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Literature DB >> 19553344

Deep sequencing identifies new and regulated microRNAs in Schmidtea mediterranea.

Yi-Chien Lu¹, Magda Smielewska, Dasaradhi Palakodeti, Michael T Lovci, Stefan Aigner, Gene W Yeo, Brenton R Graveley.

Abstract

MicroRNAs (miRNAs) play important roles in directing the differentiation of cells down a variety of cell lineage pathways. The planarian Schmidtea mediterranea can regenerate all lost body tissue after amputation due to a population of pluripotent somatic stem cells called neoblasts, and is therefore an excellent model organism to study the roles of miRNAs in stem cell function. Here, we use a combination of deep sequencing and bioinformatics to discover 66 new miRNAs in S. mediterranea. We also identify 21 miRNAs that are specifically expressed in either sexual or asexual animals. Finally, we identified five miRNAs whose expression is sensitive to gamma-irradiation, suggesting they are expressed in neoblasts or early neoblast progeny. Together, these results increase the known repertoire of S. mediterranea miRNAs and identify numerous regulated miRNAs that may play important roles in regeneration, homeostasis, neoblast function, and reproduction.

Entities: Disease Species

Mesh：

Substances：
MicroRNAs
RNA, Helminth

Year: 2009 PMID： 19553344 PMCID： PMC2714757 DOI： 10.1261/rna.1702009

Source DB: PubMed Journal: RNA ISSN： 1355-8382 Impact factor: 4.942

20 in total

1. SMEDWI-2 is a PIWI-like protein that regulates planarian stem cells.

Authors: Peter W Reddien; Néstor J Oviedo; Joya R Jennings; James C Jenkin; Alejandro Sánchez Alvarado
Journal: Science Date: 2005-11-25 Impact factor: 47.728

2. Isolation of planarian X-ray-sensitive stem cells by fluorescence-activated cell sorting.

Authors: Tetsutaro Hayashi; Maki Asami; Sayaka Higuchi; Norito Shibata; Kiyokazu Agata
Journal: Dev Growth Differ Date: 2006-08 Impact factor: 2.053

Review 3. Getting to the root of miRNA-mediated gene silencing.

Authors: Ana Eulalio; Eric Huntzinger; Elisa Izaurralde
Journal: Cell Date: 2008-01-11 Impact factor: 41.582

4. The planarian Schmidtea mediterranea as a model for epigenetic germ cell specification: analysis of ESTs from the hermaphroditic strain.

Authors: Ricardo M Zayas; Alvaro Hernández; Bianca Habermann; Yuying Wang; Joel M Stary; Phillip A Newmark
Journal: Proc Natl Acad Sci U S A Date: 2005-12-12 Impact factor: 11.205

5. nanos function is essential for development and regeneration of planarian germ cells.

Authors: Yuying Wang; Ricardo M Zayas; Tingxia Guo; Phillip A Newmark
Journal: Proc Natl Acad Sci U S A Date: 2007-03-21 Impact factor: 11.205

6. MicroRNAs from the Planarian Schmidtea mediterranea: a model system for stem cell biology.

Authors: Dasaradhi Palakodeti; Magda Smielewska; Brenton R Graveley
Journal: RNA Date: 2006-07-18 Impact factor: 4.942

7. The PIWI proteins SMEDWI-2 and SMEDWI-3 are required for stem cell function and piRNA expression in planarians.

Authors: Dasaradhi Palakodeti; Magda Smielewska; Yi-Chien Lu; Gene W Yeo; Brenton R Graveley
Journal: RNA Date: 2008-05-02 Impact factor: 4.942

8. Molecular analysis of stem cells and their descendants during cell turnover and regeneration in the planarian Schmidtea mediterranea.

Authors: George T Eisenhoffer; Hara Kang; Alejandro Sánchez Alvarado
Journal: Cell Stem Cell Date: 2008-09-11 Impact factor: 24.633

9. let-7 regulates self renewal and tumorigenicity of breast cancer cells.

Authors: Fengyan Yu; Herui Yao; Pengcheng Zhu; Xiaoqin Zhang; Qiuhui Pan; Chang Gong; Yijun Huang; Xiaoqu Hu; Fengxi Su; Judy Lieberman; Erwei Song
Journal: Cell Date: 2007-12-14 Impact factor: 41.582

10. MicroRNAs and regeneration: Let-7 members as potential regulators of dedifferentiation in lens and inner ear hair cell regeneration of the adult newt.

Authors: Panagiotis A Tsonis; Mindy K Call; Matthew W Grogg; Maureen A Sartor; Ruth R Taylor; Andrew Forge; Robert Fyffe; Robert Goldenberg; Richard Cowper-Sal-lari; Craig R Tomlinson
Journal: Biochem Biophys Res Commun Date: 2007-08-27 Impact factor: 3.575

31 in total

1. Evaluation of normalization methods in mammalian microRNA-Seq data.

Authors: Lana Xia Garmire; Shankar Subramaniam
Journal: RNA Date: 2012-04-24 Impact factor: 4.942

Review 2. Genome-wide approaches in the study of microRNA biology.

Authors: Melissa L Wilbert; Gene W Yeo
Journal: Wiley Interdiscip Rev Syst Biol Med Date: 2010-12-31

3. Differential expression of microRNA patterns in planarian normal and regenerative tissues.

Authors: Qing-Nan Tian; Zhen-Xia Bao; Ping Lu; Yun-Fei Qin; San-Jun Chen; Feng Liang; Jia Mai; Jin-Mei Zhao; Zhao-Yu Zhu; Yi-Zhe Zhang; Shou-Tao Zhang
Journal: Mol Biol Rep Date: 2011-06-29 Impact factor: 2.316

4. A critical appraisal of the use of microRNA data in phylogenetics.

Authors: Robert C Thomson; David C Plachetzki; D Luke Mahler; Brian R Moore
Journal: Proc Natl Acad Sci U S A Date: 2014-07-28 Impact factor: 11.205

Review 5. Concise review: new frontiers in microRNA-based tissue regeneration.

Authors: Jessica E Frith; Enzo R Porrello; Justin J Cooper-White
Journal: Stem Cells Transl Med Date: 2014-05-29 Impact factor: 6.940

Review 6. The history and enduring contributions of planarians to the study of animal regeneration.

Authors: Sarah A Elliott; Alejandro Sánchez Alvarado
Journal: Wiley Interdiscip Rev Dev Biol Date: 2012-07-23 Impact factor: 5.814

7. Linkage of microRNA and proteome-based profiling data sets: a perspective for the priorization of candidate biomarkers in renal cell carcinoma?

Authors: Barbara Seliger; Simon Jasinski; Sven P Dressler; Francesco M Marincola; Christian V Recktenwald; Ena Wang; Rudolf Lichtenfels
Journal: J Proteome Res Date: 2011-01-07 Impact factor: 4.466