Ellipsoid body subset neurons induce pivot behaviour in Drosophila
Data files
Aug 24, 2022 version files 212.33 MB
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Logistic_Model.mat
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Pivot_behaviour_exmaple.MTS
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pivot_data_process.m
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pivot_process_ml.m
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polar_control.mat
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polar_pivot.mat
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polar_system.m
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README_for_data-and-code.txt
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source_data.xlsx
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vm.mat
Abstract
Many animals maintain certain forms of internal compass. The ellipsoid body in the central complex of the fruit fly, Drosophila melanogaster, is considered to receive and process multiple signals for orientation and navigation. Here we report the pivot behaviour, where a free moving fly keeps turning near a fixed point upon activation of neurons in the central complex. Using clonal analysis, we narrowed down the responsible neurons to a specific class of ellipsoid body neurons, ER2_c. A trans-synaptic tracing analysis indicated that these neurons are connected downstream to structures estimating head direction in the recent ring attractor model. Together, we identified ER2_c responsible for pivot behaviour, furtherly, our results provided evidence that ring neurons manage inherent directions, which contributed to a deeper picture of ring attractor model.
Methods
There are two parts in this dataset, first is the MATLAB scripts to extract movement information of flies, and the second part is the suorce data to analyse the significancy between pivot flies and control flies.