Real-time quantitative PCR-based system for determining transgene copy number in transgenic animals

In this paper, we describe a rapid and accurate real-time quantitative PCR-based system to determine transgene copy number in transgenic animals. We used the 2(-deltadeltaCt) method to analyze different transgenic lines without the requirement of a control sample previously determined by Southern blot analysis. To determine the transgene copy number in several mouse lines carrying a goat beta-Lactoglobulin transgene, we developed a TaqMan assay in which a goat genomic DNA sample was used as a calibrator. Moreover, we used the glucagon gene as a reference control because this gene is highly conserved between species and amplifies with the same efficiency and sensitivity in goat as in mouse. With this assay, we provide an alternative simple method to determine the transgene copy number, avoiding the traditional and tedious blotting techniques. The assay's discrimination ability from our results is of at least six copies and, similar to the limitations of the blotting techniques, the accuracy of the quantification diminishes when the transgene copy number is high.     

Transgene copy number can be positively or negatively associated with transgene expression

Two different types of T-DNA insert were found in tobacco plants transformed with Agrobacterium tumefaciens. High-expressing (H) types had one copy of the T-DNA at a locus and produced high expression of the transgene uidA, as measured by uidA RNA levels and -glucuronidase activity; low-expressing (L) types had inverted repeats of the T-DNA at a locus and produced low uidA expression. H-types from different transformants acted additively, and cross-fertilization between two different homozygous transformants with H-type inserts produced F₁ plants with GUS activity that equalled the parents and individual F₂ plants with 50%, 100%, 150% and 200% of parental values. However, the L-type inserts worked in trans to suppress uidA expression from H-type inserts when both were present in the same genome. Hence when a transformant homozygous for the L-type insert was crossed to one homozygous for the H-type, all plants in the F₁ and F₂ generations with both types of insert had low GUS activity while F₂ segregants that only had the H-type inserts had high GUS activity again. Suppression of the H-type gene was associated with increased methylation of the insert. Particle acceleration was used to introduce further copies of uidA into tissues of the transformants. Regardless of the promoter used, those plants with endogenous L-type inserts showed none of the distinct loci of GUS activity readily visible in material with no inserts, showing that L-type inserts could suppress not only the uidA expression of genomic homologues, but also of copies added in vitro.     

Cross-contamination with tamoxifen induces transgene expression in non-exposed inducible transgenic mice

Inducible transgenic mouse models that impose a constraint on both temporal and spatial expression of a given transgene are invaluable. These animals facilitate experiments that can address the role of a specific cell or group of cells within an animal or in a particular window of time. A common approach to achieve inducibility involves the site-specific recombinase 'Cre', which is linked to a modified version of one of various steroid hormone-binding domains. Thus, the expression of Cre is regulated such that a functional nuclear transgene product can only be generated with the addition of an exogenous ligand. However, critical requirements of this system are that the nuclear localization of the transgene product be tightly regulated, that the dosage of the inducing agent remains consistent among experimental animals and that the transgene cassette cannot express in the absence of the inducing agent. We used the Cre ER(T2) cassette, which is regulated by the addition of the estrogen antagonist tamoxifen to determine whether cross-contamination of tamoxifen between animals housed together can be a significant source of spurious results. We found that cross-contamination of exogenous tamoxifen does occur. It occurred in all animals tested. We suggest that the mechanism of contamination is through exposure to tamoxifen in the general environment and/or to coprophagous behavior. These results have important implications for the interpretation and design of experiments that use 'inducible' transgenic animals.     

Inducible control of tissue-specific transgene expression in Xenopus tropicalis transgenic lines

Analysis of gene function in vertebrates is facilitated by gain-of-function studies, such as injection of synthetic mRNA in amphibian embryos. This approach is hampered by lack of spatial and temporal control of expression of the introduced gene product. An additional level of control is obtained by nuclear-transfer-mediated transgenesis, but functional analyses are complicated by variability and background abnormalities in primary transgenic embryos. The GAL4/UAS system permits establishment of stable lines and elimination of nuclear-transfer-associated abnormalities, through generation of separate UAS-'effector' and GAL4 'transactivator' transgenic lines. When the GAL4 DNA-binding domain is combined with a steroid hormone ligand-binding domain, this system allows full temporal regulation of transgene expression by introduction of an exogenous steroid analogue, the progesterone antagonist RU486. We show here that by crossing stable Xenopus tropicalis transgenic lines, one bearing a UAS-enhanced cyan fluorescent protein (ECFP) reporter construct, and the other with a GAL4-progesterone receptor fusion driven by a retina-specific promoter, reporter expression in the resulting embryos can be induced with RU486 in a tissue-specific manner. These results suggest that the inducible binary system, in which the target gene expression can be controlled in a stage- and tissue-specific pattern, should be readily applicable for gene function studies at all stages of development.     

