Michael J. Virata scite author profile

Two customized electroporators were specifically designed for creating transgenic ascidian embryos. These electroporators were simple to build, inexpensive, and produced transgenic embryos with efficiencies that equaled or rivaled commercially available machines. A key design feature of these machines resulted in the generation of consistent electroporation pulses providing repeatability between experiments. These devices were used to optimize experimental parameters allowing for the creation of transient transgenic embryos with predictable patterns of mosaic transgene expression. We used these new electroporators to examine the expression of two different fluorescent protein reporter genes with regard to embryonic cell lineage. In general, transgene expression followed the embryonic cell lineage and coelectroporated transgenes were always expressed in the same embryonic cells. Our analysis also indicated that, during development, transgenes could be lost from embryonic cells, suggesting that transgenes may be present in extrachromosomal arrays, as has been observed in other organisms. Our new electroporator designs will allow ascidian researchers to inexpensively produce transgenic ascidians and should prove useful for adapting the electroporation technique to other marine embryo systems. Developmental Dynamics 235: 1921-1932, 2006.

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Ascidians: an invertebrate chordate model to study Alzheimer’s disease pathogenesis

Virata

Zeller

2010

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SUMMARY Here we present the ascidian Ciona intestinalis as an alternative invertebrate system to study Alzheimer’s disease (AD) pathogenesis. Through the use of AD animal models, researchers often attempt to reproduce various aspects of the disease, particularly the coordinated processing of the amyloid precursor protein (APP) by α-, β- and γ-secretases to generate amyloid beta (Aβ)-containing plaques. Recently, Drosophila and C. elegans AD models have been developed, exploiting the relative simplicity of these invertebrate systems, but they lack a functional Aβ sequence and a β-secretase ortholog, thus complicating efforts to examine APP processing in vivo. We propose that the ascidian is a more appropriate invertebrate AD model owing to their phylogenetic relationship with humans. This is supported by bioinformatic analyses, which indicate that the ascidian genome contains orthologs of all AD-relevant genes. We report that transgenic ascidian larvae can properly process human APP695 to generate Aβ peptides. Furthermore, Aβ can rapidly aggregate to form amyloid-like plaques, and plaque deposition is significantly increased in larvae expressing a human APP695 variant associated with familial Alzheimer’s disease. We also demonstrate that nervous system-specific Aβ expression alters normal larval behavior during attachment. Importantly, plaque formation and alterations in behavior are not only observed within 24 hours post-fertilization, but anti-amyloid drug treatment improves these AD-like pathologies. This ascidian model for AD provides a powerful and rapid system to study APP processing, Aβ plaque formation and behavioral alterations, and could aid in identifying factors that modulate amyloid deposition and the associated disruption of normal cellular function and behaviors.

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Computational Identification of Ciona intestinalis MicroRNAs

Keshavan¹,

Virata²,

Keshavan³

et al. 2010

Zoological Science

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P1‐031: Ascidians as a novel invertebrate model system to study APP processing and amyloid‐beta plaque formation

Virata

Zeller

2008

Alzheimer's & Dementia

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Gene-20. Multi-Gene Mutation Profiling of Pediatric Midline Gliomas Using Patient Liquid Biopsy

Bonner

Panditharatna

Kambhampati

et al. 2019

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Michael J. Virata

Predictable mosaic transgene expression in ascidian embryos produced with a simple electroporation device

Ascidians: an invertebrate chordate model to study Alzheimer’s disease pathogenesis

Computational Identification of Ciona intestinalis MicroRNAs

P1‐031: Ascidians as a novel invertebrate model system to study APP processing and amyloid‐beta plaque formation

Gene-20. Multi-Gene Mutation Profiling of Pediatric Midline Gliomas Using Patient Liquid Biopsy

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