Your search keyword '"Tol2"' showing total 94 results

1. Generation of the First Transgenic Line of the Iconic Coral Reef Fish Amphiprion ocellaris.

Author

Graham, Gabriel J., Ibanez, Emma M., Mitchell, Laurie J., Weis, Karen E., Raetzman, Lori T., Cortesi, Fabio, and Rhodes, Justin S.

Abstract

The common clownfish, Amphiprion ocellaris, is an iconic coral reef fish, ubiquitous in the marine aquarium hobby and useful for studying a variety of biological processes (e.g., mutual symbiosis, ultraviolet vision, and protandrous sex change). Recently, CRISPR/Cas9 methods were developed for knocking out specific genes for mechanistic studies. Here, we expand the genetic toolkit for A. ocellaris by creating the first transgenic line using the Tol2 transposon system. Fertilized eggs were co-injected with Tol2 transposase mRNA and a plasmid encoding an elongation factor-1α (Ef1α): green fluorescent protein (GFP) cassette at various concentrations, needle tip dimensions, and timepoints post-fertilization. We compared various injection parameters and sterilization methods to maximize the survival of injected eggs. F0s (n = 10) that were genotyped GFP + were then raised to 6 months of age and crossed with wild-type (WT) females to confirm germline transmission. F1 offspring were also raised and crossed in the same manner. The highly efficient Tol2 transposon system resulted in a 37% rate of transgenesis for surviving eggs amounting to a 2.7% yield of all injected eggs surviving and being GFP + (n = 160). Of these, 10 were raised to adulthood, 8 spawned, and 5/8 (62.5%) produced GFP + offspring. Further, two F1s crossed with WT females produced 54.2% and 44.6% GFP + offspring respectively, confirming the creation of a stable line. This is, to our knowledge, the first generation of a transgenic line in any coral reef fish. The ability to express transgenes of interest in the iconic anemonefish opens the door to a new era of exploration into their fascinating biology. [ABSTRACT FROM AUTHOR]

Published

2024

2. One‐step generation of mice with gene editing by Tol2 transposon‐dependent gRNA delivery.

Author

Inotsume, Maiko, Chiba, Tomoki, Matsushima, Takahide, Kurimoto, Ryota, Nakajima, Mitsuyo, Kato, Tomomi, Shishido, Kana, Liu, Lin, Kawakami, Koichi, and Asahara, Hiroshi

Subjects

*GENOME editing, *TRANSPOSONS, *MICE, *KNOCKOUT mice, *PHENOL oxidase

Abstract

Conditional knockout mice are valuable tools for examining the functions of targeted genes in a time‐ and space‐specific manner. Here, we generated gene‐edited mice by using the Tol2 transposon to introduce guide RNA (gRNA) into fertilized eggs obtained by crossing LSL (loxP‐stop‐loxP)‐CRISPR‐associated 9 (Cas9) mice, which express Cas9 in a Cre‐dependent manner, with CAG‐CreER mice. Transposase mRNA and plasmid DNA, which contained a gRNA sequence for the gene encoding tyrosinase flanked by the transposase recognition sequence, were injected together into fertilized eggs. As a result, the transcribed gRNA cleaved the target genome in a Cas9‐dependent manner. Using this method, it is possible to generate conditional genome‐edited mice more easily in a shorter period of time. [ABSTRACT FROM AUTHOR]

Published

2023

3. Zebrafish as a model to study genes associated with neurodevelopmental disorders

Author

Gostić, Monika, Paracchini, Silvia, and Sillar, Keith Thomas

Subjects

618.92, Zebrafish, Notochord, kiaa0319, Neurodevelopment, Dyslexia, Tol2, In situ hybridization, Genetics, kiaa0319l

Abstract

Dyslexia is a neurodevelopmental disorder that affects between 5% and 12% of school-aged children. Individuals with dyslexia have difficulties in learning to read despite normal IQ levels and adequate socio-economical and educational opportunities. Dyslexia has a strong genetic component, but only a few candidate genes have been characterized to date. The KIAA0319 gene is a strong dyslexia candidate found to be associated with dyslexia in independent studies. The KIAA0319 genetic variants associated with dyslexia reside in a regulatory region. Studies in rat suggested that this gene is required for neuronal migration during early cortex formation. The KIAA0319-like (KIAA0319L) is a KIAA0319 homolog in structure and has recently been shown to play a role in dyslexia. I used zebrafish as a model organism both to study the effects of non-coding variants and to characterise kiaa0319 gene function. I used Gateway Tol2 technology to study the role of regulatory sequences. While these experiments led to inconclusive results, they highlighted some of the challenges but also the feasibility of using zebrafish as model organism to study genetic associations. In parallel, I studied the kiaa0319 function with knockout and knockdown experiments. Additionally, I conducted a detailed gene expression analysis with different in situ hybridisation protocols showing kiaa0319 ubiquitous expression in the whole embryo before 12 hours post fertilisation, with later specification to the eyes, brain, otic vesicle and notochord. Additionally, I have tested for the expression of kiaa0319l and showed similar expression pattern to the kiaa0319, but with significantly lower expression of kiaa0319l in zebrafish notochord. My data show, for the first time, that kiaa0319 has stage-specific expression in the brain and notochord during zebrafish early development, suggesting kiaa0319 specific role in the development of these structures. These results are in line with recent mouse studies. With this project I support the idea of kiaa0319 role being extended beyond the brain function and propose a role for kiaa03019 in the visual system and in the notochord.

Published

2018

4. Optogenetics on Zebrafish

Author

Shoji, Wataru, Crusio, Wim E., Series Editor, Dong, Haidong, Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, Yawo, Hiromu, editor, Kandori, Hideki, editor, Koizumi, Amane, editor, and Kageyama, Ryoichiro, editor

Published

2021

5. Microinjection for Transgenesis and Genome Editing in Threespine Sticklebacks.

Author

Erickson, Priscilla A, Ellis, Nicholas A, and Miller, Craig T

Subjects

Biological Sciences, Genetics, Human Genome, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Animals, Gene Editing, Gene Transfer Techniques, Genome, Microinjections, Smegmamorpha, Developmental Biology, Issue 111, stickleback, microinjection, TALEN, CRISPR, genome editing, Tol2, enhancer, Gasterosteus aculeatus, Biochemistry and Cell Biology, Psychology, Cognitive Sciences, Biochemistry and cell biology

Abstract

The threespine stickleback fish has emerged as a powerful system to study the genetic basis of a wide variety of morphological, physiological, and behavioral phenotypes. The remarkably diverse phenotypes that have evolved as marine populations adapt to countless freshwater environments, combined with the ability to cross marine and freshwater forms, provide a rare vertebrate system in which genetics can be used to map genomic regions controlling evolved traits. Excellent genomic resources are now available, facilitating molecular genetic dissection of evolved changes. While mapping experiments generate lists of interesting candidate genes, functional genetic manipulations are required to test the roles of these genes. Gene regulation can be studied with transgenic reporter plasmids and BACs integrated into the genome using the Tol2 transposase system. Functions of specific candidate genes and cis-regulatory elements can be assessed by inducing targeted mutations with TALEN and CRISPR/Cas9 genome editing reagents. All methods require introducing nucleic acids into fertilized one-cell stickleback embryos, a task made challenging by the thick chorion of stickleback embryos and the relatively small and thin blastomere. Here, a detailed protocol for microinjection of nucleic acids into stickleback embryos is described for transgenic and genome editing applications to study gene expression and function, as well as techniques to assess the success of transgenesis and recover stable lines.

Published

2016

6. Germ cell–specific expression of Venus by Tol2‐mediated transgenesis in endangered endemic cyprinid Honmoroko (Gnathopogon caerulescens).

Author

Higaki, Shogo, Nishie, Tomomi, Todo, Takaaki, Teshima, Reiko, Kusumi, Kenichiro, Mitsumori, Risa, Tooyama, Ikuo, Fujioka, Yasuhiro, Kawasaki, Toshihiro, Sakai, Noriyoshi, and Takada, Tatsuyuki

Subjects

*VENUS (Planet), *ENDEMIC fishes, *GERM cells, *RARE fishes, *FLUORESCENT proteins, *SPERMATOGENESIS

Abstract

Fishes expressing a fluorescent protein in germ cells are useful to perform germ cell transfer experiments for conservation study. Nonetheless, no such fish has been generated in endangered endemic fishes. In this study, we tried to produce a fish expressing Venus fluorescent protein in germ cells using Honmoroko (Gnathopogon caerulescens), which is one of the threatened small cyprinid endemic to the ancient Lake Biwa in Japan. To achieve germ cell‐specific expression of Venus, we used piwil1 (formally known as ziwi) promoter and Tol2 transposon system. Following the co‐injection of the piwil1‐Venus expression vector and the Tol2 transposase mRNA into fertilized eggs, presumptive transgenic fish were reared. At 7 months of post‐fertilization, about 19% (10/52) of the examined larvae showed Venus fluorescence in their gonad specifically. Immunohistological staining and in vitro spermatogenesis using gonads of the juvenile founder fish revealed that Venus expression was detected in spermatogonia and spermatocyte in male, and oogonia and stage I and II oocytes in female. These results indicate that the Tol2 transposon and zebrafish piwil1 promoter enabled gene transfer and germ cell‐specific expression of Venus in G. caerulescens. In addition, in vitro culture of juvenile spermatogonia enables the rapid validation of temporal expression of transgene during spermatogenesis. [ABSTRACT FROM AUTHOR]

Published

2021

7. Construction of irf4a Transgenic Zebrafish Using Tol2 System and Its Potential Application.

Author

Gou, Yawei, Sun, Wei, Liu, Lingling, Zhang, Mingming, Du, Jianan, Wang, Ruonan, and Xu, Xuesong

Subjects

*ZEBRA danio, *ZEBRA danio embryos, *INTERFERON regulatory factors, *BRACHYDANIO, *POLYMERASE chain reaction

Abstract

Purpose: Interferon regulatory factor 4 (IRF4) is identified as a transcriptional factor and plays an important role in the immune response in mammals; however, there are few reports about the function of zebrafish IRF4. Methods: We first amplified the coding sequence of irf4a from the testis of zebrafish. Besides, the fragments of irf4a, P2A, EGFP, and Tol2 vector were added for homologous recombination. By sequencing, we can get the Tol2-ef1α-irf4a-EGFP recombinant plasmid and it was microinjected into zebrafish embryos. Fluorescence observation was proceeded at days 3 post fertilization; F0 generations expressing green fluorescence in multiple tissues throughout the body were screened as the founder and raised them to sexual maturity. After mating with WT zebrafish to generate F1 offspring, polymerase chain reaction was used to identify whether irf4a was integrated into the zebrafish genome. Conclusion: We obtained the systematic overexpressed irf4a transgenic zebrafish with green fluorescence labeled in spine, eyes, heart, brain, and other tissues. The transgenic zebrafish will be used as a tool for the role of IRF4a in the immune response to the inflammation preconditioning in the future study. [ABSTRACT FROM AUTHOR]

Published

2020

8. Development of enhancer-trapping and -detection vectors mediated by the Tol2 transposon in zebrafish

Author

Shuheng Chan, Dan Shen, Yatong Sang, Saisai Wang, Yali Wang, Cai Chen, Bo Gao, and Chengyi Song

Subjects

Enhancer trapping, Enhancer activity, Tol2, Zebrafish, Medicine, Biology (General), QH301-705.5

