Putative odorant-binding protein in antennae and legs of Carausius morosus (Insecta, Phasmatodea)

A 19 kDa protein has been purified by gel filtration and anion-exchange chromatography from the antennae of Carausius morosus. Its amino terminal amino acid sequence shows significant similarity (30% identity) with another putative odorant-binding protein, the so called OS-D protein isolated from the antennae of Drosophila melanogaster; only 20% of its amino acids are shared with some members of Lepidoptera pheromone-binding proteins, Polyclonal antibodies, raised against a synthetic amino terminal peptide cross-react with 19 kDa band in the legs extracts, but not with soluble proteins from other parts of the body, The amino terminal sequence of this protein, purified from the legs was identical with that of the antennal protein

Soluble proteins in chemosensory organs of plasmids

Soluble proteins of low molecular weight have been purified from chemosensory organs of five species of Phasmids. On the basis of their N-terminal aminoacid sequences, two classes can be identified, Polypeptides of 14 and 15 kDa, expressed in the antennae and legs of Eurycantha calcarata and Extatosoma tiaratum, as well as in the antennae of Carausius morosus, bear a close similarity (around 45% identity) with a soluble protein associated,vith the sensilla coeloconica of Drosophila melanogaster. Two proteins of 19 and 18 kDa, isolated from the antennae and the maxillary palpi, respectively, of Acrophylla wuelfingi, are 59 and 75% identical, in their N-terminal region, to a 19 kDa antennal protein of Carausius morosus, Similarity between members of the two classes is not significant, being limited to two to three identical aminoacids in the most favorable cases, Finally, a 17 kDa protein, specifically expressed in the antennae of Sipyloidea sipylus, did not show any homology with other proteins, The expression in sensory organs and the characteristics of these proteins may suggest a function in chemosensory transduction. Copyright (C) 1996 Elsevier Science Lt