The 5-amino acid N-terminal extension of non-sulfated drosulfakinin II is a unique target to generate novel agonists.

The ability to design agonists that target peptide signaling is a strategy to delineate underlying mechanisms and influence biology. A sequence that uniquely characterizes a peptide provides a distinct site to generate novel agonists. Drosophila melanogaster sulfakinin encodes non-sulfated drosulfakinin I (nsDSK I; FDDYGHMRF-NH2) and nsDSK II (GGDDQFDDYGHMRF-NH2).

Structure-activity and immunochemical data provide evidence of developmental- and tissue-specific myosuppressin signaling.

Myosuppressin peptides dramatically diminish contractions of the gut and heart. Thus, delineating mechanisms involved in myosuppressin signaling may provide insight into peptidergic control of muscle contractility. Drosophila myosuppressin (DMS, TDVDHVFLRFamide) structure-activity relationship (SAR) was investigated to identify an antagonist and explore signaling.

Plasticity in the effects of sulfated and nonsulfated sulfakinin on heart contractions.

Neuropeptides regulate the frequency of heart contractions. Drosophila melanogaster sulfakinin (drosulfakinin) encodes FDDYGHMRFamide, DSK I, and GGDDQFDDYGHMRFamide, DSK II. Invertebrate sulfakinins are structurally and functionally related to vertebrate cholecystokinins.

A nonpeptide provides insight into mechanisms that regulate Drosophila melanogaster heart contractions.

Here we report the effect of a nonpeptide, benzethonium chloride (bztc), on Drosophila melanogaster larval, pupal, and adult heart rates in vivo. Benzethonium chloride reduced the frequency of spontaneous contractions in the D. melanogaster pupal heart, but not in the larval heart or the adult heart as measured in noninvasive whole animal preparations.

The structure of the FMRFamide receptor and activity of the cardioexcitatory neuropeptide are conserved in mosquito.

Numerous peptides are structurally related to the cardioexcitatory tetrapeptide FMRFamide. One subgroup of FMRFamide-related peptides (FaRPs) contains an FMRFamide C terminus. Searches of the Drosophila melanogaster genome database identified the first invertebrate FMRFamide G-protein coupled receptor (GPCR), DrmFMRFa-R (Cazzamali and Grimmelikhuijzen, Meeusen et al.