BMC Genomics (Nov 2024)

Single-cell sequencing of full-length transcripts and T-cell receptors with automated high-throughput Smart-seq3

  • Hsiu-Chun Chuang,
  • Ruidong Li,
  • Huang Huang,
  • Szu-Wen Liu,
  • Christine Wan,
  • Subhra Chaudhuri,
  • Lili Yue,
  • Terence Wong,
  • Venina Dominical,
  • Randy Yen,
  • Olivia Ngo,
  • Nam Bui,
  • Hubert Stoppler,
  • Tangsheng Yi,
  • Silpa Suthram,
  • Li Li,
  • Kai-Hui Sun

DOI
https://doi.org/10.1186/s12864-024-11036-0
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 18

Abstract

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Abstract We developed an automated high-throughput Smart-seq3 (HT Smart-seq3) workflow that integrates best practices and an optimized protocol to enhance efficiency, scalability, and method reproducibility. This workflow consistently produces high-quality data with high cell capture efficiency and gene detection sensitivity. In a rigorous comparison with the 10X platform using human primary CD4 + T-cells, HT Smart-seq3 demonstrated higher cell capture efficiency, greater gene detection sensitivity, and lower dropout rates. Additionally, when sufficiently scaled, HT Smart-seq3 achieved a comparable resolution of cellular heterogeneity to 10X. Notably, through T-cell receptor (TCR) reconstruction, HT Smart-seq3 identified a greater number of productive alpha and beta chain pairs without the need for additional primer design to amplify full-length V(D)J segments, enabling more comprehensive TCR profiling across a broader range of species. Taken together, HT Smart-seq3 overcomes key technical challenges, offering distinct advantages that position it as a promising solution for the characterization of single-cell transcriptomes and immune repertoires, particularly well-suited for low-input, low-RNA content samples.

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