In vitro and in vivo inhibition of [alpha]-amylases of stored-product mite Acarus siro
The stored-product mites are the most abundant and frequent group of pests living on the stored food products in Europe. They endanger public health since they produce allergens and transmit mycotoxin-producing fungi. Novel acaricidal compounds with inhibitory effects on the digestive enzymes of art...
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| Veröffentlicht in: | Experimental & applied acarology 2005-04, Vol.35 (4), p.281 |
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| creator | Hubert, Jan Dolecková-Maresová, Lucie Hýblová, Jana Kudlíková, Iva |
| description | The stored-product mites are the most abundant and frequent group of pests living on the stored food products in Europe. They endanger public health since they produce allergens and transmit mycotoxin-producing fungi. Novel acaricidal compounds with inhibitory effects on the digestive enzymes of arthropods are a safe alternative to the traditional neurotoxic pesticides used for control of the stored-product pests. In this work, we explored the properties of acarbose, the low molecular weight inhibitor of alpha-amylases (AI), as a novel acaricide candidate for protection of the stored products from infestation by Acarus siro (Acari: Acaridae). In vitro analysis revealed that AI blocked efficiently the enzymatic activity of digestive amylases of A. siro, and decreased the physiological capacity of mite's gut in utilizing a starch component of grain flour. In vivo experiments showed that AI suppressed the population growth of A. siro. The mites were kept for three weeks on experimental diet enriched by AI in concentration range of 0.005 to 0.25%. Population growth of A. siro was negatively correlated with the content of AI in the treated diet with a half-population dose of 0.125%. The suppressive effect of AIs on stored-product mites is discussed in the context of their potential application in GMO crops. |
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Population growth of A. siro was negatively correlated with the content of AI in the treated diet with a half-population dose of 0.125%. 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| subjects | Acaricides Enzymatic activity Genetically modified organisms Mites Mycotoxins Pesticides Pests Population growth Public health |
| title | In vitro and in vivo inhibition of [alpha]-amylases of stored-product mite Acarus siro |
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