A comparison of non-integrating reprogramming methods | Zendy

Thorsten M. Schlaeger | Zendy; Laurence Dahéron | Zendy; Thomas Brickler | Zendy; Samuel W. Entwisle | Zendy; Karrie Chan | Zendy; Amelia L. Cianci | Zendy; Alexander L. DeVine | Zendy; Andrew Ettenger | Zendy; Kelly N. Fitzgerald | Zendy; Michelle Godfrey | Zendy; Dipti Gupta | Zendy; Jade McPherson | Zendy; Prerana Malwadkar | Zendy; Manav Gupta | Zendy; Blair Bell | Zendy; Akiko Doi | Zendy; Namyoung Jung | Zendy; Xin Li | Zendy; Maureen S. Lynes | Zendy; Emily Brookes | Zendy; Anne Cherry | Zendy; Didem Demirbas | Zendy; Alexander M. Tsankov | Zendy; Leonard I. Zon | Zendy; Lee L. Rubin | Zendy; Andrew P. Feinberg | Zendy; Alexander Meissner | Zendy; Chad A. Cowan | Zendy; George Q. Daley | Zendy

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A comparison of non-integrating reprogramming methods

Author(s) -

Thorsten M. Schlaeger,

Laurence Dahéron,

Thomas Brickler,

Samuel W. Entwisle,

Karrie Chan,

Amelia L. Cianci,

Alexander L. DeVine,

Andrew Ettenger,

Kelly N. Fitzgerald,

Michelle Godfrey,

Dipti Gupta,

Jade McPherson,

Prerana Malwadkar,

Manav Gupta,

Blair Bell,

Akiko Doi,

Namyoung Jung,

Xin Li,

Maureen S. Lynes,

Emily Brookes,

Anne Cherry,

Didem Demirbas,

Alexander M. Tsankov,

Leonard I. Zon,

Lee L. Rubin,

Andrew P. Feinberg,

Alexander Meissner,

Chad A. Cowan,

George Q. Daley

Publication year - 2014

Publication title -

nature biotechnology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 15.358

H-Index - 445

eISSN - 1546-1696

pISSN - 1087-0156

DOI - 10.1038/nbt.3070

Subject(s) - reprogramming , induced pluripotent stem cell , sendai virus , computational biology , biology , computer science , cell , genetics , embryonic stem cell , gene

Human induced pluripotent stem cells (hiPSCs) are useful in disease modeling and drug discovery, and they promise to provide a new generation of cell-based therapeutics. To date there has been no systematic evaluation of the most widely used techniques for generating integration-free hiPSCs. Here we compare Sendai-viral (SeV), episomal (Epi) and mRNA transfection mRNA methods using a number of criteria. All methods generated high-quality hiPSCs, but significant differences existed in aneuploidy rates, reprogramming efficiency, reliability and workload. We discuss the advantages and shortcomings of each approach, and present and review the results of a survey of a large number of human reprogramming laboratories on their independent experiences and preferences. Our analysis provides a valuable resource to inform the use of specific reprogramming methods for different laboratories and different applications, including clinical translation.

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