Isolation, identification and synthesis of locustamyotropin III and IV, two additional neuropeptides of Locusta migratoria: Members of the locustamyotropin peptide family
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Identification of functionally important residues of the silkmoth pheromone biosynthesis-activating neuropeptide receptor, an insect ortholog of the vertebrate neuromedin U receptor
2014, Journal of Biological ChemistryCitation Excerpt :Several neuropeptides containing the C-terminal FXPRL-NH2 motif have been identified from a number of insect orders, including Lepidoptera, Diptera, and Orthoptera (13). These peptides regulate diverse biological activities, including initiation of B. mori embryonic diapause (14), lepidopteran larval melanization (15), ecdysteroidogenesis in the prothoracic gland of B. mori (16), hindgut/oviduct contraction in cockroach (17) and locust (18), and acceleration of pupariation in flies (19). The FXPRL-NH2 receptors identified thus far have been characterized as class A G-protein-coupled receptors (GPCRs).
Peptidomic survey of the locust neuroendocrine system
2009, Insect Biochemistry and Molecular BiologyCitation Excerpt :In L. migratoria and S. gregaria, respectively ten and seven myotropic peptides ending with –FXPRLamide and designated as pyrokinins (Lom-PK 1–10 and Scg-PK 1–7), have been identified. In addition, one peptide ending with –FXXPRLamide, designated as pyrokinin-like peptide-1 (Lom-PKL-1 and Scg-PKL-1) and one peptide ending with -PRLamide (Scg-PKL-2) was identified (Clynen et al., 2003a; Schoofs et al., 1990c,e, 1991a, 1992a, 1993a; Veelaert et al., 1997b). We found that in both locust species the PKs (-FXPRLamides) are confined to ganglia, neurohemal organs and nerves in the head and are most represented in the corpora allata.
Biochemistry and Molecular Biology of Pheromone Production
2005, Comprehensive Molecular Insect SciencePBAN regulation of pheromone biosynthesis in female moths
2003, Insect Pheromone Biochemistry and Molecular Biology