The Architect of Neurotransmission in C. elegans : How FLP-3 Neuropeptides' Structures Direct their Function.

Abstract

Neuropeptides direct functions in the nervous, endocrine, and immune systems of all animals by altering the activity at neural synapses. A single neuropeptide gene can be post-translationally modified to create multiple active peptides. These individual active peptides can have unique functions and drive discrete binding partners. We have previously shown that specific peptides encoded by the C. elegans neuropeptide gene, flp- 3, have sex-specific roles in response to a pheromone released by hermaphrodite C. elegans, ascaroside #8 (ascr#8). Using structural predictions of select FLP-3 neuropeptides, we identify individual amino acids within specific neuropeptides that regulate specific behaviors suggesting structure-function relationships of neuropeptides in regulate sex-specific behaviors.