Abstract
BackgroundAdapted to different ecological niches, moth species belonging to the Hyles genus exhibit a spectacular diversity of larval color patterns. These species diverged ∼7.5 million years ago, making this rather young genus an interesting system to study a wide range of questions including the process of speciation, ecological adaptation, and adaptive radiation.ResultsHere we present a high-quality genome assembly of the bat hawkmoth Hyles vespertilio, the first reference genome of a member of the Hyles genus. We generated 51× Pacific Biosciences long reads with an average read length of 8.9 kb. Pacific Biosciences reads longer than 4 kb were assembled into contigs, resulting in a 651.4-Mb assembly consisting of 530 contigs with an N50 value of 7.5 Mb. The circular mitochondrial contig has a length of 15,303 bp. The H. vespertilio genome is very repeat-rich and exhibits a higher repeat content (50.3%) than other Bombycoidea species such as Bombyx mori (45.7%) and Manduca sexta (27.5%). We developed a comprehensive gene annotation workflow to obtain consensus gene models from different evidence including gene projections, protein homology, transcriptome data, and ab initio predictions. The resulting gene annotation is highly complete with 94.5% of BUSCO genes being completely present, which is higher than the BUSCO completeness of the B. mori (92.2%) and M. sexta (90%) annotations.ConclusionsOur gene annotation strategy has general applicability to other genomes, and the H. vespertilio genome provides a valuable molecular resource to study a range of questions in this genus, including phylogeny, incomplete lineage sorting, speciation, and hybridization. A genome browser displaying the genome, alignments, and annotations is available at https://genome-public.pks.mpg.de/cgi-bin/hgTracks?db=HLhylVes1.
Highlights
Bombycoidea are a speciose superfamily of moths, comprising 10 families, >500 genera [1], and 6,092 species that are mostly diversified in the intertropical region of the globe [2]
The resulting gene annotation is highly complete with 94.5% of Benchmarking Universal Single-Copy Orthologs (BUSCO) genes being completely present, which is higher than the BUSCO completeness of the B. mori (92.2%) and M. sexta (90%) annotations
We report the assembly of the H. vespertilio genome from using Pacific Biosciences (PacBio) long sequencing reads, the annotation of this genome, and a comparative analysis to B. mori and M. sexta
Summary
Bombycoidea are a speciose superfamily of moths, comprising 10 families, >500 genera [1], and 6,092 species that are mostly diversified in the intertropical region of the globe [2]. Bombycoidea comprises some of the largest moth species, exemplified by the giant silk moth Attacus atlas with a wingspan measuring 25–30 cm, and includes several model organisms, such as the domestic silkmoth Bombyx mori, a bombycid of great economic importance for silk production, and the tobacco hornworm Manduca sexta, which is a common pest sphingid species causing considerable damage to tobacco, tomato, pepper, eggplant, and plantations of other crops [5]. Because these species have been extensively studied, they play a leading role in the fields of Lepidoptera genetics and physiology. A genome browser displaying the genome, alignments, and annotations is available at https://genome-public.pks.mpg.de/cgi-bin/hgTracks?db=HLhylVes
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