923 research outputs found

    Free-flight responses of Drosophila melanogaster to attractive odors

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    Many motile organisms localize the source of attractive odorants by following plumes upwind. In the case of D. melanogaster, little is known of how individuals alter their flight trajectories after encountering and losing a plume of an attractive odorant. We have characterized the three-dimensional flight behavior of D. melanogaster in a wind tunnel under a variety of odor conditions. In the absence of olfactory cues, hungry flies initiate flight and display anemotactic orientation. Following contact with a narrow ribbon plume of an attractive odor, flies reduce their crosswind velocity while flying faster upwind, resulting in a surge directed toward the odor source. Following loss of odor contact due to plume truncation, flies frequently initiate a stereotyped crosswind casting response, a behavior rarely observed in a continuous odor plume. Similarly, within a homogeneous odor cloud, flies move fast while maintaining an upwind heading. These results indicate both similarities and differences between the behavior of D. melanogaster and the responses of male moths to pheromone plumes, suggesting possible differences in underlying neural mechanisms

    Roth\u27s Fiction from Nemesis to Nemesis

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    In her article Roth\u27s Fiction from Nemesis to Nemesis Emily Budick discusses Philip Roth\u27s novel Nemesis as the culminating work of a career in which one nemesis or another has afflicted almost all of the author\u27s protagonists. During the bulk of Roth\u27s career, the hero\u27s nemesis was generally, as in the ordinary, literary usage of the term, the protagonist\u27s enemy, whether Judge Wapter in The Ghost Writer or the alter-Roth in The Counterlife. In Nemesis Roth restores the word nemesis to its classical meaning: Nemesis, as the goddess of revenge and cosmic balance. The nemesis in Roth\u27s novel, therefore, is mortality itself, against which human beings vainly strive. It is also the condition of disease and filth that human beings shares with each other and the natural world, that some humans would, with hubris, attempt to put themselves beyond

    The role of visual and mechanosensory cues in structuring forward flight in Drosophila melanogaster

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    It has long been known that many flying insects use visual cues to orient with respect to the wind and to control their groundspeed in the face of varying wind conditions. Much less explored has been the role of mechanosensory cues in orienting insects relative to the ambient air. Here we show that Drosophila melanogaster, magnetically tethered so as to be able to rotate about their yaw axis, are able to detect and orient into a wind, as would be experienced during forward flight. Further, this behavior is velocity dependent and is likely subserved, at least in part, by the Johnston's organs, chordotonal organs in the antennae also involved in near-field sound detection. These wind-mediated responses may help to explain how flies are able to fly forward despite visual responses that might otherwise inhibit this behavior. Expanding visual stimuli, such as are encountered during forward flight, are the most potent aversive visual cues known for D. melanogaster flying in a tethered paradigm. Accordingly, tethered flies strongly orient towards a focus of contraction, a problematic situation for any animal attempting to fly forward. We show in this study that wind stimuli, transduced via mechanosensory means, can compensate for the aversion to visual expansion and thus may help to explain how these animals are indeed able to maintain forward flight

    the case of Lionel Trilling

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    Elektronische Version der gedr. Ausg. 199

    Core polarization in chromium-53

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    Core polarization in chromium 5

    Lifetimes and Gj factors in excited states of chromium. Hyperfine structure of Cr53

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    Electronic and nuclear properties of excited chromium isotopes using level crossing and double resonance spectroscopy technique

    Olfactory modulation of flight in Drosophila is sensitive, selective and rapid

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    Freely flying Drosophila melanogaster respond to odors by increasing their flight speed and turning upwind. Both these flight behaviors can be recapitulated in a tethered fly, which permits the odor stimulus to be precisely controlled. In this study, we investigated the relationship between these behaviors and odor-evoked activity in primary sensory neurons. First, we verified that these behaviors are abolished by mutations that silence olfactory receptor neurons (ORNs). We also found that antennal mechanosensors in Johnston's organ are required to guide upwind turns. Flight responses to an odor depend on the identity of the ORNs that are active, meaning that these behaviors involve odor discrimination and not just odor detection. Flight modulation can begin rapidly (within about 85 ms) after the onset of olfactory transduction. Moreover, just a handful of spikes in a single ORN type is sufficient to trigger these behaviors. Finally, we found that the upwind turn is triggered independently from the increase in wingbeat frequency, implying that ORN signals diverge to activate two independent and parallel motor commands. Together, our results show that odor-evoked flight modulations are rapid and sensitive responses to specific patterns of sensory neuron activity. This makes these behaviors a useful paradigm for studying the relationship between sensory neuron activity and behavioral decision-making in a simple and genetically tractable organism

    Medizinische und ethische Herausforderungen bei der Behandlung von Kindern mit chronischen Bewusstseinsstörungen

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