Tissue-specific and expression of porcine growth hormone gene in BAC transgenic mice

One of the primary goals of traditional livestock breeding is to improve growth rate and optimise body size. Growth rate can be significantly increased by integrating a growth hormone (GH) transgene under the control of a ubiquitous promoter, but while such animals do demonstrate increased growth there are also serious deleterious side-effects to the animals health. Here we report the generation and initial characterization of transgenic mice that carried a porcine BAC encoding the porcine GH gene. We show that GH expression is restricted specifically to the pituitary, is associated with elevated IGF-1 levels, and results in growth enhancement. No negative effects to the health of the transgenic animals were detected. This initial characterisation supports the use of BAC pGH transgene in livestock studies.     

Stable lines of transgenic zebrafish exhibit reproducible patterns of transgene expression

To study the frequency of germ-line transformation and to examine the reproducibility of tissue-specific transgene expression, we produced several lines of transgenic zebrafish expressing a recombinant chloramphenicol acetyltransferase (CAT) gene. Supercoiled plasmids containing both Rous sarcoma virus and SV-40 promoter sequences upstream of the CAT coding region were injected into zebrafish embryos prior to first cleavage. CAT activity could be detected in batches of injected embryos as early as 8 h and up to at least 12 days post-fertilization. Approximately 18% of injected fish raised to maturity exhibited CAT activity in their fins, and approximately 5% of injected fish became stable germ-line transformants. Breeding studies indicated that although transgenic founder fish were frequently germ-line mosaics, transgenic individuals of subsequent generations were fully hemizygous for the transgene marker. The transgenes present in the F1 progeny of four independent lines were relatively well expressed in fin and skin, while lower levels of expression were observed in heart, gill and muscle. Little or no CAT expression was observed in the brain, liver and gonad. A monoclonal antibody directed against the CAT gene product consistently revealed variegated patterns of CAT expression in ectodermally derived fin epidermal cells in three of these lines. These results show that it is possible to efficiently produce stable germ-line transformants of the zebrafish and to observe reproducible tissue-specific patterns of transgene expression in this organism. Possible mechanisms for the variegated expression observed within tissues are also considered.     

Relative transgene expression frequencies in homozygous versus hemizygous transgenic mice

We have used a simple binomial model of stochastic transgene inactivation at the level of the chromosome or transgene, rather than the cellular level, for the analysis of two mouse transgenic lines that show variegated patterns of expression. This predicts the percentages of cells that express one, both or neither alleles of the transgene in homozygotes from the observed percentages of cells, which express the transgene in hemizygotes. It adequately explained the relationship between the numbers of cells expressing the transgene in hemizygous and homozygous mosaic 21OH/LacZ mouse adrenals and mosaic BLG/7 mouse mammary glands. The binomial model also predicted that a small proportion of cells in mosaic mammary glands of BLG/7 homozygotes would express both BLG/7 alleles but published data indicated that all cells expressing the transgene showed monoallelic expression. Although it didn’t fit all of the BLG/7 data as precisely as a more complex model, which used several ad hoc assumptions to explain these results, the simple binomial model was able to explain the relationship in observed transgene expression frequencies between hemizygous and homozygous mosaic tissues for both 21OH/LacZ and BLG/7 mice. It may prove to be a useful general model for analysing other transgenic animals showing mosaic transgene expression.     

Rapid PCR-based determination of transgene copy number in rice

We present a simple, rapid, and low-cost method to determine transgene copy number in rice. More than 100 first- and second-generation transgenic rice plants were tested. The plasmid (pRCopy) used for rice transformation contains the specific gene of interest and a partially deleted cytochrome c gene (cyc), a single-copy gene in rice. A 132-bp segment of the cloned ricecyc was shortened to 108 bp by deleting a 24-bp internal fragment. After PCR amplification of the genomic DNA from transgenic rice harboring pRCopy, the 2 expected bands were found. The 121-bp band corresponds to the endogenouscyc; the 97-bp band comes from the integrated pRCopy. Clear distinctions can be made between single and multiple copies of the transgene by comparing band densities.     

Autism spectrum disorder model mice: Focus on copy number variation and epigenetics

Autism spectrum disorder(ASD) is gathering concerns in socially developed countries. ASD is a neuropsychiatric disorder of genetic origin with high prevalence of 1%–2%. The patients with ASD characteristically show impaired social skills. Today, many genetic studies identify numerous susceptible genes and genetic loci associated with ASD. Although some genetic factors can lead to abnormal brain function linked to ASD phenotypes, the pathogenic mechanism of ASD is still unclear. Here, we discuss a new mouse model for ASD as an advanced tool to understand the mechanism of ASD.     

