Adaptation of Human Ribosomal RNA for Nanopore Sequencing of Canonical and Modified Nucleotides.

Historically, RNA has been sequenced as cDNA copies derived from reverse transcription of cellular RNA followed by PCR amplification. Recently, RNA sequencing using nanopores has emerged as an alternative. Using this technology, individual cellular RNA strands are read directly as they are driven through nanoscale pores by an applied voltage. The speed of translocation is regulated by a helicase that is loaded onto each RNA strand by an adapter that also facilitates capture by the nanopore electric field. Here we describe a technique for adapting human ribosomal RNA subunits for nanopore sequencing. Using this strategy, a single Oxford Nanopore MinION run delivered 470,907 sequence reads of which 396,048 aligned to ribosomal RNA, with 28S, 18S, 5.8S, and 5S coverage of 6053, 369,472, 16,058, and 4465 reads, respectively. Example alignments that reveal putative nucleotide modifications are provided.