The use of simultaneous reprogramming and gene correction to generate an osteogenesis imperfecta patient COL1A1 c. 3936 G>T iPSC line and an isogenic control iPSC line

Sara Howden; Hani Hosseini Far; Ali Motazedian; Andrew G. Elefanty; Edouard G. Stanley; Shireen R. Lamandé; John F. Bateman

The use of simultaneous reprogramming and gene correction to generate an osteogenesis imperfecta patient COL1A1 c. 3936 G>T iPSC line and an isogenic control iPSC line

2019

To develop a disease model for the human ‘brittle bone’ disease, osteogenesis imperfecta, we used a simultaneous reprogramming and CRISPR-Cas9 genome editing method to produce an iPSC line with the heterozygous patient mutation (COL1A1 c. 3936 G>T) along with an isogenic gene-corrected control iPSC line. Both IPSC lines had a normal karyotype, expressed pluripotency markers and differentiated into cells representative of the three embryonic germ layers. This osteogenesis imperfecta mutant and isogenic iPSC control line will be of use in exploring disease mechanisms and therapeutic approaches in vitro.

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Publicado en

Stem Cell Research

Volumen 38 ISSN 1873-5061

Editorial

Elsevier

Idioma

Inglés

En AGRIS desde: 2024-12-11

Fecha de modificación: 2026-02-03

Formato: DOAJ

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DOI http://www.sciencedirect.com/science/article/pii/S1873506119300832

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The use of simultaneous reprogramming and gene correction to generate an osteogenesis imperfecta patient COL1A1 c. 3936 G>T iPSC line and an isogenic control iPSC line

2019

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