Megacopta cribraria, a bean pest causing tremendous economic losses in Asia, was discovered in North America in 2009. Although M. cribraria has become the focus of research on biological invasion and pest management, the lack of genomic resources limits in-depth studies. Here, we report the first chromosome-level genome of M. cribraria using Illumina, PacBio, and Hi-C data. The assembled genome size was 699.65 Mb, with a contig N50 of 1.43 Mb and a scaffold N50 of 109.27 Mb. >97.51 % of bases were successfully anchored to six chromosomes. Through genome annotation, a total of 13,308 coding genes were predicted, 96.3 % of which were successfully accessed function. Expanded gene families were involved in proteolysis, protein metabolism and nitrogen metabolism reflected the underlying genome basis for host adaptation during evolution. Transcriptome analysis revealed different gene expression patterns in antenna, mouthpart, head, leg, wing, and carcass body of the adult M. cribraria, respectively. Moreover, the expression profiles of the odorant receptor genes indicated the potential target genes for pest control. The high-quality chromosome-level genome will benefit further research on the adaptation, evolution, and population genetics of the M. cribraria that will assist in the pest management and tracking the biological invasion routes.
Keywords: Chromosome-level genome; Megacopta cribraria; Transcriptome.
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