Simple identification of transgenic Arabidopsis plants carrying a single copy of the integrated gene

Transgenic Arabidopsis thaliana plants carrying a single copy of integrated DNA can be identified by single-step genomic polymerase chain reaction. The reaction employs two sets of primer pairs with the same melting temperature that amplify the amplicons derived from the integrated T-DNA together with those from an endogenous single-copy gene as a reference. When the band intensity ratio is one, this means that the transgenic plants are carrying a single copy of the integrated gene per haploid.     

一种基于PCR技术鉴定单拷贝转基因烟草的方法

为了鉴定携带单拷贝外源基因的转基因烟草植株,以烟草核基因组上已知的单拷贝内源基因（RNR2）为内参,转基因烟草植株基因组DNA为模板,在同一PCR反应体系中扩增内源基因（RNR2）和外源目的基因（NPTⅡ）。反应产物在琼脂糖凝胶上电泳,获得了预期大小的两条特异性扩增条带。经ImageJ软件捕捉分析两条目的条带的灰度比,当T1代转基因烟草植株中外源基因与内源基因的扩增条带灰度比为1时,所检测植株即为单拷贝外源基因的转基因烟草植株。孟德尔经典遗传学方法证实了上述检测结果高度可信。     

Isolation of homozygous transgenicBrassica napus lines carrying a seed-specific chimeric 2S albumin gene and determination of linkage relationships

UsingAgrobacterium tumefaciens-mediated gene transfer, 14 T0Brassica napus plants carrying one of three chimeric 2S albumin seed protein genes were obtained after co-transformation with theneo gene. Plants were made homozygous using either cell haploid culture or, for single-copy plants, traditional crossing methods. Sixty-five percent of kanamycin-resistant plants contained at least one copy of the seed protein gene, and multiple copies were usually at a single locus. In the majority of cases, at least one copy of theneo gene was linked to an introduced 2S albumin gene, demonstrating that co-transformation is not a reliable way to obtain lines without the marker gene linked to the gene of interest. In 3 T0 plants sequences derived from beyond the left border of the vector were integrated in the plant genome, in two cases partially rearranged, confirming that T-DNA insertion is not always precise. Procedures for efficiently determining this are described. This work highlights the extra steps needed to prepare transgenic lines for field studies and potential further breeding.     

Reduced variation in transgene expression from a binary vector with selectable markers at the right and left T-DNA borders

A new binary vector for Agrobacterium-mediated plant transformation was constructed, in which two selectable markers, for kanamycin and hygromycin resistance, were placed next to the right and left T-DNA borders, respectively, and a CaMV 35S promoter-driven β-glucuronidase (GUS) gene was placed between these markers as a reporter gene (transgene). Using double antibiotic selection, all transgenic tobacco plants carrying at least one intact copy of the T-DNA expressed the transgene, and this population exhibited reduced variability in transgene expression as compared with that obtained from the parent vector pBI121. Absence of the intact transgene was the major reason for transgenic plants with little or no transgene expression. Integration of truncated T-DNAs was also observed among transgenic plants that expressed the transgene and carried multiple T-DNA inserts. The copy number of fully integrated T-DNAs was positively associated with transgene expression levels in R₀ plants and R₁ progeny populations. Variability due to position effect was determined among 17 plants carrying a single T-DNA insert. The coefficient of variability among these plants was only 35.5%, indicating a minor role for position effects in causing transgene variability. The new binary vector reported here can therefore be used to obtain transgenic populations with reduced variability in transgene expression.     

