Methanol fixation and tagmentation of RNA/DNA hybrids directly enable single-cell transcriptome sequencing
Tao Xu, Yicong Xu, Ziyang An, Yiheng Li, Jiawen Yang, Weixing Zhang, Jin Xu

TL;DR
This paper introduces a new method using methanol fixation and tagmentation to enable high-throughput, full-length single-cell transcriptome sequencing.
Contribution
A novel strategy combining methanol fixation with in situ reverse transcription and transposition for scalable full-length single-cell transcriptome profiling.
Findings
Methanol fixation preserves RNA integrity and allows in situ reverse transcription of full-length cDNA.
Reducing methanol concentration to 40% improves transcript capture efficiency in single cells.
The method is compatible with the 10X Genomics scATAC-seq platform for single-cell transcriptome library preparation.
Abstract
Single-cell transcriptome sequencing is a powerful tool for investigating cellular diversity in normal development and disease. However, prevalent methods predominantly employ 3′-end sequencing of transcripts, limiting the analysis of alternative splicing and other post-transcriptional processes. While full-length single-cell transcriptome sequencing methods, such as Smart-seq, offer more comprehensive information, but are restricted by low-throughput. To overcome these limitations, we propose a strategy that combines in situ reverse transcription and transposition with a high-throughput micro-fluid platform to enable scalable full-length transcriptome profiling at single-cell resolution. In this study, we utilized methanol fixation on cultured cells to evaluate RNA integrity and cellular preservation post-fixation. In situ reverse transcription followed by RNA/DNA hybrids…
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Taxonomy
TopicsSingle-cell and spatial transcriptomics · RNA modifications and cancer · RNA Research and Splicing