Abstract

Enhancers are key transcriptional drivers of gene expression. The identification of enhancers in the genome is central for understanding gene-expression programs. Although transposon-mediated enhancer trapping (ET) is a powerful approach to the identification of enhancers in zebrafish, its efficiency varies considerably. To improve the ET efficiency, we constructed Tol2-mediated ET vectors with a reporter gene (mCherry) expression box driven by four minimal promoters (Gata, Myc, Krt4 and Oct4), respectively. The ET efficiency and expression background were compared among the four promoters by zebrafish embryo injection at the one-cell stage. The results showed that the Gata minimal promoter yielded the lowest basic expression and the second-highest trapping efficiency (44.6% at 12 hpf (hour post-fertilization) and 23.1% at 72 hpf, n = 305 and n = 307). The Krt4 promoter had the highest trapping efficiency (64% at 12 hpf and 67.1% at 72 hpf, n = 302 and n = 301) and the strongest basic expression. To detect enhancer activity, chicken 5′HS4 double insulators were cloned into the two ET vectors with the Gata or Krt4 minimal promoter, flanking the mCherry expression box. The resulting detection vectors were injected into zebrafish embryos. mCherry expression driven by the Gata promoter (about 5%, n = 301) was decreased significantly compared with that observed for embryos injected with the ET vectors (23% at 72 hpf, n = 308). These results suggest that the insulators block the genome-position effects and that this vector is fit for enhancer-activity evaluation. To assess the compatibility between the enhancers and the minimal promoters, four enhancers (CNS1, Z48, Hand2 and Hs769) were cloned upstream of the Gata or Beta-globin minimal promoter in the enhancer-activity-detection vectors. The resulting recombinant vectors were assayed by zebrafish embryo injection. We found that Z48 and CNS1 responded to the Gata minimal promoter, and that Hand2 only responded to the Beta-globin minimal promoter. In contrast, Hs769 did not respond to either the Gata or Beta-globin minimal promoters. These results suggest the existence of compatibility between enhancers and minimal promoters. This study represents a systematic approach to the discovery of optional ET and enhancer-detection vectors. We are eager to provide a superior tool for understanding functional genomics.

Published

2019

9. Genome-Wide Analysis of Transposon and Retroviral Insertions Reveals Preferential Integrations in Regions of DNA Flexibility

Author

Pavle Vrljicak, Shijie Tao, Gaurav K. Varshney, Helen Ngoc Bao Quach, Adita Joshi, Matthew C. LaFave, Shawn M. Burgess, and Karuna Sampath

Subjects

transposon, Ac/Ds, genome-wide analysis, integrations, gene targeting, genome engineering, functional genomics, Tol2, retrovirus, MMLV, mouse, ES cells, vertebrate genomes, zebrafish, Genetics, QH426-470

Abstract

DNA transposons and retroviruses are important transgenic tools for genome engineering. An important consideration affecting the choice of transgenic vector is their insertion site preferences. Previous large-scale analyses of Ds transposon integration sites in plants were done on the basis of reporter gene expression or germ-line transmission, making it difficult to discern vertebrate integration preferences. Here, we compare over 1300 Ds transposon integration sites in zebrafish with Tol2 transposon and retroviral integration sites. Genome-wide analysis shows that Ds integration sites in the presence or absence of marker selection are remarkably similar and distributed throughout the genome. No strict motif was found, but a preference for structural features in the target DNA associated with DNA flexibility (Twist, Tilt, Rise, Roll, Shift, and Slide) was observed. Remarkably, this feature is also found in transposon and retroviral integrations in maize and mouse cells. Our findings show that structural features influence the integration of heterologous DNA in genomes, and have implications for targeted genome engineering.

Published

2016

10. A beginner's guide to understanding and implementing the genetic modification of zebrafish.

Author

Rafferty, Sara A. and Quinn, T. Alexander

Subjects

*ZEBRA danio, *GENOME editing, *GENE enhancers, *MODIFICATIONS

Abstract

Abstract Zebrafish are a relevant and useful vertebrate model species to study normal- and patho-physiology, including that of the heart, due to conservation of protein-coding genes, organ system organisation and function, and efficient breeding and housing. Their amenability to genetic modification, particularly compared to other vertebrate species, is another great advantage, and is the focus of this review. A vast number of genetically engineered zebrafish lines and methods for their creation exist, but their incorporation into research programs is hindered by the overwhelming amount of technical details. The purpose of this paper is to provide a simplified guide to the fundamental information required by the uninitiated researcher for the thorough understanding, critical evaluation, and effective implementation of genetic approaches in the zebrafish. First, an overview of existing zebrafish lines generated through large scale chemical mutagenesis, retroviral insertional mutagenesis, and gene and enhancer trap screens is presented. Second, descriptions of commonly-used genetic modification methods are provided including Tol2 transposon, TALENs (transcription activator-like effector nucleases), and CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9). Lastly, design features of genetic modification strategies such as promoters, fluorescent reporters, and conditional transgenesis, are summarised. As a comprehensive resource containing both background information and technical notes of how to obtain or generate zebrafish, this review compliments existing resources to facilitate the use of genetically-modified zebrafish by researchers who are new to the field. [ABSTRACT FROM AUTHOR]

Published

2018

11. Transposons: Moving Forward from Preclinical Studies to Clinical Trials.

Author

Tipanee, Jaitip, VandenDriessche, Thierry, and Chuah, Marinee K.

Subjects

*TRANSPOSONS, *GENE therapy, *MEDICAL research, *TRANSPOSASE genetics, *CLINICAL trials, *GENE expression

Abstract

Transposons have emerged as promising vectors for gene therapy that can potentially overcome some of the limitations of commonly used viral vectors. Transposons stably integrate into the target cell genome, enabling persistent expression of therapeutic genes. Transposons have evolved from being used as basic tools in biomedical research to bona fide therapeutics. Currently, the most promising transposons for gene therapy applications are derived from Sleeping Beauty (SB) or piggyBac (PB). Stable transposition requires co-delivery of the transposon DNA with the corresponding transposase gene, mRNA, or protein. Stable transposition efficiency can be substantially increased by using 'next-generation' transposon systems that combine codon-usage optimization with hyper-activating mutations in the SB or PB transposases. By virtue of their relatively large capacity, gene therapy applications with relatively large therapeutic transgenes, such as full-length dystrophin, can now be envisaged. The authors and others have shown that efficient and stable gene transfer can be achieved with these next-generation transposons in several clinically relevant primary cells, such as CD34+ hematopoietic stem/progenitor cells, T cells, and mesenchymal and myogenic stem/progenitor cells that are amenable for ex vivo transfection. Alternatively, in vivo transposon gene delivery has been explored using non-viral vectors or nanoparticles or in combination with viral vectors. The therapeutic potential of these SB- and PB-based transposons has been demonstrated in preclinical models that mimic the cognate human diseases. However, there are still challenges impeding clinical translation of transposons pertaining mainly to the typical limiting efficiencies of most non-viral transfection methods and the intrinsic DNA toxicity. Nevertheless, it is particularly encouraging that transposons have now been used in gene therapy clinical trials. In particular, transposon-engineered T cells expressing chimeric antigen receptors are starting to yield promising results in patients with hematological malignancies. [ABSTRACT FROM AUTHOR]

Published

2017

12. Calcium Signaling in the Cerebellar Radial Glia and Its Association with Morphological Changes during Zebrafish Development

Author

Elizabeth Pereida-Jaramillo, Gabriela B. Gómez-González, Angeles Edith Espino-Saldaña, and Ataúlfo Martínez-Torres

Subjects

cerebellum, QH301-705.5, Neurogenesis, Article, Catalysis, Animals, Genetically Modified, Inorganic Chemistry, Tol2, Animals, Calcium Signaling, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Zebrafish, Spectroscopy, calcium waves, GECI, GFAP, Neurons, Organic Chemistry, General Medicine, Computer Science Applications, Chemistry, nervous system, Calcium, Neuroglia

Abstract

Radial glial cells are a distinct non-neuronal cell type that, during development, span the entire width of the brain walls of the ventricular system. They play a central role in the origin and placement of neurons, since their processes form structural scaffolds that guide and facilitate neuronal migration. Furthermore, glutamatergic signaling in the radial glia of the adult cerebellum (i.e., Bergmann glia), is crucial for precise motor coordination. Radial glial cells exhibit spontaneous calcium activity and functional coupling spread calcium waves. However, the origin of calcium activity in relation to the ontogeny of cerebellar radial glia has not been widely explored, and many questions remain unanswered regarding the role of radial glia in brain development in health and disease. In this study we used a combination of whole mount immunofluorescence and calcium imaging in transgenic (gfap-GCaMP6s) zebrafish to determine how development of calcium activity is related to morphological changes of the cerebellum. We found that the morphological changes in cerebellar radial glia are quite dynamic; the cells are remarkably larger and more elaborate in their soma size, process length and numbers after 7 days post fertilization. Spontaneous calcium events were scarce during the first 3 days of development and calcium waves appeared on day 5, which is associated with the onset of more complex morphologies of radial glia. Blockage of gap junction coupling inhibited the propagation of calcium waves, but not basal local calcium activity. This work establishes crucial clues in radial glia organization, morphology and calcium signaling during development and provides insight into its role in complex behavioral paradigms.

Published

2021

13. Comparison of three transposons for the generation of highly productive recombinant CHO cell pools and cell lines.

Author

Balasubramanian, Sowmya, Rajendra, Yashas, Baldi, Lucia, Hacker, David L., and Wurm, Florian M.

Abstract

ABSTRACT Several naturally occurring vertebrate transposable elements have been genetically modified to enable the transposition of recombinant genes in mammalian cells. We compared three transposons-piggyBac, Tol2, and Sleeping Beauty-for their ability to generate cell pools (polyclonal cultures of recombinant cells) and clonal cell lines for the large-scale production of recombinant proteins using Chinese hamster ovary cells (CHO-DG44) as the host. Transfection with each of the dual-vector transposon systems resulted in cell pools with volumetric yields of tumor necrosis factor receptor-Fc fusion protein (TNFR:Fc) that were about ninefold higher than those from cell pools generated by conventional plasmid transfection. On average, the cell pools had 10-12 integrated copies of the transgene per cell. In the absence of selection, the volumetric productivity of the cell pools decreased by 50% over a 2-month cultivation period and then remained constant. The average volumetric TNFR:Fc productivity of clonal cell lines recovered from cell pools was about 25 times higher than that of cell lines generated by conventional transfection. In 14-day fed-batch cultures, TNFR:Fc levels up to 900 mg/L were obtained from polyclonal cell pools and up to 1.5 g/L from clonal cell lines using any of the three transposons. Biotechnol. Bioeng. 2016;113: 1234-1243. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2016

14. Genome-Wide Analysis of Transposon and Retroviral Insertions Reveals Preferential Integrations in Regions of DNA Flexibility.

