Eukaryotic cells have divided the steps of gene expression between their nucleus and cytoplasm. Protein-encoding genes generate mRNAs in the nucleus and mRNAs undergo transport to the cytoplasm for the purpose of producing proteins. Cap-binding protein (CBP)20 and its binding partner CBP80 have been thought to constitute the cap-binding complex (CBC) that is acquired co-transcriptionally by the precursors of all mRNAs. However, this principle has recently been challenged by studies of nuclear cap-binding protein 3 (NCBP3). Here we submit how NCBP3, as an alternative to CBP20, an accessory to the canonical CBP20-CBP80 CBC, and/or an RNA-binding protein - possibly in association with the exon-junction complex (EJC) - expands the capacity of cells to regulate gene expression.
Keywords: NCBP3; RNA-binding protein; RNA-recognition motif; cap-binding complex; cap-binding protein; mRNA metabolism.
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