Genome report: Genome sequence of Phymata mystica (Evans), an ambush bug

Recent advances in sequencing technology have made the sequencing of non-model organisms significantly more streamlined and feasible. Using these technologies, we begin to address the lack of data on non-model organisms, by sequencing the genome of one such species, Phymata mystica (Evans 1931), an ambush bug (Hemiptera: Heteroptera: Reduviidae: Phymatinae) specialized for floral sit-and-wait style predation. Our genome assembly is 710 Mb, in which 99.7% of this sequence is assembled into 14 chromosomal scaffolds. We found that repetitive elements accounted for 58.85% of the sequence. We report 26,760 protein-coding genes in a preliminary annotation of the genome. Using these new resources, we explored both macrosynteny and gene conservation. Starting with chromosome structure, we found that P. mystica has a single X chromosome, unlike other well-assembled Reduviids in which the X apparently split into two linkage groups. Exploring this new annotation, we found a number of venom proteins conserved between P. mystica and the other venomous Heteroptera with reference genomes, primarily serine proteases, metallopeptidase and heteropteran venom family proteins. These results provide a new framework for the evolution of venom in this group of insects and further demonstrate the ease with which non-model species can be studied using modern genomic methods.