ABSTRACT
Long non-coding RNA (lncRNA) are non-coding RNA (ncRNA) greater than 200nt inlength, which were initially considered as transcriptional " junk" with no biological function. As researchprogressed, lncRNA were found to be involved in many biological regulatory processes, such aschromosome silencing, chromatin modification, transcriptional activation and interference. Thesebiological regulatory processes are closely related to the structure and spatial and temporal specificexpression of lncRNA. In addition, the corresponding regulatory mechanisms of lncRNA with differentstructures and locations are different. When lncRNA are located in the nucleus, they mostly regulate geneexpression at the transcriptional level and epigenetically, including histone modifications, DNAmethylation, chromosome remodeling and other modification processes. In contrast, lncRNA in thecytoplasm mostly play regulatory roles at the post-transcriptional and translational levels, and themechanisms of action and functions of lncRNA vary among different organelles, all of which illustrate theimportance of the location of lncRNA on their functional performance. In addition, exosomes are also richin lncRNA, and these lncRNA can be delivered to the corresponding sensitive cells through intercellularcommunication to generate the corresponding regulatory mechanisms. In addition, aberrant expression oflncRNA in different structures is often a key factor in the development and progression of related diseasesand cancers. Studying the enrichment of lncRNA in different subcellular structures can help understandthe specific roles played by lncRNA in regulating body homeostasis, disease and cancer occurrence anddevelopment, as well as growth and development of plants and animals, as well as provide a newtheoretical basis for subsequent studies on targeted therapies and improving animal productionperformance. This paper outlines the latest research progress on the different regulatory mechanisms oflncRNA in chromosomes, membraneless substructures, cytoplasm (endoplasmic reticulum, ribosomes, mitochondria, lysosomes), exosomes and other locations, as well as describes the processes of relateddiseases and cancers caused by lncRNA abnormalities within the corresponding structures. Finally, anoutlook on lncRNA research is given with the aim of providing a corresponding theoretical basis for futurestudies.