The Arabidopsis phytochrome B gene influences growth of the apple rootstock M26

 The apple rootstock M26 (Malus domestica) was infected with a binary vector system of Agrobacterium tumefaciens carrying the neomycin phosphotransferase II and Arabidopsis phyB genes. Thirteen transformed clones were obtained from 329 infected leaves. Five of the clones had a single copy integration, six clones had two copies, one clone had five copies and one of the clones had eight copies of the phyB gene integrated. No differences in rooting were found between transformed and untransformed plants. The stem length was reduced in nine of the 13 transgenic clones, and shoot, root and plant dry weights were reduced in all transformed clones compared with untransformed control plants. Northern analysis showed that the Arabidopsis phyB gene was expressed in the transformed clones. Received: 28 April 1999 / Revision received: 28 February 2000 / Accepted:29 February 2000     

Characterization of rice transformed via an Agrobacterium-mediated inflorescence approach

Rice inflorescences were inoculated with Agrobacterium tumefaciens strain LBA4404 carrying plasmid pJD4 with application of vacuum infiltration. After co-cultivation, callus was initiated and subjected to hygromycin selection, and plants were regenerated from resistant callus lines. Based on the total number of co-cultivated inflorescences bearing flowers 1 to 3 mm in length, the average frequency for recovering independent transgenic rice plants was at least 30%. Seeds from selfed R0 plants were harvested within 6 months after initiation of the experiments. Genomic DNA blot analysis showed that genes in the T-DNA of the binary plasmid were stably integrated into the rice genome, typically at low copy number. In most, but not all, cases the transgene was transmitted to R1 progeny at a frequency characteristic for Mendelian inheritance of a single dominant trait. For selfed progeny of one two-locus insertion line, reactivation of GUS expression was observed for a single copy locus that segregated from a silenced multicopy locus. For this line and some additional plants, fluorescence in situ hybridization was used to visualize the chromosomal location of the transgene insert.     

Efficient production of transgenic citrus plants expressing the coat protein gene of citrus tristeza virus

 The coat protein gene of citrus tristeza virus (CTV) has been introduced into Mexican lime (Citrus aurantifolia Swing.) plants by using an improved Agrobacterium-mediated genetic transformation system. Internodal stem segments from greenhouse-grown seedlings were co-cultivated with A. tumefaciens strain EHA 105 carrying the binary plasmid pBI 121/CTV-CP in a medium rich in auxins that provided the explant cells with the proper treatment to shift them to a competent state for transformation. The transformation frequency was enhanced, and this allowed us to recover 42 transgenic plants from 1200 explants. Regenerated shoots were identified as transformants by performing β-glucuronidase (GUS) assays and subsequently by PCR amplifications of the CTV-CP transgene. Southern analyses revealed that at least one copy of the CTV-CP gene was integrated in all PCR positive plants. Interestingly, 70% of them had linked T-DNAs arranged at one locus. Copy number of the CTV-CP gene varied from one to six among the transgenic lines. Half of them showed truncated T-DNAs in which the left border was lost. Expression of the CTV-CP transgene was demonstrated in 38 out of 42 plants by western analysis and DASI-ELISA. No correlation was found between coat protein expression and transgene copy number or integration pattern. Received: 7 April 1999 / Revision received: 17 June 1999 · Accepted: 24 June 1999     

High meiotic stability of a foreign gene introduced into tobacco by Agrobacterium-mediated transformation

Summary Two lines of transgenic Nicotiana tabacum transformed to kanamycin resistance by means of a binary Agrobacterium vector containing a nos-npt gene were investigated over three generations. Southern hybridization and crossing analyses revealed that a single copy of T-DNA had integrated in each line and that the kanamycin resistance was regularly transmitted to the progeny as a monogenic dominant trait. Homozygous transgenic plants were fully fertile, morphologically normal and did not significantly differ from wild-type plants in the quantitative characters examined (plant height, flowering time). The two lines showed very low, but significantly different levels of meiotic instability: kanamycin-sensitive plants occurred among backcross progeny from homozygous transgenic plants with frequencies of 6/45,000 and 25/45,000, respectively. The sensitive plants arose independently of each other and thus resulted from meiotic rather than mitotic events. These findings demonstrate for the first time that integrated foreign genes can be transmitted to progeny with the high degree of meiotic stability required for commercial varieties of crop plants. They emphasize the importance of non-homologous integration and of avoiding co-integration of inactive gene copies for achieving meiotically stable transformants.     

