![]() ![]() Research in plant biology has capitalised on these novel capabilities, unlocking new understanding of how plants respond to a myriad of conditions. Rad-Bio-App provides an easy-to-use, graphically-driven environment to enable both radiation biologists and non-specialist researchers to visualize, and understand the impact of ionizing radiation on various biological systems in the context of spaceflight.Īdvances in molecular technologies have ushered in a new age of understanding across all disciplines of biology. This web-accessible database imports radiation metadata from experiments archived in NASA’s GeneLab data repository, and then allows the user to explore these experiments both in the context of their radiation exposure and through their other metadata and results. To help address this challenge, we have developed the Rad-Bio-App. However, data on radiation exposure during space missions is often complex to access and to understand, limiting progress towards defining how radiation affects organisms against the unique background of spaceflight. For example, in space, organisms experience ionizing radiation environments that significantly differ in both quality and quantity from those normally experienced on Earth. In addition to microgravity, spaceflight simultaneously exposes biology to a suite of other stimuli.
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