A systems-level view of cellular gene expression requires understanding the mechanistic principles governing each step of transcription. In this chapter, we describe a massively multiplexed method for the analysis of the relationship between nucleic acid sequence and transcription termed "MASTER," for massively systematic transcript end readout. MASTER enables parallel measurements of transcription output from at least 410 (~1,000,000) individual template sequences in vitro and in vivo. MASTER involves constructing a DNA template library of barcoded sequences, generating RNA transcripts from the library during transcription in vitro or in vivo, and analyzing the relative abundance and 5'-end sequences of the RNA transcripts by high-throughput sequencing. MASTER provides a powerful, rapid, and versatile method to identify sequence determinants of each step of transcription and to define the mechanistic basis by which these sequence determinants dictate transcription output.
Keywords: High-throughput sequencing; NCIN; Noncanonical initiating nucleotide; Promoter; RNA capping; RNA polymerase; RNA-seq; Transcription; Transcription initiation; Transcription start site selection.
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