和93.33%。子叶节法转GUS基因组织化学染色率(68.33%)显著高于下胚轴法(14.00%)和胚尖法(0.67%) (P<0.05)。种子萌发5天, 农杆菌(Agrobacterium tumefaciens)培养温度25°C, OD₆₀₀=0.9, 共培养5天的转GUS基因子叶节最高达72.00%; 恢复培养5天, 草丁膦(3 mg·L^-1)、头孢噻肟钠(200 mg·L^-1)和羧苄青霉素(300 mg·L^-1)筛选诱导分化的转GUS基因不定芽最多为3.33%; 优化的大豆遗传转化体系转化效率为1.11%。转MtDREB2A基因大豆东农50植株根系更加密集, 主根长度和侧根数量均显著高于对照(P<0.05), 证实MtDREB2A基因具有促进大豆根系生长的作用, 为利用该基因进行大豆抗旱育种奠定了坚实的基础并提供了理论依据。     

白桦BpJMJ18基因启动子克隆及表达分析

为探究BpJMJ18基因在植物生长发育过程中的功能，本研究利用PCR技术克隆白桦（Betula platyphylla）BpJMJ18基因的启动子，通过生物信息学分析发现，该启动子序列中除了包含TATA-box和CAAT-box等基本顺式作用元件外，还具有光响应元件和多种激素应答相关的元件；进而构建植物表达载体pBI101-BpJMJ18pro：：GUS，并用农杆菌介导的瞬时转化法侵染白桦，对转基因株系进行GUS染色分析，结果发现BpJMJ18基因启动子能够驱动GUS基因在白桦的主根、侧根、根尖、叶片的维管束和嫩茎中均检测到表达。上述结果说明白桦BpJMJ18启动子具有启动活性，可能影响植物的生长发育。     

铁棍山药微型块茎遗传转化体系的建立

怀山药(Dioscorea opposita)遗传转化是对其进行基因功能分析和遗传改良的基础, 但目前国内外尚未见相关报道。以怀山药优良品种铁棍山药(D. opposita cv. ‘Tiegun’)的微型块茎为受体材料, 对影响遗传转化的因素进行优化, 建立了由根癌农杆菌介导的山药遗传转化体系。过表达质粒载体pCAMBIA1301-DoSERK2含GUS标记基因和潮霉素(Hyg)抗性筛选基因, 沉默质粒载体pART27-DoSERK2含卡那霉素(Kan)抗性筛选基因。根癌农杆菌抑制剂特美汀(Tim)的最佳浓度为500 mg·L ^-1; 再生芽和生根时, Hyg的最佳浓度分别为15和20 mg·L ^-1, Kan的最佳浓度分别为120和160 mg·L ^-1。对转化植株进行PCR和GUS组织化学检测, 结果显示外源基因已整合到铁棍山药转基因株系的基因组中并在细胞中表达。该研究建立了一套取材便利的铁棍山药遗传转化方法, 对其它品种山药的转化也具有参考价值。     

A protocol for consistent, large-scale production of fertile transgenic rice plants

A protocol for consistent production of fertile transgenic rice plants was established utilizing microparticle bombardment of embryogenic tissues (Oryza sativa L. japonica cv. Taipei 309). This system has been employed to produce several thousand independently transformed plant lines carrying the hygromycin phosphotransferase (hph) gene and various genes of interest. The most efficient target tissue was highly embryogenic callus or suspension cell aggregates, when they were given an osmotic pre- and post-transformation treatment of 0.6 m carbohydrate. By optimizing the age of the tissue at the time of gene transfer and applying an improved selection procedure, transgenic plants were recovered in 8 weeks from the time of gene transfer, at an average of 22.3±9.7 per 100 calli and 22.4±8.0 plant lines per dish of suspension cell aggregates. This system has facilitated a number of studies using rice as a model for genetic transformation and will enable the large-scale production of transgenic rice plants for genomic studies. Received: 12 March 1998 / Revision received: 5 May 1998 / Accepted: 15 May 1998     

Expression of the hepatitis B virus surface antigen in Drosophila S2 cells

Drosophila melanogaster S2 cells were transfected with a plasmid vector (pAcHBsAgHy) containing the S gene, coding for the hepatitis B virus surface antigen (HBsAg), under control of the constitutive drosophila actin promoter (pAc), and the hygromycin B (Hy) selection gene. The vector was introduced into Schneider 2 (S2) Drosophila cells by DNA transfection and a cell population (S2AcHBsAgHy) was selected by its resistance to hygromycin B. The pAcHBsAgHy vector integrated in transfected S2 cell genome and approximately 1,000 copies per cell were found in a higher HBsAg producer cell subpopulation. The HBsAg production varied in different subpopulations, but did not when a given subpopulation was cultivated in different culture flasks. Higher HBsAg expression was found in S2AcHBsAgHy cells cultivated in Insect Xpress medium (13.5 μg/1E7 cells) and SFX medium (7 μg/1E7 cells) in comparison to SF900II medium (0.6 μg/1E7 cells). An increase of HBsAg was observed in culture maintained under hygromycin selection pressure. Data presented in the paper show that S2AcHBsAgHy cells produce efficiently the HBsAg which is mainly found in the cell supernatant, suggesting that HBsAg is secreted from the cells. The data also show that our approach using the Drosophila expression system is suitable for the preparation of other viral protein preparation.     

