Recent advances in high-throughput technologies have transformed methodologies employed to study cell-specific epigenomes and the approaches to investigate complex cellular phenotypes. Application of next-generation sequencing technology in the skeletal muscle differentiation field is rapidly extending our knowledge on how chromatin modifications, transcription factors and chromatin regulators orchestrate gene expression pathways guiding myogenesis. Here, we review recent biological insights gained by the application of next-generation sequencing techniques to decode the epigenetic profile and gene regulatory networks underlying skeletal muscle differentiation.
Tackling skeletal muscle cells epigenome in the next-generation sequencing era / R. Fittipaldi, G. Caretti. - In: COMPARATIVE AND FUNCTIONAL GENOMICS. - ISSN 1531-6912. - 2012(2012), pp. 979168.1-979168.8.
Tackling skeletal muscle cells epigenome in the next-generation sequencing era
R. FittipaldiPrimo
;G. CarettiUltimo
2012
Abstract
Recent advances in high-throughput technologies have transformed methodologies employed to study cell-specific epigenomes and the approaches to investigate complex cellular phenotypes. Application of next-generation sequencing technology in the skeletal muscle differentiation field is rapidly extending our knowledge on how chromatin modifications, transcription factors and chromatin regulators orchestrate gene expression pathways guiding myogenesis. Here, we review recent biological insights gained by the application of next-generation sequencing techniques to decode the epigenetic profile and gene regulatory networks underlying skeletal muscle differentiation.
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