Author

Vrljicak, Pavle, Shijie Tao, Varshney, Gaurav K., Helen Ngoc Bao Quach, Joshi, Adita, LaFave, Matthew C., Burgess, Shawn M., and Sampath, Karuna

Subjects

*RETROVIRUS genetics, *TRANSPOSONS, *GENE expression in viruses

Abstract

DNA transposons and retroviruses are important transgenic tools for genome engineering. An important consideration affecting the choice of transgenic vector is their insertion site preferences. Previous large-scale analyses of Ds transposon integration sites in plants were done on the basis of reporter gene expression or germ-line transmission, making it difficult to discern vertebrate integration preferences. Here, we compare over 1300 Ds transposon integration sites in zebrafish with Tol2 transposon and retroviral integration sites. Genome-wide analysis shows that Ds integration sites in the presence or absence of marker selection are remarkably similar and distributed throughout the genome. No strict motif was found, but a preference for structural features in the target DNA associated with DNA flexibility (Twist, Tilt, Rise, Roll, Shift, and Slide) was observed. Remarkably, this feature is also found in transposon and retroviral integrations in maize and mouse cells. Our findings show that structural features influence the integration of heterologous DNA in genomes, and have implications for targeted genome engineering. [ABSTRACT FROM AUTHOR]

Published

2016

15. Proof of principle for piggyBac-mediated transgenesis in the flatworm Macrostomum lignano

Author

Filipa Reinoite, Igor Sukhikh, Eugene Berezikov, Stijn Mouton, Jakub Wudarski, Kirill Ustyantsev, Stem Cell Aging Leukemia and Lymphoma (SALL), and Restoring Organ Function by Means of Regenerative Medicine (REGENERATE)

Subjects

0301 basic medicine, AcademicSubjects/SCI01140, GENE TRAP, AcademicSubjects/SCI00010, transposons, INSERTION, EFFICIENT, Computational biology, Biology, AcademicSubjects/SCI01180, Genome, transgenesis, Insertional mutagenesis, 03 medical and health sciences, 0302 clinical medicine, TOL2, Genetics, Transgenic lines, Animals, flatworms, Transgenes, MOS1, Macrostomum lignano, Flatworm, SLEEPING-BEAUTY, piggyBac, TRANSPOSON MUTAGENESIS, Regeneration (biology), Gene Transfer Techniques, biology.organism_classification, Communications, Transgenesis, 030104 developmental biology, Platyhelminths, Proof of concept, DNA Transposable Elements, AcademicSubjects/SCI00960, 030217 neurology & neurosurgery, SYSTEM

Abstract

Regeneration-capable flatworms are informative research models to study the mechanisms of stem cell regulation, regeneration, and tissue patterning. The free-living flatworm Macrostomum lignano is currently the only flatworm where stable transgenesis is available, and as such it offers a powerful experimental platform to address questions that were previously difficult to answer. The published transgenesis approach relies on random integration of DNA constructs into the genome. Despite its efficiency, there is room and need for further improvement and diversification of transgenesis methods in M. lignano. Transposon-mediated transgenesis is an alternative approach, enabling easy mapping of the integration sites and the possibility of insertional mutagenesis studies. Here, we report for the first time that transposon-mediated transgenesis using piggyBac can be performed in M. lignano to create stable transgenic lines with single-copy transgene insertions.

Published

2021

16. Stable and bicistronic expression of two genes in somite- and lateral plate-derived tissues to study chick limb development.

Author

Bourgeois, Adeline, de Lima, Joana Esteves, Charvet, Benjamin, Kawakami, Koichi, Stricker, Sigmar, and Duprez, Delphine

Subjects

*SOMITE, *MUSCULOSKELETAL system, *MOLECULAR interactions, *ELECTROPORATION, *STOICHIOMETRY, *MYOBLASTS

Abstract

Background: Components of the limb musculoskeletal system have distinct mesoderm origins. Limb skeletal muscles originate from somites, while the skeleton and attachments (tendons and connective tissues) derive from limb lateral plate. Despite distinct mesoderm origins, the development of muscle, skeleton and attachments is highly coordinated both spatially and temporally to ensure complete function of the musculoskeletal system. A system to study molecular interactions between somitic-derived tissues (muscles) and lateral-plate-derived tissues (skeletal components and attachments) during limb development is missing. Results: We designed a gene delivery system in chick embryos with the ultimate aim to study the interactions between the components of the musculoskeletal system during limb development. We combined the Tol2 genomic integration system with the viral T2A system and developed new vectors that lead to stable and bicistronic expression of two proteins at comparable levels in chick cells. Combined with limb somite and lateral plate electroporation techniques, two fluorescent reporter proteins were co-expressed in stoichiometric proportion in the muscle lineage (somitic-derived) or in skeleton and their attachments (lateral-plate-derived). In addition, we designed three vectors with different promoters to target muscle cells at different steps of the differentiation process. Conclusion: Limb somite electroporation technique using vectors containing these different promoters allowed us to target all myogenic cells, myoblasts or differentiated muscle cells. These stable and promoter-specific vectors lead to bicistronic expression either in somitic-derived myogenic cells or lateral plate-derived cells, depending on the electroporation sites and open new avenues to study the interactions between myogenic cells and tendon or connective tissue cells during limb development. [ABSTRACT FROM AUTHOR]

Published

2015

17. Structural and temporal requirements of Wnt/PCP protein Vangl2 function for convergence and extension movements and facial branchiomotor neuron migration in zebrafish.

Author

Pan, Xiufang, Sittaramane, Vinoth, Gurung, Suman, and Chandrasekhar, Anand

Subjects

*PHENCYCLIDINE, *THERAPEUTIC use of proteins, *ZEBRA danio, *CELL membranes, *CONVERGENT evolution, *NEURONS

Abstract

Highlights: [•] N- and C-terminal segments of Vangl2 function at the plasma membrane for neuronal migration. [•] Vangl2 functions during the earliest stages of motor neuron migration. [•] Potential role in nucleus for Vangl2 C-terminal segment during convergence and extension movements. [Copyright &y& Elsevier]

Published

2014

18. Construction of irf4a Transgenic Zebrafish Using Tol2 System and Its Potential Application

Author

Yawei Gou, Ruonan Wang, Mingming Zhang, Jianan Du, Xuesong Xu, Wei Sun, and Lingling Liu

Subjects

0301 basic medicine, animal structures, Nanotechnology and Microtechnology in Drug Delivery Systems, Transcriptional factor, Health, Toxicology and Mutagenesis, Transgene, irf4a, Biology, Toxicology, 03 medical and health sciences, 0302 clinical medicine, Immune system, Tol2, Transgenic zebrafish, microinjection, Microinjection, transgenic, Chemical Health and Safety, fungi, lcsh:RM1-950, Public Health, Environmental and Occupational Health, inflammatory preconditioning, Cell biology, 030104 developmental biology, lcsh:Therapeutics. Pharmacology, 030220 oncology & carcinogenesis, embryonic structures, Original Article, IRF4

Abstract

Purpose:Interferon regulatory factor 4 (IRF4) is identified as a transcriptional factor and plays an important role in the immune response in mammals; however, there are few reports about the function of zebrafish IRF4.Methods:We first amplified the coding sequence of irf4a from the testis of zebrafish. Besides, the fragments of irf4a, P2A, EGFP, and Tol2 vector were added for homologous recombination. By sequencing, we can get the Tol2-ef1α-irf4a-EGFP recombinant plasmid and it was microinjected into zebrafish embryos. Fluorescence observation was proceeded at days 3 post fertilization; F0 generations expressing green fluorescence in multiple tissues throughout the body were screened as the founder and raised them to sexual maturity. After mating with WT zebrafish to generate F1 offspring, polymerase chain reaction was used to identify whether irf4a was integrated into the zebrafish genome.Conclusion:We obtained the systematic overexpressed irf4a transgenic zebrafish with green fluorescence labeled in spine, eyes, heart, brain, and other tissues. The transgenic zebrafish will be used as a tool for the role of IRF4a in the immune response to the inflammation preconditioning in the future study.

Published

2020

19. Social dominance in tilapia is associated with gonadotroph hyperplasia.

Author

Golan, Matan and Levavi-Sivan, Berta

Subjects

*TILAPIA, *SOCIAL dominance, *ANIMAL social behavior, *GONADOTROPIN, *HYPERPLASIA, *TRANSGENIC fish, *FISH reproduction endocrinology, *BEHAVIOR, *FISHES

Abstract

Highlights: [•] We produced transgenic tilapia in which FSH-secreting cells are fluorescently labeled. [•] Social status-related hormonal changes were studied in transgenic males. [•] Dominant males exhibit higher levels of gonadotropin in plasma and pituitary. [•] Dominant males show gonadotroph hyperplasia and increased cell granulation. [•] Elevated androgen levels and gonad enlargement underlie increased reproductive activity. [ABSTRACT FROM AUTHOR]

Published

2013

20. Efficient disruption of Zebrafish genes using a Gal4-containing gene trap.

Author

Balciuniene, Jorune, Nagelberg, Danielle, Walsh, Kathleen T., Camerota, Diana, Georlette, Daphné, Biemar, Frédéric, Bellipanni, Gianfranco, and Balciunas, Darius

Subjects

*MESSENGER RNA, *MOBILE genetic elements, *GENOTYPE-environment interaction, *ENDOCRINE glands, *GENETIC mutation

Abstract

Background: External development and optical transparency of embryos make zebrafish exceptionally suitable for in vivo insertional mutagenesis using fluorescent proteins to visualize expression patterns of mutated genes. Recently developed Gene Breaking Transposon (GBT) vectors greatly improve the fidelity and mutagenicity of transposon-based gene trap vectors. Results: We constructed and tested a bipartite GBT vector with Gal4-VP16 as the primary gene trap reporter. Our vector also contains a UAS:eGFP cassette for direct detection of gene trap events by fluorescence. To confirm gene trap events, we generated a UAS:mRFP tester line. We screened 270 potential founders and established 41 gene trap lines. Three of our gene trap alleles display homozygous lethal phenotypes ranging from embryonic to late larval: nsf tpl6, atp1a3atpl10 and flrtpl19. Our gene trap cassette is flanked by direct loxP sites, which enabled us to successfully revert nsf tpl6, atp1a3atpl10 and flrtpl19 gene trap alleles by injection of Cre mRNA. The UAS:eGFP cassette is flanked by direct FRT sites. It can be readily removed by injection of Flp mRNA for use of our gene trap alleles with other tissue-specific GFP-marked lines. The Gal4-VP16 component of our vector provides two important advantages over other GBT vectors. The first is increased sensitivity, which enabled us to detect previously unnoticed expression of nsf in the pancreas. The second advantage is that all our gene trap lines, including integrations into non-essential genes, can be used as highly specific Gal4 drivers for expression of other transgenes under the control of Gal4 UAS. Conclusions: The Gal4-containing bipartite Gene Breaking Transposon vector presented here retains high specificity for integrations into genes, high mutagenicity and revertibility by Cre. These features, together with utility as highly specific Gal4 drivers, make gene trap mutants presented here especially useful to the research community [ABSTRACT FROM AUTHOR]

Published

2013

21. A microinjection protocol for the generation of transgenic killifish (Species: Nothobranchius furzeri).

Author

Hartmann, Nils and Englert, Christoph

Abstract

Background: A challenge in age research is the absence of short-lived vertebrate model organisms. The turquoise killifish Nothobranchius furzeri has an exceptionally short lifespan of 4-10 months depending on the strain. Thus, it possesses the shortest known maximum lifespan of a vertebrate species that can be bred in captivity. Results: Here we show the successful introduction of DNA and RNA molecules into the one-cell embryo of N. furzeri. For this purpose, we adapted existing microinjection protocols to inject through the remarkably thick and robust chorion of N. furzeri's eggs. The injected DNA transgene was integrated into the genome and transmitted to subsequent generations as indicated by the expression of the fluorophore enhanced green fluorescent protein (EGFP). Furthermore, we could confirm a special phase during embryonic development in which embryogenesis occurs within a re-aggregated mass of previously dispersed cells as it has been described for other related cyprinodont fish species. Conclusions: The transgenesis protocol described here provides a basis for a variety of genetic manipulations including overexpression of genes and determining their effects on lifespan and longevity. The feasibility to perform transgenesis is an important step to establish N. furzeri as a new model in age research. Developmental Dynamics 241:1133-1141, 2012. © 2012 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2012

22. pTransgenesis: a cross-species, modular transgenesis resource.

