AI Article Synopsis
- This study explores a new model organism in neuroscience that is small, transparent, and has a regenerating nervous system, but lacks knowledge about its sensorimotor behaviors.
- Researchers employed microfluidic devices and fluorescent calcium imaging to examine how the organism reacts to mechanical stimuli, finding that this response involves two separate networks of neurons located in different body regions.
- The findings highlight distinct neuronal patterns based on the type of contraction (spontaneous vs. stimulated) and enhance understanding of how sensory processing works in organisms with a diffuse and radially symmetric neural structure.
Article Abstract
is an emerging model organism for neuroscience due to its small size, transparency, genetic tractability, and regenerative nervous system; however, fundamental properties of its sensorimotor behaviors remain unknown. Here, we use microfluidic devices combined with fluorescent calcium imaging and surgical resectioning to study how the diffuse nervous system coordinates 's mechanosensory response. Mechanical stimuli cause animals to contract, and we find this response relies on at least two distinct networks of neurons in the oral and aboral regions of the animal. Different activity patterns arise in these networks depending on whether the animal is contracting spontaneously or contracting in response to mechanical stimulation. Together, these findings improve our understanding of how 's diffuse nervous system coordinates sensorimotor behaviors. These insights help reveal how sensory information is processed in an animal with a diffuse, radially symmetric neural architecture unlike the dense, bilaterally symmetric nervous systems found in most model organisms.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8324302 | PMC |
| http://dx.doi.org/10.7554/eLife.64108 | DOI Listing |
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