PharmaSat was a nanosatellite developed by NASA Ames Research Center which measured the influence of microgravity upon yeast resistance to an antifungal agent. As a follow on to the GeneSat-1 mission, the Ames Small Spacecraft Division conducted the PharmaSat mission in collaboration with industry and local universities.[4]
PharmaSat was the first nanosatellite to implement biological science guided by its Principal Investigator. The mission was designed to aid the development of medicines or techniques to enable long-term crewed space travel and habitation.
Background
The PharmaSat mission builds upon technology demonstrated by GeneSat-1, which used a CubeSat to study microfluidics and optics in the space environment. It was designed to provide life-support, growth, monitoring, and analysis capabilities for microorganisms.
Based, like GeneSat-1, around a three-unit CubeSat platform; PharmaSat was designed to accomplish five functions in an autonomous free-flying platform:[4]
Provide life support and environmental control for growth of the yeast strain in 48 independent microwells;
Dose the growing yeast with antifungal agent at the appropriate point on the growth curve with three distinct, well-defined dosage levels, plus a zero-dose control;
Track the population of the yeast via optical density of each microwell before, during and after antifungal administration;
Determine well-by-well yeast viability at multiple, well-defined times after antifungal administration using a colorimetric reagent, Alamar Blue;
Telemeter the resulting population and viability data to Earth, along with system status data.
PharmaSat was successfully inserted into a low Earth orbit at approximately 459 km (285 mi) above the Earth, following which it was activated and began transmitting radio signals to two ground control stations. The primary ground station at SRI International in Menlo Park, California, transmitted mission data from the satellite to its operators, while a second station was located at Santa Clara University, whose Robotic Systems Laboratory was responsible for operating the satellite.
After establishing contact the satellite was commanded to initiate its experiment, which lasted 96 hours. Once the experiment began, PharmaSat relayed data in near real-time for up to six months.[5] PharmaSat also carried an amateur radio beacon, with a frequency of 437.465 megahertz, which broadcast spacecraft telemetry. Amateur radio operators were asked to collect data from the spacecraft and provide it to the operators via the Mission Dashboard website.[6]
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).