Genome-Guided Discovery of Natural Products through Multiplexed Low-Coverage Whole-Genome Sequencing of Soil Actinomycetes on Oxford Nanopore Flongle
Rahim Rajwani, Shannon I. Ohlemacher, Gengxiang Zhao, Hong-Bing Liu, Carole A. Bewley
Abstract
Short-read sequencing of GC-rich genomes such as those from actinomycetes results in a fragmented genome assembly and truncated biosynthetic gene clusters (often 10 to >100 kb long), which hinders our ability to understand the biosynthetic potential of a given strain and predict the molecules that can be produced. The current study demonstrates that contiguous DNA assemblies, suitable for analysis of BGCs, can be obtained through low-coverage, multiplexed sequencing on Flongle, which provides a new low-cost workflow ($30 to 40 per strain) for sequencing actinomycete strain libraries.
Topics & Concepts
Nanopore sequencingContigComputational biologyDNA sequencingGenomeBiologySequence assemblyMetagenomicsShotgun sequencingHybrid genome assemblyPyrosequencingReference genomeWorkflowWhole genome sequencingNanoporeDeep sequencingGenomicsGeneticsDNASequence analysisPhylogenetic treeBacterial genome sizeMultiplexingMinionGeneHuman genomeCancer genome sequencingMicrobial Natural Products and BiosynthesisGenomics and Phylogenetic StudiesSynthetic Organic Chemistry Methods