杜氏盐藻两种碳酸酐酶基因启动子的克隆和功能研究

将克隆得到的杜氏盐藻DCA7和CA基因的启动子区与bar基因和NOS polyA终止子片段融合,分别构建成pMDDC-B和pMDC-B转基因杜氏盐藻表达载体。用基因枪法将两种表达载体转化人杜氏盐藻细胞,通过除草剂草丁膦筛选培养获得转化藻株,对转化藻株进行分析。对转化杜氏盐藻藻株的筛选培养结果表明：pMDDC-B和pMDC-B载体中的外源bar基因能在杜氏盐藻细胞中稳定或瞬时表达。同时在氦气压力为690kPa条件下,微弹轰击2次比微弹轰击1次或3次的效果更好。对pMDDC-B转化杜氏盐藻得到的稳定表达的转化藻株进行的PCR和Southern印迹分析的结果表明：外源的bar基因确已整合到杜氏盐藻基因组中。Northern印迹分析表明：DCA7基因启动子驱动bar基因在杜氏盐藻细胞中的表达效率受氯化钠浓度梯度调控。推测首次克隆得到的DCA7基因启动子可能是一种活性高、安全性好的高渗诱导性启动子;杜氏盐藻DCA7和CA基因启动子区的GT高度重复序列,可能与杜氏盐藻高度耐盐的分子机制有关。     

杜氏盐藻异养表达载体的构建及异养转化株的鉴定

分别构建杜氏盐藻诱导型和组成型异养表达载体,筛选并初步鉴定异养转化藻株。通过RT-PCR从人胎盘组织中克隆并鉴定人红细胞葡萄糖转运基因(Glut1),构建以诱导型双拷贝碳酸酐酶启动子(DCA)驱动Glut1表达的中间载体,然后与筛选标记Bar盒连接形成盐藻诱导型异养表达载体pMDDGN-Bar。此外,将pU?GUS(简称G5)质粒的GUS基因去除,回收大片段载体后与Glut1基因连接,构建以组成型启动子ubiquitin驱动的组成型异养表达载体G5Glut1-Bar。通过电击转化法转化盐藻,使Glut1得到表达,筛选具有草丁膦(PPT)抗性的表达Glut1的盐藻转化株。提取转化株总RNA,RT-PCR检测目的基因的整合。克隆获得了1479bp的Glut1序列,编码493个氨基酸。电泳检测各酶切结果表明Glut1、DCA、Nos和Bar盒已依次连接到相应的载体上,说明异养表达载体构建成功。经PPT筛选数周后,转化藻株生长良好,而对照野生藻株全部死亡。电泳检测RT-PCR产物表明两株转化株在相应位置(约250bp处)出现了较为特异的扩增条带,Blast同源性分析显示序列与人Glut1基因的同源性为100%。诱导型...     

启动子Ptac与PsbA在鱼腥藻7120中表达hG-CSF的效率比较

为了比较外源性启动子Ptac与内源性启动子PsbA在鱼腥藻7120中表达外源基因时的效率,构建了分别含Ptac和PsbA两种启动子的穿梭表达载体pRL-PsbA-GCSF、pRL-Tac-GCSF;利用三亲结合转移法转化鱼腥藻7120,利用抗生素筛选,通过质粒提取和PCR方法鉴定,获得了分别由2种启动子驱动表达hG-CSF的转基因蓝藻,转基因藻中目的基因以质粒形式存在;利用半定量RT-PCR方法对2种转基因藻的hG-CSF转录水平进行比较,发现PsbA启动子驱动效率与Ptac启动子没有明显差异;利用ELISA方法比较hG-CSF蛋白表达量,发现PsbA启动的蓝藻中hG-CSF表达量是Ptac诱导条件下表达量的1.17倍。     

盐藻肌动蛋白基因启动子驱动的bar基因表达作为核转化筛选标记

运用基因组步行方法克隆盐藻肌动蛋白基因5′上游调控序列,发现相对于ATG上游-573和-424bp的位置上分别有75bp长的两个重复序列。没有典型的TATA盒,但有两个TATA样结构、一个CCAAT结构和一个与GCTC(G／C)AAGGC一致的序列。以700bp的盐藻肌动蛋白基因启动子区序列驱动bar基因的表达作为转化盐藻的筛选标记。转化的藻细胞暗光恢复24h后,在含0．5μg／mL除草剂的培养基中常规培养生长1周,然后将细胞平铺于含0．5μg／mL除草剂的固体培养基上继续筛选培养。约20d后从固体培养板上挑选出5个藻落并作了进一步培养和分析。结果显示,5个转化藻中携带bar嵌合基因的整合位点均位于核基因组内。Southern blotting分析表明,仅有一个转化藻整合单拷贝的bar基因,而另外4个转化藻株则包含多个拷贝bar基因片段,提示盐藻核基因转化主要是外源基因的随机整合,外源基因在转化盐藻中的整合拷贝数并不影响其除草剂抗性。RT-PCR方法证明了bar基因在转化藻中的转录。5个转化藻在含除草剂的液体培养基中维持生长了至少7个月,表明核基因转化的稳定性。     

