This paper describes the identification of a new class of extracellular bacterial proteins, typified by PopA1 and its derivative PopA3, which act as specific hypersensitive response (HR) elicitors. These two heat‐stable proteins, with HR‐like elicitor activities on tobacco (non‐host plant) but without activity on tomato (host plant), have been characterized from the supernatant of the plant pathogenic bacterium Pseudomonas solanacearum strain GMI1000. These two proteins induced the same pattern of response on Petunia, as a function of the genotypes tested. popA, the structural gene for PopA1, maps outside of the hrp gene cluster but belongs to the hrp regulon. The amino acid sequence of PopA1 does not show homology to any characterized proteins. Its secretion is dependent on hrp genes and is followed by stepwise removal of the 93 amino‐terminal amino acids, producing the protein PopA3. Petunia lines responsive to PopA3 and its precursors were resistant to infection by strain GMI1000, whereas non‐responsive lines were sensitive, suggesting that popA could be an avirulence gene. A popA mutant remained fully pathogenic on sensitive plants, indicating that this gene is not essential for pathogenicity. While lacking PopA1, this mutant, which remained avirulent on tobacco and on resistant Petunia lines, still produced additional extracellular necrogenic compounds. On the basis of both their structural features and the biological properties of the popA mutant, PopA1 and PopA3 clearly differ from hairpins characterized in other plant pathogenic bacteria.
According to precise molar mass determined by mass spectrometry and N-terminal sequence, some 25 odorant-binding-like proteins were characterized from the antennae and legs of worker and drone honeybees. Antennal specific proteins, composed of six different molecules, were classified into three subclasses according to N-terminal sequence homology. The major sexual difference was shown to lie in the relative abundance of these antennal specific proteins and in the occurrence of a drone-specific isoform. At least 19 other related proteins were found to occur in antennae and legs, forming another class showing homology with insect OBP. Genotype comparison of two honeybee races revealed a variability limited to this second class. Provided that these odorant-binding-like proteins are indeed able to bind odorants or pheromones, the question of whether their peculiar multiplicity contributes to the remarkable capacity of the honeybee to discriminate among a wide range of odor molecules is raised.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.