利用ssODN和Co-CRISPR方法高效地在体内引入点突变。

IF 3.7 3区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS
Biological Procedures Online Pub Date : 2020-07-14 eCollection Date: 2020-01-01 DOI:10.1186/s12575-020-00123-7
Tgst Levi, Anna Sloutskin, Rachel Kalifa, Tamar Juven-Gershon, Offer Gerlitz
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引用次数: 13

摘要

背景:点突变的产生是评估特定核苷酸或氨基酸在调控或功能景观中的作用的主要工具。然而,在体内检测这些突变需要产生只携带内源性基因组位点相关点突变的动物,这在技术上是具有挑战性的。基于CRISPR-Cas9的基因组编辑极大地促进了这类转基因动物的产生;然而,大多数描述的方法使用双链DNA (dsDNA)作为供体模板。dsDNA质粒经常经历不希望的整合事件进入目标基因组位点。使用单链寡脱氧核苷酸(ssODN)作为供体模板可以防止这种并发症,因此是引入点突变以及短序列(如蛋白质标签)的首选。结果:我们成功地应用基于crispr的白色共转化策略与ssODN模板,而不是最初描述的dsDNA质粒,创建转基因果蝇菌株。我们使用该技术在两条不同的染色体中轻松引入点突变。使用生成的果蝇,我们能够证明各自突变在体内的重要性。对于核孔蛋白107 (Nucleoporin107, Nup107)基因,1090G > A突变被证实影响卵巢发育,而对于锡曼(tinman, tin)基因,下游核心启动子元件(DPE)在发育中的黑腹果蝇胚胎中被证实起调控作用。结论:所描述的方法促进了两个不同实验室在两个不同染色体上成功产生点突变。鉴定了与新产生的基因型相关的不同表型,从而举例说明了研究特定核苷酸在体内作用的重要性。此外,还提供了详细的指导方针、建议和杂交方案,以支持科学界培育更多的转基因动物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Efficient In Vivo Introduction of Point Mutations Using ssODN and a Co-CRISPR Approach.

Efficient In Vivo Introduction of Point Mutations Using ssODN and a Co-CRISPR Approach.

Efficient In Vivo Introduction of Point Mutations Using ssODN and a Co-CRISPR Approach.

Efficient In Vivo Introduction of Point Mutations Using ssODN and a Co-CRISPR Approach.

Background: The generation of point mutations is a major tool for evaluating the roles of specific nucleotides or amino acids within the regulatory or functional landscape. However, examination of these mutations in vivo requires the generation of animals carrying only the relevant point mutations at the endogenous genomic loci, which is technically challenging. The CRISPR-Cas9 based genome editing greatly facilitates the generation of such genetically modified animals; however, most of the described methods use double-strand DNA (dsDNA) as the donor template. The dsDNA plasmids frequently undergo undesired integration events into the targeted genomic locus. The use of a single-strand oligodeoxynucleotide (ssODN) as the donor template prevents this complication and is therefore the preferred choice for introducing point mutations, as well as short sequences such as protein tags.

Results: We successfully applied the CRISPR-based white co-conversion strategy with a ssODN template, instead of the originally described dsDNA plasmid, to create genetically modified Drosophila melanogaster strains. We used the technique to easily introduce point mutations in two distinct chromosomes. Using the generated flies, we were able to demonstrate the in vivo importance of the respective mutations. For the Nucleoporin107 (Nup107) gene, the 1090G > A mutation was confirmed to affect ovarian development, while for the tinman (tin) gene, the regulatory role of the downstream core promoter element (DPE) was demonstrated within the developing Drosophila melanogaster embryo.

Conclusions: The described approach has facilitated the successful generation of point mutations in two different chromosomes, by two different labs. Distinct phenotypes associated with the newly-generated genotype were identified, thus exemplifying the importance of investigating the in vivo role of specific nucleotides. In addition, detailed guidelines, recommendations and crossing schemes are provided in order to support the generation of additional genetically modified animals by the scientific community.

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来源期刊
Biological Procedures Online
Biological Procedures Online 生物-生化研究方法
CiteScore
10.50
自引率
0.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: iological Procedures Online publishes articles that improve access to techniques and methods in the medical and biological sciences. We are also interested in short but important research discoveries, such as new animal disease models. Topics of interest include, but are not limited to: Reports of new research techniques and applications of existing techniques Technical analyses of research techniques and published reports Validity analyses of research methods and approaches to judging the validity of research reports Application of common research methods Reviews of existing techniques Novel/important product information Biological Procedures Online places emphasis on multidisciplinary approaches that integrate methodologies from medicine, biology, chemistry, imaging, engineering, bioinformatics, computer science, and systems analysis.
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