Altered expression after expansion of a v-erbA transgene in transgenic mice

Repetitive DNA is known to undergo size variations based on an increase or decrease in the number of monomer units. We describe here the spontaneous expansion of an experimentally introduced tandem array of repeats in a transgenic mouse consisting of the human -actin promoter fused to the viral oncogene v-erbA and an SV40 polyadenylation signal (hAP/v-erbA). The expansion of the transgene was identified during routine screening of transgenic offspring for heterozygosity or homozygosity in one founder line. The control heterozygote genome consisted of the hAP/v-erbA transgene organized as a tandem array approximately five monomer units at a single chromosomal locus. The number of units increased to 20–21 copies, and germline transmission of the expanded units was stable for at least two generations. The majority of animals carrying the expanded monomer units retained their RNA expression patterns; however, some of these animals had drastically reduced expression levels. We discuss the possibility that expansion of repeated units may provide a mechanism by which the expression of a deleterious transgene is reduced.     

SCNVSim: somatic copy number variation and structure variation simulator

Background

Somatically acquired structure variations (SVs) and copy number variations (CNVs) can induce genetic changes that are directly related to tumor genesis. Somatic SV/CNV detection using next-generation sequencing (NGS) data still faces major challenges introduced by tumor sample characteristics, such as ploidy, heterogeneity, and purity. A simulated cancer genome with known SVs and CNVs can serve as a benchmark for evaluating the performance of existing somatic SV/CNV detection tools and developing new methods.

Results

SCNVSim is a tool for simulating somatic CNVs and structure variations SVs. Other than multiple types of SV and CNV events, the tool is capable of simulating important features related to tumor samples including aneuploidy, heterogeneity and purity.

Conclusions

SCNVSim generates the genomes of a cancer cell population with detailed information of copy number status, loss of heterozygosity (LOH), and event break points, which is essential for developing and evaluating somatic CNV and SV detection methods in cancer genomics studies.     

Defining the expression pattern of the LGI1 gene in BAC transgenic mice

The LGI1 gene has been implicated in the development of epilepsy and the invasion phenotype of glial cells. Controversy over the specific tissue expression pattern of this gene has stemmed from conflicting reports generated using immunohistochemistry and the polymerase chain reaction. LGI1 is one of a four-member family of secreted proteins with high homology and here we demonstrate, using GFP-tagged constructs from the four LGI1family members, that commonly used antibodies against LGI1 cross-react with different family members. With the uncertainty surrounding the use of commercially available antibodies to truly establish the expression pattern of LGI1, we generated transgenic mice carrying the LGI1-containing BAC, RP23-127G7, which had been modified to express the GFP reporter gene under the control of the endogenous regulatory elements required for LGI1 expression. Three founder mice were generated, and immunohistochemistry was used to determine the tissue-specific pattern of expression. In the brain, distinct regions of glial and neuronal cell expression were identified, as well as the choriod plexus, which is largely pia-derived. In addition, strong expression levels were identified in glandular regions of the prostate, individual tubules in the kidney, sympathetic ganglia in the kidney, sebaceous glands in the skin, the islets of Langerhans, the endometrium, and the ovary and testes. All other major organs analyzed were negative. The pattern of reporter gene expression was identical in three individual founder mice, arguing against a position effect altering expression profile due to the integration site of the BAC.     

Implications of copy number variation in people with chromosomal abnormalities: potential for greater variation in copy number state may contribute to variability of phenotype

Copy number variation is common in the human genome with many regions, overlapping thousands of genes, now known to be deleted or amplified. Aneuploidies and other forms of chromosomal imbalance have a wide range of adverse phenotypes and are a common cause of birth defects resulting in significant morbidity and mortality. “Normal” copy number variants (CNVs) embedded within the regions of chromosome imbalance may affect the clinical outcomes by altering the local copy number of important genes or regulatory regions: this could alleviate or exacerbate certain phenotypes. In this way CNVs may contribute to the clinical variability seen in many disorders caused by chromosomal abnormalities, such as the congenital heart defects (CHD) seen in ~40% of Down’s syndrome (DS) patients. Investigation of CNVs may therefore help to pinpoint critical genes or regulatory elements, elucidating the molecular mechanisms underlying these conditions, also shedding light on the aetiology of such phenotypes in people without major chromosome imbalances, and ultimately leading to their improved detection and treatment.     

