rootbrowseIAC-19A1session 88. Biology in SpacePapers1. Growth analysis of Methanobrevibacter smithii on-ground and in micro-gravity2. Growth Dynamics of Bacteria under Simulated Lunar and Martian Gravities3. Moisture availability and microbial activation in spacecraft4. Differential gene expression patterns induced by parabolic flight and low-shear modelled microgravity in Saccharomyces cerevisiae5. Scalable Microalgae-based Life Support System6. Growing green on Mars:An Experiment to evaluate growth studies of various seeds in Mars soil.7. Environmental research and Genetic Expression in New Earth Similarity study8. Bees in Space: ULmonitor, the beehive remote control tool for the Mars colonies, tested within the Noah’s Ark project carried out in analog space base LUNARES in Pila, Poland.9. The Fidelity of DNA Replication in Microgravity10. MicroAge: Microgravity as a model for accelerated skeletal muscle ageing11. Effects of Locomotor Gaits Under Simulated Reduced Gravity Conditions on Muscles and Joints of the Leg12. Methods of Seeds Planting in Space: Soil-less or Not13. A method for studying MLO-Y4 osteocyte response to simulated microgravity in embedded 3D collagen droplet scaffolds14. Mice testes and duct deference during space flight (RR-4 experiment): cytoskeleton structure and its regulation15. Epigenetic events in mice’ ovaries after modelling microgravity16. EEG source localization of the human brain in the space microgravity environment. The mechanosensitive Piezo1 channel mediates osteoblast mechanotransduction and bone formation