Bluesky Facebook Reddit Email

A bacterium capable of predicting the course of a disease

07.07.26 | INRAE - National Research Institute for Agriculture, Food and Environment

Apple iPhone 17 Pro

Apple iPhone 17 Pro delivers top performance and advanced cameras for field documentation, data collection, and secure research communications.

Information processing using living organisms is an important area of biotechnology that has already been explored in previous studies [1] .

A research team coordinated by INRAE and involving Grenoble Alpes University Hospital, Université Grenoble Alpes and the CEA made use of the bacterium's natural capabilities without altering it genetically. Using plasma samples from patients with COVID-19, the scientists were able to distinguish patients likely to develop a mild form of the disease from those at risk of progressing to a severe form.

To achieve this, the researchers harnessed the bacterium's natural ability to adapt—in this case, Escherichia coli . The bacterium did not evolve to perform computations, but to survive. In its environment, it must constantly detect signals: which nutrients are present, in what quantities, and how these conditions change over time. In response, it adjusts its metabolism and growth. Rather than viewing bacterial growth simply as a biological phenomenon, the scientists use it for information processing.

How does it work? In the case of the clinical samples, the bacterium is placed directly in contact with patients' plasma. It responds to the plasma's chemical composition by growing faster or more slowly, generating a growth curve that reflects all the signals it has detected. For other computational tasks described in the article, the problem is first translated into a nutrient mixture, and the bacterium responds in exactly the same way—through its pattern of growth. In both cases, the resulting growth curve is then measured and used to generate an answer—for example, to classify a sample into one category rather than another, in this case according to the risk of developing a mild or severe form of COVID-19. Remarkably, a bacterium that has never been trained is able to perform tasks that are normally assigned to machine learning algorithms.

This approach could lead to simple, affordable diagnostic and prognostic tools that can be deployed even where technical resources are limited. The research team now plans to explore other applications, such as monitoring environmental samples, particularly urban wastewater, or analysing other types of clinical samples. More broadly, the study points to a new possibility: using genetically unmodified living organisms as systems capable of converting the complexity of a sample into usable information.

[1] Pandi A., Koch M., Voyvodic P.L. et al. (2019). Metabolic Perceptrons for Neural Computing in Biological Systems. Nature Communications , https://doi.org/10.1038/s41467-019-11889-0

Cell Systems

10.1016/j.cels.2026.101654

Living Bacterial Reservoir Computers for Information Processing and Sensing

1-Jul-2026

Keywords

Article Information

Contact Information

Cecile Bittoun
INRAE - National Research Institute for Agriculture, Food and Environment
presse@inrae.fr

Source

How to Cite This Article

APA:
INRAE - National Research Institute for Agriculture, Food and Environment. (2026, July 7). A bacterium capable of predicting the course of a disease. Brightsurf News. https://www.brightsurf.com/news/8Y4YYXKL/a-bacterium-capable-of-predicting-the-course-of-a-disease.html
MLA:
"A bacterium capable of predicting the course of a disease." Brightsurf News, Jul. 7 2026, https://www.brightsurf.com/news/8Y4YYXKL/a-bacterium-capable-of-predicting-the-course-of-a-disease.html.