| Abstract: | The rice leaffolder Cnaphalocrocis exigua (Crambidae, Lepidoptera) is an important agricultural pest that damages rice crops and other members of related grass families. C. exigua exhibits a very similar morphological phenotype and feeding behaviour to C. medinalis, another species of rice leaffolder whose genome was recently reported. However, genomic information for C. exigua remains extremely limited. Here, we used a hybrid strategy combining different sequencing technologies, including Illumina, PacBio, 10× Genomics, and Hi – C scaffolding, to generate a high-quality chromosome-level genome assembly of C. exigua. We initially obtained a 798.8 Mb assembly with a contig N50 size of 2.9 Mb, and the N50 size was subsequently increased to 25.7 Mb using Hi – C technology to anchor 1413 scaffolds to 32 chromosomes. We detected a total of 97.7% Benchmarking Universal Single-Copy Orthologues (BUSCO) in the genome assembly, which was comprised of ~52% repetitive sequence and annotated 14,922 protein-coding genes. Of note, the Z and W sex chromosomes were assembled and identified. A comparative genomic analysis demonstrated that despite the high synteny observed between the two rice leaffolders, the species have distinct genomic features associated with expansion and contraction of gene families and selection pressure. In summary, our chromosome-level genome assembly and comparative genomic analysis of C. exigua provide novel insights into the evolution and ecology of this rice insect pests and offer useful information for pest control. |
