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Bacteria are individualists

cultured bacteria

No two bacteria are identical – even when they are genetically the same. A new study from researchers reveals the conditions under which bacteria become individualists and how they help their group grow when times get tough. Whether you are a human or a bacterium, your environment determines how you can develop.

In particular, there are two fundamental problems: What resources can you draw on to survive and grow and how do you respond if your environment suddenly changes?

The researchers recently discovered that the number of individualists in a bacterial population goes up when its food source is restricted. Their finding goes against the prevailing wisdom that bacterial populations merely respond, in hindsight, to the environmental conditions they experience. Individualists, the study finds, are able to prepare themselves for such changes well in advance.

Researchers have shown that individual cells in bacterial colonies can differ widely in how they respond to a lack of nutrients. Although all of the cells in a group are genetically identical, the way they process nutrients from their surroundings can vary from one cell to another. For example, bacteria called Klebsiella oxytoca preferentially take up nitrogen from ammonium, as this requires relatively little energy.

When there isn’t enough ammonium for the entire group, some of the bacteria start to take up nitrogen by fixing it from elementary nitrogen, even though this requires more energy. If the ammonium suddenly runs out altogether, these cells at least are prepared. While some cells suffer, the group as a whole can continue to grow.

“Although all of the bacteria in the group are genetically identical and exposed to the same environmental conditions, the individual cells differ among themselves,” says Frank Schreiber.

Schreiber and his colleagues were only able to reveal the astonishing differences between the bacteria by studying them very closely.

“We had to measure nutrient uptake by individual bacterial cells – even though these are only two Micrometers large,” explains Schreiber.

“Usually, microbiologists study the collective properties of millions or even billions of bacteria. It was only thanks to the close collaboration between the research groups, and by pooling our expertise and technical equipment, that we were able to study the bacteria in such detail.”

The present study shows to what extent individuality – in bacteria and in general – can be essential in a changing environment. Differences between individuals give the group new properties, enabling it to deal with tough environmental conditions.

“This indicates that biological diversity does not only matter in terms of the diversity of plant and animal species but also at the level of individuals within a species,” says Schreiber.

Next, Schreiber and his colleagues plan to study whether the individualistic behavior of specific individuals is of equal importance in natural environments.

Sources:
Schreiber, F., Littmann, S., Lavik, G., Escrig, S., Meibom, A., Kuypers, M., & Ackermann, M. (2016). Phenotypic heterogeneity driven by nutrient limitation promotes growth in fluctuating environments Nature Microbiology DOI: 10.1038/nmicrobiol.2016.55

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