Clancy, Jennifer L and Patel, Hardip R and Hussein, Samer M I and Tonge, Peter D and Cloonan, Nicole and Corso, Andrew J and Li, Mira and Lee, Dong-Sung and Shin, Jong-Yeon and Wong, Justin J L and Bailey, Charles G and Benevento, Marco and Munoz, Javier and Chuah, Aaron and Wood, David and Rasko, John E J and Heck, Albert J R and Grimmond, Sean M and Rogers, Ian M and Seo, Jeong-Sun and Wells, Christine A and Puri, Mira C and Nagy, Andras and Preiss, Thomas (2014) Small RNA changes en route to distinct cellular states of induced pluripotency. Nature Communications, 5. p. 5522. ISSN 2041-1723 (OA)
Clancy, Jennifer L and Patel, Hardip R and Hussein, Samer M I and Tonge, Peter D and Cloonan, Nicole and Corso, Andrew J and Li, Mira and Lee, Dong-Sung and Shin, Jong-Yeon and Wong, Justin J L and Bailey, Charles G and Benevento, Marco and Munoz, Javier and Chuah, Aaron and Wood, David and Rasko, John E J and Heck, Albert J R and Grimmond, Sean M and Rogers, Ian M and Seo, Jeong-Sun and Wells, Christine A and Puri, Mira C and Nagy, Andras and Preiss, Thomas (2014) Small RNA changes en route to distinct cellular states of induced pluripotency. Nature Communications, 5. p. 5522. ISSN 2041-1723 (OA)
Clancy, Jennifer L and Patel, Hardip R and Hussein, Samer M I and Tonge, Peter D and Cloonan, Nicole and Corso, Andrew J and Li, Mira and Lee, Dong-Sung and Shin, Jong-Yeon and Wong, Justin J L and Bailey, Charles G and Benevento, Marco and Munoz, Javier and Chuah, Aaron and Wood, David and Rasko, John E J and Heck, Albert J R and Grimmond, Sean M and Rogers, Ian M and Seo, Jeong-Sun and Wells, Christine A and Puri, Mira C and Nagy, Andras and Preiss, Thomas (2014) Small RNA changes en route to distinct cellular states of induced pluripotency. Nature Communications, 5. p. 5522. ISSN 2041-1723 (OA)
Abstract
MicroRNAs (miRNAs) are critical to somatic cell reprogramming into induced pluripotent stem cells (iPSCs), however, exactly how miRNA expression changes support the transition to pluripotency requires further investigation. Here we use a murine secondary reprogramming system to sample cellular trajectories towards iPSCs or a novel pluripotent 'F-class' state and perform small RNA sequencing. We detect sweeping changes in an early and a late wave, revealing that distinct miRNA milieus characterize alternate states of pluripotency. miRNA isoform expression is common but surprisingly varies little between cell states. Referencing other omic data sets generated in parallel, we find that miRNA expression is changed through transcriptional and post-transcriptional mechanisms. miRNA transcription is commonly regulated by dynamic histone modification, while DNA methylation/demethylation consolidates these changes at multiple loci. Importantly, our results suggest that a novel subset of distinctly expressed miRNAs supports pluripotency in the F-class state, substituting for miRNAs that serve such roles in iPSCs. (NHMRC grants 1024852, 1061906; ARC grants DP1300101928, SR110001002, DP1093164 and FT120100453).
Metadata
Keywords: | DOAJ publication |
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Subjects: | R Medicine > R Medicine (General) |
Depositing User: | Repository Administrator |
Date Deposited: | 15 Jan 2016 03:18 |
Last Modified: | 18 May 2016 23:36 |
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Filename: Clancy 2014 small RNA _Nature Comms OA.pdf