Draft genome sequence data of Haemaphysalis longicornis Oita strain

Haemaphysalis longicornis Neumann, 1901 is one of the most well-known hard ticks because of its medical and veterinary importance. Haemaphysalis longicornis transmit a wide range of pathogens among vertebrates, affecting humans and animals in Asia and Oceania. In Japan, the tick species is a major pest of cattle because it can spread a protozoan parasite Theileria orientalis, which causes theileriosis and produces economic losses to the livestock industry (Yokoyama et al. 2012 [1]). Apart from bovine theileriosis, H. longicornis is a vector of bovine babesiosis caused by Babesia ovata, canine babesiosis caused by Babesia gibsoni, and rickettsiosis and viral diseases in humans. Its habitats are mainly Japan, Australia, New Zealand, New Caledonia, the Fiji Islands, Korea, China, and Russia (Oliver et al. 1973 [2]). In the United States, heavy H. longicornis infestations on cattle and white-tailed deer were reported in 2019, making it now one of the tick species to be an increasing threat to livestock animals and humans globally. Ticks reproduce offspring after mating with female and male ticks, however, interestingly, there are two races of H. longicornis: bisexual (diploid) and parthenogenetic (triploid) races [2]. Parthenogenetic H. longicornis is distributed throughout Japan, while the northern limit of the bisexual race is believed to be Fukushima Prefecture on Honshu Island (Fujita et al. 2013 and Kitaoka et al. 1961 [3,4]). This tick species is also considered to be of great scientific importance, and the parthenogenetic race collected in Okayama prefecture has been reared since 1961, while the bisexual race collected in Oita prefecture has been reared since 2008 under laboratory conditions in Japan (Boldbaatar et al. 2010 and Fujisaki et al. 1976 [5,6]). Namely, the “Okayama strain” and “Oita strain” of H. longicornis have been maintained for more than six decades and 15 years, respectively, stably under laboratory conditions. To obtain reference data of bisexual H. longicornis, we sequenced unfed females with haploid genomes using Illumina and MinION Q20 kit then obtained a draft genome consisting of 2.48 Gbp. The number of the contig was 98,529 and N50 was 46.5 Kb. Genome information derived from our laboratory colony of bisexual H. longicornis ticks would provide fundamental insight into understanding how different reproductive lineages occur within the same species of the tick.