Transgenic Russian wildrye (<Emphasis Type="Italic">Psathyrostachys juncea</Emphasis>) plants obtained by biolistic transformation of embryogenic suspension cells

Russian wildrye (Psathyrostachys juncea (Fisch.) Nevski) is a cool-season forage species well adapted to semi-arid climates. We are interested in developing biotechnological methods to improve this monocot forage species. Single genotype-derived embryogenic suspension cultures were established from the Russian wildrye cultivar Bozoisky-Select, and were used as target cells for biolistic transformation. A chimeric hygromycin phosphotransferase gene (hph) was used as the selectable marker, and a chimeric -glucuronidase (gusA) gene was co-transformed with hph. Resistant calli were obtained from 29% of the bombarded dishes after selection with 200 mg/l hygromycin. Plants were regenerated from 45% of the hygromycin resistant calli. Thirty-six transgenic Russian wildrye plants were recovered after microprojectile bombardment of suspension cells and subsequent hygromycin selection. The transgenic nature of the regenerated plants was demonstrated by Southern hybridization analysis using undigested and digested genomic DNA samples. When a second gene (gusA) was co-transformed with hph, a reasonably high co-transformation frequency of 78% was observed. Transgenic expression of gusA was confirmed by GUS staining of shoot and leaf tissues. Fertile transgenic plants were obtained after two winters of vernalization under field conditions. This is the first report on the generation of transgenic plants in Russian wildrye.     

Glucocorticoid-induced expression of a foreign gene by the GVG system in transformed tobacco BY-2 cells

A glucocorticoid-induced target gene expression system was used to control the expression of the uidA gene, whose product was beta-glucuronidase (GUS), in tobacco BY-2 cell suspension culture. This targeting system showed quick, sensitive, and reversible response to dexamethazone (DEX), an artificial glucocorticoid hormone. Addition of DEX greatly and quickly enhanced uidA gene expression, whose level was as high as that under the control of the CaMV 35S promoter whereas in the absence of DEX, the GUS specific activity was suppressed to be as low as that of nontransformed BY-2 cells. The dilution of DEX decreased GUS specific activity showing that the concentration of DEX plays a major role in controlling the expression level of the target. The use of the glucocorticoid-induced system in plant cell suspension culture was demonstrated to precisely control target gene expression.     

84K杨PagC3H3基因表达模式分析

木质素作为木材的主要组成成分,通常是由3种单体聚合而成,在其生物合成过程中,共有10个酶家族参与负责将苯丙胺酸转化为单体木质素,其中C3H是在对-香豆酰辅酶A（p-coumaroyl CoA）到咖啡酰辅酶A（caffeoyl CoA）的羟基化过程和G/S单体形成中的关键控制酶类,探究PagC3H3基因表达模式,对于进一步了解该基因功能具有重要意义。该研究通过定量PCR对PagC3H3基因的组织特异性表达进行分析;克隆得到了长度为2 035 bp的PagC3H3的启动子序列,预测含有多个顺式作用元件;同时,将获得的PagC3H3的启动子序列构建植物表达载体pBI121-PagC3H3pro：：GUS,进行拟南芥瞬时转化,结果显示PagC3H3基因在84K杨的根、中部茎节和基部茎节中的表达量较高;瞬时转化拟南芥,GUS染色表明：在下胚轴和根中GUS活性较强,由此推测PagC3H3基因在木质素合成过程中发挥作用。     

杂交构树UDP-葡萄糖脱氢酶基因编码蛋白的亚细胞定位及其启动子5'端缺失片段的功能分析

为了研究杂交构树UDP-葡萄糖脱氢酶基因（DDBJ，BpUGDH基因登录号为LC457701）启动子不同区域的表达活性，利用5'端缺失及同源重组实验技术，将5个不同长度的BpUGDH启动子5'端缺失片段与GUS基因连接，并通过农杆菌介导法瞬时转化烟草；同时，为了定位BpUGDH基因编码的蛋白在细胞中表达的具体位置，利用GFP报告基因融合目的基因进行蛋白质的亚细胞定位。结果显示：BpUGDH基因启动子-244 bp以内的序列均能介导GUS基因的诱导表达，并且-973、-465、-355、-281和-244 bp之间的区域可能对BpUGDH基因启动子的活性发挥着至关重要的作用。另外，BpUGDH基因编码蛋白的亚细胞定位结果显示：BpUGDH位于叶绿体中。     

