Efforts to uncover a cholinergic neurotransmission system in Hydra have yielded
conflicting results, where early studies suggested cholinergic agents affect the animal’s
movement and later studies failed to reproduce these results. The identification of
cholinergic mechanisms in the Cnidarian Nematostella vectensis and the presence of
nicotinic Acetylcholine receptor (nAChR)-like sequences in the published Hydra genome
have led us to revisit this issue. This study explores cholinergic mechanisms in Hydra
through a comprehensive approach, including bioinformatics analysis, dose-response
experiments, live-neuron imaging, and molecular approaches. Bioinformatics analysis
identified 6 homologous nAChR sequences, one of which was confirmed by RT-qPCR.
Dose-response experiments clearly showed that cholinergic agonists induced wholebody
contractions and a nAChR antagonist sequestered this response. Live neuron
imaging confirms that agonist treatment plays a role in neuron excitation that directly
precedes behavior. Overall, my results confirm the existence of cholinergic mechanisms
in Hydra. Further investigations can prove a direct or indirect mechanism of action on
neurons.
Date of Award | Apr 2021 |
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Original language | English (US) |
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Supervisor | Takashi Gojobori (Supervisor) |
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- Hydra
- Nervous system
- Evolution
- Neuroscience
- Molecular biology