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J Vis Exp


Title:Identification of olfactory volatiles using gas chromatography-multi-unit recordings (GCMR) in the insect antennal lobe
Author(s):Byers KJ; Sanders E; Riffell JA;
Address:"Department of Biology, University of Washington, WA, USA"
Journal Title:J Vis Exp
Year:2013
Volume:20130224
Issue:72
Page Number:e4381 -
DOI: 10.3791/4381
ISSN/ISBN:1940-087X (Electronic) 1940-087X (Linking)
Abstract:"All organisms inhabit a world full of sensory stimuli that determine their behavioral and physiological response to their environment. Olfaction is especially important in insects, which use their olfactory systems to respond to, and discriminate amongst, complex odor stimuli. These odors elicit behaviors that mediate processes such as reproduction and habitat selection(1-3). Additionally, chemical sensing by insects mediates behaviors that are highly significant for agriculture and human health, including pollination(4-6), herbivory of food crops(7), and transmission of disease(8,9). Identification of olfactory signals and their role in insect behavior is thus important for understanding both ecological processes and human food resources and well-being. To date, the identification of volatiles that drive insect behavior has been difficult and often tedious. Current techniques include gas chromatography-coupled electroantennogram recording (GC-EAG), and gas chromatography-coupled single sensillum recordings (GC-SSR)(10-12). These techniques proved to be vital in the identification of bioactive compounds. We have developed a method that uses gas chromatography coupled to multi-channel electrophysiological recordings (termed 'GCMR') from neurons in the antennal lobe (AL; the insect's primary olfactory center)(13,14). This state-of-the-art technique allows us to probe how odor information is represented in the insect brain. Moreover, because neural responses to odors at this level of olfactory processing are highly sensitive owing to the degree of convergence of the antenna's receptor neurons into AL neurons, AL recordings will allow the detection of active constituents of natural odors efficiently and with high sensitivity. Here we describe GCMR and give an example of its use. Several general steps are involved in the detection of bioactive volatiles and insect response. Volatiles first need to be collected from sources of interest (in this example we use flowers from the genus Mimulus (Phyrmaceae)) and characterized as needed using standard GC-MS techniques(14-16). Insects are prepared for study using minimal dissection, after which a recording electrode is inserted into the antennal lobe and multi-channel neural recording begins. Post-processing of the neural data then reveals which particular odorants cause significant neural responses by the insect nervous system. Although the example we present here is specific to pollination studies, GCMR can be expanded to a wide range of study organisms and volatile sources. For instance, this method can be used in the identification of odorants attracting or repelling vector insects and crop pests. Moreover, GCMR can also be used to identify attractants for beneficial insects, such as pollinators. The technique may be expanded to non-insect subjects as well"
Keywords:"Animals Arthropod Antennae/*chemistry/physiology Bees/*chemistry/physiology Chromatography, Gas Mimulus/chemistry Oils, Volatile/*chemistry Pheromones/*chemistry Plant Oils/*chemistry;"
Notes:"MedlineByers, Kelsey J R P Sanders, Elischa Riffell, Jeffrey A eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. Video-Audio Media 2013/03/07 J Vis Exp. 2013 Feb 24; (72):e4381. doi: 10.3791/4381"

 
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