WormSpace enabling automated on-chip multi-strain culturing and multi-function imaging of at the single-worm level on the China Space Station.

As a model organism for space biology experiments, () has low demand for life support and strong resistance to unfavorable environments, making experimentation with relatively easy and cost-effective. Previously, has been flown in several spaceflight investigations, but there is still an urgent need for analytical platforms enabling on-orbit automated monitoring of multiple phenotypes of worms, such as growth and development, movement, changes of biomarkers, To solve this problem, we presented a fully integrated microfluidic system (WormSpace ) with an arrayed microfluidic chip (WormChip-4.8.1) and a replaceable microfluidic module (WormChip cartridge), which was compatible with the experimental facility on the China Space Station (CSS). By adopting technologies of programmed fluid control based on liquid medium CeMM as well as multi-function imaging with a camera mounted on a three-dimensional (3D) transportation stage, automated and long-term experimentation can be performed for on-chip multi-strain culturing and bright-field and fluorescence imaging of at the single-worm level. The presented WormSpace enabled its successful application on the CSS, achieving flight launch of the sample unit (WormChip cartridge) at low temperature (controlled by a passive thermal case at 12 °C), automated 30-day cultivation of 4 strains of , on-orbit monitoring of multiple phenotypes (growth and development, movement, and changes of fluorescent protein expression) at the single worm-level, on-chip fixation of animals at the end of the experiment and returning the fixed samples to earth. In summary, this study presented a verified microfluidic system and experimental protocols for automated on-chip multi-strain culturing and multi-function imaging of at the single-worm level on the CSS. The WormSpace will provide a novel experimental platform for the study of biological effects of space radiation and microgravity, and for the development of protective drugs.