Abstract
Transcription in eukaryotic cells requires dynamic changes of chromatin structure to facilitate or prevent RNA polymerase access to active genes. These structural modifications rely on the concerted action of ATP-dependent chromatin-remodelling complexes and histone-modifying enzymes, which generate a chromatin configuration that is either compatible with transcription (euchromatin) or incompatible (heterochromatin). Insights into how these structural changes might be coordinated for RNA polymerase I (pol I) genes come from the discoveries of the nucleolar-remodelling complex (NoRC) and B-WICH--a high molecular weight fraction of the WSTF/SNF2h chromatin-remodelling complex. NoRC produces a repressive chromatin state; B-WICH, together with nuclear myosin 1, activates pol I transcription directly on chromatin templates and might also function in the maintenance of ribosomal chromatin structure.
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