Ask the Scientists

Join The Discussion

What is the context of this research?

Synthetic astrobiology tries to create living organisms and byproducts to make living in space worth the journey. A major problem in extraterrestrial (ET) environments for such discipline is ionizing radiation. Creation of radiation hardy plants is a step towards fighting that problem.





Well-characterized radiation-resistant fungi utilize melanin to thrive in high-radiation landscapes. The project mission is to translate this ability of fungi into plants, so plants can similarly grow in high-radiation environments. This project is a testbed for ET dwellings life starting with radiation resistance and potentially more.





A reliable software found glitches in ways plants would read the fungal genes. This gene and a few others must be synthesized to prevent them being misread in plant machinery.

What is the significance of this project?

In ET environments, radioresistant plant byproducts could be used as simply as screen against cosmic radiation in roofing, walls, & space suit insulation. The first iteration will be proof-of-principle. The pigment is known for its exotic properties and could have further use, i.e: generating heat or electron transfer upon excitation.





On Earth, radioresistant plants are bound to be a better radioisotope sink, making it a useful tool for phytoremediation of soil and groundwater in contaminated areas. For example the nuclear disasters or increasing practice of hydraulic fracturing releases radioisotopes, hundreds of times that of the norm emphasizing the importance of a tool to clean these environments. Such plants could then be pulled for processing upon maturation.



What are the goals of the project?

The current goal is first to create a eumelanin-producing plant. Addition of other extremophile genes and regulatory elements for those genes will be synthesized in one go. Eumelanin enzyme is the primary trait that will be introduced at end of this campaign.





If all goes according to plan, the project will answer if a plant can produce eumelanin and not suffer the consequences of having the enzyme that produces it.





If the plant is stable the project can then be expanded to measure response of different radiation doses.





If the answer is no the project can take an avenue of radiation repair rather than shielding, using mechanisms found in D. radiodurans and other well characterized radiation tolerant organisms.