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Nociceptive Neurons Protect Drosophila Larvae from Parasitoid Wasps
Natural selection has resulted in a complex and fascinating repertoire of innate behaviors that are produced by insects. One puzzling example occurs in fruit fly larvae that have been subjected to a noxious mechanical or thermal sensory input. In response, the larvae “roll” with a motor pattern that...
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| Published in: | Current biology 2007-12, Vol.17 (24), p.2105-2116 |
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| Main Authors: | , , , , , , |
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| creator | Hwang, Richard Y. Zhong, Lixian Xu, Yifan Johnson, Trevor Zhang, Feng Deisseroth, Karl Tracey, W. Daniel |
| description | Natural selection has resulted in a complex and fascinating repertoire of innate behaviors that are produced by insects. One puzzling example occurs in fruit fly larvae that have been subjected to a noxious mechanical or thermal sensory input. In response, the larvae “roll” with a motor pattern that is completely distinct from the style of locomotion that is used for foraging.
We have precisely mapped the sensory neurons that are used by the Drosophila larvae to detect nociceptive stimuli. By using complementary optogenetic activation and targeted silencing of sensory neurons, we have demonstrated that a single class of neuron (class IV multidendritic neuron) is sufficient and necessary for triggering the unusual rolling behavior. In addition, we find that larvae have an innately encoded preference in the directionality of rolling. Surprisingly, the initial direction of rolling locomotion is toward the side of the body that has been stimulated. We propose that directional rolling might provide a selective advantage in escape from parasitoid wasps that are ubiquitously present in the natural environment of Drosophila. Consistent with this hypothesis, we have documented that larvae can escape the attack of Leptopilina boulardi parasitoid wasps by rolling, occasionally flipping the attacker onto its back.
The class IV multidendritic neurons of Drosophila larvae are nociceptive. The nociception behavior of Drosophila melanagaster larvae includes an innately encoded directional preference. Nociception behavior is elicited by the ecologically relevant sensory stimulus of parasitoid wasp attack. |
| doi_str_mv | 10.1016/j.cub.2007.11.029 |
| format | article |
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We have precisely mapped the sensory neurons that are used by the Drosophila larvae to detect nociceptive stimuli. By using complementary optogenetic activation and targeted silencing of sensory neurons, we have demonstrated that a single class of neuron (class IV multidendritic neuron) is sufficient and necessary for triggering the unusual rolling behavior. In addition, we find that larvae have an innately encoded preference in the directionality of rolling. Surprisingly, the initial direction of rolling locomotion is toward the side of the body that has been stimulated. We propose that directional rolling might provide a selective advantage in escape from parasitoid wasps that are ubiquitously present in the natural environment of Drosophila. Consistent with this hypothesis, we have documented that larvae can escape the attack of Leptopilina boulardi parasitoid wasps by rolling, occasionally flipping the attacker onto its back.
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We have precisely mapped the sensory neurons that are used by the Drosophila larvae to detect nociceptive stimuli. By using complementary optogenetic activation and targeted silencing of sensory neurons, we have demonstrated that a single class of neuron (class IV multidendritic neuron) is sufficient and necessary for triggering the unusual rolling behavior. In addition, we find that larvae have an innately encoded preference in the directionality of rolling. Surprisingly, the initial direction of rolling locomotion is toward the side of the body that has been stimulated. We propose that directional rolling might provide a selective advantage in escape from parasitoid wasps that are ubiquitously present in the natural environment of Drosophila. Consistent with this hypothesis, we have documented that larvae can escape the attack of Leptopilina boulardi parasitoid wasps by rolling, occasionally flipping the attacker onto its back.
