Multiple displacement amplification (MDA) enables whole-genome amplification from single cells, but introduces chimeric artifacts that severely compromise downstream analyses, particularly with long-read sequencing. Here, we systematically evaluate long-read PacBio HiFi sequencing of MDA amplified DNA from single cells using the model green alga Chlamydomonas reinhardtii. We show that MDA-derived libraries exhibit highly uneven coverage and extreme chimera rates impacting up to 70% of reads, leading to thousands of artefactual structural variants and misassemblies when assembled using algorithms designed for bulk sequencing. To overcome these challenges, we developed lrSAGA (long-read Single Amplified Genome Assembly), a novel tool to assemble long-read MDA sequencing datasets. Assemblies generated using lrSAGA are more complete, more contiguous, and have 75-95% fewer misassemblies compared to conventional assembly algorithms. Although overall contiguity is limited by MDA coverage dropouts, we demonstrate that up to 68% of the C. reinhardtii genome can be accurately assembled from just a single haploid cell. We further validated lrSAGA using published Oxford Nanopore and PacBio HiFi data from single or half Caenorhabditis elegans worms, generating accurate and highly complete assemblies. Applying our approach to single protist cells isolated from environmental water samples, we performed PacBio HiFi single-cell genome sequencing of four uncultivated microbial eukaryotes: an amoeboflagellate from the Naegleria genus, a flagellate from the Bodo genus, and two deep-branching flagellates from the enigmatic CRuMs supergroup, Collodictyon triciliatum and Diphylleia rotans. From single cells, we generated high-quality draft genome assemblies estimated to be 70-84% complete, demonstrating the potential of long-read single-cell genomics to unlock genome diversity from uncultivated microbial eukaryotes.
McGowan, J., Lipscombe, J., Kilias, E. S., Barker, T., Catchpole, L., Durrant, A., Irish, N., McTaggart, S., Warring, S. D., Gharbi, K., Richards, T. A., Hall, N., Swarbreck, D.
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