Smart-seq2 for sensitive full-length transcriptome profiling in single cells
Nature methods, 2013•nature.com
Single-cell gene expression analyses hold promise for characterizing cellular heterogeneity,
but current methods compromise on either the coverage, the sensitivity or the throughput.
Here, we introduce Smart-seq2 with improved reverse transcription, template switching and
preamplification to increase both yield and length of cDNA libraries generated from
individual cells. Smart-seq2 transcriptome libraries have improved detection, coverage, bias
and accuracy compared to Smart-seq libraries and are generated with off-the-shelf reagents …
but current methods compromise on either the coverage, the sensitivity or the throughput.
Here, we introduce Smart-seq2 with improved reverse transcription, template switching and
preamplification to increase both yield and length of cDNA libraries generated from
individual cells. Smart-seq2 transcriptome libraries have improved detection, coverage, bias
and accuracy compared to Smart-seq libraries and are generated with off-the-shelf reagents …
Abstract
Single-cell gene expression analyses hold promise for characterizing cellular heterogeneity, but current methods compromise on either the coverage, the sensitivity or the throughput. Here, we introduce Smart-seq2 with improved reverse transcription, template switching and preamplification to increase both yield and length of cDNA libraries generated from individual cells. Smart-seq2 transcriptome libraries have improved detection, coverage, bias and accuracy compared to Smart-seq libraries and are generated with off-the-shelf reagents at lower cost.
nature.com