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NASA assembled and tested satellite for the first bioexperiment in deep space
BioSentinel’s mission is one step closer to flying. The assembly and series of tests of the mini-satellite of the CubeSat 6U format (10 × 20 × 30 cm with a mass of about 14 kg) have been completed, and a team of NASA scientists from the Ames Research Center in Silicon Valley is completing preparations for sending the device to the Kennedy Space Center in Florida for subsequent launch.
Figure depicts how a radiation particle causes DNA to break (NASA)
BioSentinel’s flight will pass the Moon and enter orbit around the Sun. This is one of 13 mini-satellites CubeSat, which will be launched this year aboard Artemis I — the first mission of the new US lunar program. For example, Quality Assurance Engineer Austin Bowie at the Ames Research Center examines the BioSentinel solar cell in an anechoic chamber after completing a test to determine the effect of electromagnetic radiation from a ship on its systems:
BioSentinel to conduct first long-term biological experiment in deep space. His six-month scientific study will be devoted to the study of the long-term effects of radiation from deep space on the DNA repair of a living organism — budding yeast. Pictured is one of BioSentinel’s microfluidic maps that will be used to measure the effects of radiation on yeast cells housed in tiny fluid compartments. The microfluidic system includes a dye that reads the activity of yeast cells, changing color from blue to pink.
Since human and yeast cells share many biological mechanisms, including those for repairing damaged DNA, BioSentinel’s experiments may help to better understand the radiation risks associated with prolonged human stays in deep space. Here, scientist Lauren Liddell uses a microscope to count yeast cells to make sure the correct number of cells are loaded into the BioSentinel microfluidic equipment:
BioSentinel will test new technology using the BioSensor module — a kind of «living radiation detector». BioSensor is based on microfluidic maps containing yeast cells. When cells are activated in space, they will sense and respond to damage caused by cosmic radiation. In the next photo, a member of the BioSentinel team is working on assembling the BioSensor payload, connecting thermal and optical blocks to the microfluidic map. During BioSentinel’s experiments, these components will heat cards along with yeast cells and measure growth and activity in response to cosmic radiation damage:
BioSentinel Lead Mechanical and Structural Engineer Abraham Rademacher, left, Lead Integration and Test Specialist Vaslie Manolescu, center, and Electrical Engineer James Milsk deploy the solar array and test the suspension movement on spaceship in the clean room of the Ames Research Center. The test is designed to ensure that the spacecraft’s solar panels will operate normally in flight. The Ames Research Center has been studying microbes in low-Earth orbit for 15 years using mini-satellites in the CubeSat format, and BioSentinel will be the first example of a biological experiment in deep space:
Integration and Test Engineer Dan Rowan works on CubeSat BioSentinel internals in Ames Research Center clean room. We are talking about radio communication, battery and other subsystems of the spacecraft, including the aforementioned BioSensor and a radiation detection device. The latter measures and characterizes the radiation environment — its results will be compared with the biological reaction of yeast.