| Description |
1 online resource (streaming video file) (388 secs.) |
| Series |
Biology |
| Summary |
The March issue of the Journal of Visualized Experiments (JoVE) begins with an article that focuses on three fundamentally important assays for measuring Drosophila locomotor behavior. Specifically, these assays include the larval crawling assay (for larval motor function), the RING assay (for adult motor function), and the courtship assay (to assess coordination and sensory abilities). The larval crawling assay involves collection of larva and exposure of the juvenile flies to an experimental drug of interest. Animals are then transferred to a petri dish laid atop a sheet of graph paper, and the number of gridlines crossed per minute can be calculated. The Rapid Iterative Negative Geotaxis, or RING, protocol, involves placing adult flies in specialized vials where they are forced to the bottom by gentle tapping. Fruit flies instinctively will crawl upward, against gravity. Through image analysis, the extent of adult locomotor ability can be determined by measuring how far upward the flies can climb in a short period of time. To assess a more complex sensory-guided behavior, the courtship assay is used and begins by placing sexually-naïve males and females into a specialized apparatus known as the mating wheel. During experimental sessions, investigators record the amount of time in which the male fly exhibits several characteristic courtship behaviors. Impressively, within a matter of minutes, the male fly will orient himself toward the female, tap her abdomen, generate a song with his wing, lick the female and ultimately copulate. Taken together, these assays represent a series of powerful behavioral tests that can help elucidate the genetic and environmental factors that contribute to drosophila behavior. Later in the month, JoVE shifts its focus to exercise physiology, where investigators from the University of Sau Paulo present a method designed to uncover the contribution of the various energy systems to complex exercise, like sports. As an example, our authors have chosen judo for their demonstration. Using a carefully positioned portable gas analyzer, oxygen consumption can be measured during judo exercise under controlled conditions. By comparing oxygen consumption before, during, and after exercise, the energy contribution of aerobic and alactic anaerobic metabolism can be determined. Blood collection before and after exercise, followed by electrochemical analysis is used to determine the energy contribution of lactic anaerobic metabolism to the sport of judo. When combined, oxygen consumption and plasma lactate concentration data, can be used to determine the relative contributions of the different energy systems to specific aspects of complex exercise, like one's favorite judo throw. Also in March, JoVE plans the release of a developmental study involving alcohol exposure in zebrafish. Once embryos develop to the desired timepoint, the effects of alcohol exposure on gene expression can be assessed by purifying mRNA and performing qPCR and by whole mount in situ hybridization. Using light microscopy, morphological changes such as somite shape can also be assessed. If a gene of interest is observed to decrease or increase by ethanol exposure, either capped mRNA or morpholino can be injected into the embryo, somewhere around the two-cell stage, in order to rescue the alcohol-induced phenotype. Our authors show that alcohol exposure in the developing zebrafish results in similar morphological phenotypes and gene expression profiles to that observed in mammals, and they also demonstrate that mRNA injection can reverse the effects of alcohol on developmental abnormalities. In Immunology and Infection, JoVE presents an experiment in plant parasitology, from UC Riverside. In particular, our authors are interested in the root knot nematode - an obligate plant parasite that moves freely through wet soil to infect the roots of plants, and feed. First, methods are described for processing infected plants and collection of root knot nematodes. Once juvenile worms develop to a stage with high infectivity, soil can be inoculated. Later, roots can be stained and assessed for the presence of the characteristic root knots generated by these parasites. In addition to experiments with potted plants, our authors show how root knot assays can be conducted with plants grown in clear pouches, allowing for easy viewing of roots, and facilitating high throughput screening for the presence of this devastating infection that accounts for 5% of global crop loss, yearly. This summary of JoVE's content for March highlights four of over fifty articles scheduled for release in the month. Other notable experiments involve methods for imaging odor-evoked responses in the antenna of fruit flies, using an electronic nose to analyze the volatile compounds from fruit, and the repurposing of ordinary office equipment for the delivery of macromolecules into living cells |
| Audience |
For undergraduate, graduate, and professional students |
| Notes |
English |
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Description based on online resource; title from resource description page |
| Subject |
Biology
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| Form |
Streaming audio
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