Establishment of expanded and streamlined pipeline of PITCh knock-in – a web-based design tool for MMEJ-mediated gene knock-in, PITCh designer, and the variations of PITCh, PITCh-TG and PITCh-KIKO

Nakamae, Kazuki; Nishimura, Yuki; Takenaga, Mitsumasa; Nakade, Shota; Sakamoto, Naoaki; Ide, Hiroshi; Sakuma, Tetsushi; Yamamoto, Takashi

doi:10.1080/21655979.2017.1313645

Cited by 32 publications

(29 citation statements)

References 13 publications

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“…Nakamae et al [19] have been described as a newly advanced microhomology intermediated end assembly dependent gene knocks tool, named the PITCh tool, and offered numerous applications. Ventura et al [20] have described the probiogenomics as a new tool to get genetic perceptions into a variation of probiotic prokaryotes into the human guts.…”

Section: Global Perspective On Pharmaceuticals Bioengineered Toolsmentioning

confidence: 99%

“…Available bioengineered tools and techniques for the production of pharmaceuticals. [19] not only the appropriate micro homologies but also the primers to construct locus-specific donor vectors for PITCh knock-in. By using the newly established pipelines, a reporter cell line for monitoring endogenous gene expression, and transgenesis (TG) or knock-in/knockout (KIKO) cell line can be produced systematically [19].…”

Section: Unified Metabolic Database and Networkmentioning

confidence: 99%

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Bioengineering tools for the production of pharmaceuticals: current perspective and future outlook

2019

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The bioengineering tools have significant advantages through less time-consuming and utilized as a promising stage for the production of pharmaceutical bioproducts under the single platform. This review highlighted the advantages and current improvement in the plant, animal and microbial bioengineering tools and outlines feasible approaches by biological and process's bioengineering levels for advancing the economic feasibility of pharmaceutical's production. The critical analysis results revealed that system biology and synthetic biology along with advanced bioengineering tools like transcriptome, proteome, metabolome and nano bioengineering tools have shown a promising impact on the development of pharmaceutical's bioproducts. Tools to overcome and resolve the accompanying encounters of pharmaceutical's production that include nano bioengineering tools are also discussed. As a summary and prospect, it also gives new insight into the challenges and possible breakthrough of the development of pharmaceutical's bioproducts through bioengineering tools.

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Section: Global Perspective On Pharmaceuticals Bioengineered Toolsmentioning

confidence: 99%

Section: Unified Metabolic Database and Networkmentioning

confidence: 99%

Bioengineering tools for the production of pharmaceuticals: current perspective and future outlook

2019

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“…2015; Sakuma et al . 2016; Nakamae et al . 2017), but there is still no success for targeted integration of large fragments over 20 kbp.…”

Section: Introductionmentioning

confidence: 99%

CRISPR/Cas9-mediated integration of large transgene into pig potential safe harbor

Zhang

Wang

et al. 2019

Preprint

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Clustered regularly interspaced short palindromic 11 repeats/CRISPR-associated protein 9 (Cas9) is a precise genome manipulating tool 12 which can produce targeted gene mutations in various cells and organisms. Although 13 CRISPR/Cas9 can efficiently generate gene knock-out, the gene knock-in efficiency 14 mediated by homology-directed repair (HDR) remains low, especially for large 15 fragment integration. In this study, we established an efficient method for 16 CRISPR/Cas9-mediated integration of large transgene cassette carrying salivary 17 gland-expressing multiple digestion enzymes (≈ 20 kbp) in CEP112 locus in pig fetal 18 fibroblasts. Our results showed that using homologous donor with a short left arm 19 and a long right arm yielded the best CRISPR/Cas9-mediated knock-in efficiency, and 20 the targeting efficiency in potential safe harbor CEP112 locus are higher than ROSA26 21 locus. The CEP112 knock-in cell lines were used as nuclear donors for somatic cell 22 nuclear transfer to create genetically modified pigs. We found that knock-in pig (705) 23 successfully expressed three microbial enzymes (β-glucanase, xylanase, and phytase) 24 in salivary gland, suggesting potential safe harbor CEP112 locus supports exogenous 25 genes expression by a tissue-specific promoter. In summary, we successfully targeted 26 CEP112 locus using our optimal homology arm system for precise modification of 27 pigs, and established a modified pig model for foreign digestion enzyme expression in 28 saliva. 29 2

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“…In addition, the detailed protocol, freely available materials, and online design tool for the CRISPR-mediated PITCh knock-in were provided by the authors Nakamae et al 2017). Along with these user-friendly resources, the application examples of CRISPR-mediated PITCh have become more diversified, e.g., high-throughput epitope tagging in cultured cells for chromatin immunoprecipitation (ChIP)-seq (Xiong et al 2017), the application in mammalian zygotes (Aida et al 2016;Nakagawa et al 2017), and in vivo somatic knock-in in mice (Yao et al 2017a) were reported one after another.…”

Section: Mmej/ssa-mediated Gene Knock-inmentioning

confidence: 99%

Magic wands of CRISPR—lots of choices for gene knock-in

Sakuma

Yamamoto

2017

Cell Biol Toxicol

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Establishment of expanded and streamlined pipeline of PITCh knock-in – a web-based design tool for MMEJ-mediated gene knock-in, PITCh designer, and the variations of PITCh, PITCh-TG and PITCh-KIKO

Cited by 32 publications

References 13 publications

Bioengineering tools for the production of pharmaceuticals: current perspective and future outlook

Bioengineering tools for the production of pharmaceuticals: current perspective and future outlook

CRISPR/Cas9-mediated integration of large transgene into pig potential safe harbor

Magic wands of CRISPR—lots of choices for gene knock-in

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