Molecular mechanisms underlying metamorphosis in the most-ancestral winged insect.
Genta OkudeMinoru MoriyamaRyouka Kawahara-MikiShunsuke YajimaTakema FukatsuRyo FutahashiPublished in: Proceedings of the National Academy of Sciences of the United States of America (2022)
Insects comprise over half of the described species, and the acquisition of metamorphosis must have contributed to their diversity and prosperity. The order Odonata (dragonflies and damselflies) is among the most-ancestral insects with drastic morphological changes upon metamorphosis, in which understanding of the molecular mechanisms will provide insight into the evolution of incomplete and complete metamorphosis in insects. In order to identify metamorphosis-related genes in Odonata, we performed comprehensive RNA-sequencing of the blue-tailed damselfly Ischnura senegalensis at different developmental stages. Comparative RNA-sequencing analyses between nymphs and adults identified eight nymph-specific and seven adult-specific transcripts. RNA interference (RNAi) of these candidate genes demonstrated that three transcription factors, Krüppel homolog 1 ( Kr-h1 ), broad , and E93 play important roles in metamorphosis of both I. senegalensis and a phylogenetically distant dragonfly, Pseudothemis zonata E93 is essential for adult morphogenesis, and RNAi of Kr-h1 induced precocious metamorphosis in epidermis via up-regulation of E93 Precocious metamorphosis was also induced by RNAi of the juvenile hormone receptor Methoprene-tolerant ( Met ), confirming that the regulation of metamorphosis by the MEKRE93 (Met-Kr-h1-E93) pathway is conserved across diverse insects including the basal insect lineage Odonata. Notably, RNAi of broad produced unique grayish pigmentation on the nymphal abdominal epidermis. Survey of downstream genes for Kr-h1 , broad , and E93 uncovered that unlike other insects, broad regulates a substantial number of nymph-specific and adult-specific genes independently of Kr-h1 and E93 These findings highlight the importance of functional changes and rewiring of the transcription factors Kr-h1 , broad , and E93 in the evolution of insect metamorphosis.