外源报告基因EGFP在盐藻中实现瞬时表达

探索杜氏盐藻 (Dunaliellasalina)的转基因方法和筛选方法 .利用烟草花叶病毒启动子 (CaMV35S)、衣藻叶绿体atpA启动子与来源于水母的加强型绿色荧光蛋白报告基因 (EGFP)构建表达载体pART7GFP和pUCGFP ,转化盐藻 .EGFP在CaMV 35S启动下表达出绿色荧光蛋白 ,在荧光显微镜下看到发绿色荧光的转基因盐藻 .根据荧光数目进行统计 ,转化效率高于 5 % .衣藻来源的启动子atpA在盐藻中未能启动EGFP的表达 .用直径 1μm的金粉颗粒和 0 6 μm的金粉进行基因枪法转化 ,1μm的金粉颗粒成功将外源基因导入盐藻 ,用 0 6 μm的金粉配合多种技术参数也没有将外源基因导入盐藻 .EGFP可以用作盐藻遗传转化的报告基因使单细胞真核生物盐藻可以利用流式细胞术 (FACS)等技术进行筛选 ,从而避开平板筛选转基因盐藻的限制 ,并使转基因盐藻实现无抗生素筛选成为可能     

杜氏盐藻rbcS启动子的克隆和功能分析

为提高转基因盐藻的表达效率,利用基因组步行方法和巢式PCR,从盐藻中克隆了1,5-二磷酸核酮糖羧化酶/加氧酶（Rubisco）的小亚基基因rbcS 的5'上游调控序列,并对其进行序列分析和转基因功能分析。采用Dra I、EcoR V、Pvu II和Stu I四种平端限制内切酶分别酶切盐藻基因组DNA,并与接头连接,构建基因组步行文库GWL 1、GWL 2、GWL 3和GWL 4;设计特异引物从这四种文库中扩增rbcS基因的5'上游调控序列。在GWL 1、GWL 4中分别扩增出约1.2 kb的片段。对该序列的分析表明,它的3'端与已知盐藻rbcS cDNA 的5'端序列完全一致,说明是该基因的5'端上游区,并且包含多个与转录调控有关的保守序列（如TATA-box、CAAT-box）,富含GT的重复序列。此序列EcoR I下游的片段与除草剂抗性基因bar相融合,构建表达载体,电击法转化盐藻。通过对转化藻株的抗性筛选以及PCR和Southern blot检测,表明该区域能驱动外源基因bar在转基因盐藻中的表达,推断是盐藻rbcS基因的启动子调控区。     

杜氏盐藻DCA1启动子内GT重复序列在盐诱导调控中的作用

为了研究杜氏盐藻双拷贝碳酸酐酶（DCA1）启动子中高度重复的GT序列在盐诱导表达时的调控作用,设计不同的引物,通过PCR法获得6条不同长度的DCA1启动子片段,分别与gus报告基因融合后构建6个表达载体;电击法转化杜氏盐藻细胞。组织化学染色和荧光定量法检测GUS在不同盐浓度下的瞬时表达。结果显示,DCA1启动子内高度重复的GT序列无论与其上游、下游或上下游片段同时结合均能驱动gus基因的表达,并且其表达受氯化钠浓度调控,其中和上下游均结合时活性最强;无GT重复序列的融合片段及GT 重复的下游片段也能驱动gus基因的表达,但其表达不受氯化钠浓度调控;而GT重复的上游片段不能驱动gus基因的表达。结果提示:盐藻DCA1启动子中高度重复的GT序列在盐诱导调控中起重要作用,可能为一种新型的盐诱导元件。     

高效删除标记基因的Bhlea2植物表达载体的构建

为培育去除选择标记基因的耐旱转基因植物,同时利用Cre/Lox和FLP/frt系统,构建一个能够高效删除标记基因的Bhlea2基因植物表达载体.拟南芥rd29A启动子是在低温、干旱、高盐胁迫下的快速应答启动子,玉米ubiquitin启动子可有效驱动外源基因的转录,拟南芥pAB5启动子是花粉及胚胎等发育早期特异表达的启动子,利用上述启动子构建了表达Bhlea2基因并能够删除标记基因的植物表达载体.该表达载体包括重组酶表达元件pAB5-FLP、Bhlea2抗旱基因表达元件rd29A-Bhlea2和bar标记基因表达元件ubiquitin-bar.     