A Simple and Rapid PCR-based Procedure for Identifying Homozygous Transgenic Rice Plants

We present a simple and rapid method for screening second-generation transgenic rice plants (T₁) to identify homozygous plants. The plasmid (pfd11) used for rice transformation contains a partially deleted cytochrome c gene (cyc) for comparing with the endogenous cyc for copy number. After polymerase chain reaction (PCR) amplification of a segment of the cyc in transgenic rice DNA followed by agarose gel electrophoresis, two specific bands are obtained. The upper band represents the endogenous cyc, and the lower band represents the partially deleted cyc in the transgene. The first-generation plants (T₀) that harbor a single copy of the transgene are selected based on the fact that the density of the lower band is half as dense as the upper band. Next, only plants harboring a single copy of the transgene are advanced to the second generation (T₁). The same PCR procedure is used again, and homozygous T₁ plants are easily identified from samples in which the intensity of the two bands is the same.     

Transformation of the fungal maize pathogen Cochliobolus heterostrophus using the Aspergillus nidulans amdS gene

Summary Cochliobolus heterostrophus protoplasts transformed with a plasmid carrying the Aspergillus nidulans amdS gene (Hynes et al. 1983) gave rise to colonies on a selective medium that did not support significant growth of wild type cells. The plasmid integrated at a single chromosomal locus in each transformant analyzed and the site of integration differed among transformants. Some transformants had one copy of the plasmid, others had multiple copies tandemly arranged and oriented head-to-tail. Both single and multiple copies segregated meiotically as single genes and were mitotically stable on either selective or nonselective medium. The andS gene is advantageous for transformation of genetically undeveloped fungi because it is selectable in wild type cells in organisms that lack a functional amdS gene, thus eliminating the need for induced mutations in recipient strains. Moreover, there is no background due to reversion of a counter-selected mutant allele.     

Investigations of copy number of transgene,fertility and expression level of an introduced GUS gene in transgenic NERICA produced by <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated methods

In the use of genetic transformation in breeding, there are several possible problems including multiple copy insertion of transgene, sterility caused by somaclonal variation and gene silencing. In this study, we characterized transgenic New Rice for Africa (NERICA) produced by Agrobacterium-mediated methods with respect to copy number of transgene, fertility, and expression level of an introduced GUS gene. Southern blot analysis of primary transformants demonstrated that about half of the events carried a single copy of the transgene regardless of the cell density of Agrobacerium for inoculation. We examined ten procedures, consisting of different time periods and times of subculture for callus formation and the starting times of hygromycin-based selection of transformed cells, for transformation of NERICA cultivars to produce transformants within a short culture period at high frequency. A new culture method developed in this study required only about 1.5 mo from the beginning of tissue culture to transformants, whereas a standard protocol we developed previously needed about 2 mo of culture; however, it did not significantly reduce percentages of sterile plants. Fertile T₀ plants produced fertile T₁ plants at higher frequency. However, fertility was not inherited in a simple fashion: both fertile and partially sterile T₀ plants produced fertile, partially sterile and sterile T₁ plants. Expression assay of an introduced GUS gene revealed position effects in seven independent homozygous transformed lines carrying one copy of the transgene. Points to pay attention to in the use of genetic transformation in breeding are discussed.     

Molecular tagging of the tobacco chromosome carrying the TMV-resistance gene (N gene) by Agrobacterium-mediated transformation

