Comprehensive characterization of single-cell full-length isoforms in human and mouse with long-read sequencing

Luyi Tian, Jafar S. Jabbari, Rachel Thijssen, Quentin Gouil, Shanika L. Amarasinghe, Oliver Voogd, Hasaru Kariyawasam, Mei R.M. Du, Jakob Schuster, Changqing Wang, Shian Su, Xueyi Dong, Charity W. Law, Alexis Lucattini, Yair David Joseph Prawer, Coralina Collar-Fernández, Jin D. Chung, Timur Naim, Audrey Chan, Chi Hai LyGordon S. Lynch, James G. Ryall, Casey J.A. Anttila, Hongke Peng, Mary Ann Anderson, Christoffer Flensburg, Ian Majewski, Andrew W. Roberts, David C.S. Huang, Michael B. Clark, Matthew E. Ritchie

Research output: Other contributionOther

Abstract

Alternative splicing shapes the phenotype of cells in development and disease. Long-read RNA-sequencing recovers full-length transcripts but has limited throughput at the single-cell level. Here we developed single-cell full-length transcript sequencing by sampling (FLT-seq), together with the computational pipeline FLAMES to overcome these issues and perform isoform discovery and quantification, splicing analysis and mutation detection in single cells. With FLT-seq and FLAMES, we performed the first comprehensive characterization of the full-length isoform landscape in single cells of different types and species and identified thousands of unannotated isoforms. We found conserved functional modules that were enriched for alternative transcript usage in different cell populations, including ribosome biogenesis and mRNA splicing. Analysis at the transcript-level allowed data integration with scATAC-seq on individual promoters, improved correlation with protein expression data and linked mutations known to confer drug resistance to transcriptome heterogeneity. Our methods reveal previously unseen isoform complexity and provide a better framework for multi-omics data integration.Competing Interest StatementThe authors have declared no competing interest.

Original languageEnglish
Typepreprint
Media of outputbioRxiv
PublisherbioRxiv
Number of pages24
DOIs
Publication statusPublished - 10 Aug 2020
Externally publishedYes

Keywords

  • Long-read sequencing
  • Single-cell gene expression
  • Single-cell multi-omics
  • Splicing

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