Histone deacetylases, transcriptional control, and cancer

## Abstract Transcriptional repression and silencing have been strongly associated with hypoacetylation of histones. Accordingly, histone deacetylases, which remove acetyl groups from histones, have been shown to participate in mechanisms of transcriptional repression. Therefore, current models of

## Abstract Skeletogenesis occurs continuously during the lifespan of vertebrate organisms. In development, the skeleton is patterned and modeled until each bone achieves its optimal shape and full size. During adults, the skeleton is remodeled to maintain strength and release calcium. The bone‐res

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## Abstract Histone deacetylase (HDAC) is recognized as one of the promising targets for cancer treatment as many HDAC inhibitors have entered clinical trials for both solid and liquid tumors. Nevertheless, the mechanisms underlying the antiproliferative effects of HDAC inhibitors remain elusive. A

## Abstract Histone deacetylases (HDACs) are involved in chromatin remodeling and modification of nonhistone transcription regulatory proteins, thus modulating the expression of genes important for complex biological events. Dysregulation of HDACs and aberrant chromatin acetylation and deacetylatio

## Abstract Histone deacetylases (HDACs) modulate the transcription of a subset of genes by various means. HDAC5 is a class II HDAC whose subcellular location is signal‐dependent. At present, its known gene targets are few in number. Here we identify a new HDAC5 target: the gene encoding the cell c