Analysis of T-DNA-<Emphasis Type="Italic">Xa21</Emphasis> loci and bacterial blight resistance effects of the transgene <Emphasis Type="Italic">Xa21</Emphasis> in transgenic rice

The genetic loci and phenotypic effects of the transgene Xa21, a bacterial blight (BB) resistance gene cloned from rice, were investigated in transgenic rice produced through an Agrobacterium-mediated transformation system. The flanking sequences of integrated T-DNAs were isolated from Xa21 transgenic rice lines using thermal asymmetric interlaced PCR. Based on the analysis of 24 T-DNA- Xa21 flanking sequences, T-DNA loci in rice could be classified into three types: the typical T-DNA integration with the definite left and right borders, the T-DNA integration linked with the adjacent vector backbone sequences and the T-DNA integration involved in a complicated recombination in the flanking sequences. The T-DNA integration in rice was similar to that in dicotyledonous genomes but was significantly different from the integration produced through direct DNA transformation approaches. All three types of integrated transgene Xa21 could be stably inherited and expressed the BB resistance through derived generations in their respective transgenic lines. The flanking sequences of the typical T-DNA integration consisted of actual rice genomic DNA and could be used as probes to locate the transgene on the rice genetic map. A total of 15 different rice T-DNA flanking sequences were identified. They displayed restriction fragment length polymorphisms (RFLPs) between two rice varieties, ZYQ8 and JX17, and were mapped on rice chromosomes 1, 3, 4, 5, 7, 9, 10, 11 and 12, respectively, by using a double haploid population derived from a cross between ZYQ8 and JX17. The blast search and homology comparison of the rice T-DNA flanking sequences with the rice chromosome-anchored sequence database confirmed the RFLP mapping results. On the basis of genetic mapping of the T-DNA- Xa21 loci, the BB resistance effects of the transgene Xa21 at different chromosome locations were investigated using homozygous transgenic lines with only one copy of the transgene. Among the transgenic lines, no obvious position effects of the transgene Xa21 were observed. In addition, the BB resistance levels of the Xa21 transgenic plants with different transgene copy numbers and on different genetic backgrounds were also investigated. It was observed that genetic background (or genome) effects were more obvious than dosage effects and position effects on the BB resistance level of the transgenic plants.     

外源性人TIMP-1基因在转基因小鼠染色体上的整合及定位

为探讨外源基因人基质金属蛋白酶组织抑制物-1（human tissue inhibitor of metalloproteinase-1, hTIMP-1）基因在转基因小鼠家系染色体上的整合和精确定位,应用Southrn印迹检测外源基因在染色体上整合的位点及拷贝数.结果表明,外源基因是以单拷贝、单位点形式整合;应用荧光原位杂交（fluorescence in situ hybridization, FISH）技术检测F4～F20代转基因小鼠中外源基因的整合.结果证明,该家系转基因小鼠自F4代起是纯合子,外源基因整合在17号染色体E区;反向PCR法（Inverse PCR, IPCR）克隆出约3.8 kb外源基因整合位点处的侧翼序列.分析表明,外源基因整合在17号染色体E1.3区,ALK（anaplastic lymphoma kinase, ALK）基因第23个内含子区域.结果提示,获得的转基因小鼠为纯系,外源基因hTIMP-1已稳定整合在转基因小鼠染色体上,并能遗传给后代.     

High copy number integration into the ribosomal DNA of the yeast Phaffia rhodozyma

This report describes a transformation system leading to stable high copy number integration into the ribosomal DNA (rDNA) of the astaxanthin-producing yeast Phaffia rhodozyma. A plasmid was constructed that contains the transposon Tn5 encoded kanamycin resistance gene (Km^R) fused in frame to the 5′-terminal portion of the Phaffia actin gene. This marker, driven by the Phaffia actin promoter, confers resistance to G418 (Geneticin). The plasmid also contains a rDNA portion that comprises the 18S rDNA and promotes high copy integration leading to stable Phaffia transformants that maintained the plasmid at high copy number after 15 generations of non-selective growth. Phaffia, strain CBS 6938, was found to contain the rDNA units in clusters distributed over three chromosomes with a total copy number of 61. Phaffia transformants were shown to have over 50 copies of pGB-Ph9 integrated in tandem in chromosomes that contain rDNA loci. The chromosomal shifts that occur as a result of these integrations as shown by pulsed field electrophoresis strongly suggest that Phaffia is haploid.     

