Yuri An

RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team

Tsukuba, Ibaraki

Japan

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Scholarly Papers (1)

1.

Structurally-Discovered KLF4 Variants Accelerate and Stabilize Reprogramming to Pluripotency

Number of pages: 89 Posted: 02 Dec 2020
RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, University of Tsukuba - Laboratory of Gene Regulation, RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team, University of Tsukuba - Laboratory of Gene Regulation, University of Tsukuba - Laboratory of Animal Resource Center, University of Tsukuba - Research and Development Center for Precision Medicine, University of Tsukuba - Research and Development Center for Precision Medicine, The Institute of Materials Structure Science, High Energy Accelerator Research Organization in Tsukuba, The University of Tokyo - Department of Biotechnology, University of Tsukuba - Laboratory of Gene Regulation and RIKEN BioResource Research Centre - iPS Cell Advanced Characterization and Development Team
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Abstract:

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Reprogramming, induced pluripotent stem cells (iPSCs), Kr├╝ppel-like factor 4 (KLF4), amino acid residue, pluripotency, retrovirus vector, SeVdp (Sendai virus vector), ChIPSeq, RNA-seq, MD (molecular dynamics) simulation