Simultaneous profiling of full-length RNA transcripts and chromatin accessibility within single cells of human retinal organoids

Abstract: Single-cell multi-omics sequencing can integrate transcriptome and epigenome to analyze the complex mechanisms underlying neuron development and regeneration, but most current methods are based on second-generation short-read sequencing, which has low efficiency in detecting RNA structural heterogeneity. Long-length sequencing can analyze RNA structures, but the throughput and the number of transcripts detected at the single-cell level are very low, and single-cell level epigenome profiling has not been accomp… Show more

“…It holds the potential to be incorporated into single-cell sequencing workflows, but it remains to be adopted. An innovation called scRCAT-seq (single-cell RNA cap and tail sequencing) and its improvement scRCAT-seq2 were developed to capture variation in transcripts at a single-cell level using short-read sequencing but were limited to the TSS and TTS sequencing ( 25 , 26 ). Another technology, called VASA-seq (vast transcriptome analysis of single cells by dA-tailing), alleviates the issue of bias and single-ended sequencing as observed in Smart-seq and Illumina, respectively, by polyadenylating all fragments to be sequenced ( 27 ).…”

Advances in single-cell long-read sequencing technologies

“…It holds the potential to be incorporated into single-cell sequencing workflows, but it remains to be adopted. An innovation called scRCAT-seq (single-cell RNA cap and tail sequencing) and its improvement scRCAT-seq2 were developed to capture variation in transcripts at a single-cell level using short-read sequencing but were limited to the TSS and TTS sequencing ( 25 , 26 ). Another technology, called VASA-seq (vast transcriptome analysis of single cells by dA-tailing), alleviates the issue of bias and single-ended sequencing as observed in Smart-seq and Illumina, respectively, by polyadenylating all fragments to be sequenced ( 27 ).…”

Advances in single-cell long-read sequencing technologies