Scientists develop new method that advances single-cell transcriptomic technologies

Scientists at Oxford Brookes University have developed a new single-cell transcriptomic method which will aid multiple fields of biology, including the study of human health, disease and injury.

Scientists develop new method that advances single-cell transcriptomic technologies
Cell map using ACME single cell transciptomics method. Image Credit: Oxford Brookes University

Single-cell transcriptomic methods allow scientists to study thousands of individual cells from living organisms, one-by-one, and sequence each cell’s genetic material. Genes are activated differently in each cell type, giving rise to cell types such as neurons, skin cells and muscle cells.

Single-cell transcriptomics allows scientists to identify the genes that are active in each individual cell type, and discover how these genetic differences change cellular identity and function. Careful study of this data can allow new cell types to be discovered, including previously unobserved stem cells, and help scientists trace complex developmental processes.

“Single-cell transcriptomics have revolutionized biology but are still an area in active development,” explains Helena Garcia Castro, a PhD student in the Department of Biological and Medical Science at Oxford Brookes University and co-author of the paper.

Current methods use cell dissociation protocols with ‘live’ tissues, which put cells under stress, causing them to change, and limiting accurate investigations.”

Helena Garcia Castro, PhD student in the Department of Biological and Medical Science, Oxford Brookes University

To solve this problem, the research team used historical research and revived a process from the 19th and 20th centuries to create the ACME (ACetic acid MEthanol dissociation) method.

Scientists realized that with this method, cells did not suffer from the dissociation as it stops their biological activity and ‘fixes’ them from the very beginning of the investigation.

The ACME method then allows cells to be cryopreserved, one or several times throughout the process, either immediately after the dissociation process, in the field or when doing multi-step protocols.

This means scientists can now exchange samples between labs, preserve the cell material and large sample sets can be frozen in order to be analyzed simultaneously, without destroying the integrity of the genetic material in the cell. We took the method from the old papers and repurposed it to make it work with current single-cell transcriptomic techniques. With our new method, we will now set out to characterize cell types in many animals.”

Dr Jordi Solana, Research Fellow, Oxford Brookes University

Scientists are now able to collaborate with other laboratories and research a wider variety of animal cells, thanks to the ACME method. This would not have been possible without the technology to dissociate and freeze live cell tissues.

The paper, ACME dissociation: a versatile cell fixation-dissociation method for single-cell transcriptomics, is published in Genome Biology.

Source:
Journal reference:

García-Castro, H., et al. (2021) ACME dissociation: a versatile cell fixation-dissociation method for single-cell transcriptomics. Genome Biology. doi.org/10.1186/s13059-021-02302-5

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