📚 Volume 33, Issue 7 📋 ID: pTt8aG2

Authors

Eva Madsen, Hiroshi Tanaka, Fatemeh Rahimi

Lanzhou University, Lanzhou, China; Ferdowsi University of Mashhad, Mashhad, Iran; Massey University, Palmerston North, New Zealand

Keywords

RNA splicing gene expression splice variants RNA-binding proteins high-throughput sequencing genetic regulation

Abstract

RNA processing is a critical aspect of gene expression regulation, with splicing being one of the most complex and vital processes involved. Despite significant advances, the intricacies of RNA splicing and its regulatory mechanisms remain only partially understood. This study aims to elucidate alternative RNA processing pathways and their role in cellular functions. Utilizing a combination of high-throughput sequencing and advanced computational modeling, we examined the splicing patterns across different cell types and environmental conditions. Our findings highlight novel splicing events that are crucial for the regulation of gene expression and cellular adaptation. We identified specific splice variants that play a significant role in stress response and cellular differentiation, suggesting a dynamic regulatory landscape. Furthermore, we discovered that certain RNA-binding proteins are involved in selecting alternative splice sites, influencing the diversity of the proteome. These insights enhance our understanding of RNA processing and open new avenues for research in genetic regulation and potential therapeutic interventions. This study contributes to the growing body of knowledge on the complexity of gene expression and the pivotal role of RNA processing.
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📝 How to Cite

Eva Madsen, Hiroshi Tanaka, Fatemeh Rahimi (2026). "Exploring Alternative RNA Processing Pathways: Insights into Splicing Mechanisms and Regulatory Roles". Wulfenia, 33(7).