Author

Love, Nick R., Thuret, Raphael, Chen, Yaoyao, Ishibashi, Shoko, Sabherwal, Nitin, Paredes, Roberto, Alves-Silva, Juliana, Dorey, Karel, Noble, Anna M., Guille, Matthew J., Sasai, Yoshiki, Papalopulu, Nancy, and Amaya, Enrique

Subjects

*TRANSGENIC organisms, *GENE expression, *DNA, *PROMOTERS (Genetics), *GENETIC transcription

Abstract

As studies aim increasingly to understand key, evolutionarily conserved properties of biological systems, the ability to move transgenesis experiments efficiently between organisms becomes essential. DNA constructions used in transgenesis usually contain four elements, including sequences that facilitate transgene genome integration, a selectable marker and promoter elements driving a coding gene. Linking these four elements in a DNA construction, however, can be a rate-limiting step in the design and creation of transgenic organisms. In order to expedite the construction process and to facilitate cross-species collaborations, we have incorporated the four common elements of transgenesis into a modular, recombination-based cloning system called pTransgenesis. Within this framework, we created a library of useful coding sequences, such as various fluorescent protein, Gal4, Cre-recombinase and dominant-negative receptor constructs, which are designed to be coupled to modular, species-compatible selectable markers, promoters and transgenesis facilitation sequences. Using pTransgenesis in Xenopus, we demonstrate Gal4-UAS binary expression, Cre-loxP-mediated fate-mapping and the establishment of novel, tissue-specific transgenic lines. Importantly, we show that the pTransgenesis resource is also compatible with transgenesis in Drosophila, zebrafish and mammalian cell models. Thus, the pTransgenesis resource fosters a cross-model standardization of commonly used transgenesis elements, streamlines DNA construct creation and facilitates collaboration between researchers working on different model organisms. [ABSTRACT FROM AUTHOR]

Published

2011

23. Tol2-mediated transgenesis in tilapia (Oreochromis niloticus)

Author

Fujimura, Koji and Kocher, Thomas D.

Subjects

*NILE tilapia, *TRANSGENIC fish, *FISH farming, *TRANSPOSONS, *FISH genetics, *GENE expression, *GERM cells, *DEVELOPMENTAL biology, *CICHLIDS

Abstract

Abstract: The Nile tilapia (Oreochromis niloticus) is an important species in aquaculture and an excellent model system for laboratory studies. Functional genetic analysis using this species has been difficult because existing methods for producing transgenics are inefficient. Here we show that the Tol2 transposon system can be used to create transgenic tilapia with high efficiency. We constructed a line that is transgenic for GFP under control of a Xenopus elongation factor 1α (EF1α) promoter. The germline transmission rate of the Tol2 construct to the first generation was about 30%, which is much higher than conventional methods. GFP expression was strong and ubiquitous in the embryos. Application of the Tol2 system for constructing transgenics in tilapia and related species will promote research in many areas, but will be especially useful for studies of evolutionary developmental biology in the cichlid fishes of East Africa. [Copyright &y& Elsevier]

Published

2011

24. The effect of excess expression of GFP in a novel heart-specific green fluorescence zebrafish regulated by nppa enhancer at early embryonic development.

Author

Wen Huang, Yun Deng, Wei Dong, Wuzhou Yuan, Yongqi Wan, Xiaoyan Mo, Yongqing Li, Zequn Wang, Yuequn Wang, Karen Ocorr, Bo Zhang, Shuo Lin, and Xiushan Wu

Abstract

In order to study the impalpable effect of GFP in homozygous heart-specific GFP-positive zebrafish during the early stage, the researchers analyzed the heart function of morphology and physiology at the first 3 days after fertilization. This zebrafish line was produced by a large-scale Tol2 transposon mediated enhancer trap screen that generated a transgenic zebrafish with a heart-specific expression of green fluorescent protein (GFP)-tagged under control of the nppa enhancer. In situ hybridization experiments showed that the nppa:GFP line faithfully recapitulated both the spatial and temporal expressions of the endogenous nppa. Green fluorescence was intensively and specifically expressed in the myocardial cells located both in the heart chambers and in the atrioventricular canal. The embryonic heart of nppa:GFP line developed normally compared with those in the wild type. There was no difference between the nappa:GFP and wild type lines with respect to heart rate, overall size, ejection volume, and fractional shortening. Thus the excess expression of GFP in this transgenic line seemed to exert no detrimental effects on zebrafish hearts during the early stages. [ABSTRACT FROM AUTHOR]

Published

2011

25. Isolation of the Atlantic salmon β-actin promoter and its use to drive expression in salmon cells in culture and in transgenic zebrafish

Author

Cornejo, Isabel, Sepúlveda, Francisco V., Kibenge, Frederick S.B., and Young, Juan I.

Subjects

*ATLANTIC salmon, *TRANSGENIC fish, *DISEASE susceptibility, *FISH farming, *FISH genetics, *TRANSGENES

Abstract

Abstract: The application of genetic modification offers considerable opportunities for more efficient and more effective fish aquaculture. Susceptibility to infectious diseases and limitations in growth rates could be successfully tackled by the application of transgenic technology. Acceptance of transgenic technology applied to commercial fish has to surmount technical difficulties, regulatory barriers and public acceptance concerns. It seems desirable to implement transgenesis strategies that cause the least qualitative and quantitative alterations in the genetic composition of the resulting enhanced fish. With Atlantic salmon being the most important farmed fish worldwide, it seemed of interest to obtain genomic sequences from this species capable of directing autogenic expression of selected transgenes. We now report the isolation of the β-actin promoter from genomic DNA of Atlantic salmon locally produced in Chile. The activity of the promoter was demonstrated ex vivo in cultured salmon cells, as well as in vivo in transgenic fish. Transiently transfected CHSE-214 cells exhibited constitutive expression of reporter constructs driven by the cloned salmon β-actin genomic region. The suitability of the Atlantic salmon β-actin promoter to drive expression of the fluorescent protein EGFP in transgenic zebrafish was demonstrated. Germline transmission of the transgenes suggests that this promoter could be safely applied into fish transgenesis without health concerns. The isolation of functionally competent β-actin promoter from Atlantic salmon opens the way for its use in autogenic transgenesis in this commercially important salmonid species. [ABSTRACT FROM AUTHOR]

Published

2010

26. Transposon transgenesis in Xenopus

Author

Yergeau, Donald A., Kelley, Clair M., Zhu, Haiqing, Kuliyev, Emin, and Mead, Paul E.

Subjects

*TRANSGENE expression, *XENOPUS laevis, *TRANSPOSONS, *MESSENGER RNA, *TRANSGENIC animals, *FROGS as laboratory animals, *GERM cells

Abstract

Abstract: Transposon-mediated integration strategies in Xenopus offer simple and robust methods for the generation of germline transgenic animals. Co-injection of fertilized one-cell embryos with plasmid DNA harboring a transposon transgene and synthetic mRNA encoding the cognate transposase enzyme results in mosaic integration of the transposon at early cleavage stages that are frequently passed through the germline in the adult animal. Micro-injection of fertilized embryos is a routine procedure used by many laboratories that use Xenopus as a developmental model and, as such, the transposon transgenesis method can be performed without additional equipment or specialized methodologies. The methods for injecting Xenopus embryos are well documented in the literature so here we provide a step-by-step guide to other aspects of transposon transgenesis, including screening mosaic founders for germline transmission of the transgene and general husbandry considerations related to management of populations of transgenic frogs. [Copyright &y& Elsevier]

Published

2010

27. Transgenic zebrafish models of neurodegenerative diseases.

Author

Sager, Jonathan, Bai, Qing, and Burton, Edward

Subjects

*LOGPERCH, *TRANSGENIC fish, *CENTRAL nervous system diseases, *NEURODEGENERATION, *BIOCHEMICAL variation, *FISH as laboratory animals

Abstract

Since the introduction of the zebrafish as a model for the study of vertebrate developmental biology, an extensive array of techniques for its experimental manipulation and analysis has been developed. Recently it has become apparent that these powerful methodologies might be deployed in order to elucidate the pathogenesis of human neurodegenerative diseases and to identify candidate therapeutic approaches. In this article, we consider evidence that the zebrafish central nervous system provides an appropriate setting in which to model human neurological disease and we review techniques and resources available for generating transgenic models. We then examine recent publications showing that appropriate phenotypes can be provoked in the zebrafish through transgenic manipulations analogous to genetic abnormalities known to cause human tauopathies, polyglutamine diseases or motor neuron degenerations. These studies show proof of concept that findings in zebrafish models can be applicable to the pathogenic mechanisms underlying human diseases. Consequently, the prospects for providing novel insights into neurodegenerative diseases by exploiting transgenic zebrafish models and discovery-driven approaches seem favorable. [ABSTRACT FROM AUTHOR]

Published

2010

28. Calcium Signaling in the Cerebellar Radial Glia and Its Association with Morphological Changes during Zebrafish Development.

Author

Pereida-Jaramillo, Elizabeth, Gómez-González, Gabriela B., Espino-Saldaña, Angeles Edith, and Martínez-Torres, Ataúlfo

Subjects

*CEREBELLAR cortex, *CALCIUM, *BRACHYDANIO, *MOTOR ability, *NEURAL development

Abstract

Radial glial cells are a distinct non-neuronal cell type that, during development, span the entire width of the brain walls of the ventricular system. They play a central role in the origin and placement of neurons, since their processes form structural scaffolds that guide and facilitate neuronal migration. Furthermore, glutamatergic signaling in the radial glia of the adult cerebellum (i.e., Bergmann glia), is crucial for precise motor coordination. Radial glial cells exhibit spontaneous calcium activity and functional coupling spread calcium waves. However, the origin of calcium activity in relation to the ontogeny of cerebellar radial glia has not been widely explored, and many questions remain unanswered regarding the role of radial glia in brain development in health and disease. In this study we used a combination of whole mount immunofluorescence and calcium imaging in transgenic (gfap-GCaMP6s) zebrafish to determine how development of calcium activity is related to morphological changes of the cerebellum. We found that the morphological changes in cerebellar radial glia are quite dynamic; the cells are remarkably larger and more elaborate in their soma size, process length and numbers after 7 days post fertilization. Spontaneous calcium events were scarce during the first 3 days of development and calcium waves appeared on day 5, which is associated with the onset of more complex morphologies of radial glia. Blockage of gap junction coupling inhibited the propagation of calcium waves, but not basal local calcium activity. This work establishes crucial clues in radial glia organization, morphology and calcium signaling during development and provides insight into its role in complex behavioral paradigms. [ABSTRACT FROM AUTHOR]

Published

2021

29. Targeted gene expression by the Gal4-UAS system in zebrafish.

Author

Asakawa, Kazuhide and Kawakami, Koichi

Subjects

*ZEBRA danio, *TRANSGENIC fish, *ORYZIAS latipes, *FISH genetics, *GENE expression, *DROSOPHILA, *TRANSGENE expression

