Tools for comprehensive reconstruction and analysis of Drosophila motor circuits
Abstract
Like the vertebrate spinal cord, the insect ventral nerve cord (VNC) mediates limb sensation and motor control. Here, we applied automated tools for electron microscopy (EM) volume alignment, neuron reconstruction, and synapse prediction to create a draft connectome of the Drosophila VNC. To interpret the VNC connectome, it is crucial to know its relationship with the rest of the body. We therefore mapped the muscle targets of leg and wing motor neurons in the connectome by comparing their morphology to genetic driver lines, dye fills, and x-ray holographic nano-tomography volumes of the fly leg and wing. Knowing the outputs of the connectome allowed us to identify neural circuits that coordinate the wings with the middle and front legs during escape takeoff. We provide the draft VNC connectome and motor neuron atlas, along with tools for programmatic and interactive access, as community resources.
Competing Interest Statement
The authors have declared no competing interest.
Subject Area
- Biochemistry (13369)
- Bioengineering (10172)
- Bioinformatics (32534)
- Biophysics (16740)
- Cancer Biology (13825)
- Cell Biology (19651)
- Clinical Trials (138)
- Developmental Biology (10623)
- Ecology (15718)
- Epidemiology (2067)
- Evolutionary Biology (20024)
- Genetics (13224)
- Genomics (18350)
- Immunology (13460)
- Microbiology (31512)
- Molecular Biology (13131)
- Neuroscience (68662)
- Paleontology (509)
- Pathology (2128)
- Pharmacology and Toxicology (3669)
- Physiology (5723)
- Plant Biology (11784)
- Synthetic Biology (3305)
- Systems Biology (8030)
- Zoology (1813)