c Acetoin in vinegar is an attractant to fruit flies when combined with acetic acid. To make vinegar more effective in attracting fruit flies with increased acetoin production, Komagataeibacter europaeus KGMA0119 was modified by specific gene disruption of the acetohydroxyacid isomeroreductase gene (ilvC). A previously constructed mutant lacking the putative ligand-sensing region in the leucine-responsive regulatory protein (KeLrp, encoded by Kelrp) was also used. The ilvC and Kelrp disruptants (KGMA5511 and KGMA7203, respectively) produced greater amounts of acetoin (KGMA5511, 0.11%; KGMA7203, 0.13%) than the wild-type strain KGMA0119 (0.069%). KGMA7203 produced a trace amount of isobutyric acid (0.007%), but the other strains did not. These strains produced approximately equal amounts of acetic acid (0.7%). The efficiency of fruit fly attraction was investigated with cultured Drosophila melanogaster. D. melanogaster flies (approximately 1,500) were released inside a cage (2.5 m by 2.5 m by 1.5 m) and were trapped with a device containing vinegar and a sticky sheet. The flies trapped on the sticky sheet were counted. The cell-free supernatant from KGMA7203 culture captured significantly more flies (19.36 to 36.96% of released flies) than did KGMA0119 (3.25 to 11.40%) and KGMA5511 (6.87 to 21.50%) cultures. Contrastingly, a 0.7% acetic acid solution containing acetoin (0.13%) and isobutyric acid (0.007%), which mimicked the KGMA7203 supernatant, captured significantly fewer flies (0.88 to 4.57%). Furthermore, the KGMA0119 supernatant with additional acetoin (0.13%) and isobutyric acid (0.007%) captured slightly more flies than the original KGMA0119 supernatant but fewer than the KGMA7203 supernatant, suggesting that the synergistic effects of acetic acid, acetoin, isobutyric acid, and unidentified metabolites achieved the efficient fly trapping of the KGMA7203 supernatant.
B acterial cultures can function as attractants for insects (1).Fruit flies, such as Drosophila melanogaster, are recognized as an index for unsanitary conditions in urban areas because the flies infest damaged and overripe fruits and rotten foods. One of the important challenges is to keep the numbers of flies low, particularly in the food industries. A closely related species, the spottedwing drosophila (SWD) (Drosophila suzukii), which is native to southeastern Asia, is a newly emerging invasive pest for softskinned fruits such as blueberries, strawberries, and peaches in North America and Europe (2-4). Because the SWD breaks the skin of maturing healthy fruits using a serrated ovipositor to oviposit, unlike other Drosophila species, the fly causes significant damage to soft-skinned fruits (2). The damage caused by the SWD promotes microbial decay in the fruits, which results in a secondary infestation of other Drosophila species. The damaged fruits are likely to be rejected at the processing plant or export terminal (5). Although fruits are protected with sprays of chemical insecticides once the SWD is detected, growers risk the rejection ...
