Single-molecule sequencing of theDrosophila serratagenome
ABSTRACTLong read sequencing technology promises to greatly enhancede novoassembly of genomes for non-model species. While error rates have been a large stumbling block, sequencing at high coverage allows reads to be self-corrected. Here we sequence andde novoassemble the genome ofDrosophila serrata, a non-model species from themontiumsubgroup that has been well studied for clines and sexual selection. Using 11 PacBio SMRT cells, we generated 12 Gbp of raw sequence data comprising approximately 65x whole genome coverage. Read lengths averaged 8,940 bp (NRead50 12,200) with the longest read at 53 Kbp. We self-corrected reads using the PBDagCon algorithm and assembled the genome using the MHAP algorithm within the PBcR assembler. Total genome length was 198 Mbp with an N50 just under 1 Mbp. Contigs displayed a high degree of arm-level conservation withD. melanogaster. We also provide an initial annotation for this genome usingin silicogene predictions that were supported by RNA-seq data.