Summary The hypersensitive response of tobacco to inoculation with tobacco mosaic virus (TMV) is controlled by a single dominant gene, the N gene. As a first step in localizing and transferring the N gene, we have prepared a line of tobacco plants in which the kanamycin-resistance (Km^r) gene is closely linked to the N gene. Nicotiana tabacum plants heterozygous for the N gene were transformed to Km^r by Agrobacterium carrying pMON200. Eighty-nine independent transformed clones were regenerated and were backcrossed with nontransformed, TMV-sensitive plants. Progeny from these crosses were screened first for Km^r; then the Km^r progeny were inoculated with TMV and scored for the hypersensitive response. Of the initial 89 clones, 68 appeared to have integrated a single functional Km^r gene. Initial tests for TMV resistance indicated possible linkage between Km^r and the N gene in 11 plants. With further testing, linkage has been established for two of these plant lines. In one of these lines, the two genes were 30–40 map units apart, and evidence of somatic instability in the linkage was obtained. However, in the second line, linkage between Km^r and the N gene was tight, and recombination between the genes in this case was only 5%. Southern hybridization revealed that this plant contained only a single copy of the Km^r gene. Linkage between Km^r and the N gene in this plant line has been verified in each of two additional backcross generations.Abbreviations nptII Neomycin phosphotransferase gene - Km^r kanamycin resistant - Km^s kanamycin sensitive - TMV tobacco mosaic virus - TMV-R TMV resistant - TMV-S TMV sensitive     

Effect of donor copy number on the rate of gene conversion in the yeast Saccharomyces cerevisiae

Summary Nonreciprocal recombination (gene conversion) between homologous sequences at nonhomologous locations in the genome occurs readily in the yeast Saccharomyces cerevisiae. In order to test whether the rate of gene conversion is dependent on the number of homologous copies available in the cell to act as donors of information, the level of conversion of a defined allele was measured in strains carrying plasmids containing homologous sequences. The level of recombination was elevated in a strain carrying multiple copies of the plasmid, compared with the same strain carrying a single copy of the homologous sequences either on a plasmid or integrated in the genome. Thus, the level of conversion is proportional to the number of copies of donor sequences present in the cell. We discuss these results within the framework of currently favoured models of recombination.     

Highly efficient integration of foreign DNA into the genome of the green sulfur bacterium,Chlorobium vibrioforme by homologous recombination

Highly efficient and reproducible transformation ofChlorobium vibrioforme with plasmid DNA has been achieved by electroporation. Specific parameters have been optimized for the electrotransformation procedure. The method was developed using a construct containing a full copy of thepscC gene encoding the cytochromec ₅₅₁ subunit of the photosynthetic reaction center complex and theaadA gene encoding streptomycin resistance as selectable marker. Southern blotting analysis showed that the tested colonies were true transformants with the plasmid integrated into the genome by single homologous recombination. No transformants were obtained using the vector without thepscC gene showing that this vector does not replicate inC. vibrioforme. Thus transformation is possible only by homologous recombination. When using constructs designed to inactivate thepscC gene by insertion no transformants were obtained, indicating that the gene is indispensable for growth. The vector pVS2 carrying genes for erythromycin and chloramphenicol resistance was shown to replicate inC. vibrioforme. The two transformations shown here, provide an important genetical tool in the further analysis of structure and function of the photosynthetic apparatus in green sulfur bacteria.     

Stability of β-glucuronidase gene expression in transgenic Tricyrtis hirta plants after two years of cultivation

Transgenic plants of Tricyrtis hirta carrying the intron-containing β-glucuronidase (GUS) gene under the control of the CaMV35S promoter have been cultivated for two years. Four independent transgenic plants produced flowers 1–2 years after acclimatization, and all of them contained one copy of the transgene as indicated by inverse polymerase chain reaction (PCR) analysis. All the four transgenic plants showed stable expression of the gus gene in leaves, stems, roots, tepals, stamens and pistils as indicated by histochemical and fluorometric GUS assays, although differences in the GUS activity were observed among different organs of each transgenic plant. No apparent gus gene silencing was observed in transgenic T. hirta plants even after two years of cultivation.     

