Spreading the silence: Epigenetic transcriptional regulation duringDrosophila development

## Abstract The RE‐1 silencing transcription factor (REST) is a master transcription factor that plays a critical role in embryo development, especially during the process of neurogenesis and neural plasticity. However, the mechanism of REST gene transcription regulation is still an open question.

## Abstract This review focuses on our current knowledge of the epigenetic changes regulating gene expression at the chromatin and DNA level, independently on the primary DNA sequence, to reprogram the nuclei of muscle precursors during developmental myogenesis and muscle regeneration. These epigen

The Role Of Epigenetic Mechanisms In Autoimmune Disease Is Only Now Starting To Become Clear. Understanding These Mechanisms, Their Effect On Cellular Function And The Role Of Environmental Factors Is Vital To Determining How To Manage These Often Debilitating And Fatal Diseases. drawing On The Res

The Role Of Epigenetic Mechanisms In Autoimmune Disease Is Only Now Starting To Become Clear. Understanding These Mechanisms, Their Effect On Cellular Function And The Role Of Environmental Factors Is Vital To Determining How To Manage These Often Debilitating And Fatal Diseases. drawing On The Res

## Abstract ## Background The tetracycline‐regulated transcriptional silencer (tTS) has been demonstrated to mitigate leaky expression of the tetracycline‐inducible promoter under uninduced condition, and, when conjugated with reverse‐type tetracycline‐controlled transactivator (rtTA), shows great

The Runx (runt-related protein) family of transcription factors plays important roles in different tissues and cell lineages. Runx1 determines commitment to the hematopoietic cell lineage and Runx2 determines commitment to the osteoblastic lineage. Cbfbeta is required for Runx1- and Runx2-dependent