Retrotransposon distribution and copy number variation in gymnosperm genomes

Retrotransposable elements (REs) and related sequences form a large proportion of conifer genomes. During genome evolution, some RE sequences are degraded or eliminated, but some are evolutionarily stable, and can be identified even in distantly related species. Use of genome sequence information from loblolly pine (Pinus taeda) enables investigation of divergent non-coding RE sequences in other pine and conifer species, including Scots pine (Pinus sylvestris). Non-specific inter-retrotransposon amplified polymorphism technique (IRAP) as well as the amplification polymorphism of 12 RE families were investigated in 80 gymnosperm species. The obtained results were compared with phylogenetic relationships among gymnosperms. Investigation of distantly related gymnosperm species reveals persistent RE sequences, such as IFG and Pineywoods, distributed among a wide range of plant lineages. RE sequence divergence was observed, reflecting periods of inactivity and degradation during speciation of pine lineages, as demonstrated by the delineation of the main pine subgenera. Intraspecific variation of 10 RE copy numbers (CN) between Scots pine individuals ranged from 8.9 to 26.6% of the overall mean estimates. CN analyses were performed in 16 additional gymnosperm species. The analysed pine species contained a similar complement of RE families; however, CN and genome occupation proportions differ. A decrease in RE CN estimates can reflect sequence divergence, associated with independent transposition events. Transposition of some REs can be induced by stress conditions; therefore, even distantly related species inhabiting extreme environments could have similar patterns or distribution of these elements.     

High-throughput assessment of transgene copy number in sugarcane using real-time quantitative PCR

Accurate and timely detection of transgene copy number in sugarcane is currently hampered by the requirement to use Southern blotting, needing relatively large amounts of genomic DNA and, therefore, the continued growth and maintenance of bulky plants in containment glasshouses. In addition, the sugarcane genome is both polyploid and aneuploid, complicating the identification of appropriate genes for use as references in the development of a high-throughput method. Using bioinformatic techniques followed by in vitro testing, two genes that appear to occur once per base genome of sugarcane were identified. Using these genes as reference genes, a high-throughput assay employing RT-qPCR was developed and tested using a group of sugarcane plants that contained unknown numbers of copies of the nptII gene encoding kanamycin resistance. Using this assay, transgene copy numbers from 3 to more than 50 were identified. In comparison, Southern blotting accurately identified the number of transgene copies for one line and by inference for another, but was not able to provide an accurate estimation for transgenic lines containing numerous copies of the nptII gene. Using the reference genes identified in this study, a high-throughput assay for the determination of transgene copy number was developed and tested for sugarcane. This method requires much less input DNA, can be performed much earlier in the production of transgenic sugarcane plants and allows much more efficient assessment of numerous potentially transgenic lines than Southern blotting.     

外源基因在转基因动物中遗传和表达的稳定性

转基因技术经过近半个世纪的发展,已成为当今生物技术研究的热点。近10多年来,与核移植技术的结合,转基因效率大大提高,携带有不同外源基因的不同种类的转基因动物迅速增加。但是,成功获得转基因动物并不是转基因动物研究的最终目的,如何利用转基因技术为人类的需求服务才是科研人员始终面对的课题。在畜牧生产领域,通过转基因技术培育家畜新品种是转基因技术应用的重要体现,在我国这方面已经引起了广泛关注。但迄今为止,外源基因在转基因动物中遗传和表达的稳定性仍然是亟待解决的问题,究其原因,这主要与位置效应、外源基因的表观遗传学修饰和遗传效率相关,文章结合目前的研究进展和本实验室的研究结果,从这3方面阐述其作用机制,期望为转基因动物遗传育种向产业化的迈进提供一定的理论探讨。     

Comprehensive DNA copy number profile and BAC library construction of an Indian individual

Bacterial artificial chromosomes (BACs) are used in genomic variation studies due to their capacity to carry a large insert, their high clonal stability, low rate of chimerism and ease of manipulation. In the present study, an attempt was made to create the first genomic BAC library of an anonymous Indian male (IMBL4) consisting of 100,224 clones covering the human genome more than three times. Restriction mapping of 255 BAC clones by pulse field gel electrophoresis confirmed an average insert size of 120 kb. The library was screened by PCR using SHANK3 (SH3 and multiple ankyrin repeat domains 3) and OLFM3 (olfactomedin 3) specific primers. A selection of clones was analyzed by fluorescent in situ hybridization (FISH) and sequencing. Fine mapping of copy number variable regions by array based comparative genomic hybridization identified 467 CNVRs in the IMBL4 genome. The IMBL4 BAC library represents the first cataloged Indian genome resource for applications in basic and clinical research.