A transgene containing lacZ is expressed in primary sensory neurons in zebrafish.

In order to screen for developmentally active chromosomal domains during zebrafish embryogenesis, we generated transgenic fish by microinjecting two different lacZ reporter constructs into fertilized eggs. Transgenic fish were screened among the progeny of injected fish (F0) crossed to non-injected fish. Groups of 15 to 20 progeny of each cross were tested for lacZ expression and/or transmission of injected sequences using PCR and Southern hybridizations. Progeny from 2 of 102 fish injected with supercoiled constructs containing Rous sarcoma virus promoter sequences showed apparently spatially regulated beta-galactosidase (beta-Gal) activity. However, we were not able to detect this reporter construct in DNA from fins of F1 fish. Injections of a linear reporter construct containing mouse heat-shock promoter sequences revealed transmission of injected sequences to F1 progeny in about 6% of cases (8 of 129 fish, tested with PCR). We found one lacZ-expressing line that showed a spatially and temporally restricted expression of lacZ and, therefore, features typical characteristics of "enhancer trap" lines. In this line, lacZ expression starts at 16 hours post-fertilization in trigeminal ganglion cells. At about 24 hours lacZ expression can be detected in trigeminal ganglion neurons and Rohon-Beard neurons, indicating that the development of these two cell types shows common features. The reporter gene has integrated as a single copy. The founder fish was mosaic: 19% of its offspring (3 of 16 tested animals) carried the reporter construct in their fins; about 51% (13 of 27 tested animals) of the progeny of F1 fish were beta-Gal positive indicating full hemizygosity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Distinct chromatin organization in the germ line founder cell of the Caenorhabditis elegans embryo

Cells belonging to the germ lineage segregate physically and molecularly from their somatic neighbors during embryogenesis. While germ line‐specific chromatin modifications have been identified at later stages in the Caenorhabditis elegans nematode, none have been found in the single P₄ germ line founder cell that arises at the beginning of gastrulation. Using light and electron microscopy, we now report that the chromatin organization in the germ line founder cell of the early C. elegans embryo is distinct from that in the neighboring somatic cells. This unique organization is characterized by a greater chromatin compaction and an expansion of the interchromatin compartment. The ultrastructure of individual chromatin domains does not differ between germ line and somatic cells, pointing to a specific organization mainly at the level of the whole nucleus. We show that this higher order reorganization of chromatin is not a consequence of the P₄ nucleus being smaller than somatic nuclei or having initiated mitosis. Imaging of living embryos expressing fluorescent markers for both chromatin and P granules revealed that the appearance of a distinct chromatin organization in the P₄ cell occurs approximately 10 min after its birth and coincides with the aggregation of P granules around the nucleus, suggesting a possible link between these two events. The higher order reorganization of chromatin that is reported here occurs during the establishment of definitive germ cell identity. The changes we have observed could therefore be a prerequisite for the programming of chromatin totipotency.     

Selection for retroviral insertions into regulated genes.

Gene traps can be used to monitor faithfully the changes in gene expression accompanying several cellular processes. Here, we present a strategy that combines retroviral gene trap vectors, efficient selection schemes based on fluorescence-activated cell sorting or dominant positive and negative drug selection, and appropriately responsive cell lines in order to enrich for retroviral insertions into regulated genes (i.e., genes participating in cellular differentiation processes and genes induced by growth factors, drugs, or neurotransmitters, etc.). As an example, we applied this approach to the identification of insertions into genes activated by a MyoD protein, using a MyoD-responsive fibroblast line. In a single experiment designed to demonstrate the feasibility of this approach, we have been able to screen thousands of gene trap integrations and to select those that represent direct or indirect targets of MyoD. Distinct patterns of regulation were observed during myogenic determination. Sequences flanking the integrations can be rescued with several approaches, and they can be used to isolate the host genes or can serve as entry points for genome-wide sequencing projects.     

The use of recombinase mediated cassette exchange in retroviral vector producer cell lines: predictability and efficiency by transgene exchange

Currently, retroviral vector producer cell lines must be established for the production of each gene vector. This is done by transfection of a packaging cell line with the gene of interest. In order to find a high-titer retroviral vector producer clone, exhaustive clone screening is necessary, as the random integration of the transgene gives rise to different expression levels. We established a virus producing packaging cell line, the 293 FLEX, in which the viral vector is flanked by two different FRT sites and a selection trap. Using Flp recombinase mediated cassette exchange; this vector can be replaced by another compatible retroviral vector. The first step was the tagging of 293 cells with a lacZ reporter gene, which allowed screening and choosing a high expressing chromosomal locus. After checking that, a single copy of the construct was integrated, cassette exchangeability was confirmed with a reporter targeting construct. Subsequently gag-pol and GaLV envelope genes were stably transfected. The lacZ transgene was replaced by a GFP transgene and the 293 FLEX producer cell line maintained the titer, thus validating the flexibility and efficacy of this producer cell line. The tagged retroviral producer cell clone should constitute a highly advantageous cell line since it has a predictable titer and can be rapidly used for different therapeutic applications.     