Endogenous and environmental factors influence 35S promoter methylation of a maize A1 gene construct in transgenic petunia and its colour phenotype

Summary 30000 transgenic petunia plants carrying a single copy of the maize A1 gene, encoding a dihydroflavonol reductase, which confers a salmon red flower colour phenotype on the petunia plant, were grown in a field test. During the growing season plants with flowers deviating from this salmon red colour, such as those showing white or variegated phenotypes and plants with flowers exhibiting only weak pigmentation were observed with varying frequencies. While four white flowering plants were shown at the molecular level to be mutants in which part of the A1 gene had been deleted, other white flowering plants, as well as 13 representative plants tested out of a total of 57 variegated individuals were not mutants but rather showed hypermethylation of the 35S promoter directing A1 gene expression. This was in contrast to the homogeneous fully red flowering plants in which no methylation of the 35S promoter was observed. While blossoms on plants flowering early in the season were predominantly red, later flowers on the same plants showed weaker coloration. Once again the reduction of the A1-specific phenotype correlated with the methylation of the 35S promoter. This variation in coloration seems to be dependent not only on exogenous but also on endogenous factors such as the age of the parental plant from which the seed was derived or the time at which crosses were made.     

Effects of gene dosage and sequence modification on the frequency and timing of transposition of the maize element Activator (Ac) in tobacco

The effect of Ac copy number on the frequency and timing of germinal transposition in tobacco was investigated using the streptomycin phosphotransferase gene (SPT) as an excision marker. The activity of one and two copies of the element was compared by selecting heterozygous and homozygous progeny of transformants carrying single SPT::Ac inserts. It was observed that increasing gene copy not only increases the transposition frequency, but also occasionally alters the timing of transposition such that earlier events are obtained. The result is that some homozygous plants generate multiple streptomycin resistant progeny carrying the same transposed Ac (trAc) element. We have also investigated the effect of modification of the sequence in the region around 82 bp downstream of the polyadenylation site and 177 bp from the 3 end of the element on germinal excision frequencies. Alteration of three bases to create a BglII site at this location caused a minor decrease in germinal excision events, but insertion of four bases to create a Cla I site caused a 10-fold decrease in the transposition activity of the Ac element.     

A quick method to estimate the T-DNA copy number in transgenic plants at an early stage after transformation,using inverse PCR

Agrobacterium-mediated transformation of plants is known to result in transgenic plants with a variable number of integrated T-DNA copies [1, 2, 3, 7]. Our aim was to obtain transgenic tobacco plants containing one integrated T-DNA copy per genome. Therefore, a quick method was developed to estimate the T-DNA copy number of young transgenic plantlets within 10 weeks after transformation. Inverse polymerase chain reaction (IPCR) was used to amplify junction fragments, i.e. plant genomic DNA sequences flanking the known T-DNA sequences [5].     

Site-directed mutagenesis by biolistic transformation efficiently generates inheritable mutations in a targeted locus in soybean somatic embryos and transgene-free descendants in the T1 generation

The clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated endonuclease 9 (Cas9) system is being rapidly developed for mutagenesis in higher plants. Ideally, foreign DNA introduced by this system is removed in the breeding of edible crops and vegetables. Here, we report an efficient generation of Cas9-free mutants lacking an allergenic gene, Gly m Bd 30K, using biolistic transformation and the CRISPR/Cas9 system. Five transgenic embryo lines were selected on the basis of hygromycin resistance. Cleaved amplified polymorphic sequence analysis detected only two different mutations in e all of the lines. These results indicate that mutations were induced in the target gene immediately after the delivery of the exogenous gene into the embryo cells. Soybean plantlets (T₀ plants) were regenerated from two of the transgenic embryo lines. The segregation pattern of the Cas9 gene in the T₁ generation, which included Cas9-free plants, revealed that a single copy number of transgene was integrated in both lines. Immunoblot analysis demonstrated that no Gly m Bd 30K protein accumulated in the Cas9-free plants. Gene expression analysis indicated that nonsense mRNA decay might have occurred in mature mutant seeds. Due to the efficient induction of inheritable mutations and the low integrated transgene copy number in the T₀ plants, we could remove foreign DNA easily by genetic segregation in the T₁ generation. Our results demonstrate that biolistic transformation of soybean embryos is useful for CRISPR/Cas9-mediated site-directed mutagenesis of soybean for human consumption.