School of Pharmacy and Biomedical Sciences, University of Portsmouth, Portsmouth, UK.
School of Biological Sciences, University of Portsmouth, Portsmouth, UK.
Dev Dyn. 2023 Mar;252(3):429-438. doi: 10.1002/dvdy.544. Epub 2022 Oct 19.
Xenopus frogs are used extensively for modeling genetic diseases owing to characteristics such as the abundance of eggs combined with their large size, allowing easy manipulation, and rapid external embryo development enabling the examination of cellular and phenotypic alterations throughout embryogenesis. However, genotyping of mutant animals is currently done either as part of a large group, requiring many embryos, or late in development with welfare effects. Therefore, we adapted the Zebrafish Embryonic Genotyper for rapid genomic DNA extraction from Xenopus tropicalis and Xenopus laevis at early stages.
Sufficient and good quality DNA was extracted as early as the Nieuwkoop and Faber stage 19 and, importantly, no detrimental effects of the extraction process on the subsequent tadpole development, behavior, or morphology were observed. Amplicons of up to 800 bp were successfully amplified and used for further analyses such as gel electrophoresis, T7 endonuclease I assay and Sanger sequencing.
This method allows rapid genotyping during the early stages of Xenopus development, which enables safe identification of mutants. These can be analyzed at early developmental stages or selected for raising without the need for invasive genotyping later, with resource savings and ethical gains in line with the 3Rs principles.
由于卵的数量丰富,且体型较大,易于操作,并且胚胎外发育迅速,能够在胚胎发生过程中检查细胞和表型变化,因此非洲爪蟾被广泛用于遗传疾病的建模。然而,目前对突变动物的基因分型要么作为大量动物的一部分进行,需要许多胚胎,要么在发育后期进行,对动物福利有影响。因此,我们适应了斑马鱼胚胎基因分型器,以便从早期的非洲爪蟾和爪蟾中快速提取基因组 DNA。
早在Nieuwkoop 和 Faber 阶段 19 就可以提取到足够且质量良好的 DNA,重要的是,提取过程对后续蝌蚪发育、行为或形态没有不利影响。成功扩增了长达 800bp 的扩增子,并将其用于进一步分析,如凝胶电泳、T7 内切酶 I 测定和 Sanger 测序。
这种方法允许在非洲爪蟾发育的早期阶段进行快速基因分型,从而能够安全地鉴定突变体。这些突变体可以在早期发育阶段进行分析,或者选择不进行后期侵入性基因分型而进行饲养,这样可以节省资源,并符合 3R 原则,带来伦理上的收益。
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