First chromosome-level genome assembly of a ribbon worm from the Hoplonemertea clade,Emplectonema gracile, and its structural annotation

Abstract Genome-wide information has so far been unavailable for ribbon worms of the clade Hoplonemertea, the most species-rich class within the phylum Nemertea. While species within Pilidiophora, the sister clade of Hoplonemertea, possess a pilidium larval stage and lack stylets on their proboscis, Hoplonemertea species have a planuliform larva and are armed with stylets employed for the injection of toxins into their prey. To further compare these developmental, physiological, and behavioral differences from a genomic perspective, the availability of a reference genome of a Hoplonemertea species is crucial. To this end, we herein present the annotated chromosome-level genome assembly for Emplectonema gracile (Nemertea; Hoplonemertea; Monostilifera; Emplectonematidae), an easily collected nemertean well-suited for laboratory experimentation. The genome is 157.9 Mbp in span. Hi-C scaffolding yielded 15 putative chromosomes with a scaffold N50 of 10.0 Mbp and a BUSCO completeness score of 95.3%. Structural annotation predicted 20,684 protein-coding genes. The high-quality reference genome reaches an Earth BioGenome standard level of 7.C.Q50. These data will be highly useful for future investigations towards a better understanding of the evolution, development, morphology, and toxicology of Nemertea. Significance The genome of Emplectonema gracile is highly contiguous, well annotated, and shorter than those of the other two ribbon worm species sequenced to date. This genome is a valuable resource for studies on molecular ecology, venom evolution, and regeneration in marine invertebrates.