Establishment and characterization of a testicular cell line from the half-smooth tongue sole, Cynoglossus semilaevis

Spermatogenesis within the adult testis is an excellent system for studying stem cell renewal and differentiation, which is under the control of testicular somatic cells. In order to understanding spermatogenesis in the half-smooth tongue sole (Cynoglossus semilaevis) as a marine fish model of aquaculture importance, we established a cell line called CSGC from a juvenile gonad of this organism. CSGC is composed of fibroblast-like cells, retains a diploid karyotype of 42 chromosomes, lacks the heterogametic W chromosome, lacks a female specific marker and expresses the dmrt, a marker for testicular somatic cells. Therefore, CSGC appears to consist of testicular somatic cell cells. We show that this cell line is effective for infection by the turbot reddish body iridovirus and flounder lymphocystis disease virus as evidenced by the appearance of cytopathic effect and virus propagation in the virus-infected cells, and most convincingly, the observation of viral particles by electon microscopy, demonstrateing that CSGC is suitable to study interactions between virus and host cells. As a first fish testicular somatic cell line of the ZZ-ZW genetic sex determination system, CSGC will be a useful tool to study sex-related events and interactions between somatic cells and germ cells during spermatogenesis.     

Immortalization of bovine germ line stem cells by c-myc and hTERT

The limited life span of bovine germ line stem cells in vitro is one of the obstacles to spermatogenesis analysis, genetic manipulation and generating transgenic animal. The aim of this study is to establish immortalized bovine germ line stem cells by c-myc or hTERT. We constructed pEMY and pETE expression vectors and transfected germ line cells from 5-month-old bovine. After G418 screening, four types of positive clones were obtained. The results showed that they expressed exogenous genes c-myc or hTERT at mRNA and protein level by RT-PCR and Western blotting detection. Presumable cell lines GM7, GT3, GMT5 all expressed germ-line-stem-cell-specific makers by immunocytochemical analysis, such as c-kit, Oct-4 and GFR-1. The putative cell lines also had higher capacity of proliferation than freshly isolated bovine spermatogonial stem cells. So we can conclude that exogenous genes c-myc or hTERT have integrated into the genome of bovine germ cells and upregulated the expression of telomerase.     

Multiple GUS expression patterns of a single Arabidopsis gene

Ten independent transposant lines with gene or enhancer traps (ET) inserted into the same gene (At2g01170) were identified in Arabidopsis thaliana . Transposon insertions were confirmed for each line. Only three of five ET lines and only one of the five gene trap (GT) lines displayed uidA (GUS) staining. The GUS (β-glucuronidase) expression patterns of the ET lines were different in all three lines. In the GT line, the GUS expression was restricted to the vascular tissue under all conditions examined. The variation in ET GUS expression suggests that each ET was controlled by different enhancer elements or the different elements of the trapped locus may give rise to different GUS expression patterns. Of five GT lines, three have the GUS gene in the same orientation as the At2g01170 open reading frame, yet only one yielded GUS staining. Regardless of the insertion construct, only those transposants with an insertion at the 3' end of the gene yielded GUS staining. Some transposants displayed a longer root phenotype in the presence of kanamycin that was also observed in 3' insertion sites in At2g01170. Taken together, these data show that insertions in the 5' end of the gene disrupted expression and emphasise the complexity encountered with ET and GT constructs to characterise the expression patterns of genes of interest based solely on GUS expression patterns.     

Targeted disruption of exogenous EGFP gene in medaka using zinc-finger nucleases

Zinc-finger nucleases (ZFNs) are artificial enzymes that create site-specific double-strand breaks and thereby induce targeted genome editing. Here, we demonstrated successful gene disruption in somatic and germ cells of medaka (Oryzias latipes) using ZFN to target exogenous EGFP genes. Embryos that were injected with an RNA sequence pair coding for ZFNs showed mosaic loss of green fluorescent protein fluorescence in skeletal muscle. A number of mutations that included both deletions and insertions were identified within the ZFN target site in each embryo, whereas no mutations were found at the non-targeted sites. In addition, ZFN-induced mutations were introduced in germ cells and efficiently transmitted to the next generation. The mutation frequency varied (6-100%) in the germ cells from each founder, and a founder carried more than two types of mutation in germ cells. Our results have introduced the possibility of targeted gene disruption and reverse genetics in medaka.     

The symbiotically essential cbb(3)-type oxidase of Bradyrhizobium japonicum is a proton pump

The male germ line stem cell is the only cell type in the adult that can contribute genes to the next generation and is characterized by postnatal proliferation. It has not been determined whether this cell population can be used to deliberately introduce genetic modification into the germ line to generate transgenic animals or whether human somatic cell gene therapy has the potential to accidentally introduce permanent genetic changes into a patient's germ line. Here we report that several techniques can be used to achieve both in vitro and in vivo gene transfer into mouse male germ line stem cells using a retroviral vector. Expression of a retrovirally delivered reporter lacZ transgene in male germ line stem cells and differentiated germ cells persisted in the testis for more than 6 months. At least one in 300 stem cells could be infected. The experiments demonstrate a system to introduce genes directly into the male germ line and also provide a method to address the potential of human somatic cell gene therapy DNA constructs to enter a patient's germ line.     