绿色荧光蛋白(ZsGreen)基因在长石莼细胞中的表达

主要研究绿色荧光蛋白(ZsGreen)基因在长石莼(缘管浒苔)细胞中的表述.应用绿色荧光蛋白基因、抗除草剂bar基因、CMV 35S启动子和SV40双启动子构建了质粒载体PSV-bar-ZsGeen,采用改进的PEG法将质粒载体PSV-bar-Zs-Geen导入到缘管浒苔原生质体中,经过细胞培养发育再生藻株,通过除草剂筛选出阳性藻株,且转化率达38.58％,进一步PCR分子检测和显微荧光检测表明,绿色荧光蛋白基因在转基因植株中得到表达,为今后转基因浒苔研究奠定基础.     

人canstatin基因转化新型生物反应器－杜氏盐藻(Dunaliella salina)的初步研究

本文采用RT-PCR技术从人的胎盘组织中克隆canstatin基因,定向连接到表达载体pUΩ上,然后与筛选标记bar盒连接得到真核表达载体pUΩ-Can-Bar。采用玻璃珠转化法将该表达载体转化杜氏盐藻（以下简称盐藻）,通过草丁膦固体平板筛选得到转化株,进而对转化株进行阳性鉴定。PCR结果显示,在盐藻转化株中均能够扩增出约700 bp特异的条带,而在阴性对照中没有扩增出该条带。Southern blot结果进一步证明人canstatin基因已经整合到盐藻细胞的基因组中。此外,本文对盐藻转化株的遗传稳定行进行了分析,结果表明canstatin基因能够在转化藻株中稳定遗传。人canstatin转基因盐藻株的成功制备为利用盐藻反应器大规模生产人canstatin蛋白提供了实验依据,为及早实现canstatin蛋白在治疗肿瘤上的临床应用提供了前期工作基础。     

Characterization of position-induced spatial and temporal regulation of transgene promoter activity in plants.

Quantitative differences in transgene expression between independent transformants are generally ascribed to different integration sites of the transgene (position effect). The contribution of spatial and temporal changes in transgene promoter activity to these position-induced differences in transgene expression in planta are characterized, using the firefly luciferase (luc) reporter system. The activity of three different promoters (Cauliflower Mosaic Virus (CaMV) 35S, modified CaMV 35S and the promoter of an Arabidopsis thaliana Lipid Transfer Protein gene) was shown to vary not only among independent transformants, but also between leaves on the same plant and within a leaf. The differences in local LUC activity between leaves and within a leaf correlated with differences in local luc mRNA steady-state levels. Imaging of LUC activity in the same leaves over a 50 d period, shows that individual transformants can show different types of temporal regulation. Both the spatial and the temporal type of luc transgene expression pattern are inherited by the next generation. It is concluded that previously reported position-induced quantitative differences in transgene expression are probably an accumulated effect of differences in spatial and temporal regulation of transgene promoter activity.     

Establishment of a micro-particle bombardment transformation system for Dunaliella salina

In this study, we chronicle the establishment of a novel transformation system for the unicellular marine green alga, Dunaliella salina. We introduced the CaMV35S promoter-GUS construct into D. salina with a PDS1000/He micro-particle bombardment system. Forty eight h after transformation, via histochemical staining, we observed the transient expression of GUS in D. salina cells which had been bombarded under rupture-disc pressures of 450 psi and 900 psi. We observed no GUS activity in either the negative or the blank controls. Our findings indicated that the micro-particle bombardment method constituted a feasible approach to the genetic transformation of D. salina. We also conducted tests of the cells' sensitivity to seven antibiotics and one herbicide, and our results suggested that 20 microg/ml of Basta could inhibit cell growth completely. The bar gene, which encodes for phosphinothricin acetyltransferase and confers herbicide tolerance, was introduced into the cells via the above established method. The results of PCR and PCR-Southern blot analyses indicated that the gene was successfully integrated into the genome of the transformants.     

Transgene inactivation inPetunia hybrida is influenced by the properties of the foreign gene

Petunia mutant RL01 was transformed with maizeA1 and gerberagdfr cDNAs, which both encode dihydroflavonol-4-reductase (DFR) activity. The sameAgrobacterium vector and the same version of the CaMV 35S promoter were used in both experiments. Transformation with the cDNAs resulted in production of pelargonidin pigments in the transformants. However, theA1 andgdfr transformants showed clearly different phenotypes. The flowers of the primaryA1 transformants were pale and showed variability in pigmentation during their growth, while the flowers of thegdfr transformants showed intense and highly stable coloration. The color difference in the primary transformants was reflected in the expression levels of the transgenes as well as in the levels of anthocyanin pigment. As previously reported by others, the instability in pigmentation in theA1 transformants was more often detected in clones with multiple copies of the transgene and was associated with methylation of the 35S promoter and of the transgene cDNA itself. In thegdfr transformants, the most intense pigmentation was observed in plants with multiple transgenes in their genome. Only rarely was partial methylation of the 35S promoter detected, while thegdfr cDNA always remained in an unmethylated state. We conclude that the properties of the transgene itself strongly influence the inactivation process. The dicotyledonousgdfr cDNA with a lower GC content and fewer possible methylation sites is more ‘compatible’ the genomic organization of petunia and this prevents it being recognized as a foreign gene and hence silenced by methylation.     

