Immobilizing Second-Instar Drosophila Larvae for Imaging and Surgery Using the Larva Chip.

Abstract

The simple body plan and semitranslucent cuticle of the Drosophila larva allow for imaging of structures close to the body wall within intact animals. These include sensory neurons, muscles, neuromuscular junctions, and some regions of the segmental nerve. However, imaging within an intact larva requires a strategy to immobilize the animal in a position that presents the structures within the working distance of the microscope objective. Although various methods have been implemented for Drosophila larvae, this protocol describes a simple and noninvasive method that makes use of the polydimethylsiloxane (PDMS) larva chip. This larva chip immobilizes animals without the use of anesthetics or changes in temperature, which alter neuronal physiology, making it suitable for calcium imaging of endogenous activity in live animals. The membrane is air-permeable. Animals robustly survive short periods of immobilization (up to 30 min) and can even survive longer time periods. Since animals recover well after the procedure, the same animal can be reimaged multiple times. This makes the method amenable to manipulations such as laser microsurgery, photobleaching, and photoconversion followed by imaging of outcomes of these manipulations over time.