An EU initiative has created a hybrid biosensor through the fusion of living and digital technology.
Physarum polycephalum, which literally means many-headed slime, is a slime mould that inhabits damp and dark habitats, such as decaying wood. Thanks to its ability to respond to stimuli such as light, chemicals and vibrations, this single-celled, self-growing organism has attracted the attention of scientists in recent years. With its behavioural pattern of forming a network of protoplasmic tubes to move towards its food source along the shortest paths, slime mould has been useful for computer science where path planning is a frequently studied topic.
Utilising slime mould, the EU-funded PhySense project is developing marketable biosensors for various applications, including environmental monitoring and health. As explained in a news item by the European Commission, the project team has made the low-cost prototype biosensor technology available to universities, schools, research centres and citizen scientists. The project also has an online portal and database where participants can share their findings.
Wide range of applications
According to the same news item, the project’s co-investigator and lead developer, Neil Phillips, says: “With the addition of more environmental contaminants which may be a threat for humans and the overall ecosystem, the need for faster and more accurate biosensors is high.”
A biosensor converts a biological response into an electrical signal. Using the same logic, the mould is made to grow between electrodes connected to electronic devices that amplify and measure the organism’s reactions to various stimuli like ambient light, humidity and nutrients. The PhySense software calculates and tracks any changes in the frequency and amplitude of oscillations in the tubular structures that form most of the body of Physarum polycephalum.
Project coordinator Prof. Andrew Adamatzky emphasises that anyone could run a slime-based biosensor since it doesn’t need a highly developed life-support system. “Therefore we decided to consider an autonomous living creature which does not require sophisticated support and can survive for a long period of time without laboratory equipment,” he says, according to the news item. The areas where biosensors can be used include drug discovery, biomedicine, food safety, defence and security.
Ideal tool
PhySense (Physarum Sensor: Biosensor for Citizen Scientists), which ended in 2018, is an extension of the PhyChip project that ran between 2013 and 2016. PhyChip (Physarum Chip: Growing Computers from Slime Mould) showed that slime mould could be used as a transducer, or a living energy converter, in mechanical, optical and chemical sensors. The project website states: “We found that plasmodium of P. polycephalum is an ideal biological substrate, because it is ‘simple’ enough to be studied as spatially extended nonlinear media yet robust and rich behaving to implement a wide range of computational procedures.” These tasks involved maze-solving, calculation of efficient networks, construction of logical gates, subdivision of spatial configurations of data points and robot control.
For more information, please see:
PhySense project website