Journal
WILEY INTERDISCIPLINARY REVIEWS-RNA
Volume 12, Issue 3, Pages -Publisher
WILEY
DOI: 10.1002/wrna.1632
Keywords
gene duplication; gene regulation; posttranscriptional regulation; ribosomal proteins; ribosome; TOR pathway
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Funding
- Natural Sciences and Engineering Research Council of Canada
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Ribosomal protein genes are highly expressed in most cell types and are essential for cell growth and proliferation. Regulation of these genes involves both general and gene-specific mechanisms, allowing the cell to coordinate ribosome production while maintaining functional specialization and diversity. Posttranscriptional regulatory events play a key role in fine-tuning the expression of ribosomal protein genes and controlling potential variation in ribosome functions.
Ribosomal protein genes are among the most highly expressed genes in most cell types. Their products are generally essential for ribosome synthesis, which is the cornerstone for cell growth and proliferation. Many cellular resources are dedicated to producing ribosomal proteins and thus this process needs to be regulated in ways that carefully balance the supply of nascent ribosomal proteins with the demand for new ribosomes. Ribosomal protein genes have classically been viewed as a uniform interconnected regulon regulated in eukaryotic cells by target of rapamycin and protein kinase A pathway in response to changes in growth conditions and/or cellular status. However, recent literature depicts a more complex picture in which the amount of ribosomal proteins produced varies between genes in response to two overlapping regulatory circuits. The first includes the classical general ribosome-producing program and the second is a gene-specific feature responsible for fine-tuning the amount of ribosomal proteins produced from each individual ribosomal gene. Unlike the general pathway that is mainly controlled at the level of transcription and translation, this specific regulation of ribosomal protein genes is largely achieved through changes in pre-mRNA splicing efficiency and mRNA stability. By combining general and specific regulation, the cell can coordinate ribosome production, while allowing functional specialization and diversity. Here we review the many ways ribosomal protein genes are regulated, with special focus on the emerging role of posttranscriptional regulatory events in fine-tuning the expression of ribosomal protein genes and its role in controlling the potential variation in ribosome functions. This article is categorized under: Translation > Ribosome Biogenesis Translation > Ribosome Structure/Function Translation > Translation Regulation
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