Whole-genome mutational burden analysis of three pluripotency induction methods

Whole-genome mutational burden analysis of three pluripotency induction methods

It is feared that reprogramming may introduce DNA mutations. Here Bhutani et al. take three different reprogramming methods and using comparative whole genome analyses do identify nucleotide variations that are different in reprogrammed cells from the original fibroblasts, but none convey oncogenic...

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Main Authors: Kunal Bhutani, Kristopher L. Nazor, Roy Williams, Ha Tran, Heng Dai, Željko Džakula, Edward H. Cho, Andy W. C. Pang, Mahendra Rao, Han Cao, Nicholas J. Schork, Jeanne F. Loring
Format: Article
Language:English
Published: Nature Publishing Group 2016-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms10536
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spelling doaj-6e8a5319f7e748139e1e8df30b2b96e02021-05-11T10:56:53ZengNature Publishing GroupNature Communications2041-17232016-02-01711810.1038/ncomms10536Whole-genome mutational burden analysis of three pluripotency induction methodsKunal Bhutani0Kristopher L. Nazor1Roy Williams2Ha Tran3Heng Dai4Željko Džakula5Edward H. Cho6Andy W. C. Pang7Mahendra Rao8Han Cao9Nicholas J. Schork10Jeanne F. Loring11Department of Molecular and Experimental Medicine, Scripps Translational Science Institute and The Scripps Research InstituteDepartment of Chemical Physiology, The Scripps Research Institute, Center for Regenerative MedicineDepartment of Chemical Physiology, The Scripps Research Institute, Center for Regenerative MedicineDepartment of Chemical Physiology, The Scripps Research Institute, Center for Regenerative MedicineBioNano GenomicsBioNano GenomicsBioNano GenomicsBioNano GenomicsThe National Institutes of HealthBioNano GenomicsDepartment of Molecular and Experimental Medicine, Scripps Translational Science Institute and The Scripps Research InstituteDepartment of Chemical Physiology, The Scripps Research Institute, Center for Regenerative MedicineIt is feared that reprogramming may introduce DNA mutations. Here Bhutani et al. take three different reprogramming methods and using comparative whole genome analyses do identify nucleotide variations that are different in reprogrammed cells from the original fibroblasts, but none convey oncogenic potential.https://doi.org/10.1038/ncomms10536
collection DOAJ
language English
format Article
sources DOAJ
author Kunal Bhutani
Kristopher L. Nazor
Roy Williams
Ha Tran
Heng Dai
Željko Džakula
Edward H. Cho
Andy W. C. Pang
Mahendra Rao
Han Cao
Nicholas J. Schork
Jeanne F. Loring
spellingShingle Kunal Bhutani
Kristopher L. Nazor
Roy Williams
Ha Tran
Heng Dai
Željko Džakula
Edward H. Cho
Andy W. C. Pang
Mahendra Rao
Han Cao
Nicholas J. Schork
Jeanne F. Loring
Whole-genome mutational burden analysis of three pluripotency induction methods
Nature Communications
author_facet Kunal Bhutani
Kristopher L. Nazor
Roy Williams
Ha Tran
Heng Dai
Željko Džakula
Edward H. Cho
Andy W. C. Pang
Mahendra Rao
Han Cao
Nicholas J. Schork
Jeanne F. Loring
author_sort Kunal Bhutani
title Whole-genome mutational burden analysis of three pluripotency induction methods
title_short Whole-genome mutational burden analysis of three pluripotency induction methods
title_full Whole-genome mutational burden analysis of three pluripotency induction methods
title_fullStr Whole-genome mutational burden analysis of three pluripotency induction methods
title_full_unstemmed Whole-genome mutational burden analysis of three pluripotency induction methods
title_sort whole-genome mutational burden analysis of three pluripotency induction methods
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-02-01
description It is feared that reprogramming may introduce DNA mutations. Here Bhutani et al. take three different reprogramming methods and using comparative whole genome analyses do identify nucleotide variations that are different in reprogrammed cells from the original fibroblasts, but none convey oncogenic potential.
url https://doi.org/10.1038/ncomms10536
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