Metabolic labeling of RNA using ribonucleoside analogs enables the evaluation of RNA synthesis and degradation rates.

Long noncoding RNAs (lncRNAs) are transcripts exceeding 200 nucleotides that do not encode proteins. Despite lacking protein-coding capabilities, lncRNAs play crucial roles in cellular processes, including gene-expression modulation and structural maintenance. The study of lncRNAs has evolved significantly since 2009, with advancements in analytical methodologies providing new insights into their functions and dynamics. Key developments include BRIC-Seq, SLAM-Seq, TUC-Seq, TimeLapse-seq, and Dyrec-Seq. These methodologies have enabled researchers to investigate lncRNA behavior under various conditions, including cellular stress responses and complex biologic systems. Future challenges include developing comprehensive techniques for identifying lncRNA-interacting proteins and advancing in vivo methodologies using model organisms. As the field progresses, integrating these technologies will enhance our understanding of lncRNA biology, potentially leading to novel therapeutic strategies and deeper insights into gene-regulation mechanisms.