Recent research has highlighted the importance of exon splicing in isolation from other factors. Splicing is the process by which exons, or sections of a gene, are removed from the pre-mRNA and recombined to form the mature mRNA. This process is essential for creating proteins in the body, and a recent study has found that its role in gene expression is far greater than previously thought. The study, conducted by researchers at the University of Oxford, found that exon splicing has a much higher impact on gene expression than other factors, such as transcription and translation. This means that understanding the splicing process is key to understanding how genes are expressed in the body. This research has implications for many areas of biology, from cancer research to development.

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source: Phys.org