Infection of human cells by murine ecotropic viruses: retroviral vectors carrying the hygromycin resistance-encoding gene

The construction of a new retroviral vector, pSKV, is described. This vector carries two unique cloning sites, located between two Moloney leukemia virus-derived LTR, into which genes of interest may be introduced. The gene encoding hygromycin resistance (Hy^R) was subsequently introduced into one of the two sites, producing a second vector (pSKV/Hy^R) containing a unique SfiI site for the introduction of cDNA clones under the control of the cytomegalovirus (CMV) promoter (P-CMV). The cDNA (mH13), encoding a protein that has been shown to serve as a murine ecotropic retroviral receptor in transient assays, was cloned into the SfiI site (pSKV/Hy^R/mH13). Both constructs can be packaged into retroviral particles following transfection into an appropriate packaging cell line.

Stable transfectants of the human glioblastoma cell line (U118MG) carrying each of these two constructs were generated by transfection and subsequent Hy selection. Clones expressing both the selectable marker and the mH13 gene, but not those expressing only the selectable marker, are shown to be susceptible to infection with murine ecotropic retroviral particles. These cells (Hy^R and mH13 positive) were then exposed to CRE/Xtk culture supernatant, a packaging cell line producing ecotropic retroviral particles carrying the HSV-TK (Herpes simplex virus-thymidine kinase) and neo^R(neomycin-resistance) genes. Selection was in the presence of G418. In vitro growth of the U118MG/Hy^R/mH13/TK cells, but not that of the U118MG/HyR/mH13 cells, was inhibited by ganciclovir (GCV), indicating the successful transfer of HSV-TK by infection of human cells with murine retroviruses via the mH13 product.     

深海白色侧齿霉遗传转化体系建立及渗透压调控相关的EaSHO1基因功能

海洋中具有丰富的动植物及微生物资源,海洋真菌是其重要组成之一。我们前期的研究发现一株深海真菌白色侧齿霉Engyodontium album能产生具有抑菌活性的次级代谢产物engyodontiumin A,该化合物能抑制黑曲霉、金黄色葡萄球菌及创伤弧菌等病原菌的生长,是一种潜在的海洋源抗菌药物。目前,该菌遗传转化体系尚未建立,不利于开展次级代谢产物合成调控机制及其他功能基因研究。本研究成功制备了深海白色侧齿霉菌的原生质体,建立了借助聚乙二醇3350介导的原生质体转化体系,并将pCT74-sGFP载体成功导入白色侧齿霉的原生质体中,结果显示外源GFP能稳定表达。此外,为了明确白色侧齿霉菌是否能够开展基因敲除研究,通过氨基酸序列同源比对,我们选取酵母高渗甘油信号途径中的同源基因EaSHO1进行初步探究。利用同源重组的方法成功将目的基因EaSHO1的开放阅读框(ORF)替换成潮霉素磷酸转移酶基因(HPH),由此获得EaSHO1基因敲除突变体,并对突变体进行Southern杂交验证及初步的表型分析。结果表明,EaSHO1缺失不影响白色侧齿霉菌的营养生长及对高盐胁迫的响应,亚细胞定位结果显示EaS...     

<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation of <Emphasis Type="Italic">Festuca arundinacea</Emphasis> (Schreb.) and <Emphasis Type="Italic">Lolium multiflorum</Emphasis> (Lam.)

Agrobacterium tumefaciens strain LBA4404 carrying plasmid pTOK233 encoding the hygromycin resistance (hph) and beta-glucuronidase (uidA) genes has been used to transform two agronomic grass species: tall fescue (Festuca arundinacea) and Italian ryegrass (Lolium multiflorum). Embryogenic cell suspension colonies or young embryogenic calli were co-cultured with Agrobacterium in the presence of acetosyringone. Colonies were grown under hygromycin selection with cefotaxime and surviving colonies plated on embryogenesis media. Eight Lolium (six independent lines) and two Festuca plants (independent lines) were regenerated and established in soil. All plants were hygromycin-resistant, but histochemical determination of GUS activity showed that only one Festuca plant and one Lolium plant expressed GUS. Three GUS-negative transgenic L. multiflorum and the two F. arundinacea plants were vernalised and allowed to flower. All three Lolium plants were male- and female-fertile, but the Festuca plants failed to produce seed. Progeny analysis of L. multiflorum showed a 24-68% inheritance of the hph and uidA genes in the three lines with no significant difference between paternal and maternal gene transmission. However, significant differences were noted between the paternal and maternal expression of hygromycin resistance.     

