摘要
DEAR EDITOR,Syngnathidae species commonly inhabit ocean environments.However,some have adapted to live exclusively in freshwater over long-term adaptive evolution but continue to retain physiological adaptations to saltwater environments.The genetic basis underlying the adaptive strategies and molecular regulation of freshwater syngnathids to freshwater and saltwater remains unclear.Here,we investigated the molecular characteristics and core gene expression in freshwater belly pipefish(Hippichthys heptagonus)embryos and juveniles through salinity stress experiments and transcriptome analysis.Results showed that embryonic exposure to salinity at a concentration of 30‰down-regulated cell cycle-associated genes vital to embryonic development.Retinol metabolism,neuroactive receptor interaction,and peroxisome proliferator-activated receptor signaling pathways were significantly enriched in up-regulated genes in the embryos.Notably,there was no significant change in the expression of ion transport and energy metabolism genes.Conversely,juvenile exposure to 30‰salinity up-regulated ion transport-related genes and significantly enriched immune-related signaling pathways,including lysosome,phagosome,autophagy,and mitophagy signaling pathways.Carbohydrate metabolism genes were also up-regulated,whereas oxidative phosphorylation genes were significantly down-regulated.These results suggest that brood pouch protection during the embryonic stage and salinity adaptation plasticity in juveniles may be strategic adaptations in freshwater pipefish.
基金
supported by the National Natural Science Foundation of China(42176120,41825013,42006109)
Key Deployment Project of Centre for Ocean Mega-Research of Science,Chinese Academy of Sciences(COMS2020Q14)
Science and Technology Planning Project of Guangdong Province,China(2020B1212060058)
South Sea New Star of SCSIO,Chinese Academy of Sciences(NHXX2018ST0201)。
