AI Article Synopsis
- Single-cell mRNA sequencing is effective in studying cellular differences, but single-cell small RNA sequencing (sc-sRNA-seq) is challenging due to low abundance and lack of consensus sequences.
- We developed two methods for cell lysis: one chemical-based and the other using on-chip electrical techniques, which help extract small RNAs efficiently.
- Our approach allows for quick processing (about 6 hours) and successfully detects a wide range of microRNA abundances in individual cells, opening up new avenues for researching cellular heterogeneity.
Article Abstract
Although single-cell mRNA sequencing has been a powerful tool to explore cellular heterogeneity, the sequencing of small RNA at the single-cell level (sc-sRNA-seq) remains a challenge, as these have no consensus sequence, are relatively low abundant, and are difficult to amplify in a bias-free fashion. We present two methods of single-cell-lysis that enable sc-sRNA-seq. The first method is a chemical-based technique with overnight freezing while the second method leverages on-chip electrical lysis of plasma membrane and physical extraction and separation of cytoplasmic RNA via isotachophoresis. We coupled these two methods with off-chip small RNA library preparation using CleanTag modified adapters to prevent the formation of adapter dimers. We then demonstrated sc-sRNA-seq with single K562 human leukemic cells. Our approaches offer a relatively short hands-on time of 6 h and efficient generation of on-target reads. The sc-sRNA-seq with our approaches showed detection of miRNA with various abundances ranging from 16 000 copies/cell to about 10 copies/cell. We anticipate this approach will create a new opportunity to explore cellular heterogeneity through small RNA expression.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6233959 | PMC |
| http://dx.doi.org/10.1021/acs.analchem.8b02773 | DOI Listing |
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