Fluorescence in situ hybridization of single copy transgenes in rice chromosomes

Summary Fluorescence in situ hybridization (FISH) is a powerful tool for visualizing the chromosomal location of targeted sequences and has been applied in many areas, including karyotyping, breeding and characterization of genes introduced into the plant genome. A simple, routine and sensitive FISH procedure was developed for localizing single copy genes in rice (Oryza sativa L.) metaphase chromosomes. We used digoxygenin-labeled endogenous or T-DNA sequences as small as 5.6 kb to probe corresponding endogenous sequences or the T-DNA insert in denatured rice metaphase chromosomes prepared from root meristem tissue. The hybridized probe sequence was labeled with cy3-conjugated anti-mouse IgG and visualized using fluorescence microscopy. Single copy and multiple copy introduced T-DNA sequences, as well as endogenous sequences, were localized on the chromosomes. The FISH protocol was effectively used to sereen the chromosomal location of introduced T-DNA and number of integration loci in rice.     

Mechanism of random integration of foreign DNA in transgenic mice

Little is known about how foreign DNA is randomly integrated into chromosomes in transgenic animals. In the current study, the insertion sites of 36 transgenic mice were mapped by thermal asymmetric interlaced PCR, and 38 junction sequences were obtained from 30 samples. Analysis of the 38 sequences revealed that 44.7 % of integration events occurred within host gene regions, including 13.2 % (5/38) in exonic regions and 31.6 % (12/38) in intronic regions. The results also revealed that all non-end side integrations of foreign DNA were mediated by short sequence homologies (microhomologies) and that the end side integrations occurred in the presence or absence of microhomologies. In addition, microhomology-mediated mechanisms were also confirmed in four transgenic Arabidopsis thaliana lines. The results indicate that foreign DNA is easily integrated into host gene regions. These results also suggest that the integration of both ends of foreign DNA follows the above-mentioned mechanism in many transgenic/transformed organisms.     

应用接头PCR克隆慢病毒介导的转基因小鼠整合位点旁侧序列

目的为鉴定慢病毒介导的转基因小鼠中外源基因的整合位点信息,应用接头PCR克隆整合位点旁侧序列。方法小鼠基因组总DNA酶解后与设计的接头片段连接,根据慢病毒的LTR序列设计巢式PCR引物,克隆转基因小鼠整合位点旁侧序列。结果成功克隆到转基因小鼠整合位点的旁侧序列,经过测序定位于小鼠染色体上。结论作为反向PCR的改进,本方法可用于转基因小鼠整合位点旁侧序列的克隆,为分析整合位点与外源基因表达之间的关系等提供了科学依据。     

Rapid and accurate early-stage detection of T-DNA/plant flanking sequences of resistant kumquats

Agrobacterium-mediated genetic transformation is a widely applied tool in plant biotechnology. In this process, genes of interest are integrated into plant genomes via T-DNAs present on plasmids in Agrobacteria. Classical and standard methods for screening transformants, such as Southern blot, are inconvenient for most woodland plants because of extremely low transformation efficiency. For the purpose of identifying transgenic woody lines at early selection stages, a right-border T-DNA/plant conjunction sequence analysis was carried out. By analyzing these sequences, 15 out of 17 kanamycin-resistant kumquats were found to be integrated with foreign genes, and two or more copies were present in 33.3% of the transgenic lines, which is completely concordant with Southern blots. Moreover, T-DNA integration into plant nuclear DNA was random without any sequence hotspots, and cleavage sites are any base of the sequence ‘TGAC’. These results showed that this screening method could not only detect resistant woodland plants rapidly at the early selection stage, but unequivocally detect copy numbers. Compared with other screening technique, this method could save time and effort for conducting genetic transformation in woody plants, and also provides accurate integration information for transgenic plants.     

