A robotic system capable of imaging and transferring the model organism Caenorhabditis elegans could replace hours of tedious lab work, according to a recent study. Laboratory workers spend untold hours every year manipulating C. elegans, a tiny nematode worm used in genetics research that reproduces quickly and is optically transparent. Often, the labor required to manage and manipulate the animals is a major bottleneck for using the worms to address questions in biology. Fang-Yen, Zihao (John) Li, Anthony Fouad and colleagues developed WormPicker, a robotic system capable of handling routine tasks, increasing the productivity of human researchers. WormPicker’s imaging system autonomously detects nematode age, sex, shape, expression of fluorescent reporters, and other phenotypes. A robot arm holding a wire loop can pluck selected individuals out of a petri dish and transfer the animals to another dish—electrically sterilizing itself with heat between each transfer. The authors put the robot through several standard tasks, including genetic crossing, genetic mapping, and genomic integration of a transgene. The authors show that the robot performs a fluorescent C. elegans sorting task at a rate comparable to that of human researchers. The authors expect the robotic system to accelerate studies in diverse areas of C. elegans biology. To make WormPicker as accessible as possible, the authors are providing a list of components and have made all the design files and system software freely available online.
Credit: Li et al.
A robotic system capable of imaging and transferring the model organism Caenorhabditis elegans could replace hours of tedious lab work, according to a recent study. Laboratory workers spend untold hours every year manipulating C. elegans, a tiny nematode worm used in genetics research that reproduces quickly and is optically transparent. Often, the labor required to manage and manipulate the animals is a major bottleneck for using the worms to address questions in biology. Fang-Yen, Zihao (John) Li, Anthony Fouad and colleagues developed WormPicker, a robotic system capable of handling routine tasks, increasing the productivity of human researchers. WormPicker’s imaging system autonomously detects nematode age, sex, shape, expression of fluorescent reporters, and other phenotypes. A robot arm holding a wire loop can pluck selected individuals out of a petri dish and transfer the animals to another dish—electrically sterilizing itself with heat between each transfer. The authors put the robot through several standard tasks, including genetic crossing, genetic mapping, and genomic integration of a transgene. The authors show that the robot performs a fluorescent C. elegans sorting task at a rate comparable to that of human researchers. The authors expect the robotic system to accelerate studies in diverse areas of C. elegans biology. To make WormPicker as accessible as possible, the authors are providing a list of components and have made all the design files and system software freely available online.
Journal
PNAS Nexus
DOI
10.1093/pnasnexus/pgad197
Article Title
A robotic system for automated genetic manipulation and analysis of Caenorhabditis elegans
Article Publication Date
5-Jul-2023
COI Statement
Anthony D Fouad and Christopher Fang-Yen are shareholders in Tau Scientific Instruments LLC, which aims to commercialize the innovations described in this work.