Overexpression a novel zebra fish spermatogenesis-associated gene 17 (<Emphasis Type="Italic">SPATA17</Emphasis>) induces apoptosis in GC-1 cells

The spermatogenesis-associated 17 gene (SPATA17, previously named MSRG-11) was reported to be a candidate spermatocyte apoptosis-related gene which may play a critical role in human spermatogenesis, especially in meiosis. Analysis of SPATA17 expression and regulation in zebra fish may provide insight into the understanding of the complicated process of gonadogenesis and its potential function in spermatocyte cell apoptosis. In this study, we cloned and characterized the SPATA17 gene from zebra fish which consists of nine exons separated by eight introns. The consensus open reading frame (1258 bp) encodes a polypeptide of 357 amino acids which shares 44% identity with the human SPATA17 gene. Bioinformatic analysis reveals that SPATA17 protein contains three short calmodulin-binding motifs (IQ motif) and is considered to play a critical role in interactions with CaM proteins. Multi-tissue RT-PCR and Northern blot results demonstrated that the zebra fish SPATA17 gene was expressed strongly in testis and a slight amount of expression in ovary. Flow cytometry analysis and genomic DNA ladders result showed that the expression of SPATA17 protein in the GC-1 cell line could accelerate cell apoptosis. Analysis of the SPATA17 sequence and its spatial expression pattern indicate that this gene is highly conserved and may play an important role in the process of zebra fish gonadogenesis.     

逆转录病毒表达系统及其在外源蛋白高效表达中的应用

逆转录病毒表达系统是一种新的重组蛋白高效表达系统,它由逆转录病毒载体,包膜蛋白载体和包装细胞系构成,在基因治疗和生物制药领域都有很大的应用潜力。逆转录病毒和宿主细胞基因组的重组倾向于发生在转录活性区;口炎疱疹病毒-G蛋白 (vesicular stomatitis virus G, VSV-G)能有效扩大逆转录病毒感染宿主细胞的范围、提高逆转录病毒的感染效率;用高滴度的重组病毒感染细胞,经过简单的筛选即可获得高表达细胞株。本文对逆转录病毒表达系统的组成、感染的特点和机制及其应用前景作了概述。     

Spontaneous germ line virus infection and retroviral insertional mutagenesis in eighteen transgenic Srev lines of mice.

SWR/J-RF/J hybrid mice spontaneously acquire new germ line ecotropic proviruses at high frequency. In the studies described here, we used these hybrids to produce 18 transgenic mouse lines, each carrying a single newly acquired Srev locus (SWR/J-RF/J ecotropic proviral locus). All of the newly acquired proviruses identified in mosaic founder SWR/J-RF/J mice that could be transmitted through the germ line were also present in somatic tissues, demonstrating that viral integration occurred before the germ line was set aside from the somatic lineages. Quantitative analysis of proviral DNA copy numbers in somatic and germinal tissues of mosaic founder parents combined with structural analysis of Srev loci indicated that these proviruses are acquired after multiple rounds of somatic viral reinfection and that most of these viral integration events occurred after DNA replication in the zygote and before DNA replication in the four-cell embryo. The frequency of provirus acquisition in Srev lines that expressed the infectious ecotropic virus was similar to that in SWR.RF mice carrying Emv-16 and Emv-17, suggesting that the chromosomal integration site of the parental locus is not an important determinant for high-frequency provirus acquisition. The frequency of recessive lethal mutations induced by spontaneous viral integration was 5%, which was similar to that induced by preimplantation embryo infection. This approach represents a simple and viable strategy for inducing and studying mutations that affect mammalian development.     

Reversal of cellular polarity and early cell-cell interaction in the embryos of Caenorhabditis elegans

During early embryogenesis of Caenorhabditis elegans the serial stem cell-like cleavages of the germ line cells P0-P3 generate a number of somatic founder cells with different developmental potentials. Observations on partial embryos show that in the first two of these unequal divisions in the germ line the somatic daughter cell comes to lie anterior to the new germ line cell. In the following two, however, the somatic daughter cell comes to lie posterior to the new germ line cell, suggesting a reversal of polarity in the germ line. By the use of a laser microbeam, egg fragments can be extruded from young embryos; the fragments often cleave like partial twins. Depending on whether the fragment is derived from the posterior region of the uncleaved zygote P0 or its daughter P1, the mirror image duplications that are generated are joined at their larger soma-like cells or at their smaller germ line-like cells, respectively. This result is best explained as a reversal of polarity taking place in the germ line cell P2. This notion is strengthened by the finding that partial embryos derived from the posterior region of the P2 cell in late interphase do not undergo stem cell-like (i.e., unequal) cleavages in contrast to those derived from P0 or P1. Finally, an apparent early cell-cell interaction is described which is inconsistent with the classical notion of "mosaic" nematode development: removal of the germline cell P2 results in an altered developmental pattern of its somatic sister cell EMS. A working model is presented linking reversal of polarity and cell-cell interaction and offers an explanation for the unique behavior of the EMS cell in normal development.