Abstract

Targeted gene expression by the Gal4-UAS system is a powerful methodology for analyzing function of genes and cells in vivo and has been extensively used in genetic studies in Drosophila. On the other hand, the Gal4-UAS system had not been applied effectively to vertebrate systems for a long time mainly due to the lack of an efficient transgenesis method. Recently, a highly efficient transgenesis method using the medaka fish Tol2 transposable element was developed in zebrafish. Taking advantage of the Tol2 transposon system, we and other groups developed the Gal4 gene trap and enhancer trap methods and established various transgenic fish expressing Gal4 in specific cells. By crossing such Gal4 lines with transgenic fish lines harboring various reporter genes and effector genes downstream of UAS (upstream activating sequence), specific cells can be visualized and manipulated in vivo by targeted gene expression. Thus, the Gal4 gene trap and enhancer trap approaches together with various UAS lines should be important tools for investigating roles of genes and cells in vertebrates. [ABSTRACT FROM AUTHOR]

Published

2008

30. Transposon-mediated gene trapping in zebrafish

Author

Kotani, Tomoya, Nagayoshi, Saori, Urasaki, Akihiro, and Kawakami, Koichi

Subjects

*ZEBRA danio, *GREEN fluorescent protein, *GENETIC mutation, *CARRIER proteins

Abstract

Abstract: The Tol2 transposon system can create chromosomal insertions in the zebrafish germ lineage very efficiently. We constructed a Tol2-based gene trap vector, T2KSAG, which contains a splice accepter, the GFP gene and the polyA signal. In the pilot screen for gene trapping using T2KSAG, we identified 38 fish lines expressing GFP in specific organs and tissues. In the SAGp53A line, GFP is expressed in the forebrain and midbrain, and the insertion of the gene trap construct captured a transcript of the kab gene encoding a zebrafish homolog of the human KARP (Ku86 autoantigen related protein)-binding protein (KAB). In the SAGm18B line, GFP is expressed in the central nervous system, and the insertion captured a transcript of a gene for succinyl CoA:3-oxoacid CoA-transferase (SCOT). Here, we describe how we performed the gene trap screen and characterized the gene trap insertions and will discuss the outcome of the pilot screen. [Copyright &y& Elsevier]

Published

2006

31. Cracking the genome’s second code: Enhancer detection by combined phylogenetic footprinting and transgenic fish and frog embryos

Author

Allende, Miguel L., Manzanares, Miguel, Tena, Juan J., Feijóo, Carmen G., and Gómez-Skarmeta, José Luis

Subjects

*TRANSGENIC fish, *ZEBRA danio, *GENE expression, *XENOPUS laevis

Abstract

Abstract: Genes involved in vertebrate development are unusually enriched for highly conserved non-coding sequence elements. These regions are readily detected in silico, by genome-wide sequence comparisons between different vertebrates, from mammals to fish (phylogenetic footprinting). It follows that sequence conservation must be the result of positive selection for an essential physiological role. An obvious possibility is that these conserved sequences possess regulatory or structural functions important for gene expression and, thus, an in vivo assay becomes necessary. We have developed a rapid testing system using zebrafish and Xenopus laevis embryos that allows us to assign transcriptional regulatory functions to conserved non-coding sequence elements. The sequences are cloned into a vector containing a minimal promoter and the GFP reporter, and are assayed for their putative cis-regulatory activity in zebrafish or Xenopus transgenic experiments. Vectors used include plasmid DNA and the Tol2 transposon system in fish and X. laevis. We have followed this logic to detect and analyze conserved elements in an intergenic region present in the Iroquois (Irx) gene clusters of zebrafish, Xenopus tropicalis, Fugu rubripes and mouse. We have assayed ∼50 of these conserved elements and shown that the majority behave as modular positive regulatory elements (enhancers) that contribute to specific temporal and spatial domains that are part of the endogenous gene expression pattern. Moreover, comparison of the activity of cognate Irx enhancers from different organisms demonstrates that conservation of sequence is accompanied by in vivo functional conservation across species. Finally, for some of the most conserved elements, we have been able to identify a critical core sequence, essential for correct enhancer function. [Copyright &y& Elsevier]

Published

2006

32. Evolução cariogenômica em peixes recifais das famílias Acanthuridae (Acanthuriformes) e Holocentridae (Holocentriformes)

Author

Fernandes, Maria Aparecida, Motta Neto, Clóvis Coutinho da, Costa, Gideão Wagner Werneck Felix da, Scortecci, Katia Castanho, Lima Filho, Paulo Augusto de, and Molina, Wagner Franco

Subjects

CIENCIAS BIOLOGICAS [CNPQ], Citogenética populacional, FISH, Tol2, Histonas, DNAr, Evolução cariotípica, Rex3

Abstract

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) As famílias Acanthuridae e Holocentridae constituem grupos de peixes marinhos com alta representatividade em recifes de corais, onde desempenham importantes funções ecológicas no equilíbrio ambiental. Aspectos biológicos, filogeográficos e taxonômicos destas famílias são amplamente conhecidos, contudo, seus aspectos citogenéticos são incipientes. Com vistas a ampliar o conhecimento acerca da evolução cariotípica e possíveis variações citogenéticas interpopulacionais foram analisadas quatro espécies de Acanthuridae (A. coeruleus, A. bahianus e A. chirurgus – Atlântico Ocidental; e Acanthurus triostegus - Índico) e três espécies de Holocentridae (Myripristis jacobus, Holocentrus adscensionis – Atlântico Ocidental; e Sargocentron rubrum – Índico). As análises utilizaram técnicas citogenéticas convencionais, coloração com fluorocromos base-específicos e mapeamento de sequências repetitivas DNAr 18S, DNAr 5S, histonas H3 e H2B-H2A, microssatélites (GA)15, transposons Tol2 e retrotransposon Rex3, através da hibridação fluorescente in situ. Entre os Acanthuridae, A. triostegus apresentou um padrão cariotípico considerado basal para Percomorpha (2n=48; NF=48), enquanto as espécies do Atlântico Ocidental exibiram uma divergência cariotípica sequencial associada à divergência filogenética. Variação interpopulacional de sítios DNAr 18S foi identificada entre populações de A. coeruleus do Atlântico Ocidental e do Caribe. O mapeamento de sítios DNAr 18S, DNAr 5S, DNAhis H2B-H2A e H3 mostraram padrões microestruturais no gênero Acanthurus. As espécies de holocentrídeos M. jacobus e S. rubrum apresentaram 2n=48 cromossomos acrocêntricos, enquanto H. adscensionis, 2n=50 (2m+6sm+16st+26a). Neste grupo os sítios DNAr 18S e 5S constituem marcadores citotaxonômicos discriminantes, onde elementos Rex e repetições microssatélites (GA)15 se mostraram co-localizados. Apesar das amplas distâncias geográficas não foram evidenciadas variações interpopulacionais em M. jacobus e H. adscensionis. Os resultados obtidos, indicaram uma evolução horotélica e mais diversificada nas espécies de Acanthurus do Atlântico, com diversificação mais recente, em relação a A. triostegus, pertencente ao Indo-Pacífico, centro de origem deste grupo. Enquanto a presença de cariótipos 2n=48a em espécies de Holocentrinae (Sargocentron) e Myripristinae (Myripristis), destaca o compartilhamento de uma condição conservada em Percomorpha e sugere uma condição ancestral para a Holocentriformes. Ambos os grupos revelam divergências filogenéticas, mas também a manutenção de homeologias cromossômicas, e eventuais indícios de variação populacional (A. coeruleus), destacando a importância das análises citogenômicas correlacionadas aos padrões biogeográficos na compreensão das mudanças cariotípicas em grupos marinhos. The families Acanthuridae and Holocentridae are groups of marine fish with high representation in coral reefs, where they play important ecological functions in environmental balance. Biological, phylogeographic and taxonomic aspects of these families are widely known, however, their cytogenetic aspects are incipient. In order to increase the knowledge about karyotypic evolution and possible interpopulation cytogenetic variations, four species of Acanthuridae (A. coeruleus, A. bahianus and A. chirurgus - Western Atlantic; and Acanthurus triostegus - Indian) and three Holocentridae species were analyzed. (Myripristis jacobus, Holocentrus adscensionis - West Atlantic; and Sargocentron rubrum – Indian Ocean). The analyzes used conventional cytogenetic techniques, base-specific fluorochrome staining and repetitive sequence mapping of 18S rDNA, 5S rDNA, histones H3 and H2B-H2A, microsatellites (GA)15, Tol2 transposons and Rex3 retrotransposon through fluorescent in situ hybridization. Between Acanthuridae, A. triostegus showed a karyotypic pattern considered basal for Percomorpha (2n = 48; NF = 48), while West Atlantic species exhibited a sequential karyotypic divergence associated with phylogenetic divergence. Interpopulation variation of 18S rDNA sites was identified between A. coeruleus populations of the Western Atlantic and Caribbean. The mapping of 18S rDNA, 5S rDNA, DNAhis H2B-H2A and H3 sites showed microstructural patterns in the Acanthurus genus. Holocentric species M. jacobus and S. rubrum presented 2n = 48 acrocentric chromosomes, while H. adscensionis, 2n = 50 (2m + 6sm + 16st + 26a). In this group the 18S and 5S rDNA sites constitute discriminating cytotaxonomic markers, where Rex elements and microsatellite repeats (GA)15 were co-located. Despite the wide geographical distances, no interpopulation variations were observed in M. jacobus and H. adscensionis. The results indicated a more diverse horotelic evolution in Atlantic Acanthurus species, with latest diversification, in relation to A. triostegus, belonging to the Indo-Pacific, center of origin of this group. While the presence of 2n = 48a karyotypes in Holocentrinae (Sargocentron) and Myripristinae (Myripristis) species, highlights the sharing of a conserved condition in Percomorpha and suggests an ancestral condition for the Holocentriformes. Both groups reveal phylogenetic divergences, but also the maintenance of chromosomal homeologies, and possible signs of population variation (A. coeruleus), highlighting the importance of cytogenomic analyzes correlated with biogeographic patterns in understanding karyotypic changes in marine groups.

Published

2019

33. Génération de lignées de poissons-zèbres par génie génétique dans le cadre de l'étude du gène C9orf72

Author

Emond, Alexandre and Drapeau, Pierre

Subjects

knock-out, transgénique, Tol2, Sclérose latérale amyotrophique, Poisson-zèbre, C9orf72, knockout, SLA, ALS, Amyotrophic lateral sclerosis, CRISPR/Cas9, Zebrafish

Abstract

Une mutation intronique du gène C9orf72 est une cause prépondérante de la sclérose latérale amyotrophique (SLA), une maladie neurodégénérative des motoneurones de l'adulte. Cependant, la fonction de C9orf72 demeure incertaine. Heureusement, les modèles animaux sont une excellente façon d’en faire l’étude in vivo dans des systèmes complexes. Conséquemment, pour étudier la fonction et l’expression de C9orf72, nous avons tenté de développer 3 lignées de poissons-zèbres pour lesquelles des étiquettes 12xhistidines ou eGFP devaient être insérés par CRISPR/Cas9 près du N et C terminal de C9orf72. Surprenamment, ces modifications furent mal tolérées durant le développement, empêchant l’obtention de sujets F0 adultes en mesure de transmettre un tag inséré. Pour étudier l’effet d’une invalidation persistante de C9orf72 chez le poisson, une lignée présentant une délétion près du N-terminal menant à un knock-out fonctionnel de C9orf72 a été développée des poissons injectés pour l’insertion de 12xHistidine. Nos résultats préliminaires suggèrent un phénotype au niveau de la mobilité et de la mortalité. De plus, deux lignées de poissons transgéniques exprimant le gène C9orf72 humain, seul ou marqué au eGFP, ont été développées par Tol2 pour étudier la localisation de C9orf72 et l’effet de sa surexpression. Ces lignées, une fois validées et caractérisées, permettront d’ouvrir de nouvelles perspectives pour caractériser la fonction et l’expression de C9orf72 ainsi que la modélisation de la SLA. Il semble donc que la perte d'un allèle ou une haplo-insuffisance du gène C9orf72 est mal tolérée, mais que la transgenèse, par addition d'un troisième allèle, permettrait l'étude de C9orf72 in vivo., An intronic mutation in the gene C9orf72 is the most prevailing cause of Amyotrophic lateral sclerosis (ALS), an adult onset neurodegenerative disease of the motoneurons. Despite this, the function of C9orf72 remains uncertain. As animal models are an excellent way to study gene function and expression in vivo in complex systems, by using the CRISPR/Cas9 system we attempted to generate 3 lines of zebrafishes for which 12xhistidines or eGFP tags were inserted near either the N or C terminal of C9orf72. Surprisingly, these modifications were ill tolerated during the development, preventing us from obtaining F0 specimens able to pass on the inserted tag for any of our lines. To study the effects of a persistent knock-out of C9orf72 in the zebrafish, a line with deletions near the N-terminal, resulting in a functional knock-out of C9orf72, was obtained from the fishes injected for the 12xHistidine insertion. Preliminary results indicate a higher mortality rate and decrease mobility phenotypes. Additionally, two transgenic zebrafish lines expressing human C9orf72 alone or with eGFP were generated, using Tol2 in order to study C9orf72 localisation and the effect of its overexpression namely on morphology, development and the central nervous system. These lines, once validated and characterised will open new avenues to determine the role and subcellular localization of C9orf72, as well as for modeling ALS. Thus, it appears that the loss of an allele or haploinsufficiency of the C9orf72 gene is ill tolerated, but that transgenesis, by addition of a third allele, may allow for in vivo study of C9orf72.