红系特异的GFP基因在转基因小鼠中的整合和表达

应用荧光定量PCR技术对由位点控制区LCR的HS2元件和 β 珠蛋白基因启动子指导的红系特异表达绿色荧光蛋白 (GFP)基因的转基因小鼠中外源基因拷贝数进行测定 ,使用荧光显微镜和流式细胞仪检测小鼠外周血中GFP的表达水平 ,并运用荧光原位杂交技术 (FISH)确定了其中两只转基因小鼠中外源基因的整合位点 ,结果表明 :在转基因小鼠中外源基因的拷贝数各不相同且相差较大 ,而且拷贝数与GFP基因的表达量之间未呈现出相关性 ;FISH分析确定出两只转基因小鼠的外源基因整合于不同的染色体上 ;杂交信号的强弱与拷贝数的多少相一致     

人乳铁蛋白 (hLF) 转基因山羊的遗传背景分析

以随机整合方式获得的转基因动物外源基因的拷贝数、整合位点及染色体核型等遗传背景并不清楚,可能会存在外源基因的沉默整合、无效整合、毒性整合以及其表达水平不可预测等问题。文中选取了6只原代(F0)及其相对应的子一代(F1)的人乳铁蛋白(hLF)转基因山羊作为研究对象,分别颈静脉采血、提取DNA,通过染色体核型分析、实时荧光定量PCR(qPCR)、ELISA和Westernblotting等检测技术,研究其外源基因的遗传背景与表达水平。结果显示,6只F0代转基因山羊的染色体没有明显的形态变异、数量改变等异常情况。相对拷贝数高低不同(2–16),且能够稳定地遗传给下一代,F0和F1代hLF基因拷贝数一致。F1代转基因山羊表达hLF水平最高可达1.12 g/L(L3-1,拷贝数8)。结果表明,整合的外源基因能够稳定地遗传下一代,也没有对转基因山羊个体的生长发育造成障碍,而且拷贝数高低与hLF表达水平无明显的相关性,这为转基因山羊及其他转基因动物的新品种培育奠定了基础,解析了遗传背景。     

Association of transgene integration sites with chromosome rearrangements in hexaploid oat

Transgene loci in 16 transgenic oat (Avena sativa L.) lines produced by microprojectile bombardment were characterized using phenotypic and genotypic segregation, Southern blot analysis, and fluorescence in situ hybridization (FISH). Twenty-five transgene loci were detected; 8 lines exhibited single transgene loci and 8 lines had 2 or 3 loci. Double FISH of the transgene and oat C- and A/D-genome-specific dispersed and clustered repeats showed no preferences in the distribution of transgene loci among the highly heterochromatic C genome and the A/D genomes of hexaploid oat, nor among chromosomes within the genomes. Transgene integration sites were detected at different locations along individual chromosomes, although the majority of transformants had transgenes integrated into subtelomeric and telomeric regions. Transgene integration sites exhibited different levels of structural complexity, ranging from simple integration structures of two apparently contiguous transgene copies to tightly linked clusters of multiple copies of transgenes interspersed with oat DNA. The size of the genomic interspersions observed in these transgene clusters was estimated from FISH results on prometaphase chromosomes to be megabases long, indicating that some transgene loci were significantly larger than previously determined by Southern blot analysis. Overall, 6 of the 25 transgene loci were associated with rearranged chromosomes. These results suggest that particle bombardment-mediated transgene integration may result from and cause chromosomal breakage and rearrangements. Received: 29 July 1999 / Accepted: 9 November 1999     