The class IV multidendritic neurons of Drosophila larvae are nociceptive. The nociception behavior of Drosophila melanagaster larvae includes an innately encoded directional preference. Nociception behavior is elicited by the ecologically relevant sensory stimulus of parasitoid wasp attack.</description><subject>Animals</subject><subject>Animals, Genetically Modified - physiology</subject><subject>Drosophila</subject><subject>Drosophila - genetics</subject><subject>Drosophila - physiology</subject><subject>Escape Reaction - physiology</subject><subject>Female</subject><subject>Host-Parasite Interactions - physiology</subject><subject>Hot Temperature</subject><subject>Hymenoptera</subject><subject>Larva - physiology</subject><subject>Leptopilina boulardi</subject><subject>Male</subject><subject>Neurons - physiology</subject><subject>Nociceptors - physiology</subject><subject>SYSNEURO</subject><subject>Wasps - physiology</subject><issn>0960-9822</issn><issn>1879-0445</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><recordid>eNqFkU1v1DAQhi0EokvLD-ilyolbwtjxV1SpEtryJa1KD0UcLceZUK-ycbCTlfj3uOyqlAucfPAzr96Zh5BzChUFKt9uK7e0FQNQFaUVsOYZWVGtmhI4F8_JChoJZaMZOyGvUtoCUKYb-ZKcUA0SlGYrsr4JzjucZr_H4gaXGMZU3MYwo5uL6xhSmO79YIuNjXuLRR_Drri10SY_B98V32ya0hl50dsh4evje0q-fnh_t_5Ubr58_Lx-tymd4HIumdJSCVfXkivW8kYrzoTguasF5LpzyHsmad3zFqVVnLZ111mp8hJWCKXrU3J1yJ2WdoeZH-doBzNFv7PxpwnWm79_Rn9vvoe9YYyJWkAOeHMMiOHHgmk2O58cDoMdMSzJyAYUVfB_kAHXoH9XogfQ5VOliP1jGwrmwZHZmuzIPDgylJrsKM9cPF3jz8RRSgYuDwDmY-49RpOcx9Fh52PWYrrg_xH_C2d2ob0</recordid><startdate>20071218</startdate><enddate>20071218</enddate><creator>Hwang, Richard Y.</creator><creator>Zhong, Lixian</creator><creator>Xu, Yifan</creator><creator>Johnson, Trevor</creator><creator>Zhang, Feng</creator><creator>Deisseroth, Karl</creator><creator>Tracey, W. 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Daniel</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Entomology Abstracts (Full archive)</collection><collection>Neurosciences Abstracts</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Current biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hwang, Richard Y.</au><au>Zhong, Lixian</au><au>Xu, Yifan</au><au>Johnson, Trevor</au><au>Zhang, Feng</au><au>Deisseroth, Karl</au><au>Tracey, W. Daniel</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Nociceptive Neurons Protect Drosophila Larvae from Parasitoid Wasps</atitle><jtitle>Current biology</jtitle><addtitle>Curr Biol</addtitle><date>2007-12-18</date><risdate>2007</risdate><volume>17</volume><issue>24</issue><spage>2105</spage><epage>2116</epage><pages>2105-2116</pages><issn>0960-9822</issn><eissn>1879-0445</eissn><abstract>Natural selection has resulted in a complex and fascinating repertoire of innate behaviors that are produced by insects. One puzzling example occurs in fruit fly larvae that have been subjected to a noxious mechanical or thermal sensory input. In response, the larvae “roll” with a motor pattern that is completely distinct from the style of locomotion that is used for foraging.
We have precisely mapped the sensory neurons that are used by the Drosophila larvae to detect nociceptive stimuli. By using complementary optogenetic activation and targeted silencing of sensory neurons, we have demonstrated that a single class of neuron (class IV multidendritic neuron) is sufficient and necessary for triggering the unusual rolling behavior. In addition, we find that larvae have an innately encoded preference in the directionality of rolling. Surprisingly, the initial direction of rolling locomotion is toward the side of the body that has been stimulated. We propose that directional rolling might provide a selective advantage in escape from parasitoid wasps that are ubiquitously present in the natural environment of Drosophila. Consistent with this hypothesis, we have documented that larvae can escape the attack of Leptopilina boulardi parasitoid wasps by rolling, occasionally flipping the attacker onto its back.
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| ispartof | Current biology, 2007-12, Vol.17 (24), p.2105-2116 |
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| source | BACON - Elsevier - GLOBAL_SCIENCEDIRECT-OPENACCESS |
| subjects | Animals Animals, Genetically Modified - physiology Drosophila Drosophila - genetics Drosophila - physiology Escape Reaction - physiology Female Host-Parasite Interactions - physiology Hot Temperature Hymenoptera Larva - physiology Leptopilina boulardi Male Neurons - physiology Nociceptors - physiology SYSNEURO Wasps - physiology |
| title | Nociceptive Neurons Protect Drosophila Larvae from Parasitoid Wasps |
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