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Blair Lyons
Gene expression and regulation are the dynamic processes that govern the flow of genetic information within cells, orchestrating the intricate machinery of cellular life. This research delves into the molecular intricacies that underlie these processes, shedding light on the regulatory mechanisms that control the transcription, processing, translation, and post-translational modification of genetic material. The complexities of gene expression are critical for maintaining cellular homeostasis, responding to environmental cues, and executing the functions essential for life. Transcriptional regulation involves a symphony of factors, including transcription factors, enhancers, and epigenetic modifications that shape the accessibility of genes for transcription. Post-transcriptional processes, such as splicing, editing, and the influence of non-coding RNAs, further refine the RNA transcripts. The translation of mRNA into proteins is intricately regulated during initiation, elongation, and termination, with ribosomes and RNA-binding proteins playing central roles. Post-translationally, proteins undergo modifications that dictate their activity, stability, and localization.