Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation

Recently, genome editing in mouse zygotes has become convenient and scalable, in association with various technological developments and improvements such as novel nuclease tools, alternative delivery methods, and contemporary reproductive engineering techniques. We have so far demonstrated the appl...

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Autores principales: Nakagawa, Yoshiko, Sakuma, Tetsushi, Takeo, Toru, Nakagata, Naomi, Yamamoto, Takashi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Japanese Association for Laboratory Animal Science 2018
Materias:
Original
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6219886/
https://www.ncbi.nlm.nih.gov/pubmed/30012936
http://dx.doi.org/10.1538/expanim.18-0062
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author Nakagawa, Yoshiko
Sakuma, Tetsushi
Takeo, Toru
Nakagata, Naomi
Yamamoto, Takashi
author_facet Nakagawa, Yoshiko
Sakuma, Tetsushi
Takeo, Toru
Nakagata, Naomi
Yamamoto, Takashi
author_sort Nakagawa, Yoshiko
collection PubMed
description Recently, genome editing in mouse zygotes has become convenient and scalable, in association with various technological developments and improvements such as novel nuclease tools, alternative delivery methods, and contemporary reproductive engineering techniques. We have so far demonstrated the applicability of ultra-superovulation, in vitro fertilization (IVF), and vitrification/warming of zygotes in microinjection-mediated mouse genome editing. Moreover, an electroporation-mediated method has rapidly become established for simple gene knockout and small precise modifications including single amino acid substitutions. Here, we present an updated example of an application coupling the following three latest technologies: 1) CRISPR–Cas9 ribonucleoprotein as the most convenient genome-editing reagent, 2) electroporation as the most effortless delivery method, and 3) cryopreserved oocytes created by IVF via ultra-superovulation as the most animal welfare- and user-friendly strategy. We successfully created gene knockout and knock-in mice carrying insertion/deletion mutations and single amino acid substitutions, respectively, using the streamlined production system of mouse genome editing described above, referred to as the CREATRE (CARD-based Reproductive Engineering-Assisted Technology for RNP Electroporation) system. Owing to its accessibility, robustness, and high efficiency, we believe that our CREATRE protocol will become widely used globally for the production of genome-edited mice.
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spelling pubmed-62198862018-11-09 Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation Nakagawa, Yoshiko Sakuma, Tetsushi Takeo, Toru Nakagata, Naomi Yamamoto, Takashi Exp Anim Original Recently, genome editing in mouse zygotes has become convenient and scalable, in association with various technological developments and improvements such as novel nuclease tools, alternative delivery methods, and contemporary reproductive engineering techniques. We have so far demonstrated the applicability of ultra-superovulation, in vitro fertilization (IVF), and vitrification/warming of zygotes in microinjection-mediated mouse genome editing. Moreover, an electroporation-mediated method has rapidly become established for simple gene knockout and small precise modifications including single amino acid substitutions. Here, we present an updated example of an application coupling the following three latest technologies: 1) CRISPR–Cas9 ribonucleoprotein as the most convenient genome-editing reagent, 2) electroporation as the most effortless delivery method, and 3) cryopreserved oocytes created by IVF via ultra-superovulation as the most animal welfare- and user-friendly strategy. We successfully created gene knockout and knock-in mice carrying insertion/deletion mutations and single amino acid substitutions, respectively, using the streamlined production system of mouse genome editing described above, referred to as the CREATRE (CARD-based Reproductive Engineering-Assisted Technology for RNP Electroporation) system. Owing to its accessibility, robustness, and high efficiency, we believe that our CREATRE protocol will become widely used globally for the production of genome-edited mice. Japanese Association for Laboratory Animal Science 2018-07-16 2018 /pmc/articles/PMC6219886/ /pubmed/30012936 http://dx.doi.org/10.1538/expanim.18-0062 Text en ©2018 Japanese Association for Laboratory Animal Science This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivatives (by-nc-nd) License. (CC-BY-NC-ND 4.0: https://creativecommons.org/licenses/by-nc-nd/4.0/)
spellingShingle Original
Nakagawa, Yoshiko
Sakuma, Tetsushi
Takeo, Toru
Nakagata, Naomi
Yamamoto, Takashi
Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation
title Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation
title_full Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation
title_fullStr Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation
title_full_unstemmed Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation
title_short Electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by IVF via ultra-superovulation
title_sort electroporation-mediated genome editing in vitrified/warmed mouse zygotes created by ivf via ultra-superovulation
topic Original
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6219886/
https://www.ncbi.nlm.nih.gov/pubmed/30012936
http://dx.doi.org/10.1538/expanim.18-0062
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