The salamander has the remarkable ability to regenerate its limb after amputation. Cells at the site of amputation form a blastema and then proliferate and differentiate to regrow the limb. To better understand this process, we performed deep RNA sequencing of the blastema over a time course in the axolotl, a species whose genome has not been sequenced. Using a novel comparative approach to analyzing RNA-seq data, we characterized the transcriptional dynamics of the regenerating axolotl limb with respect to the human gene set. This approach involved de novo assembly of axolotl transcripts, RNA-seq transcript quantification without a reference genome, and transformation of abundances from axolotl contigs to human genes. We found a prominent burst in oncogene expression during the first day and blastemal/limb bud genes peaking at 7 to 14 days. In addition, we found that limb patterning genes, SALL genes, and genes involved in angiogenesis, wound healing, defense/immunity, and bone development are enriched during blastema formation and development. Finally, we identified a category of genes with no prior literature support for limb regeneration that are candidates for further evaluation based on their expression pattern during the regenerative process. Ron Stewart mail, Cynthia Alexander Rascón, Shulan Tian, Jeff Nie, Chris Barry, Li-Fang Chu, Hamisha Ardalani, Ryan J. Wagner, Mitchell D. Probasco, Jennifer M. Bolin, Ning Leng, Srikumar Sengupta, Michael Volkmer, Bianca Habermann, Elly M. Tanaka, James A. Thomson, Colin N. Dewey [ view less ] Published: March 07, 2013 DOI: 10.1371/journal.pcbi.1002936 ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1002936
Posted on: Sat, 25 Jan 2014 01:53:32 +0000
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