Overexpression and secretion of cellulolytic enzymes by δ-sequence-mediated multicopy integration of heterologous DNA sequences into the chromosomes of Saccharomyces cerevisiae

Saccharomyces cerevisiae transformants which secrete high levels of cellulolytic enzymes, with chromosome-integrated multicopies of heterologous DNA sequences encoding the cellulolytic enzymes were constructed. An expression construct of β-glucosidase and carboxymethyl cellulase directed by the GAP promoter was integrated into the chromosomes of the haploid S. cerevisiae using the δ sequence-mediated integration system. Southern blot analysis of the chromosomes prepared from various integrants and separated by pulse-field gel electrophoresis demonstrated that the integration occurred mainly in a particular chromosome and the copy number of the integration was variable. The amount of enzymes secreted by the transformants correlated with the copy number of integration. For each enzyme, the highest activity was about 1.4-fold that produced by the transformant harboring the same expression cassette on a YEp-type plasmid. The δ-integrated exogenous DNA was mitotically stable in rich medium. A haploid double transformant which coexpresses and secretes β-glucosidase and carboxymethyl cellulase was further constructed by genetic crossing of the haploid transformant that produces a high level of the enzyme, followed by meiotic segregation of the resulting diploid strain. The haploid double transformant, but neither of the single transformant, could grow on a plate containing carboxymethyl cellulose as a sole carbon source. It is suggested that the δ-sequence-mediated integration system is a very useful means for the genetic engineering of yeast, especially when overproduction and secretion of multiple heterologous enzymes are desired.     

Genetic approaches for studying transgene inheritance and genetic recombination in three successive generations of transformed tobacco

Transgene integration into plant genomes is a complex process accompanied by molecular rearrangements. Classic methods that are normally used to study transgenic population genetics are generally inadequate for assessing such integration. Two major characteristics of transgenic populations are that a transgenic genome may harbor many copies of the transgene and that molecular rearrangements can create an unstable transgenic locus. In this work, we examined the segregation of T1, T2 and T3 transgenic tobacco progenies. Since transfer DNA (T-DNA) contains the NptII selectable marker gene that confers resistance to kanamycin, we used this characteristic in developing a method to estimate the number of functional inserts integrated into the genome. This approach was based on calculation of the theoretical segregation ratios in successive generations. Mendelian ratios of 3:1, 15:1 and 63:1 were confirmed for five transformation events whereas six transformation events yielded non-segregating progenies, a finding that raised questions about causal factors. A second approach based on a maximum likelihood method was performed to estimate recombination frequencies between linked inserts. Recombination estimates varied among transformation events and over generations. Some transgenic loci were unstable and evolved continuously to segregate independently in the T3 generation. Recombination and amplification of the transgene and filler DNA yielded additional transformed genotypes.     

Transgene integration and organization in Cotton (Gossypium hirsutum L.) genome

While genetically modified upland cotton (Gossypium hirsutum L.) varieties are ranked among the most successful genetically modified organisms (GMO), there is little knowledge on transgene integration in the cotton genome, partly because of the difficulty in obtaining large numbers of transgenic plants. In this study, we analyzed 139 independently derived T0 transgenic cotton plants transformed by Agrobacterium tumefaciens strain AGL1 carrying a binary plasmid pPZP-GFP. It was found by PCR that as many as 31% of the plants had integration of vector backbone sequences. Of the 110 plants with good genomic Southern blot results, 37% had integration of a single T-DNA, 24% had two T-DNA copies and 39% had three or more copies. Multiple copies of the T-DNA existed either as repeats in complex loci or unlinked loci. Our further analysis of two T1 populations showed that segregants with a single T-DNA and no vector sequence could be obtained from T0 plants having multiple T-DNA copies and vector sequence. Out of the 57 T-DNA/T-DNA junctions cloned from complex loci, 27 had canonical T-DNA tandem repeats, the rest (30) had deletions to T-DNAs or had inclusion of vector sequences. Overlapping micro-homology was present for most of the T-DNA/T-DNA junctions (38/57). Right border (RB) ends of the T-DNA were precise while most left border (LB) ends (64%) had truncations to internal border sequences. Sequencing of collinear vector integration outside LB in 33 plants gave evidence that collinear vector sequence was determined in agrobacterium culture. Among the 130 plants with characterized flanking sequences, 12% had the transgene integrated into coding sequences, 12% into repetitive sequences, 7% into rDNAs. Interestingly, 7% had the transgene integrated into chloroplast derived sequences. Nucleotide sequence comparison of target sites in cotton genome before and after T-DNA integration revealed overlapping microhomology between target sites and the T-DNA (8/8), deletions to cotton genome in most cases studied (7/8) and some also had filler sequences (3/8). This information on T-DNA integration in cotton will facilitate functional genomic studies and further crop improvement.     

