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© 2015 Higher Education Press and Springer-Verlag Berlin Heidelberg Genome-wide analyses of metazoan messenger RNA (mRNA) species are unveiling the extensive transcriptional diversity generated by alternative splicing (AS). Research is also beginning to identify the splicing factors and AS events required to maintain the balance between stem cell renewal (i.e stemness properties) and differentiation. One set of proteins at the center of spliceosome biogenesis are the survival motor neuron (SMN) complex constituents, which have a critical role in the assembly of spliceosomal small nuclear ribonucleoproteins (snRNPs) in all cells. In this review we discuss what is currently known about how AS controls pluripotency and cell fate and consider how an increased requirement for splicing factors, including SMN, helps to maintain an enrichment of stem cell-specific AS events. Furthermore, we highlight studies showing that mutations in specific splicing factors can lead to the aberrant development, and cause targeted degeneration of the nervous system. Using SMN as an example, we discuss the perspective of how stem cell-specific changes in splicing factors can lead to developmental defects and the selective degeneration of particular tissues. Finally we consider the expanding role of SMN, and other splicing factors, in the regulation of gene expression in stem cell biology, thereby providing insight into a number of debilitating diseases.

Original publication

DOI

10.1007/s11515-015-1368-9

Type

Journal article

Journal

Frontiers in Biology

Publication Date

30/07/2015