New Role in the 5-HT Receptor: The Sex Attracting of Bursaphelenchus mucronatus

Abstract

Bursaphelenchus mucronatus is the sibling species of B. xylophilus, which causes pine wilt disease. Sex pheromone-mediated mating behavior underlies the development of B. xylophilus populations. The study of the molecular mechanism of sex pheromone receptor genes is vital for the control of B. xylophilus. The pivotal role of the 5-HT receptor ser-1 in Caenorhabditis elegans’s mating has been demonstrated, but there is little known in B. mucronatus and B. xylophilus. In our study, the molecular features and biological functions of Bmu-ser-1 are explored. qPCR results showed that Bmu-ser-1 was expressed at all ages, especially at J2 and J4, with significantly high expression. Notably, the expression levels in males were significantly higher than that in females. The results of in situ hybridization suggest that the Bmu-ser-1 gene was expressed at the site of the digestive system during the embryonic stage, the whole body during the J2 stage, and mainly at the end of the germinal primordium during the J3 stage, as well as centrally in the vulva of females and in the gonads and tail of males during the J4 and adult stages. The RNAi results indicate a significant decrease in hatchability and stagnation at the J1 stage after interference. Treated J2 had reduced motility and stunted growth. Males after interference showed mismatch and females showed spawning difficulties. Sexual arousal experiments further validated Bmu-ser-1 as a receptor gene for males receiving female sex pheromones. Collectively, our findings strongly suggest that the Bmu-ser-1 gene has a classical role, the control of nematode growth; and a novel role involved in mating. The study on the molecular mechanisms of growth and reproduction in B. mucronatus could provide a reference for understanding the population expansion and disease epidemics of B. xylophilus.