By Terri Greene-Indiana U.
In a paper in the Proceedings of the National Academy of Sciences, researchers detail their study of about 100 populations of different bacteria in closed systems, which had no access to external food for 1,000 days. The team tracked how long they survived, and almost all of them persisted.
“The larger question of how bacteria survive long periods of energy limitation is relevant to understanding chronic infections in humans and other hosts, and is related to how some pathogens tolerate drugs like antibiotics,” says Jay T. Lennon, a professor in the biology department at Indiana University.
Many bacterial infections are difficult to treat, in part, because drugs are often designed to target the cellular machinery of metabolically active cells. Energy-limited bacteria often enter a quiescent, or dormant, state that makes them less sensitive to drug treatments, Lennon says.
Not only can the pathogens persist under such conditions, the populations can also evolve antibiotic resistance, making the problem worse.
Microbes also play an important role in the environment. The starved bacteria in the study came from agricultural soils. In those habitats, Lennon says, microbes form symbiotic relationships with plants, and they carry out processes essential for the functioning of ecosystems, such as carbon sequestration, nutrient cycling, and greenhouse gas emissions.
A major and unresolved question is how billions of microbial cells and thousands of microbial taxa coexist in a single gram of soil, often under harsh environmental conditions. One explanation the research supports is that microbes seem to be well-adapted to feast-or-famine conditions, where resources can be in short supply for extended periods. This may help explain how complex microbial communities are maintained over time.
Some bacteria populations have extinction times of up to 100,000 years, the researchers estimate.
In the study, the researchers estimated that bacteria—the fastest-reproducing organisms on the planet—can also be extremely long-lived. Lennon and his team, including former Indiana University doctoral student William Shoemaker, estimate that energy-limited bacteria can have lifespans that rival, and in some cases exceed, those of plants and animals.
The study used survival analyses to estimate that some populations have extinction times of up to 100,000 years.
“Obviously, these predictions extend far beyond what can be measured,” Lennon says, “but the numbers are consistent with the ages of viable bacteria that have been recovered from ancient materials, such as amber, halite crystals, permafrost, and sediments at the bottom of the deepest oceans.”
The persistence of microbes under such conditions likely involves dormancy and other mechanisms that conserve energy. For example, Lennon and colleagues found that the survival of cells in their closed system was sustained by the ability of bacteria to “scavenge” their dead relatives.
Under these lean conditions, where cells must eke out a living on vanishingly small quantities of food, Lennon and his team were curious about the potential for bacteria to evolve. They identified genes that were under negative selection, but also signatures of positive selection, which indicate cryptic growth that allowed new mutations to increase in frequency.
This finding suggests that the recycling of dead cells has the potential to fuel adaptive evolution. Such observations are relevant for understanding the constraints on fundamental biological processes given that large swaths of the planet are energy limited.
The National Science Foundation, the US Army Research Office, and the National Aeronautics and Space Administration funded the work.
Source: Indiana University
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This post was previously published on Futurity.org and is republished here under a Creative Commons license.
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The post Some Starved Bacteria May Survive for 100,000 Years appeared first on The Good Men Project.
