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Genome editing using artificial site-specific nucleases in zebrafish.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 26, doi. 10.1111/dgd.12094
By:
- Hisano, Yu;
- Ota, Satoshi;
- Kawahara, Atsuo
Publication type:
Article
Translating human genetics into mouse: The impact of ultra-rapid in vivo genome editing.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 34, doi. 10.1111/dgd.12101
By:
- Aida, Tomomi;
- Imahashi, Risa;
- Tanaka, Kohichi
Publication type:
Article
Targeted mutagenesis of multiple and paralogous genes in Xenopus laevis using two pairs of transcription activator-like effector nucleases.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 108, doi. 10.1111/dgd.12105
By:
- Sakane, Yuto;
- Sakuma, Tetsushi;
- Kashiwagi, Keiko;
- Kashiwagi, Akihiko;
- Yamamoto, Takashi;
- Suzuki, Ken‐ichi T.
Publication type:
Article
Common marmoset as a new model animal for neuroscience research and genome editing technology.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 53, doi. 10.1111/dgd.12109
By:
- Kishi, Noriyuki;
- Sato, Kenya;
- Sasaki, Erika;
- Okano, Hideyuki
Publication type:
Article
TALEN-induced gene knock out in Drosophila.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 86, doi. 10.1111/dgd.12097
By:
- Kondo, Takefumi;
- Sakuma, Tetsushi;
- Wada, Housei;
- Akimoto‐Kato, Ai;
- Yamamoto, Takashi;
- Hayashi, Shigeo
Publication type:
Article
Top row from the left: Knock in in Silkworm, see Daimon et al., 14-25. Knock out in Xenopus laevis, see Suzuki et al., 108-114. Knock out in zebrafish, see Kawahara et al., 26-33. Knock out in medaka, see Kinoshita et al., 98-107. Middle row: Schematic drawings of the principal mechanisms of Genome editing by Zinc-finger nucleases method, TAL effector nucleases method and CRISPR/Cas method, see Mashimo, 46-52, and Mashiko et al., 122-129. Bottom row from the left: Knock out in sea urchin, see Hosoi et al., 92-97. Knock out in rat, see Mashimo, 46-52. Transgenic marmoset, see Kishi et al., 53-62. Gene editing mediated by CRISPR/Cas method, see Mashiko et al., 122-129.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. i, doi. 10.1111/dgd.12079
Publication type:
Article
Nuclease-mediated genome editing: At the front-line of functional genomics technology.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 2, doi. 10.1111/dgd.12111
By:
- Sakuma, Tetsushi;
- Woltjen, Knut
Publication type:
Article
Design, evaluation, and screening methods for efficient targeted mutagenesis with transcription activator-like effector nucleases in medaka.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 98, doi. 10.1111/dgd.12104
By:
- Ansai, Satoshi;
- Inohaya, Keiji;
- Yoshiura, Yasutoshi;
- Schartl, Manfred;
- Uemura, Norihito;
- Takahashi, Ryosuke;
- Kinoshita, Masato
Publication type:
Article
Versatile strategy for isolating transcription activator-like effector nuclease-mediated knockout mutants in Caenorhabditis elegans.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 78, doi. 10.1111/dgd.12108
By:
- Sugi, Takuma;
- Sakuma, Tetsushi;
- Ohtani, Yasuko;
- Yamamoto, Takashi
Publication type:
Article
Recent progress in genome engineering techniques in the silkworm, Bombyx mori.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 14, doi. 10.1111/dgd.12096
By:
- Daimon, Takaaki;
- Kiuchi, Takashi;
- Takasu, Yoko
Publication type:
Article
Gene targeting technologies in rats: Zinc finger nucleases, transcription activator-like effector nucleases, and clustered regularly interspaced short palindromic repeats.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 46, doi. 10.1111/dgd.12110
By:
- Mashimo, Tomoji
Publication type:
Article
Transcription activator-like effector nucleases efficiently disrupt the target gene in Iberian ribbed newts ( Pleurodeles waltl), an experimental model animal for regeneration.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 115, doi. 10.1111/dgd.12103
By:
- Hayashi, Toshinori;
- Sakamoto, Kousuke;
- Sakuma, Tetsushi;
- Yokotani, Naoki;
- Inoue, Takeshi;
- Kawaguchi, Eri;
- Agata, Kiyokazu;
- Yamamoto, Takashi;
- Takeuchi, Takashi
Publication type:
Article
Genetic correction using engineered nucleases for gene therapy applications.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 63, doi. 10.1111/dgd.12107
By:
- Lisa Li, Hongmei;
- Nakano, Takao;
- Hotta, Akitsu
Publication type:
Article
Targeted mutagenesis in sea urchin embryos using TALENs.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 92, doi. 10.1111/dgd.12099
By:
- Hosoi, Sayaka;
- Sakuma, Tetsushi;
- Sakamoto, Naoaki;
- Yamamoto, Takashi
Publication type:
Article
Targeted genome editing.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 1, doi. 10.1111/dgd.12120
By:
- Yamamoto, Takashi;
- Nakamura, Harukazu
Publication type:
Article
Feasibility for a large scale mouse mutagenesis by injecting CRISPR/Cas plasmid into zygotes.
Published in:
Development, Growth & Differentiation, 2014, v. 56, n. 1, p. 122, doi. 10.1111/dgd.12113
By:
- Mashiko, Daisuke;
- Young, Samantha A. M.;
- Muto, Masanaga;
- Kato, Hirotaka;
- Nozawa, Kaori;
- Ogawa, Masaki;
- Noda, Taichi;
- Kim, Yeon‐Joo;
- Satouh, Yuhkoh;
- Fujihara, Yoshitaka;
- Ikawa, Masahito
Publication type:
Article

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