Long non coding RNA function in epigenetic memory with a particular emphasis on genomic imprinting and X chromosome inactivation.

Cells preserve and convey certain gene expression patterns to their progeny through the mechanism called epigenetic memory. Epigenetic memory, encoded by epigenetic markers and components, determines germline inheritance, genomic imprinting, and X chromosome inactivation. First discovered long non coding RNAs were implicated in genomic imprinting and X-inactivation and these two phenomena clearly demonstrate the role of lncRNAs in epigenetic memory regulation. Undoubtedly, lncRNAs are well-suited for regulating genes in close proximity at imprinted loci. Due to prolonged association with the transcription site, lncRNAs are able to guide chromatin modifiers to certain locations, thereby enabling accurate temporal and spatial regulation. Nevertheless, the current state of knowledge regarding lncRNA biology and imprinting processes is still in its nascent phase. Herein, we provide a synopsis of recent scientific advancements to enhance our comprehension of lncRNAs and their functions in epigenetic memory, with a particular emphasis on genomic imprinting and X chromosome inactivation, thus gaining a deeper understanding of the role of lncRNAs in epigenetic regulatory networks.