A Dopamine-Modulated Neural Circuit Regulating Aversive Taste Memory in Drosophila

Mašek, Pavel; Worden, Kurtresha; Aso, Yoshinori; Rubin, Gerald M.; Keene, Alex C.

doi:10.1016/j.cub.2015.04.027

Cited by 92 publications

(137 citation statements)

References 47 publications

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“…It is thought that this neuron may inhibit feeding while the fly is walking. Probosic extension is also inhibited by certain output neurons of the mushroom bodies, which may aid in setting the threshold of proboscis extension in response to aversive taste conditioning (Masek et al 2015).…”

Section: Interneuronsmentioning

confidence: 99%

Motor control of fly feeding

McKellar¹

2016

Journal of Neurogenetics

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Following considerable progress on the molecular and cellular basis of taste perception in fly sensory neurons, the time is now ripe to explore how taste information, integrated with hunger and satiety, undergo a sensorimotor transformation to lead to the motor actions of feeding behavior. I examine what is known of feeding circuitry in adult flies from more than 250 years of work in larger flies and from newer work in Drosophila. I review the anatomy of the proboscis, its muscles and their functions (where known), its motor neurons, interneurons known to receive taste inputs, interneurons that diverge from taste circuitry to provide information to other circuits, interneurons from other circuits that converge on feeding circuits, proprioceptors that influence the motor control of feeding, and sites of integration of hunger and satiety on feeding circuits. In spite of the several neuron types now known, a connected pathway from taste inputs to feeding motor outputs has yet to be found. We are on the threshold of an era where these individual components will be assembled into circuits, revealing how nervous system architecture leads to the control of behavior.

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Section: Interneuronsmentioning

confidence: 99%

Motor control of fly feeding

McKellar¹

2016

Journal of Neurogenetics

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“…This multi-level gustatory system is different from human taste organization and provides a mechanism to control the decision to ingest food. Experimentally, the application of different tastants to the proboscis and tarsi provides a system to investigate how different taste modalities are integrated and, more recently, describe the neural mechanisms of memory formation (Keene and Masek 2012, Kirkhart and Scott 2015, Masek et al 2015). …”

Section: Innate Feeding Behavior In Drosophilamentioning

confidence: 99%

“…This single-fly assay is inexpensive and amenable to high throughput analysis. It is also accessible to optogenetic techniques that stimulate distinct populations of peripheral or central brain neurons (Keene and Masek 2012, Masek et al 2015) and adaptable for functional imaging. Furthermore, this assay is unique from other classical conditioning assays because both the reinforcing cue (quinine) and the conditioned stimulus (fructose) are tastants processed as the same basic sensory modality.…”

Section: Aversive Taste Memory In Drosophilamentioning

confidence: 99%

Gustatory processing and taste memory inDrosophila

Mašek

Keene

2016

Journal of Neurogenetics

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Taste allows animals to discriminate the value and potential toxicity of food prior to ingestion. Many tastants elicit an innate attractive or avoidance response that is modifiable with nutritional state and prior experience. A powerful genetic tool kit, well-characterized gustatory system, and standardized behavioral assays make the fruit fly, Drosophila melanogaster, an excellent system for investigating taste processing and memory. Recent studies have used this system to identify the neural basis for acquired taste preference. These studies have revealed a role for dopamine-mediated plasticity of the mushroom bodies that modulate the threshold of response to appetitive tastants. The identification of neural circuitry regulating taste memory provides a system to study the genetic and physiological processes that govern plasticity within a defined memory circuit.

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“…2.1. (2003) Geodesic active contour Roy et al (2007) Variational level sets Daugman (2003) Fourier-based approximation Schuckers et al (2007) Active shape models Pundlik et al (2008) Graph cuts Zuo and Schmid (2010) Ellipse fitting He et al (2013) Pulling and pushing model Du et al (2014) Scale invariants feature transform Masek et al (2015; Circular Hough transform Lim et al, 2014;Huang et al, 1990;Yuan et al (2005) Edge detection and Hough transform Huang et al (1990) Phase congruency and Hough transform Based on available documented literatures, Jillela and Ross (2013) had reported there is various iris segmentation approaches have been proposed to deal with the non-ideal eye image such as off-angled, occlusion and blurry motion situation as summarizes in Table 2.2. However, it is very rare to find documented publications on pigment spots.…”

Section: ) **Na: Not Availablementioning

confidence: 99%

Implementation of Geodesic Active Contour Approach for Pigment Spots Segmentation on the Iris Surface

Man

Jabal

Rahim

et al. 2016

Journal of Computer Science

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Abstract:The aim of this paper is to study the effectiveness of geodesic active contour approach to segment the pigment spots on iris surface. Pigment spot is an abnormal marker that appears on the iris surface, which may lead to eye diseases. The multi appearance, scattered location and dynamic shape of the pigment spots on the iris surface make them very difficult to detect using automatic segmentation method. Therefore, this paper presents the preliminary works that observe the efficiency and accuracy of geodesic active contour approach to automatically segment the pigment spots on iris surface. Miles database and "lu_wei_feb_2006" dataset are used in this study. The results of the conducted experiment show that geodesic active contour approach able to correctly and accurately detect up to 77% and 90% of the pigment spots in Miles database and "lu_wei_feb_2006" dataset, respectively.

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A Dopamine-Modulated Neural Circuit Regulating Aversive Taste Memory in Drosophila

Cited by 92 publications

References 47 publications

Motor control of fly feeding

Motor control of fly feeding

Gustatory processing and taste memory inDrosophila

Implementation of Geodesic Active Contour Approach for Pigment Spots Segmentation on the Iris Surface

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