Published

2019

34. Genome-Wide Analysis of Transposon and Retroviral Insertions Reveals Preferential Integrations in Regions of DNA Flexibility

Author

Helen Ngoc Bao Quach, Shijie Tao, Matthew C. LaFave, Karuna Sampath, Gaurav K. Varshney, Adita Joshi, Shawn M. Burgess, and Pavle Vrljicak

Subjects

0301 basic medicine, Transposable element, Tn3 transposon, transposon, MMLV, Virus Integration, vertebrate genomes, Retrotransposon, Genomics, Biology, QH426-470, Investigations, Genome, gene targeting, 03 medical and health sciences, Mice, Tol2, Genetics, Animals, Nucleotide Motifs, Ac/Ds, integrations, Molecular Biology, QH426, Genetics (clinical), mouse, Zebrafish, Repetitive Sequences, Nucleic Acid, Base Sequence, Transposon integration, Sleeping Beauty transposon system, ES cells, retrovirus, Mutagenesis, Insertional, 030104 developmental biology, Retroviridae, DNA Transposable Elements, Moloney murine leukemia virus, genome engineering, Genetic Engineering, functional genomics, genome-wide analysis, Genome-Wide Association Study

Abstract

DNA transposons and retroviruses are important transgenic tools for genome engineering. An important consideration affecting the choice of transgenic vector is their insertion site preferences. Previous large-scale analyses of Ds transposon integration sites in plants were done on the basis of reporter gene expression or germ-line transmission, making it difficult to discern vertebrate integration preferences. Here, we compare over 1300 Ds transposon integration sites in zebrafish with Tol2 transposon and retroviral integration sites. Genome-wide analysis shows that Ds integration sites in the presence or absence of marker selection are remarkably similar and distributed throughout the genome. No strict motif was found, but a preference for structural features in the target DNA associated with DNA flexibility (Twist, Tilt, Rise, Roll, Shift, and Slide) was observed. Remarkably, this feature is also found in transposon and retroviral integrations in maize and mouse cells. Our findings show that structural features influence the integration of heterologous DNA in genomes, and have implications for targeted genome engineering.

Published

2016

35. Recent developments in transposon-mediated gene therapy

Author

Mario Di Matteo, Marinee Chuah, Thierry VandenDriessche, Eyayu Kefyalew Belay, Division of Gene Therapy & Regenerative Medicine, and Cell Biology and Histology

Subjects

transposon, Genetic enhancement, Virus Integration, Clinical Biochemistry, Genetic Vectors, Computational biology, Biology, Gene delivery, Viral vector, Cell therapy, 03 medical and health sciences, 0302 clinical medicine, Tol2, Drug Discovery, Sleeping Beauty, Humans, Progenitor cell, Induced pluripotent stem cell, 030304 developmental biology, Pharmacology, Genetics, 0303 health sciences, Clinical Trials as Topic, Mesenchymal stem cell, PiggyBac, Gene Therapy, Genetic Therapy, 3. Good health, 030220 oncology & carcinogenesis, DNA Transposable Elements, Stem cell

Abstract

INTRODUCTION: The continuous improvement of gene transfer technologies has broad implications for stem cell biology, gene discovery, and gene therapy. Although viral vectors are efficient gene delivery vehicles, their safety, immunogenicity and manufacturing challenges hamper clinical progress. In contrast, non-viral gene delivery systems are less immunogenic and easier to manufacture. AREAS COVERED: In this review, we explore the emerging potential of transposons in gene and cell therapy. The safety, efficiency, and biology of novel hyperactive Sleeping Beauty (SB) and piggyBac (PB) transposon systems will be highlighted for ex vivo gene therapy in clinically relevant adult stem/progenitor cells, particularly hematopoietic stem cells (HSCs), mesenchymal stem cells (MSCs), myoblasts, and induced pluripotent stem (iPS) cells. Moreover, efforts toward in vivo transposon-based gene therapy will be discussed. EXPERT OPINION: The latest generation SB and PB transposons currently represent some of the most attractive systems for stable non-viral genetic modification of primary cells, particularly adult stem cells. This paves the way toward the use of transposons as a non-viral gene therapy approach to correct hereditary disorders including those that affect the hematopoietic system. The development of targeted integration into "safe harbor" genetic loci may further improve their safety profile.

Published

2015

36. Preclinical and clinical advances in transposon-based gene therapy

Author

Marinee Chuah, Yoke Chin Chai, Thierry VandenDriessche, Jaitip Tipanee, Faculty of Sciences and Bioengineering Sciences, Basic (bio-) Medical Sciences, Faculty of Medicine and Pharmacy, and Division of Gene Therapy & Regenerative Medicine

Subjects

0301 basic medicine, transposon, SLEEPING-BEAUTY-TRANSPOSON, Cellular differentiation, Genetic enhancement, Review Article, Biochemistry, Muscular Dystrophies, Tol2, Neoplasms, Sleeping Beauty, Muscular Dystrophies/genetics, Genetic Therapy/methods, NUCLEAR POLYHEDROSIS-VIRUS, Transgenes, Induced pluripotent stem cell, Review Articles, Transposase, PIGGYBAC TRANSPOSON, Clinical Trials as Topic, Mucopolysaccharidoses/genetics, piggyBac, Gene Transfer Techniques, Transfection, MODIFIED T-CELLS, Neoplasms/genetics, CHIMERIC ANTIGEN RECEPTOR, Hemophilia A/genetics, Life Sciences & Biomedicine, PLURIPOTENT STEM-CELLS, Transposable element, Biochemistry & Molecular Biology, induced pluripotent stem cells, Biophysics, Computational biology, Anemia, Sickle Cell, Biology, PHENOTYPIC CORRECTION, Hemophilia A, Viral vector, TRANSGENE EXPRESSION, 03 medical and health sciences, stem cells, Animals, Humans, Molecular Biology, Gene, Science & Technology, Cell Biology, Genetic Therapy, Mucopolysaccharidoses, Anemia, Sickle Cell/genetics, 030104 developmental biology, DNA Transposable Elements, EXPRESSION IN-VIVO, TYROSINEMIA TYPE-I

Abstract

Transposons derived from Sleeping Beauty (SB), piggyBac (PB), or Tol2 typically require cotransfection of transposon DNA with a transposase either as an expression plasmid or mRNA. Consequently, this results in genomic integration of the potentially therapeutic gene into chromosomes of the desired target cells, and thus conferring stable expression. Non-viral transfection methods are typically preferred to deliver the transposon components into the target cells. However, these methods do not match the efficacy typically attained with viral vectors and are sometimes associated with cellular toxicity evoked by the DNA itself. In recent years, the overall transposition efficacy has gradually increased by codon optimization of the transposase, generation of hyperactive transposases, and/or introduction of specific mutations in the transposon terminal repeats. Their versatility enabled the stable genetic engineering in many different primary cell types, including stem/progenitor cells and differentiated cell types. This prompted numerous preclinical proof-of-concept studies in disease models that demonstrated the potential of DNA transposons for ex vivo and in vivo gene therapy. One of the merits of transposon systems relates to their ability to deliver relatively large therapeutic transgenes that cannot readily be accommodated in viral vectors such as full-length dystrophin cDNA. These emerging insights paved the way toward the first transposon-based phase I/II clinical trials to treat hematologic cancer and other diseases. Though encouraging results were obtained, controlled pivotal clinical trials are needed to corroborate the efficacy and safety of transposon-based therapies. ispartof: BIOSCIENCE REPORTS vol:37 issue:6 ispartof: location:England status: published

Published

2017

37. Development of enhancer-trapping and -detection vectors mediated by theTol2transposon in zebrafish

Author

Shuheng Chan, Yatong Sang, Saisai Wang, Yali Wang, Chengyi Song, Cai Chen, Dan Shen, and Bo Gao

Subjects

Transposable element, animal structures, lcsh:Medicine, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Tol2, Gene expression, Genetics, Vector (molecular biology), Enhancer, Molecular Biology, Zebrafish, 030304 developmental biology, 0303 health sciences, Reporter gene, biology, General Neuroscience, lcsh:R, Promoter, General Medicine, biology.organism_classification, Cell biology, Enhancer trapping, embryonic structures, Enhancer activity, General Agricultural and Biological Sciences, mCherry, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Enhancers are key transcriptional drivers of gene expression. The identification of enhancers in the genome is central for understanding gene-expression programs. Although transposon-mediated enhancer trapping (ET) is a powerful approach to the identification of enhancers in zebrafish, its efficiency varies considerably. To improve the ET efficiency, we constructedTol2-mediated ET vectors with a reporter gene (mCherry) expression box driven by four minimal promoters (Gata, Myc, Krt4 and Oct4), respectively. The ET efficiency and expression background were compared among the four promoters by zebrafish embryo injection at the one-cell stage. The results showed that the Gata minimal promoter yielded the lowest basic expression and the second-highest trapping efficiency (44.6% at 12 hpf (hour post-fertilization) and 23.1% at 72 hpf,n= 305 andn= 307). The Krt4 promoter had the highest trapping efficiency (64% at 12 hpf and 67.1% at 72 hpf,n= 302 andn= 301) and the strongest basic expression. To detect enhancer activity, chicken 5′HS4 double insulators were cloned into the two ET vectors with the Gata or Krt4 minimal promoter, flanking themCherryexpression box. The resulting detection vectors were injected into zebrafish embryos.mCherryexpression driven by the Gata promoter (about 5%,n= 301) was decreased significantly compared with that observed for embryos injected with the ET vectors (23% at 72 hpf,n= 308). These results suggest that the insulators block the genome-position effects and that this vector is fit for enhancer-activity evaluation. To assess the compatibility between the enhancers and the minimal promoters, four enhancers (CNS1, Z48, Hand2 and Hs769) were cloned upstream of the Gata or Beta-globin minimal promoter in the enhancer-activity-detection vectors. The resulting recombinant vectors were assayed by zebrafish embryo injection. We found that Z48 and CNS1 responded to the Gata minimal promoter, and that Hand2 only responded to the Beta-globin minimal promoter. In contrast, Hs769 did not respond to either the Gata or Beta-globin minimal promoters. These results suggest the existence of compatibility between enhancers and minimal promoters. This study represents a systematic approach to the discovery of optional ET and enhancer-detection vectors. We are eager to provide a superior tool for understanding functional genomics.

