Abstract

We have combined genome-wide transcription factor binding and expression profiling to assemble a regulatory network controlling the myogenic differentiation program in mammalian cells. We identified a cadre of overlapping and distinct targets of the key myogenic regulatory factors (MRFs)—MyoD and myogenin—and Myocyte Enhancer Factor 2 (MEF2). We discovered that MRFs and MEF2 regulate a remarkably extensive array of transcription factor genes that propagate and amplify the signals initiated by MRFs. We found that MRFs play an unexpectedly wide-ranging role in directing the assembly and usage of the neuromuscular junction. Interestingly, these factors also prepare myoblasts to respond to diverse types of stress. Computational analyses identified novel combinations of factors that, depending on the differentiation state, might collaborate with MRFs. Our studies suggest unanticipated biological insights into muscle development and highlight new directions for further studies of genes involved in muscle repair and responses to stress and damage.

Keywords

MyoDBiologyMef2Transcription factorMyogeninEnhancerMyogenic regulatory factorsMyocyteMyogenesisCell biologyMYF5GeneticsComputational biologyGene

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Year
2005
Type
article
Volume
19
Issue
5
Pages
553-569
Citations
457
Access
Closed

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Alexandre Blais, Mary Tsikitis, Diego Acosta‐Alvear et al. (2005). An initial blueprint for myogenic differentiation. Genes & Development , 19 (5) , 553-569. https://doi.org/10.1101/gad.1281105

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DOI
10.1101/gad.1281105