A low DNA input protocol for high-quality PacBio de novo genome assemblies
A high-quality reference genome is an essential tool for studying the genetics of traits and disease, organismal, comparative and conservation biology, and population genomics. PacBio Single Molecule, Real-Time (SMRT) Sequencing generates long reads with uniform coverage and high consensus accuracy, making it a powerful technology for de novo genome assembly. Improvements in throughput and concomitant reductions in cost have made PacBio an attractive core technology for many large genome initiatives. However, relatively high DNA input requirements (3 µg for standard library protocol) have placed PacBio out of reach for many projects on small organisms that may have lower DNA content or on projects with limited input DNA for other reasons. Here we present a modified SMRTbell library construction protocol without DNA shearing or size selection that can be used to generate a SMRTbell library from just 150 ng of starting genomic DNA. Remarkably, the protocol enables high quality de novo assemblies from single invertebrate individuals and is applied to taxonomically diverse samples. By sequencing and assembling material from a single diploid individual, only two haplotypes are present, simplifying the assembly process compared to samples from multiple pooled individuals. The libraries were run on the Sequel System with chemistry v3.0 and software v6.0, generating ~11 Gb of sequence per SMRT Cell with 10 hour movies, and followed by de novo genome assembly with FALCON. The resulting assemblies had high contiguity (contig N50s over 1 Mb) and completeness (as determined by conserved BUSCO gene analysis) when at least 30-fold unique molecular coverage is obtained. This new low-input approach now puts PacBio-based assemblies in reach for small highly heterozygous organisms that comprise much of the diversity of life. The method presented here is scalable and can be applied to samples with starting DNA amounts of 150 ng per 300 Mb genome size.