Plant defense gene promoter enhances the reliability of<Emphasis Type="Italic"> shiva-1</Emphasis> gene-induced resistance to soft rot disease in potato

PAL5, a tomato (Lycopersicon esculentum Mill.) plant defense gene that encodes phenylalanine ammonia-lyase, is known to respond to a variety of environmental stresses including pathogen infection and wounding. A shiva-1 gene recombinant that encodes a small synthetic antibacterial peptide under the PAL5 gene promoter was transformed into potato (Solanum tuberosum L.) and its ability to induce resistance to Erwinia carotovora was compared with a construct under the control of the constitutive and widely used cauliflower mosaic virus (CaMV) 35S promoter. The shiva-1 peptide, an analog of natural cecropin B, was shown previously to have high bactericidal activity in vitro, but when expressed in vivo under the control of the CaMV 35S promoter, the effects were very inconsistent. As observed previously, in the present studies a few transformants with the CaMV 35S promoter were highly resistant when assayed for susceptibility to soft rot disease. In marked contrast the majority of transformants with the PAL5 gene promoter were highly resistant. More-detailed analyses of the incorporated DNA indicated that most of the transformants with the CaMV 35S promoter contained multiple copies of the transforming DNA while all of the PAL5 recombinants contained single copies. The highly resistant CaMV 35S recombinant also was present as a single copy. The results indicate that, at least in this instance, a constitutive promoter may not be ideal for the effective expression of a foreign gene and suggest that multiple insertions may have negative consequences.     

Elevation of Transgene Expression Level by Flanking Matrix Attachment Regions (MAR) is Promoter Dependent: A Study of the Interactions of Six Promoters with the RB7 3′ MAR

We have analyzed effects of a matrix attachment region (MAR) from the tobacco RB7 gene on transgene expression from six different promoters in stably transformed tobacco cell cultures. The presence of MARs flanking the transgene increased expression of constructs based on the constitutive CaMV 35S, NOS, and OCS promoters. Expression from an induced heat shock promoter was also increased and MARs did not cause expression in the absence of heat shock. There was also no effect of MARs on the pea ferredoxin promoter, which is not normally expressed in this cell line. Importantly, most transgenes flanked by RB7 MAR elements showed a large reduction in the number of low expressing GUS transformants relative to control constructs without MARs.     

Promoter cassettes, antibiotic-resistance genes, and vectors for plant transformation

We have constructed a set of plant transformation vectors, promoter cassettes, and chimeric antibiotic-resistance genes for the transformation and expression of foreign genes in plants sensitive to Agrobacterium infection. The different vectors allow for either concurrent or consecutive selection for kanamycin and hygromycin resistance and have a number of unique restriction sites for the insertion of additional DNA. The promoter cassettes utilize the CaMV 19S and CaMV 35S promoters and are constructed to allow for the easy insertion of foreign genes. The cloned gene can then easily be inserted into the transformation vectors. We have utilized the promoter cassettes to express the hygromycin-resistance gene either from the CaMV 35S or the CaMV 19S promoters, with both chimeric resistance genes allowing for the selection of hygromycin-resistant tobacco plants.     

TM2, a novel strong matrix attachment region isolated from tobacco, increases transgene expression in transgenic rice calli and plants

Nuclear matrix attachment regions (MARs) are thought to influence the expression of the flanking genes. TM2, a new DNA fragment isolated from tobacco, can bind with the rice nuclear matrix in vitro. In this study, we investigated the effect of TM2 on transgene expression under the control of three different promoters in stably transformed rice calli and plants. The presence of TM2 flanking the transgene increased the expression of constructs based on the constitutive CaMV 35S and maize ubiquitin gene promoters in both resistant calli and transformed plants. The GUS expression directed by the photosynthetic-tissue-specific PNZIP promoter was also increased in photosynthetic tissues of transformants. However, TM2 did not change the gene expression pattern controlled by the PNZIP promoter. The effect of TM2 in transgenic plants was stronger than that in transgenic calli based on all three promoters. Our results indicate that TM2, as a novel strong MAR, can be used to increase the transgene expression levels in the whole plant or in particular tissues of monocotyledons.