Roscoff Biological Station, Place Georges Teissier, Roscoff, 29680, France.
The Scottish Association for Marine Science, Scottish Marine Institute, Oban, Argyll,, PA37 1QA, UK.
New Phytol. 2021 Sep;231(5):2077-2091. doi: 10.1111/nph.17525. Epub 2021 Jul 10.
Brown algae are an important group of multicellular eukaryotes, phylogenetically distinct from both the animal and land plant lineages. Ectocarpus has emerged as a model organism to study diverse aspects of brown algal biology, but this system currently lacks an effective reverse genetics methodology to analyse the functions of selected target genes. Here, we report that mutations at specific target sites are generated following the introduction of CRISPR-Cas9 ribonucleoproteins into Ectocarpus cells, using either biolistics or microinjection as the delivery method. Individuals with mutations affecting the ADENINE PHOSPHORIBOSYL TRANSFERASE (APT) gene were isolated following treatment with 2-fluoroadenine, and this selection system was used to isolate individuals in which mutations had been introduced simultaneously at APT and at a second gene. This double mutation approach could potentially be used to isolate mutants affecting any Ectocarpus gene, providing an effective reverse genetics tool for this model organism. The availability of this tool will significantly enhance the utility of Ectocarpus as a model organism for this ecologically and economically important group of marine organisms. Moreover, the methodology described here should be readily transferable to other brown algal species.
褐藻是一类重要的多细胞真核生物,在系统发生上与动物和陆地植物谱系截然不同。 外生褐藻已成为研究褐藻生物学各个方面的模式生物,但该系统目前缺乏有效的反向遗传学方法来分析选定靶基因的功能。 在这里,我们报告说,在用生物弹或显微注射作为递送方法将 CRISPR-Cas9 核糖核蛋白引入外生褐藻细胞后,在特定靶位产生突变。 在用 2-氟腺嘌呤处理后分离出影响腺嘌呤磷酸核糖基转移酶(APT)基因的突变体,并且使用该选择系统分离出在 APT 和第二个基因中同时引入突变的个体。 这种双重突变方法可用于分离影响外生褐藻任何基因的突变体,为该模式生物提供了一种有效的反向遗传学工具。 该工具的可用性将极大地提高外生褐藻作为该生态和经济重要的海洋生物群体的模型生物的效用。 此外,本文描述的方法应该很容易转移到其他褐藻物种。
