Automated Robotic Microinjection of the Nematode Worm Caenorhabditis elegans
Xianke Dong, Pengfei Song, Xinyu Liu
Abstract
The nematode worm Caenorhabditis elegans is a model organism widely used in biological research on genetics, development, neuroscience, and aging. Microinjection is an effective and widely adopted method to create transgenetic worms, perform ribonucleic acid (RNA) interference of certain genes, and introduce different types of molecules into specific locations inside a worm body. Based on microfluidics and robotic micromanipulation techniques, we develop a robotic system for automated microinjection of C. elegans with greatly improved injection speed and success rate over traditional manual microinjection. A double-layer microfluidic device with computer-controlled pneumatic valves is developed for automated on-chip loading, immobilization, injection, and downstream sorting of single worms. A new autofocusing-based contact detection algorithm is proposed to find the optimal injection position along the depth direction of the microscope field of view. The direction and location of the needle tip are reliably identified using an image processing algorithm. Through experiments on 240 worms, the system demonstrates automated injection at a speed of 6 worms/min (9.97 s/worm) with a presorting operation success rate of 78.8% (postsorting operation success rate: 100%), which are more than 23 times faster and 1.6 times higher than the speed (0.25 worm/min) and success rate (30%) of a proficient human operator, respectively. With the superior performance, this system will enable new large-scale gene- and molecule-screening studies on C. elegans that cannot be fulfilled by the conventional microinjection technique.