Inheritance of transgenes in transgenic tall fescue (<Emphasis Type="Italic">Festuca arundinacea</Emphasis> schreb.)

Summary Tall fescue (Festuca arundinacea Schreb.) is the most important forage species worldwide of the Festuca genus. Single genotype-derived embryogenic suspension cultures were established from tall fescue cultivar Kentucky-31, and were used as target cells for biolistic transformation. A chimeric hygromycin phosphotransferase gene (hph) was used as the selectable marker, and a chimeric β-glucuronidase (gusA) gene was co-transformed with hph. Transgenic plants were recovered after microprojectile bombardment of suspension cells and subsequent selection in the presence of a high concentration of hygromycin. Fertile transgenic plants were obtained after vernalization under field conditions. T1 and T2 progenies were obtained after reciprocal crosses between transgenic and untransformed control plants. PCR and Southern hybridization analyses revealed a 1∶1 segregation ratio for both transgenes in the T1 and T2 generations. Southern hybridization patterns were identical for T0, T1, and T2 plants. The results demonstrated for the first time the stable meiotic transmission of transgenes following Mendelian rules in transgenic tall fescue.     

PEG介导的柱状田头菇遗传转化体系建立

柱状田头菇（茶树菇）Agrocybe aegerita是一种美味的食用菌,具有极高的经济价值。随着其全基因组测序的完成,功能基因组学研究也逐渐展开,其中,高效的遗传转化体系作为技术基础成为研究重点。本研究以柱状田头菇原生质体为受体、潮霉素抗性基因（hph）作为筛选标记,以增强型绿色荧光蛋白基因（egfp）为报告基因,应用PEG介导法进行柱状田头菇遗传转化体系研究。结果表明,150μg/mL潮霉素可以完全抑制柱状田头菇的生长。30℃下用2%裂解酶液酶解菌丝3h,能够获得最大得率的原生质体。通过PEG介导将构建好的DNA片段转化入柱状田头菇原生质体,通过潮霉素抗性筛选获得转化子,转化得率达到7个/μg DNA。PCR验证和荧光显微镜观察,外源片段成功转入柱状田头菇中并稳定表达。本研究建立的PEG介导转化体系,为柱状田头菇基因功能研究提供了技术基础。     

Efficient integrative transformation of the phytopathogenic fungus Alternaria alternata mediated by the repetitive rDNA sequences

An attempt was made to transform Alternaria alternata protoplasts using a plasmid vector, pDH25, bearing the Escherichia coli hygromycin B (Hy) phosphotransferase gene (hph) under the control of the Aspergillus nidulans trpC promoter. Transformants arose on a selective medium containing 100 μg Hy/ml. There were two types of transformants, forming large and small colonies on the selective medium. Transformation with one μg of the vector produced an average of 4.5 large colonies and 600 small ones. In large-colony transformants, the vector often integrated into the recipient chromosome in the form of highly rearranged tandem arrays. To increase transformation efficiency, fragments of the highly repetitive ribosomal RNA gene cluster (rDNA) of A. alternata were used to construct four new vectors for homologous recombination system. Use of these vectors gave higher transformation efficiency than the original plasmid. The best vector, pDH25r1a, gave rise to large-colony transformants at a frequency 20 times higher than pDH25. Transformation events in A. alternata with pDH25r1a occured by homologous recombination as a single crossover between the plasmid-borne rDNA segment and its homologue in the chromosome, often giving rise to tandemly repeated vector DNA.     

The maternal chromosome set is the target of the T-DNA in the in planta transformation of Arabidopsis thaliana

In planta transformation methods are now commonly used to transform Arabidopsis thaliana by Agrobacterium tumefaciens. The origin of transformants obtained by these methods has been studied by inoculating different floral stages and examining gametophytic expression of an introduced beta-glucuronidase marker gene encoding GUS. We observed that transformation can still occur after treating flowers where embryo sacs have reached the stage of the third division. No GUS expression was observed in embryo sacs or pollen of plants infiltrated with an Agrobacterium strain bearing a GUS gene under the control of a gametophyte-specific promoter. To identify the genetic target we used an insertion mutant in which a gene essential for male gametophytic development has been disrupted by a T-DNA bearing a Basta resistance gene (B(R)). In this mutant the B(R) marker is transferred to the progeny only by the female gametes. This mutant was retransformed with a hygromycin resistance marker and doubly resistant plants were selected. The study of 193 progeny of these transformants revealed 25 plants in which the two resistance markers were linked in coupling and only one plant where they were linked in repulsion. These results point to the chromosome set of the female gametophyte as the main target for the T-DNA.