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Summary: Targeted mutagenesis of genes‐of‐interest, or gene‐knockout, is a powerful method to address the functions of genes. Engineered nucleases have enabled this approach in various organisms because of their ease of use. The ascidian Ciona intestinalis is an excellent organism to analyze gene functions by means of genetic technologies. In our previous study, we reported mutagenesis of Ciona somatic cells with TALE nucleases (TALENs) by electroporating expression constructs. In this study, we report germ cell mutagenesis of Ciona by microinjecting mRNAs encoding TALENs. TALEN mRNAs introduced mutations to target genes in both somatic and germ cells. TALEN‐mediated mutations in the germ cell genome were inherited by the next generation. We conclude that knockout lines of Ciona that have disrupted target genes can be established through TALEN‐mediated germ cell mutagenesis. genesis 52:431–439, 2014. © 2014 Wiley Periodicals, Inc.  相似文献   

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CRISPR/Cas9 is a novel tool for targeted mutagenesis and is applicable to plants, including rice. Previous reports on CRISPR/Cas9 in rice have demonstrated that target mutations are transmitted to the next generation in accordance with Mendelian law, but heritability of the target mutation and the role of inherited Cas9 gene have not been fully elucidated. Here, we targeted the rice phytoene desaturase gene, mutants of which exhibit an albino phenotype, by using CRISPR/Cas9 and analyzed segregation of target mutations. Agrobacterium-mediated methods using immature embryos successfully transformed a CRISPR/Cas9 system into five rice cultivars and subsequently induced mutation. Unpredicted segregations, with more mutants than theoretically predicted, were frequently found in T1 plants from monoallelic T0 mutants. Chimeric plants with both biallelic and monoallelic mutated cells were also observed in the T1. Next, we followed segregation of a target mutation in the T2 from monoallelic T1 mutants. When T1 mutants possessed Cas9, unpredicted segregations of the target mutation and chimeric plants were observed again in the T2. When T1 mutants did not possess Cas9, segregation of the target mutations followed Mendelian law and no chimeric plants appeared in the T2. T2 mutants with Cas9 had mutations different from the original ones found in T0. Our results indicated that inherited Cas9 was still active in later generations and could induce new mutations in the progeny, leading to chimerism and unpredicted segregation. We conclude that Cas9 has to be eliminated by segregation in T1 to generate homozygous mutants without chimerism or unpredicted segregation.  相似文献   

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In addition to its role as the primary vector for dengue viruses, Aedes aegypti has a long history as a genetic model organism for other bloodfeeding mosquitoes, due to its ease of colonization, maintenance and reproductive productivity. Though its genome has been sequenced, functional characterization of many Ae. aegypti genes, pathways and behaviors has been slow. TALE nucleases (TALENs) have been used with great success in a number of organisms to generate site-specific DNA lesions. We evaluated the ability of a TALEN pair to target the Ae. aegypti kmo gene, whose protein product is essential in the production of eye pigmentation. Following injection into pre-blastoderm embryos, 20–40% of fertile survivors produced kmo alleles that failed to complement an existing khw mutation. Most of these individuals produced more than 20% white-eyed progeny, with some producing up to 75%. Mutant alleles were associated with lesions of 1–7 bp specifically at the selected target site. White-eyed individuals could also be recovered following a blind intercross of G1 progeny, yielding several new white-eyed strains in the genetic background of the sequenced Liverpool strain. We conclude that TALENs are highly active in the Ae. aegypti germline, and have the potential to transform how reverse genetic experiments are performed in this important disease vector.  相似文献   

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Zinc-finger nucleases (ZFNs) and TAL effector nucleases (TALENs) have been shown to induce targeted mutations, but they have not been extensively tested in any animal model. Here, we describe a large-scale comparison of ZFN and TALEN mutagenicity in zebrafish. Using deep sequencing, we found that TALENs are significantly more likely to be mutagenic and induce an average of 10-fold more mutations than ZFNs. We observed a strong correlation between somatic and germ-line mutagenicity, and identified germ line mutations using ZFNs whose somatic mutations rates are well below the commonly used threshold of 1%. Guidelines that have previously been proposed to predict optimal ZFN and TALEN target sites did not predict mutagenicity in vivo. However, we observed a significant negative correlation between TALEN mutagenicity and the number of CpG repeats in TALEN target sites, suggesting that target site methylation may explain the poor mutagenicity of some TALENs in vivo. The higher mutation rates and ability to target essentially any sequence make TALENs the superior technology for targeted mutagenesis in zebrafish, and likely other animal models.  相似文献   

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Abstract

Targeted DNA editing has great potential to cure some genetic diseases; however, the use of artificial nucleases such as CRISPR-Cas9 and TALEN in gene therapy can potentially cause severe side effects due to off-target DNA cleavages. Single-stranded (ss) DNAs and 5'-tailed duplexes (TDs) can achieve target base substitutions when introduced without artificial nucleases into cultured cells and mouse liver. In this study, ss DNA and TD were separately co-introduced into human U2OS cells, together with a target plasmid DNA bearing an inactivated lacZα gene, and the gene correction efficiencies were compared. Unlike the genes examined in previous studies, ss DNA and TD showed similar efficiencies. Therefore, ss DNAs might be as useful as TD for gene correction, depending on the target sequence.  相似文献   

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植物基因组编辑及衍生技术最新研究进展   总被引:2,自引:0,他引:2  
单奇伟  高彩霞 《遗传》2015,37(10):953-973
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