Bigelow Aerospace’s inflatable Genesis 1 habitat has a stowaway on board; an experiment for NASA called Genebox. This shoebox-sized experiment will allow NASA to measure the effects of near weightlessness on the genetic structure of microorganisms. Although this is the first Genebox, NASA is planning to launch several of them over the next few years as part of the Vision for Space Exploration.
A NASA shoebox-size payload, called ‘GeneBox,’ is now orbiting Earth as a passenger inside Bigelow Corporation’s one-third scale, inflatable Genesis I test spacecraft.
On July 12, a Russian rocket lofted ‘GeneBox’ into Earth orbit within Bigelow Corporation’s Genesis I test spacecraft. Attached to the large inflatable spacecraft’s internal structure, GeneBox contains a miniature laboratory. In future flights, it will analyze how the near weightlessness of space affects genes in microscopic cells and other small life forms.
“During this mission, we are verifying this new, small spacecraft’s systems and our procedures,” said John Hines, the GeneBox project manager at NASA Ames Research Center in California’s Silicon Valley, where scientists and engineers designed and built GeneBox. “GeneBox is an example of a low-cost spacecraft model that we hope will provide a short turn-around time for scientists, is responsive to their needs and that we feel will contribute to the Vision for Space Exploration.”
The micro-laboratory includes sensors and optical systems that can detect proteins and specific genetic activity. In about two weeks, the Bigelow ground control station in Las Vegas, Nevada, will activate the GeneBox. After the device has executed all of its test functions, the micro-laboratory’s data will be relayed to the ground for further analysis.
“In later flights, when we become fully operational, the micro-laboratory model we are testing today will be housed in micro-satellites, beginning with GeneSats,” Hines said. NASA is exploring this option as a potential inexpensive platform for conducting fundamental research to understand the mechanisms of bone and muscle loss and weakening of the immune system.
GeneSats will include control of humidified air, pressure and temperature. Light emitting diodes (LEDs) will provide light for analytical sensors that can help scientists detect proteins that have been engineered to glow when they are treated with special chemicals as an indicator of genetic activity.
“The GeneBox test is the first of many planned projects from the newly formed Small Satellite Center at Ames,” Hines said. NASA GeneBox partners include Santa Clara University, Santa Clara, Calif.; Stanford University, Stanford, Calif.; and California Polytechnic University, San Luis Obispo, Calif. Bigelow Aerospace Corporation provided space on its Genesis I test mission for GeneBox.
According to Hines, the NASA-Bigelow Aerospace collaboration reflects the emerging focus on government and commercial partnerships in entrepreneurial space endeavors. He added that this opportunity on the Bigelow commercial space test mission will provide NASA an early verification of technologies contained in the GeneBox miniature laboratory.
Original Source: NASA News Release
The Arecibo Message, transmitted on November 16th, 1974, from the Arecibo Observatory, was humanity's first…
Despite 90 years of research, the nature and influence of Dark Matter continue to elude…
Astronomers have just found one of the youngest planets ever. At only 3 million years…
Mars formed 4.5 billion years ago, roughly the same time as the Earth. We know…
Dark matter made out of axions may have the power to make space-time ring like…
Most of the time the Sun is pretty well-mannered, but occasionally it's downright unruly. It…