A simple,rapid and systematic method for the developed GM rice analysis

We generated 383 independent transgenic lines that contained the PsGPD (Glyceraldehyde-3-Phosphate Dehydrogenase), ArCspA (Cold Shock Protein), BrTSR15 (Triple Stress Resistance 15) and BrTSR53 (Triple Stress Resistance 53) genes under the control of a constitutive (CaMV 35S) promoter to generate genetically modified (GM) rice. TaqMan copy number assay was performed to determine the copy numbers of inserted T-DNA. Flanking sequence tags (FSTs) were isolated from 203 single copy T-DNA lines of transgenic plants, and their sequences were mapped to the rice chromosomes. Of the 157 flanking sequence tags that were isolated from single copy lines, transgenes were found to be integrated into genic regions in 58 lines (36 %), whereas 97 lines (62 %) contained transgene insertions in intergenic regions. Approximately 27 putative homozygous lines were obtained through multi-generations of planting, resistance screening and TaqMan copy number assays. To investigate the transgene expression patterns, quantitative real-time PCR analysis was performed using total RNA from leaf tissue of homozygous T1 plants with a single copy and an intergenic insertion of T-DNA. The mRNA expression levels of the examined transgenic rice were significantly increased in all transgenic plants. In addition, myc-tagged 35S:BrTSR15 and 35S:BrTSR53 transgenic plants displayed higher levels of transgene protein. Using numerical data for the mass production of transgenic plants can reduce the time required to obtain a genetically modified plant. Moreover, the duration, cost, and efforts required for transformation can be deliberately predicted. These results may be useful for the large-scale production of transgenic plants or T-DNA inserted rice mutants.     

Characterization of the ICSI-mediated gene transfer method in the production of transgenic pigs

Understanding the behavior of transgenes introduced into oocytes or embryos is essential for evaluating the methodologies for transgenic animal production. We investigated the expression pattern of a transgene transferred to porcine eggs by intracytoplasmic sperm injection‐mediated gene transfer (ICSI‐MGT) or pronuclear microinjection (PN injection). The introduction of the EGFP gene by ICSI‐MGT yielded significantly more embryos with non‐mosaic transgene expression (P < 0.01). In the ICSI‐MGT group, 61.5% (24/39) of the embryos were EGFP‐positive in all their component blastomeres at the morula stage, while fewer than 10% of such embryos were EGFP‐positive in the PN‐injection group. Using three types of transgenes, ranging from 3.0 to 7.5 kb in size, we confirmed that approximately one in four fetuses obtained by ICSI‐MGT was transgenic, suggesting that ICSI‐MGT is a practical method for transgenic pig production. Southern blot analysis of 12 transgenic fetuses produced by ICSI‐MGT revealed that the number of integrated transgene copies varied from 1 to 300, with no correlation between transgene size and the number of integrated copies. Fluorescence in situ hybridization analysis revealed that the transgenes were randomly integrated into a single site on the host chromosomes. Together, these data indicate that multiple‐copy, single‐site integration of a transgene is the primary outcome of ICSI‐MGT in the pig and that ICSI‐MGT is less likely than PN injection to cause transgene integration in a mosaic manner. Mol. Reprod. Dev. 79: 218–228, 2012. © 2011 Wiley Periodicals, Inc.     