Published

2019

38. Enhancer Trapping and Annotation in Zebrafish Mediated with Sleeping Beauty, piggyBac and Tol2 Transposons

Author

Ferenc Mueller, Songlei Xue, Cai Chen, Yatong Sang, Shuheng Chan, Bo Gao, Yali Wang, Chengyi Song, Saisai Wang, and Dan Shen

Subjects

0301 basic medicine, Transposable element, lcsh:QH426-470, Transgene, Sleeping Beauty, Biology, Article, Germline, Green fluorescent protein, 03 medical and health sciences, 0302 clinical medicine, Tol2, Genetics, Enhancer, piggyBac, Zebrafish, Genetics (clinical), Embryo, zebrafish, biology.organism_classification, enhancer trapping, Cell biology, lcsh:Genetics, 030104 developmental biology, enhancer, 030217 neurology & neurosurgery, Function (biology)

Abstract

Although transposon-mediated enhancer trapping (ET) is successfully applied in diverse models, the efficiency of various transposon systems varies significantly, and little information is available regarding efficiency of enhancer trapping by various transposons in zebrafish. Most potential enhancers (Ens) still lack evidence of actual En activity. Here, we compared the differences in ET efficiency between sleeping beauty (SB), piggyBac (PB) and Tol2 transposons. Tol2 represented the highest germline transfer efficiencies at 55.56% (NF0 = 165), followed by SB (38.36%, NF0 = 151) and PB (32.65%, NF0 = 149). ET lines generated by the Tol2 transposon tended to produce offspring with a single expression pattern per line, while PB and SB tended to generate embryos with multiple expression patterns. In our tests, 10 putative Ens (En1⁻10) were identified by splinkerette PCR and comparative genomic analysis. Combining the GFP expression profiles and mRNA expression patterns revealed that En1 and En2 may be involved in regulation of the expression of dlx1a and dlx2a, while En6 may be involved in regulation of the expression of line TK4 transgene and rps26, and En7 may be involved in the regulation of the expression of wnt1 and wnt10b. Most identified Ens were found to be transcribed in zebrafish embryos, and their regulatory function may involve eRNAs.

Published

2018

39. Dissecting Oncogenic RAS Signaling in Melanoma Development in Genetically Engineered Zebrafish Models.

Author

Badrock AP and Hurlstone A

Subjects

Animals, Animals, Genetically Modified, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic metabolism, Humans, Melanoma genetics, Melanoma metabolism, Zebrafish, ras Proteins genetics, Cell Transformation, Neoplastic pathology, Disease Models, Animal, Melanoma pathology, Mutation, Transgenes genetics, ras Proteins metabolism

Abstract

Hyper-activation of RAS signaling pathways causes cancer, including melanoma, and RAS signaling pathways have been successfully targeted using drugs for patient benefit. The available drugs alone cannot cure cancer, however, and so investigation continues into RAS signaling pathways, with the goal of identifying further actionable targets. The zebrafish can be used to model human malignancies, and genetic modification of zebrafish to incorporate selective disease-associated genetic alterations is practicable. The following article describes the methods we are using to genetically modify zebrafish in order to dissect oncogenic RAS signaling in melanoma development.

Published

2021

40. Laboratory Culture and Mutagenesis of Amphioxus (Branchiostoma floridae).

Author

Holland LZ and Li G

Subjects

Animal Feed analysis, Animals, Breeding, Female, Lancelets growth & development, Lancelets physiology, Male, Transcription Activator-Like Effector Nucleases genetics, Aquaculture methods, Lancelets genetics, Mutagenesis

Abstract

Cephalochordates (amphioxus) are invertebrate chordates closely related to vertebrates. As they are evolving very slowly, they are proving to be very appropriate for developmental genetics studies aimed at understanding how vertebrates evolved from their invertebrate ancestors. To date, techniques for gene knockdown and overexpression have been developed, but methods for continuous breeding cultures and generating germline mutants have been developed only recently. Here we describe methods for continuous laboratory breeding cultures of the cephalochordate Branchiostoma floridae and the TALEN and Tol2 methods for mutagenesis. Included are strategies for analyzing the mutants and raising successive generations to obtain homozygotes. These methods should be applicable to any warm water species of cephalochordates with a relatively short generation time of 3-4 months and a life span of 3 years or more.

Published

2021

41. Microinjection for Transgenesis and Genome Editing in Threespine Sticklebacks

Author

Priscilla A. Erickson, Nicholas A. Ellis, and Craig Miller

Subjects

0301 basic medicine, Candidate gene, Microinjections, 1.1 Normal biological development and functioning, General Chemical Engineering, Computational biology, Genome, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Issue 111, Genome editing, TALEN, Tol2, Underpinning research, Genetics, microinjection, CRISPR, genome editing, Psychology, Animals, Gene, Gasterosteus aculeatus, Gene Editing, Transcription activator-like effector nuclease, biology, General Immunology and Microbiology, Cas9, stickleback, General Neuroscience, Human Genome, Gene Transfer Techniques, Stickleback, biology.organism_classification, Smegmamorpha, 030104 developmental biology, Cognitive Sciences, enhancer, Biochemistry and Cell Biology, Biotechnology, Developmental Biology

Abstract

The threespine stickleback fish has emerged as a powerful system to study the genetic basis of a wide variety of morphological, physiological, and behavioral phenotypes. The remarkably diverse phenotypes that have evolved as marine populations adapt to countless freshwater environments, combined with the ability to cross marine and freshwater forms, provide a rare vertebrate system in which genetics can be used to map genomic regions controlling evolved traits. Excellent genomic resources are now available, facilitating molecular genetic dissection of evolved changes. While mapping experiments generate lists of interesting candidate genes, functional genetic manipulations are required to test the roles of these genes. Gene regulation can be studied with transgenic reporter plasmids and BACs integrated into the genome using the Tol2 transposase system. Functions of specific candidate genes and cis-regulatory elements can be assessed by inducing targeted mutations with TALEN and CRISPR/Cas9 genome editing reagents. All methods require introducing nucleic acids into fertilized one-cell stickleback embryos, a task made challenging by the thick chorion of stickleback embryos and the relatively small and thin blastomere. Here, a detailed protocol for microinjection of nucleic acids into stickleback embryos is described for transgenic and genome editing applications to study gene expression and function, as well as techniques to assess the success of transgenesis and recover stable lines.

Published

2016

42. Rapid BAC selection for tol2-mediated transgenesis in zebrafish

Author

Stefan Schulte-Merker, Jeroen Bussmann, and Hubrecht Institute for Developmental Biology and Stem Cell Research

Subjects

Chromosomes, Artificial, Bacterial, mice, tol2, Transgene, Genetic Vectors, Green Fluorescent Proteins, Transposases, integration, Polymerase Chain Reaction, Recombineering, Bacterial Proteins, bacterial artificial chromosomes, circuits, expression, Escherichia coli, fluorescent protein, Animals, RNA, Messenger, Transgenes, Experimental Zoology, gene, Molecular Biology, Gene, Zebrafish, In Situ Hybridization, DNA Primers, Recombination, Genetic, Genetics, Bacterial artificial chromosome, biology, food and beverages, Colocalization, biology.organism_classification, Cell biology, Transgenesis, Luminescent Proteins, genomic DNA, Genetic Techniques, Experimentele Zoologie, WIAS, embryos, Developmental Biology

Abstract

The generation of zebrafish transgenic lines that express specific fluorophores in a cell- or tissue-specific manner is an important technique that takes full advantage of the optical clarity of the embryo. Identifying promoter fragments that faithfully recapitulate endogenous expression patterns and levels is often difficult and using large genomic DNA fragments, such as bacterial artificial chromosomes (BACs), makes the process of transgenesis less reliable. Here we provide a detailed protocol that allows for BAC selection and subsequent rapid modification through recombineering in Escherichia coli, resulting in BACs that can be injected into zebrafish embryos and, aided by tol2-mediated transgenesis, reliably yield stable transgenic lines. A number of BACs can be prepared in parallel, and injection of the BACs containing CFP/YFP/RFP or Gal4 cassettes allows for immediate testing of whether a particular BAC will yield the desired result. Furthermore, since injected embryos often show widespread expression, recombineered BACs provide an alternative to two-color in situ hybridizations: BACs injected into embryos of a different transgenic reporter line thus enable in vivo colocalization studies. Using this protocol, we have generated 66 stable lines for 23 different genes, with an average transgenesis rate above 10%. Importantly, we provide evidence that BAC size shows no apparent correlation to the transgenesis rate achieved and that there are no severe position effects. [KEYWORDS: Animals, Bacterial Proteins/metabolism, Chromosomes, Artificial, Bacterial/ genetics, DNA Primers/genetics, Escherichia coli/metabolism, Genetic Techniques, Genetic Vectors, Green Fluorescent Proteins/metabolism, In Situ Hybridization, Luminescent Proteins/metabolism, Polymerase Chain Reaction, RNA, Messenger/ metabolism, Recombination, Genetic, Transgenes, Transposases/ metabolism, Zebrafish/ genetics]

Published

2011

43. DNA Transposons: Nature and Applications in Genomics

Author

Jose L. Garcia-Perez and Martin Muñoz-Lopez

Subjects

Genetics, Transposable element, piggyBac, Mechanism (biology), Retrotransposon, Genomics, Computational biology, Biology, Genome, Article, transgenesis, Insertional mutagenesis, DNA transposons, chemistry.chemical_compound, Tol2, chemistry, Tc1/mariner elements, Sleeping Beauty, insertional mutagenesis, Transposable elements, Gene, Genetics (clinical), DNA

Abstract

Repeated DNA makes up a large fraction of a typical mammalian genome, and some repetitive elements are able to move within the genome (transposons and retrotransposons). DNA transposons move from one genomic location to another by a cut-and-paste mechanism. They are powerful forces of genetic change and have played a significant role in the evolution of many genomes. As genetic tools, DNA transposons can be used to introduce a piece of foreign DNA into a genome. Indeed, they have been used for transgenesis and insertional mutagenesis in different organisms, since these elements are not generally dependent on host factors to mediate their mobility. Thus, DNA transposons are useful tools to analyze the regulatory genome, study embryonic development, identify genes and pathways implicated in disease or pathogenesis of pathogens, and even contribute to gene therapy. In this review, we will describe the nature of these elements and discuss recent advances in this field of research, as well as our evolving knowledge of the DNA transposons most widely used in these studies.

