Umami taste perception indicates the presence of amino acids, which are essential nutrients. Although the physiology of umami perception has been described in mammals, how insects detect amino acids remains unknown except in
Drosophila melanogaster
. We functionally characterized a gustatory receptor responding to L-amino acids in the western honey bee,
Apis mellifera
. Using a calcium-imaging assay and two-voltage clamp recording, we found that one of the honey bee’s gustatory receptors,
AmGr10
, functions as a broadly tuned amino acid receptor responding to glutamate, aspartate, asparagine, arginine, lysine, and glutamine, but not to other sweet or bitter compounds. Furthermore, the sensitivity of
AmGr10
to these L-amino acids was dramatically enhanced by purine ribonucleotides, like inosine-5′-monophosphate (IMP). Contact sensory hairs in the mouthpart of the honey bee responded strongly to glutamate and aspartate, which house gustatory receptor neurons expressing
AmGr10
. Interestingly,
AmGr10
protein is highly conserved among hymenopterans but not other insects, implying unique functions in eusocial insects.
Various electrophysiological and imaging techniques have been studied for the diagnosis and treatment of epilepsy. In particular, electrocorticography (ECoG) provides valuable information that can guide clinical treatment of patients with epilepsy. Currently, it is necessary to define the clinical benefits of ECoG in free-moving animals for the treatment of epilepsy. Here, we present the results of simultaneous recordings of multiple cortical sites and responsive neurostimulations for epilepsy treatment carried out in free-moving rats. In this study, we developed a high-density, flexible electrode array comprising graphene/Au/graphene that stably wraps onto the cortex surface of a living rat brain, exhibiting a superior signal-to-noise ratio. The hybrid graphene multichannel electrode successfully detected brain signals with high-throughput spatiotemporal resolution and substantially suppressed pilocarpine-induced epileptic discharges and behavior. Simultaneous recording and neurostimulation in awake animals can lead to a fundamental change in the treatment of medically intractable epilepsy.
Varroa destructor is a well-known ectoparasite of the honey bee Apis mellifera. Amitraz and fluvalinate are highly effective miticides used against V. destructor infestation in colonies of honey bee A. mellifera. Though honey bees more resistant to miticides, there are side effects of these chemicals on the reproduction, olfaction, and honey production of honey bees. We showed a negative impact of miticides amitraz and fluvalinate on honey production and reproduction of honey bee colonies. Also, we assumed the reduction of olfaction of honey bees by fluvalinate due to changes of expression of olfactory related neuropeptide genes short neuropeptide F sNPF, tachykinin TK, short neuropeptide F receptor sNPFR. The external treatment of honey bee colonies by miticides amitraz and fluvalinate along with a positive effect of pest control harms reproductivity, honey productivity, and, probably, can reduce learning and memory, gustation and olfaction of honey bees. When used for a short time and with care, miticides can be less harmful to honey bees. Breeding varroa-resistant honey bees allow to reduce the use of miticides and produce organic honey. Therefore, the further development of beekeeping should be in the direction of selection for disease and Varroa resistance and adaptation to the environment.
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