Efficient generation of targeted and controlled mutational events in porcine cells using nuclease-directed homologous recombination

Nuclease-based genome editing has rapidly sped the creation of new models of human disease. These techniques also hold great promise for the future of clinical xenotransplantation and cell-based therapies for cancer or immunodeficient pathology. However, to fully realize the potential of nuclease ed...
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Gespeichert in:

Autor*in:	Butler, James R. [verfasserIn] Santos, Rafael M.N. Martens, Gregory R. Ladowski, Joseph M. Wang, Zheng-Yu Li, Ping Tector, Matthew Tector, A. Joseph

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2017

Schlagwörter:	CRISPR/Cas9 Xenotransplantation Nuclease

Umfang:	8

Übergeordnetes Werk:	Enthalten in: Iatrogenic pneumothorax during hypoglossal nerve stimulator implantation - Arteaga, Alberto A. ELSEVIER, 2018, JSR : clinical and laboratory investigation : official publication of the Association for Academic Surgery : official publication of the Association of Veterans Administration Surgeons, Orlando, Fla
Übergeordnetes Werk:	volume:212 ; year:2017 ; day:15 ; month:05 ; pages:238-245 ; extent:8

Links:	Volltext

DOI / URN:	10.1016/j.jss.2017.01.025

Katalog-ID:	ELV025613073

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title_sort	efficient generation of targeted and controlled mutational events in porcine cells using nuclease-directed homologous recombination
title_auth	Efficient generation of targeted and controlled mutational events in porcine cells using nuclease-directed homologous recombination
abstract	Nuclease-based genome editing has rapidly sped the creation of new models of human disease. These techniques also hold great promise for the future of clinical xenotransplantation and cell-based therapies for cancer or immunodeficient pathology. However, to fully realize the potential of nuclease editing tools, the efficiency and precision of their application must be optimized. The object of this study was to use nonintegrating selection and nuclease-directed homologous recombination to efficiently control the genetic modification of the porcine genome.
abstractGer	Nuclease-based genome editing has rapidly sped the creation of new models of human disease. These techniques also hold great promise for the future of clinical xenotransplantation and cell-based therapies for cancer or immunodeficient pathology. However, to fully realize the potential of nuclease editing tools, the efficiency and precision of their application must be optimized. The object of this study was to use nonintegrating selection and nuclease-directed homologous recombination to efficiently control the genetic modification of the porcine genome.
abstract_unstemmed	Nuclease-based genome editing has rapidly sped the creation of new models of human disease. These techniques also hold great promise for the future of clinical xenotransplantation and cell-based therapies for cancer or immunodeficient pathology. However, to fully realize the potential of nuclease editing tools, the efficiency and precision of their application must be optimized. The object of this study was to use nonintegrating selection and nuclease-directed homologous recombination to efficiently control the genetic modification of the porcine genome.
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Efficient generation of targeted and controlled mutational events in porcine cells using nuclease-directed homologous recombination

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