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  • Combined RNA-seq and RAT-seq mapping of long noncoding RNAs in pluripotent reprogramming.

Combined RNA-seq and RAT-seq mapping of long noncoding RNAs in pluripotent reprogramming.

Scientific data (2018-11-21)
Zhonghua Du, Lin Jia, Yichen Wang, Cong Wang, Xue Wen, Jingcheng Chen, Yanbo Zhu, Dehai Yu, Lei Zhou, Naifei Chen, Shilin Zhang, Ilkay Celik, Ferhat Ay, Sujun Gao, Songling Zhang, Wei Li, Andrew R Hoffman, Jiuwei Cui, Ji-Fan Hu
ABSTRACT

Pluripotent stem cells hold great investigative potential for developmental biology and regenerative medicine. Recent studies suggest that long noncoding RNAs (lncRNAs) may function as key regulators of the maintenance and the lineage differentiation of stem cells. However, the underlying mechanisms by which lncRNAs affect the reprogramming process of somatic cells into pluripotent cells remain largely unknown. Using fibroblasts and induced pluripotent stem cells (iPSCs) at different stages of reprogramming, we performed RNA transcriptome sequencing (RNA-Seq) to identify lncRNAs that are differentially-expressed in association with pluripotency. An RNA reverse transcription-associated trap sequencing (RAT-seq) approach was then utilized to generate a database to map the regulatory element network for lncRNA candidates. Integration of these datasets can facilitate the identification of functional lncRNAs that are associated with reprogramming. Identification of lncRNAs that regulate pluripotency may lead to new strategies for enhancing iPSC induction in regenerative medicine.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Fluorescent Mouse ES/iPS Cell Characterization Kit, This Fluorescent Mouse ES/iPS Cell Characterization Kit contains a range of sensitive tools for the phenotypic assessment of the pluripotent status of mouse Embryonic stem & induced pluripotent Stem cells.
Sigma-Aldrich
Alkaline Phosphatase Detection Kit, This Alkaline Phosphatase Detection Kit is a specific & sensitive tool for the phenotypic assessment of Embryonic Stem (ES) cell differentiation by the determination of AP activity.