Published

2010

44. Stable and bicistronic expression of two genes in somite- and lateral plate-derived tissues to study chick limb development

Author

Adeline Bourgeois, Benjamin Charvet, Joana Esteves de Lima, Sigmar Stricker, Koichi Kawakami, Delphine Duprez, Laboratoire de Biologie du Développement (LBD), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Formation et réparation des muscles et des tendons = Muscle and tendon formation and repair (LBD-E02), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM), National Institute of Genetics (NIG), Institue for Chemistry and Biochemistry, and HAL-UPMC, Gestionnaire

Subjects

Apical ectodermal ridge, Mesoderm, Myosin Light Chains, Limb Buds, 2A peptide, Organogenesis, Genetic Vectors, Green Fluorescent Proteins, Connective tissue, Chick Embryo, Biology, Muscle Development, Chick, Limb, Bone and Bones, 03 medical and health sciences, Limb bud, Tol2, [SDV.BDD] Life Sciences [q-bio]/Development Biology, medicine, [SDV.BBM] Life Sciences [q-bio]/Biochemistry, Molecular Biology, Myocyte, Limb development, Animals, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Muscle, Skeletal, Promoter Regions, Genetic, Cyclin-Dependent Kinase Inhibitor p57, [SDV.BDD]Life Sciences [q-bio]/Development Biology, Tendon, 030304 developmental biology, 0303 health sciences, Electroporation, Methodology Article, 030302 biochemistry & molecular biology, Extremities, Anatomy, Actins, Cell biology, Somite, medicine.anatomical_structure, Somites, Muscle, Developmental Biology

Abstract

Background Components of the limb musculoskeletal system have distinct mesoderm origins. Limb skeletal muscles originate from somites, while the skeleton and attachments (tendons and connective tissues) derive from limb lateral plate. Despite distinct mesoderm origins, the development of muscle, skeleton and attachments is highly coordinated both spatially and temporally to ensure complete function of the musculoskeletal system. A system to study molecular interactions between somitic-derived tissues (muscles) and lateral-plate-derived tissues (skeletal components and attachments) during limb development is missing. Results We designed a gene delivery system in chick embryos with the ultimate aim to study the interactions between the components of the musculoskeletal system during limb development. We combined the Tol2 genomic integration system with the viral T2A system and developed new vectors that lead to stable and bicistronic expression of two proteins at comparable levels in chick cells. Combined with limb somite and lateral plate electroporation techniques, two fluorescent reporter proteins were co-expressed in stoichiometric proportion in the muscle lineage (somitic-derived) or in skeleton and their attachments (lateral-plate-derived). In addition, we designed three vectors with different promoters to target muscle cells at different steps of the differentiation process. Conclusion Limb somite electroporation technique using vectors containing these different promoters allowed us to target all myogenic cells, myoblasts or differentiated muscle cells. These stable and promoter-specific vectors lead to bicistronic expression either in somitic-derived myogenic cells or lateral plate-derived cells, depending on the electroporation sites and open new avenues to study the interactions between myogenic cells and tendon or connective tissue cells during limb development.

Published

2015

45. The effect of excess expression of GFP in a novel heart-specific green fluorescence zebrafish regulated by nppa enhancer at early embryonic development

Author

Huang, Wen, Deng, Yun, Dong, Wei, Yuan, Wuzhou, Wan, Yongqi, Mo, Xiaoyan, Li, Yongqing, Wang, Zequn, Wang, Yuequn, Ocorr, Karen, Zhang, Bo, Lin, Shuo, and Wu, Xiushan

Published

2011

46. Study of transposon-mediated cell pool and cell line generation in CHO cells

Author

Balasubramanian, Sowmya, Wurm, Florian Maria, and Hacker, David

Subjects

Tol2, transposon, transfection, piggyBac, cell pool, Sleeping Beauty, CHO cells, cell line, recombinant protein

Abstract

The goal of this thesis was to evaluate the use of artificial transposon systems for the generation of recombinant cell pools and cell lines with Chinese hamster ovary (CHO) cells as the production host. Transposons are naturally occurring genetic elements present in the genome of most organisms. Several transposons of metazoan origin have been engineered to facilitate the integration of one or more recombinant genes (transgenes) into the genome of the host cell. In this thesis, three of the most commonly used transposons, piggyBac (PB), Tol2, and Sleeping Beauty (SB), were used for transgene delivery into CHO-DG44 cells. The transposon systems described here involves co-transfection of the host cells with a helper plasmid for the transient expression of the transposase, and a donor plasmid coding for the transgene and a gene for the selection, both positioned between two transposon repeat sequences that are required for DNA transposition. Through the optimization of various selection parameters we showed that PB-mediated cell pools can be generated with selection duration of as little as 5 days in the presence of puromycin. All three transposon systems, PB, Tol2, and SB, resulted in cell pools with similar volumetric TNFR:Fc productivities that were about 9 times higher than those generated by conventional plasmid transfection. Transposon-mediated cell pools had 10 - 12 transgene integrations per cell. However, we demonstrated that some the integration events occurred via DNA recombination rather than transposition. We also isolated clonal cell lines from cell pools. As expected, the average volumetric TNFR:Fc productivity of transposon-derived cell lines was higher than that of cell lines generated by conventional transfection. In 14-day fed-batch cultures, protein levels up to 900 mg/L and 1.5 g/L were obtained from transposon-mediated cell pools and cell lines, respectively. The stability over time of the volumetric productivity of cell pools was determined by maintaining the cells in culture for 3 months in the absence of selection. In general, the productivity decreased to 50 % its initial level over the first 7 weeks in culture and then remained constant for the following 5 weeks. In contrast, the volumetric protein yield from transposon-mediated cell lines remained constant for up to 4 months in the absence of selection. We also showed that the three transposon systems could be used for cell pool generation with CHO-K1 and CHO-S with similar volumetric productivities as observed with CHO-DG44 cells. Finally, we utilized the PB transposon system for generating cell pools co-expressing up to 4 different transgenes, enhanced green fluorescent protein (EGFP), secreted alkaline phosphatase (SEAP), and the light and heavy chains of an IgG1 monoclonal antibody, by simultaneous transfection of all four transgenes. We showed that PB-mediated cell pools had increased volumetric productivity of each of the proteins compared to those generated by conventional co-transfection. The use of the PB transposon system increased the percentage of cells in the pools that were co-expressing all four proteins as compared to the results with cell pools generated by conventional transfection. In conclusion, the transfection of CHO cells with the PB, Tol2 or SB transposon system is a simple, efficient, and reproducible approach to the generation of cell pools and cell lines for the rapid production of recombinant proteins.

Published

2015

47. Enhancer Trapping and Annotation in Zebrafish Mediated with Sleeping Beauty, piggyBac and Tol2 Transposons.

Author

Shen, Dan, Xue, Songlei, Chan, Shuheng, Sang, Yatong, Wang, Saisai, Wang, Yali, Chen, Cai, Gao, Bo, Mueller, Ferenc, and Song, Chengyi

Subjects

*ZEBRA danio, *GENE enhancers, *TRANSPOSONS, *FISH genetics, *MESSENGER RNA

Abstract

Although transposon-mediated enhancer trapping (ET) is successfully applied in diverse models, the efficiency of various transposon systems varies significantly, and little information is available regarding efficiency of enhancer trapping by various transposons in zebrafish. Most potential enhancers (Ens) still lack evidence of actual En activity. Here, we compared the differences in ET efficiency between sleeping beauty (SB), piggyBac (PB) and Tol2 transposons. Tol2 represented the highest germline transfer efficiencies at 55.56% (NF0 = 165), followed by SB (38.36%, NF0 = 151) and PB (32.65%, NF0 = 149). ET lines generated by the Tol2 transposon tended to produce offspring with a single expression pattern per line, while PB and SB tended to generate embryos with multiple expression patterns. In our tests, 10 putative Ens (En1–10) were identified by splinkerette PCR and comparative genomic analysis. Combining the GFP expression profiles and mRNA expression patterns revealed that En1 and En2 may be involved in regulation of the expression of dlx1a and dlx2a, while En6 may be involved in regulation of the expression of line TK4 transgene and rps26, and En7 may be involved in the regulation of the expression of wnt1 and wnt10b. Most identified Ens were found to be transcribed in zebrafish embryos, and their regulatory function may involve eRNAs. [ABSTRACT FROM AUTHOR]

Published

2018

48. Generation and characterization of transgenic zebrafish lines using different ubiquitous promoters

Author

Burket, Christopher T., Montgomery, Jacob E., Thummel, Ryan, Kassen, Sean C., LaFave, Matthew C., Langenau, David M., Zon, Leonard I., and Hyde, David R.

Published

2008

49. Targeted transgene integration overcomes variability of position effects in zebrafish

Author

Yavor Hadzhiev, Katherine Joan Slovik, Ferenc Müller, Elia Stupka, Elizabeth K. Marsh, Jennifer Anne Roberts, Kathleen Theodora Walsh, Darius Balciunas, Remo Sanges, Irene Miguel-Escalada, and Jorune Balciuniene

Subjects

Integrase, Animals, Genetically Modified, Lens, Xenopus laevis, Tol2, Settore BIO/13 - Biologia Applicata, Genes, Reporter, Transgenes, Zebrafish, Regulation of gene expression, Genetics, Genome, biology, Effector, Gene Transfer Techniques, Gene targeting, Brain, Transgenesis, Enhancer Elements, Genetic, Gene Targeting, Position effects, Enhancer Elements, Transgene, Molecular Sequence Data, Genetically Modified, Computational biology, Chromosomal Position Effects, Techniques and Resources, Genetic, Insertional, Lens, Crystalline, Animals, Enhancer, Reporter, Molecular Biology, Crystalline, Base Sequence, Integrases, fungi, Gene Expression Regulation, Genetic Loci, Mutagenesis, Insertional, Reproducibility of Results, Developmental Biology, biology.organism_classification, Genes, Mutagenesis, biology.protein

Abstract

Zebrafish transgenesis is increasingly popular owing to the optical transparency and external development of embryos, which provide a scalable vertebrate model for in vivo experimentation. The ability to express transgenes in a tightly controlled spatio-temporal pattern is an important prerequisite for exploitation of zebrafish in a wide range of biomedical applications. However, conventional transgenesis methods are plagued by position effects: the regulatory environment of genomic integration sites leads to variation of expression patterns of transgenes driven by engineered cis-regulatory modules. This limitation represents a bottleneck when studying the precise function of cis-regulatory modules and their subtle variants or when various effector proteins are to be expressed for labelling and manipulation of defined sets of cells. Here, we provide evidence for the efficient elimination of variability of position effects by developing a PhiC31 integrase-based targeting method. To detect targeted integration events, a simple phenotype scoring of colour change in the lens of larvae is used. We compared PhiC31-based integration and Tol2 transgenesis in the analysis of the activity of a novel conserved enhancer from the developmentally regulated neural-specific esrrga gene. Reporter expression was highly variable among independent lines generated with Tol2, whereas all lines generated with PhiC31 into a single integration site displayed nearly identical, enhancer-specific reporter expression in brain nuclei. Moreover, we demonstrate that a modified integrase system can also be used for the detection of enhancer activity in transient transgenesis. These results demonstrate the power of the PhiC31-based transgene integration for the annotation and fine analysis of transcriptional regulatory elements and it promises to be a generally desirable tool for a range of applications, which rely on highly reproducible patterns of transgene activity in zebrafish.

Published

2014

50. Transgenic technologies based on transposons

Author

Dobiášovská, Ivana, Kozmik, Zbyněk, and Čáp, Michal

Subjects

transgenesis, Tol2, PiggyBac, DNA transposons, DNA transposony, transgeneze, Sleeping Beauty

Abstract

Genenetic engineering is one of the leading technologies in biological research. Transgenesis, one of the most important genetic engineering technologies, enables to study genetic aspects of organismal systems and thus helps us to better understand to the functional characteristics of genomes. Transposons are naturally occuring mobile genetic elements, which can be used to artificially integrate transgenes into host cell genomes. Catalysis of this essential step during transgenesis makes from transposons an useful genetic tool.The aim of this work is to present eukaryotic DNA transposons that transpose in a cut-and-paste-fashion, together with particular mechanisms affecting their function, that can be used as gene delivery system.

Published

2014