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Single-cell RNA cap and tail sequencing (scRCAT-seq) reveals subtype-specific isoforms differing in transcript demarcation

Author

Listed:
  • Youjin Hu

    (Sun Yat-Sen University)

  • Jiawei Zhong

    (Sun Yat-Sen University)

  • Yuhua Xiao

    (Sun Yat-Sen University)

  • Zheng Xing

    (UCLA)

  • Katherine Sheu

    (UCLA)

  • Shuxin Fan

    (Sun Yat-Sen University)

  • Qin An

    (UCLA)

  • Yuanhui Qiu

    (Sun Yat-Sen University)

  • Yingfeng Zheng

    (Sun Yat-Sen University)

  • Xialin Liu

    (Sun Yat-Sen University)

  • Guoping Fan

    (UCLA)

  • Yizhi Liu

    (Sun Yat-Sen University)

Abstract

The differences in transcription start sites (TSS) and transcription end sites (TES) among gene isoforms can affect the stability, localization, and translation efficiency of mRNA. Gene isoforms allow a single gene diverse functions across different cell types, and isoform dynamics allow different functions over time. However, methods to efficiently identify and quantify RNA isoforms genome-wide in single cells are still lacking. Here, we introduce single cell RNA Cap And Tail sequencing (scRCAT-seq), a method to demarcate the boundaries of isoforms based on short-read sequencing, with higher efficiency and lower cost than existing long-read sequencing methods. In conjunction with machine learning algorithms, scRCAT-seq demarcates RNA transcripts with unprecedented accuracy. We identified hundreds of previously uncharacterized transcripts and thousands of alternative transcripts for known genes, revealed cell-type specific isoforms for various cell types across different species, and generated a cell atlas of isoform dynamics during the development of retinal cones.

Suggested Citation

  • Youjin Hu & Jiawei Zhong & Yuhua Xiao & Zheng Xing & Katherine Sheu & Shuxin Fan & Qin An & Yuanhui Qiu & Yingfeng Zheng & Xialin Liu & Guoping Fan & Yizhi Liu, 2020. "Single-cell RNA cap and tail sequencing (scRCAT-seq) reveals subtype-specific isoforms differing in transcript demarcation," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18976-7
    DOI: 10.1038/s41467-020-18976-7
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    Cited by:

    1. Shuyao Zhang & Yuhua Xiao & Xinzhi Mo & Xu Chen & Jiawei Zhong & Zheyao Chen & Xu Liu & Yuanhui Qiu & Wangxuan Dai & Jia Chen & Xishan Jin & Guoping Fan & Youjin Hu, 2024. "Simultaneous profiling of RNA isoforms and chromatin accessibility of single cells of human retinal organoids," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    2. Ruiyan Hou & Chung-Chau Hon & Yuanhua Huang, 2023. "CamoTSS: analysis of alternative transcription start sites for cellular phenotypes and regulatory patterns from 5' scRNA-seq data," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    3. Amos C. Lee & Yongju Lee & Ahyoun Choi & Han-Byoel Lee & Kyoungseob Shin & Hyunho Lee & Ji Young Kim & Han Suk Ryu & Hoe Suk Kim & Seung Yeon Ryu & Sangeun Lee & Jong-Ho Cheun & Duck Kyun Yoo & Sumin , 2022. "Spatial epitranscriptomics reveals A-to-I editome specific to cancer stem cell microniches," Nature Communications, Nature, vol. 13(1), pages 1-12, December.

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