NASA and India’s Space Agency ISRO Axiom mission 4 is collaborating on a suit of science probes, a private astronaut mission for the International Space Station, which is set to launch not before 10 June. Spacex Dragon SpacecraftThe mission will take the experiments checking the use of technology in human biology, plant growth and microgravity. In probe, myogenesis-ayo (study of muscle stem cells and mitochondrial functions), sprouts-icros (growing greengrams and methek seeds), space microelga-icro (nutrient-pack green microlega growth check), viresigrous Turdigrad-Ayo (ball screen). The purpose of these studies is to maintain astronaut muscles and health, support food production in orbit and improve life-support systems for long-term missions.
Space Biology: Muscles, Seeds and Algae
According to NASA official site, Sprouts-isro To study the nutritional value in the development of ISS, genetics and microgravity, will promote and increase the seeds of Greengram and fenugreek riding on ISS. Slavery The human muscle stem uses cell cultures how the spaceflight affects muscle repair and mitochondrial metabolism, and tests chemicals to increase muscle health during long missions. Space Microelge-Isaro Studies how green microalgies grow and adapt to microgravity, because rapidly growing, nutrient -filled algae can serve as a fresh food source and help recycle air and water on the spacecraft.
Together, these space biology experiments may lead to new methods of growing fresh food in the orbit, maintaining muscles during long missions, and even supporting treatment for muscle damage and nutrition on Earth.
Extreme and human factor in class
The vyzer display-ig that checks how the crew members interact with other electronic displays in tablets and microgravity, measuring pointing tasks, gazed behavior and stress or welfare indicators. The Vyager Tardigrade-INRO takes the subtle water bears in the space, revives them in the orbit and compared their survival, reproductive and gene expression under ground control Cosmic radiation And extreme conditions.
Scientists expect to highlight the ways of protecting astronauts on long missions by revealing that Tardigrades makes so flexible. The performance study will guide the better user-interface design for spacecraft and can also benefit touchscreen technology on Earth.