Label-free amperometric immunosensor for the detection of human serum chorionic gonadotropin based on nanoporous gold and graphene

Identifying a good transgenic event from the pool of putative transgenics is crucial for further characterization. In transgenic plants, the transgene can integrate in either single or multiple locations by disrupting the endogenes and/or in heterochromatin regions causing the positional effect. Apart from this, to protect the unauthorized use of transgenic plants, the signature of transgene integration for every commercial transgenic event needs to be characterized. Here we show an affinity-based genome walking method, named locus-finding (LF) PCR (polymerase chain reaction), to determine the transgene flanking sequences of rice plants transformed by Agrobacterium tumefaciens. LF PCR includes a primary PCR by a degenerated primer and transfer DNA (T-DNA)-specific primer, a nested PCR, and a method of enriching the desired amplicons by using a biotin-tagged primer that is complementary to the T-DNA. This enrichment technique separates the single strands of desired amplicons from the off-target amplicons, reducing the template complexity by several orders of magnitude. We analyzed eight transgenic rice plants and found the transgene integration loci in three different chromosomes. The characteristic illegitimate recombination of the Agrobacterium sp. was also observed from the sequenced integration loci. We believe that the LF PCR should be an indispensable technique in transgenic analysis.     

利用Inverse PCR快速筛选单个T—DNA拷贝转基因水稻植株的方法

In order to obtain single T-DNA copy transgenic rice, we have established a quick method to estimate the T-DNA copy number in transgenic rice using inverse PCR (IPCR). IPCR was used to amplify junction fragments, i.e. plant genomic DNA sequences flanking the known T-DNA sequences, which will help to estimate the T-DNA copy number in transgenic rice. We have analyzed 20 transgenic plants of 15 transgenic lines. Most plants (12) contain one integrated T-DNA copy per genome, 3 plants contain two and 1 plant contains 3 copies. In 4 transgenic plants no T-DNA copies could be detected using this method. The IPCR results were further tested by Southern analysis and sequence analysis.     

A comparison of transgenic barley lines produced by particle bombardment and Agrobacterium-mediated techniques

Two barley transformation systems, Agrobacterium-mediated and particle bombardment, were compared in terms of transformation efficiency, transgene copy number, expression, inheritance and physical structure of the transgenic loci using fluorescence in situ hybridisation (FISH). The efficiency of Agrobacterium-mediated transformation was double that obtained with particle bombardment. While 100% of the Agrobacterium-derived lines integrated between one and three copies of the transgene, 60% of the transgenic lines derived by particle bombardment integrated more than eight copies of the transgene. In most of the Agrobacterium-derived lines, the integrated T-DNA was stable and inherited as a simple Mendelian trait. Transgene silencing was frequently observed in the T₁ populations of the bombardment-derived lines. The FISH technique was able to reveal additional details of the transgene integration site. For the efficient production of transgenic barley plants, with stable transgene expression and reduced silencing, the Agrobacterium-mediated method appears to offer significant advantages over particle bombardment.     

植物转基因整合座位的结构

通过农杆菌和直接DNA转移技术所获得的转基因植株都具有复杂的转基因座位, 转基因整合染色体和染色体区段是随机的, 但组织培养的选择作用表现为非随机性, 偏向整合于染色体的基因富集区。转基因座位除少数含有完整的单拷贝转基因之外, 大多数转基因座位中外源转基因片段、基因组片段和填充DNA相间而存在。转基因座位中转基因及基因组DNA片段产生缺失、重复和染色体的重排, 转基因的完整性对转基因表达具有重要作用。