Transcriptomics of cryopreserved cells.

Cryopreservation is a well-known strategy to conserve genetic resources at ultra-low temperature. However, there is still limited knowledge on the cellular processes and molecular adjustments that allow cells to withstand the multiple stresses to which they are exposed during cryopreservation. To evaluate these processes, transcriptomics, the sub-discipline of omics that simultaneously examines mRNA transcripts formed by transcription from the genome, has been recently used. This article reviews recent scientific studies which use the basic principles of cryopreservation practices together with transcriptomics approaches, within the conceptual framework of cryobiomics. Moreover, the connections between factors that may be useful to optimize and validate approaches for mammalian or plant cell cryopreservation are also assessed. Transcriptomic applications are mainly performed with methods such as reverse transcriptase polymerase chain reaction (RT-PCR), simultaneous polymerase chain reaction (real-time PCR), northern blot, microarray/biochip and gene expression analysis (SAGE). Transcriptomic technologies allow a global view of gene expression profiles of different mammalian or plant cell types to be obtained before and after cryopreservation under multiple stress conditions. For these processes, small amounts of RNA enable efficient transcriptomics analysis. Transcriptomic analysis of cryopreserved mammalian and plant cells provides a conceptual way to identify the genes and their relative alterations in transcriptional abundances together with non-coding RNAs involved in important pathways related to cell viability and proliferation during and after cryopreservation. Moreover, it greatly contributes to understanding of non-fatal cryodamage and related developmental disorders in cryopreserved mammalian oocytes and sperm. In addition, single cell transcriptomics has the potential to non-invasely monitor immune actions and to diagnose the stage of the inflammatory process in kidney. Finally, qRT-PCR and RNA-seq studies have also revealed that some transcription factors are effective at inducing cold tolerance in many plants by elevating the levels of soluble sugars, proline and unsaturated fatty acids in cells. Hence transcriptomics studies may also aid investigations of the main mechanisms behind the so-called 'cryo-recalcitrance' that is observed mostly in plant cells. https://doi.org/10.54680/fr24610110112.