Edward Y. Zhu scite author profile

Edward Y. Zhu

3Publications

97Citation Statements Received

94Citation Statements Given

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Affiliations

Duke University, Duke University Hospital, Duke Medical Center

Publications

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Egg-Laying Demand Induces Aversion of UV Light in Drosophila Females

Zhu

Guntur

et al. 2014

Current Biology

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Summary Drosophila melanogaster females are highly selective about the chemosensory quality of their egg-laying sites [1–6], an important trait that promotes the survival and fitness of their offspring. How egg-laying females respond to ultraviolet light (UV) is not known, however. UV is a well-documented phototactic cue for adult Drosophila [7–13], but it is an aversive cue for larvae [14–17]. Here, we show that female flies exhibit UV aversion in response to their egg-laying demand. First, females exhibit egg-laying aversion of UV: they prefer to lay eggs on dark sites when choosing between UV-illuminated and dark sites. Second, they also exhibit movement aversion of UV: positional tracking of single females suggests that egg-laying demand increases their tendency to turn away from UV. Genetic manipulations of the retina suggest that egg-laying and movement aversion of UV are both mediated by the inner (R7) and not the outer (R1-6) photoreceptors. Finally, we show that the Dm8 amacrine neurons, a synaptic target of R7 photoreceptors and a mediator of UV spectral preference [12], are dispensable for egg-laying aversion but essential for movement aversion of UV. This study suggests egg-laying demand can temporarily convert UV into an aversive cue for female Drosophila, and that R7 photoreceptors recruit different downstream targets to control different egg-laying-induced behavioral modifications.

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High Throughput Assay to Examine Egg-Laying Preferences of Individual <em>Drosophila melanogaster</em>

Gou

Zhu

et al. 2016

JoVE

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Recently, egg-laying preference of Drosophila has emerged as a genetically tractable model to study the neural basis of simple decision-making processes. When selecting sites to deposit their eggs, female flies are capable of ranking the relative attractiveness of their options and choosing the "greater of two goods." However, most egg-laying preference assays are not practical if one wants to take a systematic genetic screening approach to search for the circuit basis underlying this simple decision-making process, as they are population-based and laborious to set up. To increase the throughput of studying of egg-laying preferences of single females, we developed custom chambers that each can simultaneously assay egg-laying preferences of up to thirty individual flies as well as a protocol that ensures each female has a high egg-laying rate (so that their preference is readily discernable and more convincing). Our approach is simple to execute and produces very consistent results. Additionally, these chambers can be equipped with different attachments to allow video recording the egg-laying animals and to deliver light for optogenetics studies. This article provides the blueprints for fabricating these chambers and the procedure for preparing the flies to be assayed in these chambers.

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Long-duration animal tracking in difficult lighting conditions

Stern¹,

Zhu

et al. 2015

Sci Rep

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High-throughput analysis of animal behavior requires software to analyze videos. Such software typically depends on the experiments’ being performed in good lighting conditions, but this ideal is difficult or impossible to achieve for certain classes of experiments. Here, we describe techniques that allow long-duration positional tracking in difficult lighting conditions with strong shadows or recurring “on”/“off” changes in lighting. The latter condition will likely become increasingly common, e.g., for Drosophila due to the advent of red-shifted channelrhodopsins. The techniques enabled tracking with good accuracy in three types of experiments with difficult lighting conditions in our lab. Our technique handling shadows relies on single-animal tracking and on shadows’ and flies’ being accurately distinguishable by distance to the center of the arena (or a similar geometric rule); the other techniques should be broadly applicable. We implemented the techniques as extensions of the widely-used tracking software Ctrax; however, they are relatively simple, not specific to Drosophila, and could be added to other trackers as well.

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Edward Y. Zhu

Egg-Laying Demand Induces Aversion of UV Light in Drosophila Females

High Throughput Assay to Examine Egg-Laying Preferences of Individual <em>Drosophila melanogaster</em>

Long-duration animal tracking in difficult lighting conditions

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