Miglė Kalvaitytė, Sofija Gabrilavičiūtė, Darius Balciunas
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引用次数: 0
Abstract
Background
The Tol2 transposable element is the most widely used transgenesis tool in zebrafish. However, its high activity almost always leads to multiple unlinked integrations of the transgenic cassette in F1 fish. Each of these transgenes is susceptible to positional effects from the surrounding regulatory landscape, which can lead to altered expression and, consequently, activity. Scientists therefore must strike a balance between the need to maximize reproducibility by establishing single-insertion transgenic lines and the need to complete experiments within a reasonable timeframe.
Results
In this article, we introduce a simple competitive dilution strategy for rapid generation of single-insertion transgenics. By using cry:BFP reporter plasmid as a competitor, we achieved a nearly fourfold reduction in the number of the transgene of interest integrations while simultaneously increasing the proportion of single-insertion F1 generation transgenics to over 50%. We also observed variations in transgene of interest expression among independent single-insertion transgenics, highlighting that the commonly used ubiquitous ubb promoter is susceptible to position effects.
Conclusions
Wide application of our competitive dilution strategy will save time, reduce animal usage, and improve reproducibility of zebrafish research.
背景:Tol2 转座元件是斑马鱼最广泛使用的转基因工具。然而,它的高活性几乎总是导致转基因盒在 F1 鱼体内出现多个非连锁整合。这些转基因中的每一个都容易受到周围调控环境的位置效应的影响,从而导致表达和活性的改变。因此,科学家必须在通过建立单插入转基因品系来最大限度地提高可重复性的需求与在合理时间内完成实验的需求之间取得平衡:在本文中,我们介绍了一种简单的竞争性稀释策略,用于快速产生单插入转基因。通过使用 cry:BFP 报告质粒作为竞争者,我们将感兴趣的转基因整合数量减少了近四倍,同时将单插入 F1 代转基因的比例提高到 50%以上。我们还观察到,在独立的单插入转基因中,相关转基因的表达存在差异,这说明常用的ubb启动子容易受到位置效应的影响:结论:广泛应用我们的竞争性稀释策略将节省时间、减少动物用量并提高斑马鱼研究的可重复性。
期刊介绍:
Developmental Dynamics, is an official publication of the American Association for Anatomy. This peer reviewed journal provides an international forum for publishing novel discoveries, using any model system, that advances our understanding of development, morphology, form and function, evolution, disease, stem cells, repair and regeneration.